RFC6986: GOST R 34.11-2012: Hash Function

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Independent Submission                                  V. Dolmatov, Ed.
Request for Comments: 6986                                  A. Degtyarev
Updates: 5831                                            Cryptocom, Ltd.
Category: Informational                                      August 2013
ISSN: 2070-1721


                    GOST R 34.11-2012: Hash Function

Abstract

   This document is intended to be a source of information about the
   Russian Federal standard hash function (GOST R 34.11-2012), which is
   one of the Russian cryptographic standard algorithms (called GOST
   algorithms).  This document updates RFC 5831.

Status of This Memo

   This document is not an Internet Standards Track specification; it is
   published for informational purposes.

   This is a contribution to the RFC Series, independently of any other
   RFC stream.  The RFC Editor has chosen to publish this document at
   its discretion and makes no statement about its value for
   implementation or deployment.  Documents approved for publication by
   the RFC Editor are not a candidate for any level of Internet
   Standard; see Section 2 of RFC 5741.

   Information about the current status of this document, any errata,
   and how to provide feedback on it may be obtained at
   http://www.rfc-editor.org/info/rfc6986.

Copyright Notice

   Copyright (c) 2013 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents
   (http://trustee.ietf.org/license-info) in effect on the date of
   publication of this document.  Please review these documents
   carefully, as they describe your rights and restrictions with respect
   to this document.








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Table of Contents

   1. Scope ...........................................................2
   2. General Information .............................................3
   3. Standard References .............................................3
   4. Definitions and Notations .......................................4
      4.1. Definitions ................................................4
      4.2. Notations ..................................................5
   5. General Provisions ..............................................6
   6. Parameter Values ................................................6
      6.1. Initializing Values ........................................6
      6.2. Nonlinear Bijections of Binary Vector Sets .................7
      6.3. Byte Permutation ...........................................8
      6.4. Linear Transformations of Binary Vector Sets ...............8
      6.5. Iteration Constants ........................................9
   7. Transformations ................................................10
   8. Round Functions ................................................11
   9. Hash-Function Calculation Procedure ............................11
   10. Examples (Informative) ........................................13
      10.1. Example 1 ................................................13
           10.1.1. For Hash Function with 512-Bit Hash Code ..........13
           10.1.2. For Hash Function with 256-Bit Hash Code ..........19
      10.2. Example 2 ................................................25
           10.2.1. For Hash Function with 512-Bit Hash Code ..........25
           10.2.2. For Hash Function with 256-Bit Hash Code ..........32
   11. Security Considerations .......................................38
   12. References ....................................................38
      12.1. Normative References .....................................38
      12.2. Informative References ...................................39

1.  Scope

   The Russian Federal standard hash function (GOST R 34.11-2012)
   establishes the hash-function algorithm and the hash-function
   calculation procedure for any sequence of binary symbols used in
   cryptographic methods of information processing and information
   security, including techniques for providing data integrity and
   authenticity and for digital signatures during information transfer,
   information processing, and information storage in computer-aided
   systems.

   The hash function defined in the standard provides for the operation
   of digital signature systems using the asymmetric cryptographic
   algorithm in compliance with GOST R 34.10-2012 [GOST3410-2012].







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   GOST R 34.11-2012 applies to the creation, operation, and
   modernization of information systems of different purpose.

   GOST R 34.11-94 is superseded by GOST R 34.11-2012 from 1st January
   2013.  That means that all new systems that are presented for
   certification MUST use GOST R 34.11-2012 and MAY use GOST R 34.11-94
   also for maintaining compatibility with existing systems.  Usage of
   GOST R 34.11-94 in current systems is allowed at least for a 5-year
   period.

   This document updates RFC 5831 [RFC5831].

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED",  "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in RFC 2119 [RFC2119].

2.  General Information

   1.  GOST R 34.11-2012 [GOST3411-2012] was developed by the Center for
       Information Protection and Special Communications of the Federal
       Security Service of the Russian Federation with participation of
       the open joint-stock company Information Technologies and
       Communication Systems (InfoTeCS JSC).

   2.  GOST R 34.11-2012 was approved and introduced by Decree #216 of
       the Federal Agency on Technical Regulating and Metrology on
       07.08.2012.

   3.  GOST R 34.11-2012 is intended to replace GOST R 34.11-94
       [GOST3411-94], a national standard of the Russian Federation.

   Terms and concepts in the standard comply with the following
   international standards:

   o   ISO 2382-2 [ISO2382-2],
   o   ISO/IEC 9796 [ISO/IEC9796-2][ISO/IEC9796-3],
   o   series of standards ISO/IEC 14888 [ISO/IEC14888-1]
       [ISO/IEC14888-2][ISO/IEC14888-3][ISO/IEC14888-3Amd], and
   o   series of standards ISO/IEC 10118
       [ISO/IEC10118-1][ISO/IEC10118-2][ISO/IEC10118-3][ISO/IEC10118-4].

3.  Standard References

   The following standards are referred to in GOST R 34.11-2012:

   1.  GOST 28147-89 [GOST28147-89], "Systems of information processing.
       Cryptographic data security.  Algorithms of cryptographic
       transformation."



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   2.  GOST R 34.10-2012 [GOST3410-2012], "Information technology.
       Cryptographic data security.  Formation and verification
       processes of [electronic] digital signature."

   Note: Users of the standard may check the validity of the referenced
   standards on the official Internet site of the Federal Agency on
   Technical Regulating and Metrology, in the annual reference book
   "National Standards" published on January 1 of the current year, and
   in corresponding monthly indices published during the current year.
   If the referenced standard is replaced (amended), then the replaced
   (amended) standard shall be used.  If the referenced standard is
   canceled without replacement, then only the parts of this document
   not containing the specified reference may be used.

4.  Definitions and Notations

   The following terms and their corresponding definitions are used in
   the standard.

4.1.  Definitions

   padding: appending extra bits to a data string (Clause 3.9 of
   [ISO/IEC10118-1]).

   initializing value: a value used in defining the starting point of a
   hash function (Clause 3.7 of [ISO/IEC10118-1]).

   message: string of bits of any length (Clause 3.10 of
   [ISO/IEC14888-1]).

   round function: a function that transforms two binary strings of
   lengths L1 and L2 to a binary string of length L2.  It is used
   iteratively as part of a hash function, where it combines a data
   string of length L1 with the previous output of length L2 (Clause
   3.10 of [ISO/IEC10118-1]).

