Welcome to the SIMP documentation!¶
This is the documentation for the 0.0-NEED_FULL_SIMP_BUILD_TREE release of SIMP, which is compatible with the UNKNOWN.MAPPING release of CentOS and Red Hat Enterprise Linux (RHEL). This guide will walk a user through the process of installing and managing a SIMP system. It also provides a mapping of security features to security requirements, which can be used to document a system’s security conformance.
The System Integrity Management Platform (SIMP) is a framework designed around the concept that individuals and organizations should not need to repeat the work of automating the basic components of their operating system infrastructure.
Expanding upon this philosophy, SIMP also aims to take care of routine policy compliance to include NIST 800-53, FIPS 140-2, the DISA STIG, and the SCAP Security Guides.
By using the Puppet automation stack, SIMP is working toward the concept of a self-healing infrastructure that, when used with a consistent configuration management process, will allow users to have confidence that their systems not only start in compliance but remain in compliance over time.
Finally, SIMP has a goal of remaining flexible enough to properly maintain your operational infrastructure. To this end, where possible, the SIMP components are written to allow all security-related capabilities to be easily adjusted to meet the needs of individual applications.
Contents:
SIMP 5.2.0-0¶
Contents
This release is known to work with:
- RHEL 7.2 x86_64
- CentOS 7.0 1511 x86_64
This update is backwards-compatible for the SIMP core functionality, but contains breaking changes in some of the optional modules.
Please read this CHANGELOG thoroughly if you are using the following components:
- NFS
- KRB5
- MCollective
- ELK
SIMP 6 is Coming¶
Due to Puppet 3.X going EOL in December of 2016, the SIMP stack will be releasing SIMP 6 as the next major release. Among major changes:
- SIMP 6 will use Puppet 4, which is distributed as a single RPM by the Puppet all-in-one (AIO) installer.
- Starting with 6.0.0, the SIMP numbering scheme will follow Semantic Versioning 2.0.0.
- 6.0.0 and will support all operating systems under that numbering scheme henceforth.
Manual Changes Required for Pre-5.1.0 Upgrades¶
Note
This only affects you if you did not have a separate partition for /tmp
!
- There were issues in the
secure_mountpoints
class that caused/tmp
and/var/tmp
to be mounted against the root filesystem. While the new code addresses this, it cannot determine if your system has been modified incorrectly in the past. - To fix the issue, you need to do the following:
- Unmount
/var/tmp
(may take multiple unmounts) - Unmount
/tmp
(may take multiple unmounts) - Remove the
'bind'
entries for/tmp
and/var/tmp
from/etc/fstab
- Run
puppet
with the new code in place
- Unmount
SSSD¶
Warning
SSSD enforces password strength at login time! This means that, should you have old passwords that do not meet the present password policy on the host, you will not be able to authenticate with your old password!
Deprecations¶
- The
simp-sysctl
module will be deprecated in the6.0.0
release of SIMP. Current users should migrate to using theaugeasproviders_sysctl
module provided with SIMP going forward.
Breaking Changes¶
NFS¶
NFS now supports full integration with Kerberos via the SIMP KRB5 module, or an external KRB5 resource of your choice.
Please take time to look at the updated NFS profile code in the simp puppet module as well as the new acceptance tests for the NFS puppet module for a full understanding of the new features.
Note
The system should not enable the KRB5 and Stunnel options simultaneously
Warning
Bugs discovered during acceptance testing found long standing issues in the NFS module that required API breaking changes to remedy. Please carefully validate your use of the NFS module as well as your Hiera data.
KRB5¶
The KRB5 module has been completely rewritten to support the entire KRB5 stack, including setting up a KDC and auto-creating and distributing keytabs to all nodes that are known via keydist. Please see the krb5 module documentation and the HOWTO Enable Kerberos HOWTO for details.
MCollective¶
The MCollective module has been updated from the upstream repositories and the
simp::mcollective
profile has been updated, per new acceptance tests, to
ensure that MCollective works out of the box. Very little input is now required
to add MCollective to your environment. All usernames and passwords are
randomly generated and you will need to pull the usage passwords out of the
system for your users to be able to connect to ActiveMQ and send commands. The
simp mcollective acceptance test provides an excellent full stack example of
using the new module.
See simp passgen --help
for usage information.
ELK¶
The Elasticsearch, Logstash, and Kibana components have been updated to support Elasticsearch and Logstash 2.3. Kibana has been replaced by Grafana for inbuilt LDAP and multi-tenant support.
Please see the new Elasticsearch, Logstash, and Grafana documentation for usage information.
Significant Updates¶
HAVEGED Installed by Default¶
Particularly affecting Virtual Machines, the volume of cryptographic operations
that the SIMP system performs by default was causing system entropy to run low
on a regular basis. To fix this, we have incorporated the
HArdware Volatile Entropy Gathering and Expansion Daemon. The haveged
process will use a hardware RNG if present so no risk to hardware generated
entropy is present. We understand that any PRNG system will not effect true
Cryptographic entropy. Please read the document linked above and see the online
discussion around the suitability of HAVEGED if you have concerns.
Note
There is also now a new global catalyst use_haveged
which is enabled by
default on SIMP systems. If you set this to false
in Hiera, HAVEGED will
be disabled on your system(s).
ISO Auto-Boot is Now Disabled¶
You must now explicitly select an entry when booting the SIMP ISO. There were too many instances of the ISO being left mounted and performing a constant re-install loop without this change.
HTTPS Kickstarts¶
The system now encourages the use of HTTPS kickstarts by default to ensure that any potentially sensitive data is protected in transit.
Client validation is not configured in this case since the SIMP project does not dictate how you kickstart your system.
See the Configuring the Clients section of the SIMP User Guide for instructions.
UEFI Boot¶
The system now supports UEFI booting from the SIMP ISO. This provides better support for newer systems as well as the foundation for Trusted Boot.
Full Disk Encryption (FDE)¶
SIMP now provides Full Disk Encryption capabilities directly from the ISO build and within the supplied kickstart files. Please read the documentation on this capability as found in the Disk Encryption section of the SIMP Server Installation Guide.
Warning
The default FDE setup ensures that your systems will automatically boot without intervention. For better protection, please read the documentation referenced above so that you understand the ramifications of this behavior.
Puppet 4 Support¶
All of our modules have been tested against Puppet 4 and should work in a Puppet 4 system. SIMP will natively ship with Puppet 4 by the end of 2016.
IPSec Support via LibreSwan¶
A libreswan module has been added to provide IPSec support to SIMP. We are awaiting the advent of X.509-based opportunistic IPSec to have a fully automated integrated trust system. Presently, half of the connection needs to know about the remote systems for a successful IPSec connection.
Upgrade Guidance¶
Detailed upgrade guidance can be found in the HOWTO Upgrade SIMP portion of the SIMP User Guide.
Warning
You must have at least 2.4GB of free RAM on your system to upgrade to this release.
Note
Upgrading from releases older than 5.0 is not supported.
Security Announcements¶
CVEs Addressed¶
- CVE-2015-7331
- Remote Code Execution in mcollective-puppet-agent plugin
- CVE-2016-2788
- Improper validation of fields in MCollective pings
- CVE-2016-5696
net/ipv4/tcp_input.c
in the Linux kernel before 4.7 does not properly determine the rate of challenge ACK segments, which makes it easier for man-in-the-middle attackers to hijack TCP sessions via a blind in-window attack.
RPM Updates¶
Note
The naming convention for Puppet module packages was re-codified from pupmod-<module_name> to pupmod-<author>-<module_name>. This accounts for a large number of apparent deprecations and additions in this release’s RPM Updates list.
Package | Old Version | New Version |
---|---|---|
clamav | 0.99-2 | 0.99.2-1 |
clamav-data | 0.99-2 | 0.99.2-1 |
clamav-data-empty | 0.99-2 | 0.99.2-1 |
clamav-devel | 0.99-2 | 0.99.2-1 |
clamav-filesystem | 0.99-2 | 0.99.2-1 |
clamav-lib | 0.99-2 | 0.99.2-1 |
clamav-scanner | 0.99-2 | 0.99.2-1 |
clamav-scanner-systemd | 0.99-2 | 0.99.2-1 |
clamav-scanner-sysvinit | 0.99-2 | 0.99.2-1 |
clamav-server | 0.99-2 | 0.99.2-1 |
clamav-server-systemd | 0.99-2 | 0.99.2-1 |
clamav-server-sysvinit | 0.99-2 | 0.99.2-1 |
clamav-update | 0.99-2 | 0.99.2-1 |
elasticsearch [5] | N/A | 2.3.5-1 |
elasticsearch [noarch] | 1.3.2-1 | N/A |
es2unix | 1.6.1-0el7 | N/A |
etcd | 2.0.11-0.SIMP | N/A |
grafana | N/A | 3.1.1-1470047149 |
kibana | 3.1.0.SIMP-0 | N/A |
libevent | N/A | 2.0.21-4 |
libreswan | N/A | 3.15-5 |
logstash | 1.4.2-1_2c0f5a1 | 2.3.4-1 |
logstash-contrib | 1.4.2-1_efd53ef | N/A |
mcollective | 2.8.4-1 | 2.8.9-1 |
mcollective-client | 2.8.4-1 | 2.8.9-1 |
mcollective-common | 2.8.4-1 | 2.8.9-1 |
mcollective-puppet-agent | 1.10.0-1 | 1.11.1-1 |
mcollective-puppet-client | 1.10.0-1 | 1.11.1-1 |
mcollective-puppet-common | 1.10.0-1 | 1.11.1-1 |
pupmod-acpid | 0.0.1-1 | N/A |
pupmod-aide | 4.1.0-9 | N/A |
pupmod-apache | 4.1.1-0 | N/A |
pupmod-auditd | 5.0.0-4 | N/A |
pupmod-augeasproviders | 2.1.3-0 | N/A |
pupmod-augeasproviders_apache | 2.0.1-0 | N/A |
pupmod-augeasproviders_base | 2.0.1-0 | N/A |
pupmod-augeasproviders_core | 2.0.1-0 | N/A |
pupmod-augeasproviders_grub | 2.3.1-0 | N/A |
pupmod-augeasproviders_mounttab | 2.0.1-0 | N/A |
pupmod-augeasproviders_nagios | 2.0.1-0 | N/A |
pupmod-augeasproviders_pam | 2.0.1-0 | N/A |
pupmod-augeasproviders_postgresql | 2.0.1-0 | N/A |
pupmod-augeasproviders_puppet | 2.0.1-0 | N/A |
pupmod-augeasproviders_shellvar | 2.0.1-0 | N/A |
pupmod-augeasproviders_ssh | 2.5.0-0 | N/A |
pupmod-augeasproviders_sysctl | 2.1.0-0 | N/A |
pupmod-autofs | 4.1.1-0 | N/A |
pupmod-bfraser-grafana | N/A | 2.5.0-2016 |
pupmod-clamav | 4.1.0-8 | N/A |
pupmod-dhcp | 4.1.0-5 | N/A |
pupmod-elasticsearch-elasticsearch | N/A | 0.11.0-2016 |
pupmod-elasticsearch-logstash | N/A | 0.6.4-2016 |
pupmod-electrical-file_concat | N/A | 1.0.1-2016 |
pupmod-foreman | 0.1.0-1 | N/A |
pupmod-freeradius | 5.0.0-0 | N/A |
pupmod-ganglia | 5.0.0-0 | N/A |
pupmod-herculesteam-augeasproviders | N/A | 2.1.3-2016 |
pupmod-herculesteam-augeasproviders_apache | N/A | 2.0.1-2016 |
pupmod-herculesteam-augeasproviders_base | N/A | 2.0.1-2016 |
pupmod-herculesteam-augeasproviders_core | N/A | 2.1.1-2016 |
pupmod-herculesteam-augeasproviders_grub | N/A | 2.3.1-2016 |
pupmod-herculesteam-augeasproviders_mounttab | N/A | 2.0.1-2016 |
pupmod-herculesteam-augeasproviders_nagios | N/A | 2.0.1-2016 |
pupmod-herculesteam-augeasproviders_pam | N/A | 2.0.3-2016 |
pupmod-herculesteam-augeasproviders_postgresql | N/A | 2.0.3-2016 |
pupmod-herculesteam-augeasproviders_puppet | N/A | 2.0.2-2016 |
pupmod-herculesteam-augeasproviders_shellvar | N/A | 2.1.1-2016 |
pupmod-herculesteam-augeasproviders_ssh | N/A | 2.5.0-2016 |
pupmod-herculesteam-augeasproviders_sysctl | N/A | 2.1.0-2016 |
pupmod-iptables | 4.1.0-15 | N/A |
pupmod-libvirt | 4.1.0-17 | N/A |
pupmod-logrotate | 4.1.0-4 | N/A |
pupmod-mcafee | 4.1.0-2 | N/A |
pupmod-mozilla | 4.1.0-1 | N/A |
pupmod-named | 4.2.0-9 | N/A |
pupmod-network | 4.1.0-6 | N/A |
pupmod-nfs | 4.4.2-0 | N/A |
pupmod-nscd | 5.0.1-0 | N/A |
pupmod-ntpd | 4.1.0-10 | N/A |
pupmod-oddjob | 1.0.0-2 | N/A |
pupmod-onyxpoint-compliance_markup | 0.1.0-0 | N/A |
pupmod-onyxpoint-gpasswd | 1.0.0-1 | 1.0.0-2016 |
pupmod-openldap | 4.1.4-0 | N/A |
pupmod-openscap | 4.2.0-3 | N/A |
pupmod-pam | 4.2.1-0 | N/A |
pupmod-pki | 4.2.1-0 | N/A |
pupmod-polkit | 4.1.0-2 | N/A |
pupmod-postfix | 4.1.0-7 | N/A |
pupmod-pupmod | 6.0.0-24 | N/A |
pupmod-puppetlabs-apache | 1.0.1-2 | N/A |
pupmod-puppetlabs-inifile | 1.2.0-1 | 1.5.0-2016 |
pupmod-puppetlabs-java | 1.2.0-0 | 1.2.0-2016 |
pupmod-puppetlabs-java_ks | N/A | 1.4.0-2016 |
pupmod-puppetlabs-mysql | 2.2.3-1 | 2.2.3-2016 |
pupmod-puppetlabs-puppetdb | N/A | 5.0.0-2016 |
pupmod-puppetlabs-puppetlabs_apache | N/A | 1.0.1-2016 |
pupmod-puppetlabs-stdlib | N/A | 4.9.0-2016 |
pupmod-richardc-datacat | 0.6.1-0 | 0.6.2-2016 |
pupmod-rsync | 4.2.0-5 | N/A |
pupmod-rsyslog | 5.1.0-0 | N/A |
pupmod-selinux | 1.0.0-5 | N/A |
pupmod-simp | 1.2.0-0 | N/A |
pupmod-simp-acpid | N/A | 0.0.2-2016 |
pupmod-simp-activemq | 3.0.0-0 | 3.0.0-2016 |
pupmod-simp-aide | N/A | 4.1.1-2016 |
pupmod-simp-apache | N/A | 4.1.5-2016 |
pupmod-simp-auditd | N/A | 5.0.4-2016 |
pupmod-simp-autofs | N/A | 4.1.2-2016 |
pupmod-simp-clamav | N/A | 4.1.1-2016 |
pupmod-simp-compliance_markup | N/A | 1.0.0-0 |
pupmod-simp-dhcp | N/A | 4.1.1-2016 |
pupmod-simp-elasticsearch | 2.0.0-3 | N/A |
pupmod-simp-foreman | N/A | 0.2.0-2016 |
pupmod-simp-freeradius | N/A | 5.0.2-2016 |
pupmod-simp-ganglia | N/A | 5.0.0-2016 |
pupmod-simp-haveged | N/A | 0.3.1-2016 |
pupmod-simp-iptables | N/A | 4.1.4-2016 |
pupmod-simp-jenkins | N/A | 4.1.0-2016 |
pupmod-simp-kibana | 3.0.1-5 | N/A |
pupmod-simp-krb5 | N/A | 5.0.6-2016 |
pupmod-simp-libreswan | N/A | 0.1.0-2016 |
pupmod-simp-libvirt | N/A | 4.1.1-2016 |
pupmod-simp-logrotate | N/A | 4.1.0-2016 |
pupmod-simp-logstash | 1.0.0-6 | N/A |
pupmod-simp-mcafee | N/A | 4.1.1-2016 |
pupmod-simp-mcollective | 2.3.1-0 | 2.3.2-2016 |
pupmod-simp-mozilla | N/A | 4.1.1-2016 |
pupmod-simp-named | N/A | 4.3.1-2016 |
pupmod-simp-network | N/A | 4.1.1-2016 |
pupmod-simp-nfs | N/A | 4.5.2-2016 |
pupmod-simp-nscd | N/A | 5.0.1-2016 |
pupmod-simp-ntpd | N/A | 4.1.0-2016 |
pupmod-simp-oddjob | N/A | 1.0.0-2016 |
pupmod-simp-openldap | N/A | 4.1.8-2016 |
pupmod-simp-openscap | N/A | 4.2.1-2016 |
pupmod-simp-pam | N/A | 4.2.5-2016 |
pupmod-simp-pki | N/A | 4.2.3-2016 |
pupmod-simp-polkit | N/A | 4.1.0-2016 |
pupmod-simp-postfix | N/A | 4.1.3-2016 |
pupmod-simp-postgresql | N/A | 4.1.0-2016 |
pupmod-simp-pupmod | N/A | 6.0.5-2016 |
pupmod-simp-rsync | N/A | 4.2.2-2016 |
pupmod-simp-rsyslog | N/A | 5.1.0-2016 |
pupmod-simp-selinux | N/A | 1.0.3-2016 |
pupmod-simp-simp | N/A | 1.2.7-2016 |
pupmod-simp-simp_elasticsearch | N/A | 3.0.1-2016 |
pupmod-simp-simp_grafana | N/A | 0.1.0-2016 |
pupmod-simp-simp_logstash | N/A | 2.0.0-2016 |
pupmod-simp-simpcat | N/A | 5.0.1-2016 |
pupmod-simp-simplib | N/A | 1.3.1-2016 |
pupmod-simp-site | N/A | 2.0.1-2016 |
pupmod-simp-snmpd | N/A | 4.1.0-2016 |
pupmod-simp-ssh | N/A | 4.1.10-2016 |
pupmod-simp-sssd | N/A | 4.1.3-2016 |
pupmod-simp-stunnel | N/A | 4.2.7-2016 |
pupmod-simp-sudo | N/A | 4.1.2-2016 |
pupmod-simp-sudosh | N/A | 4.1.1-2016 |
pupmod-simp-svckill | N/A | 1.1.3-2016 |
pupmod-simp-sysctl | N/A | 4.2.0-2016 |
pupmod-simp-tcpwrappers | N/A | 4.1.0-2016 |
pupmod-simp-tftpboot | N/A | 4.1.2-2016 |
pupmod-simp-tpm | N/A | 0.1.0-2016 |
pupmod-simp-upstart | N/A | 4.1.2-2016 |
pupmod-simp-vnc | N/A | 4.1.0-2016 |
pupmod-simp-vsftpd | N/A | 5.0.4-2016 |
pupmod-simp-windowmanager | N/A | 4.1.2-2016 |
pupmod-simp-xinetd | N/A | 2.1.0-2016 |
pupmod-simp-xwindows | N/A | 4.1.1-2016 |
pupmod-simpcat | 5.0.0-0 | N/A |
pupmod-simplib | 1.2.2-0 | N/A |
pupmod-site | 2.0.0-3 | N/A |
pupmod-snmpd | 4.1.0-5 | N/A |
pupmod-ssh | 4.1.2-0 | N/A |
pupmod-ssh-augeas-lenses | 4.1.2-0 | N/A |
pupmod-sssd | 4.1.2-0 | N/A |
pupmod-stunnel | 4.2.1-0 | N/A |
pupmod-sudo | 4.1.0-3 | N/A |
pupmod-sudosh | 4.1.0-4 | N/A |
pupmod-svckill | 1.1.0-0 | N/A |
pupmod-sysctl | 4.2.0-0 | N/A |
pupmod-tcpwrappers | 3.0.0-3 | N/A |
pupmod-tftpboot | 4.1.0-9 | N/A |
pupmod-tpm | 0.0.1-10 | N/A |
pupmod-upstart | 4.1.0-5 | N/A |
pupmod-vnc | 4.1.0-4 | N/A |
pupmod-vsftpd | 5.0.0-2 | N/A |
pupmod-windowmanager | 4.1.0-3 | N/A |
pupmod-xinetd | 2.1.0-5 | N/A |
pupmod-xwindows | 4.1.0-4 | N/A |
puppetlabs-java_ks | 1.4.0-0 | N/A |
puppetlabs-postgresql | 4.1.0-1.SIMP | N/A |
puppetlabs-puppetdb | 5.0.0-0 | N/A |
puppetlabs-stdlib | 4.9.0-0.SIMP | N/A |
rubygem-net-ldap | N/A | 0.6.1-2 |
rubygem-net-ldap-doc | N/A | 0.6.1-2 |
rubygem-simp-cli | 1.0.16-0 | 1.0.20-0 |
rubygem-simp-cli-doc | 1.0.16-0 | 1.0.20-0 |
simp | 5.1.0-3 | 5.2.0-0 |
simp-bootstrap | 5.2.1-4 | 5.3.2-0 |
simp-doc | N/A | 5.2.0-0 |
simp-utils | 5.0.0-8 | 5.0.1-1 |
unbound-libs | N/A | 1.4.20-26 |
RPM Deprecations¶
- pupmod-simp-kibana
- Replaced by pupmod-simp-simp_grafana (SIMP profile) and pupmod-bfraser-grafana (upstream component)
- pupmod-simp-elasticsearch
- Replaced by pupmod-simp-simp_elasticsearch (SIMP profile) and pupmod-elasticsearch-elasticsearch (upstream component)
- pupmod-simp-logstash
- Replaced by pupmod-simp-simp_logstash (SIMP profile) and pupmod-elasticsearch-logstash (upstream component)
Fixed Bugs¶
pupmod-simp-apache¶
- Fix
munge_httpd_networks
to work properly with Ruby >= 1.9 - Ensure that non-SIMP PKI certificates are copied recursively
- Add an explicit default deny to the
apache_limits()
function
pupmod-simp-auditd¶
- Fix the default audit locations for
wtmp
andbtmp
in the audit rules - Ensure that audit file locations themselves can be dynamically audited
- Added an audit rule for
renameat
to comply with CCE-26651-0
pupmod-simp-freeradius¶
- Fixed scoping issues with variables
- Updated the code to work around incompatibilities with integers in class names
pupmod-simp-iptables¶
- Removed the custom type warning in IPTables when used with Puppet 4
- Fixed a regex rule in Ruby 1.8 (EL6) that caused some rules to be dropped silently
- Changed the default provider for iptables services to
'redhat'
because the Puppet default was not functional
pupmod-simp-named¶
- Created work-around for https://bugzilla.redhat.com/show_bug.cgi?id=1278082
- Added a named::install class and fixed the ordering across the board
pupmod-simp-nfs¶
- Several breaking changes were made
- Stunnel and KRB5 should not be used at the same time
- Removed the
create_home_dirs
cron job and migrated it to the pupmod-simp-simp module
pupmod-simp-openldap¶
- Fixed certificate location references in the
pam_ldap
configuration file - Removed the dependency on the
ruby-ldap
package - Ensure that
Exec[bootstrap_ldap]
is idempotent - Ensure that TLS support can be toggled in the
openldap::client
class
pupmod-simp-pki¶
- Removed the custom type warning in
simp::pki
when used with Puppet 4 - Fixed permissions flapping in
pki_cert_sync
pupmod-simp-pupmod¶
- Ensure that the
use_iptables
global catalyst is honored - Limited the Java heap size used by the Puppetserver to not exceed 12G of RAM due to a bug in Trapperkeeper. This will be lifted once we move to Puppet 4.
pupmod-simp-rsync¶
- Changed the default provider for iptables services to ‘redhat’ because the Puppet default was not functional
- Ensure that the
client_nets
global catalyst is properly honored
pupmod-simp-simp¶
- Set
svckill
to ignorequotaon
andmessagebus
by default
pupmod-simp-simpcat¶
- Ensure that the client
vardir
is used instead of the server variable
pupmod-simp-simplib¶
- Remove the custom type warnings from
ftpusers
,reboot_notify
, andscript_umask
- Fixed an
nsswitch
edge case that conflicted withsssd
- Added the
gdm_version
fact from thexwindows
module - Ensure that
tmpwatch
installed on EL6 systems
pupmod-simp-sssd¶
- Ensure that the LDAP default certificates are set if using TLS and LDAP
pupmod-simp-stunnel¶
- Ensure that all global catalysts are disabled when appropriate
- The chroot’d PKI certificates were not ordered correctly against the
pki
module when in use
pupmod-simp-svckill¶
- Remove the custom type warnings from the custom type
svckill::ignore
should not includesvckill
by default
pupmod-simp-upstart¶
- Ensure that the
job.erb
file kept all hash keys ordered
simp-cli¶
- Ensure that
simp passgen
can use the correct path by default - Fixed several issues in the
simp
command with command line parsing
New Features¶
pupmod-bfraser-grafana¶
- Initial import of the Grafana module into the SIMP ecosystem
pupmod-elasticsearch-elasticsearch¶
- Updated to the 0.11.0 version of the upstream module
pupmod-elasticsearch-logstash¶
- Updated to the 0.6.4 version of the upstream module
pupmod-puppetlabs-inifile¶
- Updated to the 1.5.0 upstream module
pupmod-richardc-datacat¶
- Update to version 0.6.2
pupmod-simp-simp_elasticsearch¶
- First release of the rewritten SIMP Elasticsearch component profile (to be used in conjunction with the pupmod-elasticsearch-elasticsearch module)
pupmod-simp-simp_grafana¶
- Initial release of the SIMP Grafana component profile (to be used in conjunction with the pupmod-bfraser-grafana module)
pupmod-simp-haveged¶
- First release of the SIMP HAVEGED module (which is a fork of the moding/haveged module)
pupmod-simp-krb5¶
- Full module update
- Supports auto-creation of KRB5 keytabs for all systems
- Added a native type
krb5kdc_auto_keytabs
to autogenerate keytabs from the SIMP resident PKI certificates
pupmod-simp-simp_logstash¶
- First release of the rewritten SIMP Logstash component profile (to be used in conjunction with the pupmod-elasticsearch-logstash module).
pupmod-simp-mcollective¶
- Our fork of the upstream MCollective module was updated to version 2.3.2
pupmod-simp-named¶
- Users can modify the chroot path in named-chroot.service
- Added a
named::install
class and fixed the ordering across the board
pupmod-simp-nfs¶
- Incorporated KRB5 support (optional)
- Fixed numerous logic errors and typos during acceptance testing
pupmod-simp-pam¶
- Added support for pam_tty_audit
pupmod-simp-selinux¶
- Ensure that
policycoreutils-python
is installed by default
pupmod-simp-simp¶
- Ensure that
SSLVerifyClient
can be controlled inks.conf
- Use HTTPS YUM repos by default
- Added the
create_home_dirs
script that used to be in thenfs
module
pupmod-simp-ssh¶
- Added haveged for entropy generation
- Ensure that
semanage
is used to handle non-standard ports - Added an
openssh_version
fact - Modified kex algorithm:
- No longer set kex prior to openssh v 5.7
- Curve25519 kex only set in openssh v 6.5+
pupmod-simp-windowmanager¶
- Ensure that the login banner works in EL7
- Add the ability to remove the login button in Gnome 3
pupmod-simp-xwindows¶
- Remove the
gdm_version
fact (to be placed insimplib
)
simp-bootstrap¶
- Documented the
hostgroup
Hiera usage in thehieradata/
directory - Recommendation for SHA512 password hashes to be generated for
localusers
- Added a
site_files/
directory in thesimp
environment that will be used for all generated files and is intended to be excluded from management by r10k or Code Manager. This may need to be moved again in SIMP 6.
simp-cli¶
- Removed the deprecated
simp check
command
simp-core¶
- Incorporated the ELG stack in the list of included modules
- Added
haveged
to the stack for persistent entropy - Enable HTTPS kickstarts by default
- Fall back to unvalidated YUM HTTPS connections by default so that new systems do not have to be bootstrapped with a trusted CA certificate. Our packages are signed, so this should not be an issue.
simp-doc¶
- Full restructure of the documentation to be less confusing and more concise for new users.
DVD¶
- Disable ISO auto-boot
- Support UEFI Booting
- Ensure that FIPS can be disabled at initial build
- Provide an option for FDE directly from the ISO
Known Bugs¶
- If you are running libvirtd, when
svckill
runs it will always attempt to kill dnsmasq unless you are deliberately trying to run the dnsmasq service. This does not actually kill the service but is, instead, an error of the startup script and causes no damage to your system.
SIMP Server Installation Guide¶
Contents:
Introduction¶
This chapter will walk a user through the process of installing the SIMP server in a SIMP system. A SIMP system is one that includes, at a minimum, a SIMP server with properly configured networking information and a working Puppet server. Optionally, a SIMP system can also include one or more managed clients. The topics related to client management are covered in SIMP User Guide.
Warning
There are default passwords present on the system that should be changed prior to deploying the system.
Please make sure that you change these passwords!
For a list of the passwords, see SIMP Default Passwords and Settings
Level of Knowledge¶
SIMP is designed for use by system administrators or users with a strong background using Linux operating systems. The core applications that make up SIMP and require prerequisite knowledge are:
- Puppet - 3.7 or later
- Domain Name System (DNS) - BIND 9
- Dynamic Host Configuration Protocol (DHCP) - Internet Systems Consortium (ISC) DHCP
- Lightweight Directory Access Protocol (LDAP) - OpenLDAP
- RedHat Kickstart (including all tools behind it) - Trivial File Transfer Protocol (TFTP), PXELinux, etc.
- Apache
- Yellowdog Updater, Modified (YUM)
- Rsyslog Version 3+
- Internet Protocol Tables (IPtables) (Basic knowledge of the rules)
- Auditd (Basic knowledge of how the daemon works)
- Advanced Intrusion Detection Environment (AIDE) (Basic knowledge of the rules)
- Basic X.509-based PKI Key Management
SIMP does as much initial setup and configuration of these tools as possible. However, without at least some understanding, you will be unable to tailor a SIMP system to fit the desired environment. A general understanding of how to control and manipulate these tools from the command line interface (CLI) will be necessary, as SIMP does not come stock with a graphical user interface (GUI).
Knowledge of scripting and Ruby programming will also help to further customize a SIMP install but is not required for routine use.
SIMP Defined¶
The System Integrity Management Platform (SIMP) is a framework designed around the concept that individuals and organizations should not need to repeat the work of automating the basic components of their operating system infrastructure.
Expanding upon this philosophy, SIMP also aims to take care of routine policy compliance to include NIST 800-53, FIPS 140-2, the DISA STIG, and the SCAP Security Guides.
By using the Puppet automation stack, SIMP is working toward the concept of a self-healing infrastructure that, when used with a consistent configuration management process, will allow users to have confidence that their systems not only start in compliance but remain in compliance over time.
Finally, SIMP has a goal of remaining flexible enough to properly maintain your operational infrastructure. To this end, where possible, the SIMP components are written to allow all security-related capabilities to be easily adjusted to meet the needs of individual applications.
Known OS Compatibility¶
Release Mapping Entry Not Found for Version 0.0-NEED_FULL_SIMP_BUILD_TREE
SIMP Server Installation¶
This chapter provides guidance on installing, configuring, and bootstrapping
the SIMP server using the SIMP Utility, simp
.
System Requirements¶
SIMP scales well, but how much depends on a number of factors, including the number of nodes, the processor speed, the total memory, and the complexity of the manifests. The following are the minimal system requirements for the SIMP server:
- Central Processing Unit (CPU) : 2 Cores
- Random Access Memory (RAM) : 2.2 GB
- Hard Disk Drive (HDD) : 50 GB
Using the SIMP Utility¶
In these instructions we will be using the config
and bootstrap
commands of the SIMP Utility, simp
. The SIMP Utility does not
assist users through the entire configuration process; however, it does
make the initial configuration easier and more repeatable.
Note
For a list of the commands simp
provides, type simp help
. Type
simp help <Command>
for more information on a specific command.
SIMP Default Passwords and Settings¶
Below is a table containing the default passwords found on a basic SIMP server upon install.
Important
All default passwords must be changed during the initial configuration process.
Utility | Password |
---|---|
Grub | GrubPassword |
Root User | RootPassword |
Simp User | UserPassword |
Table: SIMP Default Passwords
A table of variables that can be changed/defined during installation is located in Installation Variables. Review this if you are unfamiliar with SIMP, as you will be prompted for the values for these variables during the SIMP server installation.
Preparing the SIMP Server Environment¶
- Boot the system and ensure the SIMP ISO is selected.
- If you do not have a SIMP ISO, see HOWTO Build a Bootable DVD from the SIMP tarball.
- Press Enter to run the standard SIMP install, or choose from the
customized options list.
- For a detailed description of the the disk encryption enabled via the
simp_disk_crypt
boot option, see Disk Encryption.
- For a detailed description of the the disk encryption enabled via the
- When the installation is complete, the system will restart automatically.
- Change the
root
user password- At the console, log on as
root
and type the default password shown in Table 2.1. - Type the default password again when prompted for the (current) UNIX password.
- Type a new password when prompted for the New Password. Retype the password when prompted.
- At the console, log on as
- Change the
simp
user password- At the console, log on as
simp
and type the default password shown in Table 2.1. - Type the default password again when prompted for the (current) UNIX password.
- Type a new password when prompted for the New Password. Retype the password when prompted.
- At the console, log on as
Installing the SIMP Server¶
Important
Correct time across all systems is important to the proper functioning of SIMP and Puppet in general.
If a user has trouble connecting to the Puppet server and errors regarding certificate validation appear, check the Puppet server and client times to ensure they are synchronized.
Warning
Keep in mind as the installation process begins that Puppet does not work well with capital letters in host names. Therefore, they should not be used.
- Log on as
simp
and runsu -
to gain root access. - Type
simp config
- Type
simp config -a <Config File>
to load a previously generated configuration, instead of being prompted for settings. This is the option to run for systems that will be rebuilt often.- For a list of additional options, type
simp help config
.
- Configure the system as prompted.
simp config
will present you with a recommendation for each variable that may be derived from existing OS settings. To keep a recommended value, press Enter. Otherwise, enter your desired value.- A list of the variables that are set by
simp config
is contained in Installation Variables.- A description of the installation preparation actions taken by
simp config
, in addition to the generation of a SIMP configuration file, is contained in simp config Actions.
Note
Once simp config
has been run, a SIMP configuration file with all your
settings is written to /etc/puppet/environments/simp/hieradata/simp_def.yaml
and also archived in /root/.simp/simp_conf.yaml
.
- Type
simp bootstrap
Note
If progress bars are of equal length and the bootstrap finishes quickly, a problem has occurred. This is most likely due to an error in SIMP configuration. Refer to the previous step and make sure that all configuration options are correct.
- Type
reboot
Performing Post-installation Setup on the SIMP Server¶
Log on as
root
Run puppet for the first time. Errors will appear for DHCP. These can be safely ignored at this stage.
Type:
puppet agent -t
Copy CentOS RHEL_MAJOR_MINOR_VERSION ISO(s) to the server and unpack using the
unpack_dvd
utility. This creates a new tree under/var/www/yum/CentOS
.Type:
unpack_dvd CentOS-RHEL_MAJOR_MINOR_VERSION- *####*-x86_64-Everything.iso
Update your system using yum. The updates applied will be dependent on what ISO you initially used.
Type:
yum clean all; yum makecache
Run puppet. Ignore the same DHCP errors:
Type:
puppet agent -t
Reboot your system:
Type
reboot
Disk Encryption¶
The default ISO and kickstart files in SIMP now encrypt the first
physical volume if the simp_disk_crypt
option is provided at the boot
command line.
Warning
The system is set to automatically decrypt at boot! This means that the password is embedded in the initrd file.
Note
The /boot
directory is not encrypted, since that would prevent the
system from booting automatically.
Method¶
When enabled, SIMP implements disk encryption, with automatic decryption, so that users have the option to use their own keys in the future. Alternatively, users may remove the system local keys and require that a password be entered at each boot.
The primary goal of providing automatic decryption was to give users a clean and seamless experience when using the initial system. It is understood that this is not best practice since automatic decryption of the disks requires the system to embed the password files in the system initrd.
Disk encryption was not enabled by default for two reasons. The first is that it can take an unacceptable amount of time to build a system if enough entropy is not present. The second is that a lot of hardware contains the ability to encrypt the disk at that level. If this is present, the utility of a second layer of disk encryption is not necessarily warranted or a good idea.
Implementation¶
The system keys are referenced in /etc/crypttab
and, by default, reside at
/etc/.cryptcreds
. At build time, these files are copied into all
initrd files present on the system. This ensures that all kernels can
successfully boot the system.
The /etc/dracut.conf
file is also updated to ensure that any new kernel
loads will be able to boot successfully.
Warning
The /etc/.cryptcreds
file is encrypted when the system is off.
However, a copy is in the unencrypted initrd files in /boot
and
should not be considered secure from physical access to the raw disk image.
Note
Please be aware that all characters in the /etc/.cryptcreds
file are
part of the password. The lack of a trailing newline is very important.
Replacing the Current Password¶
Note
The underlying system uses LUKS, so any usage outside of this document should refer to the LUKS implementation that matches your system version.
To change the password, you will need to perform the following steps.
- Back up the original password file
- If something goes amiss, you’re seriously going to need this
- Get the UUID of your partition
- This will be in the
/etc/crypttab
file. You’ll want the entireUUID=<uuid>
string
- Create the new password
Remember that this needs to be exactly what you will use. If you ever expect to type this at the command line, don’t forget to strip your trailing spaces.
#!/usr/bin/python import sys import random import string # The length of the new password length = 1024 # What the password should consist of charset = string.lowercase+string.uppercase+string.digits passfile = open('/etc/.cryptcreds.new','w') passfile.write("".join(random.choice(charset) for i in range(length)))
- Update the key
There is a faster way to do this in EL 7, but this method works on both systems
$ cryptsetup luksAddKey --key-slot 1 --key-file /etc/.cryptcreds UUID=<uuid> /etc/.cryptcreds.new $ cryptsetup luksKillSlot --key-file /etc/.cryptcreds 0 $ cryptsetup luksAddKey --key-slot 0 --key-file /etc/.cryptcreds.new UUID=<uuid> /etc/.cryptcreds.new $ cryptsetup luksKillSlot --key-file /etc/.cryptcreds.new 1 # Only do this step if the previous steps succeeded! $ mv /etc/.cryptcreds.new /etc/.cryptcreds
- Update your initrd files
You want to make sure to update all of your initrd files since you’ll want to be able to boot from any kernel.
for x in `ls -d /lib/modules/*`; do installed_kernel=`basename $x` dracut -f "/boot/initramfs-${installed_kernel}.img" $installed_kernel done
Removing the Password File¶
If you wish to remove the password file from your system, you will need to perform the following steps:
- Back up the password file!
- If you lose this, you won’t be able to get into your system after reboot
- Using your favorite text editor, remove the install_items line in /etc/dracut.conf that contains the reference to /etc/.cryptcreds
- Remove the /etc/.cryptcreds file from the system
- Update your initrd files
You want to make sure to update all of your initrd files since you’ll want to be able to boot from any kernel.
for x in `ls -d /lib/modules/*`; do installed_kernel=`basename $x` dracut -f "/boot/initramfs-${installed_kernel}.img" $installed_kernel done
Indices and tables¶
SIMP User Guide¶
Contents:
Introduction¶
This chapter will walk a user through instructions on administering a SIMP system, including the processes for managing clients and users.
Level of Knowledge¶
SIMP is designed for use by system administrators or users with a strong background using Linux operating systems. The core applications that make up SIMP and require prerequisite knowledge are:
- Puppet - 3.7 or later
- Domain Name System (DNS) - BIND 9
- Dynamic Host Configuration Protocol (DHCP) - Internet Systems Consortium (ISC) DHCP
- Lightweight Directory Access Protocol (LDAP) - OpenLDAP
- RedHat Kickstart (including all tools behind it) - Trivial File Transfer Protocol (TFTP), PXELinux, etc.
- Apache
- Yellowdog Updater, Modified (YUM)
- Rsyslog Version 3+
- Internet Protocol Tables (IPtables) (Basic knowledge of the rules)
- Auditd (Basic knowledge of how the daemon works)
- Advanced Intrusion Detection Environment (AIDE) (Basic knowledge of the rules)
- Basic X.509-based PKI Key Management
SIMP does as much initial setup and configuration of these tools as possible. However, without at least some understanding, you will be unable to tailor a SIMP system to fit the desired environment. A general understanding of how to control and manipulate these tools from the command line interface (CLI) will be necessary, as SIMP does not come stock with a graphical user interface (GUI).
Knowledge of scripting and Ruby programming will also help to further customize a SIMP install but is not required for routine use.
SIMP Defined¶
The System Integrity Management Platform (SIMP) is a framework designed around the concept that individuals and organizations should not need to repeat the work of automating the basic components of their operating system infrastructure.
Expanding upon this philosophy, SIMP also aims to take care of routine policy compliance to include NIST 800-53, FIPS 140-2, the DISA STIG, and the SCAP Security Guides.
By using the Puppet automation stack, SIMP is working toward the concept of a self-healing infrastructure that, when used with a consistent configuration management process, will allow users to have confidence that their systems not only start in compliance but remain in compliance over time.
Finally, SIMP has a goal of remaining flexible enough to properly maintain your operational infrastructure. To this end, where possible, the SIMP components are written to allow all security-related capabilities to be easily adjusted to meet the needs of individual applications.
Client Management¶
This chapter provides guidance to install and configure SIMP clients based on the standard SIMP system installed using the SIMP DVD.
System Requirements¶
Before installing clients, the system should consist of the following minimum requirements:
- Hardware/Virtual Machine (VM) : Capable of running RHEL 6 or 7 ; 64-bit compatible
- RAM: 512 MB
- HDD: 15 GB
Configuring the Puppet Master¶
Perform the following actions as root
on the Puppet Master system
prior to attempting to install a client.
Configure DNS¶
In SIMP most managed, system configuration files are pulled over
rsync
by Puppet for network efficiency. These managed files include
DNS configuration files and can be found at
/var/simp/rsync/OSTYPE/MAJORRELEASE/bind_dns/default
.
It is possible to use an existing DNS setup; however, the configuration steps that follow are for a local setup:
- Navigate to
/var/simp/rsync/OSTYPE/MAJORRELEASE/bind_dns/default
- Modify the
named
files to correctly reflect the environment.- The relevant files under
bind_dns/default
are as follows:named/etc/named.conf
named/etc/zones/your.domain
named/var/named/forward/your.domain.db
named/var/named/reverse/0.0.10.db
- The relevant files under
- Review
named/etc/named.conf
and check/update the following:- Add clients to
named/var/named/forward/your.domain.db
andnamed/var/named/reverse/0.0.10.db
and then rename these files to more appropriately match your system configuration.
- Type
puppet agent -t --tags named
on the Puppet Master to apply the changes. - Validate DNS and ensure the
/etc/resolv.conf
is updated appropriately. - If an error about the rndc.key appears when starting bind,
see Bind Documentation for more
information. Once you have resolved the problem, re-run the puppet command
puppet agent -t --tags named
on the Puppet Master to apply.
Important
You can adjust the list of clients in your
named/var/named/forward/<your.domain>.db
and
named/var/named/reverse/<your reverse domain>.db
files at any time.
Just remember to run puppet agent -t --tags named
on the Puppet
Master to propagate these updates.
Configure DHCP¶
Perform the following actions as root
on the Puppet Master system
prior to attempting to install a client.
Open the /var/simp/rsync/OSTYPE/MAJORRELEASE/dhcpd/dhcpd.conf
file
and edit it to suit the necessary environment.
Make sure the following is done in the dhcpd.conf
:
- The
next-server
setting in the pxeclients class block points to the IP Address of the TFTP server.- Create a Subnet block and edit the following:
- Make sure the router and netmask are correct for your environment.
- Enter the hardware ethernet and fixed-address for each client that will be kickstarted. SIMP environments should not allow clients to pick random IP Address in a subnet. The MAC address must be associated with and IP Address here. (You can add additional ones as needed.)
- Enter the domain name for option domain-name
- Enter the IP Address of the DNS server for option domain-name-servers
Save and close the file.
Run puppet agent -t
on the Puppet Master to apply the changes.
Configure PXE Boot¶
Sample kickstart templates have been provided in the /var/www/ks
directory on the SIMP server and on the SIMP DVD under /ks
. Pre-boot images are locate in the DVD under /images/pxeboot
. If you have an existing Preboot Execution Environment (PXE) setup you can use these to PXE a SIMP client. Follow your own sites procedures for this.
In this section we describe how to configure the Kickstart and TFTP servers to PXE boot a SIMP client. (The DHCP server setup, also required for PXE booting, is discussed in and earlier chapter.)
Note
This example sets up a PXE boot for a system that is the same OS as the SIMP Server. If you are setting up a PXE boot for a different OS then you must make sure that the OS packages are available for all systems you are trying to PXE boot through YUM. There are notes through out the instructions to help in setting multiple OS but they are not comprehensive. You should understand DHCP, KS, YUM and TFTP relationships for PXE booting before attempting this.
Setting Up Kickstart¶
This section describes how to configure the kickstart server.
- Locate the following files in the
/var/www/ks
directorypupclient_x86_64.cfg
diskdetect.sh
- Open each of the files and follow the instructions provided within them to replace the variables.
You need to know the IP Addresses of the YUM, Kickstart, and TFTPserver. (They default to the simp server in simp config).
pupclient_x86_64.cfg
: Replace the variables noted at the top and generate and enter the passwords.diskdetect.sh
: Thediskdetect.sh
script is responsible for detecting the first active disk and applying a disk configuration. Edit this file to meet any necessary requirements or use this file as a starting point for further work. It will work as is for most systems as long as your disk device names are in the list.
- Type
chown root.apache /var/www/ks/*
to ensure that all files are owned byroot
and in theapache
group. - Type
chmod 640 /var/www/ks/*
to change the permissions so the owner can read and write the file and theapache
group can only read.
Note
The URLs and locations in the file are setup for a default SIMP install. That means the same OS and version as the SIMP server, all servers in one location (on the SIMP server) and in specific directories. If you have installed these servers in a different location then the defaults, you may need to edit URLs or directories.
Note
If you want to PXE boot more than this operating system, make a copy of these files, name them appropriately and update URLS and links inside and anything else you may need. (You must know what you are doing before attempting this.) If you are booting more than one OS you must also make sure your YUM server has the OS packages for the other OSs. By default the YUM server on SIMP has the packages only for the version of OS installed on the SIMP server.
Setting up TFTP¶
This section describes the process of setting up static files and manifests for TFTP.
Verify the static files are in the correct location:
Type cd /var/simp/rsync/OSTYPE/MAJORRELEASE/tftpboot
(OSTYPE and MAJORRELEASE under rsync are the type and version of the SIMP server)
Verify there is a linux-install
directory and cd to this directory.
Under the linux-install directory you should find a directory named OSTYPE-MAJORRELEASE.MINORRELEASE-ARCH
and a link to this directory named OSTYPE-MAJORRELEASE-ARCH
.
Under OSTYPE-MAJORRELEASE.MINORRELEASE-ARCH your should find the files:
- initrd.img
- vmlinuz
If these are not there then you must create the directories as needed and copy the files from
/var/www/yum/OSTYPE/MAJORRELEASE/ARCH/images/pxeboot
or from the images directory on the SIMP DVD.
Important
The link is what is used in the TFTP configuration files.
Create a site manifest for the TFTP server on the Puppet server.
- Create the file
/etc/puppet/environment/simp/modules/site/manifests/tftpboot.pp
. Use the source code example below.- Replace KSSERVER with the IP address of Kickstart server (or the code to look up the IP Address using Hiera).
- Replace OSTYPE, MAJORRELEASE and ARCH with the correct values for the systems you will be PXE booting.
- MODEL NAME is usually of the form OSTYPE-MAJORRELEASE-ARCH for consistency.
class site::tftpboot {
include '::tftpboot'
tftpboot::linux_model { 'el7_x86_64':
kernel => 'OSTYPE-MAJORRELEASE-ARCH/vmlinuz',
initrd => 'OSTYPE-MAJORRELEASE-ARCH/initrd.img',
ks => "https://KSSERVER/ks/pupclient_x86_64.cfg",
extra => "inst.noverifyssl ksdevice=bootif\nipappend 2"
}
::tftpboot::assign_host { 'default': model => 'el7_x86_64' }
}
# Note the difference in the `extra` arguments here.
class site::tftpboot {
include '::tftpboot'
tftpboot::linux_model { 'el6_x86_64':
kernel => 'OSTYPE-MAJORRELEASE-ARCH/vmlinuz',
initrd => 'OSTYPE-MAJORRELEASE-ARCH/initrd.img',
ks => "https://KSSERVER/ks/pupclient_x86_64.cfg",
extra => "noverifyssl ksdevice=bootif\nipappend 2"
}
::tftpboot::assign_host { 'default': model => 'el6_x86_64' }
}
- Add the tftpboot site manifest on your puppet server node via Hiera.
Create the file (or edit if it exists):
/etc/puppet/environments/simp/hieradata/hosts/<tftp.server.fqdn>.yaml
. (By default the TFTP server is the same as your puppet server so it should exist.) Add the following example code to that yaml file.
---
classes:
- 'site::tftpboot'
- After updating the above file, type
puppet agent -t --tags tftpboot
on the Puppet server.
Note
To PXE boot more OSs create, in the tftpboot.pp file, a tftpboot::linux_model block for each OS type using the extra directories and kickstart files created using the notes in previous sections. Point individual systems to them by adding assign_host lines with their MAC pointing to the appropriate model name.
Apply Certificates¶
All clients in a SIMP system must have Public Key Infrastructure (PKI)
keypairs generated for the server. These keys reside in the
/etc/puppet/environments/simp/keydist
directory on the
SIMP server and are served to the clients over the puppet protocol.
Note
These keypairs are not the keys that the Puppet server uses for its operation. Do not get the two confused.
This section provides guidance on installing official certificates or, as an interim measure, generating certificates from the Fake (self-signing) Certificate Authority provided by SIMP.
Installing Official Certificates¶
Below are the steps to install official certificates for a SIMP client on the SIMP server:
- Copy the certificates received from a proper CA to the SIMP server.
- Add the keys for the node to
/etc/puppet/environments/simp/keydist
.
Type
mkdir /etc/puppet/environments/simp/keydist/***<Client System FQDN>***
Type
mv ***<Certificate Directory>***/***<FQDN>***.[pem|pub] \ /etc/puppet/environments/simp/keydist/***<FQDN>***Type
chown -R root.puppet /etc/puppet/environments/simp/keydist
Type
chmod -R u=rwX,g=rX,o-rwx /etc/puppet/environments/simp/keydist
- Create and populate the
/etc/puppet/environments/simp/keydist/cacerts
directory.
- Type
cd /etc/puppet/environments/simp/keydist
- Type
mkdir cacerts
and copy the root CA public certificates into cacerts in Privacy Enhanced Mail (PEM) format (one per file).- Type
cd cacerts
- Type
for file in *.pem; do ln -s $file `openssl x509 -in $file -hash -noout`.0; done
Generating Certificates from the Fake CA¶
If server certificates have not or could not be obtained at the time of client installation, SIMP provides a way to create them for the system, so that it will work until proper certificates are provided.
Note
This option should not be used for any operational system that can use proper enterprise PKI certificates.
Below are the steps to generate the certificates using the SIMP-provided, Fake CA.
- Type
cd /etc/puppet/environments/simp/FakeCA
- Type
vi togen
- Remove old entries from the file and add the Fully Qualified Domain Name (FQDN) of the systems (one per line) for which certificates will be created.
Note
To use alternate DNS names for the same system, separate the names with commas and without spaces. For example,
.name,alt.name1,alt.name2.
- Type
wc cacertkey
Note
Ensure that the
cacertkey
file is not empty. If it is, enter text into the file; then save and close the file.
- Type
./gencerts_nopass.sh auto
Note
To avoid using the default Fake CA values, remove the
auto
statement from the./gencerts_nopass.sh
command.
Warning
If the clean.sh
command is run after the certificates have been
generated, the running system will break. To troubleshoot
certificate problems, see the Troubleshooting Certificate Issues section.
If issues arise while generating keys, type cd /etc/puppet/environments/simp/FakeCA
to navigate to the /etc/puppet/environments/simp/FakeCA
directory, then type
./clean.sh
to start over.
After running the clean.sh
script, type ./gencerts_nopass.sh
to
run the script again using the previous procedure table.
Setting Up the Client¶
The following lists the steps to PXE boot the system and set up the client.
- Set up your client’s BIOS or virtual settings to boot off the network.
- Make sure the MAC address of the client is set up in DHCP (see Configure DHCP for more info.)
- Restart the system.
- Once the client installs, reboots, and begins to bootstrap, it will check in for the first time.
- Puppet will not autosign puppet certificates by default and waitforcert is
enabled. The client will check in every 30 seconds for a signed cert. Log on
to the puppet server and run
puppet cert sign <puppet.client.fqdn>
.
Upon successful deployment of a new client, it is highly recommended that LDAP administrative accounts be created.
Troubleshooting Puppet Issues¶
If the client has been kickstarted, but is not communicating with the Puppet server, try the following options:
- Check the forward and reverse DNS entries on the client and server; both must be correct.
- Check the time on the systems. More than an hour’s difference will cause serious issues with certificates.
- Remove
/var/lib/puppet/ssl
on the client system; runpuppet cert --clean ***<Client Host Name>***
on the Puppet server; and try again.
Troubleshooting Certificate Issues¶
If host certificates do not appear to be working and the banner is not getting rsync’d to the clients, ensure that all certificates verify against the installed CA certificates.
The table below lists the steps to determine which certificates are working and which are not.
- Navigate to
/etc/puppet/environments/simp/keydist
- Run
find . -name “****<Your.Domain>*.pub” -exec openssl verify -CApath cacerts {} \;
Important
The screen displays ./<Host Name>.<Your.Domain>/<Host
Name>.<Your.Domain>.pub: OK
If anything other than OK appears for each
host, analyze the error and ensure that the CA certificates are correct.
If the TXT_DB error number 2 appears, revoke the certificate that is being regenerated. The table below lists the steps to revoke the certificate.
Navigate to
/etc/puppet/environments/simp/keydist;
Run
OPENSSL_CONF=default.cnf openssl ca -revoke \ keydist/*<Host to Revoke>*/*<Host to Revoke>*.pub
Maximum Number of Nodes¶
The maximum number of clients reasonable per each system is dependent on many variables, including number of processors and size of memory. Although it is impossible to predict exactly how many clients a specific server may be able to handle, a simple algorithm can give the user an estimate.
Servers with different hardware have been tested at worst case scenario. This means that all of the server’s clients will run Puppet at the exact same time. The most important information collected during these runs was the compile time, which shows the increase in seconds that it takes for each node to compile when another node is added. After a certain number of nodes, nodes begin to drop to compile times lower than 30 seconds. These nodes are not actually completing their Puppet runs. This data can be seen in the following graph:
Number of Nodes vs. Compile Time¶
The queue size can be found by looking at the maximum number of clients running Puppet at once before any are dropped. According to the SIMP team’s data, a server with two cores has a queue size of four; a server with three cores has a queue size of six; however, a server with four cores has a queue size of six. Although it may appear that the queue size is plateauing as cores are increased, the SIMP team predicts that this is due to the limited memory. However, the team is confident that a system with four cores and 4GB of ram will indeed have a queue size of eight clients. From this, it can be concluded that, given enough memory, Queue_Size = 2*Cores.
Also using this data, the compile times for other systems can be predicted given the amount of processors, memory, and nodes. This is done using ordinary least squares in Octave.
In addition, the maximum number of clients can also be predicted with the use of the following equation:
Max_Num_Of_Total_Clients = (Run_Time_In_Sec / Comp_Time) * Queue_Size
Where Run_Time_In_Sec is the number of seconds per half an hour (1800), Queue_Size is the maximum number of clients in the worst case scenario (queue size), and Comp_Time is the average compile time of the clients when there are Max_Num_Worstcase clients.
General Administration¶
This chapter provides basic guidance on how to administer a SIMP environment.
Warning
While working with the system, keep in mind that Puppet does not work well with capital letters in host names. Therefore, they should not be used.
Nightly Updates¶
All SIMP systems are configured, by default, to do a YUM update of the entire system on a nightly basis.
The configuration pulls updates from all repositories that the system is aware of. To change this behavior, refer to the HOWTO Exclude YUM Repositories HOWTO section. This configuration is also helpful because it is easier to manage symlinks in YUM repositories than it is to manage individual package minutia for every single package on every system.
The general technique is to put packages that all systems will receive into
the Updates
repository provided with SIMP.Any packages that will only go
to specific system sets will then be placed into adjunct repositories under
/var/www/yum
and the user will point specific systems at those
repositories using the yumrepo
Puppet type. Any common packages can be
symlinked or hard linked between repositories for maximum space utilization.
Extending the Native Framework¶
By default, SIMP stores YUM information in the following directories:
/var/www/yum
The base SIMP repository is in /var/www/yum/SIMP
and it is highly
unlikely that you would want to modify anything in this directory.
With the standard configuration, access to the yum repository is restricted to
the networks contained in the $client_nets
variable in Hiera. For
this section, we will assume that this is sufficient for your needs.
The Operating System Repos¶
The default location for the OS repositories is /var/www/yum/${::operatingsystem}/7/x86_64
.
The default location for the OS repositories is /var/www/yum/${::operatingsystem}/6/x86_64
.
An Updates
repository has been configured in this space. All OS updates
should be placed within this directory.
You should run the following in the Updates
directory after any package
addition or removal within that directory.
$ createrepo .
$ chown -R root.apache ./*
$ find . -type f -exec chmod 640 {} \;
$ find . -type d -exec chmod 750 {} \;
$ yum clean all
$ yum makecache
Adding a Custom Repository¶
For this example, we are going to assume that you have a repository named
foo
that you would like to expose to your systems. You would perform the
following commands to enable this repository on the server:
$ cd /var/www/yum
$ mkdir foo
$ cd foo
$ -- copy all RPMs into the folder
$ createrepo .
$ chown -R root.apache ./*
$ find . -type f -exec chmod 640 {} \;
$ find . -type d -exec chmod 750 {} \;
By placing the basepath
of the repository within the default path served by
Apache, it will be exposed to all networks in $client_nets
. To modify the
package set in any repository at any time, re-run:
$ cd /some/repository/
$ cp /some/packages /some/repository/
$ createrepo .
$ chown -R root.apache ./*
$ find . -type f -exec chmod 640 {} \;
$ find . -type d -exec chmod 750 {} \;
$ yum clean all
$ yum makecache
Configuring the Clients¶
Now that you’ve added this directory, you’re obviously going to want to add it to one or more client nodes.
The best way to do this is to make it part of your site configuration. You can make it part of your module, but you will need to wrap it in a define so that the server can be modified. This ends up being not too much better than just adding it to each node manually.
To add it to the client node, you should use the puppet yumrepo
native type.
You can find more information on the type on the Puppet Type Reference on the
Internet.
At a glance, it would look like the following (assuming you are doing this one
on the server configured as $yum_server
in Hiera):
yumrepo { foo:
baseurl => "http://your.server.fqdn/yum/foo",
enabled => 1,
enablegroups => 0,
gpgcheck => 0,
keepalive => 0,
metadata_expire => 3600,
tag => "firstrun"
}
Working Outside the SIMP Framework¶
The SIMP framework fully supports Puppet Environments and, by default,
installs into an environment named simp
. This environment is symlinked to
the production
environment by default but that symlink will not be
overwritten on update so you may freely update the environment to meet your
needs.
Sudosh¶
By default, a SIMP system uses Sudosh to enable logging of sudo
sessions to Rsyslog
. To open a sudo session as root
(or any other
user), type su -
as simp, or sudo sudosh
as anyone else, instead of
sudo su
.
The logs are stored in /var/log/sudosh.log
. Sessions can be replayed by
typing sudosh-syslog-replay
.
User Accounts¶
By default, users can add local users to a system or use LDAP to administer users.
It is recommended that LDAP is used for adding all regular users so that there is no conflict with multiple system updates and synchronization. For more information on managing LDAP users, refer to the User Management chapter.
It is also possible that there will be users that are local to the system. To have these users follow the normal password expiration conventions set on the system, use the native Puppet user and group types.
To have a user that does not expire, look at the
/etc/puppet/environments/simp/localusers
file to enable these users across
the systems. The comments in the file provide instructions on generating
entries for the desired systems. It is hoped that future versions of Puppet
will support the modification of password expiration values via the native
types and that the localusers
file will be retired.
Certificate Management¶
This section describes the two different types of certificates used in a SIMP system and how to manage them. For information on initial certificate setup, refer to the Apply Certificates section of the Client Management chapter.
Server Certificates¶
Server certificates are the standard PKI certificates assigned either by an
official CA or generated using the FakeCA utility offered by SIMP. They can be
found in the /etc/pki/
directory of both the client and server systems.
These certificates are set to expire annually. To change this, edit the
following files with the number of days for the desired lifespan of the
certificates:
Note
This assumes that the user has generated Certificates with the FakeCA provided by SIMP. If official certificates are being used, these settings must be changed within the official CA, not on the SIMP system.
/etc/puppet/environments/simp/Config/FakeCA/CA
/etc/puppet/environments/simp/Config/FakeCA/ca.cnf
/etc/puppet/environments/simp/Config/FakeCA/default\_altnames.cnf
/etc/puppet/environments/simp/Config/FakeCA/default.cnf
/etc/puppet/Config/FakeCA/user.cnf
In addition, any certificates that have already been created and signed will
have a config file containing all of its details in
/etc/puppet/environments/simp/Config/FakeCA/output/conf/
.
Important
Editing any entries in the above mentioned config files will not affect the existing certificates. To make changes to an existing certificate it must be re-created and signed.
Below is an example of how to change the expiration time from one year (the default) to five years for any newly created certificate.
for file in $(grep -rl 365 /etc/puppet/environments/simp/Config/FakeCA/)
do
sed -i 's/365/1825/' $file
done
Puppet Certificates¶
Puppet certificates are issued and maintained strictly within Puppet. They are
different from the server certificates and should be managed with the
puppet cert
tool. For the complete documentation on the puppet cert
tool, visit the Puppet Labs cert manual
detailing its capabilities. On a SIMP system, these certificates are located in
the /var/lib/puppet/ssl/
directory and are set to expire every five years.
The SIMP Utility¶
The SIMP server provides a command line utility called simp
that is a
simple interface into some SIMP-specific settings and subsystems.
The best source of information on the capabilities of this tool are the man
page which can be accessed via man simp
.
simp passgen¶
Throughout the SIMP codebase, you may find references to the passgen()
function. This function will auto-generate passwords and store them in the
simp_autofiles/gen_passwd
space in the root of the using Environment on the
Puppet server. For more information, see the passgen() documentation.
Integrating Applications¶
This section describes how to add services to the servers. To perform this
action, it is important to understand how to use IPTables and what the
svckill.rb
script does on the system.
IPTables¶
By default, the SIMP system locks down all incoming connections to the server save port 22. Port 22 is allowed from all external sources since it is expected that the user will want to be able to SSH into the systems from the outside at all times.
The default alteration for the IPTables start-up script is such that it will “fail safe”. This means that if the IPTables rules are incorrect, the system will not open up the IPTables rule set completely. Instead, the system will deny access to all ports except port 22 to allow for recovery via SSH.
There are many examples of how to use the IPTables module in the source code;
the Apache module at /etc/puppet/environments/simp/modules/apache
is a
particularly good example. In addition, look at the definitions in the IPTables
module to understand their purpose and choose the best option. Refer to the
IPTables page of the Developers Guide
for a good summary and example code (HTML version only).
svckill.rb¶
To ensure that the system does not run more services than are required, the
svckill.rb
script has been implemented to stop any service that is not
properly defined in the Puppet catalogue.
To prevent services from stopping, refer to the instructions in the My Services Are Dying! Troubleshooting section.
GUI¶
SIMP was designed as a minimized system, but it is likely that the user will want to have a GUI on some of the systems. Refer to the HOWTO Manage Workstation Infrastructures section for information on setting up GUIs for the systems.
User Management¶
This chapter explains how to manage users in the default SIMP environment.
Managing Users with Lightweight Directory Access Protocol (LDAP)¶
Prepare SIMP ldifs¶
SIMP natively uses OpenLDAP for user and group management. Actionable
copies of the LDAP Data Interchange Format (.ldif) files can be found
on the system in the /usr/share/doc/simp-doc-<Version>/ldifs
directory.
Copy these files into /root/ldifs
and fix their Distinguished Names:
mkdir /root/ldifs
cp /usr/share/doc/simp-doc-*/ldifs/* /root/ldifs
cd /root/ldifs
sed -i 's/dc=your,dc=domain/<your actual DN information>/g' \*.ldif
Warning
Do not leave any extraneous spaces in LDIF files!
# Use `:set list` in vim to see hidden spaces at the end of lines.
# Use the following to strip out inappropriate characters
sed -i \
's/\\(^[[:graph:]]\*:\\)[[:space:]]\*\\ ([[:graph:]]\*\\) \\[[:space:]]\*$/\\1\\2/' \
file.ldif
Note
Use the [
and ]
characters to scroll right when using
ELinks.
Add a User¶
Users can be added with or without a password. Follow the instructions in the following sections.
Note
Every user must belong to a unique, primary group, but can optionally belong to one or more, secondary groups.
Warning
This process should not be used to create users or groups for daemon processes unless the user has experience.
Add a User with a Password¶
To add a user with a password to the system, along with a unique group for that user:
- Login to the LDAP server as
root
. - Use the
slappasswd
command to generate a password hash for a user. - Edit the
/root/ldifs/adduser_with_password.ldif
shown below.
dn: cn=<username>,ou=Group,dc=your,dc=domain
objectClass: posixGroup
objectClass: top
cn: <username>
gidNumber: <Unique GID Number>
description: "<Group Description>"
dn: uid=<username>,ou=People,dc=your,dc=domain
uid: <username>
cn: <username>
givenName: <First Name>
sn: <Last Name>
mail: <e-mail address>
objectClass: inetOrgPerson
objectClass: posixAccount
objectClass: top
objectClass: shadowAccount
objectClass: ldapPublicKey
shadowMax: 180
shadowMin: 1
shadowWarning: 7
shadowLastChange: 10701
sshPublicKey: <some SSH public key>
loginShell: /bin/bash
uidNumber: <some UID number above 500>
gidNumber: <some GID number above 500>
homeDirectory: /home/<username>
userPassword: <slappasswd generated SSHA hash>
pwdReset: TRUE
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapadd -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/adduser_with_password.ldif
Ensure that an administrative account is created as soon as the SIMP system has
been properly configured. Administrative accounts should belong to the
administrators
LDAP group (gidNumber 700). Members of this LDAP group can
utilize sudo sudosh for privilege escalation.
Note
The pwdReset: TRUE
command causes the user to change the
assigned password at the next login. This command is useful to
pre-generate the password first and change it at a later time.
This command appears to be broken in some versions of nss_ldap
.
Therefore, to avoid future issues set shadowLastChange
to a value
around 10000.
Warning
The initial password set for a user must confform to the password policy
or the user will not be able to login and change his/her password, even
though the password reset has been enabled by pwdReset: TRUE
.
Add a User without a Password¶
To add a user without a password to the system, along with a unique group for that user
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/adduser_no_password.ldif
shown below.
dn: cn=<username>,ou=Group,dc=your,dc=domain
objectClass: posixGroup
objectClass: top
cn: <username>
gidNumber: <Unique GID Number>
description: "<Group Description>"
dn: uid=<username>,ou=People,dc=your,dc=domain
uid: <username>
cn: <username>
givenName: <First Name>
sn: <Last Name>
mail: <e-mail address>
objectClass: inetOrgPerson
objectClass: posixAccount
objectClass: top
objectClass: shadowAccount
objectClass: ldapPublicKey
sshPublicKey: <some SSH public key>
loginShell: /bin/bash
uidNumber: <some UID number above 500>
gidNumber: <GID number from above>
homeDirectory: /home/<username>
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapadd -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/adduser_no_password.ldif
Remove a User¶
To remove a user to the system, along with a unique group for that user:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/del_user.ldif
shown below.
dn: cn=<User UID>,ou=Group,dc=example,dc=domain
changeType: delete
dn: uid=<User UID>,ou=People,dc=example,dc=domain
changeType: delete
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapmodify -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/del_user.ldif
Additional Common LDAP Operations¶
As described below, other useful operations can be executed using the remaining LDIF files.
Add a Group¶
SIMP systems are preconfigured with two groups:
administrators
(700): Group that has both sudosh and ssh privilegesusers
(100): Group that does not have sudosh or ssh privileges
To add another group:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/add_group.ldif
shown below.
dn: cn=<groupname>,ou=Group,dc=your,dc=domain
objectClass: posixGroup
objectClass: top
cn: <groupname>
gidNumber: <Unique GID number>
description: "<Some useful group description>"
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapadd -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/add_group.ldif
Remove a Group¶
To remove a group:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/del_group.ldif
shown below.
dn: cn=<Group Name>,ou=Group,dc=your,dc=domain
changetype: delete
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapmodify -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/del_group.ldif
Add Users to a Group¶
To add users to a group:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/add_to_group.ldif
shown below.
dn: cn=<Group Name>,ou=Group,dc=your,dc=domain
changetype: modify
add: memberUid
memberUid: <UID1>
memberUid: <UID2>
...
memberUid: <UIDX>
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapmodify -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/add_to_group.ldif
Remove Users from a Group¶
To add users to a group:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/del_to_group.ldif
shown below.
dn: cn=<Group Name>,ou=Group,dc=your,dc=domain
changetype: modify
delete: memberUid
memberUid: <UID1>
memberUid: <UID2>
...
memberUid: <UIDX>
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapmodify -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/del_from_group.ldif
Update a User’s SSH Public Key¶
To update an SSH public key:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/mod_sshkey.ldif
shown below.
dn: uid=<User UID>,ou=People,dc=your,dc=domain
changetype: modify
replace: sshPublicKey
sshPublicKey: <User OpenSSH Public Key>
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapmodify -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldif/mod_sshkey.ldif
Force a Password Reset¶
To force a password reset for a user:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/force_password_reset.ldif
shown below.
dn: uid=<username>,ou=People,dc=your,dc=domain
changetype: modify
replace: pwdReset
pwdReset: TRUE
-
replace: shadowLastChange
shadowLastChange: 10101
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapmodify -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/force_password_reset.ldif
Note
The ldapmodify
command is only effective when using the ppolicy
overlay. In addition, the user’s shadowLastChange must be changed to a
value prior to the expiration date to force a PAM reset.
Lock an LDAP Account¶
To lock an LDAP account:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/lock_user.ldif
shown below.
dn: uid=<username>,ou=People,dc=your,dc=domain
changetype: modify
replace: pwdAccountLockedTime
pwdAccountLockedTime: 000001010000Z
-
delete: sshPublicKey
-
replace: userPassword
userPassword: !!
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapmodify -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/lock_user.ldif
Note
The ldapmodify
command is only effective when using the
ppolicy overlay.
Unlock an LDAP Account¶
To unlock an LDAP account:
- Login to the LDAP server as
root
. - Edit the
/root/ldifs/unlock_account.ldif
shown below.
dn: uid=<User UID>,ou=People,dc=your,dc=domain
changetype: modify
delete: pwdAccountLockedTime
- Type the following, substituting your DN information for
dc=your,dc=domain
:
ldapmodify -Z -x -W -D "cn=LDAPAdmin,ou=People,dc=your,dc=domain" \
-f /root/ldifs/unlock_account.ldif
Note
The ldapmodify
command is only effective when using the
ppolicy overlay.
Troubleshooting Issues¶
If a user’s password is changed in LDAP or the user changes it shortly after
its initial setup, the “Password too young to change” error may appear. In this
situation, apply the pwdReset:TRUE
option to the user’s account as
described in Add a User with a Password.
Managing Local/Service Users¶
Though the SIMP team highly recommends using LDAP to centrally manage your users, you may occasionally need to set up a service account or specific local users on your systems.
This section walks you through doing this in a way that is compatible with SIMP.
The following examples assume that you are using the site
module to set up
your users. The examples may easily be extrapolated into defined types if you
wish but are presented as classes for simplicity.
If you are not familiar with setting up SSH keys, you may want to follow the relevant GitHub documentation.
Service Account¶
class site::service_account {
include '::ssh'
$_svc_account_user = 'svcuser'
$_svc_account_group = 'svcgroup'
$_svc_account_id = '1777'
$_svc_account_homedir = "/var/local/${_svc_account_user}"
# Since this is a service account, automatically generate an SSH key for
# the user and store it on the Puppet master for distribution.
$_svc_account_ssh_private_key = ssh_keygen($_svc_account_user, '2048', true)
$_svc_account_ssh_public_key = ssh_keygen($_svc_account_user, '2048')
group { $_svc_account_group:
gid => $_svc_account_id,
allowdupe => false,
}
user { $_svc_account_user:
uid => $_svc_account_id,
allowdupe => false,
gid => $_svc_account_group,
home => $_svc_account_homedir,
managehome => true,
shell => '/bin/bash'
}
file { "${_svc_account_homedir}/.ssh":
ensure => directory,
owner => $_svc_account_user,
group => $_svc_account_group,
mode => '0600'
}
ssh_authorized_key { $_svc_account_user:
type => 'ssh-rsa',
key => $_svc_account_ssh_public_key,
target => "${_svc_account_homedir}/.ssh/authorized_keys",
require => [
File["${_svc_account_homedir}/.ssh"],
User[$_svc_account_user]
]
}
file { "${_svc_account_homedir}/.ssh/id_rsa":
mode => '0600',
owner => $_svc_account_user,
group => $_svc_account_group,
content => $_svc_account_ssh_private_key
}
file { "/etc/ssh/local_keys/${_svc_account_user}":
owner => 'root',
group => $_svc_account_group,
mode => '0644',
source => "puppet:///site/ssh_autokeys/${_svc_account_user}.pub"
}
sudo::user_specification { $_svc_account_user:
user_list => $_svc_account_user,
host_list => [$::fqdn],
runas => 'root',
cmnd => ['/bin/cat /var/log/app.log'],
passwd => false
}
# Allow this service account from everywhere
pam::access::manage { "Allow ${_svc_account_user}":
users => $_svc_account_user,
origins => ['ALL']
}
}
Local User Account¶
class site::local_account {
include '::ssh'
$_local_account_user = 'localuser'
$_local_account_group = 'localgroup'
$_local_account_id = '1778'
# You'll probably want this in /home unless you're using NFS
$_local_account_homedir = "/home/${_local_account_user}"
# You'll need to get this from the user as it is their public key.
$_local_account_ssh_public_key = 'AAA...=='
group { $_local_account_group:
gid => $_local_account_id,
allowdupe => false,
}
user { $_local_account_user:
uid => $_local_account_id,
allowdupe => false,
gid => $_local_account_group,
home => $_local_account_homedir,
managehome => true,
shell => '/bin/bash'
}
# If you want your local user to have a password (no key),
# omit this block and manually assign a password to the user
# after creation (passwd <user>)
file { "/etc/ssh/local_keys/${_local_account_user}":
owner => 'root',
group => $_local_account_group,
mode => '0644',
source => $_local_account_ssh_public_key
}
sudo::user_specification { $_local_account_user:
user_list => $_local_account_user,
host_list => [$::fqdn],
runas => 'root',
cmnd => ['/bin/cat /var/log/app.log'],
passwd => false
}
# Allow this account from everywhere
pam::access::manage { "Allow ${_local_account_user}":
users => $_local_account_user,
origins => ['ALL']
}
}
Testing¶
The table below lists the steps to test that the configuration was applied correctly.
- Log on to a server that has the template code configuration applied.
- Type
su - ***<USERNAME>***
- Type
exec /usr/bin/ssh-agent /bin/bash
to ensure that ssh-agent has a shell running. - Type
/usr/bin/ssh-add
to attach the user’s certificates. - Optional: Type
/usr/bin/ssh-add -l
to double check that the user’s certificates were added successfully. - Type
ssh ***<HOST>***
to SSH to a target machine that has the template code configuration applied.
If successful, the user should be authenticated and gain access to the target machine without entering a password.
If the user is prompted for a password, check to see if the permissions are set
up properly and that the certificate keys are in the correct locations. In
addition, check the /etc/security/access.conf
file to ensure that it
contains the user or user’s group in an allow statement. See access.conf(5)
for details.
Managing SSSD LOCAL Domain And Users¶
Though the SIMP team highly recommends using LDAP to centrally manage your users, you may wish to create users within the SSSD LOCAL provider domain. Note that you can run LOCAL and LDAP domains concurrently!
This section walks you through doing this in a way that is compatible with SIMP.
The following examples assume that you are using the site
module to set up
your users. The examples may easily be extrapolated into defined types if you
wish but are presented as classes for simplicity.
SSSD LOCAL Domain¶
Set up a LOCAL domain in SSSD. If one already exists in /etc/sssd/sssd.conf, you can optionally skip this step. If the LOCAL domain is not managed with SIMP, you may experience difficulties.
class site::sssd_local {
sssd::provider::local { 'LOCAL': }
sssd::domain { 'LOCAL':
description => 'Default Local Domain',
id_provider => 'local',
auth_provider => 'local'
}
}
In Hiera, you will need to add the LOCAL sssd domain to
sssd::domains
if it does not already exist. If you wish to include the
LOCAL domain in all of $::client_nets
, simply modify the existing
sssd::domains
variable in simp_def.yaml. Include site::sssd_local
in
default.yaml
, and set local
as the domain id_provider
.
In simp_def.yaml
:
sssd::domains:
- 'LOCAL'
- <existing domains, ex. LDAP>
In default.yaml
:
sssd::domain::id_provider: 'local'
classes:
- 'site::sssd_local'
Run puppet
. A LOCAL domain should be created and referenced in
/etc/sssd/sssd.conf
. The sssd service should be running.
Adding an SSSD Local User¶
Create a local user, using sss_useradd
. See the sss_useradd
man page
for more options.
sss_useradd <user> -h </path/to/home/dir> -u <uid> -m -k /etc/skell
To update an EL6 system, perform the following step
vipw
<user>:x:<uid>:<gid>::</path/to/home/dir>:/bin/bash
Next, set the user’s password. As root, run:
passwd <user>
Giving The User Access¶
pam::access::manage { '<user> access':
permission => '+',
users => '<user>',
origins => ['ALL'],
order => '1000'
}
sudo::user_specification { '<user> privs':
user_list => ["<user>"],
host_list => [$::fqdn],
runas => 'root',
cmnd => ['/bin/cat /var/log/app.log'],
passwd => false
}
You’re done! You should be able to id <user>
, su - <user>
, and run
commands allowed by sudo rules.
Test authentication by ssh-ing as the user
onto the host machine, with the
password specified after user creation. If you want to set up an ssh key,
you may want to follow the relevant GitHub documentation.
Hiera Overview¶
SIMP now uses Hiera natively instead of Extdata. From Puppet Labs website: Hiera is a key/value lookup tool for configuration data, built to set node-specific data without repeating yourself. It is an attempt to make SIMP more configurable to you, the end user. It configures Puppet in two ways: automatic parameter lookup/hiera lookup functions, and assigning classes to nodes. The former allows you to generate reusable code and concentrates parameter assignment to one directory. The latter is a supplement to the failed inheritance model.
Setting Parameters¶
Automatic Lookup You can now safely declare any class on any node with ‘include’, even if the class is parameterized. Before Hiera, this was not possible. Puppet will automatically retrieve class parameters from Hiera using keys. Add a key with a value pair to an appropriate yaml file, say default.yaml, as such:
Adding a Key/Value Pair to Hiera Examples
---
classfoo::parameter_bar: "Woo"
classfoo::parameter_baz: "Hoo"
You can then ‘include classfoo’ on any node, with parameter_bar and parameter_baz defaulting to Woo and Hoo, respectively.
Lookup Functions You are not required to set up your hierarchy for automatic variable lookup. Using three functions, you can query Hiera for any key.
The first is hiera
. This uses standard priority lookup and can
retrieve values of any data type from Hiera. If no key is found, a
default should be included. $myvar = hiera('parameter_bar', 'Woo')
The second is hiera_array
. This uses an array merge lookup. It
retrieves all array values for a given key throughout the entire
hierarchy and flattens them into a single array.
The third is hiera_hash
. This uses a hash merge lookup. It retrieves
all hash values for a given key throughout the entire hierarchy and
merges them into a single hash.
Assigning Classes to Nodes¶
Assigning classes to nodes is done with the hiera_include
function.
Hiera does an array merge lookup on ‘tags’ to retrieve classes which
should be included on a node. In SIMP, we place
hiera_include('classes')
in /etc/puppet/environments/simp/manifests/site.pp
. Since
site.pp is outside of any node definition and below all top scope
variables, every node controlled by puppet will get every class tagged
with ‘classes’ in its hierarchy. Additionally, simp_def.yaml in is
the hierarchy of every node, so every node will receive those classes
(by default).
Assigning Defined Types to Nodes¶
Defined types do not have the ability to receive parameters via Hiera in
the traditional sense. To include a defined type on a node, one could
use create_resources, but this is messy and discouraged. Instead, make a
site class /etc/puppet/environments/simp/modules/site/manifests/my_site.pp
.
For example, to include tftpboot linux_model and assign_host on your
puppet server, puppet.your.domain:
Add the following code to a file tftpboot.pp in your site/manifests directory:
# in /etc/puppet/environments/simp/modules/site/manifests/tftpboot.pp
# Set KSSERVER statically or use Hiera for lookup
class site::tftpboot {
include 'tftpboot'
tftpboot::linux_model { 'EL_MAJOR_VERSION':
kernel => 'EL_MAJOR_VERSION_x86_64/vmlinuz',
initrd => 'EL_MAJOR_VERSION_x86_64/initrd.img',
ks => "https://KSSERVER/ks/pupclient_x86_64.cfg --noverifyssl inst.noverifyssl",
extra => 'ipappend 2'
}
tftpboot::assign_host { 'default': model => 'EL_MAJOR_VERSION' }
}
- Then add the following code to your servers Hiera file,
/etc/puppet/environments/simp/hieradata/hosts/puppet.your.domain.yaml
---
classes:
- 'site::tftpboot'
SIMP Hiera File Structure¶
/etc/puppet/hiera.yaml
Hiera’s config file, used to control the hierarchy of your backends./etc/puppet/environments/simp/hieradata/
Default location of the yaml files which contain your node data/etc/puppet/environments/simp/hieradata/simp_classes.yaml
The list of default classes to include on any SIMP system./etc/puppet/environments/simp/hieradata/simp_def.yaml
Contains the variables needed to configure a working SIMP system. Modified by simp-config./etc/puppet/environments/simp/hieradata/hosts/
By populating this directory with some.host.name.yaml file, you can assign parameters to host some.host.name/etc/puppet/environments/simp/hieradata/domains/
Same principal as hosts, but domain names./etc/puppet/manifests/
Contains site.pp and all other node manifests. BE CAREFUL when modifying this directory, site.pp contains your globals. This directory can be used to supplement or even REPLACE Hiera, with nodes. Note that Hiera cannot regex hostnames to apply manifests, so a node manifest will have to be created here if you wish to have that ability.
Troubleshooting Common Issues¶
How to troubleshoot common problems that occur when installing and using SIMP.
My Services Are Dying!¶
The following section describes how to mitigate issues relating to destructive reasoning and avoiding destruction of the SIMP system.
Destructive Reasoning with svckill.rb¶
Most security guides that have been published on the Internet strongly suggest disabling all services that are not necessary for system operation. However, to list every possible service that may be controlled by the chkconfig type on a given system in a manifest would not be useful and would bloat the memory space of the running Puppet process.
As an alternative solution, the SIMP Team implemented the svckill.rb script that runs with every Puppet run.
The svckill.rb script:
- Collects a list of all services on the system. These are the same
services that the user sees after typing
chkconfig --list
- Ignores certain critical services, including Puppet, IPtables, and the network.
- Collects a list of all services that are defined in the manifests and modules.
- Ensures that every service that is defined in the manifests and modules is excluded from the list of services to kill.
- Kills and disables everything else.
Avoiding Destruction¶
If certain services should not be killed, declare them in the node manifest space.
Note
The key is to declare the services and not set them to any other option. By adding them to the manifest, the svckill.rb script will ignore them.
The example below demonstrates this action, assuming that the keepmealive service is added to the chkconfig.
preventing a service from being killed by svckill.rb
service { "keepmealive": }
Why Can’t I Login?!¶
If you’ve reached this page, you’re having issues logging into your system with a newly created account.
In almost all cases, this is because either your user has not been placed in a group allowed to access the system, your DNS is setup incorrectly, or your PKI certificates are invalid.
SSSD Password Checks¶
SSSD has been made the default name service caching service in SIMP. During this process, we discovered that SSSD will enforce password complexity restrictions upon login. This means that, if your password does not meet the system password complexity requirements, you will not be able to login until an administrator changes your password to something stronger.
For the default complexity rules, see the What is the Password Complexity for SIMP? FAQ.
PAM Access Restrictions¶
By default, SIMP uses the pam_access.so
PAM module to restrict
access on each individual host. While this may not seem as flexible as some
methods, it is the most failsafe method for ensuring that you don’t
accidentally interrupt services due to network issues connecting to your
LDAP server.
To allow a user to access a particular system, you need to use the pam::access::manage define as shown below.
pam::access::manage { 'Allow the security group into the system':
users => ['(security)'],
origins => ['ALL'],
comment => 'The core security team'
}
pam::access::manage { 'Allow bob into the system from the proxy only':
users => ['bob'],
origins => ["proxy.${::domain}"],
comment => 'Bob the proxied'
}
Faillock¶
If a user fails to authenticate properly in 5 consecutive tries (the
default pam::deny
), PAM will lock the account.
To see a list of user authentication attempts, run faillock
.
If a user is marked as invalid (I) or reaches the max number of attempts, you
will need to reset faillock
before authentication can occur. To do so, run
faillock --reset --user <user>
LDAP Lockout¶
If your account is in LDAP, you may have locked yourself out. Like
PAM, LDAP has a maximum number of logins, 5 by default.
See openldap::server::conf::default_ldif::ppolicy_pwd_max_failure
.
To determine if the account is locked, run the following on the LDAP server:
slapcat -a uid=<user>
If you see pwdAccountLockedTime
then the account is locked, and you will
need to follow the instructions in Unlock an LDAP Account to unlock it.
Troubleshooting DNS¶
If PAM is not the issue, you may be having DNS issues. This can evidence itself in two ways.
First, per the ‘Bob’ example above, you may be using an FQDN to identify a host on your network. If DNS is not properly configured, then there is no way for the host to understand that you should have access from this remote system.
Second, the default PKI settings in SIMP ensure that all connections are validated against the FQDN of the client system. In the case of an LDAP connection, a misconfiguration in DNS may result in an inability to authenticate against the LDAP service.
In the following sections, we will assume that we have a host named
system.my.domain
with the IP address 1.2.3.4
.
Testing a Forward Lookup¶
The following should return the expected IP address for your system.
$ nslookup system.my.domain
PKI Issues¶
If both PAM and DNS appear to be correct, you should next validate that your PKI certificates are both valid and functional.
See Checking Your SIMP PKI Communication for additional guidance.
Checking Your SIMP PKI Communication¶
SIMP comes with a fully functional Public Key Infrastructure in the guise of an aptly named Fake CA.
The Fake CA can be very useful for getting your environment running prior to obtaining proper certificates from an official CA.
Warning
The Fake CA is not hardware backed by default and should not be used for sensitive cryptographic operations unless there is no other alternative
Each Puppet environment contains its own Fake CA and, therefore, you must know which environment is serving the systems that are having issues prior to proceeding.
For this section, we will assume that it is the ‘simp’ environment located at the active environment path.
Note
Just as with Puppet certificates, the time on your system must be correct and your DNS must be fully functional. Check that these are correct before proceeding.
For the remainder of this section, we will assume that the FQDN of the system with issues is ‘system.my.domain’ and the LDAP server to which it is attempting to connect is ‘ldap.my.domain’.
Navigate to the environment keydist directory and validate the system certificates.
When validating certificates, you want to make sure that there are no errors regarding your certificate or CA. Ideally, the command will simply return the string ‘OK’.
$ cd `puppet config print environmentpath`/simp/keydist
# Validate the client system
$ openssl verify -CApath cacerts system.my.domain
# Validate the LDAP system
$ openssl verify -CApath cacerts ldap.my.domain
If there are any issues, you may need to follow the steps in Apply Certificates to generate new certificates for one or more of your hosts.
Puppet Certificate Issues¶
Puppet Client Certificate Issues¶
Most of the time, clients will have certificate issues due to the system clock not being properly set. Before taking any other measures, make sure that your system clock is correct on both the mmaster and the clients!
If you need to fix client certificate issues outside of time, first make sure that you don’t have a certificate already in place on your Puppet server.
$ puppet cert list --all
If you do have a certificate in place, and need to register a client with the same name, remove that client’s certificate from the system.
$ puppet cert clean <fqdn.of.the.client>
Warning
If you delete the Puppet server’s certificate, you will need to re-deploy Puppet certificates to all of your nodes!
Warning
NEVER RUN ``puppet cert clean –all``
Puppet Client Re-Registration¶
If, for some reason, you need to re-register your client with a new server, simply run the following on your client once the server is ready.
$ rm -rf `puppet config print ssldir`
$ puppet agent -t
Puppet Server Certificate Issues¶
Warning
This is destructive to your Puppet communications. This should only be used if you have no other options.
If the Puppet server has certificate issues, regenerate the server CAs. To do
this, remove the contents of the ssl folder and regenerate those .pem
files.
The following table lists the steps to regenerate the server CAs:
$ service puppetserver stop
$ rm -rf /var/lib/puppet/ssl
$ puppet cert list --all
$ puppet cert --generate ***<fqdn>***
$ service puppetserver start
$ puppet agent --test
SIMP HOWTO Guides¶
This chapter provides guidance on configuration various common capabilities in the SIMP system.
HOWTO Setup Central Log Collection¶
This section covers methods of centralized log collection supported by SIMP.
Centralized Rsyslog¶
SIMP provides a pre-built set of classes within the rsyslog module for enabling centralized logging within the infrastructure.
There are no provisions here for setting up shared storage or deduplication. This is inherently not a use case that Rsyslog is well designed for and we suggest that you look at an alternative. We have incorporated the combination of Elasticsearch, Logstash, and Grafana (ELG) into the SIMP ecosystem as a well-known, Open Source, software collection.
Enable the Server¶
To enable the pre-built log server, add the following example code to the designated centralized logging node.
Code to Enable the Server Logging Examples
classes :
- 'simp::rsyslog::stock'
Enable the Clients¶
To have clients send data to the server, make the following changes to
the /etc/puppet/environments/simp/hieradata/simp_def.yaml
file.
Code to Enable the Client Logging Examples:
log_server="fqdn.of.your.log.server"
Elasticsearch, Logstash, and Grafana¶
This chapter gives instruction for getting a basic configuration of Logstash working in a SIMP environment.
If these instructions don’t work for you, please take a look at the README in
the SIMP Logstash module, particularly the acceptance tests in the
spec/acceptance
directory.
Obtaining the Required Packages¶
As an optional component in the SIMP infrastructure, the ELG packages are not included in the SIMP distribution.
You will need to proceed to the vendor sites to obtain the require RPMs and put them in an accessible YUM repository. The SIMP modules were designed with the assumption that you would be using a repository for all of your installations.
The following versions have been tested against the SIMP ELG Stack:
- Elasticsearch : 2.3
- Logstash : 2.3
- Grafana : 3.1
Logstash¶
Logstash is an Open Source tool that provides a means for SIMP implementations to have logs and events collected, searched, and forwarded (filtered or unfiltered) to another host. SIMP comes with three separate but related modules. The modules are:
- Logstash: Installs the RPMs and configuration needed for log inputs, filters, and outputs.
- Grafana: Installs the RPMs and configuration needed for the Grafana web interface.
- Elasticsearch: Installs the RPMs and configuration needed for Elasticsearch.
Warning
The Logstash class is incompatible with the SIMP rsyslog::stock::server
class!
You cannot enable both of them on the same sever.
Logstash Architecture¶
The Logstash architecture is quite straightforward. It takes inputs from various sources, optionally applies filters, and outputs the results to a specified target. It’s likely that you can already forward logs to Logstash and output them in a useful format as part of your existing architecture.
Logstash filters can manipulate logs after ingest and before output. Examples of existing filters include fixing logs to split/combine lines, adding fields, normalizing time stamps, and adding GeoIP fields. Depending on the type of log manipulation that is desired, there is likely a filter and Logstash documentation that already exists.
SIMP Logstash Architecture¶
Combining the SIMP Logstash, Elasticsearch, and Grafana modules provides an functioning log collection, reduction, and search capability. Unless scale dictates otherwise, these three modules can easily be applied to a single host.
The intent of providing Logstash in SIMP is to replace the default
Centralized Rsyslog server with a capability that is easier to search and analyze
over time. Once your Logstash server is set up, you simply need to direct your
hosts to forward logs to your Logstash server. In a default SIMP configuration,
this can be done by setting the $log_server
variable in Hiera.
It is up to each implementation to define and apply filters that meet their local requirements. While multiple output targets may be defined, SIMP only defines the Elasticsearch output by default. Please see the Elasticsearch Puppet module for details on how to define additional output targets.
The following diagram depicts the standard SIMP data flow through the Logstash system.
SIMP Logstash Deployment¶
The provided SIMP modules for Logstash, Elasticsearch, and Grafana have been built with connection security in mind. Overriding these settings could adversely affect the security of the logging infrastructure. The following list describes the security features in place with the default SIMP module settings:
Warning
The native (Java) Elasticsearch connections are not encrypted!
This will be remedied in the future as sufficient methods are found. Presently, you can look at the SIMP IPSec implementation to encrypt communication between your Elasticsearch nodes.
- User Name and Password Protection for Grafana: The Grafana web can
be exposed to a defined list of hosts. If you are connecting to Grafana from anything other than the localhost, a user name and password is required for authentication. Both LDAP and local database users are supported.
- Syslog over Stunnel: The default behavior in SIMP is to encrypt syslog traffic over Stunnel. This remains the case with Logstash. Unencrypted traffic is also supported for network devices.
- Limiting Web Actions: The Grafana module restricts what HTTP commands a user can perform on the Elasticsearch data store. Full POST action must be given to the Logstash nodes and some nodes may require DELETE capabilities. Logstash hosts should be tightly controlled so that administrative users cannot modify data inside of Elasticsearch with carefully crafted commands. This is one reason that we use syslog on the local hosts.
Important
The Puppet modules for Logstash, Grafana, and Elasticsearch contain dozens of variables that may be manipulated.
You should read each product’s documentation and ensure you understand any setting that is changed from the default SIMP values. Changes can affect both security and functionality of the system.
Logstash Setup¶
The storage requirements for Logstash and Elasticsearch vary depending
on how long you plan on keeping logs. When using Elasticsearch, the logs are
formatted for Elasticsearch and stored in /var/elasticsearch
. You can also
configure how many days of data you wish to keep in Elasticsearch
(keep_days => '99')
. Therefore, you should ensure you have enough space on
/var
to keep your defined number of days worth of logs.
As you grow your Elasticsearch cluster to handle increasing log loads,
you will want to ensure that your keep_days
is set to handle your
entire cluster appropriately.
Note
You should have at least 4G of memory available on any Elasticsearch node.
Important
It is not advised to install the ELG stack on your Puppet management infrastructure as both tend to use large amounts of system resources.
The following example can be applied to a single host with a large
/var
volume and 4GB of memory.
You can extend and replicate this setup on as many systems as necessary to provide ingest and dashboard redundancy. Alternatively, you can split Grafana and Logstash to do allow greater resource dedication.
We do recommend that you have an Elasticsearch node on the Logstash system to reduce the likelihood that Logstash will hang when trying to find a non-existent storage node.
Optimization of your Elasticsearch infrastructure depends on many factors and should be handled once you decide how far your systems is going to expand. Please be aware that scaling is highly dependent on how your actually use your cluster in production.
We would recommend a search on Elasticsearch Scaling prior to setting up your initial cluster.
---
# Add these settings to your Logstash node
## Set up Logstash ##
# This is required due to a bug in the 'elastic' logstash module
logstash::logstash_user : 'logstash'
logstash::logstash_group : 'logstash'
# Listen on unencrypted UDP for legacy network devices
simp_logstash::input::syslog::listen_plain_udp
# Send all output to the local Elasticsearch instance
simp_logstash::outputs :
- 'elasticsearch'
# Keep 30 days of logs
simp_logstash::clean::keep_days: '30'
## Set up Elasticsearch ##
# Make this unique per cluster!
simp_elasticsearch::cluster_name : 'some_unique_cluster_name'
# We're assuming that you only have one interface here. If you don't, set
# this to the appropriate value for your system
simp_elasticsearch::bind_host : "%{::ipaddress}"
# This needs to be a list of *all* of the Elasticsearch nodes in the cluster.
# This is done to restrict communications to only trusted nodes
#
# Any node not entered here will not be connected to and will not be allowed
# to communicate with this host.
#
# SIMP does not support multicast connectivity for security reasons.
simp_elasticsearch::unicast_hosts :
- "%{::fqdn}:9300"
- "es1.%{::domain}:9300"
- "es2.%{::domain}:9300"
## Classes that you need to include for this setup
classes:
- 'simp_elasticsearch'
- 'simp_logstash'
# Include this if you wish to auto-purge your Elasticsearch records
- 'simp_logstash::clean'
In the case of the Elasticsearch node setup below, it may be better to
use a group match to pull your Hiera settings. To do this, you should
add the following to your site.pp
file for your environment.
if $trusted['certname'] =~ /es\d+\.your\.domain/ {
$hostgroup = 'elasticsearch'
}
Then, ensure that a file called ‘elasticsearch.yaml’ is present in the
/etc/puppet/environments/simp/hieradata/hostgroups/
directory and
contains the following content.
---
# All nodes running elasticsearch in your cluster should use
# these settings.
simp_elasticsearch::cluster_name: 'some_unique_cluster_name'
# The replicas can be no more than the total number of Elasticsearch nodes
# that you have in your cluster.
simp_elasticsearch::replicas: '2'
simp_elasticsearch::unicast_hosts :
- "%{::fqdn}:9300"
- "es1.%{::domain}:9300"
- "es2.%{::domain}:9300"
classes:
- 'simp_elasticsearch'
Make sure you point your clients to the Logstash server by setting the
log_server
variable to the fqdn
of the Logstash server in
Hiera.
Now that you have a functional logging setup, you’ll probably want to deploy a GUI to provide the ability to generate user dashboards as well as dynamic log analysis.
The SIMP team chose to support the Open Source Grafana project due to its inbuilt authentication support but you could easily point Kibana or another interface of your choosing at your Elasticsearch cluster.
Note
It is suggested that you install Grafana on a host that is not an Elasticsearch node unless using a single-node deployment.
This is to prevent any vulnerabilities in Grafana from providing direct access to your Elasticsearch infrastructure
Note
By default, the Grafana administrative password is randomly set using simplib passgen(). You can use the simp passgen command to obtain the password for your environment.
Note
The rubygem-toml
package must be present on your puppet compile servers
for the Grafana puppet module to function properly.
If you do not install this via Kickstart, you will need two runs of Puppet to complete the Grafana installation since the TOML Ruby Gem will not be able to be installed prior to Puppet loading.
Warning
Do not point Grafana directly at your Logstash node unless you have a single-node deployment.
Grafana has the ability to put extreme loads on your Elasticsearch infrastructure with poorly formed queries and should be connected to a node that is not used for ingest.
Targeting your Grafana host or hostgroup, apply the following Hiera settings.
---
# Array of networks that are allowed to access your Grafana dashboard. Uses
# the standard SIMP 'client_nets' semantics.
#
# In this case, we're allowing everyone in and trusting that Grafana will do
# its job properly.
simp_grafana::client_nets:
- 'ALL'
classes:
- 'simp_grafana'
After your Puppet run, you should be able to connect to port 443 on your Grafana host and authenticate with the administrative user.
Documentation on LDAP integration is forthcoming...
HOWTO Change Puppet Masters¶
It may be necessary to change the Puppet Master. To point a particular client to a new Puppet Master, follow the steps in the sections below.
On the Client¶
Enter the following changes into the /etc/puppet/puppet.conf file.
Code Changes on Client to Switch Puppet Masters
server = new.puppet.master.fqdn
ca_server = new.puppet.master.fqdn
ca_port = 8141
To remove all files and sub-directories in the /var/lib/puppet/ssl
directory, type cd /var/lib/puppet/ssl
. Then type rm -rf ./*
.
Assuming the new Puppet Master has been set up to properly accept the
client, type puppet agent --test
to run a full Puppet run while
pointing to the new server.
If all goes well, the client will now be synchronized with the new Puppet Master. If not, refer to the SIMP Server Installation section of the SIMP Install Guide and ensure that the new Puppet Master was set up properly.
On the Old Puppet Master¶
Remove or comment out all items for the client node in the /etc/puppet/environments/simp/hieradata/hosts
space.
To run puppet agent
in noop mode to ensure that there are no
inadvertent errors, type puppet agent --test --noop
.
HOWTO Disable DHCP¶
If you have an existing infrastructure and do not want to use SIMP as a DHCP server, here is how to disable it:
In the host yaml file for your SIMP server, set the following variable in Hiera:
simp::kickstart_server::manage_dhcp: false
Alternatively, if you don’t want SIMP to be a kickstart server, either, just
remove simp::kickstart_server
from your SIMP host’s yaml file.
HOWTO Disable Named¶
If you already have an authoritative DNS server on your network, make sure your
DNS server list in hieradata/simp_def.yaml
doesn’t include your machine’s
local IP address. SIMP should automatically turn off the named
service.
However, if you are running an alternative DNS provider on SIMP and need to
keep your IP address in resolve.conf
, set
simplib::resolv::named_autoconf: false
in Hiera.
HOWTO Discard Mail to Root¶
In many environments, you may have a central log collection facility, such as Logstash, for analyzing your log data. In this case, you may want to disable the default behavior of sending all e-mail to root.
The simplest method of discarding root’s e-mail is to redirect it to
/dev/null
on the system using the following Puppet code.
Warning
This is a very brute force approach and should only be used if you are absolutely sure that you want to discard all of root’s e-mail on your systems.
