<Past |
Future> |
10 |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
11 |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
12 |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
13 |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
15.1 |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
16.x |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
17.x |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
20.x |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
21.x |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
Authorized w/ Constraints (POA&M) |
22.x |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
Authorized w/ Constraints [4, 16, 17, 18, 19] |
| | [1] | This Technology is currently being evaluated, reviewed, and tested in controlled environments. Use of this technology is strictly controlled and not available for use within the general population. | | [2] | Projects using this technology must meet Veteran Affair Directive 6500 and implement Federal Information Processing Standards (FIPS 199) for all laptop devices and National Institute of Standards and Technology Special Publication 800-53 for all desktop devices when Veterans Affairs (VA) sensitive information is involved, or additional mitigating controls must be documented in an authorized System Security Plan (SSP). To prevent potential disclosure of PII/PHI data, this technology may not be used with a Microsoft Access database. | | [3] | As of April 23, 2015, per the Deputy CIO of Architecture, Strategy and Design (ASD), all technologies in use by the VA require an assessment by the VA Section 508 office. Section 508 of the Rehabilitation Act Amendments of 1998 is a federal law that sets the guidelines for technology accessibility. A VA Section 508 assessment of this technology has not been completed at the time of publication. Therefore, as of April 23, 2015 only users of this technology who have deployed the technology to the production environment, or have project design and implementation plans authorized, may continue to operate this technology. In the case of a project that has implemented, or been authorized for a specific site or number of users, and that project needs to expand operations to other sites or to an increased user base, it may do so as long as the project stays on the existing version of the technology that was authorized or implemented as of April 22, 2015. Use of this technology in all other cases is prohibited.
| | [4] | Technology must remain patched and operated in accordance with Federal and Department security policies and guidelines in order to mitigate known and future security vulnerabilities. | | [5] | Veterans Affairs (VA) users must ensure VA sensitive data is properly protected in compliance with all VA regulations. All instances of deployment using this technology should be reviewed by the local ISO (Information Security Officer) to ensure compliance with VA Handbook 6500. | | [6] | In cases where the technology is used for external connections, a full Enterprise Security Change Control Board (ESCCB) review is required in accordance VA Directive 6004 , VA Directive 6517, and VA Directive 6513. The local ISO can advise on the ESCCB review process. | | [7] | Per the May 5th, 2015 memorandum from the VA Chief Information Security Officer (CISO) FIPS 140-2 Validate Full Disk Encryption (FOE) for Data at Rest in Database Management Systems (DBMS) and in accordance with Federal requirements and VA policy, database management must use Federal Information Processing Standards (FIPS) 140-2 compliant encryption to protect the confidentiality and integrity of VA information at rest at the application level. If FIPS 140-2 encryption at the application level is not technically possible, FIPS 140-2 compliant full disk encryption (FOE) must be implemented on the hard drive where the DBMS resides. Appropriate access enforcement and physical security control must also be implemented. All instances of deployment using this technology should be reviewed to ensure compliance with VA Handbook 6500 and National Institute of Standards and Technology (NIST) standards. It is the responsibility of the system owner to work with the local CIO (or designee) and Information Security Officer (ISO) to ensure that a compliant DBMS technology is selected and that if needed, mitigating controls are in place and documented in a System Security Plan (SSP). | | [8] | Per the May 5th, 2015 memorandum from the VA Chief Information Security Officer (CISO) FIPS 140-2 Validate Full Disk Encryption (FOE) for Data at Rest in Database Management Systems (DBMS) and in accordance with Federal requirements and VA policy, database management must use Federal Information Processing Standards (FIPS) 140-2 compliant encryption to protect the confidentiality and integrity of VA information at rest at the application level. If FIPS 140-2 encryption at the application level is not technically possible, FIPS 140-2 compliant full disk encryption (FOE) must be implemented on the hard drive where the DBMS resides. Appropriate access enforcement and physical security control must also be implemented. All instances of deployment using this technology should be reviewed to ensure compliance with VA Handbook 6500 and National Institute of Standards and Technology (NIST) standards. It is the responsibility of the system owner to work with the local CIO (or designee) and Information Security Officer (ISO) to ensure that a compliant DBMS technology is selected and that if needed, mitigating controls are in place and documented in a System Security Plan (SSP). | | [9] | Veterans Affairs (VA) users must ensure VA sensitive data is properly protected in compliance with all VA regulations. All instances of deployment using this technology should be reviewed by the local ISO (Information Security Officer) to ensure compliance with VA Handbook 6500. | | [10] | In cases where the technology is used for external connections, a full Enterprise Security Change Control Board (ESCCB) review is required in accordance VA Directive 6004 , VA Directive 6517, and VA Directive 6513. The local