       Note: In GOST R 34.11-2012, the concepts "string of bits of
       length L" and "binary row vector of length L" are identical.

   hash code: string of bits that is the output of a hash function
   (Clause 3.6 of [ISO/IEC14888-1].

   collision-resistant hash function: function that maps strings of bits
   to fixed-length strings of bits, satisfying the following properties:

       1.  for a given output, it is computationally infeasible to find
           an input that maps to this output;




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       2.  for a given input, it is computationally infeasible to find a
           second input that maps to the same output; and

       3.  it is computationally infeasible to find any two distinct
           inputs that map to the same output (Clauses 3.2 and 3.7 of
           [ISO/IEC14888-1]).

           Note: In the standard (to provide terminological
           compatibility with the current native standard documentation
           and with the published scientific and technical works), the
           terms "hash function" and "cryptographic hash function" are
           synonyms.

   signature: one or more data elements resulting from the signature
   process (Clause 3.12 of [ISO/IEC 14888-1].

       Note: In the standard (to provide terminological compatibility
       with the current native standard documentation and with the
       published scientific and technical works), the terms "digital
       signature", "electronic signature", and "electronic digital
       signature" are synonyms.

4.2.  Notations

   The following notations are used in the standard:

   V*      the set of all binary row vectors of finite length
           (hereinafter referred to as vectors) including empty string

   |A|     the length (number of components) of the vector A belonging
           to V* (if A is an empty string, then |A| = 0)

   V_n     the set of all binary vectors of length n, where n is a non-
           negative integer; subvectors and vector components are
           enumerated from right to left starting from zero

   (xor)   exclusive-or of the two binary vectors of the same length

   A||B    concatenation of vectors A, B (both belong to V*), i.e., a
           vector from V_(|A|+|B|), where the left subvector from
           V_(|A|) is equal to the vector A and the right subvector from
           V_(|B|) is equal to the vector B

   A^n     concatenation of n instances of the vector A

   Z_(2^n) ring of residues modulo 2^n

   [+]     addition operation in the ring Z_(2^n)



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   Vec_n: Z_(2^n) -> V_n
           bijective-mapping operation associating an element from
           Z_(2^n) with its binary representation, i.e., for an element
           z of the ring Z_(2^n), represented by the residue
           z_0 + (2*z_1) + ... + (2^(n-1)*z_(n-1)), where z_i in {0, 1},
           j = 0, ..., n-1, the equality Vec_n(z) =
           z_(n-1)||...||z_1||z_0 holds

   Int_n: V_n -> Z_(2^n)
           the mapping inverse to the mapping Vec_n, i.e.,
           Int_n = Vec_n^(-1)

   MSB_n: V* -> V_n
           the mapping associating the vector z_(k-1)||...||z_1||z_0,
           k >= n, with the vector z_(k-1)||...||z_(k-n+1)||z_(k-n)

   a := b  operation of assigning the value b to the variable a

   PS      product of mappings, where the mapping S applies first

   M       binary vector subject to hashing procedure, M belongs to V*,
           |M| < 2^512

   H: V* -> V_n
           hash function mapping the vector (message) M into the vector
           (hash code) H(M)

   IV      hash-function initializing value, IV in V_512

5.  General Provisions

   GOST R 34.11-2012 defines two hash functions H: V* -> V_n with the
   hash-code lengths n = 512 bits and n = 256 bits.

6.  Parameter Values

6.1.  Initializing Values

   The initializing value IV for a hash function with a hash-code length
   of 512 bits is 0^512.  The initializing value IV for a hash function
   with a hash-code length of 256 bits is (00000001)^64.










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6.2.  Nonlinear Bijections of Binary Vector Sets

   Nonlinear bijection of the binary vector set V_8 is presented by the
   following substitution:

   Pi = (Vec_8)Pi'(Int_8): V_8 -> V_8

   where Pi': Z_(2^8) -> Z_(2^8).

   The values of the substitution Pi' are presented in the array form
   Pi' = (Pi'(0), Pi'(1), ... , Pi'(255)):

   Pi' = (252, 238, 221,  17, 207, 110,  49,  22, 251, 196, 250,
          218,  35, 197,   4,  77, 233, 119, 240, 219, 147,  46,
          153, 186,  23,  54, 241, 187,  20, 205,  95, 193, 249,
           24, 101,  90, 226,  92, 239,  33, 129,  28,  60,  66,
          139,   1, 142,  79,   5, 132,   2, 174, 227, 106, 143,
          160,   6,  11, 237, 152, 127, 212, 211,  31, 235,  52,
           44,  81, 234, 200,  72, 171, 242,  42, 104, 162, 253,
           58, 206, 204, 181, 112,  14,  86,   8,  12, 118,  18,
          191, 114,  19,  71, 156, 183,  93, 135,  21, 161, 150,
           41,  16, 123, 154, 199, 243, 145, 120, 111, 157, 158,
          178, 177,  50, 117,  25,  61, 255,  53, 138, 126, 109,
           84, 198, 128, 195, 189,  13,  87, 223, 245,  36, 169,
           62, 168,  67, 201, 215, 121, 214, 246, 124,  34, 185,
            3, 224,  15, 236, 222, 122, 148, 176, 188, 220, 232,
           40,  80,  78,  51,  10,  74, 167, 151,  96, 115,  30,
            0,  98,  68,  26, 184,  56, 130, 100, 159,  38,  65,
          173,  69,  70, 146,  39,  94,  85,  47, 140, 163, 165,
          125, 105, 213, 149,  59,   7,  88, 179,  64, 134, 172,
           29, 247,  48,  55, 107, 228, 136, 217, 231, 137, 225,
           27, 131,  73,  76,  63, 248, 254, 141,  83, 170, 144,
          202, 216, 133,  97,  32, 113, 103, 164,  45,  43,   9,
           91, 203, 155,  37, 208, 190, 229, 108,  82,  89, 166,
          116, 210, 230, 244, 180, 192, 209, 102, 175, 194,  57,
           75,  99, 182)















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6.3.  Byte Permutation

   The values of the permutation Tau belonging to S_64 are presented in
   the array form Tau = (Tau(0), Tau(1), ..., Tau(63)):

   Tau = (0,  8, 16, 24, 32, 40, 48, 56,
          1,  9, 17, 25, 33, 41, 49, 57,
          2, 10, 18, 26, 34, 42, 50, 58,
          3, 11, 19, 27, 35, 43, 51, 59,
          4, 12, 20, 28, 36, 44, 52, 60,
          5, 13, 21, 29, 37, 45, 53, 61,
          6, 14, 22, 30, 38, 46, 54, 62,
          7, 15, 23, 31, 39, 47, 55, 63)

6.4.  Linear Transformations of Binary Vector Sets

   Linear transformation l of the binary vector set V_64 is specified by
   the right multiplication with the matrix A over the field GF(2).  The
   matrix rows are specified sequentially in a hexadecimal form.  The
   row with number j, j = 0, ..., 63 (specified in the form
   a_(j, 15)...a_(j, 0), where a_(j, i) belongs to Z_16, i = 0, ...,
   15), is Vec_4(a_(j, 15))||...||Vec_4(a_(j, 0)).