::postfix::alias { 'root':
values => '/dev/null'
}
HOWTO Build a Bootable DVD from the SIMP tarball¶
SIMP is an overlay on top of Enterprise Linux, not a complete distribution. As such, you must build a bootable DVD if provided with the SIMP source code or tar file following the steps below.
Build the DVD¶
The table below lists the steps to build a SIMP DVD, assuming that you have copied the DVD to a location with enough space to house and unpack the ISO (around 10G).
Starting from the directory with the ISO, complete the steps outlined below.
These steps are based on an example ISO of rhel-server-6.7-x86_64-dvd.iso
.
- Type
for file in `isoinfo -Rf -i rhel-server-6.7-x86_64-dvd.iso | \ tac`; do mkdir -p RHEL6.7-x86_64`dirname $file`; \ isoinfo -R -x $file -i rhel-server-6.7-x86_64-dvd.iso > RHEL6.7-x86_64$file; done
- Type
tar -C RHEL6.7-x86_64 -xzf ***<SIMP tarball>***
- Type
mkisofs -o SIMP-6.7-***<SIMP Version>-x86_64.iso \*** -b isolinux/isolinux.bin -c boot.cat -no-emul-boot -boot-load-size 4 \ -boot-info-table -R -m TRANS.TBL -uid 0 -gid 0 RHEL6.7-x86_64
The fully bootable SIMP DVD is ready to install on a new system. Replace the RHEL version and architecture to fit the user’s needs. See the Changelog for compatible RHEL versions.
Use the Alternative Method¶
If the Ruby rake utility is installed, use the Rakefile provided in the Docs/examples directory of the tar file.
HOWTO Exclude YUM Repositories¶
By default, SIMP applies updates from all available repositories on a nightly basis. This ensures that bug fixes and security updates are applied to all systems without minute management in Puppet manifests. This section provides guidance on how to include or exclude specific repositories from nightly YUM updates.
Methodology¶
The common::yum_schedule::repos
and common::yum_schedule::disable
variables in the pupmod-common module control which repositories are
enabled for nightly updating. Both variables must be specified in array
format.
common::yum_schedule::repos
is used to specify an array of
repositories from which updates are provided; no other repositories will
be used.
common::yum_schedule::disable
is used to specify an array of
repositories from which updates are not provided; all other repositories
will be used.
HOWTO Enable The Foreman¶
This chapter gives instruction for getting a basic configuration of Foreman working in a SIMP environment for monitoring purposes.
Note
The existance of this module does not mean SIMP recommends Foreman above any other monitoring tool for use with SIMP.
The pupmod-simp-foreman Module¶
The simp-foreman module is intended to install Foreman onto an existing and configured SIMP puppet master. Unlike the Foreman installation tool, it will not erase your Puppet configuration. It provides a functioning Foreman web UI and is capable of handling smart-proxies, LDAP authentication, and Foreman user management. Puppet reports are sent to the foreman reporting tool where they are displayed in the default dashboard.
Note
For this release, only the monitoring-based services are supported. Foreman’s provisioning software has not been incorporated.
Note
All aspects of this module are known to work with SELinux in enforcing mode.
Warning
The Foreman does not run with FIPS mode enabled due to the use of the MD5 libraries by ActiveRecord. You can track the associated bug report as Issue 3511 in the Foreman Redmine.
Foreman Setup¶
Before installing the simp-foreman module, make sure you have read the Foreman documentation: Foreman. You will need to understand how to configure and use its monitoring feature. This documentation will also provide the current system requirements for Foreman.
This installation and the instructions install Foreman on the Puppet server and configured it to use one Puppet server. You will have to change the installation to get it working on larger systems or if you want to install it on another server. Read the Foreman Documentation for help with that.
Configure and Install repositories¶
Some repositories and software collections must be imported to use the Foreman module. They are as follows.
Foreman - http://yum.theforeman.org/releases/
Foreman-plugins - http://yum.theforeman.org/plugins/
V3814 - https://www.softwarecollections.org/en/scls/rhscl/v8314/
Httpd24 - https://www.softwarecollections.org/en/scls/rhscl/httpd24/
Ruby 193 - https://www.softwarecollections.org/en/scls/rhscl/ruby193/
For RedHat and CentOS systems
Configure SIMP to install Foreman¶
In order to setup the Foreman web UI, you’ll want to set the following in Hiera:
In hosts/<puppet-server>.<your-domain>.yaml, add the following:
# By default, the admin user password will be autogenerated and nonsensical looking.
# Set that here if you wish to have control over it.
foreman::admin_password : 'No one will never hack this!'
# These are the hosts that will connect to your Foreman proxy. You'll want to make sure
# all hosts who are reporting to Foreman appear here.
foreman::proxy::trusted_hosts :
- your.first.host
- your.second.host
- your.nth.host
# Make sure reporting is turned on in Puppet!
pupmod::report : true
# Include the classes to install foreman. (Obviously include all other necessary classes
# for this host.
classes:
- foreman
- site::foreman
Configuring Foreman to use LDAP¶
If you have LDAP configured in your SIMP and want to use it to access Foreman, add something like the following to a a site manifest (i.e. /etc/puppet/environments/production/modules/site/manifest/foreman.pp):
class site::foreman {
foreman::auth_source { 'my_awesome_ldap_server':
ldap_server => 'LDAPserver.your.domain',
onthefly_register => true
}
foreman::user { 'amazing.user':
auth_source => 'my_awesome_ldap_server',
web_admin => true,
firstname => 'Amazing',
lastname => 'User',
password => 'MyPassword'
}
}
This class assumes foreman has already been included somewhere. Add ‘include foreman’ as the first line inside of the class if that is not true
The first section, foreman::auth_source, will configure Foreman to use your LDAP server. The setting “onthefly_register” configures Foreman to create a user from the user’s LDAP entry when they log into the web site the first time. By default a user is assigned the role of “ANONYMOUS,” which will give them an error when they log in. To prevent this you should use the Foreman administration interface to create User Groups. You link these groups to “Roles” and LDAP Groups. Then users in the appropriate LDAP group will get role linked to that group. See the Foreman users guide “Linking User Groups to LDAP” section for more information.
The second section, foreman::user, can be used to create foreman users in the Foreman database (if you are using LDAP, you don’t need this). If you add a user here and they are in LDAP, the password setting will be over written by the password in LDAP. It will error out if you don’t have a value for password. It will set it to the password value only if can not contact LDAP.
Finish the install¶
The three steps above should get you a working instance. Puppet must run several times to complete the install. Once Puppet runs cleanly, refer to the Foreman Documentation at http://www.theforman.org/ for information on further configuration options.
Troubleshooting¶
Rubygem errors during installation¶
If you get errors during installation that rubygems are the wrong version, you probably forgot to set up the epel repository. Foreman installs its own version of ruby and needs access to epel repositories.
Collecting Facts¶
If you want to collect facts, you will need to get a copy /etc/puppet/nodes.rb from the forman site (see the facts section of the foreman documentation) edit the foreman cron job under /etc/cron.d and uncomment out the collection and give puppet the right to run cron jobs. To give puppet the right to run cronjobs add the following code to your forman.pp manifest under site:
pam::access::manage { 'foreman-puppet':
users => 'puppet',
origins => ['cron']
}
Foreman Not Running¶
If you get the error
Error: Could not send report: Error 400 on SERVER: Could not autoload foreman: Class Foreman is already defined in Puppet::Reports
This is due to the foreman report module crashing and not unloading properly. Puppet won’t let it reload. This is a problem in Puppet 3.8. The only way you can fix it is to restart puppet. See: https://tickets.puppetlabs.com/browse/PUP-1189
Reports Not Collecting¶
If your reports are not collecting and you get an error like this in the /var/log/foreman/production.log:
“No smart proxy server found on [“puppet.your.domain”] and is not in trusted_puppetmaster_hosts”
Then you will need to set the trusted_puppetmaster_hosts setting in /etc/foreman/settings.yaml to point to your puppet server. (it should default to your puppet server but if you have more than one or have moved the foreman to another server it may error out.
You can set this variable by adding:
foreman::trusted_puppetmaster_hosts : "<your puppet server>"
to the hiera yaml file for the foreman server.
HOWTO Configure NFS¶
This chapter describes multiple configurations of NFS including:
All implementations are based on pupmod-simp-nfs
and pupmod-simp-simp
.
Exporting Non-Home Directories¶
Goal: Export /srv/nfs_share
on the server, mount as /mnt/nfs
on the
client.
default.yaml¶
nfs::server: "your.server.fqdn"
nfs::server::client_ips: "%{alias('client_nets')}"
nfs::simp_iptables: true
nfs::simp_krb5: false
Server¶
In site/manifests/nfs_server.pp
:
class site::nfs_server {
include '::nfs'
file { '/srv/nfs_share':
ensure => 'directory',
owner => 'root',
group => 'root',
mode => '0644'
}
nfs::server::export { 'nfs4_root':
client => ['*'],
export_path => '/srv/nfs_share',
sec => ['sys'],
}
File['/srv/nfs_share'] -> Nfs::Server::Export['nfs4_root']
}
In hosts/<your_server_fqdn>.yaml
:
nfs::is_server: true
classes:
- 'site::nfs_server'
Client¶
In site/manifests/nfs_client.pp
:
class site::nfs_client {
include '::nfs'
file { '/mnt/nfs':
ensure => 'directory',
mode => '755',
owner => 'root',
group => 'root'
}
mount { "/mnt/nfs":
ensure => 'mounted',
fstype => 'nfs4',
device => '<your_server_fqdn>:/srv/nfs_share',
options => 'sec=sys'
}
File['/mnt/nfs'] -> Mount['/mnt/nfs']
}
In hosts/<your_client_fqdn>.yaml
:
nfs::is_server: false
classes:
- 'site::nfs_client'
Exporting home directories¶
Goal: Export home directories for LDAP users.
Utilize three stock classes from pupmod-simp-simp
:
simp::export_home
: Configures an NFS server to share centralized home directories using NFSv4simp::home_client
: Configures an NFS client to point at the server created bysimp::export_home
.simp::create_home_dirs
: Optional hourly cron that binds to a LDAP server,ldap::uri
by default, and creates a NFS home directory for all users in the LDAP server. Also expires any home directories for users that no longer exist in LDAP.
Note
The NFS deamon may take time to reload after module application. If your users do not have home directories immediately after application or it takes a while to log in, don’t panic!
Note
Any users logged onto a host at the time of module application will not have their home directories re-mounted until they log out and log back in.
default.yaml¶
nfs::server: "your.server.fqdn"
nfs::server::client_ips: "%{alias('client_nets')}"
nfs::simp_iptables: true
nfs::simp_krb5: false
Enabling Stunnel¶
If you wish to encrypt your NFS data using stunnel, set the following in
default.yaml
:
nfs::use_stunnel : true
Enabling krb5¶
Warning
This functionality is incomplete. See ticket SIMP-1400 in our JIRA Bug Tracking . Until that ticket is resolved, it is HIGHLY recommended you continue to use stunnel for encrypted nfs traffic.
default.yaml¶
classes:
- 'krb5::keytab'
nfs::server: "your.server.fqdn"
nfs::server::client_ips: "%{alias('client_nets')}"
nfs::simp_iptables: true
nfs::secure_nfs: true
simp_krb5: true
krb5::kdc::auto_keytabs::global_services:
- 'nfs'
HOWTO Configure IPTables NAT Rules¶
See the IPtables Module Reference for notes on using the basic IPtables Module.
Add NAT Rules¶
The user may be required to add Network Address Translation (NAT) rules to the IPtables ruleset. To
achieve this using the IPtables module, SIMP 1.1.3 or later is required
and the iptables::add_rules
input statement should be used to affect
the appropriate changes.
The example below shows an IPtable NAT rule.
Example of an IPtable NAT Rule
iptables::add_rules { "nat_global":
table => "nat",
first => "true",
absolute => "true",
header => "false",
content => "
:PREROUTING ACCEPT [0:0]
:POSTROUTING ACCEPT [0:0]
:OUTPUT ACCEPT [0:0]
"
}
iptables::add_rules { "nat_test":
table => "nat",
header => "false",
content => "
-A PREROUTING --physdev-in
eth1 -j DROP
"
}
HOWTO Enable Kerberos¶
For the latest documentation, see the documentation in the SIMP KRB5 Puppet Module.
The module helps administrators get a working KDC in place and clients configured to use the KDC.
The module, by default, sets up a fully functional KDC in your environment and generates keytabs for one admin user, and all of your hosts that it can discover via keydist.
Note
The keydist discovery only works if the KDC is on the same system as your Puppet Server!
Beginning with krb5¶
The following sections give a brief guide on how to get started, for more information, please see the official Red Hat documentation.
Note
You can skip this section if you’re using the default settings. These will complete the following for you with randomly generated passwords for all keytabs and the master password.
Usage¶
Creating Admin Principals¶
The following Puppet code snippet will create an ACL for your admin user that is probably appropriate for your organization.
krb5_acl{ "${::domain}_admin":
principal => "*/admin@${::domain}",
operation_mask => '*'
}
Your first principal will be an admin principal and will be allowed to manage the environment since it is in the admin group. This must be created on the KDC system.
Run the following command, as root, to create your principal:
# /usr/sbin/kadmin.local -r YOUR.DOMAIN -q "addprinc <username>/admin"
You can now do everything remotely using this principal. Load it using
$ /usr/bin/kinit <username>/admin
Creating Host Principals¶
Before you can really do anything with your hosts, you need to ensure that the host itself has a keytab.
SIMP uses the /etc/puppet/keydist directory for each host to securely distribute keytabs to the clients.
On the KDC, generate a principal for each host in your environment using the following command:
# /usr/sbin/kadmin.local -r YOUR.DOMAIN -q 'addprinc -randkey host/<fqdn>'
Then, create a separate keytab file for each of your created hosts using the following command:
# /usr/sbin/kadmin.local -r YOUR.DOMAIN -q 'ktadd -k <fqdn>.keytab host/<fqdn>'
Propagate the Keytabs¶
Move all of the resulting keytab files SECURELY to <environment_dir>/keydist/<fqdn>/keytabs on the Puppet server as appropriate for each file.
Note
Make sure that all of your keytab directories are readable by the group puppet and not the entire world!
Then, update your node declarations to include ‘::krb5::keytab’.
Once the Puppet Agent runs on the clients, your keytabs will copied to /etc/krb5_keytabs. The keytab matching your fqdn will be set in place as the default system keytab.
HOWTO Manage Workstation Infrastructures¶
This chapter describes how to manage client workstations with a SIMP system including GUIs, repositories, virtualization, Network File System (NFS), printing, and Virtual Network Computing (VNC).
User Workstation Setup¶
Below is an example class,
/etc/puppet/environments/simp/modules/site/manifests/workstation.pp
, that could be used to
set up a user workstation.
class site::workstation {
include 'site::gui'
include 'site::repos'
include 'site::virt'
include 'site::automount'
include 'site::print::client'
# Make sure everyone can log into all nodes.
# If you want to change this, simply remove this line and add
# individual entries to your nodes as appropriate
pam::access::manage { "Allow Users":
comment => 'Allow all users in the "users" group to access the system from anywhere.',
users => '(users)',
origins => ['ALL']
}
# General Use Packages
package { [
'pidgin',
'git',
'control-center-extra',
'gconf-editor',
'evince',
'libreoffice-writer',
'libreoffice-xsltfilter',
'libreoffice-calc',
'libreoffice-impress',
'libreoffice-emailmerge',
'libreoffice-base',
'libreoffice-math',
'libreoffice-pdfimport',
'bluefish',
'gnome-media',
'pulseaudio',
'file-roller',
'inkscape',
'gedit-plugins',
'planner'
]: ensure => 'latest'
}
}
Graphical Desktop Setup¶
Below is an example manifest called
/etc/puppet/environments/simp/modules/site/manifests/gui.pp
for setting up a graphical
desktop on a user workstation.
class site::gui {
include 'xwindows::gdm'
include 'windowmanager::gnome'
include 'vnc::client'
# Compiz Stuff
package { [
'fusion-icon',
'emerald-themes',
'compiz-fusion-extras',
'compiz-fusion-extras-gnome',
'vinagre'
]:
ensure => 'latest'
}
}
Workstation Repositories¶
Below is an example manifest called
/etc/puppet/environments/simp/modules/site/manifests/repos.pp
for setting up workstation
repositories.
class site::repos {
# Whatever local yumrepo statements you need for installing
# your packages and keeping your systems up to date
}
Virtualization on User Workstations¶
Below is an example manifest called
/etc/puppet/environments/simp/modules/site/manifests/virt.pp
for allowing virtualization
on a user workstation.
# We allow users to run VMs on their workstations.
# If you don't want this, just don't include this class.
# If this is installed, VM creation and management is still limited by PolicyKit
class site::virt {
include 'libvirt::kvm'
include 'libvirt::ksm'
include 'network::redhat'
network::redhat::add_eth { "em1":
bridge => 'br0',
hwaddr => $::macaddress_em1
}
network::redhat::add_eth { "br0":
net_type => 'Bridge',
hwaddr => $::macaddress_em1,
require => Network::Redhat::Add_eth["em1"]
}
common::swappiness::conf { 'default':
high_swappiness => '80',
max_swappiness => '100'
}
# If 80% of memory is used, flush caches.
exec { 'flush_cache_himem':
command => '/bin/echo 1 > /proc/sys/vm/drop-caches',
onlyif => inline_template("/bin/<%= memoryfree.split(/\s/)[0].
to_f/memorysize.split(/\s/)[0].to_f < 0.2 ? true : false %>")
}
package { 'virt-manager': ensure => 'latest' }
}
Network File System¶
Below is an example manifest called
/etc/puppet/environments/simp/modules/site/automount.pp
for Network File System setup.
#If you are not using NFS, you do not need to include this.
class site::automount {
include '::autofs'
file { '/net':
ensure => 'directory',
mode => '0755'
}
#A global share
Autofs::map::master { ‘share’:
mount_point => ‘/net’,
map_name => ‘/etc/autofs/share.map’
}
#Map the share
autofs::map::entry { ‘share’:
options => ‘-fstype=nfs4, port=2049.soft’,
location => “${::nfs_server}:/share’,
Target => ‘share’
}
}
Printer Setup¶
Below are example manifests for setting up a printing environment.
Setting up a Print Client¶
Below is an example manifest called
/etc/puppet/environments/simp/modules/site/manifests/print/client.pp
for setting up a
print client.
class site::print::client inherits site::print::server {
polkit::local_authority { 'print_support':
identity => ['unix_group:*'],
action => 'org.opensuse.cupskhelper.mechanism.*',
section_name => 'Allow all print management permissions',
result_any => 'yes',
result_interactive => 'yes',
result_active => 'yes'
}
package { 'cups-pdf': ensure => 'latest' }
package { 'cups-pk-helper': ensure => 'latest' }
package { 'system-config-printer': ensure => 'present' }
}
Setting up a Print Server¶
Below is an example manifest called
/etc/puppet/environments/simp/modules/site/manifests/print/server.pp
for setting up a
print server.
class site::print::server {
# Note, this is *not* set up for being a central print server.
# You'll need to add the appropriate IPTables rules for that to work.
package { 'cups': ensure => 'latest' }
service { 'cups':
enable => 'true',
ensure => 'running',
hasrestart => 'true',
hasstatus => 'true',
require => Package['cups']
}
}
VNC Setup¶
Virtual Network Computing (VNC) is a tool that is used to manage desktops and workstations remotely through the standard setup or a proxy.
VNC Standard Setup¶
Note
You must have the pupmod-simp-vnc
RPM installed to use VNC on your
system!
To enable remote access via VNC on the system, include vnc::server
in Hiera for the node.
The default VNC setup that comes with SIMP can only be used over SSH and includes three default settings:
Setting Type | Setting Details |
---|---|
Standard | Port: 5901 Resolution: 1024x768@16 |
Low Resolution | Port: 5902 Resolution: 800x600@16 |
High Resolution | Port: 5903 Resolution: 1280x1024@16 |
Table: VNC Default Settings
To connect to any of these settings, SSH into the system running the VNC
server and provide a tunnel to 127.0.0.1:<VNC Port>
. Refer to the SSH
client’s documentation for specific instructions.
To set up additional VNC port settings, refer to the code in
/etc/puppet/environments/simp/modules/vnc/manifests/server.pp
for examples.
Important
Multiple users can log on to the same system at the same time with no adverse effects; however, none of these sessions are persistent.
To maintain a persistent VNC session, use the vncserver
application on the remote host. Type man vncserver
to reference
the manual for additional details.
VNC Through a Proxy¶
The section describes the process to VNC through a proxy. This setup provides the user with a persistent VNC session.
Important
In order for this setup to work, the system must have a VNC server
(vserver.your.domain
), a VNC client (vclnt.your.domain
), and a
proxy (proxy.your.domain
). A vuser
account must also be set up
as the account being used for the VNC. The vuser
is a common user
that has access to the server, client, and proxy.
If definitions for the machines involved in the VNC do not already exist
in Hiera, create an /etc/puppet/environments/simp/hieradata/hosts/vserv.your.domain.yaml
file. In the client hosts file, modify or create the entries shown in
the examples below. These additional modules will allow vserv to act as
a VNC server and vclnt to act as a client.
VNC Server node
# vserv.your.domain.yaml
classes:
- 'windowmanager::gnome'
- 'mozilla::firefox'
- 'vnc::server'
VNC client node
# vclnt.your.domain.yaml
classes:
- 'windowmanager::gnome'
- 'mozilla::firefox'
- 'vnc::client'
As vuser
on vserv.your.domain
, type vncserver
.
The output should mirror the following:
New ‘vserv.your.domain:<Port Number> (vuser)’ desktop is vserv.your.domain:<Port Number>
Starting applications specified in /home/vuser/.vnc/xstartup
Log file
is /home/vuser/.vnc/vserv.your.domain:<Port Number>.log
Note
Remember the port number; it will be needed to set up an SSH tunnel.
Set up a tunnel from the client (vclnt), through the proxy server (proxy), to the server (vserv). The table below lists the steps to set up the tunnel.
- On the workstation, type ssh -l vuser -L 590***<Port Number>*:localhost:590***<Port Number>***proxy.your.domain**
Note
This command takes the user to the proxy.
- On the proxy, type ssh -l vuser -L 590***<Port Number>*:localhost:590***<Port Number>***vserv.your.domain**
Note
This command takes the user to the VNC server.
Table: Set Up SSH Tunnel Procedure
Note
The port number in 590<Port Number> is the same port number as previously described. For example, if the <Port Number> was 6, then all references below to 590<Port Number> become 5906.
On vclnt.your.domain
, type vncviewer localhost:590\ ***<Port
Number>***
to open the Remote Desktop viewer.
Troubleshooting VNC Issues¶
If nothing appears in the terminal window, X may have crashed. To
determine if this is the case, type ps -ef | grep XKeepsCrashing
If any matches result, stop the process associated with the command and
try to restart vncviewer
on vclnt.your.domain
.
HOWTO Kickstart the Initial Server¶
This section provides guidance to install the initial SIMP server via an existing kickstart infrastructure.
Prepare the Kickstart¶
To kickstart the initial server, copy the netboot.cfg
file into the
kickstart location from ks/
at the root level of the extracted DVD.
Replace the KS_SERVER and KS_BASE variables in the netboot.cfg
file to match the system settings.
Kickstart the System¶
Kickstart the system against the netboot.cfg
file; this will build a
functional SIMP server identical to the one that the user would have
received from the DVD.
Post-Installation¶
This section describes the post installation procedures to use the server.
Setting up the new YUM repo¶
All of the SIMP systems must be able to reference two YUM locations
after install. The first is the Local repo, which is spawned from the
Local directory at the top of the DVD. This is expected to be
referenced as http://yum_server/yum/SIMP/<Architecture>
by the
clients.
The second location is the Updates repo, which contains a repo with
all of the base operating system RPMs. This is expected to be referenced
as
http://yum_server/yum/(RedHat|CentOS)/<Version>/<Architecture>/Updates
by the clients.
The user is responsible for adjusting these locations in the pre-existing system; however, the table below lists the steps to adjust these locations on the newly built SIMP server.
Note
These steps assume that the SIMP DVD material is copied in its unpacked form to the /srv/SIMP
directory and that the version unpacked is RHEL 5.8. Adjust the paths appropriately if the CentOS or 5.7 version is being used.
- Copy the entire SIMP DVD material to the SIMP server.
- Type
cd /srv;
- Type
mkdir -p www/yum/RedHat/5.8/x86_64;
- Type
mv /srv/SIMP/SIMP www/yum;
- Type
mv /srv/SIMP/ks www;
- Type
cd www/yum/RedHat
- Type
ln -s 5.8 6; and then cd 5.8/x86_64;
to be able to move to newer versions more easily. - Type
mkdir Updates;
- Type
cd Updates;
- Type
find .. -type f -name “*.rpm” -exec ln -s {} \;
- Type
createrepo -p .
- Type
cd /var/www/yum/SIMP;
- Type
updaterepos;
- Type
chown -R root.apache /var/www;
- Type
chmod -R u+rwX,g+rX,o-rwx /var/www;
- Enter the following commands into the command line to adjust the file.
cat << EOF >> /etc/yum.repos.d/filesystem.repo [flocal-x86_64] name=Local within the filesystem baseurl=file:///var/www/yum/SIMP/x86_64 enabled=1 gpgcheck=0 EOF
- Enter the following commands into the command line to adjust the file.
cat << EOF >> /etc/yum.repos.d/filesystem.repo [frhbase] name=$ostype $rhversion base repo baseurl=file:///var/www/yum/RedHat/6/x86_64/Server enabled=1 gpgcheck=0 EOF
Follow the instructions in the Client Management for additional assistance.
HOWTO Perform One-Shot Operations¶
This section introduces the options provided for performing one-shot commands on all Puppet-managed systems without using Puppet. This is useful when the user needs to perform an action one time in every location, but does not want to enforce that action over time.
Use the PSSH Utility¶
Parallel Secure Shell (PSSH) has been included in SIMP for some time, but has not been installed by default.
The table below lists the steps to use PSSH.
Table: Use PSSH Procedure
Note
There is no manual page provided with PSSH; type pssh --help
for
further explanation.
HOWTO Back up the Puppet Master¶
This section details all of the steps required for backing up the Puppet Master.
Note
SIMP, by default, provides two ways to back up data. They are BackupPC and Git. If there is a different preferred method, the user may install it and configure it first.
Warning
BackupPC may, or may not, work properly for you on RHEL7+ systems. The SIMP team is currently evaluating other options for an inbuilt backup system.
- Backup
/var/lib/puppet/ssl
- Backup
/etc/puppet
- Backup
/srv/rsync
and/or/var/simp/rsync
- Optional: Backup /var/www
Table: SIMP Upgrade Process
HOWTO Configure a Puppet Server Behind a NAT¶
This section provides guidance for when the Puppet server is behind a NAT but is managing hosts outside the NAT.
Your puppet server certificate must have all names in it that are used by any client. To update your certificates follow the guidance:
Add the alternative certificate names (in a comma-seperated list) in /etc/puppet/puppet.conf
[main]
dns_alt_names = hostname.your.domain,hostname.your.other.domain
Regenerate ALL certificates on Puppet:
http://docs.puppetlabs.com/puppet/3.8/reference/ssl_regenerate_certificates.html
In Section 2 of the web page above that says update your Puppetdb certificates follow the instructions in Step 3, option A at this location:
HOWTO Enable Redundant LDAP¶
This section describes how to set up redundant OpenLDAP servers in SIMP. These servers are also referred to as “slave” servers.
Set up the Master¶
The easiest way to setup an ldapmaster is to set it up on the puppet master using simp config during the initial configuration of the Puppet server. This is done by answering “YES” to “use ldap?” query when you run simp config and answering the basic questions it asks you. If it is not desirable to have the ldap server on the Puppet server a redundant LDAP server can be set up on an alternate server and promoted to master using the directions below.
How ever if there is already a working infrastructure and you want to move to openldap you can do the following:
Configure the following settings in simp_def.yaml
in the hiera directory:
# === use_ldap ===
# Whether or not to use LDAP on this system.
# If you disable this, modules will not attempt to use LDAP where possible.
use_ldap: true
# === ldap::base_dn ===
# The Base DN of the LDAP server
"ldap::base_dn": "dc=your,dc=domain"
# === ldap::bind_dn ===
# LDAP Bind Distinguished Name
"ldap::bind_dn": "cn=hostAuth,ou=Hosts,%{hiera('ldap::base_dn')}"
# === ldap::bind_pw ===
# The LDAP bind password
"ldap::bind_pw": "MyRandomlyGeneratedLargePassword"
# === ldap::bind_hash ===
# The salted LDAP bind password hash
"ldap::bind_hash": "{SSHA}9nByVJSZFBe8FfMkar1ovpRxJLdB0Crr"
# === ldap::sync_dn ===
#
"ldap::sync_dn": "cn=LDAPSync,ou=Hosts,%{hiera('ldap::base_dn')}"
# === ldap::sync_pw ===
# The LDAP sync password
"ldap::sync_pw": "MyOtherRandomVeryLargePassword"
# === ldap::sync_hash ===
# The SSHA hash for ldap::sync_pw
"ldap::sync_hash": "{SSHA}VlgYUmRzyuuKZXM3L8RT28En/eqtuTUO"
# === ldap::root_dn ===
# The LDAP root DN.
"ldap::root_dn": "cn=LDAPAdmin,ou=People,%{hiera('ldap::base_dn')}"
# === ldap::root_hash ===
# The LDAP root password hash.
# If you set this with simp config, type the password and the hash will be
# generated for you.'
"ldap::root_hash": "{SSHA}GSCDnNF6KMXBf1F8eIe5xvQxVJou3zGu"
# === ldap::master ===
# This is the LDAP master in URI form (ldap://server)
"ldap::master": "ldap://ldap_server1.your.domain"
# === ldap::uri ===
# List of OpenLDAP servers in URI form (ldap://server)
"ldap::uri":
- "ldap://ldap_server1.your.domain"
# === sssd::domains ===
# A list of domains for SSSD to use.
# `simp config` will automativcally populate this field with `FQDN` if
# `use_fqdn` is true, otherwise it will comment out the field.
#
"sssd::domains":
- LDAP
Add the simp::ldap_server class into the yaml file for the ldap server in Hiera (hieradata/hosts/ldap_server1.your.domain.yaml):
classes :
- 'simp::ldap_server'
Leave any other classes that are there if they are needed. Run the puppet agent on the ldap server until it runs cleanly. Run the agent on the puppet server. Once all the other clients update against the Puppet server, they will be able to authenticate against the LDAP server. Adding users and groups is described in the User Management.
Note
Information on how the create salted ({SSHA}) passwords can be found at the OpenLDAP site.
Set up the Redundant(Slave) Servers¶
Default Settings¶
Once the master is ready, LDAP slave nodes can be configured to replicate data from the master. These servers are read-only, and modifications cannot be made to LDAP entries while the master is down.
Slave nodes can be configured via hiera by using simp::ldap_server::is_slave,
setting the replication id, and adding the simp::ldap_server class. This
will set up your redundant server using the defaults. To do these three things,
add the following lines to the
hieradata/hosts/ldap_server2.your.domain.yaml
file:
simp::ldap_server::is_slave : true
simp::ldap_server::rid : "888"
classes :
- 'simp::ldap_server'
To make other clients aware of this server, add the redundant server’s URI to
lists of URIs in the hieradata/simp_def.yaml
file:
# === ldap::uri ===
# List of OpenLDAP servers in URI form (ldap://server)
"ldap::uri":
- "ldap://ldap_server1.your.domain"
- "ldap://ldap_server2.your.domain"
Note
To see the defaults for LDAP replication in SIMP, review the parameters passed
to the module openldap/manifests/server/syncrepl.pp
. These parameters are
used to add the replication settings to the syncrepl.conf
file.
Definitions can be found in the syncrepl.conf (5) man page.
Custom Replication Settings¶
If settings other than the defaults are needed, create a manifest under site:: and use the openldap::server::syncrepl class with the necessary parameters.
In this example, the site profile is called site::ldapslave and the RID of the server is 999 (these can be changed). One setting, sizelimit, is being overwritten but you can overwrite any number of them.
class site::ldapslave {
include 'simp::ldap_server'
# custom settings:
openldap::server::syncrepl { '999':
sizelimit => '5000',
}
}
The name of the openldap::server::syncrepl instance must be a unique replication id.
Place this file in the site:: module’s manifests/ directory using the name ldapslave.pp. Include this class from the slave server’s hiera .yaml file:
classes :
- 'site::ldapslave'
Lastly, add the server to the URI listing in simp_def.yaml so all the clients know about it once they have updated from the puppet master.
Promote a Slave Node¶
Slave nodes can be promoted to act as the LDAP master node. To do this, change
the node classifications of the relevant hosts. For a node with the default
settings, just remove the simp::ldap_server::is_slave : true
from the
server’s hiera .yaml file and change the setting for the master ldap in the
simp_def.yaml
.
# === ldap::master ===
# This is the LDAP master in URI form (ldap://server)
"ldap::master": "ldap://ldap_server1.your.domain"
For a redundant server set up using custom settings, remove the call to the
custom class and replace it with the call to the site::ldap_server class in the
servers yaml file and set the master setting in the simp_def.yaml
file as
shown above.
In both cases, if the current master is not down, make sure it has completed replication before changing the settings. Once the settings are changed, run puppet agent -t on the ldap server. After the next Puppet run on all the hosts the server will be promoted to master and all the slaves will point to it.
Remove a Node or Demote a Master¶
To demote a master, simply configure it as slave in either of the
configurations above after the new master has been configured and put in place,
then run the puppet agent. Lastly, manually remove the active database from
the server. (Check the setting openldap::server::conf::directory
setting
for the location of the files.)
To remove an LDAP server, first remove the server from the URI settings in
simp_def.yaml
. Give the clients time to update from the puppet server so
they do not attempt to call it. Then remove relevant settings from it’s hiera
.yaml file and run the puppet agent.
Troubleshooting¶
If the system is not replicating, it is possible that another user has updated
the $ldap_sync_passwd
and $ldap_sync_hash
entries in the
/etc/puppet/environments/simp/simp_def.yaml
file without also updating the
value in LDAP itself; this is the most common issue reported by users.
Currently, SIMP cannot self-modify the LDAP database directly; therefore, the LDAP Administrator needs to perform this action. Refer to the User Management chapter for more information on manipulating entries in OpenLDAP.
The example below shows the changes necessary to update the
$ldap_sync
information in LDAP.
Update $ldap_sync
Information in LDAP Examples
dn: cn=LDAPSync,ou=People,dc=your,dc=domain
changetype: modify
replace: userPassword
userPassword: <Hash from $ldap_sync_hash>
Further Information¶
The OpenLDAP site contains more information on configuring and maintaining Open LDAP servers.
HOWTO Enable SFTP Restricted Accounts¶
This section describes the method for restricting an account to SSH File Transfer Protocol (SFTP) access only.
Add a User¶
Create a user account based on the following example.
user { "foo":
uid => <UID>,
gid => <GID>,
shell => <Path to SFTP Server>
}
On a SIMP system, shell would be: "/usr/libexec/openssh/sftp-server"
Modify /etc/shells
¶
To modify /etc/shells
to include the shell information provided in the
previous user account example, add common::shells
in Hiera, and add
/usr/libexec/openssh/sftp-server
to the list.
HOWTO Setup SSH Authorized Keys¶
This section provides guidance on managing SSH keys within the SIMP environment.
LDAP Enabled¶
When enabled, ssh keys are both stored and retrieved directly from LDAP.
See Also: Managing Users with LDAP
Without LDAP¶
If not using LDAP, or in addition to LDAP, SSH authorized keys can be placed in
/etc/ssh/local_keys/<USERNAME>
. This location can be changed by setting the
::ssh::server::conf::authorizedkeysfile
parameter in Hiera or your
ENC.
See Also: Managing Local/Service Users
HOWTO Upgrade SIMP¶
Warning
Please refer to the Migrating To Environments section if you are upgrading
from a version of SIMP before we started using Puppet Environments. If you
have an /etc/puppet/environments/simp
directory and no record of
/etc/puppet/extdata
on your system, then you do not need to migrate your
code to environments.
This section provides information on how to upgrade a running instance to the latest codebase.
Pre-Upgrade Recommendations¶
The following process should be followed prior to upgrading:
Run
puppet agent --disable
to disable puppet.Note
If you think you will need more than 4 hours to complete this task, also disable puppet in root’s crontab by running
crontab -e root
.You may wish to block all communications with agents while updating the server. This is not required but could spare you some headaches if something doesn’t work properly.
The simplest way to do this is to set the catalog retrieval capability to
127.0.0.1
in/etc/puppet/auth.conf
as shown below.path ~ ^/catalog/([^/]+)$ method find # Uncomment this when complete and delete the other entries #allow $1 allow 127.0.0.1
Using the syntax above, you can add fully qualified domain names, one at a time, to the ‘allow’ list and only those hosts will be able to retrieve their catalog from the running server. 127.0.0.1 serves as a placeholder so that no host can actually retrieve their catalog.
Upgrading SIMP from an ISO¶
Copy the release ISO to the simp server that is being upgraded
Backup the existing environment:
cd /etc/puppet/environments cp -r simp simp.old
Unpack the new ISO using the
unpack_dvd
utility:/usr/local/bin/unpack_dvd -d /var/www/yum <path-to-new-ISO>
This should update the existing YUM repos on the system to include updated system packages and updated SIMP packages.
Note
If there is a operating system release in between SIMP releases (for example, CentOS 6.7 to 6.8), the
/etc/yum.repos.d/filesystem.repo
file needs to be modified to look for the new version of the OS.Update the system!
yum update
Note
If there are issues with gpg keys, try running
yum reinstall simp-gpgkeys
as root.Read the Changelog carefully and see what you may need to change in your infrastructure. For example, there have been some changes to our default SIMP server Hiera file. You will need to compare the new
puppet.your.domain.yaml
to the existing SIMP host Hiera file.Run
puppet
on the SIMP server:puppet agent -t
That’s it! Updates should propagate automatically throughout all clients as puppet and yum runs.
Migrating To Environments¶
SIMP 4.1 and 5.0 used the deprecated, Rack-based, Puppet Master. Starting with 4.2 and 5.1, SIMP now uses the Clojure-based Puppet Server.
Unfortunately, there are some conflicts with directly upgrading from the legacy Puppet Master to the new Puppet Server since some of the RPM package prerequisites conflict.
The new Puppet Server can properly utilize Puppet Environments. To provide our
users with this capability, and to facilitate more dynamic workflows in the
future, the SIMP team has migrated all existing material to a native simp
environment. To help facilitate your migration, the SIMP team has created two
migration scripts that both upgrade your Puppet Server and migrate your
existing data into the new simp
environment.
Warning
You must have at least 2.4G of free memory to run the new Puppet Server.
Migration Script Features¶
The migration script will perform the following actions on your system:
- Remove the
puppet-server
package from your system - Install the
puppetserver
package onto your system - Update all packages from your repositories
- Create a backup folder at
/etc/puppet/environments/pre_migration.simp
- Create a Git repository in the backup folder under a timestamped directory
- Commit all current materials from
/etc/puppet
into the backup Git repository - Checkout the backup Git repository under the timestamped directory as
backup_data
for ease of use - Migrate all existing data into the new
simp
environment under/etc/puppet/environments/simp
Note
All future upgrades will only affect the new simp
environment. You may
create new environments and/or modify the contents of
/etc/puppet/modules
without fear of the SIMP packages overwriting your
work.
Migration Script Execution¶
Copy the new SIMP ISO onto your system. For the purposes of these instructions, we will refer to this as
SIMP_Update.iso
. Please ensure that you are in the directory with the ISO prior to proceeding. Extract the new simp-utils package using the following command:isoinfo -i SIMP_Update.iso -R -x `isoinfo -i SIMP_Update.iso -Rf | \ grep noarch/simp-utils` > simp-utils-update.rpm
Install the new simp-utils RPM:
yum -y localupdate simp-utils*.rpm
Unpack the DVD onto the system:
/usr/local/bin/unpack_dvd SIMP_Update.iso
Run the migration script (this may take some time, do NOT hit CTRL-C!):
/usr/share/simp/upgrade_script/migrate_to_environments
Run the puppet agent:
puppet agent -t
Stop the new puppetserver service (it may not be running):
service puppetserver stop
Remove any left over PID files:
rm /var/run/puppetserver/puppetserver
Kill any running puppet master processes:
pkill -f 'puppet master'
Wait for 10 seconds to let things finalize if necessary:
sleep 10
Start the new Puppet Server:
service puppetserver start
Your new Puppet Server should now be running and a run of puppet agent -t
should complete as usual.
Converting from Extdata to Hiera¶
SIMP now uses Hiera natively instead of Extdata. Tools have been put
into place by Puppet, Inc. and SIMP to make the conversion as easy as possible.
Two scripts have been provided to automatically convert generic csv files and
simp_def.csv
to yaml. The first example shows how to convert an Extdata csv
file called foo.csv
into a Hiera yaml file called bar.yaml
:
extdata2hiera -i foo.csv -o bar.yaml
The second example shows how to convert an Extdata csv simp_def file called
simp_def.csv
into a Hiera yaml file called simp_def.yaml
.
simpdef2hiera --in simp_def.csv --out simp_def.yaml
Puppet will automatically retrieve class parameters from Hiera, using lookup
keys like myclass::parameter_one
. Puppet classes can optionally include
parameters in their definition. This lets the class ask for data to be passed
in at the time that it’s declared, and it can use that data as normal variables
throughout its definition.
There are two main ways to reference Hiera data in puppet manifests. The first, and preferred way, is to use the automatic class variable lookup capability. For each class that you create, the variables will be automatically discovered in hiera should they exist. This is quite powerful in that you no longer need to provide class parameters in your manifests and can finally properly separate your data from your code.
Note
For more information on the lookup functions, see the official Hiera documentation
# Some class file in scope...
class foo (
$param1 = 'default1'
$param2 = 'default2'
) { .... }
# /etc/puppet/hieradata/default.yaml
---
foo::param1: 'custom1'
The second is similar to the old Extdata way, and looks like the following:
$var = hiera("some_hiera_variable", "default_value")
The following is from the Puppet, Inc. documentation, and explains the reason for switching to Hiera.
Automatic parameter lookup is good for writing reusable code because it is regular and predictable. Anyone downloading your module can look at the first line of each manifest and easily see which keys they need to set in their own Hiera data. If you use the Hiera functions in the body of a class instead, you will need to clearly document which keys the user needs to set.
Note
For more information on hiera and puppet in general, see http://docs.puppetlabs.com/hiera/1/complete_example.html.
Scope Functions¶
All scope functions must take arguments in array form. For example in
/etc/puppet/modules/apache/templates/ssl.conf.erb
:
<%=scope.function_bracketize(l) %>
becomes
<%=scope.function_bracketize([l]) %>
Commands¶
Deprecated commands mentioned in Puppet 2.7 upgrade are now completely removed.
Lock File¶
Puppet agent now uses the two lock files instead of one. These are the
run-in-progress lockfile (agent_catalog_run_lockfile
) and the disabled
lockfile (agent_disabled_lockfile
). The puppetagent_cron file
(made by
the pupmod module) must be edited to suit this change.
Frequently Asked Questions¶
This chapter addresses some of the frequently asked questions (FAQ) about SIMP.
How Can I Get Help?¶
Public Resources¶
Many resources are available for getting help with SIMP. For FOSS support, as the community can handle it, you can use one of the following resources.
Live Chat¶
- SIMP Project HipChat
- No account is required for this room. However, if you are going to participate regularly, please consider signing up for a HipChat account as it will allow you to receive offline messages.
- If you choose to sign up, we recommend using a modifier to your email
address such as
yourname+simp@gmail.com
since HipChat binds your account to the group that you join.
Mailing Lists¶
- SIMP Q&A Board
- A Question and Answer board for the general community
- SIMP Users Mailing List
- General user discussion
- SIMP Developers List
- Discussion about development
- SIMP Announcement List
- Announcements about changes to the SIMP environment
- SIMP Security List
- A post-only list for alerting the SIMP team to security issues
Bug Tracking¶
If you find a bug, we’d like to encourage you to file a bug in our JIRA Bug Tracking system. That ssaid, we’re happy to hear about issues in whatever manner is easiest for you.
Commercial Support¶
Should you need Enterprise-level support, commercial support is available. You can get more information on the SIMP Project Homepage.
What is the Password Complexity for SIMP?¶
The following is the default password requirements for a standard SIMP system. This is based off of an amalgam of various password policies and may vary based on individual policies that are set for your installation.
The default complexity is enforced in both PAM and LDAP.
Complexity Rules¶
- 14 Characters or greater
- 1 Upper case letter
- 1 Lower case letter
- 1 Number
- 1 Special character
- No more than 2 repetitions of the same character
- No more than 4 characters in a monotonic character sequence
- Must not be one of the last 24 passwords that you have used
Note
Locked out accounts will unlock automatically after 15 minutes for non-root users and one minute for the root user.
Package Data¶
SIMP 4.3.0 RPMs¶
This provides a comprehensive list of all SIMP RPMs and related metadata. Most importantly, it provides a list of which modules are installed by default and which are simply available in the repository.
Name | Version | Optional |
---|---|---|
pupmod-simp-compliance_markup | 1.0.0-0 | false |
simp-doc | 4.3.0-0 | true |
SIMP 5.2.0 RPMs¶
This provides a comprehensive list of all SIMP RPMs and related metadata. Most importantly, it provides a list of which modules are installed by default and which are simply available in the repository.
Name | Version | Optional |
---|---|---|
pupmod-simp-compliance_markup | 1.0.0-0 | false |
simp-doc | 5.2.0-0 | true |
SIMP 4.3.0 CentOS External RPMs¶
This provides a list of RPMs, and their sources, for non-SIMP components that are required for system functionality and are specific to an installation on a CentOS system.
SIMP 4.3.0 RHEL External RPMs¶
This provides a list of RPMs, and their sources, for non-SIMP components that are required for system functionality and are specific to an installation on a RHEL system.
SIMP 5.2.0 CentOS External RPMs¶
This provides a list of RPMs, and their sources, for non-SIMP components that are required for system functionality and are specific to an installation on a CentOS system.
SIMP 5.2.0 RHEL External RPMs¶
This provides a list of RPMs, and their sources, for non-SIMP components that are required for system functionality and are specific to an installation on a RHEL system.
Indices and tables¶
SIMP Security Concepts¶
Contents:
Introduction¶
This manual describes the security concepts of the SIMP system. The system was originally designed to meet a specific set of technical security controls using industry best practices and has been modified recently to meet as many of the security controls provided by the National Institute of Standards and Technology’s (NIST) special publication 800-53 as possible.
This manual outlines three categories of security:
- Technical Architecture: discusses the technical approaches to securing the system
- Operational Security: discusses the security of SIMP in an operational setting
- Information System Management: discusses how SIMP helps achieve security in terms of system management
A brief discussion of how the SIMP system helps achieve categories of controls is provided; additional technical details regarding each control can be found in the SIMP Security Control Mapping.
When possible, the NIST security control identifier will be found at the end of a concept to provide the reader with a reference to the specific control that is being discussed. The identifier is written as [AB-X(Y)], where A is the control family, X is the control section, and Y is the control enhancement.
Note
At present, this document will not be mapped to any additional standards since there are available mappings of the 800-53 to various other security frameworks.
If you believe that we are missing anything in particular, please file a bug!
Technical Security¶
This chapter contains SIMP security concepts that are related to the technical security controls described in NIST 800-53.
Identification and Authentication¶
This section addresses the identification and authentication of users and devices.
User Identification and Authentication¶
Identification and authentication of system and service users can occur at
either the Operating System level or globally in the SIMP architecture.
While local accounts and groups can be created manually, the SIMP team suggests
adding users via the /etc/puppet/localusers
file or by using the native
Puppet user and group types. System users can authenticate their access using
Secure Shell (SSH) keys or passwords. For more centralized control, identify
and authenticate users by using the Lightweight Directory Access Protocol
(LDAP).
[IA-2]
The SIMP team recommends using LDAP as the primary source for user management and provides a functional default OpenLDAP configuration for this purpose. LDAP and Pluggable Authentication Modules (PAM) work together closely and, with the default SIMP configuration, the PAM settings are enforced on top of the LDAP settings for two layers of control. Due to this partnership, items such as account lockouts may need to be reset on both the local system and the LDAP server. If the suggested settings in the SIMP-provided default LDAP Directory Interchange Formats (LDIF) are not used, implementations must ensure that security is maintained through manual procedures. Use of group accounts for users is strongly discouraged. System services may need to have accounts, but all of these should be managed by Puppet using the user and group native types. [IA-2 (5)].
Device Identification and Authentication¶
Devices are identified by a Media Access Control (MAC) address prior to receiving an IP address via the Dynamic Host Configuration Protocol (DHCP). In the default SIMP architecture, IP addresses are fixed mappings to their associated MAC address (i.e., not assigned dynamically). There is no authentication for the binding of MAC addresses to IP addresses due to the nature of the DHCP protocol.
Device authentication occurs through the mapping of the MAC to the IP through the internally controlled DHCP and the mapping of the IP to the host name through the internally controlled Domain Name System (DNS) service for each individual Puppet client. After kickstart, each client system generates an internal cryptographic identifier and communicates that information with the Puppet server to be approved by an administrator at a later time. All further communication between the Puppet server and the clients over the Puppet protocol is encrypted subsequently and authenticated with this identifier. Automatic approval can be set up in tightly controlled environments; however, this option is not suggested for open environments. [IA-3, IA-3 (3)]
Identifier Management¶
Managing user identifiers (also known as user names) involves administrative procedures that are unique for each implementation. Disabling unused local accounts is the only control that SIMP can enforce technologically. In this case, if an account has an expired password that has not been changed 35 days after expiration, the account will be disabled. If a user does not have a password (e.g., he or she only authenticates with SSH keys), then there is no inherent technological mechanism for enforcement due to the nature of the software. [IA-4e.]
Authenticator Management¶
Authenticators for users are passwords and/or SSH keys; the management of each is implementation specific. SSH keys do not expire; therefore, implementations must provide a procedure for removing invalid keys. Removing public keys from LDAP is one practical solution.
When using passwords, local and LDAP passwords provided for users should be set to change at first login. This is the default in the SIMP-provided LDIFs. Once a user attempts to change a password, the settings in PAM and LDAP enforce complexity requirements.
For the default password complexity rules see the What is the Password Complexity for SIMP? FAQ.
Password aging and history is enforced through a combination of PAM and LDAP. By default, the previous 24 passwords cannot be reused.
There are a number of default passwords in SIMP that are required for installation. Each implementation requires the user to change the default passwords and protect the new passwords. In addition, there are embedded passwords within the SIMP system that are used due to a lack of software-supported alternatives.
Please see the SIMP User Guide for additional information.
Access Control¶
This section describes the various levels of access control, including account management, access enforcement, information flow enforcement, separation of duties, least privilege, session controls, permitted actions without identification and authentication, security attributes, and remote access.
Account Management¶
Account management procedures should be created and maintained for each implementation of SIMP. The procedures should include the information listed in NIST 800-53 control AC-2. SIMP has the mechanisms in place to enforce most account management policies. The mechanisms for account management have several default settings including:
- Central account management using OpenLDAP. [AC-2 (1)]
- Password expiration.
- Auditing of administrative actions to capture local account creation and
modifications to LDAP accounts is done via the
/var/log/slapd_audit.log
file and/var/log/audit/audit.log
for local accounts. [AC-2 (4)] - Shell sessions timeout after 15 minutes of inactivity. [AC-2 (5)]
- This can be circumvented by running a command that opens an endless pipe
such as
/bin/cat
. However, this command cannot be enforced more heavily due to the high likelihood of breaking system applications. If the optional gnome module is used, the GNOME screen saver will lock the screen after 15 minutes of inactivity.
- This can be circumvented by running a command that opens an endless pipe
such as
- Assignment of users into groups locally or centrally via LDAP. [AC-2 (7)]
- By default, SIMP will have an administrators groups that has the ability
to run
sudosh
. Implementations should further define administrators or user groups and limit them with the Puppetsudo
class.
- By default, SIMP will have an administrators groups that has the ability
to run
Access Enforcement¶
SIMP uses the implementation of Discretionary Access Control (DAC) that is native to Linux. Specific file permissions have been assigned based on published security guidance for Red Hat, CentOS, and UNIX.
Default permissions on files created by users are enforced with user file
access mask settings (using the umask
command) that allow only the owner to
read and write to the file. Implementations may further extend the access
control in UNIX by restricting access to application files or using the file
Access Control List (ACL) commands getfacl
and setacl
. Users of
SIMP should not change file permissions on operating system files as it may
decrease the overall security of the system. If a group needs access to a
particular file or directory, use the setfacl
command to allow the
necessary access without lessening the permissions on the system.
[AC-3]
Information Flow Enforcement¶
IPTables on each SIMP system is controlled by the IPTables Puppet module. When developing a new module, the IPTables rules needed for an application should be included with the module by calling the appropriate methods from the IPTables module. The end result should be a running IPTables rule set that includes the default SIMP rules and any rules needed for applications. The default communications allowed are included in Default Server Ports and Default Client Ports. [AC-4]
Default Server Ports¶
Application | Direction | Protocol | Transport | Ports | Comment |
---|---|---|---|---|---|
Puppet | Localhost | HTTP | TCP | 8140 | The port upon which the Puppet master listens for client connections via Apache |
Puppet CA | In | HTTPS | TCP | 8141 | This is used to ensure that Apache can verify all certificates from external systems properly prior to allowing access to Puppet. |
Apache/YUM | In | HTTP | TCP | 80 | This is used for YUM and is unencrypted, since YUM will not work otherwise. |
DHCPD | In | DHCP/BOOTP | TCP/UDP | 546,547 | DHCP pooling is disabled by default and should only be used if the implementation requires the use of this protocol. |
TFTP | In | TFTP | TCP/UDP | 69 | This is used for kickstart. It could also be used to update network devices. TFTP does not support encryption. |
rsyslog | Out | syslog | TCP/UDP | 6514 | This is encrypted when communicating with a SIMP syslog server (not installed by default). |
named | In/Out | DNS | TCP/UDP | 53 | Inbound connections happen to the locally managed hosts. Outbound connections happen to other domains per the normal operations of DNS. |
NTPD | Out | NTP | TCP/UDP | 123 | Only connects to an external time source by default. |
SSHD | In | SSH | TCP | 22 | SSH is always allowed from any source IP by default. |
stunnel | In | TLS | TCP | 8730 | Stunnel is a protected connection for rsyncing configuration files to Puppet clients. |
rsync | Localhost | RSYNC | TCP | 873 | This accepts connections to the localhost and forwards through Stunnel. |
LDAP | In | LDAP | TCP | 389 | Connections are protected by bi-directional, authenticated encryption. |
LDAPS | In | LDAPS | TCP | 636 | Used for LDAP over SSL. |
Default Client Ports¶
Application | Direction | Protocol | Transport | Ports | Comment |
---|---|---|---|---|---|
Puppet | Out | HTTPS | TCP | 8140 | Communications to the Puppet server. |
rsyslog | Out | syslog | TCP/UDP | 6514 | This is encrypted when communicating with a SIMP syslog server. |
DNS Client | Out | DNS | TCP/UDP | 53 | Normal name resolution. |
NTPD | Out | NTP | TCP/UDP | 123 | Only connects to an external time source by default. |
SSHD | In | SSH | TCP | 22 | SSH is allowed from any source IP by default. |
LDAP | Out | LDAP | TCP | 389 | Connections are protected by bi-directional authenticated encryption. |
Separation of Duties¶
SIMP enforces separation of duties using account groups. Groups are created with each implementation to separate roles or duties properly. The SIMP team recommends that this management be done using the posixGroup object in LDAP for full OS support. [AC-5]
Least Privilege¶
SIMP does not allow root
to directly SSH into a system. Direct
access to the root
user must occur via a console (or at a virtual instance
of the physical console) to log on. Otherwise, users must log on as themselves
and perform privileged commands using sudo
or sudosh
.
[AC-6]
NIST 800-53 least privilege security controls give people access to objects only as needed. SIMP provides only the needed software, services, and ports to allow the system to be functional and scalable. The system then relies on a given implementation to perform proper account management and user role assignments. [AC-6]
Session Controls¶
SIMP provides a number of security features for sessions. These features include:
- Accounts are locked after five invalid log on attempts over a 15 minute period. The account is then locked for 15 minutes. No administrator action is required to unlock an account. [AC-7]
- System banners are presented to a user both before and after logging on. The default banner should be customized for each implementation. [AC-8]
- After a successful log on, the date, time, and source of the last log on is presented to the user. The number of failed log on attempts since the last log on is also provided. [AC-9 and AC-9 (1)]
- A limit of 10 concurrent SSH sessions are allowed per user. This can be further limited if an implementation decides it is set too high. Given the way SSH is used in most operational settings, this default value is reasonable. [AC-10]
- Session lock only applies if the
windowmanager::gnome
module is used. Sessions lock automatically after 15 minutes of inactivity. Users must authenticate their access with valid credentials to reestablish a session. [AC-11]
Permitted Actions Without Identification and Authentication¶
SIMP has a number of applications that do not require both identification and authentication. These services are listed below along with an explanation of why these aspects are not required. Implementations should include any additional services that do require identification and/or authentication. [AC-14]
Service/Application | Rationale |
---|---|
TFTP | TFTP is a simple file transfer application that, in the SIMP environment, does not allow for writing to the files being accessed. This application is primarily used to support the Preboot Execution Environment (PXE) booting of hosts and the updating of network devices. There is no option to authenticate systems at this level by protocol design. TFTP is limited to a user’s local subnet using IPtables and is enforced additionally with TCPWrappers. |
DHCP | By default, system IP addresses are not pooled, but are rather statically assigned to a client, which is identified by the MAC address. DHCP is limited to the local subnet. |
Apache/YUM | RPMs are stored in a directory for systems to use for both kickstart and package updating. Sensitive information should never be stored here. Apache/YUM is limited to the local subnet. |
DNS | The DNS protocol does not require identification nor authentication. DNS is limited to the local subnet. |
Table: Actions Without Identification and Authentication
Security Attributes¶
SELinux is fully enforcing, in targeted mode, in SIMP. SELinux is an implementation of Mandatory Access Control. It can be set to enforcing mode during the SIMP configuration or turned on at a later time. All of the SIMP packaged modules have been designed to work with SELinux set to enforcing. [AC-16]
Remote Access¶
Remote access in SIMP is performed over SSH, specifically using the
OpenSSH software. OpenSSH provides both confidentiality and integrity of remote
access sessions. The SSH IPTables rules allow connections from any
host. SSH relies on other Linux mechanisms to provide identification and
authentication of a user. As discussed in the auditing section, user actions
are audited with the audit daemon (auditd
) and sudosh.
[AC-17]
Systems and Communications Protection¶
The following sections provide information regarding application partitioning, shared resources, and various levels of protection for systems and communications.
User and Administration Application Separation (Application Partitioning)¶
SIMP can be used in a variety of ways. The most common is a platform for hosting other services or applications. In that case, there are only administrative users present. Users with accounts will be considered as a type of privileged user.
SIMP can also be used as a platform for workstations or general users
performing non-administrative activities. In both cases, general users with
accounts on an individual host are allowed access to the host using the
pam::access
module, so long as they have an account on the target host. No
user may perform or have access to administrative functions unless given
sudo
or sudosh privileges via Puppet.
Denial of Service Protection¶
SIMP has limited ability to prevent or limit the effects of Denial of Service (DoS) attacks. The primary measures in place are to drop improperly formatted packets using IPTables and Kernel configurations such as SYN cookies. [SC-5]
Boundary Protection¶
SIMP does not provide boundary protection. [SC-7]
Transmission Security¶
SIMP traffic is protected with protocols that provide confidentiality and integrity of data while in transit. The tables in Information Flow Enforcement describe the protocols used to encrypt traffic and explain the protocols that cannot be protected at the transmission layer. SSH, and TLS all provide data transmission integrity and confidentiality. The software that controls them on Red Hat and CentOS are OpenSSH and OpenSSL. The SIMP team takes industry guidance into consideration when configuring these services. For example, the list the cryptographic ciphers available is limited to the highest ciphers that SIMP needs. All others are disabled. [SC-8, SC-9, SC-23, SC-7]
Single User Mode¶
SIMP systems have a password requirement for single user mode. In the event
maintenance needs to be performed at a system console, users must be in
possession of the root
password before they can be authenticated.
Bootloader passwords are also set to prevent unauthorized modifications to boot
parameters.
[SC-24]
PKI and Cryptography¶
SIMP has two native certificate authorities. The first is known as Fake CA. A local certificate authority is used to create properly formed server certificates if an implementation does not have other means of obtaining them. Many SIMP services require certificates; therefore, SIMP provides this tool for testing or for situations where other certificates are not available. The second certificate authority, Puppet CA, is built into Puppet. Puppet creates, distributes, and manages certificates that are specifically for Puppet.
The Fake CA certificates should be replaced with your own hardware-generated certificates if at all possible. The Puppet CA may be replaced but please understand all ramifications to the infrastructure before doing so.
More information on the Puppet CA can be found in the Puppet Labs security documentation. [SC-17, SC-13]
Warning
Fake CA certificates should not be used in an operational setting unless no better options are available.
Mobile Code¶
SIMP does not use mobile code; however, there are not any particular tools that will prevent its use. [SC-18]
Protection of Information at Rest¶
SIMP provides the capability to enable Full Disk Encryption (FDE) by default.
However, in the interest of automated reboots, the initial randomly
generated key is baked into the initrd
. Please see the
Disk Encryption section of the Installation Guide for details.
[SC-28]
Audit and Accountability¶
This section discusses the content, storage, and protection of auditable events.
Auditable Events¶
Auditd
and Rsyslog
provide the foundation for SIMP auditing. Auditd
performs the majority of the security-related events; however, other Linux logs
also have security information in them and are captured using rsyslog
.
The default auditable events for SIMP were developed based on several industry best practices including those from the SCAP Security Guide and several government configuration guides. The suggested rules by those guides were fine-tuned so the audit daemon would not fill logs with useless records or reduce performance. These guides should be referenced for a detailed explanation of why rules are applied. Additional justification can be found in the comments of the SIMP audit rules found in the appendix of this guide. [AU-2]
The SIMP development team reviews every release of the major security guides for updated auditable events suggestions. Each of those suggestions is reviewed and applied if deemed applicable. [AU-2 (3)]
Privileged commands are audited as part of the SIMP auditing configuration.
This is accomplished by monitoring sudo
commands with auditd
.
Session interaction for administrators that use sudosh are also logged.
Each sudosh
session can be reviewed using sudosh-replay
and are also
sent to rsyslog
.
[AU-2 (4)]
Content of Audit Records¶
Audit records capture the following information [AU-3]:
- Date and Time
- UID and GID of the user performing the action
- Command
- Event ID
- Key
- Node Hostname/IP Address
- Login Session ID
- Executable
Audit Storage¶
Audit logs are stored locally on a separate partition in the /var/log
directory. The size of this partition is configurable. Other default audit
storage configurations include:
Audit Reduction and Response¶
SIMP provides a means to capture the proper information for audit records and stores them centrally. Each implementation must decide and document how it reduces, analyzes, and responds to audit events. [AU-5]
Auditd
, like all services in SIMP, is controlled by Puppet. Stopping the
service without disabling Puppet means the service will always be started
automatically during a Puppet run. The files that control the audit
configuration will also revert to their original state if changed manually on a
client node. In the event auditd
fails, the system will continue to
operate. Several security guides have suggested that the system should shut
down if auditd
fails for any reason. To prevent operational issues, SIMP
will not shut down, but will provide an alert via syslog
when this happens.
[AU-5 (1)]
SIMP also comes with an optional module for the Elasticsearch/Logstash/Grafana (ELG) stack. These three open source tools can be combined to parse, index, and visualize logs. There are also SIMP provided dashboards for the Kibana web interface. Implementations can build their own dashboards to meet local security or functional needs for log reduction and management. [AU-6]
See Elasticsearch, Logstash, and Grafana for more information.
Protection of Audit Information¶
The primary means of protecting the audit logs is through the use of file
permissions. Audit records are stored in the /var/log
directory and can
only be accessed by root
. Audit logs are rotated off daily if the
implementation has not developed a way of offloading the logs to another
location where they can be backed up. Lastly, if the
rsyslog::stock::log_server
module is implemented, logs are transmitted to
the log server over a TLS protected link.
Time Synchronization¶
Each SIMP client (including the Puppet Master) has ntpd
enabled by default.
Part of the installation directs the clients to a time server. If no servers
are available, the SIMP clients can use the Puppet Master as the central time
source. Audit logs receive their time stamp from the local server’s system
clock; therefore, the SIMP client must be connected to a central time source
for timestamps in audit logs to be accurate.
Operational Security¶
This chapter contains SIMP security concepts that are related to the operational security controls in NIST 800-53.
Configuration Management¶
This section describes the management of various configurations within SIMP.
Baseline Configurations¶
SIMP baselines include configuration settings and Puppet modules. Currently,
baselines are maintained for both Red Hat/CentOS 6.x, and Red Hat/CentOS 7.x.
Each configuration item that is managed by a Puppet module has an RPM installed
on the Puppet Master in the form of pupmod-name-x.x.x-x
. This process
allows for one main SIMP baseline to be maintained and modules to be upgraded
easily. An overall SIMP RPM is also installed on the Puppet Master, which
denotes the version number of SIMP that is installed.
[CM-2, CM-2 (2), CM-2 (3), CM-6]
SIMP installs a minimal set of RPM packages, which can be found in the kickstart files on the ISO. RPMs, services, and IPTables rules all use a whitelist stance for allowing access or installation. [CM-2 (5)]
- Additional RPMs must be installed by each implementation.
- Services must be declared explicitly or they will be disabled by Puppet
- IPTables rules must allow a service explicitly.
Managing Configuration Changes¶
Configuration change approvals are managed by each implementation; SIMP only
provides the mechanisms to apply changes on clients. A combination of Puppet,
rsync, and YUM is used to apply those changes across any number of
target Puppet clients. All changes made are audited with auditd
or are
logged to via syslog
.
[CM-3a., CM-3 (3)]
Linux systems are made up of hundreds of configuration files that can contain numerous of settings. SIMP does not make an attempt to manage all of the settings in every file. Instead, critical operating system files or files that need to be controlled centrally are managed. Implementations can manage additional files if they are deemed necessary. [CM-6]
Security Verification and Flaw Remediation¶
SIMP cannot detect flaws automatically; each implementation is responsible for tracking flaws. However, SIMP provides a way for flaws to be fixed across all clients. One or all of the following can help automate flaw remediation [CM-6, SI-2, SI-2 (1), SI-2 (4)]:
- Puppet:
- Apply a configuration change to files that are managed by Puppet.
- rsync:
- Use this mechanism to deliver a file to a client. This can be used with or without Puppet to synchronize files.
- YUM:
- Update packages nightly with YUM. Placing an updated package in YUM and running a YUM update manually, or allowing time for the cron job to run, will ensure packages on all clients are updated. Otherwise, a cron job will perform a daily update of packages with YUM.
- MCollective:
- Allow users to execute specific commands across large numbers of nodes in an auditable, distributed, and scalable, fashion.
The extent of security verification that is performed currently is based on changes to files that Puppet or the Advanced Intrusion Detection Environment (AIDE) provides. There are also Security Content Automation Protocol (SCAP) profiles available from the SCAP-Security-Guide project that check security configuration settings. [SI-6]
Malicious Code Protection¶
For most environments, SIMP will use ClamAV to protect against malicious code.
Rsync is used to push out new definitions, which should be updated by the local
administrator regularly. SIMP also comes with a mcafee::uvscan
module that
manages an installation of uvscan, if it is preferred. The module can configure
.dat
file updates to occur over rsync
.
Both the ClamAV and McAfee modules provide a method to run a scan via cron on a customer scheduled basis. [SI-3]
SIMP also comes with the chkrootkit
tool to check for rootkits. The tool
runs as a cron job and places its output into syslog.
[SI-3]
Software and Information Integrity¶
Unauthorized changes to a local client can be detected by Puppet or AIDE (for any file managed by Puppet). In the event that a managed file is changed locally, Puppet will revert the file back to its original state. It is important to note that this is a function of Puppet and is intended to be more of a configuration management feature rather than a security feature. If a Puppet client has been compromised, the Puppet Master may not have the ability to retake control over that client. However, the Puppet Master can configure all other nodes to deny traffic from the compromised node if they are configured by the administrator to do so. There are additional configuration files that are checked by AIDE, which is triggered by a cron job. AIDE logs any detected file changes in syslog. Each implementation may add additional files that are managed by Puppet or watched by AIDE. The AIDE baseline database is updated periodically to handle the installation and updating of system RPMs and reduce false positives. [SI-7, SI-7 (1), SI-7 (2), SI-7 (3)]
Remote Maintenance¶
Remote maintenance can be performed on SIMP using SSH. Local
maintenance can be performed at the console or via serial port (if available).
SSH sessions are tracked and logged using the security features built into
SIMP. Console access requires someone to have access to the physical (or
virtual) console along with the root
password. Auditing of those actions
also occurs in accordance with the configured audit policy. It is up to the
implementer to decide how to distribute authentication information for remote
maintenance.
[MA-4, MA-4 (1), MA-6]
Incident Response¶
While Puppet is not intended to be a security product primarily, its features help provide security functionality such as dynamic reconfigurations and wide-scale consistent mitigation application. If an implementation chooses, they can leverage Puppet’s ability to reconfigure systems as part of incident response.
SIMP also delivers an MCollective infrastructure which can be used to rapidly query for system state or apply hotfixes in a scalable manner. [IR-1]
Contingency Planning¶
SIMP does not provide any direct support for contingency planning. Some of the mechanisms provided by SIMP might be used to support an implementation’s contingency plan.
Information System Management¶
This chapter contains SIMP security concepts that are related to the management security controls in NIST 800-53.
Risk Assessment¶
This section describes the process of identifying risks within a system.
SIMP Self Risk Assessment¶
Risk can be found in any system. The SIMP team is constantly evaluating the system and the settings to minimize inherit risk. Most risks can be mitigated by processes and procedures at the implementation level. The following table describes the known areas in SIMP. [RA-1]
Risk | Possible Mitigations |
---|---|
Disabling Puppet: This can cause the clients to be out of sync with the Puppet Master. | SIMP attempts to force a break on any locks and restart Puppet on all clients after a time of 4*runinterval (30 minutes by default). Implementations should ensure that further steps have not been taken to disable Puppet and should monitor their logs. Administrators can use the puppetlast command on the Puppet Master to detect servers that have not checked in within a reasonable time period. |
Out of Date Patches: SIMP can be built with the RPMs from CentOS or Red Hat. Those RPMs should be assumed out of date at the time a system is initially installed (if using the SIMP DVD). | Implementations should obtain the latest RPMs and apply them in a reasonable manner. All SIMP systems will, by default, attempt to update all packages using YUM nightly. Therefore, having an updated repository will ensure that the systems are updated on a regular basis. |
Poor Account Management: SIMP security access control is based on users being created and managed over time. Giving shell access to unnecessary users allows them the opportunity to escalate privileges. | Use the default LDIF files and local user modules to ensure that account settings remain restrictive. Ensure the system has policies and procedures in place to manage accounts. Finally, ensure that users are in appropriate groups with limited privileges. |
Table: SIMP Risk
Vulnerability Scanning¶
The SIMP development and security team performs regular vulnerability scanning of the product using commercial and open source tools. Results and mitigations for findings from those tools can be provided upon request. [CA-2, RA-5]
Security Assessment and Authorization¶
Assessment and authorization varies by implementation. Implementations are encouraged to use documentation artifacts provided by the SIMP team to assist with assessment and authorization. [CA-2]
Note
Should users find issues with internal assessments, the SIMP team highly encourages them to submit a bug report using our Bug Tracker
SIMP Security Control Mapping¶
This is the security control mapping for SIMP. The document has two main sections. The first section contains the security components, which in our case are SIMP modules. Each component is documented and mapped to the security control sources. The second contains security control sources which are references or reference documents that contain security guidance.
Contents:
SIMP Components¶
This section contains the security documentation for SIMP modules (represented as components).
SIMPLib¶
Module Name: pupmod-simp-simplib
This module collects custom functions, facts, and types relevant to SIMP that are common enough to warrant distributing as their own module.
Access Enforcement¶
SIMP uses a combination of discretionary and mandatory access control configurations to protect the operating system and the applications installed. Both forms of access control are built upon a model where a subject’s (user or process) access to an object is controlled by the underlying operating system.
SIMPLib puts some specific access control configurations in place. The /tmp
and
/var/tmp
directories have nodev, noexec, and nosuid set to prevent users from
misusing the systems global read/write directories.
References: AC-3
Audit Events¶
SIMP logs successful and unsuccessful logins. Logins from unknown users are
also logged. These settings are found in the /etc/login.defs
file and
are activated by default.
References: AU-2
Authenticator Management¶
The operating system protects locally stored passwords by hashing them. SIMP maximizes that protection by using the SHA512 algorithm.
Passwords expire every 180 days, must be at least 1 day old to be changed, and users are warned 14 days before the password will expire.
Baseline Configuration¶
SIMP uses crond to schedule a number of jobs that help keep systems in a consistent and known baseline. The SIMPLib module ensures that the cron daemon is installed and running on all systems.
References: CM-2 (1)
Boundary Protection¶
SIMPLib uses the kernel’s sysctl rp_filter (reverse path) setting to drop spoofed IPv4 packets.
References: SC-7
Concurrent Session Controls¶
A limit of 10 concurrent sessions are allowed per user. This value is controlled by the operating system’s Pluggable Authentication Modules(PAM) module pam_limits.so setting.
References: AC-10
Cryptographic Protection¶
SIMP enables Federal Information Processing Standard(FIPS) mode. FIPS Publication 140-2, is a computer security standard, developed by a U.S. Government and industry working group to validate the quality of cryptographic modules. FIPS publications (including 140-2) can be found at the following URL: http://csrc.nist.gov/publications/PubsFIPS.html. Enabling FIPS mode installs an integrity checking package and modifies ciphers available for applications to use.
References: SC-13
Denial of Service Protection¶
SIMP takes several measures to reduce the chances of Denial of Service (DoS) attacks. The primary measures in place are to limit traffic with IPTables and set several kernel parameters. The kernel parameters set include limiting ICMP redirects, logging martian packets, ignoring ICMP broadcast traffic, ignoring bogus ICMP errors, and enabling protection against SYN cookies.
References: SC-5
Disable Inactive Accounts¶
Local accounts are disabled 35 days after their password expires. This is
enforced using the ‘inactive’ value in the /etc/default/useradd
file.
References: AC-2 (3)
Discretionary Access Control¶
SIMP uses the implementation of Discretionary Access Control (DAC) that is native to Linux. Specific file permissions have been assigned based on published security guidance for Red Hat, CentOS, and UNIX.
To ensure default permissions are as restrictive as possible, the user’s umask is set to 0077 while the daemon umask is set to 0027.
References: AC-3 (4)
Error Handling¶
Core dumps are disabled in SIMP. Core dump files may contain sensitive information and therefore are not written to disk.
Flaw Remediation¶
The Yellowdog Updater, Modified(YUM) client is configured to point to all SIMP repositories. Each night, a cron job runs yum update to install updated packages on each SIMP client. Therefore any packages in a repository are delivered within a 24 hour time period.
References: SI-2
Identification and Authentication¶
Root logins are restricted to a limited set of virtual terminals (tty1-tty6), serial interfaces (ttyS0-ttyS1), and the console.
References: IA-2
Least Functionality¶
Whenever possible, SIMP prevents kernel modules that could cause harm or are unnecessary from loading. The operating system’s modprobe blacklist feature is used to stop the following kernel modules from loading:
- bluetooth
- cramfs
- dccp
- dccp_ipv4
- dccp_ipv6
- freevxfs
- hfs
- hfsplus
- ieee1394
- jffs2
- net-pf-31
- rds
- sctp
- squashfs
- tipc
- udf
- usb-storage
Certain applications or application features are also explicitly disabled. The``hosts.equiv`` (part of the r-series of commands) is disabled. Prelinking, which changes binaries to increase startup time, is also disabled.
References: CM-7
Least Privilege¶
SIMP utilizes the cron daemon’s access control by implementing the cron.allow
feature. Only users in the cron.allow file are allowed to schedule cron jobs.
Only the root
user is in that file. The cron.deny file is forced to be absent,
therefore all other users are denied the ability to schedule jobs.
The AT and incron services have the same access control configuration setup.
Only the root
user can schedule jobs and all other users are denied.
References: AC-6
Malicious Code Protection¶
SIMP installs the chkrootkit tool. Chkrootkit scans systems for the presence of rootkits. A cron job runs chkrootrootkit once per day.
Previous Login Notification¶
SIMP implements PAM’s lastlog module to display previous login information. When a user logs into a host, the previous session’s login time, source host, and terminal is displayed.
Privileged Accounts¶
SIMP systems require a password when the system enters single user mode.
In the event system maintenance needs to be performed at the system console,
users must have the root
password to be
authenticated. Grub passwords are also set to prevent unauthorized
modifications to boot parameters.
References: AC-6 (5)
Secure Name / Address Resolution Service¶
To protect against DNS spoofing, the /etc/host
file is configured to log the
potentially spoofed name lookups.
References: SC-20
Session Lock¶
Sessions do not “lock”. Instead, when there is a shell open and idle for 15 minutes, the session will timeout. This applies only when the shell is not running a command/process. Once the session is terminated, the user must reestablish the shell via console or SSH.
Session Termination¶
Sessions are terminated after three failed logins. Users must start a new session to make additional attempts to authenticate. Sessions will also timeout after 60 seconds if not attempt is made to authenticate. Lastly, when prompted to change a password, a user has 3 attempts to successfully change it before the session is terminated.
References: AC-12
System Use Notification¶
A default SIMP warning banner is presented to the user prior to login. The content of that banner is:
---------------------------------- ATTENTION -----------------------------------
THIS IS A RESTRICTED COMPUTER SYSTEM
This computer system, and all related equipment, networks, and network devices
are provided for authorised use only. All systems controlled by this
organisation will be monitored for all lawful purposes. Monitoring includes
the totality of the operating system and connected networks. No events on this
system are excluded from record and there are no exclusions from this policy.
Use of this system constitutes consent to full monitoring of your activities
for use by the authorised monitoring organisation. Unauthorised use of this
system, including uninvited connections, may subject you to criminal
prosecution.
The data collected from this system may be used for any purpose by the
collecting organisation. If you do not agree to this monitoring, discontinue
use of the system IMMEDIATELY.
SIMP¶
Module Name: pupmod-simp-simp
This puppet module provides a set of default classes that will be useful to most users and which form the foundation of the core SIMP installation.
Account Management¶
SIMP makes several account management decisions that are part of the overall
account management strategy. One of those cases is the use of passwordless sudo
for any user in the administrators
or auditors
groups. This is on by
default due to the expected use of SSH keys and lack of local passwords.
Audit Storage Capacity¶
When a SIMP client serves as syslog server, logrotate is used to help manage storage capacity. The following log rotate rules are applied:
- Logs are rotated weekly
- A maximum of 12 rotated logs are stored
References: AU-4
Authorize Access to Security Functions¶
One of the main mechanisms to control access to security functions is the use of sudo. SIMP installs the following sudo rules
Account | Sudo Commands | Run As Account | Password Required |
---|---|---|---|
administrators | /usr/bin/sudosh | root | no |
administrators | /usr/sbin/puppetd | root | no |
administrators | /usr/sbin/puppeca | root | no |
administrators | /bin/rm -rf /var/lib/puppet/ssl | root | no |
auditors | /bin/cat, /bin/ls, /usr/bin/lsattr, /sbin/aureport, /sbin/ausearch, /sbin/lspci, /sbin/lsusb, /sbin/lsmod, /usr/sbin/lsof, /bin/netstat, /sbin/ifconfig -a, /sbin/route, /sbin/route -[venC], /usr/bin/getent, /usr/bin/tail | root | no |
References: AC-6 (1)
Authorized Software¶
SIMP builds and configures centralized YUM repositories which are hosted on the SIMP server. These repositories host all of the packages that are needed to install a SIMP server and client. Additionally, all of the packages available on a CentOS/RedHat ISO are also placed in a repository.
All of the repositories installed by the SIMP module require packages to the signed with a known GPG key.
References: CM-7 (5)
Centralized Management of Planned Audit Record Content¶
SIMP centrally controls what audit events are recorded on the clients. The SIMP module controls which of the those events are sent to local syslog daemon so that they may be forwarded to a central syslog server. The following list contains the conditions to be met for the SIMP logs to be sent to syslog.
- $programname == ‘sudosh’
- $programname ==’yum’
- $syslogfacility-text == ‘cron’
- $syslogfacility-text == ‘authpriv’
- $syslogfacility-text == ‘local5’
- $syslogfacility-text == ‘local6
- $syslogfacility-text == ‘local7’
- $syslogpriority-text == ‘emerg’
- $syslogfacility-text == ‘kern’ and $msg startswith ‘IPT:’
SIMP also has a stock ryslog module that exists within the SIMP module. The
stock rsylsog server configures the rsylog daemon to accept logs from SIMP
clients and places them in /var/log/hosts/
. The following files are
recreated in that directory:
- sudosh.log
- httpd.log
- dhcpd.log
- puppet-agent-err.log
- puppet-agent.log
- puppet-master.log
- audit.log
- slapd.log
- iptables.log
- secure.log
- messages.log
- maillog.log
- cron.log
- spooler.log
- boot.log
Configuration Management Policy and Procedures¶
All software developed and delivered under SIMP has a version associated with
it. The aggregation of those components come together to make up a SIMP
version. The current installed version of SIMP is written to a local file
/etc/simp/simp/version
.
References: CM-1
Identification and Authentication¶
SIMP uses the SSSD client to authenticate with the SIMP LDAP server. The SSSD client is configured to:
- Use LDAP
- Use autofs
- Use sudo
- Use SSH
- Enforce a minimum user ID of 500
References: IA-2
AIDE¶
Module Name: pupmod-simp-aide
This module installs AIDE and creates a baseline set of rules and files that should be monitored.
Automated Notifications of Integrity Violations¶
When an integrity event is detected by AIDE, the event is written both to a local AIDE log and to syslog. When combined with a central logging capability, all AIDE events can be stored and searched from a central location.
References SC-7 (2)
Software, Firmware, and Information Integrity¶
AIDE is installed and configured. SIMP configures a default set of files to be monitored. When a change is made to one of those files, AIDE will log that event.
The default list of files include:
/boot NORMAL
/bin NORMAL
/sbin NORMAL
/lib NORMAL
/opt NORMAL
/usr NORMAL
/root NORMAL
!/usr/src
!/usr/tmp
/etc PERMS
!/etc/mtab
!/etc/.*~
/etc/exports NORMAL
/etc/fstab NORMAL
/etc/passwd NORMAL
/etc/group NORMAL
/etc/gshadow NORMAL
/etc/shadow NORMAL
/etc/security/opasswd NORMAL
/etc/hosts.allow NORMAL
/etc/hosts.deny NORMAL
/etc/sudoers NORMAL
/etc/skel NORMAL
/etc/logrotate.d NORMAL
/etc/resolv.conf DATAONLY
/etc/nscd.conf NORMAL
/etc/securetty NORMAL
/etc/profile NORMAL
/etc/bashrc NORMAL
/etc/bash_completion.d/ NORMAL
/etc/login.defs NORMAL
/etc/zprofile NORMAL
/etc/zshrc NORMAL
/etc/zlogin NORMAL
/etc/zlogout NORMAL
/etc/profile.d/ NORMAL
/etc/X11/ NORMAL
/etc/yum.conf NORMAL
/etc/yumex.conf NORMAL
/etc/yumex.profiles.conf NORMAL
/etc/yum/ NORMAL
/etc/yum.repos.d/ NORMAL
/var/log LOG
!/var/log/sa
!/var/log/aide/aide.log
!/var/log/aide/aide.report
/etc/audit/ LSPP
/etc/libaudit.conf LSPP
/usr/sbin/stunnel LSPP
/var/spool/at LSPP
/etc/at.allow LSPP
/etc/at.deny LSPP
/etc/cron.allow LSPP
/etc/cron.deny LSPP
/etc/cron.d/ LSPP
/etc/cron.daily/ LSPP
/etc/cron.hourly/ LSPP
/etc/cron.monthly/ LSPP
/etc/cron.weekly/ LSPP
/etc/crontab LSPP
/var/spool/cron/root LSPP
/etc/login.defs LSPP
/etc/securetty LSPP
/var/log/faillog LSPP
/var/log/lastlog LSPP
/etc/hosts LSPP
/etc/sysconfig LSPP
/etc/inittab LSPP
/etc/grub LSPP
/etc/rc.d LSPP
/etc/ld.so.conf LSPP
/etc/localtime LSPP
/etc/sysctl.conf LSPP
/etc/modprobe.d/00_simp_blacklist.conf LSPP
/etc/pam.d LSPP
/etc/security LSPP
/etc/aliases LSPP
/etc/postfix LSPP
/etc/ssh/sshd_config LSPP
/etc/ssh/ssh_config LSPP
/etc/stunnel LSPP
/etc/vsftpd.ftpusers LSPP
/etc/vsftpd LSPP
/etc/issue LSPP
/etc/issue.net LSPP
/etc/cups LSPP
!/var/log/and-httpd
References: SC-7
Apache¶
Module Name: pupmod-simp-apache
This Puppet module provides the capability to configure Apache and component sites.
Audit Storage and Capacity¶
The Apache logs are written to the /var/log
partition. This puts them on
the same logical volume as the audit logs. That volume is mounted on a separate
partition so that log space does not interfere with operations.
References: AU-4
Automated Central Management / Application / Verification¶
SIMP uses rsync (over stunnel) to keep files in /var/www
synchronized between
all web servers. Any files that need to be the same on all web servers are
then managed from the puppet master.
References: CM-7 (1)
Content of Audit Records¶
The SIMP Apache configuration uses the following string to populate the Apache
logs: %h %l %u %t "%r" %>s %b "%{Referer}i" "%{User-Agent}i"
That will capture the remote hostname, the request log ID, the remote username, the time of the request, the first line of the request, the request status, the size of the response, the referrer, and the user agent used for the request.
There is an additional log file written for SSL logs. The following string is
used for that log: %t %h %{SSL_CLIENT_S_DN_CN}x %{SSL_PROTOCOL}x %{SSL_CIPHER}x \"%r\" %b %s
That will capture the time stamp, hostname, the distinguished name of the client certification, SSL protocol used, first line of the request, size of the response, and the request status.
References: AU-3
Information Flow Enforcement¶
The Apache module explicitly opens up ports 80 and 443 for the root web servers by
using IPTables rules. The connecting source IPs are limited to the value of
$client_nets
, which for most installs is the local network.
References: AC-4
Least Privilege¶
The Apache service runs under the apache
user and apache
group. This is allows
directory permissions to limit the service’s access to files/directories not
owned by the apache
user/group. The apache user does not have a valid login
shell.
References: AC-6
Mandatory Access Control¶
When SELinux is enabled in SIMP, Apache is configured to run within a context. Booleans specific to apache are also set.
Transfer to Alternate Storage¶
The Apache logs are configured to be sent to syslog. In a default SIMP install, this does not send them to an external host until one is defined.
References: AU-4 (1)
Transmission Confidentiality and Integrity¶
The SIMP server/puppet master has an SSL enabled Apache web server running on
port 443. The protocols are limited to TLSv1, TLSv1.1, and TLSv1.2. If the
web client does not support those protocols, the connection will be rejected.
The certificates are in the /etc/httpd/conf/pki
directory.
References: SC-8
Auditd¶
Module Name: pupmod-simp-auditd
This Puppet module provides the capability to configure auditd and rules affecting your system.
Audit Events¶
SIMP audit rules were built by using industry best practices gathered over the years. The heaviest reliance has been on the SCAP-Security Guide (SSG). SIMP aims for a balance between performance and operational needs so the settings are rarely an exact match from these guides.
The following audit rules are applied to SIMP systems:
## For audit 1.6.5 and higher
##
# Ignore errors
# This may sound counterintuitive, but we'd rather skip bad rules and load the
# rest than miss half the file. Warnings are still logged in the daemon
# restart output.
-i
## Remove any existing rules
-D
## Continue loading rules on failure.
# Particularly with the automatically generated nature of these rules in
# Puppet, it is possible that one or more may fail to load. We want to continue
# in that case so that we audit as much as possible.
-c
## Increase buffer size to handle the increased number of messages.
## Feel free to increase this if the machine panic's
# Default: 8192
-b 32768
## Set failure mode to panic
# Default: 2
-f 1
## Rate limit messages
# Default: 0
# If you set this to non-zero, you almost definitely want to set -f to 1 above.
-r 0
## Get rid of all anonymous and daemon junk. It clogs up the logs and doesn't
# do anyone # any good.
-a exit,never -F auid=-1
# Ignore system services. In most guides this is tagged onto every rule but
# that just makes for more processing time.
-a exit,never -F auid!=0 -F auid<500
## unsuccessful file operations
-a always,exit -F arch=b64 -S creat -S mkdir -S mknod -S link -S symlink -S
mkdirat -S mknodat -S linkat -S symlinkat -S openat -S open -S close -S rename
-S truncate -S ftruncate -S rmdir -S unlink -S unlinkat -F exit=-EPERM -k access
-a always,exit -F arch=b32 -S creat -S mkdir -S mknod -S link -S symlink -S
mkdirat -S mknodat -S linkat -S symlinkat -S openat -S open -S close -S rename
-S truncate -S ftruncate -S rmdir -S unlink -S unlinkat -F exit=-EPERM -k access
-a always,exit -F perm=a -F exit=-EPERM -k access
# Permissions auditing
-a always,exit -F arch=b64 -S chown -S fchmod -S fchmodat -S fchown -S fchownat
-S lchown -S setxattr -S lsetxattr -S fsetxattr -S removexattr -S lremovexattr
-S fremovexattr -k perm_mod
-a always,exit -F arch=b32 -S chown -S fchmod -S fchmodat -S fchown -S fchownat
-S lchown -S setxattr -S lsetxattr -S fsetxattr -S removexattr -S lremovexattr
-S fremovexattr -k perm_mod
# Audit useful items that someone does when su'ing to root.
# Had to add an entry at the top for getting rid of anonymous records. They
# are only moderately useful and contain *way* too much noise since this covers
# things like cron as well.
-a always,exit -F arch=b64 -F auid!=0 -F uid=0 -S capset -S mknod -S pivot_root
-S quotactl -S setsid -S settimeofday -S setuid -S swapoff -S swapon -k
su-root-activity
-a always,exit -F arch=b32 -F auid!=0 -F uid=0 -S capset -S mknod -S pivot_root
-S quotactl -S setsid -S settimeofday -S setuid -S swapoff -S swapon -k
su-root-activity
# Audit the execution of suid and sgid binaries.
-a always,exit -F arch=b64 -F euid=0 -F uid!=0 -S execve -k suid-root-exec
-a always,exit -F arch=b32 -F euid=0 -F uid!=0 -S execve -k suid-root-exec
## Audit the loading and unloading of kernel modules.
-w /sbin/insmod -p x -k modules
-w /sbin/rmmod -p x -k modules
-w /sbin/modprobe -p x -k modules
-a always,exit -F arch=b64 -S init_module -S delete_module -k modules
-a always,exit -F arch=b32 -S init_module -S delete_module -k modules
## Things that could affect time
-a exit,always -F arch=b32 -S adjtimex -S stime -S clock_settime -S settimeofday
-k audit_time_rules
-a exit,always -F arch=b64 -S adjtimex -S clock_settime -S settimeofday -k
audit_time_rules
-w /etc/localtime -p wa -k audit_time_rules
## Things that could affect system locale
-a always,exit -F arch=b32 -S sethostname -S setdomainname -k
audit_network_modifications
-a always,exit -F arch=b64 -S sethostname -S setdomainname -k
audit_network_modifications
-w /etc/issue -p wa -k audit_network_modifications
-w /etc/issue.net -p wa -k audit_network_modifications
-w /etc/hosts -p wa -k audit_network_modifications
-w /etc/sysconfig/network -p wa -k audit_network_modifications
# Mount options.
-a always,exit -F arch=b32 -S mount -S umount -S umount2 -k mount
-a always,exit -F arch=b64 -S mount -S umount2 -k mount
# audit umask changes.
# This is uselessly noisy.
# -a exit,always -S umask -k umask
-w /etc/group -p wa -k audit_account_changes
-w /etc/group- -p wa -k audit_account_changes
-w /etc/passwd -p wa -k audit_account_changes
-w /etc/passwd- -p wa -k audit_account_changes
-w /etc/gshadow -p wa -k audit_account_changes
-w /etc/shadow -p wa -k audit_account_changes
-w /etc/shadow- -p wa -k audit_account_changes
-w /etc/security/opasswd -p wa -k audit_account_changes
-w /etc/selinux/ -p wa -k MAC-policy
-w /var/log/faillog -p wa -k logins
-w /var/log/lastlog -p wa -k logins
-w /var/run/utmp -p wa -k session
-w /var/run/btmp -p wa -k session
-w /var/run/wtmp -p wa -k session
-w /etc/sudoers -p wa -k CFG_sys
# Generally good things to audit.
-w /boot/grub/grub.conf -p wa -k CFG_grub
-w /etc/aliases -p wa -k CFG_sys
-w /etc/anacrontab -p wa -k CFG_cron
-w /etc/at.deny -p wa -k CFG_sys
-w /etc/bashrc -p wa -k CFG_shell
-w /etc/cron.d -p wa -k CFG_cron
-w /etc/cron.daily -p wa -k CFG_cron
-w /etc/cron.deny -p wa -k CFG_cron
-w /etc/cron.hourly -p wa -k CFG_cron
-w /etc/cron.monthly -p wa -k CFG_cron
-w /etc/cron.weekly -p wa -k CFG_cron
-w /etc/crontab -p wa -k CFG_cron
-w /etc/csh.cshrc -p wa -k CFG_shell
-w /etc/csh.login -p wa -k CFG_shell
-w /etc/default -p wa -k CFG_sys
-w /etc/exports -p wa -k CFG_sys
-w /etc/fstab -p wa -k CFG_sys
-w /etc/host.conf -p wa -k CFG_sys
-w /etc/hosts.allow -p wa -k CFG_sys
-w /etc/hosts.deny -p wa -k CFG_sys
-w /etc/initlog.conf -p wa -k CFG_sys
-w /etc/inittab -p wa -k CFG_sys
-w /etc/issue -p wa -k CFG_sys
-w /etc/issue.net -p wa -k CFG_sys
-w /etc/krb5.conf -p wa -k CFG_sys
-w /etc/ld.so.conf -p wa -k CFG_sys
-w /etc/ld.so.conf.d -p wa -k CFG_sys
-w /etc/login.defs -p wa -k CFG_sys
-w /etc/modprobe.conf.d -p wa -k CFG_sys
-w /etc/modprobe.d/00_simp_blacklist.conf -p wa -k CFG_sys
-w /etc/nsswitch.conf -p wa -k CFG_sys
-w /etc/pam.d -p wa -k CFG_pam
-w /etc/pam_smb.conf -p wa -k CFG_pam
-w /etc/profile -p wa -k CFG_shell
-w /etc/rc.d/init.d -p wa -k CFG_sys
-w /etc/rc.local -p wa -k CFG_sys
-w /etc/rc.sysinit -p wa -k CFG_sys
-w /etc/resolv.conf -p wa -k CFG_sys
-w /etc/securetty -p wa -k CFG_sys
-w /etc/security -p wa -k CFG_security
-w /etc/services -p wa -k CFG_services
-w /etc/shells -p wa -k CFG_shell
-w /etc/snmp/snmpd.conf -p wa -k CFG_sys
-w /etc/ssh/sshd_config -p wa -k CFG_sys
-w /etc/sysconfig -p wa -k CFG_sys
-w /etc/sysctl.conf -p wa -k CFG_sys
-w /etc/xinetd.conf -p wa -k CFG_xinetd
-w /etc/xinetd.d -p wa -k CFG_sys
-w /etc/yum.conf -p wa -k yum-config
-w /etc/yum.repos.d -p wa -k yum-config
-w /lib/firmware/microcode.dat -p wa -k CFG_sys
-w /var/spool/at -p wa -k CFG_sys
-a exit,always -F arch=b32 -S ptrace -k paranoid
-a exit,always -F arch=b64 -S ptrace -k paranoid
-a always,exit -F arch=b32 -S personality -k paranoid
-a always,exit -F arch=b64 -S personality -k paranoid
-w /etc/aide.conf -p wa -k CFG_aide
-w /etc/aide.conf.d/default.aide -p wa -k CFG_aide
-w /etc/rc.d/init.d/auditd -p wa -k auditd
-w /var/log/audit.log -p wa -k audit-logs
-w /etc/pam_ldap.conf -p a -k CFG_etc_ldap
-w /etc/pki/private -p wa -k PKI
-w /etc/pki/public -p wa -k PKI
-w /etc/pki/cacerts -p wa -k PKI
-w /etc/pki/private/blade01.tasty.bacon.pem -p wa -k PKI
-w /etc/pki/public/blade01.tasty.bacon.pub -p wa -k PKI
-a always,exit -F dir=/etc/puppet -F uid!=puppet -p wa -k Puppet_Config
-a always,exit -F dir=/var/log/puppet -F uid!=puppet -p wa -k Puppet_Log
-a always,exit -F dir=/var/run/puppet -F uid!=puppet -p wa -k Puppet_Run
-a always,exit -F dir=$vardir/ssl -F uid!=puppet -p wa -k Puppet_SSL
-w /var/log/audit.log.1 -p rwa -k audit-logs
-w /var/log/audit.log.2 -p rwa -k audit-logs
-w /var/log/audit.log.3 -p rwa -k audit-logs
-w /var/log/audit.log.4 -p rwa -k audit-logs
-w /var/log/audit.log.5 -p rwa -k audit-logs
-w /etc/init/ -p wa -k CFG_upstart
References: AU-2
Audit Generation¶
SIMP enables auditd on all systems. Auditd is the userspace component to the Linux Auditing System. It’s responsible for writing audit records to the disk. Viewing the logs is done with the ausearch or aureport utilities. Configuring the audit rules is done with the auditctl utility. During startup, the rules in /etc/audit/audit.rules are read by auditctl.
The audit daemon is configured to initiate auditing at boot time.
Audit Reviews and Updates¶
SIMP developers are constantly reviewing the audit rules for accuracy, relevance, and performance. Rules are added and in some cases removed as security requirements change or as we find ways to improve the performance of auditd.
References: AU-2 (3)
Audit Storage Capacity¶
To help manage the amount of local storage occupied by audit logs, the following rules are applied:
- A maximum of 5 log files are retained. The oldest is removed when the logs are rotated.
- Files can reach a maximum of 24 Mb before being rotated.
References: AU-4
Content of Audit Records¶
The Linux audit daemon contains event type, date/time, host, and outcome of events by default. Each event type has a varying level of detail depending on the audited action. The auditd documentation should be referred to for the event types.
References: AU-3
Response to Audit Processing Failures¶
The auditing dispatcher is system that allows external applications to access and make use of the auditd daemon in real time. When the internal queue of the audit dispatcher is full, a message is sent to syslog.
References: AU-5
Response To Audit Processing Failures - Audit Storage Capacity¶
Auditd has been configured to handle audit failures or potential failures due to storage capacity. Those settings include:
- Send a warning to syslog when there is less than 75Mb of space on the audit partition (space_left).
- Suspend the audit daemon when there is less than 50Mb of space left on the audit partition (admin_space_left).
References: AU-5 (1)
ClamAV¶
Module Name: pupmod-simp-clamav
This module installs and configures ClamAV. ClamAV is a command line malicious code detection tool.
Malicious Code Protection¶
SIMP installs and configures ClamAV. ClamAV is a command line malicious code detection tool.
ClamAV is scheduled to run once per day and scans /tmp
, /var/tmp
, and
/dev/shm
.
Compliance¶
Module Name: pupmod-simp-compliance_markup
This module adds a function to enable compliance annotations in Puppet code.
Automated Central Management / Application / Verification¶
SIMP has a custom function that is embedded within the module code to validate each variable. Those variables are then verified against SIMP default configuration settings using hiera. Each time puppet runs on a client, the hiera variables are validated against SIMP defaults.
References: CM-7 (1)
IPTables¶
Module Name: pupmod-simp-iptables
The iptables module manages all IPTables and IP6Tables rules in an atomic fashion. All rules are applied only once per puppet agent run during the application of the last executed iptables resource.
Boundary Protection¶
The SIMP IPTables module adds an IPtables rule that will prevent external IP addresses from being able to send spoofed packets to your system. This applies to IPv6 traffic. IPv4 spoofing is prevented using the rp_filter sysctl setting.
References: SC-7
Enable / Disable Security Policy Filters¶
Only the root user or a user who has escalated to root can modify the IPtables filters.
References: AC-4 (10)
Information Flow Enforcement¶
IPTables is installed and running on all SIMP clients. IPtables controls the flow of inbound traffic by limiting IP addresses, protocols, and port numbers.
The default IPTables rules:
- Allow all outbound traffic
- Allow ping
- Allow traffic from established connections
- Drop broadcast traffic
- Drop multicast traffic
- Drop all other traffic
Named/Bind¶
Module Name: pupmod-simp-named
This Puppet module provides the capability to configure either a chrooted named process or a caching nameserver.
Automated Central Management / Application / Verification¶
Named configuration files are synchronized between the puppet master and the named servers using rsync.
References: CM-7 (1)
Information Flow Enforcement¶
The named module explicitly opens TCP and UDP ports 53 for the DNS by
using IPTables rules. The connecting source IPs are limited to the value of
$client_nets
which for most installs is the local network.
References: AC-4
Least Functionality¶
The SIMP named service is configured to run within a chroot jail. This ensures that the service cannot see or access files outside of named directory. Should the named service become remotely compromised, the attack cannot be escalated to other parts of the file system.
References: CM-7
OpenLDAP¶
Module Name: pupmod-simp-openldap
This Puppet module provides the capability to configure OpenLDAP servers and clients.
Access Enforcement¶
User password history (shadowLastChange) is written to the LDAP server. For this to happen, the user is given write access to their own shadowLastChange entry in LDAP.
References: AC-3
Audit Storage Capacity¶
Logrotate is used to help manage log storage capacity. The following log rotate rules are applied to OpenLDAP:
- Logs are rotated daily
- A maximum of 7 rotated logs are stored
References: AU-4
Authenticator Management¶
Authenticator strength is enforced using slapo-ppolicy overlay for LDAP. The ppolicy overlay is then configured to use PAM cracklib to enforce complexity.
For the default password complexity rules see the What is the Password Complexity for SIMP? FAQ.
