“Panama (cryptography)”的意思、由来-开放百科全书

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Panama (cryptography)

释义

Hash function
See also
References
External links

{{redirect|PANAMA|the nation|Panama}}{{Infobox encryption method
|name = Panama (cipher)
|image =
|caption =
|designers = Joan Daemen,
Craig Clapp
|publish date = December 1998^[1]
|series =
|derived from = StepRightUp
|derived to = MUGI, RadioGatún, SHA-3
|related to =
|certification =
|key size = 256 bits
|security claim =
|state size =
|structure =
|rounds =
}}Panama is a cryptographic primitive which can be used both as a hash function and a stream cipher, but its hash function mode of operation has been broken and is not suitable for cryptographic use. Based on StepRightUp, it was designed by Joan Daemen and Craig Clapp and presented in the paper Fast Hashing and Stream Encryption with PANAMA on the Fast Software Encryption (FSE) conference 1998. The cipher has influenced several other designs, for example MUGI and SHA-3.^[2]^[3]

The primitive can be used both as a hash function and a stream cipher. The stream cipher uses a 256-bit key and the performance of the cipher is very good reaching 2 cycles per byte.

Hash function

{{Infobox encryption method
|name = Panama (hash)
|digest size = 256 bits
|related to =
|certification =
|key size =
|security claim = 2¹²⁸ (collision resistance)
|state size = 8736 bits
|block size = 256 bits
|cryptanalysis = Panama hash collisions can be generated in 2⁶ time.^[4]
}}

As a hash function, collisions have been shown by Vincent Rijmen et al. in the paper Producing Collisions for PANAMA presented at FSE 2001. The attack shows a computational complexity of 2⁸² and with negligible memory requirements.^[4]

At FSE 2007, Joan Daemen and Gilles Van Assche presented a practical attack on the Panama hash function that generates a collision in 2⁶ evaluations of the state updating function.^[5]

Guido Bertoni, Joan Daemen, Michaël Peeters, and Gilles Van Assche, at NIST's 2006 Second Cryptographic Hash Workshop, unveiled a Panama variant called RadioGatún. The hash function workings of RadioGatún does not have the known weaknesses that Panama's hash function has. In turn, RadioGatún inspired the new cryptographic standard SHA-3.^[2]

References

1. ^http://www.drdobbs.com/security/the-panama-cryptographic-function/184410745
2. ^¹http://csrc.nist.gov/groups/ST/hash/sha-3/documents/Keccak-slides-at-NIST.pdf On slide 5, it states the "startingpoint: fixing Panama"
3. ^{{cite web|url=http://drops.dagstuhl.de/opus/volltexte/2009/1958/|title=The Road from Panama to Keccak via RadioGatún|author1=Bertoni, Guido |author2=Daemen, Joan |author3=Peeters, Michaël |author4=Van Assche, Gilles |accessdate=2009-10-20}}
4. ^{{cite journal |authors=Vincent Rijmen, Bart Van Rompay, Bart Preneel, Joos Vandewalle |year=2001 |title=Producing Collisions for PANAMA |conference=FSE 2001 |url=https://www.cosic.esat.kuleuven.be/publications/article-81.ps }}
5. ^¹{{cite journal |authors=Joan Daemen, Gilles Van Assche |date=2007-04-04 |title=Producing Collisions for Panama, Instantaneously |conference=FSE 2007 |url=http://radiogatun.noekeon.org/panama/ }}

External links

John Savard's page on Panama

3 : Stream ciphers|Broken hash functions|Extendable-output functions

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Hash function

See also

References

External links