   8e20faa72ba0b470 47107ddd9b505a38 ad08b0e0c3282d1c d8045870ef14980e
   6c022c38f90a4c07 3601161cf205268d 1b8e0b0e798c13c8 83478b07b2468764
   a011d380818e8f40 5086e740ce47c920 2843fd2067adea10 14aff010bdd87508
   0ad97808d06cb404 05e23c0468365a02 8c711e02341b2d01 46b60f011a83988e
   90dab52a387ae76f 486dd4151c3dfdb9 24b86a840e90f0d2 125c354207487869
   092e94218d243cba 8a174a9ec8121e5d 4585254f64090fa0 accc9ca9328a8950
   9d4df05d5f661451 c0a878a0a1330aa6 60543c50de970553 302a1e286fc58ca7
   18150f14b9ec46dd 0c84890ad27623e0 0642ca05693b9f70 0321658cba93c138
   86275df09ce8aaa8 439da0784e745554 afc0503c273aa42a d960281e9d1d5215
   e230140fc0802984 71180a8960409a42 b60c05ca30204d21 5b068c651810a89e
   456c34887a3805b9 ac361a443d1c8cd2 561b0d22900e4669 2b838811480723ba
   9bcf4486248d9f5d c3e9224312c8c1a0 effa11af0964ee50 f97d86d98a327728
   e4fa2054a80b329c 727d102a548b194e 39b008152acb8227 9258048415eb419d
   492c024284fbaec0 aa16012142f35760 550b8e9e21f7a530 a48b474f9ef5dc18
   70a6a56e2440598e 3853dc371220a247 1ca76e95091051ad 0edd37c48a08a6d8
   07e095624504536c 8d70c431ac02a736 c83862965601dd1b 641c314b2b8ee083

   Here one string contains 4 rows of the matrix A.  So, the string with
   number i, i = 0, ..., 15, specifies 4 rows of the matrix A (with the
   numbers 4i + j, j = 0, ..., 3) in the following left-to-right order:
   4i + 0, 4i + 1, 4i + 2, 4i + 3.







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   The product of the vector b = b_63...b_0 belonging to V_64 and the
   matrix A is the vector c belonging to V_64:

   c = b_63(Vec_4(a_(0, 15))||...||Vec_4(a_(0, 0)))     (xor)
       ...                                              (xor)
       b_0(Vec_4(a_(63, 15))||...||Vec_4(a_(63, 0)))

   where

   b_i(Vec_4(a_(63-i, 15))||...||Vec_4(a_(63-i, 0))) =

      = 0^64, if b_i = 0

      = (Vec_4(a_(63-i, 15))||...||Vec_4(a_(63-i, 0))), if b_i = 1

   for all i = 0, ..., 63.

6.5.  Iteration Constants

   Iteration constants are specified in a hexadecimal form.  The
   constant value specified in the form a_127...a_0 (where a_i belongs
   to Z_16, i = 0, ..., 127) is Vec_4(a_127)||...||Vec_4(a_0):

   C[1] = b1085bda1ecadae9ebcb2f81c0657c1f
          2f6a76432e45d016714eb88d7585c4fc
          4b7ce09192676901a2422a08a460d315
          05767436cc744d23dd806559f2a64507

   C[2] = 6fa3b58aa99d2f1a4fe39d460f70b5d7
          f3feea720a232b9861d55e0f16b50131
          9ab5176b12d699585cb561c2db0aa7ca
          55dda21bd7cbcd56e679047021b19bb7

   C[3] = f574dcac2bce2fc70a39fc286a3d8435
          06f15e5f529c1f8bf2ea7514b1297b7b
          d3e20fe490359eb1c1c93a376062db09
          c2b6f443867adb31991e96f50aba0ab2

   C[4] = ef1fdfb3e81566d2f948e1a05d71e4dd
          488e857e335c3c7d9d721cad685e353f
          a9d72c82ed03d675d8b71333935203be
          3453eaa193e837f1220cbebc84e3d12e

   C[5] = 4bea6bacad4747999a3f410c6ca92363
          7f151c1f1686104a359e35d7800fffbd
          bfcd1747253af5a3dfff00b723271a16
          7a56a27ea9ea63f5601758fd7c6cfe57




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   C[6] = ae4faeae1d3ad3d96fa4c33b7a3039c0
          2d66c4f95142a46c187f9ab49af08ec6
          cffaa6b71c9ab7b40af21f66c2bec6b6
          bf71c57236904f35fa68407a46647d6e

   C[7] = f4c70e16eeaac5ec51ac86febf240954
          399ec6c7e6bf87c9d3473e33197a93c9
          0992abc52d822c3706476983284a0504
          3517454ca23c4af38886564d3a14d493

   C[8] = 9b1f5b424d93c9a703e7aa020c6e4141
          4eb7f8719c36de1e89b4443b4ddbc49a
          f4892bcb929b069069d18d2bd1a5c42f
          36acc2355951a8d9a47f0dd4bf02e71e

   C[9] = 378f5a541631229b944c9ad8ec165fde
          3a7d3a1b258942243cd955b7e00d0984
          800a440bdbb2ceb17b2b8a9aa6079c54
          0e38dc92cb1f2a607261445183235adb

   C[10] = abbedea680056f52382ae548b2e4f3f3
           8941e71cff8a78db1fffe18a1b336103
           9fe76702af69334b7a1e6c303b7652f4
           3698fad1153bb6c374b4c7fb98459ced

