Module Name
RSA BSAFE® Crypto-C Micro Edition (ME)
Historical Reason
RNG SP800-131A Revision 1 Transition
Caveat
When operated in FIPS mode
Embodiment
Multi-chip standalone
Description
The Crypto-C Micro Edition (ME) Module is RSA Security Inc.'s cryptographic library designed for securing mobile devices like wireless phones and personal digital assistants. It contains assembly-level
optimizations on key wireless processors. Its functionality includes a wide range of data encryption and signing algorithms, including Triple-DES, the Advanced Encryption Standard (AES) algorithm, the RSA Public Key Cryptosystem, the DSA government signature algorithm, MD5 and SHA1 message digest routines, and more.
Tested Configuration(s)
- HP-UX 11.11 PA-RISC 2.0
- HP-UX 11.23 Itanium 2
- HP-UX 11.23 PA-RISC 2.0W
- IBM AIX 5L 5.3
- Microsoft Windows Mobile 2003
- Microsoft Windows XP SP2
- Red Hat Enterprise Linux AS3.0
- Red Hat Linux 7.2
- Solaris 8 (Sun OS 5.8) Sparc V8
- Solaris 8 (Sun OS 5.8) Sparc V8+
- Solaris 8 (Sun OS 5.8) Sparc V9
- VxWorks 5.4 PPC 604
- VxWorks 5.5 PPC 603
- VxWorks 5.5 PPC 604
Approved Algorithms
AES |
Cert. #303 |
CCM |
Cert. #7 |
DSA |
Cert. #143 |
ECDSA |
Cert. #11 |
HMAC |
Cert. #113 |
RNG |
Cert. #130 |
RSA |
Cert. #96 |
SHS |
Cert. #380 |
Triple-DES |
Cert. #378 |
Other Algorithms
MD2; MD5; HMAC MD5; DES; DES40; RC2; RC4; RC5; ECAES (non-compliant); ECDRBG (non-compliant); RSA (key wrapping, key establishment methodology provides at least 112 bits of encryption strength; non-compliant less than 112 bits of encryption strength); Diffie-Hellman (key agreement, key establishment methodology provides at least 112 bits of encryption strength; non-compliant less than 112 bits of encryption strength); EC Diffie-Hellman (key agreement, key establishment methodology provides between 112 bits and 285 bits of encryption strength; non-compliant less than 112 bits of encryption strength)