SR-4(3) - Reference

NIST References

SP 800-53 Revision 5

AC - Access Control

AC-1 - Policy and Procedures

AC-2 - Account Management

AC-2(1) - Account Management | Automated System Account Management

AC-2(2) - Account Management | Automated Temporary and Emergency Account Management

AC-2(3) - Account Management | Disable Accounts

AC-2(4) - Account Management | Automated Audit Actions

AC-2(5) - Account Management | Inactivity Logout

AC-2(6) - Account Management | Dynamic Privilege Management

AC-2(7) - Account Management | Privileged User Accounts

AC-2(8) - Account Management | Dynamic Account Management

AC-2(9) - Account Management | Restrictions on Use of Shared and Group Accounts

AC-2(11) - Account Management | Usage Conditions

AC-2(12) - Account Management | Account Monitoring for Atypical Usage

AC-2(13) - Account Management | Disable Accounts for High-risk Individuals

AC-3 - Access Enforcement

AC-3(2) - Access Enforcement | Dual Authorization

AC-3(3) - Access Enforcement | Mandatory Access Control

AC-3(4) - Access Enforcement | Discretionary Access Control

AC-3(5) - Access Enforcement | Security-relevant Information

AC-3(7) - Access Enforcement | Role-based Access Control

AC-3(8) - Access Enforcement | Revocation of Access Authorizations

AC-3(9) - Access Enforcement | Controlled Release

AC-3(10) - Access Enforcement | Audited Override of Access Control Mechanisms

AC-3(11) - Access Enforcement | Restrict Access to Specific Information Types

AC-3(12) - Access Enforcement | Assert and Enforce Application Access

AC-3(13) - Access Enforcement | Attribute-based Access Control

AC-3(14) - Access Enforcement | Individual Access

AC-3(15) - Access Enforcement | Discretionary and Mandatory Access Control

AC-4 - Information Flow Enforcement

AC-4(1) - Information Flow Enforcement | Object Security and Privacy Attributes

AC-4(2) - Information Flow Enforcement | Processing Domains

AC-4(3) - Information Flow Enforcement | Dynamic Information Flow Control

AC-4(4) - Information Flow Enforcement | Flow Control of Encrypted Information

AC-4(5) - Information Flow Enforcement | Embedded Data Types

AC-4(6) - Information Flow Enforcement | Metadata

AC-4(7) - Information Flow Enforcement | One-way Flow Mechanisms

AC-4(8) - Information Flow Enforcement | Security and Privacy Policy Filters

AC-4(9) - Information Flow Enforcement | Human Reviews

AC-4(10) - Information Flow Enforcement | Enable and Disable Security or Privacy Policy Filters

AC-4(11) - Information Flow Enforcement | Configuration of Security or Privacy Policy Filters

AC-4(12) - Information Flow Enforcement | Data Type Identifiers

AC-4(13) - Information Flow Enforcement | Decomposition into Policy-relevant Subcomponents

AC-4(14) - Information Flow Enforcement | Security or Privacy Policy Filter Constraints

AC-4(15) - Information Flow Enforcement | Detection of Unsanctioned Information

AC-4(17) - Information Flow Enforcement | Domain Authentication

AC-4(19) - Information Flow Enforcement | Validation of Metadata

AC-4(20) - Information Flow Enforcement | Approved Solutions

AC-4(21) - Information Flow Enforcement | Physical or Logical Separation of Information Flows

AC-4(22) - Information Flow Enforcement | Access Only

AC-4(23) - Information Flow Enforcement | Modify Non-releasable Information

AC-4(24) - Information Flow Enforcement | Internal Normalized Format

AC-4(25) - Information Flow Enforcement | Data Sanitization

AC-4(26) - Information Flow Enforcement | Audit Filtering Actions

AC-4(27) - Information Flow Enforcement | Redundant/independent Filtering Mechanisms

AC-4(28) - Information Flow Enforcement | Linear Filter Pipelines

AC-4(29) - Information Flow Enforcement | Filter Orchestration Engines

AC-4(30) - Information Flow Enforcement | Filter Mechanisms Using Multiple Processes

AC-4(31) - Information Flow Enforcement | Failed Content Transfer Prevention

AC-4(32) - Information Flow Enforcement | Process Requirements for Information Transfer

AC-5 - Separation of Duties

AC-6 - Least Privilege

AC-6(1) - Least Privilege | Authorize Access to Security Functions

AC-6(2) - Least Privilege | Non-privileged Access for Nonsecurity Functions

AC-6(3) - Least Privilege | Network Access to Privileged Commands

AC-6(4) - Least Privilege | Separate Processing Domains

AC-6(5) - Least Privilege | Privileged Accounts

AC-6(6) - Least Privilege | Privileged Access by Non-organizational Users

AC-6(7) - Least Privilege | Review of User Privileges

AC-6(8) - Least Privilege | Privilege Levels for Code Execution

AC-6(9) - Least Privilege | Log Use of Privileged Functions

AC-6(10) - Least Privilege | Prohibit Non-privileged Users from Executing Privileged Functions

AC-7 - Unsuccessful Logon Attempts

AC-7(2) - Unsuccessful Logon Attempts | Purge or Wipe Mobile Device

AC-7(3) - Unsuccessful Logon Attempts | Biometric Attempt Limiting

AC-7(4) - Unsuccessful Logon Attempts | Use of Alternate Authentication Factor

AC-8 - System Use Notification

AC-9 - Previous Logon Notification

AC-9(1) - Previous Logon Notification | Unsuccessful Logons

AC-9(2) - Previous Logon Notification | Successful and Unsuccessful Logons

AC-9(3) - Previous Logon Notification | Notification of Account Changes

AC-9(4) - Previous Logon Notification | Additional Logon Information

AC-10 - Concurrent Session Control

AC-11 - Device Lock

AC-11(1) - Device Lock | Pattern-hiding Displays

AC-12 - Session Termination

AC-12(1) - Session Termination | User-initiated Logouts

AC-12(2) - Session Termination | Termination Message

AC-12(3) - Session Termination | Timeout Warning Message

AC-14 - Permitted Actions Without Identification or Authentication

AC-16 - Security and Privacy Attributes

AC-16(1) - Security and Privacy Attributes | Dynamic Attribute Association

AC-16(2) - Security and Privacy Attributes | Attribute Value Changes by Authorized Individuals

AC-16(3) - Security and Privacy Attributes | Maintenance of Attribute Associations by System

AC-16(4) - Security and Privacy Attributes | Association of Attributes by Authorized Individuals

AC-16(5) - Security and Privacy Attributes | Attribute Displays on Objects to Be Output

AC-16(6) - Security and Privacy Attributes | Maintenance of Attribute Association

AC-16(7) - Security and Privacy Attributes | Consistent Attribute Interpretation

AC-16(8) - Security and Privacy Attributes | Association Techniques and Technologies

AC-16(9) - Security and Privacy Attributes | Attribute Reassignment — Regrading Mechanisms

AC-16(10) - Security and Privacy Attributes | Attribute Configuration by Authorized Individuals

AC-17 - Remote Access

AC-17(1) - Remote Access | Monitoring and Control

AC-17(2) - Remote Access | Protection of Confidentiality and Integrity Using Encryption

AC-17(3) - Remote Access | Managed Access Control Points

AC-17(4) - Remote Access | Privileged Commands and Access

AC-17(6) - Remote Access | Protection of Mechanism Information

AC-17(9) - Remote Access | Disconnect or Disable Access

AC-17(10) - Remote Access | Authenticate Remote Commands

AC-18 - Wireless Access

AC-18(1) - Wireless Access | Authentication and Encryption

AC-18(3) - Wireless Access | Disable Wireless Networking

AC-18(4) - Wireless Access | Restrict Configurations by Users

AC-18(5) - Wireless Access | Antennas and Transmission Power Levels

AC-19 - Access Control for Mobile Devices

AC-19(4) - Access Control for Mobile Devices | Restrictions for Classified Information

AC-19(5) - Access Control for Mobile Devices | Full Device or Container-based Encryption

AC-20 - Use of External Systems

AC-20(1) - Use of External Systems | Limits on Authorized Use

AC-20(2) - Use of External Systems | Portable Storage Devices — Restricted Use

AC-20(3) - Use of External Systems | Non-organizationally Owned Systems — Restricted Use

AC-20(4) - Use of External Systems | Network Accessible Storage Devices — Prohibited Use

AC-20(5) - Use of External Systems | Portable Storage Devices — Prohibited Use

AC-21 - Information Sharing

AC-21(1) - Information Sharing | Automated Decision Support

AC-21(2) - Information Sharing | Information Search and Retrieval

AC-22 - Publicly Accessible Content

AC-23 - Data Mining Protection

AC-24 - Access Control Decisions

AC-24(1) - Access Control Decisions | Transmit Access Authorization Information

AC-24(2) - Access Control Decisions | No User or Process Identity

AC-25 - Reference Monitor

AT - Awareness and Training

AT-1 - Policy and Procedures

AT-2 - Literacy Training and Awareness

AT-2(1) - Literacy Training and Awareness | Practical Exercises

AT-2(2) - Literacy Training and Awareness | Insider Threat

AT-2(3) - Literacy Training and Awareness | Social Engineering and Mining

AT-2(4) - Literacy Training and Awareness | Suspicious Communications and Anomalous System Behavior

AT-2(5) - Literacy Training and Awareness | Advanced Persistent Threat

AT-2(6) - Literacy Training and Awareness | Cyber Threat Environment

AT-3 - Role-based Training

AT-3(1) - Role-based Training | Environmental Controls

AT-3(2) - Role-based Training | Physical Security Controls

AT-3(3) - Role-based Training | Practical Exercises

AT-3(5) - Role-based Training | Processing Personally Identifiable Information

AT-4 - Training Records

AT-6 - Training Feedback

AU - Audit and Accountability

AU-1 - Policy and Procedures

AU-2 - Event Logging

AU-3 - Content of Audit Records

AU-3(1) - Content of Audit Records | Additional Audit Information

AU-3(3) - Content of Audit Records | Limit Personally Identifiable Information Elements

AU-4 - Audit Log Storage Capacity

AU-4(1) - Audit Log Storage Capacity | Transfer to Alternate Storage

AU-5 - Response to Audit Logging Process Failures

AU-5(1) - Response to Audit Logging Process Failures | Storage Capacity Warning

AU-5(2) - Response to Audit Logging Process Failures | Real-time Alerts

AU-5(3) - Response to Audit Logging Process Failures | Configurable Traffic Volume Thresholds

AU-5(4) - Response to Audit Logging Process Failures | Shutdown on Failure

AU-5(5) - Response to Audit Logging Process Failures | Alternate Audit Logging Capability

AU-6 - Audit Record Review, Analysis, and Reporting

AU-6(1) - Audit Record Review, Analysis, and Reporting | Automated Process Integration

AU-6(3) - Audit Record Review, Analysis, and Reporting | Correlate Audit Record Repositories

AU-6(4) - Audit Record Review, Analysis, and Reporting | Central Review and Analysis

AU-6(5) - Audit Record Review, Analysis, and Reporting | Integrated Analysis of Audit Records

AU-6(6) - Audit Record Review, Analysis, and Reporting | Correlation with Physical Monitoring

AU-6(7) - Audit Record Review, Analysis, and Reporting | Permitted Actions

AU-6(8) - Audit Record Review, Analysis, and Reporting | Full Text Analysis of Privileged Commands

AU-6(9) - Audit Record Review, Analysis, and Reporting | Correlation with Information from Nontechnical Sources

AU-7 - Audit Record Reduction and Report Generation

AU-7(1) - Audit Record Reduction and Report Generation | Automatic Processing

AU-8 - Time Stamps

AU-9 - Protection of Audit Information

AU-9(1) - Protection of Audit Information | Hardware Write-once Media

AU-9(2) - Protection of Audit Information | Store on Separate Physical Systems or Components

AU-9(3) - Protection of Audit Information | Cryptographic Protection

AU-9(4) - Protection of Audit Information | Access by Subset of Privileged Users

AU-9(5) - Protection of Audit Information | Dual Authorization

AU-9(6) - Protection of Audit Information | Read-only Access

AU-9(7) - Protection of Audit Information | Store on Component with Different Operating System