   C[11] = 7bcd9ed0efc889fb3002c6cd635afe94
           d8fa6bbbebab07612001802114846679
           8a1d71efea48b9caefbacd1d7d476e98
           dea2594ac06fd85d6bcaa4cd81f32d1b

   C[12] = 378ee767f11631bad21380b00449b17a
           cda43c32bcdf1d77f82012d430219f9b
           5d80ef9d1891cc86e71da4aa88e12852
           faf417d5d9b21b9948bc924af11bd720

7.  Transformations

   For calculating the hash code H(M) of the message M belonging to V*,
   the following transformations are used:

      X[k]: V_512 -> V_512,
      X[k](a) = k (xor) a, k, a belongs to V_512;

      S:V_512 -> V_512,
      S(a) = S(a_63||...||a_0) = Pi(a_63)||...||Pi(a_0), where
      a = a_63||...||a_0 belongs to V_512, a_i belongs to V_8,
      i = 0, ..., 63;




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      P:V_512 -> V_512,
      P(a) = P(a_63||...||a_0) = a_(Tau(63))||...||a_(Tau(0)), where
      a = a_63||...||a_0 belongs to V_512, a_i belongs to V_8,
      i = 0, ..., 63;

      L:V_512 -> V_512,
      L(a) = L(a_7||...||a_0) = l(a_7)||...||l(a_0), where
      a = a_7||...||a_0 belongs to V_512, a_i belongs to V_64,
      i = 0, ..., 7.

8.  Round Functions

   The hash-code value of the message M belonging to V* is calculated
   using the iterative procedure.  Each iteration is provided using the
   round function:

      g_N:V_512 x V_512 -> V_512, where N belongs to V_512

   calculated as

      g_N(h, m) = E(LPS(h (xor) N), m) (xor) h (xor) m

   where

      E(K, m) = X[K[13]]LPSX[K[12]]...LPSX[K[2]]LPSX[K[1]](m)

   Values K[i] belonging to V_512, i = 1, ..., 13, are calculated as
   follows:

      K[1] = K

      K[i] = LPS(K[i-1] (xor) C[i-1]), i = 2, ..., 13

9.  Hash-Function Calculation Procedure

   Initial data for the procedure of calculating the hash code H(M) are
   a message M belonging to V* (subject to hashing) and initializing
   value IV belonging to V_512.  The algorithm for calculating the
   function H consists of the following steps.

   Step 1.  Assign initial values to the following variables:

      1.1.  h := IV

      1.2.  N := 0^512 belonging to V_512

      1.3.  EPSILON := 0^512 belonging to V_512




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      1.4.  Go to Step 2.

   Step 2.

      2.1.  Check the condition |M| < 512

            If it is true, then go to Step 3.
            Else, perform the following calculations:

      2.2.  Calculate the subvector m belonging to V_512 of the message
            M:

            M = M'||m

            Then perform the following calculations:

      2.3.  h := g_N(h, m)

      2.4.  N := Vec_512(Int_512(N) [+] 512)

      2.5.  EPSILON := Vec_512(Int_512(EPSILON) [+] Int_512(m))

      2.6.  M := M'

      2.7.  Go to Step 2.1.

   Step 3.

      3.1.  m := 0^511-|M|||l||M

      3.2.  h := g_N(h, m)

      3.3.  N := Vec_512(Int_512(N) [+] |M|)

      3.4.  EPSILON := Vec_512(Int_512(EPSILON) [+] Int_512(m))

      3.5.  h := g_0(h, N)

      3.6.  h := g_0(h, EPSILON), for function with 512-bit hash code

            h := MSB_256(g_0(h, EPSILON)), for function with 256-bit
            hash code

      3.7.  End of the algorithm

   The value of the variable h (obtained in Step 3.6) is the value of
   hash function H(M).




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10.  Examples (Informative)

   This section is for information only and is not a normative part of
   the standard.

   The vectors from V* are specified in a hexadecimal form.  The vector
   A belonging to V_(4n) (specified in the form a_(n-1)...a_0, where a_i
   belongs to Z_16, i = 0, ..., n-1) is Vec_4(a_(n-1))||...||Vec_4(a_0).

10.1.  Example 1

   Let's calculate the hash code of the following message (represented
   as a hexadecimal string):

   M1 = 32313039383736353433323130393837
        36353433323130393837363534333231
        30393837363534333231303938373635
        343332313039383736353433323130

10.1.1.  For Hash Function with 512-Bit Hash Code

   Assign the following values to the variables:

   h := IV = 0^512

   N := 0^512

   EPSILON := 0^512

   The length of the message is |M1| = 504 < 512, so the incomplete
   block is padded:

   m := 01323130393837363534333231303938
        37363534333231303938373635343332
        31303938373635343332313039383736
        35343332313039383736353433323130

   Calculate

   K := LPS(h (xor) N) = LPS(0^512).

   After the transformation S:

   S(h (xor) N) = fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                  fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                  fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                  fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc




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   after the transformation P:

   PS(h (xor) N) = fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                   fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                   fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                   fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc

   after the transformation L:

   K := LPS(h (xor) N) = b383fc2eced4a574b383fc2eced4a574
                         b383fc2eced4a574b383fc2eced4a574
                         b383fc2eced4a574b383fc2eced4a574
                         b383fc2eced4a574b383fc2eced4a574

   Then the transformation E(K, m) is performed:

   Iteration 1

   K[1]          = b383fc2eced4a574b383fc2eced4a574
                   b383fc2eced4a574b383fc2eced4a574
                   b383fc2eced4a574b383fc2eced4a574
                   b383fc2eced4a574b383fc2eced4a574

   X[K[1]](m)    = b2b1cd1ef7ec924286b7cf1cffe49c4c
                   84b5c91afde694448abbcb18fbe09646
                   82b3c516f9e2904080b1cd1ef7ec9242
                   86b7cf1cffe49c4c84b5c91afde69444

   SX[K[1]](m)   = 4645d95fc0beec2c432f8914b62d4efd
                   3e5e37f14b097aead67de417c220b048
                   2492ac996667e0ebdf45d95fc0beec2c
                   432f8914b62d4efd3e5e37f14b097aea

   PSX[K[1]](m)  = 46433ed624df433e452f5e7d92452f5e
                   d98937e4acd989375f14f117995f14f1
                   c0b64bc266c0b64bbe2d092067be2d09
                   ec4e7ab0e0ec4e7a2cfdea48eb2cfdea

