Limit information system access to authorized users, processes acting on behalf of authorized users, or devices (including other information systems).

[a] authorized users are identified;

[b] processes acting on behalf of authorized users are identified;

[c] devices (and other systems) authorized to connect to the system are identified;

[d] system access is limited to authorized users;

[e] system access is limited to processes acting on behalf of authorized users; and

[f] system access is limited to authorized devices (including other systems).

AT.L3-3.2.1e – Advanced Threat Awareness

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Awareness and Training (AT)
AT.L3-3.2.1E – ADVANCED THREAT AWARENESS

Provide awareness training upon initial hire, following a significant cyber event, and at least

annually, focused on recognizing and responding to threats from social engineering,

advanced persistent threat actors, breaches, and suspicious behaviors; update the training

at least annually or when there are significant changes to the threat.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Threats from social engineering, advanced persistent threat actors, breaches, and

suspicious behaviors are identified;

[b] Awareness training focused on recognizing and responding to threats from social

engineering, advanced persistent threat actors, breaches, and suspicious behaviors is

provided upon initial hire, following a significant cyber event, and at least annually;

[c] Significant changes to the threats from social engineering, advanced persistent threat

actors, breaches, and suspicious behaviors are identified; and

[d] Awareness training is updated at least annually or when there are significant changes to

the threat.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Awareness training policy; procedures addressing awareness training

implementation; appropriate codes of federal regulations; awareness training curriculum;

awareness training materials; security plan; training records; threat information on social

engineering, advanced persistent threat actors, suspicious behaviors, and breaches; other

relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for awareness training;

organizational personnel responsible for information security; organizational personnel

comprising the general system user community].

Test
[SELECT FROM: Mechanisms managing awareness training; mechanisms managing threat

information].

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DISCUSSION [NIST SP 800-172]

An effective method to detect APT activities and reduce the effectiveness of those activities

is to provide specific awareness training for individuals. A well-trained and security-aware

workforce provides another organizational safeguard that can be employed as part of a

defense-in-depth strategy to protect organizations against malicious code injections via

email or web applications. Threat awareness training includes educating individuals on the

various ways that APTs can infiltrate organizations, including through websites, emails,

advertisement pop-ups, articles, and social engineering. Training can include techniques for

recognizing suspicious emails, the use of removable systems in non-secure settings, and the

potential targeting of individuals by adversaries outside the workplace. Awareness training

is assessed and updated periodically to ensure that the training is relevant and effective,

particularly with respect to the threat since it is constantly, and often rapidly, evolving.
[NIST SP 800-50] provides guidance on security awareness and training programs.

FURTHER DISCUSSION

All organizations, regardless of size, should have a cyber training program that helps

employees understand threats they will face on a daily basis. This training must include

knowledge about APT actors, breaches, and suspicious behaviors.

Example
You are the cyber training coordinator for a small business with eight employees. You do not

have your own in-house cyber training program. Instead, you use a third-party company to

provide cyber training. New hires take the course when they start, and all current staff

members receive refresher training at least once a year [b]. When significant changes to the

threat landscape take place, the company contacts you and informs you that an update to the

training has been completed [c,d] and everyone will need to receive training [b]. You keep a

log of all employees who have gone through the cyber training program and the dates of

training.

Potential Assessment Considerations
•

Does the organization have evidence that employees participate in cyber awareness 

training at initial hire and at least annually thereafter or when there have been significant

changes to the threat [b]?

KEY REFERENCES

•

NIST SP 800-172 3.2.1e 

AT.L3-3.2.2e – Practical Training Exercises

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AT.L3-3.2.2E – PRACTICAL TRAINING EXERCISES

Include practical exercises in awareness training for all users, tailored by roles, to include

general users, users with specialized roles, and privileged users, that are aligned with

current threat scenarios and provide feedback to individuals involved in the training and

their supervisors.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Practical exercises are identified;
[b] Current threat scenarios are identified;
[c] Individuals involved in training and their supervisors are identified;
[d] Practical exercises that are aligned with current threat scenarios are included in

awareness training for all users, tailored by roles, to include general users, users with

specialized roles, and privileged users; and

[e] Feedback is provided to individuals involved in the training and their supervisors.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Awareness training policy; procedures addressing awareness training

implementation; appropriate codes of federal regulations; awareness training curriculum;

awareness training materials; security plan; training records; threat information on social

engineering, advanced persistent threat actors, suspicious behaviors, breaches, or other

relevant adversary tactics, techniques, or procedures; feedback on practical exercises and

awareness training; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for awareness training; organizational

personnel responsible for information security; organizational personnel with roles identified

for practical exercises; supervisors of personnel with roles identified for practical exercises].

Test
[SELECT FROM: Mechanisms managing awareness training; mechanisms managing threat

information].

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DISCUSSION [NIST SP 800-172]

Awareness training is most effective when it is complemented by practical exercises tailored

to the tactics, techniques, and procedures (TTP) of the threat. Examples of practical exercises

include unannounced social engineering attempts to gain unauthorized access, collect

information, or simulate the adverse impact of opening malicious email attachments or

invoking, via spear phishing attacks, malicious web links. Rapid feedback is essential to

reinforce desired user behavior. Training results, especially failures of personnel in critical

roles, can be indicative of a potentially serious problem. It is important that senior

management are made aware of such situations so that they can take appropriate

remediating actions.
[NIST SP 800-181] provides guidance on role-based security training, including a lexicon and

taxonomy that describes cybersecurity work via work roles.

FURTHER DISCUSSION

This requirement can be performed by the organization or by a third-party company.

Training exercises (including unannounced exercises, such as phishing training) should be

performed at various times throughout the year to encourage employee readiness. After

each exercise session has been completed, the results should be recorded (date, time, what

and who the training tested, and the percent of successful and unsuccessful responses). The

purpose of training is to help employees in all roles act appropriately for any given training

situation, which should reflect real-life scenarios. Collected results will help identify

shortcomings in the cyber training and/or whether additional instructional training may be

needed.
General exercises can be included for all users, but exercises tailored for specific roles are

important, too. Training tailored for specific roles helps make sure individuals are ready for

actions and events specific to their positions in a company. Privileged users receive training

that emphasizes what permissions their privileged account has in a given environment and

what extra care is required when using their privileged account.

Example
You are the cyber training coordinator for a medium-sized business. You and a coworker

have developed a specialized awareness training to increase cybersecurity awareness

around your organization. Your training includes social media campaigns, social engineering

phone calls, and phishing emails with disguised links to staff to train them beyond the

standard cybersecurity training [a,b].
To send simulated phishing emails to staff, you subscribe to a third-party service that

specializes in this area [a]. The service sets up fictitious websites with disguised links to help

train general staff against this TTP used by APTs [d]. The third-party company tracks the

individuals who were sent phishing emails and whether they click on any of the of the links

within the emails. After the training action is completed, you receive a report from the third-

party company. The results show that 20% of the staff clicked on one or more phishing email

links, demonstrating a significant risk to your company. As the cyber training coordinator,

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you notify the individuals, informing them they failed the training and identifying the area(s)

of concern [e]. You send an email to the supervisors informing them who in their

organization has received training. You also send an email out to the entire company

explaining the training that just took place and the overall results [e].

Potential Assessment Considerations
•

Are the individuals being trained and the results recorded [e]? 

•

Are the training exercises performed [c]? 

•

Are the exercises set up for all users? Are there tailored exercises based on roles within 

the organization (general users, users with specialized roles, and privileged users) [d]?

•

Does the organization have documentation recording the training exercises, who 

participated, and feedback provided to those who participated in a training session [c,e]?

KEY REFERENCES

•

NIST SP 800-172 3.2.2e 

CM.L3-3.4.1e – Authoritative Repository

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Configuration Management (CM)
CM.L3-3.4.1E – AUTHORITATIVE REPOSITORY

Establish and maintain an authoritative source and repository to provide a trusted source

and accountability for approved and implemented system components.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Approved system components are identified;
[b] Implemented system components are identified;
[c] An authoritative source and repository are established to provide a trusted source and

accountability for approved and implemented system components; and

[d] An authoritative source and repository are maintained to provide a trusted source and

accountability for approved and implemented system components.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Configuration management policy; procedures addressing the baseline

configuration of the system; configuration management plan; enterprise architecture

documentation; system design documentation; system architecture and configuration

documentation; system configuration settings and associated documentation; change

control records; system and system component inventory records; inventory reviews and

update records; security plan; system audit records; change control audit and review

reports; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for configuration management;

organizational personnel responsible for system component inventory; organizational

personnel responsible for configuration change control; organizational personnel

responsible for information security; system/network administrators; members of a change

control board or similar].

Test
[SELECT FROM: Mechanisms that implement configuration change control; mechanisms

supporting configuration control of the baseline configuration; mechanisms supporting

and/or implementing the system component inventory].

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DISCUSSION [NIST SP 800-172]

The establishment and maintenance of an authoritative source and repository includes a

system component inventory of approved hardware, software, and firmware; approved

system baseline configurations and configuration changes; and verified system software and

firmware, as well as images and/or scripts. The authoritative source implements integrity

controls to log changes or attempts to change software, configurations, or data in the

repository. Additionally, changes to the repository are subject to change management

procedures and require authentication of the user requesting the change. In certain

situations, organizations may also require dual authorization for such changes. Software

changes are routinely checked for integrity and authenticity to ensure that the changes are

legitimate when updating the repository and when refreshing a system from the known,

trusted source. The information in the repository is used to demonstrate adherence to or

identify deviation from the established configuration baselines and to restore system

components from a trusted source. From an automated assessment perspective, the system

description provided by the authoritative source is referred to as the desired state. The

desired state is compared to the actual state to check for compliance or deviations. [NIST SP

800-128] provides guidance on security configuration management, including security

configuration settings and configuration change control.
[NIST IR 8011-1] provides guidance on automation support to assess system and system

component configurations.

FURTHER DISCUSSION

Trusted software, whether securely developed in house or obtained from a trusted source,

should have baseline data integrity established when first created or obtained, such as by

using hash algorithms to obtain a hash value that would be used to validate the source prior

to use of the software in a given system. Hardware in the repository should be stored in boxes

or containers with tamper-evident seals. Hashes and seals should be checked on a regular

basis employing the principle of separation of duties.

Example
You are the primary system build technician at a medium-sized company. You have been put

in charge of creating, documenting, and implementing a baseline configuration for all user

systems [c]. You have identified a minimum set of software that is needed by all employees

to complete their work (e.g., office automation software). You acquire trusted versions of the

software and build one or more baselines of all system software, firmware, and applications

required by the organization. The gold version of each baseline is stored in a secure

configuration management system repository and updated as required to maintain integrity

and security. Access to the build repository for updates and use is carefully controlled using

access control mechanisms that limit access to you and your staff. All interactions with the

repository are logged. Using an automated build tool, your team builds each organizational

system using the standard baseline

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Potential Assessment Considerations
•

Does an authoritative source and repository exist to provide a trusted source and 

accountability for approved and implemented system components [c,d]?

KEY REFERENCES

•

NIST SP 800-172 3.4.1e 

CM.L3-3.4.2e – Automated Detection & Remediation

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CM.L3-3.4.2E – AUTOMATED DETECTION & REMEDIATION

Employ automated mechanisms to detect misconfigured or unauthorized system

components; after detection, remove the components or place the components in a

quarantine or remediation network to facilitate patching, re-configuration, or other

mitigations.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Automated mechanisms to detect misconfigured or unauthorized system components

are identified;

[b] Automated mechanisms are employed to detect misconfigured or unauthorized system

components;

[c] Misconfigured or unauthorized system components are detected; and
[d] After detection, system components are removed or placed in a quarantine or

remediation network to facilitate patching, re-configuration, or other mitigations.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Configuration management policy; procedures addressing the baseline

configuration of the system; configuration management plan; authoritative source or

repository; enterprise architecture documentation; system design documentation; system

architecture and configuration documentation; system procedures addressing system

configuration change control; configuration settings and associated documentation; change

control records; change control audit and review reports; agenda/minutes from

configuration change control oversight meetings; alerts/notifications of unauthorized

baseline configuration changes; security plan; system audit records; other relevant

documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for configuration management;

organizational personnel responsible for information security; organizational personnel

responsible for configuration change control; system developers; system/network

administrators; members of a change control board or similar roles].