AU-10 - Non-repudiation

AU-10(1) - Non-repudiation | Association of Identities

AU-10(2) - Non-repudiation | Validate Binding of Information Producer Identity

AU-10(3) - Non-repudiation | Chain of Custody

AU-10(4) - Non-repudiation | Validate Binding of Information Reviewer Identity

AU-11 - Audit Record Retention

AU-11(1) - Audit Record Retention | Long-term Retrieval Capability

AU-12 - Audit Record Generation

AU-12(1) - Audit Record Generation | System-wide and Time-correlated Audit Trail

AU-12(2) - Audit Record Generation | Standardized Formats

AU-12(3) - Audit Record Generation | Changes by Authorized Individuals

AU-12(4) - Audit Record Generation | Query Parameter Audits of Personally Identifiable Information

AU-13 - Monitoring for Information Disclosure

AU-13(1) - Monitoring for Information Disclosure | Use of Automated Tools

AU-13(2) - Monitoring for Information Disclosure | Review of Monitored Sites

AU-13(3) - Monitoring for Information Disclosure | Unauthorized Replication of Information

AU-14 - Session Audit

AU-14(1) - Session Audit | System Start-up

AU-14(3) - Session Audit | Remote Viewing and Listening

AU-16 - Cross-organizational Audit Logging

AU-16(1) - Cross-organizational Audit Logging | Identity Preservation

AU-16(2) - Cross-organizational Audit Logging | Sharing of Audit Information

AU-16(3) - Cross-organizational Audit Logging | Disassociability

CA - Assessment, Authorization, and Monitoring

CA-1 - Policy and Procedures

CA-2 - Control Assessments

CA-2(1) - Control Assessments | Independent Assessors

CA-2(2) - Control Assessments | Specialized Assessments

CA-2(3) - Control Assessments | Leveraging Results from External Organizations

CA-3 - Information Exchange

CA-3(6) - Information Exchange | Transfer Authorizations

CA-3(7) - Information Exchange | Transitive Information Exchanges

CA-5 - Plan of Action and Milestones

CA-5(1) - Plan of Action and Milestones | Automation Support for Accuracy and Currency

CA-6 - Authorization

CA-6(1) - Authorization | Joint Authorization — Intra-organization

CA-6(2) - Authorization | Joint Authorization — Inter-organization

CA-7 - Continuous Monitoring

CA-7(1) - Continuous Monitoring | Independent Assessment

CA-7(3) - Continuous Monitoring | Trend Analyses

CA-7(4) - Continuous Monitoring | Risk Monitoring

CA-7(5) - Continuous Monitoring | Consistency Analysis

CA-7(6) - Continuous Monitoring | Automation Support for Monitoring

CA-8 - Penetration Testing

CA-8(1) - Penetration Testing | Independent Penetration Testing Agent or Team

CA-8(2) - Penetration Testing | Red Team Exercises

CA-8(3) - Penetration Testing | Facility Penetration Testing

CA-9 - Internal System Connections

CA-9(1) - Internal System Connections | Compliance Checks

CM - Configuration Management

CM-1 - Policy and Procedures

CM-2 - Baseline Configuration

CM-2(2) - Baseline Configuration | Automation Support for Accuracy and Currency

CM-2(3) - Baseline Configuration | Retention of Previous Configurations

CM-2(6) - Baseline Configuration | Development and Test Environments

CM-2(7) - Baseline Configuration | Configure Systems and Components for High-risk Areas

CM-3 - Configuration Change Control

CM-3(1) - Configuration Change Control | Automated Documentation, Notification, and Prohibition of Changes

CM-3(2) - Configuration Change Control | Testing, Validation, and Documentation of Changes

CM-3(3) - Configuration Change Control | Automated Change Implementation

CM-3(4) - Configuration Change Control | Security and Privacy Representatives

CM-3(5) - Configuration Change Control | Automated Security Response

CM-3(6) - Configuration Change Control | Cryptography Management

CM-3(7) - Configuration Change Control | Review System Changes

CM-3(8) - Configuration Change Control | Prevent or Restrict Configuration Changes

CM-4 - Impact Analyses

CM-4(1) - Impact Analyses | Separate Test Environments

CM-4(2) - Impact Analyses | Verification of Controls

CM-5 - Access Restrictions for Change

CM-5(1) - Access Restrictions for Change | Automated Access Enforcement and Audit Records

CM-5(4) - Access Restrictions for Change | Dual Authorization

CM-5(5) - Access Restrictions for Change | Privilege Limitation for Production and Operation

CM-5(6) - Access Restrictions for Change | Limit Library Privileges

CM-6 - Configuration Settings

CM-6(1) - Configuration Settings | Automated Management, Application, and Verification

CM-6(2) - Configuration Settings | Respond to Unauthorized Changes

CM-7 - Least Functionality

CM-7(1) - Least Functionality | Periodic Review

CM-7(2) - Least Functionality | Prevent Program Execution

CM-7(3) - Least Functionality | Registration Compliance

CM-7(4) - Least Functionality | Unauthorized Software

CM-7(5) - Least Functionality | Authorized Software

CM-7(6) - Least Functionality | Confined Environments with Limited Privileges

CM-7(7) - Least Functionality | Code Execution in Protected Environments

CM-7(8) - Least Functionality | Binary or Machine Executable Code

CM-7(9) - Least Functionality | Prohibiting The Use of Unauthorized Hardware

CM-8 - System Component Inventory

CM-8(1) - System Component Inventory | Updates During Installation and Removal

CM-8(2) - System Component Inventory | Automated Maintenance

CM-8(3) - System Component Inventory | Automated Unauthorized Component Detection

CM-8(4) - System Component Inventory | Accountability Information

CM-8(6) - System Component Inventory | Assessed Configurations and Approved Deviations

CM-8(7) - System Component Inventory | Centralized Repository

CM-8(8) - System Component Inventory | Automated Location Tracking

CM-8(9) - System Component Inventory | Assignment of Components to Systems

CM-9 - Configuration Management Plan

CM-9(1) - Configuration Management Plan | Assignment of Responsibility

CM-10 - Software Usage Restrictions

CM-10(1) - Software Usage Restrictions | Open-source Software

CM-11 - User-installed Software

CM-11(2) - User-installed Software | Software Installation with Privileged Status

CM-11(3) - User-installed Software | Automated Enforcement and Monitoring

CM-12 - Information Location

CM-12(1) - Information Location | Automated Tools to Support Information Location

CM-13 - Data Action Mapping

CM-14 - Signed Components

CP - Contingency Planning

CP-1 - Policy and Procedures

CP-2 - Contingency Plan

CP-2(1) - Contingency Plan | Coordinate with Related Plans

CP-2(2) - Contingency Plan | Capacity Planning

CP-2(3) - Contingency Plan | Resume Mission and Business Functions

CP-2(5) - Contingency Plan | Continue Mission and Business Functions

CP-2(6) - Contingency Plan | Alternate Processing and Storage Sites

CP-2(7) - Contingency Plan | Coordinate with External Service Providers

CP-2(8) - Contingency Plan | Identify Critical Assets

CP-3 - Contingency Training

CP-3(1) - Contingency Training | Simulated Events

CP-3(2) - Contingency Training | Mechanisms Used in Training Environments

CP-4 - Contingency Plan Testing

CP-4(1) - Contingency Plan Testing | Coordinate with Related Plans

CP-4(2) - Contingency Plan Testing | Alternate Processing Site

CP-4(3) - Contingency Plan Testing | Automated Testing

CP-4(4) - Contingency Plan Testing | Full Recovery and Reconstitution

CP-4(5) - Contingency Plan Testing | Self-challenge

CP-6 - Alternate Storage Site

CP-6(1) - Alternate Storage Site | Separation from Primary Site

CP-6(2) - Alternate Storage Site | Recovery Time and Recovery Point Objectives

CP-6(3) - Alternate Storage Site | Accessibility

CP-7 - Alternate Processing Site

CP-7(1) - Alternate Processing Site | Separation from Primary Site

CP-7(2) - Alternate Processing Site | Accessibility

CP-7(3) - Alternate Processing Site | Priority of Service

CP-7(4) - Alternate Processing Site | Preparation for Use

CP-7(6) - Alternate Processing Site | Inability to Return to Primary Site

CP-8 - Telecommunications Services

CP-8(1) - Telecommunications Services | Priority of Service Provisions

CP-8(2) - Telecommunications Services | Single Points of Failure

CP-8(3) - Telecommunications Services | Separation of Primary and Alternate Providers

CP-8(4) - Telecommunications Services | Provider Contingency Plan

CP-8(5) - Telecommunications Services | Alternate Telecommunication Service Testing

CP-9 - System Backup

CP-9(1) - System Backup | Testing for Reliability and Integrity

CP-9(2) - System Backup | Test Restoration Using Sampling

CP-9(3) - System Backup | Separate Storage for Critical Information

CP-9(5) - System Backup | Transfer to Alternate Storage Site

CP-9(6) - System Backup | Redundant Secondary System

CP-9(7) - System Backup | Dual Authorization

CP-9(8) - System Backup | Cryptographic Protection

CP-10 - System Recovery and Reconstitution

CP-10(2) - System Recovery and Reconstitution | Transaction Recovery

CP-10(4) - System Recovery and Reconstitution | Restore Within Time Period

CP-10(6) - System Recovery and Reconstitution | Component Protection

CP-11 - Alternate Communications Protocols

CP-12 - Safe Mode

CP-13 - Alternative Security Mechanisms

IA - Identification and Authentication

IA-1 - Policy and Procedures

IA-2 - Identification and Authentication (organizational Users)

IA-2(1) - Identification and Authentication (organizational Users) | Multi-factor Authentication to Privileged Accounts

IA-2(2) - Identification and Authentication (organizational Users) | Multi-factor Authentication to Non-privileged Accounts

IA-2(5) - Identification and Authentication (organizational Users) | Individual Authentication with Group Authentication

IA-2(6) - Identification and Authentication (organizational Users) | Access to Accounts — Separate Device

IA-2(8) - Identification and Authentication (organizational Users) | Access to Accounts — Replay Resistant

IA-2(10) - Identification and Authentication (organizational Users) | Single Sign-on

IA-2(12) - Identification and Authentication (organizational Users) | Acceptance of PIV Credentials

IA-2(13) - Identification and Authentication (organizational Users) | Out-of-band Authentication

IA-3 - Device Identification and Authentication

IA-3(1) - Device Identification and Authentication | Cryptographic Bidirectional Authentication

IA-3(3) - Device Identification and Authentication | Dynamic Address Allocation

IA-3(4) - Device Identification and Authentication | Device Attestation

IA-4 - Identifier Management

IA-4(1) - Identifier Management | Prohibit Account Identifiers as Public Identifiers

IA-4(4) - Identifier Management | Identify User Status

IA-4(5) - Identifier Management | Dynamic Management

IA-4(6) - Identifier Management | Cross-organization Management

IA-4(8) - Identifier Management | Pairwise Pseudonymous Identifiers

IA-4(9) - Identifier Management | Attribute Maintenance and Protection

IA-5 - Authenticator Management

IA-5(1) - Authenticator Management | Password-based Authentication

IA-5(2) - Authenticator Management | Public Key-based Authentication

IA-5(5) - Authenticator Management | Change Authenticators Prior to Delivery

IA-5(6) - Authenticator Management | Protection of Authenticators

IA-5(7) - Authenticator Management | No Embedded Unencrypted Static Authenticators

IA-5(8) - Authenticator Management | Multiple System Accounts

IA-5(9) - Authenticator Management | Federated Credential Management

IA-5(10) - Authenticator Management | Dynamic Credential Binding

IA-5(12) - Authenticator Management | Biometric Authentication Performance

IA-5(13) - Authenticator Management | Expiration of Cached Authenticators

IA-5(14) - Authenticator Management | Managing Content of PKI Trust Stores

IA-5(15) - Authenticator Management | Gsa-approved Products and Services

IA-5(16) - Authenticator Management | In-person or Trusted External Party Authenticator Issuance

IA-5(17) - Authenticator Management | Presentation Attack Detection for Biometric Authenticators