The integration point between the remote LDAP server and PAM is the pam_ldap pam module. SIMP configures pam_ldap to point to the SIMP LDAP server and communicates using TLS.
References: IA-5 (1)(a), IA-5 (1)(e)
Content of Audit Records¶
All LDAP transactions to the LDAP database are audited and written to
/var/log/slapd.audit/
in LDIF format.
References: AU-3
Device Identification and Authentication¶
There is an account and password setup to authenticate devices needing to
synchronize with the LDAD server. The username for that account is LDAPSync
and the account and associated password are stored in LDAP.
There is also an account for a device to authenticate prior to being allowed to do anything else with the LDAP server. The username for that account is hostAuth and the account is stored in LDAP.
References: IA-3
Identification and Authentication (Organizational Users)¶
The pam_ldap module ensures that the username is mapped to the uid portion of the DN in LDAP.
The pam_ldap module is configured to tell the clients to ignore the following user names, forcing them to be authenticated locally:
- root
- bin
- daemon
- adm
- lp
- operator
- nobody
- dbus
- ntp
- saslauth
- postfix
- sshd
- puppet
- stunnel
- nscd
- haldaemon
- clamav
- rpcuser
- rpc
- clam
- nfsnobody
- rpm
- nslcd
- avahi
- gdm
- rtkit
- pulse
- hsqldb
- radvd
- apache
- tomcat
There as an ldap account created for LDAP administration. The username for that
account is LDAPAdmin
.
References: IA-2
Information Flow Enforcement¶
Since TCPWrappers has a default deny policy in place, a specific entry is added to allow all hosts to connect to the slapd service.
The OpenLDAP module explicitly opens up ports 389 (LDAP) and 636 (LDAPS)
using IPTables rules. The connecting source IPs are limited to the value of
$client_nets
which for most installs is the local network.
References: AC-4
Least Privilege¶
The OpenLDAP service runs under the ldap
user and ldap
group. This is allows
directory permissions to limit the service’s access to files/directories not
owned by the ldap
user/group. The ldap user does not have a valid login
shell.
The default LDAP server policy denies all users access to everything (default deny). Access to LDAP entries are explicitly added.
References: AC-6
PAM¶
Module Name: pupmod-simp-pam
This Puppet module provides the capability to configure various PAM settings on the system.
Included are capabilities to manage:
- system-auth
- Group-based access to the system
- access.conf
The system-auth settings are a bit draconian, but simple enough to work within.
Authenticator Management¶
Authenticator strength is enforced using pam_cracklib.so. The SIMP settings ensure that passwords:
- Have at least four characters that are different from the previous password
- Do not repeat a character more than two times in a row
- Do not have the username (forward or reversed) in the password
- Have at lease one character from three of the four classes: upper, lower, number, special character
- Have at least 14 characters
- Are not the same as any of the previous 24 passwords
Passwords are hashed using the SHA512 algorithm. Each password is hashed using 1000 rounds.
References: IA-5 (1)(a), IA-5 (1)(e)
Discretionary Access Control¶
When creating a home directory for the first time, PAM creates that directory
using the umask of 0077
.
References: AC-2
Group Authentication¶
SIMP does not use group accounts for authenticators. Instead, users are added
to a group. In the case of the administrators
group, a user first
authenticates to their account, and then escalates to root
using sudo.
References: IA-2 (5)
Least Privilege¶
SIMP uses the access conf file to identify which accounts can login to a system.
After all other identification and authentication checks have passed, the pam
access.conf file is checked to ensure the user is allowed to login. SIMP
allows root
and the adminstrators
group to login to all systems and the
simp
user to login to the puppet master. All other users must be explicitly
added to the access.conf file using the SIMP pam module.
References: AC-6
Privileged Accounts¶
Linux historically uses the wheel group to as an administrators group. SIMP makes use of the sudoers file with more granular group permissions. The PAM module enforces that only the root user is in the wheel group.
References: AC-6 (5)
Unsuccessful Login Attempts¶
A user is allowed three failed logins per session. After the third unsuccessful login attempt, the user is disconnected and must initiate a new session in order to make additional attempts.
After 5 failed login attempts in a time 15 minute span, the account is locked for a period of 15 minutes.
The root user account will be locked for one hour after 5 failed login attempts.
References: AC-7, AC-7(b), IA-11
Pupmod¶
Module Name: pupmod-simp-pupmod
This Puppet module provides the capability to configure both puppet servers and puppet clients.
The ability to switch puppetd from a system service to a cron job is also supported.
Access Enforcement¶
The puppet master uses a whitelist to determine which puppet clients can connect to the puppet master. The certificate of the connecting client must match the fully qualified domain name of the system. If it doesn’t, then the connection is denied.
References: AC-3
Audit Events¶
The following puppet files are added to the audit rules so that modifications to them are audited by auditd.
-a always,exit -F dir=${confdir} -F uid!=puppet -p wa -k Puppet_Config
-a always,exit -F dir=${logdir} -F uid!=puppet -p wa -k Puppet_Log
-a always,exit -F dir=${rundir} -F uid!=puppet -p wa -k Puppet_Run
-a always,exit -F dir=${ssldir} -F uid!=puppet -p wa -k Puppet_SSL
References: AU-2
Audit Storage and Capacity¶
The Puppet logs are written to the /var/log
partition. This puts them on
the same logical volume as the audit logs. That volume is mounted on a separate
partition so that log space does not interfere with operations.
The puppet master logs reports from client puppet runs in
/var/lib/puppet/reports
. The SIMP pupmod puppet module purges reports older
than 7 days.
References: AU-4
Automated Change Implementation¶
The most prominent tool in the SIMP architecture is Puppet. Puppet is a client/server tool where managed nodes run the Puppet agent application. One or more servers run the Puppet master application in the form of Puppet Server.
The Puppet agent sends facts to the Puppet master and request a catalog. The master compiles and returns that node’s catalog, using several sources of information it has access to.
Once it receives a catalog, Puppet agent applies it by checking each resource the catalog describes. If it finds any resources that are not in their desired state, it makes any changes necessary to correct them. After applying the catalog, the agent submits a report to the Puppet master.
Puppet clients have a cron job configured to run the puppet agent every 30 minutes.
References: CM-3 (3)
Content of Audit Records¶
The puppet master’s log level is set to WARN
. Any changes that are made
during a run of the puppet agent, are logged to the client’s log file.
References: AU-3
Information Flow Enforcement¶
The pupmod module explicitly opens up ports 8140 and 8141
using IPTables rules. Port 8140 is the puppet master port and 8141 is the
certificate authority port. The connecting source IPs are limited to the value of
$client_nets
, which for most installs is the local network.
References: AC-4
Public Key Infrastructure¶
Puppet has it’s own public key infrastructure (PKI) that is used exclusively for the puppet application. The PKI is used to provide access control and protect communications between the puppet master and the clients.
Additional information on Puppet and PKI can be found at https://docs.puppet.com/background/ssl/certificates_pki.html.
SIMP installs a cron job that will download a copy of the certificate revocation list(CRL) two times per day. If there is a client certificate that needs to be revoked, they can be added to the CRL and will no longer be able to connect to the puppet master.
References: SC-17
Rsync¶
Module Name: pupmod-simp-rsync
This Puppet module provides the capability to configure an rsync server. The intent is for this server to be run encrypted via a stunnel channel.
Client rsync rules have not been integrated into this module at this time.
Access Enforcement¶
SIMP rsync is limited to read only so that files can not be remotely modified.
References: AC-3
SSH¶
Module Name: pupmod-simp-ssh
This Puppet module manages the configuration of the system-wide SSH server and client.
Authenticator Management¶
The SSH daemon disallows the use of empty passwords. Additionally, the SSH daemon uses PAM to support authenticator security.
References: IA-5c.
Cryptographic Key Establishment and Management¶
The SSH server is configured to use the system’s existing system certificates.
Those certificates are stored in /etc/pki
and are used to generated the SSH
server certificates stored in /etc/ssh
.
References: SC-12
Cryptographic Protection¶
In the default FIPS mode, the SSH daemon limits the key exchange algorithms to:
- ecdh-sha2-nistp521
- ecdh-sha2-nistp384
- ecdh-sha2-nistp256
- diffie-hellman-group-exchange-sha256
In the default FIPS mode, the SSH daemon limits the message authentication code (MAC) algorithms to:
- hmac-sha2-256
- hmac-sha1’
In the default FIPS mode, the SSH client limits the key exchange algorithms to:
In the default FIPS mode, the SSH client limits the MAC algorithms to:
- hmac-sha2-256
- hmac-sha1’
References: SC-13
Information Flow Enforcement¶
The SSH module explicitly opens up port 22 for the SSH server by using IPTables rules.
Since TCPWrappers has a default deny policy in place, a specific entry is added to allow all hosts to connect to the SSH service.
References: AC-4
Least Privilege¶
The SSH service runs under the ssh
user and ssh
group. This is allows
directory permissions to limit the service’s access to files/directories not
owned by the ssh
user/group. The ssh user does not have a valid login
shell.
X11 forwarding over SSH is explicitly disallowed. This limits the exposure of the SSH server to networks outside of the control of SIMP.
References: AC-6
Privileged Accounts¶
The SSH daemon disables root login. The root user is only allowed to login locally.
Stunnel¶
Module Name: pupmod-simp-stunnel
This Puppet module provides the capability to configure stunnel channels on your system.
Access Enforcement¶
Stunnel verifies the client certificate as a form of access control. It only checks that the client certificate is valid.
References: AC-3
Least Functionality¶
The SIMP stunnel service is configured to run within a chroot jail. This ensures that the service cannot see or access files outside of stunnel directory. Should the stunnel service become remotely compromised, the attack cannot be escalated to other parts of the file system.
References: CM-7
Least Privilege¶
The stunnel service runs under the stunnel
user and stunnel
group. This allows
directory permissions to limit the service’s access to files/directories not
owned by the stunnel
user/group. The stunnel user does not have a valid login
shell.
References: AC-6
Transfer to Alternate Storage¶
The stunnel logs are configured to be sent to syslog. In a default SIMP install, this does not send them to an external host until one is defined.
References: AU-4 (1)
Transmission Confidentiality and Integrity¶
The stunnel module is a framework used by other modules to encrypt communications for applications that might not natively support it.
The cipher negotiation is determined by the OpenSSL ciphers. In a default SIMP system, this will be TLSv1.1 or higher.
The certificates used for stunnel are in the /etc/pki
directory.
References: SC-8
Sudosh¶
Module Name: pupmod-simp-sudosh
This Puppet module provides the capability to use Sudosh with logging to rsyslog.
TCP Wrappers¶
Module Name: pupmod-simp-tcpwrappers
This Puppet module allows you to manage /etc/hosts.allow
, /etc/hosts.deny
is set
to ALL:ALL by default.
Information Flow Enforcement¶
TCP Wrappers is enabled on SIMP systems. TCP Wrappers is a host-based networking ACL system, used to filter access to IP addresses. It allows host or subnetwork IP addresses, names and/or ident query replies, to be used as tokens on which to filter for access control purposes.
TCP Wrappers uses the /etc/hosts.allow
and the /etc/hosts.deny
files to
configure the access control.
References: AC-4
Security Control Sources¶
NIST 800-53 Rev4¶
AC-1¶
Control Family: ACCESS CONTROL
AC-1¶
AC-1 : ACCESS CONTROL POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the AC family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “An access control policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the access control policy and associated access controls; and”
Description: “Reviews and updates the current:”
Description: “Access control policy [Assignment: organization-defined frequency]; and”
Description: “Access control procedures [Assignment: organization-defined frequency].” .. _header_AC-2:
AC-2¶
Control Family: ACCESS CONTROL
AC-2¶
AC-2 : ACCOUNT MANAGEMENT
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Information system account types include, for example, individual, shared, group, system, guest/anonymous, emergency, developer/manufacturer/vendor, temporary, and service. Some of the account management requirements listed above can be implemented by organizational information systems. The identification of authorized users of the information system and the specification of access privileges reflects the requirements in other security controls in the security plan. Users requiring administrative privileges on information system accounts receive additional scrutiny by appropriate organizational personnel (e.g., system owner, mission/business owner, or chief information security officer) responsible for approving such accounts and privileged access. Organizations may choose to define access privileges or other attributes by account, by type of account, or a combination of both. Other attributes required for authorizing access include, for example, restrictions on time-of-day, day-of-week, and point-of-origin. In defining other account attributes, organizations consider system-related requirements (e.g., scheduled maintenance, system upgrades) and mission/business requirements, (e.g., time zone differences, customer requirements, remote access to support travel requirements). Failure to consider these factors could affect information system availability. Temporary and emergency accounts are accounts intended for short-term use. Organizations establish temporary accounts as a part of normal account activation procedures when there is a need for short-term accounts without the demand for immediacy in account activation. Organizations establish emergency accounts in response to crisis situations and with the need for rapid account activation. Therefore, emergency account activation may bypass normal account authorization processes. Emergency and temporary accounts are not to be confused with infrequently used accounts (e.g., local logon accounts used for special tasks defined by organizations or when network resources are unavailable). Such accounts remain available and are not subject to automatic disabling or removal dates. Conditions for disabling or deactivating accounts include, for example: (i) when shared/group, emergency, or temporary accounts are no longer required; or (ii) when individuals are transferred or terminated. Some types of information system accounts may require specialized training.”
Related Controls:AC-3,AC-4,AC-5,AC-6,AC-10,AC-17,AC-19,AC-20,AU-9,IA-2,IA-4,IA-5,IA-8,CM-5,CM-6,CM-11,MA-3,MA-4,MA-5,PL-4,SC-13
Description: “Identifies and selects the following types of information system accounts to support organizational missions/business functions: [Assignment: organization-defined information system account types];”
Description: “Assigns account managers for information system accounts;”
Description: “Establishes conditions for group and role membership;”
Description: “Specifies authorized users of the information system, group and role membership, and access authorizations (i.e., privileges) and other attributes (as required) for each account;”
Description: “Requires approvals by [Assignment: organization-defined personnel or roles] for requests to create information system accounts;”
Description: “Creates, enables, modifies, disables, and removes information system accounts in accordance with [Assignment: organization-defined procedures or conditions];”
Description: “Monitors the use of information system accounts;”
Description: “Notifies account managers:”
Description: “When accounts are no longer required;”
Description: “When users are terminated or transferred; and”
Description: “When individual information system usage or need-to-know changes;”
Description: “Authorizes access to the information system based on:”
Description: “A valid access authorization;”
Description: “Intended system usage; and”
Description: “Other attributes as required by the organization or associated missions/business functions;”
Description: “Reviews accounts for compliance with account management requirements [Assignment: organization-defined frequency]; and”
Description: “Establishes a process for reissuing shared/group account credentials (if deployed) when individuals are removed from the group.”
AC-2 (1)¶
AC-2 (1) : AUTOMATED SYSTEM ACCOUNT MANAGEMENT
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs automated mechanisms to support the management of information system accounts.” Supplemental Guidance: “The use of automated mechanisms can include, for example: using email or text messaging to automatically notify account managers when users are terminated or transferred; using the information system to monitor account usage; and using telephonic notification to report atypical system account usage.”
Related Controls:
AC-2 (2)¶
AC-2 (2) : REMOVAL OF TEMPORARY / EMERGENCY ACCOUNTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system automatically [Selection: removes; disables] temporary and emergency accounts after [Assignment: organization-defined time period for each type of account].” Supplemental Guidance: “This control enhancement requires the removal of both temporary and emergency accounts automatically after a predefined period of time has elapsed, rather than at the convenience of the systems administrator.”
Related Controls:
AC-2 (3)¶
AC-2 (3) : DISABLE INACTIVE ACCOUNTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system automatically disables inactive accounts after [Assignment: organization-defined time period].” Supplemental Guidance:
Related Controls:
AC-2 (4)¶
AC-2 (4) : AUTOMATED AUDIT ACTIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system automatically audits account creation, modification, enabling, disabling, and removal actions, and notifies [Assignment: organization-defined personnel or roles].” Supplemental Guidance:
Related Controls:AU-2,AU-12
AC-2 (5)¶
AC-2 (5) : INACTIVITY LOGOUT
Priority:
Baseline-Impact: HIGH
Description: “The organization requires that users log out when [Assignment: organization-defined time-period of expected inactivity or description of when to log out].” Supplemental Guidance:
Related Controls:SC-23
AC-2 (6)¶
AC-2 (6) : DYNAMIC PRIVILEGE MANAGEMENT
Priority:
Baseline-Impact:
Description: “The information system implements the following dynamic privilege management capabilities: [Assignment: organization-defined list of dynamic privilege management capabilities].” Supplemental Guidance: “In contrast to conventional access control approaches which employ static information system accounts and predefined sets of user privileges, dynamic access control approaches (e.g., service-oriented architectures) rely on run time access control decisions facilitated by dynamic privilege management. While user identities may remain relatively constant over time, user privileges may change more frequently based on ongoing mission/business requirements and operational needs of organizations. Dynamic privilege management can include, for example, the immediate revocation of privileges from users, as opposed to requiring that users terminate and restart their sessions to reflect any changes in privileges. Dynamic privilege management can also refer to mechanisms that change the privileges of users based on dynamic rules as opposed to editing specific user profiles. This type of privilege management includes, for example, automatic adjustments of privileges if users are operating out of their normal work times, or if information systems are under duress or in emergency maintenance situations. This control enhancement also includes the ancillary effects of privilege changes, for example, the potential changes to encryption keys used for communications. Dynamic privilege management can support requirements for information system resiliency.”
Related Controls:AC-16
AC-2 (7)¶
AC-2 (7) : ROLE-BASED SCHEMES
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Privileged roles are organization-defined roles assigned to individuals that allow those individuals to perform certain security-relevant functions that ordinary users are not authorized to perform. These privileged roles include, for example, key management, account management, network and system administration, database administration, and web administration.”
Related Controls:
Description: “Establishes and administers privileged user accounts in accordance with a role-based access scheme that organizes allowed information system access and privileges into roles;”
Description: “Monitors privileged role assignments; and”
Description: “Takes [Assignment: organization-defined actions] when privileged role assignments are no longer appropriate.”
AC-2 (8)¶
AC-2 (8) : DYNAMIC ACCOUNT CREATION
Priority:
Baseline-Impact:
Description: “The information system creates [Assignment: organization-defined information system accounts] dynamically.” Supplemental Guidance: “Dynamic approaches for creating information system accounts (e.g., as implemented within service-oriented architectures) rely on establishing accounts (identities) at run time for entities that were previously unknown. Organizations plan for dynamic creation of information system accounts by establishing trust relationships and mechanisms with the appropriate authorities to validate related authorizations and privileges.”
Related Controls:AC-16
AC-2 (9)¶
AC-2 (9) : RESTRICTIONS ON USE OF SHARED / GROUP ACCOUNTS
Priority:
Baseline-Impact:
Description: “The organization only permits the use of shared/group accounts that meet [Assignment: organization-defined conditions for establishing shared/group accounts].” Supplemental Guidance:
Related Controls:
AC-2 (10)¶
AC-2 (10) : SHARED / GROUP ACCOUNT CREDENTIAL TERMINATION
Priority:
Baseline-Impact:
Description: “The information system terminates shared/group account credentials when members leave the group.” Supplemental Guidance:
Related Controls:
AC-2 (11)¶
AC-2 (11) : USAGE CONDITIONS
Priority:
Baseline-Impact: HIGH
Description: “The information system enforces [Assignment: organization-defined circumstances and/or usage conditions] for [Assignment: organization-defined information system accounts].” Supplemental Guidance: “Organizations can describe the specific conditions or circumstances under which information system accounts can be used, for example, by restricting usage to certain days of the week, time of day, or specific durations of time.”
Related Controls:
AC-2 (12)¶
AC-2 (12) : ACCOUNT MONITORING / ATYPICAL USAGE
Priority:
Baseline-Impact: HIGH
Description: “The organization:” Supplemental Guidance: “Atypical usage includes, for example, accessing information systems at certain times of the day and from locations that are not consistent with the normal usage patterns of individuals working in organizations.”
Related Controls:CA-7
Description: “Monitors information system accounts for [Assignment: organization-defined atypical usage]; and”
Description: “Reports atypical usage of information system accounts to [Assignment: organization-defined personnel or roles].”
AC-2 (13)¶
AC-2 (13) : DISABLE ACCOUNTS FOR HIGH-RISK INDIVIDUALS
Priority:
Baseline-Impact: HIGH
Description: “The organization disables accounts of users posing a significant risk within [Assignment: organization-defined time period] of discovery of the risk.” Supplemental Guidance: “Users posing a significant risk to organizations include individuals for whom reliable evidence or intelligence indicates either the intention to use authorized access to information systems to cause harm or through whom adversaries will cause harm. Harm includes potential adverse impacts to organizational operations and assets, individuals, other organizations, or the Nation. Close coordination between authorizing officials, information system administrators, and human resource managers is essential in order for timely execution of this control enhancement.”
Related Controls:PS-4 .. _header_AC-3:
AC-3¶
Control Family: ACCESS CONTROL
AC-3¶
AC-3 : ACCESS ENFORCEMENT
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system enforces approved authorizations for logical access to information and system resources in accordance with applicable access control policies.” Supplemental Guidance: “Access control policies (e.g., identity-based policies, role-based policies, control matrices, cryptography) control access between active entities or subjects (i.e., users or processes acting on behalf of users) and passive entities or objects (e.g., devices, files, records, domains) in information systems. In addition to enforcing authorized access at the information system level and recognizing that information systems can host many applications and services in support of organizational missions and business operations, access enforcement mechanisms can also be employed at the application and service level to provide increased information security.”
Related Controls:AC-2,AC-4,AC-5,AC-6,AC-16,AC-17,AC-18,AC-19,AC-20,AC-21,AC-22,AU-9,CM-5,CM-6,CM-11,MA-3,MA-4,MA-5,PE-3
AC-3 (1)¶
AC-3 (1) : RESTRICTED ACCESS TO PRIVILEGED FUNCTIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-6].” Supplemental Guidance:
Related Controls:
AC-3 (2)¶
AC-3 (2) : DUAL AUTHORIZATION
Priority:
Baseline-Impact:
Description: “The information system enforces dual authorization for [Assignment: organization-defined privileged commands and/or other organization-defined actions].” Supplemental Guidance: “Dual authorization mechanisms require the approval of two authorized individuals in order to execute. Organizations do not require dual authorization mechanisms when immediate responses are necessary to ensure public and environmental safety. Dual authorization may also be known as two-person control.”
Related Controls:CP-9,MP-6
AC-3 (3)¶
AC-3 (3) : MANDATORY ACCESS CONTROL
Priority:
Baseline-Impact:
Description: “The information system enforces [Assignment: organization-defined mandatory access control policy] over all subjects and objects where the policy:” Supplemental Guidance: “Mandatory access control as defined in this control enhancement is synonymous with nondiscretionary access control, and is not constrained only to certain historical uses (e.g., implementations using the Bell-LaPadula Model). The above class of mandatory access control policies constrains what actions subjects can take with information obtained from data objects for which they have already been granted access, thus preventing the subjects from passing the information to unauthorized subjects and objects. This class of mandatory access control policies also constrains what actions subjects can take with respect to the propagation of access control privileges; that is, a subject with a privilege cannot pass that privilege to other subjects. The policy is uniformly enforced over all subjects and objects to which the information system has control. Otherwise, the access control policy can be circumvented. This enforcement typically is provided via an implementation that meets the reference monitor concept (see AC-25). The policy is bounded by the information system boundary (i.e., once the information is passed outside of the control of the system, additional means may be required to ensure that the constraints on the information remain in effect). The trusted subjects described above are granted privileges consistent with the concept of least privilege (see AC-6). Trusted subjects are only given the minimum privileges relative to the above policy necessary for satisfying organizational mission/business needs. The control is most applicable when there is some policy mandate (e.g., law, Executive Order, directive, or regulation) that establishes a policy regarding access to sensitive/classified information and some users of the information system are not authorized access to all sensitive/classified information resident in the information system. This control can operate in conjunction with AC-3 (4). A subject that is constrained in its operation by policies governed by this control is still able to operate under the less rigorous constraints of AC-3 (4), but policies governed by this control take precedence over the less rigorous constraints of AC-3 (4). For example, while a mandatory access control policy imposes a constraint preventing a subject from passing information to another subject operating at a different sensitivity label, AC-3 (4) permits the subject to pass the information to any subject with the same sensitivity label as the subject.”
Related Controls:AC-25,SC-11
Description: “Is uniformly enforced across all subjects and objects within the boundary of the information system;”
Description: “Specifies that a subject that has been granted access to information is constrained from doing any of the following;”
Description: “Passing the information to unauthorized subjects or objects;”
Description: “Granting its privileges to other subjects;”
Description: “Changing one or more security attributes on subjects, objects, the information system, or information system components;”
Description: “Choosing the security attributes and attribute values to be associated with newly created or modified objects; or”
Description: “Changing the rules governing access control; and”
Description: “Specifies that [Assignment: organization-defined subjects] may explicitly be granted [Assignment: organization-defined privileges (i.e., they are trusted subjects)] such that they are not limited by some or all of the above constraints.”
AC-3 (4)¶
AC-3 (4) : DISCRETIONARY ACCESS CONTROL
Priority:
Baseline-Impact:
Description: “The information system enforces [Assignment: organization-defined discretionary access control policy] over defined subjects and objects where the policy specifies that a subject that has been granted access to information can do one or more of the following:” Supplemental Guidance: “When discretionary access control policies are implemented, subjects are not constrained with regard to what actions they can take with information for which they have already been granted access. Thus, subjects that have been granted access to information are not prevented from passing (i.e., the subjects have the discretion to pass) the information to other subjects or objects. This control enhancement can operate in conjunction with AC-3 (3). A subject that is constrained in its operation by policies governed by AC-3 (3) is still able to operate under the less rigorous constraints of this control enhancement. Thus, while AC-3 (3) imposes constraints preventing a subject from passing information to another subject operating at a different sensitivity level, AC-3 (4) permits the subject to pass the information to any subject at the same sensitivity level. The policy is bounded by the information system boundary. Once the information is passed outside of the control of the information system, additional means may be required to ensure that the constraints remain in effect. While the older, more traditional definitions of discretionary access control require identity-based access control, that limitation is not required for this use of discretionary access control.”
Related Controls:
Description: “Pass the information to any other subjects or objects;”
Description: “Grant its privileges to other subjects;”
Description: “Change security attributes on subjects, objects, the information system, or the information system�s components;”
Description: “Choose the security attributes to be associated with newly created or revised objects; or”
Description: “Change the rules governing access control.”
AC-3 (5)¶
AC-3 (5) : SECURITY-RELEVANT INFORMATION
Priority:
Baseline-Impact:
Description: “The information system prevents access to [Assignment: organization-defined security-relevant information] except during secure, non-operable system states.” Supplemental Guidance: “Security-relevant information is any information within information systems that can potentially impact the operation of security functions or the provision of security services in a manner that could result in failure to enforce system security policies or maintain the isolation of code and data. Security-relevant information includes, for example, filtering rules for routers/firewalls, cryptographic key management information, configuration parameters for security services, and access control lists. Secure, non-operable system states include the times in which information systems are not performing mission/business-related processing (e.g., the system is off-line for maintenance, troubleshooting, boot-up, shut down).”
Related Controls:CM-3
AC-3 (6)¶
AC-3 (6) : PROTECTION OF USER AND SYSTEM INFORMATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-4 and SC-28].” Supplemental Guidance:
Related Controls:
AC-3 (7)¶
AC-3 (7) : ROLE-BASED ACCESS CONTROL
Priority:
Baseline-Impact:
Description: “The information system enforces a role-based access control policy over defined subjects and objects and controls access based upon [Assignment: organization-defined roles and users authorized to assume such roles].” Supplemental Guidance: “Role-based access control (RBAC) is an access control policy that restricts information system access to authorized users. Organizations can create specific roles based on job functions and the authorizations (i.e., privileges) to perform needed operations on organizational information systems associated with the organization-defined roles. When users are assigned to the organizational roles, they inherit the authorizations or privileges defined for those roles. RBAC simplifies privilege administration for organizations because privileges are not assigned directly to every user (which can be a significant number of individuals for mid- to large-size organizations) but are instead acquired through role assignments. RBAC can be implemented either as a mandatory or discretionary form of access control. For organizations implementing RBAC with mandatory access controls, the requirements in AC-3 (3) define the scope of the subjects and objects covered by the policy.”
Related Controls:
AC-3 (8)¶
AC-3 (8) : REVOCATION OF ACCESS AUTHORIZATIONS
Priority:
Baseline-Impact:
Description: “The information system enforces the revocation of access authorizations resulting from changes to the security attributes of subjects and objects based on [Assignment: organization-defined rules governing the timing of revocations of access authorizations].” Supplemental Guidance: “Revocation of access rules may differ based on the types of access revoked. For example, if a subject (i.e., user or process) is removed from a group, access may not be revoked until the next time the object (e.g., file) is opened or until the next time the subject attempts a new access to the object. Revocation based on changes to security labels may take effect immediately. Organizations can provide alternative approaches on how to make revocations immediate if information systems cannot provide such capability and immediate revocation is necessary.”
Related Controls:
AC-3 (9)¶
AC-3 (9) : CONTROLLED RELEASE
Priority:
Baseline-Impact:
Description: “The information system does not release information outside of the established system boundary unless:” Supplemental Guidance: “Information systems can only protect organizational information within the confines of established system boundaries. Additional security safeguards may be needed to ensure that such information is adequately protected once it is passed beyond the established information system boundaries. Examples of information leaving the system boundary include transmitting information to an external information system or printing the information on one of its printers. In cases where the information system is unable to make a determination of the adequacy of the protections provided by entities outside its boundary, as a mitigating control, organizations determine procedurally whether the external information systems are providing adequate security. The means used to determine the adequacy of the security provided by external information systems include, for example, conducting inspections or periodic testing, establishing agreements between the organization and its counterpart organizations, or some other process. The means used by external entities to protect the information received need not be the same as those used by the organization, but the means employed are sufficient to provide consistent adjudication of the security policy to protect the information. This control enhancement requires information systems to employ technical or procedural means to validate the information prior to releasing it to external systems. For example, if the information system passes information to another system controlled by another organization, technical means are employed to validate that the security attributes associated with the exported information are appropriate for the receiving system. Alternatively, if the information system passes information to a printer in organization-controlled space, procedural means can be employed to ensure that only appropriately authorized individuals gain access to the printer. This control enhancement is most applicable when there is some policy mandate (e.g., law, Executive Order, directive, or regulation) that establishes policy regarding access to the information, and that policy applies beyond the realm of a particular information system or organization.”
Related Controls:
Description: “The receiving [Assignment: organization-defined information system or system component] provides [Assignment: organization-defined security safeguards]; and”
Description: “[Assignment: organization-defined security safeguards] are used to validate the appropriateness of the information designated for release.”
AC-3 (10)¶
AC-3 (10) : AUDITED OVERRIDE OF ACCESS CONTROL MECHANISMS
Priority:
Baseline-Impact:
Description: “The organization employs an audited override of automated access control mechanisms under [Assignment: organization-defined conditions].” Supplemental Guidance:
Related Controls:AU-2,AU-6 .. _header_AC-4:
AC-4¶
Control Family: ACCESS CONTROL
AC-4¶
AC-4 : INFORMATION FLOW ENFORCEMENT
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system enforces approved authorizations for controlling the flow of information within the system and between interconnected systems based on [Assignment: organization-defined information flow control policies].” Supplemental Guidance: “Information flow control regulates where information is allowed to travel within an information system and between information systems (as opposed to who is allowed to access the information) and without explicit regard to subsequent accesses to that information. Flow control restrictions include, for example, keeping export-controlled information from being transmitted in the clear to the Internet, blocking outside traffic that claims to be from within the organization, restricting web requests to the Internet that are not from the internal web proxy server, and limiting information transfers between organizations based on data structures and content. Transferring information between information systems representing different security domains with different security policies introduces risk that such transfers violate one or more domain security policies. In such situations, information owners/stewards provide guidance at designated policy enforcement points between interconnected systems. Organizations consider mandating specific architectural solutions when required to enforce specific security policies. Enforcement includes, for example: (i) prohibiting information transfers between interconnected systems (i.e., allowing access only); (ii) employing hardware mechanisms to enforce one-way information flows; and (iii) implementing trustworthy regrading mechanisms to reassign security attributes and security labels. Organizations commonly employ information flow control policies and enforcement mechanisms to control the flow of information between designated sources and destinations (e.g., networks, individuals, and devices) within information systems and between interconnected systems. Flow control is based on the characteristics of the information and/or the information path. Enforcement occurs, for example, in boundary protection devices (e.g., gateways, routers, guards, encrypted tunnels, firewalls) that employ rule sets or establish configuration settings that restrict information system services, provide a packet-filtering capability based on header information, or message-filtering capability based on message content (e.g., implementing key word searches or using document characteristics). Organizations also consider the trustworthiness of filtering/inspection mechanisms (i.e., hardware, firmware, and software components) that are critical to information flow enforcement. Control enhancements 3 through 22 primarily address cross-domain solution needs which focus on more advanced filtering techniques, in-depth analysis, and stronger flow enforcement mechanisms implemented in cross-domain products, for example, high-assurance guards. Such capabilities are generally not available in commercial off-the-shelf information technology products.”
Related Controls:AC-3,AC-17,AC-19,AC-21,CM-6,CM-7,SA-8,SC-2,SC-5,SC-7,SC-18
AC-4 (1)¶
AC-4 (1) : OBJECT SECURITY ATTRIBUTES
Priority:
Baseline-Impact:
Description: “The information system uses [Assignment: organization-defined security attributes] associated with [Assignment: organization-defined information, source, and destination objects] to enforce [Assignment: organization-defined information flow control policies] as a basis for flow control decisions.” Supplemental Guidance: “Information flow enforcement mechanisms compare security attributes associated with information (data content and data structure) and source/destination objects, and respond appropriately (e.g., block, quarantine, alert administrator) when the mechanisms encounter information flows not explicitly allowed by information flow policies. For example, an information object labeled Secret would be allowed to flow to a destination object labeled Secret, but an information object labeled Top Secret would not be allowed to flow to a destination object labeled Secret. Security attributes can also include, for example, source and destination addresses employed in traffic filter firewalls. Flow enforcement using explicit security attributes can be used, for example, to control the release of certain types of information.”
Related Controls:AC-16
AC-4 (2)¶
AC-4 (2) : PROCESSING DOMAINS
Priority:
Baseline-Impact:
Description: “The information system uses protected processing domains to enforce [Assignment: organization-defined information flow control policies] as a basis for flow control decisions.” Supplemental Guidance: “Within information systems, protected processing domains are processing spaces that have controlled interactions with other processing spaces, thus enabling control of information flows between these spaces and to/from data/information objects. A protected processing domain can be provided, for example, by implementing domain and type enforcement. In domain and type enforcement, information system processes are assigned to domains; information is identified by types; and information flows are controlled based on allowed information accesses (determined by domain and type), allowed signaling among domains, and allowed process transitions to other domains.”
Related Controls:
AC-4 (3)¶
AC-4 (3) : DYNAMIC INFORMATION FLOW CONTROL
Priority:
Baseline-Impact:
Description: “The information system enforces dynamic information flow control based on [Assignment: organization-defined policies].” Supplemental Guidance: “Organizational policies regarding dynamic information flow control include, for example, allowing or disallowing information flows based on changing conditions or mission/operational considerations. Changing conditions include, for example, changes in organizational risk tolerance due to changes in the immediacy of mission/business needs, changes in the threat environment, and detection of potentially harmful or adverse events.”
Related Controls:SI-4
AC-4 (4)¶
AC-4 (4) : CONTENT CHECK ENCRYPTED INFORMATION
Priority:
Baseline-Impact:
Description: “The information system prevents encrypted information from bypassing content-checking mechanisms by [Selection (one or more): decrypting the information; blocking the flow of the encrypted information; terminating communications sessions attempting to pass encrypted information; [Assignment: organization-defined procedure or method]].” Supplemental Guidance:
Related Controls:SI-4
AC-4 (5)¶
AC-4 (5) : EMBEDDED DATA TYPES
Priority:
Baseline-Impact:
Description: “The information system enforces [Assignment: organization-defined limitations] on embedding data types within other data types.” Supplemental Guidance: “Embedding data types within other data types may result in reduced flow control effectiveness. Data type embedding includes, for example, inserting executable files as objects within word processing files, inserting references or descriptive information into a media file, and compressed or archived data types that may include multiple embedded data types. Limitations on data type embedding consider the levels of embedding and prohibit levels of data type embedding that are beyond the capability of the inspection tools.”
Related Controls:
AC-4 (6)¶
AC-4 (6) : METADATA
Priority:
Baseline-Impact:
Description: “The information system enforces information flow control based on [Assignment: organization-defined metadata].” Supplemental Guidance: “Metadata is information used to describe the characteristics of data. Metadata can include structural metadata describing data structures (e.g., data format, syntax, and semantics) or descriptive metadata describing data contents (e.g., age, location, telephone number). Enforcing allowed information flows based on metadata enables simpler and more effective flow control. Organizations consider the trustworthiness of metadata with regard to data accuracy (i.e., knowledge that the metadata values are correct with respect to the data), data integrity (i.e., protecting against unauthorized changes to metadata tags), and the binding of metadata to the data payload (i.e., ensuring sufficiently strong binding techniques with appropriate levels of assurance).”
Related Controls:AC-16,SI-7
AC-4 (7)¶
AC-4 (7) : ONE-WAY FLOW MECHANISMS
Priority:
Baseline-Impact:
Description: “The information system enforces [Assignment: organization-defined one-way information flows] using hardware mechanisms.” Supplemental Guidance:
Related Controls:
AC-4 (8)¶
AC-4 (8) : SECURITY POLICY FILTERS
Priority:
Baseline-Impact:
Description: “The information system enforces information flow control using [Assignment: organization-defined security policy filters] as a basis for flow control decisions for [Assignment: organization-defined information flows].” Supplemental Guidance: “Organization-defined security policy filters can address data structures and content. For example, security policy filters for data structures can check for maximum file lengths, maximum field sizes, and data/file types (for structured and unstructured data). Security policy filters for data content can check for specific words (e.g., dirty/clean word filters), enumerated values or data value ranges, and hidden content. Structured data permits the interpretation of data content by applications. Unstructured data typically refers to digital information without a particular data structure or with a data structure that does not facilitate the development of rule sets to address the particular sensitivity of the information conveyed by the data or the associated flow enforcement decisions. Unstructured data consists of: (i) bitmap objects that are inherently non language-based (i.e., image, video, or audio files); and (ii) textual objects that are based on written or printed languages (e.g., commercial off-the-shelf word processing documents, spreadsheets, or emails). Organizations can implement more than one security policy filter to meet information flow control objectives (e.g., employing clean word lists in conjunction with dirty word lists may help to reduce false positives).”
Related Controls:
AC-4 (9)¶
AC-4 (9) : HUMAN REVIEWS
Priority:
Baseline-Impact:
Description: “The information system enforces the use of human reviews for [Assignment: organization-defined information flows] under the following conditions: [Assignment: organization-defined conditions].” Supplemental Guidance: “Organizations define security policy filters for all situations where automated flow control decisions are possible. When a fully automated flow control decision is not possible, then a human review may be employed in lieu of, or as a complement to, automated security policy filtering. Human reviews may also be employed as deemed necessary by organizations.”
Related Controls:
AC-4 (10)¶
AC-4 (10) : ENABLE / DISABLE SECURITY POLICY FILTERS
Priority:
Baseline-Impact:
Description: “The information system provides the capability for privileged administrators to enable/disable [Assignment: organization-defined security policy filters] under the following conditions: [Assignment: organization-defined conditions].” Supplemental Guidance: “For example, as allowed by the information system authorization, administrators can enable security policy filters to accommodate approved data types.”
Related Controls:
AC-4 (11)¶
AC-4 (11) : CONFIGURATION OF SECURITY POLICY FILTERS
Priority:
Baseline-Impact:
Description: “The information system provides the capability for privileged administrators to configure [Assignment: organization-defined security policy filters] to support different security policies.” Supplemental Guidance: “For example, to reflect changes in security policies, administrators can change the list of �dirty words� that security policy mechanisms check in accordance with the definitions provided by organizations.”
Related Controls:
AC-4 (12)¶
AC-4 (12) : DATA TYPE IDENTIFIERS
Priority:
Baseline-Impact:
Description: “The information system, when transferring information between different security domains, uses [Assignment: organization-defined data type identifiers] to validate data essential for information flow decisions.” Supplemental Guidance: “Data type identifiers include, for example, filenames, file types, file signatures/tokens, and multiple internal file signatures/tokens. Information systems may allow transfer of data only if compliant with data type format specifications.”
Related Controls:
AC-4 (13)¶
AC-4 (13) : DECOMPOSITION INTO POLICY-RELEVANT SUBCOMPONENTS
Priority:
Baseline-Impact:
Description: “The information system, when transferring information between different security domains, decomposes information into [Assignment: organization-defined policy-relevant subcomponents] for submission to policy enforcement mechanisms.” Supplemental Guidance: “Policy enforcement mechanisms apply filtering, inspection, and/or sanitization rules to the policy-relevant subcomponents of information to facilitate flow enforcement prior to transferring such information to different security domains. Parsing transfer files facilitates policy decisions on source, destination, certificates, classification, attachments, and other security-related component differentiators.”
Related Controls:
AC-4 (14)¶
AC-4 (14) : SECURITY POLICY FILTER CONSTRAINTS
Priority:
Baseline-Impact:
Description: “The information system, when transferring information between different security domains, implements [Assignment: organization-defined security policy filters] requiring fully enumerated formats that restrict data structure and content.” Supplemental Guidance: “Data structure and content restrictions reduce the range of potential malicious and/or unsanctioned content in cross-domain transactions. Security policy filters that restrict data structures include, for example, restricting file sizes and field lengths. Data content policy filters include, for example: (i) encoding formats for character sets (e.g., Universal Character Set Transformation Formats, American Standard Code for Information Interchange); (ii) restricting character data fields to only contain alpha-numeric characters; (iii) prohibiting special characters; and (iv) validating schema structures.”
Related Controls:
AC-4 (15)¶
AC-4 (15) : DETECTION OF UNSANCTIONED INFORMATION
Priority:
Baseline-Impact:
Description: “The information system, when transferring information between different security domains, examines the information for the presence of [Assignment: organized-defined unsanctioned information] and prohibits the transfer of such information in accordance with the [Assignment: organization-defined security policy].” Supplemental Guidance: “Detection of unsanctioned information includes, for example, checking all information to be transferred for malicious code and dirty words.”
Related Controls:SI-3
AC-4 (16)¶
AC-4 (16) : INFORMATION TRANSFERS ON INTERCONNECTED SYSTEMS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-4].” Supplemental Guidance:
Related Controls:
AC-4 (17)¶
AC-4 (17) : DOMAIN AUTHENTICATION
Priority:
Baseline-Impact:
Description: “The information system uniquely identifies and authenticates source and destination points by [Selection (one or more): organization, system, application, individual] for information transfer.” Supplemental Guidance: “Attribution is a critical component of a security concept of operations. The ability to identify source and destination points for information flowing in information systems, allows the forensic reconstruction of events when required, and encourages policy compliance by attributing policy violations to specific organizations/individuals. Successful domain authentication requires that information system labels distinguish among systems, organizations, and individuals involved in preparing, sending, receiving, or disseminating information.”
Related Controls:IA-2,IA-3,IA-4,IA-5
AC-4 (18)¶
AC-4 (18) : SECURITY ATTRIBUTE BINDING
Priority:
Baseline-Impact:
Description: “The information system binds security attributes to information using [Assignment: organization-defined binding techniques] to facilitate information flow policy enforcement.” Supplemental Guidance: “Binding techniques implemented by information systems affect the strength of security attribute binding to information. Binding strength and the assurance associated with binding techniques play an important part in the trust organizations have in the information flow enforcement process. The binding techniques affect the number and degree of additional reviews required by organizations.”
Related Controls:AC-16,SC-16
AC-4 (19)¶
AC-4 (19) : VALIDATION OF METADATA
Priority:
Baseline-Impact:
Description: “The information system, when transferring information between different security domains, applies the same security policy filtering to metadata as it applies to data payloads.” Supplemental Guidance: “This control enhancement requires the validation of metadata and the data to which the metadata applies. Some organizations distinguish between metadata and data payloads (i.e., only the data to which the metadata is bound). Other organizations do not make such distinctions, considering metadata and the data to which the metadata applies as part of the payload. All information (including metadata and the data to which the metadata applies) is subject to filtering and inspection.”
Related Controls:
AC-4 (20)¶
AC-4 (20) : APPROVED SOLUTIONS
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined solutions in approved configurations] to control the flow of [Assignment: organization-defined information] across security domains.” Supplemental Guidance: “Organizations define approved solutions and configurations in cross-domain policies and guidance in accordance with the types of information flows across classification boundaries. The Unified Cross Domain Management Office (UCDMO) provides a baseline listing of approved cross-domain solutions.”
Related Controls:
AC-4 (21)¶
AC-4 (21) : PHYSICAL / LOGICAL SEPARATION OF INFORMATION FLOWS
Priority:
Baseline-Impact:
Description: “The information system separates information flows logically or physically using [Assignment: organization-defined mechanisms and/or techniques] to accomplish [Assignment: organization-defined required separations by types of information].” Supplemental Guidance: “Enforcing the separation of information flows by type can enhance protection by ensuring that information is not commingled while in transit and by enabling flow control by transmission paths perhaps not otherwise achievable. Types of separable information include, for example, inbound and outbound communications traffic, service requests and responses, and information of differing security categories.”
Related Controls:
AC-4 (22)¶
AC-4 (22) : ACCESS ONLY
Priority:
Baseline-Impact:
Description: “The information system provides access from a single device to computing platforms, applications, or data residing on multiple different security domains, while preventing any information flow between the different security domains.” Supplemental Guidance: “The information system, for example, provides a desktop for users to access each connected security domain without providing any mechanisms to allow transfer of information between the different security domains.”
Related Controls: .. _header_AC-5:
AC-5¶
Control Family: ACCESS CONTROL
AC-5¶
AC-5 : SEPARATION OF DUTIES
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Separation of duties addresses the potential for abuse of authorized privileges and helps to reduce the risk of malevolent activity without collusion. Separation of duties includes, for example: (i) dividing mission functions and information system support functions among different individuals and/or roles; (ii) conducting information system support functions with different individuals (e.g., system management, programming, configuration management, quality assurance and testing, and network security); and (iii) ensuring security personnel administering access control functions do not also administer audit functions.”
Related Controls:AC-3,AC-6,PE-3,PE-4,PS-2
Description: “Separates [Assignment: organization-defined duties of individuals];”
Description: “Documents separation of duties of individuals; and”
Description: “Defines information system access authorizations to support separation of duties.” .. _header_AC-6:
AC-6¶
Control Family: ACCESS CONTROL
AC-6¶
AC-6 : LEAST PRIVILEGE
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs the principle of least privilege, allowing only authorized accesses for users (or processes acting on behalf of users) which are necessary to accomplish assigned tasks in accordance with organizational missions and business functions.” Supplemental Guidance: “Organizations employ least privilege for specific duties and information systems. The principle of least privilege is also applied to information system processes, ensuring that the processes operate at privilege levels no higher than necessary to accomplish required organizational missions/business functions. Organizations consider the creation of additional processes, roles, and information system accounts as necessary, to achieve least privilege. Organizations also apply least privilege to the development, implementation, and operation of organizational information systems.”
Related Controls:AC-2,AC-3,AC-5,CM-6,CM-7,PL-2
AC-6 (1)¶
AC-6 (1) : AUTHORIZE ACCESS TO SECURITY FUNCTIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization explicitly authorizes access to [Assignment: organization-defined security functions (deployed in hardware, software, and firmware) and security-relevant information].” Supplemental Guidance: “Security functions include, for example, establishing system accounts, configuring access authorizations (i.e., permissions, privileges), setting events to be audited, and setting intrusion detection parameters. Security-relevant information includes, for example, filtering rules for routers/firewalls, cryptographic key management information, configuration parameters for security services, and access control lists. Explicitly authorized personnel include, for example, security administrators, system and network administrators, system security officers, system maintenance personnel, system programmers, and other privileged users.”
Related Controls:AC-17,AC-18,AC-19
AC-6 (2)¶
AC-6 (2) : NON-PRIVILEGED ACCESS FOR NONSECURITY FUNCTIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization requires that users of information system accounts, or roles, with access to [Assignment: organization-defined security functions or security-relevant information], use non-privileged accounts or roles, when accessing nonsecurity functions.” Supplemental Guidance: “This control enhancement limits exposure when operating from within privileged accounts or roles. The inclusion of roles addresses situations where organizations implement access control policies such as role-based access control and where a change of role provides the same degree of assurance in the change of access authorizations for both the user and all processes acting on behalf of the user as would be provided by a change between a privileged and non-privileged account.”
Related Controls:PL-4
AC-6 (3)¶
AC-6 (3) : NETWORK ACCESS TO PRIVILEGED COMMANDS
Priority:
Baseline-Impact: HIGH
Description: “The organization authorizes network access to [Assignment: organization-defined privileged commands] only for [Assignment: organization-defined compelling operational needs] and documents the rationale for such access in the security plan for the information system.” Supplemental Guidance: “Network access is any access across a network connection in lieu of local access (i.e., user being physically present at the device).”
Related Controls:AC-17
AC-6 (4)¶
AC-6 (4) : SEPARATE PROCESSING DOMAINS
Priority:
Baseline-Impact:
Description: “The information system provides separate processing domains to enable finer-grained allocation of user privileges.” Supplemental Guidance: “Providing separate processing domains for finer-grained allocation of user privileges includes, for example: (i) using virtualization techniques to allow additional privileges within a virtual machine while restricting privileges to other virtual machines or to the underlying actual machine; (ii) employing hardware and/or software domain separation mechanisms; and (iii) implementing separate physical domains.”
Related Controls:AC-4,SC-3,SC-30,SC-32
AC-6 (5)¶
AC-6 (5) : PRIVILEGED ACCOUNTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization restricts privileged accounts on the information system to [Assignment: organization-defined personnel or roles].” Supplemental Guidance: “Privileged accounts, including super user accounts, are typically described as system administrator for various types of commercial off-the-shelf operating systems. Restricting privileged accounts to specific personnel or roles prevents day-to-day users from having access to privileged information/functions. Organizations may differentiate in the application of this control enhancement between allowed privileges for local accounts and for domain accounts provided organizations retain the ability to control information system configurations for key security parameters and as otherwise necessary to sufficiently mitigate risk.”
Related Controls:CM-6
AC-6 (6)¶
AC-6 (6) : PRIVILEGED ACCESS BY NON-ORGANIZATIONAL USERS
Priority:
Baseline-Impact:
Description: “The organization prohibits privileged access to the information system by non-organizational users.” Supplemental Guidance:
Related Controls:IA-8
AC-6 (7)¶
AC-6 (7) : REVIEW OF USER PRIVILEGES
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “The need for certain assigned user privileges may change over time reflecting changes in organizational missions/business function, environments of operation, technologies, or threat. Periodic review of assigned user privileges is necessary to determine if the rationale for assigning such privileges remains valid. If the need cannot be revalidated, organizations take appropriate corrective actions.”
Related Controls:CA-7
Description: “Reviews [Assignment: organization-defined frequency] the privileges assigned to [Assignment: organization-defined roles or classes of users] to validate the need for such privileges; and”
Description: “Reassigns or removes privileges, if necessary, to correctly reflect organizational mission/business needs.”
AC-6 (8)¶
AC-6 (8) : PRIVILEGE LEVELS FOR CODE EXECUTION
Priority:
Baseline-Impact:
Description: “The information system prevents [Assignment: organization-defined software] from executing at higher privilege levels than users executing the software.” Supplemental Guidance: “In certain situations, software applications/programs need to execute with elevated privileges to perform required functions. However, if the privileges required for execution are at a higher level than the privileges assigned to organizational users invoking such applications/programs, those users are indirectly provided with greater privileges than assigned by organizations.”
Related Controls:
AC-6 (9)¶
AC-6 (9) : AUDITING USE OF PRIVILEGED FUNCTIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system audits the execution of privileged functions.” Supplemental Guidance: “Misuse of privileged functions, either intentionally or unintentionally by authorized users, or by unauthorized external entities that have compromised information system accounts, is a serious and ongoing concern and can have significant adverse impacts on organizations. Auditing the use of privileged functions is one way to detect such misuse, and in doing so, help mitigate the risk from insider threats and the advanced persistent threat (APT).”
Related Controls:AU-2
AC-6 (10)¶
AC-6 (10) : PROHIBIT NON-PRIVILEGED USERS FROM EXECUTING PRIVILEGED FUNCTIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system prevents non-privileged users from executing privileged functions to include disabling, circumventing, or altering implemented security safeguards/countermeasures.” Supplemental Guidance: “Privileged functions include, for example, establishing information system accounts, performing system integrity checks, or administering cryptographic key management activities. Non-privileged users are individuals that do not possess appropriate authorizations. Circumventing intrusion detection and prevention mechanisms or malicious code protection mechanisms are examples of privileged functions that require protection from non-privileged users.”
Related Controls: .. _header_AC-7:
AC-7¶
Control Family: ACCESS CONTROL
AC-7¶
AC-7 : UNSUCCESSFUL LOGON ATTEMPTS
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “This control applies regardless of whether the logon occurs via a local or network connection. Due to the potential for denial of service, automatic lockouts initiated by information systems are usually temporary and automatically release after a predetermined time period established by organizations. If a delay algorithm is selected, organizations may choose to employ different algorithms for different information system components based on the capabilities of those components. Responses to unsuccessful logon attempts may be implemented at both the operating system and the application levels.”
Related Controls:AC-2,AC-9,AC-14,IA-5
Description: “Enforces a limit of [Assignment: organization-defined number] consecutive invalid logon attempts by a user during a [Assignment: organization-defined time period]; and”
Description: “Automatically [Selection: locks the account/node for an [Assignment: organization-defined time period]; locks the account/node until released by an administrator; delays next logon prompt according to [Assignment: organization-defined delay algorithm]] when the maximum number of unsuccessful attempts is exceeded.”
AC-7 (1)¶
AC-7 (1) : AUTOMATIC ACCOUNT LOCK
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-7].” Supplemental Guidance:
Related Controls:
AC-7 (2)¶
AC-7 (2) : PURGE / WIPE MOBILE DEVICE
Priority:
Baseline-Impact:
Description: “The information system purges/wipes information from [Assignment: organization-defined mobile devices] based on [Assignment: organization-defined purging/wiping requirements/techniques] after [Assignment: organization-defined number] consecutive, unsuccessful device logon attempts.” Supplemental Guidance: “This control enhancement applies only to mobile devices for which a logon occurs (e.g., personal digital assistants, smart phones, tablets). The logon is to the mobile device, not to any one account on the device. Therefore, successful logons to any accounts on mobile devices reset the unsuccessful logon count to zero. Organizations define information to be purged/wiped carefully in order to avoid over purging/wiping which may result in devices becoming unusable. Purging/wiping may be unnecessary if the information on the device is protected with sufficiently strong encryption mechanisms.”
Related Controls:AC-19,MP-5,MP-6,SC-13 .. _header_AC-8:
AC-8¶
Control Family: ACCESS CONTROL
AC-8¶
AC-8 : SYSTEM USE NOTIFICATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “System use notifications can be implemented using messages or warning banners displayed before individuals log in to information systems. System use notifications are used only for access via logon interfaces with human users and are not required when such human interfaces do not exist. Organizations consider system use notification messages/banners displayed in multiple languages based on specific organizational needs and the demographics of information system users. Organizations also consult with the Office of the General Counsel for legal review and approval of warning banner content.”
Related Controls:
Description: “Displays to users [Assignment: organization-defined system use notification message or banner] before granting access to the system that provides privacy and security notices consistent with applicable federal laws, Executive Orders, directives, policies, regulations, standards, and guidance and states that:”
Description: “Users are accessing a U.S. Government information system;”
Description: “Information system usage may be monitored, recorded, and subject to audit;”
Description: “Unauthorized use of the information system is prohibited and subject to criminal and civil penalties; and”
Description: “Use of the information system indicates consent to monitoring and recording;”
Description: “Retains the notification message or banner on the screen until users acknowledge the usage conditions and take explicit actions to log on to or further access the information system; and”
Description: “For publicly accessible systems:”
Description: “Displays system use information [Assignment: organization-defined conditions], before granting further access;”
Description: “Displays references, if any, to monitoring, recording, or auditing that are consistent with privacy accommodations for such systems that generally prohibit those activities; and”
Description: “Includes a description of the authorized uses of the system.” .. _header_AC-9:
AC-9¶
Control Family: ACCESS CONTROL
AC-9¶
AC-9 : PREVIOUS LOGON (ACCESS) NOTIFICATION
Priority: P0
Baseline-Impact:
Description: “The information system notifies the user, upon successful logon (access) to the system, of the date and time of the last logon (access).” Supplemental Guidance: “This control is applicable to logons to information systems via human user interfaces and logons to systems that occur in other types of architectures (e.g., service-oriented architectures).”
Related Controls:AC-7,PL-4
AC-9 (1)¶
AC-9 (1) : UNSUCCESSFUL LOGONS
Priority:
Baseline-Impact:
Description: “The information system notifies the user, upon successful logon/access, of the number of unsuccessful logon/access attempts since the last successful logon/access.” Supplemental Guidance:
Related Controls:
AC-9 (2)¶
AC-9 (2) : SUCCESSFUL / UNSUCCESSFUL LOGONS
Priority:
Baseline-Impact:
Description: “The information system notifies the user of the number of [Selection: successful logons/accesses; unsuccessful logon/access attempts; both] during [Assignment: organization-defined time period].” Supplemental Guidance:
Related Controls:
AC-9 (3)¶
AC-9 (3) : NOTIFICATION OF ACCOUNT CHANGES
Priority:
Baseline-Impact:
Description: “The information system notifies the user of changes to [Assignment: organization-defined security-related characteristics/parameters of the user�s account] during [Assignment: organization-defined time period].” Supplemental Guidance:
Related Controls:
AC-9 (4)¶
AC-9 (4) : ADDITIONAL LOGON INFORMATION
Priority:
Baseline-Impact:
Description: “The information system notifies the user, upon successful logon (access), of the following additional information: [Assignment: organization-defined information to be included in addition to the date and time of the last logon (access)].” Supplemental Guidance: “This control enhancement permits organizations to specify additional information to be provided to users upon logon including, for example, the location of last logon. User location is defined as that information which can be determined by information systems, for example, IP addresses from which network logons occurred, device identifiers, or notifications of local logons.”
Related Controls: .. _header_AC-10:
AC-10¶
Control Family: ACCESS CONTROL
AC-10¶
AC-10 : CONCURRENT SESSION CONTROL
Priority: P3
Baseline-Impact: HIGH
Description: “The information system limits the number of concurrent sessions for each [Assignment: organization-defined account and/or account type] to [Assignment: organization-defined number].” Supplemental Guidance: “Organizations may define the maximum number of concurrent sessions for information system accounts globally, by account type (e.g., privileged user, non-privileged user, domain, specific application), by account, or a combination. For example, organizations may limit the number of concurrent sessions for system administrators or individuals working in particularly sensitive domains or mission-critical applications. This control addresses concurrent sessions for information system accounts and does not address concurrent sessions by single users via multiple system accounts.”
Related Controls:
AC-11¶
Control Family: ACCESS CONTROL
AC-11¶
AC-11 : SESSION LOCK
Priority: P3
Baseline-Impact: MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “Session locks are temporary actions taken when users stop work and move away from the immediate vicinity of information systems but do not want to log out because of the temporary nature of their absences. Session locks are implemented where session activities can be determined. This is typically at the operating system level, but can also be at the application level. Session locks are not an acceptable substitute for logging out of information systems, for example, if organizations require users to log out at the end of workdays.”
Related Controls:AC-7
Description: “Prevents further access to the system by initiating a session lock after [Assignment: organization-defined time period] of inactivity or upon receiving a request from a user; and”
Description: “Retains the session lock until the user reestablishes access using established identification and authentication procedures.”
AC-11 (1)¶
AC-11 (1) : PATTERN-HIDING DISPLAYS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system conceals, via the session lock, information previously visible on the display with a publicly viewable image.” Supplemental Guidance: “Publicly viewable images can include static or dynamic images, for example, patterns used with screen savers, photographic images, solid colors, clock, battery life indicator, or a blank screen, with the additional caveat that none of the images convey sensitive information.”
Related Controls: .. _header_AC-12:
AC-12¶
Control Family: ACCESS CONTROL
AC-12¶
AC-12 : SESSION TERMINATION
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The information system automatically terminates a user session after [Assignment: organization-defined conditions or trigger events requiring session disconnect].” Supplemental Guidance: “This control addresses the termination of user-initiated logical sessions in contrast to SC-10 which addresses the termination of network connections that are associated with communications sessions (i.e., network disconnect). A logical session (for local, network, and remote access) is initiated whenever a user (or process acting on behalf of a user) accesses an organizational information system. Such user sessions can be terminated (and thus terminate user access) without terminating network sessions. Session termination terminates all processes associated with a user�s logical session except those processes that are specifically created by the user (i.e., session owner) to continue after the session is terminated. Conditions or trigger events requiring automatic session termination can include, for example, organization-defined periods of user inactivity, targeted responses to certain types of incidents, time-of-day restrictions on information system use.”
Related Controls:SC-10,SC-23
AC-12 (1)¶
AC-12 (1) : USER-INITIATED LOGOUTS / MESSAGE DISPLAYS
Priority:
Baseline-Impact:
Description: “The information system:” Supplemental Guidance: “Information resources to which users gain access via authentication include, for example, local workstations, databases, and password-protected websites/web-based services. Logout messages for web page access, for example, can be displayed after authenticated sessions have been terminated. However, for some types of interactive sessions including, for example, file transfer protocol (FTP) sessions, information systems typically send logout messages as final messages prior to terminating sessions.”
Related Controls:
Description: “Provides a logout capability for user-initiated communications sessions whenever authentication is used to gain access to [Assignment: organization-defined information resources]; and”
Description: “Displays an explicit logout message to users indicating the reliable termination of authenticated communications sessions.” .. _header_AC-13:
AC-13¶
Control Family: ACCESS CONTROL
AC-13¶
AC-13 : SUPERVISION AND REVIEW - ACCESS CONTROL
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-2 and AU-6].” Supplemental Guidance:
Related Controls:
AC-14¶
Control Family: ACCESS CONTROL
AC-14¶
AC-14 : PERMITTED ACTIONS WITHOUT IDENTIFICATION OR AUTHENTICATION
Priority: P3
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses situations in which organizations determine that no identification or authentication is required in organizational information systems. Organizations may allow a limited number of user actions without identification or authentication including, for example, when individuals access public websites or other publicly accessible federal information systems, when individuals use mobile phones to receive calls, or when facsimiles are received. Organizations also identify actions that normally require identification or authentication but may under certain circumstances (e.g., emergencies), allow identification or authentication mechanisms to be bypassed. Such bypasses may occur, for example, via a software-readable physical switch that commands bypass of the logon functionality and is protected from accidental or unmonitored use. This control does not apply to situations where identification and authentication have already occurred and are not repeated, but rather to situations where identification and authentication have not yet occurred. Organizations may decide that there are no user actions that can be performed on organizational information systems without identification and authentication and thus, the values for assignment statements can be none.”
Related Controls:CP-2,IA-2
Description: “Identifies [Assignment: organization-defined user actions] that can be performed on the information system without identification or authentication consistent with organizational missions/business functions; and”
Description: “Documents and provides supporting rationale in the security plan for the information system, user actions not requiring identification or authentication.”
AC-14 (1)¶
AC-14 (1) : NECESSARY USES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-14].” Supplemental Guidance:
Related Controls: .. _header_AC-15:
AC-15¶
Control Family: ACCESS CONTROL
AC-15¶
AC-15 : AUTOMATED MARKING
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-3].” Supplemental Guidance:
Related Controls:
AC-16¶
Control Family: ACCESS CONTROL
AC-16¶
AC-16 : SECURITY ATTRIBUTES
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Information is represented internally within information systems using abstractions known as data structures. Internal data structures can represent different types of entities, both active and passive. Active entities, also known as subjects, are typically associated with individuals, devices, or processes acting on behalf of individuals. Passive entities, also known as objects, are typically associated with data structures such as records, buffers, tables, files, inter-process pipes, and communications ports. Security attributes, a form of metadata, are abstractions representing the basic properties or characteristics of active and passive entities with respect to safeguarding information. These attributes may be associated with active entities (i.e., subjects) that have the potential to send or receive information, to cause information to flow among objects, or to change the information system state. These attributes may also be associated with passive entities (i.e., objects) that contain or receive information. The association of security attributes to subjects and objects is referred to as binding and is typically inclusive of setting the attribute value and the attribute type. Security attributes when bound to data/information, enables the enforcement of information security policies for access control and information flow control, either through organizational processes or information system functions or mechanisms. The content or assigned values of security attributes can directly affect the ability of individuals to access organizational information. Organizations can define the types of attributes needed for selected information systems to support missions/business functions. There is potentially a wide range of values that can be assigned to any given security attribute. Release markings could include, for example, US only, NATO, or NOFORN (not releasable to foreign nationals). By specifying permitted attribute ranges and values, organizations can ensure that the security attribute values are meaningful and relevant. The term security labeling refers to the association of security attributes with subjects and objects represented by internal data structures within organizational information systems, to enable information system-based enforcement of information security policies. Security labels include, for example, access authorizations, data life cycle protection (i.e., encryption and data expiration), nationality, affiliation as contractor, and classification of information in accordance with legal and compliance requirements. The term security marking refers to the association of security attributes with objects in a human-readable form, to enable organizational process-based enforcement of information security policies. The AC-16 base control represents the requirement for user-based attribute association (marking). The enhancements to AC-16 represent additional requirements including information system-based attribute association (labeling). Types of attributes include, for example, classification level for objects and clearance (access authorization) level for subjects. An example of a value for both of these attribute types is Top Secret.”
Related Controls:AC-3,AC-4,AC-6,AC-21,AU-2,AU-10,SC-16,MP-3
Description: “Provides the means to associate [Assignment: organization-defined types of security attributes] having [Assignment: organization-defined security attribute values] with information in storage, in process, and/or in transmission;”
Description: “Ensures that the security attribute associations are made and retained with the information;”
Description: “Establishes the permitted [Assignment: organization-defined security attributes] for [Assignment: organization-defined information systems]; and”
Description: “Determines the permitted [Assignment: organization-defined values or ranges] for each of the established security attributes.”
AC-16 (1)¶
AC-16 (1) : DYNAMIC ATTRIBUTE ASSOCIATION
Priority:
Baseline-Impact:
Description: “The information system dynamically associates security attributes with [Assignment: organization-defined subjects and objects] in accordance with [Assignment: organization-defined security policies] as information is created and combined.” Supplemental Guidance: “Dynamic association of security attributes is appropriate whenever the security characteristics of information changes over time. Security attributes may change, for example, due to information aggregation issues (i.e., the security characteristics of individual information elements are different from the combined elements), changes in individual access authorizations (i.e., privileges), and changes in the security category of information.”
Related Controls:AC-4
AC-16 (2)¶
AC-16 (2) : ATTRIBUTE VALUE CHANGES BY AUTHORIZED INDIVIDUALS
Priority:
Baseline-Impact:
Description: “The information system provides authorized individuals (or processes acting on behalf of individuals) the capability to define or change the value of associated security attributes.” Supplemental Guidance: “The content or assigned values of security attributes can directly affect the ability of individuals to access organizational information. Therefore, it is important for information systems to be able to limit the ability to create or modify security attributes to authorized individuals.”
Related Controls:AC-6,AU-2
AC-16 (3)¶
AC-16 (3) : MAINTENANCE OF ATTRIBUTE ASSOCIATIONS BY INFORMATION SYSTEM
Priority:
Baseline-Impact:
Description: “The information system maintains the association and integrity of [Assignment: organization-defined security attributes] to [Assignment: organization-defined subjects and objects].” Supplemental Guidance: “Maintaining the association and integrity of security attributes to subjects and objects with sufficient assurance helps to ensure that the attribute associations can be used as the basis of automated policy actions. Automated policy actions include, for example, access control decisions or information flow control decisions.”
Related Controls:
AC-16 (4)¶
AC-16 (4) : ASSOCIATION OF ATTRIBUTES BY AUTHORIZED INDIVIDUALS
Priority:
Baseline-Impact:
Description: “The information system supports the association of [Assignment: organization-defined security attributes] with [Assignment: organization-defined subjects and objects] by authorized individuals (or processes acting on behalf of individuals).” Supplemental Guidance: “The support provided by information systems can vary to include: (i) prompting users to select specific security attributes to be associated with specific information objects; (ii) employing automated mechanisms for categorizing information with appropriate attributes based on defined policies; or (iii) ensuring that the combination of selected security attributes selected is valid. Organizations consider the creation, deletion, or modification of security attributes when defining auditable events.”
Related Controls:
AC-16 (5)¶
AC-16 (5) : ATTRIBUTE DISPLAYS FOR OUTPUT DEVICES
Priority:
Baseline-Impact:
Description: “The information system displays security attributes in human-readable form on each object that the system transmits to output devices to identify [Assignment: organization-identified special dissemination, handling, or distribution instructions] using [Assignment: organization-identified human-readable, standard naming conventions].” Supplemental Guidance: “Information system outputs include, for example, pages, screens, or equivalent. Information system output devices include, for example, printers and video displays on computer workstations, notebook computers, and personal digital assistants.”
Related Controls:
AC-16 (6)¶
AC-16 (6) : MAINTENANCE OF ATTRIBUTE ASSOCIATION BY ORGANIZATION
Priority:
Baseline-Impact:
Description: “The organization allows personnel to associate, and maintain the association of [Assignment: organization-defined security attributes] with [Assignment: organization-defined subjects and objects] in accordance with [Assignment: organization-defined security policies].” Supplemental Guidance: “This control enhancement requires individual users (as opposed to the information system) to maintain associations of security attributes with subjects and objects.”
Related Controls:
AC-16 (7)¶
AC-16 (7) : CONSISTENT ATTRIBUTE INTERPRETATION
Priority:
Baseline-Impact:
Description: “The organization provides a consistent interpretation of security attributes transmitted between distributed information system components.” Supplemental Guidance: “In order to enforce security policies across multiple components in distributed information systems (e.g., distributed database management systems, cloud-based systems, and service-oriented architectures), organizations provide a consistent interpretation of security attributes that are used in access enforcement and flow enforcement decisions. Organizations establish agreements and processes to ensure that all distributed information system components implement security attributes with consistent interpretations in automated access/flow enforcement actions.”
Related Controls:
AC-16 (8)¶
AC-16 (8) : ASSOCIATION TECHNIQUES / TECHNOLOGIES
Priority:
Baseline-Impact:
Description: “The information system implements [Assignment: organization-defined techniques or technologies] with [Assignment: organization-defined level of assurance] in associating security attributes to information.” Supplemental Guidance: “The association (i.e., binding) of security attributes to information within information systems is of significant importance with regard to conducting automated access enforcement and flow enforcement actions. The association of such security attributes can be accomplished with technologies/techniques providing different levels of assurance. For example, information systems can cryptographically bind security attributes to information using digital signatures with the supporting cryptographic keys protected by hardware devices (sometimes known as hardware roots of trust).”
Related Controls:
AC-16 (9)¶
AC-16 (9) : ATTRIBUTE REASSIGNMENT
Priority:
Baseline-Impact:
Description: “The organization ensures that security attributes associated with information are reassigned only via re-grading mechanisms validated using [Assignment: organization-defined techniques or procedures].” Supplemental Guidance: “Validated re-grading mechanisms are employed by organizations to provide the requisite levels of assurance for security attribute reassignment activities. The validation is facilitated by ensuring that re-grading mechanisms are single purpose and of limited function. Since security attribute reassignments can affect security policy enforcement actions (e.g., access/flow enforcement decisions), using trustworthy re-grading mechanisms is necessary to ensure that such mechanisms perform in a consistent/correct mode of operation.”
Related Controls:
AC-16 (10)¶
AC-16 (10) : ATTRIBUTE CONFIGURATION BY AUTHORIZED INDIVIDUALS
Priority:
Baseline-Impact:
Description: “The information system provides authorized individuals the capability to define or change the type and value of security attributes available for association with subjects and objects.” Supplemental Guidance: “The content or assigned values of security attributes can directly affect the ability of individuals to access organizational information. Therefore, it is important for information systems to be able to limit the ability to create or modify security attributes to authorized individuals only.”
Related Controls: .. _header_AC-17:
AC-17¶
Control Family: ACCESS CONTROL
AC-17¶
AC-17 : REMOTE ACCESS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Remote access is access to organizational information systems by users (or processes acting on behalf of users) communicating through external networks (e.g., the Internet). Remote access methods include, for example, dial-up, broadband, and wireless. Organizations often employ encrypted virtual private networks (VPNs) to enhance confidentiality and integrity over remote connections. The use of encrypted VPNs does not make the access non-remote; however, the use of VPNs, when adequately provisioned with appropriate security controls (e.g., employing appropriate encryption techniques for confidentiality and integrity protection) may provide sufficient assurance to the organization that it can effectively treat such connections as internal networks. Still, VPN connections traverse external networks, and the encrypted VPN does not enhance the availability of remote connections. Also, VPNs with encrypted tunnels can affect the organizational capability to adequately monitor network communications traffic for malicious code. Remote access controls apply to information systems other than public web servers or systems designed for public access. This control addresses authorization prior to allowing remote access without specifying the formats for such authorization. While organizations may use interconnection security agreements to authorize remote access connections, such agreements are not required by this control. Enforcing access restrictions for remote connections is addressed in AC-3.”
Related Controls:AC-2,AC-3,AC-18,AC-19,AC-20,CA-3,CA-7,CM-8,IA-2,IA-3,IA-8,MA-4,PE-17,PL-4,SC-10,SI-4
Description: “Establishes and documents usage restrictions, configuration/connection requirements, and implementation guidance for each type of remote access allowed; and”
Description: “Authorizes remote access to the information system prior to allowing such connections.”
AC-17 (1)¶
AC-17 (1) : AUTOMATED MONITORING / CONTROL
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system monitors and controls remote access methods.” Supplemental Guidance: “Automated monitoring and control of remote access sessions allows organizations to detect cyber attacks and also ensure ongoing compliance with remote access policies by auditing connection activities of remote users on a variety of information system components (e.g., servers, workstations, notebook computers, smart phones, and tablets).”
Related Controls:AU-2,AU-12
AC-17 (2)¶
AC-17 (2) : PROTECTION OF CONFIDENTIALITY / INTEGRITY USING ENCRYPTION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements cryptographic mechanisms to protect the confidentiality and integrity of remote access sessions.” Supplemental Guidance: “The encryption strength of mechanism is selected based on the security categorization of the information.”
Related Controls:SC-8,SC-12,SC-13
AC-17 (3)¶
AC-17 (3) : MANAGED ACCESS CONTROL POINTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system routes all remote accesses through [Assignment: organization-defined number] managed network access control points.” Supplemental Guidance: “Limiting the number of access control points for remote accesses reduces the attack surface for organizations. Organizations consider the Trusted Internet Connections (TIC) initiative requirements for external network connections.”
Related Controls:SC-7
AC-17 (4)¶
AC-17 (4) : PRIVILEGED COMMANDS / ACCESS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance:
Related Controls:AC-6
Description: “Authorizes the execution of privileged commands and access to security-relevant information via remote access only for [Assignment: organization-defined needs]; and”
Description: “Documents the rationale for such access in the security plan for the information system.”
AC-17 (5)¶
AC-17 (5) : MONITORING FOR UNAUTHORIZED CONNECTIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-4].” Supplemental Guidance:
Related Controls:
AC-17 (6)¶
AC-17 (6) : PROTECTION OF INFORMATION
Priority:
Baseline-Impact:
Description: “The organization ensures that users protect information about remote access mechanisms from unauthorized use and disclosure.” Supplemental Guidance:
Related Controls:AT-2,AT-3,PS-6
AC-17 (7)¶
AC-17 (7) : ADDITIONAL PROTECTION FOR SECURITY FUNCTION ACCESS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-3 (10)].” Supplemental Guidance:
Related Controls:
AC-17 (8)¶
AC-17 (8) : DISABLE NONSECURE NETWORK PROTOCOLS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CM-7].” Supplemental Guidance:
Related Controls:
AC-17 (9)¶
AC-17 (9) : DISCONNECT / DISABLE ACCESS
Priority:
Baseline-Impact:
Description: “The organization provides the capability to expeditiously disconnect or disable remote access to the information system within [Assignment: organization-defined time period].” Supplemental Guidance: “This control enhancement requires organizations to have the capability to rapidly disconnect current users remotely accessing the information system and/or disable further remote access. The speed of disconnect or disablement varies based on the criticality of missions/business functions and the need to eliminate immediate or future remote access to organizational information systems.”
Related Controls: .. _header_AC-18:
AC-18¶
Control Family: ACCESS CONTROL
AC-18¶
AC-18 : WIRELESS ACCESS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Wireless technologies include, for example, microwave, packet radio (UHF/VHF), 802.11x, and Bluetooth. Wireless networks use authentication protocols (e.g., EAP/TLS, PEAP), which provide credential protection and mutual authentication.”
Related Controls:AC-2,AC-3,AC-17,AC-19,CA-3,CA-7,CM-8,IA-2,IA-3,IA-8,PL-4,SI-4
Description: “Establishes usage restrictions, configuration/connection requirements, and implementation guidance for wireless access; and”
Description: “Authorizes wireless access to the information system prior to allowing such connections.”
AC-18 (1)¶
AC-18 (1) : AUTHENTICATION AND ENCRYPTION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system protects wireless access to the system using authentication of [Selection (one or more): users; devices] and encryption.” Supplemental Guidance:
Related Controls:SC-8,SC-13
AC-18 (2)¶
AC-18 (2) : MONITORING UNAUTHORIZED CONNECTIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-4].” Supplemental Guidance:
Related Controls:
AC-18 (3)¶
AC-18 (3) : DISABLE WIRELESS NETWORKING
Priority:
Baseline-Impact:
Description: “The organization disables, when not intended for use, wireless networking capabilities internally embedded within information system components prior to issuance and deployment.” Supplemental Guidance:
Related Controls:AC-19
AC-18 (4)¶
AC-18 (4) : RESTRICT CONFIGURATIONS BY USERS
Priority:
Baseline-Impact: HIGH
Description: “The organization identifies and explicitly authorizes users allowed to independently configure wireless networking capabilities.” Supplemental Guidance: “Organizational authorizations to allow selected users to configure wireless networking capability are enforced in part, by the access enforcement mechanisms employed within organizational information systems.”
Related Controls:AC-3,SC-15
AC-18 (5)¶
AC-18 (5) : ANTENNAS / TRANSMISSION POWER LEVELS
Priority:
Baseline-Impact: HIGH
Description: “The organization selects radio antennas and calibrates transmission power levels to reduce the probability that usable signals can be received outside of organization-controlled boundaries.” Supplemental Guidance: “Actions that may be taken by organizations to limit unauthorized use of wireless communications outside of organization-controlled boundaries include, for example: (i) reducing the power of wireless transmissions so that the transmissions are less likely to emit a signal that can be used by adversaries outside of the physical perimeters of organizations; (ii) employing measures such as TEMPEST to control wireless emanations; and (iii) using directional/beam forming antennas that reduce the likelihood that unintended receivers will be able to intercept signals. Prior to taking such actions, organizations can conduct periodic wireless surveys to understand the radio frequency profile of organizational information systems as well as other systems that may be operating in the area.”
Related Controls:PE-19 .. _header_AC-19:
AC-19¶
Control Family: ACCESS CONTROL
AC-19¶
AC-19 : ACCESS CONTROL FOR MOBILE DEVICES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “A mobile device is a computing device that: (i) has a small form factor such that it can easily be carried by a single individual; (ii) is designed to operate without a physical connection (e.g., wirelessly transmit or receive information); (iii) possesses local, non-removable or removable data storage; and (iv) includes a self-contained power source. Mobile devices may also include voice communication capabilities, on-board sensors that allow the device to capture information, and/or built-in features for synchronizing local data with remote locations. Examples include smart phones, E-readers, and tablets. Mobile devices are typically associated with a single individual and the device is usually in close proximity to the individual; however, the degree of proximity can vary depending upon on the form factor and size of the device. The processing, storage, and transmission capability of the mobile device may be comparable to or merely a subset of desktop systems, depending upon the nature and intended purpose of the device. Due to the large variety of mobile devices with different technical characteristics and capabilities, organizational restrictions may vary for the different classes/types of such devices. Usage restrictions and specific implementation guidance for mobile devices include, for example, configuration management, device identification and authentication, implementation of mandatory protective software (e.g., malicious code detection, firewall), scanning devices for malicious code, updating virus protection software, scanning for critical software updates and patches, conducting primary operating system (and possibly other resident software) integrity checks, and disabling unnecessary hardware (e.g., wireless, infrared). Organizations are cautioned that the need to provide adequate security for mobile devices goes beyond the requirements in this control. Many safeguards and countermeasures for mobile devices are reflected in other security controls in the catalog allocated in the initial control baselines as starting points for the development of security plans and overlays using the tailoring process. There may also be some degree of overlap in the requirements articulated by the security controls within the different families of controls. AC-20 addresses mobile devices that are not organization-controlled.”
Related Controls:AC-3,AC-7,AC-18,AC-20,CA-9,CM-2,IA-2,IA-3,MP-2,MP-4,MP-5,PL-4,SC-7,SC-43,SI-3,SI-4
Description: “Establishes usage restrictions, configuration requirements, connection requirements, and implementation guidance for organization-controlled mobile devices; and”
Description: “Authorizes the connection of mobile devices to organizational information systems.”
AC-19 (1)¶
AC-19 (1) : USE OF WRITABLE / PORTABLE STORAGE DEVICES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-7].” Supplemental Guidance:
Related Controls:
AC-19 (2)¶
AC-19 (2) : USE OF PERSONALLY OWNED PORTABLE STORAGE DEVICES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-7].” Supplemental Guidance:
Related Controls:
AC-19 (3)¶
AC-19 (3) : USE OF PORTABLE STORAGE DEVICES WITH NO IDENTIFIABLE OWNER
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-7].” Supplemental Guidance:
Related Controls:
AC-19 (4)¶
AC-19 (4) : RESTRICTIONS FOR CLASSIFIED INFORMATION
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance:
Related Controls:CA-6,IR-4
Description: “Prohibits the use of unclassified mobile devices in facilities containing information systems processing, storing, or transmitting classified information unless specifically permitted by the authorizing official; and”
Description: “Enforces the following restrictions on individuals permitted by the authorizing official to use unclassified mobile devices in facilities containing information systems processing, storing, or transmitting classified information:”
Description: “Connection of unclassified mobile devices to classified information systems is prohibited;”
Description: “Connection of unclassified mobile devices to unclassified information systems requires approval from the authorizing official;”
Description: “Use of internal or external modems or wireless interfaces within the unclassified mobile devices is prohibited; and”
Description: “Unclassified mobile devices and the information stored on those devices are subject to random reviews and inspections by [Assignment: organization-defined security officials], and if classified information is found, the incident handling policy is followed.”
Description: “Restricts the connection of classified mobile devices to classified information systems in accordance with [Assignment: organization-defined security policies].”
AC-19 (5)¶
AC-19 (5) : FULL DEVICE / CONTAINER-BASED ENCRYPTION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs [Selection: full-device encryption; container encryption] to protect the confidentiality and integrity of information on [Assignment: organization-defined mobile devices].” Supplemental Guidance: “Container-based encryption provides a more fine-grained approach to the encryption of data/information on mobile devices, including for example, encrypting selected data structures such as files, records, or fields.”
Related Controls:MP-5,SC-13,SC-28 .. _header_AC-20:
AC-20¶
Control Family: ACCESS CONTROL
AC-20¶
AC-20 : USE OF EXTERNAL INFORMATION SYSTEMS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization establishes terms and conditions, consistent with any trust relationships established with other organizations owning, operating, and/or maintaining external information systems, allowing authorized individuals to:” Supplemental Guidance: “External information systems are information systems or components of information systems that are outside of the authorization boundary established by organizations and for which organizations typically have no direct supervision and authority over the application of required security controls or the assessment of control effectiveness. External information systems include, for example: (i) personally owned information systems/devices (e.g., notebook computers, smart phones, tablets, personal digital assistants); (ii) privately owned computing and communications devices resident in commercial or public facilities (e.g., hotels, train stations, convention centers, shopping malls, or airports); (iii) information systems owned or controlled by nonfederal governmental organizations; and (iv) federal information systems that are not owned by, operated by, or under the direct supervision and authority of organizations. This control also addresses the use of external information systems for the processing, storage, or transmission of organizational information, including, for example, accessing cloud services (e.g., infrastructure as a service, platform as a service, or software as a service) from organizational information systems. For some external information systems (i.e., information systems operated by other federal agencies, including organizations subordinate to those agencies), the trust relationships that have been established between those organizations and the originating organization may be such, that no explicit terms and conditions are required. Information systems within these organizations would not be considered external. These situations occur when, for example, there are pre-existing sharing/trust agreements (either implicit or explicit) established between federal agencies or organizations subordinate to those agencies, or when such trust agreements are specified by applicable laws, Executive Orders, directives, or policies. Authorized individuals include, for example, organizational personnel, contractors, or other individuals with authorized access to organizational information systems and over which organizations have the authority to impose rules of behavior with regard to system access. Restrictions that organizations impose on authorized individuals need not be uniform, as those restrictions may vary depending upon the trust relationships between organizations. Therefore, organizations may choose to impose different security restrictions on contractors than on state, local, or tribal governments. This control does not apply to the use of external information systems to access public interfaces to organizational information systems (e.g., individuals accessing federal information through www.usa.gov). Organizations establish terms and conditions for the use of external information systems in accordance with organizational security policies and procedures. Terms and conditions address as a minimum: types of applications that can be accessed on organizational information systems from external information systems; and the highest security category of information that can be processed, stored, or transmitted on external information systems. If terms and conditions with the owners of external information systems cannot be established, organizations may impose restrictions on organizational personnel using those external systems.”
Related Controls:AC-3,AC-17,AC-19,CA-3,PL-4,SA-9
Description: “Access the information system from external information systems; and”
Description: “Process, store, or transmit organization-controlled information using external information systems.”
AC-20 (1)¶
AC-20 (1) : LIMITS ON AUTHORIZED USE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization permits authorized individuals to use an external information system to access the information system or to process, store, or transmit organization-controlled information only when the organization:” Supplemental Guidance: “This control enhancement recognizes that there are circumstances where individuals using external information systems (e.g., contractors, coalition partners) need to access organizational information systems. In those situations, organizations need confidence that the external information systems contain the necessary security safeguards (i.e., security controls), so as not to compromise, damage, or otherwise harm organizational information systems. Verification that the required security controls have been implemented can be achieved, for example, by third-party, independent assessments, attestations, or other means, depending on the confidence level required by organizations.”
Related Controls:CA-2
Description: “Verifies the implementation of required security controls on the external system as specified in the organization�s information security policy and security plan; or”
Description: “Retains approved information system connection or processing agreements with the organizational entity hosting the external information system.”
AC-20 (2)¶
AC-20 (2) : PORTABLE STORAGE DEVICES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization [Selection: restricts; prohibits] the use of organization-controlled portable storage devices by authorized individuals on external information systems.” Supplemental Guidance: “Limits on the use of organization-controlled portable storage devices in external information systems include, for example, complete prohibition of the use of such devices or restrictions on how the devices may be used and under what conditions the devices may be used.”
Related Controls:
AC-20 (3)¶
AC-20 (3) : NON-ORGANIZATIONALLY OWNED SYSTEMS / COMPONENTS / DEVICES
Priority:
Baseline-Impact:
Description: “The organization [Selection: restricts; prohibits] the use of non-organizationally owned information systems, system components, or devices to process, store, or transmit organizational information.” Supplemental Guidance: “Non-organizationally owned devices include devices owned by other organizations (e.g., federal/state agencies, contractors) and personally owned devices. There are risks to using non-organizationally owned devices. In some cases, the risk is sufficiently high as to prohibit such use. In other cases, it may be such that the use of non-organizationally owned devices is allowed but restricted in some way. Restrictions include, for example: (i) requiring the implementation of organization-approved security controls prior to authorizing such connections; (ii) limiting access to certain types of information, services, or applications; (iii) using virtualization techniques to limit processing and storage activities to servers or other system components provisioned by the organization; and (iv) agreeing to terms and conditions for usage. For personally owned devices, organizations consult with the Office of the General Counsel regarding legal issues associated with using such devices in operational environments, including, for example, requirements for conducting forensic analyses during investigations after an incident.”
Related Controls:
AC-20 (4)¶
AC-20 (4) : NETWORK ACCESSIBLE STORAGE DEVICES
Priority:
Baseline-Impact:
Description: “The organization prohibits the use of [Assignment: organization-defined network accessible storage devices] in external information systems.” Supplemental Guidance: “Network accessible storage devices in external information systems include, for example, online storage devices in public, hybrid, or community cloud-based systems.”
Related Controls: .. _header_AC-21:
AC-21¶
Control Family: ACCESS CONTROL
AC-21¶
AC-21 : INFORMATION SHARING
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies to information that may be restricted in some manner (e.g., privileged medical information, contract-sensitive information, proprietary information, personally identifiable information, classified information related to special access programs or compartments) based on some formal or administrative determination. Depending on the particular information-sharing circumstances, sharing partners may be defined at the individual, group, or organizational level. Information may be defined by content, type, security category, or special access program/compartment.”
Related Controls:AC-3
Description: “Facilitates information sharing by enabling authorized users to determine whether access authorizations assigned to the sharing partner match the access restrictions on the information for [Assignment: organization-defined information sharing circumstances where user discretion is required]; and”
Description: “Employs [Assignment: organization-defined automated mechanisms or manual processes] to assist users in making information sharing/collaboration decisions.”
AC-21 (1)¶
AC-21 (1) : AUTOMATED DECISION SUPPORT
Priority:
Baseline-Impact:
Description: “The information system enforces information-sharing decisions by authorized users based on access authorizations of sharing partners and access restrictions on information to be shared.” Supplemental Guidance:
Related Controls:
AC-21 (2)¶
AC-21 (2) : INFORMATION SEARCH AND RETRIEVAL
Priority:
Baseline-Impact:
Description: “The information system implements information search and retrieval services that enforce [Assignment: organization-defined information sharing restrictions].” Supplemental Guidance:
Related Controls: .. _header_AC-22:
AC-22¶
Control Family: ACCESS CONTROL
AC-22¶
AC-22 : PUBLICLY ACCESSIBLE CONTENT
Priority: P3
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “In accordance with federal laws, Executive Orders, directives, policies, regulations, standards, and/or guidance, the general public is not authorized access to nonpublic information (e.g., information protected under the Privacy Act and proprietary information). This control addresses information systems that are controlled by the organization and accessible to the general public, typically without identification or authentication. The posting of information on non-organization information systems is covered by organizational policy.”
Related Controls:AC-3,AC-4,AT-2,AT-3,AU-13
Description: “Designates individuals authorized to post information onto a publicly accessible information system;”
Description: “Trains authorized individuals to ensure that publicly accessible information does not contain nonpublic information;”
Description: “Reviews the proposed content of information prior to posting onto the publicly accessible information system to ensure that nonpublic information is not included; and”
Description: “Reviews the content on the publicly accessible information system for nonpublic information [Assignment: organization-defined frequency] and removes such information, if discovered.” .. _header_AC-23:
AC-23¶
Control Family: ACCESS CONTROL
AC-23¶
AC-23 : DATA MINING PROTECTION
Priority: P0
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined data mining prevention and detection techniques] for [Assignment: organization-defined data storage objects] to adequately detect and protect against data mining.” Supplemental Guidance: “Data storage objects include, for example, databases, database records, and database fields. Data mining prevention and detection techniques include, for example: (i) limiting the types of responses provided to database queries; (ii) limiting the number/frequency of database queries to increase the work factor needed to determine the contents of such databases; and (iii) notifying organizational personnel when atypical database queries or accesses occur. This control focuses on the protection of organizational information from data mining while such information resides in organizational data stores. In contrast, AU-13 focuses on monitoring for organizational information that may have been mined or otherwise obtained from data stores and is now available as open source information residing on external sites, for example, through social networking or social media websites.”
Related Controls:
AC-24¶
Control Family: ACCESS CONTROL
AC-24¶
AC-24 : ACCESS CONTROL DECISIONS
Priority: P0
Baseline-Impact:
Description: “The organization establishes procedures to ensure [Assignment: organization-defined access control decisions] are applied to each access request prior to access enforcement.” Supplemental Guidance: “Access control decisions (also known as authorization decisions) occur when authorization information is applied to specific accesses. In contrast, access enforcement occurs when information systems enforce access control decisions. While it is very common to have access control decisions and access enforcement implemented by the same entity, it is not required and it is not always an optimal implementation choice. For some architectures and distributed information systems, different entities may perform access control decisions and access enforcement.”
Related Controls:
AC-24 (1)¶
AC-24 (1) : TRANSMIT ACCESS AUTHORIZATION INFORMATION
Priority:
Baseline-Impact:
Description: “The information system transmits [Assignment: organization-defined access authorization information] using [Assignment: organization-defined security safeguards] to [Assignment: organization-defined information systems] that enforce access control decisions.” Supplemental Guidance: “In distributed information systems, authorization processes and access control decisions may occur in separate parts of the systems. In such instances, authorization information is transmitted securely so timely access control decisions can be enforced at the appropriate locations. To support the access control decisions, it may be necessary to transmit as part of the access authorization information, supporting security attributes. This is due to the fact that in distributed information systems, there are various access control decisions that need to be made and different entities (e.g., services) make these decisions in a serial fashion, each requiring some security attributes to make the decisions. Protecting access authorization information (i.e., access control decisions) ensures that such information cannot be altered, spoofed, or otherwise compromised during transmission.”
Related Controls:
AC-24 (2)¶
AC-24 (2) : NO USER OR PROCESS IDENTITY
Priority:
Baseline-Impact:
Description: “The information system enforces access control decisions based on [Assignment: organization-defined security attributes] that do not include the identity of the user or process acting on behalf of the user.” Supplemental Guidance: “In certain situations, it is important that access control decisions can be made without information regarding the identity of the users issuing the requests. These are generally instances where preserving individual privacy is of paramount importance. In other situations, user identification information is simply not needed for access control decisions and, especially in the case of distributed information systems, transmitting such information with the needed degree of assurance may be very expensive or difficult to accomplish.”
Related Controls: .. _header_AC-25:
AC-25¶
Control Family: ACCESS CONTROL
AC-25¶
AC-25 : REFERENCE MONITOR
Priority: P0
Baseline-Impact:
Description: “The information system implements a reference monitor for [Assignment: organization-defined access control policies] that is tamperproof, always invoked, and small enough to be subject to analysis and testing, the completeness of which can be assured.” Supplemental Guidance: “Information is represented internally within information systems using abstractions known as data structures. Internal data structures can represent different types of entities, both active and passive. Active entities, also known as subjects, are typically associated with individuals, devices, or processes acting on behalf of individuals. Passive entities, also known as objects, are typically associated with data structures such as records, buffers, tables, files, inter-process pipes, and communications ports. Reference monitors typically enforce mandatory access control policies�a type of access control that restricts access to objects based on the identity of subjects or groups to which the subjects belong. The access controls are mandatory because subjects with certain privileges (i.e., access permissions) are restricted from passing those privileges on to any other subjects, either directly or indirectly�that is, the information system strictly enforces the access control policy based on the rule set established by the policy. The tamperproof property of the reference monitor prevents adversaries from compromising the functioning of the mechanism. The always invoked property prevents adversaries from bypassing the mechanism and hence violating the security policy. The smallness property helps to ensure the completeness in the analysis and testing of the mechanism to detect weaknesses or deficiencies (i.e., latent flaws) that would prevent the enforcement of the security policy.”
Related Controls:AC-3,AC-16,SC-3,SC-39
AT-1¶
Control Family: AWARENESS AND TRAINING
AT-1¶
AT-1 : SECURITY AWARENESS AND TRAINING POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the AT family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A security awareness and training policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the security awareness and training policy and associated security awareness and training controls; and”
Description: “Reviews and updates the current:”
Description: “Security awareness and training policy [Assignment: organization-defined frequency]; and”
Description: “Security awareness and training procedures [Assignment: organization-defined frequency].” .. _header_AT-2:
AT-2¶
Control Family: AWARENESS AND TRAINING
AT-2¶
AT-2 : SECURITY AWARENESS TRAINING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization provides basic security awareness training to information system users (including managers, senior executives, and contractors):” Supplemental Guidance: “Organizations determine the appropriate content of security awareness training and security awareness techniques based on the specific organizational requirements and the information systems to which personnel have authorized access. The content includes a basic understanding of the need for information security and user actions to maintain security and to respond to suspected security incidents. The content also addresses awareness of the need for operations security. Security awareness techniques can include, for example, displaying posters, offering supplies inscribed with security reminders, generating email advisories/notices from senior organizational officials, displaying logon screen messages, and conducting information security awareness events.”
Related Controls:AT-3,AT-4,PL-4
Description: “As part of initial training for new users;”
Description: “When required by information system changes; and”
Description: “[Assignment: organization-defined frequency] thereafter.”
AT-2 (1)¶
AT-2 (1) : PRACTICAL EXERCISES
Priority:
Baseline-Impact:
Description: “The organization includes practical exercises in security awareness training that simulate actual cyber attacks.” Supplemental Guidance: “Practical exercises may include, for example, no-notice social engineering attempts to collect information, gain unauthorized access, or simulate the adverse impact of opening malicious email attachments or invoking, via spear phishing attacks, malicious web links.”
Related Controls:CA-2,CA-7,CP-4,IR-3
AT-2 (2)¶
AT-2 (2) : INSIDER THREAT
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization includes security awareness training on recognizing and reporting potential indicators of insider threat.” Supplemental Guidance: “Potential indicators and possible precursors of insider threat can include behaviors such as inordinate, long-term job dissatisfaction, attempts to gain access to information not required for job performance, unexplained access to financial resources, bullying or sexual harassment of fellow employees, workplace violence, and other serious violations of organizational policies, procedures, directives, rules, or practices. Security awareness training includes how to communicate employee and management concerns regarding potential indicators of insider threat through appropriate organizational channels in accordance with established organizational policies and procedures.”
Related Controls:PL-4,PM-12,PS-3,PS-6 .. _header_AT-3:
AT-3¶
Control Family: AWARENESS AND TRAINING
AT-3¶
AT-3 : ROLE-BASED SECURITY TRAINING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization provides role-based security training to personnel with assigned security roles and responsibilities:” Supplemental Guidance: “Organizations determine the appropriate content of security training based on the assigned roles and responsibilities of individuals and the specific security requirements of organizations and the information systems to which personnel have authorized access. In addition, organizations provide enterprise architects, information system developers, software developers, acquisition/procurement officials, information system managers, system/network administrators, personnel conducting configuration management and auditing activities, personnel performing independent verification and validation activities, security control assessors, and other personnel having access to system-level software, adequate security-related technical training specifically tailored for their assigned duties. Comprehensive role-based training addresses management, operational, and technical roles and responsibilities covering physical, personnel, and technical safeguards and countermeasures. Such training can include for example, policies, procedures, tools, and artifacts for the organizational security roles defined. Organizations also provide the training necessary for individuals to carry out their responsibilities related to operations and supply chain security within the context of organizational information security programs. Role-based security training also applies to contractors providing services to federal agencies.”
Related Controls:AT-2,AT-4,PL-4,PS-7,SA-3,SA-12,SA-16
Description: “Before authorizing access to the information system or performing assigned duties;”
Description: “When required by information system changes; and”
Description: “[Assignment: organization-defined frequency] thereafter.”
AT-3 (1)¶
AT-3 (1) : ENVIRONMENTAL CONTROLS
Priority:
Baseline-Impact:
Description: “The organization provides [Assignment: organization-defined personnel or roles] with initial and [Assignment: organization-defined frequency] training in the employment and operation of environmental controls.” Supplemental Guidance: “Environmental controls include, for example, fire suppression and detection devices/systems, sprinkler systems, handheld fire extinguishers, fixed fire hoses, smoke detectors, temperature/humidity, HVAC, and power within the facility. Organizations identify personnel with specific roles and responsibilities associated with environmental controls requiring specialized training.”
Related Controls:PE-1,PE-13,PE-14,PE-15
AT-3 (2)¶
AT-3 (2) : PHYSICAL SECURITY CONTROLS
Priority:
Baseline-Impact:
Description: “The organization provides [Assignment: organization-defined personnel or roles] with initial and [Assignment: organization-defined frequency] training in the employment and operation of physical security controls.” Supplemental Guidance: “Physical security controls include, for example, physical access control devices, physical intrusion alarms, monitoring/surveillance equipment, and security guards (deployment and operating procedures). Organizations identify personnel with specific roles and responsibilities associated with physical security controls requiring specialized training.”
Related Controls:PE-2,PE-3,PE-4,PE-5
AT-3 (3)¶
AT-3 (3) : PRACTICAL EXERCISES
Priority:
Baseline-Impact:
Description: “The organization includes practical exercises in security training that reinforce training objectives.” Supplemental Guidance: “Practical exercises may include, for example, security training for software developers that includes simulated cyber attacks exploiting common software vulnerabilities (e.g., buffer overflows), or spear/whale phishing attacks targeted at senior leaders/executives. These types of practical exercises help developers better understand the effects of such vulnerabilities and appreciate the need for security coding standards and processes.”
Related Controls:
AT-3 (4)¶
AT-3 (4) : SUSPICIOUS COMMUNICATIONS AND ANOMALOUS SYSTEM BEHAVIOR
Priority:
Baseline-Impact:
Description: “The organization provides training to its personnel on [Assignment: organization-defined indicators of malicious code] to recognize suspicious communications and anomalous behavior in organizational information systems.” Supplemental Guidance: “A well-trained workforce provides another organizational safeguard that can be employed as part of a defense-in-depth strategy to protect organizations against malicious code coming in to organizations via email or the web applications. Personnel are trained to look for indications of potentially suspicious email (e.g., receiving an unexpected email, receiving an email containing strange or poor grammar, or receiving an email from an unfamiliar sender but who appears to be from a known sponsor or contractor). Personnel are also trained on how to respond to such suspicious email or web communications (e.g., not opening attachments, not clicking on embedded web links, and checking the source of email addresses). For this process to work effectively, all organizational personnel are trained and made aware of what constitutes suspicious communications. Training personnel on how to recognize anomalous behaviors in organizational information systems can potentially provide early warning for the presence of malicious code. Recognition of such anomalous behavior by organizational personnel can supplement automated malicious code detection and protection tools and systems employed by organizations.”
