Difference between revisions of "BLAKE"
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* Website: [http://131002.net/blake/ http://131002.net/blake/] | * Website: [http://131002.net/blake/ http://131002.net/blake/] | ||
* NIST submission package: | * NIST submission package: | ||
| − | ** | + | ** Round 3: [http://csrc.nist.gov/groups/ST/hash/sha-3/Round3/documents/Blake_FinalRnd.zip Blake_FinalRnd.zip] |
| + | ** Round 1/2: [http://csrc.nist.gov/groups/ST/hash/sha-3/Round2/documents/BLAKE_Round2.zip BLAKE_Round2.zip] (old versions: [http://csrc.nist.gov/groups/ST/hash/sha-3/Round1/documents/BLAKE.zip BLAKE.zip], [http://csrc.nist.gov/groups/ST/hash/sha-3/Round1/documents/BLAKEUpdate.zip BLAKEUpdate.zip]) | ||
| + | |||
| + | <bibtex> | ||
| + | @misc{sha3AumassonHMP10, | ||
| + | author = {Jean-Philippe Aumasson and Luca Henzen and Willi Meier and Raphael C.-W. Phan}, | ||
| + | title = {SHA-3 proposal BLAKE}, | ||
| + | url = {http://131002.net/blake/blake.pdf}, | ||
| + | howpublished = {Submission to NIST (Round 3)}, | ||
| + | year = {2010}, | ||
| + | } | ||
| + | </bibtex> | ||
<bibtex> | <bibtex> | ||
| Line 11: | Line 22: | ||
author = {Jean-Philippe Aumasson and Luca Henzen and Willi Meier and Raphael C.-W. Phan}, | author = {Jean-Philippe Aumasson and Luca Henzen and Willi Meier and Raphael C.-W. Phan}, | ||
title = {SHA-3 proposal BLAKE}, | title = {SHA-3 proposal BLAKE}, | ||
| − | url = {http:// | + | url = {http://ehash.iaik.tugraz.at/uploads/0/06/Blake.pdf}, |
| − | howpublished = {Submission to NIST}, | + | howpublished = {Submission to NIST (Round 1/2)}, |
year = {2008}, | year = {2008}, | ||
} | } | ||
</bibtex> | </bibtex> | ||
| − | |||
== Cryptanalysis == | == Cryptanalysis == | ||
| Line 24: | Line 34: | ||
A description of the tables is given [http://ehash.iaik.tugraz.at/wiki/Cryptanalysis_Categories#Individual_Hash_Function_Tables here]. | A description of the tables is given [http://ehash.iaik.tugraz.at/wiki/Cryptanalysis_Categories#Individual_Hash_Function_Tables here]. | ||
| − | Recommended security parameter: ''' | + | Recommended security parameter: '''14''' rounds (n=224,256); '''16''' rounds (n=384,512) |
| + | |||
=== Hash function === | === Hash function === | ||
| Line 30: | Line 41: | ||
Here we list results on the hash function according to the NIST requirements. The only allowed modification is to change the security parameter. | Here we list results on the hash function according to the NIST requirements. The only allowed modification is to change the security parameter. | ||
| − | {| border="1" cellpadding="4" cellspacing="0" class="wikitable" style="text-align:center" | + | {| border="1" cellpadding="4" cellspacing="0" class="wikitable sortable" style="text-align:center" |
|- style="background:#efefef;" | |- style="background:#efefef;" | ||
| Type of Analysis || Hash Size (n) || Parameters || Compression Function Calls || Memory Requirements || Reference | | Type of Analysis || Hash Size (n) || Parameters || Compression Function Calls || Memory Requirements || Reference | ||
| Line 49: | Line 60: | ||
Note that these results assume more direct control or access over some internal variables (aka. free-start, pseudo, compression function, block cipher, or permutation attacks). | Note that these results assume more direct control or access over some internal variables (aka. free-start, pseudo, compression function, block cipher, or permutation attacks). | ||