IA-5(18) - Authenticator Management | Password Managers

IA-6 - Authentication Feedback

IA-7 - Cryptographic Module Authentication

IA-8 - Identification and Authentication (non-organizational Users)

IA-8(1) - Identification and Authentication (non-organizational Users) | Acceptance of PIV Credentials from Other Agencies

IA-8(2) - Identification and Authentication (non-organizational Users) | Acceptance of External Authenticators

IA-8(4) - Identification and Authentication (non-organizational Users) | Use of Defined Profiles

IA-8(5) - Identification and Authentication (non-organizational Users) | Acceptance of PIV-I Credentials

IA-8(6) - Identification and Authentication (non-organizational Users) | Disassociability

IA-9 - Service Identification and Authentication

IA-10 - Adaptive Authentication

IA-11 - Re-authentication

IA-12 - Identity Proofing

IA-12(1) - Identity Proofing | Supervisor Authorization

IA-12(2) - Identity Proofing | Identity Evidence

IA-12(3) - Identity Proofing | Identity Evidence Validation and Verification

IA-12(4) - Identity Proofing | In-person Validation and Verification

IA-12(5) - Identity Proofing | Address Confirmation

IA-12(6) - Identity Proofing | Accept Externally-proofed Identities

IR - Incident Response

IR-1 - Policy and Procedures

IR-2 - Incident Response Training

IR-2(1) - Incident Response Training | Simulated Events

IR-2(2) - Incident Response Training | Automated Training Environments

IR-2(3) - Incident Response Training | Breach

IR-3 - Incident Response Testing

IR-3(1) - Incident Response Testing | Automated Testing

IR-3(2) - Incident Response Testing | Coordination with Related Plans

IR-3(3) - Incident Response Testing | Continuous Improvement

IR-4 - Incident Handling

IR-4(1) - Incident Handling | Automated Incident Handling Processes

IR-4(2) - Incident Handling | Dynamic Reconfiguration

IR-4(3) - Incident Handling | Continuity of Operations

IR-4(4) - Incident Handling | Information Correlation

IR-4(5) - Incident Handling | Automatic Disabling of System

IR-4(6) - Incident Handling | Insider Threats

IR-4(7) - Incident Handling | Insider Threats — Intra-organization Coordination

IR-4(8) - Incident Handling | Correlation with External Organizations

IR-4(9) - Incident Handling | Dynamic Response Capability

IR-4(10) - Incident Handling | Supply Chain Coordination

IR-4(11) - Incident Handling | Integrated Incident Response Team

IR-4(12) - Incident Handling | Malicious Code and Forensic Analysis

IR-4(13) - Incident Handling | Behavior Analysis

IR-4(14) - Incident Handling | Security Operations Center

IR-4(15) - Incident Handling | Public Relations and Reputation Repair

IR-5 - Incident Monitoring

IR-5(1) - Incident Monitoring | Automated Tracking, Data Collection, and Analysis

IR-6 - Incident Reporting

IR-6(1) - Incident Reporting | Automated Reporting

IR-6(2) - Incident Reporting | Vulnerabilities Related to Incidents

IR-6(3) - Incident Reporting | Supply Chain Coordination

IR-7 - Incident Response Assistance

IR-7(1) - Incident Response Assistance | Automation Support for Availability of Information and Support

IR-7(2) - Incident Response Assistance | Coordination with External Providers

IR-8 - Incident Response Plan

IR-8(1) - Incident Response Plan | Breaches

IR-9 - Information Spillage Response

IR-9(2) - Information Spillage Response | Training

IR-9(3) - Information Spillage Response | Post-spill Operations

IR-9(4) - Information Spillage Response | Exposure to Unauthorized Personnel

MA - Maintenance

MA-1 - Policy and Procedures

MA-2 - Controlled Maintenance

MA-2(2) - Controlled Maintenance | Automated Maintenance Activities

MA-3 - Maintenance Tools

MA-3(1) - Maintenance Tools | Inspect Tools

MA-3(2) - Maintenance Tools | Inspect Media

MA-3(3) - Maintenance Tools | Prevent Unauthorized Removal

MA-3(4) - Maintenance Tools | Restricted Tool Use

MA-3(5) - Maintenance Tools | Execution with Privilege

MA-3(6) - Maintenance Tools | Software Updates and Patches

MA-4 - Nonlocal Maintenance

MA-4(1) - Nonlocal Maintenance | Logging and Review

MA-4(3) - Nonlocal Maintenance | Comparable Security and Sanitization

MA-4(4) - Nonlocal Maintenance | Authentication and Separation of Maintenance Sessions

MA-4(5) - Nonlocal Maintenance | Approvals and Notifications

MA-4(6) - Nonlocal Maintenance | Cryptographic Protection

MA-4(7) - Nonlocal Maintenance | Disconnect Verification

MA-5 - Maintenance Personnel

MA-5(1) - Maintenance Personnel | Individuals Without Appropriate Access

MA-5(2) - Maintenance Personnel | Security Clearances for Classified Systems

MA-5(3) - Maintenance Personnel | Citizenship Requirements for Classified Systems

MA-5(4) - Maintenance Personnel | Foreign Nationals

MA-5(5) - Maintenance Personnel | Non-system Maintenance

MA-6 - Timely Maintenance

MA-6(1) - Timely Maintenance | Preventive Maintenance

MA-6(2) - Timely Maintenance | Predictive Maintenance

MA-6(3) - Timely Maintenance | Automated Support for Predictive Maintenance

MA-7 - Field Maintenance

MP - Media Protection

MP-1 - Policy and Procedures

MP-2 - Media Access

MP-3 - Media Marking

MP-4 - Media Storage

MP-4(2) - Media Storage | Automated Restricted Access

MP-5 - Media Transport

MP-5(3) - Media Transport | Custodians

MP-6 - Media Sanitization

MP-6(1) - Media Sanitization | Review, Approve, Track, Document, and Verify

MP-6(2) - Media Sanitization | Equipment Testing

MP-6(3) - Media Sanitization | Nondestructive Techniques

MP-6(7) - Media Sanitization | Dual Authorization

MP-6(8) - Media Sanitization | Remote Purging or Wiping of Information

MP-7 - Media Use

MP-7(2) - Media Use | Prohibit Use of Sanitization-resistant Media

MP-8 - Media Downgrading

MP-8(1) - Media Downgrading | Documentation of Process

MP-8(2) - Media Downgrading | Equipment Testing

MP-8(3) - Media Downgrading | Controlled Unclassified Information

MP-8(4) - Media Downgrading | Classified Information

PE - Physical and Environmental Protection

PE-1 - Policy and Procedures

PE-2 - Physical Access Authorizations

PE-2(1) - Physical Access Authorizations | Access by Position or Role

PE-2(2) - Physical Access Authorizations | Two Forms of Identification

PE-2(3) - Physical Access Authorizations | Restrict Unescorted Access

PE-3 - Physical Access Control

PE-3(1) - Physical Access Control | System Access

PE-3(2) - Physical Access Control | Facility and Systems

PE-3(3) - Physical Access Control | Continuous Guards

PE-3(4) - Physical Access Control | Lockable Casings

PE-3(5) - Physical Access Control | Tamper Protection

PE-3(7) - Physical Access Control | Physical Barriers

PE-3(8) - Physical Access Control | Access Control Vestibules

PE-4 - Access Control for Transmission

PE-5 - Access Control for Output Devices

PE-5(2) - Access Control for Output Devices | Link to Individual Identity

PE-6 - Monitoring Physical Access

PE-6(1) - Monitoring Physical Access | Intrusion Alarms and Surveillance Equipment

PE-6(2) - Monitoring Physical Access | Automated Intrusion Recognition and Responses

PE-6(3) - Monitoring Physical Access | Video Surveillance

PE-6(4) - Monitoring Physical Access | Monitoring Physical Access to Systems

PE-8 - Visitor Access Records

PE-8(1) - Visitor Access Records | Automated Records Maintenance and Review

PE-8(3) - Visitor Access Records | Limit Personally Identifiable Information Elements

PE-9 - Power Equipment and Cabling

PE-9(1) - Power Equipment and Cabling | Redundant Cabling

PE-9(2) - Power Equipment and Cabling | Automatic Voltage Controls

PE-10 - Emergency Shutoff

PE-11 - Emergency Power

PE-11(1) - Emergency Power | Alternate Power Supply — Minimal Operational Capability

PE-11(2) - Emergency Power | Alternate Power Supply — Self-contained

PE-12 - Emergency Lighting

PE-12(1) - Emergency Lighting | Essential Mission and Business Functions

PE-13 - Fire Protection

PE-13(1) - Fire Protection | Detection Systems – Automatic Activation and Notification

PE-13(2) - Fire Protection | Suppression Systems – Automatic Activation and Notification

PE-13(4) - Fire Protection | Inspections

PE-14 - Environmental Controls

PE-14(1) - Environmental Controls | Automatic Controls

PE-14(2) - Environmental Controls | Monitoring with Alarms and Notifications

PE-15 - Water Damage Protection

PE-15(1) - Water Damage Protection | Automation Support

PE-16 - Delivery and Removal

PE-17 - Alternate Work Site

PE-18 - Location of System Components

PE-19 - Information Leakage

PE-19(1) - Information Leakage | National Emissions and Tempest Policies and Procedures

PE-20 - Asset Monitoring and Tracking

PE-21 - Electromagnetic Pulse Protection

PE-22 - Component Marking

PE-23 - Facility Location

PL - Planning

PL-1 - Policy and Procedures

PL-2 - System Security and Privacy Plans

PL-4 - Rules of Behavior

PL-4(1) - Rules of Behavior | Social Media and External Site/application Usage Restrictions

PL-7 - Concept of Operations

PL-8 - Security and Privacy Architectures

PL-8(1) - Security and Privacy Architectures | Defense in Depth

PL-8(2) - Security and Privacy Architectures | Supplier Diversity

PL-9 - Central Management

PL-10 - Baseline Selection

PL-11 - Baseline Tailoring

PM - Program Management

PM-1 - Information Security Program Plan

PM-2 - Information Security Program Leadership Role

PM-3 - Information Security and Privacy Resources

PM-4 - Plan of Action and Milestones Process

PM-5 - System Inventory

PM-5(1) - System Inventory | Inventory of Personally Identifiable Information

PM-6 - Measures of Performance

PM-7 - Enterprise Architecture

PM-7(1) - Enterprise Architecture | Offloading

PM-8 - Critical Infrastructure Plan

PM-9 - Risk Management Strategy

PM-10 - Authorization Process

PM-11 - Mission and Business Process Definition

PM-12 - Insider Threat Program

PM-13 - Security and Privacy Workforce

PM-14 - Testing, Training, and Monitoring

PM-15 - Security and Privacy Groups and Associations

PM-16 - Threat Awareness Program

PM-16(1) - Threat Awareness Program | Automated Means for Sharing Threat Intelligence

PM-17 - Protecting Controlled Unclassified Information on External Systems

PM-18 - Privacy Program Plan

PM-19 - Privacy Program Leadership Role

PM-20 - Dissemination of Privacy Program Information

PM-20(1) - Dissemination of Privacy Program Information | Privacy Policies on Websites, Applications, and Digital Services

PM-21 - Accounting of Disclosures

PM-22 - Personally Identifiable Information Quality Management

PM-23 - Data Governance Body

PM-24 - Data Integrity Board

PM-25 - Minimization of Personally Identifiable Information Used in Testing, Training, and Research

PM-26 - Complaint Management

PM-27 - Privacy Reporting

PM-28 - Risk Framing

PM-29 - Risk Management Program Leadership Roles

PM-30 - Supply Chain Risk Management Strategy

PM-30(1) - Supply Chain Risk Management Strategy | Suppliers of Critical or Mission-essential Items

PM-31 - Continuous Monitoring Strategy

PM-32 - Purposing

PS - Personnel Security

PS-1 - Policy and Procedures

PS-2 - Position Risk Designation

PS-3 - Personnel Screening

PS-3(1) - Personnel Screening | Classified Information

PS-3(2) - Personnel Screening | Formal Indoctrination

PS-3(3) - Personnel Screening | Information with Special Protective Measures

PS-3(4) - Personnel Screening | Citizenship Requirements

PS-4 - Personnel Termination

PS-4(1) - Personnel Termination | Post-employment Requirements

PS-4(2) - Personnel Termination | Automated Actions

PS-5 - Personnel Transfer

PS-6 - Access Agreements

PS-6(2) - Access Agreements | Classified Information Requiring Special Protection