Related Controls: .. _header_AT-4:
AT-4¶
Control Family: AWARENESS AND TRAINING
AT-4¶
AT-4 : SECURITY TRAINING RECORDS
Priority: P3
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Documentation for specialized training may be maintained by individual supervisors at the option of the organization.”
Related Controls:AT-2,AT-3,PM-14
Description: “Documents and monitors individual information system security training activities including basic security awareness training and specific information system security training; and”
Description: “Retains individual training records for [Assignment: organization-defined time period].” .. _header_AT-5:
AT-5¶
Control Family: AWARENESS AND TRAINING
AT-5¶
AT-5 : CONTACTS WITH SECURITY GROUPS AND ASSOCIATIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PM-15].” Supplemental Guidance:
Related Controls:
AU-1¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-1¶
AU-1 : AUDIT AND ACCOUNTABILITY POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the AU family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “An audit and accountability policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the audit and accountability policy and associated audit and accountability controls; and”
Description: “Reviews and updates the current:”
Description: “Audit and accountability policy [Assignment: organization-defined frequency]; and”
Description: “Audit and accountability procedures [Assignment: organization-defined frequency].” .. _header_AU-2:
AU-2¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-2¶
AU-2 : AUDIT EVENTS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “An event is any observable occurrence in an organizational information system. Organizations identify audit events as those events which are significant and relevant to the security of information systems and the environments in which those systems operate in order to meet specific and ongoing audit needs. Audit events can include, for example, password changes, failed logons, or failed accesses related to information systems, administrative privilege usage, PIV credential usage, or third-party credential usage. In determining the set of auditable events, organizations consider the auditing appropriate for each of the security controls to be implemented. To balance auditing requirements with other information system needs, this control also requires identifying that subset of auditable events that are audited at a given point in time. For example, organizations may determine that information systems must have the capability to log every file access both successful and unsuccessful, but not activate that capability except for specific circumstances due to the potential burden on system performance. Auditing requirements, including the need for auditable events, may be referenced in other security controls and control enhancements. Organizations also include auditable events that are required by applicable federal laws, Executive Orders, directives, policies, regulations, and standards. Audit records can be generated at various levels of abstraction, including at the packet level as information traverses the network. Selecting the appropriate level of abstraction is a critical aspect of an audit capability and can facilitate the identification of root causes to problems. Organizations consider in the definition of auditable events, the auditing necessary to cover related events such as the steps in distributed, transaction-based processes (e.g., processes that are distributed across multiple organizations) and actions that occur in service-oriented architectures.”
Related Controls:AC-6,AC-17,AU-3,AU-12,MA-4,MP-2,MP-4,SI-4
Description: “Determines that the information system is capable of auditing the following events: [Assignment: organization-defined auditable events];”
Description: “Coordinates the security audit function with other organizational entities requiring audit-related information to enhance mutual support and to help guide the selection of auditable events;”
Description: “Provides a rationale for why the auditable events are deemed to be adequate to support after-the-fact investigations of security incidents; and”
Description: “Determines that the following events are to be audited within the information system: [Assignment: organization-defined audited events (the subset of the auditable events defined in AU-2 a.) along with the frequency of (or situation requiring) auditing for each identified event].”
AU-2 (1)¶
AU-2 (1) : COMPILATION OF AUDIT RECORDS FROM MULTIPLE SOURCES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AU-12].” Supplemental Guidance:
Related Controls:
AU-2 (2)¶
AU-2 (2) : SELECTION OF AUDIT EVENTS BY COMPONENT
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AU-12].” Supplemental Guidance:
Related Controls:
AU-2 (3)¶
AU-2 (3) : REVIEWS AND UPDATES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization reviews and updates the audited events [Assignment: organization-defined frequency].” Supplemental Guidance: “Over time, the events that organizations believe should be audited may change. Reviewing and updating the set of audited events periodically is necessary to ensure that the current set is still necessary and sufficient.”
Related Controls:
AU-2 (4)¶
AU-2 (4) : PRIVILEGED FUNCTIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-6 (9)].” Supplemental Guidance:
Related Controls: .. _header_AU-3:
AU-3¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-3¶
AU-3 : CONTENT OF AUDIT RECORDS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system generates audit records containing information that establishes what type of event occurred, when the event occurred, where the event occurred, the source of the event, the outcome of the event, and the identity of any individuals or subjects associated with the event.” Supplemental Guidance: “Audit record content that may be necessary to satisfy the requirement of this control, includes, for example, time stamps, source and destination addresses, user/process identifiers, event descriptions, success/fail indications, filenames involved, and access control or flow control rules invoked. Event outcomes can include indicators of event success or failure and event-specific results (e.g., the security state of the information system after the event occurred).”
Related Controls:AU-2,AU-8,AU-12,SI-11
AU-3 (1)¶
AU-3 (1) : ADDITIONAL AUDIT INFORMATION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system generates audit records containing the following additional information: [Assignment: organization-defined additional, more detailed information].” Supplemental Guidance: “Detailed information that organizations may consider in audit records includes, for example, full text recording of privileged commands or the individual identities of group account users. Organizations consider limiting the additional audit information to only that information explicitly needed for specific audit requirements. This facilitates the use of audit trails and audit logs by not including information that could potentially be misleading or could make it more difficult to locate information of interest.”
Related Controls:
AU-3 (2)¶
AU-3 (2) : CENTRALIZED MANAGEMENT OF PLANNED AUDIT RECORD CONTENT
Priority:
Baseline-Impact: HIGH
Description: “The information system provides centralized management and configuration of the content to be captured in audit records generated by [Assignment: organization-defined information system components].” Supplemental Guidance: “This control enhancement requires that the content to be captured in audit records be configured from a central location (necessitating automation). Organizations coordinate the selection of required audit content to support the centralized management and configuration capability provided by the information system.”
Related Controls:AU-6,AU-7 .. _header_AU-4:
AU-4¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-4¶
AU-4 : AUDIT STORAGE CAPACITY
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization allocates audit record storage capacity in accordance with [Assignment: organization-defined audit record storage requirements].” Supplemental Guidance: “Organizations consider the types of auditing to be performed and the audit processing requirements when allocating audit storage capacity. Allocating sufficient audit storage capacity reduces the likelihood of such capacity being exceeded and resulting in the potential loss or reduction of auditing capability.”
Related Controls:AU-2,AU-5,AU-6,AU-7,AU-11,SI-4
AU-4 (1)¶
AU-4 (1) : TRANSFER TO ALTERNATE STORAGE
Priority:
Baseline-Impact:
Description: “The information system off-loads audit records [Assignment: organization-defined frequency] onto a different system or media than the system being audited.” Supplemental Guidance: “Off-loading is a process designed to preserve the confidentiality and integrity of audit records by moving the records from the primary information system to a secondary or alternate system. It is a common process in information systems with limited audit storage capacity; the audit storage is used only in a transitory fashion until the system can communicate with the secondary or alternate system designated for storing the audit records, at which point the information is transferred.”
Related Controls: .. _header_AU-5:
AU-5¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-5¶
AU-5 : RESPONSE TO AUDIT PROCESSING FAILURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “Audit processing failures include, for example, software/hardware errors, failures in the audit capturing mechanisms, and audit storage capacity being reached or exceeded. Organizations may choose to define additional actions for different audit processing failures (e.g., by type, by location, by severity, or a combination of such factors). This control applies to each audit data storage repository (i.e., distinct information system component where audit records are stored), the total audit storage capacity of organizations (i.e., all audit data storage repositories combined), or both.”
Related Controls:AU-4,SI-12
Description: “Alerts [Assignment: organization-defined personnel or roles] in the event of an audit processing failure; and”
Description: “Takes the following additional actions: [Assignment: organization-defined actions to be taken (e.g., shut down information system, overwrite oldest audit records, stop generating audit records)].”
AU-5 (1)¶
AU-5 (1) : AUDIT STORAGE CAPACITY
Priority:
Baseline-Impact: HIGH
Description: “The information system provides a warning to [Assignment: organization-defined personnel, roles, and/or locations] within [Assignment: organization-defined time period] when allocated audit record storage volume reaches [Assignment: organization-defined percentage] of repository maximum audit record storage capacity.” Supplemental Guidance: “Organizations may have multiple audit data storage repositories distributed across multiple information system components, with each repository having different storage volume capacities.”
Related Controls:
AU-5 (2)¶
AU-5 (2) : REAL-TIME ALERTS
Priority:
Baseline-Impact: HIGH
Description: “The information system provides an alert in [Assignment: organization-defined real-time period] to [Assignment: organization-defined personnel, roles, and/or locations] when the following audit failure events occur: [Assignment: organization-defined audit failure events requiring real-time alerts].” Supplemental Guidance: “Alerts provide organizations with urgent messages. Real-time alerts provide these messages at information technology speed (i.e., the time from event detection to alert occurs in seconds or less).”
Related Controls:
AU-5 (3)¶
AU-5 (3) : CONFIGURABLE TRAFFIC VOLUME THRESHOLDS
Priority:
Baseline-Impact:
Description: “The information system enforces configurable network communications traffic volume thresholds reflecting limits on auditing capacity and [Selection: rejects; delays] network traffic above those thresholds.” Supplemental Guidance: “Organizations have the capability to reject or delay the processing of network communications traffic if auditing such traffic is determined to exceed the storage capacity of the information system audit function. The rejection or delay response is triggered by the established organizational traffic volume thresholds which can be adjusted based on changes to audit storage capacity.”
Related Controls:
AU-5 (4)¶
AU-5 (4) : SHUTDOWN ON FAILURE
Priority:
Baseline-Impact:
Description: “The information system invokes a [Selection: full system shutdown; partial system shutdown; degraded operational mode with limited mission/business functionality available] in the event of [Assignment: organization-defined audit failures], unless an alternate audit capability exists.” Supplemental Guidance: “Organizations determine the types of audit failures that can trigger automatic information system shutdowns or degraded operations. Because of the importance of ensuring mission/business continuity, organizations may determine that the nature of the audit failure is not so severe that it warrants a complete shutdown of the information system supporting the core organizational missions/business operations. In those instances, partial information system shutdowns or operating in a degraded mode with reduced capability may be viable alternatives.”
Related Controls:AU-15 .. _header_AU-6:
AU-6¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-6¶
AU-6 : AUDIT REVIEW, ANALYSIS, AND REPORTING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Audit review, analysis, and reporting covers information security-related auditing performed by organizations including, for example, auditing that results from monitoring of account usage, remote access, wireless connectivity, mobile device connection, configuration settings, system component inventory, use of maintenance tools and nonlocal maintenance, physical access, temperature and humidity, equipment delivery and removal, communications at the information system boundaries, use of mobile code, and use of VoIP. Findings can be reported to organizational entities that include, for example, incident response team, help desk, information security group/department. If organizations are prohibited from reviewing and analyzing audit information or unable to conduct such activities (e.g., in certain national security applications or systems), the review/analysis may be carried out by other organizations granted such authority.”
Related Controls:AC-2,AC-3,AC-6,AC-17,AT-3,AU-7,AU-16,CA-7,CM-5,CM-10,CM-11,IA-3,IA-5,IR-5,IR-6,MA-4,MP-4,PE-3,PE-6,PE-14,PE-16,RA-5,SC-7,SC-18,SC-19,SI-3,SI-4,SI-7
Description: “Reviews and analyzes information system audit records [Assignment: organization-defined frequency] for indications of [Assignment: organization-defined inappropriate or unusual activity]; and”
Description: “Reports findings to [Assignment: organization-defined personnel or roles].”
AU-6 (1)¶
AU-6 (1) : PROCESS INTEGRATION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs automated mechanisms to integrate audit review, analysis, and reporting processes to support organizational processes for investigation and response to suspicious activities.” Supplemental Guidance: “Organizational processes benefiting from integrated audit review, analysis, and reporting include, for example, incident response, continuous monitoring, contingency planning, and Inspector General audits.”
Related Controls:AU-12,PM-7
AU-6 (2)¶
AU-6 (2) : AUTOMATED SECURITY ALERTS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-4].” Supplemental Guidance:
Related Controls:
AU-6 (3)¶
AU-6 (3) : CORRELATE AUDIT REPOSITORIES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization analyzes and correlates audit records across different repositories to gain organization-wide situational awareness.” Supplemental Guidance: “Organization-wide situational awareness includes awareness across all three tiers of risk management (i.e., organizational, mission/business process, and information system) and supports cross-organization awareness.”
Related Controls:AU-12,IR-4
AU-6 (4)¶
AU-6 (4) : CENTRAL REVIEW AND ANALYSIS
Priority:
Baseline-Impact:
Description: “The information system provides the capability to centrally review and analyze audit records from multiple components within the system.” Supplemental Guidance: “Automated mechanisms for centralized reviews and analyses include, for example, Security Information Management products.”
Related Controls:AU-2,AU-12
AU-6 (5)¶
AU-6 (5) : INTEGRATION / SCANNING AND MONITORING CAPABILITIES
Priority:
Baseline-Impact: HIGH
Description: “The organization integrates analysis of audit records with analysis of [Selection (one or more): vulnerability scanning information; performance data; information system monitoring information; [Assignment: organization-defined data/information collected from other sources]] to further enhance the ability to identify inappropriate or unusual activity.” Supplemental Guidance: “This control enhancement does not require vulnerability scanning, the generation of performance data, or information system monitoring. Rather, the enhancement requires that the analysis of information being otherwise produced in these areas is integrated with the analysis of audit information. Security Event and Information Management System tools can facilitate audit record aggregation/consolidation from multiple information system components as well as audit record correlation and analysis. The use of standardized audit record analysis scripts developed by organizations (with localized script adjustments, as necessary) provides more cost-effective approaches for analyzing audit record information collected. The correlation of audit record information with vulnerability scanning information is important in determining the veracity of vulnerability scans and correlating attack detection events with scanning results. Correlation with performance data can help uncover denial of service attacks or cyber attacks resulting in unauthorized use of resources. Correlation with system monitoring information can assist in uncovering attacks and in better relating audit information to operational situations.”
Related Controls:AU-12,IR-4,RA-5
AU-6 (6)¶
AU-6 (6) : CORRELATION WITH PHYSICAL MONITORING
Priority:
Baseline-Impact: HIGH
Description: “The organization correlates information from audit records with information obtained from monitoring physical access to further enhance the ability to identify suspicious, inappropriate, unusual, or malevolent activity.” Supplemental Guidance: “The correlation of physical audit information and audit logs from information systems may assist organizations in identifying examples of suspicious behavior or supporting evidence of such behavior. For example, the correlation of an individual�s identity for logical access to certain information systems with the additional physical security information that the individual was actually present at the facility when the logical access occurred, may prove to be useful in investigations.”
Related Controls:
AU-6 (7)¶
AU-6 (7) : PERMITTED ACTIONS
Priority:
Baseline-Impact:
Description: “The organization specifies the permitted actions for each [Selection (one or more): information system process; role; user] associated with the review, analysis, and reporting of audit information.” Supplemental Guidance: “Organizations specify permitted actions for information system processes, roles, and/or users associated with the review, analysis, and reporting of audit records through account management techniques. Specifying permitted actions on audit information is a way to enforce the principle of least privilege. Permitted actions are enforced by the information system and include, for example, read, write, execute, append, and delete.”
Related Controls:
AU-6 (8)¶
AU-6 (8) : FULL TEXT ANALYSIS OF PRIVILEGED COMMANDS
Priority:
Baseline-Impact:
Description: “The organization performs a full text analysis of audited privileged commands in a physically distinct component or subsystem of the information system, or other information system that is dedicated to that analysis.” Supplemental Guidance: “This control enhancement requires a distinct environment for the dedicated analysis of audit information related to privileged users without compromising such information on the information system where the users have elevated privileges including the capability to execute privileged commands. Full text analysis refers to analysis that considers the full text of privileged commands (i.e., commands and all parameters) as opposed to analysis that considers only the name of the command. Full text analysis includes, for example, the use of pattern matching and heuristics.”
Related Controls:AU-3,AU-9,AU-11,AU-12
AU-6 (9)¶
AU-6 (9) : CORRELATION WITH INFORMATION FROM NONTECHNICAL SOURCES
Priority:
Baseline-Impact:
Description: “The organization correlates information from nontechnical sources with audit information to enhance organization-wide situational awareness.” Supplemental Guidance: “Nontechnical sources include, for example, human resources records documenting organizational policy violations (e.g., sexual harassment incidents, improper use of organizational information assets). Such information can lead organizations to a more directed analytical effort to detect potential malicious insider activity. Due to the sensitive nature of the information available from nontechnical sources, organizations limit access to such information to minimize the potential for the inadvertent release of privacy-related information to individuals that do not have a need to know. Thus, correlation of information from nontechnical sources with audit information generally occurs only when individuals are suspected of being involved in a security incident. Organizations obtain legal advice prior to initiating such actions.”
Related Controls:AT-2
AU-6 (10)¶
AU-6 (10) : AUDIT LEVEL ADJUSTMENT
Priority:
Baseline-Impact:
Description: “The organization adjusts the level of audit review, analysis, and reporting within the information system when there is a change in risk based on law enforcement information, intelligence information, or other credible sources of information.” Supplemental Guidance: “The frequency, scope, and/or depth of the audit review, analysis, and reporting may be adjusted to meet organizational needs based on new information received.”
Related Controls: .. _header_AU-7:
AU-7¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-7¶
AU-7 : AUDIT REDUCTION AND REPORT GENERATION
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The information system provides an audit reduction and report generation capability that:” Supplemental Guidance: “Audit reduction is a process that manipulates collected audit information and organizes such information in a summary format that is more meaningful to analysts. Audit reduction and report generation capabilities do not always emanate from the same information system or from the same organizational entities conducting auditing activities. Audit reduction capability can include, for example, modern data mining techniques with advanced data filters to identify anomalous behavior in audit records. The report generation capability provided by the information system can generate customizable reports. Time ordering of audit records can be a significant issue if the granularity of the timestamp in the record is insufficient.”
Related Controls:AU-6
Description: “Supports on-demand audit review, analysis, and reporting requirements and after-the-fact investigations of security incidents; and”
Description: “Does not alter the original content or time ordering of audit records.”
AU-7 (1)¶
AU-7 (1) : AUTOMATIC PROCESSING
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system provides the capability to process audit records for events of interest based on [Assignment: organization-defined audit fields within audit records].” Supplemental Guidance: “Events of interest can be identified by the content of specific audit record fields including, for example, identities of individuals, event types, event locations, event times, event dates, system resources involved, IP addresses involved, or information objects accessed. Organizations may define audit event criteria to any degree of granularity required, for example, locations selectable by general networking location (e.g., by network or subnetwork) or selectable by specific information system component.”
Related Controls:AU-2,AU-12
AU-7 (2)¶
AU-7 (2) : AUTOMATIC SORT AND SEARCH
Priority:
Baseline-Impact:
Description: “The information system provides the capability to sort and search audit records for events of interest based on the content of [Assignment: organization-defined audit fields within audit records].” Supplemental Guidance: “Sorting and searching of audit records may be based upon the contents of audit record fields, for example: (i) date/time of events; (ii) user identifiers; (iii) Internet Protocol (IP) addresses involved in the event; (iv) type of event; or (v) event success/failure.”
Related Controls: .. _header_AU-8:
AU-8¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-8¶
AU-8 : TIME STAMPS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “Time stamps generated by the information system include date and time. Time is commonly expressed in Coordinated Universal Time (UTC), a modern continuation of Greenwich Mean Time (GMT), or local time with an offset from UTC. Granularity of time measurements refers to the degree of synchronization between information system clocks and reference clocks, for example, clocks synchronizing within hundreds of milliseconds or within tens of milliseconds. Organizations may define different time granularities for different system components. Time service can also be critical to other security capabilities such as access control and identification and authentication, depending on the nature of the mechanisms used to support those capabilities.”
Related Controls:AU-3,AU-12
Description: “Uses internal system clocks to generate time stamps for audit records; and”
Description: “Records time stamps for audit records that can be mapped to Coordinated Universal Time (UTC) or Greenwich Mean Time (GMT) and meets [Assignment: organization-defined granularity of time measurement].”
AU-8 (1)¶
AU-8 (1) : SYNCHRONIZATION WITH AUTHORITATIVE TIME SOURCE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “This control enhancement provides uniformity of time stamps for information systems with multiple system clocks and systems connected over a network.”
Related Controls:
Description: “Compares the internal information system clocks [Assignment: organization-defined frequency] with [Assignment: organization-defined authoritative time source]; and”
Description: “Synchronizes the internal system clocks to the authoritative time source when the time difference is greater than [Assignment: organization-defined time period].”
AU-8 (2)¶
AU-8 (2) : SECONDARY AUTHORITATIVE TIME SOURCE
Priority:
Baseline-Impact:
Description: “The information system identifies a secondary authoritative time source that is located in a different geographic region than the primary authoritative time source.” Supplemental Guidance:
Related Controls: .. _header_AU-9:
AU-9¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-9¶
AU-9 : PROTECTION OF AUDIT INFORMATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system protects audit information and audit tools from unauthorized access, modification, and deletion.” Supplemental Guidance: “Audit information includes all information (e.g., audit records, audit settings, and audit reports) needed to successfully audit information system activity. This control focuses on technical protection of audit information. Physical protection of audit information is addressed by media protection controls and physical and environmental protection controls.”
Related Controls:AC-3,AC-6,MP-2,MP-4,PE-2,PE-3,PE-6
AU-9 (1)¶
AU-9 (1) : HARDWARE WRITE-ONCE MEDIA
Priority:
Baseline-Impact:
Description: “The information system writes audit trails to hardware-enforced, write-once media.” Supplemental Guidance: “This control enhancement applies to the initial generation of audit trails (i.e., the collection of audit records that represents the audit information to be used for detection, analysis, and reporting purposes) and to the backup of those audit trails. The enhancement does not apply to the initial generation of audit records prior to being written to an audit trail. Write-once, read-many (WORM) media includes, for example, Compact Disk-Recordable (CD-R) and Digital Video Disk-Recordable (DVD-R). In contrast, the use of switchable write-protection media such as on tape cartridges or Universal Serial Bus (USB) drives results in write-protected, but not write-once, media.”
Related Controls:AU-4,AU-5
AU-9 (2)¶
AU-9 (2) : AUDIT BACKUP ON SEPARATE PHYSICAL SYSTEMS / COMPONENTS
Priority:
Baseline-Impact: HIGH
Description: “The information system backs up audit records [Assignment: organization-defined frequency] onto a physically different system or system component than the system or component being audited.” Supplemental Guidance: “This control enhancement helps to ensure that a compromise of the information system being audited does not also result in a compromise of the audit records.”
Related Controls:AU-4,AU-5,AU-11
AU-9 (3)¶
AU-9 (3) : CRYPTOGRAPHIC PROTECTION
Priority:
Baseline-Impact: HIGH
Description: “The information system implements cryptographic mechanisms to protect the integrity of audit information and audit tools.” Supplemental Guidance: “Cryptographic mechanisms used for protecting the integrity of audit information include, for example, signed hash functions using asymmetric cryptography enabling distribution of the public key to verify the hash information while maintaining the confidentiality of the secret key used to generate the hash.”
Related Controls:AU-10,SC-12,SC-13
AU-9 (4)¶
AU-9 (4) : ACCESS BY SUBSET OF PRIVILEGED USERS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization authorizes access to management of audit functionality to only [Assignment: organization-defined subset of privileged users].” Supplemental Guidance: “Individuals with privileged access to an information system and who are also the subject of an audit by that system, may affect the reliability of audit information by inhibiting audit activities or modifying audit records. This control enhancement requires that privileged access be further defined between audit-related privileges and other privileges, thus limiting the users with audit-related privileges.”
Related Controls:AC-5
AU-9 (5)¶
AU-9 (5) : DUAL AUTHORIZATION
Priority:
Baseline-Impact:
Description: “The organization enforces dual authorization for [Selection (one or more): movement; deletion] of [Assignment: organization-defined audit information].” Supplemental Guidance: “Organizations may choose different selection options for different types of audit information. Dual authorization mechanisms require the approval of two authorized individuals in order to execute. Dual authorization may also be known as two-person control.”
Related Controls:AC-3,MP-2
AU-9 (6)¶
AU-9 (6) : READ ONLY ACCESS
Priority:
Baseline-Impact:
Description: “The organization authorizes read-only access to audit information to [Assignment: organization-defined subset of privileged users].” Supplemental Guidance: “Restricting privileged user authorizations to read-only helps to limit the potential damage to organizations that could be initiated by such users (e.g., deleting audit records to cover up malicious activity).”
Related Controls: .. _header_AU-10:
AU-10¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-10¶
AU-10 : NON-REPUDIATION
Priority: P2
Baseline-Impact: HIGH
Description: “The information system protects against an individual (or process acting on behalf of an individual) falsely denying having performed [Assignment: organization-defined actions to be covered by non-repudiation].” Supplemental Guidance: “Types of individual actions covered by non-repudiation include, for example, creating information, sending and receiving messages, approving information (e.g., indicating concurrence or signing a contract). Non-repudiation protects individuals against later claims by: (i) authors of not having authored particular documents; (ii) senders of not having transmitted messages; (iii) receivers of not having received messages; or (iv) signatories of not having signed documents. Non-repudiation services can be used to determine if information originated from a particular individual, or if an individual took specific actions (e.g., sending an email, signing a contract, approving a procurement request) or received specific information. Organizations obtain non-repudiation services by employing various techniques or mechanisms (e.g., digital signatures, digital message receipts).”
Related Controls:SC-12,SC-8,SC-13,SC-16,SC-17,SC-23
AU-10 (1)¶
AU-10 (1) : ASSOCIATION OF IDENTITIES
Priority:
Baseline-Impact:
Description: “The information system:” Supplemental Guidance: “This control enhancement supports audit requirements that provide organizational personnel with the means to identify who produced specific information in the event of an information transfer. Organizations determine and approve the strength of the binding between the information producer and the information based on the security category of the information and relevant risk factors.”
Related Controls:AC-4,AC-16
Description: “Binds the identity of the information producer with the information to [Assignment: organization-defined strength of binding]; and”
Description: “Provides the means for authorized individuals to determine the identity of the producer of the information.”
AU-10 (2)¶
AU-10 (2) : VALIDATE BINDING OF INFORMATION PRODUCER IDENTITY
Priority:
Baseline-Impact:
Description: “The information system:” Supplemental Guidance: “This control enhancement prevents the modification of information between production and review. The validation of bindings can be achieved, for example, by the use of cryptographic checksums. Organizations determine if validations are in response to user requests or generated automatically.”
Related Controls:AC-3,AC-4,AC-16
Description: “Validates the binding of the information producer identity to the information at [Assignment: organization-defined frequency]; and”
Description: “Performs [Assignment: organization-defined actions] in the event of a validation error.”
AU-10 (3)¶
AU-10 (3) : CHAIN OF CUSTODY
Priority:
Baseline-Impact:
Description: “The information system maintains reviewer/releaser identity and credentials within the established chain of custody for all information reviewed or released.” Supplemental Guidance: “Chain of custody is a process that tracks the movement of evidence through its collection, safeguarding, and analysis life cycle by documenting each person who handled the evidence, the date and time it was collected or transferred, and the purpose for the transfer. If the reviewer is a human or if the review function is automated but separate from the release/transfer function, the information system associates the identity of the reviewer of the information to be released with the information and the information label. In the case of human reviews, this control enhancement provides organizational officials the means to identify who reviewed and released the information. In the case of automated reviews, this control enhancement ensures that only approved review functions are employed.”
Related Controls:AC-4,AC-16
AU-10 (4)¶
AU-10 (4) : VALIDATE BINDING OF INFORMATION REVIEWER IDENTITY
Priority:
Baseline-Impact:
Description: “The information system:” Supplemental Guidance: “This control enhancement prevents the modification of information between review and transfer/release. The validation of bindings can be achieved, for example, by the use of cryptographic checksums. Organizations determine validations are in response to user requests or generated automatically.”
Related Controls:AC-4,AC-16
Description: “Validates the binding of the information reviewer identity to the information at the transfer or release points prior to release/transfer between [Assignment: organization-defined security domains]; and”
Description: “Performs [Assignment: organization-defined actions] in the event of a validation error.”
AU-10 (5)¶
AU-10 (5) : DIGITAL SIGNATURES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-7].” Supplemental Guidance:
Related Controls: .. _header_AU-11:
AU-11¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-11¶
AU-11 : AUDIT RECORD RETENTION
Priority: P3
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization retains audit records for [Assignment: organization-defined time period consistent with records retention policy] to provide support for after-the-fact investigations of security incidents and to meet regulatory and organizational information retention requirements.” Supplemental Guidance: “Organizations retain audit records until it is determined that they are no longer needed for administrative, legal, audit, or other operational purposes. This includes, for example, retention and availability of audit records relative to Freedom of Information Act (FOIA) requests, subpoenas, and law enforcement actions. Organizations develop standard categories of audit records relative to such types of actions and standard response processes for each type of action. The National Archives and Records Administration (NARA) General Records Schedules provide federal policy on record retention.”
Related Controls:AU-4,AU-5,AU-9,MP-6
AU-11 (1)¶
AU-11 (1) : LONG-TERM RETRIEVAL CAPABILITY
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined measures] to ensure that long-term audit records generated by the information system can be retrieved.” Supplemental Guidance: “Measures employed by organizations to help facilitate the retrieval of audit records include, for example, converting records to newer formats, retaining equipment capable of reading the records, and retaining necessary documentation to help organizational personnel understand how to interpret the records.”
Related Controls: .. _header_AU-12:
AU-12¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-12¶
AU-12 : AUDIT GENERATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “Audit records can be generated from many different information system components. The list of audited events is the set of events for which audits are to be generated. These events are typically a subset of all events for which the information system is capable of generating audit records.”
Related Controls:AC-3,AU-2,AU-3,AU-6,AU-7
Description: “Provides audit record generation capability for the auditable events defined in AU-2 a. at [Assignment: organization-defined information system components];”
Description: “Allows [Assignment: organization-defined personnel or roles] to select which auditable events are to be audited by specific components of the information system; and”
Description: “Generates audit records for the events defined in AU-2 d. with the content defined in AU-3.”
AU-12 (1)¶
AU-12 (1) : SYSTEM-WIDE / TIME-CORRELATED AUDIT TRAIL
Priority:
Baseline-Impact: HIGH
Description: “The information system compiles audit records from [Assignment: organization-defined information system components] into a system-wide (logical or physical) audit trail that is time-correlated to within [Assignment: organization-defined level of tolerance for the relationship between time stamps of individual records in the audit trail].” Supplemental Guidance: “Audit trails are time-correlated if the time stamps in the individual audit records can be reliably related to the time stamps in other audit records to achieve a time ordering of the records within organizational tolerances.”
Related Controls:AU-8,AU-12
AU-12 (2)¶
AU-12 (2) : STANDARDIZED FORMATS
Priority:
Baseline-Impact:
Description: “The information system produces a system-wide (logical or physical) audit trail composed of audit records in a standardized format.” Supplemental Guidance: “Audit information that is normalized to common standards promotes interoperability and exchange of such information between dissimilar devices and information systems. This facilitates production of event information that can be more readily analyzed and correlated. Standard formats for audit records include, for example, system log records and audit records compliant with Common Event Expressions (CEE). If logging mechanisms within information systems do not conform to standardized formats, systems may convert individual audit records into standardized formats when compiling system-wide audit trails.”
Related Controls:
AU-12 (3)¶
AU-12 (3) : CHANGES BY AUTHORIZED INDIVIDUALS
Priority:
Baseline-Impact: HIGH
Description: “The information system provides the capability for [Assignment: organization-defined individuals or roles] to change the auditing to be performed on [Assignment: organization-defined information system components] based on [Assignment: organization-defined selectable event criteria] within [Assignment: organization-defined time thresholds].” Supplemental Guidance: “This control enhancement enables organizations to extend or limit auditing as necessary to meet organizational requirements. Auditing that is limited to conserve information system resources may be extended to address certain threat situations. In addition, auditing may be limited to a specific set of events to facilitate audit reduction, analysis, and reporting. Organizations can establish time thresholds in which audit actions are changed, for example, near real-time, within minutes, or within hours.”
Related Controls:AU-7 .. _header_AU-13:
AU-13¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-13¶
AU-13 : MONITORING FOR INFORMATION DISCLOSURE
Priority: P0
Baseline-Impact:
Description: “The organization monitors [Assignment: organization-defined open source information and/or information sites] [Assignment: organization-defined frequency] for evidence of unauthorized disclosure of organizational information.” Supplemental Guidance: “Open source information includes, for example, social networking sites.”
Related Controls:PE-3,SC-7
AU-13 (1)¶
AU-13 (1) : USE OF AUTOMATED TOOLS
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to determine if organizational information has been disclosed in an unauthorized manner.” Supplemental Guidance: “Automated mechanisms can include, for example, automated scripts to monitor new posts on selected websites, and commercial services providing notifications and alerts to organizations.”
Related Controls:
AU-13 (2)¶
AU-13 (2) : REVIEW OF MONITORED SITES
Priority:
Baseline-Impact:
Description: “The organization reviews the open source information sites being monitored [Assignment: organization-defined frequency].” Supplemental Guidance:
Related Controls: .. _header_AU-14:
AU-14¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-14¶
AU-14 : SESSION AUDIT
Priority: P0
Baseline-Impact:
Description: “The information system provides the capability for authorized users to select a user session to capture/record or view/hear.” Supplemental Guidance: “Session audits include, for example, monitoring keystrokes, tracking websites visited, and recording information and/or file transfers. Session auditing activities are developed, integrated, and used in consultation with legal counsel in accordance with applicable federal laws, Executive Orders, directives, policies, regulations, or standards.”
Related Controls:AC-3,AU-4,AU-5,AU-9,AU-11
AU-14 (1)¶
AU-14 (1) : SYSTEM START-UP
Priority:
Baseline-Impact:
Description: “The information system initiates session audits at system start-up.” Supplemental Guidance:
Related Controls:
AU-14 (2)¶
AU-14 (2) : CAPTURE/RECORD AND LOG CONTENT
Priority:
Baseline-Impact:
Description: “The information system provides the capability for authorized users to capture/record and log content related to a user session.” Supplemental Guidance:
Related Controls:
AU-14 (3)¶
AU-14 (3) : REMOTE VIEWING / LISTENING
Priority:
Baseline-Impact:
Description: “The information system provides the capability for authorized users to remotely view/hear all content related to an established user session in real time.” Supplemental Guidance:
Related Controls: .. _header_AU-15:
AU-15¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-15¶
AU-15 : ALTERNATE AUDIT CAPABILITY
Priority: P0
Baseline-Impact:
Description: “The organization provides an alternate audit capability in the event of a failure in primary audit capability that provides [Assignment: organization-defined alternate audit functionality].” Supplemental Guidance: “Since an alternate audit capability may be a short-term protection employed until the failure in the primary auditing capability is corrected, organizations may determine that the alternate audit capability need only provide a subset of the primary audit functionality that is impacted by the failure.”
Related Controls:AU-5
AU-16¶
Control Family: AUDIT AND ACCOUNTABILITY
AU-16¶
AU-16 : CROSS-ORGANIZATIONAL AUDITING
Priority: P0
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined methods] for coordinating [Assignment: organization-defined audit information] among external organizations when audit information is transmitted across organizational boundaries.” Supplemental Guidance: “When organizations use information systems and/or services of external organizations, the auditing capability necessitates a coordinated approach across organizations. For example, maintaining the identity of individuals that requested particular services across organizational boundaries may often be very difficult, and doing so may prove to have significant performance ramifications. Therefore, it is often the case that cross-organizational auditing (e.g., the type of auditing capability provided by service-oriented architectures) simply captures the identity of individuals issuing requests at the initial information system, and subsequent systems record that the requests emanated from authorized individuals.”
Related Controls:AU-6
AU-16 (1)¶
AU-16 (1) : IDENTITY PRESERVATION
Priority:
Baseline-Impact:
Description: “The organization requires that the identity of individuals be preserved in cross-organizational audit trails.” Supplemental Guidance: “This control enhancement applies when there is a need to be able to trace actions that are performed across organizational boundaries to a specific individual.”
Related Controls:
AU-16 (2)¶
AU-16 (2) : SHARING OF AUDIT INFORMATION
Priority:
Baseline-Impact:
Description: “The organization provides cross-organizational audit information to [Assignment: organization-defined organizations] based on [Assignment: organization-defined cross-organizational sharing agreements].” Supplemental Guidance: “Because of the distributed nature of the audit information, cross-organization sharing of audit information may be essential for effective analysis of the auditing being performed. For example, the audit records of one organization may not provide sufficient information to determine the appropriate or inappropriate use of organizational information resources by individuals in other organizations. In some instances, only the home organizations of individuals have the appropriate knowledge to make such determinations, thus requiring the sharing of audit information among organizations.”
Related Controls: .. _header_CA-1:
CA-1¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-1¶
CA-1 : SECURITY ASSESSMENT AND AUTHORIZATION POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the CA family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A security assessment and authorization policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the security assessment and authorization policy and associated security assessment and authorization controls; and”
Description: “Reviews and updates the current:”
Description: “Security assessment and authorization policy [Assignment: organization-defined frequency]; and”
Description: “Security assessment and authorization procedures [Assignment: organization-defined frequency].” .. _header_CA-2:
CA-2¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-2¶
CA-2 : SECURITY ASSESSMENTS
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Organizations assess security controls in organizational information systems and the environments in which those systems operate as part of: (i) initial and ongoing security authorizations; (ii) FISMA annual assessments; (iii) continuous monitoring; and (iv) system development life cycle activities. Security assessments: (i) ensure that information security is built into organizational information systems; (ii) identify weaknesses and deficiencies early in the development process; (iii) provide essential information needed to make risk-based decisions as part of security authorization processes; and (iv) ensure compliance to vulnerability mitigation procedures. Assessments are conducted on the implemented security controls from Appendix F (main catalog) and Appendix G (Program Management controls) as documented in System Security Plans and Information Security Program Plans. Organizations can use other types of assessment activities such as vulnerability scanning and system monitoring to maintain the security posture of information systems during the entire life cycle. Security assessment reports document assessment results in sufficient detail as deemed necessary by organizations, to determine the accuracy and completeness of the reports and whether the security controls are implemented correctly, operating as intended, and producing the desired outcome with respect to meeting security requirements. The FISMA requirement for assessing security controls at least annually does not require additional assessment activities to those activities already in place in organizational security authorization processes. Security assessment results are provided to the individuals or roles appropriate for the types of assessments being conducted. For example, assessments conducted in support of security authorization decisions are provided to authorizing officials or authorizing official designated representatives. To satisfy annual assessment requirements, organizations can use assessment results from the following sources: (i) initial or ongoing information system authorizations; (ii) continuous monitoring; or (iii) system development life cycle activities. Organizations ensure that security assessment results are current, relevant to the determination of security control effectiveness, and obtained with the appropriate level of assessor independence. Existing security control assessment results can be reused to the extent that the results are still valid and can also be supplemented with additional assessments as needed. Subsequent to initial authorizations and in accordance with OMB policy, organizations assess security controls during continuous monitoring. Organizations establish the frequency for ongoing security control assessments in accordance with organizational continuous monitoring strategies. Information Assurance Vulnerability Alerts provide useful examples of vulnerability mitigation procedures. External audits (e.g., audits by external entities such as regulatory agencies) are outside the scope of this control.”
Related Controls:CA-5,CA-6,CA-7,PM-9,RA-5,SA-11,SA-12,SI-4
Description: “Develops a security assessment plan that describes the scope of the assessment including:”
Description: “Security controls and control enhancements under assessment;”
Description: “Assessment procedures to be used to determine security control effectiveness; and”
Description: “Assessment environment, assessment team, and assessment roles and responsibilities;”
Description: “Assesses the security controls in the information system and its environment of operation [Assignment: organization-defined frequency] to determine the extent to which the controls are implemented correctly, operating as intended, and producing the desired outcome with respect to meeting established security requirements;”
Description: “Produces a security assessment report that documents the results of the assessment; and”
Description: “Provides the results of the security control assessment to [Assignment: organization-defined individuals or roles].”
CA-2 (1)¶
CA-2 (1) : INDEPENDENT ASSESSORS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs assessors or assessment teams with [Assignment: organization-defined level of independence] to conduct security control assessments.” Supplemental Guidance: “Independent assessors or assessment teams are individuals or groups who conduct impartial assessments of organizational information systems. Impartiality implies that assessors are free from any perceived or actual conflicts of interest with regard to the development, operation, or management of the organizational information systems under assessment or to the determination of security control effectiveness. To achieve impartiality, assessors should not: (i) create a mutual or conflicting interest with the organizations where the assessments are being conducted; (ii) assess their own work; (iii) act as management or employees of the organizations they are serving; or (iv) place themselves in positions of advocacy for the organizations acquiring their services. Independent assessments can be obtained from elements within organizations or can be contracted to public or private sector entities outside of organizations. Authorizing officials determine the required level of independence based on the security categories of information systems and/or the ultimate risk to organizational operations, organizational assets, or individuals. Authorizing officials also determine if the level of assessor independence provides sufficient assurance that the results are sound and can be used to make credible, risk-based decisions. This includes determining whether contracted security assessment services have sufficient independence, for example, when information system owners are not directly involved in contracting processes or cannot unduly influence the impartiality of assessors conducting assessments. In special situations, for example, when organizations that own the information systems are small or organizational structures require that assessments are conducted by individuals that are in the developmental, operational, or management chain of system owners, independence in assessment processes can be achieved by ensuring that assessment results are carefully reviewed and analyzed by independent teams of experts to validate the completeness, accuracy, integrity, and reliability of the results. Organizations recognize that assessments performed for purposes other than direct support to authorization decisions are, when performed by assessors with sufficient independence, more likely to be useable for such decisions, thereby reducing the need to repeat assessments.”
Related Controls:
CA-2 (2)¶
CA-2 (2) : SPECIALIZED ASSESSMENTS
Priority:
Baseline-Impact: HIGH
Description: “The organization includes as part of security control assessments, [Assignment: organization-defined frequency], [Selection: announced; unannounced], [Selection (one or more): in-depth monitoring; vulnerability scanning; malicious user testing; insider threat assessment; performance/load testing; [Assignment: organization-defined other forms of security assessment]].” Supplemental Guidance: “Organizations can employ information system monitoring, insider threat assessments, malicious user testing, and other forms of testing (e.g., verification and validation) to improve readiness by exercising organizational capabilities and indicating current performance levels as a means of focusing actions to improve security. Organizations conduct assessment activities in accordance with applicable federal laws, Executive Orders, directives, policies, regulations, and standards. Authorizing officials approve the assessment methods in coordination with the organizational risk executive function. Organizations can incorporate vulnerabilities uncovered during assessments into vulnerability remediation processes.”
Related Controls:PE-3,SI-2
CA-2 (3)¶
CA-2 (3) : EXTERNAL ORGANIZATIONS
Priority:
Baseline-Impact:
Description: “The organization accepts the results of an assessment of [Assignment: organization-defined information system] performed by [Assignment: organization-defined external organization] when the assessment meets [Assignment: organization-defined requirements].” Supplemental Guidance: “Organizations may often rely on assessments of specific information systems by other (external) organizations. Utilizing such existing assessments (i.e., reusing existing assessment evidence) can significantly decrease the time and resources required for organizational assessments by limiting the amount of independent assessment activities that organizations need to perform. The factors that organizations may consider in determining whether to accept assessment results from external organizations can vary. Determinations for accepting assessment results can be based on, for example, past assessment experiences one organization has had with another organization, the reputation that organizations have with regard to assessments, the level of detail of supporting assessment documentation provided, or mandates imposed upon organizations by federal legislation, policies, or directives.”
Related Controls: .. _header_CA-3:
CA-3¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-3¶
CA-3 : SYSTEM INTERCONNECTIONS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies to dedicated connections between information systems (i.e., system interconnections) and does not apply to transitory, user-controlled connections such as email and website browsing. Organizations carefully consider the risks that may be introduced when information systems are connected to other systems with different security requirements and security controls, both within organizations and external to organizations. Authorizing officials determine the risk associated with information system connections and the appropriate controls employed. If interconnecting systems have the same authorizing official, organizations do not need to develop Interconnection Security Agreements. Instead, organizations can describe the interface characteristics between those interconnecting systems in their respective security plans. If interconnecting systems have different authorizing officials within the same organization, organizations can either develop Interconnection Security Agreements or describe the interface characteristics between systems in the security plans for the respective systems. Organizations may also incorporate Interconnection Security Agreement information into formal contracts, especially for interconnections established between federal agencies and nonfederal (i.e., private sector) organizations. Risk considerations also include information systems sharing the same networks. For certain technologies (e.g., space, unmanned aerial vehicles, and medical devices), there may be specialized connections in place during preoperational testing. Such connections may require Interconnection Security Agreements and be subject to additional security controls.”
Related Controls:AC-3,AC-4,AC-20,AU-2,AU-12,AU-16,CA-7,IA-3,SA-9,SC-7,SI-4
Description: “Authorizes connections from the information system to other information systems through the use of Interconnection Security Agreements;”
Description: “Documents, for each interconnection, the interface characteristics, security requirements, and the nature of the information communicated; and”
Description: “Reviews and updates Interconnection Security Agreements [Assignment: organization-defined frequency].”
CA-3 (1)¶
CA-3 (1) : UNCLASSIFIED NATIONAL SECURITY SYSTEM CONNECTIONS
Priority:
Baseline-Impact:
Description: “The organization prohibits the direct connection of an [Assignment: organization-defined unclassified, national security system] to an external network without the use of [Assignment: organization-defined boundary protection device].” Supplemental Guidance: “Organizations typically do not have control over external networks (e.g., the Internet). Approved boundary protection devices (e.g., routers, firewalls) mediate communications (i.e., information flows) between unclassified national security systems and external networks. This control enhancement is required for organizations processing, storing, or transmitting Controlled Unclassified Information (CUI).”
Related Controls:
CA-3 (2)¶
CA-3 (2) : CLASSIFIED NATIONAL SECURITY SYSTEM CONNECTIONS
Priority:
Baseline-Impact:
Description: “The organization prohibits the direct connection of a classified, national security system to an external network without the use of [Assignment: organization-defined boundary protection device].” Supplemental Guidance: “Organizations typically do not have control over external networks (e.g., the Internet). Approved boundary protection devices (e.g., routers, firewalls) mediate communications (i.e., information flows) between classified national security systems and external networks. In addition, approved boundary protection devices (typically managed interface/cross-domain systems) provide information flow enforcement from information systems to external networks.”
Related Controls:
CA-3 (3)¶
CA-3 (3) : UNCLASSIFIED NON-NATIONAL SECURITY SYSTEM CONNECTIONS
Priority:
Baseline-Impact:
Description: “The organization prohibits the direct connection of an [Assignment: organization-defined unclassified, non-national security system] to an external network without the use of [Assignment; organization-defined boundary protection device].” Supplemental Guidance: “Organizations typically do not have control over external networks (e.g., the Internet). Approved boundary protection devices (e.g., routers, firewalls) mediate communications (i.e., information flows) between unclassified non-national security systems and external networks. This control enhancement is required for organizations processing, storing, or transmitting Controlled Unclassified Information (CUI).”
Related Controls:
CA-3 (4)¶
CA-3 (4) : CONNECTIONS TO PUBLIC NETWORKS
Priority:
Baseline-Impact:
Description: “The organization prohibits the direct connection of an [Assignment: organization-defined information system] to a public network.” Supplemental Guidance: “A public network is any network accessible to the general public including, for example, the Internet and organizational extranets with public access.”
Related Controls:
CA-3 (5)¶
CA-3 (5) : RESTRICTIONS ON EXTERNAL SYSTEM CONNECTIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs [Selection: allow-all, deny-by-exception; deny-all, permit-by-exception] policy for allowing [Assignment: organization-defined information systems] to connect to external information systems.” Supplemental Guidance: “Organizations can constrain information system connectivity to external domains (e.g., websites) by employing one of two policies with regard to such connectivity: (i) allow-all, deny by exception, also known as blacklisting (the weaker of the two policies); or (ii) deny-all, allow by exception, also known as whitelisting (the stronger of the two policies). For either policy, organizations determine what exceptions, if any, are acceptable.”
Related Controls:CM-7 .. _header_CA-4:
CA-4¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-4¶
CA-4 : SECURITY CERTIFICATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CA-2].” Supplemental Guidance:
Related Controls:
CA-5¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-5¶
CA-5 : PLAN OF ACTION AND MILESTONES
Priority: P3
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Plans of action and milestones are key documents in security authorization packages and are subject to federal reporting requirements established by OMB.”
Related Controls:CA-2,CA-7,CM-4,PM-4
Description: “Develops a plan of action and milestones for the information system to document the organization�s planned remedial actions to correct weaknesses or deficiencies noted during the assessment of the security controls and to reduce or eliminate known vulnerabilities in the system; and”
Description: “Updates existing plan of action and milestones [Assignment: organization-defined frequency] based on the findings from security controls assessments, security impact analyses, and continuous monitoring activities.”
CA-5 (1)¶
CA-5 (1) : AUTOMATION SUPPORT FOR ACCURACY / CURRENCY
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to help ensure that the plan of action and milestones for the information system is accurate, up to date, and readily available.” Supplemental Guidance:
Related Controls: .. _header_CA-6:
CA-6¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-6¶
CA-6 : SECURITY AUTHORIZATION
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Security authorizations are official management decisions, conveyed through authorization decision documents, by senior organizational officials or executives (i.e., authorizing officials) to authorize operation of information systems and to explicitly accept the risk to organizational operations and assets, individuals, other organizations, and the Nation based on the implementation of agreed-upon security controls. Authorizing officials provide budgetary oversight for organizational information systems or assume responsibility for the mission/business operations supported by those systems. The security authorization process is an inherently federal responsibility and therefore, authorizing officials must be federal employees. Through the security authorization process, authorizing officials assume responsibility and are accountable for security risks associated with the operation and use of organizational information systems. Accordingly, authorizing officials are in positions with levels of authority commensurate with understanding and accepting such information security-related risks. OMB policy requires that organizations conduct ongoing authorizations of information systems by implementing continuous monitoring programs. Continuous monitoring programs can satisfy three-year reauthorization requirements, so separate reauthorization processes are not necessary. Through the employment of comprehensive continuous monitoring processes, critical information contained in authorization packages (i.e., security plans, security assessment reports, and plans of action and milestones) is updated on an ongoing basis, providing authorizing officials and information system owners with an up-to-date status of the security state of organizational information systems and environments of operation. To reduce the administrative cost of security reauthorization, authorizing officials use the results of continuous monitoring processes to the maximum extent possible as the basis for rendering reauthorization decisions.”
Related Controls:CA-2,CA-7,PM-9,PM-10
Description: “Assigns a senior-level executive or manager as the authorizing official for the information system;”
Description: “Ensures that the authorizing official authorizes the information system for processing before commencing operations; and”
Description: “Updates the security authorization [Assignment: organization-defined frequency].” .. _header_CA-7:
CA-7¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-7¶
CA-7 : CONTINUOUS MONITORING
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization develops a continuous monitoring strategy and implements a continuous monitoring program that includes:” Supplemental Guidance: “Continuous monitoring programs facilitate ongoing awareness of threats, vulnerabilities, and information security to support organizational risk management decisions. The terms continuous and ongoing imply that organizations assess/analyze security controls and information security-related risks at a frequency sufficient to support organizational risk-based decisions. The results of continuous monitoring programs generate appropriate risk response actions by organizations. Continuous monitoring programs also allow organizations to maintain the security authorizations of information systems and common controls over time in highly dynamic environments of operation with changing mission/business needs, threats, vulnerabilities, and technologies. Having access to security-related information on a continuing basis through reports/dashboards gives organizational officials the capability to make more effective and timely risk management decisions, including ongoing security authorization decisions. Automation supports more frequent updates to security authorization packages, hardware/software/firmware inventories, and other system information. Effectiveness is further enhanced when continuous monitoring outputs are formatted to provide information that is specific, measurable, actionable, relevant, and timely. Continuous monitoring activities are scaled in accordance with the security categories of information systems.”
Related Controls:CA-2,CA-5,CA-6,CM-3,CM-4,PM-6,PM-9,RA-5,SA-11,SA-12,SI-2,SI-4
Description: “Establishment of [Assignment: organization-defined metrics] to be monitored;”
Description: “Establishment of [Assignment: organization-defined frequencies] for monitoring and [Assignment: organization-defined frequencies] for assessments supporting such monitoring;”
Description: “Ongoing security control assessments in accordance with the organizational continuous monitoring strategy;”
Description: “Ongoing security status monitoring of organization-defined metrics in accordance with the organizational continuous monitoring strategy;”
Description: “Correlation and analysis of security-related information generated by assessments and monitoring;”
Description: “Response actions to address results of the analysis of security-related information; and”
Description: “Reporting the security status of organization and the information system to [Assignment: organization-defined personnel or roles] [Assignment: organization-defined frequency].”
CA-7 (1)¶
CA-7 (1) : INDEPENDENT ASSESSMENT
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs assessors or assessment teams with [Assignment: organization-defined level of independence] to monitor the security controls in the information system on an ongoing basis.” Supplemental Guidance: “Organizations can maximize the value of assessments of security controls during the continuous monitoring process by requiring that such assessments be conducted by assessors or assessment teams with appropriate levels of independence based on continuous monitoring strategies. Assessor independence provides a degree of impartiality to the monitoring process. To achieve such impartiality, assessors should not: (i) create a mutual or conflicting interest with the organizations where the assessments are being conducted; (ii) assess their own work; (iii) act as management or employees of the organizations they are serving; or (iv) place themselves in advocacy positions for the organizations acquiring their services.”
Related Controls:
CA-7 (2)¶
CA-7 (2) : TYPES OF ASSESSMENTS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CA-2].” Supplemental Guidance:
Related Controls:
CA-7 (3)¶
CA-7 (3) : TREND ANALYSES
Priority:
Baseline-Impact:
Description: “The organization employs trend analyses to determine if security control implementations, the frequency of continuous monitoring activities, and/or the types of activities used in the continuous monitoring process need to be modified based on empirical data.” Supplemental Guidance: “Trend analyses can include, for example, examining recent threat information regarding the types of threat events that have occurred within the organization or across the federal government, success rates of certain types of cyber attacks, emerging vulnerabilities in information technologies, evolving social engineering techniques, results from multiple security control assessments, the effectiveness of configuration settings, and findings from Inspectors General or auditors.”
Related Controls: .. _header_CA-8:
CA-8¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-8¶
CA-8 : PENETRATION TESTING
Priority: P2
Baseline-Impact: HIGH
Description: “The organization conducts penetration testing [Assignment: organization-defined frequency] on [Assignment: organization-defined information systems or system components].” Supplemental Guidance: “Penetration testing is a specialized type of assessment conducted on information systems or individual system components to identify vulnerabilities that could be exploited by adversaries. Such testing can be used to either validate vulnerabilities or determine the degree of resistance organizational information systems have to adversaries within a set of specified constraints (e.g., time, resources, and/or skills). Penetration testing attempts to duplicate the actions of adversaries in carrying out hostile cyber attacks against organizations and provides a more in-depth analysis of security-related weaknesses/deficiencies. Organizations can also use the results of vulnerability analyses to support penetration testing activities. Penetration testing can be conducted on the hardware, software, or firmware components of an information system and can exercise both physical and technical security controls. A standard method for penetration testing includes, for example: (i) pretest analysis based on full knowledge of the target system; (ii) pretest identification of potential vulnerabilities based on pretest analysis; and (iii) testing designed to determine exploitability of identified vulnerabilities. All parties agree to the rules of engagement before the commencement of penetration testing scenarios. Organizations correlate the penetration testing rules of engagement with the tools, techniques, and procedures that are anticipated to be employed by adversaries carrying out attacks. Organizational risk assessments guide decisions on the level of independence required for personnel conducting penetration testing.”
Related Controls:SA-12
CA-8 (1)¶
CA-8 (1) : INDEPENDENT PENETRATION AGENT OR TEAM
Priority:
Baseline-Impact:
Description: “The organization employs an independent penetration agent or penetration team to perform penetration testing on the information system or system components.” Supplemental Guidance: “Independent penetration agents or teams are individuals or groups who conduct impartial penetration testing of organizational information systems. Impartiality implies that penetration agents or teams are free from any perceived or actual conflicts of interest with regard to the development, operation, or management of the information systems that are the targets of the penetration testing. Supplemental guidance for CA-2 (1) provides additional information regarding independent assessments that can be applied to penetration testing.”
Related Controls:CA-2
CA-8 (2)¶
CA-8 (2) : RED TEAM EXERCISES
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined red team exercises] to simulate attempts by adversaries to compromise organizational information systems in accordance with [Assignment: organization-defined rules of engagement].” Supplemental Guidance: “Red team exercises extend the objectives of penetration testing by examining the security posture of organizations and their ability to implement effective cyber defenses. As such, red team exercises reflect simulated adversarial attempts to compromise organizational mission/business functions and provide a comprehensive assessment of the security state of information systems and organizations. Simulated adversarial attempts to compromise organizational missions/business functions and the information systems that support those missions/functions may include technology-focused attacks (e.g., interactions with hardware, software, or firmware components and/or mission/business processes) and social engineering-based attacks (e.g., interactions via email, telephone, shoulder surfing, or personal conversations). While penetration testing may be largely laboratory-based testing, organizations use red team exercises to provide more comprehensive assessments that reflect real-world conditions. Red team exercises can be used to improve security awareness and training and to assess levels of security control effectiveness.”
Related Controls: .. _header_CA-9:
CA-9¶
Control Family: SECURITY ASSESSMENT AND AUTHORIZATION
CA-9¶
CA-9 : INTERNAL SYSTEM CONNECTIONS
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies to connections between organizational information systems and (separate) constituent system components (i.e., intra-system connections) including, for example, system connections with mobile devices, notebook/desktop computers, printers, copiers, facsimile machines, scanners, sensors, and servers. Instead of authorizing each individual internal connection, organizations can authorize internal connections for a class of components with common characteristics and/or configurations, for example, all digital printers, scanners, and copiers with a specified processing, storage, and transmission capability or all smart phones with a specific baseline configuration.”
Related Controls:AC-3,AC-4,AC-18,AC-19,AU-2,AU-12,CA-7,CM-2,IA-3,SC-7,SI-4
Description: “Authorizes internal connections of [Assignment: organization-defined information system components or classes of components] to the information system; and”
Description: “Documents, for each internal connection, the interface characteristics, security requirements, and the nature of the information communicated.”
CA-9 (1)¶
CA-9 (1) : SECURITY COMPLIANCE CHECKS
Priority:
Baseline-Impact:
Description: “The information system performs security compliance checks on constituent system components prior to the establishment of the internal connection.” Supplemental Guidance: “Security compliance checks may include, for example, verification of the relevant baseline configuration.”
Related Controls:CM-6 .. _header_CM-1:
CM-1¶
Control Family: CONFIGURATION MANAGEMENT
CM-1¶
CM-1 : CONFIGURATION MANAGEMENT POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the CM family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A configuration management policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the configuration management policy and associated configuration management controls; and”
Description: “Reviews and updates the current:”
Description: “Configuration management policy [Assignment: organization-defined frequency]; and”
Description: “Configuration management procedures [Assignment: organization-defined frequency].” .. _header_CM-2:
CM-2¶
Control Family: CONFIGURATION MANAGEMENT
CM-2¶
CM-2 : BASELINE CONFIGURATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization develops, documents, and maintains under configuration control, a current baseline configuration of the information system.” Supplemental Guidance: “This control establishes baseline configurations for information systems and system components including communications and connectivity-related aspects of systems. Baseline configurations are documented, formally reviewed and agreed-upon sets of specifications for information systems or configuration items within those systems. Baseline configurations serve as a basis for future builds, releases, and/or changes to information systems. Baseline configurations include information about information system components (e.g., standard software packages installed on workstations, notebook computers, servers, network components, or mobile devices; current version numbers and patch information on operating systems and applications; and configuration settings/parameters), network topology, and the logical placement of those components within the system architecture. Maintaining baseline configurations requires creating new baselines as organizational information systems change over time. Baseline configurations of information systems reflect the current enterprise architecture.”
Related Controls:CM-3,CM-6,CM-8,CM-9,SA-10,PM-5,PM-7
CM-2 (1)¶
CM-2 (1) : REVIEWS AND UPDATES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization reviews and updates the baseline configuration of the information system:” Supplemental Guidance:
Related Controls:CM-5
Description: “[Assignment: organization-defined frequency];”
Description: “When required due to [Assignment organization-defined circumstances]; and”
Description: “As an integral part of information system component installations and upgrades.”
CM-2 (2)¶
CM-2 (2) : AUTOMATION SUPPORT FOR ACCURACY / CURRENCY
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to maintain an up-to-date, complete, accurate, and readily available baseline configuration of the information system.” Supplemental Guidance: “Automated mechanisms that help organizations maintain consistent baseline configurations for information systems include, for example, hardware and software inventory tools, configuration management tools, and network management tools. Such tools can be deployed and/or allocated as common controls, at the information system level, or at the operating system or component level (e.g., on workstations, servers, notebook computers, network components, or mobile devices). Tools can be used, for example, to track version numbers on operating system applications, types of software installed, and current patch levels. This control enhancement can be satisfied by the implementation of CM-8 (2) for organizations that choose to combine information system component inventory and baseline configuration activities.”
Related Controls:CM-7,RA-5
CM-2 (3)¶
CM-2 (3) : RETENTION OF PREVIOUS CONFIGURATIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization retains [Assignment: organization-defined previous versions of baseline configurations of the information system] to support rollback.” Supplemental Guidance: “Retaining previous versions of baseline configurations to support rollback may include, for example, hardware, software, firmware, configuration files, and configuration records.”
Related Controls:
CM-2 (4)¶
CM-2 (4) : UNAUTHORIZED SOFTWARE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CM-7].” Supplemental Guidance:
Related Controls:
CM-2 (5)¶
CM-2 (5) : AUTHORIZED SOFTWARE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CM-7].” Supplemental Guidance:
Related Controls:
CM-2 (6)¶
CM-2 (6) : DEVELOPMENT AND TEST ENVIRONMENTS
Priority:
Baseline-Impact:
Description: “The organization maintains a baseline configuration for information system development and test environments that is managed separately from the operational baseline configuration.” Supplemental Guidance: “Establishing separate baseline configurations for development, testing, and operational environments helps protect information systems from unplanned/unexpected events related to development and testing activities. Separate baseline configurations allow organizations to apply the configuration management that is most appropriate for each type of configuration. For example, management of operational configurations typically emphasizes the need for stability, while management of development/test configurations requires greater flexibility. Configurations in the test environment mirror the configurations in the operational environment to the extent practicable so that the results of the testing are representative of the proposed changes to the operational systems. This control enhancement requires separate configurations but not necessarily separate physical environments.”
Related Controls:CM-4,SC-3,SC-7
CM-2 (7)¶
CM-2 (7) : CONFIGURE SYSTEMS, COMPONENTS, OR DEVICES FOR HIGH-RISK AREAS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “When it is known that information systems, system components, or devices (e.g., notebook computers, mobile devices) will be located in high-risk areas, additional security controls may be implemented to counter the greater threat in such areas coupled with the lack of physical security relative to organizational-controlled areas. For example, organizational policies and procedures for notebook computers used by individuals departing on and returning from travel include, for example, determining which locations are of concern, defining required configurations for the devices, ensuring that the devices are configured as intended before travel is initiated, and applying specific safeguards to the device after travel is completed. Specially configured notebook computers include, for example, computers with sanitized hard drives, limited applications, and additional hardening (e.g., more stringent configuration settings). Specified safeguards applied to mobile devices upon return from travel include, for example, examining the device for signs of physical tampering and purging/reimaging the hard disk drive. Protecting information residing on mobile devices is covered in the media protection family.”
Related Controls:
Description: “Issues [Assignment: organization-defined information systems, system components, or devices] with [Assignment: organization-defined configurations] to individuals traveling to locations that the organization deems to be of significant risk; and”
Description: “Applies [Assignment: organization-defined security safeguards] to the devices when the individuals return.” .. _header_CM-3:
CM-3¶
Control Family: CONFIGURATION MANAGEMENT
CM-3¶
CM-3 : CONFIGURATION CHANGE CONTROL
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Configuration change controls for organizational information systems involve the systematic proposal, justification, implementation, testing, review, and disposition of changes to the systems, including system upgrades and modifications. Configuration change control includes changes to baseline configurations for components and configuration items of information systems, changes to configuration settings for information technology products (e.g., operating systems, applications, firewalls, routers, and mobile devices), unscheduled/unauthorized changes, and changes to remediate vulnerabilities. Typical processes for managing configuration changes to information systems include, for example, Configuration Control Boards that approve proposed changes to systems. For new development information systems or systems undergoing major upgrades, organizations consider including representatives from development organizations on the Configuration Control Boards. Auditing of changes includes activities before and after changes are made to organizational information systems and the auditing activities required to implement such changes.”
Related Controls:CA-7,CM-2,CM-4,CM-5,CM-6,CM-9,SA-10,SI-2,SI-12
Description: “Determines the types of changes to the information system that are configuration-controlled;”
Description: “Reviews proposed configuration-controlled changes to the information system and approves or disapproves such changes with explicit consideration for security impact analyses;”
Description: “Documents configuration change decisions associated with the information system;”
Description: “Implements approved configuration-controlled changes to the information system;”
Description: “Retains records of configuration-controlled changes to the information system for [Assignment: organization-defined time period];”
Description: “Audits and reviews activities associated with configuration-controlled changes to the information system; and”
Description: “Coordinates and provides oversight for configuration change control activities through [Assignment: organization-defined configuration change control element (e.g., committee, board)] that convenes [Selection (one or more): [Assignment: organization-defined frequency]; [Assignment: organization-defined configuration change conditions]].”
CM-3 (1)¶
CM-3 (1) : AUTOMATED DOCUMENT / NOTIFICATION / PROHIBITION OF CHANGES
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to:” Supplemental Guidance:
Related Controls:
Description: “Document proposed changes to the information system;”
Description: “Notify [Assignment: organized-defined approval authorities] of proposed changes to the information system and request change approval;”
Description: “Highlight proposed changes to the information system that have not been approved or disapproved by [Assignment: organization-defined time period];”
Description: “Prohibit changes to the information system until designated approvals are received;”
Description: “Document all changes to the information system; and”
Description: “Notify [Assignment: organization-defined personnel] when approved changes to the information system are completed.”
CM-3 (2)¶
CM-3 (2) : TEST / VALIDATE / DOCUMENT CHANGES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization tests, validates, and documents changes to the information system before implementing the changes on the operational system.” Supplemental Guidance: “Changes to information systems include modifications to hardware, software, or firmware components and configuration settings defined in CM-6. Organizations ensure that testing does not interfere with information system operations. Individuals/groups conducting tests understand organizational security policies and procedures, information system security policies and procedures, and the specific health, safety, and environmental risks associated with particular facilities/processes. Operational systems may need to be taken off-line, or replicated to the extent feasible, before testing can be conducted. If information systems must be taken off-line for testing, the tests are scheduled to occur during planned system outages whenever possible. If testing cannot be conducted on operational systems, organizations employ compensating controls (e.g., testing on replicated systems).”
Related Controls:
CM-3 (3)¶
CM-3 (3) : AUTOMATED CHANGE IMPLEMENTATION
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to implement changes to the current information system baseline and deploys the updated baseline across the installed base.” Supplemental Guidance:
Related Controls:
CM-3 (4)¶
CM-3 (4) : SECURITY REPRESENTATIVE
Priority:
Baseline-Impact:
Description: “The organization requires an information security representative to be a member of the [Assignment: organization-defined configuration change control element].” Supplemental Guidance: “Information security representatives can include, for example, senior agency information security officers, information system security officers, or information system security managers. Representation by personnel with information security expertise is important because changes to information system configurations can have unintended side effects, some of which may be security-relevant. Detecting such changes early in the process can help avoid unintended, negative consequences that could ultimately affect the security state of organizational information systems. The configuration change control element in this control enhancement reflects the change control elements defined by organizations in CM-3.”
Related Controls:
CM-3 (5)¶
CM-3 (5) : AUTOMATED SECURITY RESPONSE
Priority:
Baseline-Impact:
Description: “The information system implements [Assignment: organization-defined security responses] automatically if baseline configurations are changed in an unauthorized manner.” Supplemental Guidance: “Security responses include, for example, halting information system processing, halting selected system functions, or issuing alerts/notifications to organizational personnel when there is an unauthorized modification of a configuration item.”
Related Controls:
CM-3 (6)¶
CM-3 (6) : CRYPTOGRAPHY MANAGEMENT
Priority:
Baseline-Impact:
Description: “The organization ensures that cryptographic mechanisms used to provide [Assignment: organization-defined security safeguards] are under configuration management.” Supplemental Guidance: “Regardless of the cryptographic means employed (e.g., public key, private key, shared secrets), organizations ensure that there are processes and procedures in place to effectively manage those means. For example, if devices use certificates as a basis for identification and authentication, there needs to be a process in place to address the expiration of those certificates.”
Related Controls:SC-13 .. _header_CM-4:
CM-4¶
Control Family: CONFIGURATION MANAGEMENT
CM-4¶
CM-4 : SECURITY IMPACT ANALYSIS
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization analyzes changes to the information system to determine potential security impacts prior to change implementation.” Supplemental Guidance: “Organizational personnel with information security responsibilities (e.g., Information System Administrators, Information System Security Officers, Information System Security Managers, and Information System Security Engineers) conduct security impact analyses. Individuals conducting security impact analyses possess the necessary skills/technical expertise to analyze the changes to information systems and the associated security ramifications. Security impact analysis may include, for example, reviewing security plans to understand security control requirements and reviewing system design documentation to understand control implementation and how specific changes might affect the controls. Security impact analyses may also include assessments of risk to better understand the impact of the changes and to determine if additional security controls are required. Security impact analyses are scaled in accordance with the security categories of the information systems.”
Related Controls:CA-2,CA-7,CM-3,CM-9,SA-4,SA-5,SA-10,SI-2
CM-4 (1)¶
CM-4 (1) : SEPARATE TEST ENVIRONMENTS
Priority:
Baseline-Impact: HIGH
Description: “The organization analyzes changes to the information system in a separate test environment before implementation in an operational environment, looking for security impacts due to flaws, weaknesses, incompatibility, or intentional malice.” Supplemental Guidance: “Separate test environment in this context means an environment that is physically or logically isolated and distinct from the operational environment. The separation is sufficient to ensure that activities in the test environment do not impact activities in the operational environment, and information in the operational environment is not inadvertently transmitted to the test environment. Separate environments can be achieved by physical or logical means. If physically separate test environments are not used, organizations determine the strength of mechanism required when implementing logical separation (e.g., separation achieved through virtual machines).”
Related Controls:SA-11,SC-3,SC-7
CM-4 (2)¶
CM-4 (2) : VERIFICATION OF SECURITY FUNCTIONS
Priority:
Baseline-Impact:
Description: “The organization, after the information system is changed, checks the security functions to verify that the functions are implemented correctly, operating as intended, and producing the desired outcome with regard to meeting the security requirements for the system.” Supplemental Guidance: “Implementation is this context refers to installing changed code in the operational information system.”
Related Controls:SA-11 .. _header_CM-5:
CM-5¶
Control Family: CONFIGURATION MANAGEMENT
CM-5¶
CM-5 : ACCESS RESTRICTIONS FOR CHANGE
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization defines, documents, approves, and enforces physical and logical access restrictions associated with changes to the information system.” Supplemental Guidance: “Any changes to the hardware, software, and/or firmware components of information systems can potentially have significant effects on the overall security of the systems. Therefore, organizations permit only qualified and authorized individuals to access information systems for purposes of initiating changes, including upgrades and modifications. Organizations maintain records of access to ensure that configuration change control is implemented and to support after-the-fact actions should organizations discover any unauthorized changes. Access restrictions for change also include software libraries. Access restrictions include, for example, physical and logical access controls (see AC-3 and PE-3), workflow automation, media libraries, abstract layers (e.g., changes implemented into third-party interfaces rather than directly into information systems), and change windows (e.g., changes occur only during specified times, making unauthorized changes easy to discover).”
Related Controls:AC-3,AC-6,PE-3
CM-5 (1)¶
CM-5 (1) : AUTOMATED ACCESS ENFORCEMENT / AUDITING
Priority:
Baseline-Impact: HIGH
Description: “The information system enforces access restrictions and supports auditing of the enforcement actions.” Supplemental Guidance:
Related Controls:AU-2,AU-12,AU-6,CM-3,CM-6
CM-5 (2)¶
CM-5 (2) : REVIEW SYSTEM CHANGES
Priority:
Baseline-Impact: HIGH
Description: “The organization reviews information system changes [Assignment: organization-defined frequency] and [Assignment: organization-defined circumstances] to determine whether unauthorized changes have occurred.” Supplemental Guidance: “Indications that warrant review of information system changes and the specific circumstances justifying such reviews may be obtained from activities carried out by organizations during the configuration change process.”
Related Controls:AU-6,AU-7,CM-3,CM-5,PE-6,PE-8
CM-5 (3)¶
CM-5 (3) : SIGNED COMPONENTS
Priority:
Baseline-Impact: HIGH
Description: “The information system prevents the installation of [Assignment: organization-defined software and firmware components] without verification that the component has been digitally signed using a certificate that is recognized and approved by the organization.” Supplemental Guidance: “Software and firmware components prevented from installation unless signed with recognized and approved certificates include, for example, software and firmware version updates, patches, service packs, device drivers, and basic input output system (BIOS) updates. Organizations can identify applicable software and firmware components by type, by specific items, or a combination of both. Digital signatures and organizational verification of such signatures, is a method of code authentication.”
Related Controls:CM-7,SC-13,SI-7
CM-5 (4)¶
CM-5 (4) : DUAL AUTHORIZATION
Priority:
Baseline-Impact:
Description: “The organization enforces dual authorization for implementing changes to [Assignment: organization-defined information system components and system-level information].” Supplemental Guidance: “Organizations employ dual authorization to ensure that any changes to selected information system components and information cannot occur unless two qualified individuals implement such changes. The two individuals possess sufficient skills/expertise to determine if the proposed changes are correct implementations of approved changes. Dual authorization may also be known as two-person control.”
Related Controls:AC-5,CM-3
CM-5 (5)¶
CM-5 (5) : LIMIT PRODUCTION / OPERATIONAL PRIVILEGES
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “In many organizations, information systems support multiple core missions/business functions. Limiting privileges to change information system components with respect to operational systems is necessary because changes to a particular information system component may have far-reaching effects on mission/business processes supported by the system where the component resides. The complex, many-to-many relationships between systems and mission/business processes are in some cases, unknown to developers.”
Related Controls:AC-2
Description: “Limits privileges to change information system components and system-related information within a production or operational environment; and”
Description: “Reviews and reevaluates privileges [Assignment: organization-defined frequency].”
CM-5 (6)¶
CM-5 (6) : LIMIT LIBRARY PRIVILEGES
Priority:
Baseline-Impact:
Description: “The organization limits privileges to change software resident within software libraries.” Supplemental Guidance: “Software libraries include privileged programs.”
Related Controls:AC-2
CM-5 (7)¶
CM-5 (7) : AUTOMATIC IMPLEMENTATION OF SECURITY SAFEGUARDS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-7].” Supplemental Guidance:
Related Controls: .. _header_CM-6:
CM-6¶
Control Family: CONFIGURATION MANAGEMENT
CM-6¶
CM-6 : CONFIGURATION SETTINGS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Configuration settings are the set of parameters that can be changed in hardware, software, or firmware components of the information system that affect the security posture and/or functionality of the system. Information technology products for which security-related configuration settings can be defined include, for example, mainframe computers, servers (e.g., database, electronic mail, authentication, web, proxy, file, domain name), workstations, input/output devices (e.g., scanners, copiers, and printers), network components (e.g., firewalls, routers, gateways, voice and data switches, wireless access points, network appliances, sensors), operating systems, middleware, and applications. Security-related parameters are those parameters impacting the security state of information systems including the parameters required to satisfy other security control requirements. Security-related parameters include, for example: (i) registry settings; (ii) account, file, directory permission settings; and (iii) settings for functions, ports, protocols, services, and remote connections. Organizations establish organization-wide configuration settings and subsequently derive specific settings for information systems. The established settings become part of the systems configuration baseline. Common secure configurations (also referred to as security configuration checklists, lockdown and hardening guides, security reference guides, security technical implementation guides) provide recognized, standardized, and established benchmarks that stipulate secure configuration settings for specific information technology platforms/products and instructions for configuring those information system components to meet operational requirements. Common secure configurations can be developed by a variety of organizations including, for example, information technology product developers, manufacturers, vendors, consortia, academia, industry, federal agencies, and other organizations in the public and private sectors. Common secure configurations include the United States Government Configuration Baseline (USGCB) which affects the implementation of CM-6 and other controls such as AC-19 and CM-7. The Security Content Automation Protocol (SCAP) and the defined standards within the protocol (e.g., Common Configuration Enumeration) provide an effective method to uniquely identify, track, and control configuration settings. OMB establishes federal policy on configuration requirements for federal information systems.”
Related Controls:AC-19,CM-2,CM-3,CM-7,SI-4
Description: “Establishes and documents configuration settings for information technology products employed within the information system using [Assignment: organization-defined security configuration checklists] that reflect the most restrictive mode consistent with operational requirements;”
Description: “Implements the configuration settings;”
Description: “Identifies, documents, and approves any deviations from established configuration settings for [Assignment: organization-defined information system components] based on [Assignment: organization-defined operational requirements]; and”
Description: “Monitors and controls changes to the configuration settings in accordance with organizational policies and procedures.”
CM-6 (1)¶
CM-6 (1) : AUTOMATED CENTRAL MANAGEMENT / APPLICATION / VERIFICATION
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to centrally manage, apply, and verify configuration settings for [Assignment: organization-defined information system components].” Supplemental Guidance:
Related Controls:CA-7,CM-4
CM-6 (2)¶
CM-6 (2) : RESPOND TO UNAUTHORIZED CHANGES
Priority:
Baseline-Impact: HIGH
Description: “The organization employs [Assignment: organization-defined security safeguards] to respond to unauthorized changes to [Assignment: organization-defined configuration settings].” Supplemental Guidance: “Responses to unauthorized changes to configuration settings can include, for example, alerting designated organizational personnel, restoring established configuration settings, or in extreme cases, halting affected information system processing.”
Related Controls:IR-4,SI-7
CM-6 (3)¶
CM-6 (3) : UNAUTHORIZED CHANGE DETECTION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-7].” Supplemental Guidance:
Related Controls:
CM-6 (4)¶
CM-6 (4) : CONFORMANCE DEMONSTRATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CM-4].” Supplemental Guidance:
Related Controls: .. _header_CM-7:
CM-7¶
Control Family: CONFIGURATION MANAGEMENT
CM-7¶
CM-7 : LEAST FUNCTIONALITY
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Information systems can provide a wide variety of functions and services. Some of the functions and services, provided by default, may not be necessary to support essential organizational operations (e.g., key missions, functions). Additionally, it is sometimes convenient to provide multiple services from single information system components, but doing so increases risk over limiting the services provided by any one component. Where feasible, organizations limit component functionality to a single function per device (e.g., email servers or web servers, but not both). Organizations review functions and services provided by information systems or individual components of information systems, to determine which functions and services are candidates for elimination (e.g., Voice Over Internet Protocol, Instant Messaging, auto-execute, and file sharing). Organizations consider disabling unused or unnecessary physical and logical ports/protocols (e.g., Universal Serial Bus, File Transfer Protocol, and Hyper Text Transfer Protocol) on information systems to prevent unauthorized connection of devices, unauthorized transfer of information, or unauthorized tunneling. Organizations can utilize network scanning tools, intrusion detection and prevention systems, and end-point protections such as firewalls and host-based intrusion detection systems to identify and prevent the use of prohibited functions, ports, protocols, and services.”
Related Controls:AC-6,CM-2,RA-5,SA-5,SC-7
Description: “Configures the information system to provide only essential capabilities; and”
Description: “Prohibits or restricts the use of the following functions, ports, protocols, and/or services: [Assignment: organization-defined prohibited or restricted functions, ports, protocols, and/or services].”
CM-7 (1)¶
CM-7 (1) : PERIODIC REVIEW
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “The organization can either make a determination of the relative security of the function, port, protocol, and/or service or base the security decision on the assessment of other entities. Bluetooth, FTP, and peer-to-peer networking are examples of less than secure protocols.”
Related Controls:AC-18,CM-7,IA-2
Description: “Reviews the information system [Assignment: organization-defined frequency] to identify unnecessary and/or nonsecure functions, ports, protocols, and services; and”
Description: “Disables [Assignment: organization-defined functions, ports, protocols, and services within the information system deemed to be unnecessary and/or nonsecure].”
CM-7 (2)¶
CM-7 (2) : PREVENT PROGRAM EXECUTION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system prevents program execution in accordance with [Selection (one or more): [Assignment: organization-defined policies regarding software program usage and restrictions]; rules authorizing the terms and conditions of software program usage].” Supplemental Guidance:
Related Controls:CM-8,PM-5
CM-7 (3)¶
CM-7 (3) : REGISTRATION COMPLIANCE
Priority:
Baseline-Impact:
Description: “The organization ensures compliance with [Assignment: organization-defined registration requirements for functions, ports, protocols, and services].” Supplemental Guidance: “Organizations use the registration process to manage, track, and provide oversight for information systems and implemented functions, ports, protocols, and services.”
Related Controls:
CM-7 (4)¶
CM-7 (4) : UNAUTHORIZED SOFTWARE / BLACKLISTING
Priority:
Baseline-Impact: MODERATE
Description: “The organization:” Supplemental Guidance: “The process used to identify software programs that are not authorized to execute on organizational information systems is commonly referred to as blacklisting. Organizations can implement CM-7 (5) instead of this control enhancement if whitelisting (the stronger of the two policies) is the preferred approach for restricting software program execution.”
Related Controls:CM-6,CM-8,PM-5
Description: “Identifies [Assignment: organization-defined software programs not authorized to execute on the information system];”
Description: “Employs an allow-all, deny-by-exception policy to prohibit the execution of unauthorized software programs on the information system; and”
Description: “Reviews and updates the list of unauthorized software programs [Assignment: organization-defined frequency].”
CM-7 (5)¶
CM-7 (5) : AUTHORIZED SOFTWARE / WHITELISTING
Priority:
Baseline-Impact: HIGH
Description: “The organization:” Supplemental Guidance: “The process used to identify software programs that are authorized to execute on organizational information systems is commonly referred to as whitelisting. In addition to whitelisting, organizations consider verifying the integrity of white-listed software programs using, for example, cryptographic checksums, digital signatures, or hash functions. Verification of white-listed software can occur either prior to execution or at system startup.”
Related Controls:CM-2,CM-6,CM-8,PM-5,SA-10,SC-34,SI-7
Description: “Identifies [Assignment: organization-defined software programs authorized to execute on the information system];”
Description: “Employs a deny-all, permit-by-exception policy to allow the execution of authorized software programs on the information system; and”
Description: “Reviews and updates the list of authorized software programs [Assignment: organization-defined frequency].” .. _header_CM-8:
CM-8¶
Control Family: CONFIGURATION MANAGEMENT
CM-8¶
CM-8 : INFORMATION SYSTEM COMPONENT INVENTORY
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Organizations may choose to implement centralized information system component inventories that include components from all organizational information systems. In such situations, organizations ensure that the resulting inventories include system-specific information required for proper component accountability (e.g., information system association, information system owner). Information deemed necessary for effective accountability of information system components includes, for example, hardware inventory specifications, software license information, software version numbers, component owners, and for networked components or devices, machine names and network addresses. Inventory specifications include, for example, manufacturer, device type, model, serial number, and physical location.”
Related Controls:CM-2,CM-6,PM-5
Description: “Develops and documents an inventory of information system components that:”
Description: “Accurately reflects the current information system;”
Description: “Includes all components within the authorization boundary of the information system;”
Description: “Is at the level of granularity deemed necessary for tracking and reporting; and”
Description: “Includes [Assignment: organization-defined information deemed necessary to achieve effective information system component accountability]; and”
Description: “Reviews and updates the information system component inventory [Assignment: organization-defined frequency].”
CM-8 (1)¶
CM-8 (1) : UPDATES DURING INSTALLATIONS / REMOVALS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization updates the inventory of information system components as an integral part of component installations, removals, and information system updates.” Supplemental Guidance:
Related Controls:
CM-8 (2)¶
CM-8 (2) : AUTOMATED MAINTENANCE
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to help maintain an up-to-date, complete, accurate, and readily available inventory of information system components.” Supplemental Guidance: “Organizations maintain information system inventories to the extent feasible. Virtual machines, for example, can be difficult to monitor because such machines are not visible to the network when not in use. In such cases, organizations maintain as up-to-date, complete, and accurate an inventory as is deemed reasonable. This control enhancement can be satisfied by the implementation of CM-2 (2) for organizations that choose to combine information system component inventory and baseline configuration activities.”
Related Controls:SI-7
CM-8 (3)¶
CM-8 (3) : AUTOMATED UNAUTHORIZED COMPONENT DETECTION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control enhancement is applied in addition to the monitoring for unauthorized remote connections and mobile devices. Monitoring for unauthorized system components may be accomplished on an ongoing basis or by the periodic scanning of systems for that purpose. Automated mechanisms can be implemented within information systems or in other separate devices. Isolation can be achieved, for example, by placing unauthorized information system components in separate domains or subnets or otherwise quarantining such components. This type of component isolation is commonly referred to as sandboxing.”
Related Controls:AC-17,AC-18,AC-19,CA-7,SI-3,SI-4,SI-7,RA-5
Description: “Employs automated mechanisms [Assignment: organization-defined frequency] to detect the presence of unauthorized hardware, software, and firmware components within the information system; and”
Description: “Takes the following actions when unauthorized components are detected: [Selection (one or more): disables network access by such components; isolates the components; notifies [Assignment: organization-defined personnel or roles]].”
CM-8 (4)¶
CM-8 (4) : ACCOUNTABILITY INFORMATION
Priority:
Baseline-Impact: HIGH
Description: “The organization includes in the information system component inventory information, a means for identifying by [Selection (one or more): name; position; role], individuals responsible/accountable for administering those components.” Supplemental Guidance: “Identifying individuals who are both responsible and accountable for administering information system components helps to ensure that the assigned components are properly administered and organizations can contact those individuals if some action is required (e.g., component is determined to be the source of a breach/compromise, component needs to be recalled/replaced, or component needs to be relocated).”
Related Controls:
CM-8 (5)¶
CM-8 (5) : NO DUPLICATE ACCOUNTING OF COMPONENTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization verifies that all components within the authorization boundary of the information system are not duplicated in other information system component inventories.” Supplemental Guidance: “This control enhancement addresses the potential problem of duplicate accounting of information system components in large or complex interconnected systems.”
Related Controls:
CM-8 (6)¶
CM-8 (6) : ASSESSED CONFIGURATIONS / APPROVED DEVIATIONS
Priority:
Baseline-Impact:
Description: “The organization includes assessed component configurations and any approved deviations to current deployed configurations in the information system component inventory.” Supplemental Guidance: “This control enhancement focuses on configuration settings established by organizations for information system components, the specific components that have been assessed to determine compliance with the required configuration settings, and any approved deviations from established configuration settings.”
Related Controls:CM-2,CM-6
CM-8 (7)¶
CM-8 (7) : CENTRALIZED REPOSITORY
Priority:
Baseline-Impact:
Description: “The organization provides a centralized repository for the inventory of information system components.” Supplemental Guidance: “Organizations may choose to implement centralized information system component inventories that include components from all organizational information systems. Centralized repositories of information system component inventories provide opportunities for efficiencies in accounting for organizational hardware, software, and firmware assets. Such repositories may also help organizations rapidly identify the location and responsible individuals of system components that have been compromised, breached, or are otherwise in need of mitigation actions. Organizations ensure that the resulting centralized inventories include system-specific information required for proper component accountability (e.g., information system association, information system owner).”
Related Controls:
CM-8 (8)¶
CM-8 (8) : AUTOMATED LOCATION TRACKING
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to support tracking of information system components by geographic location.” Supplemental Guidance: “The use of automated mechanisms to track the location of information system components can increase the accuracy of component inventories. Such capability may also help organizations rapidly identify the location and responsible individuals of system components that have been compromised, breached, or are otherwise in need of mitigation actions.”
Related Controls:
CM-8 (9)¶
CM-8 (9) : ASSIGNMENT OF COMPONENTS TO SYSTEMS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Organizations determine the criteria for or types of information system components (e.g., microprocessors, motherboards, software, programmable logic controllers, and network devices) that are subject to this control enhancement.”
Related Controls:SA-4
Description: “Assigns [Assignment: organization-defined acquired information system components] to an information system; and”
Description: “Receives an acknowledgement from the information system owner of this assignment.” .. _header_CM-9:
CM-9¶
Control Family: CONFIGURATION MANAGEMENT
CM-9¶
CM-9 : CONFIGURATION MANAGEMENT PLAN
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization develops, documents, and implements a configuration management plan for the information system that:” Supplemental Guidance: “Configuration management plans satisfy the requirements in configuration management policies while being tailored to individual information systems. Such plans define detailed processes and procedures for how configuration management is used to support system development life cycle activities at the information system level. Configuration management plans are typically developed during the development/acquisition phase of the system development life cycle. The plans describe how to move changes through change management processes, how to update configuration settings and baselines, how to maintain information system component inventories, how to control development, test, and operational environments, and how to develop, release, and update key documents. Organizations can employ templates to help ensure consistent and timely development and implementation of configuration management plans. Such templates can represent a master configuration management plan for the organization at large with subsets of the plan implemented on a system by system basis. Configuration management approval processes include designation of key management stakeholders responsible for reviewing and approving proposed changes to information systems, and personnel that conduct security impact analyses prior to the implementation of changes to the systems. Configuration items are the information system items (hardware, software, firmware, and documentation) to be configuration-managed. As information systems continue through the system development life cycle, new configuration items may be identified and some existing configuration items may no longer need to be under configuration control.”
Related Controls:CM-2,CM-3,CM-4,CM-5,CM-8,SA-10
Description: “Addresses roles, responsibilities, and configuration management processes and procedures;”
Description: “Establishes a process for identifying configuration items throughout the system development life cycle and for managing the configuration of the configuration items;”
Description: “Defines the configuration items for the information system and places the configuration items under configuration management; and”
Description: “Protects the configuration management plan from unauthorized disclosure and modification.”
CM-9 (1)¶
CM-9 (1) : ASSIGNMENT OF RESPONSIBILITY
Priority:
Baseline-Impact:
Description: “The organization assigns responsibility for developing the configuration management process to organizational personnel that are not directly involved in information system development.” Supplemental Guidance: “In the absence of dedicated configuration management teams assigned within organizations, system developers may be tasked to develop configuration management processes using personnel who are not directly involved in system development or integration. This separation of duties ensures that organizations establish and maintain a sufficient degree of independence between the information system development and integration processes and configuration management processes to facilitate quality control and more effective oversight.”
Related Controls: .. _header_CM-10:
CM-10¶
Control Family: CONFIGURATION MANAGEMENT
CM-10¶
CM-10 : SOFTWARE USAGE RESTRICTIONS
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Software license tracking can be accomplished by manual methods (e.g., simple spreadsheets) or automated methods (e.g., specialized tracking applications) depending on organizational needs.”
Related Controls:AC-17,CM-8,SC-7
Description: “Uses software and associated documentation in accordance with contract agreements and copyright laws;”
Description: “Tracks the use of software and associated documentation protected by quantity licenses to control copying and distribution; and”
Description: “Controls and documents the use of peer-to-peer file sharing technology to ensure that this capability is not used for the unauthorized distribution, display, performance, or reproduction of copyrighted work.”
CM-10 (1)¶
CM-10 (1) : OPEN SOURCE SOFTWARE
Priority:
Baseline-Impact:
Description: “The organization establishes the following restrictions on the use of open source software: [Assignment: organization-defined restrictions].” Supplemental Guidance: “Open source software refers to software that is available in source code form. Certain software rights normally reserved for copyright holders are routinely provided under software license agreements that permit individuals to study, change, and improve the software. From a security perspective, the major advantage of open source software is that it provides organizations with the ability to examine the source code. However, there are also various licensing issues associated with open source software including, for example, the constraints on derivative use of such software.”
Related Controls: .. _header_CM-11:
CM-11¶
Control Family: CONFIGURATION MANAGEMENT
CM-11¶
CM-11 : USER-INSTALLED SOFTWARE
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “If provided the necessary privileges, users have the ability to install software in organizational information systems. To maintain control over the types of software installed, organizations identify permitted and prohibited actions regarding software installation. Permitted software installations may include, for example, updates and security patches to existing software and downloading applications from organization-approved �app stores.� Prohibited software installations may include, for example, software with unknown or suspect pedigrees or software that organizations consider potentially malicious. The policies organizations select governing user-installed software may be organization-developed or provided by some external entity. Policy enforcement methods include procedural methods (e.g., periodic examination of user accounts), automated methods (e.g., configuration settings implemented on organizational information systems), or both.”
Related Controls:AC-3,CM-2,CM-3,CM-5,CM-6,CM-7,PL-4
Description: “Establishes [Assignment: organization-defined policies] governing the installation of software by users;”
Description: “Enforces software installation policies through [Assignment: organization-defined methods]; and”
Description: “Monitors policy compliance at [Assignment: organization-defined frequency].”
CM-11 (1)¶
CM-11 (1) : ALERTS FOR UNAUTHORIZED INSTALLATIONS
Priority:
Baseline-Impact:
Description: “The information system alerts [Assignment: organization-defined personnel or roles] when the unauthorized installation of software is detected.” Supplemental Guidance:
Related Controls:CA-7,SI-4
CM-11 (2)¶
CM-11 (2) : PROHIBIT INSTALLATION WITHOUT PRIVILEGED STATUS
Priority:
Baseline-Impact:
Description: “The information system prohibits user installation of software without explicit privileged status.” Supplemental Guidance: “Privileged status can be obtained, for example, by serving in the role of system administrator.”
Related Controls:AC-6 .. _header_CP-1:
CP-1¶
Control Family: CONTINGENCY PLANNING
CP-1¶
CP-1 : CONTINGENCY PLANNING POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the CP family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A contingency planning policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the contingency planning policy and associated contingency planning controls; and”
Description: “Reviews and updates the current:”
Description: “Contingency planning policy [Assignment: organization-defined frequency]; and”
Description: “Contingency planning procedures [Assignment: organization-defined frequency].” .. _header_CP-2:
CP-2¶
Control Family: CONTINGENCY PLANNING
CP-2¶
CP-2 : CONTINGENCY PLAN
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Contingency planning for information systems is part of an overall organizational program for achieving continuity of operations for mission/business functions. Contingency planning addresses both information system restoration and implementation of alternative mission/business processes when systems are compromised. The effectiveness of contingency planning is maximized by considering such planning throughout the phases of the system development life cycle. Performing contingency planning on hardware, software, and firmware development can be an effective means of achieving information system resiliency. Contingency plans reflect the degree of restoration required for organizational information systems since not all systems may need to fully recover to achieve the level of continuity of operations desired. Information system recovery objectives reflect applicable laws, Executive Orders, directives, policies, standards, regulations, and guidelines. In addition to information system availability, contingency plans also address other security-related events resulting in a reduction in mission and/or business effectiveness, such as malicious attacks compromising the confidentiality or integrity of information systems. Actions addressed in contingency plans include, for example, orderly/graceful degradation, information system shutdown, fallback to a manual mode, alternate information flows, and operating in modes reserved for when systems are under attack. By closely coordinating contingency planning with incident handling activities, organizations can ensure that the necessary contingency planning activities are in place and activated in the event of a security incident.”
Related Controls:AC-14,CP-6,CP-7,CP-8,CP-9,CP-10,IR-4,IR-8,MP-2,MP-4,MP-5,PM-8,PM-11
Description: “Develops a contingency plan for the information system that:”
Description: “Identifies essential missions and business functions and associated contingency requirements;”
Description: “Provides recovery objectives, restoration priorities, and metrics;”
Description: “Addresses contingency roles, responsibilities, assigned individuals with contact information;”
Description: “Addresses maintaining essential missions and business functions despite an information system disruption, compromise, or failure;”
Description: “Addresses eventual, full information system restoration without deterioration of the security safeguards originally planned and implemented; and”
Description: “Is reviewed and approved by [Assignment: organization-defined personnel or roles];”
Description: “Distributes copies of the contingency plan to [Assignment: organization-defined key contingency personnel (identified by name and/or by role) and organizational elements];”
Description: “Coordinates contingency planning activities with incident handling activities;”
Description: “Reviews the contingency plan for the information system [Assignment: organization-defined frequency];”
Description: “Updates the contingency plan to address changes to the organization, information system, or environment of operation and problems encountered during contingency plan implementation, execution, or testing;”
Description: “Communicates contingency plan changes to [Assignment: organization-defined key contingency personnel (identified by name and/or by role) and organizational elements]; and”
Description: “Protects the contingency plan from unauthorized disclosure and modification.”
CP-2 (1)¶
CP-2 (1) : COORDINATE WITH RELATED PLANS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization coordinates contingency plan development with organizational elements responsible for related plans.” Supplemental Guidance: “Plans related to contingency plans for organizational information systems include, for example, Business Continuity Plans, Disaster Recovery Plans, Continuity of Operations Plans, Crisis Communications Plans, Critical Infrastructure Plans, Cyber Incident Response Plans, Insider Threat Implementation Plan, and Occupant Emergency Plans.”
Related Controls:
CP-2 (2)¶
CP-2 (2) : CAPACITY PLANNING
Priority:
Baseline-Impact: HIGH
Description: “The organization conducts capacity planning so that necessary capacity for information processing, telecommunications, and environmental support exists during contingency operations.” Supplemental Guidance: “Capacity planning is needed because different types of threats (e.g., natural disasters, targeted cyber attacks) can result in a reduction of the available processing, telecommunications, and support services originally intended to support the organizational missions/business functions. Organizations may need to anticipate degraded operations during contingency operations and factor such degradation into capacity planning.”
Related Controls:
CP-2 (3)¶
CP-2 (3) : RESUME ESSENTIAL MISSIONS / BUSINESS FUNCTIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization plans for the resumption of essential missions and business functions within [Assignment: organization-defined time period] of contingency plan activation.” Supplemental Guidance: “Organizations may choose to carry out the contingency planning activities in this control enhancement as part of organizational business continuity planning including, for example, as part of business impact analyses. The time period for resumption of essential missions/business functions may be dependent on the severity/extent of disruptions to the information system and its supporting infrastructure.”
Related Controls:PE-12
CP-2 (4)¶
CP-2 (4) : RESUME ALL MISSIONS / BUSINESS FUNCTIONS
Priority:
Baseline-Impact: HIGH
Description: “The organization plans for the resumption of all missions and business functions within [Assignment: organization-defined time period] of contingency plan activation.” Supplemental Guidance: “Organizations may choose to carry out the contingency planning activities in this control enhancement as part of organizational business continuity planning including, for example, as part of business impact analyses. The time period for resumption of all missions/business functions may be dependent on the severity/extent of disruptions to the information system and its supporting infrastructure.”
Related Controls:PE-12
CP-2 (5)¶
CP-2 (5) : CONTINUE ESSENTIAL MISSIONS / BUSINESS FUNCTIONS
Priority:
Baseline-Impact: HIGH
Description: “The organization plans for the continuance of essential missions and business functions with little or no loss of operational continuity and sustains that continuity until full information system restoration at primary processing and/or storage sites.” Supplemental Guidance: “Organizations may choose to carry out the contingency planning activities in this control enhancement as part of organizational business continuity planning including, for example, as part of business impact analyses. Primary processing and/or storage sites defined by organizations as part of contingency planning may change depending on the circumstances associated with the contingency (e.g., backup sites may become primary sites).”
Related Controls:PE-12
CP-2 (6)¶
CP-2 (6) : ALTERNATE PROCESSING / STORAGE SITE
Priority:
Baseline-Impact:
Description: “The organization plans for the transfer of essential missions and business functions to alternate processing and/or storage sites with little or no loss of operational continuity and sustains that continuity through information system restoration to primary processing and/or storage sites.” Supplemental Guidance: “Organizations may choose to carry out the contingency planning activities in this control enhancement as part of organizational business continuity planning including, for example, as part of business impact analyses. Primary processing and/or storage sites defined by organizations as part of contingency planning may change depending on the circumstances associated with the contingency (e.g., backup sites may become primary sites).”
Related Controls:PE-12
CP-2 (7)¶
CP-2 (7) : COORDINATE WITH EXTERNAL SERVICE PROVIDERS
Priority:
Baseline-Impact:
Description: “The organization coordinates its contingency plan with the contingency plans of external service providers to ensure that contingency requirements can be satisfied.” Supplemental Guidance: “When the capability of an organization to successfully carry out its core missions/business functions is dependent on external service providers, developing a timely and comprehensive contingency plan may become more challenging. In this situation, organizations coordinate contingency planning activities with the external entities to ensure that the individual plans reflect the overall contingency needs of the organization.”
Related Controls:SA-9
CP-2 (8)¶
CP-2 (8) : IDENTIFY CRITICAL ASSETS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization identifies critical information system assets supporting essential missions and business functions.” Supplemental Guidance: “Organizations may choose to carry out the contingency planning activities in this control enhancement as part of organizational business continuity planning including, for example, as part of business impact analyses. Organizations identify critical information system assets so that additional safeguards and countermeasures can be employed (above and beyond those safeguards and countermeasures routinely implemented) to help ensure that organizational missions/business functions can continue to be conducted during contingency operations. In addition, the identification of critical information assets facilitates the prioritization of organizational resources. Critical information system assets include technical and operational aspects. Technical aspects include, for example, information technology services, information system components, information technology products, and mechanisms. Operational aspects include, for example, procedures (manually executed operations) and personnel (individuals operating technical safeguards and/or executing manual procedures). Organizational program protection plans can provide assistance in identifying critical assets.”
