Module Name
LogRhythm FIPS Object Module for OpenSSL
Validation Dates
07/17/2019;01/24/2020
Caveat
When built, installed, protected and initialized as assumed by the Crypto Officer role and as specified in the provided Security Policy. Appendix A of the provided Security Policy specifies the actual distribution tar file containing the source code of this module. There shall be no additions, deletions or alterations to the tar file contents as used during module build. The distribution tar file shall be verified as specified in Appendix A of the provided Security Policy. Installation and protection shall be completed as specified in Appendix A of the provided Security Policy. Initialization shall be invoked as per Section 4 of the provided Security Policy. Any deviation from specified verification, protection, installation and initialization procedures will result in a non FIPS 140-2 compliant module. This validation entry is a non-security-relevant modification to Cert. #2398.
Security Level Exceptions
- Roles, Services, and Authentication: Level 2
- Physical Security: N/A
- Design Assurance: Level 3
- Mitigation of Other Attacks: N/A
Embodiment
Multi-Chip Stand Alone
Description
The LogRhythm FIPS Object Module for OpenSSL is a general purpose cryptographic module. It is designed for ease of use with the popular OpenSSL cryptographic library and toolkit and is available for use without charge for a wide variety of platforms. The basic validation can also be extended quickly and affordably to accommodate new platforms and many types of modifications.
Tested Configuration(s)
- AIX 6.1 32-bit running on IBM POWER 7 (PPC) (IBM XL C/C++ for AIX Compiler Version V10.1)
- AIX 6.1 32-bit running on IBM POWER 7 (PPC) (IBM XL C/C++ for AIX Compiler Version V13.1)
- AIX 6.1 64-bit running on IBM POWER 7 (PPC) (IBM XL C/C++ for AIX Compiler Version V10.1)
- AIX 6.1 64-bit running on IBM POWER 7 (PPC) (IBM XL C/C++ for AIX Compiler Version V13.1)
- AIX 7.1 32-bit running on IBM POWER 7 (PPC) (IBM XL C/C++ for AIX Compiler Version V13.1)
- AIX 7.1 32-bit running on IBM Power8 (PPC) with PAA (IBM XL Compiler V13.1)
- AIX 7.1 32-bit running on IBM Power8 (PPC) without PAA (IBM XL Compiler V13.1)
- AIX 7.1 64-bit running on IBM POWER 7 (PPC) (IBM XL C/C++ for AIX Compiler Version V13.1)
- AIX 7.1 64-bit running on IBM Power8 (PPC) with PAA (IBM XL Compiler V13.1)
- AIX 7.1 64-bit running on IBM Power8 (PPC) without PAA (IBM XL Compiler V13.1)
- AIX 7.2 32-bit running on IBM Power7 (PPC) without PAA (IBM XL Compiler V13.1)
- AIX 7.2 32-bit running on IBM Power8 (PPC) with PAA (IBM XL Compiler V13.1)
- AIX 7.2 32-bit running on IBM Power8 (PPC) without PAA (IBM XL Compiler V13.1)
- AIX 7.2 64-bit running on IBM Power7 (PPC) without PAA (IBM XL Compiler V13.1)
- AIX 7.2 64-bit running on IBM Power8 (PPC) with PAA (IBM XL Compiler V13.1)
- AIX 7.2 64-bit running on IBM Power8 (PPC) without PAA (IBM XL Compiler V13.1)
- Android 5.0 32-bit running on Qualcomm APQ8084 (ARMv7) with PAA (gcc Compiler Version 4.9)
- Android 5.0 32-bit running on Qualcomm APQ8084 (ARMv7) without PAA (gcc Compiler Version 4.9)
- Android 5.0 64-bit running on SAMSUNG Exynos7420 (ARMv8) with PAA and Crypto Extensions (gcc Compiler Version 4.9)