PS-6(3) - Access Agreements | Post-employment Requirements

PS-7 - External Personnel Security

PS-8 - Personnel Sanctions

PS-9 - Position Descriptions

PT - Personally Identifiable Information Processing and Transparency

PT-1 - Policy and Procedures

PT-2 - Authority to Process Personally Identifiable Information

PT-2(1) - Authority to Process Personally Identifiable Information | Data Tagging

PT-2(2) - Authority to Process Personally Identifiable Information | Automation

PT-3 - Personally Identifiable Information Processing Purposes

PT-3(1) - Personally Identifiable Information Processing Purposes | Data Tagging

PT-3(2) - Personally Identifiable Information Processing Purposes | Automation

PT-4 - Consent

PT-4(1) - Consent | Tailored Consent

PT-4(2) - Consent | Just-in-time Consent

PT-4(3) - Consent | Revocation

PT-5 - Privacy Notice

PT-5(1) - Privacy Notice | Just-in-time Notice

PT-5(2) - Privacy Notice | Privacy Act Statements

PT-6 - System of Records Notice

PT-6(1) - System of Records Notice | Routine Uses

PT-6(2) - System of Records Notice | Exemption Rules

PT-7 - Specific Categories of Personally Identifiable Information

PT-7(1) - Specific Categories of Personally Identifiable Information | Social Security Numbers

PT-7(2) - Specific Categories of Personally Identifiable Information | First Amendment Information

PT-8 - Computer Matching Requirements

RA - Risk Assessment

RA-1 - Policy and Procedures

RA-2 - Security Categorization

RA-2(1) - Security Categorization | Impact-level Prioritization

RA-3 - Risk Assessment

RA-3(1) - Risk Assessment | Supply Chain Risk Assessment

RA-3(2) - Risk Assessment | Use of All-source Intelligence

RA-3(3) - Risk Assessment | Dynamic Threat Awareness

RA-3(4) - Risk Assessment | Predictive Cyber Analytics

RA-5 - Vulnerability Monitoring and Scanning

RA-5(2) - Vulnerability Monitoring and Scanning | Update Vulnerabilities to Be Scanned

RA-5(3) - Vulnerability Monitoring and Scanning | Breadth and Depth of Coverage

RA-5(4) - Vulnerability Monitoring and Scanning | Discoverable Information

RA-5(5) - Vulnerability Monitoring and Scanning | Privileged Access

RA-5(6) - Vulnerability Monitoring and Scanning | Automated Trend Analyses

RA-5(8) - Vulnerability Monitoring and Scanning | Review Historic Audit Logs

RA-5(10) - Vulnerability Monitoring and Scanning | Correlate Scanning Information

RA-5(11) - Vulnerability Monitoring and Scanning | Public Disclosure Program

RA-6 - Technical Surveillance Countermeasures Survey

RA-7 - Risk Response

RA-8 - Privacy Impact Assessments

RA-9 - Criticality Analysis

RA-10 - Threat Hunting

SA - System and Services Acquisition

SA-1 - Policy and Procedures

SA-2 - Allocation of Resources

SA-3 - System Development Life Cycle

SA-3(1) - System Development Life Cycle | Manage Preproduction Environment

SA-3(2) - System Development Life Cycle | Use of Live or Operational Data

SA-3(3) - System Development Life Cycle | Technology Refresh

SA-4 - Acquisition Process

SA-4(1) - Acquisition Process | Functional Properties of Controls

SA-4(2) - Acquisition Process | Design and Implementation Information for Controls

SA-4(3) - Acquisition Process | Development Methods, Techniques, and Practices

SA-4(5) - Acquisition Process | System, Component, and Service Configurations

SA-4(6) - Acquisition Process | Use of Information Assurance Products

SA-4(7) - Acquisition Process | Niap-approved Protection Profiles

SA-4(8) - Acquisition Process | Continuous Monitoring Plan for Controls

SA-4(9) - Acquisition Process | Functions, Ports, Protocols, and Services in Use

SA-4(10) - Acquisition Process | Use of Approved PIV Products

SA-4(11) - Acquisition Process | System of Records

SA-4(12) - Acquisition Process | Data Ownership

SA-5 - System Documentation

SA-8 - Security and Privacy Engineering Principles

SA-8(1) - Security and Privacy Engineering Principles | Clear Abstractions

SA-8(2) - Security and Privacy Engineering Principles | Least Common Mechanism

SA-8(3) - Security and Privacy Engineering Principles | Modularity and Layering

SA-8(4) - Security and Privacy Engineering Principles | Partially Ordered Dependencies

SA-8(5) - Security and Privacy Engineering Principles | Efficiently Mediated Access

SA-8(6) - Security and Privacy Engineering Principles | Minimized Sharing

SA-8(7) - Security and Privacy Engineering Principles | Reduced Complexity

SA-8(8) - Security and Privacy Engineering Principles | Secure Evolvability

SA-8(9) - Security and Privacy Engineering Principles | Trusted Components

SA-8(10) - Security and Privacy Engineering Principles | Hierarchical Trust

SA-8(11) - Security and Privacy Engineering Principles | Inverse Modification Threshold

SA-8(12) - Security and Privacy Engineering Principles | Hierarchical Protection

SA-8(13) - Security and Privacy Engineering Principles | Minimized Security Elements

SA-8(14) - Security and Privacy Engineering Principles | Least Privilege

SA-8(15) - Security and Privacy Engineering Principles | Predicate Permission

SA-8(16) - Security and Privacy Engineering Principles | Self-reliant Trustworthiness

SA-8(17) - Security and Privacy Engineering Principles | Secure Distributed Composition

SA-8(18) - Security and Privacy Engineering Principles | Trusted Communications Channels

SA-8(19) - Security and Privacy Engineering Principles | Continuous Protection

SA-8(20) - Security and Privacy Engineering Principles | Secure Metadata Management

SA-8(21) - Security and Privacy Engineering Principles | Self-analysis

SA-8(22) - Security and Privacy Engineering Principles | Accountability and Traceability

SA-8(23) - Security and Privacy Engineering Principles | Secure Defaults

SA-8(24) - Security and Privacy Engineering Principles | Secure Failure and Recovery

SA-8(25) - Security and Privacy Engineering Principles | Economic Security

SA-8(26) - Security and Privacy Engineering Principles | Performance Security

SA-8(27) - Security and Privacy Engineering Principles | Human Factored Security

SA-8(28) - Security and Privacy Engineering Principles | Acceptable Security

SA-8(29) - Security and Privacy Engineering Principles | Repeatable and Documented Procedures

SA-8(30) - Security and Privacy Engineering Principles | Procedural Rigor

SA-8(31) - Security and Privacy Engineering Principles | Secure System Modification

SA-8(32) - Security and Privacy Engineering Principles | Sufficient Documentation

SA-8(33) - Security and Privacy Engineering Principles | Minimization

SA-9 - External System Services

SA-9(1) - External System Services | Risk Assessments and Organizational Approvals

SA-9(2) - External System Services | Identification of Functions, Ports, Protocols, and Services

SA-9(3) - External System Services | Establish and Maintain Trust Relationship with Providers

SA-9(4) - External System Services | Consistent Interests of Consumers and Providers

SA-9(5) - External System Services | Processing, Storage, and Service Location

SA-9(6) - External System Services | Organization-controlled Cryptographic Keys

SA-9(7) - External System Services | Organization-controlled Integrity Checking

SA-9(8) - External System Services | Processing and Storage Location — U.s. Jurisdiction

SA-10 - Developer Configuration Management

SA-10(1) - Developer Configuration Management | Software and Firmware Integrity Verification

SA-10(2) - Developer Configuration Management | Alternative Configuration Management

SA-10(3) - Developer Configuration Management | Hardware Integrity Verification

SA-10(4) - Developer Configuration Management | Trusted Generation

SA-10(5) - Developer Configuration Management | Mapping Integrity for Version Control

SA-10(6) - Developer Configuration Management | Trusted Distribution

SA-10(7) - Developer Configuration Management | Security and Privacy Representatives

SA-11 - Developer Testing and Evaluation

SA-11(1) - Developer Testing and Evaluation | Static Code Analysis

SA-11(2) - Developer Testing and Evaluation | Threat Modeling and Vulnerability Analyses

SA-11(3) - Developer Testing and Evaluation | Independent Verification of Assessment Plans and Evidence

SA-11(4) - Developer Testing and Evaluation | Manual Code Reviews

SA-11(5) - Developer Testing and Evaluation | Penetration Testing

SA-11(6) - Developer Testing and Evaluation | Attack Surface Reviews

SA-11(7) - Developer Testing and Evaluation | Verify Scope of Testing and Evaluation

SA-11(8) - Developer Testing and Evaluation | Dynamic Code Analysis

SA-11(9) - Developer Testing and Evaluation | Interactive Application Security Testing

SA-15 - Development Process, Standards, and Tools

SA-15(1) - Development Process, Standards, and Tools | Quality Metrics

SA-15(2) - Development Process, Standards, and Tools | Security and Privacy Tracking Tools

SA-15(3) - Development Process, Standards, and Tools | Criticality Analysis

SA-15(5) - Development Process, Standards, and Tools | Attack Surface Reduction

SA-15(6) - Development Process, Standards, and Tools | Continuous Improvement

SA-15(7) - Development Process, Standards, and Tools | Automated Vulnerability Analysis

SA-15(8) - Development Process, Standards, and Tools | Reuse of Threat and Vulnerability Information

SA-15(10) - Development Process, Standards, and Tools | Incident Response Plan

SA-15(11) - Development Process, Standards, and Tools | Archive System or Component

SA-15(12) - Development Process, Standards, and Tools | Minimize Personally Identifiable Information

SA-16 - Developer-provided Training

SA-17 - Developer Security and Privacy Architecture and Design

SA-17(1) - Developer Security and Privacy Architecture and Design | Formal Policy Model

SA-17(2) - Developer Security and Privacy Architecture and Design | Security-relevant Components

SA-17(3) - Developer Security and Privacy Architecture and Design | Formal Correspondence

SA-17(4) - Developer Security and Privacy Architecture and Design | Informal Correspondence

SA-17(5) - Developer Security and Privacy Architecture and Design | Conceptually Simple Design

SA-17(6) - Developer Security and Privacy Architecture and Design | Structure for Testing

SA-17(7) - Developer Security and Privacy Architecture and Design | Structure for Least Privilege

SA-17(8) - Developer Security and Privacy Architecture and Design | Orchestration

SA-17(9) - Developer Security and Privacy Architecture and Design | Design Diversity

SA-20 - Customized Development of Critical Components

SA-21 - Developer Screening

SA-22 - Unsupported System Components

SA-23 - Specialization

SC - System and Communications Protection

SC-1 - Policy and Procedures

SC-2 - Separation of System and User Functionality

SC-2(1) - Separation of System and User Functionality | Interfaces for Non-privileged Users

SC-2(2) - Separation of System and User Functionality | Disassociability

SC-3 - Security Function Isolation

SC-3(1) - Security Function Isolation | Hardware Separation

SC-3(2) - Security Function Isolation | Access and Flow Control Functions

SC-3(3) - Security Function Isolation | Minimize Nonsecurity Functionality

SC-3(4) - Security Function Isolation | Module Coupling and Cohesiveness

SC-3(5) - Security Function Isolation | Layered Structures

SC-4 - Information in Shared System Resources

SC-4(2) - Information in Shared System Resources | Multilevel or Periods Processing

SC-5 - Denial-of-service Protection

SC-5(1) - Denial-of-service Protection | Restrict Ability to Attack Other Systems