Test
[SELECT FROM: Automated mechanisms supporting configuration control of the baseline

configuration; automated mechanisms that implement security responses to changes to the

baseline configurations; automated mechanisms that implement configuration change

control; automated mechanisms that detect misconfigured or unauthorized system

components].

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DISCUSSION [NIST SP 800-172]

System components used to process, store, transmit, or protect CUI are monitored and

checked against the authoritative source (i.e., hardware and software inventory and

associated baseline configurations). From an automated assessment perspective, the system

description provided by the authoritative source is referred to as the desired state. Using

automated tools, the desired state is compared to the actual state to check for compliance or

deviations. Security responses to system components that are unknown or that deviate from

approved configurations can include removing the components; halting system functions or

processing; placing the system components in a quarantine or remediation network that

facilitates patching, re-configuration, or other mitigations; or issuing alerts and/or

notifications to personnel when there is an unauthorized modification of an organization-

defined configuration item. Responses can be automated, manual, or procedural.

Components that are removed from the system are rebuilt from the trusted configuration

baseline established by the authoritative source.
[NIST IR 8011-1] provides guidance on using automation support to assess system

configurations

FURTHER DISCUSSION

For this requirement, the organization is required to implement automated tools to help

identify misconfigured components. Once under an attacker’s control, the system may be

modified in some manner and the automated tool should detect this. Or, if a user performs a

manual configuration adjustment, the system will be viewed as misconfigured, and that

change should be detected. Another common example is if a component has been offline and

not updated, the tool should detect the incorrect configuration. If any of these scenarios

occurs, the automated configuration management system (ACMS) will notice a change and

can take the system offline, quarantine the system, or send an alert so the component(s) can

be manually removed. Quarantining a misconfigured component does not require it to be

removed from the network. Quarantining only requires that a temporary limitation be put

in place eliminating the component’s ability to process, store, or transmit CUI until it is

properly configured. If a component has the potential of disrupting business operations then

the OSC should take extra care to ensure configuration updates are properly tested and that

components are properly configured and tested before being added to the network. Once

one of these actions is accomplished, a system technician may need to manually inspect the

system or rebuild it using the baseline configuration. Another option is for an ACMS to make

adjustments while the system is running rather than performing an entire rebuild. These

adjustments can include replacing configuration files, executable files, scripts, or library files

on the fly.

Example 1
As the system administrator, you implement company policy stating that every system

connecting to the company network via VPN will be checked for specific configuration

settings and software versioning before it is allowed to connect to the network, after it passes

authentication [a,b]. If any deviations from the authoritative baseline are identified, the

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system is placed in a VPN quarantine zone (remediation network) using a virtual local area

network (VLAN) [b,c,d]. This VLAN is set up for system analysis, configuration changes, and

rebuilding after forensic information is pulled from the system. Once the system updates are

complete, the system will be removed from the quarantine zone and placed on the network

through the VPN connection.

Example 2
As the system administrator, you have chosen to use a network access control (NAC) solution

to validate system configurations before they are allowed to connect to the corporate

network [a]. When a system plugs into or connects to a local network port or the VPN, the

NAC solution checks the hash of installed system software [b,c]. If the system does not pass

the configuration check, it is put in quarantine until an administrator can examine it or the

ACMS updates the system to pass the system checks [d].

Potential Assessment Considerations
•

Can the organization explain the automated process that identifies, quarantines, and 

remediates a system when a misconfiguration or unauthorized system component is

identified [a,b,c,d]?

•

Does the organization have a patching and rebuild process for all assets that may be taken 

offline [d]?

KEY REFERENCES

•

NIST SP 800-172 3.4.2e 

CM.L3-3.4.3e – Automated Inventory

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CM.L3-3.4.3E – AUTOMATED INVENTORY

Employ automated discovery and management tools to maintain an up-to-date, complete,

accurate, and readily available inventory of system components.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Automated discovery and management tools for the inventory of system components are

identified;

[b] An up-to-date, complete, accurate, and readily available inventory of system components

exists; and

[c] Automated discovery and management tools are employed to maintain an up-to-date,

complete, accurate, and readily available inventory of system components.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Configuration management policy; configuration management plan;

procedures addressing system component inventory; procedures addressing the baseline

configuration of the system; configuration management plan; system design documentation;

system architecture and configuration documentation; security plan; system configuration

settings and associated documentation; configuration change control records; system

inventory records; change control records; system maintenance records; system audit

records; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security;

organizational personnel responsible for configuration management; organizational

personnel responsible for managing the automated mechanisms implementing the system

component inventory; system developers; system/network administrators].

Test
[SELECT FROM: Automated mechanisms implementing baseline configuration maintenance;

automated mechanisms implementing the system component inventory].

DISCUSSION [NIST SP 800-172]

The system component inventory includes system-specific information required for

component accountability and to provide support to identify, control, monitor, and verify

configuration items in accordance with the authoritative source. The information necessary

for effective accountability of system components includes the system name, hardware and

software component owners, hardware inventory specifications, software license

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information, software version numbers, and— for networked components—the machine

names and network addresses. Inventory specifications include the manufacturer, supplier

information, component type, date of receipt, cost, model, serial number, and physical

location. Organizations also use automated mechanisms to implement and maintain

authoritative (i.e., up-to-date, complete, accurate, and available) baseline configurations for

systems that include hardware and software inventory tools, configuration management

tools, and network management tools. Tools can be used to track version numbers on

operating systems, applications, types of software installed, and current patch levels.

FURTHER DISCUSSION

Organizations use an automated capability to discover components connected to the

network and system software installed. The automated capability must also be able to

identify attributes associated with those components. For systems that have already been

coupled to the environment, they should allow remote access for inspection of the system

software configuration and components. Another option is to place an agent on systems that

performs internal system checks to identify system software configuration and components.

Collection of switch and router data can also be used to identify systems on networks.

Example
Within your organization, you are in charge of implementing an authoritative inventory of

system components. You first create a list of the automated technologies you will use and

what each technology will be responsible for identifying [a]. This includes gathering

information from switches, routers, access points, primary domain controllers, and all

connected systems or devices, whether wired or wireless (printers, IoT, IIoT, OT, IT, etc.) [b].

To keep the data up-to-date, you set a very short search frequency for identifying new

components. To maximize availability of this data, all information will be placed in a central

inventory/configuration management system, and automated reporting is performed every

day [c]. A user dashboard is set up that allows you and other administrators to run reports

at any time.

Potential Assessment Considerations
•

Can the organization explain the process by which current inventory information is 

acquired [a]?

•

Is the organization able to produce an inventory of components on the network [b,c]? 

•

Has the organization implemented a valid frequency for the component discovery 

solution [b,c]?

•

Can the organization demonstrate that the inventory is current and accurate [b]? 

•

Has the organization developed a defined list of identifiable attributes for each 

component type, and is that list adequate to support component accountability [a]?

•

Is the organization able to track, monitor, and verify configuration items in accordance 

with the organization’s authoritative list of components [b,c]?

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KEY REFERENCES

•

NIST SP 800-172 3.4.3e 

IA.L3-3.5.1e – Bidirectional Authentication

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Identification and Authentication (IA)
IA.L3-3.5.1E – BIDIRECTIONAL AUTHENTICATION

Identify and authenticate systems and system components, where possible, before

establishing a network connection using bidirectional authentication that is

cryptographically based and replay resistant.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[ODP1] Systems and system components to identify and authenticate are defined;
[a] Bidirectional authentication that is cryptographically-based is implemented;
[b] Bidirectional authentication that is replay-resistant is implemented; and
[c] Systems and system components, where possible, are identified and authenticated before

establishing a network connection using bidirectional authentication that is

cryptographically-based and replay-resistant.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Identification and authentication policy; procedures addressing device

identification and authentication; network connection policy; security plan; system

configuration settings and associated documentation; system design documentation; list of

devices requiring unique identification and authentication; device connection reports;

system audit records; list of privileged system accounts; other relevant documents or

records].

Interview
[SELECT FROM: Organizational personnel responsible for system operations; organizational

personnel responsible for account management; organizational personnel responsible for

device identification and authentication; organizational personnel responsible for

information security; system/network administrators; system developers].

Test
[SELECT FROM: Cryptographically-based bidirectional authentication mechanisms;

mechanisms supporting and/or implementing network connection policy; mechanisms

supporting and/or implementing replay-resistant authentication mechanisms; mechanisms

supporting and/or implementing an identification and authentication capability;

mechanisms supporting and/or implementing a device identification and authentication

capability].

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DISCUSSION [NIST SP 800-172]

Cryptographically-based and replay-resistant authentication between systems, components,

and devices addresses the risk of unauthorized access from spoofing (i.e., claiming a false

identity). The requirement applies to client-server authentication, server-server

authentication, and device authentication (including mobile devices). The cryptographic key

for authentication transactions is stored in suitably secure storage available to the

authenticator application (e.g., keychain storage, Trusted Platform Module [TPM], Trusted

Execution Environment [TEE], or secure element). Mandating authentication requirements

at every connection point may not be practical, and therefore, such requirements may only

be applied periodically or at the initial point of network connection.
[NIST SP 800-63-3] provides guidance on identity and authenticator management.

FURTHER DISCUSSION

The intent of this practice is to prevent unauthorized devices from connecting to one

another. One example satisfying this requirement is a web server configured with transport

layer security (TLS) using mutual authentication. At a lower level in the OSI stack, IPsec

provides application-transparent mutual authentication. Another example would be

implementing 802.1X technology to enforce port-based NAC. This is done by enabling 802.1X

on switches, wireless access points, and VPN connections for a given network. 802.1X defines

authentication controls for devices trying to access a given network. NAC controls

authorization and policy management. For this to be implemented, bidirectional

authentication must be turned on via 802.1X. Once successfully authenticated, the device

may communicate on the network. A final example, at the application-server level, involves

the use of Kerberos to control 1) which files a client can access and 2) the transmission of

sensitive data from the client to the server.

Example 1
You are the network engineer in charge of implementing this requirement. You have been

instructed to implement a technology that will provide mutual authentication for client

server connections. You implement Kerberos.
On the server side, client authentication is implemented by having the client establish a local

security context. This is initially accomplished by having the client present credentials which

are confirmed by the Active Directory Domain Controller (DC). After that, the client may

establish context via a session of a logged-in user. The service does not accept connections

from any unauthenticated client.
On the client side, server authentication requires registration, using administrator

privileges, of unique Service Provider Names (SPNs) for each service instance offered. The

names are registered in the Active Directory Domain Controller. When a client requests a

connection to a service, it composes an SPN for a service instance, using known data or data

provided by the user. For authentication, the client presents its SPN to the Key Distribution

Center (KDC), and the KDC searches for computers with the registered SPN before allowing

a connection via an encrypted message passed to the client for forwarding to the server.

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Example 2
You are the network engineer in charge of implementing this requirement. You have been

instructed to implement a technology that will provide authentication for each system prior

to connecting to the environment. You implement the company-approved scheme that uses

cryptographic keys installed on each system for it to authenticate to the environment, as well

as user-based cryptographic keys that are used in combination with a user’s password for

user-level authentication [a,c]. Your authentication implementation is finalized on each

system using an ACM solution. When a system connects to the network, the system uses the

system-level certificate to authenticate itself to the switch before the switch will allow it to

access the corporate network [a,c]. This is accomplished using 802.1x technology on the

switch and by authenticating with a RADIUS server that authenticates itself with the system

via cryptographic keys. If either system fails to authenticate to the other, the trust is broken,

and the system will not be able to connect to or communicate on the network. You also set

up a similar implementation in your wireless access point.

Example 3
You are the network engineer in charge of implementing the VPN solution used by the

organization. To meet this requirement, you use a VPN gateway server and public key

infrastructure (PKI) certificates via a certification authority (CA) and a chain of trust. When

a client starts a VPN connection, the server presents its certificate to the client and if the

certificate is trusted, the client then presents its certificate to the server [a]. If the server

validates the client certificate, an established communications channel is opened for the

client to finish the authentication process and gain access to the network via the VPN

gateway server [c]. If the client fails final authentication, fails the certification validation, or

the VPN gateway fails the certificate check by the client, the communication channel will be

denied.

Potential Assessment Considerations
•

Are cryptographic keys stored securely [a]? 

•

Has the requirement been implemented for any of the three use cases, where applicable:

client-server authentication, server-server authentication, and device authentication

[b,c]?