Related Controls:SA-14,SA-15 .. _header_CP-3:
CP-3¶
Control Family: CONTINGENCY PLANNING
CP-3¶
CP-3 : CONTINGENCY TRAINING
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization provides contingency training to information system users consistent with assigned roles and responsibilities:” Supplemental Guidance: “Contingency training provided by organizations is linked to the assigned roles and responsibilities of organizational personnel to ensure that the appropriate content and level of detail is included in such training. For example, regular users may only need to know when and where to report for duty during contingency operations and if normal duties are affected; system administrators may require additional training on how to set up information systems at alternate processing and storage sites; and managers/senior leaders may receive more specific training on how to conduct mission-essential functions in designated off-site locations and how to establish communications with other governmental entities for purposes of coordination on contingency-related activities. Training for contingency roles/responsibilities reflects the specific continuity requirements in the contingency plan.”
Related Controls:AT-2,AT-3,CP-2,IR-2
Description: “Within [Assignment: organization-defined time period] of assuming a contingency role or responsibility;”
Description: “When required by information system changes; and”
Description: “[Assignment: organization-defined frequency] thereafter.”
CP-3 (1)¶
CP-3 (1) : SIMULATED EVENTS
Priority:
Baseline-Impact: HIGH
Description: “The organization incorporates simulated events into contingency training to facilitate effective response by personnel in crisis situations.” Supplemental Guidance:
Related Controls:
CP-3 (2)¶
CP-3 (2) : AUTOMATED TRAINING ENVIRONMENTS
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to provide a more thorough and realistic contingency training environment.” Supplemental Guidance:
Related Controls: .. _header_CP-4:
CP-4¶
Control Family: CONTINGENCY PLANNING
CP-4¶
CP-4 : CONTINGENCY PLAN TESTING
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Methods for testing contingency plans to determine the effectiveness of the plans and to identify potential weaknesses in the plans include, for example, walk-through and tabletop exercises, checklists, simulations (parallel, full interrupt), and comprehensive exercises. Organizations conduct testing based on the continuity requirements in contingency plans and include a determination of the effects on organizational operations, assets, and individuals arising due to contingency operations. Organizations have flexibility and discretion in the breadth, depth, and timelines of corrective actions.”
Related Controls:CP-2,CP-3,IR-3
Description: “Tests the contingency plan for the information system [Assignment: organization-defined frequency] using [Assignment: organization-defined tests] to determine the effectiveness of the plan and the organizational readiness to execute the plan;”
Description: “Reviews the contingency plan test results; and”
Description: “Initiates corrective actions, if needed.”
CP-4 (1)¶
CP-4 (1) : COORDINATE WITH RELATED PLANS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization coordinates contingency plan testing with organizational elements responsible for related plans.” Supplemental Guidance: “Plans related to contingency plans for organizational information systems include, for example, Business Continuity Plans, Disaster Recovery Plans, Continuity of Operations Plans, Crisis Communications Plans, Critical Infrastructure Plans, Cyber Incident Response Plans, and Occupant Emergency Plans. This control enhancement does not require organizations to create organizational elements to handle related plans or to align such elements with specific plans. It does require, however, that if such organizational elements are responsible for related plans, organizations should coordinate with those elements.”
Related Controls:IR-8,PM-8
CP-4 (2)¶
CP-4 (2) : ALTERNATE PROCESSING SITE
Priority:
Baseline-Impact: HIGH
Description: “The organization tests the contingency plan at the alternate processing site:” Supplemental Guidance:
Related Controls:CP-7
Description: “To familiarize contingency personnel with the facility and available resources; and”
Description: “To evaluate the capabilities of the alternate processing site to support contingency operations.”
CP-4 (3)¶
CP-4 (3) : AUTOMATED TESTING
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to more thoroughly and effectively test the contingency plan.” Supplemental Guidance: “Automated mechanisms provide more thorough and effective testing of contingency plans, for example: (i) by providing more complete coverage of contingency issues; (ii) by selecting more realistic test scenarios and environments; and (iii) by effectively stressing the information system and supported missions.”
Related Controls:
CP-4 (4)¶
CP-4 (4) : FULL RECOVERY / RECONSTITUTION
Priority:
Baseline-Impact:
Description: “The organization includes a full recovery and reconstitution of the information system to a known state as part of contingency plan testing.” Supplemental Guidance:
Related Controls:CP-10,SC-24 .. _header_CP-5:
CP-5¶
Control Family: CONTINGENCY PLANNING
CP-5¶
CP-5 : CONTINGENCY PLAN UPDATE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CP-2].” Supplemental Guidance:
Related Controls:
CP-6¶
Control Family: CONTINGENCY PLANNING
CP-6¶
CP-6 : ALTERNATE STORAGE SITE
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Alternate storage sites are sites that are geographically distinct from primary storage sites. An alternate storage site maintains duplicate copies of information and data in the event that the primary storage site is not available. Items covered by alternate storage site agreements include, for example, environmental conditions at alternate sites, access rules, physical and environmental protection requirements, and coordination of delivery/retrieval of backup media. Alternate storage sites reflect the requirements in contingency plans so that organizations can maintain essential missions/business functions despite disruption, compromise, or failure in organizational information systems.”
Related Controls:CP-2,CP-7,CP-9,CP-10,MP-4
Description: “Establishes an alternate storage site including necessary agreements to permit the storage and retrieval of information system backup information; and”
Description: “Ensures that the alternate storage site provides information security safeguards equivalent to that of the primary site.”
CP-6 (1)¶
CP-6 (1) : SEPARATION FROM PRIMARY SITE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization identifies an alternate storage site that is separated from the primary storage site to reduce susceptibility to the same threats.” Supplemental Guidance: “Threats that affect alternate storage sites are typically defined in organizational assessments of risk and include, for example, natural disasters, structural failures, hostile cyber attacks, and errors of omission/commission. Organizations determine what is considered a sufficient degree of separation between primary and alternate storage sites based on the types of threats that are of concern. For one particular type of threat (i.e., hostile cyber attack), the degree of separation between sites is less relevant.”
Related Controls:RA-3
CP-6 (2)¶
CP-6 (2) : RECOVERY TIME / POINT OBJECTIVES
Priority:
Baseline-Impact: HIGH
Description: “The organization configures the alternate storage site to facilitate recovery operations in accordance with recovery time and recovery point objectives.” Supplemental Guidance:
Related Controls:
CP-6 (3)¶
CP-6 (3) : ACCESSIBILITY
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization identifies potential accessibility problems to the alternate storage site in the event of an area-wide disruption or disaster and outlines explicit mitigation actions.” Supplemental Guidance: “Area-wide disruptions refer to those types of disruptions that are broad in geographic scope (e.g., hurricane, regional power outage) with such determinations made by organizations based on organizational assessments of risk. Explicit mitigation actions include, for example: (i) duplicating backup information at other alternate storage sites if access problems occur at originally designated alternate sites; or (ii) planning for physical access to retrieve backup information if electronic accessibility to the alternate site is disrupted.”
Related Controls:RA-3 .. _header_CP-7:
CP-7¶
Control Family: CONTINGENCY PLANNING
CP-7¶
CP-7 : ALTERNATE PROCESSING SITE
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Alternate processing sites are sites that are geographically distinct from primary processing sites. An alternate processing site provides processing capability in the event that the primary processing site is not available. Items covered by alternate processing site agreements include, for example, environmental conditions at alternate sites, access rules, physical and environmental protection requirements, and coordination for the transfer/assignment of personnel. Requirements are specifically allocated to alternate processing sites that reflect the requirements in contingency plans to maintain essential missions/business functions despite disruption, compromise, or failure in organizational information systems.”
Related Controls:CP-2,CP-6,CP-8,CP-9,CP-10,MA-6
Description: “Establishes an alternate processing site including necessary agreements to permit the transfer and resumption of [Assignment: organization-defined information system operations] for essential missions/business functions within [Assignment: organization-defined time period consistent with recovery time and recovery point objectives] when the primary processing capabilities are unavailable;”
Description: “Ensures that equipment and supplies required to transfer and resume operations are available at the alternate processing site or contracts are in place to support delivery to the site within the organization-defined time period for transfer/resumption; and”
Description: “Ensures that the alternate processing site provides information security safeguards equivalent to those of the primary site.”
CP-7 (1)¶
CP-7 (1) : SEPARATION FROM PRIMARY SITE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization identifies an alternate processing site that is separated from the primary processing site to reduce susceptibility to the same threats.” Supplemental Guidance: “Threats that affect alternate processing sites are typically defined in organizational assessments of risk and include, for example, natural disasters, structural failures, hostile cyber attacks, and errors of omission/commission. Organizations determine what is considered a sufficient degree of separation between primary and alternate processing sites based on the types of threats that are of concern. For one particular type of threat (i.e., hostile cyber attack), the degree of separation between sites is less relevant.”
Related Controls:RA-3
CP-7 (2)¶
CP-7 (2) : ACCESSIBILITY
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization identifies potential accessibility problems to the alternate processing site in the event of an area-wide disruption or disaster and outlines explicit mitigation actions.” Supplemental Guidance: “Area-wide disruptions refer to those types of disruptions that are broad in geographic scope (e.g., hurricane, regional power outage) with such determinations made by organizations based on organizational assessments of risk.”
Related Controls:RA-3
CP-7 (3)¶
CP-7 (3) : PRIORITY OF SERVICE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization develops alternate processing site agreements that contain priority-of-service provisions in accordance with organizational availability requirements (including recovery time objectives).” Supplemental Guidance: “Priority-of-service agreements refer to negotiated agreements with service providers that ensure that organizations receive priority treatment consistent with their availability requirements and the availability of information resources at the alternate processing site.”
Related Controls:
CP-7 (4)¶
CP-7 (4) : PREPARATION FOR USE
Priority:
Baseline-Impact: HIGH
Description: “The organization prepares the alternate processing site so that the site is ready to be used as the operational site supporting essential missions and business functions.” Supplemental Guidance: “Site preparation includes, for example, establishing configuration settings for information system components at the alternate processing site consistent with the requirements for such settings at the primary site and ensuring that essential supplies and other logistical considerations are in place.”
Related Controls:CM-2,CM-6
CP-7 (5)¶
CP-7 (5) : EQUIVALENT INFORMATION SECURITY SAFEGUARDS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CP-7].” Supplemental Guidance:
Related Controls:
CP-7 (6)¶
CP-7 (6) : INABILITY TO RETURN TO PRIMARY SITE
Priority:
Baseline-Impact:
Description: “The organization plans and prepares for circumstances that preclude returning to the primary processing site.” Supplemental Guidance:
Related Controls: .. _header_CP-8:
CP-8¶
Control Family: CONTINGENCY PLANNING
CP-8¶
CP-8 : TELECOMMUNICATIONS SERVICES
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization establishes alternate telecommunications services including necessary agreements to permit the resumption of [Assignment: organization-defined information system operations] for essential missions and business functions within [Assignment: organization-defined time period] when the primary telecommunications capabilities are unavailable at either the primary or alternate processing or storage sites.” Supplemental Guidance: “This control applies to telecommunications services (data and voice) for primary and alternate processing and storage sites. Alternate telecommunications services reflect the continuity requirements in contingency plans to maintain essential missions/business functions despite the loss of primary telecommunications services. Organizations may specify different time periods for primary/alternate sites. Alternate telecommunications services include, for example, additional organizational or commercial ground-based circuits/lines or satellites in lieu of ground-based communications. Organizations consider factors such as availability, quality of service, and access when entering into alternate telecommunications agreements.”
Related Controls:CP-2,CP-6,CP-7
CP-8 (1)¶
CP-8 (1) : PRIORITY OF SERVICE PROVISIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Organizations consider the potential mission/business impact in situations where telecommunications service providers are servicing other organizations with similar priority-of-service provisions.”
Related Controls:
Description: “Develops primary and alternate telecommunications service agreements that contain priority-of-service provisions in accordance with organizational availability requirements (including recovery time objectives); and”
Description: “Requests Telecommunications Service Priority for all telecommunications services used for national security emergency preparedness in the event that the primary and/or alternate telecommunications services are provided by a common carrier.”
CP-8 (2)¶
CP-8 (2) : SINGLE POINTS OF FAILURE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization obtains alternate telecommunications services to reduce the likelihood of sharing a single point of failure with primary telecommunications services.” Supplemental Guidance:
Related Controls:
CP-8 (3)¶
CP-8 (3) : SEPARATION OF PRIMARY / ALTERNATE PROVIDERS
Priority:
Baseline-Impact: HIGH
Description: “The organization obtains alternate telecommunications services from providers that are separated from primary service providers to reduce susceptibility to the same threats.” Supplemental Guidance: “Threats that affect telecommunications services are typically defined in organizational assessments of risk and include, for example, natural disasters, structural failures, hostile cyber/physical attacks, and errors of omission/commission. Organizations seek to reduce common susceptibilities by, for example, minimizing shared infrastructure among telecommunications service providers and achieving sufficient geographic separation between services. Organizations may consider using a single service provider in situations where the service provider can provide alternate telecommunications services meeting the separation needs addressed in the risk assessment.”
Related Controls:
CP-8 (4)¶
CP-8 (4) : PROVIDER CONTINGENCY PLAN
Priority:
Baseline-Impact: HIGH
Description: “The organization:” Supplemental Guidance: “Reviews of provider contingency plans consider the proprietary nature of such plans. In some situations, a summary of provider contingency plans may be sufficient evidence for organizations to satisfy the review requirement. Telecommunications service providers may also participate in ongoing disaster recovery exercises in coordination with the Department of Homeland Security, state, and local governments. Organizations may use these types of activities to satisfy evidentiary requirements related to service provider contingency plan reviews, testing, and training.”
Related Controls:
Description: “Requires primary and alternate telecommunications service providers to have contingency plans;”
Description: “Reviews provider contingency plans to ensure that the plans meet organizational contingency requirements; and”
Description: “Obtains evidence of contingency testing/training by providers [Assignment: organization-defined frequency].”
CP-8 (5)¶
CP-8 (5) : ALTERNATE TELECOMMUNICATION SERVICE TESTING
Priority:
Baseline-Impact:
Description: “The organization tests alternate telecommunication services [Assignment: organization-defined frequency].” Supplemental Guidance:
Related Controls: .. _header_CP-9:
CP-9¶
Control Family: CONTINGENCY PLANNING
CP-9¶
CP-9 : INFORMATION SYSTEM BACKUP
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “System-level information includes, for example, system-state information, operating system and application software, and licenses. User-level information includes any information other than system-level information. Mechanisms employed by organizations to protect the integrity of information system backups include, for example, digital signatures and cryptographic hashes. Protection of system backup information while in transit is beyond the scope of this control. Information system backups reflect the requirements in contingency plans as well as other organizational requirements for backing up information.”
Related Controls:CP-2,CP-6,MP-4,MP-5,SC-13
Description: “Conducts backups of user-level information contained in the information system [Assignment: organization-defined frequency consistent with recovery time and recovery point objectives];”
Description: “Conducts backups of system-level information contained in the information system [Assignment: organization-defined frequency consistent with recovery time and recovery point objectives];”
Description: “Conducts backups of information system documentation including security-related documentation [Assignment: organization-defined frequency consistent with recovery time and recovery point objectives]; and”
Description: “Protects the confidentiality, integrity, and availability of backup information at storage locations.”
CP-9 (1)¶
CP-9 (1) : TESTING FOR RELIABILITY / INTEGRITY
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization tests backup information [Assignment: organization-defined frequency] to verify media reliability and information integrity.” Supplemental Guidance:
Related Controls:CP-4
CP-9 (2)¶
CP-9 (2) : TEST RESTORATION USING SAMPLING
Priority:
Baseline-Impact: HIGH
Description: “The organization uses a sample of backup information in the restoration of selected information system functions as part of contingency plan testing.” Supplemental Guidance:
Related Controls:CP-4
CP-9 (3)¶
CP-9 (3) : SEPARATE STORAGE FOR CRITICAL INFORMATION
Priority:
Baseline-Impact: HIGH
Description: “The organization stores backup copies of [Assignment: organization-defined critical information system software and other security-related information] in a separate facility or in a fire-rated container that is not collocated with the operational system.” Supplemental Guidance: “Critical information system software includes, for example, operating systems, cryptographic key management systems, and intrusion detection/prevention systems. Security-related information includes, for example, organizational inventories of hardware, software, and firmware components. Alternate storage sites typically serve as separate storage facilities for organizations.”
Related Controls:CM-2,CM-8
CP-9 (4)¶
CP-9 (4) : PROTECTION FROM UNAUTHORIZED MODIFICATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CP-9].” Supplemental Guidance:
Related Controls:
CP-9 (5)¶
CP-9 (5) : TRANSFER TO ALTERNATE STORAGE SITE
Priority:
Baseline-Impact: HIGH
Description: “The organization transfers information system backup information to the alternate storage site [Assignment: organization-defined time period and transfer rate consistent with the recovery time and recovery point objectives].” Supplemental Guidance: “Information system backup information can be transferred to alternate storage sites either electronically or by physical shipment of storage media.”
Related Controls:
CP-9 (6)¶
CP-9 (6) : REDUNDANT SECONDARY SYSTEM
Priority:
Baseline-Impact:
Description: “The organization accomplishes information system backup by maintaining a redundant secondary system that is not collocated with the primary system and that can be activated without loss of information or disruption to operations.” Supplemental Guidance:
Related Controls:CP-7,CP-10
CP-9 (7)¶
CP-9 (7) : DUAL AUTHORIZATION
Priority:
Baseline-Impact:
Description: “The organization enforces dual authorization for the deletion or destruction of [Assignment: organization-defined backup information].” Supplemental Guidance: “Dual authorization ensures that the deletion or destruction of backup information cannot occur unless two qualified individuals carry out the task. Individuals deleting/destroying backup information possess sufficient skills/expertise to determine if the proposed deletion/destruction of backup information reflects organizational policies and procedures. Dual authorization may also be known as two-person control.”
Related Controls:AC-3,MP-2 .. _header_CP-10:
CP-10¶
Control Family: CONTINGENCY PLANNING
CP-10¶
CP-10 : INFORMATION SYSTEM RECOVERY AND RECONSTITUTION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization provides for the recovery and reconstitution of the information system to a known state after a disruption, compromise, or failure.” Supplemental Guidance: “Recovery is executing information system contingency plan activities to restore organizational missions/business functions. Reconstitution takes place following recovery and includes activities for returning organizational information systems to fully operational states. Recovery and reconstitution operations reflect mission and business priorities, recovery point/time and reconstitution objectives, and established organizational metrics consistent with contingency plan requirements. Reconstitution includes the deactivation of any interim information system capabilities that may have been needed during recovery operations. Reconstitution also includes assessments of fully restored information system capabilities, reestablishment of continuous monitoring activities, potential information system reauthorizations, and activities to prepare the systems against future disruptions, compromises, or failures. Recovery/reconstitution capabilities employed by organizations can include both automated mechanisms and manual procedures.”
Related Controls:CA-2,CA-6,CA-7,CP-2,CP-6,CP-7,CP-9,SC-24
CP-10 (1)¶
CP-10 (1) : CONTINGENCY PLAN TESTING
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CP-4].” Supplemental Guidance:
Related Controls:
CP-10 (2)¶
CP-10 (2) : TRANSACTION RECOVERY
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements transaction recovery for systems that are transaction-based.” Supplemental Guidance: “Transaction-based information systems include, for example, database management systems and transaction processing systems. Mechanisms supporting transaction recovery include, for example, transaction rollback and transaction journaling.”
Related Controls:
CP-10 (3)¶
CP-10 (3) : COMPENSATING SECURITY CONTROLS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Addressed through tailoring procedures].” Supplemental Guidance:
Related Controls:
CP-10 (4)¶
CP-10 (4) : RESTORE WITHIN TIME PERIOD
Priority:
Baseline-Impact: HIGH
Description: “The organization provides the capability to restore information system components within [Assignment: organization-defined restoration time-periods] from configuration-controlled and integrity-protected information representing a known, operational state for the components.” Supplemental Guidance: “Restoration of information system components includes, for example, reimaging which restores components to known, operational states.”
Related Controls:CM-2
CP-10 (5)¶
CP-10 (5) : FAILOVER CAPABILITY
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-13].” Supplemental Guidance:
Related Controls:
CP-10 (6)¶
CP-10 (6) : COMPONENT PROTECTION
Priority:
Baseline-Impact:
Description: “The organization protects backup and restoration hardware, firmware, and software.” Supplemental Guidance: “Protection of backup and restoration hardware, firmware, and software components includes both physical and technical safeguards. Backup and restoration software includes, for example, router tables, compilers, and other security-relevant system software.”
Related Controls:AC-3,AC-6,PE-3 .. _header_CP-11:
CP-11¶
Control Family: CONTINGENCY PLANNING
CP-11¶
CP-11 : ALTERNATE COMMUNICATIONS PROTOCOLS
Priority: P0
Baseline-Impact:
Description: “The information system provides the capability to employ [Assignment: organization-defined alternative communications protocols] in support of maintaining continuity of operations.” Supplemental Guidance: “Contingency plans and the associated training and testing for those plans, incorporate an alternate communications protocol capability as part of increasing the resilience of organizational information systems. Alternate communications protocols include, for example, switching from Transmission Control Protocol/Internet Protocol (TCP/IP) Version 4 to TCP/IP Version 6. Switching communications protocols may affect software applications and therefore, the potential side effects of introducing alternate communications protocols are analyzed prior to implementation.”
Related Controls:
CP-12¶
Control Family: CONTINGENCY PLANNING
CP-12¶
CP-12 : SAFE MODE
Priority: P0
Baseline-Impact:
Description: “The information system, when [Assignment: organization-defined conditions] are detected, enters a safe mode of operation with [Assignment: organization-defined restrictions of safe mode of operation].” Supplemental Guidance: “For information systems supporting critical missions/business functions including, for example, military operations and weapons systems, civilian space operations, nuclear power plant operations, and air traffic control operations (especially real-time operational environments), organizations may choose to identify certain conditions under which those systems revert to a predefined safe mode of operation. The safe mode of operation, which can be activated automatically or manually, restricts the types of activities or operations information systems could execute when those conditions are encountered. Restriction includes, for example, allowing only certain functions that could be carried out under limited power or with reduced communications bandwidth.”
Related Controls:
CP-13¶
Control Family: CONTINGENCY PLANNING
CP-13¶
CP-13 : ALTERNATIVE SECURITY MECHANISMS
Priority: P0
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined alternative or supplemental security mechanisms] for satisfying [Assignment: organization-defined security functions] when the primary means of implementing the security function is unavailable or compromised.” Supplemental Guidance: “This control supports information system resiliency and contingency planning/continuity of operations. To ensure mission/business continuity, organizations can implement alternative or supplemental security mechanisms. These mechanisms may be less effective than the primary mechanisms (e.g., not as easy to use, not as scalable, or not as secure). However, having the capability to readily employ these alternative/supplemental mechanisms enhances overall mission/business continuity that might otherwise be adversely impacted if organizational operations had to be curtailed until the primary means of implementing the functions was restored. Given the cost and level of effort required to provide such alternative capabilities, this control would typically be applied only to critical security capabilities provided by information systems, system components, or information system services. For example, an organization may issue to senior executives and system administrators one-time pads in case multifactor tokens, the organization�s standard means for secure remote authentication, is compromised.”
Related Controls:CP-2
IA-1¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-1¶
IA-1 : IDENTIFICATION AND AUTHENTICATION POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the IA family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “An identification and authentication policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the identification and authentication policy and associated identification and authentication controls; and”
Description: “Reviews and updates the current:”
Description: “Identification and authentication policy [Assignment: organization-defined frequency]; and”
Description: “Identification and authentication procedures [Assignment: organization-defined frequency].” .. _header_IA-2:
IA-2¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-2¶
IA-2 : IDENTIFICATION AND AUTHENTICATION (ORGANIZATIONAL USERS)
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system uniquely identifies and authenticates organizational users (or processes acting on behalf of organizational users).” Supplemental Guidance: “Organizational users include employees or individuals that organizations deem to have equivalent status of employees (e.g., contractors, guest researchers). This control applies to all accesses other than: (i) accesses that are explicitly identified and documented in AC-14; and (ii) accesses that occur through authorized use of group authenticators without individual authentication. Organizations may require unique identification of individuals in group accounts (e.g., shared privilege accounts) or for detailed accountability of individual activity. Organizations employ passwords, tokens, or biometrics to authenticate user identities, or in the case multifactor authentication, or some combination thereof. Access to organizational information systems is defined as either local access or network access. Local access is any access to organizational information systems by users (or processes acting on behalf of users) where such access is obtained by direct connections without the use of networks. Network access is access to organizational information systems by users (or processes acting on behalf of users) where such access is obtained through network connections (i.e., nonlocal accesses). Remote access is a type of network access that involves communication through external networks (e.g., the Internet). Internal networks include local area networks and wide area networks. In addition, the use of encrypted virtual private networks (VPNs) for network connections between organization-controlled endpoints and non-organization controlled endpoints may be treated as internal networks from the perspective of protecting the confidentiality and integrity of information traversing the network. Organizations can satisfy the identification and authentication requirements in this control by complying with the requirements in Homeland Security Presidential Directive 12 consistent with the specific organizational implementation plans. Multifactor authentication requires the use of two or more different factors to achieve authentication. The factors are defined as: (i) something you know (e.g., password, personal identification number [PIN]); (ii) something you have (e.g., cryptographic identification device, token); or (iii) something you are (e.g., biometric). Multifactor solutions that require devices separate from information systems gaining access include, for example, hardware tokens providing time-based or challenge-response authenticators and smart cards such as the U.S. Government Personal Identity Verification card and the DoD common access card. In addition to identifying and authenticating users at the information system level (i.e., at logon), organizations also employ identification and authentication mechanisms at the application level, when necessary, to provide increased information security. Identification and authentication requirements for other than organizational users are described in IA-8.”
Related Controls:AC-2,AC-3,AC-14,AC-17,AC-18,IA-4,IA-5,IA-8
IA-2 (1)¶
IA-2 (1) : NETWORK ACCESS TO PRIVILEGED ACCOUNTS
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system implements multifactor authentication for network access to privileged accounts.” Supplemental Guidance:
Related Controls:AC-6
IA-2 (2)¶
IA-2 (2) : NETWORK ACCESS TO NON-PRIVILEGED ACCOUNTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements multifactor authentication for network access to non-privileged accounts.” Supplemental Guidance:
Related Controls:
IA-2 (3)¶
IA-2 (3) : LOCAL ACCESS TO PRIVILEGED ACCOUNTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements multifactor authentication for local access to privileged accounts.” Supplemental Guidance:
Related Controls:AC-6
IA-2 (4)¶
IA-2 (4) : LOCAL ACCESS TO NON-PRIVILEGED ACCOUNTS
Priority:
Baseline-Impact: HIGH
Description: “The information system implements multifactor authentication for local access to non-privileged accounts.” Supplemental Guidance:
Related Controls:
IA-2 (5)¶
IA-2 (5) : GROUP AUTHENTICATION
Priority:
Baseline-Impact:
Description: “The organization requires individuals to be authenticated with an individual authenticator when a group authenticator is employed.” Supplemental Guidance: “Requiring individuals to use individual authenticators as a second level of authentication helps organizations to mitigate the risk of using group authenticators.”
Related Controls:
IA-2 (6)¶
IA-2 (6) : NETWORK ACCESS TO PRIVILEGED ACCOUNTS - SEPARATE DEVICE
Priority:
Baseline-Impact:
Description: “The information system implements multifactor authentication for network access to privileged accounts such that one of the factors is provided by a device separate from the system gaining access and the device meets [Assignment: organization-defined strength of mechanism requirements].” Supplemental Guidance:
Related Controls:AC-6
IA-2 (7)¶
IA-2 (7) : NETWORK ACCESS TO NON-PRIVILEGED ACCOUNTS - SEPARATE DEVICE
Priority:
Baseline-Impact:
Description: “The information system implements multifactor authentication for network access to non-privileged accounts such that one of the factors is provided by a device separate from the system gaining access and the device meets [Assignment: organization-defined strength of mechanism requirements].” Supplemental Guidance:
Related Controls:
IA-2 (8)¶
IA-2 (8) : NETWORK ACCESS TO PRIVILEGED ACCOUNTS - REPLAY RESISTANT
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements replay-resistant authentication mechanisms for network access to privileged accounts.” Supplemental Guidance: “Authentication processes resist replay attacks if it is impractical to achieve successful authentications by replaying previous authentication messages. Replay-resistant techniques include, for example, protocols that use nonces or challenges such as Transport Layer Security (TLS) and time synchronous or challenge-response one-time authenticators.”
Related Controls:
IA-2 (9)¶
IA-2 (9) : NETWORK ACCESS TO NON-PRIVILEGED ACCOUNTS - REPLAY RESISTANT
Priority:
Baseline-Impact: HIGH
Description: “The information system implements replay-resistant authentication mechanisms for network access to non-privileged accounts.” Supplemental Guidance: “Authentication processes resist replay attacks if it is impractical to achieve successful authentications by recording/replaying previous authentication messages. Replay-resistant techniques include, for example, protocols that use nonces or challenges such as Transport Layer Security (TLS) and time synchronous or challenge-response one-time authenticators.”
Related Controls:
IA-2 (10)¶
IA-2 (10) : SINGLE SIGN-ON
Priority:
Baseline-Impact:
Description: “The information system provides a single sign-on capability for [Assignment: organization-defined information system accounts and services].” Supplemental Guidance: “Single sign-on enables users to log in once and gain access to multiple information system resources. Organizations consider the operational efficiencies provided by single sign-on capabilities with the increased risk from disclosures of single authenticators providing access to multiple system resources.”
Related Controls:
IA-2 (11)¶
IA-2 (11) : REMOTE ACCESS - SEPARATE DEVICE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements multifactor authentication for remote access to privileged and non-privileged accounts such that one of the factors is provided by a device separate from the system gaining access and the device meets [Assignment: organization-defined strength of mechanism requirements].” Supplemental Guidance: “For remote access to privileged/non-privileged accounts, the purpose of requiring a device that is separate from the information system gaining access for one of the factors during multifactor authentication is to reduce the likelihood of compromising authentication credentials stored on the system. For example, adversaries deploying malicious code on organizational information systems can potentially compromise such credentials resident on the system and subsequently impersonate authorized users.”
Related Controls:AC-6
IA-2 (12)¶
IA-2 (12) : ACCEPTANCE OF PIV CREDENTIALS
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system accepts and electronically verifies Personal Identity Verification (PIV) credentials.” Supplemental Guidance: “This control enhancement applies to organizations implementing logical access control systems (LACS) and physical access control systems (PACS). Personal Identity Verification (PIV) credentials are those credentials issued by federal agencies that conform to FIPS Publication 201 and supporting guidance documents. OMB Memorandum 11-11 requires federal agencies to continue implementing the requirements specified in HSPD-12 to enable agency-wide use of PIV credentials.”
Related Controls:AU-2,PE-3,SA-4
IA-2 (13)¶
IA-2 (13) : OUT-OF-BAND AUTHENTICATION
Priority:
Baseline-Impact:
Description: “The information system implements [Assignment: organization-defined out-of-band authentication] under [Assignment: organization-defined conditions].” Supplemental Guidance: “Out-of-band authentication (OOBA) refers to the use of two separate communication paths to identify and authenticate users or devices to an information system. The first path (i.e., the in-band path), is used to identify and authenticate users or devices, and generally is the path through which information flows. The second path (i.e., the out-of-band path) is used to independently verify the authentication and/or requested action. For example, a user authenticates via a notebook computer to a remote server to which the user desires access, and requests some action of the server via that communication path. Subsequently, the server contacts the user via the user�s cell phone to verify that the requested action originated from the user. The user may either confirm the intended action to an individual on the telephone or provide an authentication code via the telephone. This type of authentication can be employed by organizations to mitigate actual or suspected man-in the-middle attacks. The conditions for activation can include, for example, suspicious activities, new threat indicators or elevated threat levels, or the impact level or classification level of information in requested transactions.”
Related Controls:IA-10,IA-11,SC-37 .. _header_IA-3:
IA-3¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-3¶
IA-3 : DEVICE IDENTIFICATION AND AUTHENTICATION
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system uniquely identifies and authenticates [Assignment: organization-defined specific and/or types of devices] before establishing a [Selection (one or more): local; remote; network] connection.” Supplemental Guidance: “Organizational devices requiring unique device-to-device identification and authentication may be defined by type, by device, or by a combination of type/device. Information systems typically use either shared known information (e.g., Media Access Control [MAC] or Transmission Control Protocol/Internet Protocol [TCP/IP] addresses) for device identification or organizational authentication solutions (e.g., IEEE 802.1x and Extensible Authentication Protocol [EAP], Radius server with EAP-Transport Layer Security [TLS] authentication, Kerberos) to identify/authenticate devices on local and/or wide area networks. Organizations determine the required strength of authentication mechanisms by the security categories of information systems. Because of the challenges of applying this control on large scale, organizations are encouraged to only apply the control to those limited number (and type) of devices that truly need to support this capability.”
Related Controls:AC-17,AC-18,AC-19,CA-3,IA-4,IA-5
IA-3 (1)¶
IA-3 (1) : CRYPTOGRAPHIC BIDIRECTIONAL AUTHENTICATION
Priority:
Baseline-Impact:
Description: “The information system authenticates [Assignment: organization-defined specific devices and/or types of devices] before establishing [Selection (one or more): local; remote; network] connection using bidirectional authentication that is cryptographically based.” Supplemental Guidance: “A local connection is any connection with a device communicating without the use of a network. A network connection is any connection with a device that communicates through a network (e.g., local area or wide area network, Internet). A remote connection is any connection with a device communicating through an external network (e.g., the Internet). Bidirectional authentication provides stronger safeguards to validate the identity of other devices for connections that are of greater risk (e.g., remote connections).”
Related Controls:SC-8,SC-12,SC-13
IA-3 (2)¶
IA-3 (2) : CRYPTOGRAPHIC BIDIRECTIONAL NETWORK AUTHENTICATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into IA-3 (1)].” Supplemental Guidance:
Related Controls:
IA-3 (3)¶
IA-3 (3) : DYNAMIC ADDRESS ALLOCATION
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “DHCP-enabled clients obtaining leases for IP addresses from DHCP servers, is a typical example of dynamic address allocation for devices.”
Related Controls:AU-2,AU-3,AU-6,AU-12
Description: “Standardizes dynamic address allocation lease information and the lease duration assigned to devices in accordance with [Assignment: organization-defined lease information and lease duration]; and”
Description: “Audits lease information when assigned to a device.”
IA-3 (4)¶
IA-3 (4) : DEVICE ATTESTATION
Priority:
Baseline-Impact:
Description: “The organization ensures that device identification and authentication based on attestation is handled by [Assignment: organization-defined configuration management process].” Supplemental Guidance: “Device attestation refers to the identification and authentication of a device based on its configuration and known operating state. This might be determined via some cryptographic hash of the device. If device attestation is the means of identification and authentication, then it is important that patches and updates to the device are handled via a configuration management process such that the those patches/updates are done securely and at the same time do not disrupt the identification and authentication to other devices.”
Related Controls: .. _header_IA-4:
IA-4¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-4¶
IA-4 : IDENTIFIER MANAGEMENT
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization manages information system identifiers by:” Supplemental Guidance: “Common device identifiers include, for example, media access control (MAC), Internet protocol (IP) addresses, or device-unique token identifiers. Management of individual identifiers is not applicable to shared information system accounts (e.g., guest and anonymous accounts). Typically, individual identifiers are the user names of the information system accounts assigned to those individuals. In such instances, the account management activities of AC-2 use account names provided by IA-4. This control also addresses individual identifiers not necessarily associated with information system accounts (e.g., identifiers used in physical security control databases accessed by badge reader systems for access to information systems). Preventing reuse of identifiers implies preventing the assignment of previously used individual, group, role, or device identifiers to different individuals, groups, roles, or devices.”
Related Controls:AC-2,IA-2,IA-3,IA-5,IA-8,SC-37
Description: “Receiving authorization from [Assignment: organization-defined personnel or roles] to assign an individual, group, role, or device identifier;”
Description: “Selecting an identifier that identifies an individual, group, role, or device;”
Description: “Assigning the identifier to the intended individual, group, role, or device;”
Description: “Preventing reuse of identifiers for [Assignment: organization-defined time period]; and”
Description: “Disabling the identifier after [Assignment: organization-defined time period of inactivity].”
IA-4 (1)¶
IA-4 (1) : PROHIBIT ACCOUNT IDENTIFIERS AS PUBLIC IDENTIFIERS
Priority:
Baseline-Impact:
Description: “The organization prohibits the use of information system account identifiers that are the same as public identifiers for individual electronic mail accounts.” Supplemental Guidance: “Prohibiting the use of information systems account identifiers that are the same as some public identifier such as the individual identifier section of an electronic mail address, makes it more difficult for adversaries to guess user identifiers on organizational information systems.”
Related Controls:AT-2
IA-4 (2)¶
IA-4 (2) : SUPERVISOR AUTHORIZATION
Priority:
Baseline-Impact:
Description: “The organization requires that the registration process to receive an individual identifier includes supervisor authorization.” Supplemental Guidance:
Related Controls:
IA-4 (3)¶
IA-4 (3) : MULTIPLE FORMS OF CERTIFICATION
Priority:
Baseline-Impact:
Description: “The organization requires multiple forms of certification of individual identification be presented to the registration authority.” Supplemental Guidance: “Requiring multiple forms of identification, such as documentary evidence or a combination of documents and biometrics, reduces the likelihood of individuals using fraudulent identification to establish an identity, or at least increases the work factor of potential adversaries.”
Related Controls:
IA-4 (4)¶
IA-4 (4) : IDENTIFY USER STATUS
Priority:
Baseline-Impact:
Description: “The organization manages individual identifiers by uniquely identifying each individual as [Assignment: organization-defined characteristic identifying individual status].” Supplemental Guidance: “Characteristics identifying the status of individuals include, for example, contractors and foreign nationals. Identifying the status of individuals by specific characteristics provides additional information about the people with whom organizational personnel are communicating. For example, it might be useful for a government employee to know that one of the individuals on an email message is a contractor.”
Related Controls:AT-2
IA-4 (5)¶
IA-4 (5) : DYNAMIC MANAGEMENT
Priority:
Baseline-Impact:
Description: “The information system dynamically manages identifiers.” Supplemental Guidance: “In contrast to conventional approaches to identification which presume static accounts for preregistered users, many distributed information systems including, for example, service-oriented architectures, rely on establishing identifiers at run time for entities that were previously unknown. In these situations, organizations anticipate and provision for the dynamic establishment of identifiers. Preestablished trust relationships and mechanisms with appropriate authorities to validate identities and related credentials are essential.”
Related Controls:AC-16
IA-4 (6)¶
IA-4 (6) : CROSS-ORGANIZATION MANAGEMENT
Priority:
Baseline-Impact:
Description: “The organization coordinates with [Assignment: organization-defined external organizations] for cross-organization management of identifiers.” Supplemental Guidance: “Cross-organization identifier management provides the capability for organizations to appropriately identify individuals, groups, roles, or devices when conducting cross-organization activities involving the processing, storage, or transmission of information.”
Related Controls:
IA-4 (7)¶
IA-4 (7) : IN-PERSON REGISTRATION
Priority:
Baseline-Impact:
Description: “The organization requires that the registration process to receive an individual identifier be conducted in person before a designated registration authority.” Supplemental Guidance: “In-person registration reduces the likelihood of fraudulent identifiers being issued because it requires the physical presence of individuals and actual face-to-face interactions with designated registration authorities.”
Related Controls: .. _header_IA-5:
IA-5¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-5¶
IA-5 : AUTHENTICATOR MANAGEMENT
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization manages information system authenticators by:” Supplemental Guidance: “Individual authenticators include, for example, passwords, tokens, biometrics, PKI certificates, and key cards. Initial authenticator content is the actual content (e.g., the initial password) as opposed to requirements about authenticator content (e.g., minimum password length). In many cases, developers ship information system components with factory default authentication credentials to allow for initial installation and configuration. Default authentication credentials are often well known, easily discoverable, and present a significant security risk. The requirement to protect individual authenticators may be implemented via control PL-4 or PS-6 for authenticators in the possession of individuals and by controls AC-3, AC-6, and SC-28 for authenticators stored within organizational information systems (e.g., passwords stored in hashed or encrypted formats, files containing encrypted or hashed passwords accessible with administrator privileges). Information systems support individual authenticator management by organization-defined settings and restrictions for various authenticator characteristics including, for example, minimum password length, password composition, validation time window for time synchronous one-time tokens, and number of allowed rejections during the verification stage of biometric authentication. Specific actions that can be taken to safeguard authenticators include, for example, maintaining possession of individual authenticators, not loaning or sharing individual authenticators with others, and reporting lost, stolen, or compromised authenticators immediately. Authenticator management includes issuing and revoking, when no longer needed, authenticators for temporary access such as that required for remote maintenance. Device authenticators include, for example, certificates and passwords.”
Related Controls:AC-2,AC-3,AC-6,CM-6,IA-2,IA-4,IA-8,PL-4,PS-5,PS-6,SC-12,SC-13,SC-17,SC-28
Description: “Verifying, as part of the initial authenticator distribution, the identity of the individual, group, role, or device receiving the authenticator;”
Description: “Establishing initial authenticator content for authenticators defined by the organization;”
Description: “Ensuring that authenticators have sufficient strength of mechanism for their intended use;”
Description: “Establishing and implementing administrative procedures for initial authenticator distribution, for lost/compromised or damaged authenticators, and for revoking authenticators;”
Description: “Changing default content of authenticators prior to information system installation;”
Description: “Establishing minimum and maximum lifetime restrictions and reuse conditions for authenticators;”
Description: “Changing/refreshing authenticators [Assignment: organization-defined time period by authenticator type];”
Description: “Protecting authenticator content from unauthorized disclosure and modification;”
Description: “Requiring individuals to take, and having devices implement, specific security safeguards to protect authenticators; and”
Description: “Changing authenticators for group/role accounts when membership to those accounts changes.”
IA-5 (1)¶
IA-5 (1) : PASSWORD-BASED AUTHENTICATION
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system, for password-based authentication:” Supplemental Guidance: “This control enhancement applies to single-factor authentication of individuals using passwords as individual or group authenticators, and in a similar manner, when passwords are part of multifactor authenticators. This control enhancement does not apply when passwords are used to unlock hardware authenticators (e.g., Personal Identity Verification cards). The implementation of such password mechanisms may not meet all of the requirements in the enhancement. Cryptographically-protected passwords include, for example, encrypted versions of passwords and one-way cryptographic hashes of passwords. The number of changed characters refers to the number of changes required with respect to the total number of positions in the current password. Password lifetime restrictions do not apply to temporary passwords. To mitigate certain brute force attacks against passwords, organizations may also consider salting passwords.”
Related Controls:IA-6
Description: “Enforces minimum password complexity of [Assignment: organization-defined requirements for case sensitivity, number of characters, mix of upper-case letters, lower-case letters, numbers, and special characters, including minimum requirements for each type];”
Description: “Enforces at least the following number of changed characters when new passwords are created: [Assignment: organization-defined number];”
Description: “Stores and transmits only cryptographically-protected passwords;”
Description: “Enforces password minimum and maximum lifetime restrictions of [Assignment: organization-defined numbers for lifetime minimum, lifetime maximum];”
Description: “Prohibits password reuse for [Assignment: organization-defined number] generations; and”
Description: “Allows the use of a temporary password for system logons with an immediate change to a permanent password.”
IA-5 (2)¶
IA-5 (2) : PKI-BASED AUTHENTICATION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system, for PKI-based authentication:” Supplemental Guidance: “Status information for certification paths includes, for example, certificate revocation lists or certificate status protocol responses. For PIV cards, validation of certifications involves the construction and verification of a certification path to the Common Policy Root trust anchor including certificate policy processing.”
Related Controls:IA-6
Description: “Validates certifications by constructing and verifying a certification path to an accepted trust anchor including checking certificate status information;”
Description: “Enforces authorized access to the corresponding private key;”
Description: “Maps the authenticated identity to the account of the individual or group; and”
Description: “Implements a local cache of revocation data to support path discovery and validation in case of inability to access revocation information via the network.”
IA-5 (3)¶
IA-5 (3) : IN-PERSON OR TRUSTED THIRD-PARTY REGISTRATION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization requires that the registration process to receive [Assignment: organization-defined types of and/or specific authenticators] be conducted [Selection: in person; by a trusted third party] before [Assignment: organization-defined registration authority] with authorization by [Assignment: organization-defined personnel or roles].” Supplemental Guidance:
Related Controls:
IA-5 (4)¶
IA-5 (4) : AUTOMATED SUPPORT FOR PASSWORD STRENGTH DETERMINATION
Priority:
Baseline-Impact:
Description: “The organization employs automated tools to determine if password authenticators are sufficiently strong to satisfy [Assignment: organization-defined requirements].” Supplemental Guidance: “This control enhancement focuses on the creation of strong passwords and the characteristics of such passwords (e.g., complexity) prior to use, the enforcement of which is carried out by organizational information systems in IA-5 (1).”
Related Controls:CA-2,CA-7,RA-5
IA-5 (5)¶
IA-5 (5) : CHANGE AUTHENTICATORS PRIOR TO DELIVERY
Priority:
Baseline-Impact:
Description: “The organization requires developers/installers of information system components to provide unique authenticators or change default authenticators prior to delivery/installation.” Supplemental Guidance: “This control enhancement extends the requirement for organizations to change default authenticators upon information system installation, by requiring developers and/or installers to provide unique authenticators or change default authenticators for system components prior to delivery and/or installation. However, it typically does not apply to the developers of commercial off-the-shelve information technology products. Requirements for unique authenticators can be included in acquisition documents prepared by organizations when procuring information systems or system components.”
Related Controls:
IA-5 (6)¶
IA-5 (6) : PROTECTION OF AUTHENTICATORS
Priority:
Baseline-Impact:
Description: “The organization protects authenticators commensurate with the security category of the information to which use of the authenticator permits access.” Supplemental Guidance: “For information systems containing multiple security categories of information without reliable physical or logical separation between categories, authenticators used to grant access to the systems are protected commensurate with the highest security category of information on the systems.”
Related Controls:
IA-5 (7)¶
IA-5 (7) : NO EMBEDDED UNENCRYPTED STATIC AUTHENTICATORS
Priority:
Baseline-Impact:
Description: “The organization ensures that unencrypted static authenticators are not embedded in applications or access scripts or stored on function keys.” Supplemental Guidance: “Organizations exercise caution in determining whether embedded or stored authenticators are in encrypted or unencrypted form. If authenticators are used in the manner stored, then those representations are considered unencrypted authenticators. This is irrespective of whether that representation is perhaps an encrypted version of something else (e.g., a password).”
Related Controls:
IA-5 (8)¶
IA-5 (8) : MULTIPLE INFORMATION SYSTEM ACCOUNTS
Priority:
Baseline-Impact:
Description: “The organization implements [Assignment: organization-defined security safeguards] to manage the risk of compromise due to individuals having accounts on multiple information systems.” Supplemental Guidance: “When individuals have accounts on multiple information systems, there is the risk that the compromise of one account may lead to the compromise of other accounts if individuals use the same authenticators. Possible alternatives include, for example: (i) having different authenticators on all systems; (ii) employing some form of single sign-on mechanism; or (iii) including some form of one-time passwords on all systems.”
Related Controls:
IA-5 (9)¶
IA-5 (9) : CROSS-ORGANIZATION CREDENTIAL MANAGEMENT
Priority:
Baseline-Impact:
Description: “The organization coordinates with [Assignment: organization-defined external organizations] for cross-organization management of credentials.” Supplemental Guidance: “Cross-organization management of credentials provides the capability for organizations to appropriately authenticate individuals, groups, roles, or devices when conducting cross-organization activities involving the processing, storage, or transmission of information.”
Related Controls:
IA-5 (10)¶
IA-5 (10) : DYNAMIC CREDENTIAL ASSOCIATION
Priority:
Baseline-Impact:
Description: “The information system dynamically provisions identities.” Supplemental Guidance: “Authentication requires some form of binding between an identity and the authenticator used to confirm the identity. In conventional approaches, this binding is established by pre-provisioning both the identity and the authenticator to the information system. For example, the binding between a username (i.e., identity) and a password (i.e., authenticator) is accomplished by provisioning the identity and authenticator as a pair in the information system. New authentication techniques allow the binding between the identity and the authenticator to be implemented outside an information system. For example, with smartcard credentials, the identity and the authenticator are bound together on the card. Using these credentials, information systems can authenticate identities that have not been pre-provisioned, dynamically provisioning the identity after authentication. In these situations, organizations can anticipate the dynamic provisioning of identities. Preestablished trust relationships and mechanisms with appropriate authorities to validate identities and related credentials are essential.”
Related Controls:
IA-5 (11)¶
IA-5 (11) : HARDWARE TOKEN-BASED AUTHENTICATION
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system, for hardware token-based authentication, employs mechanisms that satisfy [Assignment: organization-defined token quality requirements].” Supplemental Guidance: “Hardware token-based authentication typically refers to the use of PKI-based tokens, such as the U.S. Government Personal Identity Verification (PIV) card. Organizations define specific requirements for tokens, such as working with a particular PKI.”
Related Controls:
IA-5 (12)¶
IA-5 (12) : BIOMETRIC-BASED AUTHENTICATION
Priority:
Baseline-Impact:
Description: “The information system, for biometric-based authentication, employs mechanisms that satisfy [Assignment: organization-defined biometric quality requirements].” Supplemental Guidance: “Unlike password-based authentication which provides exact matches of user-input passwords to stored passwords, biometric authentication does not provide such exact matches. Depending upon the type of biometric and the type of collection mechanism, there is likely to be some divergence from the presented biometric and stored biometric which serves as the basis of comparison. There will likely be both false positives and false negatives when making such comparisons. The rate at which the false accept and false reject rates are equal is known as the crossover rate. Biometric quality requirements include, for example, acceptable crossover rates, as that essentially reflects the accuracy of the biometric.”
Related Controls:
IA-5 (13)¶
IA-5 (13) : EXPIRATION OF CACHED AUTHENTICATORS
Priority:
Baseline-Impact:
Description: “The information system prohibits the use of cached authenticators after [Assignment: organization-defined time period].” Supplemental Guidance:
Related Controls:
IA-5 (14)¶
IA-5 (14) : MANAGING CONTENT OF PKI TRUST STORES
Priority:
Baseline-Impact:
Description: “The organization, for PKI-based authentication, employs a deliberate organization-wide methodology for managing the content of PKI trust stores installed across all platforms including networks, operating systems, browsers, and applications.” Supplemental Guidance:
Related Controls:
IA-5 (15)¶
IA-5 (15) : FICAM-APPROVED PRODUCTS AND SERVICES
Priority:
Baseline-Impact:
Description: “The organization uses only FICAM-approved path discovery and validation products and services.” Supplemental Guidance: “Federal Identity, Credential, and Access Management (FICAM)-approved path discovery and validation products and services are those products and services that have been approved through the FICAM conformance program, where applicable.”
Related Controls: .. _header_IA-6:
IA-6¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-6¶
IA-6 : AUTHENTICATOR FEEDBACK
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system obscures feedback of authentication information during the authentication process to protect the information from possible exploitation/use by unauthorized individuals.” Supplemental Guidance: “The feedback from information systems does not provide information that would allow unauthorized individuals to compromise authentication mechanisms. For some types of information systems or system components, for example, desktops/notebooks with relatively large monitors, the threat (often referred to as shoulder surfing) may be significant. For other types of systems or components, for example, mobile devices with 2-4 inch screens, this threat may be less significant, and may need to be balanced against the increased likelihood of typographic input errors due to the small keyboards. Therefore, the means for obscuring the authenticator feedback is selected accordingly. Obscuring the feedback of authentication information includes, for example, displaying asterisks when users type passwords into input devices, or displaying feedback for a very limited time before fully obscuring it.”
Related Controls:PE-18
IA-7¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-7¶
IA-7 : CRYPTOGRAPHIC MODULE AUTHENTICATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system implements mechanisms for authentication to a cryptographic module that meet the requirements of applicable federal laws, Executive Orders, directives, policies, regulations, standards, and guidance for such authentication.” Supplemental Guidance: “Authentication mechanisms may be required within a cryptographic module to authenticate an operator accessing the module and to verify that the operator is authorized to assume the requested role and perform services within that role.”
Related Controls:SC-12,SC-13
IA-8¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-8¶
IA-8 : IDENTIFICATION AND AUTHENTICATION (NON-ORGANIZATIONAL USERS)
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system uniquely identifies and authenticates non-organizational users (or processes acting on behalf of non-organizational users).” Supplemental Guidance: “Non-organizational users include information system users other than organizational users explicitly covered by IA-2. These individuals are uniquely identified and authenticated for accesses other than those accesses explicitly identified and documented in AC-14. In accordance with the E-Authentication E-Government initiative, authentication of non-organizational users accessing federal information systems may be required to protect federal, proprietary, or privacy-related information (with exceptions noted for national security systems). Organizations use risk assessments to determine authentication needs and consider scalability, practicality, and security in balancing the need to ensure ease of use for access to federal information and information systems with the need to protect and adequately mitigate risk. IA-2 addresses identification and authentication requirements for access to information systems by organizational users.”
Related Controls:AC-2,AC-14,AC-17,AC-18,IA-2,IA-4,IA-5,MA-4,RA-3,SA-12,SC-8
IA-8 (1)¶
IA-8 (1) : ACCEPTANCE OF PIV CREDENTIALS FROM OTHER AGENCIES
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system accepts and electronically verifies Personal Identity Verification (PIV) credentials from other federal agencies.” Supplemental Guidance: “This control enhancement applies to logical access control systems (LACS) and physical access control systems (PACS). Personal Identity Verification (PIV) credentials are those credentials issued by federal agencies that conform to FIPS Publication 201 and supporting guidance documents. OMB Memorandum 11-11 requires federal agencies to continue implementing the requirements specified in HSPD-12 to enable agency-wide use of PIV credentials.”
Related Controls:AU-2,PE-3,SA-4
IA-8 (2)¶
IA-8 (2) : ACCEPTANCE OF THIRD-PARTY CREDENTIALS
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system accepts only FICAM-approved third-party credentials.” Supplemental Guidance: “This control enhancement typically applies to organizational information systems that are accessible to the general public, for example, public-facing websites. Third-party credentials are those credentials issued by nonfederal government entities approved by the Federal Identity, Credential, and Access Management (FICAM) Trust Framework Solutions initiative. Approved third-party credentials meet or exceed the set of minimum federal government-wide technical, security, privacy, and organizational maturity requirements. This allows federal government relying parties to trust such credentials at their approved assurance levels.”
Related Controls:AU-2
IA-8 (3)¶
IA-8 (3) : USE OF FICAM-APPROVED PRODUCTS
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization employs only FICAM-approved information system components in [Assignment: organization-defined information systems] to accept third-party credentials.” Supplemental Guidance: “This control enhancement typically applies to information systems that are accessible to the general public, for example, public-facing websites. FICAM-approved information system components include, for example, information technology products and software libraries that have been approved by the Federal Identity, Credential, and Access Management conformance program.”
Related Controls:SA-4
IA-8 (4)¶
IA-8 (4) : USE OF FICAM-ISSUED PROFILES
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system conforms to FICAM-issued profiles.” Supplemental Guidance: “This control enhancement addresses open identity management standards. To ensure that these standards are viable, robust, reliable, sustainable (e.g., available in commercial information technology products), and interoperable as documented, the United States Government assesses and scopes identity management standards and technology implementations against applicable federal legislation, directives, policies, and requirements. The result is FICAM-issued implementation profiles of approved protocols (e.g., FICAM authentication protocols such as SAML 2.0 and OpenID 2.0, as well as other protocols such as the FICAM Backend Attribute Exchange).”
Related Controls:SA-4
IA-8 (5)¶
IA-8 (5) : ACCEPTANCE OF PIV-I CREDENTIALS
Priority:
Baseline-Impact:
Description: “The information system accepts and electronically verifies Personal Identity Verification-I (PIV-I) credentials.” Supplemental Guidance: “This control enhancement: (i) applies to logical and physical access control systems; and (ii) addresses Non-Federal Issuers (NFIs) of identity cards that desire to interoperate with United States Government Personal Identity Verification (PIV) information systems and that can be trusted by federal government-relying parties. The X.509 certificate policy for the Federal Bridge Certification Authority (FBCA) addresses PIV-I requirements. The PIV-I card is suitable for Assurance Level 4 as defined in OMB Memorandum 04-04 and NIST Special Publication 800-63, and multifactor authentication as defined in NIST Special Publication 800-116. PIV-I credentials are those credentials issued by a PIV-I provider whose PIV-I certificate policy maps to the Federal Bridge PIV-I Certificate Policy. A PIV-I provider is cross-certified (directly or through another PKI bridge) with the FBCA with policies that have been mapped and approved as meeting the requirements of the PIV-I policies defined in the FBCA certificate policy.”
Related Controls:AU-2 .. _header_IA-9:
IA-9¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-9¶
IA-9 : SERVICE IDENTIFICATION AND AUTHENTICATION
Priority: P0
Baseline-Impact:
Description: “The organization identifies and authenticates [Assignment: organization-defined information system services] using [Assignment: organization-defined security safeguards].” Supplemental Guidance: “This control supports service-oriented architectures and other distributed architectural approaches requiring the identification and authentication of information system services. In such architectures, external services often appear dynamically. Therefore, information systems should be able to determine in a dynamic manner, if external providers and associated services are authentic. Safeguards implemented by organizational information systems to validate provider and service authenticity include, for example, information or code signing, provenance graphs, and/or electronic signatures indicating or including the sources of services.”
Related Controls:
IA-9 (1)¶
IA-9 (1) : INFORMATION EXCHANGE
Priority:
Baseline-Impact:
Description: “The organization ensures that service providers receive, validate, and transmit identification and authentication information.” Supplemental Guidance:
Related Controls:
IA-9 (2)¶
IA-9 (2) : TRANSMISSION OF DECISIONS
Priority:
Baseline-Impact:
Description: “The organization ensures that identification and authentication decisions are transmitted between [Assignment: organization-defined services] consistent with organizational policies.” Supplemental Guidance: “For distributed architectures (e.g., service-oriented architectures), the decisions regarding the validation of identification and authentication claims may be made by services separate from the services acting on those decisions. In such situations, it is necessary to provide the identification and authentication decisions (as opposed to the actual identifiers and authenticators) to the services that need to act on those decisions.”
Related Controls:SC-8 .. _header_IA-10:
IA-10¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-10¶
IA-10 : ADAPTIVE IDENTIFICATION AND AUTHENTICATION
Priority: P0
Baseline-Impact:
Description: “The organization requires that individuals accessing the information system employ [Assignment: organization-defined supplemental authentication techniques or mechanisms] under specific [Assignment: organization-defined circumstances or situations].” Supplemental Guidance: “Adversaries may compromise individual authentication mechanisms and subsequently attempt to impersonate legitimate users. This situation can potentially occur with any authentication mechanisms employed by organizations. To address this threat, organizations may employ specific techniques/mechanisms and establish protocols to assess suspicious behavior (e.g., individuals accessing information that they do not typically access as part of their normal duties, roles, or responsibilities, accessing greater quantities of information than the individuals would routinely access, or attempting to access information from suspicious network addresses). In these situations when certain preestablished conditions or triggers occur, organizations can require selected individuals to provide additional authentication information. Another potential use for adaptive identification and authentication is to increase the strength of mechanism based on the number and/or types of records being accessed.”
Related Controls:AU-6,SI-4
IA-11¶
Control Family: IDENTIFICATION AND AUTHENTICATION
IA-11¶
IA-11 : RE-AUTHENTICATION
Priority: P0
Baseline-Impact:
Description: “The organization requires users and devices to re-authenticate when [Assignment: organization-defined circumstances or situations requiring re-authentication].” Supplemental Guidance: “In addition to the re-authentication requirements associated with session locks, organizations may require re-authentication of individuals and/or devices in other situations including, for example: (i) when authenticators change; (ii), when roles change; (iii) when security categories of information systems change; (iv), when the execution of privileged functions occurs; (v) after a fixed period of time; or (vi) periodically.”
Related Controls:AC-11
IR-1¶
Control Family: INCIDENT RESPONSE
IR-1¶
IR-1 : INCIDENT RESPONSE POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the IR family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “An incident response policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the incident response policy and associated incident response controls; and”
Description: “Reviews and updates the current:”
Description: “Incident response policy [Assignment: organization-defined frequency]; and”
Description: “Incident response procedures [Assignment: organization-defined frequency].” .. _header_IR-2:
IR-2¶
Control Family: INCIDENT RESPONSE
IR-2¶
IR-2 : INCIDENT RESPONSE TRAINING
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization provides incident response training to information system users consistent with assigned roles and responsibilities:” Supplemental Guidance: “Incident response training provided by organizations is linked to the assigned roles and responsibilities of organizational personnel to ensure the appropriate content and level of detail is included in such training. For example, regular users may only need to know who to call or how to recognize an incident on the information system; system administrators may require additional training on how to handle/remediate incidents; and incident responders may receive more specific training on forensics, reporting, system recovery, and restoration. Incident response training includes user training in the identification and reporting of suspicious activities, both from external and internal sources.”
Related Controls:AT-3,CP-3,IR-8
Description: “Within [Assignment: organization-defined time period] of assuming an incident response role or responsibility;”
Description: “When required by information system changes; and”
Description: “[Assignment: organization-defined frequency] thereafter.”
IR-2 (1)¶
IR-2 (1) : SIMULATED EVENTS
Priority:
Baseline-Impact: HIGH
Description: “The organization incorporates simulated events into incident response training to facilitate effective response by personnel in crisis situations.” Supplemental Guidance:
Related Controls:
IR-2 (2)¶
IR-2 (2) : AUTOMATED TRAINING ENVIRONMENTS
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to provide a more thorough and realistic incident response training environment.” Supplemental Guidance:
Related Controls: .. _header_IR-3:
IR-3¶
Control Family: INCIDENT RESPONSE
IR-3¶
IR-3 : INCIDENT RESPONSE TESTING
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The organization tests the incident response capability for the information system [Assignment: organization-defined frequency] using [Assignment: organization-defined tests] to determine the incident response effectiveness and documents the results.” Supplemental Guidance: “Organizations test incident response capabilities to determine the overall effectiveness of the capabilities and to identify potential weaknesses or deficiencies. Incident response testing includes, for example, the use of checklists, walk-through or tabletop exercises, simulations (parallel/full interrupt), and comprehensive exercises. Incident response testing can also include a determination of the effects on organizational operations (e.g., reduction in mission capabilities), organizational assets, and individuals due to incident response.”
Related Controls:CP-4,IR-8
IR-3 (1)¶
IR-3 (1) : AUTOMATED TESTING
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to more thoroughly and effectively test the incident response capability.” Supplemental Guidance: “Organizations use automated mechanisms to more thoroughly and effectively test incident response capabilities, for example: (i) by providing more complete coverage of incident response issues; (ii) by selecting more realistic test scenarios and test environments; and (iii) by stressing the response capability.”
Related Controls:AT-2
IR-3 (2)¶
IR-3 (2) : COORDINATION WITH RELATED PLANS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization coordinates incident response testing with organizational elements responsible for related plans.” Supplemental Guidance: “Organizational plans related to incident response testing include, for example, Business Continuity Plans, Contingency Plans, Disaster Recovery Plans, Continuity of Operations Plans, Crisis Communications Plans, Critical Infrastructure Plans, and Occupant Emergency Plans.”
Related Controls: .. _header_IR-4:
IR-4¶
Control Family: INCIDENT RESPONSE
IR-4¶
IR-4 : INCIDENT HANDLING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Organizations recognize that incident response capability is dependent on the capabilities of organizational information systems and the mission/business processes being supported by those systems. Therefore, organizations consider incident response as part of the definition, design, and development of mission/business processes and information systems. Incident-related information can be obtained from a variety of sources including, for example, audit monitoring, network monitoring, physical access monitoring, user/administrator reports, and reported supply chain events. Effective incident handling capability includes coordination among many organizational entities including, for example, mission/business owners, information system owners, authorizing officials, human resources offices, physical and personnel security offices, legal departments, operations personnel, procurement offices, and the risk executive (function).”
Related Controls:AU-6,CM-6,CP-2,CP-4,IR-2,IR-3,IR-8,PE-6,SC-5,SC-7,SI-3,SI-4,SI-7
Description: “Implements an incident handling capability for security incidents that includes preparation, detection and analysis, containment, eradication, and recovery;”
Description: “Coordinates incident handling activities with contingency planning activities; and”
Description: “Incorporates lessons learned from ongoing incident handling activities into incident response procedures, training, and testing, and implements the resulting changes accordingly.”
IR-4 (1)¶
IR-4 (1) : AUTOMATED INCIDENT HANDLING PROCESSES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs automated mechanisms to support the incident handling process.” Supplemental Guidance: “Automated mechanisms supporting incident handling processes include, for example, online incident management systems.”
Related Controls:
IR-4 (2)¶
IR-4 (2) : DYNAMIC RECONFIGURATION
Priority:
Baseline-Impact:
Description: “The organization includes dynamic reconfiguration of [Assignment: organization-defined information system components] as part of the incident response capability.” Supplemental Guidance: “Dynamic reconfiguration includes, for example, changes to router rules, access control lists, intrusion detection/prevention system parameters, and filter rules for firewalls and gateways. Organizations perform dynamic reconfiguration of information systems, for example, to stop attacks, to misdirect attackers, and to isolate components of systems, thus limiting the extent of the damage from breaches or compromises. Organizations include time frames for achieving the reconfiguration of information systems in the definition of the reconfiguration capability, considering the potential need for rapid response in order to effectively address sophisticated cyber threats.”
Related Controls:AC-2,AC-4,AC-16,CM-2,CM-3,CM-4
IR-4 (3)¶
IR-4 (3) : CONTINUITY OF OPERATIONS
Priority:
Baseline-Impact:
Description: “The organization identifies [Assignment: organization-defined classes of incidents] and [Assignment: organization-defined actions to take in response to classes of incidents] to ensure continuation of organizational missions and business functions.” Supplemental Guidance: “Classes of incidents include, for example, malfunctions due to design/implementation errors and omissions, targeted malicious attacks, and untargeted malicious attacks. Appropriate incident response actions include, for example, graceful degradation, information system shutdown, fall back to manual mode/alternative technology whereby the system operates differently, employing deceptive measures, alternate information flows, or operating in a mode that is reserved solely for when systems are under attack.”
Related Controls:
IR-4 (4)¶
IR-4 (4) : INFORMATION CORRELATION
Priority:
Baseline-Impact: HIGH
Description: “The organization correlates incident information and individual incident responses to achieve an organization-wide perspective on incident awareness and response.” Supplemental Guidance: “Sometimes the nature of a threat event, for example, a hostile cyber attack, is such that it can only be observed by bringing together information from different sources including various reports and reporting procedures established by organizations.”
Related Controls:
IR-4 (5)¶
IR-4 (5) : AUTOMATIC DISABLING OF INFORMATION SYSTEM
Priority:
Baseline-Impact:
Description: “The organization implements a configurable capability to automatically disable the information system if [Assignment: organization-defined security violations] are detected.” Supplemental Guidance:
Related Controls:
IR-4 (6)¶
IR-4 (6) : INSIDER THREATS - SPECIFIC CAPABILITIES
Priority:
Baseline-Impact:
Description: “The organization implements incident handling capability for insider threats.” Supplemental Guidance: “While many organizations address insider threat incidents as an inherent part of their organizational incident response capability, this control enhancement provides additional emphasis on this type of threat and the need for specific incident handling capabilities (as defined within organizations) to provide appropriate and timely responses.”
Related Controls:
IR-4 (7)¶
IR-4 (7) : INSIDER THREATS - INTRA-ORGANIZATION COORDINATION
Priority:
Baseline-Impact:
Description: “The organization coordinates incident handling capability for insider threats across [Assignment: organization-defined components or elements of the organization].” Supplemental Guidance: “Incident handling for insider threat incidents (including preparation, detection and analysis, containment, eradication, and recovery) requires close coordination among a variety of organizational components or elements to be effective. These components or elements include, for example, mission/business owners, information system owners, human resources offices, procurement offices, personnel/physical security offices, operations personnel, and risk executive (function). In addition, organizations may require external support from federal, state, and local law enforcement agencies.”
Related Controls:
IR-4 (8)¶
IR-4 (8) : CORRELATION WITH EXTERNAL ORGANIZATIONS
Priority:
Baseline-Impact:
Description: “The organization coordinates with [Assignment: organization-defined external organizations] to correlate and share [Assignment: organization-defined incident information] to achieve a cross-organization perspective on incident awareness and more effective incident responses.” Supplemental Guidance: “The coordination of incident information with external organizations including, for example, mission/business partners, military/coalition partners, customers, and multitiered developers, can provide significant benefits. Cross-organizational coordination with respect to incident handling can serve as an important risk management capability. This capability allows organizations to leverage critical information from a variety of sources to effectively respond to information security-related incidents potentially affecting the organization�s operations, assets, and individuals.”
Related Controls:
IR-4 (9)¶
IR-4 (9) : DYNAMIC RESPONSE CAPABILITY
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined dynamic response capabilities] to effectively respond to security incidents.” Supplemental Guidance: “This control enhancement addresses the deployment of replacement or new capabilities in a timely manner in response to security incidents (e.g., adversary actions during hostile cyber attacks). This includes capabilities implemented at the mission/business process level (e.g., activating alternative mission/business processes) and at the information system level.”
Related Controls:CP-10
IR-4 (10)¶
IR-4 (10) : SUPPLY CHAIN COORDINATION
Priority:
Baseline-Impact:
Description: “The organization coordinates incident handling activities involving supply chain events with other organizations involved in the supply chain.” Supplemental Guidance: “Organizations involved in supply chain activities include, for example, system/product developers, integrators, manufacturers, packagers, assemblers, distributors, vendors, and resellers. Supply chain incidents include, for example, compromises/breaches involving information system components, information technology products, development processes or personnel, and distribution processes or warehousing facilities.”
Related Controls: .. _header_IR-5:
IR-5¶
Control Family: INCIDENT RESPONSE
IR-5¶
IR-5 : INCIDENT MONITORING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization tracks and documents information system security incidents.” Supplemental Guidance: “Documenting information system security incidents includes, for example, maintaining records about each incident, the status of the incident, and other pertinent information necessary for forensics, evaluating incident details, trends, and handling. Incident information can be obtained from a variety of sources including, for example, incident reports, incident response teams, audit monitoring, network monitoring, physical access monitoring, and user/administrator reports.”
Related Controls:AU-6,IR-8,PE-6,SC-5,SC-7,SI-3,SI-4,SI-7
IR-5 (1)¶
IR-5 (1) : AUTOMATED TRACKING / DATA COLLECTION / ANALYSIS
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to assist in the tracking of security incidents and in the collection and analysis of incident information.” Supplemental Guidance: “Automated mechanisms for tracking security incidents and collecting/analyzing incident information include, for example, the Einstein network monitoring device and monitoring online Computer Incident Response Centers (CIRCs) or other electronic databases of incidents.”
Related Controls:AU-7,IR-4 .. _header_IR-6:
IR-6¶
Control Family: INCIDENT RESPONSE
IR-6¶
IR-6 : INCIDENT REPORTING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “The intent of this control is to address both specific incident reporting requirements within an organization and the formal incident reporting requirements for federal agencies and their subordinate organizations. Suspected security incidents include, for example, the receipt of suspicious email communications that can potentially contain malicious code. The types of security incidents reported, the content and timeliness of the reports, and the designated reporting authorities reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Current federal policy requires that all federal agencies (unless specifically exempted from such requirements) report security incidents to the United States Computer Emergency Readiness Team (US-CERT) within specified time frames designated in the US-CERT Concept of Operations for Federal Cyber Security Incident Handling.”
Related Controls:IR-4,IR-5,IR-8
Description: “Requires personnel to report suspected security incidents to the organizational incident response capability within [Assignment: organization-defined time period]; and”
Description: “Reports security incident information to [Assignment: organization-defined authorities].”
IR-6 (1)¶
IR-6 (1) : AUTOMATED REPORTING
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs automated mechanisms to assist in the reporting of security incidents.” Supplemental Guidance:
Related Controls:IR-7
IR-6 (2)¶
IR-6 (2) : VULNERABILITIES RELATED TO INCIDENTS
Priority:
Baseline-Impact:
Description: “The organization reports information system vulnerabilities associated with reported security incidents to [Assignment: organization-defined personnel or roles].” Supplemental Guidance:
Related Controls:
IR-6 (3)¶
IR-6 (3) : COORDINATION WITH SUPPLY CHAIN
Priority:
Baseline-Impact:
Description: “The organization provides security incident information to other organizations involved in the supply chain for information systems or information system components related to the incident.” Supplemental Guidance: “Organizations involved in supply chain activities include, for example, system/product developers, integrators, manufacturers, packagers, assemblers, distributors, vendors, and resellers. Supply chain incidents include, for example, compromises/breaches involving information system components, information technology products, development processes or personnel, and distribution processes or warehousing facilities. Organizations determine the appropriate information to share considering the value gained from support by external organizations with the potential for harm due to sensitive information being released to outside organizations of perhaps questionable trustworthiness.”
Related Controls: .. _header_IR-7:
IR-7¶
Control Family: INCIDENT RESPONSE
IR-7¶
IR-7 : INCIDENT RESPONSE ASSISTANCE
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization provides an incident response support resource, integral to the organizational incident response capability that offers advice and assistance to users of the information system for the handling and reporting of security incidents.” Supplemental Guidance: “Incident response support resources provided by organizations include, for example, help desks, assistance groups, and access to forensics services, when required.”
Related Controls:AT-2,IR-4,IR-6,IR-8,SA-9
IR-7 (1)¶
IR-7 (1) : AUTOMATION SUPPORT FOR AVAILABILITY OF INFORMATION / SUPPORT
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs automated mechanisms to increase the availability of incident response-related information and support.” Supplemental Guidance: “Automated mechanisms can provide a push and/or pull capability for users to obtain incident response assistance. For example, individuals might have access to a website to query the assistance capability, or conversely, the assistance capability may have the ability to proactively send information to users (general distribution or targeted) as part of increasing understanding of current response capabilities and support.”
Related Controls:
IR-7 (2)¶
IR-7 (2) : COORDINATION WITH EXTERNAL PROVIDERS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “External providers of information system protection capability include, for example, the Computer Network Defense program within the U.S. Department of Defense. External providers help to protect, monitor, analyze, detect, and respond to unauthorized activity within organizational information systems and networks.”
Related Controls:
Description: “Establishes a direct, cooperative relationship between its incident response capability and external providers of information system protection capability; and”
Description: “Identifies organizational incident response team members to the external providers.” .. _header_IR-8:
IR-8¶
Control Family: INCIDENT RESPONSE
IR-8¶
IR-8 : INCIDENT RESPONSE PLAN
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “It is important that organizations develop and implement a coordinated approach to incident response. Organizational missions, business functions, strategies, goals, and objectives for incident response help to determine the structure of incident response capabilities. As part of a comprehensive incident response capability, organizations consider the coordination and sharing of information with external organizations, including, for example, external service providers and organizations involved in the supply chain for organizational information systems.”
Related Controls:MP-2,MP-4,MP-5
Description: “Develops an incident response plan that:”
Description: “Provides the organization with a roadmap for implementing its incident response capability;”
Description: “Describes the structure and organization of the incident response capability;”
Description: “Provides a high-level approach for how the incident response capability fits into the overall organization;”
Description: “Meets the unique requirements of the organization, which relate to mission, size, structure, and functions;”
Description: “Defines reportable incidents;”
Description: “Provides metrics for measuring the incident response capability within the organization;”
Description: “Defines the resources and management support needed to effectively maintain and mature an incident response capability; and”
Description: “Is reviewed and approved by [Assignment: organization-defined personnel or roles];”
Description: “Distributes copies of the incident response plan to [Assignment: organization-defined incident response personnel (identified by name and/or by role) and organizational elements];”
Description: “Reviews the incident response plan [Assignment: organization-defined frequency];”
Description: “Updates the incident response plan to address system/organizational changes or problems encountered during plan implementation, execution, or testing;”
Description: “Communicates incident response plan changes to [Assignment: organization-defined incident response personnel (identified by name and/or by role) and organizational elements]; and”
Description: “Protects the incident response plan from unauthorized disclosure and modification.” .. _header_IR-9:
IR-9¶
Control Family: INCIDENT RESPONSE
IR-9¶
IR-9 : INFORMATION SPILLAGE RESPONSE
Priority: P0
Baseline-Impact:
Description: “The organization responds to information spills by:” Supplemental Guidance: “Information spillage refers to instances where either classified or sensitive information is inadvertently placed on information systems that are not authorized to process such information. Such information spills often occur when information that is initially thought to be of lower sensitivity is transmitted to an information system and then is subsequently determined to be of higher sensitivity. At that point, corrective action is required. The nature of the organizational response is generally based upon the degree of sensitivity of the spilled information (e.g., security category or classification level), the security capabilities of the information system, the specific nature of contaminated storage media, and the access authorizations (e.g., security clearances) of individuals with authorized access to the contaminated system. The methods used to communicate information about the spill after the fact do not involve methods directly associated with the actual spill to minimize the risk of further spreading the contamination before such contamination is isolated and eradicated.”
Related Controls:
Description: “Identifying the specific information involved in the information system contamination;”
Description: “Alerting [Assignment: organization-defined personnel or roles] of the information spill using a method of communication not associated with the spill;”
Description: “Isolating the contaminated information system or system component;”
Description: “Eradicating the information from the contaminated information system or component;”
Description: “Identifying other information systems or system components that may have been subsequently contaminated; and”
Description: “Performing other [Assignment: organization-defined actions].”
IR-9 (1)¶
IR-9 (1) : RESPONSIBLE PERSONNEL
Priority:
Baseline-Impact:
Description: “The organization assigns [Assignment: organization-defined personnel or roles] with responsibility for responding to information spills.” Supplemental Guidance:
Related Controls:
IR-9 (2)¶
IR-9 (2) : TRAINING
Priority:
Baseline-Impact:
Description: “The organization provides information spillage response training [Assignment: organization-defined frequency].” Supplemental Guidance:
Related Controls:
IR-9 (3)¶
IR-9 (3) : POST-SPILL OPERATIONS
Priority:
Baseline-Impact:
Description: “The organization implements [Assignment: organization-defined procedures] to ensure that organizational personnel impacted by information spills can continue to carry out assigned tasks while contaminated systems are undergoing corrective actions.” Supplemental Guidance: “Correction actions for information systems contaminated due to information spillages may be very time-consuming. During those periods, personnel may not have access to the contaminated systems, which may potentially affect their ability to conduct organizational business.”
Related Controls:
IR-9 (4)¶
IR-9 (4) : EXPOSURE TO UNAUTHORIZED PERSONNEL
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined security safeguards] for personnel exposed to information not within assigned access authorizations.” Supplemental Guidance: “Security safeguards include, for example, making personnel exposed to spilled information aware of the federal laws, directives, policies, and/or regulations regarding the information and the restrictions imposed based on exposure to such information.”
Related Controls: .. _header_IR-10:
IR-10¶
Control Family: INCIDENT RESPONSE
IR-10¶
IR-10 : INTEGRATED INFORMATION SECURITY ANALYSIS TEAM
Priority: P0
Baseline-Impact:
Description: “The organization establishes an integrated team of forensic/malicious code analysts, tool developers, and real-time operations personnel.” Supplemental Guidance: “Having an integrated team for incident response facilitates information sharing. Such capability allows organizational personnel, including developers, implementers, and operators, to leverage the team knowledge of the threat in order to implement defensive measures that will enable organizations to deter intrusions more effectively. Moreover, it promotes the rapid detection of intrusions, development of appropriate mitigations, and the deployment of effective defensive measures. For example, when an intrusion is detected, the integrated security analysis team can rapidly develop an appropriate response for operators to implement, correlate the new incident with information on past intrusions, and augment ongoing intelligence development. This enables the team to identify adversary TTPs that are linked to the operations tempo or to specific missions/business functions, and to define responsive actions in a way that does not disrupt the mission/business operations. Ideally, information security analysis teams are distributed within organizations to make the capability more resilient.”
Related Controls:
MA-1¶
Control Family: MAINTENANCE
MA-1¶
MA-1 : SYSTEM MAINTENANCE POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the MA family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A system maintenance policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the system maintenance policy and associated system maintenance controls; and”
Description: “Reviews and updates the current:”
Description: “System maintenance policy [Assignment: organization-defined frequency]; and”
Description: “System maintenance procedures [Assignment: organization-defined frequency].” .. _header_MA-2:
MA-2¶
Control Family: MAINTENANCE
MA-2¶
MA-2 : CONTROLLED MAINTENANCE
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the information security aspects of the information system maintenance program and applies to all types of maintenance to any system component (including applications) conducted by any local or nonlocal entity (e.g., in-contract, warranty, in-house, software maintenance agreement). System maintenance also includes those components not directly associated with information processing and/or data/information retention such as scanners, copiers, and printers. Information necessary for creating effective maintenance records includes, for example: (i) date and time of maintenance; (ii) name of individuals or group performing the maintenance; (iii) name of escort, if necessary; (iv) a description of the maintenance performed; and (v) information system components/equipment removed or replaced (including identification numbers, if applicable). The level of detail included in maintenance records can be informed by the security categories of organizational information systems. Organizations consider supply chain issues associated with replacement components for information systems.”
Related Controls:CM-3,CM-4,MA-4,MP-6,PE-16,SA-12,SI-2
Description: “Schedules, performs, documents, and reviews records of maintenance and repairs on information system components in accordance with manufacturer or vendor specifications and/or organizational requirements;”
Description: “Approves and monitors all maintenance activities, whether performed on site or remotely and whether the equipment is serviced on site or removed to another location;”
Description: “Requires that [Assignment: organization-defined personnel or roles] explicitly approve the removal of the information system or system components from organizational facilities for off-site maintenance or repairs;”
Description: “Sanitizes equipment to remove all information from associated media prior to removal from organizational facilities for off-site maintenance or repairs;”
Description: “Checks all potentially impacted security controls to verify that the controls are still functioning properly following maintenance or repair actions; and”
Description: “Includes [Assignment: organization-defined maintenance-related information] in organizational maintenance records.”
MA-2 (1)¶
MA-2 (1) : RECORD CONTENT
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MA-2].” Supplemental Guidance:
Related Controls:
MA-2 (2)¶
MA-2 (2) : AUTOMATED MAINTENANCE ACTIVITIES
Priority:
Baseline-Impact: HIGH
Description: “The organization:” Supplemental Guidance:
Related Controls:CA-7,MA-3
Description: “Employs automated mechanisms to schedule, conduct, and document maintenance and repairs; and”
Description: “Produces up-to date, accurate, and complete records of all maintenance and repair actions requested, scheduled, in process, and completed.” .. _header_MA-3:
MA-3¶
Control Family: MAINTENANCE
MA-3¶
MA-3 : MAINTENANCE TOOLS
Priority: P3
Baseline-Impact: MODERATE,HIGH
Description: “The organization approves, controls, and monitors information system maintenance tools.” Supplemental Guidance: “This control addresses security-related issues associated with maintenance tools used specifically for diagnostic and repair actions on organizational information systems. Maintenance tools can include hardware, software, and firmware items. Maintenance tools are potential vehicles for transporting malicious code, either intentionally or unintentionally, into a facility and subsequently into organizational information systems. Maintenance tools can include, for example, hardware/software diagnostic test equipment and hardware/software packet sniffers. This control does not cover hardware/software components that may support information system maintenance, yet are a part of the system, for example, the software implementing �ping,� �ls,� �ipconfig,� or the hardware and software implementing the monitoring port of an Ethernet switch.”
Related Controls:MA-2,MA-5,MP-6
MA-3 (1)¶
MA-3 (1) : INSPECT TOOLS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization inspects the maintenance tools carried into a facility by maintenance personnel for improper or unauthorized modifications.” Supplemental Guidance: “If, upon inspection of maintenance tools, organizations determine that the tools have been modified in an improper/unauthorized manner or contain malicious code, the incident is handled consistent with organizational policies and procedures for incident handling.”
Related Controls:SI-7
MA-3 (2)¶
MA-3 (2) : INSPECT MEDIA
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization checks media containing diagnostic and test programs for malicious code before the media are used in the information system.” Supplemental Guidance: “If, upon inspection of media containing maintenance diagnostic and test programs, organizations determine that the media contain malicious code, the incident is handled consistent with organizational incident handling policies and procedures.”
Related Controls:SI-3
MA-3 (3)¶
MA-3 (3) : PREVENT UNAUTHORIZED REMOVAL
Priority:
Baseline-Impact: HIGH
Description: “The organization prevents the unauthorized removal of maintenance equipment containing organizational information by:” Supplemental Guidance: “Organizational information includes all information specifically owned by organizations and information provided to organizations in which organizations serve as information stewards.”
Related Controls:
Description: “Verifying that there is no organizational information contained on the equipment;”
Description: “Sanitizing or destroying the equipment;”
Description: “Retaining the equipment within the facility; or”
Description: “Obtaining an exemption from [Assignment: organization-defined personnel or roles] explicitly authorizing removal of the equipment from the facility.”
MA-3 (4)¶
MA-3 (4) : RESTRICTED TOOL USE
Priority:
Baseline-Impact:
Description: “The information system restricts the use of maintenance tools to authorized personnel only.” Supplemental Guidance: “This control enhancement applies to information systems that are used to carry out maintenance functions.”
Related Controls:AC-2,AC-3,AC-5,AC-6 .. _header_MA-4:
MA-4¶
Control Family: MAINTENANCE
MA-4¶
MA-4 : NONLOCAL MAINTENANCE
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Nonlocal maintenance and diagnostic activities are those activities conducted by individuals communicating through a network, either an external network (e.g., the Internet) or an internal network. Local maintenance and diagnostic activities are those activities carried out by individuals physically present at the information system or information system component and not communicating across a network connection. Authentication techniques used in the establishment of nonlocal maintenance and diagnostic sessions reflect the network access requirements in IA-2. Typically, strong authentication requires authenticators that are resistant to replay attacks and employ multifactor authentication. Strong authenticators include, for example, PKI where certificates are stored on a token protected by a password, passphrase, or biometric. Enforcing requirements in MA-4 is accomplished in part by other controls.”
Related Controls:AC-2,AC-3,AC-6,AC-17,AU-2,AU-3,IA-2,IA-4,IA-5,IA-8,MA-2,MA-5,MP-6,PL-2,SC-7,SC-10,SC-17
Description: “Approves and monitors nonlocal maintenance and diagnostic activities;”
Description: “Allows the use of nonlocal maintenance and diagnostic tools only as consistent with organizational policy and documented in the security plan for the information system;”
Description: “Employs strong authenticators in the establishment of nonlocal maintenance and diagnostic sessions;”
Description: “Maintains records for nonlocal maintenance and diagnostic activities; and”
Description: “Terminates session and network connections when nonlocal maintenance is completed.”
MA-4 (1)¶
MA-4 (1) : AUDITING AND REVIEW
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance:
Related Controls:AU-2,AU-6,AU-12
Description: “Audits nonlocal maintenance and diagnostic sessions [Assignment: organization-defined audit events]; and”
Description: “Reviews the records of the maintenance and diagnostic sessions.”
MA-4 (2)¶
MA-4 (2) : DOCUMENT NONLOCAL MAINTENANCE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization documents in the security plan for the information system, the policies and procedures for the establishment and use of nonlocal maintenance and diagnostic connections.” Supplemental Guidance:
Related Controls:
MA-4 (3)¶
MA-4 (3) : COMPARABLE SECURITY / SANITIZATION
Priority:
Baseline-Impact: HIGH
Description: “The organization:” Supplemental Guidance: “Comparable security capability on information systems, diagnostic tools, and equipment providing maintenance services implies that the implemented security controls on those systems, tools, and equipment are at least as comprehensive as the controls on the information system being serviced.”
Related Controls:MA-3,SA-12,SI-3,SI-7
Description: “Requires that nonlocal maintenance and diagnostic services be performed from an information system that implements a security capability comparable to the capability implemented on the system being serviced; or”
Description: “Removes the component to be serviced from the information system prior to nonlocal maintenance or diagnostic services, sanitizes the component (with regard to organizational information) before removal from organizational facilities, and after the service is performed, inspects and sanitizes the component (with regard to potentially malicious software) before reconnecting the component to the information system.”
MA-4 (4)¶
MA-4 (4) : AUTHENTICATION / SEPARATION OF MAINTENANCE SESSIONS
Priority:
Baseline-Impact:
Description: “The organization protects nonlocal maintenance sessions by:” Supplemental Guidance:
Related Controls:SC-13
Description: “Employing [Assignment: organization-defined authenticators that are replay resistant]; and”
Description: “Separating the maintenance sessions from other network sessions with the information system by either:”
Description: “Physically separated communications paths; or”
Description: “Logically separated communications paths based upon encryption.”
MA-4 (5)¶
MA-4 (5) : APPROVALS AND NOTIFICATIONS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Notification may be performed by maintenance personnel. Approval of nonlocal maintenance sessions is accomplished by organizational personnel with sufficient information security and information system knowledge to determine the appropriateness of the proposed maintenance.”
Related Controls:
Description: “Requires the approval of each nonlocal maintenance session by [Assignment: organization-defined personnel or roles]; and”
Description: “Notifies [Assignment: organization-defined personnel or roles] of the date and time of planned nonlocal maintenance.”
MA-4 (6)¶
MA-4 (6) : CRYPTOGRAPHIC PROTECTION
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to protect the integrity and confidentiality of nonlocal maintenance and diagnostic communications.” Supplemental Guidance:
Related Controls:SC-8,SC-13
MA-4 (7)¶
MA-4 (7) : REMOTE DISCONNECT VERIFICATION
Priority:
Baseline-Impact:
Description: “The information system implements remote disconnect verification at the termination of nonlocal maintenance and diagnostic sessions.” Supplemental Guidance: “Remote disconnect verification ensures that remote connections from nonlocal maintenance sessions have been terminated and are no longer available for use.”
Related Controls:SC-13 .. _header_MA-5:
MA-5¶
Control Family: MAINTENANCE
MA-5¶
MA-5 : MAINTENANCE PERSONNEL
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies to individuals performing hardware or software maintenance on organizational information systems, while PE-2 addresses physical access for individuals whose maintenance duties place them within the physical protection perimeter of the systems (e.g., custodial staff, physical plant maintenance personnel). Technical competence of supervising individuals relates to the maintenance performed on the information systems while having required access authorizations refers to maintenance on and near the systems. Individuals not previously identified as authorized maintenance personnel, such as information technology manufacturers, vendors, systems integrators, and consultants, may require privileged access to organizational information systems, for example, when required to conduct maintenance activities with little or no notice. Based on organizational assessments of risk, organizations may issue temporary credentials to these individuals. Temporary credentials may be for one-time use or for very limited time periods.”
Related Controls:AC-2,IA-8,MP-2,PE-2,PE-3,PE-4,RA-3
Description: “Establishes a process for maintenance personnel authorization and maintains a list of authorized maintenance organizations or personnel;”
Description: “Ensures that non-escorted personnel performing maintenance on the information system have required access authorizations; and”
Description: “Designates organizational personnel with required access authorizations and technical competence to supervise the maintenance activities of personnel who do not possess the required access authorizations.”
MA-5 (1)¶
MA-5 (1) : INDIVIDUALS WITHOUT APPROPRIATE ACCESS
Priority:
Baseline-Impact: HIGH
Description: “The organization:” Supplemental Guidance: “This control enhancement denies individuals who lack appropriate security clearances (i.e., individuals who do not possess security clearances or possess security clearances at a lower level than required) or who are not U.S. citizens, visual and electronic access to any classified information, Controlled Unclassified Information (CUI), or any other sensitive information contained on organizational information systems. Procedures for the use of maintenance personnel can be documented in security plans for the information systems.”
Related Controls:MP-6,PL-2
Description: “Implements procedures for the use of maintenance personnel that lack appropriate security clearances or are not U.S. citizens, that include the following requirements:”
Description: “Maintenance personnel who do not have needed access authorizations, clearances, or formal access approvals are escorted and supervised during the performance of maintenance and diagnostic activities on the information system by approved organizational personnel who are fully cleared, have appropriate access authorizations, and are technically qualified;”
Description: “Prior to initiating maintenance or diagnostic activities by personnel who do not have needed access authorizations, clearances or formal access approvals, all volatile information storage components within the information system are sanitized and all nonvolatile storage media are removed or physically disconnected from the system and secured; and”
Description: “Develops and implements alternate security safeguards in the event an information system component cannot be sanitized, removed, or disconnected from the system.”
MA-5 (2)¶
MA-5 (2) : SECURITY CLEARANCES FOR CLASSIFIED SYSTEMS
Priority:
Baseline-Impact:
Description: “The organization ensures that personnel performing maintenance and diagnostic activities on an information system processing, storing, or transmitting classified information possess security clearances and formal access approvals for at least the highest classification level and for all compartments of information on the system.” Supplemental Guidance:
Related Controls:PS-3
MA-5 (3)¶
MA-5 (3) : CITIZENSHIP REQUIREMENTS FOR CLASSIFIED SYSTEMS
Priority:
Baseline-Impact:
Description: “The organization ensures that personnel performing maintenance and diagnostic activities on an information system processing, storing, or transmitting classified information are U.S. citizens.” Supplemental Guidance:
Related Controls:PS-3
MA-5 (4)¶
MA-5 (4) : FOREIGN NATIONALS
Priority:
Baseline-Impact:
Description: “The organization ensures that:” Supplemental Guidance:
Related Controls:PS-3
Description: “Cleared foreign nationals (i.e., foreign nationals with appropriate security clearances), are used to conduct maintenance and diagnostic activities on classified information systems only when the systems are jointly owned and operated by the United States and foreign allied governments, or owned and operated solely by foreign allied governments; and”
Description: “Approvals, consents, and detailed operational conditions regarding the use of foreign nationals to conduct maintenance and diagnostic activities on classified information systems are fully documented within Memoranda of Agreements.”
MA-5 (5)¶
MA-5 (5) : NONSYSTEM-RELATED MAINTENANCE
Priority:
Baseline-Impact:
Description: “The organization ensures that non-escorted personnel performing maintenance activities not directly associated with the information system but in the physical proximity of the system, have required access authorizations.” Supplemental Guidance: “Personnel performing maintenance activities in other capacities not directly related to the information system include, for example, physical plant personnel and janitorial personnel.”
Related Controls: .. _header_MA-6:
MA-6¶
Control Family: MAINTENANCE
MA-6¶
MA-6 : TIMELY MAINTENANCE
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The organization obtains maintenance support and/or spare parts for [Assignment: organization-defined information system components] within [Assignment: organization-defined time period] of failure.” Supplemental Guidance: “Organizations specify the information system components that result in increased risk to organizational operations and assets, individuals, other organizations, or the Nation when the functionality provided by those components is not operational. Organizational actions to obtain maintenance support typically include having appropriate contracts in place.”
Related Controls:CM-8,CP-2,CP-7,SA-14,SA-15
MA-6 (1)¶
MA-6 (1) : PREVENTIVE MAINTENANCE
Priority:
Baseline-Impact:
Description: “The organization performs preventive maintenance on [Assignment: organization-defined information system components] at [Assignment: organization-defined time intervals].” Supplemental Guidance: “Preventive maintenance includes proactive care and servicing of organizational information systems components for the purpose of maintaining equipment and facilities in satisfactory operating condition. Such maintenance provides for the systematic inspection, tests, measurements, adjustments, parts replacement, detection, and correction of incipient failures either before they occur or before they develop into major defects. The primary goal of preventive maintenance is to avoid/mitigate the consequences of equipment failures. Preventive maintenance is designed to preserve and restore equipment reliability by replacing worn components before they actually fail. Methods of determining what preventive (or other) failure management policies to apply include, for example, original equipment manufacturer (OEM) recommendations, statistical failure records, requirements of codes, legislation, or regulations within a jurisdiction, expert opinion, maintenance that has already been conducted on similar equipment, or measured values and performance indications.”
Related Controls:
MA-6 (2)¶
MA-6 (2) : PREDICTIVE MAINTENANCE
Priority:
Baseline-Impact:
Description: “The organization performs predictive maintenance on [Assignment: organization-defined information system components] at [Assignment: organization-defined time intervals].” Supplemental Guidance: “Predictive maintenance, or condition-based maintenance, attempts to evaluate the condition of equipment by performing periodic or continuous (online) equipment condition monitoring. The goal of predictive maintenance is to perform maintenance at a scheduled point in time when the maintenance activity is most cost-effective and before the equipment loses performance within a threshold. The predictive component of predictive maintenance stems from the goal of predicting the future trend of the equipment’s condition. This approach uses principles of statistical process control to determine at what point in the future maintenance activities will be appropriate. Most predictive maintenance inspections are performed while equipment is in service, thereby minimizing disruption of normal system operations. Predictive maintenance can result in substantial cost savings and higher system reliability. Predictive maintenance tends to include measurement of the item. To evaluate equipment condition, predictive maintenance utilizes nondestructive testing technologies such as infrared, acoustic (partial discharge and airborne ultrasonic), corona detection, vibration analysis, sound level measurements, oil analysis, and other specific online tests.”
Related Controls:
MA-6 (3)¶
MA-6 (3) : AUTOMATED SUPPORT FOR PREDICTIVE MAINTENANCE
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to transfer predictive maintenance data to a computerized maintenance management system.” Supplemental Guidance: “A computerized maintenance management system maintains a computer database of information about the maintenance operations of organizations and automates processing equipment condition data in order to trigger maintenance planning, execution, and reporting.”
Related Controls: .. _header_MP-1:
MP-1¶
Control Family: MEDIA PROTECTION
MP-1¶
MP-1 : MEDIA PROTECTION POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the MP family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A media protection policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the media protection policy and associated media protection controls; and”
Description: “Reviews and updates the current:”
Description: “Media protection policy [Assignment: organization-defined frequency]; and”
Description: “Media protection procedures [Assignment: organization-defined frequency].” .. _header_MP-2:
MP-2¶
Control Family: MEDIA PROTECTION
MP-2¶
MP-2 : MEDIA ACCESS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization restricts access to [Assignment: organization-defined types of digital and/or non-digital media] to [Assignment: organization-defined personnel or roles].” Supplemental Guidance: “Information system media includes both digital and non-digital media. Digital media includes, for example, diskettes, magnetic tapes, external/removable hard disk drives, flash drives, compact disks, and digital video disks. Non-digital media includes, for example, paper and microfilm. Restricting non-digital media access includes, for example, denying access to patient medical records in a community hospital unless the individuals seeking access to such records are authorized healthcare providers. Restricting access to digital media includes, for example, limiting access to design specifications stored on compact disks in the media library to the project leader and the individuals on the development team.”
Related Controls:AC-3,IA-2,MP-4,PE-2,PE-3,PL-2
MP-2 (1)¶
MP-2 (1) : AUTOMATED RESTRICTED ACCESS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-4 (2)].” Supplemental Guidance:
Related Controls:
MP-2 (2)¶
MP-2 (2) : CRYPTOGRAPHIC PROTECTION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-28 (1)].” Supplemental Guidance:
Related Controls: .. _header_MP-3:
MP-3¶
Control Family: MEDIA PROTECTION
MP-3¶
MP-3 : MEDIA MARKING
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “The term security marking refers to the application/use of human-readable security attributes. The term security labeling refers to the application/use of security attributes with regard to internal data structures within information systems (see AC-16). Information system media includes both digital and non-digital media. Digital media includes, for example, diskettes, magnetic tapes, external/removable hard disk drives, flash drives, compact disks, and digital video disks. Non-digital media includes, for example, paper and microfilm. Security marking is generally not required for media containing information determined by organizations to be in the public domain or to be publicly releasable. However, some organizations may require markings for public information indicating that the information is publicly releasable. Marking of information system media reflects applicable federal laws, Executive Orders, directives, policies, regulations, standards, and guidance.”
Related Controls:AC-16,PL-2,RA-3
Description: “Marks information system media indicating the distribution limitations, handling caveats, and applicable security markings (if any) of the information; and”
Description: “Exempts [Assignment: organization-defined types of information system media] from marking as long as the media remain within [Assignment: organization-defined controlled areas].” .. _header_MP-4:
MP-4¶
Control Family: MEDIA PROTECTION
MP-4¶
MP-4 : MEDIA STORAGE
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Information system media includes both digital and non-digital media. Digital media includes, for example, diskettes, magnetic tapes, external/removable hard disk drives, flash drives, compact disks, and digital video disks. Non-digital media includes, for example, paper and microfilm. Physically controlling information system media includes, for example, conducting inventories, ensuring procedures are in place to allow individuals to check out and return media to the media library, and maintaining accountability for all stored media. Secure storage includes, for example, a locked drawer, desk, or cabinet, or a controlled media library. The type of media storage is commensurate with the security category and/or classification of the information residing on the media. Controlled areas are areas for which organizations provide sufficient physical and procedural safeguards to meet the requirements established for protecting information and/or information systems. For media containing information determined by organizations to be in the public domain, to be publicly releasable, or to have limited or no adverse impact on organizations or individuals if accessed by other than authorized personnel, fewer safeguards may be needed. In these situations, physical access controls provide adequate protection.”
Related Controls:CP-6,CP-9,MP-2,MP-7,PE-3
Description: “Physically controls and securely stores [Assignment: organization-defined types of digital and/or non-digital media] within [Assignment: organization-defined controlled areas]; and”
Description: “Protects information system media until the media are destroyed or sanitized using approved equipment, techniques, and procedures.”
MP-4 (1)¶
MP-4 (1) : CRYPTOGRAPHIC PROTECTION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-28 (1)].” Supplemental Guidance:
Related Controls:
MP-4 (2)¶
MP-4 (2) : AUTOMATED RESTRICTED ACCESS
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to restrict access to media storage areas and to audit access attempts and access granted.” Supplemental Guidance: “Automated mechanisms can include, for example, keypads on the external entries to media storage areas.”
Related Controls:AU-2,AU-9,AU-6,AU-12 .. _header_MP-5:
MP-5¶
Control Family: MEDIA PROTECTION
MP-5¶
MP-5 : MEDIA TRANSPORT
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Information system media includes both digital and non-digital media. Digital media includes, for example, diskettes, magnetic tapes, external/removable hard disk drives, flash drives, compact disks, and digital video disks. Non-digital media includes, for example, paper and microfilm. This control also applies to mobile devices with information storage capability (e.g., smart phones, tablets, E-readers), that are transported outside of controlled areas. Controlled areas are areas or spaces for which organizations provide sufficient physical and/or procedural safeguards to meet the requirements established for protecting information and/or information systems. Physical and technical safeguards for media are commensurate with the security category or classification of the information residing on the media. Safeguards to protect media during transport include, for example, locked containers and cryptography. Cryptographic mechanisms can provide confidentiality and integrity protections depending upon the mechanisms used. Activities associated with transport include the actual transport as well as those activities such as releasing media for transport and ensuring that media enters the appropriate transport processes. For the actual transport, authorized transport and courier personnel may include individuals from outside the organization (e.g., U.S. Postal Service or a commercial transport or delivery service). Maintaining accountability of media during transport includes, for example, restricting transport activities to authorized personnel, and tracking and/or obtaining explicit records of transport activities as the media moves through the transportation system to prevent and detect loss, destruction, or tampering. Organizations establish documentation requirements for activities associated with the transport of information system media in accordance with organizational assessments of risk to include the flexibility to define different record-keeping methods for the different types of media transport as part of an overall system of transport-related records.”