| − | {| border="1" cellpadding="4" cellspacing="0" class="wikitable" style="text-align:center" | + | {| border="1" cellpadding="4" cellspacing="0" class="wikitable sortable" style="text-align:center" |
|- style="background:#efefef;" | |- style="background:#efefef;" | ||
| Type of Analysis || Hash Function Part || Hash Size (n) || Parameters/Variants || Compression Function Calls || Memory Requirements || Reference | | Type of Analysis || Hash Function Part || Hash Size (n) || Parameters/Variants || Compression Function Calls || Memory Requirements || Reference | ||
| + | |- | ||
| + | | semi-free-start near-collisions || compression function || 256 || 2 rounds || 2<sup>26</sup> || - || [http://csrc.nist.gov/groups/ST/hash/sha-3/Round2/Aug2010/documents/papers/TURAN_Paper_Erdener.pdf Turan,Uyan] | ||
| + | |- | ||
| + | | collision || hash || all || toy version BLOKE || example || - || [http://lkrv.fri.uni-lj.si/~janos/blake/collisions.pdf Vidali,Nose,Pašalic] | ||
| + | |- | ||
| + | | semi-free-start collision || compression function || all || toy version BRAKE || example || - || [http://lkrv.fri.uni-lj.si/~janos/blake/collisions.pdf Vidali,Nose,Pašalic] | ||
| + | |- | ||
| + | | near-collision || compression function || 256 || 4 rounds (No. 4-7) || 2<sup>21</sup> || - || [http://eprint.iacr.org/2010/355.pdf Su,Wu,Wu,Dong] | ||
| + | |- | ||
| + | | near-collision || compression function || 512 || 4 rounds (No. 7-10) || 2<sup>16</sup> || - || [http://eprint.iacr.org/2010/355.pdf Su,Wu,Wu,Dong] | ||
| + | |- | ||
| + | | near-collision || compression function || 512 || 5 rounds (No. 7-11) || 2<sup>216</sup> || - || [http://eprint.iacr.org/2010/355.pdf Su,Wu,Wu,Dong] | ||
| + | |- | ||
| + | | observations || hash || all || || || || [http://people.item.ntnu.no/~danilog/Hash/Non-random-behaviour-narrow-pipe-designs-03.pdf Gligoroski] | ||
|- | |- | ||
| impossible differential || permutation || 224,256 || 5 rounds || - || - || [http://eprint.iacr.org/2010/043.pdf Aumasson,Guo,Knellwolf,Matusiewicz,Meier] | | impossible differential || permutation || 224,256 || 5 rounds || - || - || [http://eprint.iacr.org/2010/043.pdf Aumasson,Guo,Knellwolf,Matusiewicz,Meier] | ||
| Line 57: | Line 82: | ||
| impossible differential || permutation || 384,512 || 6 rounds || - || - || [http://eprint.iacr.org/2010/043.pdf Aumasson,Guo,Knellwolf,Matusiewicz,Meier] | | impossible differential || permutation || 384,512 || 6 rounds || - || - || [http://eprint.iacr.org/2010/043.pdf Aumasson,Guo,Knellwolf,Matusiewicz,Meier] | ||
|- | |- | ||
| − | | near-collision || compression function || 256 || 4 rounds ( | + | | near-collision || compression function || 256 || 4 rounds (No. 3-6) || 2<sup>56</sup> || - || [http://www.jguo.org/docs/blake-col.pdf Guo,Matusiewicz] |
|- | |- | ||
| free-start collision || hash || 224,256 || 2.5 rounds || 2<sup>n/2-16</sup> || - || [http://eprint.iacr.org/2009/238.pdf Ji,Liangyu] | | free-start collision || hash || 224,256 || 2.5 rounds || 2<sup>n/2-16</sup> || - || [http://eprint.iacr.org/2009/238.pdf Ji,Liangyu] | ||
| Line 66: | Line 91: | ||
| + | <bibtex> | ||
| + | @misc{blakeTU10, | ||
| + | author = {Meltem Sönmez Turan, Erdener Uyan}, | ||
| + | title = {Practical Near-Collisions for Reduced Round Blake, Fugue, Hamsi and JH}, | ||
| + | howpublished = {Second SHA-3 Candidate Conference}, | ||
| + | year = {2010}, | ||
| + | url = {http://csrc.nist.gov/groups/ST/hash/sha-3/Round2/Aug2010/documents/papers/TURAN_Paper_Erdener.pdf}, | ||