KEY REFERENCES

•

NIST SP 800-172 3.5.1e 

IA.L3-3.5.3e – Block Untrusted Assets

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IA.L3-3.5.3E – BLOCK UNTRUSTED ASSETS

Employ automated or manual/procedural mechanisms to prohibit system components from

connecting to organizational systems unless the components are known, authenticated, in a

properly configured state, or in a trust profile.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] System components that are known, authenticated, in a properly configured state, or in

a trust profile are identified;

[b] Automated or manual/procedural mechanisms to prohibit system components from

connecting to organizational systems are identified; and

[c] Automated or manual/procedural mechanisms are employed to prohibit system

components from connecting to organizational systems unless the components are

known, authenticated, in a properly configured state, or in a trust profile.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Configuration management policy; identification and authentication policy;

system and information integrity policy; procedures addressing system component

inventory; procedures addressing device identification and authentication; procedures

addressing device configuration management; procedures addressing system monitoring

tools and techniques; configuration management plan; security plan; system design

documentation; system configuration settings and associated documentation; system

inventory records; configuration management records; system monitoring records;

alerts/notifications of unauthorized components within the system; change control records;

system audit records; system monitoring tools and techniques documentation; documented

authorization/approval of network services; notifications or alerts of unauthorized network

services; system monitoring logs or records; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for managing the mechanisms

implementing unauthorized system component detection; organizational personnel

responsible for device identification and authentication; organizational personnel

responsible for information security; organizational personnel responsible for installing,

configuring, and/or maintaining the system; system/network administrators;

organizational personnel responsible for monitoring the system; system developers].

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Test
[SELECT FROM: Mechanisms implementing the detection of unauthorized system

components; mechanisms supporting and/or implementing a device identification and

authentication capability; mechanisms for providing alerts; mechanisms supporting and/or

implementing configuration management; cryptographic mechanisms supporting device

attestation; mechanisms supporting and/or implementing a system monitoring capability;

mechanisms for auditing network services].

DISCUSSION [NIST SP 800-172]

Identification and authentication of system components and component configurations can

be determined, for example, via a cryptographic hash of the component. This is also known

as device attestation and known operating state or trust profile. A trust profile based on

factors such as the user, authentication method, device type, and physical location is used to

make dynamic decisions on authorizations to data of varying types. 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 patches and

updates are done securely and do not disrupt the identification and authentication of other

devices.
[NIST IR 8011-1] provides guidance on using automation support to assess system

configurations.

FURTHER DISCUSSION

This requirement can be achieved in several ways, such as blocking based on posture

assessments, conditional access, or trust profiles. A posture assessment can be used to assess

a given system’s posture to validate that it meets the standards set by the organization before

allowing it to connect. Conditional access is the set of policies and configurations that control

devices receiving access to services and data sources. Conditional access helps an organization

build rules that manage security controls, perform blocking, and restrict components. A trust

profile is a set of factors that are checked to inform a device that a system can be trusted.

Example 1
In a Windows environment, you authorize devices to connect to systems by defining

configuration rules in one or more Group Policy Objects (GPO) that can be automatically

applied to all relevant devices in a domain [a]. This provides you with a mechanism to apply

rules for which devices are authorized to connect to any given system and prevent devices

that are not within the defined list from connecting [b,c]. For instance, universal serial bus

(USB) device rules for authorization can be defined by using a USB device’s serial number,

model number, and manufacturer information. This information can be used to build a trust

profile for a device and authorize it for use by a given system. You use security policies to

prevent unauthorized components from connecting to systems [c].

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Example 2
You have been assigned to build trust profiles for all devices allowed to connect to your

organization’s systems. You want to test the capability starting with printers. You talk to your

purchasing department, and they tell you that policy states every printer must be from a

specific manufacturer; they only purchase four different models. They also collect all serial

numbers from purchased printers. You gather this information and build trust profiles for

each device [a,b]. Because your organization shares printers, you push the trust profiles out

to organizational systems. Now, the systems are not allowed to connect to a network printer

unless they are within the trust profiles you have provided [b,c].

Example 3
Your organization has implemented a network access control solution (NAC) to help ensure

that only properly configured computers are allowed to connect to the corporate network

[a,b]. The solution first checks for the presence of a certificate to indicate that the device is

company-owned. It next reviews the patch state of the computer and forces the installation

of any patches that are required by the organization. Finally, it reviews the computer’s

configuration to ensure that the firewall is active and that the appropriate security policies

have been applied. Once the computer has passed all of these requirements, it is allowed

access to network resources and defined as a trusted asset for the length of its session [a].

Devices that do not meet all of the requirements are automatically blocked from connecting

to the network [c].

Potential Assessment Considerations
•

If the organization is using a manual method, is the method outlined in detail so any user 

will be able to follow it without making an error [b,c]?

•

If the organization is using an automated method, can the organization explain how the 

technology performs the task? Can they explain the steps needed to implement [a,b,c]?

•

Can the organization provide evidence showing they have trust profiles for specific 

devices [a,b,c]?

•

Can the organization explain how their system components authenticate to a system if 

they are not using trust profiles [b,c]?

KEY REFERENCES

•

NIST SP 800-172 3.5.3e 

IR.L3-3.6.1e – Security Operations Center

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Incident Response (IR)
IR.L3-3.6.1E – SECURITY OPERATIONS CENTER

Establish and maintain a security operations center capability that operates 24/7, with

allowance for remote/on-call staff.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] A security operations center capability is established;
[b] The security operations center capability operates 24/7, with allowance for remote/on-

call staff; and

[c] The security operations center capability is maintained.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Incident response policy; contingency planning policy; procedures

addressing incident handling; procedures addressing the security operations center

operations; mechanisms supporting dynamic response capabilities; incident response plan;

contingency plan; security plan; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for incident handling; organizational

personnel responsible for contingency planning; security operations center personnel;

organizational personnel responsible for information security].

Test
[SELECT FROM: Mechanisms that support and/or implement the security operations center

capability; mechanisms that support and/or implement the incident handling process].

DISCUSSION [NIST SP 800-172]

A security operations center (SOC) is the focal point for security operations and computer

network defense for an organization. The purpose of the SOC is to defend and monitor an

organization’s systems and networks (i.e., cyber infrastructure) on an ongoing basis. The SOC

is also responsible for detecting, analyzing, and responding to cybersecurity incidents in a

timely manner. The SOC is staffed with skilled technical and operational personnel (e.g.,

security analysts, incident response personnel, systems security engineers); in some

instances operates 24 hours per day, seven days per week; and implements technical,

management, and operational controls (e.g., monitoring, scanning, and forensics tools) to

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monitor, fuse, correlate, analyze, and respond to security-relevant event data from multiple

sources. Sources of event data include perimeter defenses, network devices (e.g., gateways,

routers, and switches), and endpoint agent data feeds. The SOC provides a holistic situational

awareness capability to help organizations determine the security posture of the system and

organization. An SOC capability can be obtained in many ways. Larger organizations may

implement a dedicated SOC while smaller organizations may employ third-party

organizations to provide such a capability.
[NIST SP 800-61] provides guidance on incident handling. [NIST SP 800-86] and [NIST SP

800-101] provide guidance on integrating forensic techniques into incident response. [NIST

SP 800-150] provides guidance on cyber threat information sharing. [NIST SP 800-184]

provides guidance on cybersecurity event recovery.

FURTHER DISCUSSION

Security operations centers are created to monitor and respond to suspicious activities

across an organization’s IT applications and infrastructure. A SOC may be implemented in a

variety of physical, virtual, and geographic constructs. The organization may also opt to not

hire their own staff but to engage a third-party external service provider to serve as their

SOC.
The SOC is typically comprised of multiple levels of cybersecurity analysts. Each tier of

cybersecurity analysts works on increasingly complex aspects of Incident Response. The SOC

may also have dedicated cybersecurity engineers to support configuration and management

of defensive cyber tools. The SOC may work with staff in IT operations who provide support

to the SOC.
SOC capabilities run 24/7, and while staff may not always be performing tasks for the SOC,

the capability alerts staff members and directs them to go to a facility or perform SOC actions

from a remote location. Staff members should be scheduled or on call to ensure they are

available when needed.

Example
You are the Chief Information Security Officer (CISO) of a medium-sized organization. To

meet the goal of 24/7 SOC operation, you have decided to adjust the current SOC, which

operates five days a week for 12 hours a day, by minimizing active staff members and hiring

trusted expert consultants to have on call at all times (i.e., seven days a week, 24 hours a day)

[a,b]. You design your SOC to be remotely accessible so your experts can access your

environment when needed. You also decide to set up a very strong automated capability that

is good at identifying questionable activities and alerting the appropriate staff. You create a

policy stating that after an alert goes out, two members of the SOC team must remotely

connect to the environment within 15 minutes to address the problem. All staff members

also have regular working hours during which they perform other SOC activities, such as

updating information to help the automated tool perform its functions [c].

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Potential Assessment Considerations
•

How does the organization enable 24/7 SOC capabilities? Does the organization have 

people in seats 24/7 or on-call members? If on-call members are used, what are the

trigger and alerting mechanisms that allow for 24/7 coverage [a,b]?

•

Does the organization have sufficient trained full-time equivalent staff to enable 24/7 

SOC services [a,b]?

KEY REFERENCES

•

NIST SP 800-172 3.6.1e 

IR.L3-3.6.2e – Cyber Incident Response Team

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IR.L3-3.6.2E – CYBER INCIDENT RESPONSE TEAM

Establish and maintain a cyber incident response team that can be deployed by the

organization within 24 hours.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] A cyber incident response team is established;
[b] The cyber incident response team can be deployed by the organization within 24 hours;

and

[c] The cyber incident response team is maintained.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Incident response policy; procedures addressing incident response;

incident response plan; security plan; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for incident response; organizational

personnel from the incident response team; organizational personnel responsible for

information security].

Test
[SELECT FROM: Mechanisms supporting and/or implementing incident response].

DISCUSSION [NIST SP 800-172]

A cyber incident response team (CIRT) is a team of experts that assesses, documents, and

responds to cyber incidents so that organizational systems can recover quickly and

implement the necessary controls to avoid future incidents. CIRT personnel include, for

example, forensic analysts, malicious code analysts, systems security engineers, and real-

time operations personnel. The incident handling capability includes performing rapid

forensic preservation of evidence and analysis of and response to intrusions. The team

members may or may not be full-time but need to be available to respond in the time period

required. The size and specialties of the team are based on known and anticipated threats.

The team is typically pre-equipped with the software and hardware (e.g., forensic tools)

necessary for rapid identification, quarantine, mitigation, and recovery and is familiar with

how to preserve evidence and maintain chain of custody for law enforcement or

counterintelligence uses. For some organizations, the CIRT can be implemented as a cross

organizational entity or as part of the Security Operations Center (SOC).

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[NIST SP 800-61] provides guidance on incident handling. [NIST SP 800-86] and [NIST SP

800-101] provide guidance on integrating forensic techniques into incident response. [NIST

SP 800-150] provides guidance on cyber threat information sharing. [NIST SP 800-184]

provides guidance on cybersecurity event recovery.

FURTHER DISCUSSION

The CIRT’s primary function is to handle information security incident management and

response for the environments the SOC oversees. The primary goals of the CIRT are triage

and initial response to an incident. They also communicate with all the proper people to

ensure understanding of an incident and the response actions, including collection of

forensic evidence, have been conveyed.
If and when an incident is detected by the organization’s SOC, the IR team is responsible for

handling the incident and communicating what has happened to the appropriate people

within the organization, as well to the authorities (as needed).
The deployment of a team does not necessarily mean they are “physically deployed.”

Deployment may simply mean connecting to a remote system in a manner that is equivalent

to being on the system’s keyboard. Remote access can provide just as much capability as local

access in many cases.
Some situations require physical access. For instance, if the company has a physically

isolated environment located at a remote location, a team must be physically present at the

remote facility to perform the duties required.

Example
You are the lead for an IR team within your organization. Your manager is the SOC lead, and

she reports to the chief information officer (CIO). As the SOC is alerted and/or identifies

incidents within the organization’s environments, you lead and deploy teams to resolve the

issues, including incidents involving cloud-based systems. You use a custom dashboard that

was created for your team members to view and manage incidents, perform response

actions, and record actions and notes for each case. You also have your team create an after

action report for all incidents to which they respond; this information is used to determine

if a given incident requires additional action and reporting [a].
One day, you receive a message from the SOC that your website has become corrupted.