Related Controls:AC-19,CP-9,MP-3,MP-4,RA-3,SC-8,SC-13,SC-28
Description: “Protects and controls [Assignment: organization-defined types of information system media] during transport outside of controlled areas using [Assignment: organization-defined security safeguards];”
Description: “Maintains accountability for information system media during transport outside of controlled areas;”
Description: “Documents activities associated with the transport of information system media; and”
Description: “Restricts the activities associated with the transport of information system media to authorized personnel.”
MP-5 (1)¶
MP-5 (1) : PROTECTION OUTSIDE OF CONTROLLED AREAS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-5].” Supplemental Guidance:
Related Controls:
MP-5 (2)¶
MP-5 (2) : DOCUMENTATION OF ACTIVITIES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-5].” Supplemental Guidance:
Related Controls:
MP-5 (3)¶
MP-5 (3) : CUSTODIANS
Priority:
Baseline-Impact:
Description: “The organization employs an identified custodian during transport of information system media outside of controlled areas.” Supplemental Guidance: “Identified custodians provide organizations with specific points of contact during the media transport process and facilitate individual accountability. Custodial responsibilities can be transferred from one individual to another as long as an unambiguous custodian is identified at all times.”
Related Controls:
MP-5 (4)¶
MP-5 (4) : CRYPTOGRAPHIC PROTECTION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements cryptographic mechanisms to protect the confidentiality and integrity of information stored on digital media during transport outside of controlled areas.” Supplemental Guidance: “This control enhancement applies to both portable storage devices (e.g., USB memory sticks, compact disks, digital video disks, external/removable hard disk drives) and mobile devices with storage capability (e.g., smart phones, tablets, E-readers).”
Related Controls:MP-2 .. _header_MP-6:
MP-6¶
Control Family: MEDIA PROTECTION
MP-6¶
MP-6 : MEDIA SANITIZATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies to all information system media, both digital and non-digital, subject to disposal or reuse, whether or not the media is considered removable. Examples include media found in scanners, copiers, printers, notebook computers, workstations, network components, and mobile devices. The sanitization process removes information from the media such that the information cannot be retrieved or reconstructed. Sanitization techniques, including clearing, purging, cryptographic erase, and destruction, prevent the disclosure of information to unauthorized individuals when such media is reused or released for disposal. Organizations determine the appropriate sanitization methods recognizing that destruction is sometimes necessary when other methods cannot be applied to media requiring sanitization. Organizations use discretion on the employment of approved sanitization techniques and procedures for media containing information deemed to be in the public domain or publicly releasable, or deemed to have no adverse impact on organizations or individuals if released for reuse or disposal. Sanitization of non-digital media includes, for example, removing a classified appendix from an otherwise unclassified document, or redacting selected sections or words from a document by obscuring the redacted sections/words in a manner equivalent in effectiveness to removing them from the document. NSA standards and policies control the sanitization process for media containing classified information.”
Related Controls:MA-2,MA-4,RA-3,SC-4
Description: “Sanitizes [Assignment: organization-defined information system media] prior to disposal, release out of organizational control, or release for reuse using [Assignment: organization-defined sanitization techniques and procedures] in accordance with applicable federal and organizational standards and policies; and”
Description: “Employs sanitization mechanisms with the strength and integrity commensurate with the security category or classification of the information.”
MP-6 (1)¶
MP-6 (1) : REVIEW / APPROVE / TRACK / DOCUMENT / VERIFY
Priority:
Baseline-Impact: HIGH
Description: “The organization reviews, approves, tracks, documents, and verifies media sanitization and disposal actions.” Supplemental Guidance: “Organizations review and approve media to be sanitized to ensure compliance with records-retention policies. Tracking/documenting actions include, for example, listing personnel who reviewed and approved sanitization and disposal actions, types of media sanitized, specific files stored on the media, sanitization methods used, date and time of the sanitization actions, personnel who performed the sanitization, verification actions taken, personnel who performed the verification, and disposal action taken. Organizations verify that the sanitization of the media was effective prior to disposal.”
Related Controls:SI-12
MP-6 (2)¶
MP-6 (2) : EQUIPMENT TESTING
Priority:
Baseline-Impact: HIGH
Description: “The organization tests sanitization equipment and procedures [Assignment: organization-defined frequency] to verify that the intended sanitization is being achieved.” Supplemental Guidance: “Testing of sanitization equipment and procedures may be conducted by qualified and authorized external entities (e.g., other federal agencies or external service providers).”
Related Controls:
MP-6 (3)¶
MP-6 (3) : NONDESTRUCTIVE TECHNIQUES
Priority:
Baseline-Impact: HIGH
Description: “The organization applies nondestructive sanitization techniques to portable storage devices prior to connecting such devices to the information system under the following circumstances: [Assignment: organization-defined circumstances requiring sanitization of portable storage devices].” Supplemental Guidance: “This control enhancement applies to digital media containing classified information and Controlled Unclassified Information (CUI). Portable storage devices can be the source of malicious code insertions into organizational information systems. Many of these devices are obtained from unknown and potentially untrustworthy sources and may contain malicious code that can be readily transferred to information systems through USB ports or other entry portals. While scanning such storage devices is always recommended, sanitization provides additional assurance that the devices are free of malicious code to include code capable of initiating zero-day attacks. Organizations consider nondestructive sanitization of portable storage devices when such devices are first purchased from the manufacturer or vendor prior to initial use or when organizations lose a positive chain of custody for the devices.”
Related Controls:SI-3
MP-6 (4)¶
MP-6 (4) : CONTROLLED UNCLASSIFIED INFORMATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-6].” Supplemental Guidance:
Related Controls:
MP-6 (5)¶
MP-6 (5) : CLASSIFIED INFORMATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-6].” Supplemental Guidance:
Related Controls:
MP-6 (6)¶
MP-6 (6) : MEDIA DESTRUCTION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-6].” Supplemental Guidance:
Related Controls:
MP-6 (7)¶
MP-6 (7) : DUAL AUTHORIZATION
Priority:
Baseline-Impact:
Description: “The organization enforces dual authorization for the sanitization of [Assignment: organization-defined information system media].” Supplemental Guidance: “Organizations employ dual authorization to ensure that information system media sanitization cannot occur unless two technically qualified individuals conduct the task. Individuals sanitizing information system media possess sufficient skills/expertise to determine if the proposed sanitization reflects applicable federal/organizational standards, policies, and procedures. Dual authorization also helps to ensure that sanitization occurs as intended, both protecting against errors and false claims of having performed the sanitization actions. Dual authorization may also be known as two-person control.”
Related Controls:AC-3,MP-2
MP-6 (8)¶
MP-6 (8) : REMOTE PURGING / WIPING OF INFORMATION
Priority:
Baseline-Impact:
Description: “The organization provides the capability to purge/wipe information from [Assignment: organization-defined information systems, system components, or devices] either remotely or under the following conditions: [Assignment: organization-defined conditions].” Supplemental Guidance: “This control enhancement protects data/information on organizational information systems, system components, or devices (e.g., mobile devices) if such systems, components, or devices are obtained by unauthorized individuals. Remote purge/wipe commands require strong authentication to mitigate the risk of unauthorized individuals purging/wiping the system/component/device. The purge/wipe function can be implemented in a variety of ways including, for example, by overwriting data/information multiple times or by destroying the key necessary to decrypt encrypted data.”
Related Controls: .. _header_MP-7:
MP-7¶
Control Family: MEDIA PROTECTION
MP-7¶
MP-7 : MEDIA USE
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization [Selection: restricts; prohibits] the use of [Assignment: organization-defined types of information system media] on [Assignment: organization-defined information systems or system components] using [Assignment: organization-defined security safeguards].” Supplemental Guidance: “Information system media includes both digital and non-digital media. Digital media includes, for example, diskettes, magnetic tapes, external/removable hard disk drives, flash drives, compact disks, and digital video disks. Non-digital media includes, for example, paper and microfilm. This control also applies to mobile devices with information storage capability (e.g., smart phones, tablets, E-readers). In contrast to MP-2, which restricts user access to media, this control restricts the use of certain types of media on information systems, for example, restricting/prohibiting the use of flash drives or external hard disk drives. Organizations can employ technical and nontechnical safeguards (e.g., policies, procedures, rules of behavior) to restrict the use of information system media. Organizations may restrict the use of portable storage devices, for example, by using physical cages on workstations to prohibit access to certain external ports, or disabling/removing the ability to insert, read or write to such devices. Organizations may also limit the use of portable storage devices to only approved devices including, for example, devices provided by the organization, devices provided by other approved organizations, and devices that are not personally owned. Finally, organizations may restrict the use of portable storage devices based on the type of device, for example, prohibiting the use of writeable, portable storage devices, and implementing this restriction by disabling or removing the capability to write to such devices.”
Related Controls:AC-19,PL-4
MP-7 (1)¶
MP-7 (1) : PROHIBIT USE WITHOUT OWNER
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization prohibits the use of portable storage devices in organizational information systems when such devices have no identifiable owner.” Supplemental Guidance: “Requiring identifiable owners (e.g., individuals, organizations, or projects) for portable storage devices reduces the risk of using such technologies by allowing organizations to assign responsibility and accountability for addressing known vulnerabilities in the devices (e.g., malicious code insertion).”
Related Controls:PL-4
MP-7 (2)¶
MP-7 (2) : PROHIBIT USE OF SANITIZATION-RESISTANT MEDIA
Priority:
Baseline-Impact:
Description: “The organization prohibits the use of sanitization-resistant media in organizational information systems.” Supplemental Guidance: “Sanitization-resistance applies to the capability to purge information from media. Certain types of media do not support sanitize commands, or if supported, the interfaces are not supported in a standardized way across these devices. Sanitization-resistant media include, for example, compact flash, embedded flash on boards and devices, solid state drives, and USB removable media.”
Related Controls:MP-6 .. _header_MP-8:
MP-8¶
Control Family: MEDIA PROTECTION
MP-8¶
MP-8 : MEDIA DOWNGRADING
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “This control applies to all information system media, digital and non-digital, subject to release outside of the organization, whether or not the media is considered removable. The downgrading process, when applied to system media, removes information from the media, typically by security category or classification level, such that the information cannot be retrieved or reconstructed. Downgrading of media includes redacting information to enable wider release and distribution. Downgrading of media also ensures that empty space on the media (e.g., slack space within files) is devoid of information.”
Related Controls:
Description: “Establishes [Assignment: organization-defined information system media downgrading process] that includes employing downgrading mechanisms with [Assignment: organization-defined strength and integrity];”
Description: “Ensures that the information system media downgrading process is commensurate with the security category and/or classification level of the information to be removed and the access authorizations of the potential recipients of the downgraded information;”
Description: “Identifies [Assignment: organization-defined information system media requiring downgrading]; and”
Description: “Downgrades the identified information system media using the established process.”
MP-8 (1)¶
MP-8 (1) : DOCUMENTATION OF PROCESS
Priority:
Baseline-Impact:
Description: “The organization documents information system media downgrading actions.” Supplemental Guidance: “Organizations can document the media downgrading process by providing information such as the downgrading technique employed, the identification number of the downgraded media, and the identity of the individual that authorized and/or performed the downgrading action.”
Related Controls:
MP-8 (2)¶
MP-8 (2) : EQUIPMENT TESTING
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined tests] of downgrading equipment and procedures to verify correct performance [Assignment: organization-defined frequency].” Supplemental Guidance:
Related Controls:
MP-8 (3)¶
MP-8 (3) : CONTROLLED UNCLASSIFIED INFORMATION
Priority:
Baseline-Impact:
Description: “The organization downgrades information system media containing [Assignment: organization-defined Controlled Unclassified Information (CUI)] prior to public release in accordance with applicable federal and organizational standards and policies.” Supplemental Guidance:
Related Controls:
MP-8 (4)¶
MP-8 (4) : CLASSIFIED INFORMATION
Priority:
Baseline-Impact:
Description: “The organization downgrades information system media containing classified information prior to release to individuals without required access authorizations in accordance with NSA standards and policies.” Supplemental Guidance: “Downgrading of classified information uses approved sanitization tools, techniques, and procedures to transfer information confirmed to be unclassified from classified information systems to unclassified media.”
Related Controls: .. _header_PE-1:
PE-1¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-1¶
PE-1 : PHYSICAL AND ENVIRONMENTAL PROTECTION POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the PE family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A physical and environmental protection policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the physical and environmental protection policy and associated physical and environmental protection controls; and”
Description: “Reviews and updates the current:”
Description: “Physical and environmental protection policy [Assignment: organization-defined frequency]; and”
Description: “Physical and environmental protection procedures [Assignment: organization-defined frequency].” .. _header_PE-2:
PE-2¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-2¶
PE-2 : PHYSICAL ACCESS AUTHORIZATIONS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies to organizational employees and visitors. Individuals (e.g., employees, contractors, and others) with permanent physical access authorization credentials are not considered visitors. Authorization credentials include, for example, badges, identification cards, and smart cards. Organizations determine the strength of authorization credentials needed (including level of forge-proof badges, smart cards, or identification cards) consistent with federal standards, policies, and procedures. This control only applies to areas within facilities that have not been designated as publicly accessible.”
Related Controls:PE-3,PE-4,PS-3
Description: “Develops, approves, and maintains a list of individuals with authorized access to the facility where the information system resides;”
Description: “Issues authorization credentials for facility access;”
Description: “Reviews the access list detailing authorized facility access by individuals [Assignment: organization-defined frequency]; and”
Description: “Removes individuals from the facility access list when access is no longer required.”
PE-2 (1)¶
PE-2 (1) : ACCESS BY POSITION / ROLE
Priority:
Baseline-Impact:
Description: “The organization authorizes physical access to the facility where the information system resides based on position or role.” Supplemental Guidance:
Related Controls:AC-2,AC-3,AC-6
PE-2 (2)¶
PE-2 (2) : TWO FORMS OF IDENTIFICATION
Priority:
Baseline-Impact:
Description: “The organization requires two forms of identification from [Assignment: organization-defined list of acceptable forms of identification] for visitor access to the facility where the information system resides.” Supplemental Guidance: “Acceptable forms of government photo identification include, for example, passports, Personal Identity Verification (PIV) cards, and drivers� licenses. In the case of gaining access to facilities using automated mechanisms, organizations may use PIV cards, key cards, PINs, and biometrics.”
Related Controls:IA-2,IA-4,IA-5
PE-2 (3)¶
PE-2 (3) : RESTRICT UNESCORTED ACCESS
Priority:
Baseline-Impact:
Description: “The organization restricts unescorted access to the facility where the information system resides to personnel with [Selection (one or more): security clearances for all information contained within the system; formal access authorizations for all information contained within the system; need for access to all information contained within the system; [Assignment: organization-defined credentials]].” Supplemental Guidance: “Due to the highly sensitive nature of classified information stored within certain facilities, it is important that individuals lacking sufficient security clearances, access approvals, or need to know, be escorted by individuals with appropriate credentials to ensure that such information is not exposed or otherwise compromised.”
Related Controls:PS-2,PS-6 .. _header_PE-3:
PE-3¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-3¶
PE-3 : PHYSICAL ACCESS CONTROL
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies to organizational employees and visitors. Individuals (e.g., employees, contractors, and others) with permanent physical access authorization credentials are not considered visitors. Organizations determine the types of facility guards needed including, for example, professional physical security staff or other personnel such as administrative staff or information system users. Physical access devices include, for example, keys, locks, combinations, and card readers. Safeguards for publicly accessible areas within organizational facilities include, for example, cameras, monitoring by guards, and isolating selected information systems and/or system components in secured areas. Physical access control systems comply with applicable federal laws, Executive Orders, directives, policies, regulations, standards, and guidance. The Federal Identity, Credential, and Access Management Program provides implementation guidance for identity, credential, and access management capabilities for physical access control systems. Organizations have flexibility in the types of audit logs employed. Audit logs can be procedural (e.g., a written log of individuals accessing the facility and when such access occurred), automated (e.g., capturing ID provided by a PIV card), or some combination thereof. Physical access points can include facility access points, interior access points to information systems and/or components requiring supplemental access controls, or both. Components of organizational information systems (e.g., workstations, terminals) may be located in areas designated as publicly accessible with organizations safeguarding access to such devices.”
Related Controls:AU-2,AU-6,MP-2,MP-4,PE-2,PE-4,PE-5,PS-3,RA-3
Description: “Enforces physical access authorizations at [Assignment: organization-defined entry/exit points to the facility where the information system resides] by;”
Description: “Verifying individual access authorizations before granting access to the facility; and”
Description: “Controlling ingress/egress to the facility using [Selection (one or more): [Assignment: organization-defined physical access control systems/devices]; guards];”
Description: “Maintains physical access audit logs for [Assignment: organization-defined entry/exit points];”
Description: “Provides [Assignment: organization-defined security safeguards] to control access to areas within the facility officially designated as publicly accessible;”
Description: “Escorts visitors and monitors visitor activity [Assignment: organization-defined circumstances requiring visitor escorts and monitoring];”
Description: “Secures keys, combinations, and other physical access devices;”
Description: “Inventories [Assignment: organization-defined physical access devices] every [Assignment: organization-defined frequency]; and”
Description: “Changes combinations and keys [Assignment: organization-defined frequency] and/or when keys are lost, combinations are compromised, or individuals are transferred or terminated.”
PE-3 (1)¶
PE-3 (1) : INFORMATION SYSTEM ACCESS
Priority:
Baseline-Impact: HIGH
Description: “The organization enforces physical access authorizations to the information system in addition to the physical access controls for the facility at [Assignment: organization-defined physical spaces containing one or more components of the information system].” Supplemental Guidance: “This control enhancement provides additional physical security for those areas within facilities where there is a concentration of information system components (e.g., server rooms, media storage areas, data and communications centers).”
Related Controls:PS-2
PE-3 (2)¶
PE-3 (2) : FACILITY / INFORMATION SYSTEM BOUNDARIES
Priority:
Baseline-Impact:
Description: “The organization performs security checks [Assignment: organization-defined frequency] at the physical boundary of the facility or information system for unauthorized exfiltration of information or removal of information system components.” Supplemental Guidance: “Organizations determine the extent, frequency, and/or randomness of security checks to adequately mitigate risk associated with exfiltration.”
Related Controls:AC-4,SC-7
PE-3 (3)¶
PE-3 (3) : CONTINUOUS GUARDS / ALARMS / MONITORING
Priority:
Baseline-Impact:
Description: “The organization employs guards and/or alarms to monitor every physical access point to the facility where the information system resides 24 hours per day, 7 days per week.” Supplemental Guidance:
Related Controls:CP-6,CP-7
PE-3 (4)¶
PE-3 (4) : LOCKABLE CASINGS
Priority:
Baseline-Impact:
Description: “The organization uses lockable physical casings to protect [Assignment: organization-defined information system components] from unauthorized physical access.” Supplemental Guidance:
Related Controls:
PE-3 (5)¶
PE-3 (5) : TAMPER PROTECTION
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined security safeguards] to [Selection (one or more): detect; prevent] physical tampering or alteration of [Assignment: organization-defined hardware components] within the information system.” Supplemental Guidance: “Organizations may implement tamper detection/prevention at selected hardware components or tamper detection at some components and tamper prevention at other components. Tamper detection/prevention activities can employ many types of anti-tamper technologies including, for example, tamper-detection seals and anti-tamper coatings. Anti-tamper programs help to detect hardware alterations through counterfeiting and other supply chain-related risks.”
Related Controls:SA-12
PE-3 (6)¶
PE-3 (6) : FACILITY PENETRATION TESTING
Priority:
Baseline-Impact:
Description: “The organization employs a penetration testing process that includes [Assignment: organization-defined frequency], unannounced attempts to bypass or circumvent security controls associated with physical access points to the facility.” Supplemental Guidance:
Related Controls:CA-2,CA-7 .. _header_PE-4:
PE-4¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-4¶
PE-4 : ACCESS CONTROL FOR TRANSMISSION MEDIUM
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization controls physical access to [Assignment: organization-defined information system distribution and transmission lines] within organizational facilities using [Assignment: organization-defined security safeguards].” Supplemental Guidance: “Physical security safeguards applied to information system distribution and transmission lines help to prevent accidental damage, disruption, and physical tampering. In addition, physical safeguards may be necessary to help prevent eavesdropping or in transit modification of unencrypted transmissions. Security safeguards to control physical access to system distribution and transmission lines include, for example: (i) locked wiring closets; (ii) disconnected or locked spare jacks; and/or (iii) protection of cabling by conduit or cable trays.”
Related Controls:MP-2,MP-4,PE-2,PE-3,PE-5,SC-7,SC-8
PE-5¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-5¶
PE-5 : ACCESS CONTROL FOR OUTPUT DEVICES
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The organization controls physical access to information system output devices to prevent unauthorized individuals from obtaining the output.” Supplemental Guidance: “Controlling physical access to output devices includes, for example, placing output devices in locked rooms or other secured areas and allowing access to authorized individuals only, and placing output devices in locations that can be monitored by organizational personnel. Monitors, printers, copiers, scanners, facsimile machines, and audio devices are examples of information system output devices.”
Related Controls:PE-2,PE-3,PE-4,PE-18
PE-5 (1)¶
PE-5 (1) : ACCESS TO OUTPUT BY AUTHORIZED INDIVIDUALS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Controlling physical access to selected output devices includes, for example, placing printers, copiers, and facsimile machines in controlled areas with keypad access controls or limiting access to individuals with certain types of badges.”
Related Controls:
Description: “Controls physical access to output from [Assignment: organization-defined output devices]; and”
Description: “Ensures that only authorized individuals receive output from the device.”
PE-5 (2)¶
PE-5 (2) : ACCESS TO OUTPUT BY INDIVIDUAL IDENTITY
Priority:
Baseline-Impact:
Description: “The information system:” Supplemental Guidance: “Controlling physical access to selected output devices includes, for example, installing security functionality on printers, copiers, and facsimile machines that allows organizations to implement authentication (e.g., using a PIN or hardware token) on output devices prior to the release of output to individuals.”
Related Controls:
Description: “Controls physical access to output from [Assignment: organization-defined output devices]; and”
Description: “Links individual identity to receipt of the output from the device.”
PE-5 (3)¶
PE-5 (3) : MARKING OUTPUT DEVICES
Priority:
Baseline-Impact:
Description: “The organization marks [Assignment: organization-defined information system output devices] indicating the appropriate security marking of the information permitted to be output from the device.” Supplemental Guidance: “Outputs devices include, for example, printers, monitors, facsimile machines, scanners, copiers, and audio devices. This control enhancement is generally applicable to information system output devices other than mobiles devices.”
Related Controls: .. _header_PE-6:
PE-6¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-6¶
PE-6 : MONITORING PHYSICAL ACCESS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Organizational incident response capabilities include investigations of and responses to detected physical security incidents. Security incidents include, for example, apparent security violations or suspicious physical access activities. Suspicious physical access activities include, for example: (i) accesses outside of normal work hours; (ii) repeated accesses to areas not normally accessed; (iii) accesses for unusual lengths of time; and (iv) out-of-sequence accesses.”
Related Controls:CA-7,IR-4,IR-8
Description: “Monitors physical access to the facility where the information system resides to detect and respond to physical security incidents;”
Description: “Reviews physical access logs [Assignment: organization-defined frequency] and upon occurrence of [Assignment: organization-defined events or potential indications of events]; and”
Description: “Coordinates results of reviews and investigations with the organizational incident response capability.”
PE-6 (1)¶
PE-6 (1) : INTRUSION ALARMS / SURVEILLANCE EQUIPMENT
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization monitors physical intrusion alarms and surveillance equipment.” Supplemental Guidance:
Related Controls:
PE-6 (2)¶
PE-6 (2) : AUTOMATED INTRUSION RECOGNITION / RESPONSES
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to recognize [Assignment: organization-defined classes/types of intrusions] and initiate [Assignment: organization-defined response actions].” Supplemental Guidance:
Related Controls:SI-4
PE-6 (3)¶
PE-6 (3) : VIDEO SURVEILLANCE
Priority:
Baseline-Impact:
Description: “The organization employs video surveillance of [Assignment: organization-defined operational areas] and retains video recordings for [Assignment: organization-defined time period].” Supplemental Guidance: “This control enhancement focuses on recording surveillance video for purposes of subsequent review, if circumstances so warrant (e.g., a break-in detected by other means). It does not require monitoring surveillance video although organizations may choose to do so. Note that there may be legal considerations when performing and retaining video surveillance, especially if such surveillance is in a public location.”
Related Controls:
PE-6 (4)¶
PE-6 (4) : MONITORING PHYSICAL ACCESS TO INFORMATION SYSTEMS
Priority:
Baseline-Impact: HIGH
Description: “The organization monitors physical access to the information system in addition to the physical access monitoring of the facility as [Assignment: organization-defined physical spaces containing one or more components of the information system].” Supplemental Guidance: “This control enhancement provides additional monitoring for those areas within facilities where there is a concentration of information system components (e.g., server rooms, media storage areas, communications centers).”
Related Controls:PS-2,PS-3 .. _header_PE-7:
PE-7¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-7¶
PE-7 : VISITOR CONTROL
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PE-2 and PE-3].” Supplemental Guidance:
Related Controls:
PE-8¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-8¶
PE-8 : VISITOR ACCESS RECORDS
Priority: P3
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Visitor access records include, for example, names and organizations of persons visiting, visitor signatures, forms of identification, dates of access, entry and departure times, purposes of visits, and names and organizations of persons visited. Visitor access records are not required for publicly accessible areas.”
Related Controls:
Description: “Maintains visitor access records to the facility where the information system resides for [Assignment: organization-defined time period]; and”
Description: “Reviews visitor access records [Assignment: organization-defined frequency].”
PE-8 (1)¶
PE-8 (1) : AUTOMATED RECORDS MAINTENANCE / REVIEW
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to facilitate the maintenance and review of visitor access records.” Supplemental Guidance:
Related Controls:
PE-8 (2)¶
PE-8 (2) : PHYSICAL ACCESS RECORDS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PE-2].” Supplemental Guidance:
Related Controls: .. _header_PE-9:
PE-9¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-9¶
PE-9 : POWER EQUIPMENT AND CABLING
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization protects power equipment and power cabling for the information system from damage and destruction.” Supplemental Guidance: “Organizations determine the types of protection necessary for power equipment and cabling employed at different locations both internal and external to organizational facilities and environments of operation. This includes, for example, generators and power cabling outside of buildings, internal cabling and uninterruptable power sources within an office or data center, and power sources for self-contained entities such as vehicles and satellites.”
Related Controls:PE-4
PE-9 (1)¶
PE-9 (1) : REDUNDANT CABLING
Priority:
Baseline-Impact:
Description: “The organization employs redundant power cabling paths that are physically separated by [Assignment: organization-defined distance].” Supplemental Guidance: “Physically separate, redundant power cables help to ensure that power continues to flow in the event one of the cables is cut or otherwise damaged.”
Related Controls:
PE-9 (2)¶
PE-9 (2) : AUTOMATIC VOLTAGE CONTROLS
Priority:
Baseline-Impact:
Description: “The organization employs automatic voltage controls for [Assignment: organization-defined critical information system components].” Supplemental Guidance:
Related Controls: .. _header_PE-10:
PE-10¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-10¶
PE-10 : EMERGENCY SHUTOFF
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies primarily to facilities containing concentrations of information system resources including, for example, data centers, server rooms, and mainframe computer rooms.”
Related Controls:PE-15
Description: “Provides the capability of shutting off power to the information system or individual system components in emergency situations;”
Description: “Places emergency shutoff switches or devices in [Assignment: organization-defined location by information system or system component] to facilitate safe and easy access for personnel; and”
Description: “Protects emergency power shutoff capability from unauthorized activation.”
PE-10 (1)¶
PE-10 (1) : ACCIDENTAL / UNAUTHORIZED ACTIVATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PE-10].” Supplemental Guidance:
Related Controls: .. _header_PE-11:
PE-11¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-11¶
PE-11 : EMERGENCY POWER
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization provides a short-term uninterruptible power supply to facilitate [Selection (one or more): an orderly shutdown of the information system; transition of the information system to long-term alternate power] in the event of a primary power source loss.” Supplemental Guidance:
Related Controls:AT-3,CP-2,CP-7
PE-11 (1)¶
PE-11 (1) : LONG-TERM ALTERNATE POWER SUPPLY - MINIMAL OPERATIONAL CAPABILITY
Priority:
Baseline-Impact: HIGH
Description: “The organization provides a long-term alternate power supply for the information system that is capable of maintaining minimally required operational capability in the event of an extended loss of the primary power source.” Supplemental Guidance: “This control enhancement can be satisfied, for example, by the use of a secondary commercial power supply or other external power supply. Long-term alternate power supplies for the information system can be either manually or automatically activated.”
Related Controls:
PE-11 (2)¶
PE-11 (2) : LONG-TERM ALTERNATE POWER SUPPLY - SELF-CONTAINED
Priority:
Baseline-Impact:
Description: “The organization provides a long-term alternate power supply for the information system that is:” Supplemental Guidance: “This control enhancement can be satisfied, for example, by the use of one or more generators with sufficient capacity to meet the needs of the organization. Long-term alternate power supplies for organizational information systems are either manually or automatically activated.”
Related Controls:
Description: “Self-contained;”
Description: “Not reliant on external power generation; and”
Description: “Capable of maintaining [Selection: minimally required operational capability; full operational capability] in the event of an extended loss of the primary power source.” .. _header_PE-12:
PE-12¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-12¶
PE-12 : EMERGENCY LIGHTING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization employs and maintains automatic emergency lighting for the information system that activates in the event of a power outage or disruption and that covers emergency exits and evacuation routes within the facility.” Supplemental Guidance: “This control applies primarily to facilities containing concentrations of information system resources including, for example, data centers, server rooms, and mainframe computer rooms.”
Related Controls:CP-2,CP-7
PE-12 (1)¶
PE-12 (1) : ESSENTIAL MISSIONS / BUSINESS FUNCTIONS
Priority:
Baseline-Impact:
Description: “The organization provides emergency lighting for all areas within the facility supporting essential missions and business functions.” Supplemental Guidance:
Related Controls: .. _header_PE-13:
PE-13¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-13¶
PE-13 : FIRE PROTECTION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization employs and maintains fire suppression and detection devices/systems for the information system that are supported by an independent energy source.” Supplemental Guidance: “This control applies primarily to facilities containing concentrations of information system resources including, for example, data centers, server rooms, and mainframe computer rooms. Fire suppression and detection devices/systems include, for example, sprinkler systems, handheld fire extinguishers, fixed fire hoses, and smoke detectors.”
Related Controls:
PE-13 (1)¶
PE-13 (1) : DETECTION DEVICES / SYSTEMS
Priority:
Baseline-Impact: HIGH
Description: “The organization employs fire detection devices/systems for the information system that activate automatically and notify [Assignment: organization-defined personnel or roles] and [Assignment: organization-defined emergency responders] in the event of a fire.” Supplemental Guidance: “Organizations can identify specific personnel, roles, and emergency responders in the event that individuals on the notification list must have appropriate access authorizations and/or clearances, for example, to obtain access to facilities where classified operations are taking place or where there are information systems containing classified information.”
Related Controls:
PE-13 (2)¶
PE-13 (2) : SUPPRESSION DEVICES / SYSTEMS
Priority:
Baseline-Impact: HIGH
Description: “The organization employs fire suppression devices/systems for the information system that provide automatic notification of any activation to Assignment: organization-defined personnel or roles] and [Assignment: organization-defined emergency responders].” Supplemental Guidance: “Organizations can identify specific personnel, roles, and emergency responders in the event that individuals on the notification list must have appropriate access authorizations and/or clearances, for example, to obtain access to facilities where classified operations are taking place or where there are information systems containing classified information.”
Related Controls:
PE-13 (3)¶
PE-13 (3) : AUTOMATIC FIRE SUPPRESSION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs an automatic fire suppression capability for the information system when the facility is not staffed on a continuous basis.” Supplemental Guidance:
Related Controls:
PE-13 (4)¶
PE-13 (4) : INSPECTIONS
Priority:
Baseline-Impact:
Description: “The organization ensures that the facility undergoes [Assignment: organization-defined frequency] inspections by authorized and qualified inspectors and resolves identified deficiencies within [Assignment: organization-defined time period].” Supplemental Guidance:
Related Controls: .. _header_PE-14:
PE-14¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-14¶
PE-14 : TEMPERATURE AND HUMIDITY CONTROLS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies primarily to facilities containing concentrations of information system resources, for example, data centers, server rooms, and mainframe computer rooms.”
Related Controls:AT-3
Description: “Maintains temperature and humidity levels within the facility where the information system resides at [Assignment: organization-defined acceptable levels]; and”
Description: “Monitors temperature and humidity levels [Assignment: organization-defined frequency].”
PE-14 (1)¶
PE-14 (1) : AUTOMATIC CONTROLS
Priority:
Baseline-Impact:
Description: “The organization employs automatic temperature and humidity controls in the facility to prevent fluctuations potentially harmful to the information system.” Supplemental Guidance:
Related Controls:
PE-14 (2)¶
PE-14 (2) : MONITORING WITH ALARMS / NOTIFICATIONS
Priority:
Baseline-Impact:
Description: “The organization employs temperature and humidity monitoring that provides an alarm or notification of changes potentially harmful to personnel or equipment.” Supplemental Guidance:
Related Controls: .. _header_PE-15:
PE-15¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-15¶
PE-15 : WATER DAMAGE PROTECTION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization protects the information system from damage resulting from water leakage by providing master shutoff or isolation valves that are accessible, working properly, and known to key personnel.” Supplemental Guidance: “This control applies primarily to facilities containing concentrations of information system resources including, for example, data centers, server rooms, and mainframe computer rooms. Isolation valves can be employed in addition to or in lieu of master shutoff valves to shut off water supplies in specific areas of concern, without affecting entire organizations.”
Related Controls:AT-3
PE-15 (1)¶
PE-15 (1) : AUTOMATION SUPPORT
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to detect the presence of water in the vicinity of the information system and alerts [Assignment: organization-defined personnel or roles].” Supplemental Guidance: “Automated mechanisms can include, for example, water detection sensors, alarms, and notification systems.”
Related Controls: .. _header_PE-16:
PE-16¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-16¶
PE-16 : DELIVERY AND REMOVAL
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization authorizes, monitors, and controls [Assignment: organization-defined types of information system components] entering and exiting the facility and maintains records of those items.” Supplemental Guidance: “Effectively enforcing authorizations for entry and exit of information system components may require restricting access to delivery areas and possibly isolating the areas from the information system and media libraries.”
Related Controls:CM-3,MA-2,MA-3,MP-5,SA-12
PE-17¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-17¶
PE-17 : ALTERNATE WORK SITE
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Alternate work sites may include, for example, government facilities or private residences of employees. While commonly distinct from alternative processing sites, alternate work sites may provide readily available alternate locations as part of contingency operations. Organizations may define different sets of security controls for specific alternate work sites or types of sites depending on the work-related activities conducted at those sites. This control supports the contingency planning activities of organizations and the federal telework initiative.”
Related Controls:AC-17,CP-7
Description: “Employs [Assignment: organization-defined security controls] at alternate work sites;”
Description: “Assesses as feasible, the effectiveness of security controls at alternate work sites; and”
Description: “Provides a means for employees to communicate with information security personnel in case of security incidents or problems.” .. _header_PE-18:
PE-18¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-18¶
PE-18 : LOCATION OF INFORMATION SYSTEM COMPONENTS
Priority: P3
Baseline-Impact: HIGH
Description: “The organization positions information system components within the facility to minimize potential damage from [Assignment: organization-defined physical and environmental hazards] and to minimize the opportunity for unauthorized access.” Supplemental Guidance: “Physical and environmental hazards include, for example, flooding, fire, tornados, earthquakes, hurricanes, acts of terrorism, vandalism, electromagnetic pulse, electrical interference, and other forms of incoming electromagnetic radiation. In addition, organizations consider the location of physical entry points where unauthorized individuals, while not being granted access, might nonetheless be in close proximity to information systems and therefore increase the potential for unauthorized access to organizational communications (e.g., through the use of wireless sniffers or microphones).”
Related Controls:CP-2,PE-19,RA-3
PE-18 (1)¶
PE-18 (1) : FACILITY SITE
Priority:
Baseline-Impact:
Description: “The organization plans the location or site of the facility where the information system resides with regard to physical and environmental hazards and for existing facilities, considers the physical and environmental hazards in its risk mitigation strategy.” Supplemental Guidance:
Related Controls:PM-8 .. _header_PE-19:
PE-19¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-19¶
PE-19 : INFORMATION LEAKAGE
Priority: P0
Baseline-Impact:
Description: “The organization protects the information system from information leakage due to electromagnetic signals emanations.” Supplemental Guidance: “Information leakage is the intentional or unintentional release of information to an untrusted environment from electromagnetic signals emanations. Security categories or classifications of information systems (with respect to confidentiality) and organizational security policies guide the selection of security controls employed to protect systems against information leakage due to electromagnetic signals emanations.”
Related Controls:
PE-19 (1)¶
PE-19 (1) : NATIONAL EMISSIONS / TEMPEST POLICIES AND PROCEDURES
Priority:
Baseline-Impact:
Description: “The organization ensures that information system components, associated data communications, and networks are protected in accordance with national emissions and TEMPEST policies and procedures based on the security category or classification of the information.” Supplemental Guidance:
Related Controls: .. _header_PE-20:
PE-20¶
Control Family: PHYSICAL AND ENVIRONMENTAL PROTECTION
PE-20¶
PE-20 : ASSET MONITORING AND TRACKING
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Asset location technologies can help organizations ensure that critical assets such as vehicles or essential information system components remain in authorized locations. Organizations consult with the Office of the General Counsel and the Senior Agency Official for Privacy (SAOP)/Chief Privacy Officer (CPO) regarding the deployment and use of asset location technologies to address potential privacy concerns.”
Related Controls:CM-8
Description: “Employs [Assignment: organization-defined asset location technologies] to track and monitor the location and movement of [Assignment: organization-defined assets] within [Assignment: organization-defined controlled areas]; and”
Description: “Ensures that asset location technologies are employed in accordance with applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance.” .. _header_PL-1:
PL-1¶
Control Family: PLANNING
PL-1¶
PL-1 : SECURITY PLANNING POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the PL family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A security planning policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the security planning policy and associated security planning controls; and”
Description: “Reviews and updates the current:”
Description: “Security planning policy [Assignment: organization-defined frequency]; and”
Description: “Security planning procedures [Assignment: organization-defined frequency].” .. _header_PL-2:
PL-2¶
Control Family: PLANNING
PL-2¶
PL-2 : SYSTEM SECURITY PLAN
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Security plans relate security requirements to a set of security controls and control enhancements. Security plans also describe, at a high level, how the security controls and control enhancements meet those security requirements, but do not provide detailed, technical descriptions of the specific design or implementation of the controls/enhancements. Security plans contain sufficient information (including the specification of parameter values for assignment and selection statements either explicitly or by reference) to enable a design and implementation that is unambiguously compliant with the intent of the plans and subsequent determinations of risk to organizational operations and assets, individuals, other organizations, and the Nation if the plan is implemented as intended. Organizations can also apply tailoring guidance to the security control baselines in Appendix D and CNSS Instruction 1253 to develop overlays for community-wide use or to address specialized requirements, technologies, or missions/environments of operation (e.g., DoD-tactical, Federal Public Key Infrastructure, or Federal Identity, Credential, and Access Management, space operations). Appendix I provides guidance on developing overlays. Security plans need not be single documents; the plans can be a collection of various documents including documents that already exist. Effective security plans make extensive use of references to policies, procedures, and additional documents (e.g., design and implementation specifications) where more detailed information can be obtained. This reduces the documentation requirements associated with security programs and maintains security-related information in other established management/operational areas related to enterprise architecture, system development life cycle, systems engineering, and acquisition. For example, security plans do not contain detailed contingency plan or incident response plan information but instead provide explicitly or by reference, sufficient information to define what needs to be accomplished by those plans.”
Related Controls:AC-2,AC-6,AC-14,AC-17,AC-20,CA-2,CA-3,CA-7,CM-9,CP-2,IR-8,MA-4,MA-5,MP-2,MP-4,MP-5,PL-7,PM-1,PM-7,PM-8,PM-9,PM-11,SA-5,SA-17
Description: “Develops a security plan for the information system that:”
Description: “Is consistent with the organization�s enterprise architecture;”
Description: “Explicitly defines the authorization boundary for the system;”
Description: “Describes the operational context of the information system in terms of missions and business processes;”
Description: “Provides the security categorization of the information system including supporting rationale;”
Description: “Describes the operational environment for the information system and relationships with or connections to other information systems;”
Description: “Provides an overview of the security requirements for the system;”
Description: “Identifies any relevant overlays, if applicable;”
Description: “Describes the security controls in place or planned for meeting those requirements including a rationale for the tailoring decisions; and”
Description: “Is reviewed and approved by the authorizing official or designated representative prior to plan implementation;”
Description: “Distributes copies of the security plan and communicates subsequent changes to the plan to [Assignment: organization-defined personnel or roles];”
Description: “Reviews the security plan for the information system [Assignment: organization-defined frequency];”
Description: “Updates the plan to address changes to the information system/environment of operation or problems identified during plan implementation or security control assessments; and”
Description: “Protects the security plan from unauthorized disclosure and modification.”
PL-2 (1)¶
PL-2 (1) : CONCEPT OF OPERATIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PL-7].” Supplemental Guidance:
Related Controls:
PL-2 (2)¶
PL-2 (2) : FUNCTIONAL ARCHITECTURE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PL-8].” Supplemental Guidance:
Related Controls:
PL-2 (3)¶
PL-2 (3) : PLAN / COORDINATE WITH OTHER ORGANIZATIONAL ENTITIES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization plans and coordinates security-related activities affecting the information system with [Assignment: organization-defined individuals or groups] before conducting such activities in order to reduce the impact on other organizational entities.” Supplemental Guidance: “Security-related activities include, for example, security assessments, audits, hardware and software maintenance, patch management, and contingency plan testing. Advance planning and coordination includes emergency and nonemergency (i.e., planned or nonurgent unplanned) situations. The process defined by organizations to plan and coordinate security-related activities can be included in security plans for information systems or other documents, as appropriate.”
Related Controls:CP-4,IR-4 .. _header_PL-3:
PL-3¶
Control Family: PLANNING
PL-3¶
PL-3 : SYSTEM SECURITY PLAN UPDATE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PL-2].” Supplemental Guidance:
Related Controls:
PL-4¶
Control Family: PLANNING
PL-4¶
PL-4 : RULES OF BEHAVIOR
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control enhancement applies to organizational users. Organizations consider rules of behavior based on individual user roles and responsibilities, differentiating, for example, between rules that apply to privileged users and rules that apply to general users. Establishing rules of behavior for some types of non-organizational users including, for example, individuals who simply receive data/information from federal information systems, is often not feasible given the large number of such users and the limited nature of their interactions with the systems. Rules of behavior for both organizational and non-organizational users can also be established in AC-8, System Use Notification. PL-4 b. (the signed acknowledgment portion of this control) may be satisfied by the security awareness training and role-based security training programs conducted by organizations if such training includes rules of behavior. Organizations can use electronic signatures for acknowledging rules of behavior.”
Related Controls:AC-2,AC-6,AC-8,AC-9,AC-17,AC-18,AC-19,AC-20,AT-2,AT-3,CM-11,IA-2,IA-4,IA-5,MP-7,PS-6,PS-8,SA-5
Description: “Establishes and makes readily available to individuals requiring access to the information system, the rules that describe their responsibilities and expected behavior with regard to information and information system usage;”
Description: “Receives a signed acknowledgment from such individuals, indicating that they have read, understand, and agree to abide by the rules of behavior, before authorizing access to information and the information system;”
Description: “Reviews and updates the rules of behavior [Assignment: organization-defined frequency]; and”
Description: “Requires individuals who have signed a previous version of the rules of behavior to read and re-sign when the rules of behavior are revised/updated.”
PL-4 (1)¶
PL-4 (1) : SOCIAL MEDIA AND NETWORKING RESTRICTIONS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization includes in the rules of behavior, explicit restrictions on the use of social media/networking sites and posting organizational information on public websites.” Supplemental Guidance: “This control enhancement addresses rules of behavior related to the use of social media/networking sites: (i) when organizational personnel are using such sites for official duties or in the conduct of official business; (ii) when organizational information is involved in social media/networking transactions; and (iii) when personnel are accessing social media/networking sites from organizational information systems. Organizations also address specific rules that prevent unauthorized entities from obtaining and/or inferring non-public organizational information (e.g., system account information, personally identifiable information) from social media/networking sites.”
Related Controls: .. _header_PL-5:
PL-5¶
Control Family: PLANNING
PL-5¶
PL-5 : PRIVACY IMPACT ASSESSMENT
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into Appendix J, AR-2].” Supplemental Guidance:
Related Controls:
PL-6¶
Control Family: PLANNING
PL-6¶
PL-6 : SECURITY-RELATED ACTIVITY PLANNING
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PL-2].” Supplemental Guidance:
Related Controls:
PL-7¶
Control Family: PLANNING
PL-7¶
PL-7 : SECURITY CONCEPT OF OPERATIONS
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “The security CONOPS may be included in the security plan for the information system or in other system development life cycle-related documents, as appropriate. Changes to the CONOPS are reflected in ongoing updates to the security plan, the information security architecture, and other appropriate organizational documents (e.g., security specifications for procurements/acquisitions, system development life cycle documents, and systems/security engineering documents).”
Related Controls:PL-2
Description: “Develops a security Concept of Operations (CONOPS) for the information system containing at a minimum, how the organization intends to operate the system from the perspective of information security; and”
Description: “Reviews and updates the CONOPS [Assignment: organization-defined frequency].” .. _header_PL-8:
PL-8¶
Control Family: PLANNING
PL-8¶
PL-8 : INFORMATION SECURITY ARCHITECTURE
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses actions taken by organizations in the design and development of information systems. The information security architecture at the individual information system level is consistent with and complements the more global, organization-wide information security architecture described in PM-7 that is integral to and developed as part of the enterprise architecture. The information security architecture includes an architectural description, the placement/allocation of security functionality (including security controls), security-related information for external interfaces, information being exchanged across the interfaces, and the protection mechanisms associated with each interface. In addition, the security architecture can include other important security-related information, for example, user roles and access privileges assigned to each role, unique security requirements, the types of information processed, stored, and transmitted by the information system, restoration priorities of information and information system services, and any other specific protection needs. In today�s modern architecture, it is becoming less common for organizations to control all information resources. There are going to be key dependencies on external information services and service providers. Describing such dependencies in the information security architecture is important to developing a comprehensive mission/business protection strategy. Establishing, developing, documenting, and maintaining under configuration control, a baseline configuration for organizational information systems is critical to implementing and maintaining an effective information security architecture. The development of the information security architecture is coordinated with the Senior Agency Official for Privacy (SAOP)/Chief Privacy Officer (CPO) to ensure that security controls needed to support privacy requirements are identified and effectively implemented. PL-8 is primarily directed at organizations (i.e., internally focused) to help ensure that organizations develop an information security architecture for the information system, and that the security architecture is integrated with or tightly coupled to the enterprise architecture through the organization-wide information security architecture. In contrast, SA-17 is primarily directed at external information technology product/system developers and integrators (although SA-17 could be used internally within organizations for in-house system development). SA-17, which is complementary to PL-8, is selected when organizations outsource the development of information systems or information system components to external entities, and there is a need to demonstrate/show consistency with the organization�s enterprise architecture and information security architecture.”
Related Controls:CM-2,CM-6,PL-2,PM-7,SA-5,SA-17,Appendix J
Description: “Develops an information security architecture for the information system that:”
Description: “Describes the overall philosophy, requirements, and approach to be taken with regard to protecting the confidentiality, integrity, and availability of organizational information;”
Description: “Describes how the information security architecture is integrated into and supports the enterprise architecture; and”
Description: “Describes any information security assumptions about, and dependencies on, external services;”
Description: “Reviews and updates the information security architecture [Assignment: organization-defined frequency] to reflect updates in the enterprise architecture; and”
Description: “Ensures that planned information security architecture changes are reflected in the security plan, the security Concept of Operations (CONOPS), and organizational procurements/acquisitions.”
PL-8 (1)¶
PL-8 (1) : DEFENSE-IN-DEPTH
Priority:
Baseline-Impact:
Description: “The organization designs its security architecture using a defense-in-depth approach that:” Supplemental Guidance: “Organizations strategically allocate security safeguards (procedural, technical, or both) in the security architecture so that adversaries have to overcome multiple safeguards to achieve their objective. Requiring adversaries to defeat multiple mechanisms makes it more difficult to successfully attack critical information resources (i.e., increases adversary work factor) and also increases the likelihood of detection. The coordination of allocated safeguards is essential to ensure that an attack that involves one safeguard does not create adverse unintended consequences (e.g., lockout, cascading alarms) by interfering with another safeguard. Placement of security safeguards is a key activity. Greater asset criticality or information value merits additional layering. Thus, an organization may choose to place anti-virus software at organizational boundary layers, email/web servers, notebook computers, and workstations to maximize the number of related safeguards adversaries must penetrate before compromising the information and information systems.”
Related Controls:SC-29,SC-36
Description: “Allocates [Assignment: organization-defined security safeguards] to [Assignment: organization-defined locations and architectural layers]; and”
Description: “Ensures that the allocated security safeguards operate in a coordinated and mutually reinforcing manner.”
PL-8 (2)¶
PL-8 (2) : SUPPLIER DIVERSITY
Priority:
Baseline-Impact:
Description: “The organization requires that [Assignment: organization-defined security safeguards] allocated to [Assignment: organization-defined locations and architectural layers] are obtained from different suppliers.” Supplemental Guidance: “Different information technology products have different strengths and weaknesses. Providing a broad spectrum of products complements the individual offerings. For example, vendors offering malicious code protection typically update their products at different times, often developing solutions for known viruses, Trojans, or worms according to their priorities and development schedules. By having different products at different locations (e.g., server, boundary, desktop) there is an increased likelihood that at least one will detect the malicious code.”
Related Controls:SA-12 .. _header_PL-9:
PL-9¶
Control Family: PLANNING
PL-9¶
PL-9 : CENTRAL MANAGEMENT
Priority: P0
Baseline-Impact:
Description: “The organization centrally manages [Assignment: organization-defined security controls and related processes].” Supplemental Guidance: “Central management refers to the organization-wide management and implementation of selected security controls and related processes. Central management includes planning, implementing, assessing, authorizing, and monitoring the organization-defined, centrally managed security controls and processes. As central management of security controls is generally associated with common controls, such management promotes and facilitates standardization of security control implementations and management and judicious use of organizational resources. Centrally-managed security controls and processes may also meet independence requirements for assessments in support of initial and ongoing authorizations to operate as part of organizational continuous monitoring. As part of the security control selection process, organizations determine which controls may be suitable for central management based on organizational resources and capabilities. Organizations consider that it may not always be possible to centrally manage every aspect of a security control. In such cases, the security control is treated as a hybrid control with the control managed and implemented either centrally or at the information system level. Controls and control enhancements that are candidates for full or partial central management include, but are not limited to: AC-2 (1) (2) (3) (4); AC-17 (1) (2) (3) (9); AC-18 (1) (3) (4) (5); AC-19 (4); AC-22; AC-23; AT-2 (1) (2); AT-3 (1) (2) (3); AT-4; AU-6 (1) (3) (5) (6) (9); AU-7 (1) (2); AU-11, AU-13, AU-16, CA-2 (1) (2) (3); CA-3 (1) (2) (3); CA-7 (1); CA-9; CM-2 (1) (2); CM-3 (1) (4); CM-4; CM-6 (1); CM-7 (4) (5); CM-8 (all); CM-9 (1); CM-10; CM-11; CP-7 (all); CP-8 (all); SC-43; SI-2; SI-3; SI-7; and SI-8.”
Related Controls:
PS-1¶
Control Family: PERSONNEL SECURITY
PS-1¶
PS-1 : PERSONNEL SECURITY POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the PS family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A personnel security policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the personnel security policy and associated personnel security controls; and”
Description: “Reviews and updates the current:”
Description: “Personnel security policy [Assignment: organization-defined frequency]; and”
Description: “Personnel security procedures [Assignment: organization-defined frequency].” .. _header_PS-2:
PS-2¶
Control Family: PERSONNEL SECURITY
PS-2¶
PS-2 : POSITION RISK DESIGNATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Position risk designations reflect Office of Personnel Management policy and guidance. Risk designations can guide and inform the types of authorizations individuals receive when accessing organizational information and information systems. Position screening criteria include explicit information security role appointment requirements (e.g., training, security clearances).”
Related Controls:AT-3,PL-2,PS-3
Description: “Assigns a risk designation to all organizational positions;”
Description: “Establishes screening criteria for individuals filling those positions; and”
Description: “Reviews and updates position risk designations [Assignment: organization-defined frequency].” .. _header_PS-3:
PS-3¶
Control Family: PERSONNEL SECURITY
PS-3¶
PS-3 : PERSONNEL SCREENING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Personnel screening and rescreening activities reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, guidance, and specific criteria established for the risk designations of assigned positions. Organizations may define different rescreening conditions and frequencies for personnel accessing information systems based on types of information processed, stored, or transmitted by the systems.”
Related Controls:AC-2,IA-4,PE-2,PS-2
Description: “Screens individuals prior to authorizing access to the information system; and”
Description: “Rescreens individuals according to [Assignment: organization-defined conditions requiring rescreening and, where rescreening is so indicated, the frequency of such rescreening].”
PS-3 (1)¶
PS-3 (1) : CLASSIFIED INFORMATION
Priority:
Baseline-Impact:
Description: “The organization ensures that individuals accessing an information system processing, storing, or transmitting classified information are cleared and indoctrinated to the highest classification level of the information to which they have access on the system.” Supplemental Guidance:
Related Controls:AC-3,AC-4
PS-3 (2)¶
PS-3 (2) : FORMAL INDOCTRINATION
Priority:
Baseline-Impact:
Description: “The organization ensures that individuals accessing an information system processing, storing, or transmitting types of classified information which require formal indoctrination, are formally indoctrinated for all of the relevant types of information to which they have access on the system.” Supplemental Guidance: “Types of classified information requiring formal indoctrination include, for example, Special Access Program (SAP), Restricted Data (RD), and Sensitive Compartment Information (SCI).”
Related Controls:AC-3,AC-4
PS-3 (3)¶
PS-3 (3) : INFORMATION WITH SPECIAL PROTECTION MEASURES
Priority:
Baseline-Impact:
Description: “The organization ensures that individuals accessing an information system processing, storing, or transmitting information requiring special protection:” Supplemental Guidance: “Organizational information requiring special protection includes, for example, Controlled Unclassified Information (CUI) and Sources and Methods Information (SAMI). Personnel security criteria include, for example, position sensitivity background screening requirements.”
Related Controls:
Description: “Have valid access authorizations that are demonstrated by assigned official government duties; and”
Description: “Satisfy [Assignment: organization-defined additional personnel screening criteria].” .. _header_PS-4:
PS-4¶
Control Family: PERSONNEL SECURITY
PS-4¶
PS-4 : PERSONNEL TERMINATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization, upon termination of individual employment:” Supplemental Guidance: “Information system-related property includes, for example, hardware authentication tokens, system administration technical manuals, keys, identification cards, and building passes. Exit interviews ensure that terminated individuals understand the security constraints imposed by being former employees and that proper accountability is achieved for information system-related property. Security topics of interest at exit interviews can include, for example, reminding terminated individuals of nondisclosure agreements and potential limitations on future employment. Exit interviews may not be possible for some terminated individuals, for example, in cases related to job abandonment, illnesses, and nonavailability of supervisors. Exit interviews are important for individuals with security clearances. Timely execution of termination actions is essential for individuals terminated for cause. In certain situations, organizations consider disabling the information system accounts of individuals that are being terminated prior to the individuals being notified.”
Related Controls:AC-2,IA-4,PE-2,PS-5,PS-6
Description: “Disables information system access within [Assignment: organization-defined time period];”
Description: “Terminates/revokes any authenticators/credentials associated with the individual;”
Description: “Conducts exit interviews that include a discussion of [Assignment: organization-defined information security topics];”
Description: “Retrieves all security-related organizational information system-related property;”
Description: “Retains access to organizational information and information systems formerly controlled by terminated individual; and”
Description: “Notifies [Assignment: organization-defined personnel or roles] within [Assignment: organization-defined time period].”
PS-4 (1)¶
PS-4 (1) : POST-EMPLOYMENT REQUIREMENTS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Organizations consult with the Office of the General Counsel regarding matters of post-employment requirements on terminated individuals.”
Related Controls:
Description: “Notifies terminated individuals of applicable, legally binding post-employment requirements for the protection of organizational information; and”
Description: “Requires terminated individuals to sign an acknowledgment of post-employment requirements as part of the organizational termination process.”
PS-4 (2)¶
PS-4 (2) : AUTOMATED NOTIFICATION
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to notify [Assignment: organization-defined personnel or roles] upon termination of an individual.” Supplemental Guidance: “In organizations with a large number of employees, not all personnel who need to know about termination actions receive the appropriate notifications�or, if such notifications are received, they may not occur in a timely manner. Automated mechanisms can be used to send automatic alerts or notifications to specific organizational personnel or roles (e.g., management personnel, supervisors, personnel security officers, information security officers, systems administrators, or information technology administrators) when individuals are terminated. Such automatic alerts or notifications can be conveyed in a variety of ways, including, for example, telephonically, via electronic mail, via text message, or via websites.”
Related Controls: .. _header_PS-5:
PS-5¶
Control Family: PERSONNEL SECURITY
PS-5¶
PS-5 : PERSONNEL TRANSFER
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control applies when reassignments or transfers of individuals are permanent or of such extended durations as to make the actions warranted. Organizations define actions appropriate for the types of reassignments or transfers, whether permanent or extended. Actions that may be required for personnel transfers or reassignments to other positions within organizations include, for example: (i) returning old and issuing new keys, identification cards, and building passes; (ii) closing information system accounts and establishing new accounts; (iii) changing information system access authorizations (i.e., privileges); and (iv) providing for access to official records to which individuals had access at previous work locations and in previous information system accounts.”
Related Controls:AC-2,IA-4,PE-2,PS-4
Description: “Reviews and confirms ongoing operational need for current logical and physical access authorizations to information systems/facilities when individuals are reassigned or transferred to other positions within the organization;”
Description: “Initiates [Assignment: organization-defined transfer or reassignment actions] within [Assignment: organization-defined time period following the formal transfer action];”
Description: “Modifies access authorization as needed to correspond with any changes in operational need due to reassignment or transfer; and”
Description: “Notifies [Assignment: organization-defined personnel or roles] within [Assignment: organization-defined time period].” .. _header_PS-6:
PS-6¶
Control Family: PERSONNEL SECURITY
PS-6¶
PS-6 : ACCESS AGREEMENTS
Priority: P3
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Access agreements include, for example, nondisclosure agreements, acceptable use agreements, rules of behavior, and conflict-of-interest agreements. Signed access agreements include an acknowledgement that individuals have read, understand, and agree to abide by the constraints associated with organizational information systems to which access is authorized. Organizations can use electronic signatures to acknowledge access agreements unless specifically prohibited by organizational policy.”
Related Controls:PL-4,PS-2,PS-3,PS-4,PS-8
Description: “Develops and documents access agreements for organizational information systems;”
Description: “Reviews and updates the access agreements [Assignment: organization-defined frequency]; and”
Description: “Ensures that individuals requiring access to organizational information and information systems:”
Description: “Sign appropriate access agreements prior to being granted access; and”
Description: “Re-sign access agreements to maintain access to organizational information systems when access agreements have been updated or [Assignment: organization-defined frequency].”
PS-6 (1)¶
PS-6 (1) : INFORMATION REQUIRING SPECIAL PROTECTION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into PS-3].” Supplemental Guidance:
Related Controls:
PS-6 (2)¶
PS-6 (2) : CLASSIFIED INFORMATION REQUIRING SPECIAL PROTECTION
Priority:
Baseline-Impact:
Description: “The organization ensures that access to classified information requiring special protection is granted only to individuals who:” Supplemental Guidance: “Classified information requiring special protection includes, for example, collateral information, Special Access Program (SAP) information, and Sensitive Compartmented Information (SCI). Personnel security criteria reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance.”
Related Controls:
Description: “Have a valid access authorization that is demonstrated by assigned official government duties;”
Description: “Satisfy associated personnel security criteria; and”
Description: “Have read, understood, and signed a nondisclosure agreement.”
PS-6 (3)¶
PS-6 (3) : POST-EMPLOYMENT REQUIREMENTS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Organizations consult with the Office of the General Counsel regarding matters of post-employment requirements on terminated individuals.”
Related Controls:
Description: “Notifies individuals of applicable, legally binding post-employment requirements for protection of organizational information; and”
Description: “Requires individuals to sign an acknowledgment of these requirements, if applicable, as part of granting initial access to covered information.” .. _header_PS-7:
PS-7¶
Control Family: PERSONNEL SECURITY
PS-7¶
PS-7 : THIRD-PARTY PERSONNEL SECURITY
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Third-party providers include, for example, service bureaus, contractors, and other organizations providing information system development, information technology services, outsourced applications, and network and security management. Organizations explicitly include personnel security requirements in acquisition-related documents. Third-party providers may have personnel working at organizational facilities with credentials, badges, or information system privileges issued by organizations. Notifications of third-party personnel changes ensure appropriate termination of privileges and credentials. Organizations define the transfers and terminations deemed reportable by security-related characteristics that include, for example, functions, roles, and nature of credentials/privileges associated with individuals transferred or terminated.”
Related Controls:PS-2,PS-3,PS-4,PS-5,PS-6,SA-9,SA-21
Description: “Establishes personnel security requirements including security roles and responsibilities for third-party providers;”
Description: “Requires third-party providers to comply with personnel security policies and procedures established by the organization;”
Description: “Documents personnel security requirements;”
Description: “Requires third-party providers to notify [Assignment: organization-defined personnel or roles] of any personnel transfers or terminations of third-party personnel who possess organizational credentials and/or badges, or who have information system privileges within [Assignment: organization-defined time period]; and”
Description: “Monitors provider compliance.” .. _header_PS-8:
PS-8¶
Control Family: PERSONNEL SECURITY
PS-8¶
PS-8 : PERSONNEL SANCTIONS
Priority: P3
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Organizational sanctions processes reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Sanctions processes are described in access agreements and can be included as part of general personnel policies and procedures for organizations. Organizations consult with the Office of the General Counsel regarding matters of employee sanctions.”
Related Controls:PL-4,PS-6
Description: “Employs a formal sanctions process for individuals failing to comply with established information security policies and procedures; and”
Description: “Notifies [Assignment: organization-defined personnel or roles] within [Assignment: organization-defined time period] when a formal employee sanctions process is initiated, identifying the individual sanctioned and the reason for the sanction.” .. _header_RA-1:
RA-1¶
Control Family: RISK ASSESSMENT
RA-1¶
RA-1 : RISK ASSESSMENT POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the RA family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A risk assessment policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the risk assessment policy and associated risk assessment controls; and”
Description: “Reviews and updates the current:”
Description: “Risk assessment policy [Assignment: organization-defined frequency]; and”
Description: “Risk assessment procedures [Assignment: organization-defined frequency].” .. _header_RA-2:
RA-2¶
Control Family: RISK ASSESSMENT
RA-2¶
RA-2 : SECURITY CATEGORIZATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Clearly defined authorization boundaries are a prerequisite for effective security categorization decisions. Security categories describe the potential adverse impacts to organizational operations, organizational assets, and individuals if organizational information and information systems are comprised through a loss of confidentiality, integrity, or availability. Organizations conduct the security categorization process as an organization-wide activity with the involvement of chief information officers, senior information security officers, information system owners, mission/business owners, and information owners/stewards. Organizations also consider the potential adverse impacts to other organizations and, in accordance with the USA PATRIOT Act of 2001 and Homeland Security Presidential Directives, potential national-level adverse impacts. Security categorization processes carried out by organizations facilitate the development of inventories of information assets, and along with CM-8, mappings to specific information system components where information is processed, stored, or transmitted.”
Related Controls:CM-8,MP-4,RA-3,SC-7
Description: “Categorizes information and the information system in accordance with applicable federal laws, Executive Orders, directives, policies, regulations, standards, and guidance;”
Description: “Documents the security categorization results (including supporting rationale) in the security plan for the information system; and”
Description: “Ensures that the authorizing official or authorizing official designated representative reviews and approves the security categorization decision.” .. _header_RA-3:
RA-3¶
Control Family: RISK ASSESSMENT
RA-3¶
RA-3 : RISK ASSESSMENT
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Clearly defined authorization boundaries are a prerequisite for effective risk assessments. Risk assessments take into account threats, vulnerabilities, likelihood, and impact to organizational operations and assets, individuals, other organizations, and the Nation based on the operation and use of information systems. Risk assessments also take into account risk from external parties (e.g., service providers, contractors operating information systems on behalf of the organization, individuals accessing organizational information systems, outsourcing entities). In accordance with OMB policy and related E-authentication initiatives, authentication of public users accessing federal information systems may also be required to protect nonpublic or privacy-related information. As such, organizational assessments of risk also address public access to federal information systems. Risk assessments (either formal or informal) can be conducted at all three tiers in the risk management hierarchy (i.e., organization level, mission/business process level, or information system level) and at any phase in the system development life cycle. Risk assessments can also be conducted at various steps in the Risk Management Framework, including categorization, security control selection, security control implementation, security control assessment, information system authorization, and security control monitoring. RA-3 is noteworthy in that the control must be partially implemented prior to the implementation of other controls in order to complete the first two steps in the Risk Management Framework. Risk assessments can play an important role in security control selection processes, particularly during the application of tailoring guidance, which includes security control supplementation.”
Related Controls:RA-2,PM-9
Description: “Conducts an assessment of risk, including the likelihood and magnitude of harm, from the unauthorized access, use, disclosure, disruption, modification, or destruction of the information system and the information it processes, stores, or transmits;”
Description: “Documents risk assessment results in [Selection: security plan; risk assessment report; [Assignment: organization-defined document]];”
Description: “Reviews risk assessment results [Assignment: organization-defined frequency];”
Description: “Disseminates risk assessment results to [Assignment: organization-defined personnel or roles]; and”
Description: “Updates the risk assessment [Assignment: organization-defined frequency] or whenever there are significant changes to the information system or environment of operation (including the identification of new threats and vulnerabilities), or other conditions that may impact the security state of the system.” .. _header_RA-4:
RA-4¶
Control Family: RISK ASSESSMENT
RA-4¶
RA-4 : RISK ASSESSMENT UPDATE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into RA-3].” Supplemental Guidance:
Related Controls:
RA-5¶
Control Family: RISK ASSESSMENT
RA-5¶
RA-5 : VULNERABILITY SCANNING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Security categorization of information systems guides the frequency and comprehensiveness of vulnerability scans. Organizations determine the required vulnerability scanning for all information system components, ensuring that potential sources of vulnerabilities such as networked printers, scanners, and copiers are not overlooked. Vulnerability analyses for custom software applications may require additional approaches such as static analysis, dynamic analysis, binary analysis, or a hybrid of the three approaches. Organizations can employ these analysis approaches in a variety of tools (e.g., web-based application scanners, static analysis tools, binary analyzers) and in source code reviews. Vulnerability scanning includes, for example: (i) scanning for patch levels; (ii) scanning for functions, ports, protocols, and services that should not be accessible to users or devices; and (iii) scanning for improperly configured or incorrectly operating information flow control mechanisms. Organizations consider using tools that express vulnerabilities in the Common Vulnerabilities and Exposures (CVE) naming convention and that use the Open Vulnerability Assessment Language (OVAL) to determine/test for the presence of vulnerabilities. Suggested sources for vulnerability information include the Common Weakness Enumeration (CWE) listing and the National Vulnerability Database (NVD). In addition, security control assessments such as red team exercises provide other sources of potential vulnerabilities for which to scan. Organizations also consider using tools that express vulnerability impact by the Common Vulnerability Scoring System (CVSS).”
Related Controls:CA-2,CA-7,CM-4,CM-6,RA-2,RA-3,SA-11,SI-2
Description: “Scans for vulnerabilities in the information system and hosted applications [Assignment: organization-defined frequency and/or randomly in accordance with organization-defined process] and when new vulnerabilities potentially affecting the system/applications are identified and reported;”
Description: “Employs vulnerability scanning tools and techniques that facilitate interoperability among tools and automate parts of the vulnerability management process by using standards for:”
Description: “Enumerating platforms, software flaws, and improper configurations;”
Description: “Formatting checklists and test procedures; and”
Description: “Measuring vulnerability impact;”
Description: “Analyzes vulnerability scan reports and results from security control assessments;”
Description: “Remediates legitimate vulnerabilities [Assignment: organization-defined response times] in accordance with an organizational assessment of risk; and”
Description: “Shares information obtained from the vulnerability scanning process and security control assessments with [Assignment: organization-defined personnel or roles] to help eliminate similar vulnerabilities in other information systems (i.e., systemic weaknesses or deficiencies).”
RA-5 (1)¶
RA-5 (1) : UPDATE TOOL CAPABILITY
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs vulnerability scanning tools that include the capability to readily update the information system vulnerabilities to be scanned.” Supplemental Guidance: “The vulnerabilities to be scanned need to be readily updated as new vulnerabilities are discovered, announced, and scanning methods developed. This updating process helps to ensure that potential vulnerabilities in the information system are identified and addressed as quickly as possible.”
Related Controls:SI-3,SI-7
RA-5 (2)¶
RA-5 (2) : UPDATE BY FREQUENCY / PRIOR TO NEW SCAN / WHEN IDENTIFIED
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization updates the information system vulnerabilities scanned [Selection (one or more): [Assignment: organization-defined frequency]; prior to a new scan; when new vulnerabilities are identified and reported].” Supplemental Guidance:
Related Controls:SI-3,SI-5
RA-5 (3)¶
RA-5 (3) : BREADTH / DEPTH OF COVERAGE
Priority:
Baseline-Impact:
Description: “The organization employs vulnerability scanning procedures that can identify the breadth and depth of coverage (i.e., information system components scanned and vulnerabilities checked).” Supplemental Guidance:
Related Controls:
RA-5 (4)¶
RA-5 (4) : DISCOVERABLE INFORMATION
Priority:
Baseline-Impact: HIGH
Description: “The organization determines what information about the information system is discoverable by adversaries and subsequently takes [Assignment: organization-defined corrective actions].” Supplemental Guidance: “Discoverable information includes information that adversaries could obtain without directly compromising or breaching the information system, for example, by collecting information the system is exposing or by conducting extensive searches of the web. Corrective actions can include, for example, notifying appropriate organizational personnel, removing designated information, or changing the information system to make designated information less relevant or attractive to adversaries.”
Related Controls:AU-13
RA-5 (5)¶
RA-5 (5) : PRIVILEGED ACCESS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements privileged access authorization to [Assignment: organization-identified information system components] for selected [Assignment: organization-defined vulnerability scanning activities].” Supplemental Guidance: “In certain situations, the nature of the vulnerability scanning may be more intrusive or the information system component that is the subject of the scanning may contain highly sensitive information. Privileged access authorization to selected system components facilitates more thorough vulnerability scanning and also protects the sensitive nature of such scanning.”
Related Controls:
RA-5 (6)¶
RA-5 (6) : AUTOMATED TREND ANALYSES
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to compare the results of vulnerability scans over time to determine trends in information system vulnerabilities.” Supplemental Guidance:
Related Controls:IR-4,IR-5,SI-4
RA-5 (7)¶
RA-5 (7) : AUTOMATED DETECTION AND NOTIFICATION OF UNAUTHORIZED COMPONENTS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CM-8].” Supplemental Guidance:
Related Controls:
RA-5 (8)¶
RA-5 (8) : REVIEW HISTORIC AUDIT LOGS
Priority:
Baseline-Impact:
Description: “The organization reviews historic audit logs to determine if a vulnerability identified in the information system has been previously exploited.” Supplemental Guidance:
Related Controls:AU-6
RA-5 (9)¶
RA-5 (9) : PENETRATION TESTING AND ANALYSES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CA-8].” Supplemental Guidance:
Related Controls:
RA-5 (10)¶
RA-5 (10) : CORRELATE SCANNING INFORMATION
Priority:
Baseline-Impact:
Description: “The organization correlates the output from vulnerability scanning tools to determine the presence of multi-vulnerability/multi-hop attack vectors.” Supplemental Guidance:
Related Controls: .. _header_RA-6:
RA-6¶
Control Family: RISK ASSESSMENT
RA-6¶
RA-6 : TECHNICAL SURVEILLANCE COUNTERMEASURES SURVEY
Priority: P0
Baseline-Impact:
Description: “The organization employs a technical surveillance countermeasures survey at [Assignment: organization-defined locations] [Selection (one or more): [Assignment: organization-defined frequency]; [Assignment: organization-defined events or indicators occur]].” Supplemental Guidance: “Technical surveillance countermeasures surveys are performed by qualified personnel to detect the presence of technical surveillance devices/hazards and to identify technical security weaknesses that could aid in the conduct of technical penetrations of surveyed facilities. Such surveys provide evaluations of the technical security postures of organizations and facilities and typically include thorough visual, electronic, and physical examinations in and about surveyed facilities. The surveys also provide useful input into risk assessments and organizational exposure to potential adversaries.”
Related Controls:
SA-1¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-1¶
SA-1 : SYSTEM AND SERVICES ACQUISITION POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the SA family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A system and services acquisition policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the system and services acquisition policy and associated system and services acquisition controls; and”
Description: “Reviews and updates the current:”
Description: “System and services acquisition policy [Assignment: organization-defined frequency]; and”
Description: “System and services acquisition procedures [Assignment: organization-defined frequency].” .. _header_SA-2:
SA-2¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-2¶
SA-2 : ALLOCATION OF RESOURCES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Resource allocation for information security includes funding for the initial information system or information system service acquisition and funding for the sustainment of the system/service.”
Related Controls:PM-3,PM-11
Description: “Determines information security requirements for the information system or information system service in mission/business process planning;”
Description: “Determines, documents, and allocates the resources required to protect the information system or information system service as part of its capital planning and investment control process; and”
Description: “Establishes a discrete line item for information security in organizational programming and budgeting documentation.” .. _header_SA-3:
SA-3¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-3¶
SA-3 : SYSTEM DEVELOPMENT LIFE CYCLE
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “A well-defined system development life cycle provides the foundation for the successful development, implementation, and operation of organizational information systems. To apply the required security controls within the system development life cycle requires a basic understanding of information security, threats, vulnerabilities, adverse impacts, and risk to critical missions/business functions. The security engineering principles in SA-8 cannot be properly applied if individuals that design, code, and test information systems and system components (including information technology products) do not understand security. Therefore, organizations include qualified personnel, for example, chief information security officers, security architects, security engineers, and information system security officers in system development life cycle activities to ensure that security requirements are incorporated into organizational information systems. It is equally important that developers include individuals on the development team that possess the requisite security expertise and skills to ensure that needed security capabilities are effectively integrated into the information system. Security awareness and training programs can help ensure that individuals having key security roles and responsibilities have the appropriate experience, skills, and expertise to conduct assigned system development life cycle activities. The effective integration of security requirements into enterprise architecture also helps to ensure that important security considerations are addressed early in the system development life cycle and that those considerations are directly related to the organizational mission/business processes. This process also facilitates the integration of the information security architecture into the enterprise architecture, consistent with organizational risk management and information security strategies.”
Related Controls:AT-3,PM-7,SA-8
Description: “Manages the information system using [Assignment: organization-defined system development life cycle] that incorporates information security considerations;”
Description: “Defines and documents information security roles and responsibilities throughout the system development life cycle;”
Description: “Identifies individuals having information security roles and responsibilities; and”
Description: “Integrates the organizational information security risk management process into system development life cycle activities.” .. _header_SA-4:
SA-4¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-4¶
SA-4 : ACQUISITION PROCESS
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization includes the following requirements, descriptions, and criteria, explicitly or by reference, in the acquisition contract for the information system, system component, or information system service in accordance with applicable federal laws, Executive Orders, directives, policies, regulations, standards, guidelines, and organizational mission/business needs:” Supplemental Guidance: “Information system components are discrete, identifiable information technology assets (e.g., hardware, software, or firmware) that represent the building blocks of an information system. Information system components include commercial information technology products. Security functional requirements include security capabilities, security functions, and security mechanisms. Security strength requirements associated with such capabilities, functions, and mechanisms include degree of correctness, completeness, resistance to direct attack, and resistance to tampering or bypass. Security assurance requirements include: (i) development processes, procedures, practices, and methodologies; and (ii) evidence from development and assessment activities providing grounds for confidence that the required security functionality has been implemented and the required security strength has been achieved. Security documentation requirements address all phases of the system development life cycle. Security functionality, assurance, and documentation requirements are expressed in terms of security controls and control enhancements that have been selected through the tailoring process. The security control tailoring process includes, for example, the specification of parameter values through the use of assignment and selection statements and the specification of platform dependencies and implementation information. Security documentation provides user and administrator guidance regarding the implementation and operation of security controls. The level of detail required in security documentation is based on the security category or classification level of the information system and the degree to which organizations depend on the stated security capability, functions, or mechanisms to meet overall risk response expectations (as defined in the organizational risk management strategy). Security requirements can also include organizationally mandated configuration settings specifying allowed functions, ports, protocols, and services. Acceptance criteria for information systems, information system components, and information system services are defined in the same manner as such criteria for any organizational acquisition or procurement. The Federal Acquisition Regulation (FAR) Section 7.103 contains information security requirements from FISMA.”
Related Controls:CM-6,PL-2,PS-7,SA-3,SA-5,SA-8,SA-11,SA-12
Description: “Security functional requirements;”
Description: “Security strength requirements;”
Description: “Security assurance requirements;”
Description: “Security-related documentation requirements;”
Description: “Requirements for protecting security-related documentation;”
Description: “Description of the information system development environment and environment in which the system is intended to operate; and”
Description: “Acceptance criteria.”
SA-4 (1)¶
SA-4 (1) : FUNCTIONAL PROPERTIES OF SECURITY CONTROLS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization requires the developer of the information system, system component, or information system service to provide a description of the functional properties of the security controls to be employed.” Supplemental Guidance: “Functional properties of security controls describe the functionality (i.e., security capability, functions, or mechanisms) visible at the interfaces of the controls and specifically exclude functionality and data structures internal to the operation of the controls.”
Related Controls:SA-5
SA-4 (2)¶
SA-4 (2) : DESIGN / IMPLEMENTATION INFORMATION FOR SECURITY CONTROLS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization requires the developer of the information system, system component, or information system service to provide design and implementation information for the security controls to be employed that includes: [Selection (one or more): security-relevant external system interfaces; high-level design; low-level design; source code or hardware schematics; [Assignment: organization-defined design/implementation information]] at [Assignment: organization-defined level of detail].” Supplemental Guidance: “Organizations may require different levels of detail in design and implementation documentation for security controls employed in organizational information systems, system components, or information system services based on mission/business requirements, requirements for trustworthiness/resiliency, and requirements for analysis and testing. Information systems can be partitioned into multiple subsystems. Each subsystem within the system can contain one or more modules. The high-level design for the system is expressed in terms of multiple subsystems and the interfaces between subsystems providing security-relevant functionality. The low-level design for the system is expressed in terms of modules with particular emphasis on software and firmware (but not excluding hardware) and the interfaces between modules providing security-relevant functionality. Source code and hardware schematics are typically referred to as the implementation representation of the information system.”
Related Controls:SA-5
SA-4 (3)¶
SA-4 (3) : DEVELOPMENT METHODS / TECHNIQUES / PRACTICES
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to demonstrate the use of a system development life cycle that includes [Assignment: organization-defined state-of-the-practice system/security engineering methods, software development methods, testing/evaluation/validation techniques, and quality control processes].” Supplemental Guidance: “Following a well-defined system development life cycle that includes state-of-the-practice software development methods, systems/security engineering methods, quality control processes, and testing, evaluation, and validation techniques helps to reduce the number and severity of latent errors within information systems, system components, and information system services. Reducing the number/severity of such errors reduces the number of vulnerabilities in those systems, components, and services.”
Related Controls:SA-12
SA-4 (4)¶
SA-4 (4) : ASSIGNMENT OF COMPONENTS TO SYSTEMS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CM-8 (9)].” Supplemental Guidance:
Related Controls:
SA-4 (5)¶
SA-4 (5) : SYSTEM / COMPONENT / SERVICE CONFIGURATIONS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance: “Security configurations include, for example, the U.S. Government Configuration Baseline (USGCB) and any limitations on functions, ports, protocols, and services. Security characteristics include, for example, requiring that all default passwords have been changed.”
Related Controls:CM-8
Description: “Deliver the system, component, or service with [Assignment: organization-defined security configurations] implemented; and”
Description: “Use the configurations as the default for any subsequent system, component, or service reinstallation or upgrade.”
SA-4 (6)¶
SA-4 (6) : USE OF INFORMATION ASSURANCE PRODUCTS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “COTS IA or IA-enabled information technology products used to protect classified information by cryptographic means may be required to use NSA-approved key management.”
Related Controls:SC-8,SC-12,SC-13
Description: “Employs only government off-the-shelf (GOTS) or commercial off-the-shelf (COTS) information assurance (IA) and IA-enabled information technology products that compose an NSA-approved solution to protect classified information when the networks used to transmit the information are at a lower classification level than the information being transmitted; and”
Description: “Ensures that these products have been evaluated and/or validated by NSA or in accordance with NSA-approved procedures.”
SA-4 (7)¶
SA-4 (7) : NIAP-APPROVED PROTECTION PROFILES
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance:
Related Controls:SC-12,SC-13
Description: “Limits the use of commercially provided information assurance (IA) and IA-enabled information technology products to those products that have been successfully evaluated against a National Information Assurance partnership (NIAP)-approved Protection Profile for a specific technology type, if such a profile exists; and”
Description: “Requires, if no NIAP-approved Protection Profile exists for a specific technology type but a commercially provided information technology product relies on cryptographic functionality to enforce its security policy, that the cryptographic module is FIPS-validated.”
SA-4 (8)¶
SA-4 (8) : CONTINUOUS MONITORING PLAN
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to produce a plan for the continuous monitoring of security control effectiveness that contains [Assignment: organization-defined level of detail].” Supplemental Guidance: “The objective of continuous monitoring plans is to determine if the complete set of planned, required, and deployed security controls within the information system, system component, or information system service continue to be effective over time based on the inevitable changes that occur. Developer continuous monitoring plans include a sufficient level of detail such that the information can be incorporated into the continuous monitoring strategies and programs implemented by organizations.”
Related Controls:CA-7
SA-4 (9)¶
SA-4 (9) : FUNCTIONS / PORTS / PROTOCOLS / SERVICES IN USE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization requires the developer of the information system, system component, or information system service to identify early in the system development life cycle, the functions, ports, protocols, and services intended for organizational use.” Supplemental Guidance: “The identification of functions, ports, protocols, and services early in the system development life cycle (e.g., during the initial requirements definition and design phases) allows organizations to influence the design of the information system, information system component, or information system service. This early involvement in the life cycle helps organizations to avoid or minimize the use of functions, ports, protocols, or services that pose unnecessarily high risks and understand the trade-offs involved in blocking specific ports, protocols, or services (or when requiring information system service providers to do so). Early identification of functions, ports, protocols, and services avoids costly retrofitting of security controls after the information system, system component, or information system service has been implemented. SA-9 describes requirements for external information system services with organizations identifying which functions, ports, protocols, and services are provided from external sources.”
Related Controls:CM-7,SA-9
SA-4 (10)¶
SA-4 (10) : USE OF APPROVED PIV PRODUCTS
Priority:
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization employs only information technology products on the FIPS 201-approved products list for Personal Identity Verification (PIV) capability implemented within organizational information systems.” Supplemental Guidance:
Related Controls:IA-2,IA-8 .. _header_SA-5:
SA-5¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-5¶
SA-5 : INFORMATION SYSTEM DOCUMENTATION
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control helps organizational personnel understand the implementation and operation of security controls associated with information systems, system components, and information system services. Organizations consider establishing specific measures to determine the quality/completeness of the content provided. The inability to obtain needed documentation may occur, for example, due to the age of the information system/component or lack of support from developers and contractors. In those situations, organizations may need to recreate selected documentation if such documentation is essential to the effective implementation or operation of security controls. The level of protection provided for selected information system, component, or service documentation is commensurate with the security category or classification of the system. For example, documentation associated with a key DoD weapons system or command and control system would typically require a higher level of protection than a routine administrative system. Documentation that addresses information system vulnerabilities may also require an increased level of protection. Secure operation of the information system, includes, for example, initially starting the system and resuming secure system operation after any lapse in system operation.”
Related Controls:CM-6,CM-8,PL-2,PL-4,PS-2,SA-3,SA-4
Description: “Obtains administrator documentation for the information system, system component, or information system service that describes:”
Description: “Secure configuration, installation, and operation of the system, component, or service;”
Description: “Effective use and maintenance of security functions/mechanisms; and”
Description: “Known vulnerabilities regarding configuration and use of administrative (i.e., privileged) functions;”
Description: “Obtains user documentation for the information system, system component, or information system service that describes:”
Description: “User-accessible security functions/mechanisms and how to effectively use those security functions/mechanisms;”
Description: “Methods for user interaction, which enables individuals to use the system, component, or service in a more secure manner; and”
Description: “User responsibilities in maintaining the security of the system, component, or service;”
Description: “Documents attempts to obtain information system, system component, or information system service documentation when such documentation is either unavailable or nonexistent and takes [Assignment: organization-defined actions] in response;”
Description: “Protects documentation as required, in accordance with the risk management strategy; and”
Description: “Distributes documentation to [Assignment: organization-defined personnel or roles].”
SA-5 (1)¶
SA-5 (1) : FUNCTIONAL PROPERTIES OF SECURITY CONTROLS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-4 (1)].” Supplemental Guidance:
Related Controls:
SA-5 (2)¶
SA-5 (2) : SECURITY-RELEVANT EXTERNAL SYSTEM INTERFACES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-4 (2)].” Supplemental Guidance:
Related Controls:
SA-5 (3)¶
SA-5 (3) : HIGH-LEVEL DESIGN
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-4 (2)].” Supplemental Guidance:
Related Controls:
SA-5 (4)¶
SA-5 (4) : LOW-LEVEL DESIGN
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-4 (2)].” Supplemental Guidance:
Related Controls:
SA-5 (5)¶
SA-5 (5) : SOURCE CODE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-4 (2)].” Supplemental Guidance:
Related Controls: .. _header_SA-6:
SA-6¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-6¶
SA-6 : SOFTWARE USAGE RESTRICTIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CM-10 and SI-7].” Supplemental Guidance:
Related Controls:
SA-7¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-7¶
SA-7 : USER-INSTALLED SOFTWARE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into CM-11 and SI-7].” Supplemental Guidance:
Related Controls:
SA-8¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-8¶
SA-8 : SECURITY ENGINEERING PRINCIPLES
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization applies information system security engineering principles in the specification, design, development, implementation, and modification of the information system.” Supplemental Guidance: “Organizations apply security engineering principles primarily to new development information systems or systems undergoing major upgrades. For legacy systems, organizations apply security engineering principles to system upgrades and modifications to the extent feasible, given the current state of hardware, software, and firmware within those systems. Security engineering principles include, for example: (i) developing layered protections; (ii) establishing sound security policy, architecture, and controls as the foundation for design; (iii) incorporating security requirements into the system development life cycle; (iv) delineating physical and logical security boundaries; (v) ensuring that system developers are trained on how to build secure software; (vi) tailoring security controls to meet organizational and operational needs; (vii) performing threat modeling to identify use cases, threat agents, attack vectors, and attack patterns as well as compensating controls and design patterns needed to mitigate risk; and (viii) reducing risk to acceptable levels, thus enabling informed risk management decisions.”
Related Controls:PM-7,SA-3,SA-4,SA-17,SC-2,SC-3
SA-9¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-9¶
SA-9 : EXTERNAL INFORMATION SYSTEM SERVICES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “External information system services are services that are implemented outside of the authorization boundaries of organizational information systems. This includes services that are used by, but not a part of, organizational information systems. FISMA and OMB policy require that organizations using external service providers that are processing, storing, or transmitting federal information or operating information systems on behalf of the federal government ensure that such providers meet the same security requirements that federal agencies are required to meet. Organizations establish relationships with external service providers in a variety of ways including, for example, through joint ventures, business partnerships, contracts, interagency agreements, lines of business arrangements, licensing agreements, and supply chain exchanges. The responsibility for managing risks from the use of external information system services remains with authorizing officials. For services external to organizations, a chain of trust requires that organizations establish and retain a level of confidence that each participating provider in the potentially complex consumer-provider relationship provides adequate protection for the services rendered. The extent and nature of this chain of trust varies based on the relationships between organizations and the external providers. Organizations document the basis for trust relationships so the relationships can be monitored over time. External information system services documentation includes government, service providers, end user security roles and responsibilities, and service-level agreements. Service-level agreements define expectations of performance for security controls, describe measurable outcomes, and identify remedies and response requirements for identified instances of noncompliance.”
Related Controls:CA-3,IR-7,PS-7
Description: “Requires that providers of external information system services comply with organizational information security requirements and employ [Assignment: organization-defined security controls] in accordance with applicable federal laws, Executive Orders, directives, policies, regulations, standards, and guidance;”
Description: “Defines and documents government oversight and user roles and responsibilities with regard to external information system services; and”
Description: “Employs [Assignment: organization-defined processes, methods, and techniques] to monitor security control compliance by external service providers on an ongoing basis.”
SA-9 (1)¶
SA-9 (1) : RISK ASSESSMENTS / ORGANIZATIONAL APPROVALS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Dedicated information security services include, for example, incident monitoring, analysis and response, operation of information security-related devices such as firewalls, or key management services.”
Related Controls:CA-6,RA-3
Description: “Conducts an organizational assessment of risk prior to the acquisition or outsourcing of dedicated information security services; and”
Description: “Ensures that the acquisition or outsourcing of dedicated information security services is approved by [Assignment: organization-defined personnel or roles].”
SA-9 (2)¶
SA-9 (2) : IDENTIFICATION OF FUNCTIONS / PORTS / PROTOCOLS / SERVICES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization requires providers of [Assignment: organization-defined external information system services] to identify the functions, ports, protocols, and other services required for the use of such services.” Supplemental Guidance: “Information from external service providers regarding the specific functions, ports, protocols, and services used in the provision of such services can be particularly useful when the need arises to understand the trade-offs involved in restricting certain functions/services or blocking certain ports/protocols.”
Related Controls:CM-7
SA-9 (3)¶
SA-9 (3) : ESTABLISH / MAINTAIN TRUST RELATIONSHIP WITH PROVIDERS
Priority:
Baseline-Impact:
Description: “The organization establishes, documents, and maintains trust relationships with external service providers based on [Assignment: organization-defined security requirements, properties, factors, or conditions defining acceptable trust relationships].” Supplemental Guidance: “The degree of confidence that the risk from using external services is at an acceptable level depends on the trust that organizations place in the external providers, individually or in combination. Trust relationships can help organization to gain increased levels of confidence that participating service providers are providing adequate protection for the services rendered. Such relationships can be complicated due to the number of potential entities participating in the consumer-provider interactions, subordinate relationships and levels of trust, and the types of interactions between the parties. In some cases, the degree of trust is based on the amount of direct control organizations are able to exert on external service providers with regard to employment of security controls necessary for the protection of the service/information and the evidence brought forth as to the effectiveness of those controls. The level of control is typically established by the terms and conditions of the contracts or service-level agreements and can range from extensive control (e.g., negotiating contracts or agreements that specify security requirements for the providers) to very limited control (e.g., using contracts or service-level agreements to obtain commodity services such as commercial telecommunications services). In other cases, levels of trust are based on factors that convince organizations that required security controls have been employed and that determinations of control effectiveness exist. For example, separately authorized external information system services provided to organizations through well-established business relationships may provide degrees of trust in such services within the tolerable risk range of the organizations using the services. External service providers may also outsource selected services to other external entities, making the trust relationship more difficult and complicated to manage. Depending on the nature of the services, organizations may find it very difficult to place significant trust in external providers. This is not due to any inherent untrustworthiness on the part of providers, but to the intrinsic level of risk in the services.”
Related Controls:
SA-9 (4)¶
SA-9 (4) : CONSISTENT INTERESTS OF CONSUMERS AND PROVIDERS
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined security safeguards] to ensure that the interests of [Assignment: organization-defined external service providers] are consistent with and reflect organizational interests.” Supplemental Guidance: “As organizations increasingly use external service providers, the possibility exists that the interests of the service providers may diverge from organizational interests. In such situations, simply having the correct technical, procedural, or operational safeguards in place may not be sufficient if the service providers that implement and control those safeguards are not operating in a manner consistent with the interests of the consuming organizations. Possible actions that organizations might take to address such concerns include, for example, requiring background checks for selected service provider personnel, examining ownership records, employing only trustworthy service providers (i.e., providers with which organizations have had positive experiences), and conducting periodic/unscheduled visits to service provider facilities.”
Related Controls:
SA-9 (5)¶
SA-9 (5) : PROCESSING, STORAGE, AND SERVICE LOCATION
Priority:
Baseline-Impact:
Description: “The organization restricts the location of [Selection (one or more): information processing; information/data; information system services] to [Assignment: organization-defined locations] based on [Assignment: organization-defined requirements or conditions].” Supplemental Guidance: “The location of information processing, information/data storage, or information system services that are critical to organizations can have a direct impact on the ability of those organizations to successfully execute their missions/business functions. This situation exists when external providers control the location of processing, storage or services. The criteria external providers use for the selection of processing, storage, or service locations may be different from organizational criteria. For example, organizations may want to ensure that data/information storage locations are restricted to certain locations to facilitate incident response activities (e.g., forensic analyses, after-the-fact investigations) in case of information security breaches/compromises. Such incident response activities may be adversely affected by the governing laws or protocols in the locations where processing and storage occur and/or the locations from which information system services emanate.”
Related Controls: .. _header_SA-10:
SA-10¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-10¶
SA-10 : DEVELOPER CONFIGURATION MANAGEMENT
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance: “This control also applies to organizations conducting internal information systems development and integration. Organizations consider the quality and completeness of the configuration management activities conducted by developers as evidence of applying effective security safeguards. Safeguards include, for example, protecting from unauthorized modification or destruction, the master copies of all material used to generate security-relevant portions of the system hardware, software, and firmware. Maintaining the integrity of changes to the information system, information system component, or information system service requires configuration control throughout the system development life cycle to track authorized changes and prevent unauthorized changes. Configuration items that are placed under configuration management (if existence/use is required by other security controls) include: the formal model; the functional, high-level, and low-level design specifications; other design data; implementation documentation; source code and hardware schematics; the running version of the object code; tools for comparing new versions of security-relevant hardware descriptions and software/firmware source code with previous versions; and test fixtures and documentation. Depending on the mission/business needs of organizations and the nature of the contractual relationships in place, developers may provide configuration management support during the operations and maintenance phases of the life cycle.”
Related Controls:CM-3,CM-4,CM-9,SA-12,SI-2
Description: “Perform configuration management during system, component, or service [Selection (one or more): design; development; implementation; operation];”
Description: “Document, manage, and control the integrity of changes to [Assignment: organization-defined configuration items under configuration management];”
Description: “Implement only organization-approved changes to the system, component, or service;”
Description: “Document approved changes to the system, component, or service and the potential security impacts of such changes; and”
Description: “Track security flaws and flaw resolution within the system, component, or service and report findings to [Assignment: organization-defined personnel].”
SA-10 (1)¶
SA-10 (1) : SOFTWARE / FIRMWARE INTEGRITY VERIFICATION
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to enable integrity verification of software and firmware components.” Supplemental Guidance: “This control enhancement allows organizations to detect unauthorized changes to software and firmware components through the use of tools, techniques, and/or mechanisms provided by developers. Integrity checking mechanisms can also address counterfeiting of software and firmware components. Organizations verify the integrity of software and firmware components, for example, through secure one-way hashes provided by developers. Delivered software and firmware components also include any updates to such components.”
Related Controls:SI-7
SA-10 (2)¶
SA-10 (2) : ALTERNATIVE CONFIGURATION MANAGEMENT PROCESSES
Priority:
Baseline-Impact:
Description: “The organization provides an alternate configuration management process using organizational personnel in the absence of a dedicated developer configuration management team.” Supplemental Guidance: “Alternate configuration management processes may be required, for example, when organizations use commercial off-the-shelf (COTS) information technology products. Alternate configuration management processes include organizational personnel that: (i) are responsible for reviewing/approving proposed changes to information systems, system components, and information system services; and (ii) conduct security impact analyses prior to the implementation of any changes to systems, components, or services (e.g., a configuration control board that considers security impacts of changes during development and includes representatives of both the organization and the developer, when applicable).”
Related Controls:
SA-10 (3)¶
SA-10 (3) : HARDWARE INTEGRITY VERIFICATION
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to enable integrity verification of hardware components.” Supplemental Guidance: “This control enhancement allows organizations to detect unauthorized changes to hardware components through the use of tools, techniques, and/or mechanisms provided by developers. Organizations verify the integrity of hardware components, for example, with hard-to-copy labels and verifiable serial numbers provided by developers, and by requiring the implementation of anti-tamper technologies. Delivered hardware components also include updates to such components.”
Related Controls:SI-7
SA-10 (4)¶
SA-10 (4) : TRUSTED GENERATION
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to employ tools for comparing newly generated versions of security-relevant hardware descriptions and software/firmware source and object code with previous versions.” Supplemental Guidance: “This control enhancement addresses changes to hardware, software, and firmware components between versions during development. In contrast, SA-10 (1) and SA-10 (3) allow organizations to detect unauthorized changes to hardware, software, and firmware components through the use of tools, techniques, and/or mechanisms provided by developers.”
Related Controls:
SA-10 (5)¶
SA-10 (5) : MAPPING INTEGRITY FOR VERSION CONTROL
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to maintain the integrity of the mapping between the master build data (hardware drawings and software/firmware code) describing the current version of security-relevant hardware, software, and firmware and the on-site master copy of the data for the current version.” Supplemental Guidance: “This control enhancement addresses changes to hardware, software, and firmware components during initial development and during system life cycle updates. Maintaining the integrity between the master copies of security-relevant hardware, software, and firmware (including designs and source code) and the equivalent data in master copies on-site in operational environments is essential to ensure the availability of organizational information systems supporting critical missions and/or business functions.”
Related Controls:
SA-10 (6)¶
SA-10 (6) : TRUSTED DISTRIBUTION
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to execute procedures for ensuring that security-relevant hardware, software, and firmware updates distributed to the organization are exactly as specified by the master copies.” Supplemental Guidance: “The trusted distribution of security-relevant hardware, software, and firmware updates helps to ensure that such updates are faithful representations of the master copies maintained by the developer and have not been tampered with during distribution.”
Related Controls: .. _header_SA-11:
SA-11¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-11¶
SA-11 : DEVELOPER SECURITY TESTING AND EVALUATION
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance: “Developmental security testing/evaluation occurs at all post-design phases of the system development life cycle. Such testing/evaluation confirms that the required security controls are implemented correctly, operating as intended, enforcing the desired security policy, and meeting established security requirements. Security properties of information systems may be affected by the interconnection of system components or changes to those components. These interconnections or changes (e.g., upgrading or replacing applications and operating systems) may adversely affect previously implemented security controls. This control provides additional types of security testing/evaluation that developers can conduct to reduce or eliminate potential flaws. Testing custom software applications may require approaches such as static analysis, dynamic analysis, binary analysis, or a hybrid of the three approaches. Developers can employ these analysis approaches in a variety of tools (e.g., web-based application scanners, static analysis tools, binary analyzers) and in source code reviews. Security assessment plans provide the specific activities that developers plan to carry out including the types of analyses, testing, evaluation, and reviews of software and firmware components, the degree of rigor to be applied, and the types of artifacts produced during those processes. The depth of security testing/evaluation refers to the rigor and level of detail associated with the assessment process (e.g., black box, gray box, or white box testing). The coverage of security testing/evaluation refers to the scope (i.e., number and type) of the artifacts included in the assessment process. Contracts specify the acceptance criteria for security assessment plans, flaw remediation processes, and the evidence that the plans/processes have been diligently applied. Methods for reviewing and protecting assessment plans, evidence, and documentation are commensurate with the security category or classification level of the information system. Contracts may specify documentation protection requirements.”
Related Controls:CA-2,CM-4,SA-3,SA-4,SA-5,SI-2
Description: “Create and implement a security assessment plan;”
Description: “Perform [Selection (one or more): unit; integration; system; regression] testing/evaluation at [Assignment: organization-defined depth and coverage];”
Description: “Produce evidence of the execution of the security assessment plan and the results of the security testing/evaluation;”
Description: “Implement a verifiable flaw remediation process; and”
Description: “Correct flaws identified during security testing/evaluation.”
SA-11 (1)¶
SA-11 (1) : STATIC CODE ANALYSIS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to employ static code analysis tools to identify common flaws and document the results of the analysis.” Supplemental Guidance: “Static code analysis provides a technology and methodology for security reviews. Such analysis can be used to identify security vulnerabilities and enforce security coding practices. Static code analysis is most effective when used early in the development process, when each code change can be automatically scanned for potential weaknesses. Static analysis can provide clear remediation guidance along with defects to enable developers to fix such defects. Evidence of correct implementation of static analysis can include, for example, aggregate defect density for critical defect types, evidence that defects were inspected by developers or security professionals, and evidence that defects were fixed. An excessively high density of ignored findings (commonly referred to as ignored or false positives) indicates a potential problem with the analysis process or tool. In such cases, organizations weigh the validity of the evidence against evidence from other sources.”