SC-5(2) - Denial-of-service Protection | Capacity, Bandwidth, and Redundancy

SC-5(3) - Denial-of-service Protection | Detection and Monitoring

SC-6 - Resource Availability

SC-7 - Boundary Protection

SC-7(3) - Boundary Protection | Access Points

SC-7(4) - Boundary Protection | External Telecommunications Services

SC-7(5) - Boundary Protection | Deny by Default — Allow by Exception

SC-7(7) - Boundary Protection | Split Tunneling for Remote Devices

SC-7(8) - Boundary Protection | Route Traffic to Authenticated Proxy Servers

SC-7(9) - Boundary Protection | Restrict Threatening Outgoing Communications Traffic

SC-7(10) - Boundary Protection | Prevent Exfiltration

SC-7(11) - Boundary Protection | Restrict Incoming Communications Traffic

SC-7(12) - Boundary Protection | Host-based Protection

SC-7(13) - Boundary Protection | Isolation of Security Tools, Mechanisms, and Support Components

SC-7(14) - Boundary Protection | Protect Against Unauthorized Physical Connections

SC-7(15) - Boundary Protection | Networked Privileged Accesses

SC-7(16) - Boundary Protection | Prevent Discovery of System Components

SC-7(17) - Boundary Protection | Automated Enforcement of Protocol Formats

SC-7(18) - Boundary Protection | Fail Secure

SC-7(19) - Boundary Protection | Block Communication from Non-organizationally Configured Hosts

SC-7(20) - Boundary Protection | Dynamic Isolation and Segregation

SC-7(21) - Boundary Protection | Isolation of System Components

SC-7(22) - Boundary Protection | Separate Subnets for Connecting to Different Security Domains

SC-7(23) - Boundary Protection | Disable Sender Feedback on Protocol Validation Failure

SC-7(24) - Boundary Protection | Personally Identifiable Information

SC-7(25) - Boundary Protection | Unclassified National Security System Connections

SC-7(26) - Boundary Protection | Classified National Security System Connections

SC-7(27) - Boundary Protection | Unclassified Non-national Security System Connections

SC-7(28) - Boundary Protection | Connections to Public Networks

SC-7(29) - Boundary Protection | Separate Subnets to Isolate Functions

SC-8 - Transmission Confidentiality and Integrity

SC-8(1) - Transmission Confidentiality and Integrity | Cryptographic Protection

SC-8(2) - Transmission Confidentiality and Integrity | Pre- and Post-transmission Handling

SC-8(3) - Transmission Confidentiality and Integrity | Cryptographic Protection for Message Externals

SC-8(4) - Transmission Confidentiality and Integrity | Conceal or Randomize Communications

SC-8(5) - Transmission Confidentiality and Integrity | Protected Distribution System

SC-10 - Network Disconnect

SC-11 - Trusted Path

SC-11(1) - Trusted Path | Irrefutable Communications Path

SC-12 - Cryptographic Key Establishment and Management

SC-12(1) - Cryptographic Key Establishment and Management | Availability

SC-12(2) - Cryptographic Key Establishment and Management | Symmetric Keys

SC-12(3) - Cryptographic Key Establishment and Management | Asymmetric Keys

SC-12(6) - Cryptographic Key Establishment and Management | Physical Control of Keys

SC-13 - Cryptographic Protection

SC-15 - Collaborative Computing Devices and Applications

SC-15(1) - Collaborative Computing Devices and Applications | Physical or Logical Disconnect

SC-15(3) - Collaborative Computing Devices and Applications | Disabling and Removal in Secure Work Areas

SC-15(4) - Collaborative Computing Devices and Applications | Explicitly Indicate Current Participants

SC-16 - Transmission of Security and Privacy Attributes

SC-16(1) - Transmission of Security and Privacy Attributes | Integrity Verification

SC-16(2) - Transmission of Security and Privacy Attributes | Anti-spoofing Mechanisms

SC-16(3) - Transmission of Security and Privacy Attributes | Cryptographic Binding

SC-17 - Public Key Infrastructure Certificates

SC-18 - Mobile Code

SC-18(1) - Mobile Code | Identify Unacceptable Code and Take Corrective Actions

SC-18(2) - Mobile Code | Acquisition, Development, and Use

SC-18(3) - Mobile Code | Prevent Downloading and Execution

SC-18(4) - Mobile Code | Prevent Automatic Execution

SC-18(5) - Mobile Code | Allow Execution Only in Confined Environments

SC-20 - Secure Name/address Resolution Service (authoritative Source)

SC-20(2) - Secure Name/address Resolution Service (authoritative Source) | Data Origin and Integrity

SC-21 - Secure Name/address Resolution Service (recursive or Caching Resolver)

SC-22 - Architecture and Provisioning for Name/address Resolution Service

SC-23 - Session Authenticity

SC-23(1) - Session Authenticity | Invalidate Session Identifiers at Logout

SC-23(3) - Session Authenticity | Unique System-generated Session Identifiers

SC-23(5) - Session Authenticity | Allowed Certificate Authorities

SC-24 - Fail in Known State

SC-25 - Thin Nodes

SC-26 - Decoys

SC-27 - Platform-independent Applications

SC-28 - Protection of Information at Rest

SC-28(1) - Protection of Information at Rest | Cryptographic Protection

SC-28(2) - Protection of Information at Rest | Offline Storage

SC-28(3) - Protection of Information at Rest | Cryptographic Keys

SC-29 - Heterogeneity

SC-29(1) - Heterogeneity | Virtualization Techniques

SC-30 - Concealment and Misdirection

SC-30(2) - Concealment and Misdirection | Randomness

SC-30(3) - Concealment and Misdirection | Change Processing and Storage Locations

SC-30(4) - Concealment and Misdirection | Misleading Information

SC-30(5) - Concealment and Misdirection | Concealment of System Components

SC-31 - Covert Channel Analysis

SC-31(1) - Covert Channel Analysis | Test Covert Channels for Exploitability

SC-31(2) - Covert Channel Analysis | Maximum Bandwidth

SC-31(3) - Covert Channel Analysis | Measure Bandwidth in Operational Environments

SC-32 - System Partitioning

SC-32(1) - System Partitioning | Separate Physical Domains for Privileged Functions

SC-34 - Non-modifiable Executable Programs

SC-34(1) - Non-modifiable Executable Programs | No Writable Storage

SC-34(2) - Non-modifiable Executable Programs | Integrity Protection on Read-only Media

SC-35 - External Malicious Code Identification

SC-36 - Distributed Processing and Storage

SC-36(1) - Distributed Processing and Storage | Polling Techniques

SC-36(2) - Distributed Processing and Storage | Synchronization

SC-37 - Out-of-band Channels

SC-37(1) - Out-of-band Channels | Ensure Delivery and Transmission

SC-38 - Operations Security

SC-39 - Process Isolation

SC-39(1) - Process Isolation | Hardware Separation

SC-39(2) - Process Isolation | Separate Execution Domain Per Thread

SC-40 - Wireless Link Protection

SC-40(1) - Wireless Link Protection | Electromagnetic Interference

SC-40(2) - Wireless Link Protection | Reduce Detection Potential

SC-40(3) - Wireless Link Protection | Imitative or Manipulative Communications Deception

SC-40(4) - Wireless Link Protection | Signal Parameter Identification

SC-41 - Port and I/O Device Access

SC-42 - Sensor Capability and Data

SC-42(1) - Sensor Capability and Data | Reporting to Authorized Individuals or Roles

SC-42(2) - Sensor Capability and Data | Authorized Use

SC-42(4) - Sensor Capability and Data | Notice of Collection

SC-42(5) - Sensor Capability and Data | Collection Minimization

SC-43 - Usage Restrictions

SC-44 - Detonation Chambers

SC-45 - System Time Synchronization

SC-45(1) - System Time Synchronization | Synchronization with Authoritative Time Source

SC-45(2) - System Time Synchronization | Secondary Authoritative Time Source

SC-46 - Cross Domain Policy Enforcement

SC-47 - Alternate Communications Paths

SC-48 - Sensor Relocation

SC-48(1) - Sensor Relocation | Dynamic Relocation of Sensors or Monitoring Capabilities

SC-49 - Hardware-enforced Separation and Policy Enforcement

SC-50 - Software-enforced Separation and Policy Enforcement

SC-51 - Hardware-based Protection

SI - System and Information Integrity

SI-1 - Policy and Procedures

SI-2 - Flaw Remediation

SI-2(2) - Flaw Remediation | Automated Flaw Remediation Status

SI-2(3) - Flaw Remediation | Time to Remediate Flaws and Benchmarks for Corrective Actions

SI-2(4) - Flaw Remediation | Automated Patch Management Tools

SI-2(5) - Flaw Remediation | Automatic Software and Firmware Updates

SI-2(6) - Flaw Remediation | Removal of Previous Versions of Software and Firmware

SI-3 - Malicious Code Protection

SI-3(4) - Malicious Code Protection | Updates Only by Privileged Users

SI-3(6) - Malicious Code Protection | Testing and Verification

SI-3(8) - Malicious Code Protection | Detect Unauthorized Commands

SI-3(10) - Malicious Code Protection | Malicious Code Analysis

SI-4 - System Monitoring

SI-4(1) - System Monitoring | System-wide Intrusion Detection System

SI-4(2) - System Monitoring | Automated Tools and Mechanisms for Real-time Analysis

SI-4(3) - System Monitoring | Automated Tool and Mechanism Integration

SI-4(4) - System Monitoring | Inbound and Outbound Communications Traffic

SI-4(5) - System Monitoring | System-generated Alerts

SI-4(7) - System Monitoring | Automated Response to Suspicious Events

SI-4(9) - System Monitoring | Testing of Monitoring Tools and Mechanisms

SI-4(10) - System Monitoring | Visibility of Encrypted Communications

SI-4(11) - System Monitoring | Analyze Communications Traffic Anomalies

SI-4(12) - System Monitoring | Automated Organization-generated Alerts

SI-4(13) - System Monitoring | Analyze Traffic and Event Patterns

SI-4(14) - System Monitoring | Wireless Intrusion Detection

SI-4(15) - System Monitoring | Wireless to Wireline Communications

SI-4(16) - System Monitoring | Correlate Monitoring Information

SI-4(17) - System Monitoring | Integrated Situational Awareness

SI-4(18) - System Monitoring | Analyze Traffic and Covert Exfiltration

SI-4(19) - System Monitoring | Risk for Individuals

SI-4(20) - System Monitoring | Privileged Users

SI-4(21) - System Monitoring | Probationary Periods

SI-4(22) - System Monitoring | Unauthorized Network Services

SI-4(23) - System Monitoring | Host-based Devices

SI-4(24) - System Monitoring | Indicators of Compromise

SI-4(25) - System Monitoring | Optimize Network Traffic Analysis

SI-5 - Security Alerts, Advisories, and Directives

SI-5(1) - Security Alerts, Advisories, and Directives | Automated Alerts and Advisories

SI-6 - Security and Privacy Function Verification

SI-6(2) - Security and Privacy Function Verification | Automation Support for Distributed Testing

SI-6(3) - Security and Privacy Function Verification | Report Verification Results

SI-7 - Software, Firmware, and Information Integrity

SI-7(1) - Software, Firmware, and Information Integrity | Integrity Checks

SI-7(2) - Software, Firmware, and Information Integrity | Automated Notifications of Integrity Violations

SI-7(3) - Software, Firmware, and Information Integrity | Centrally Managed Integrity Tools

SI-7(5) - Software, Firmware, and Information Integrity | Automated Response to Integrity Violations

SI-7(6) - Software, Firmware, and Information Integrity | Cryptographic Protection

SI-7(7) - Software, Firmware, and Information Integrity | Integration of Detection and Response

SI-7(8) - Software, Firmware, and Information Integrity | Auditing Capability for Significant Events

SI-7(9) - Software, Firmware, and Information Integrity | Verify Boot Process

SI-7(10) - Software, Firmware, and Information Integrity | Protection of Boot Firmware

SI-7(12) - Software, Firmware, and Information Integrity | Integrity Verification

SI-7(15) - Software, Firmware, and Information Integrity | Code Authentication

SI-7(16) - Software, Firmware, and Information Integrity | Time Limit on Process Execution Without Supervision

SI-7(17) - Software, Firmware, and Information Integrity | Runtime Application Self-protection