Within minutes, you have a team on the system inspecting logs, analyzing applications,

preserving key information, and looking for evidence of tampering/attack [b]. Your team

runs through a procedure set for this specific incident type based on a handbook the

organization has created and maintains [c]. It is found that a cyberattack caused the

corruption, but the corruption caused a crash, which prevented the attack from continuing.

Your team takes note of all actions they perform, and at the end of the incident analysis, you

send a message to the website lead to inform them of the issue, case number, and notes

created by the team. The website lead has their team rebuild the system and validate that

the attack no longer works. At the end of the incident, the CISO and CIO are informed of the

issue.

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Potential Assessment Considerations
•

Does the organization have a response capability that has remote access to the 

organization’s systems and system components within 24 hours in place of physical

access [a,b]?

KEY REFERENCES

•

NIST SP 800-172 3.6.2e 

PS.L3-3.9.2e – Adverse Information

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Personnel Security (PS)
PS.L3-3.9.2E – ADVERSE INFORMATION

Ensure that organizational systems are protected if adverse information develops or is

obtained about individuals with access to CUI.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Individuals with access to CUI are identified;
[b] Adverse information about individuals with access to CUI is defined;
[c] Organizational systems to which individuals have access are identified; and
[d] Mechanisms are in place to protect organizational systems if adverse information

develops or is obtained about individuals with access to CUI.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Personnel security policy; system and services acquisition policy;

procedures addressing personnel screening; records of screened personnel; enterprise

architecture documentation; system design documentation; system architecture and

configuration documentation; security plan; list of individuals who have been identified as

posing an increased level of risk; list of appropriate access authorizations required for

system personnel; personnel screening criteria and associated documentation; other

relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for personnel security; organizational

personnel responsible for information security; organizational personnel responsible for

system and services acquisition; organizational personnel responsible for personnel

screening].

Test
[SELECT FROM: Organizational processes for personnel screening; mechanisms supporting

personnel screening].

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DISCUSSION [NIST SP 800-172]

If adverse information develops or is obtained about an individual with access to CUI which

calls into question whether the individual should have continued access to systems

containing CUI, actions are taken (e.g., preclude or limit further access by the individual,

audit actions taken by the individual) to protect the CUI while the adverse information is

resolved.

FURTHER DISCUSSION

According to Defense Counterintelligence and Security Agency, or DCSA (Industrial Security

Letter ISL 2011-04, revised July 15, 2020), adverse information consists of any information

that negatively reflects the integrity or character of an individual. This pertains to an

individual’s ability to safeguard sensitive information, such as CUI. Adverse information may

simply be a report showing someone has sent sensitive information outside the organization

or used unapproved software, against company policy. An organization may receive adverse

information about an individual through police reports, reported violations of company

policies (including social media posts that directly violate company policies), and revocation

or suspension of DoD clearance.
When adverse information is identified about a given individual, the organization should

take action to validate that information resources accessible by the individual have been

identified and appropriate protection mechanisms are in place to safeguard information and

system configurations. Based on organizational policy, an individual’s access to resources

may be more closely monitored or restricted until further review. Logs should be examined

to identify any attempt to perform unauthorized actions.

Example
You learn that one of your employees has been convicted on shoplifting charges. Based on

organizational policy, you report this information to human resources (HR), which verifies

the information with a criminal background check [a,b,c]. Per policy, you increase the

monitoring of the employee’s access to ensure that the employee does not exhibit patterns

of behavior consistent with an insider threat [d]. You maintain contact with HR as they

investigate the adverse information so that you can take stronger actions if required, such as

removing access to organizational systems.

Potential Assessment Considerations
•

Does the organization define the protection mechanisms for organizational systems if 

adverse information develops or is obtained about an individual with access to CUI [d]?

KEY REFERENCES

•

NIST SP 800-172 3.9.2e 

RA.L3-3.11.1e – Threat-Informed Risk Assessment

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Risk Assessment (RA)
RA.L3-3.11.1E – THREAT-INFORMED RISK ASSESSMENT

Employ threat intelligence, at a minimum from open or commercial sources, and any DoD-

provided sources, as part of a risk assessment to guide and inform the development of

organizational systems, security architectures, selection of security solutions, monitoring,

threat hunting, and response and recovery activities.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[ODP1] Sources of threat intelligence are defined;
[a] A risk assessment methodology is identified;
[b] Threat intelligence, at a minimum from open or commercial sources, and any

DoD-provided sources, are employed as part of a risk assessment to guide and inform the

development of organizational systems and security architectures;

[c] Threat intelligence, at a minimum from open or commercial sources, and any

DoD-provided sources, are employed as part of a risk assessment to guide and inform the

selection of security solutions;

[d] Threat intelligence, at a minimum from open or commercial sources, and any

DoD-provided sources, are employed as part of a risk assessment to guide and inform

system monitoring activities;

[e] Threat intelligence, at a minimum from open or commercial sources, and any

DoD-provided sources, are employed as part of a risk assessment to guide and inform

threat hunting activities; and

[f] Threat intelligence, at a minimum from open or commercial sources, and any

DoD-provided sources, are employed as part of a risk assessment to guide and inform

response and recovery activities.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Information security program plan; risk assessment policy; threat

awareness program documentation; procedures for the threat awareness program; security

planning policy and procedures; procedures addressing organizational assessments of risk;

threat hunting program documentation; procedures for the threat hunting program; risk

assessment results relevant to threat awareness; threat hunting results; list or other

documentation on the cross-organization, information-sharing capability; security plan; risk

assessment; risk assessment results; risk assessment reviews; risk assessment updates;

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contingency planning policy; contingency plan; incident response policy; incident response

plan; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security program

planning and plan implementation; organizational personnel responsible for the threat

awareness and threat hunting programs; organizational personnel responsible for risk

assessments; organizational personnel responsible for the cross-organization, information-

sharing capability; organizational personnel responsible for information security;

organizational personnel responsible for contingency planning; organizational personnel

responsible for incident response; personnel with whom threat awareness information is

shared by the organization].

Test
[SELECT FROM: Mechanisms supporting and/or implementing the threat awareness

program; mechanisms supporting and/or implementing the cross-organization,

information-sharing capability; mechanisms supporting and/or implementing the threat

hunting program; mechanisms for conducting, documenting, reviewing, disseminating, and

updating risk assessments; mechanisms supporting and/or implementing contingency

plans; mechanisms supporting and/or implementing incident response plans].

DISCUSSION [NIST SP 800-172]

The constant evolution and increased sophistication of adversaries, especially the APT,

makes it more likely that adversaries can successfully compromise or breach organizational

systems. Accordingly, threat intelligence can be integrated into each step of the risk

management process throughout the system development life cycle. This risk management

process includes defining system security requirements, developing system and security

architectures, selecting security solutions, monitoring (including threat hunting), and

remediation efforts.
[NIST SP 800-30] provides guidance on risk assessments. [NIST SP 800-39] provides

guidance on the risk management process. [NIST SP 800-160-1] provides guidance on

security architectures and systems security engineering. [NIST SP 800-150] provides

guidance on cyber threat information sharing.

FURTHER DISCUSSION

An organization consumes threat intelligence and improves their security posture based on

the intelligence relevant to that organization and/or a system(s). The organization can

obtain threat intelligence from open or commercial sources but must also use any

DoD-provided sources. Threat information can be received in high volumes from various

providers and must be processed and analyzed by the organization. It is the responsibility of

the organization to process the threat information in a manner that is useful and actionable

to their needs. Processing, analyzing, and extracting the intelligence from the threat feeds

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and applying it to all organizational security engineering needs is the primary benefit of this

requirement. Note that more than one source is required to meet assessment objectives.

Example
Your organization receives a commercial threat intelligence feed from FIRST and

government threat intelligence feeds from both USCERT and DoD/DC3 to help learn about

recent threats and any additional information the threat feeds provide [b,c,d,e,f]. Your

organization uses the threat intelligence for multiple purposes:
•

To perform up-to-date risk assessments for the organization [a];

•

To add rules to the automated system put in place to identify threats (indicators of 

compromise, or IOCs) on the organization’s network [e];

•

To guide the organization in making informed selections of security solutions [c];

•

To shape the way the organization performs system monitoring activities [d];

•

To manage the escalation process for identified incidents, handling specific events, and 

performing recovery actions [f];

•

To provide additional information to the hunt team to identify threat activities [e];

•

To inform the development and design decisions for organizational systems and the 

overall security architecture, as well as the network architecture [b,c];

•

To assist in decision-making regarding systems that are part of the primary network and 

systems that are placed in special enclaves for additional protections [b]; and

•

To determine additional security measures based on current threat activities taking place 

in similar industry networks [c,d,e,f].

Potential Assessment Considerations
•

Does the organization detail how threat feed information is to be ingested, analyzed, and 

used [a]?

•

Can the organization’s SOC or hunt teams discuss how they use the threat feed 

information after it is processed [e,f]?

KEY REFERENCES

•

NIST SP 800-172 3.11.1e 

RA.L3-3.11.2e – Threat Hunting

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RA.L3-3.11.2E – THREAT HUNTING

Conduct cyber threat hunting activities on an on-going aperiodic basis or when indications

warrant, to search for indicators of compromise in organizational systems and detect, track,

and disrupt threats that evade existing controls.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[ODP4] Organizational systems to search for indicators of compromise are defined;
[a] Indicators of compromise are identified;
[b] Cyber threat hunting activities are conducted on an on-going aperiodic basis or when

indications warrant, to search for indicators of compromise in organizational systems;

and

[c] Cyber threat hunting activities are conducted on an on-going aperiodic basis or when

indications warrant, to detect, track, and disrupt threats that evade existing controls.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: System and information integrity policy; policy and procedures addressing

system monitoring; threat hunting program documentation; procedures for the threat

hunting program; threat hunting results; system design documentation; security plan;

system monitoring tools and techniques documentation; security planning policy and

procedures; system configuration settings and associated documentation; system

monitoring logs or records; system audit records; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for threat hunting program;

system/network administrators; organizational personnel responsible for information

security; system developers; organizational personnel installing, configuring, and/or

maintaining the system; organizational personnel responsible for monitoring the system

and/or network].

Test
[SELECT FROM: Mechanisms supporting and/or implementing a threat hunting program;

mechanisms supporting and/or implementing a system monitoring capability; mechanisms

supporting and/or supporting and/or implementing incident response plans].

DISCUSSION [NIST SP 800-172]

Threat hunting is an active means of defense that contrasts with traditional protection

measures, such as firewalls, intrusion detection and prevention systems, quarantining

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malicious code in sandboxes, and Security Information and Event Management (SIEM)

technologies and systems. Cyber threat hunting involves proactively searching

organizational systems, networks, and infrastructure for advanced threats. The objective is

to track and disrupt cyber adversaries as early as possible in the attack sequence and to

measurably improve the speed and accuracy of organizational responses. Indicators of

compromise are forensic artifacts from intrusions that are identified on organizational

systems at the host or network level and can include unusual network traffic, unusual file

changes, and the presence of malicious code.
Threat hunting teams use existing threat intelligence and may create new threat information,

which may be shared with peer organizations, Information Sharing and Analysis

Organizations (ISAO), Information Sharing and Analysis Centers (ISAC), and relevant

government departments and agencies. Threat indicators, signatures, tactics, techniques,

procedures, and other indicators of compromise may be available via government and non-

government cooperatives, including Forum of Incident Response and Security Teams, United

States Computer Emergency Response Team, Defense Industrial Base Cybersecurity

Information Sharing Program, and CERT Coordination Center.
[NIST SP 800-30] provides guidance on threat and risk assessments, risk analyses, and risk

modeling. [NIST SP 800-160-2] provides guidance on systems security engineering and

cyber resiliency. [NIST SP 800-150] provides guidance on cyber threat information sharing.