   LPSX[K[1]](m) = e60059d4d8e0758024c73f6f3183653f
                   56579189602ae4c21e7953ebc0e212a0
                   ce78a8df475c2fd4fc43fc4b71c01e35
                   be465fb20dad2cf690cdf65028121bb9

   K[1] (xor) C[1] = 028ba7f4d01e7f9d5848d3af0eb1d96b
                     9ce98a6de0917562c2cd44a3bb516188
                     f8ff1cbf5cb3cc7511c1d6266ab47661
                     b6f5881802a0e8576e0399773c72e073




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   S(K[1] (xor) C[1])   = ddf644e6e15f5733bff249410445536f
                          4e9bd69e200f3596b3d9ea737d70a1d7
                          d1b6143b9c9288357758f8ef78278aa1
                          55f4d717dda7cb12b211e87e7f19203d

   PS(K[1] (xor) C[1])  = ddbf4eb3d17755b2f6f29bd9b658f411
                          4449d6ea14f8d7e8e6419e733bef177e
                          e104207d9c78dd7f5f450f709227a719
                          575335a1888acb20336f96d735a1123d

   LPS(K[1] (xor) C[1]) = d0b00807642fd78f13f2c3ebc774e80d
                          e0e902d23aef2ee9a73d010807dae9c1
                          88be14f0b2da27973569cd2ba0513010
                          36f728bd1d7eec33f4d18af70c46cf1e

   Iteration 2

   K[2]                    = d0b00807642fd78f13f2c3ebc774e80d
                             e0e902d23aef2ee9a73d010807dae9c1
                             88be14f0b2da27973569cd2ba0513010
                             36f728bd1d7eec33f4d18af70c46cf1e

   LPSX[K[2]]LPSX[K[1]](m) = 18e77571e703d19548075c574ce5e50e
                             0480c9c5b9f21d45611ab86cf32e352a
                             d91854ea7df8f863d46333673f62ff2d
                             3efae1cd966f8e2a74ce49902799aad4

   Iteration 3

   K[3]                       = 9d4475c7899f2d0bb0e8b7dac6ef6e6b
                                44ecf66716d3a0f16681105e2d13712a
                                1a9387ecc257930e2d61014a1b5c9fc9
                                e24e7d636eb1607e816dbaf927b8fca9

   LPSX[K[3]]...LPSX[K[1]](m) = 03dc0a9c64d42543ccdb62960d58c17e
                                0b5b805d08a07406ece679d5f82b70fe
                                a22a7ea56e21814619e8749b30821457
                                5489d4d465539852cd4b0cd3829bef39

   Iteration 4

   K[4]                       = 5c283daba5ec1f233b8c833c48e1c670
                                dae2e40cc4c3219c73e58856bd96a72f
                                df9f8055ffe3c004c8cde3b8bf78f95f
                                3370d0a3d6194ac5782487defd83ca0f






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   LPSX[K[4]]...LPSX[K[1]](m) = dbee312ea7301b0d6d13e43855e85db8
                                1608c780c43675bc93cfd82c1b4933b3
                                898a35b13e1878abe119e4dffb9de488
                                9738ca74d064cd9eb732078c1fb25e04

   Iteration 5

   K[5]                       = 109f33262731f9bd569cbc9317baa551
                                d4d2964fa18d42c41fab4e37225292ec
                                2fd97d7493784779046388469ae195c4
                                36fa7cba93f8239ceb5ffc818826470c

   LPSX[K[5]]...LPSX[K[1]](m) = 7fb3f15718d90e889f9fb7c38f527bec
                                861c298afb9186934a93c9d96ade20df
                                109379bb9c1a1ffd0ad81fce7b45ccd5
                                4501e7d127e32874b5d7927b032de7a1

   Iteration 6

   K[6]                       = b32c9b02667911cf8f8a0877be9a1707
                                57e25026ccf41e67c6b5da70b1b87474
                                3e1135cfbefe244237555c676c153d99
                                459bc382573aee2d85d30d99f286c5e7

   LPSX[K[6]]...LPSX[K[1]](m) = 95efa4e104f235824bae5030fe2d0f17
                                0a38de3c9b8fc6d8fa1a9adc2945c413
                                389a121501fa71a65067916b0c06f6b8
                                7ce18de1a2a98e0a64670985f47d73f1

   Iteration 7

   K[7]                       = 8a13c1b195fd0886ac49989e7d84b08b
                                c7b00e4f3f62765ece6050fcbabdc234
                                6c8207594714e8e9c9c7aad694edc922
                                d6b01e17285eb7e61502e634559e32f1

   LPSX[K[7]]...LPSX[K[1]](m) = 7ea4385f7e5e40103bfb25c67e404c75
                                24eec43e33b1d06557469c6049854304
                                32b43d941b77ffd476103338e9bd5145
                                d9c1e18b1f262b58a81dcefff6fc6535

   Iteration 8

   K[8]                       = 52cec3b11448bb8617d0ddfbc926f2e8
                                8730cb9179d6decea5acbffd323ec376
                                4c47f7a9e13bb1db56c342034773023d
                                617ff01cc546728e71dff8de5d128cac




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   LPSX[K[8]]...LPSX[K[1]](m) = b2426da0e58d5cfe898c36e797993f90
                                2531579d8ecc59f8dd8a60802241a456
                                1f290cf992eb398894424bf681636968
                                c167e870967b1dd9047293331956daba

   Iteration 9

   K[9]                       = f38c5b7947e7736d502007a05ea64a4e
                                b9c243cb82154aa138b963bbb7f28e74
                                d4d710445389671291d70103f48fd4d4
                                c01fc415e3fb7dc61c6088afa1a1e735

   LPSX[K[9]]...LPSX[K[1]](m) = 5e0c9978670b25912dd1ede5bdd1cf18
                                ed094d14c6d973b731d50570d0a9bca2
                                15415a15031fd20ddefb5bc61b96671d
                                6902f49df4d2fd346ceebda9431cb075

   Iteration 10

   K[10]                       = 0740b3faa03ed39b257dd6e3db7c1bf5
                                 6b6e18e40cdaabd30617cecbaddd618e
                                 a5e61bb4654599581dd30c24c1ab877a
                                 d0687948286cfefaa7eef99f6068b315