Related Controls:
SA-11 (2)¶
SA-11 (2) : THREAT AND VULNERABILITY ANALYSES
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to perform threat and vulnerability analyses and subsequent testing/evaluation of the as-built system, component, or service.” Supplemental Guidance: “Applications may deviate significantly from the functional and design specifications created during the requirements and design phases of the system development life cycle. Therefore, threat and vulnerability analyses of information systems, system components, and information system services prior to delivery are critical to the effective operation of those systems, components, and services. Threat and vulnerability analyses at this phase of the life cycle help to ensure that design or implementation changes have been accounted for, and that any new vulnerabilities created as a result of those changes have been reviewed and mitigated.”
Related Controls:PM-15,RA-5
SA-11 (3)¶
SA-11 (3) : INDEPENDENT VERIFICATION OF ASSESSMENT PLANS / EVIDENCE
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Independent agents have the necessary qualifications (i.e., expertise, skills, training, and experience) to verify the correct implementation of developer security assessment plans.”
Related Controls:AT-3,CA-7,RA-5,SA-12
Description: “Requires an independent agent satisfying [Assignment: organization-defined independence criteria] to verify the correct implementation of the developer security assessment plan and the evidence produced during security testing/evaluation; and”
Description: “Ensures that the independent agent is either provided with sufficient information to complete the verification process or granted the authority to obtain such information.”
SA-11 (4)¶
SA-11 (4) : MANUAL CODE REVIEWS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to perform a manual code review of [Assignment: organization-defined specific code] using [Assignment: organization-defined processes, procedures, and/or techniques].” Supplemental Guidance: “Manual code reviews are usually reserved for the critical software and firmware components of information systems. Such code reviews are uniquely effective at identifying weaknesses that require knowledge of the application�s requirements or context which are generally unavailable to more automated analytic tools and techniques such as static or dynamic analysis. Components benefiting from manual review include for example, verifying access control matrices against application controls and reviewing more detailed aspects of cryptographic implementations and controls.”
Related Controls:
SA-11 (5)¶
SA-11 (5) : PENETRATION TESTING
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to perform penetration testing at [Assignment: organization-defined breadth/depth] and with [Assignment: organization-defined constraints].” Supplemental Guidance: “Penetration testing is an assessment methodology in which assessors, using all available information technology product and/or information system documentation (e.g., product/system design specifications, source code, and administrator/operator manuals) and working under specific constraints, attempt to circumvent implemented security features of information technology products and information systems. Penetration testing can include, for example, white, gray, or black box testing with analyses performed by skilled security professionals simulating adversary actions. The objective of penetration testing is to uncover potential vulnerabilities in information technology products and information systems resulting from implementation errors, configuration faults, or other operational deployment weaknesses or deficiencies. Penetration tests can be performed in conjunction with automated and manual code reviews to provide greater levels of analysis than would ordinarily be possible.”
Related Controls:
SA-11 (6)¶
SA-11 (6) : ATTACK SURFACE REVIEWS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to perform attack surface reviews.” Supplemental Guidance: “Attack surfaces of information systems are exposed areas that make those systems more vulnerable to cyber attacks. This includes any accessible areas where weaknesses or deficiencies in information systems (including the hardware, software, and firmware components) provide opportunities for adversaries to exploit vulnerabilities. Attack surface reviews ensure that developers: (i) analyze both design and implementation changes to information systems; and (ii) mitigate attack vectors generated as a result of the changes. Correction of identified flaws includes, for example, deprecation of unsafe functions.”
Related Controls:
SA-11 (7)¶
SA-11 (7) : VERIFY SCOPE OF TESTING / EVALUATION
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to verify that the scope of security testing/evaluation provides complete coverage of required security controls at [Assignment: organization-defined depth of testing/evaluation].” Supplemental Guidance: “Verifying that security testing/evaluation provides complete coverage of required security controls can be accomplished by a variety of analytic techniques ranging from informal to formal. Each of these techniques provides an increasing level of assurance corresponding to the degree of formality of the analysis. Rigorously demonstrating security control coverage at the highest levels of assurance can be provided by the use of formal modeling and analysis techniques including correlation between control implementation and corresponding test cases.”
Related Controls:
SA-11 (8)¶
SA-11 (8) : DYNAMIC CODE ANALYSIS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to employ dynamic code analysis tools to identify common flaws and document the results of the analysis.” Supplemental Guidance: “Dynamic code analysis provides run-time verification of software programs, using tools capable of monitoring programs for memory corruption, user privilege issues, and other potential security problems. Dynamic code analysis employs run-time tools to help to ensure that security functionality performs in the manner in which it was designed. A specialized type of dynamic analysis, known as fuzz testing, induces program failures by deliberately introducing malformed or random data into software programs. Fuzz testing strategies derive from the intended use of applications and the functional and design specifications for the applications. To understand the scope of dynamic code analysis and hence the assurance provided, organizations may also consider conducting code coverage analysis (checking the degree to which the code has been tested using metrics such as percent of subroutines tested or percent of program statements called during execution of the test suite) and/or concordance analysis (checking for words that are out of place in software code such as non-English language words or derogatory terms).”
Related Controls: .. _header_SA-12:
SA-12¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-12¶
SA-12 : SUPPLY CHAIN PROTECTION
Priority: P1
Baseline-Impact: HIGH
Description: “The organization protects against supply chain threats to the information system, system component, or information system service by employing [Assignment: organization-defined security safeguards] as part of a comprehensive, defense-in-breadth information security strategy.” Supplemental Guidance: “Information systems (including system components that compose those systems) need to be protected throughout the system development life cycle (i.e., during design, development, manufacturing, packaging, assembly, distribution, system integration, operations, maintenance, and retirement). Protection of organizational information systems is accomplished through threat awareness, by the identification, management, and reduction of vulnerabilities at each phase of the life cycle and the use of complementary, mutually reinforcing strategies to respond to risk. Organizations consider implementing a standardized process to address supply chain risk with respect to information systems and system components, and to educate the acquisition workforce on threats, risk, and required security controls. Organizations use the acquisition/procurement processes to require supply chain entities to implement necessary security safeguards to: (i) reduce the likelihood of unauthorized modifications at each stage in the supply chain; and (ii) protect information systems and information system components, prior to taking delivery of such systems/components. This control also applies to information system services. Security safeguards include, for example: (i) security controls for development systems, development facilities, and external connections to development systems; (ii) vetting development personnel; and (iii) use of tamper-evident packaging during shipping/warehousing. Methods for reviewing and protecting development plans, evidence, and documentation are commensurate with the security category or classification level of the information system. Contracts may specify documentation protection requirements.”
Related Controls:AT-3,CM-8,IR-4,PE-16,PL-8,SA-3,SA-4,SA-8,SA-10,SA-14,SA-15,SA-18,SA-19,SC-29,SC-30,SC-38,SI-7
SA-12 (1)¶
SA-12 (1) : ACQUISITION STRATEGIES / TOOLS / METHODS
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined tailored acquisition strategies, contract tools, and procurement methods] for the purchase of the information system, system component, or information system service from suppliers.” Supplemental Guidance: “The use of acquisition and procurement processes by organizations early in the system development life cycle provides an important vehicle to protect the supply chain. Organizations use available all-source intelligence analysis to inform the tailoring of acquisition strategies, tools, and methods. There are a number of different tools and techniques available (e.g., obscuring the end use of an information system or system component, using blind or filtered buys). Organizations also consider creating incentives for suppliers who: (i) implement required security safeguards; (ii) promote transparency into their organizational processes and security practices; (iii) provide additional vetting of the processes and security practices of subordinate suppliers, critical information system components, and services; (iv) restrict purchases from specific suppliers or countries; and (v) provide contract language regarding the prohibition of tainted or counterfeit components. In addition, organizations consider minimizing the time between purchase decisions and required delivery to limit opportunities for adversaries to corrupt information system components or products. Finally, organizations can use trusted/controlled distribution, delivery, and warehousing options to reduce supply chain risk (e.g., requiring tamper-evident packaging of information system components during shipping and warehousing).”
Related Controls:SA-19
SA-12 (2)¶
SA-12 (2) : SUPPLIER REVIEWS
Priority:
Baseline-Impact:
Description: “The organization conducts a supplier review prior to entering into a contractual agreement to acquire the information system, system component, or information system service.” Supplemental Guidance: “Supplier reviews include, for example: (i) analysis of supplier processes used to design, develop, test, implement, verify, deliver, and support information systems, system components, and information system services; and (ii) assessment of supplier training and experience in developing systems, components, or services with the required security capability. These reviews provide organizations with increased levels of visibility into supplier activities during the system development life cycle to promote more effective supply chain risk management. Supplier reviews can also help to determine whether primary suppliers have security safeguards in place and a practice for vetting subordinate suppliers, for example, second- and third-tier suppliers, and any subcontractors.”
Related Controls:
SA-12 (3)¶
SA-12 (3) : TRUSTED SHIPPING AND WAREHOUSING
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-12 (1)].” Supplemental Guidance:
Related Controls:
SA-12 (4)¶
SA-12 (4) : DIVERSITY OF SUPPLIERS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-12 (13)].” Supplemental Guidance:
Related Controls:
SA-12 (5)¶
SA-12 (5) : LIMITATION OF HARM
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined security safeguards] to limit harm from potential adversaries identifying and targeting the organizational supply chain.” Supplemental Guidance: “Supply chain risk is part of the advanced persistent threat (APT). Security safeguards and countermeasures to reduce the probability of adversaries successfully identifying and targeting the supply chain include, for example: (i) avoiding the purchase of custom configurations to reduce the risk of acquiring information systems, components, or products that have been corrupted via supply chain actions targeted at specific organizations; (ii) employing a diverse set of suppliers to limit the potential harm from any given supplier in the supply chain; (iii) employing approved vendor lists with standing reputations in industry, and (iv) using procurement carve outs (i.e., exclusions to commitments or obligations).”
Related Controls:
SA-12 (6)¶
SA-12 (6) : MINIMIZING PROCUREMENT TIME
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-12 (1)].” Supplemental Guidance:
Related Controls:
SA-12 (7)¶
SA-12 (7) : ASSESSMENTS PRIOR TO SELECTION / ACCEPTANCE / UPDATE
Priority:
Baseline-Impact:
Description: “The organization conducts an assessment of the information system, system component, or information system service prior to selection, acceptance, or update.” Supplemental Guidance: “Assessments include, for example, testing, evaluations, reviews, and analyses. Independent, third-party entities or organizational personnel conduct assessments of systems, components, products, tools, and services. Organizations conduct assessments to uncover unintentional vulnerabilities and intentional vulnerabilities including, for example, malicious code, malicious processes, defective software, and counterfeits. Assessments can include, for example, static analyses, dynamic analyses, simulations, white, gray, and black box testing, fuzz testing, penetration testing, and ensuring that components or services are genuine (e.g., using tags, cryptographic hash verifications, or digital signatures). Evidence generated during security assessments is documented for follow-on actions carried out by organizations.”
Related Controls:CA-2,SA-11
SA-12 (8)¶
SA-12 (8) : USE OF ALL-SOURCE INTELLIGENCE
Priority:
Baseline-Impact:
Description: “The organization uses all-source intelligence analysis of suppliers and potential suppliers of the information system, system component, or information system service.” Supplemental Guidance: “All-source intelligence analysis is employed by organizations to inform engineering, acquisition, and risk management decisions. All-source intelligence consists of intelligence products and/or organizations and activities that incorporate all sources of information, most frequently including human intelligence, imagery intelligence, measurement and signature intelligence, signals intelligence, and open source data in the production of finished intelligence. Where available, such information is used to analyze the risk of both intentional and unintentional vulnerabilities from development, manufacturing, and delivery processes, people, and the environment. This review is performed on suppliers at multiple tiers in the supply chain sufficient to manage risks.”
Related Controls:SA-15
SA-12 (9)¶
SA-12 (9) : OPERATIONS SECURITY
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined Operations Security (OPSEC) safeguards] in accordance with classification guides to protect supply chain-related information for the information system, system component, or information system service.” Supplemental Guidance: “Supply chain information includes, for example: user identities; uses for information systems, information system components, and information system services; supplier identities; supplier processes; security requirements; design specifications; testing and evaluation results; and system/component configurations. This control enhancement expands the scope of OPSEC to include suppliers and potential suppliers. OPSEC is a process of identifying critical information and subsequently analyzing friendly actions attendant to operations and other activities to: (i) identify those actions that can be observed by potential adversaries; (ii) determine indicators that adversaries might obtain that could be interpreted or pieced together to derive critical information in sufficient time to cause harm to organizations; (iii) implement safeguards or countermeasures to eliminate or reduce to an acceptable level, exploitable vulnerabilities; and (iv) consider how aggregated information may compromise the confidentiality of users or uses of the supply chain. OPSEC may require organizations to withhold critical mission/business information from suppliers and may include the use of intermediaries to hide the end use, or users, of information systems, system components, or information system services.”
Related Controls:
SA-12 (10)¶
SA-12 (10) : VALIDATE AS GENUINE AND NOT ALTERED
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined security safeguards] to validate that the information system or system component received is genuine and has not been altered.” Supplemental Guidance: “For some information system components, especially hardware, there are technical means to help determine if the components are genuine or have been altered. Security safeguards used to validate the authenticity of information systems and information system components include, for example, optical/nanotechnology tagging and side-channel analysis. For hardware, detailed bill of material information can highlight the elements with embedded logic complete with component and production location.”
Related Controls:
SA-12 (11)¶
SA-12 (11) : PENETRATION TESTING / ANALYSIS OF ELEMENTS, PROCESSES, AND ACTORS
Priority:
Baseline-Impact:
Description: “The organization employs [Selection (one or more): organizational analysis, independent third-party analysis, organizational penetration testing, independent third-party penetration testing] of [Assignment: organization-defined supply chain elements, processes, and actors] associated with the information system, system component, or information system service.” Supplemental Guidance: “This control enhancement addresses analysis and/or testing of the supply chain, not just delivered items. Supply chain elements are information technology products or product components that contain programmable logic and that are critically important to information system functions. Supply chain processes include, for example: (i) hardware, software, and firmware development processes; (ii) shipping/handling procedures; (iii) personnel and physical security programs; (iv) configuration management tools/measures to maintain provenance; or (v) any other programs, processes, or procedures associated with the production/distribution of supply chain elements. Supply chain actors are individuals with specific roles and responsibilities in the supply chain. The evidence generated during analyses and testing of supply chain elements, processes, and actors is documented and used to inform organizational risk management activities and decisions.”
Related Controls:RA-5
SA-12 (12)¶
SA-12 (12) : INTER-ORGANIZATIONAL AGREEMENTS
Priority:
Baseline-Impact:
Description: “The organization establishes inter-organizational agreements and procedures with entities involved in the supply chain for the information system, system component, or information system service.” Supplemental Guidance: “The establishment of inter-organizational agreements and procedures provides for notification of supply chain compromises. Early notification of supply chain compromises that can potentially adversely affect or have adversely affected organizational information systems, including critical system components, is essential for organizations to provide appropriate responses to such incidents.”
Related Controls:
SA-12 (13)¶
SA-12 (13) : CRITICAL INFORMATION SYSTEM COMPONENTS
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined security safeguards] to ensure an adequate supply of [Assignment: organization-defined critical information system components].” Supplemental Guidance: “Adversaries can attempt to impede organizational operations by disrupting the supply of critical information system components or corrupting supplier operations. Safeguards to ensure adequate supplies of critical information system components include, for example: (i) the use of multiple suppliers throughout the supply chain for the identified critical components; and (ii) stockpiling of spare components to ensure operation during mission-critical times.”
Related Controls:
SA-12 (14)¶
SA-12 (14) : IDENTITY AND TRACEABILITY
Priority:
Baseline-Impact:
Description: “The organization establishes and retains unique identification of [Assignment: organization-defined supply chain elements, processes, and actors] for the information system, system component, or information system service.” Supplemental Guidance: “Knowing who and what is in the supply chains of organizations is critical to gaining visibility into what is happening within such supply chains, as well as monitoring and identifying high-risk events and activities. Without reasonable visibility and traceability into supply chains (i.e., elements, processes, and actors), it is very difficult for organizations to understand and therefore manage risk, and to reduce the likelihood of adverse events. Uniquely identifying acquirer and integrator roles, organizations, personnel, mission and element processes, testing and evaluation procedures, delivery mechanisms, support mechanisms, communications/delivery paths, and disposal/final disposition activities as well as the components and tools used, establishes a foundational identity structure for assessment of supply chain activities. For example, labeling (using serial numbers) and tagging (using radio-frequency identification [RFID] tags) individual supply chain elements including software packages, modules, and hardware devices, and processes associated with those elements can be used for this purpose. Identification methods are sufficient to support the provenance in the event of a supply chain issue or adverse supply chain event.”
Related Controls:
SA-12 (15)¶
SA-12 (15) : PROCESSES TO ADDRESS WEAKNESSES OR DEFICIENCIES
Priority:
Baseline-Impact:
Description: “The organization establishes a process to address weaknesses or deficiencies in supply chain elements identified during independent or organizational assessments of such elements.” Supplemental Guidance: “Evidence generated during independent or organizational assessments of supply chain elements (e.g., penetration testing, audits, verification/validation activities) is documented and used in follow-on processes implemented by organizations to respond to the risks related to the identified weaknesses and deficiencies. Supply chain elements include, for example, supplier development processes and supplier distribution systems.”
Related Controls: .. _header_SA-13:
SA-13¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-13¶
SA-13 : TRUSTWORTHINESS
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “This control helps organizations to make explicit trustworthiness decisions when designing, developing, and implementing information systems that are needed to conduct critical organizational missions/business functions. Trustworthiness is a characteristic/property of an information system that expresses the degree to which the system can be expected to preserve the confidentiality, integrity, and availability of the information it processes, stores, or transmits. Trustworthy information systems are systems that are capable of being trusted to operate within defined levels of risk despite the environmental disruptions, human errors, and purposeful attacks that are expected to occur in the specified environments of operation. Trustworthy systems are important to mission/business success. Two factors affecting the trustworthiness of information systems include: (i) security functionality (i.e., the security features, functions, and/or mechanisms employed within the system and its environment of operation); and (ii) security assurance (i.e., the grounds for confidence that the security functionality is effective in its application). Developers, implementers, operators, and maintainers of organizational information systems can increase the level of assurance (and trustworthiness), for example, by employing well-defined security policy models, structured and rigorous hardware, software, and firmware development techniques, sound system/security engineering principles, and secure configuration settings (defined by a set of assurance-related security controls in Appendix E). Assurance is also based on the assessment of evidence produced during the system development life cycle. Critical missions/business functions are supported by high-impact systems and the associated assurance requirements for such systems. The additional assurance controls in Table E-4 in Appendix E (designated as optional) can be used to develop and implement high-assurance solutions for specific information systems and system components using the concept of overlays described in Appendix I. Organizations select assurance overlays that have been developed, validated, and approved for community adoption (e.g., cross-organization, governmentwide), limiting the development of such overlays on an organization-by-organization basis. Organizations can conduct criticality analyses as described in SA-14, to determine the information systems, system components, or information system services that require high-assurance solutions. Trustworthiness requirements and assurance overlays can be described in the security plans for organizational information systems.”
Related Controls:RA-2,SA-4,SA-8,SA-14,SC-3
Description: “Describes the trustworthiness required in the [Assignment: organization-defined information system, information system component, or information system service] supporting its critical missions/business functions; and”
Description: “Implements [Assignment: organization-defined assurance overlay] to achieve such trustworthiness.” .. _header_SA-14:
SA-14¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-14¶
SA-14 : CRITICALITY ANALYSIS
Priority: P0
Baseline-Impact:
Description: “The organization identifies critical information system components and functions by performing a criticality analysis for [Assignment: organization-defined information systems, information system components, or information system services] at [Assignment: organization-defined decision points in the system development life cycle].” Supplemental Guidance: “Criticality analysis is a key tenet of supply chain risk management and informs the prioritization of supply chain protection activities such as attack surface reduction, use of all-source intelligence, and tailored acquisition strategies. Information system engineers can conduct an end-to-end functional decomposition of an information system to identify mission-critical functions and components. The functional decomposition includes the identification of core organizational missions supported by the system, decomposition into the specific functions to perform those missions, and traceability to the hardware, software, and firmware components that implement those functions, including when the functions are shared by many components within and beyond the information system boundary. Information system components that allow for unmediated access to critical components or functions are considered critical due to the inherent vulnerabilities such components create. Criticality is assessed in terms of the impact of the function or component failure on the ability of the component to complete the organizational missions supported by the information system. A criticality analysis is performed whenever an architecture or design is being developed or modified, including upgrades.”
Related Controls:CP-2,PL-2,PL-8,PM-1,SA-8,SA-12,SA-13,SA-15,SA-20
SA-14 (1)¶
SA-14 (1) : CRITICAL COMPONENTS WITH NO VIABLE ALTERNATIVE SOURCING
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-20].” Supplemental Guidance:
Related Controls: .. _header_SA-15:
SA-15¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-15¶
SA-15 : DEVELOPMENT PROCESS, STANDARDS, AND TOOLS
Priority: P2
Baseline-Impact: HIGH
Description: “The organization:” Supplemental Guidance: “Development tools include, for example, programming languages and computer-aided design (CAD) systems. Reviews of development processes can include, for example, the use of maturity models to determine the potential effectiveness of such processes. Maintaining the integrity of changes to tools and processes enables accurate supply chain risk assessment and mitigation, and requires robust configuration control throughout the life cycle (including design, development, transport, delivery, integration, and maintenance) to track authorized changes and prevent unauthorized changes.”
Related Controls:SA-3,SA-8
Description: “Requires the developer of the information system, system component, or information system service to follow a documented development process that:”
Description: “Explicitly addresses security requirements;”
Description: “Identifies the standards and tools used in the development process;”
Description: “Documents the specific tool options and tool configurations used in the development process; and”
Description: “Documents, manages, and ensures the integrity of changes to the process and/or tools used in development; and”
Description: “Reviews the development process, standards, tools, and tool options/configurations [Assignment: organization-defined frequency] to determine if the process, standards, tools, and tool options/configurations selected and employed can satisfy [Assignment: organization-defined security requirements].”
SA-15 (1)¶
SA-15 (1) : QUALITY METRICS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance: “Organizations use quality metrics to establish minimum acceptable levels of information system quality. Metrics may include quality gates which are collections of completion criteria or sufficiency standards representing the satisfactory execution of particular phases of the system development project. A quality gate, for example, may require the elimination of all compiler warnings or an explicit determination that the warnings have no impact on the effectiveness of required security capabilities. During the execution phases of development projects, quality gates provide clear, unambiguous indications of progress. Other metrics apply to the entire development project. These metrics can include defining the severity thresholds of vulnerabilities, for example, requiring no known vulnerabilities in the delivered information system with a Common Vulnerability Scoring System (CVSS) severity of Medium or High.”
Related Controls:
Description: “Define quality metrics at the beginning of the development process; and”
Description: “Provide evidence of meeting the quality metrics [Selection (one or more): [Assignment: organization-defined frequency]; [Assignment: organization-defined program review milestones]; upon delivery].”
SA-15 (2)¶
SA-15 (2) : SECURITY TRACKING TOOLS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to select and employ a security tracking tool for use during the development process.” Supplemental Guidance: “Information system development teams select and deploy security tracking tools, including, for example, vulnerability/work item tracking systems that facilitate assignment, sorting, filtering, and tracking of completed work items or tasks associated with system development processes.”
Related Controls:
SA-15 (3)¶
SA-15 (3) : CRITICALITY ANALYSIS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to perform a criticality analysis at [Assignment: organization-defined breadth/depth] and at [Assignment: organization-defined decision points in the system development life cycle].” Supplemental Guidance: “This control enhancement provides developer input to the criticality analysis performed by organizations in SA-14. Developer input is essential to such analysis because organizations may not have access to detailed design documentation for information system components that are developed as commercial off-the-shelf (COTS) information technology products (e.g., functional specifications, high-level designs, low-level designs, and source code/hardware schematics).”
Related Controls:SA-4,SA-14
SA-15 (4)¶
SA-15 (4) : THREAT MODELING / VULNERABILITY ANALYSIS
Priority:
Baseline-Impact:
Description: “The organization requires that developers perform threat modeling and a vulnerability analysis for the information system at [Assignment: organization-defined breadth/depth] that:” Supplemental Guidance:
Related Controls:SA-4
Description: “Uses [Assignment: organization-defined information concerning impact, environment of operations, known or assumed threats, and acceptable risk levels];”
Description: “Employs [Assignment: organization-defined tools and methods]; and”
Description: “Produces evidence that meets [Assignment: organization-defined acceptance criteria].”
SA-15 (5)¶
SA-15 (5) : ATTACK SURFACE REDUCTION
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to reduce attack surfaces to [Assignment: organization-defined thresholds].” Supplemental Guidance: “Attack surface reduction is closely aligned with developer threat and vulnerability analyses and information system architecture and design. Attack surface reduction is a means of reducing risk to organizations by giving attackers less opportunity to exploit weaknesses or deficiencies (i.e., potential vulnerabilities) within information systems, information system components, and information system services. Attack surface reduction includes, for example, applying the principle of least privilege, employing layered defenses, applying the principle of least functionality (i.e., restricting ports, protocols, functions, and services), deprecating unsafe functions, and eliminating application programming interfaces (APIs) that are vulnerable to cyber attacks.”
Related Controls:CM-7
SA-15 (6)¶
SA-15 (6) : CONTINUOUS IMPROVEMENT
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to implement an explicit process to continuously improve the development process.” Supplemental Guidance: “Developers of information systems, information system components, and information system services consider the effectiveness/efficiency of current development processes for meeting quality objectives and addressing security capabilities in current threat environments.”
Related Controls:
SA-15 (7)¶
SA-15 (7) : AUTOMATED VULNERABILITY ANALYSIS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance:
Related Controls:RA-5
Description: “Perform an automated vulnerability analysis using [Assignment: organization-defined tools];”
Description: “Determine the exploitation potential for discovered vulnerabilities;”
Description: “Determine potential risk mitigations for delivered vulnerabilities; and”
Description: “Deliver the outputs of the tools and results of the analysis to [Assignment: organization-defined personnel or roles].”
SA-15 (8)¶
SA-15 (8) : REUSE OF THREAT / VULNERABILITY INFORMATION
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to use threat modeling and vulnerability analyses from similar systems, components, or services to inform the current development process.” Supplemental Guidance: “Analysis of vulnerabilities found in similar software applications can inform potential design or implementation issues for information systems under development. Similar information systems or system components may exist within developer organizations. Authoritative vulnerability information is available from a variety of public and private sector sources including, for example, the National Vulnerability Database.”
Related Controls:
SA-15 (9)¶
SA-15 (9) : USE OF LIVE DATA
Priority:
Baseline-Impact:
Description: “The organization approves, documents, and controls the use of live data in development and test environments for the information system, system component, or information system service.” Supplemental Guidance: “The use of live data in preproduction environments can result in significant risk to organizations. Organizations can minimize such risk by using test or dummy data during the development and testing of information systems, information system components, and information system services.”
Related Controls:
SA-15 (10)¶
SA-15 (10) : INCIDENT RESPONSE PLAN
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to provide an incident response plan.” Supplemental Guidance: “The incident response plan for developers of information systems, system components, and information system services is incorporated into organizational incident response plans to provide the type of incident response information not readily available to organizations. Such information may be extremely helpful, for example, when organizations respond to vulnerabilities in commercial off-the-shelf (COTS) information technology products.”
Related Controls:IR-8
SA-15 (11)¶
SA-15 (11) : ARCHIVE INFORMATION SYSTEM / COMPONENT
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system or system component to archive the system or component to be released or delivered together with the corresponding evidence supporting the final security review.” Supplemental Guidance: “Archiving relevant documentation from the development process can provide a readily available baseline of information that can be helpful during information system/component upgrades or modifications.”
Related Controls: .. _header_SA-16:
SA-16¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-16¶
SA-16 : DEVELOPER-PROVIDED TRAINING
Priority: P2
Baseline-Impact: HIGH
Description: “The organization requires the developer of the information system, system component, or information system service to provide [Assignment: organization-defined training] on the correct use and operation of the implemented security functions, controls, and/or mechanisms.” Supplemental Guidance: “This control applies to external and internal (in-house) developers. Training of personnel is an essential element to ensure the effectiveness of security controls implemented within organizational information systems. Training options include, for example, classroom-style training, web-based/computer-based training, and hands-on training. Organizations can also request sufficient training materials from developers to conduct in-house training or offer self-training to organizational personnel. Organizations determine the type of training necessary and may require different types of training for different security functions, controls, or mechanisms.”
Related Controls:AT-2,AT-3,SA-5
SA-17¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-17¶
SA-17 : DEVELOPER SECURITY ARCHITECTURE AND DESIGN
Priority: P1
Baseline-Impact: HIGH
Description: “The organization requires the developer of the information system, system component, or information system service to produce a design specification and security architecture that:” Supplemental Guidance: “This control is primarily directed at external developers, although it could also be used for internal (in-house) development. In contrast, PL-8 is primarily directed at internal developers to help ensure that organizations develop an information security architecture and such security architecture is integrated or tightly coupled to the enterprise architecture. This distinction is important if/when organizations outsource the development of information systems, information system components, or information system services to external entities, and there is a requirement to demonstrate consistency with the organization�s enterprise architecture and information security architecture.”
Related Controls:PL-8,PM-7,SA-3,SA-8
Description: “Is consistent with and supportive of the organization�s security architecture which is established within and is an integrated part of the organization�s enterprise architecture;”
Description: “Accurately and completely describes the required security functionality, and the allocation of security controls among physical and logical components; and”
Description: “Expresses how individual security functions, mechanisms, and services work together to provide required security capabilities and a unified approach to protection.”
SA-17 (1)¶
SA-17 (1) : FORMAL POLICY MODEL
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance: “Formal models describe specific behaviors or security policies using formal languages, thus enabling the correctness of those behaviors/policies to be formally proven. Not all components of information systems can be modeled, and generally, formal specifications are scoped to specific behaviors or policies of interest (e.g., nondiscretionary access control policies). Organizations choose the particular formal modeling language and approach based on the nature of the behaviors/policies to be described and the available tools. Formal modeling tools include, for example, Gypsy and Zed.”
Related Controls:
Description: “Produce, as an integral part of the development process, a formal policy model describing the [Assignment: organization-defined elements of organizational security policy] to be enforced; and”
Description: “Prove that the formal policy model is internally consistent and sufficient to enforce the defined elements of the organizational security policy when implemented.”
SA-17 (2)¶
SA-17 (2) : SECURITY-RELEVANT COMPONENTS
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance: “Security-relevant hardware, software, and firmware represent the portion of the information system, component, or service that must be trusted to perform correctly in order to maintain required security properties.”
Related Controls:SA-5
Description: “Define security-relevant hardware, software, and firmware; and”
Description: “Provide a rationale that the definition for security-relevant hardware, software, and firmware is complete.”
SA-17 (3)¶
SA-17 (3) : FORMAL CORRESPONDENCE
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance: “Correspondence is an important part of the assurance gained through modeling. It demonstrates that the implementation is an accurate transformation of the model, and that any additional code or implementation details present have no impact on the behaviors or policies being modeled. Formal methods can be used to show that the high-level security properties are satisfied by the formal information system description, and that the formal system description is correctly implemented by a description of some lower level, for example a hardware description. Consistency between the formal top-level specification and the formal policy models is generally not amenable to being fully proven. Therefore, a combination of formal/informal methods may be needed to show such consistency. Consistency between the formal top-level specification and the implementation may require the use of an informal demonstration due to limitations in the applicability of formal methods to prove that the specification accurately reflects the implementation. Hardware, software, and firmware mechanisms strictly internal to security-relevant hardware, software, and firmware include, for example, mapping registers and direct memory input/output.”
Related Controls:SA-5
Description: “Produce, as an integral part of the development process, a formal top-level specification that specifies the interfaces to security-relevant hardware, software, and firmware in terms of exceptions, error messages, and effects;”
Description: “Show via proof to the extent feasible with additional informal demonstration as necessary, that the formal top-level specification is consistent with the formal policy model;”
Description: “Show via informal demonstration, that the formal top-level specification completely covers the interfaces to security-relevant hardware, software, and firmware;”
Description: “Show that the formal top-level specification is an accurate description of the implemented security-relevant hardware, software, and firmware; and”
Description: “Describe the security-relevant hardware, software, and firmware mechanisms not addressed in the formal top-level specification but strictly internal to the security-relevant hardware, software, and firmware.”
SA-17 (4)¶
SA-17 (4) : INFORMAL CORRESPONDENCE
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance: “Correspondence is an important part of the assurance gained through modeling. It demonstrates that the implementation is an accurate transformation of the model, and that any additional code or implementation details present has no impact on the behaviors or policies being modeled. Consistency between the descriptive top-level specification (i.e., high-level/low-level design) and the formal policy model is generally not amenable to being fully proven. Therefore, a combination of formal/informal methods may be needed to show such consistency. Hardware, software, and firmware mechanisms strictly internal to security-relevant hardware, software, and firmware include, for example, mapping registers and direct memory input/output.”
Related Controls:SA-5
Description: “Produce, as an integral part of the development process, an informal descriptive top-level specification that specifies the interfaces to security-relevant hardware, software, and firmware in terms of exceptions, error messages, and effects;”
Description: “Show via [Selection: informal demonstration, convincing argument with formal methods as feasible] that the descriptive top-level specification is consistent with the formal policy model;”
Description: “Show via informal demonstration, that the descriptive top-level specification completely covers the interfaces to security-relevant hardware, software, and firmware;”
Description: “Show that the descriptive top-level specification is an accurate description of the interfaces to security-relevant hardware, software, and firmware; and”
Description: “Describe the security-relevant hardware, software, and firmware mechanisms not addressed in the descriptive top-level specification but strictly internal to the security-relevant hardware, software, and firmware.”
SA-17 (5)¶
SA-17 (5) : CONCEPTUALLY SIMPLE DESIGN
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to:” Supplemental Guidance:
Related Controls:SC-3
Description: “Design and structure the security-relevant hardware, software, and firmware to use a complete, conceptually simple protection mechanism with precisely defined semantics; and”
Description: “Internally structure the security-relevant hardware, software, and firmware with specific regard for this mechanism.”
SA-17 (6)¶
SA-17 (6) : STRUCTURE FOR TESTING
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to structure security-relevant hardware, software, and firmware to facilitate testing.” Supplemental Guidance:
Related Controls:SA-11
SA-17 (7)¶
SA-17 (7) : STRUCTURE FOR LEAST PRIVILEGE
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service to structure security-relevant hardware, software, and firmware to facilitate controlling access with least privilege.” Supplemental Guidance:
Related Controls:AC-5,AC-6 .. _header_SA-18:
SA-18¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-18¶
SA-18 : TAMPER RESISTANCE AND DETECTION
Priority: P0
Baseline-Impact:
Description: “The organization implements a tamper protection program for the information system, system component, or information system service.” Supplemental Guidance: “Anti-tamper technologies and techniques provide a level of protection for critical information systems, system components, and information technology products against a number of related threats including modification, reverse engineering, and substitution. Strong identification combined with tamper resistance and/or tamper detection is essential to protecting information systems, components, and products during distribution and when in use.”
Related Controls:PE-3,SA-12,SI-7
SA-18 (1)¶
SA-18 (1) : MULTIPLE PHASES OF SDLC
Priority:
Baseline-Impact:
Description: “The organization employs anti-tamper technologies and techniques during multiple phases in the system development life cycle including design, development, integration, operations, and maintenance.” Supplemental Guidance: “Organizations use a combination of hardware and software techniques for tamper resistance and detection. Organizations employ obfuscation and self-checking, for example, to make reverse engineering and modifications more difficult, time-consuming, and expensive for adversaries. Customization of information systems and system components can make substitutions easier to detect and therefore limit damage.”
Related Controls:SA-3
SA-18 (2)¶
SA-18 (2) : INSPECTION OF INFORMATION SYSTEMS, COMPONENTS, OR DEVICES
Priority:
Baseline-Impact:
Description: “The organization inspects [Assignment: organization-defined information systems, system components, or devices] [Selection (one or more): at random; at [Assignment: organization-defined frequency], upon [Assignment: organization-defined indications of need for inspection]] to detect tampering.” Supplemental Guidance: “This control enhancement addresses both physical and logical tampering and is typically applied to mobile devices, notebook computers, or other system components taken out of organization-controlled areas. Indications of need for inspection include, for example, when individuals return from travel to high-risk locations.”
Related Controls:SI-4 .. _header_SA-19:
SA-19¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-19¶
SA-19 : COMPONENT AUTHENTICITY
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Sources of counterfeit components include, for example, manufacturers, developers, vendors, and contractors. Anti-counterfeiting policy and procedures support tamper resistance and provide a level of protection against the introduction of malicious code. External reporting organizations include, for example, US-CERT.”
Related Controls:PE-3,SA-12,SI-7
Description: “Develops and implements anti-counterfeit policy and procedures that include the means to detect and prevent counterfeit components from entering the information system; and”
Description: “Reports counterfeit information system components to [Selection (one or more): source of counterfeit component; [Assignment: organization-defined external reporting organizations]; [Assignment: organization-defined personnel or roles]].”
SA-19 (1)¶
SA-19 (1) : ANTI-COUNTERFEIT TRAINING
Priority:
Baseline-Impact:
Description: “The organization trains [Assignment: organization-defined personnel or roles] to detect counterfeit information system components (including hardware, software, and firmware).” Supplemental Guidance:
Related Controls:
SA-19 (2)¶
SA-19 (2) : CONFIGURATION CONTROL FOR COMPONENT SERVICE / REPAIR
Priority:
Baseline-Impact:
Description: “The organization maintains configuration control over [Assignment: organization-defined information system components] awaiting service/repair and serviced/repaired components awaiting return to service.” Supplemental Guidance:
Related Controls:
SA-19 (3)¶
SA-19 (3) : COMPONENT DISPOSAL
Priority:
Baseline-Impact:
Description: “The organization disposes of information system components using [Assignment: organization-defined techniques and methods].” Supplemental Guidance: “Proper disposal of information system components helps to prevent such components from entering the gray market.”
Related Controls:
SA-19 (4)¶
SA-19 (4) : ANTI-COUNTERFEIT SCANNING
Priority:
Baseline-Impact:
Description: “The organization scans for counterfeit information system components [Assignment: organization-defined frequency].” Supplemental Guidance:
Related Controls: .. _header_SA-20:
SA-20¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-20¶
SA-20 : CUSTOMIZED DEVELOPMENT OF CRITICAL COMPONENTS
Priority: P0
Baseline-Impact:
Description: “The organization re-implements or custom develops [Assignment: organization-defined critical information system components].” Supplemental Guidance: “Organizations determine that certain information system components likely cannot be trusted due to specific threats to and vulnerabilities in those components, and for which there are no viable security controls to adequately mitigate the resulting risk. Re-implementation or custom development of such components helps to satisfy requirements for higher assurance. This is accomplished by initiating changes to system components (including hardware, software, and firmware) such that the standard attacks by adversaries are less likely to succeed. In situations where no alternative sourcing is available and organizations choose not to re-implement or custom develop critical information system components, additional safeguards can be employed (e.g., enhanced auditing, restrictions on source code and system utility access, and protection from deletion of system and application files.”
Related Controls:CP-2,SA-8,SA-14
SA-21¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-21¶
SA-21 : DEVELOPER SCREENING
Priority: P0
Baseline-Impact:
Description: “The organization requires that the developer of [Assignment: organization-defined information system, system component, or information system service]:” Supplemental Guidance: “Because the information system, system component, or information system service may be employed in critical activities essential to the national and/or economic security interests of the United States, organizations have a strong interest in ensuring that the developer is trustworthy. The degree of trust required of the developer may need to be consistent with that of the individuals accessing the information system/component/service once deployed. Examples of authorization and personnel screening criteria include clearance, satisfactory background checks, citizenship, and nationality. Trustworthiness of developers may also include a review and analysis of company ownership and any relationships the company has with entities potentially affecting the quality/reliability of the systems, components, or services being developed.”
Related Controls:PS-3,PS-7
Description: “Have appropriate access authorizations as determined by assigned [Assignment: organization-defined official government duties]; and”
Description: “Satisfy [Assignment: organization-defined additional personnel screening criteria].”
SA-21 (1)¶
SA-21 (1) : VALIDATION OF SCREENING
Priority:
Baseline-Impact:
Description: “The organization requires the developer of the information system, system component, or information system service take [Assignment: organization-defined actions] to ensure that the required access authorizations and screening criteria are satisfied.” Supplemental Guidance: “Satisfying required access authorizations and personnel screening criteria includes, for example, providing a listing of all the individuals authorized to perform development activities on the selected information system, system component, or information system service so that organizations can validate that the developer has satisfied the necessary authorization and screening requirements.”
Related Controls: .. _header_SA-22:
SA-22¶
Control Family: SYSTEM AND SERVICES ACQUISITION
SA-22¶
SA-22 : UNSUPPORTED SYSTEM COMPONENTS
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Support for information system components includes, for example, software patches, firmware updates, replacement parts, and maintenance contracts. Unsupported components (e.g., when vendors are no longer providing critical software patches), provide a substantial opportunity for adversaries to exploit new weaknesses discovered in the currently installed components. Exceptions to replacing unsupported system components may include, for example, systems that provide critical mission/business capability where newer technologies are not available or where the systems are so isolated that installing replacement components is not an option.”
Related Controls:PL-2,SA-3
Description: “Replaces information system components when support for the components is no longer available from the developer, vendor, or manufacturer; and”
Description: “Provides justification and documents approval for the continued use of unsupported system components required to satisfy mission/business needs.”
SA-22 (1)¶
SA-22 (1) : ALTERNATIVE SOURCES FOR CONTINUED SUPPORT
Priority:
Baseline-Impact:
Description: “The organization provides [Selection (one or more): in-house support; [Assignment: organization-defined support from external providers]] for unsupported information system components.” Supplemental Guidance: “This control enhancement addresses the need to provide continued support for selected information system components that are no longer supported by the original developers, vendors, or manufacturers when such components remain essential to mission/business operations. Organizations can establish in-house support, for example, by developing customized patches for critical software components or secure the services of external providers who through contractual relationships, provide ongoing support for the designated unsupported components. Such contractual relationships can include, for example, Open Source Software value-added vendors.”
Related Controls: .. _header_SC-1:
SC-1¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-1¶
SC-1 : SYSTEM AND COMMUNICATIONS PROTECTION POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the SC family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A system and communications protection policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the system and communications protection policy and associated system and communications protection controls; and”
Description: “Reviews and updates the current:”
Description: “System and communications protection policy [Assignment: organization-defined frequency]; and”
Description: “System and communications protection procedures [Assignment: organization-defined frequency].” .. _header_SC-2:
SC-2¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-2¶
SC-2 : APPLICATION PARTITIONING
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system separates user functionality (including user interface services) from information system management functionality.” Supplemental Guidance: “Information system management functionality includes, for example, functions necessary to administer databases, network components, workstations, or servers, and typically requires privileged user access. The separation of user functionality from information system management functionality is either physical or logical. Organizations implement separation of system management-related functionality from user functionality by using different computers, different central processing units, different instances of operating systems, different network addresses, virtualization techniques, or combinations of these or other methods, as appropriate. This type of separation includes, for example, web administrative interfaces that use separate authentication methods for users of any other information system resources. Separation of system and user functionality may include isolating administrative interfaces on different domains and with additional access controls.”
Related Controls:SA-4,SA-8,SC-3
SC-2 (1)¶
SC-2 (1) : INTERFACES FOR NON-PRIVILEGED USERS
Priority:
Baseline-Impact:
Description: “The information system prevents the presentation of information system management-related functionality at an interface for non-privileged users.” Supplemental Guidance: “This control enhancement ensures that administration options (e.g., administrator privileges) are not available to general users (including prohibiting the use of the grey-out option commonly used to eliminate accessibility to such information). Such restrictions include, for example, not presenting administration options until users establish sessions with administrator privileges.”
Related Controls:AC-3 .. _header_SC-3:
SC-3¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-3¶
SC-3 : SECURITY FUNCTION ISOLATION
Priority: P1
Baseline-Impact: HIGH
Description: “The information system isolates security functions from nonsecurity functions.” Supplemental Guidance: “The information system isolates security functions from nonsecurity functions by means of an isolation boundary (implemented via partitions and domains). Such isolation controls access to and protects the integrity of the hardware, software, and firmware that perform those security functions. Information systems implement code separation (i.e., separation of security functions from nonsecurity functions) in a number of ways, including, for example, through the provision of security kernels via processor rings or processor modes. For non-kernel code, security function isolation is often achieved through file system protections that serve to protect the code on disk, and address space protections that protect executing code. Information systems restrict access to security functions through the use of access control mechanisms and by implementing least privilege capabilities. While the ideal is for all of the code within the security function isolation boundary to only contain security-relevant code, it is sometimes necessary to include nonsecurity functions within the isolation boundary as an exception.”
Related Controls:AC-3,AC-6,SA-4,SA-5,SA-8,SA-13,SC-2,SC-7,SC-39
SC-3 (1)¶
SC-3 (1) : HARDWARE SEPARATION
Priority:
Baseline-Impact:
Description: “The information system utilizes underlying hardware separation mechanisms to implement security function isolation.” Supplemental Guidance: “Underlying hardware separation mechanisms include, for example, hardware ring architectures, commonly implemented within microprocessors, and hardware-enforced address segmentation used to support logically distinct storage objects with separate attributes (i.e., readable, writeable).”
Related Controls:
SC-3 (2)¶
SC-3 (2) : ACCESS / FLOW CONTROL FUNCTIONS
Priority:
Baseline-Impact:
Description: “The information system isolates security functions enforcing access and information flow control from nonsecurity functions and from other security functions.” Supplemental Guidance: “Security function isolation occurs as a result of implementation; the functions can still be scanned and monitored. Security functions that are potentially isolated from access and flow control enforcement functions include, for example, auditing, intrusion detection, and anti-virus functions.”
Related Controls:
SC-3 (3)¶
SC-3 (3) : MINIMIZE NONSECURITY FUNCTIONALITY
Priority:
Baseline-Impact:
Description: “The organization minimizes the number of nonsecurity functions included within the isolation boundary containing security functions.” Supplemental Guidance: “In those instances where it is not feasible to achieve strict isolation of nonsecurity functions from security functions, it is necessary to take actions to minimize the nonsecurity-relevant functions within the security function boundary. Nonsecurity functions contained within the isolation boundary are considered security-relevant because errors or maliciousness in such software, by virtue of being within the boundary, can impact the security functions of organizational information systems. The design objective is that the specific portions of information systems providing information security are of minimal size/complexity. Minimizing the number of nonsecurity functions in the security-relevant components of information systems allows designers and implementers to focus only on those functions which are necessary to provide the desired security capability (typically access enforcement). By minimizing nonsecurity functions within the isolation boundaries, the amount of code that must be trusted to enforce security policies is reduced, thus contributing to understandability.”
Related Controls:
SC-3 (4)¶
SC-3 (4) : MODULE COUPLING AND COHESIVENESS
Priority:
Baseline-Impact:
Description: “The organization implements security functions as largely independent modules that maximize internal cohesiveness within modules and minimize coupling between modules.” Supplemental Guidance: “The reduction in inter-module interactions helps to constrain security functions and to manage complexity. The concepts of coupling and cohesion are important with respect to modularity in software design. Coupling refers to the dependencies that one module has on other modules. Cohesion refers to the relationship between the different functions within a particular module. Good software engineering practices rely on modular decomposition, layering, and minimization to reduce and manage complexity, thus producing software modules that are highly cohesive and loosely coupled.”
Related Controls:
SC-3 (5)¶
SC-3 (5) : LAYERED STRUCTURES
Priority:
Baseline-Impact:
Description: “The organization implements security functions as a layered structure minimizing interactions between layers of the design and avoiding any dependence by lower layers on the functionality or correctness of higher layers.” Supplemental Guidance: “The implementation of layered structures with minimized interactions among security functions and non-looping layers (i.e., lower-layer functions do not depend on higher-layer functions) further enables the isolation of security functions and management of complexity.”
Related Controls: .. _header_SC-4:
SC-4¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-4¶
SC-4 : INFORMATION IN SHARED RESOURCES
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system prevents unauthorized and unintended information transfer via shared system resources.” Supplemental Guidance: “This control prevents information, including encrypted representations of information, produced by the actions of prior users/roles (or the actions of processes acting on behalf of prior users/roles) from being available to any current users/roles (or current processes) that obtain access to shared system resources (e.g., registers, main memory, hard disks) after those resources have been released back to information systems. The control of information in shared resources is also commonly referred to as object reuse and residual information protection. This control does not address: (i) information remanence which refers to residual representation of data that has been nominally erased or removed; (ii) covert channels (including storage and/or timing channels) where shared resources are manipulated to violate information flow restrictions; or (iii) components within information systems for which there are only single users/roles.”
Related Controls:AC-3,AC-4,MP-6
SC-4 (1)¶
SC-4 (1) : SECURITY LEVELS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-4].” Supplemental Guidance:
Related Controls:
SC-4 (2)¶
SC-4 (2) : PERIODS PROCESSING
Priority:
Baseline-Impact:
Description: “The information system prevents unauthorized information transfer via shared resources in accordance with [Assignment: organization-defined procedures] when system processing explicitly switches between different information classification levels or security categories.” Supplemental Guidance: “This control enhancement applies when there are explicit changes in information processing levels during information system operations, for example, during multilevel processing and periods processing with information at different classification levels or security categories. Organization-defined procedures may include, for example, approved sanitization processes for electronically stored information.”
Related Controls: .. _header_SC-5:
SC-5¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-5¶
SC-5 : DENIAL OF SERVICE PROTECTION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system protects against or limits the effects of the following types of denial of service attacks: [Assignment: organization-defined types of denial of service attacks or references to sources for such information] by employing [Assignment: organization-defined security safeguards].” Supplemental Guidance: “A variety of technologies exist to limit, or in some cases, eliminate the effects of denial of service attacks. For example, boundary protection devices can filter certain types of packets to protect information system components on internal organizational networks from being directly affected by denial of service attacks. Employing increased capacity and bandwidth combined with service redundancy may also reduce the susceptibility to denial of service attacks.”
Related Controls:SC-6,SC-7
SC-5 (1)¶
SC-5 (1) : RESTRICT INTERNAL USERS
Priority:
Baseline-Impact:
Description: “The information system restricts the ability of individuals to launch [Assignment: organization-defined denial of service attacks] against other information systems.” Supplemental Guidance: “Restricting the ability of individuals to launch denial of service attacks requires that the mechanisms used for such attacks are unavailable. Individuals of concern can include, for example, hostile insiders or external adversaries that have successfully breached the information system and are using the system as a platform to launch cyber attacks on third parties. Organizations can restrict the ability of individuals to connect and transmit arbitrary information on the transport medium (i.e., network, wireless spectrum). Organizations can also limit the ability of individuals to use excessive information system resources. Protection against individuals having the ability to launch denial of service attacks may be implemented on specific information systems or on boundary devices prohibiting egress to potential target systems.”
Related Controls:
SC-5 (2)¶
SC-5 (2) : EXCESS CAPACITY / BANDWIDTH / REDUNDANCY
Priority:
Baseline-Impact:
Description: “The information system manages excess capacity, bandwidth, or other redundancy to limit the effects of information flooding denial of service attacks.” Supplemental Guidance: “Managing excess capacity ensures that sufficient capacity is available to counter flooding attacks. Managing excess capacity may include, for example, establishing selected usage priorities, quotas, or partitioning.”
Related Controls:
SC-5 (3)¶
SC-5 (3) : DETECTION / MONITORING
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Organizations consider utilization and capacity of information system resources when managing risk from denial of service due to malicious attacks. Denial of service attacks can originate from external or internal sources. Information system resources sensitive to denial of service include, for example, physical disk storage, memory, and CPU cycles. Common safeguards to prevent denial of service attacks related to storage utilization and capacity include, for example, instituting disk quotas, configuring information systems to automatically alert administrators when specific storage capacity thresholds are reached, using file compression technologies to maximize available storage space, and imposing separate partitions for system and user data.”
Related Controls:CA-7,SI-4
Description: “Employs [Assignment: organization-defined monitoring tools] to detect indicators of denial of service attacks against the information system; and”
Description: “Monitors [Assignment: organization-defined information system resources] to determine if sufficient resources exist to prevent effective denial of service attacks.” .. _header_SC-6:
SC-6¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-6¶
SC-6 : RESOURCE AVAILABILITY
Priority: P0
Baseline-Impact:
Description: “The information system protects the availability of resources by allocating [Assignment: organization-defined resources] by [Selection (one or more); priority; quota; [Assignment: organization-defined security safeguards]].” Supplemental Guidance: “Priority protection helps prevent lower-priority processes from delaying or interfering with the information system servicing any higher-priority processes. Quotas prevent users or processes from obtaining more than predetermined amounts of resources. This control does not apply to information system components for which there are only single users/roles.”
Related Controls:
SC-7¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-7¶
SC-7 : BOUNDARY PROTECTION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “Managed interfaces include, for example, gateways, routers, firewalls, guards, network-based malicious code analysis and virtualization systems, or encrypted tunnels implemented within a security architecture (e.g., routers protecting firewalls or application gateways residing on protected subnetworks). Subnetworks that are physically or logically separated from internal networks are referred to as demilitarized zones or DMZs. Restricting or prohibiting interfaces within organizational information systems includes, for example, restricting external web traffic to designated web servers within managed interfaces and prohibiting external traffic that appears to be spoofing internal addresses. Organizations consider the shared nature of commercial telecommunications services in the implementation of security controls associated with the use of such services. Commercial telecommunications services are commonly based on network components and consolidated management systems shared by all attached commercial customers, and may also include third party-provided access lines and other service elements. Such transmission services may represent sources of increased risk despite contract security provisions.”
Related Controls:AC-4,AC-17,CA-3,CM-7,CP-8,IR-4,RA-3,SC-5,SC-13
Description: “Monitors and controls communications at the external boundary of the system and at key internal boundaries within the system;”
Description: “Implements subnetworks for publicly accessible system components that are [Selection: physically; logically] separated from internal organizational networks; and”
Description: “Connects to external networks or information systems only through managed interfaces consisting of boundary protection devices arranged in accordance with an organizational security architecture.”
SC-7 (1)¶
SC-7 (1) : PHYSICALLY SEPARATED SUBNETWORKS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-7].” Supplemental Guidance:
Related Controls:
SC-7 (2)¶
SC-7 (2) : PUBLIC ACCESS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-7].” Supplemental Guidance:
Related Controls:
SC-7 (3)¶
SC-7 (3) : ACCESS POINTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization limits the number of external network connections to the information system.” Supplemental Guidance: “Limiting the number of external network connections facilitates more comprehensive monitoring of inbound and outbound communications traffic. The Trusted Internet Connection (TIC) initiative is an example of limiting the number of external network connections.”
Related Controls:
SC-7 (4)¶
SC-7 (4) : EXTERNAL TELECOMMUNICATIONS SERVICES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance:
Related Controls:SC-8
Description: “Implements a managed interface for each external telecommunication service;”
Description: “Establishes a traffic flow policy for each managed interface;”
Description: “Protects the confidentiality and integrity of the information being transmitted across each interface;”
Description: “Documents each exception to the traffic flow policy with a supporting mission/business need and duration of that need; and”
Description: “Reviews exceptions to the traffic flow policy [Assignment: organization-defined frequency] and removes exceptions that are no longer supported by an explicit mission/business need.”
SC-7 (5)¶
SC-7 (5) : DENY BY DEFAULT / ALLOW BY EXCEPTION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system at managed interfaces denies network communications traffic by default and allows network communications traffic by exception (i.e., deny all, permit by exception).” Supplemental Guidance: “This control enhancement applies to both inbound and outbound network communications traffic. A deny-all, permit-by-exception network communications traffic policy ensures that only those connections which are essential and approved are allowed.”
Related Controls:
SC-7 (6)¶
SC-7 (6) : RESPONSE TO RECOGNIZED FAILURES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-7 (18)].” Supplemental Guidance:
Related Controls:
SC-7 (7)¶
SC-7 (7) : PREVENT SPLIT TUNNELING FOR REMOTE DEVICES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system, in conjunction with a remote device, prevents the device from simultaneously establishing non-remote connections with the system and communicating via some other connection to resources in external networks.” Supplemental Guidance: “This control enhancement is implemented within remote devices (e.g., notebook computers) through configuration settings to disable split tunneling in those devices, and by preventing those configuration settings from being readily configurable by users. This control enhancement is implemented within the information system by the detection of split tunneling (or of configuration settings that allow split tunneling) in the remote device, and by prohibiting the connection if the remote device is using split tunneling. Split tunneling might be desirable by remote users to communicate with local information system resources such as printers/file servers. However, split tunneling would in effect allow unauthorized external connections, making the system more vulnerable to attack and to exfiltration of organizational information. The use of VPNs for remote connections, when adequately provisioned with appropriate security controls, may provide the organization with sufficient assurance that it can effectively treat such connections as non-remote connections from the confidentiality and integrity perspective. VPNs thus provide a means for allowing non-remote communications paths from remote devices. The use of an adequately provisioned VPN does not eliminate the need for preventing split tunneling.”
Related Controls:
SC-7 (8)¶
SC-7 (8) : ROUTE TRAFFIC TO AUTHENTICATED PROXY SERVERS
Priority:
Baseline-Impact: HIGH
Description: “The information system routes [Assignment: organization-defined internal communications traffic] to [Assignment: organization-defined external networks] through authenticated proxy servers at managed interfaces.” Supplemental Guidance: “External networks are networks outside of organizational control. A proxy server is a server (i.e., information system or application) that acts as an intermediary for clients requesting information system resources (e.g., files, connections, web pages, or services) from other organizational servers. Client requests established through an initial connection to the proxy server are evaluated to manage complexity and to provide additional protection by limiting direct connectivity. Web content filtering devices are one of the most common proxy servers providing access to the Internet. Proxy servers support logging individual Transmission Control Protocol (TCP) sessions and blocking specific Uniform Resource Locators (URLs), domain names, and Internet Protocol (IP) addresses. Web proxies can be configured with organization-defined lists of authorized and unauthorized websites.”
Related Controls:AC-3,AU-2
SC-7 (9)¶
SC-7 (9) : RESTRICT THREATENING OUTGOING COMMUNICATIONS TRAFFIC
Priority:
Baseline-Impact:
Description: “The information system:” Supplemental Guidance: “Detecting outgoing communications traffic from internal actions that may pose threats to external information systems is sometimes termed extrusion detection. Extrusion detection at information system boundaries as part of managed interfaces includes the analysis of incoming and outgoing communications traffic searching for indications of internal threats to the security of external systems. Such threats include, for example, traffic indicative of denial of service attacks and traffic containing malicious code.”
Related Controls:AU-2,AU-6,SC-38,SC-44,SI-3,SI-4
Description: “Detects and denies outgoing communications traffic posing a threat to external information systems; and”
Description: “Audits the identity of internal users associated with denied communications.”
SC-7 (10)¶
SC-7 (10) : PREVENT UNAUTHORIZED EXFILTRATION
Priority:
Baseline-Impact:
Description: “The organization prevents the unauthorized exfiltration of information across managed interfaces.” Supplemental Guidance: “Safeguards implemented by organizations to prevent unauthorized exfiltration of information from information systems include, for example: (i) strict adherence to protocol formats; (ii) monitoring for beaconing from information systems; (iii) monitoring for steganography; (iv) disconnecting external network interfaces except when explicitly needed; (v) disassembling and reassembling packet headers; and (vi) employing traffic profile analysis to detect deviations from the volume/types of traffic expected within organizations or call backs to command and control centers. Devices enforcing strict adherence to protocol formats include, for example, deep packet inspection firewalls and XML gateways. These devices verify adherence to protocol formats and specification at the application layer and serve to identify vulnerabilities that cannot be detected by devices operating at the network or transport layers. This control enhancement is closely associated with cross-domain solutions and system guards enforcing information flow requirements.”
Related Controls:SI-3
SC-7 (11)¶
SC-7 (11) : RESTRICT INCOMING COMMUNICATIONS TRAFFIC
Priority:
Baseline-Impact:
Description: “The information system only allows incoming communications from [Assignment: organization-defined authorized sources] to be routed to [Assignment: organization-defined authorized destinations].” Supplemental Guidance: “This control enhancement provides determinations that source and destination address pairs represent authorized/allowed communications. Such determinations can be based on several factors including, for example, the presence of source/destination address pairs in lists of authorized/allowed communications, the absence of address pairs in lists of unauthorized/disallowed pairs, or meeting more general rules for authorized/allowed source/destination pairs.”
Related Controls:AC-3
SC-7 (12)¶
SC-7 (12) : HOST-BASED PROTECTION
Priority:
Baseline-Impact:
Description: “The organization implements [Assignment: organization-defined host-based boundary protection mechanisms] at [Assignment: organization-defined information system components].” Supplemental Guidance: “Host-based boundary protection mechanisms include, for example, host-based firewalls. Information system components employing host-based boundary protection mechanisms include, for example, servers, workstations, and mobile devices.”
Related Controls:
SC-7 (13)¶
SC-7 (13) : ISOLATION OF SECURITY TOOLS / MECHANISMS / SUPPORT COMPONENTS
Priority:
Baseline-Impact:
Description: “The organization isolates [Assignment: organization-defined information security tools, mechanisms, and support components] from other internal information system components by implementing physically separate subnetworks with managed interfaces to other components of the system.” Supplemental Guidance: “Physically separate subnetworks with managed interfaces are useful, for example, in isolating computer network defenses from critical operational processing networks to prevent adversaries from discovering the analysis and forensics techniques of organizations.”
Related Controls:SA-8,SC-2,SC-3
SC-7 (14)¶
SC-7 (14) : PROTECTS AGAINST UNAUTHORIZED PHYSICAL CONNECTIONS
Priority:
Baseline-Impact:
Description: “The organization protects against unauthorized physical connections at [Assignment: organization-defined managed interfaces].” Supplemental Guidance: “Information systems operating at different security categories or classification levels may share common physical and environmental controls, since the systems may share space within organizational facilities. In practice, it is possible that these separate information systems may share common equipment rooms, wiring closets, and cable distribution paths. Protection against unauthorized physical connections can be achieved, for example, by employing clearly identified and physically separated cable trays, connection frames, and patch panels for each side of managed interfaces with physical access controls enforcing limited authorized access to these items.”
Related Controls:PE-4,PE-19
SC-7 (15)¶
SC-7 (15) : ROUTE PRIVILEGED NETWORK ACCESSES
Priority:
Baseline-Impact:
Description: “The information system routes all networked, privileged accesses through a dedicated, managed interface for purposes of access control and auditing.” Supplemental Guidance:
Related Controls:AC-2,AC-3,AU-2,SI-4
SC-7 (16)¶
SC-7 (16) : PREVENT DISCOVERY OF COMPONENTS / DEVICES
Priority:
Baseline-Impact:
Description: “The information system prevents discovery of specific system components composing a managed interface.” Supplemental Guidance: “This control enhancement protects network addresses of information system components that are part of managed interfaces from discovery through common tools and techniques used to identify devices on networks. Network addresses are not available for discovery (e.g., network address not published or entered in domain name systems), requiring prior knowledge for access. Another obfuscation technique is to periodically change network addresses.”
Related Controls:
SC-7 (17)¶
SC-7 (17) : AUTOMATED ENFORCEMENT OF PROTOCOL FORMATS
Priority:
Baseline-Impact:
Description: “The information system enforces adherence to protocol formats.” Supplemental Guidance: “Information system components that enforce protocol formats include, for example, deep packet inspection firewalls and XML gateways. Such system components verify adherence to protocol formats/specifications (e.g., IEEE) at the application layer and identify significant vulnerabilities that cannot be detected by devices operating at the network or transport layers.”
Related Controls:SC-4
SC-7 (18)¶
SC-7 (18) : FAIL SECURE
Priority:
Baseline-Impact: HIGH
Description: “The information system fails securely in the event of an operational failure of a boundary protection device.” Supplemental Guidance: “Fail secure is a condition achieved by employing information system mechanisms to ensure that in the event of operational failures of boundary protection devices at managed interfaces (e.g., routers, firewalls, guards, and application gateways residing on protected subnetworks commonly referred to as demilitarized zones), information systems do not enter into unsecure states where intended security properties no longer hold. Failures of boundary protection devices cannot lead to, or cause information external to the devices to enter the devices, nor can failures permit unauthorized information releases.”
Related Controls:CP-2,SC-24
SC-7 (19)¶
SC-7 (19) : BLOCKS COMMUNICATION FROM NON-ORGANIZATIONALLY CONFIGURED HOSTS
Priority:
Baseline-Impact:
Description: “The information system blocks both inbound and outbound communications traffic between [Assignment: organization-defined communication clients] that are independently configured by end users and external service providers.” Supplemental Guidance: “Communication clients independently configured by end users and external service providers include, for example, instant messaging clients. Traffic blocking does not apply to communication clients that are configured by organizations to perform authorized functions.”
Related Controls:
SC-7 (20)¶
SC-7 (20) : DYNAMIC ISOLATION / SEGREGATION
Priority:
Baseline-Impact:
Description: “The information system provides the capability to dynamically isolate/segregate [Assignment: organization-defined information system components] from other components of the system.” Supplemental Guidance: “The capability to dynamically isolate or segregate certain internal components of organizational information systems is useful when it is necessary to partition or separate certain components of dubious origin from those components possessing greater trustworthiness. Component isolation reduces the attack surface of organizational information systems. Isolation of selected information system components is also a means of limiting the damage from successful cyber attacks when those attacks occur.”
Related Controls:
SC-7 (21)¶
SC-7 (21) : ISOLATION OF INFORMATION SYSTEM COMPONENTS
Priority:
Baseline-Impact: HIGH
Description: “The organization employs boundary protection mechanisms to separate [Assignment: organization-defined information system components] supporting [Assignment: organization-defined missions and/or business functions].” Supplemental Guidance: “Organizations can isolate information system components performing different missions and/or business functions. Such isolation limits unauthorized information flows among system components and also provides the opportunity to deploy greater levels of protection for selected components. Separating system components with boundary protection mechanisms provides the capability for increased protection of individual components and to more effectively control information flows between those components. This type of enhanced protection limits the potential harm from cyber attacks and errors. The degree of separation provided varies depending upon the mechanisms chosen. Boundary protection mechanisms include, for example, routers, gateways, and firewalls separating system components into physically separate networks or subnetworks, cross-domain devices separating subnetworks, virtualization techniques, and encrypting information flows among system components using distinct encryption keys.”
Related Controls:CA-9,SC-3
SC-7 (22)¶
SC-7 (22) : SEPARATE SUBNETS FOR CONNECTING TO DIFFERENT SECURITY DOMAINS
Priority:
Baseline-Impact:
Description: “The information system implements separate network addresses (i.e., different subnets) to connect to systems in different security domains.” Supplemental Guidance: “Decomposition of information systems into subnets helps to provide the appropriate level of protection for network connections to different security domains containing information with different security categories or classification levels.”
Related Controls:
SC-7 (23)¶
SC-7 (23) : DISABLE SENDER FEEDBACK ON PROTOCOL VALIDATION FAILURE
Priority:
Baseline-Impact:
Description: “The information system disables feedback to senders on protocol format validation failure.” Supplemental Guidance: “Disabling feedback to senders when there is a failure in protocol validation format prevents adversaries from obtaining information which would otherwise be unavailable.”
Related Controls: .. _header_SC-8:
SC-8¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-8¶
SC-8 : TRANSMISSION CONFIDENTIALITY AND INTEGRITY
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system protects the [Selection (one or more): confidentiality; integrity] of transmitted information.” Supplemental Guidance: “This control applies to both internal and external networks and all types of information system components from which information can be transmitted (e.g., servers, mobile devices, notebook computers, printers, copiers, scanners, facsimile machines). Communication paths outside the physical protection of a controlled boundary are exposed to the possibility of interception and modification. Protecting the confidentiality and/or integrity of organizational information can be accomplished by physical means (e.g., by employing protected distribution systems) or by logical means (e.g., employing encryption techniques). Organizations relying on commercial providers offering transmission services as commodity services rather than as fully dedicated services (i.e., services which can be highly specialized to individual customer needs), may find it difficult to obtain the necessary assurances regarding the implementation of needed security controls for transmission confidentiality/integrity. In such situations, organizations determine what types of confidentiality/integrity services are available in standard, commercial telecommunication service packages. If it is infeasible or impractical to obtain the necessary security controls and assurances of control effectiveness through appropriate contracting vehicles, organizations implement appropriate compensating security controls or explicitly accept the additional risk.”
Related Controls:AC-17,PE-4
SC-8 (1)¶
SC-8 (1) : CRYPTOGRAPHIC OR ALTERNATE PHYSICAL PROTECTION
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements cryptographic mechanisms to [Selection (one or more): prevent unauthorized disclosure of information; detect changes to information] during transmission unless otherwise protected by [Assignment: organization-defined alternative physical safeguards].” Supplemental Guidance: “Encrypting information for transmission protects information from unauthorized disclosure and modification. Cryptographic mechanisms implemented to protect information integrity include, for example, cryptographic hash functions which have common application in digital signatures, checksums, and message authentication codes. Alternative physical security safeguards include, for example, protected distribution systems.”
Related Controls:SC-13
SC-8 (2)¶
SC-8 (2) : PRE / POST TRANSMISSION HANDLING
Priority:
Baseline-Impact:
Description: “The information system maintains the [Selection (one or more): confidentiality; integrity] of information during preparation for transmission and during reception.” Supplemental Guidance: “Information can be either unintentionally or maliciously disclosed or modified during preparation for transmission or during reception including, for example, during aggregation, at protocol transformation points, and during packing/unpacking. These unauthorized disclosures or modifications compromise the confidentiality or integrity of the information.”
Related Controls:AU-10
SC-8 (3)¶
SC-8 (3) : CRYPTOGRAPHIC PROTECTION FOR MESSAGE EXTERNALS
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to protect message externals unless otherwise protected by [Assignment: organization-defined alternative physical safeguards].” Supplemental Guidance: “This control enhancement addresses protection against unauthorized disclosure of information. Message externals include, for example, message headers/routing information. This control enhancement prevents the exploitation of message externals and applies to both internal and external networks or links that may be visible to individuals who are not authorized users. Header/routing information is sometimes transmitted unencrypted because the information is not properly identified by organizations as having significant value or because encrypting the information can result in lower network performance and/or higher costs. Alternative physical safeguards include, for example, protected distribution systems.”
Related Controls:SC-12,SC-13
SC-8 (4)¶
SC-8 (4) : CONCEAL / RANDOMIZE COMMUNICATIONS
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to conceal or randomize communication patterns unless otherwise protected by [Assignment: organization-defined alternative physical safeguards].” Supplemental Guidance: “This control enhancement addresses protection against unauthorized disclosure of information. Communication patterns include, for example, frequency, periods, amount, and predictability. Changes to communications patterns can reveal information having intelligence value especially when combined with other available information related to missions/business functions supported by organizational information systems. This control enhancement prevents the derivation of intelligence based on communications patterns and applies to both internal and external networks or links that may be visible to individuals who are not authorized users. Encrypting the links and transmitting in continuous, fixed/random patterns prevents the derivation of intelligence from the system communications patterns. Alternative physical safeguards include, for example, protected distribution systems.”
Related Controls:SC-12,SC-13 .. _header_SC-9:
SC-9¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-9¶
SC-9 : TRANSMISSION CONFIDENTIALITY
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-8].” Supplemental Guidance:
Related Controls:
SC-10¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-10¶
SC-10 : NETWORK DISCONNECT
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The information system terminates the network connection associated with a communications session at the end of the session or after [Assignment: organization-defined time period] of inactivity.” Supplemental Guidance: “This control applies to both internal and external networks. Terminating network connections associated with communications sessions include, for example, de-allocating associated TCP/IP address/port pairs at the operating system level, or de-allocating networking assignments at the application level if multiple application sessions are using a single, operating system-level network connection. Time periods of inactivity may be established by organizations and include, for example, time periods by type of network access or for specific network accesses.”
Related Controls:
SC-11¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-11¶
SC-11 : TRUSTED PATH
Priority: P0
Baseline-Impact:
Description: “The information system establishes a trusted communications path between the user and the following security functions of the system: [Assignment: organization-defined security functions to include at a minimum, information system authentication and re-authentication].” Supplemental Guidance: “Trusted paths are mechanisms by which users (through input devices) can communicate directly with security functions of information systems with the requisite assurance to support information security policies. The mechanisms can be activated only by users or the security functions of organizational information systems. User responses via trusted paths are protected from modifications by or disclosure to untrusted applications. Organizations employ trusted paths for high-assurance connections between security functions of information systems and users (e.g., during system logons). Enforcement of trusted communications paths is typically provided via an implementation that meets the reference monitor concept.”
Related Controls:AC-16,AC-25
SC-11 (1)¶
SC-11 (1) : LOGICAL ISOLATION
Priority:
Baseline-Impact:
Description: “The information system provides a trusted communications path that is logically isolated and distinguishable from other paths.” Supplemental Guidance:
Related Controls: .. _header_SC-12:
SC-12¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-12¶
SC-12 : CRYPTOGRAPHIC KEY ESTABLISHMENT AND MANAGEMENT
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization establishes and manages cryptographic keys for required cryptography employed within the information system in accordance with [Assignment: organization-defined requirements for key generation, distribution, storage, access, and destruction].” Supplemental Guidance: “Cryptographic key management and establishment can be performed using manual procedures or automated mechanisms with supporting manual procedures. Organizations define key management requirements in accordance with applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance, specifying appropriate options, levels, and parameters. Organizations manage trust stores to ensure that only approved trust anchors are in such trust stores. This includes certificates with visibility external to organizational information systems and certificates related to the internal operations of systems.”
Related Controls:SC-13,SC-17
SC-12 (1)¶
SC-12 (1) : AVAILABILITY
Priority:
Baseline-Impact: HIGH
Description: “The organization maintains availability of information in the event of the loss of cryptographic keys by users.” Supplemental Guidance: “Escrowing of encryption keys is a common practice for ensuring availability in the event of loss of keys (e.g., due to forgotten passphrase).”
Related Controls:
SC-12 (2)¶
SC-12 (2) : SYMMETRIC KEYS
Priority:
Baseline-Impact:
Description: “The organization produces, controls, and distributes symmetric cryptographic keys using [Selection: NIST FIPS-compliant; NSA-approved] key management technology and processes.” Supplemental Guidance:
Related Controls:
SC-12 (3)¶
SC-12 (3) : ASYMMETRIC KEYS
Priority:
Baseline-Impact:
Description: “The organization produces, controls, and distributes asymmetric cryptographic keys using [Selection: NSA-approved key management technology and processes; approved PKI Class 3 certificates or prepositioned keying material; approved PKI Class 3 or Class 4 certificates and hardware security tokens that protect the user�s private key].” Supplemental Guidance:
Related Controls:
SC-12 (4)¶
SC-12 (4) : PKI CERTIFICATES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-12].” Supplemental Guidance:
Related Controls:
SC-12 (5)¶
SC-12 (5) : PKI CERTIFICATES / HARDWARE TOKENS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-12].” Supplemental Guidance:
Related Controls: .. _header_SC-13:
SC-13¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-13¶
SC-13 : CRYPTOGRAPHIC PROTECTION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system implements [Assignment: organization-defined cryptographic uses and type of cryptography required for each use] in accordance with applicable federal laws, Executive Orders, directives, policies, regulations, and standards.” Supplemental Guidance: “Cryptography can be employed to support a variety of security solutions including, for example, the protection of classified and Controlled Unclassified Information, the provision of digital signatures, and the enforcement of information separation when authorized individuals have the necessary clearances for such information but lack the necessary formal access approvals. Cryptography can also be used to support random number generation and hash generation. Generally applicable cryptographic standards include FIPS-validated cryptography and NSA-approved cryptography. This control does not impose any requirements on organizations to use cryptography. However, if cryptography is required based on the selection of other security controls, organizations define each type of cryptographic use and the type of cryptography required (e.g., protection of classified information: NSA-approved cryptography; provision of digital signatures: FIPS-validated cryptography).”
Related Controls:AC-2,AC-3,AC-7,AC-17,AC-18,AU-9,AU-10,CM-11,CP-9,IA-3,IA-7,MA-4,MP-2,MP-4,MP-5,SA-4,SC-8,SC-12,SC-28,SI-7
SC-13 (1)¶
SC-13 (1) : FIPS-VALIDATED CRYPTOGRAPHY
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-13].” Supplemental Guidance:
Related Controls:
SC-13 (2)¶
SC-13 (2) : NSA-APPROVED CRYPTOGRAPHY
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-13].” Supplemental Guidance:
Related Controls:
SC-13 (3)¶
SC-13 (3) : INDIVIDUALS WITHOUT FORMAL ACCESS APPROVALS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-13].” Supplemental Guidance:
Related Controls:
SC-13 (4)¶
SC-13 (4) : DIGITAL SIGNATURES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-13].” Supplemental Guidance:
Related Controls: .. _header_SC-14:
SC-14¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-14¶
SC-14 : PUBLIC ACCESS PROTECTIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Capability provided by AC-2, AC-3, AC-5, AC-6, SI-3, SI-4, SI-5, SI-7, SI-10].” Supplemental Guidance:
Related Controls:
SC-15¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-15¶
SC-15 : COLLABORATIVE COMPUTING DEVICES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “Collaborative computing devices include, for example, networked white boards, cameras, and microphones. Explicit indication of use includes, for example, signals to users when collaborative computing devices are activated.”
Related Controls:AC-21
Description: “Prohibits remote activation of collaborative computing devices with the following exceptions: [Assignment: organization-defined exceptions where remote activation is to be allowed]; and”
Description: “Provides an explicit indication of use to users physically present at the devices.”
SC-15 (1)¶
SC-15 (1) : PHYSICAL DISCONNECT
Priority:
Baseline-Impact:
Description: “The information system provides physical disconnect of collaborative computing devices in a manner that supports ease of use.” Supplemental Guidance: “Failing to physically disconnect from collaborative computing devices can result in subsequent compromises of organizational information. Providing easy methods to physically disconnect from such devices after a collaborative computing session helps to ensure that participants actually carry out the disconnect activity without having to go through complex and tedious procedures.”
Related Controls:
SC-15 (2)¶
SC-15 (2) : BLOCKING INBOUND / OUTBOUND COMMUNICATIONS TRAFFIC
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-7].” Supplemental Guidance:
Related Controls:
SC-15 (3)¶
SC-15 (3) : DISABLING / REMOVAL IN SECURE WORK AREAS
Priority:
Baseline-Impact:
Description: “The organization disables or removes collaborative computing devices from [Assignment: organization-defined information systems or information system components] in [Assignment: organization-defined secure work areas].” Supplemental Guidance: “Failing to disable or remove collaborative computing devices from information systems or information system components can result in subsequent compromises of organizational information including, for example, eavesdropping on conversations.”
Related Controls:
SC-15 (4)¶
SC-15 (4) : EXPLICITLY INDICATE CURRENT PARTICIPANTS
Priority:
Baseline-Impact:
Description: “The information system provides an explicit indication of current participants in [Assignment: organization-defined online meetings and teleconferences].” Supplemental Guidance: “This control enhancement helps to prevent unauthorized individuals from participating in collaborative computing sessions without the explicit knowledge of other participants.”
Related Controls: .. _header_SC-16:
SC-16¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-16¶
SC-16 : TRANSMISSION OF SECURITY ATTRIBUTES
Priority: P0
Baseline-Impact:
Description: “The information system associates [Assignment: organization-defined security attributes] with information exchanged between information systems and between system components.” Supplemental Guidance: “Security attributes can be explicitly or implicitly associated with the information contained in organizational information systems or system components.”
Related Controls:AC-3,AC-4,AC-16
SC-16 (1)¶
SC-16 (1) : INTEGRITY VALIDATION
Priority:
Baseline-Impact:
Description: “The information system validates the integrity of transmitted security attributes.” Supplemental Guidance: “This control enhancement ensures that the verification of the integrity of transmitted information includes security attributes.”
Related Controls:AU-10,SC-8 .. _header_SC-17:
SC-17¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-17¶
SC-17 : PUBLIC KEY INFRASTRUCTURE CERTIFICATES
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization issues public key certificates under an [Assignment: organization-defined certificate policy] or obtains public key certificates from an approved service provider.” Supplemental Guidance: “For all certificates, organizations manage information system trust stores to ensure only approved trust anchors are in the trust stores. This control addresses both certificates with visibility external to organizational information systems and certificates related to the internal operations of systems, for example, application-specific time services.”
Related Controls:SC-12
SC-18¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-18¶
SC-18 : MOBILE CODE
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Decisions regarding the employment of mobile code within organizational information systems are based on the potential for the code to cause damage to the systems if used maliciously. Mobile code technologies include, for example, Java, JavaScript, ActiveX, Postscript, PDF, Shockwave movies, Flash animations, and VBScript. Usage restrictions and implementation guidance apply to both the selection and use of mobile code installed on servers and mobile code downloaded and executed on individual workstations and devices (e.g., smart phones). Mobile code policy and procedures address preventing the development, acquisition, or introduction of unacceptable mobile code within organizational information systems.”
Related Controls:AU-2,AU-12,CM-2,CM-6,SI-3
Description: “Defines acceptable and unacceptable mobile code and mobile code technologies;”
Description: “Establishes usage restrictions and implementation guidance for acceptable mobile code and mobile code technologies; and”
Description: “Authorizes, monitors, and controls the use of mobile code within the information system.”
SC-18 (1)¶
SC-18 (1) : IDENTIFY UNACCEPTABLE CODE / TAKE CORRECTIVE ACTIONS
Priority:
Baseline-Impact:
Description: “The information system identifies [Assignment: organization-defined unacceptable mobile code] and takes [Assignment: organization-defined corrective actions].” Supplemental Guidance: “Corrective actions when unacceptable mobile code is detected include, for example, blocking, quarantine, or alerting administrators. Blocking includes, for example, preventing transmission of word processing files with embedded macros when such macros have been defined to be unacceptable mobile code.”
Related Controls:
SC-18 (2)¶
SC-18 (2) : ACQUISITION / DEVELOPMENT / USE
Priority:
Baseline-Impact:
Description: “The organization ensures that the acquisition, development, and use of mobile code to be deployed in the information system meets [Assignment: organization-defined mobile code requirements].” Supplemental Guidance:
Related Controls:
SC-18 (3)¶
SC-18 (3) : PREVENT DOWNLOADING / EXECUTION
Priority:
Baseline-Impact:
Description: “The information system prevents the download and execution of [Assignment: organization-defined unacceptable mobile code].” Supplemental Guidance:
Related Controls:
SC-18 (4)¶
SC-18 (4) : PREVENT AUTOMATIC EXECUTION
Priority:
Baseline-Impact:
Description: “The information system prevents the automatic execution of mobile code in [Assignment: organization-defined software applications] and enforces [Assignment: organization-defined actions] prior to executing the code.” Supplemental Guidance: “Actions enforced before executing mobile code, include, for example, prompting users prior to opening electronic mail attachments. Preventing automatic execution of mobile code includes, for example, disabling auto execute features on information system components employing portable storage devices such as Compact Disks (CDs), Digital Video Disks (DVDs), and Universal Serial Bus (USB) devices.”
Related Controls:
SC-18 (5)¶
SC-18 (5) : ALLOW EXECUTION ONLY IN CONFINED ENVIRONMENTS
Priority:
Baseline-Impact:
Description: “The organization allows execution of permitted mobile code only in confined virtual machine environments.” Supplemental Guidance:
Related Controls: .. _header_SC-19:
SC-19¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-19¶
SC-19 : VOICE OVER INTERNET PROTOCOL
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance:
Related Controls:CM-6,SC-7,SC-15
Description: “Establishes usage restrictions and implementation guidance for Voice over Internet Protocol (VoIP) technologies based on the potential to cause damage to the information system if used maliciously; and”
Description: “Authorizes, monitors, and controls the use of VoIP within the information system.” .. _header_SC-20:
SC-20¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-20¶
SC-20 : SECURE NAME / ADDRESS RESOLUTION SERVICE (AUTHORITATIVE SOURCE)
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “This control enables external clients including, for example, remote Internet clients, to obtain origin authentication and integrity verification assurances for the host/service name to network address resolution information obtained through the service. Information systems that provide name and address resolution services include, for example, domain name system (DNS) servers. Additional artifacts include, for example, DNS Security (DNSSEC) digital signatures and cryptographic keys. DNS resource records are examples of authoritative data. The means to indicate the security status of child zones includes, for example, the use of delegation signer resource records in the DNS. The DNS security controls reflect (and are referenced from) OMB Memorandum 08-23. Information systems that use technologies other than the DNS to map between host/service names and network addresses provide other means to assure the authenticity and integrity of response data.”
Related Controls:AU-10,SC-8,SC-12,SC-13,SC-21,SC-22
Description: “Provides additional data origin authentication and integrity verification artifacts along with the authoritative name resolution data the system returns in response to external name/address resolution queries; and”
Description: “Provides the means to indicate the security status of child zones and (if the child supports secure resolution services) to enable verification of a chain of trust among parent and child domains, when operating as part of a distributed, hierarchical namespace.”
SC-20 (1)¶
SC-20 (1) : CHILD SUBSPACES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-20].” Supplemental Guidance:
Related Controls:
SC-20 (2)¶
SC-20 (2) : DATA ORIGIN / INTEGRITY
Priority:
Baseline-Impact:
Description: “The information system provides data origin and integrity protection artifacts for internal name/address resolution queries.” Supplemental Guidance:
Related Controls: .. _header_SC-21:
SC-21¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-21¶
SC-21 : SECURE NAME / ADDRESS RESOLUTION SERVICE (RECURSIVE OR CACHING RESOLVER)
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system requests and performs data origin authentication and data integrity verification on the name/address resolution responses the system receives from authoritative sources.” Supplemental Guidance: “Each client of name resolution services either performs this validation on its own, or has authenticated channels to trusted validation providers. Information systems that provide name and address resolution services for local clients include, for example, recursive resolving or caching domain name system (DNS) servers. DNS client resolvers either perform validation of DNSSEC signatures, or clients use authenticated channels to recursive resolvers that perform such validations. Information systems that use technologies other than the DNS to map between host/service names and network addresses provide other means to enable clients to verify the authenticity and integrity of response data.”
Related Controls:SC-20,SC-22
SC-21 (1)¶
SC-21 (1) : DATA ORIGIN / INTEGRITY
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-21].” Supplemental Guidance:
Related Controls: .. _header_SC-22:
SC-22¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-22¶
SC-22 : ARCHITECTURE AND PROVISIONING FOR NAME / ADDRESS RESOLUTION SERVICE
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information systems that collectively provide name/address resolution service for an organization are fault-tolerant and implement internal/external role separation.” Supplemental Guidance: “Information systems that provide name and address resolution services include, for example, domain name system (DNS) servers. To eliminate single points of failure and to enhance redundancy, organizations employ at least two authoritative domain name system servers, one configured as the primary server and the other configured as the secondary server. Additionally, organizations typically deploy the servers in two geographically separated network subnetworks (i.e., not located in the same physical facility). For role separation, DNS servers with internal roles only process name and address resolution requests from within organizations (i.e., from internal clients). DNS servers with external roles only process name and address resolution information requests from clients external to organizations (i.e., on external networks including the Internet). Organizations specify clients that can access authoritative DNS servers in particular roles (e.g., by address ranges, explicit lists).”
Related Controls:SC-2,SC-20,SC-21,SC-24
SC-23¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-23¶
SC-23 : SESSION AUTHENTICITY
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system protects the authenticity of communications sessions.” Supplemental Guidance: “This control addresses communications protection at the session, versus packet level (e.g., sessions in service-oriented architectures providing web-based services) and establishes grounds for confidence at both ends of communications sessions in ongoing identities of other parties and in the validity of information transmitted. Authenticity protection includes, for example, protecting against man-in-the-middle attacks/session hijacking and the insertion of false information into sessions.”
Related Controls:SC-8,SC-10,SC-11
SC-23 (1)¶
SC-23 (1) : INVALIDATE SESSION IDENTIFIERS AT LOGOUT
Priority:
Baseline-Impact:
Description: “The information system invalidates session identifiers upon user logout or other session termination.” Supplemental Guidance: “This control enhancement curtails the ability of adversaries from capturing and continuing to employ previously valid session IDs.”
Related Controls:
SC-23 (2)¶
SC-23 (2) : USER-INITIATED LOGOUTS / MESSAGE DISPLAYS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-12 (1)].” Supplemental Guidance:
Related Controls:
SC-23 (3)¶
SC-23 (3) : UNIQUE SESSION IDENTIFIERS WITH RANDOMIZATION
Priority:
Baseline-Impact:
Description: “The information system generates a unique session identifier for each session with [Assignment: organization-defined randomness requirements] and recognizes only session identifiers that are system-generated.” Supplemental Guidance: “This control enhancement curtails the ability of adversaries from reusing previously valid session IDs. Employing the concept of randomness in the generation of unique session identifiers helps to protect against brute-force attacks to determine future session identifiers.”
Related Controls:SC-13
SC-23 (4)¶
SC-23 (4) : UNIQUE SESSION IDENTIFIERS WITH RANDOMIZATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-23 (3)].” Supplemental Guidance:
Related Controls:
SC-23 (5)¶
SC-23 (5) : ALLOWED CERTIFICATE AUTHORITIES
Priority:
Baseline-Impact:
Description: “The information system only allows the use of [Assignment: organization-defined certificate authorities] for verification of the establishment of protected sessions.” Supplemental Guidance: “Reliance on certificate authorities (CAs) for the establishment of secure sessions includes, for example, the use of Secure Socket Layer (SSL) and/or Transport Layer Security (TLS) certificates. These certificates, after verification by the respective certificate authorities, facilitate the establishment of protected sessions between web clients and web servers.”
Related Controls:SC-13 .. _header_SC-24:
SC-24¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-24¶
SC-24 : FAIL IN KNOWN STATE
Priority: P1
Baseline-Impact: HIGH
Description: “The information system fails to a [Assignment: organization-defined known-state] for [Assignment: organization-defined types of failures] preserving [Assignment: organization-defined system state information] in failure.” Supplemental Guidance: “Failure in a known state addresses security concerns in accordance with the mission/business needs of organizations. Failure in a known secure state helps to prevent the loss of confidentiality, integrity, or availability of information in the event of failures of organizational information systems or system components. Failure in a known safe state helps to prevent systems from failing to a state that may cause injury to individuals or destruction to property. Preserving information system state information facilitates system restart and return to the operational mode of organizations with less disruption of mission/business processes.”
Related Controls:CP-2,CP-10,CP-12,SC-7,SC-22
SC-25¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-25¶
SC-25 : THIN NODES
Priority: P0
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined information system components] with minimal functionality and information storage.” Supplemental Guidance: “The deployment of information system components with reduced/minimal functionality (e.g., diskless nodes and thin client technologies) reduces the need to secure every user endpoint, and may reduce the exposure of information, information systems, and services to cyber attacks.”
Related Controls:SC-30
SC-26¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-26¶
SC-26 : HONEYPOTS
Priority: P0
Baseline-Impact:
Description: “The information system includes components specifically designed to be the target of malicious attacks for the purpose of detecting, deflecting, and analyzing such attacks.” Supplemental Guidance: “A honeypot is set up as a decoy to attract adversaries and to deflect their attacks away from the operational systems supporting organizational missions/business function. Depending upon the specific usage of the honeypot, consultation with the Office of the General Counsel before deployment may be needed.”
Related Controls:SC-30,SC-44,SI-3,SI-4
SC-26 (1)¶
SC-26 (1) : DETECTION OF MALICIOUS CODE
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-35].” Supplemental Guidance:
Related Controls: .. _header_SC-27:
SC-27¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-27¶
SC-27 : PLATFORM-INDEPENDENT APPLICATIONS
Priority: P0
Baseline-Impact:
Description: “The information system includes: [Assignment: organization-defined platform-independent applications].” Supplemental Guidance: “Platforms are combinations of hardware and software used to run software applications. Platforms include: (i) operating systems; (ii) the underlying computer architectures, or (iii) both. Platform-independent applications are applications that run on multiple platforms. Such applications promote portability and reconstitution on different platforms, increasing the availability of critical functions within organizations while information systems with specific operating systems are under attack.”
Related Controls:SC-29
SC-28¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-28¶
SC-28 : PROTECTION OF INFORMATION AT REST
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system protects the [Selection (one or more): confidentiality; integrity] of [Assignment: organization-defined information at rest].” Supplemental Guidance: “This control addresses the confidentiality and integrity of information at rest and covers user information and system information. Information at rest refers to the state of information when it is located on storage devices as specific components of information systems. System-related information requiring protection includes, for example, configurations or rule sets for firewalls, gateways, intrusion detection/prevention systems, filtering routers, and authenticator content. Organizations may employ different mechanisms to achieve confidentiality and integrity protections, including the use of cryptographic mechanisms and file share scanning. Integrity protection can be achieved, for example, by implementing Write-Once-Read-Many (WORM) technologies. Organizations may also employ other security controls including, for example, secure off-line storage in lieu of online storage when adequate protection of information at rest cannot otherwise be achieved and/or continuous monitoring to identify malicious code at rest.”
Related Controls:AC-3,AC-6,CA-7,CM-3,CM-5,CM-6,PE-3,SC-8,SC-13,SI-3,SI-7
SC-28 (1)¶
SC-28 (1) : CRYPTOGRAPHIC PROTECTION
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to prevent unauthorized disclosure and modification of [Assignment: organization-defined information] on [Assignment: organization-defined information system components].” Supplemental Guidance: “Selection of cryptographic mechanisms is based on the need to protect the confidentiality and integrity of organizational information. The strength of mechanism is commensurate with the security category and/or classification of the information. This control enhancement applies to significant concentrations of digital media in organizational areas designated for media storage and also to limited quantities of media generally associated with information system components in operational environments (e.g., portable storage devices, mobile devices). Organizations have the flexibility to either encrypt all information on storage devices (i.e., full disk encryption) or encrypt specific data structures (e.g., files, records, or fields). Organizations employing cryptographic mechanisms to protect information at rest also consider cryptographic key management solutions.”
Related Controls:AC-19,SC-12
SC-28 (2)¶
SC-28 (2) : OFF-LINE STORAGE
Priority:
Baseline-Impact:
Description: “The organization removes from online storage and stores off-line in a secure location [Assignment: organization-defined information].” Supplemental Guidance: “Removing organizational information from online information system storage to off-line storage eliminates the possibility of individuals gaining unauthorized access to the information through a network. Therefore, organizations may choose to move information to off-line storage in lieu of protecting such information in online storage.”
Related Controls: .. _header_SC-29:
SC-29¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-29¶
SC-29 : HETEROGENEITY
Priority: P0
Baseline-Impact:
Description: “The organization employs a diverse set of information technologies for [Assignment: organization-defined information system components] in the implementation of the information system.” Supplemental Guidance: “Increasing the diversity of information technologies within organizational information systems reduces the impact of potential exploitations of specific technologies and also defends against common mode failures, including those failures induced by supply chain attacks. Diversity in information technologies also reduces the likelihood that the means adversaries use to compromise one information system component will be equally effective against other system components, thus further increasing the adversary work factor to successfully complete planned cyber attacks. An increase in diversity may add complexity and management overhead which could ultimately lead to mistakes and unauthorized configurations.”
Related Controls:SA-12,SA-14,SC-27
SC-29 (1)¶
SC-29 (1) : VIRTUALIZATION TECHNIQUES
Priority:
Baseline-Impact:
Description: “The organization employs virtualization techniques to support the deployment of a diversity of operating systems and applications that are changed [Assignment: organization-defined frequency].” Supplemental Guidance: “While frequent changes to operating systems and applications pose configuration management challenges, the changes can result in an increased work factor for adversaries in order to carry out successful cyber attacks. Changing virtual operating systems or applications, as opposed to changing actual operating systems/applications, provide virtual changes that impede attacker success while reducing configuration management efforts. In addition, virtualization techniques can assist organizations in isolating untrustworthy software and/or software of dubious provenance into confined execution environments.”
Related Controls: .. _header_SC-30:
SC-30¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-30¶
SC-30 : CONCEALMENT AND MISDIRECTION
Priority: P0
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined concealment and misdirection techniques] for [Assignment: organization-defined information systems] at [Assignment: organization-defined time periods] to confuse and mislead adversaries.” Supplemental Guidance: “Concealment and misdirection techniques can significantly reduce the targeting capability of adversaries (i.e., window of opportunity and available attack surface) to initiate and complete cyber attacks. For example, virtualization techniques provide organizations with the ability to disguise information systems, potentially reducing the likelihood of successful attacks without the cost of having multiple platforms. Increased use of concealment/misdirection techniques including, for example, randomness, uncertainty, and virtualization, may sufficiently confuse and mislead adversaries and subsequently increase the risk of discovery and/or exposing tradecraft. Concealment/misdirection techniques may also provide organizations additional time to successfully perform core missions and business functions. Because of the time and effort required to support concealment/misdirection techniques, it is anticipated that such techniques would be used by organizations on a very limited basis.”
Related Controls:SC-26,SC-29,SI-14
SC-30 (1)¶
SC-30 (1) : VIRTUALIZATION TECHNIQUES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-29 (1)].” Supplemental Guidance:
Related Controls:
SC-30 (2)¶
SC-30 (2) : RANDOMNESS
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined techniques] to introduce randomness into organizational operations and assets.” Supplemental Guidance: “Randomness introduces increased levels of uncertainty for adversaries regarding the actions organizations take in defending against cyber attacks. Such actions may impede the ability of adversaries to correctly target information resources of organizations supporting critical missions/business functions. Uncertainty may also cause adversaries to hesitate before initiating or continuing attacks. Misdirection techniques involving randomness include, for example, performing certain routine actions at different times of day, employing different information technologies (e.g., browsers, search engines), using different suppliers, and rotating roles and responsibilities of organizational personnel.”
Related Controls:
SC-30 (3)¶
SC-30 (3) : CHANGE PROCESSING / STORAGE LOCATIONS
Priority:
Baseline-Impact:
Description: “The organization changes the location of [Assignment: organization-defined processing and/or storage] [Selection: [Assignment: organization-defined time frequency]; at random time intervals]].” Supplemental Guidance: “Adversaries target critical organizational missions/business functions and the information resources supporting those missions and functions while at the same time, trying to minimize exposure of their existence and tradecraft. The static, homogeneous, and deterministic nature of organizational information systems targeted by adversaries, make such systems more susceptible to cyber attacks with less adversary cost and effort to be successful. Changing organizational processing and storage locations (sometimes referred to as moving target defense) addresses the advanced persistent threat (APT) using techniques such as virtualization, distributed processing, and replication. This enables organizations to relocate the information resources (i.e., processing and/or storage) supporting critical missions and business functions. Changing locations of processing activities and/or storage sites introduces uncertainty into the targeting activities by adversaries. This uncertainty increases the work factor of adversaries making compromises or breaches to organizational information systems much more difficult and time-consuming, and increases the chances that adversaries may inadvertently disclose aspects of tradecraft while attempting to locate critical organizational resources.”
Related Controls:
SC-30 (4)¶
SC-30 (4) : MISLEADING INFORMATION
Priority:
Baseline-Impact:
Description: “The organization employs realistic, but misleading information in [Assignment: organization-defined information system components] with regard to its security state or posture.” Supplemental Guidance: “This control enhancement misleads potential adversaries regarding the nature and extent of security safeguards deployed by organizations. As a result, adversaries may employ incorrect (and as a result ineffective) attack techniques. One way of misleading adversaries is for organizations to place misleading information regarding the specific security controls deployed in external information systems that are known to be accessed or targeted by adversaries. Another technique is the use of deception nets (e.g., honeynets, virtualized environments) that mimic actual aspects of organizational information systems but use, for example, out-of-date software configurations.”
Related Controls:
SC-30 (5)¶
SC-30 (5) : CONCEALMENT OF SYSTEM COMPONENTS
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined techniques] to hide or conceal [Assignment: organization-defined information system components].” Supplemental Guidance: “By hiding, disguising, or otherwise concealing critical information system components, organizations may be able to decrease the probability that adversaries target and successfully compromise those assets. Potential means for organizations to hide and/or conceal information system components include, for example, configuration of routers or the use of honeynets or virtualization techniques.”
Related Controls: .. _header_SC-31:
SC-31¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-31¶
SC-31 : COVERT CHANNEL ANALYSIS
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Developers are in the best position to identify potential areas within systems that might lead to covert channels. Covert channel analysis is a meaningful activity when there is the potential for unauthorized information flows across security domains, for example, in the case of information systems containing export-controlled information and having connections to external networks (i.e., networks not controlled by organizations). Covert channel analysis is also meaningful for multilevel secure (MLS) information systems, multiple security level (MSL) systems, and cross-domain systems.”
Related Controls:AC-3,AC-4,PL-2
Description: “Performs a covert channel analysis to identify those aspects of communications within the information system that are potential avenues for covert [Selection (one or more): storage; timing] channels; and”
Description: “Estimates the maximum bandwidth of those channels.”
SC-31 (1)¶
SC-31 (1) : TEST COVERT CHANNELS FOR EXPLOITABILITY
Priority:
Baseline-Impact:
Description: “The organization tests a subset of the identified covert channels to determine which channels are exploitable.” Supplemental Guidance:
Related Controls:
SC-31 (2)¶
SC-31 (2) : MAXIMUM BANDWIDTH
Priority:
Baseline-Impact:
Description: “The organization reduces the maximum bandwidth for identified covert [Selection (one or more); storage; timing] channels to [Assignment: organization-defined values].” Supplemental Guidance: “Information system developers are in the best position to reduce the maximum bandwidth for identified covert storage and timing channels.”
Related Controls:
SC-31 (3)¶
SC-31 (3) : MEASURE BANDWIDTH IN OPERATIONAL ENVIRONMENTS
Priority:
Baseline-Impact:
Description: “The organization measures the bandwidth of [Assignment: organization-defined subset of identified covert channels] in the operational environment of the information system.” Supplemental Guidance: “This control enhancement addresses covert channel bandwidth in operational environments versus developmental environments. Measuring covert channel bandwidth in operational environments helps organizations to determine how much information can be covertly leaked before such leakage adversely affects organizational missions/business functions. Covert channel bandwidth may be significantly different when measured in those settings that are independent of the particular environments of operation (e.g., laboratories or development environments).”