FURTHER DISCUSSION

For this requirement, threat hunting is conducted on an on-going aperiodic basis. On-going

aperiodic refers to activities that happen over and over but without an identifiable repeating

pattern over time. For threat hunting, on-going activities take place in an automated manner

(e.g., collecting logs, automated analysis, and alerts). Aperiodicity includes humans

performing the hunt activities, which take place on an as-needed or as-planned basis.
APTs can penetrate an environment by means that defeat or avoid conventional monitoring

methods and alert triggers—for example, by using zero-day attacks. Zero-day attacks

become known only after the attack has happened and alerts are sent via threat intelligence

feeds based on expert analysis. Because of the nature of zero-day attacks, automated alerts

do not generally trigger when the event occurs but the activity is captured in system logs and

forwarded for analysis and retention by the SIEM. Threat intelligence information is typically

used by hunt teams to search SIEM systems, system event and security logs, and other

components to identify activity that has already taken place on an environment. The hunt

team will identify systems related to the event(s) and pass the case to Incident Response

team for action on the event(s). The hunt team will also use indicators to identify smaller

components of an attack and search for that activity, which may help uncover a broader

attack on the environment.
Threat hunting can also look for anomalous behavior or activity based on an organization’s

normal pattern of activity. Understanding the roles and information flows within an

organization can help identify activity that might be indicative of adversary behavior before

the adversary completes their attack or mission.

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Example
You are the lead for your organization’s cyber threat hunting team. You have local and

remote staff on the team to process threat intelligence. Your team is tied closely with the SOC

and IR teams. Through a DoD (DC3) intelligence feed, you receive knowledge of a recent

APT’s attacks on defense contractors. The intelligence feed provided the indicators of

compromise for a zero-day attack that most likely started within the past month. After

receiving the IOCs, you use a template for your organization to place the information in a

standard format your team understands. You then email the information to your team

members and place the information in your hunt team’s dashboard, which tracks all IOCs [a].
Your team starts by using the information to hunt for IOCs on the environment [b]. One of

your team members quickly responds, providing information from the SIEM that an HR

system’s logs show evidence that IOCs related to this threat occurred three days ago. The

team contacts the owner of the system as they take the system offline into a quarantined

environment. Your team pulls all logs from the system and clones the storage on the system.

Members go through the logs to look for other systems that may be part of the APT’s attack

[c]. While the team is cloning the storage system for evidence, you alert the IR team about

the issue. After full forensics of the system, your team has verified your company has been

hit by the APT, but nothing was taken and no additional attacks happened. You also alert DoD

(DC3) about the finding and discuss the matter with them. There is an after action report and

a briefing given to management to make them aware of the issue.

Potential Assessment Considerations
•

Does the organization have a methodology for performing cyber threat hunting actions 

[b,c]?

•

Has the organization defined all organizational systems within scope of cyber threat 

hunting, including valid and approved documentation for any organization systems that

are not within scope [b,c]?

•

Has the organization identified a specific set of individuals to perform cyber threat 

hunting [b,c]?

•

Does the threat hunting team have qualified staff members using the threat feed 

information [b,c]?

•

Does the threat hunting team use combinations of events to determine suspicious 

behaviors [b,c]?

•

Does the organization have a documented list of trusted threat feeds that are used by 

their cyber hunt teams as the latest indicators of compromise during their efforts [a]?

•

Does the organization have a clear methodology for processing threat feed information 

and turning it into actionable information they can use for their threat hunting approach

[a]?

KEY REFERENCES

•

NIST SP 800-172 3.11.2e 

RA.L3-3.11.3e – Advanced Risk Identification

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RA.L3-3.11.3E – ADVANCED RISK IDENTIFICATION

Employ advanced automation and analytics capabilities in support of analysts to predict and

identify risks to organizations, systems, and system components.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Advanced automation and analytics capabilities to predict and identify risks to

organizations, systems, and system components are identified;

[b] Analysts to predict and identify risks to organizations, systems, and system components

are identified; and

[c] Advanced automation and analytics capabilities are employed in support of analysts to

predict and identify risks to organizations, systems, and system components.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: System and information integrity policy; risk assessment policy; security

planning policy and procedures; procedures addressing organizational assessments of risk;

procedures addressing system monitoring; enterprise architecture documentation; system

design documentation; system architecture and configuration documentation; system

monitoring tools and techniques documentation; system configuration settings and

associated documentation; system monitoring logs or records; system audit records;

security plan; risk assessment artifacts; risk assessment results; risk assessment reviews;

risk assessment updates; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security;

organizational personnel responsible for risk assessments; risk analysts; system developers;

organizational personnel installing, configuring, and/or maintaining the system;

organizational personnel responsible for monitoring; system/network administrators].

Test
[SELECT FROM: Automated mechanisms supporting and/or implementing risk analytics

capabilities; automated mechanisms supporting and/or implementing system monitoring

capability; automated mechanisms supporting and/or implementing the discovery,

collection, distribution, and use of indicators of compromise; automated mechanisms for

conducting, documenting, reviewing, disseminating, and updating risk assessments].

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DISCUSSION [NIST SP 800-172]

A properly resourced Security Operations Center (SOC) or Computer Incident Response

Team (CIRT) may be overwhelmed by the volume of information generated by the

proliferation of security tools and appliances unless it employs advanced automation and

analytics to analyze the data. Advanced automation and predictive analytics capabilities are

typically supported by artificial intelligence concepts and machine learning. Examples

include Automated Workflow Operations, Automated Threat Discovery and Response

(which includes broad-based collection, context-based analysis, and adaptive response

capabilities), and machine-assisted decision tools.
[NIST SP 800-30] provides guidance on risk assessments and risk analyses.

FURTHER DISCUSSION

Advanced automation includes tools to correlate and reduce the cyber data overload created

by defensive tools, making the data understandable to the analyst. Automation also allows

the defensive mechanisms to respond rapidly when adversary events are identified.

Examples of such capabilities are SIEM; Security Orchestration, Automation, and Response

(SOAR); and Extended Detection and Response (XDR) tools. An example of an automated

rapid response action is a security alert being pushed to the SIEM while the organization’s

SOAR solution communicates to the network firewall to block communications to the remote

system identified in the security alert.
SIEM is primarily a log collection tool intended to support data storage and analysis. It

collects and sends alerts to security personnel for further investigation. SOAR is a software

stack that enables an organization to collect data about security threats and respond to

security events without human assistance in order to improve security operations.

Orchestration connects and integrates disparate internal and external tools. Automation, fed

by the data and alerts collected from security orchestration, ingests and analyzes data and

creates repeated, automated responses. SOAR incorporates these capabilities based on the

SIEM data and enables disparate security tools to coordinate with one another. SOAR can use

artificial intelligence to predict and respond to similar future threats, if such tools are

employed.
XDR streamlines security data ingestion, analysis, prevention, and remediation workflows

across an organization’s entire security stack, providing a single console to view and act on

threat data. However, the presence of these tools by themselves does not necessarily provide

an advanced capability. It is essential that the security team employ critical thinking in

support of the intrusion detection and threat hunting processes.

Example
You are responsible for information security in your organization. The organization holds

and processes CUI in an enterprise. To protect that data, you want to minimize phishing

attacks through the use of Security Orchestration and Automated Response (SOAR). Rather

than relying on analysts to manually inspect each inbound item, emails containing links

and/or attachments are processed by your automation playbook. Implementation of these

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processes involves sending all email links and attachments to detonation chambers or

sandboxes prior to delivery to the recipient. When the email is received, SOAR extracts all

URL links and attachments from the content and sends them for analysis and testing [a]. The

domains in the URLs and the full URLs are processed against bad domain and URL lists. Next,

a browser in a sandbox downloads the URLs for malware testing. Lastly, any attachments are

sent to detonation chambers to identify if they attempt malicious activities. The hash of the

attachments is sent to services to identify if it is known malware [b]. If any one of the items

triggers a malware warning from the sandbox, detonation chamber, domain/URL validation

service, attachment hash check services, or AV software, an alert about the original email is

sent to team members with the recommendation to quarantine it. The team is given the

opportunity to select a “take action” button, which would have the SOAR solution take

actions to block that email and similar emails from being received by the organization [c].

Potential Assessment Considerations
•

Has the organization implemented a security information and event management system 

[a,c]?

•

Has the organization implemented security orchestration, automation, and response 

tools [a,b,c]?

•

Does the organization use automated processing integrated with the SIEM system to 

perform analytics [c]?

•

Can the organization demonstrate use of relevant threat data to inform detection 

methods that in turn provide automated alerts/recommendations [c]?

•

Has the organization implemented an extended detection capability [c]? 

•

Does the organization have the ability to merge traditional cyber data, such as network 

packet captures (e.g., PCAP), or process logs with enrichment data, such as reputation or

categorization data [c]?

•

Can the organization provide examples of both basic and emerging analytics used to 

analyze alert anomalies, e.g., both simple queries and unsupervised machine learning

algorithms that both improve their effectiveness and automatically filter, reduce, or

enrich alerting capabilities [c]?

KEY REFERENCES

•

NIST SP 800-172 3.11.3e 

RA.L3-3.11.4e – Security Solution Rationale

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RA.L3-3.11.4E – SECURITY SOLUTION RATIONALE

Document or reference in the system security plan the security solution selected, the

rationale for the security solution, and the risk determination.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] The system security plan documents or references the security solution selected;
[b] The system security plan documents or references the rationale for the security solution;

and

[c] The system security plan documents or references the risk determination.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: system security plan; records of security plan reviews and updates; system

design documentation; security planning policy; procedures addressing security plan

development; procedures addressing security plan reviews and updates; enterprise

architecture documentation; enterprise security architecture documentation; system

interconnection security agreements and other information exchange agreements; other

relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security;

organizational personnel responsible for developing, implementing, or approving system

interconnection and information exchange agreements; personnel managing the systems to

which the Interconnection Security Agreement/Information Exchange Agreement applies;

system developers; organizational personnel responsible for security planning and plan

implementation; organizational personnel responsible for boundary protection; system

developers; system/network administrators].

Test
[SELECT FROM: Organizational processes for security plan development, review, update,

and approval].

DISCUSSION [NIST SP 800-172]

System security plans relate security requirements to a set of security controls and solutions.

The plans describe how the controls and solutions meet the security requirements. For the

enhanced security requirements selected when the APT is a concern, the security plan

provides traceability between threat and risk assessments and the risk-based selection of a

security solution, including discussion of relevant analyses of alternatives and rationale for

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key security-relevant architectural and design decisions. This level of detail is important as

the threat changes, requiring reassessment of the risk and the basis for previous security

decisions.
When incorporating external service providers into the system security plan, organizations

state the type of service provided (e.g., software as a service, platform as a service), the point

and type of connections (including ports and protocols), the nature and type of the

information flows to and from the service provider, and the security controls implemented

by the service provider. For safety critical systems, organizations document situations for

which safety is the primary reason for not implementing a security solution (i.e., the solution

is appropriate to address the threat but causes a safety concern).
[NIST SP 800-18] provides guidance on the development of system security plans.

FURTHER DISCUSSION

The System Security Plan (SSP) is a fundamental component of an organization’s security

posture. When solutions for implementing a requirement have differing levels of capabilities

associated with their implementation, it is essential that the plan specifically document the

rationale for the selected solution and what was acquired for the implementation. This

information allows the organization to monitor the environment for threat changes and

identify which solutions may no longer be applicable. While not required, it may also be

useful to document alternative solutions reviewed and differing levels of risk associated with

each alternative, as that information may facilitate future analyses when the threat changes.

In addition to the implementations required for Level 2 certification, which may not be risk

based, at Level 3, the SSP must carefully document the link between the assessed threat and

the risk-based selection of a security solution for the enhanced security requirements (i.e.,

all CMMC L3 requirements derived from NIST SP 800-172).

Example
You are responsible for information security in your organization. Following CMMC

requirement RA.L3-3.11.1e – Threat Informed Risk Assessment, your team uses threat

intelligence to complete a risk assessment and make a risk determination for all elements of

your enterprise. Based on that view of risk, your team decides that requirement

RA.L3-3.11.2e – Threat Hunting is a requirement that is very important in protecting your

organization’s use of CUI, and you have determined the solution selected could potentially

add risk. You want to detect an adversary as soon as possible when they breach the network

before any CUI can be exfiltrated. However, there are multiple threat hunting solutions, and

each solution has a different set of features that will provide different success rates in

identifying IOCs.
As a result, some solutions increase the risk to the organization by being less capable in

detecting and tracking an adversary in your networks. To reduce risk, you evaluate five

threat hunting solutions and in each case determine the number of IOCs for which there is a

monitoring mechanism. You pick the solution that is cost effective, easy to operate, and

optimizes IOC detection for your enterprise; purchase, install, and train SOC personnel on its

use; and document the risk-based analysis of alternatives in the SSP. In creating that

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documentation in the SSP, you follow the guidance found in NIST SP 800-18, Guide for

Developing Security Plans for Federal Information Systems [a,b,c].