- Android 5.0 64-bit running on SAMSUNG Exynos7420 (ARMv8) without PAA and Crypto Extensions (gcc Compiler Version 4.9)
- DataGravity Discovery Series OS V2.0 running on Intel Xeon E5-2420 (x86) with PAA (gcc Compiler Version 4.7.2)
- DataGravity Discovery Series OS V2.0 running on Intel Xeon E5-2420 (x86) without PAA (gcc Compiler Version 4.7.2)
- Debian 9 running on Intel Atom E3845 (x86) with PAA (gcc Compiler Version 6.3.0)
- Debian 9 running on Intel Atom E3845 (x86) without PAA (gcc Compiler Version 6.3.0)
- ExtremeXOS-Linux 3.1 running on Cavium Octeon II (MIPS) (gcc Compiler Version 4.9.2)
- ExtremeXOS-Linux 3.18 32-bit running on Intel Atom C2558 (x86) with PAA (gcc Compiler Version 4.9.2)
- ExtremeXOS-Linux 3.18 32-bit running on Intel Atom C2558 (x86) without PAA (gcc Compiler Version 4.9.2)
- ExtremeXOS-Linux 3.18 running on Cavium Octeon II (MIPS) (gcc Compiler Version 4.9.2)
- iOS 8.1 32-bit running on Apple A7 (ARMv8) with PAA (clang Compiler Version 600.0.56)
- iOS 8.1 32-bit running on Apple A7 (ARMv8) without PAA (clang Compiler Version 600.0.56)
- iOS 8.1 64-bit running on Apple A7 (ARMv8) with PAA and Crypto Extensions (clang Compiler Version 600.0.56)
- iOS 8.1 64-bit running on Apple A7 (ARMv8) without PAA and Crypto Extensions (clang Compiler Version 600.0.56)
- Linux 3.10 32-bit running on Intel Atom E3845 (x86) with PAA (gcc Compiler Version 4.8.1)
- Linux 3.10 32-bit running on Intel Atom E3845 (x86) without PAA (gcc Compiler Version 4.8.1)
- Linux 3.12 running on NXP T2080 (PPC) (gcc Compiler Version 4.9.2)
- Microsoft Windows Server 2016 running on a Dell PowerEdge R610 with an Intel Xeon E5620 with PAA (x64) (Microsoft C/C++ Optimizing Compiler Version 19.16)
- Microsoft Windows Server 2016 running on a Dell PowerEdge R610 with an Intel Xeon E5620 without PAA (x64) (Microsoft C/C++ Optimizing Compiler Version 19.16) (single-user mode)
- SurfWare 7.2 running on TI c64 DSP (TMS320C6x Compiler Version 6.0.19)
- TS-Linux 2.4 running on Arm920Tid (ARMv4) (gcc Compiler Version 4.3.2)
- Ubuntu 12.04 running on Intel Xeon E5-2430L (x86) with PAA (gcc Compiler Version 4.6.3)
- Ubuntu 12.04 running on Intel Xeon E5-2430L (x86) without PAA (gcc Compiler Version 4.6.3)
- VxWorks 6.7 running on Intel Core 2 Duo (x86) (gcc Compiler Version 4.1.2)
- VxWorks 6.9 running on Freescale P2020 (PPC) (gcc Compiler Version 4.3.3)
FIPS Algorithms
AES |
Certs. #3090, #3264, #3451, #3751, #3990, #4141, #4391, #4469 and #C466 |
CVL |
Certs. #372, #472, #534, #699, #814, #947, #1094, #1181 and #C466 |
DRBG |
Certs. #607, #723, #845, #1027, #1182, #1256, #1414, #1451 and #C466 |
DSA |
Certs. #896, #933, #970, #1040, #1085, #1124, #1170, #1195 and #C466 |
ECDSA |
Certs. #558, #620, #698, #801, #886, #952, #1050, #1091 and #C466 |
HMAC |
Certs. #1937, #2063, #2197, #2452, #2605, #2714, #2918, #2966 and #C466 |
RSA |
Certs. #1581, #1664, #1766, #1928, #2048, #2258, #2374, #2444 and #C466 |
SHS |
Certs. #2553, #2702, #2847, #3121, #3294, #3411, #3620, #3681 and #C466 |
Triple-DES |
Certs. #1780, #1853, #1942, #2086, #2190, #2263, #2366, #2399 and #C466 |
Allowed Algorithms
EC Diffie-Hellman (key agreement; key establishment methodology provides between 112 and 256 bits of encryption strength); RSA (key wrapping; key establishment methodology provides between 112 and 152 bits of encryption strength)