SI-8 - Spam Protection

SI-8(2) - Spam Protection | Automatic Updates

SI-8(3) - Spam Protection | Continuous Learning Capability

SI-10 - Information Input Validation

SI-10(1) - Information Input Validation | Manual Override Capability

SI-10(2) - Information Input Validation | Review and Resolve Errors

SI-10(3) - Information Input Validation | Predictable Behavior

SI-10(4) - Information Input Validation | Timing Interactions

SI-10(5) - Information Input Validation | Restrict Inputs to Trusted Sources and Approved Formats

SI-10(6) - Information Input Validation | Injection Prevention

SI-11 - Error Handling

SI-12 - Information Management and Retention

SI-12(1) - Information Management and Retention | Limit Personally Identifiable Information Elements

SI-12(2) - Information Management and Retention | Minimize Personally Identifiable Information in Testing, Training, and Research

SI-12(3) - Information Management and Retention | Information Disposal

SI-13 - Predictable Failure Prevention

SI-13(1) - Predictable Failure Prevention | Transferring Component Responsibilities

SI-13(3) - Predictable Failure Prevention | Manual Transfer Between Components

SI-13(4) - Predictable Failure Prevention | Standby Component Installation and Notification

SI-13(5) - Predictable Failure Prevention | Failover Capability

SI-14 - Non-persistence

SI-14(1) - Non-persistence | Refresh from Trusted Sources

SI-14(2) - Non-persistence | Non-persistent Information

SI-14(3) - Non-persistence | Non-persistent Connectivity

SI-15 - Information Output Filtering

SI-16 - Memory Protection

SI-17 - Fail-safe Procedures

SI-18 - Personally Identifiable Information Quality Operations

SI-18(1) - Personally Identifiable Information Quality Operations | Automation Support

SI-18(2) - Personally Identifiable Information Quality Operations | Data Tags

SI-18(3) - Personally Identifiable Information Quality Operations | Collection

SI-18(4) - Personally Identifiable Information Quality Operations | Individual Requests

SI-18(5) - Personally Identifiable Information Quality Operations | Notice of Correction or Deletion

SI-19 - De-identification

SI-19(1) - De-identification | Collection

SI-19(2) - De-identification | Archiving

SI-19(3) - De-identification | Release

SI-19(4) - De-identification | Removal, Masking, Encryption, Hashing, or Replacement of Direct Identifiers

SI-19(5) - De-identification | Statistical Disclosure Control

SI-19(6) - De-identification | Differential Privacy

SI-19(7) - De-identification | Validated Algorithms and Software

SI-19(8) - De-identification | Motivated Intruder

SI-20 - Tainting

SI-21 - Information Refresh

SI-22 - Information Diversity

SI-23 - Information Fragmentation

SR - Supply Chain Risk Management

SR-1 - Policy and Procedures

SR-2 - Supply Chain Risk Management Plan

SR-2(1) - Supply Chain Risk Management Plan | Establish Scrm Team

SR-3 - Supply Chain Controls and Processes

SR-3(1) - Supply Chain Controls and Processes | Diverse Supply Base

SR-3(2) - Supply Chain Controls and Processes | Limitation of Harm

SR-3(3) - Supply Chain Controls and Processes | Sub-tier Flow Down

SR-4 - Provenance

SR-4(1) - Provenance | Identity

SR-4(2) - Provenance | Track and Trace

SR-4(3) - Provenance | Validate as Genuine and Not Altered

SR-4(4) - Provenance | Supply Chain Integrity — Pedigree

SR-5 - Acquisition Strategies, Tools, and Methods

SR-5(1) - Acquisition Strategies, Tools, and Methods | Adequate Supply

SR-5(2) - Acquisition Strategies, Tools, and Methods | Assessments Prior to Selection, Acceptance, Modification, or Update

SR-6 - Supplier Assessments and Reviews

SR-6(1) - Supplier Assessments and Reviews | Testing and Analysis

SR-7 - Supply Chain Operations Security

SR-8 - Notification Agreements

SR-9 - Tamper Resistance and Detection

SR-9(1) - Tamper Resistance and Detection | Multiple Stages of System Development Life Cycle

SR-10 - Inspection of Systems or Components

SR-11 - Component Authenticity

SR-11(1) - Component Authenticity | Anti-counterfeit Training

SR-11(2) - Component Authenticity | Configuration Control for Component Service and Repair

SR-11(3) - Component Authenticity | Anti-counterfeit Scanning

SR-12 - Component Disposal

SR-4(3) - Provenance | Validate as Genuine and Not Altered

Employ the following controls to validate that the system or system component received is genuine and has not been altered: [Assignment: organization-defined controls].

ID: SR-4(3)

Enhancement of : SR-4

Space Segment Guidance

Verifying that hardware, firmware, and software components are genuine and unaltered is vital for space systems, particularly during on-ground integration and testing, where malicious or counterfeit parts might slip in. This typically involves cryptographic checks on each module's firmware image and scanning hardware serials against approved vendor lists. Programs may also demand detailed chain-of-custody records, proving no unauthorized person had access to flight-critical boards. Once the platform is in orbit, further checks become limited, but ground crews can still compare reported firmware hashes with their secure repository whenever a module reboots or is updated. Spotting discrepancies can reveal if an adversarial modification occurred post-launch (though rare, it is not impossible if the uplink were compromised). A robust "verify as genuine" process ensures supply chain security, ensuring the on-orbit asset performs as expected and reducing the chance of hidden backdoors or tampered subassemblies.

Countermeasures Covered by Control

ID	Name	Description	D3FEND
CM0024	Anti-counterfeit Hardware	Develop and implement anti-counterfeit policy and procedures designed to detect and prevent counterfeit components from entering the information system, including tamper resistance and protection against the introduction of malicious code or hardware.
CM0025	Supplier Review	Conduct a supplier review prior to entering into a contractual agreement with a contractor (or sub-contractor) to acquire systems, system components, or system services.
CM0026	Original Component Manufacturer	Components/Software that cannot be procured from the original component manufacturer or their authorized franchised distribution network should be approved by the supply chain board or equivalent to prevent and detect counterfeit and fraudulent parts, materials, and software.
CM0028	Tamper Protection	Perform physical inspection of hardware to look for potential tampering. Leverage tamper proof protection where possible when shipping/receiving equipment.
CM0004	Development Environment Security	In order to secure the development environment, the first step is understanding all the devices and people who interact with it. Maintain an accurate inventory of all people and assets that touch the development environment. Ensure strong multi-factor authentication is used across the development environment, especially for code repositories, as threat actors may attempt to sneak malicious code into software that's being built without being detected. Use zero-trust access controls to the code repositories where possible. For example, ensure the main branches in repositories are protected from injecting malicious code. A secure development environment requires change management, privilege management, auditing and in-depth monitoring across the environment.
CM0005	Ground-based Countermeasures	This countermeasure is focused on the protection of terrestrial assets like ground networks and development environments/contractor networks, etc. Traditional detection technologies and capabilities would be applicable here. Utilizing resources from NIST CSF to properly secure these environments using identify, protect, detect, recover, and respond is likely warranted. Additionally, NISTIR 8401 may provide resources as well since it was developed to focus on ground-based security for space systems (https://nvlpubs.nist.gov/nistpubs/ir/2022/NIST.IR.8401.ipd.pdf). Furthermore, the MITRE ATT&CK framework provides IT focused TTPs and their mitigations https://attack.mitre.org/mitigations/enterprise/. Several recommended NIST 800-53 Rev5 controls are provided for reference when designing ground systems/networks.

Space Threats Tagged by Control

ID		Description
SV-AC-3		Compromised master keys or any encryption key
SV-SP-3		Introduction of malicious software such as a virus, worm, Distributed Denial-Of-Service (DDOS) agent, keylogger, rootkit, or Trojan Horse
SV-SP-6		Software reuse, COTS dependence, and standardization of onboard systems using building block approach with addition of open-source technology leads to supply chain threat
SV-IT-3		Compromise boot memory
SV-MA-7		Exploit ground system and use to maliciously to interact with the spacecraft
SV-AV-7		The TT&C is the lead contributor to satellite failure over the first 10 years on-orbit, around 20% of the time. The failures due to gyro are around 12% between year one and 6 on-orbit and then ramp up starting around year six and overtake the contributions of the TT&C subsystem to satellite failure. Need to ensure equipment is not counterfeit and the supply chain is sound.
SV-SP-4		General supply chain interruption or manipulation
SV-SP-5		Hardware failure (i.e., tainted hardware) {ASIC and FPGA focused}

Requirement	Rationale/Additional Guidance/Notes
The [organization] shall develop and implement anti-counterfeit policy and procedures designed to detect and prevent counterfeit components from entering the information system, including support tamper resistance and provide a level of protection against the introduction of malicious code or hardware.{SV-SP-3,SV-SP-4,SV-AV-7,SV-SP-11}{CM-3(8),CM-7(9),PM-30,SA-8(9),SA-8(11),SA-9,SA-10(3),SA-19,SC-51,SR-4(3),SR-4(4),SR-5(2),SR-11}