Potential Assessment Considerations
•

Has the organization completed a risk assessment and made a risk determinations for 

enterprise components that need to be protected [c]?

•

Can the organization identify what is being protected and explain why specific protection 

solutions were selected [a,b]?

•

Have all the decisions been documented in the SSP [a,b,c]? 

KEY REFERENCES

•

NIST SP 800-172 3.11.4e 

RA.L3-3.11.5e – Security Solution Effectiveness

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RA.L3-3.11.5E – SECURITY SOLUTION EFFECTIVENESS

Assess the effectiveness of security solutions at least annually or upon receipt of relevant

cyber threat information, or in response to a relevant cyber incident, to address anticipated

risk to organizational systems and the organization based on current and accumulated threat

intelligence.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Security solutions are identified;
[b] Current and accumulated threat intelligence is identified;
[c] Anticipated risk to organizational systems and the organization based on current and

accumulated threat intelligence is identified; and

[d] The effectiveness of security solutions is assessed at least annually or upon receipt of

relevant cyber threat information, or in response to a relevant cyber incident, to address

anticipated risk to organizational systems and the organization based on current and

accumulated threat intelligence.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Risk assessment policy; security planning policy and procedures; security

assessment policy and procedures; security assessment plans; security assessment results;

procedures addressing organizational assessments of risk; security plan; risk assessment;

risk assessment results; risk assessment reviews; risk assessment updates; threat

intelligence information; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for security assessments;

organizational personnel responsible for risk assessments; organizational personnel

responsible for threat analysis; organizational personnel responsible for information

security].

Test
[SELECT FROM: Mechanisms supporting, conducting, documenting, reviewing,

disseminating, and updating risk assessments; mechanisms supporting and/or

implementing security assessments].

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DISCUSSION [NIST SP 800-172]

Threat awareness and risk assessment of the organization are dynamic, continuous, and

inform system operations, security requirements for the system, and the security solutions

employed to meet those requirements. Threat intelligence (i.e., threat information that has

been aggregated, transformed, analyzed, interpreted, or enriched to help provide the

necessary context for decision making) is infused into the risk assessment processes and

information security operations of the organization to identify any changes required to

address the dynamic threat environment.
[NIST SP 800-30] provides guidance on risk assessments, threat assessments, and risk

analyses.

FURTHER DISCUSSION

This requirement requires the organization to analyze threat intelligence and consider the

effectiveness of currently deployed cybersecurity solutions against existing, new, and

emerging threats. The goal is to understand the risk to the systems and the organization

based on threat intelligence and to make adjustments to security solutions to reduce the risk

to an acceptable level. Analysis of solutions should include analysis of operational system

settings of the deployed systems and not be solely a conceptual capability analysis. This

analysis includes verifying configuration settings are configured as desired by the

organization and have not been changed over time.
Threat information can be thought of as raw data that may be limited in terms of evaluating

the effectiveness of controls across the enterprise. For example, knowledge of a threat that

has not been correlated with other threats may result in evaluation of an implementation

that only provides partial protection for one set of systems when, in fact, the emerging threat

is applicable to the entire enterprise. Large organizations may also have the resources to

aggregate, transform, analyze, correlate, interpret, and enrich information to support

decision-making about adequacy of existing security mechanisms and methods.

Example
You are responsible for information security in your organization, which holds and

processes CUI. The organization subscribes to multiple threat intelligence sources [b]. In

order to assess the effectiveness of current security solutions, the security team analyzes any

new incidents reported in the threat feed. They identify weaknesses that were leveraged by

malicious actors and subsequently look for similar weaknesses in their own security

architecture[a,c]. This analysis is passed to the architecture team for engineering change

recommendations, including system patching guidance, new sensors, and associated alerts

that should be generated, and to identify ways to mitigate, transfer, or accept the risk

necessary to respond to events if they occur within their own organization [d].

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Potential Assessment Considerations
•

Does the organization make adjustments during an incident or operational 

improvements after an incident has occurred [d]?

•

Has the organization implemented an analytical process to assess the effectiveness of 

security solutions against new or compiled threat intelligence [b,c,d]?

•

Has the organization implemented a process to identify if an operational security 

solution fails to contribute to the protections needed against specific adversarial actions

based on new threat intelligence [a,b,c,d]?

KEY REFERENCES

•

NIST SP 800-172 3.11.5e 

RA.L3-3.11.6e – Supply Chain Risk Response

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RA.L3-3.11.6E – SUPPLY CHAIN RISK RESPONSE

Assess, respond to, and monitor supply chain risks associated with organizational systems

and system components.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Supply chain risks associated with organizational systems and system components are

identified;

[b] Supply chain risks associated with organizational systems and system components are

assessed;

[c] Supply chain risks associated with organizational systems and system components are

responded to; and

[d] Supply chain risks associated with organizational systems and system components are

monitored.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Risk assessment policy; procedures addressing organizational assessments

of risk; security planning policy and procedures; supply chain risk management plan;

security plan; risk assessment; risk assessment results; risk assessment reviews; risk

assessment updates; threat intelligence information; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security;

organizational personnel responsible for risk assessments; organizational personnel

responsible for supply chain risk management].

Test
[SELECT FROM: Mechanisms supporting, conducting, documenting, reviewing,

disseminating, and updating risk assessments].

DISCUSSION [NIST SP 800-172]

Supply chain events include disruption, use of defective components, insertion of

counterfeits, theft, malicious development practices, improper delivery practices, and

insertion of malicious code. These events can have a significant impact on a system and its

information and, therefore, can also adversely impact organizational operations (i.e.,

mission, functions, image, or reputation), organizational assets, individuals, other

organizations, and the Nation. The supply chain-related events may be unintentional or

malicious and can occur at any point during the system life cycle. An analysis of supply chain

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risk can help an organization identify systems or components for which additional supply

chain risk mitigations are required.
[NIST SP 800-30] provides guidance on risk assessments, threat assessments, and risk

analyses. [NIST SP 800-161 Rev. 1] provides guidance on supply chain risk management.

FURTHER DISCUSSION

Organizations will have varying policies, definitions, and actions for this requirement. It is

important for a single organization to be consistent and to build a process that makes sense

for their organization, strategy, unique supply chain, and the technologies available to them.

Example
You are responsible for information security in your organization, which holds and

processes CUI. One of your responsibilities is to manage risk associated with your supply

chain that may provide an entry point for the adversary. First, you acquire threat information

by subscribing to reports that identify supply chain attacks in enough detail that you are able

to identify the risk points in your organization’s supply chain [a]. You create an organization-

defined prioritized list of risks the organization may encounter and determine the responses

to be implemented to mitigate those risks [b,c].
In addition to incident information, the intelligence provider also makes recommendations

for monitoring and auditing your supply chain. You assess, integrate, correlate, and analyze

this information so you can use it to acquire monitoring tools to help identify supply chain

events that could be an indicator of an incident. This monitoring tool provides visibility of

the entire attack surface, including your vendors’ security posture [d]. Second, you analyze

the incident information in the intelligence report to help identify defensive tools that will

help respond to each of those known supply chain attack techniques as soon as possible after

such an incident is detected, thus mitigating risk associated with known techniques.

Potential Assessment Considerations
•

Has the organization prioritized risks to the supply chain [a,b]? 

•

Does the organization have viable service-level agreements that describe and enable 

responses to supply chain incidents [c,d]?

KEY REFERENCES

•

NIST SP 800-172 3.11.6e 

RA.L3-3.11.7e – Supply Chain Risk Plan

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RA.L3-3.11.7E – SUPPLY CHAIN RISK PLAN

Develop a plan for managing supply chain risks associated with organizational systems and

system components; update the plan at least annually, and upon receipt of relevant cyber

threat information, or in response to a relevant cyber incident.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Supply chain risks associated with organizational systems and system components are

identified;

[b] Organizational systems and system components to include in a supply chain risk

management plan are identified;

[c] A plan for managing supply chain risks associated with organizational systems and

system components is developed; and

[d] The plan for managing supply chain risks is updated at least annually, and upon receipt

of relevant cyber threat information, or in response to a relevant cyber incident.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Risk assessment policy; supply chain risk management plan; security

planning policy and procedures; procedures addressing organizational assessments of risk;

security plan; risk assessment; risk assessment results; risk assessment reviews; risk

assessment updates; threat intelligence information; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security;

organizational personnel responsible for risk assessments; organizational personnel

responsible for supply chain risk management].

Test
[SELECT FROM: Automated mechanisms supporting, conducting, documenting, reviewing,

disseminating, and updating risk assessments].

DISCUSSION [NIST SP 800-172]

The growing dependence on products, systems, and services from external providers, along

with the nature of the relationships with those providers, present an increasing level of risk

to an organization. Threat actions that may increase risk include the insertion or use of

counterfeits, unauthorized production, tampering, theft, insertion of malicious software and

hardware, and poor manufacturing and development practices in the supply chain. Supply

chain risks can be endemic or systemic within a system element or component, a system, an

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organization, a sector, or the Nation. Managing supply chain risk is a multifaceted

undertaking that requires a coordinated effort across an organization to build trust

relationships and communicate with both internal and external stakeholders. Supply chain

risk management (SCRM) activities involve identifying and assessing risks, determining

appropriate mitigating actions, developing SCRM plans to document selected mitigating

actions, and monitoring performance against plans. SCRM plans address requirements for

developing trustworthy, secure, and resilient systems and system components, including the

application of the security design principles implemented as part of life cycle-based systems

security engineering processes.
[NIST SP 800-161 Rev. 1] provides guidance on supply chain risk management.

FURTHER DISCUSSION

An organization is required to have a supply chain risk management plan that assesses and

responds to the identified risks from those organizations that provide IT products or

services, including any cloud or other third-party services with a role in the operation of the

system. The organization should be cognizant of services outside the scope of the system but

required for the operation of the system as part of their plan. Since the cyber environment

changes rapidly and continuously, it is equally important for the organization to update the

plan in response to supply chain cyber incidents or emerging information.

Example
You are responsible for information security in your organization, and you have created a

supply chain risk management plan [a,b,c]. One of the organization’s suppliers determines

that it has been the victim of a cyberattack. Your security team meets with the supplier to

determine the nature of the attack and to understand the adversary, the attack, the potential

for corruption of delivered goods or services, and current as well as future risks. The

understanding of the supply chain will help protect the local environment. Subsequently, you

update the risk management plan to include a description of the necessary configuration

changes or upgrades to monitoring tools to improve the ability to identify the new risks, and

when improved tools are available, you document the acquisition of defensive tools and

associated functionality to help mitigate any of the identified techniques [d].

Potential Assessment Considerations
•

Does the organization’s current supply chain risk management plan apply across the 

enterprise, or does it only apply to a limited portion of the supply chain [b]?

KEY REFERENCES

•

NIST SP 800-172 3.11.7e 

CA.L3-3.12.1e – Penetration Testing

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Security Assessment (CA)
CA.L3-3.12.1E – PENETRATION TESTING

Conduct penetration testing at least annually or when significant security changes are made

to the system, leveraging automated scanning tools and ad hoc tests using subject matter

experts.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Automated scanning tools are identified;
[b] Ad hoc tests using subject matter experts are identified; and
[c] Penetration testing is conducted at least annually or when significant security changes

are made to the system, leveraging automated scanning tools and ad hoc tests using

subject matter experts.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Security assessment policy; procedures addressing penetration testing;

security plan; security assessment plan; penetration test report; security assessment report;

security assessment evidence; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for security assessments; penetration

testing team; system/network administrators; organizational personnel responsible for

information security].

Test
[SELECT FROM: Automated mechanisms supporting security assessments; automated

mechanisms supporting penetration testing].

DISCUSSION [NIST SP 800-172]

Penetration testing is a specialized type of assessment conducted on systems or individual

system components to identify vulnerabilities that could be exploited by adversaries.