   LPSX[K[10]]...LPSX[K[1]](m) = c1ddd840fe491393a5d460440e03bf45
                                 1794e792c0c629e49ab0c1001782dd37
                                 691cb6896f3e00b87f71d37a584c35b9
                                 cd8789fad55a46887e5b60e124b51a61

   Iteration 11

   K[11]                       = 185811cf3c2633aec8cfdfcae9dbb293
                                 47011bf92b95910a3ad71e5fca678e45
                                 e374f088f2e5c29496e9695ce8957837
                                 107bb3aa56441af11a82164893313116

   LPSX[K[11]]...LPSX[K[1]](m) = 3f75beaf2911c35d575088e30542b689
                                 c85b6b1607f8b800405941f5ab704284
                                 7b9b08b58b4fbdd6154ed7b366fd3ee7
                                 78ce647726ddb3c7d48c8ce8866a8435

   Iteration 12

   K[12]                       = 9d46bf66234a7ed06c3b2120d2a3f15e
                                 0fedd87189b75b3cd2f206906b5ee00d
                                 c9a1eab800fb8cc5760b251f4db5cdef
                                 427052fa345613fd076451901279ee4c




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   LPSX[K[12]]...LPSX[K[1]](m) = f35b0d889eadfcff73b6b17f33413a97
                                 417d96f0c4cc9d30cda8ebb7dcd5d1b0
                                 61e620bac75b367370605f474ddc0060
                                 03bec4c4d7ce59a73fbe6766934c55a2

   Iteration 13

   K[13]                    = 0f79104026b900d8d768b6e223484c97
                              61e3c585b3a405a6d2d8565ada926c3f
                              7782ef127cd6b98290bf612558b4b60a
                              a3cbc28fd94f95460d76b621cb45be70

   X[K[13]]...LPSX[K[1]](m) = fc221dc8b814fc27a4de079d10097600
                              209e5375776898961f70bded0647bd8f
                              1664cfa8bb8d8ff1e0df3e621568b66a
                              a075064b0e81cce132c8d1475809ebd2

   The result of the transformation g_N(h, m) is

   h = fd102cf8812ccb1191ea34af21394f38
       17a86641445aa9a626488adb33738ebd
       2754f6908cbbbac5d3ed0f522c50815c
       954135793fb1f5d905fee4736b3bdae2

   Variables N and EPSILON change their values to

   N       = 00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000000
             000000000000000000000000000001f8

   EPSILON = 01323130393837363534333231303938
             37363534333231303938373635343332
             31303938373635343332313039383736
             35343332313039383736353433323130

   The result of the transformation g_0(h, N) is

   h = 5c881fd924695cf196c2e4fec20d14b6
       42026f2a0b1716ebaabb7067d4d59752
       3d2db69d6d3794622147a14f19a66e7f
       9037e1d662d34501a8901a5de7771d7c









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   The result of the transformation g_0(h, EPSILON) is

   h = 486f64c1917879417fef082b3381a4e2
       11c324f074654c38823a7b76f830ad00
       fa1fbae42b1285c0352f227524bc9ab1
       6254288dd6863dccd5b9f54a1ad0541b

   The hash code of the message M1 is the value

   H(M1) = 486f64c1917879417fef082b3381a4e2
           11c324f074654c38823a7b76f830ad00
           fa1fbae42b1285c0352f227524bc9ab1
           6254288dd6863dccd5b9f54a1ad0541b

10.1.2.  For Hash Function with 256-Bit Hash Code

   Assign the following values to the variables:

   h := IV = (00000001)^64

   N := 0^512

   EPSILON := 0^512

   The length of the message is |M1| = 504 < 512, so the incomplete
   block is padded:

   m := 01323130393837363534333231303938
        37363534333231303938373635343332
        31303938373635343332313039383736
        35343332313039383736353433323130

   Calculate

   K := LPS(h (xor) N) = LPS((00000001)^64)

   After the transformation S:

   S(h (xor) N) = eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                  eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                  eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                  eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee









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   after the transformation P:

   PS(h (xor) N) = eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                   eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                   eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                   eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee

   after the transformation L:

   K := LPS(h (xor) N) = 23c5ee40b07b5f1523c5ee40b07b5f15
                        23c5ee40b07b5f1523c5ee40b07b5f15
                        23c5ee40b07b5f1523c5ee40b07b5f15
                        23c5ee40b07b5f1523c5ee40b07b5f15

   Then the transformation E(K, m) is performed:

   Iteration 1

   K[1]          = 23c5ee40b07b5f1523c5ee40b07b5f15
                   23c5ee40b07b5f1523c5ee40b07b5f15
                   23c5ee40b07b5f1523c5ee40b07b5f15
                   23c5ee40b07b5f1523c5ee40b07b5f15

   X[K[1]](m)    = 22f7df708943682316f1dd72814b662d
                   14f3db7483496e251afdd976854f6c27
                   12f5d778874d6a2110f7df7089436823
                   16f1dd72814b662d14f3db7483496e25

   SX[K[1]](m)   = 65c061327951f35a99a6d819f5a29a01
                   93d290ffa92ab25cf14b538aa8cc9d21
                   f0f4fe6dc93a7818e9c061327951f35a
                   99a6d819f5a29a0193d290ffa92ab25c

   PSX[K[1]](m)  = 659993f1f0e99993c0a6d24bf4c0a6d2
                   61d89053fe61d8903219ff8a6d3219ff
                   79f5a9a8c979f5a951a22acc3a51a22a
                   f39ab29d78f39ab25a015c21185a015c

   LPSX[K[1]](m) = e549368917a0a2611d5e08c9c2fd5b3c
                   563f18c0f68c410d84ae9d5fbdfb9340
                   55650121b7aa6d7b3e7d09d46ac4358a
                   daa6ae44fa3b0402c4166d2c3eb2ef02

   K[1] (xor) C[1] = 92cdb59aaeb185fcc80ec1c1701e230a
                     0caf98039e3e8f03528b56cdc5fe9be9
                     68b90ed1221c36148187c448141b8c00
                     26b39a767c0f1236fe458b1942dd1a12




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   S(K[1] (xor) C[1])   = ecd95e282645a83930045858325f5afa
                          2341dc110ad303110ef676d9ac63509b
                          f3a3041b65148f93f5c986f293bb7cfc
                          ef92288ac34df08f63c8f6362cd8f1f0