Related SPARTA Techniques and Sub-Techniques

ID		Name	Description
REC-0001		Gather Spacecraft Design Information	Threat actors may gather information about the victim spacecraft's design that can be used for future campaigns or to help perpetuate other techniques. Information about the spacecraft can include software, firmware, encryption type, purpose, as well as various makes and models of subsystems.
	REC-0001.01	Software	Threat actors may gather information about the victim spacecraft's internal software that can be used for future campaigns or to help perpetuate other techniques. Information (e.g. source code, binaries, etc.) about commercial, open-source, or custom developed software may include a variety of details such as types, versions, and memory maps. Leveraging this information threat actors may target vendors of operating systems, flight software, or open-source communities to embed backdoors or for performing reverse engineering research to support offensive cyber operations.
	REC-0001.02	Firmware	Threat actors may gather information about the victim spacecraft's firmware that can be used for future campaigns or to help perpetuate other techniques. Information about the firmware may include a variety of details such as type and versions on specific devices, which may be used to infer more information (ex. configuration, purpose, age/patch level, etc.). Leveraging this information threat actors may target firmware vendors to embed backdoors or for performing reverse engineering research to support offensive cyber operations.
	REC-0001.03	Cryptographic Algorithms	Threat actors may gather information about any cryptographic algorithms used on the victim spacecraft's that can be used for future campaigns or to help perpetuate other techniques. Information about the algorithms can include type and private keys. Threat actors may also obtain the authentication scheme (i.e., key/password/counter values) and leverage it to establish communications for commanding the target spacecraft or any of its subsystems. Some spacecraft only require authentication vice authentication and encryption, therefore once obtained, threat actors may use any number of means to command the spacecraft without needing to go through a legitimate channel. The authentication information may be obtained through reconnaissance of the ground system or retrieved from the victim spacecraft.
	REC-0001.04	Data Bus	Threat actors may gather information about the data bus used within the victim spacecraft that can be used for future campaigns or to help perpetuate other techniques. Information about the data bus can include the make and model which could lead to more information (ex. protocol, purpose, controller, etc.), as well as locations/addresses of major subsystems residing on the bus. Threat actors may also gather information about the bus voltages of the victim spacecraft. This information can include optimal power levels, connectors, range, and transfer rate.
	REC-0001.05	Thermal Control System	Threat actors may gather information about the thermal control system used with the victim spacecraft that can be used for future campaigns or to help perpetuate other techniques. Information gathered can include type, make/model, and varies analysis programs that monitor it.
	REC-0001.06	Maneuver & Control	Threat actors may gather information about the station-keeping control systems within the victim spacecraft that can be used for future campaigns or to help perpetuate other techniques. Information gathered can include thruster types, propulsion types, attitude sensors, and data flows associated with the relevant subsystems.
	REC-0001.07	Payload	Threat actors may gather information about the type(s) of payloads hosted on the victim spacecraft. This information could include specific commands, make and model, and relevant software. Threat actors may also gather information about the location of the payload on the bus and internal routing as it pertains to commands within the payload itself.
	REC-0001.08	Power	Threat actors may gather information about the power system used within the victim spacecraft. This information can include type, power intake, and internal algorithms. Threat actors may also gather information about the solar panel configurations such as positioning, automated tasks, and layout. Additionally, threat actors may gather information about the batteries used within the victim spacecraft. This information can include the type, quantity, storage capacity, make and model, and location.
	REC-0001.09	Fault Management	Threat actors may gather information about any fault management that may be present on the victim spacecraft. This information can help threat actors construct specific attacks that may put the spacecraft into a fault condition and potentially a more vulnerable state depending on the fault response.
REC-0002		Gather Spacecraft Descriptors	Threat actors may gather information about the victim spacecraft's descriptors that can be used for future campaigns or to help perpetuate other techniques. Information about the descriptors may include a variety of details such as identity attributes, organizational structures, and mission operational parameters.
	REC-0002.01	Identifiers	Threat actors may gather information about the victim spacecraft's identity attributes that can be used for future campaigns or to help perpetuate other techniques. Information may include a variety of details such as the satellite catalog number, international designator, mission name, and more.
	REC-0002.02	Organization	Threat actors may gather information about the victim spacecraft's associated organization(s) that can be used for future campaigns or to help perpetuate other techniques. Collection efforts may target the mission owner/operator in order to conduct further attacks against the organization, individual, or other interested parties. Threat actors may also seek information regarding the spacecraft's designer/builder, including physical locations, key employees, and roles and responsibilities as they pertain to the spacecraft, as well as information pertaining to the mission's end users/customers.
	REC-0002.03	Operations	Threat actors may gather information about the victim spacecraft's operations that can be used for future campaigns or to help perpetuate other techniques. Collection efforts may target mission objectives, orbital parameters such as orbit slot and inclination, user guides and schedules, etc. Additionally, threat actors may seek information about constellation deployments and configurations where applicable.
REC-0003		Gather Spacecraft Communications Information	Threat actors may obtain information on the victim spacecraft's communication channels in order to determine specific commands, protocols, and types. Information gathered can include commanding patterns, antenna shape and location, beacon frequency and polarization, and various transponder information.
	REC-0003.01	Communications Equipment	Threat actors may gather information regarding the communications equipment and its configuration that will be used for communicating with the victim spacecraft. This includes: Antenna Shape: This information can help determine the range in which it can communicate, the power of it's transmission, and the receiving patterns. Antenna Configuration/Location: This information can include positioning, transmission frequency, wavelength, and timing. Telemetry Signal Type: Information can include timing, radio frequency wavelengths, and other information that can provide insight into the spacecraft's telemetry system. Beacon Frequency: This information can provide insight into where the spacecrafts located, what it's orbit is, and how long it can take to communicate with a ground station. Beacon Polarization: This information can help triangulate the spacecrafts it orbits the earth and determine how a satellite must be oriented in order to communicate with the victim spacecraft. Transponder: This could include the number of transponders per band, transponder translation factor, transponder mappings, power utilization, and/or saturation point.
	REC-0003.02	Commanding Details	Threat actors may gather information regarding the commanding approach that will be used for communicating with the victim spacecraft. This includes: Commanding Signal Type: This can include timing, radio frequency wavelengths, and other information that can provide insight into the spacecraft's commanding system. Valid Commanding Patterns: Most commonly, this comes in the form of a command database, but can also include other means that provide information on valid commands and the communication protocols used by the victim spacecraft. Valid Commanding Periods: This information can provide insight into when a command will be accepted by the spacecraft and help the threat actor construct a viable attack campaign.
	REC-0003.03	Mission-Specific Channel Scanning	Threat actors may seek knowledge about mission-specific communication channels dedicated to a payload. Such channels could be managed by a different organization than the owner of the spacecraft itself.
REC-0004		Gather Launch Information	Threat actors may gather the launch date and time, location of the launch (country & specific site), organizations involved, launch vehicle, etc. This information can provide insight into protocols, regulations, and provide further targets for the threat actor, including specific vulnerabilities with the launch vehicle itself.
	REC-0004.01	Flight Termination	Threat actor may obtain information regarding the vehicle's flight termination system. Threat actors may use this information to perform later attacks and target the vehicle's termination system to have desired impact on mission.
REC-0006		Gather FSW Development Information	Threat actors may obtain information regarding the flight software (FSW) development environment for the victim spacecraft. This information may include the development environment, source code, compiled binaries, testing tools, and fault management.
	REC-0006.01	Development Environment	Threat actors may gather information regarding the development environment for the victim spacecraft's FSW. This information can include IDEs, configurations, source code, environment variables, source code repositories, code "secrets", and compiled binaries.
	REC-0006.02	Security Testing Tools	Threat actors may gather information regarding how a victim spacecraft is tested in regards to the FSW. Understanding the testing approach including tools could identify gaps and vulnerabilities that could be discovered and exploited by a threat actor.
REC-0007		Monitor for Safe-Mode Indicators	Threat actors may gather information regarding safe-mode indicators on the victim spacecraft. Safe-mode is when all non-essential systems are shut down and only essential functions within the spacecraft are active. During this mode, several commands are available to be processed that are not normally processed. Further, many protections may be disabled at this time.
REC-0008		Gather Supply Chain Information	Threat actors may gather information about a mission's supply chain or product delivery mechanisms that can be used for future campaigns or to help perpetuate other techniques.
	REC-0008.01	Hardware	Threat actors may gather information that can be used to facilitate a future attack where they manipulate hardware components in the victim spacecraft prior to the customer receiving them in order to achieve data or system compromise. The threat actor can insert backdoors and give them a high level of control over the system when they modify the hardware or firmware in the supply chain. This would include ASIC and FPGA devices as well.
	REC-0008.02	Software	Threat actors may gather information relating to the mission's software supply chain in order to facilitate future attacks to achieve data or system compromise. This attack can take place in a number of ways, including manipulation of source code, manipulation of the update and/or distribution mechanism, or replacing compiled versions with a malicious one.
	REC-0008.03	Known Vulnerabilities	Threat actors may gather information about vulnerabilities that can be used for future campaigns or to perpetuate other techniques. A vulnerability is a weakness in the victim spacecraft's hardware, subsystems, bus, or software that can, potentially, be exploited by a threat actor to cause unintended or unanticipated behavior to occur. During reconnaissance as threat actors identify the types/versions of software (i.e., COTS, open-source) being used, they will look for well-known vulnerabilities that could affect the space vehicle. Threat actors may find vulnerability information by searching leaked documents, vulnerability databases/scanners, compromising ground systems, and searching through online databases.
	REC-0008.04	Business Relationships	Adversaries may gather information about the victim's business relationships that can be used during targeting. Information about an mission’s business relationships may include a variety of details, including second or third-party organizations/domains (ex: managed service providers, contractors/sub-contractors, etc.) that have connected (and potentially elevated) network access or sensitive information. This information may also reveal supply chains and shipment paths for the victim’s hardware and software resources.
REC-0009		Gather Mission Information	Threat actors may initially seek to gain an understanding of a target mission by gathering information commonly captured in a Concept of Operations (or similar) document and related artifacts. Information of interest includes, but is not limited to: - the needs, goals, and objectives of the system - system overview and key elements/instruments - modes of operations (including operational constraints) - proposed capabilities and the underlying science/technology used to provide capabilities (i.e., scientific papers, research studies, etc.) - physical and support environments
RD-0002		Compromise Infrastructure	Threat actors may compromise third-party infrastructure that can be used for future campaigns or to perpetuate other techniques. Infrastructure solutions include physical devices such as antenna, amplifiers, and convertors, as well as software used by satellite communicators. Instead of buying or renting infrastructure, a threat actor may compromise infrastructure and use it during other phases of the campaign's lifecycle.
	RD-0002.01	Mission-Operated Ground System	Threat actors may compromise mission owned/operated ground systems that can be used for future campaigns or to perpetuate other techniques. These ground systems have already been configured for communications to the victim spacecraft. By compromising this infrastructure, threat actors can stage, launch, and execute an operation. Threat actors may utilize these systems for various tasks, including Execution and Exfiltration.
	RD-0002.02	3rd Party Ground System	Threat actors may compromise access to third-party ground systems that can be used for future campaigns or to perpetuate other techniques. These ground systems can be or may have already been configured for communications to the victim spacecraft. By compromising this infrastructure, threat actors can stage, launch, and execute an operation.
RD-0003		Obtain Capabilities	Threat actors may buy and/or steal capabilities that can be used for future campaigns or to perpetuate other techniques. Rather than developing their own capabilities in-house, threat actors may purchase, download, or steal them. Activities may include the acquisition of malware, software, exploits, and information relating to vulnerabilities. Threat actors may obtain capabilities to support their operations throughout numerous phases of the campaign lifecycle.
	RD-0003.02	Cryptographic Keys	Threat actors may obtain encryption keys as they are used for the main commanding of the target spacecraft or any of its subsystems/payloads. Once obtained, threat actors may use any number of means to command the spacecraft without needing to go through a legitimate channel. These keys may be obtained through reconnaissance of the ground system or retrieved from the victim spacecraft.
RD-0004		Stage Capabilities	Threat actors may upload, install, or otherwise set up capabilities that can be used for future campaigns or to perpetuate other techniques. To support their operations, a threat actor may need to develop their own capabilities or obtain them in some way in order to stage them on infrastructure under their control. These capabilities may be staged on infrastructure that was previously purchased or rented by the threat actor or was otherwise compromised by them.
	RD-0004.01	Identify/Select Delivery Mechanism	Threat actors may identify, select, and prepare a delivery mechanism in which to attack the space system (i.e., communicate with the victim spacecraft, deny the ground, etc.) to achieve their desired impact. This mechanism may be located on infrastructure that was previously purchased or rented by the threat actor or was otherwise compromised by them. The mechanism must include all aspects needed to communicate with the victim spacecraft, including ground antenna, converters, and amplifiers.
	RD-0004.02	Upload Exploit/Payload	Threat actors may upload exploits and payloads to a third-party infrastructure that they have purchased or rented or stage it on an otherwise compromised ground station. Exploits and payloads would include files and commands to be uploaded to the victim spacecraft in order to conduct the threat actor's attack.
IA-0001		Compromise Supply Chain	Threat actors may manipulate or compromise products or product delivery mechanisms before the customer receives them in order to achieve data or system compromise.
	IA-0001.02	Software Supply Chain	Threat actors may manipulate software binaries and applications prior to the customer receiving them in order to achieve data or system compromise. This attack can take place in a number of ways, including manipulation of source code, manipulation of the update and/or distribution mechanism, or replacing compiled versions with a malicious one.