Penetration testing goes beyond automated vulnerability scanning. It is conducted by

penetration testing agents and teams with particular skills and experience that include

technical expertise in network, operating system, and application-level security. Penetration

testing can be used to validate vulnerabilities or determine a system’s penetration resistance

to adversaries within specified constraints. Such constraints include time, resources, and

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skills. Organizations may also supplement penetration testing with red team exercises. Red

teams attempt to duplicate the actions of adversaries in carrying out attacks against

organizations and provide an in-depth analysis of security-related weaknesses or

deficiencies.
Organizations can use the results of vulnerability analyses to support penetration testing

activities. Penetration testing can be conducted internally or externally on the hardware,

software, or firmware components of a system and can exercise both physical and technical

controls. A standard method for penetration testing includes pretest analysis based on full

knowledge of the system, pretest identification of potential vulnerabilities based on the

pretest analysis, and testing designed to determine the exploitability of vulnerabilities. All

parties agree to the specified rules of engagement before the commencement of penetration

testing. Organizations correlate the rules of engagement for penetration tests and red

teaming exercises (if used) with the tools, techniques, and procedures that they anticipate

adversaries may employ. The penetration testing or red team exercises may be organization-

based or external to the organization. In either case, it is important that the team possesses

the necessary skills and resources to do the job and is objective in its assessment.
[NIST SP 800-53A] provides guidance on conducting security assessments.

FURTHER DISCUSSION

It is important that the organization has a repeatable penetration testing capability,

regardless of who performs the penetration testing. This requirement entails performing

tests against components of the organization’s architecture to identify cyber weaknesses and

vulnerabilities. It does not mean everything in the architecture requires penetration testing.

This requirement provides findings and mitigation strategies that benefit the organization

and help create a stronger environment against adversary efforts. It may be beneficial for

the organization to define the scope of penetration testing. The organization’s approach may

involve hiring an expert penetration testing team to perform testing on behalf of the

organization. When an organization has penetration testing performed, either by an internal

team or external firm, they should establish rules of engagement and impose limits on what

can be performed by the penetration test team(s).
Ensuring the objectivity of the test team is important as well. Potential conflicts of interest,

such as having internal testers report directly or indirectly to network defenders or an

external test team contracted by network defense leadership, must be carefully managed by

organizational leadership.
Reports on the findings should be used by the organization to determine where to focus

funding, staffing, training, or technical improvements for future mitigation strategies.

CA.L3-3.12.1e – Penetration Testing

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Example
You are responsible for information security in your organization. Leveraging a contract

managed by the CIO, you hire an external expert penetration team annually to test the

security of the organization’s enclave that stores and processes CUI [a,c]. You hire the same

firm annually or on an ad hoc basis when significant changes are made to the architecture or

components that affect security [b,c].

Potential Assessment Considerations
•

Does the organization have internal team members who possess the proper level of 

expertise to perform a valued penetration testing effort [b]?

•

If the penetration testing is performed by an internal team, are the individuals 

performing the testing objectively [b]?

•

Is a penetration testing final report provided to the internal team responsible for 

organizational defense?

•

If previous penetration tests have been conducted, can the organization provide samples 

of penetration test plans, findings reports, and mitigation guidance based on the findings

[a,b,c]?

KEY REFERENCES

•

NIST SP 800-172 3.12.1e 

SC.L3-3.13.4e – isolation

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System and Communications Protection (SC)
SC.L3-3.13.4E – ISOLATION

Employ physical isolation techniques or logical isolation techniques or both in organizational

systems and system components.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[ODP1] One or more of the following is/are selected: physical isolation techniques;

logical isolation techniques;
[ODP2] Physical isolation techniques are defined (if selected);
[ODP3] Logical isolation techniques are defined (if selected);
[a] Physical isolation techniques or logical isolation techniques or both are employed in

organizational systems and system components.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: System and communications protection policy; procedures addressing

boundary protection; system design documentation; procedures addressing the use of thin

nodes; list of key internal boundaries of the system; security plan; boundary protection

hardware and software; system configuration settings and associated documentation;

enterprise architecture documentation; system architecture; security architecture

documentation; system audit records; system component inventory; list of security tools and

support components to be isolated from other system components; other relevant

documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security;

system/network administrators; system developers; organizational personnel responsible

for boundary protection].

Test
[SELECT FROM: Mechanisms implementing the boundary protection capability; mechanisms

implementing physical isolation techniques; mechanisms supporting and/or implementing

the isolation of information security tools, mechanisms, and support components;

mechanisms supporting and/or implementing the capability to separate system components

supporting organizational missions and business functions; mechanisms implementing

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logical isolation techniques; mechanisms supporting or implementing separate network

addresses/different subnets; mechanisms supporting and/or implementing thin nodes].

DISCUSSION [NIST SP 800-172]

A mix of physical and logical isolation techniques (described below) implemented as part of

the system architecture can limit the unauthorized flow of CUI, reduce the system attack

surface, constrain the number of system components that must be secure, and impede the

movement of an adversary. When implemented with a set of managed interfaces, physical

and logical isolation techniques for organizational systems and components can isolate CUI

into separate security domains where additional protections can be implemented. Any

communications across the managed interfaces (i.e., across security domains), including for

management or administrative purposes, constitutes remote access even if the

communications remain within the organization. Separating system components with

boundary protection mechanisms allows for the increased protection of individual

components and more effective control of information flows between those components.

This enhanced protection limits the potential harm from and susceptibility to hostile cyber-

attacks and errors. The degree of isolation can vary depending on the boundary protection

mechanisms selected. Boundary protection mechanisms include routers, gateways, and

firewalls separating system components into physically separate networks or subnetworks;

virtualization and micro-virtualization techniques; encrypting information flows among

system components using distinct encryption keys; cross-domain devices separating

subnetworks; and complete physical separation (i.e., air gaps).
System architectures include logical isolation, partial physical and logical isolation, or

complete physical isolation between subsystems and at system boundaries between

resources that store, process, transmit, or protect CUI and other resources. Examples

include:
•

Logical isolation: Data tagging, digital rights management (DRM), and data loss 

prevention (DLP) that tags, monitors, and restricts the flow of CUI; virtual machines or

containers that separate CUI and other information on hosts; and virtual local area

networks (VLAN) that keep CUI and other information separate on networks.

•

Partial physical and logical isolation: Physically or cryptographically isolated networks, 

dedicated hardware in data centers, and secure clients that (a) may not directly access

resources outside of the domain (i.e., all applications with cross-enclave connectivity

execute as remote virtual applications hosted in a demilitarized zone [DMZ] or internal

and protected enclave), (b) access via remote virtualized applications or virtual desktop

with no file transfer capability other than with dual authorization, or (c) employ

dedicated client hardware (e.g., a zero or thin client) or hardware approved for multi-

level secure (MLS) usage.

•

Complete physical isolation: Dedicated (not shared) client and server hardware;

physically isolated, stand-alone enclaves for clients and servers; and (a) logically

separate network traffic (e.g., using a VLAN) with end-to-end encryption using Public Key

Infrastructure (PKI)-based cryptography or (b) physical isolation from other networks.

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Isolation techniques are selected based on a risk management perspective that balances the

threat, the information being protected, and the cost of the options for protection.

Architectural and design decisions are guided and informed by the security requirements

and selected solutions. Organizations consider the trustworthiness of the isolation

techniques employed (e.g., the logical isolation relies on information technology that could

be considered a high value target because of the function being performed), introducing its

own set of vulnerabilities.
[NIST SP 800-160-1] provides guidance on developing trustworthy, secure, and cyber

resilient systems using systems security engineering practices and security design concepts.

FURTHER DISCUSSION

For this requirement, organizations must identify the systems or enclaves that need to be

isolated, then design and implement the isolation. The resulting isolation solutions are

documented or referenced in the SSP. Documentation will be dependent on the design

selected and may include a high-level diagram, but specific details that may change on some

frequency would be omitted. During an assessment, providing details such as subnet and

VLAN implementation identifiers, internal boundary protection hardware and software,

interface device functionality, and system configuration and Access Control List (ACL)

settings will be useful.

Example
You are responsible for information security in your organization, which holds and

processes CUI. You have decided to isolate the systems processing CUI by limiting all

communications in and out that enclave with cross-domain interface devices that implement

access control [a]. Your security team has identified all the systems containing such CUI,

documented network design details, developed network diagrams showing access control

points, documented the logic for the access control enforcement decisions, described the

interface and protocol to the identification and authentication mechanisms, and documented

all details associated with the ACLs, including review, updates, and credential revocation

procedures.

Potential Assessment Considerations
•

Has the organization clearly identified where they use physical, logical, or both isolation 

techniques [a]?

•

Can the organization describe the isolation techniques they have employed [a]? 

•

Has the organization deployed subnetting, internal firewalls, and VLANs to control 

packet flow between internal segments [a]?

•

Does the organization employ metadata to inform isolation techniques [a]? 

KEY REFERENCES

•

NIST SP 800-172 3.13.4e 

SI.L3-3.14.1e – Integrity Verification

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System and Information Integrity (SI)
SI.L3-3.14.1E – INTEGRITY VERIFICATION

Verify the integrity of security critical and essential software using root of trust mechanisms

or cryptographic signatures.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[ODP1] Security critical or essential software is defined;
[a] Root of trust mechanisms or cryptographic signatures are identified; and
[b] The integrity of security critical and essential software is verified using root of trust

mechanisms or cryptographic signatures.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: System and information integrity policy; procedures addressing software,

firmware, and information integrity; system design documentation; security plan; system

configuration settings and associated documentation; system component inventory;

integrity verification tools and associated documentation; records of integrity verification

scans; system audit records; cryptographic mechanisms and associated documentation;

records of detected unauthorized changes to software, firmware, and information; other

relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security;

organizational personnel responsible for software, firmware, and/or information integrity;

system developers; system/network administrators].

Test
[SELECT FROM: Software, firmware, and information integrity verification tools;

mechanisms supporting and/or implementing integrity verification of the boot process;

mechanisms supporting and/or implementing protection of the integrity of boot firmware;

cryptographic mechanisms implementing software, firmware, and information integrity;

safeguards implementing protection of the integrity of boot firmware].

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DISCUSSION [NIST SP 800-172]

Verifying the integrity of the organization’s security-critical or essential software is an

important capability since corrupted software is the primary attack vector used by

adversaries to undermine or disrupt the proper functioning of organizational systems. There

are many ways to verify software integrity throughout the system development life cycle.

Root of trust mechanisms (e.g., secure boot, trusted platform modules, Unified Extensible

Firmware Interface [UEFI]), verify that only trusted code is executed during boot processes.

This capability helps system components protect the integrity of boot firmware in

organizational systems by verifying the integrity and authenticity of updates to the firmware

prior to applying changes to the system component and preventing unauthorized processes

from modifying the boot firmware. The employment of cryptographic signatures ensures the

integrity and authenticity of critical and essential software that stores, processes, or

transmits, CUI. Cryptographic signatures include 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.

Hardware roots of trust are considered to be more secure. This requirement supports 3.4.1e

and 3.4.3.e.
[FIPS 140-3] provides security requirements for cryptographic modules. [FIPS 180-4] and

[FIPS 202] provide secure hash standards. [FIPS 186-4] provides a digital signature

standard. [NIST SP 800-147] provides BIOS protection guidance. [NIST TRUST] provides

guidance on the roots of trust project.

FURTHER DISCUSSION

Organizations verify the integrity of security critical and essential software every time that

software is executed. Secure boot mechanisms for firmware and a cryptographically

protected boot chain ensure the integrity of the operating system (OS) and security critical

software, and cryptographic techniques ensure the essential software has not been

tampered with after development prior to execution. If software is itself considered to be

CUI or if it uses CUI, this requirement ensures it has not been compromised.
Software and information integrity verification tools can help check the integrity during the

development process for those organizations developing software. As critical software is

updated, the integrity of any configuration data and the software must result in updated

signatures and an ongoing verification process.
Operating systems include mechanisms to validate digital signatures for installed software.

Most software packages use signatures to prove the integrity of the provided software, and

the organization should leverage these capabilities. Similarly, most hardware appliance

vendors have secure boot checks in place for their devices and built-in features that check

the digital signature of an upgrade/update package before they allow an upgrade to take

place. For locally developed software, the organization should sign the software to ensure its

integrity.

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Example 1
You are responsible for information security in your organization. Your security team has

identified the software used to process CUI, and the organization has decided it is mission-

critical software that must be protected. You take three actions. First, you ensure all of the

platform’s configuration information used at boot is hashed and stored in a TPM [a]. Second,

you ensure that the platforms used to execute the software are started with a digitally signed

software chain to a secure boot process using the TPM. Finally, you ensure the essential

applications are cryptographically protected with a digital signature when stored and the

signature is verified prior to execution [b].