ISO can advise on the ESCCB review process. | | [11] | Veterans Affairs (VA) users must ensure VA sensitive data is properly protected in compliance with all VA regulations. All instances of deployment using this technology should be reviewed by the local ISO (Information Security Officer) to ensure compliance with VA Handbook 6500. | | [12] | Users must ensure that Oracle Database is implemented with VA-authorized baselines. (refer to the ‘Category’ tab under ‘Runtime Dependencies’) | | [13] | Per the May 5th, 2015 memorandum from the VA Chief Information Security Officer (CISO) FIPS 140-2 Validate Full Disk Encryption (FOE) for Data at Rest in Database Management Systems (DBMS) and in accordance with Federal requirements and VA policy, database management must use Federal Information Processing Standards (FIPS) 140-2 compliant encryption to protect the confidentiality and integrity of VA information at rest at the application level. If FIPS 140-2 encryption at the application level is not technically possible, FIPS 140-2 compliant full disk encryption (FOE) must be implemented on the hard drive where the DBMS resides. Appropriate access enforcement and physical security control must also be implemented. All instances of deployment using this technology should be reviewed to ensure compliance with VA Handbook 6500 and National Institute of Standards and Technology (NIST) standards. It is the responsibility of the system owner to work with the local CIO (or designee) and Information Security Officer (ISO) to ensure that a compliant DBMS technology is selected and that if needed, mitigating controls are in place and documented in a System Security Plan (SSP). | | [14] | Per the May 5th, 2015 memorandum from the VA Chief Information Security Officer (CISO) FIPS 140-2 Validate Full Disk Encryption (FOE) for Data at Rest in Database Management Systems (DBMS) and in accordance with Federal requirements and VA policy, database management must use Federal Information Processing Standards (FIPS) 140-2 compliant encryption to protect the confidentiality and integrity of VA information at rest at the application level. If FIPS 140-2 encryption at the application level is not technically possible, FIPS 140-2 compliant full disk encryption (FOE) must be implemented on the hard drive where the DBMS resides. Appropriate access enforcement and physical security control must also be implemented. All instances of deployment using this technology should be reviewed to ensure compliance with VA Handbook 6500 and National Institute of Standards and Technology (NIST) standards. It is the responsibility of the system owner to work with the local CIO (or designee) and Information System Security Officer (ISSO) to ensure that a compliant DBMS technology is selected and that if needed, mitigating controls are in place and documented in a System Security Plan (SSP). | | [15] | Veterans Affairs (VA) users must ensure VA sensitive data is properly protected in compliance with all VA regulations. All instances of deployment using this technology should be reviewed by the local ISSO (Information System Security Officer) to ensure compliance with VA Handbook 6500. | | [16] | Users must ensure that Oracle Database, Microsoft Internet Information Services (IIS), Microsoft Structured Query Language (SQL) Server, and Apache Hypertext Transfer Protocol (HTTP) Server are implemented with VA-authorized baselines. (refer to the ‘Category’ tab under ‘Runtime Dependencies’)
Users must not utilize the Secure Sockets Layer (SSL) protocol, as it is unapproved for use on the TRM.
Users must not utilize Hyper Structured Query Language (HyperSQL) Database, as it is at the time of writing, unapproved in the TRM.
This technology must use the latest TRM-authorized version of Java Runtime Environment (JRE) - Oracle.
This technology must use the latest TRM-authorized version of Java Development Kit (JDK) - Oracle. | | [17] | The Federal Information Processing standards (FIPS) 140-2 certification status of this technology was not able to be verified. This technology will require a 3rd party FIPS 140-2 or 140-3 certified solution for any data containing PHI/PII or VA sensitive information, where applicable. More information regarding the Cryptographic Module Validation Program (CMVP) can be found on the NIST website. | | [18] | Veterans Affairs (VA) users must ensure VA sensitive data is properly protected in compliance with all VA regulations. All instances of deployment using this technology should be reviewed by the local ISSO (Information System Security Officer) to ensure compliance with both VA Handbook 6500 and VA Directive 6500. | | [19] | Per the May 5th, 2015 memorandum from the VA Chief Information Security Officer (CISO) FIPS 140-2 FIPS 140-2 Validate Full Disk Encryption (FOE) for Data at Rest in Database Management Systems (DBMS) and in accordance with Federal requirements and VA policy, database management must use Federal Information Processing Standards (FIPS) 140-2 or its successor to protect the confidentiality and integrity of VA information at rest at the application level. If FIPS 140-2 encryption at the application level is not technically possible, FIPS 140-2 or 140-3 compliant full disk encryption (FOE) must be implemented on the storage device where the DBMS resides. Appropriate access enforcement and physical security control must also be implemented. All instances of deployment using this technology should be reviewed to ensure compliance with VA Handbook 6500 and National Institute of Standards and Technology (NIST) standards. It is the responsibility of the system owner to work with the local CIO (or designee) and Information System Security Officer (ISSO) to ensure that a compliant DBMS technology is selected and that if needed, mitigating controls are in place and documented in a System Security Plan (SSP). By September 22, 2026, all FIPS 140-2 certificate validations will be placed on the Historical List, please refer to FIPS Transition Effort for further guidance and timeline of changes. |
|
Note: |
At the time of writing, version 22.0 is the most current version. |