Related Controls: .. _header_SC-32:
SC-32¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-32¶
SC-32 : INFORMATION SYSTEM PARTITIONING
Priority: P0
Baseline-Impact:
Description: “The organization partitions the information system into [Assignment: organization-defined information system components] residing in separate physical domains or environments based on [Assignment: organization-defined circumstances for physical separation of components].” Supplemental Guidance: “Information system partitioning is a part of a defense-in-depth protection strategy. Organizations determine the degree of physical separation of system components from physically distinct components in separate racks in the same room, to components in separate rooms for the more critical components, to more significant geographical separation of the most critical components. Security categorization can guide the selection of appropriate candidates for domain partitioning. Managed interfaces restrict or prohibit network access and information flow among partitioned information system components.”
Related Controls:AC-4,SA-8,SC-2,SC-3,SC-7
SC-33¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-33¶
SC-33 : TRANSMISSION PREPARATION INTEGRITY
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SC-8].” Supplemental Guidance:
Related Controls:
SC-34¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-34¶
SC-34 : NON-MODIFIABLE EXECUTABLE PROGRAMS
Priority: P0
Baseline-Impact:
Description: “The information system at [Assignment: organization-defined information system components]:” Supplemental Guidance: “The term operating environment is defined as the specific code that hosts applications, for example, operating systems, executives, or monitors including virtual machine monitors (i.e., hypervisors). It can also include certain applications running directly on hardware platforms. Hardware-enforced, read-only media include, for example, Compact Disk-Recordable (CD-R)/Digital Video Disk-Recordable (DVD-R) disk drives and one-time programmable read-only memory. The use of non-modifiable storage ensures the integrity of software from the point of creation of the read-only image. The use of reprogrammable read-only memory can be accepted as read-only media provided: (i) integrity can be adequately protected from the point of initial writing to the insertion of the memory into the information system; and (ii) there are reliable hardware protections against reprogramming the memory while installed in organizational information systems.”
Related Controls:AC-3,SI-7
Description: “Loads and executes the operating environment from hardware-enforced, read-only media; and”
Description: “Loads and executes [Assignment: organization-defined applications] from hardware-enforced, read-only media.”
SC-34 (1)¶
SC-34 (1) : NO WRITABLE STORAGE
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined information system components] with no writeable storage that is persistent across component restart or power on/off.” Supplemental Guidance: “This control enhancement: (i) eliminates the possibility of malicious code insertion via persistent, writeable storage within the designated information system components; and (ii) applies to both fixed and removable storage, with the latter being addressed directly or as specific restrictions imposed through access controls for mobile devices.”
Related Controls:AC-19,MP-7
SC-34 (2)¶
SC-34 (2) : INTEGRITY PROTECTION / READ-ONLY MEDIA
Priority:
Baseline-Impact:
Description: “The organization protects the integrity of information prior to storage on read-only media and controls the media after such information has been recorded onto the media.” Supplemental Guidance: “Security safeguards prevent the substitution of media into information systems or the reprogramming of programmable read-only media prior to installation into the systems. Security safeguards include, for example, a combination of prevention, detection, and response.”
Related Controls:AC-5,CM-3,CM-5,CM-9,MP-2,MP-4,MP-5,SA-12,SC-28,SI-3
SC-34 (3)¶
SC-34 (3) : HARDWARE-BASED PROTECTION
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance:
Related Controls:
Description: “Employs hardware-based, write-protect for [Assignment: organization-defined information system firmware components]; and”
Description: “Implements specific procedures for [Assignment: organization-defined authorized individuals] to manually disable hardware write-protect for firmware modifications and re-enable the write-protect prior to returning to operational mode.” .. _header_SC-35:
SC-35¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-35¶
SC-35 : HONEYCLIENTS
Priority: P0
Baseline-Impact:
Description: “The information system includes components that proactively seek to identify malicious websites and/or web-based malicious code.” Supplemental Guidance: “Honeyclients differ from honeypots in that the components actively probe the Internet in search of malicious code (e.g., worms) contained on external websites. As with honeypots, honeyclients require some supporting isolation measures (e.g., virtualization) to ensure that any malicious code discovered during the search and subsequently executed does not infect organizational information systems.”
Related Controls:SC-26,SC-44,SI-3,SI-4
SC-36¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-36¶
SC-36 : DISTRIBUTED PROCESSING AND STORAGE
Priority: P0
Baseline-Impact:
Description: “The organization distributes [Assignment: organization-defined processing and storage] across multiple physical locations.” Supplemental Guidance: “Distributing processing and storage across multiple physical locations provides some degree of redundancy or overlap for organizations, and therefore increases the work factor of adversaries to adversely impact organizational operations, assets, and individuals. This control does not assume a single primary processing or storage location, and thus allows for parallel processing and storage.”
Related Controls:CP-6,CP-7
SC-36 (1)¶
SC-36 (1) : POLLING TECHNIQUES
Priority:
Baseline-Impact:
Description: “The organization employs polling techniques to identify potential faults, errors, or compromises to [Assignment: organization-defined distributed processing and storage components].” Supplemental Guidance: “Distributed processing and/or storage may be employed to reduce opportunities for adversaries to successfully compromise the confidentiality, integrity, or availability of information and information systems. However, distribution of processing and/or storage components does not prevent adversaries from compromising one (or more) of the distributed components. Polling compares the processing results and/or storage content from the various distributed components and subsequently voting on the outcomes. Polling identifies potential faults, errors, or compromises in distributed processing and/or storage components.”
Related Controls:SI-4 .. _header_SC-37:
SC-37¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-37¶
SC-37 : OUT-OF-BAND CHANNELS
Priority: P0
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined out-of-band channels] for the physical delivery or electronic transmission of [Assignment: organization-defined information, information system components, or devices] to [Assignment: organization-defined individuals or information systems].” Supplemental Guidance: “Out-of-band channels include, for example, local (nonnetwork) accesses to information systems, network paths physically separate from network paths used for operational traffic, or nonelectronic paths such as the US Postal Service. This is in contrast with using the same channels (i.e., in-band channels) that carry routine operational traffic. Out-of-band channels do not have the same vulnerability/exposure as in-band channels, and hence the confidentiality, integrity, or availability compromises of in-band channels will not compromise the out-of-band channels. Organizations may employ out-of-band channels in the delivery or transmission of many organizational items including, for example, identifiers/authenticators, configuration management changes for hardware, firmware, or software, cryptographic key management information, security updates, system/data backups, maintenance information, and malicious code protection updates.”
Related Controls:AC-2,CM-3,CM-5,CM-7,IA-4,IA-5,MA-4,SC-12,SI-3,SI-4,SI-7
SC-37 (1)¶
SC-37 (1) : ENSURE DELIVERY / TRANSMISSION
Priority:
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined security safeguards] to ensure that only [Assignment: organization-defined individuals or information systems] receive the [Assignment: organization-defined information, information system components, or devices].” Supplemental Guidance: “Techniques and/or methods employed by organizations to ensure that only designated information systems or individuals receive particular information, system components, or devices include, for example, sending authenticators via courier service but requiring recipients to show some form of government-issued photographic identification as a condition of receipt.”
Related Controls: .. _header_SC-38:
SC-38¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-38¶
SC-38 : OPERATIONS SECURITY
Priority: P0
Baseline-Impact:
Description: “The organization employs [Assignment: organization-defined operations security safeguards] to protect key organizational information throughout the system development life cycle.” Supplemental Guidance: “Operations security (OPSEC) is a systematic process by which potential adversaries can be denied information about the capabilities and intentions of organizations by identifying, controlling, and protecting generally unclassified information that specifically relates to the planning and execution of sensitive organizational activities. The OPSEC process involves five steps: (i) identification of critical information (e.g., the security categorization process); (ii) analysis of threats; (iii) analysis of vulnerabilities; (iv) assessment of risks; and (v) the application of appropriate countermeasures. OPSEC safeguards are applied to both organizational information systems and the environments in which those systems operate. OPSEC safeguards help to protect the confidentiality of key information including, for example, limiting the sharing of information with suppliers and potential suppliers of information system components, information technology products and services, and with other non-organizational elements and individuals. Information critical to mission/business success includes, for example, user identities, element uses, suppliers, supply chain processes, functional and security requirements, system design specifications, testing protocols, and security control implementation details.”
Related Controls:RA-2,RA-5,SA-12
SC-39¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-39¶
SC-39 : PROCESS ISOLATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The information system maintains a separate execution domain for each executing process.” Supplemental Guidance: “Information systems can maintain separate execution domains for each executing process by assigning each process a separate address space. Each information system process has a distinct address space so that communication between processes is performed in a manner controlled through the security functions, and one process cannot modify the executing code of another process. Maintaining separate execution domains for executing processes can be achieved, for example, by implementing separate address spaces. This capability is available in most commercial operating systems that employ multi-state processor technologies.”
Related Controls:AC-3,AC-4,AC-6,SA-4,SA-5,SA-8,SC-2,SC-3
SC-39 (1)¶
SC-39 (1) : HARDWARE SEPARATION
Priority:
Baseline-Impact:
Description: “The information system implements underlying hardware separation mechanisms to facilitate process separation.” Supplemental Guidance: “Hardware-based separation of information system processes is generally less susceptible to compromise than software-based separation, thus providing greater assurance that the separation will be enforced. Underlying hardware separation mechanisms include, for example, hardware memory management.”
Related Controls:
SC-39 (2)¶
SC-39 (2) : THREAD ISOLATION
Priority:
Baseline-Impact:
Description: “The information system maintains a separate execution domain for each thread in [Assignment: organization-defined multi-threaded processing].” Supplemental Guidance:
Related Controls: .. _header_SC-40:
SC-40¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-40¶
SC-40 : WIRELESS LINK PROTECTION
Priority: P0
Baseline-Impact:
Description: “The information system protects external and internal [Assignment: organization-defined wireless links] from [Assignment: organization-defined types of signal parameter attacks or references to sources for such attacks].” Supplemental Guidance: “This control applies to internal and external wireless communication links that may be visible to individuals who are not authorized information system users. Adversaries can exploit the signal parameters of wireless links if such links are not adequately protected. There are many ways to exploit the signal parameters of wireless links to gain intelligence, deny service, or to spoof users of organizational information systems. This control reduces the impact of attacks that are unique to wireless systems. If organizations rely on commercial service providers for transmission services as commodity items rather than as fully dedicated services, it may not be possible to implement this control.”
Related Controls:AC-18,SC-5
SC-40 (1)¶
SC-40 (1) : ELECTROMAGNETIC INTERFERENCE
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms that achieve [Assignment: organization-defined level of protection] against the effects of intentional electromagnetic interference.” Supplemental Guidance: “This control enhancement protects against intentional jamming that might deny or impair communications by ensuring that wireless spread spectrum waveforms used to provide anti-jam protection are not predictable by unauthorized individuals. The control enhancement may also coincidentally help to mitigate the effects of unintentional jamming due to interference from legitimate transmitters sharing the same spectrum. Mission requirements, projected threats, concept of operations, and applicable legislation, directives, regulations, policies, standards, and guidelines determine levels of wireless link availability and performance/cryptography needed.”
Related Controls:SC-12,SC-13
SC-40 (2)¶
SC-40 (2) : REDUCE DETECTION POTENTIAL
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to reduce the detection potential of wireless links to [Assignment: organization-defined level of reduction].” Supplemental Guidance: “This control enhancement is needed for covert communications and protecting wireless transmitters from being geo-located by their transmissions. The control enhancement ensures that spread spectrum waveforms used to achieve low probability of detection are not predictable by unauthorized individuals. Mission requirements, projected threats, concept of operations, and applicable legislation, directives, regulations, policies, standards, and guidelines determine the levels to which wireless links should be undetectable.”
Related Controls:SC-12,SC-13
SC-40 (3)¶
SC-40 (3) : IMITATIVE OR MANIPULATIVE COMMUNICATIONS DECEPTION
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to identify and reject wireless transmissions that are deliberate attempts to achieve imitative or manipulative communications deception based on signal parameters.” Supplemental Guidance: “This control enhancement ensures that the signal parameters of wireless transmissions are not predictable by unauthorized individuals. Such unpredictability reduces the probability of imitative or manipulative communications deception based upon signal parameters alone.”
Related Controls:SC-12,SC-13
SC-40 (4)¶
SC-40 (4) : SIGNAL PARAMETER IDENTIFICATION
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to prevent the identification of [Assignment: organization-defined wireless transmitters] by using the transmitter signal parameters.” Supplemental Guidance: “Radio fingerprinting techniques identify the unique signal parameters of transmitters to fingerprint such transmitters for purposes of tracking and mission/user identification. This control enhancement protects against the unique identification of wireless transmitters for purposes of intelligence exploitation by ensuring that anti-fingerprinting alterations to signal parameters are not predictable by unauthorized individuals. This control enhancement helps assure mission success when anonymity is required.”
Related Controls:SC-12,SC-13 .. _header_SC-41:
SC-41¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-41¶
SC-41 : PORT AND I/O DEVICE ACCESS
Priority: P0
Baseline-Impact:
Description: “The organization physically disables or removes [Assignment: organization-defined connection ports or input/output devices] on [Assignment: organization-defined information systems or information system components].” Supplemental Guidance: “Connection ports include, for example, Universal Serial Bus (USB) and Firewire (IEEE 1394). Input/output (I/O) devices include, for example, Compact Disk (CD) and Digital Video Disk (DVD) drives. Physically disabling or removing such connection ports and I/O devices helps prevent exfiltration of information from information systems and the introduction of malicious code into systems from those ports/devices.”
Related Controls:
SC-42¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-42¶
SC-42 : SENSOR CAPABILITY AND DATA
Priority: P0
Baseline-Impact:
Description: “The information system:” Supplemental Guidance: “This control often applies to types of information systems or system components characterized as mobile devices, for example, smart phones, tablets, and E-readers. These systems often include sensors that can collect and record data regarding the environment where the system is in use. Sensors that are embedded within mobile devices include, for example, cameras, microphones, Global Positioning System (GPS) mechanisms, and accelerometers. While the sensors on mobiles devices provide an important function, if activated covertly, such devices can potentially provide a means for adversaries to learn valuable information about individuals and organizations. For example, remotely activating the GPS function on a mobile device could provide an adversary with the ability to track the specific movements of an individual.”
Related Controls:
Description: “Prohibits the remote activation of environmental sensing capabilities with the following exceptions: [Assignment: organization-defined exceptions where remote activation of sensors is allowed]; and”
Description: “Provides an explicit indication of sensor use to [Assignment: organization-defined class of users].”
SC-42 (1)¶
SC-42 (1) : REPORTING TO AUTHORIZED INDIVIDUALS OR ROLES
Priority:
Baseline-Impact:
Description: “The organization ensures that the information system is configured so that data or information collected by the [Assignment: organization-defined sensors] is only reported to authorized individuals or roles.” Supplemental Guidance: “In situations where sensors are activated by authorized individuals (e.g., end users), it is still possible that the data/information collected by the sensors will be sent to unauthorized entities.”
Related Controls:
SC-42 (2)¶
SC-42 (2) : AUTHORIZED USE
Priority:
Baseline-Impact:
Description: “The organization employs the following measures: [Assignment: organization-defined measures], so that data or information collected by [Assignment: organization-defined sensors] is only used for authorized purposes.” Supplemental Guidance: “Information collected by sensors for a specific authorized purpose potentially could be misused for some unauthorized purpose. For example, GPS sensors that are used to support traffic navigation could be misused to track movements of individuals. Measures to mitigate such activities include, for example, additional training to ensure that authorized parties do not abuse their authority, or (in the case where sensor data/information is maintained by external parties) contractual restrictions on the use of the data/information.”
Related Controls:
SC-42 (3)¶
SC-42 (3) : PROHIBIT USE OF DEVICES
Priority:
Baseline-Impact:
Description: “The organization prohibits the use of devices possessing [Assignment: organization-defined environmental sensing capabilities] in [Assignment: organization-defined facilities, areas, or systems].” Supplemental Guidance: “For example, organizations may prohibit individuals from bringing cell phones or digital cameras into certain facilities or specific controlled areas within facilities where classified information is stored or sensitive conversations are taking place.”
Related Controls: .. _header_SC-43:
SC-43¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-43¶
SC-43 : USAGE RESTRICTIONS
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Information system components include hardware, software, or firmware components (e.g., Voice Over Internet Protocol, mobile code, digital copiers, printers, scanners, optical devices, wireless technologies, mobile devices).”
Related Controls:CM-6,SC-7
Description: “Establishes usage restrictions and implementation guidance for [Assignment: organization-defined information system components] based on the potential to cause damage to the information system if used maliciously; and”
Description: “Authorizes, monitors, and controls the use of such components within the information system.” .. _header_SC-44:
SC-44¶
Control Family: SYSTEM AND COMMUNICATIONS PROTECTION
SC-44¶
SC-44 : DETONATION CHAMBERS
Priority: P0
Baseline-Impact:
Description: “The organization employs a detonation chamber capability within [Assignment: organization-defined information system, system component, or location].” Supplemental Guidance: “Detonation chambers, also known as dynamic execution environments, allow organizations to open email attachments, execute untrusted or suspicious applications, and execute Universal Resource Locator (URL) requests in the safety of an isolated environment or virtualized sandbox. These protected and isolated execution environments provide a means of determining whether the associated attachments/applications contain malicious code. While related to the concept of deception nets, the control is not intended to maintain a long-term environment in which adversaries can operate and their actions can be observed. Rather, it is intended to quickly identify malicious code and reduce the likelihood that the code is propagated to user environments of operation (or prevent such propagation completely).”
Related Controls:SC-7,SC-25,SC-26,SC-30
SI-1¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-1¶
SI-1 : SYSTEM AND INFORMATION INTEGRITY POLICY AND PROCEDURES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “This control addresses the establishment of policy and procedures for the effective implementation of selected security controls and control enhancements in the SI family. Policy and procedures reflect applicable federal laws, Executive Orders, directives, regulations, policies, standards, and guidance. Security program policies and procedures at the organization level may make the need for system-specific policies and procedures unnecessary. The policy can be included as part of the general information security policy for organizations or conversely, can be represented by multiple policies reflecting the complex nature of certain organizations. The procedures can be established for the security program in general and for particular information systems, if needed. The organizational risk management strategy is a key factor in establishing policy and procedures.”
Related Controls:PM-9
Description: “Develops, documents, and disseminates to [Assignment: organization-defined personnel or roles]:”
Description: “A system and information integrity policy that addresses purpose, scope, roles, responsibilities, management commitment, coordination among organizational entities, and compliance; and”
Description: “Procedures to facilitate the implementation of the system and information integrity policy and associated system and information integrity controls; and”
Description: “Reviews and updates the current:”
Description: “System and information integrity policy [Assignment: organization-defined frequency]; and”
Description: “System and information integrity procedures [Assignment: organization-defined frequency].” .. _header_SI-2:
SI-2¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-2¶
SI-2 : FLAW REMEDIATION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Organizations identify information systems affected by announced software flaws including potential vulnerabilities resulting from those flaws, and report this information to designated organizational personnel with information security responsibilities. Security-relevant software updates include, for example, patches, service packs, hot fixes, and anti-virus signatures. Organizations also address flaws discovered during security assessments, continuous monitoring, incident response activities, and system error handling. Organizations take advantage of available resources such as the Common Weakness Enumeration (CWE) or Common Vulnerabilities and Exposures (CVE) databases in remediating flaws discovered in organizational information systems. By incorporating flaw remediation into ongoing configuration management processes, required/anticipated remediation actions can be tracked and verified. Flaw remediation actions that can be tracked and verified include, for example, determining whether organizations follow US-CERT guidance and Information Assurance Vulnerability Alerts. Organization-defined time periods for updating security-relevant software and firmware may vary based on a variety of factors including, for example, the security category of the information system or the criticality of the update (i.e., severity of the vulnerability related to the discovered flaw). Some types of flaw remediation may require more testing than other types. Organizations determine the degree and type of testing needed for the specific type of flaw remediation activity under consideration and also the types of changes that are to be configuration-managed. In some situations, organizations may determine that the testing of software and/or firmware updates is not necessary or practical, for example, when implementing simple anti-virus signature updates. Organizations may also consider in testing decisions, whether security-relevant software or firmware updates are obtained from authorized sources with appropriate digital signatures.”
Related Controls:CA-2,CA-7,CM-3,CM-5,CM-8,MA-2,IR-4,RA-5,SA-10,SA-11,SI-11
Description: “Identifies, reports, and corrects information system flaws;”
Description: “Tests software and firmware updates related to flaw remediation for effectiveness and potential side effects before installation;”
Description: “Installs security-relevant software and firmware updates within [Assignment: organization-defined time period] of the release of the updates; and”
Description: “Incorporates flaw remediation into the organizational configuration management process.”
SI-2 (1)¶
SI-2 (1) : CENTRAL MANAGEMENT
Priority:
Baseline-Impact: HIGH
Description: “The organization centrally manages the flaw remediation process.” Supplemental Guidance: “Central management is the organization-wide management and implementation of flaw remediation processes. Central management includes planning, implementing, assessing, authorizing, and monitoring the organization-defined, centrally managed flaw remediation security controls.”
Related Controls:
SI-2 (2)¶
SI-2 (2) : AUTOMATED FLAW REMEDIATION STATUS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs automated mechanisms [Assignment: organization-defined frequency] to determine the state of information system components with regard to flaw remediation.” Supplemental Guidance:
Related Controls:CM-6,SI-4
SI-2 (3)¶
SI-2 (3) : TIME TO REMEDIATE FLAWS / BENCHMARKS FOR CORRECTIVE ACTIONS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “This control enhancement requires organizations to determine the current time it takes on the average to correct information system flaws after such flaws have been identified, and subsequently establish organizational benchmarks (i.e., time frames) for taking corrective actions. Benchmarks can be established by type of flaw and/or severity of the potential vulnerability if the flaw can be exploited.”
Related Controls:
Description: “Measures the time between flaw identification and flaw remediation; and”
Description: “Establishes [Assignment: organization-defined benchmarks] for taking corrective actions.”
SI-2 (4)¶
SI-2 (4) : AUTOMATED PATCH MANAGEMENT TOOLS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-2].” Supplemental Guidance:
Related Controls:
SI-2 (5)¶
SI-2 (5) : AUTOMATIC SOFTWARE / FIRMWARE UPDATES
Priority:
Baseline-Impact:
Description: “The organization installs [Assignment: organization-defined security-relevant software and firmware updates] automatically to [Assignment: organization-defined information system components].” Supplemental Guidance: “Due to information system integrity and availability concerns, organizations give careful consideration to the methodology used to carry out automatic updates. Organizations must balance the need to ensure that the updates are installed as soon as possible with the need to maintain configuration management and with any mission or operational impacts that automatic updates might impose.”
Related Controls:
SI-2 (6)¶
SI-2 (6) : REMOVAL OF PREVIOUS VERSIONS OF SOFTWARE / FIRMWARE
Priority:
Baseline-Impact:
Description: “The organization removes [Assignment: organization-defined software and firmware components] after updated versions have been installed.” Supplemental Guidance: “Previous versions of software and/or firmware components that are not removed from the information system after updates have been installed may be exploited by adversaries. Some information technology products may remove older versions of software and/or firmware automatically from the information system.”
Related Controls: .. _header_SI-3:
SI-3¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-3¶
SI-3 : MALICIOUS CODE PROTECTION
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Information system entry and exit points include, for example, firewalls, electronic mail servers, web servers, proxy servers, remote-access servers, workstations, notebook computers, and mobile devices. Malicious code includes, for example, viruses, worms, Trojan horses, and spyware. Malicious code can also be encoded in various formats (e.g., UUENCODE, Unicode), contained within compressed or hidden files, or hidden in files using steganography. Malicious code can be transported by different means including, for example, web accesses, electronic mail, electronic mail attachments, and portable storage devices. Malicious code insertions occur through the exploitation of information system vulnerabilities. Malicious code protection mechanisms include, for example, anti-virus signature definitions and reputation-based technologies. A variety of technologies and methods exist to limit or eliminate the effects of malicious code. Pervasive configuration management and comprehensive software integrity controls may be effective in preventing execution of unauthorized code. In addition to commercial off-the-shelf software, malicious code may also be present in custom-built software. This could include, for example, logic bombs, back doors, and other types of cyber attacks that could affect organizational missions/business functions. Traditional malicious code protection mechanisms cannot always detect such code. In these situations, organizations rely instead on other safeguards including, for example, secure coding practices, configuration management and control, trusted procurement processes, and monitoring practices to help ensure that software does not perform functions other than the functions intended. Organizations may determine that in response to the detection of malicious code, different actions may be warranted. For example, organizations can define actions in response to malicious code detection during periodic scans, actions in response to detection of malicious downloads, and/or actions in response to detection of maliciousness when attempting to open or execute files.”
Related Controls:CM-3,MP-2,SA-4,SA-8,SA-12,SA-13,SC-7,SC-26,SC-44,SI-2,SI-4,SI-7
Description: “Employs malicious code protection mechanisms at information system entry and exit points to detect and eradicate malicious code;”
Description: “Updates malicious code protection mechanisms whenever new releases are available in accordance with organizational configuration management policy and procedures;”
Description: “Configures malicious code protection mechanisms to:”
Description: “Perform periodic scans of the information system [Assignment: organization-defined frequency] and real-time scans of files from external sources at [Selection (one or more); endpoint; network entry/exit points] as the files are downloaded, opened, or executed in accordance with organizational security policy; and”
Description: “[Selection (one or more): block malicious code; quarantine malicious code; send alert to administrator; [Assignment: organization-defined action]] in response to malicious code detection; and”
Description: “Addresses the receipt of false positives during malicious code detection and eradication and the resulting potential impact on the availability of the information system.”
SI-3 (1)¶
SI-3 (1) : CENTRAL MANAGEMENT
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization centrally manages malicious code protection mechanisms.” Supplemental Guidance: “Central management is the organization-wide management and implementation of malicious code protection mechanisms. Central management includes planning, implementing, assessing, authorizing, and monitoring the organization-defined, centrally managed flaw malicious code protection security controls.”
Related Controls:AU-2,SI-8
SI-3 (2)¶
SI-3 (2) : AUTOMATIC UPDATES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system automatically updates malicious code protection mechanisms.” Supplemental Guidance: “Malicious code protection mechanisms include, for example, signature definitions. Due to information system integrity and availability concerns, organizations give careful consideration to the methodology used to carry out automatic updates.”
Related Controls:SI-8
SI-3 (3)¶
SI-3 (3) : NON-PRIVILEGED USERS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-6 (10)].” Supplemental Guidance:
Related Controls:
SI-3 (4)¶
SI-3 (4) : UPDATES ONLY BY PRIVILEGED USERS
Priority:
Baseline-Impact:
Description: “The information system updates malicious code protection mechanisms only when directed by a privileged user.” Supplemental Guidance: “This control enhancement may be appropriate for situations where for reasons of security or operational continuity, updates are only applied when selected/approved by designated organizational personnel.”
Related Controls:AC-6,CM-5
SI-3 (5)¶
SI-3 (5) : PORTABLE STORAGE DEVICES
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into MP-7].” Supplemental Guidance:
Related Controls:
SI-3 (6)¶
SI-3 (6) : TESTING / VERIFICATION
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance:
Related Controls:CA-2,CA-7,RA-5
Description: “Tests malicious code protection mechanisms [Assignment: organization-defined frequency] by introducing a known benign, non-spreading test case into the information system; and”
Description: “Verifies that both detection of the test case and associated incident reporting occur.”
SI-3 (7)¶
SI-3 (7) : NONSIGNATURE-BASED DETECTION
Priority:
Baseline-Impact:
Description: “The information system implements nonsignature-based malicious code detection mechanisms.” Supplemental Guidance: “Nonsignature-based detection mechanisms include, for example, the use of heuristics to detect, analyze, and describe the characteristics or behavior of malicious code and to provide safeguards against malicious code for which signatures do not yet exist or for which existing signatures may not be effective. This includes polymorphic malicious code (i.e., code that changes signatures when it replicates). This control enhancement does not preclude the use of signature-based detection mechanisms.”
Related Controls:
SI-3 (8)¶
SI-3 (8) : DETECT UNAUTHORIZED COMMANDS
Priority:
Baseline-Impact:
Description: “The information system detects [Assignment: organization-defined unauthorized operating system commands] through the kernel application programming interface at [Assignment: organization-defined information system hardware components] and [Selection (one or more): issues a warning; audits the command execution; prevents the execution of the command].” Supplemental Guidance: “This control enhancement can also be applied to critical interfaces other than kernel-based interfaces, including for example, interfaces with virtual machines and privileged applications. Unauthorized operating system commands include, for example, commands for kernel functions from information system processes that are not trusted to initiate such commands, or commands for kernel functions that are suspicious even though commands of that type are reasonable for processes to initiate. Organizations can define the malicious commands to be detected by a combination of command types, command classes, or specific instances of commands. Organizations can define hardware components by specific component, component type, location in the network, or combination therein. Organizations may select different actions for different types/classes/specific instances of potentially malicious commands.”
Related Controls:AU-6
SI-3 (9)¶
SI-3 (9) : AUTHENTICATE REMOTE COMMANDS
Priority:
Baseline-Impact:
Description: “The information system implements [Assignment: organization-defined security safeguards] to authenticate [Assignment: organization-defined remote commands].” Supplemental Guidance: “This control enhancement protects against unauthorized commands and replay of authorized commands. This capability is important for those remote information systems whose loss, malfunction, misdirection, or exploitation would have immediate and/or serious consequences (e.g., injury or death, property damage, loss of high-valued assets or sensitive information, or failure of important missions/business functions). Authentication safeguards for remote commands help to ensure that information systems accept and execute in the order intended, only authorized commands, and that unauthorized commands are rejected. Cryptographic mechanisms can be employed, for example, to authenticate remote commands.”
Related Controls:SC-12,SC-13,SC-23
SI-3 (10)¶
SI-3 (10) : MALICIOUS CODE ANALYSIS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “The application of selected malicious code analysis tools and techniques provides organizations with a more in-depth understanding of adversary tradecraft (i.e., tactics, techniques, and procedures) and the functionality and purpose of specific instances of malicious code. Understanding the characteristics of malicious code facilitates more effective organizational responses to current and future threats. Organizations can conduct malicious code analyses by using reverse engineering techniques or by monitoring the behavior of executing code.”
Related Controls:
Description: “Employs [Assignment: organization-defined tools and techniques] to analyze the characteristics and behavior of malicious code; and”
Description: “Incorporates the results from malicious code analysis into organizational incident response and flaw remediation processes.” .. _header_SI-4:
SI-4¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-4¶
SI-4 : INFORMATION SYSTEM MONITORING
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Information system monitoring includes external and internal monitoring. External monitoring includes the observation of events occurring at the information system boundary (i.e., part of perimeter defense and boundary protection). Internal monitoring includes the observation of events occurring within the information system. Organizations can monitor information systems, for example, by observing audit activities in real time or by observing other system aspects such as access patterns, characteristics of access, and other actions. The monitoring objectives may guide determination of the events. Information system monitoring capability is achieved through a variety of tools and techniques (e.g., intrusion detection systems, intrusion prevention systems, malicious code protection software, scanning tools, audit record monitoring software, network monitoring software). Strategic locations for monitoring devices include, for example, selected perimeter locations and near server farms supporting critical applications, with such devices typically being employed at the managed interfaces associated with controls SC-7 and AC-17. Einstein network monitoring devices from the Department of Homeland Security can also be included as monitoring devices. The granularity of monitoring information collected is based on organizational monitoring objectives and the capability of information systems to support such objectives. Specific types of transactions of interest include, for example, Hyper Text Transfer Protocol (HTTP) traffic that bypasses HTTP proxies. Information system monitoring is an integral part of organizational continuous monitoring and incident response programs. Output from system monitoring serves as input to continuous monitoring and incident response programs. A network connection is any connection with a device that communicates through a network (e.g., local area network, Internet). A remote connection is any connection with a device communicating through an external network (e.g., the Internet). Local, network, and remote connections can be either wired or wireless.”
Related Controls:AC-3,AC-4,AC-8,AC-17,AU-2,AU-6,AU-7,AU-9,AU-12,CA-7,IR-4,PE-3,RA-5,SC-7,SC-26,SC-35,SI-3,SI-7
Description: “Monitors the information system to detect:”
Description: “Attacks and indicators of potential attacks in accordance with [Assignment: organization-defined monitoring objectives]; and”
Description: “Unauthorized local, network, and remote connections;”
Description: “Identifies unauthorized use of the information system through [Assignment: organization-defined techniques and methods];”
Description: “Deploys monitoring devices:”
Description: “Strategically within the information system to collect organization-determined essential information; and”
Description: “At ad hoc locations within the system to track specific types of transactions of interest to the organization;”
Description: “Protects information obtained from intrusion-monitoring tools from unauthorized access, modification, and deletion;”
Description: “Heightens the level of information system monitoring activity whenever there is an indication of increased risk to organizational operations and assets, individuals, other organizations, or the Nation based on law enforcement information, intelligence information, or other credible sources of information;”
Description: “Obtains legal opinion with regard to information system monitoring activities in accordance with applicable federal laws, Executive Orders, directives, policies, or regulations; and”
Description: “Provides [Assignment: organization-defined information system monitoring information] to [Assignment: organization-defined personnel or roles] [Selection (one or more): as needed; [Assignment: organization-defined frequency]].”
SI-4 (1)¶
SI-4 (1) : SYSTEM-WIDE INTRUSION DETECTION SYSTEM
Priority:
Baseline-Impact:
Description: “The organization connects and configures individual intrusion detection tools into an information system-wide intrusion detection system.” Supplemental Guidance:
Related Controls:
SI-4 (2)¶
SI-4 (2) : AUTOMATED TOOLS FOR REAL-TIME ANALYSIS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs automated tools to support near real-time analysis of events.” Supplemental Guidance: “Automated tools include, for example, host-based, network-based, transport-based, or storage-based event monitoring tools or Security Information and Event Management (SIEM) technologies that provide real time analysis of alerts and/or notifications generated by organizational information systems.”
Related Controls:
SI-4 (3)¶
SI-4 (3) : AUTOMATED TOOL INTEGRATION
Priority:
Baseline-Impact:
Description: “The organization employs automated tools to integrate intrusion detection tools into access control and flow control mechanisms for rapid response to attacks by enabling reconfiguration of these mechanisms in support of attack isolation and elimination.” Supplemental Guidance:
Related Controls:
SI-4 (4)¶
SI-4 (4) : INBOUND AND OUTBOUND COMMUNICATIONS TRAFFIC
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system monitors inbound and outbound communications traffic [Assignment: organization-defined frequency] for unusual or unauthorized activities or conditions.” Supplemental Guidance: “Unusual/unauthorized activities or conditions related to information system inbound and outbound communications traffic include, for example, internal traffic that indicates the presence of malicious code within organizational information systems or propagating among system components, the unauthorized exporting of information, or signaling to external information systems. Evidence of malicious code is used to identify potentially compromised information systems or information system components.”
Related Controls:
SI-4 (5)¶
SI-4 (5) : SYSTEM-GENERATED ALERTS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system alerts [Assignment: organization-defined personnel or roles] when the following indications of compromise or potential compromise occur: [Assignment: organization-defined compromise indicators].” Supplemental Guidance: “Alerts may be generated from a variety of sources, including, for example, audit records or inputs from malicious code protection mechanisms, intrusion detection or prevention mechanisms, or boundary protection devices such as firewalls, gateways, and routers. Alerts can be transmitted, for example, telephonically, by electronic mail messages, or by text messaging. Organizational personnel on the notification list can include, for example, system administrators, mission/business owners, system owners, or information system security officers.”
Related Controls:AU-5,PE-6
SI-4 (6)¶
SI-4 (6) : RESTRICT NON-PRIVILEGED USERS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-6 (10)].” Supplemental Guidance:
Related Controls:
SI-4 (7)¶
SI-4 (7) : AUTOMATED RESPONSE TO SUSPICIOUS EVENTS
Priority:
Baseline-Impact:
Description: “The information system notifies [Assignment: organization-defined incident response personnel (identified by name and/or by role)] of detected suspicious events and takes [Assignment: organization-defined least-disruptive actions to terminate suspicious events].” Supplemental Guidance: “Least-disruptive actions may include, for example, initiating requests for human responses.”
Related Controls:
SI-4 (8)¶
SI-4 (8) : PROTECTION OF MONITORING INFORMATION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-4].” Supplemental Guidance:
Related Controls:
SI-4 (9)¶
SI-4 (9) : TESTING OF MONITORING TOOLS
Priority:
Baseline-Impact:
Description: “The organization tests intrusion-monitoring tools [Assignment: organization-defined frequency].” Supplemental Guidance: “Testing intrusion-monitoring tools is necessary to ensure that the tools are operating correctly and continue to meet the monitoring objectives of organizations. The frequency of testing depends on the types of tools used by organizations and methods of deployment.”
Related Controls:CP-9
SI-4 (10)¶
SI-4 (10) : VISIBILITY OF ENCRYPTED COMMUNICATIONS
Priority:
Baseline-Impact:
Description: “The organization makes provisions so that [Assignment: organization-defined encrypted communications traffic] is visible to [Assignment: organization-defined information system monitoring tools].” Supplemental Guidance: “Organizations balance the potentially conflicting needs for encrypting communications traffic and for having insight into such traffic from a monitoring perspective. For some organizations, the need to ensure the confidentiality of communications traffic is paramount; for others, mission-assurance is of greater concern. Organizations determine whether the visibility requirement applies to internal encrypted traffic, encrypted traffic intended for external destinations, or a subset of the traffic types.”
Related Controls:
SI-4 (11)¶
SI-4 (11) : ANALYZE COMMUNICATIONS TRAFFIC ANOMALIES
Priority:
Baseline-Impact:
Description: “The organization analyzes outbound communications traffic at the external boundary of the information system and selected [Assignment: organization-defined interior points within the system (e.g., subnetworks, subsystems)] to discover anomalies.” Supplemental Guidance: “Anomalies within organizational information systems include, for example, large file transfers, long-time persistent connections, unusual protocols and ports in use, and attempted communications with suspected malicious external addresses.”
Related Controls:
SI-4 (12)¶
SI-4 (12) : AUTOMATED ALERTS
Priority:
Baseline-Impact:
Description: “The organization employs automated mechanisms to alert security personnel of the following inappropriate or unusual activities with security implications: [Assignment: organization-defined activities that trigger alerts].” Supplemental Guidance: “This control enhancement focuses on the security alerts generated by organizations and transmitted using automated means. In contrast to the alerts generated by information systems in SI-4 (5), which tend to focus on information sources internal to the systems (e.g., audit records), the sources of information for this enhancement can include other entities as well (e.g., suspicious activity reports, reports on potential insider threats).”
Related Controls:AC-18,IA-3
SI-4 (13)¶
SI-4 (13) : ANALYZE TRAFFIC / EVENT PATTERNS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance:
Related Controls:
Description: “Analyzes communications traffic/event patterns for the information system;”
Description: “Develops profiles representing common traffic patterns and/or events; and”
Description: “Uses the traffic/event profiles in tuning system-monitoring devices to reduce the number of false positives and the number of false negatives.”
SI-4 (14)¶
SI-4 (14) : WIRELESS INTRUSION DETECTION
Priority:
Baseline-Impact:
Description: “The organization employs a wireless intrusion detection system to identify rogue wireless devices and to detect attack attempts and potential compromises/breaches to the information system.” Supplemental Guidance: “Wireless signals may radiate beyond the confines of organization-controlled facilities. Organizations proactively search for unauthorized wireless connections including the conduct of thorough scans for unauthorized wireless access points. Scans are not limited to those areas within facilities containing information systems, but also include areas outside of facilities as needed, to verify that unauthorized wireless access points are not connected to the systems.”
Related Controls:AC-18,IA-3
SI-4 (15)¶
SI-4 (15) : WIRELESS TO WIRELINE COMMUNICATIONS
Priority:
Baseline-Impact:
Description: “The organization employs an intrusion detection system to monitor wireless communications traffic as the traffic passes from wireless to wireline networks.” Supplemental Guidance:
Related Controls:AC-18
SI-4 (16)¶
SI-4 (16) : CORRELATE MONITORING INFORMATION
Priority:
Baseline-Impact:
Description: “The organization correlates information from monitoring tools employed throughout the information system.” Supplemental Guidance: “Correlating information from different monitoring tools can provide a more comprehensive view of information system activity. The correlation of monitoring tools that usually work in isolation (e.g., host monitoring, network monitoring, anti-virus software) can provide an organization-wide view and in so doing, may reveal otherwise unseen attack patterns. Understanding the capabilities/limitations of diverse monitoring tools and how to maximize the utility of information generated by those tools can help organizations to build, operate, and maintain effective monitoring programs.”
Related Controls:AU-6
SI-4 (17)¶
SI-4 (17) : INTEGRATED SITUATIONAL AWARENESS
Priority:
Baseline-Impact:
Description: “The organization correlates information from monitoring physical, cyber, and supply chain activities to achieve integrated, organization-wide situational awareness.” Supplemental Guidance: “This control enhancement correlates monitoring information from a more diverse set of information sources to achieve integrated situational awareness. Integrated situational awareness from a combination of physical, cyber, and supply chain monitoring activities enhances the capability of organizations to more quickly detect sophisticated cyber attacks and investigate the methods and techniques employed to carry out such attacks. In contrast to SI-4 (16) which correlates the various cyber monitoring information, this control enhancement correlates monitoring beyond just the cyber domain. Such monitoring may help reveal attacks on organizations that are operating across multiple attack vectors.”
Related Controls:SA-12
SI-4 (18)¶
SI-4 (18) : ANALYZE TRAFFIC / COVERT EXFILTRATION
Priority:
Baseline-Impact:
Description: “The organization analyzes outbound communications traffic at the external boundary of the information system (i.e., system perimeter) and at [Assignment: organization-defined interior points within the system (e.g., subsystems, subnetworks)] to detect covert exfiltration of information.” Supplemental Guidance: “Covert means that can be used for the unauthorized exfiltration of organizational information include, for example, steganography.”
Related Controls:
SI-4 (19)¶
SI-4 (19) : INDIVIDUALS POSING GREATER RISK
Priority:
Baseline-Impact:
Description: “The organization implements [Assignment: organization-defined additional monitoring] of individuals who have been identified by [Assignment: organization-defined sources] as posing an increased level of risk.” Supplemental Guidance: “Indications of increased risk from individuals can be obtained from a variety of sources including, for example, human resource records, intelligence agencies, law enforcement organizations, and/or other credible sources. The monitoring of individuals is closely coordinated with management, legal, security, and human resources officials within organizations conducting such monitoring and complies with federal legislation, Executive Orders, policies, directives, regulations, and standards.”
Related Controls:
SI-4 (20)¶
SI-4 (20) : PRIVILEGED USERS
Priority:
Baseline-Impact:
Description: “The organization implements [Assignment: organization-defined additional monitoring] of privileged users.” Supplemental Guidance:
Related Controls:
SI-4 (21)¶
SI-4 (21) : PROBATIONARY PERIODS
Priority:
Baseline-Impact:
Description: “The organization implements [Assignment: organization-defined additional monitoring] of individuals during [Assignment: organization-defined probationary period].” Supplemental Guidance:
Related Controls:
SI-4 (22)¶
SI-4 (22) : UNAUTHORIZED NETWORK SERVICES
Priority:
Baseline-Impact:
Description: “The information system detects network services that have not been authorized or approved by [Assignment: organization-defined authorization or approval processes] and [Selection (one or more): audits; alerts [Assignment: organization-defined personnel or roles]].” Supplemental Guidance: “Unauthorized or unapproved network services include, for example, services in service-oriented architectures that lack organizational verification or validation and therefore may be unreliable or serve as malicious rogues for valid services.”
Related Controls:AC-6,CM-7,SA-5,SA-9
SI-4 (23)¶
SI-4 (23) : HOST-BASED DEVICES
Priority:
Baseline-Impact:
Description: “The organization implements [Assignment: organization-defined host-based monitoring mechanisms] at [Assignment: organization-defined information system components].” Supplemental Guidance: “Information system components where host-based monitoring can be implemented include, for example, servers, workstations, and mobile devices. Organizations consider employing host-based monitoring mechanisms from multiple information technology product developers.”
Related Controls:
SI-4 (24)¶
SI-4 (24) : INDICATORS OF COMPROMISE
Priority:
Baseline-Impact:
Description: “The information system discovers, collects, distributes, and uses indicators of compromise.” Supplemental Guidance: “Indicators of compromise (IOC) are forensic artifacts from intrusions that are identified on organizational information systems (at the host or network level). IOCs provide organizations with valuable information on objects or information systems that have been compromised. IOCs for the discovery of compromised hosts can include for example, the creation of registry key values. IOCs for network traffic include, for example, Universal Resource Locator (URL) or protocol elements that indicate malware command and control servers. The rapid distribution and adoption of IOCs can improve information security by reducing the time that information systems and organizations are vulnerable to the same exploit or attack.”
Related Controls: .. _header_SI-5:
SI-5¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-5¶
SI-5 : SECURITY ALERTS, ADVISORIES, AND DIRECTIVES
Priority: P1
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “The United States Computer Emergency Readiness Team (US-CERT) generates security alerts and advisories to maintain situational awareness across the federal government. Security directives are issued by OMB or other designated organizations with the responsibility and authority to issue such directives. Compliance to security directives is essential due to the critical nature of many of these directives and the potential immediate adverse effects on organizational operations and assets, individuals, other organizations, and the Nation should the directives not be implemented in a timely manner. External organizations include, for example, external mission/business partners, supply chain partners, external service providers, and other peer/supporting organizations.”
Related Controls:SI-2
Description: “Receives information system security alerts, advisories, and directives from [Assignment: organization-defined external organizations] on an ongoing basis;”
Description: “Generates internal security alerts, advisories, and directives as deemed necessary;”
Description: “Disseminates security alerts, advisories, and directives to: [Selection (one or more): [Assignment: organization-defined personnel or roles]; [Assignment: organization-defined elements within the organization]; [Assignment: organization-defined external organizations]]; and”
Description: “Implements security directives in accordance with established time frames, or notifies the issuing organization of the degree of noncompliance.”
SI-5 (1)¶
SI-5 (1) : AUTOMATED ALERTS AND ADVISORIES
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated mechanisms to make security alert and advisory information available throughout the organization.” Supplemental Guidance: “The significant number of changes to organizational information systems and the environments in which those systems operate requires the dissemination of security-related information to a variety of organizational entities that have a direct interest in the success of organizational missions and business functions. Based on the information provided by the security alerts and advisories, changes may be required at one or more of the three tiers related to the management of information security risk including the governance level, mission/business process/enterprise architecture level, and the information system level.”
Related Controls: .. _header_SI-6:
SI-6¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-6¶
SI-6 : SECURITY FUNCTION VERIFICATION
Priority: P1
Baseline-Impact: HIGH
Description: “The information system:” Supplemental Guidance: “Transitional states for information systems include, for example, system startup, restart, shutdown, and abort. Notifications provided by information systems include, for example, electronic alerts to system administrators, messages to local computer consoles, and/or hardware indications such as lights.”
Related Controls:CA-7,CM-6
Description: “Verifies the correct operation of [Assignment: organization-defined security functions];”
Description: “Performs this verification [Selection (one or more): [Assignment: organization-defined system transitional states]; upon command by user with appropriate privilege; [Assignment: organization-defined frequency]];”
Description: “Notifies [Assignment: organization-defined personnel or roles] of failed security verification tests; and”
Description: “[Selection (one or more): shuts the information system down; restarts the information system; [Assignment: organization-defined alternative action(s)]] when anomalies are discovered.”
SI-6 (1)¶
SI-6 (1) : NOTIFICATION OF FAILED SECURITY TESTS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-6].” Supplemental Guidance:
Related Controls:
SI-6 (2)¶
SI-6 (2) : AUTOMATION SUPPORT FOR DISTRIBUTED TESTING
Priority:
Baseline-Impact:
Description: “The information system implements automated mechanisms to support the management of distributed security testing.” Supplemental Guidance:
Related Controls:SI-2
SI-6 (3)¶
SI-6 (3) : REPORT VERIFICATION RESULTS
Priority:
Baseline-Impact:
Description: “The organization reports the results of security function verification to [Assignment: organization-defined personnel or roles].” Supplemental Guidance: “Organizational personnel with potential interest in security function verification results include, for example, senior information security officers, information system security managers, and information systems security officers.”
Related Controls:SA-12,SI-4,SI-5 .. _header_SI-7:
SI-7¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-7¶
SI-7 : SOFTWARE, FIRMWARE, AND INFORMATION INTEGRITY
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The organization employs integrity verification tools to detect unauthorized changes to [Assignment: organization-defined software, firmware, and information].” Supplemental Guidance: “Unauthorized changes to software, firmware, and information can occur due to errors or malicious activity (e.g., tampering). Software includes, for example, operating systems (with key internal components such as kernels, drivers), middleware, and applications. Firmware includes, for example, the Basic Input Output System (BIOS). Information includes metadata such as security attributes associated with information. State-of-the-practice integrity-checking mechanisms (e.g., parity checks, cyclical redundancy checks, cryptographic hashes) and associated tools can automatically monitor the integrity of information systems and hosted applications.”
Related Controls:SA-12,SC-8,SC-13,SI-3
SI-7 (1)¶
SI-7 (1) : INTEGRITY CHECKS
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system performs an integrity check of [Assignment: organization-defined software, firmware, and information] [Selection (one or more): at startup; at [Assignment: organization-defined transitional states or security-relevant events]; [Assignment: organization-defined frequency]].” Supplemental Guidance: “Security-relevant events include, for example, the identification of a new threat to which organizational information systems are susceptible, and the installation of new hardware, software, or firmware. Transitional states include, for example, system startup, restart, shutdown, and abort.”
Related Controls:
SI-7 (2)¶
SI-7 (2) : AUTOMATED NOTIFICATIONS OF INTEGRITY VIOLATIONS
Priority:
Baseline-Impact: HIGH
Description: “The organization employs automated tools that provide notification to [Assignment: organization-defined personnel or roles] upon discovering discrepancies during integrity verification.” Supplemental Guidance: “The use of automated tools to report integrity violations and to notify organizational personnel in a timely matter is an essential precursor to effective risk response. Personnel having an interest in integrity violations include, for example, mission/business owners, information system owners, systems administrators, software developers, systems integrators, and information security officers.”
Related Controls:
SI-7 (3)¶
SI-7 (3) : CENTRALLY-MANAGED INTEGRITY TOOLS
Priority:
Baseline-Impact:
Description: “The organization employs centrally managed integrity verification tools.” Supplemental Guidance:
Related Controls:AU-3,SI-2,SI-8
SI-7 (4)¶
SI-7 (4) : TAMPER-EVIDENT PACKAGING
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SA-12].” Supplemental Guidance:
Related Controls:
SI-7 (5)¶
SI-7 (5) : AUTOMATED RESPONSE TO INTEGRITY VIOLATIONS
Priority:
Baseline-Impact: HIGH
Description: “The information system automatically [Selection (one or more): shuts the information system down; restarts the information system; implements [Assignment: organization-defined security safeguards]] when integrity violations are discovered.” Supplemental Guidance: “Organizations may define different integrity checking and anomaly responses: (i) by type of information (e.g., firmware, software, user data); (ii) by specific information (e.g., boot firmware, boot firmware for a specific types of machines); or (iii) a combination of both. Automatic implementation of specific safeguards within organizational information systems includes, for example, reversing the changes, halting the information system, or triggering audit alerts when unauthorized modifications to critical security files occur.”
Related Controls:
SI-7 (6)¶
SI-7 (6) : CRYPTOGRAPHIC PROTECTION
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to detect unauthorized changes to software, firmware, and information.” Supplemental Guidance: “Cryptographic mechanisms used for the protection of integrity include, for example, digital signatures and the computation and application of signed hashes using asymmetric cryptography, protecting the confidentiality of the key used to generate the hash, and using the public key to verify the hash information.”
Related Controls:SC-13
SI-7 (7)¶
SI-7 (7) : INTEGRATION OF DETECTION AND RESPONSE
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization incorporates the detection of unauthorized [Assignment: organization-defined security-relevant changes to the information system] into the organizational incident response capability.” Supplemental Guidance: “This control enhancement helps to ensure that detected events are tracked, monitored, corrected, and available for historical purposes. Maintaining historical records is important both for being able to identify and discern adversary actions over an extended period of time and for possible legal actions. Security-relevant changes include, for example, unauthorized changes to established configuration settings or unauthorized elevation of information system privileges.”
Related Controls:IR-4,IR-5,SI-4
SI-7 (8)¶
SI-7 (8) : AUDITING CAPABILITY FOR SIGNIFICANT EVENTS
Priority:
Baseline-Impact:
Description: “The information system, upon detection of a potential integrity violation, provides the capability to audit the event and initiates the following actions: [Selection (one or more): generates an audit record; alerts current user; alerts [Assignment: organization-defined personnel or roles]; [Assignment: organization-defined other actions]].” Supplemental Guidance: “Organizations select response actions based on types of software, specific software, or information for which there are potential integrity violations.”
Related Controls:AU-2,AU-6,AU-12
SI-7 (9)¶
SI-7 (9) : VERIFY BOOT PROCESS
Priority:
Baseline-Impact:
Description: “The information system verifies the integrity of the boot process of [Assignment: organization-defined devices].” Supplemental Guidance: “Ensuring the integrity of boot processes is critical to starting devices in known/trustworthy states. Integrity verification mechanisms provide organizational personnel with assurance that only trusted code is executed during boot processes.”
Related Controls:
SI-7 (10)¶
SI-7 (10) : PROTECTION OF BOOT FIRMWARE
Priority:
Baseline-Impact:
Description: “The information system implements [Assignment: organization-defined security safeguards] to protect the integrity of boot firmware in [Assignment: organization-defined devices].” Supplemental Guidance: “Unauthorized modifications to boot firmware may be indicative of a sophisticated, targeted cyber attack. These types of cyber attacks can result in a permanent denial of service (e.g., if the firmware is corrupted) or a persistent malicious code presence (e.g., if code is embedded within the firmware). Devices can protect the integrity of the boot firmware in organizational information systems by: (i) verifying the integrity and authenticity of all updates to the boot firmware prior to applying changes to the boot devices; and (ii) preventing unauthorized processes from modifying the boot firmware.”
Related Controls:
SI-7 (11)¶
SI-7 (11) : CONFINED ENVIRONMENTS WITH LIMITED PRIVILEGES
Priority:
Baseline-Impact:
Description: “The organization requires that [Assignment: organization-defined user-installed software] execute in a confined physical or virtual machine environment with limited privileges.” Supplemental Guidance: “Organizations identify software that may be of greater concern with regard to origin or potential for containing malicious code. For this type of software, user installations occur in confined environments of operation to limit or contain damage from malicious code that may be executed.”
Related Controls:
SI-7 (12)¶
SI-7 (12) : INTEGRITY VERIFICATION
Priority:
Baseline-Impact:
Description: “The organization requires that the integrity of [Assignment: organization-defined user-installed software] be verified prior to execution.” Supplemental Guidance: “Organizations verify the integrity of user-installed software prior to execution to reduce the likelihood of executing malicious code or code that contains errors from unauthorized modifications. Organizations consider the practicality of approaches to verifying software integrity including, for example, availability of checksums of adequate trustworthiness from software developers or vendors.”
Related Controls:
SI-7 (13)¶
SI-7 (13) : CODE EXECUTION IN PROTECTED ENVIRONMENTS
Priority:
Baseline-Impact:
Description: “The organization allows execution of binary or machine-executable code obtained from sources with limited or no warranty and without the provision of source code only in confined physical or virtual machine environments and with the explicit approval of [Assignment: organization-defined personnel or roles].” Supplemental Guidance: “This control enhancement applies to all sources of binary or machine-executable code including, for example, commercial software/firmware and open source software.”
Related Controls:
SI-7 (14)¶
SI-7 (14) : BINARY OR MACHINE EXECUTABLE CODE
Priority:
Baseline-Impact: HIGH
Description: “The organization:” Supplemental Guidance: “This control enhancement applies to all sources of binary or machine-executable code including, for example, commercial software/firmware and open source software. Organizations assess software products without accompanying source code from sources with limited or no warranty for potential security impacts. The assessments address the fact that these types of software products may be very difficult to review, repair, or extend, given that organizations, in most cases, do not have access to the original source code, and there may be no owners who could make such repairs on behalf of organizations.”
Related Controls:SA-5
Description: “Prohibits the use of binary or machine-executable code from sources with limited or no warranty and without the provision of source code; and”
Description: “Provides exceptions to the source code requirement only for compelling mission/operational requirements and with the approval of the authorizing official.”
SI-7 (15)¶
SI-7 (15) : CODE AUTHENTICATION
Priority:
Baseline-Impact:
Description: “The information system implements cryptographic mechanisms to authenticate [Assignment: organization-defined software or firmware components] prior to installation.” Supplemental Guidance: “Cryptographic authentication includes, for example, verifying that software or firmware components have been digitally signed using certificates recognized and approved by organizations. Code signing is an effective method to protect against malicious code.”
Related Controls:
SI-7 (16)¶
SI-7 (16) : TIME LIMIT ON PROCESS EXECUTION W/O SUPERVISION
Priority:
Baseline-Impact:
Description: “The organization does not allow processes to execute without supervision for more than [Assignment: organization-defined time period].” Supplemental Guidance: “This control enhancement addresses processes for which normal execution periods can be determined and situations in which organizations exceed such periods. Supervision includes, for example, operating system timers, automated responses, or manual oversight and response when information system process anomalies occur.”
Related Controls: .. _header_SI-8:
SI-8¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-8¶
SI-8 : SPAM PROTECTION
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The organization:” Supplemental Guidance: “Information system entry and exit points include, for example, firewalls, electronic mail servers, web servers, proxy servers, remote-access servers, workstations, mobile devices, and notebook/laptop computers. Spam can be transported by different means including, for example, electronic mail, electronic mail attachments, and web accesses. Spam protection mechanisms include, for example, signature definitions.”
Related Controls:AT-2,AT-3,SC-5,SC-7,SI-3
Description: “Employs spam protection mechanisms at information system entry and exit points to detect and take action on unsolicited messages; and”
Description: “Updates spam protection mechanisms when new releases are available in accordance with organizational configuration management policy and procedures.”
SI-8 (1)¶
SI-8 (1) : CENTRAL MANAGEMENT
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The organization centrally manages spam protection mechanisms.” Supplemental Guidance: “Central management is the organization-wide management and implementation of spam protection mechanisms. Central management includes planning, implementing, assessing, authorizing, and monitoring the organization-defined, centrally managed spam protection security controls.”
Related Controls:AU-3,SI-2,SI-7
SI-8 (2)¶
SI-8 (2) : AUTOMATIC UPDATES
Priority:
Baseline-Impact: MODERATE,HIGH
Description: “The information system automatically updates spam protection mechanisms.” Supplemental Guidance:
Related Controls:
SI-8 (3)¶
SI-8 (3) : CONTINUOUS LEARNING CAPABILITY
Priority:
Baseline-Impact:
Description: “The information system implements spam protection mechanisms with a learning capability to more effectively identify legitimate communications traffic.” Supplemental Guidance: “Learning mechanisms include, for example, Bayesian filters that respond to user inputs identifying specific traffic as spam or legitimate by updating algorithm parameters and thereby more accurately separating types of traffic.”
Related Controls: .. _header_SI-9:
SI-9¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-9¶
SI-9 : INFORMATION INPUT RESTRICTIONS
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into AC-2, AC-3, AC-5, AC-6].” Supplemental Guidance:
Related Controls:
SI-10¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-10¶
SI-10 : INFORMATION INPUT VALIDATION
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system checks the validity of [Assignment: organization-defined information inputs].” Supplemental Guidance: “Checking the valid syntax and semantics of information system inputs (e.g., character set, length, numerical range, and acceptable values) verifies that inputs match specified definitions for format and content. Software applications typically follow well-defined protocols that use structured messages (i.e., commands or queries) to communicate between software modules or system components. Structured messages can contain raw or unstructured data interspersed with metadata or control information. If software applications use attacker-supplied inputs to construct structured messages without properly encoding such messages, then the attacker could insert malicious commands or special characters that can cause the data to be interpreted as control information or metadata. Consequently, the module or component that receives the tainted output will perform the wrong operations or otherwise interpret the data incorrectly. Prescreening inputs prior to passing to interpreters prevents the content from being unintentionally interpreted as commands. Input validation helps to ensure accurate and correct inputs and prevent attacks such as cross-site scripting and a variety of injection attacks.”
Related Controls:
SI-10 (1)¶
SI-10 (1) : MANUAL OVERRIDE CAPABILITY
Priority:
Baseline-Impact:
Description: “The information system:” Supplemental Guidance:
Related Controls:CM-3,CM-5
Description: “Provides a manual override capability for input validation of [Assignment: organization-defined inputs];”
Description: “Restricts the use of the manual override capability to only [Assignment: organization-defined authorized individuals]; and”
Description: “Audits the use of the manual override capability.”
SI-10 (2)¶
SI-10 (2) : REVIEW / RESOLUTION OF ERRORS
Priority:
Baseline-Impact:
Description: “The organization ensures that input validation errors are reviewed and resolved within [Assignment: organization-defined time period].” Supplemental Guidance: “Resolution of input validation errors includes, for example, correcting systemic causes of errors and resubmitting transactions with corrected input.”
Related Controls:
SI-10 (3)¶
SI-10 (3) : PREDICTABLE BEHAVIOR
Priority:
Baseline-Impact:
Description: “The information system behaves in a predictable and documented manner that reflects organizational and system objectives when invalid inputs are received.” Supplemental Guidance: “A common vulnerability in organizational information systems is unpredictable behavior when invalid inputs are received. This control enhancement ensures that there is predictable behavior in the face of invalid inputs by specifying information system responses that facilitate transitioning the system to known states without adverse, unintended side effects.”
Related Controls:
SI-10 (4)¶
SI-10 (4) : REVIEW / TIMING INTERACTIONS
Priority:
Baseline-Impact:
Description: “The organization accounts for timing interactions among information system components in determining appropriate responses for invalid inputs.” Supplemental Guidance: “In addressing invalid information system inputs received across protocol interfaces, timing interactions become relevant, where one protocol needs to consider the impact of the error response on other protocols within the protocol stack. For example, 802.11 standard wireless network protocols do not interact well with Transmission Control Protocols (TCP) when packets are dropped (which could be due to invalid packet input). TCP assumes packet losses are due to congestion, while packets lost over 802.11 links are typically dropped due to collisions or noise on the link. If TCP makes a congestion response, it takes precisely the wrong action in response to a collision event. Adversaries may be able to use apparently acceptable individual behaviors of the protocols in concert to achieve adverse effects through suitable construction of invalid input.”
Related Controls:
SI-10 (5)¶
SI-10 (5) : RESTRICT INPUTS TO TRUSTED SOURCES AND APPROVED FORMATS
Priority:
Baseline-Impact:
Description: “The organization restricts the use of information inputs to [Assignment: organization-defined trusted sources] and/or [Assignment: organization-defined formats].” Supplemental Guidance: “This control enhancement applies the concept of whitelisting to information inputs. Specifying known trusted sources for information inputs and acceptable formats for such inputs can reduce the probability of malicious activity.”
Related Controls: .. _header_SI-11:
SI-11¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-11¶
SI-11 : ERROR HANDLING
Priority: P2
Baseline-Impact: MODERATE,HIGH
Description: “The information system:” Supplemental Guidance: “Organizations carefully consider the structure/content of error messages. The extent to which information systems are able to identify and handle error conditions is guided by organizational policy and operational requirements. Information that could be exploited by adversaries includes, for example, erroneous logon attempts with passwords entered by mistake as the username, mission/business information that can be derived from (if not stated explicitly by) information recorded, and personal information such as account numbers, social security numbers, and credit card numbers. In addition, error messages may provide a covert channel for transmitting information.”
Related Controls:AU-2,AU-3,SC-31
Description: “Generates error messages that provide information necessary for corrective actions without revealing information that could be exploited by adversaries; and”
Description: “Reveals error messages only to [Assignment: organization-defined personnel or roles].” .. _header_SI-12:
SI-12¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-12¶
SI-12 : INFORMATION HANDLING AND RETENTION
Priority: P2
Baseline-Impact: LOW,MODERATE,HIGH
Description: “The organization handles and retains information within the information system and information output from the system in accordance with applicable federal laws, Executive Orders, directives, policies, regulations, standards, and operational requirements.” Supplemental Guidance: “Information handling and retention requirements cover the full life cycle of information, in some cases extending beyond the disposal of information systems. The National Archives and Records Administration provides guidance on records retention.”
Related Controls:AC-16,AU-5,AU-11,MP-2,MP-4
SI-13¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-13¶
SI-13 : PREDICTABLE FAILURE PREVENTION
Priority: P0
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “While MTTF is primarily a reliability issue, this control addresses potential failures of specific information system components that provide security capability. Failure rates reflect installation-specific consideration, not industry-average. Organizations define criteria for substitution of information system components based on MTTF value with consideration for resulting potential harm from component failures. Transfer of responsibilities between active and standby components does not compromise safety, operational readiness, or security capability (e.g., preservation of state variables). Standby components remain available at all times except for maintenance issues or recovery failures in progress.”
Related Controls:CP-2,CP-10,MA-6
Description: “Determines mean time to failure (MTTF) for [Assignment: organization-defined information system components] in specific environments of operation; and”
Description: “Provides substitute information system components and a means to exchange active and standby components at [Assignment: organization-defined MTTF substitution criteria].”
SI-13 (1)¶
SI-13 (1) : TRANSFERRING COMPONENT RESPONSIBILITIES
Priority:
Baseline-Impact:
Description: “The organization takes information system components out of service by transferring component responsibilities to substitute components no later than [Assignment: organization-defined fraction or percentage] of mean time to failure.” Supplemental Guidance:
Related Controls:
SI-13 (2)¶
SI-13 (2) : TIME LIMIT ON PROCESS EXECUTION WITHOUT SUPERVISION
Priority:
Baseline-Impact:
Description: “[Withdrawn: Incorporated into SI-7 (16)].” Supplemental Guidance:
Related Controls:
SI-13 (3)¶
SI-13 (3) : MANUAL TRANSFER BETWEEN COMPONENTS
Priority:
Baseline-Impact:
Description: “The organization manually initiates transfers between active and standby information system components [Assignment: organization-defined frequency] if the mean time to failure exceeds [Assignment: organization-defined time period].” Supplemental Guidance:
Related Controls:
SI-13 (4)¶
SI-13 (4) : STANDBY COMPONENT INSTALLATION / NOTIFICATION
Priority:
Baseline-Impact:
Description: “The organization, if information system component failures are detected:” Supplemental Guidance: “Automatic or manual transfer of components from standby to active mode can occur, for example, upon detection of component failures.”
Related Controls:
Description: “Ensures that the standby components are successfully and transparently installed within [Assignment: organization-defined time period]; and”
Description: “[Selection (one or more): activates [Assignment: organization-defined alarm]; automatically shuts down the information system].”
SI-13 (5)¶
SI-13 (5) : FAILOVER CAPABILITY
Priority:
Baseline-Impact:
Description: “The organization provides [Selection: real-time; near real-time] [Assignment: organization-defined failover capability] for the information system.” Supplemental Guidance: “Failover refers to the automatic switchover to an alternate information system upon the failure of the primary information system. Failover capability includes, for example, incorporating mirrored information system operations at alternate processing sites or periodic data mirroring at regular intervals defined by recovery time periods of organizations.”
Related Controls: .. _header_SI-14:
SI-14¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-14¶
SI-14 : NON-PERSISTENCE
Priority: P0
Baseline-Impact:
Description: “The organization implements non-persistent [Assignment: organization-defined information system components and services] that are initiated in a known state and terminated [Selection (one or more): upon end of session of use; periodically at [Assignment: organization-defined frequency]].” Supplemental Guidance: “This control mitigates risk from advanced persistent threats (APTs) by significantly reducing the targeting capability of adversaries (i.e., window of opportunity and available attack surface) to initiate and complete cyber attacks. By implementing the concept of non-persistence for selected information system components, organizations can provide a known state computing resource for a specific period of time that does not give adversaries sufficient time on target to exploit vulnerabilities in organizational information systems and the environments in which those systems operate. Since the advanced persistent threat is a high-end threat with regard to capability, intent, and targeting, organizations assume that over an extended period of time, a percentage of cyber attacks will be successful. Non-persistent information system components and services are activated as required using protected information and terminated periodically or upon the end of sessions. Non-persistence increases the work factor of adversaries in attempting to compromise or breach organizational information systems. Non-persistent system components can be implemented, for example, by periodically re-imaging components or by using a variety of common virtualization techniques. Non-persistent services can be implemented using virtualization techniques as part of virtual machines or as new instances of processes on physical machines (either persistent or non-persistent).The benefit of periodic refreshes of information system components/services is that it does not require organizations to first determine whether compromises of components or services have occurred (something that may often be difficult for organizations to determine). The refresh of selected information system components and services occurs with sufficient frequency to prevent the spread or intended impact of attacks, but not with such frequency that it makes the information system unstable. In some instances, refreshes of critical components and services may be done periodically in order to hinder the ability of adversaries to exploit optimum windows of vulnerabilities.”
Related Controls:SC-30,SC-34
SI-14 (1)¶
SI-14 (1) : REFRESH FROM TRUSTED SOURCES
Priority:
Baseline-Impact:
Description: “The organization ensures that software and data employed during information system component and service refreshes are obtained from [Assignment: organization-defined trusted sources].” Supplemental Guidance: “Trusted sources include, for example, software/data from write-once, read-only media or from selected off-line secure storage facilities.”
Related Controls: .. _header_SI-15:
SI-15¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-15¶
SI-15 : INFORMATION OUTPUT FILTERING
Priority: P0
Baseline-Impact:
Description: “The information system validates information output from [Assignment: organization-defined software programs and/or applications] to ensure that the information is consistent with the expected content.” Supplemental Guidance: “Certain types of cyber attacks (e.g., SQL injections) produce output results that are unexpected or inconsistent with the output results that would normally be expected from software programs or applications. This control enhancement focuses on detecting extraneous content, preventing such extraneous content from being displayed, and alerting monitoring tools that anomalous behavior has been discovered.”
Related Controls:SI-3,SI-4
SI-16¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-16¶
SI-16 : MEMORY PROTECTION
Priority: P1
Baseline-Impact: MODERATE,HIGH
Description: “The information system implements [Assignment: organization-defined security safeguards] to protect its memory from unauthorized code execution.” Supplemental Guidance: “Some adversaries launch attacks with the intent of executing code in non-executable regions of memory or in memory locations that are prohibited. Security safeguards employed to protect memory include, for example, data execution prevention and address space layout randomization. Data execution prevention safeguards can either be hardware-enforced or software-enforced with hardware providing the greater strength of mechanism.”
Related Controls:AC-25,SC-3
SI-17¶
Control Family: SYSTEM AND INFORMATION INTEGRITY
SI-17¶
SI-17 : FAIL-SAFE PROCEDURES
Priority: P0
Baseline-Impact:
Description: “The information system implements [Assignment: organization-defined fail-safe procedures] when [Assignment: organization-defined failure conditions occur].” Supplemental Guidance: “Failure conditions include, for example, loss of communications among critical system components or between system components and operational facilities. Fail-safe procedures include, for example, alerting operator personnel and providing specific instructions on subsequent steps to take (e.g., do nothing, reestablish system settings, shut down processes, restart the system, or contact designated organizational personnel).”
Related Controls:CP-12,CP-13,SC-24,SI-13
PM-1¶
Control Family: PROGRAM MANAGEMENT
PM-1¶
PM-1 : INFORMATION SECURITY PROGRAM PLAN
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Information security program plans can be represented in single documents or compilations of documents at the discretion of organizations. The plans document the program management controls and organization-defined common controls. Information security program plans provide sufficient information about the program management controls/common controls (including specification of parameters for any assignment and selection statements either explicitly or by reference) to enable implementations that are unambiguously compliant with the intent of the plans and a determination of the risk to be incurred if the plans are implemented as intended. The security plans for individual information systems and the organization-wide information security program plan together, provide complete coverage for all security controls employed within the organization. Common controls are documented in an appendix to the organization�s information security program plan unless the controls are included in a separate security plan for an information system (e.g., security controls employed as part of an intrusion detection system providing organization-wide boundary protection inherited by one or more organizational information systems). The organization-wide information security program plan will indicate which separate security plans contain descriptions of common controls. Organizations have the flexibility to describe common controls in a single document or in multiple documents. In the case of multiple documents, the documents describing common controls are included as attachments to the information security program plan. If the information security program plan contains multiple documents, the organization specifies in each document the organizational official or officials responsible for the development, implementation, assessment, authorization, and monitoring of the respective common controls. For example, the organization may require that the Facilities Management Office develop, implement, assess, authorize, and continuously monitor common physical and environmental protection controls from the PE family when such controls are not associated with a particular information system but instead, support multiple information systems.”
Related Controls:PM-8
Description: “Develops and disseminates an organization-wide information security program plan that:”
Description: “Provides an overview of the requirements for the security program and a description of the security program management controls and common controls in place or planned for meeting those requirements;”
Description: “Includes the identification and assignment of roles, responsibilities, management commitment, coordination among organizational entities, and compliance;”
Description: “Reflects coordination among organizational entities responsible for the different aspects of information security (i.e., technical, physical, personnel, cyber-physical); and”
Description: “Is approved by a senior official with responsibility and accountability for the risk being incurred to organizational operations (including mission, functions, image, and reputation), organizational assets, individuals, other organizations, and the Nation;”
Description: “Reviews the organization-wide information security program plan [Assignment: organization-defined frequency];”
Description: “Updates the plan to address organizational changes and problems identified during plan implementation or security control assessments; and”
Description: “Protects the information security program plan from unauthorized disclosure and modification.” .. _header_PM-2:
PM-2¶
Control Family: PROGRAM MANAGEMENT
PM-2¶
PM-2 : SENIOR INFORMATION SECURITY OFFICER
Priority:
Baseline-Impact:
Description: “The organization appoints a senior information security officer with the mission and resources to coordinate, develop, implement, and maintain an organization-wide information security program.” Supplemental Guidance: “The security officer described in this control is an organizational official. For a federal agency (as defined in applicable federal laws, Executive Orders, directives, policies, or regulations) this official is the Senior Agency Information Security Officer. Organizations may also refer to this official as the Senior Information Security Officer or Chief Information Security Officer.”
Related Controls:
PM-3¶
Control Family: PROGRAM MANAGEMENT
PM-3¶
PM-3 : INFORMATION SECURITY RESOURCES
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Organizations consider establishing champions for information security efforts and as part of including the necessary resources, assign specialized expertise and resources as needed. Organizations may designate and empower an Investment Review Board (or similar group) to manage and provide oversight for the information security-related aspects of the capital planning and investment control process.”
Related Controls:PM-4,SA-2
Description: “Ensures that all capital planning and investment requests include the resources needed to implement the information security program and documents all exceptions to this requirement;”
Description: “Employs a business case/Exhibit 300/Exhibit 53 to record the resources required; and”
Description: “Ensures that information security resources are available for expenditure as planned.” .. _header_PM-4:
PM-4¶
Control Family: PROGRAM MANAGEMENT
PM-4¶
PM-4 : PLAN OF ACTION AND MILESTONES PROCESS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “The plan of action and milestones is a key document in the information security program and is subject to federal reporting requirements established by OMB. With the increasing emphasis on organization-wide risk management across all three tiers in the risk management hierarchy (i.e., organization, mission/business process, and information system), organizations view plans of action and milestones from an organizational perspective, prioritizing risk response actions and ensuring consistency with the goals and objectives of the organization. Plan of action and milestones updates are based on findings from security control assessments and continuous monitoring activities. OMB FISMA reporting guidance contains instructions regarding organizational plans of action and milestones.”
Related Controls:CA-5
Description: “Implements a process for ensuring that plans of action and milestones for the security program and associated organizational information systems:”
Description: “Are developed and maintained;”
Description: “Document the remedial information security actions to adequately respond to risk to organizational operations and assets, individuals, other organizations, and the Nation; and”
Description: “Are reported in accordance with OMB FISMA reporting requirements.”
Description: “Reviews plans of action and milestones for consistency with the organizational risk management strategy and organization-wide priorities for risk response actions.” .. _header_PM-5:
PM-5¶
Control Family: PROGRAM MANAGEMENT
PM-5¶
PM-5 : INFORMATION SYSTEM INVENTORY
Priority:
Baseline-Impact:
Description: “The organization develops and maintains an inventory of its information systems.” Supplemental Guidance: “This control addresses the inventory requirements in FISMA. OMB provides guidance on developing information systems inventories and associated reporting requirements. For specific information system inventory reporting requirements, organizations consult OMB annual FISMA reporting guidance.”
Related Controls:
PM-6¶
Control Family: PROGRAM MANAGEMENT
PM-6¶
PM-6 : INFORMATION SECURITY MEASURES OF PERFORMANCE
Priority:
Baseline-Impact:
Description: “The organization develops, monitors, and reports on the results of information security measures of performance.” Supplemental Guidance: “Measures of performance are outcome-based metrics used by an organization to measure the effectiveness or efficiency of the information security program and the security controls employed in support of the program.”
Related Controls:
PM-7¶
Control Family: PROGRAM MANAGEMENT
PM-7¶
PM-7 : ENTERPRISE ARCHITECTURE
Priority:
Baseline-Impact:
Description: “The organization develops an enterprise architecture with consideration for information security and the resulting risk to organizational operations, organizational assets, individuals, other organizations, and the Nation.” Supplemental Guidance: “The enterprise architecture developed by the organization is aligned with the Federal Enterprise Architecture. The integration of information security requirements and associated security controls into the organization�s enterprise architecture helps to ensure that security considerations are addressed by organizations early in the system development life cycle and are directly and explicitly related to the organization�s mission/business processes. This process of security requirements integration also embeds into the enterprise architecture, an integral information security architecture consistent with organizational risk management and information security strategies. For PM-7, the information security architecture is developed at a system-of-systems level (organization-wide), representing all of the organizational information systems. For PL-8, the information security architecture is developed at a level representing an individual information system but at the same time, is consistent with the information security architecture defined for the organization. Security requirements and security control integration are most effectively accomplished through the application of the Risk Management Framework and supporting security standards and guidelines. The Federal Segment Architecture Methodology provides guidance on integrating information security requirements and security controls into enterprise architectures.”
Related Controls:PL-2,PL-8,PM-11,RA-2,SA-3
PM-8¶
Control Family: PROGRAM MANAGEMENT
PM-8¶
PM-8 : CRITICAL INFRASTRUCTURE PLAN
Priority:
Baseline-Impact:
Description: “The organization addresses information security issues in the development, documentation, and updating of a critical infrastructure and key resources protection plan.” Supplemental Guidance: “Protection strategies are based on the prioritization of critical assets and resources. The requirement and guidance for defining critical infrastructure and key resources and for preparing an associated critical infrastructure protection plan are found in applicable federal laws, Executive Orders, directives, policies, regulations, standards, and guidance.”
Related Controls:PM-1,PM-9,PM-11,RA-3
PM-9¶
Control Family: PROGRAM MANAGEMENT
PM-9¶
PM-9 : RISK MANAGEMENT STRATEGY
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “An organization-wide risk management strategy includes, for example, an unambiguous expression of the risk tolerance for the organization, acceptable risk assessment methodologies, risk mitigation strategies, a process for consistently evaluating risk across the organization with respect to the organization�s risk tolerance, and approaches for monitoring risk over time. The use of a risk executive function can facilitate consistent, organization-wide application of the risk management strategy. The organization-wide risk management strategy can be informed by risk-related inputs from other sources both internal and external to the organization to ensure the strategy is both broad-based and comprehensive.”
Related Controls:RA-3
Description: “Develops a comprehensive strategy to manage risk to organizational operations and assets, individuals, other organizations, and the Nation associated with the operation and use of information systems;”
Description: “Implements the risk management strategy consistently across the organization; and”
Description: “Reviews and updates the risk management strategy [Assignment: organization-defined frequency] or as required, to address organizational changes.” .. _header_PM-10:
PM-10¶
Control Family: PROGRAM MANAGEMENT
PM-10¶
PM-10 : SECURITY AUTHORIZATION PROCESS
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Security authorization processes for information systems and environments of operation require the implementation of an organization-wide risk management process, a Risk Management Framework, and associated security standards and guidelines. Specific roles within the risk management process include an organizational risk executive (function) and designated authorizing officials for each organizational information system and common control provider. Security authorization processes are integrated with organizational continuous monitoring processes to facilitate ongoing understanding and acceptance of risk to organizational operations and assets, individuals, other organizations, and the Nation.”
Related Controls:CA-6
Description: “Manages (i.e., documents, tracks, and reports) the security state of organizational information systems and the environments in which those systems operate through security authorization processes;”
Description: “Designates individuals to fulfill specific roles and responsibilities within the organizational risk management process; and”
Description: “Fully integrates the security authorization processes into an organization-wide risk management program.” .. _header_PM-11:
PM-11¶
Control Family: PROGRAM MANAGEMENT
PM-11¶
PM-11 : MISSION/BUSINESS PROCESS DEFINITION
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “Information protection needs are technology-independent, required capabilities to counter threats to organizations, individuals, or the Nation through the compromise of information (i.e., loss of confidentiality, integrity, or availability). Information protection needs are derived from the mission/business needs defined by the organization, the mission/business processes selected to meet the stated needs, and the organizational risk management strategy. Information protection needs determine the required security controls for the organization and the associated information systems supporting the mission/business processes. Inherent in defining an organization�s information protection needs is an understanding of the level of adverse impact that could result if a compromise of information occurs. The security categorization process is used to make such potential impact determinations. Mission/business process definitions and associated information protection requirements are documented by the organization in accordance with organizational policy and procedure.”
Related Controls:PM-7,PM-8,RA-2
Description: “Defines mission/business processes with consideration for information security and the resulting risk to organizational operations, organizational assets, individuals, other organizations, and the Nation; and”
Description: “Determines information protection needs arising from the defined mission/business processes and revises the processes as necessary, until achievable protection needs are obtained.” .. _header_PM-12:
PM-12¶
Control Family: PROGRAM MANAGEMENT
PM-12¶
PM-12 : INSIDER THREAT PROGRAM
Priority:
Baseline-Impact:
Description: “The organization implements an insider threat program that includes a cross-discipline insider threat incident handling team.” Supplemental Guidance: “Organizations handling classified information are required, under Executive Order 13587 and the National Policy on Insider Threat, to establish insider threat programs. The standards and guidelines that apply to insider threat programs in classified environments can also be employed effectively to improve the security of Controlled Unclassified Information in non-national security systems. Insider threat programs include security controls to detect and prevent malicious insider activity through the centralized integration and analysis of both technical and non-technical information to identify potential insider threat concerns. A senior organizational official is designated by the department/agency head as the responsible individual to implement and provide oversight for the program. In addition to the centralized integration and analysis capability, insider threat programs as a minimum, prepare department/agency insider threat policies and implementation plans, conduct host-based user monitoring of individual employee activities on government-owned classified computers, provide insider threat awareness training to employees, receive access to information from all offices within the department/agency (e.g., human resources, legal, physical security, personnel security, information technology, information system security, and law enforcement) for insider threat analysis, and conduct self-assessments of department/agency insider threat posture. Insider threat programs can leverage the existence of incident handling teams organizations may already have in place, such as computer security incident response teams. Human resources records are especially important in this effort, as there is compelling evidence to show that some types of insider crimes are often preceded by nontechnical behaviors in the workplace (e.g., ongoing patterns of disgruntled behavior and conflicts with coworkers and other colleagues). These precursors can better inform and guide organizational officials in more focused, targeted monitoring efforts. The participation of a legal team is important to ensure that all monitoring activities are performed in accordance with appropriate legislation, directives, regulations, policies, standards, and guidelines.”
Related Controls:AC-6,AT-2,AU-6,AU-7,AU-10,AU-12,AU-13,CA-7,IA-4,IR-4,MP-7,PE-2,PS-3,PS-4,PS-5,PS-8,SC-7,SC-38,SI-4,PM-1,PM-14
PM-13¶
Control Family: PROGRAM MANAGEMENT
PM-13¶
PM-13 : INFORMATION SECURITY WORKFORCE
Priority:
Baseline-Impact:
Description: “The organization establishes an information security workforce development and improvement program.” Supplemental Guidance: “Information security workforce development and improvement programs include, for example: (i) defining the knowledge and skill levels needed to perform information security duties and tasks; (ii) developing role-based training programs for individuals assigned information security roles and responsibilities; and (iii) providing standards for measuring and building individual qualifications for incumbents and applicants for information security-related positions. Such workforce programs can also include associated information security career paths to encourage: (i) information security professionals to advance in the field and fill positions with greater responsibility; and (ii) organizations to fill information security-related positions with qualified personnel. Information security workforce development and improvement programs are complementary to organizational security awareness and training programs. Information security workforce development and improvement programs focus on developing and institutionalizing core information security capabilities of selected personnel needed to protect organizational operations, assets, and individuals.”
Related Controls:AT-2,AT-3
PM-14¶
Control Family: PROGRAM MANAGEMENT
PM-14¶
PM-14 : TESTING, TRAINING, AND MONITORING
Priority:
Baseline-Impact:
Description: “The organization:” Supplemental Guidance: “This control ensures that organizations provide oversight for the security testing, training, and monitoring activities conducted organization-wide and that those activities are coordinated. With the importance of continuous monitoring programs, the implementation of information security across the three tiers of the risk management hierarchy, and the widespread use of common controls, organizations coordinate and consolidate the testing and monitoring activities that are routinely conducted as part of ongoing organizational assessments supporting a variety of security controls. Security training activities, while typically focused on individual information systems and specific roles, also necessitate coordination across all organizational elements. Testing, training, and monitoring plans and activities are informed by current threat and vulnerability assessments.”
Related Controls:AT-3,CA-7,CP-4,IR-3,SI-4
Description: “Implements a process for ensuring that organizational plans for conducting security testing, training, and monitoring activities associated with organizational information systems:”
Description: “Are developed and maintained; and”
Description: “Continue to be executed in a timely manner;”
Description: “Reviews testing, training, and monitoring plans for consistency with the organizational risk management strategy and organization-wide priorities for risk response actions.” .. _header_PM-15:
PM-15¶
Control Family: PROGRAM MANAGEMENT
PM-15¶
PM-15 : CONTACTS WITH SECURITY GROUPS AND ASSOCIATIONS
Priority:
Baseline-Impact:
Description: “The organization establishes and institutionalizes contact with selected groups and associations within the security community:” Supplemental Guidance: “Ongoing contact with security groups and associations is of paramount importance in an environment of rapidly changing technologies and threats. Security groups and associations include, for example, special interest groups, forums, professional associations, news groups, and/or peer groups of security professionals in similar organizations. Organizations select groups and associations based on organizational missions/business functions. Organizations share threat, vulnerability, and incident information consistent with applicable federal laws, Executive Orders, directives, policies, regulations, standards, and guidance.”
Related Controls:SI-5
Description: “To facilitate ongoing security education and training for organizational personnel;”
Description: “To maintain currency with recommended security practices, techniques, and technologies; and”
Description: “To share current security-related information including threats, vulnerabilities, and incidents.” .. _header_PM-16:
PM-16¶
Control Family: PROGRAM MANAGEMENT
PM-16¶
PM-16 : THREAT AWARENESS PROGRAM
Priority:
Baseline-Impact:
Description: “The organization implements a threat awareness program that includes a cross-organization information-sharing capability.” Supplemental Guidance: “Because of the constantly changing and increasing sophistication of adversaries, especially the advanced persistent threat (APT), it is becoming more likely that adversaries may successfully breach or compromise organizational information systems. One of the best techniques to address this concern is for organizations to share threat information. This can include, for example, sharing threat events (i.e., tactics, techniques, and procedures) that organizations have experienced, mitigations that organizations have found are effective against certain types of threats, threat intelligence (i.e., indications and warnings about threats that are likely to occur). Threat information sharing may be bilateral (e.g., government-commercial cooperatives, government-government cooperatives), or multilateral (e.g., organizations taking part in threat-sharing consortia). Threat information may be highly sensitive requiring special agreements and protection, or less sensitive and freely shared.”
Related Controls:PM-12,PM-16
Indices and tables¶
License¶
Legal Notice¶
Per Section 105 of the Copyright Act of 1976, these works are not entitled to domestic copyright protection under US Federal law. The US Government retains the right to pursue copyright protections outside of the United States. The United States Government has unlimited rights in this documentation and all derivatives thereof, pursuant to the contracts under which it was developed and the License under which it falls.
Material submitted by entities outside the United States Government may pursue copyright enforcement on those portions to which they hold copyright. These portions are explicitly marked within the source of this documentation.
This material may only be distributed subject to the terms and conditions set forth in the Apache License, Version 2.0 (the latest version is available at the Apache License website.
The SIMP Development Team makes no representation about the suitability of the SIMP product for any purpose. It is provided “as is” without expressed or implied warranty. If SIMP is modified in any way, except for designed customization, please identify the new copy as a variant of SIMP.
Additional products are distributed as part of the SIMP suite. By using SIMP, the user agrees to abide by the licenses for the included products.
Contact¶
If you have questions please contact the SIMP team. simp@simp-project.org
Help¶
If you are looking for assistance please email the SIMP mailing lists. simp@simp-project.org
Glossary of Terms¶
Note
Many terms here have been reproduced from various locations across the Internet and are governed by the licenses surrounding the source material. Please see the reference links for specifics on usage and reproducibility.
- ACL
- Access Control List
- A list of permissions attached to an object. An ACL specifies which users or system processes are granted access to objects, as well as what operations are allowed on given objects. Each entry in a typical ACL specifies a subject and an operation.
- AIDE
- Advanced Intrusion Detection Environment
- An intrusion detection system for checking the integrity of files under Linux. AIDE can be used to help track file integrity by comparing a snapshot of the system’s files prior to and after a suspected incident. It is maintained by Rami Lehti and Pablo Virolainen.
- Auditd
- The userspace component to the Linux Auditing System. It is responsible for writing audit records to the disk. Viewing the logs is done with the ausearch or aureport utilities. Configuring the audit rules is done with the auditctl utility. During startup, the rules in /etc/audit/audit.rules are read by auditctl. The audit daemon itself has some configuration options that the admin may wish to customize. They are found in the auditd.conf file.
- BIOS
- Basic Input/Output System
A type of firmware used to perform hardware initialization during the booting process (power-on startup) on IBM PC compatible computers.
Source: Wikipedia: BIOS
- CA
- An entity that issues X.509 digital certificates.
- CentOS
- Community Enterprise Operating System
- An Enterprise-grade Operating System that is mostly compatible with a prominent Linux distribution.
- CLI
- Command Line Interface
A means of interacting with a computer program where the user (or client) issues commands to the program in the form of successive lines of text (command lines).
- CPU
- Central Processing Unit
A central processing unit (CPU) is the electronic circuitry within a computer that carries out the instructions of a computer program by performing the basic arithmetic, logical, control and input/output (I/O) operations specified by the instructions
- DAC
- Discretionary Access Control
A type of access control defined by the Trusted Computer System Evaluation Criteria “as a means of restricting access to objects based on the identity of subjects and/or groups to which they belong. The controls are discretionary in the sense that a subject with a certain access permission is capable of passing that permission (perhaps indirectly) on to any other subject (unless restrained by mandatory access control)”.
- DHCP
- Dynamic Host Configuration Protocol
- A network protocol that enables a server to automatically assign an IP address to a computer.
- DNS
- Domain Name System
- A database system that translates a computer’s fully qualified domain name into an IP address and the reverse.
- DoS
- Denial of Service
- Denial of Service Attack
An attempt to make a machine or network resource unavailable to its intended users, such as to temporarily or indefinitely interrupt or suspend services of a host connected to the Internet.
- EL
- Enterprise Linux
- In the context of SIMP, EL is a generic term for Enterprise Linux and covers both RHEL and CentOS as well as other RHEL derivatives such as Oracle Linux.
- ENC
- External Node Classifier
An arbitrary script or application which can tell Puppet which classes a node should have. It can replace or work in concert with the node definitions in the main site manifest (site.pp).
The Puppet Enterprise Console and The Foreman are two examples of External Node Classifiers.
Source: External Node Classifiers
- EPEL
- Extra Packages for Enterprise Linux
A Fedora Special Interest Group that creates, maintains, and manages a high quality set of additional packages for Enterprise Linux, including, but not limited to, Red Hat Enterprise Linux (RHEL), CentOS and Scientific Linux (SL), Oracle Linux (OL).E
EPEL packages are usually based on their Fedora counterparts and will never conflict with or replace packages in the base Enterprise Linux distributions. EPEL uses much of the same infrastructure as Fedora, including buildsystem, bugzilla instance, updates manager, mirror manager and more.
Source: EPEL Homepage
- FIPS
- Federal Information Processing Standard
Federal Information Processing Standards (FIPS) Publications are standards issued by NIST after approval by the Secretary of Commerce pursuant to the Federal Information Security Management Act (FISMA)
The particular standard of note in SIMP is FIPS 140-2
Source: FIPS Publications
- FQDN
- Fully Qualified Domain Name
- A domain name that specifies its exact location in the tree hierarchy of the DNS. It specifies all domain levels, including the top-level domain and the root zone. An FQDN is distinguished by its unambiguity; it can only be interpreted one way.
- GUI
- Graphical User Interface
A type of interface that allows users to interact with electronic devices through graphical icons and visual indicators such as secondary notation, as opposed to text-based interfaces, typed command labels or text navigation.
- HDD
- Hard Disk Drive
- A device for storing and retrieving digital information, primarily computer data.
- Hiera
A key/value lookup tool for configuration data, built to make Puppet better and let you set node-specific data without repeating yourself.
Source: Hiera Overview
- initrd
- The Initial RAMDisk. A complete environment that is loaded at boot time to enable booting the rest of the operating system.
- IP
- IP Address
- Internet Protocol Address
A numerical label assigned to each device (e.g., computer, printer) participating in a computer network that uses the Internet Protocol for communication.
Source: Wikipedia: IP Address
- IP6Tables
- Internet Protocol 6 Tables
- A user space application that provides an interface to the IPv6 firewall rules on modern Linux systems.
- IPTables
- Internet Protocol Tables
- A user space application that provides an interface to the IPv4 firewall rules on modern Linux systems.
- ISO
- ISO 9660
A file system standard published by the International Organization for Standardization (ISO) or optical disc media.
Source: Wikipedia: ISO_9660- KDC
- Key Distribution Center
- Part of a cryptosystem intended to reduce the risks inherent in exchanging keys. KDCs often operate in systems within which some users may have permission to use certain services at some times and not at others.
- Kerberos
- A computer network authentication protocol that works on the basis of “tickets” to allow nodes communicating over a non-secure network to prove their identity to one another in a secure manner.
- LDAP
- Lightweight Directory Access Protocol
- A protocol for querying and modifying LDAP directory services including information such as names, addresses, email, phone numbers, and other information from an online directory.
- LDIF
- Lightweight Directory Interchange Format
A standard plain text data interchange format for representing LDAP (Lightweight Directory Access Protocol) directory content and update requests. LDIF conveys directory content as a set of records, one record for each object (or entry). It also represents update requests, such as Add, Modify, Delete, and Rename, as a set of records, one record for each update request.
- LUKS
- Linux Unified Key Setup
The standard for Linux hard disk encryption.
See: The LUKS Homepage
- MAC
- MAC Address
- Media Access Control
- Media Access Control Address
A unique identifier assigned to network interfaces for communications on the physical network segment.
Source: Wikipedia: MAC address
- Mandatory Access Control
A type of access control by which the operating system constrains the ability of a subject or initiator to access or generally perform some sort of operation on an object or target.
- NAT
- Network Address Translation
- The process of modifying IP address information in IP packet headers while in transit across a traffic routing device.
- NFS
- Network File System
- A distributed file system protocol that allows a user on a client computer to access files over a network in a manner similar to how local storage is accessed.
- NIST
- National Institute of Standards and Technology
The National Institute of Standards and Technology (NIST) was founded in 1901 and now part of the U.S. Department of Commerce. NIST is one of the nation’s oldest physical science laboratories.
Source: NIST - About NIST
- NIST 800-53
- NIST SP 800-53
- NIST Special Publication 800-53
Security and Privacy Controls for Federal Information Systems and Organizations
See: SP 800-53
- NIST SP
- NIST Special Publication
A set of publications that provide computer/cyber/information security and guidelines, recommendations, and reference materials.
- OS
- Operating System
System software that manages computer hardware and software resources and provides common services for computer programs. All computer programs, excluding firmware, require an operating system to function.
Source: Wikipedia: Operating system
- PAM
- Pluggable Authentication Modules
- A mechanism to integrate multiple low-level authentication schemes into a high-level application programming interface (API). It allows programs that rely on authentication to be written independent of the underlying authentication scheme.
- PEM
- Privacy Enhanced Mail
- An early standard for securing electronic mail. This is the public-key of a specific certificate. This is also the format used for Certificate Authority certificates.
- PERL
- Practical Extraction and Report Language
- A high-level, general-purpose, interpreted, dynamic programming language. PERL was originally developed by Larry Wall in 1987 as a general-purpose Unix scripting language to make report processing easier.
- PKI
- Public Key Infrastructure
- A security architecture that has been introduced to provide an increased level of confidence for exchanging information over an increasingly insecure Internet. PKI enables users of a basically insecure public networks, such as the Internet, to securely authenticate to systems and exchange data. The exchange of data is done by using a combination of cryptographically bound public and private keys.
- PSSH
- Parallel Secure Shell
- A tool that provides parallel versions of OpenSSH and other related tools.
- Puppet
- An Open Source configuration management tool written and maintained by Puppet Labs. Written as a Ruby DSL, Puppet provides a declarative language that allows system administrators to provide a consistently applied management infrastructure. Users describes system resource and resource state in the Puppet language. Puppet discovers system specific information via facter and compiles Puppet manifests into a system specific catalog containing resources and resource dependencies, which are applied to each client system.
- PXE
- Preboot Execution Environment
- An environment to boot computers using a network interface independently of data storage devices (like hard disks) or installed operating systems.
- RAM
- Random Access Memory
- A form of computer data storage. A random access device allows stored data to be accessed in nearly the same amount of time for any storage location, so data can be accessed quickly in any random order.
- Red Hat
- Red Hat®
- Red Hat®, Inc.
A collection of many different software programs, developed by Red Hat®, Inc. and other members of the Open Source community. All software programs included in Red Hat Enterprise Linux® are GPG signed by Red Hat®, Inc. to indicate that they were supplied by Red Hat®, Inc.
See also RHEL.
- RHEL
- Red Hat Enterprise Linux
- A commercial Linux operating system produced by Red Hat®, Inc. RHEL is designed to provide an Enterprise-ready Linux distribution suitable to multiple target applications.
- RPM
- RPM Package Manager
- A package management system. The name RPM is associated with the .rpm file format, files in this format, software packaged in such files, and the package manager itself. RPM was developed primarily for GNU/Linux distributions; the file format is the baseline package format of the Linux Standard Base.
- RSA
- An algorithm for public-key cryptography that is based on the presumed difficulty of factoring large integers, the factoring problem. RSA stands for Ron Rivest, Adi Shamir and Leonard Adleman, who first publicly described it in 1977.
- Ruby
- A dynamic, reflective, general-purpose object-oriented programming language that combines syntax inspired by Perl with Smalltalk-like features. Ruby originated in Japan during the mid-1990s and was first developed and designed by Yukihiro “Matz” Matsumoto. It was influenced primarily by Perl, Smalltalk, Eiffel, and Lisp. Ruby supports multiple programming paradigms, including functional, object oriented, imperative and reflective. It also has a dynamic type system and automatic memory management; it is therefore similar in varying respects to Smalltalk, Python, Perl, Lisp, Dylan, Pike, and CLU.
- RVM
- Ruby Version Manager
command-line tool which allows you to easily install, manage, and work with multiple Ruby environments from interpreters to sets of gems.
Source: RVM Homepage
- SELinux
A Linux kernel security module that provides a mechanism for supporting access control security policies, including United States Department of Defense–style mandatory access controls (MAC).
- Service Account
- An account that is not for use by a human user but which still requires login access to a host.
- SFTP
- SSH File Transfer Protocol
- A network protocol that provides file access, file transfer, and file management functionalities over any reliable data stream. It was designed by the Internet Engineering Task Force (IETF) as an extension of the Secure Shell protocol (SSH) version 2.0 to provide secure file transfer capability, but is also intended to be usable with other protocols.
- SIMP
- System Integrity Management Platform
- A security framework that sits on top of RHEL or CentOS.
- SSH
- Secure Shell
- An application for secure data communication, remote shell services, or command execution between networked computers. SSH utilizes a server/client model for point-to-point secure communication.
- SSL
- Secure Sockets Layer
The standard security technology for using PKI keys to provide a secure channel between two servers.
See also TLS.
- SSSD
- System Security Services Daemon
A daemon that provides access to identity and authentication remote resource through a common framework that can provide caching and offline support to the system.
Source: SSSD Homepage
- Sudosh
- An application that acts as an echo logger to enhance the auditing of privileged activities at the command line of the operating system. Utilities are available for playing back sudosh sessions in real time.
A technique used to resist SYN flood attacks.
Source: Wikipedia: SYN cookies
- TFTP
- Trivial File Transfer Protocol
- A file transfer protocol generally used for automated transfer of configuration or boot files between machines in a local environment.
- TLS
- Transport Layer Security
A cryptographic protocol that provides network communications security. TLS and SSL encrypt the segments of network connections above the Transport Layer, using asymmetric cryptography for privacy and a keyed message authentication codes for message reliability.
See also SSL.
- TTY
- A Unix command that prints to standard output the name of the terminal connected to standard input. The name of the program comes from teletypewriter, abbreviated “TTY”.
- UUID
- Universally Unique Identifier
A 128-bit unique value that is generally written as groups of hexadecimal digits separated by hyphens.
See also: UUIDGEN(1)
- VM
- Virtual Machine
- An isolated guest operating system installation running within a host operating system.
- VNC
- Virtual Network Computing
- A graphical desktop sharing system that uses the remote framebuffer (RFB) protocol to control another computer remotely. It transmits the keyboard and mouse events from one computer to another, relaying the graphical screen updates back in the other direction, over a network.
- WAN
- Wide Area Network
- A computer networking technology used to transmit ata over long distances, and between different Local Area Networks (LANs), Metropolitan Area Networks (MANs), and other localized computer networking architectures.
- X.509
An ITU-T standard for a public key infrastructure (PKI) and Privilege Management Infrastructure (PMI). X.509 specifies, amongst other things, standard formats for public key certificates, certificate revocation lists, attribute certificates, and a certification path validation algorithm.
Source: Wikipedia: X.509
- YUM
- Yellowdog Updater, Modified
A software installation tool for Linux. It is a complete software management system that works with RPM files. YUM is designed to be used over a network or the Internet.
See also RPM.