Example 2
Your organization has a software security team, and they are required to validate unsigned

essential software provided to systems that do not have TPM modules. The organization has

a policy stating no software can be executed on a system unless its hash value matches that

of a hash stored in the approved software library kept by the software security team [a]. This

action is performed by implementing software restriction policies on systems. The team

tests the software on a sandbox system, and once it is proven safe, they run a hashing

function on the software to create a hash value. This hash value is placed in a software library

so the system will know it can execute the software [b]. Any changes to the software without

the software security team’s approval will result in the software failing the security tests,

and it will be prevented from executing.

Potential Assessment Considerations
•

Does the organization use cryptographic signatures to ensure the integrity and 

authenticity of critical and essential software and data [b]?

•

Has the organization identified those devices that require integrity verification of the 

boot process [a]?

•

Does the organization use a TPM to store hashes of pre-run time configuration 

parameters for those systems [b]?

•

Does the organization leverage the TPM configuration hash to verify the hardware and 

software configuration is unchanged in order to determine that a system is trustworthy

before running mission-essential applications [b,c]?

•

Does the organization use the TPM for remote attestation to determine to which extent 

information can be trusted from another system [b,c]?

•

Has the organization identified devices requiring organization-defined security 

safeguards that must be implemented to protect the integrity of boot firmware [a]?

•

Has the organization defined security safeguards that will be implemented to protect the 

integrity of boot firmware in mission-essential devices [a]?

•

Has the organization implemented organization-defined security safeguards to protect 

the integrity of boot firmware in organization-defined essential devices [b]?

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KEY REFERENCES

•

NIST SP 800-172 3.14.1e 

SI.L3-3.14.3e – Specialized Asset Security

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SI.L3-3.14.3E – SPECIALIZED ASSET SECURITY

Ensure that specialized assets including IoT, IIoT, OT, GFE, Restricted Information Systems

and test equipment are included in the scope of the specified enhanced security

requirements or are segregated in purpose-specific networks.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[a] Specialized assets including IoT, IIoT, OT, GFE, Restricted Information Systems and test

equipment are included in the scope of the specified enhanced security requirements;

and

[b] Systems and system components that are not included in specialized assets including IoT,

IIoT, OT, GFE, Restricted Information Systems and test equipment are segregated in

purpose-specific networks.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: Access control policy; information flow control policies; system and services

acquisition policy; system and communications protection policy; procedures addressing

security function isolation; procedures addressing application partitioning; procedures

addressing security engineering principles used in the specification, design, development,

implementation, and modification of the system; procedures addressing information flow

enforcement; procedures addressing access enforcement; system architecture; system

design documentation; security plan; system component inventory; system configuration

settings and associated documentation; system baseline configuration; list of security

functions to be isolated from non-security functions; system audit records; security

requirements and specifications for the system; list of approved authorizations (user

privileges); list of information flow authorizations; other relevant documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for access enforcement;

system/network administrators; organizational personnel responsible for information

security; system developers; system integrators; organizational personnel responsible for

acquisition/contracting; organizational personnel responsible for determining system

security requirements; system security architects; enterprise architects; organizational

personnel responsible for system specification, design, development, implementation, and

modification].

Test
[SELECT FROM: Mechanisms implementing the access control policy; mechanisms

implementing the information flow enforcement policy; mechanisms supporting the

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application of security engineering principles in system specification, design, development,

implementation, and modification].

DISCUSSION [NIST SP 800-172]

Organizations may have a variety of systems and system components in their inventory,

including Information Technology (IT), Internet of Things (IoT), Operational Technology

(OT), and Industrial Internet of Things (IIoT). The convergence of IT, OT, IoT, and IIoT

significantly increases the attack surface of organizations and provides attack vectors that

are challenging to address. Compromised IoT, OT, and IIoT system components can serve as

launching points for attacks on organizational IT systems that handle CUI. Some IoT, OT, and

IIoT system components can store, transmit, or process CUI (e.g., specifications or

parameters for objects manufactured in support of critical programs). Most of the current

generation of IoT, OT, and IIoT system components are not designed with security as a

foundational property and may not be able to be configured to support security functionality.

Connections to and from such system components are generally not encrypted, do not

provide the necessary authentication, are not monitored, and are not logged. Therefore,

these components pose a significant cyber threat. Gaps in IoT, OT, and IIoT security

capabilities may be addressed by employing intermediary system components that can

provide encryption, authentication, security scanning, and logging capabilities—thus,

preventing the components from being accessible from the Internet. However, such

mitigation options are not always available or practicable. The situation is further

complicated because some of the IoT, OT, and IIoT devices may be needed for essential

missions and business functions. In those instances, it is necessary for such devices to be

isolated from the Internet to reduce the susceptibility to cyber-attacks.
[NIST SP 800-160-1] provides guidance on security engineering practices and security

design concepts.

FURTHER DISCUSSION

Specialized Assets are addressed in the scoping guidance, which should be overlaid on this

requirement. The OSC must document Specialized Assets in the asset inventory; develop,

document, and periodically update system security plans; and include Specialized Assets in

the network diagram. The Specialized Asset section of the SSP should describe associated

system boundaries, system environments of operation, how security requirements are

implemented, and the relationships with or connections to other systems.
Specialized Assets within the Level 3 CMMC assessment scope must be either assessed

against all CMMC security requirements or separated into purpose-specific networks.

Specialized Assets may have limitations on the application of certain security requirements.

To accommodate such issues, the SSP should describe any mitigations.
Intermediary devices are permitted to mitigate an inability for the asset itself to implement

one or more CMMC requirements. An example of an intermediary device used in conjunction

with a specialized asset is a boundary device or a proxy.
The high-level list of Specialized Assets includes:

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•

Government Furnished Equipment;

•

IoT and IIoT devices (physical or virtual) with sensing/actuation capability and 

programmability features;

•

OT used in manufacturing systems, industrial control systems (ICS), or supervisory 

control and data acquisition (SCADA) systems;

•

Restricted Information Systems, which can include systems and IT components that are 

configured based on government requirements; and

•

Test equipment.

Example
You are responsible for information security in your organization, which processes CUI on

the network, and this same network includes GFE for which the configuration is mandated

by the government. The GFE is needed to process CUI information [a]. Because the company

cannot manage the configuration of the GFE, it has been augmented by placing a bastion host

between it and the network. The bastion host meets the requirements that the GFE cannot,

and is used to send CUI files to and from the GFE for processing. You and your security team

document in the SSP all of the GFE to include GFE connectivity diagrams, a description of the

isolation mechanism, and a description of how your organization manages risk associated

with that GFE [a].

Potential Assessment Considerations
•

Has the organization documented all specialized assets in asset inventory [a]? 

•

Has the organization documented all specialized assets in the SSP to show how risk is 

managed [b]?

•

Has the organization provided a network diagram for specialized assets [a,b]? 

KEY REFERENCES

•

NIST SP 800-172 3.14.3e 

SI.L3-3.14.6e – Threat-Guided Intrusion Detection

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SI.L3-3.14.6E – THREAT-GUIDED INTRUSION DETECTION

Use threat indicator information and effective mitigations obtained from, at a minimum,

open or commercial sources, and any DoD-provided sources, to guide and inform intrusion

detection and threat hunting.

ASSESSMENT OBJECTIVES [NIST SP 800-172A]

Determine if:
[ODP1] External organizations from which to obtain threat indicator information and

effective mitigations are defined;
[a] Threat indicator information is identified;
[b] Effective mitigations are identified;
[c] Intrusion detection approaches are identified;
[d] Threat hunting activities are identified; and
[e] Threat indicator information and effective mitigations obtained from, at a minimum,

open or commercial sources and any DoD-provided sources, are used to guide and inform

intrusion detection and threat hunting.

POTENTIAL ASSESSMENT METHODS AND OBJECTS [NIST SP 800-172A]

Examine
[SELECT FROM: System and information integrity policy; information security program plan;

procedures addressing security alerts, advisories, and directives; threat awareness program

documentation; procedures addressing system monitoring; procedures for the threat

awareness program; risk assessment results relevant to threat awareness; records of

security alerts and advisories; system design documentation; security plan; system

monitoring tools and techniques documentation; system configuration settings and

associated documentation; system monitoring logs or records; system audit records;

documentation on the cross-organization information-sharing capability; other relevant

documents or records].

Interview
[SELECT FROM: Organizational personnel responsible for information security program

planning and plan implementation; system/network administrators; organizational

personnel responsible for the threat awareness program; organizational personnel

responsible for the cross-organization information-sharing capability; organizational

personnel responsible for information security; organizational personnel responsible for

installing, configuring, and/or maintaining the system; organizational personnel security

alerts and advisories; organizational personnel responsible for implementing, operating,

maintaining, and using the system; organizational personnel, organizational elements,

and/or external organizations to whom alerts, advisories, and directives are to be

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disseminated; personnel with whom threat awareness information is shared by the

organization; system developers].

Test
[SELECT FROM: Mechanisms supporting and/or implementing the threat awareness

program; mechanisms supporting and/or implementing the cross-organization information-

sharing capability; mechanisms supporting and/or implementing the system monitoring

capability; mechanisms supporting and/or implementing the definition, receipt, generation,

and dissemination of security alerts, advisories, and directives; mechanisms supporting

and/or implementing security directives; mechanisms supporting and/or implementing

threat hunting; mechanisms supporting and/or implementing intrusion detection;

mechanisms supporting and/or implementing the discovery, collection, distribution, and use

of indicators of compromise].

DISCUSSION [NIST SP 800-172]

Threat information related to specific threat events (e.g., TTPs, targets) that organizations

have experienced, threat mitigations that organizations have found to be effective against

certain types of threats, and threat intelligence (i.e., indications and warnings about threats

that can occur) are sourced from and shared with trusted organizations. This threat

information can be used by organizational Security Operations Centers (SOC) and

incorporated into monitoring capabilities. Threat information sharing includes threat

indicators, signatures, and adversary TTPs from organizations participating in threat-

sharing consortia, government-commercial cooperatives, and government-government

cooperatives (e.g., CERTCC, CISA/US-CERT, FIRST, ISAO, DIB CS Program). Unclassified

indicators, based on classified information but which can be readily incorporated into

organizational intrusion detection systems, are available to qualified nonfederal

organizations from government sources.

FURTHER DISCUSSION

One way to effectively leverage threat indicator information is to access human- or machine-

readable threat intelligence feeds. Effectiveness may also require the organization to create

TTPs in support of operational requirements, which will typically include defensive cyber

tools supporting incident detection, alerts, incident response, and threat hunting. It is

possible that this requirement will be implemented by a third-party managed service

provider, and in that case, it will be necessary to carefully define the boundary and

responsibilities between the OSC and the ESP to guarantee a robust implementation. It is also

important that the OSC validate threat indicator integration into the defensive cyber toolset

by being able to (1) implement mitigations for sample industry relevant indicators of

compromise (e.g., IP address, file hash), (2) identify sample indicators of compromise across

sample endpoints, and (3) identify sample indicators of compromise using analytical

processes on a system data repository.

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Example
You are responsible for information security in your organization. You have maintained an

effective intrusion detection capability for some time, but now you decide to introduce a

threat hunting capability informed by internal and external threat intelligence [a,c,d,e]. You

install a SIEM system that leverages threat information to provide functionality to:
•

analyze logs, data sources, and alerts;

•

query data to identify anomalies;

•

identify variations from baseline threat levels;

•

provide machine learning capabilities associated with the correlation of anomalous data 

characteristics across the enterprise; and

•

categorize data sets based on expected data values.

Your team also manages an internal mitigation plan (playbook) for all known threats for your

environment. This playbook is used to implement effective mitigation strategies across the

environment [b]. Some of the mitigation strategies are developed by team members, and

others are obtained by threat feed services.

Potential Assessment Considerations
•

Which external sources has the organization identified as threat information sources [a]? 

•

Does the organization understand the TTPs of key attackers [c,d]? 

•

Does the organization deploy threat indicators to EDR systems, network intrusion 

detection systems, or both [c,d,e]?

•

What actions does the organization implement when a threat alert/indicator is signaled 

[c,d,e]?

•

Does the organization use internal threat capabilities within their existing security tools 

[e]?

•

How does the organization respond to a third-party notification of a threat indicator [e]? 

KEY REFERENCES

•

NIST SP 800-172 3.14.6e

Appendix A – Acronyms and Abbreviations