| + | abstract = {A hash function is near-collision resistant, if it is hard to find two messages with hash values that differ in only a small number of bits. In this study, we use hill climbing methods to evaluate the near-collision resistance of some of the round SHA-3 candidates. We practically obtained (i) 184/256-bit near-collision for the 2-round compression function of Blake-32; (ii) 192/256-bit near-collision for the 2-round compression function of Hamsi-256; (iii) 820/1024-bit near-collisions for 10-round compression function of JH. We also observed practical collisions and near-collisions for reduced versions of F-256 function used in Fugue.} | ||
| + | } | ||
| + | </bibtex> | ||
| + | |||
| + | <bibtex> | ||
| + | @inproceedings{iplVNP10, | ||
| + | author = {Janoš Vidali, Peter Nose, Enes Pašalic}, | ||
| + | title = {Collisions for variants of the BLAKE hash function}, | ||
| + | url = {http://lkrv.fri.uni-lj.si/~janos/blake/collisions.pdf}, | ||
| + | booktitle = {Information Processing Letters}, | ||
| + | volume = {110}, | ||
| + | issue = {14-15}, | ||
| + | month = {July}, | ||
| + | year = {2010}, | ||
| + | pages = {585--590}, | ||
| + | publisher = {Elsevier North-Holland, Inc.}, | ||
| + | abstract = {In this paper we present an attack to the BLOKE and BRAKE hash functions, which are weakened versions of the SHA-3 candidate BLAKE. In difference to BLAKE, the BLOKE hash function does not permute the message words and constants in the round computation of the compression function, and BRAKE additionally removes feedforward and zeroes the constants used in each round of the compression function. We show that in these cases we can efficiently find, for any intermediate hash value, a fixed-point block giving us an internal collision, thus producing collisions for messages of equal length in case of BLOKE, and internal collisions for BRAKE.} | ||
| + | </bibtex> | ||
| + | <bibtex> | ||
| + | @inproceedings{skeinSuWWD10, | ||
| + | author = {Bozhan Su and Wenling Wu and Shuang Wu and Le Dong}, | ||
| + | title = {Near-Collisions on the Reduced-Round Compression Functions of Skein and BLAKE}, | ||
| + | booktitle = {CANS}, | ||
| + | year = {2010}, | ||
| + | pages = {124-139}, | ||
| + | publisher = {Springer}, | ||
| + | series = {LNCS}, | ||
| + | volume = {6467}, | ||
| + | url = {http://eprint.iacr.org/2010/355.pdf}, | ||
| + | abstract = {The SHA-3 competition organized by NIST aims to find a new hash standard as a replacement of SHA-2. Till now, 14 submissions have been selected as the second round candidates, including Skein and BLAKE, both of which have components based on modular addition, rotation and bitwise XOR (ARX). In this paper, we propose improved near-collision attacks on the reduced-round compression functions of Skein and a variant of BLAKE. The attacks are based on linear differentials of the modular additions. The computational complexity of near-collision attacks on a 4-round compression function of BLAKE-32, 4-round and 5-round compression functions of BLAKE-64 are 2^{21}, 2^{16} and 2^{216} respectively, and the attacks on a 24-round compression functions of Skein-256, Skein-512 and Skein-1024 have a complexity of 2^{60}, 2^{230} and 2^{395} respectively.} | ||
| + | } | ||
| + | </bibtex> | ||
| + | |||
| + | <bibtex> | ||
| + | @misc{blakeGli10, | ||
| + | author = {Danilo Gligoroski}, | ||
| + | title = {Narrow-pipe SHA-3 candidates differ significantly from ideal random functions defined over big domains}, | ||
| + | url = {http://people.item.ntnu.no/~danilog/Hash/Non-random-behaviour-narrow-pipe-designs-03.pdf}, | ||
| + | howpublished = {NIST hash function mailing list}, | ||
