Cryptographic Algorithm Validation Program CAVP

Implementation Name
Description
The OpenSSL FIPS Object Module is a full featured general purpose cryptographic library that is distributed in source code form under an open source license. It can be downloaded from www.openssl.org/source/.
Version
2.0.3
Type
SOFTWARE
Vendor
OpenSSL Software Foundation, Inc.
1829 Mount Ephraim Road
Adamstown, MD 27101
USA
Contacts
Steve Marquess
info@opensslfoundation.com
877-673-6775

TDES 1465 First Validated: 2/19/2013

Operating Environment Algorithm Capabilities
Android 4.0 on Qualcomm Snapdragon APQ8060 (ARMv7) with NEON
TDES-CBC
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xA (ARMv7) with NEON
TDES-CBC
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xD (ARMv7) with NEON
TDES-CBC
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Android 4.0 on Qualcomm Snapdragon APQ8060 (ARMv7) with NEON
TDES-CFB1
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xA (ARMv7) with NEON
TDES-CFB1
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xD (ARMv7) with NEON
TDES-CFB1
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Android 4.0 on Qualcomm Snapdragon APQ8060 (ARMv7) with NEON
TDES-CFB64
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xA (ARMv7) with NEON
TDES-CFB64
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xD (ARMv7) with NEON
TDES-CFB64
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Android 4.0 on Qualcomm Snapdragon APQ8060 (ARMv7) with NEON
TDES-CFB8
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xA (ARMv7) with NEON
TDES-CFB8
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xD (ARMv7) with NEON
TDES-CFB8
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Android 4.0 on Qualcomm Snapdragon APQ8060 (ARMv7) with NEON
TDES-CMAC
    • Capabilities:
      • Direction: Generation
      • Keying Option: 1
      • MAC: 16-64
      • Message Length: 0-524288
      • Block Size: Full, Partial
    • Capabilities:
      • Direction: Verification
      • Keying Option: 1
      • MAC: 16-64
      • Message Length: 0-524288
      • Block Size: Full, Partial
Windows Embedded Compact 7 on Freescale i.MX53xA (ARMv7) with NEON
TDES-CMAC
    • Capabilities:
      • Direction: Generation
      • Keying Option: 1
      • MAC: 16-64
      • Message Length: 0-524288
      • Block Size: Full, Partial
    • Capabilities:
      • Direction: Verification
      • Keying Option: 1
      • MAC: 16-64
      • Message Length: 0-524288
      • Block Size: Full, Partial
Windows Embedded Compact 7 on Freescale i.MX53xD (ARMv7) with NEON
TDES-CMAC
    • Capabilities:
      • Direction: Generation
      • Keying Option: 1
      • MAC: 16-64
      • Message Length: 0-524288
      • Block Size: Full, Partial
    • Capabilities:
      • Direction: Verification
      • Keying Option: 1
      • MAC: 16-64
      • Message Length: 0-524288
      • Block Size: Full, Partial
Android 4.0 on Qualcomm Snapdragon APQ8060 (ARMv7) with NEON
TDES-ECB
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xA (ARMv7) with NEON
TDES-ECB
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xD (ARMv7) with NEON
TDES-ECB
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Android 4.0 on Qualcomm Snapdragon APQ8060 (ARMv7) with NEON
TDES-OFB
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xA (ARMv7) with NEON
TDES-OFB
  • Direction: Decrypt, Encrypt
  • Keying Option: 1
Windows Embedded Compact 7 on Freescale i.MX53xD (ARMv7) with NEON
TDES-OFB
  • Direction: Decrypt, Encrypt
  • Keying Option: 1

Created October 05, 2016, Updated November 24, 2020