	IA-0001.03	Hardware Supply Chain	Threat actors may manipulate hardware components in the victim spacecraft prior to the customer receiving them in order to achieve data or system compromise. The threat actor can insert backdoors and give them a high level of control over the system when they modify the hardware or firmware in the supply chain. This would include ASIC and FPGA devices as well.
IA-0002		Compromise Software Defined Radio	Threat actors may target software defined radios due to their software nature to establish C2 channels. Since SDRs are programmable, when combined with supply chain or development environment attacks, SDRs provide a pathway to setup covert C2 channels for a threat actor.
IA-0004		Secondary/Backup Communication Channel	Threat actors may compromise alternative communication pathways which may not be as protected as the primary pathway. Depending on implementation the contingency communication pathways/solutions may lack the same level of security (i.e., physical security, encryption, authentication, etc.) which if forced to use could provide a threat actor an opportunity to launch attacks. Typically these would have to be coupled with other denial of service techniques on the primary pathway to force usage of secondary pathways.
	IA-0004.01	Ground Station	Threat actors may establish a foothold within the backup ground/mission operations center (MOC) and then perform attacks to force primary communication traffic through the backup communication channel so that other TTPs can be executed (man-in-the-middle, malicious commanding, malicious code, etc.). While an attacker would not be required to force the communications through the backup channel vice waiting until the backup is used for various reasons. Threat actors can also utilize compromised ground stations to chain command execution and payload delivery across geo-separated ground stations to extend reach and maintain access on spacecraft. The backup ground/MOC should be considered a viable attack vector and the appropriate/equivalent security controls from the primary communication channel should be on the backup ground/MOC as well.
	IA-0004.02	Receiver	Threat actors may target the backup/secondary receiver on the space vehicle as a method to inject malicious communications into the mission. The secondary receivers may come from different supply chains than the primary which could have different level of security and weaknesses. Similar to the ground station, the communication through the secondary receiver could be forced or happening naturally.
IA-0006		Compromise Hosted Payload	Threat actors may compromise the target spacecraft hosted payload to initially access and/or persist within the system. Hosted payloads can usually be accessed from the ground via a specific command set. The command pathways can leverage the same ground infrastructure or some host payloads have their own ground infrastructure which can provide an access vector as well. Threat actors may be able to leverage the ability to command hosted payloads to upload files or modify memory addresses in order to compromise the system. Depending on the implementation, hosted payloads may provide some sort of lateral movement potential.
IA-0007		Compromise Ground System	Threat actors may initially compromise the ground system in order to access the target spacecraft. Once compromised, the threat actor can perform a multitude of initial access techniques, including replay, compromising FSW deployment, compromising encryption keys, and compromising authentication schemes. Threat actors may also perform further reconnaissance within the system to enumerate mission networks and gather information related to ground station logical topology, missions ran out of said ground station, birds that are in-band of targeted ground stations, and other mission system capabilities.
	IA-0007.01	Compromise On-Orbit Update	Threat actors may manipulate and modify on-orbit updates before they are sent to the target spacecraft. This attack can be done in a number of ways, including manipulation of source code, manipulating environment variables, on-board table/memory values, or replacing compiled versions with a malicious one.
	IA-0007.02	Malicious Commanding via Valid GS	Threat actors may compromise target owned ground systems components (e.g., front end processors, command and control software, etc.) that can be used for future campaigns or to perpetuate other techniques. These ground systems components have already been configured for communications to the victim spacecraft. By compromising this infrastructure, threat actors can stage, launch, and execute an operation. Threat actors may utilize these systems for various tasks, including Execution and Exfiltration.
IA-0009		Trusted Relationship	Access through trusted third-party relationship exploits an existing connection that has been approved for interconnection. Leveraging third party / approved interconnections to pivot into the target systems is a common technique for threat actors as these interconnections typically lack stringent access control due to the trusted status.
	IA-0009.01	Mission Collaborator (academia, international, etc.)	Threat actors may seek to exploit mission partners to gain an initial foothold for pivoting into the mission environment and eventually impacting the spacecraft. The complex nature of many space systems rely on contributions across organizations, including academic partners and even international collaborators. These organizations will undoubtedly vary in their system security posture and attack surface.
	IA-0009.02	Vendor	Threat actors may target the trust between vendors and the target space vehicle. Missions often grant elevated access to vendors in order to allow them to manage internal systems as well as cloud-based environments. The vendor's access may be intended to be limited to the infrastructure being maintained but it may provide laterally movement into the target space vehicle. Attackers may leverage security weaknesses in the vendor environment to gain access to more critical mission resources or network locations. In the space vehicle context vendors may have direct commanding and updating capabilities outside of the primary communication channel.
	IA-0009.03	User Segment	Threat actors can target the user segment in an effort to laterally move into other areas of the end-to-end mission architecture. When user segments are interconnected, threat actors can exploit lack of segmentation as the user segment's security undoubtedly varies in their system security posture and attack surface than the primary space mission. The user equipment and users themselves provide ample attack surface as the human element and their vulnerabilities (i.e., social engineering, phishing, iOT) are often the weakest security link and entry point into many systems.
IA-0011		Auxiliary Device Compromise	Threat actors may exploit the auxiliary/peripheral devices that get plugged into space vehicles. It is no longer atypical to see space vehicles, especially CubeSats, with Universal Serial Bus (USB) ports or other ports where auxiliary/peripheral devices can be plugged in. Threat actors can execute malicious code on the space vehicles by copying the malicious code to auxiliary/peripheral devices and taking advantage of logic on the space vehicle to execute code on these devices. This may occur through manual manipulation of the auxiliary/peripheral devices, modification of standard IT systems used to initially format/create the auxiliary/peripheral device, or modification to the auxiliary/peripheral devices' firmware itself.
IA-0012		Assembly, Test, and Launch Operation Compromise	Threat actors may target the spacecraft hardware and/or software while the spacecraft is at Assembly, Test, and Launch Operation (ATLO). ATLO is often the first time pieces of the spacecraft are fully integrated and exchanging data across interfaces. Malware could propagate from infected devices across the integrated spacecraft. For example, test equipment (i.e., transient cyber asset) is often brought in for testing elements of the spacecraft. Additionally, varying levels of physical security is in place which may be a reduction in physical security typically seen during development. The ATLO environment should be considered a viable attack vector and the appropriate/equivalent security controls from the primary development environment should be implemented during ATLO as well.
EX-0004		Compromise Boot Memory	Threat actors may manipulate boot memory in order to execute malicious code, bypass internal processes, or DoS the system. This technique can be used to perform other tactics such as Defense Evasion.
EX-0005		Exploit Hardware/Firmware Corruption	Threat actors can target the underlying hardware and/or firmware using various TTPs that will be dependent on the specific hardware/firmware. Typically, software tools (e.g., antivirus, antimalware, intrusion detection) can protect a system from threat actors attempting to take advantage of those vulnerabilities to inject malicious code. However, there exist security gaps that cannot be closed by the above-mentioned software tools since they are not stationed on software applications, drivers or the operating system but rather on the hardware itself. Hardware components, like memory modules and caches, can be exploited under specific circumstances thus enabling backdoor access to potential threat actors. In addition to hardware, the firmware itself which often is thought to be software in its own right also provides an attack surface for threat actors. Firmware is programming that's written to a hardware device's non-volatile memory where the content is saved when a hardware device is turned off or loses its external power source. Firmware is written directly onto a piece of hardware during manufacturing and it is used to run on the device and can be thought of as the software that enables hardware to run. In the space vehicle context, firmware and field programmable gate array (FPGA)/application-specific integrated circuit (ASIC) logic/code is considered equivalent to firmware.
	EX-0005.01	Design Flaws	Threat actors may target design features/flaws with the hardware design to their advantage to cause the desired impact. Threat actors may utilize the inherent design of the hardware (e.g. hardware timers, hardware interrupts, memory cells), which is intended to provide reliability, to their advantage to degrade other aspects like availability. Additionally, field programmable gate array (FPGA)/application-specific integrated circuit (ASIC) logic can be exploited just like software code can be exploited. There could be logic/design flaws embedded in the hardware (i.e., FPGA/ASIC) which may be exploitable by a threat actor.
EX-0009		Exploit Code Flaws	Threats actors may identify and exploit flaws or weaknesses within the software running on-board the target spacecraft. These attacks may be extremely targeted and tailored to specific coding errors introduced as a result of poor coding practices or they may target known issues in the commercial software components.
	EX-0009.02	Operating System	Threat actors may exploit flaws in the operating system code, which controls the storage, memory management, provides resources to the FSW, and controls the bus. There has been a trend where some modern spacecraft are running Unix-based operating systems and establishing SSH connections for communications between the ground and spacecraft. Threat actors may seek to gain access to command line interfaces & shell environments in these instances. Additionally, most operating systems, including real-time operating systems, include API functionality for operator interaction. Threat actors may seek to exploit these or abuse a vulnerability/misconfiguration to maliciously execute code or commands.
PER-0001		Memory Compromise	Threat actors may manipulate memory (boot, RAM, etc.) in order for their malicious code and/or commands to remain on the victim spacecraft. The spacecraft may have mechanisms that allow for the automatic running of programs on system reboot, entering or returning to/from safe mode, or during specific events. Threat actors may target these specific memory locations in order to store their malicious code or file, ensuring that the attack remains on the system even after a reset.
PER-0002		Backdoor	Threat actors may find and target various backdoors, or inject their own, within the victim spacecraft in the hopes of maintaining their attack.
	PER-0002.01	Hardware	Threat actors may find and target various hardware backdoors within the victim spacecraft in the hopes of maintaining their attack. Once in orbit, mitigating the risk of various hardware backdoors becomes increasingly difficult for ground controllers. By targeting these specific vulnerabilities, threat actors are more likely to remain persistent on the victim spacecraft and perpetuate further attacks.
	PER-0002.02	Software	Threat actors may inject code to create their own backdoor to establish persistent access to the spacecraft. This may be done through modification of code throughout the software supply chain or through modification of the software-defined radio configuration (if applicable).
PER-0003		Ground System Presence	Threat actors may compromise target owned ground systems that can be used for persistent access to the spacecraft or to perpetuate other techniques. These ground systems have already been configured for communications to the victim spacecraft. By compromising this infrastructure, threat actors can stage, launch, and execute persistently.
PER-0004		Replace Cryptographic Keys	Threat actors may attempt to fully replace the cryptographic keys on the space vehicle which could lockout the mission operators and enable the threat actor's communication channel. Once the encryption key is changed on the space vehicle, the spacecraft is rendered inoperable from the operators perspective as they have lost commanding access. Threat actors may exploit weaknesses in the key management strategy. For example, the threat actor may exploit the over-the-air rekeying procedures to inject their own cryptographic keys.
DE-0002		Prevent Downlink	Threat actors may target the downlink connections to prevent the victim spacecraft from sending telemetry to the ground controllers. Telemetry is the only method in which ground controllers can monitor the health and stability of the spacecraft while in orbit. By disabling this downlink, threat actors may be able to stop mitigations from taking place.
	DE-0002.01	Inhibit Ground System Functionality	Threat actors may utilize ground-system presence to inhibit the ground system software's ability to process (or display) telemetry, effectively leaving ground controllers unaware of vehicle activity during this time. Telemetry is the only method in which ground controllers can monitor the health and stability of the spacecraft while in orbit. By disabling this downlink, threat actors may be able to stop mitigations from taking place.
DE-0004		Masquerading	Threat actors may gain access to a victim spacecraft by masquerading as an authorized entity. This can be done several ways, including through the manipulation of command headers, spoofing locations, or even leveraging Insider's access (i.e., Insider Threat)
LM-0001		Hosted Payload	Threat actors may use the hosted payload within the victim spacecraft in order to gain access to other subsystems. The hosted payload often has a need to gather and send data to the internal subsystems, depending on its purpose. Threat actors may be able to take advantage of this communication in order to laterally move to the other subsystems and have commands be processed.
EXF-0006		Modify Communications Configuration	Threat actors can manipulate communications equipment, modifying the existing software, hardware, or the transponder configuration to exfiltrate data via unintentional channels the mission has no control over.
	EXF-0006.01	Software Defined Radio	Threat actors may target software defined radios due to their software nature to setup exfiltration channels. Since SDRs are programmable, when combined with supply chain or development environment attacks, SDRs provide a pathway to setup covert exfiltration channels for a threat actor.
	EXF-0006.02	Transponder	Threat actors may change the transponder configuration to exfiltrate data via radio access to an attacker-controlled asset.
EXF-0007		Compromised Ground System	Threat actors may compromise target owned ground systems that can be used for future campaigns or to perpetuate other techniques. These ground systems have already been configured for communications to the victim spacecraft. By compromising this infrastructure, threat actors can stage, launch, and execute an operation. Threat actors may utilize these systems for various tasks, including Execution and Exfiltration.
EXF-0008		Compromised Developer Site	Threat actors may compromise development environments located within the ground system or a developer/partner site. This attack can take place in a number of different ways, including manipulation of source code, manipulating environment variables, or replacing compiled versions with a malicious one. This technique is usually performed before the target spacecraft is in orbit, with the hopes of adding malicious code to the actual FSW during the development process.
EXF-0009		Compromised Partner Site	Threat actors may compromise access to partner sites that can be used for future campaigns or to perpetuate other techniques. These sites are typically configured for communications to the primary ground station(s) or in some cases the spacecraft itself. Unlike mission operated ground systems, partner sites may provide an easier target for threat actors depending on the company, roles and responsibilities, and interests of the third-party. By compromising this infrastructure, threat actors can stage, launch, and execute an operation. Threat actors may utilize these systems for various tasks, including Execution and Exfiltration.

SR-4(3) - Provenance | Validate as Genuine and Not Altered

Space Segment Guidance

Informational References

ISO 27001

Countermeasures Covered by Control

Space Threats Tagged by Control

Sample Requirements

Related SPARTA Techniques and Sub-Techniques