| + | year = {2010}, | ||
| + | } | ||
| + | </bibtex> | ||
<bibtex> | <bibtex> | ||
| − | @ | + | @inproceedings{cryptoeprint:2010:043, |
author = {Jean-Philippe Aumasson and Jian Guo and Simon Knellwolf | author = {Jean-Philippe Aumasson and Jian Guo and Simon Knellwolf | ||
and Krystian Matusiewicz and Willi Meier}, | and Krystian Matusiewicz and Willi Meier}, | ||
| − | title = {Differential and invertibility properties of BLAKE | + | title = {Differential and invertibility properties of BLAKE}, |
| − | + | booktitle = {FSE}, | |
| − | + | year = {2010}, | |
| + | pages = {318-332}, | ||
| + | publisher = {Springer}, | ||
| + | series = {LNCS}, | ||
| + | volume = {6147}, | ||
url = {http://eprint.iacr.org/2010/043.pdf}, | url = {http://eprint.iacr.org/2010/043.pdf}, | ||
abstract = {BLAKE is a hash function selected by NIST as one of | abstract = {BLAKE is a hash function selected by NIST as one of | ||
| Line 98: | Line 176: | ||
author = {Jian Guo and Krystian Matusiewicz}, | author = {Jian Guo and Krystian Matusiewicz}, | ||
title = {Round-Reduced Near-Collisions of BLAKE-32}, | title = {Round-Reduced Near-Collisions of BLAKE-32}, | ||
| − | url | + | howpublished = {Accepted for presentation at WEWoRC 2009}, |
| − | + | url = {http://www.jguo.org/docs/blake-col.pdf}, | |
| − | |||
year = {2009} | year = {2009} | ||
} | } | ||
| Line 111: | Line 188: | ||
howpublished = {Cryptology ePrint Archive, Report 2009/238}, | howpublished = {Cryptology ePrint Archive, Report 2009/238}, | ||
year = {2009}, | year = {2009}, | ||
| − | |||
url = {http://eprint.iacr.org/2009/238.pdf}, | url = {http://eprint.iacr.org/2009/238.pdf}, | ||
abstract = {BLAKE is a new hash family proposed for SHA-3. The | abstract = {BLAKE is a new hash family proposed for SHA-3. The | ||
Latest revision as of 10:26, 22 April 2011
1 The algorithm
- Author(s): Jean-Philippe Aumasson, Luca Henzen, Willi Meier, Raphael C.-W. Phan
- Website: http://131002.net/blake/
- NIST submission package:
- Round 3: Blake_FinalRnd.zip
- Round 1/2: BLAKE_Round2.zip (old versions: BLAKE.zip, BLAKEUpdate.zip)
Jean-Philippe Aumasson, Luca Henzen, Willi Meier, Raphael C.-W. Phan - SHA-3 proposal BLAKE
- ,2010
- http://131002.net/blake/blake.pdf
BibtexAuthor : Jean-Philippe Aumasson, Luca Henzen, Willi Meier, Raphael C.-W. Phan
Title : SHA-3 proposal BLAKE
In : -
Address :
Date : 2010
Jean-Philippe Aumasson, Luca Henzen, Willi Meier, Raphael C.-W. Phan - SHA-3 proposal BLAKE
- ,2008
- http://ehash.iaik.tugraz.at/uploads/0/06/Blake.pdf
BibtexAuthor : Jean-Philippe Aumasson, Luca Henzen, Willi Meier, Raphael C.-W. Phan
Title : SHA-3 proposal BLAKE
In : -
Address :
Date : 2008
2 Cryptanalysis
We distinguish between two cases: results on the complete hash function, and results on underlying building blocks.
A description of the tables is given here.
Recommended security parameter: 14 rounds (n=224,256); 16 rounds (n=384,512)
2.1 Hash function
Here we list results on the hash function according to the NIST requirements. The only allowed modification is to change the security parameter.
| Type of Analysis | Hash Size (n) | Parameters | Compression Function Calls | Memory Requirements | Reference |
| preimage | 224,256 | 2.5 rounds | 2n-15 | - | Ji,Liangyu |
| preimage | 384 | 2.5 rounds | 2355 | - | Ji,Liangyu |
| preimage | 512 | 2.5 rounds | 2481 | - | Ji,Liangyu |
2.2 Building blocks
Here we list results on underlying building blocks, and the hash function modified by other means than the security parameter.