   PS(K[1] (xor) C[1])  = ec30230ef3f5ef63d90441f6a3c992c8
                          5e58dc76048628f6285811d91bf28a36
                          26320aac6593c32c455fd36314bb4dd8
                          a85a03508f7cf0f139fa119b93fc8ff0

   LPS(K[1] (xor) C[1]) = 18ee8f3176b2ebea3bd6cb8233694cea
                          349769df88be26bf451cfab6a904a549
                          da22de93a66a66b19c7e6b5eea633511
                          e611d68c8401bfcd0c7d0cc39d4a5eb9

   Iteration 2

   K[2]                    = 18ee8f3176b2ebea3bd6cb8233694cea
                             349769df88be26bf451cfab6a904a549
                             da22de93a66a66b19c7e6b5eea633511
                             e611d68c8401bfcd0c7d0cc39d4a5eb9

   LPSX[K[2]]LPSX[K[1]](m) = c502dab7e79eb94013fcd1ba64def3b9
                             16f18b63855d43d22b77fca1452f9866
                             c2b45089c62e9d82edf1ef45230db9a2
                             3c9e1c521113376628a5f6a5dbc041b2

   Iteration 3

   K[3]                       = aaa4cf31a265959157aec8ce91e7fd46
                                bf27dee21164c5e3940bba1a519e9d1f
                                ce0913f1253e7757915000cd674be12c
                                c7f68e73ba26fb00fd74af4101805f2d

   LPSX[K[3]]...LPSX[K[1]](m) = 8e5a4fe41fc790af29944f027aa2f101
                                05d65cf60a66e442832bb9ab5020dc54
                                772e36b03d4b9aa471037212cde93375
                                226552392ef4d83010a007e1117a07b5

   Iteration 4

   K[4]                       = 61fe0a65cc177af50235e2afadded326
                                a5329a2236747bf8a54228aeca9c4585
                                cd801ea9dd743a0d98d01ef0602b0e33
                                2067fb5ddd6ac1568200311920839286






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   LPSX[K[4]]...LPSX[K[1]](m) = dee0b40df69997afef726f03bdc13cb6
                                ba9287698201296f2fd8284f06d33ea4
                                a850a0ff48026dd47c1e88ec813ed2eb
                                1186059d842d8d17f0bfa259e56655b1

   Iteration 5

   K[5]                       = 9983685f4fd3636f1fd5abb75fbf26a8
                                e2934314aa2ecb3ee4693c86c06c7d4e
                                169bd540af75e1610a546acd63d960ba
                                d595394cc199bf6999a5d5309fe73d5a

   LPSX[K[5]]...LPSX[K[1]](m) = 675ea894d326432e1af7b201bc369f8a
                                b021f6fa58da09678ffc08ef30db43a3
                                7f1f7347cb77da0f6ba30c85848896c3
                                bac240ab14144283518b89a33d0caf07

   Iteration 6

   K[6]                       = f05772ae2ce7f025156c9a7fbcc6b8fd
                                f1e735d613946e32922994e52820ffea
                                62615d907eb0551ad170990a86602088
                                af98c83c22cdb0e2be297c13c0f7a156

   LPSX[K[6]]...LPSX[K[1]](m) = 1bc204bf9506ee9b86bbcf82d254a112
                                aea6910b6db3805e399cb718d1b33199
                                64459516967cee4e648e8cfbf81f56dc
                                8da6811c469091be5123e6a1d5e28c73

   Iteration 7

   K[7]                       = 5ad144c362546e4e46b3e7688829fbb7
                                7453e9c3211974330b2b8d0e6be2b5ac
                                c89eb6b35167f159b7b005a43e5959a6
                                51a9b18cfc8e4098fcf03d9b81cfbb8d

   LPSX[K[7]]...LPSX[K[1]](m) = f30d791ed78bdee819022a3d78182242
                                124efcdd54e203f23fb2dc7f94338ff9
                                55a5afc15ffef03165263c4fdb36933a
                                a982016471fbac9419f892551e9e568b

   Iteration 8

   K[8]                       = 6a6cec9a1ba20a8db64fa840b934352b
                                518c638ed530122a83332fe0b8efdac9
                                018287e5a9f509c78d6c746adcd5426f
                                b0a0ad5790dfb73fc1f191a539016daa




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   LPSX[K[8]]...LPSX[K[1]](m) = 1fc20f1e91a1801a4293d3f3aa9e9156
                                0fcc3810bb15f3ee9741c9b87452519f
                                67cb9145519884a24de6db736a5cb143
                                0da7458e5e51b80be5204ba5b2600177

   Iteration 9

   K[9]                       = 99217036737aa9b38a8d6643f705bd51
                                f351531f948f0fc5e35fa35fee9dd8bd
                                bb4c9d580a224e9cd82e0e2069fc49ed
                                367d5f94374435382b8fb6a8f5dd0409

   LPSX[K[9]]...LPSX[K[1]](m) = 1a52f09d1e81515a36171e0b1a2809c5
                                0359bed90f2e78cbd89b7d4afa6d0466
                                55c96bdae6ee97055cc7e857267c2ccf
                                28c8f5dd95ed58a9a68c12663bb28967

   Iteration 10

   K[10]                       = 906763c0fc89fa1ae69288d8ec9e9dda
                                 9a7630e8bfd6c3fed703c35d2e62aeaf
                                 f0b35d80a7317a7f76f83022f2526791
                                 ca8fdf678fcb337bd74fe5393ccb05d2

   LPSX[K[10]]...LPSX[K[1]](m) = 764043744a0a93687e65aba8cfc25ec8
                                 714fb8e1bdc9ae2271e7205eaaa577c1
                                 b3b83e7325e50a19bd2d56b061b5de39
                                 235c9c9fd95e071a1a291a5f24e8c774

   Iteration 11

   K[11]                       = 88ce996c63618e6404a5c8e03ee43385
                                 4e2ae3eee68991bbbff3c29d38dadb6e
                                 d6a1dae9a6dc6ddf52ce34af272f96d3
                                 159c8c624c3fe6e13d695c0bfc89add5

   LPSX[K[11]]...LPSX[K[1]](m) = 9b1ce8ff26b445cb288c0aeccf84658e
                                 ea91dbdf14828bf70110a5c9bd146cd9
                                 646350cff4e90e7b63c5cc325e9b4410
                                 81935f282d4648d9584f71860538f03b

