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Cryptography practises of the USA's National Security Agency From Wikipedia, the free encyclopedia
The vast majority of the National Security Agency's work on encryption is classified, but from time to time NSA participates in standards processes or otherwise publishes information about its cryptographic algorithms. The NSA has categorized encryption items into four product types, and algorithms into two suites. The following is a brief and incomplete summary of public knowledge about NSA algorithms and protocols.
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A Type 1 Product refers to an NSA endorsed classified or controlled cryptographic item for classified or sensitive U.S. government information, including cryptographic equipment, assembly or component classified or certified by NSA for encrypting and decrypting classified and sensitive national security information when appropriately keyed.[1]
Name | Type | Specification | Use | Equipment (incomplete list) |
---|---|---|---|---|
ACCORDIAN [sic] | R21-TECH-13-00, "ACCORDIAN 3.0 Specification" (August 2000) | AIM (1999 and 2004 brochures), SafeXcel-3340, PSIAM [2] | ||
AES (256-bit keys only) | Block cipher | FIPS 197 | Numerous | Numerous |
BATON | Block cipher | Various | PKCS#11, CDSA/CSSM, AIM (1999 and 2004 brochures), CYPRIS, APCO Project 25, MYK-85, Fortezza Plus, SecNet-11, Sierra, SafeXcel-3340, PSIAM [2] | |
BAYLESS | CYPRIS | |||
BYTEMAN | CYPRIS | |||
CARDIGAN | CYPRIS | |||
CARDHOLDER | Satellite uplink command encryption | CYPRIS, KI-17, U-AYJ Flight Decrypt Chip (Cardholder), Flight Encrypt Chip (Cardholder), MYK-16, CXS-810, CXS-2000, MCU-100, MCU-600 | ||
CARIBOU | Satellite uplink command encryption | U-TXZ, MYK-15A | ||
CRAYON | AIM (2004 brochure), CYPRIS (4 modes) | |||
FASTHASH | Cryptographic hash function | MISSI Type 1 hash | PKCS #11, CDSA/CSSM | |
FIREFLY / Enhanced FIREFLY | EKMS public-key cooperative key generation | AIM (2004), SafeXcel-3340, SecNet54, ViaSat KG-25x, PSIAM [2] | ||
GOODSPEED | Sierra II | |||
HAVE QUICK | Antijam, LPI/LPD airborne voice communication | CYPRIS | ||
JACKNIFE | AIM (2004) for IFF Mode 5 | |||
JOSEKI | R21-TECH-0062-92, "JOSEKI-1, A Bootstrap Procedures" (Oct. 1992) (also R21-TECH-13-97, R21-TECH-13-98) | Protection of secret algorithms in firmware | AIM, PSIAM [2] | |
JUNIPER | Block cipher | PKCS #11, CDSA/CSSM | ||
KEESEE | AIM (1999 and 2004 brochures), CYPRIS, PSIAM [2] | |||
Mark XII IFF | IFF secondary radar | AIM (2004 brochure) | ||
MAYFLY | Asymmetric-key algorithm | PKCS #11, CDSA/CSSM | ||
MEDLEY | R21-TECH-30-01, "MEDLEY Implementation Standard" (Nov. 2001) | AIM (2004), SecNet 54, SafeXcel-3340, ViaSat KG25x, PSIAM [2] | ||
PEGASUS | Satellite telemetry and mission data downlinks | KG-227, KG-228, KI-17, U-BLW Pegasus Space Microcircuit Chip, U-BLX Pegasus Ground Microcircuit Chip, MYK-17, CXS-810, CXS-2000, MCU-100, MCU-600 | ||
PHALANX | AIM (1999 and 2004 brochures), CYPRIS (PHALANX I and PHALANX II) | |||
SAVILLE | Low-bandwidth voice (and sometimes data) encryption | AIM (1999 and 2004 brochures), CYPRIS (2 modes), Windster (SAVILLE I), VINSON | ||
VALLOR | TTY broadcasts to submarines | AIM (2004) | ||
WALBURN | High-bandwidth link encryption | AIM (2004), KG-81/94/194/95 | ||
PADSTONE | CYPRIS (2 modes), Windster, Indictor | |||
WEASEL | SafeXcel-3340 |
A Type 2 Product refers to an NSA endorsed unclassified cryptographic equipment, assemblies or components for sensitive but unclassified U.S. government information.
Name | Type | Specification | Use | Equipment (incomplete list) |
---|---|---|---|---|
CORDOBA | CYPRIS, Windster, Indictor | |||
KEA | Asymmetric-key algorithm | R21-Tech-23-94, "Key Exchange Algorithm (KEA)" | Key exchange and digital signature algorithm for Fortezza, etc. | Fortezza, Fortezza Plus, Palladium Secure Modem |
SKIPJACK | Block cipher | R21-Tech-044-91, "SKIPJACK" | Confidentiality algorithm for Fortezza, etc. | Fortezza, Fortezza Plus, Palladium Secure Modem |
Unclassified cryptographic equipment, assembly, or component used, when appropriately keyed, for encrypting or decrypting unclassified sensitive U.S. Government or commercial information, and to protect systems requiring protection mechanisms consistent with standard commercial practices. A Type 3 Algorithm refers to NIST endorsed algorithms, registered and FIPS published, for sensitive but unclassified U.S. government and commercial information.
Name | Type | Specification | Use | Equipment (incomplete list) | |
---|---|---|---|---|---|
DES | Data Encryption Standard | Block cipher | FIPS 46-3 | Ubiquitous | Ubiquitous |
AES | Advanced Encryption Standard | Block cipher | FIPS 197 | Numerous | Numerous |
DSA | Digital Signature Algorithm | Digital signature system | FIPS 186 | Numerous | Numerous |
SHA | Secure Hash Algorithm | Cryptographic hash function | FIPS 180-2 | Ubiquitous | Ubiquitous |
A Type 4 Algorithm refers to algorithms that are registered by the NIST but are not FIPS published. Unevaluated commercial cryptographic equipment, assemblies, or components that are neither NSA nor NIST certified for any Government usage.
A set of NSA unpublished algorithms that is intended for highly sensitive communication and critical authentication systems.
A set of NSA endorsed cryptographic algorithms for use as an interoperable cryptographic base for both unclassified information and most classified information. Suite B was announced on 16 February 2005, and phased out in 2016.[3]
A set of cryptographic algorithms promulgated by the National Security Agency as a replacement for NSA Suite B Cryptography until post-quantum cryptography standards are promulgated.
In August 2015, NSA announced that it is planning to transition "in the not distant future" to a new cipher suite that is resistant to quantum attacks. "Unfortunately, the growth of elliptic curve use has bumped up against the fact of continued progress in the research on quantum computing, necessitating a re-evaluation of our cryptographic strategy." NSA advised: "For those partners and vendors that have not yet made the transition to Suite B algorithms, we recommend not making a significant expenditure to do so at this point but instead to prepare for the upcoming quantum resistant algorithm transition."[4]
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