Note that these results assume more direct control or access over some internal variables (aka. free-start, pseudo, compression function, block cipher, or permutation attacks).
| Type of Analysis | Hash Function Part | Hash Size (n) | Parameters/Variants | Compression Function Calls | Memory Requirements | Reference |
| semi-free-start near-collisions | compression function | 256 | 2 rounds | 226 | - | Turan,Uyan |
| collision | hash | all | toy version BLOKE | example | - | Vidali,Nose,Pašalic |
| semi-free-start collision | compression function | all | toy version BRAKE | example | - | Vidali,Nose,Pašalic |
| near-collision | compression function | 256 | 4 rounds (No. 4-7) | 221 | - | Su,Wu,Wu,Dong |
| near-collision | compression function | 512 | 4 rounds (No. 7-10) | 216 | - | Su,Wu,Wu,Dong |
| near-collision | compression function | 512 | 5 rounds (No. 7-11) | 2216 | - | Su,Wu,Wu,Dong |
| observations | hash | all | Gligoroski | |||
| impossible differential | permutation | 224,256 | 5 rounds | - | - | Aumasson,Guo,Knellwolf,Matusiewicz,Meier |
| impossible differential | permutation | 384,512 | 6 rounds | - | - | Aumasson,Guo,Knellwolf,Matusiewicz,Meier |
| near-collision | compression function | 256 | 4 rounds (No. 3-6) | 256 | - | Guo,Matusiewicz |
| free-start collision | hash | 224,256 | 2.5 rounds | 2n/2-16 | - | Ji,Liangyu |
| free-start collision | hash | 384,512 | 2.5 rounds | 2n/2-32 | - | Ji,Liangyu |
Meltem Sönmez Turan, Erdener Uyan - Practical Near-Collisions for Reduced Round Blake, Fugue, Hamsi and JH
- ,2010
- http://csrc.nist.gov/groups/ST/hash/sha-3/Round2/Aug2010/documents/papers/TURAN_Paper_Erdener.pdf
BibtexAuthor : Meltem Sönmez Turan, Erdener Uyan
Title : Practical Near-Collisions for Reduced Round Blake, Fugue, Hamsi and JH
In : -
Address :
Date : 2010
Janoš Vidali, Peter Nose, Enes Pašalic - Collisions for variants of the BLAKE hash function
- Information Processing Letters 110:585--590, July 2010
- http://lkrv.fri.uni-lj.si/~janos/blake/collisions.pdf
BibtexAuthor : Janoš Vidali, Peter Nose, Enes Pašalic
Title : Collisions for variants of the BLAKE hash function
In : Information Processing Letters -
Address :
Date : July 2010
Bozhan Su, Wenling Wu, Shuang Wu, Le Dong - Near-Collisions on the Reduced-Round Compression Functions of Skein and BLAKE
- CANS 6467:124-139,2010
- http://eprint.iacr.org/2010/355.pdf
BibtexAuthor : Bozhan Su, Wenling Wu, Shuang Wu, Le Dong
Title : Near-Collisions on the Reduced-Round Compression Functions of Skein and BLAKE
In : CANS -
Address :
Date : 2010
Danilo Gligoroski - Narrow-pipe SHA-3 candidates differ significantly from ideal random functions defined over big domains
- ,2010
- http://people.item.ntnu.no/~danilog/Hash/Non-random-behaviour-narrow-pipe-designs-03.pdf
BibtexAuthor : Danilo Gligoroski
Title : Narrow-pipe SHA-3 candidates differ significantly from ideal random functions defined over big domains
In : -
Address :
Date : 2010
Jean-Philippe Aumasson, Jian Guo, Simon Knellwolf, Krystian Matusiewicz, Willi Meier - Differential and invertibility properties of BLAKE
- FSE 6147:318-332,2010
- http://eprint.iacr.org/2010/043.pdf
BibtexAuthor : Jean-Philippe Aumasson, Jian Guo, Simon Knellwolf, Krystian Matusiewicz, Willi Meier
Title : Differential and invertibility properties of BLAKE
In : FSE -
Address :
Date : 2010
Jian Guo, Krystian Matusiewicz - Round-Reduced Near-Collisions of BLAKE-32
- ,2009
- http://www.jguo.org/docs/blake-col.pdf
BibtexAuthor : Jian Guo, Krystian Matusiewicz
Title : Round-Reduced Near-Collisions of BLAKE-32
In : -
Address :
Date : 2009
Li Ji, Xu Liangyu - Attacks on Round-Reduced BLAKE