   Iteration 12

   K[12]                       = 3e0a281ea9bd46063eec550100576f3a
                                 506aa168cf82915776b978fccaa32f38
                                 b55f30c79982ca45628e8365d8798477
                                 e75a49c68199112a1d7b5a0f7655f2db




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   LPSX[K[12]]...LPSX[K[1]](m) = 133aeecede251eb81914b8ba48dcbc0b
                                 8a6fc63a292cc49043c3d3346b3f0829
                                 a9cb71ecff25ed2a91bdcf8f649907c1
                                 10cb76ff2e43100cdd4ba8a147a572f5

   Iteration 13

   K[13]                    = f0b273409eb31aebe432fbae18672122
                              62c848422b6a92f93f6cbab54ed18b83
                              14b21cffc51e3fa319ff433e76ef6adb
                              0ef9f5e03c907fa1fcf9eca06500bf03

   X[K[13]]...LPSX[K[1]](m) = e3889d8e40960453fd26431450bb9d29
                              e8a78e78024656697caf698125ee83aa
                              bd796d133a3bd28988428cb112766d1a
                              1e32831f12d36fad21b2440122a5cdf6

   The result of the transformation g_N(h, m) is

   h = e3bbadbf78af3264c9137127608aa510
       de90ba4d3075665844965fb611dbb199
       8d48552a0c0ce6bcba71bc802a4f5b2d
       2a07b12c22e25794178570341096fdc7

   The variables N and EPSILON change their values to

   N       = 00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000000
             000000000000000000000000000001f8

   EPSILON = 01323130393837363534333231303938
             37363534333231303938373635343332
             31303938373635343332313039383736
             35343332313039383736353433323130

   The result of the transformation g_0(h, N) is

   h = 70f22bada4cfe18a6a56ec4b3f328cd4
       0db8e1bf8a9d5f711d5efab11191279d
       715aab7648d07eddbf87dc79c80516e6
       ffcbcf5678b0ac29ea00fa85c8173cc6









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   The result of the transformation g_0(h, EPSILON) is

   h = 00557be5e584fd52a449b16b0251d05d
       27f94ab76cbaa6da890b59d8ef1e159d
       2088e482e2acf564e0e9795a51e4dd26
       1f3f667985a2fcc40ac8631faca1709a

   The hash code of the message M1 is the value

   H(M1) = 00557be5e584fd52a449b16b0251d05d
           27f94ab76cbaa6da890b59d8ef1e159d

10.2.  Example 2

   Let's calculate the hash code of the following message:

   M2 = fbe2e5f0eee3c820fbeafaebef20fffb
        f0e1e0f0f520e0ed20e8ece0ebe5f0f2
        f120fff0eeec20f120faf2fee5e2202c
        e8f6f3ede220e8e6eee1e8f0f2d1202c
        e8f0f2e5e220e5d1

10.2.1.  For Hash Function with 512-Bit Hash Code

   Assign the following values to the variables:

   h := IV = 0^512

   N := 0^512

   EPSILON := 0^512

   The length of the message is |M2| = 576 > 512, so a part of this
   message is initially transformed:

   m := fbeafaebef20fffbf0e1e0f0f520e0ed
        20e8ece0ebe5f0f2f120fff0eeec20f1
        20faf2fee5e2202ce8f6f3ede220e8e6
        eee1e8f0f2d1202ce8f0f2e5e220e5d1

   Calculate

   K := LPS(h (xor) N) = LPS(0^512)








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   After the transformation S:

   S(h (xor) N) = fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                  fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                  fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                  fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc

   after the transformation P:

   PS(h (xor) N) = fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                   fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                   fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc
                   fcfcfcfcfcfcfcfcfcfcfcfcfcfcfcfc

   after the transformation L:

   LPS(h (xor) N) = b383fc2eced4a574b383fc2eced4a574
                    b383fc2eced4a574b383fc2eced4a574
                    b383fc2eced4a574b383fc2eced4a574
                    b383fc2eced4a574b383fc2eced4a574

   Then the transformation E(K, m) is performed:

   Iteration 1

   K[1]          = b383fc2eced4a574b383fc2eced4a574
                   b383fc2eced4a574b383fc2eced4a574
                   b383fc2eced4a574b383fc2eced4a574
                   b383fc2eced4a574b383fc2eced4a574

   X[K[1]](m)    = 486906c521f45a8f43621cde3bf44599
                   936b10ce2531558642a303de20388585
                   93790ed02b3685585b750fc32cf44d92
                   5d6214de3c0585585b730ecb2cf440a5

   SX[K[1]](m)   = f29131ac18e613035196148598e6c8e8
                   de6fe9e75c840c432c731185f906a8a8
                   de5404e1428fa8bf47354d408be63aec
                   b79693857f6ea8bf473d04e48be6eb00

   PSX[K[1]](m)  = f251de2cde47b74791966f735435963d
                   3114e911044d9304ac85e785e14085e4
                   18985cf9428b7f8be6e684068fe66ee6
                   13c80ca8a83aa8eb03e843a8bfecbf00







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RFC 6986            GOST R 34.11-2012: Hash Function         August 2013


   LPSX[K[1]](m) = 909aa733e1f52321a2fe35bfb8f67e92
                   fbc70ef544709d5739d8faaca4acf126
                   e83e273745c25b7b8f4a83a7436f6353
                   753cbbbe492262cd3a868eace0104af1

   K[1] (xor) C[1] = 028ba7f4d01e7f9d5848d3af0eb1d96b
                     9ce98a6de0917562c2cd44a3bb516188
                     f8ff1cbf5cb3cc7511c1d6266ab47661
                     b6f5881802a0e8576e0399773c72e073

   S(K[1] (xor) C[1])   = ddf644e6e15f5733bff249410445536f
                          4e9bd69e200f3596b3d9ea737d70a1d7
                          d1b6143b9c9288357758f8ef78278aa1
                          55f4d717dda7cb12b211e87e7f19203d

   PS(K[1] (xor) C[1])  = ddbf4eb3d17755b2f6f29bd9b658f411
                          4449d6ea14f8d7e8e6419e733bef177e
                          e104207d9c78dd7f5f450f709227a719
                          575335a1888acb20336f96d735a1123d

   LPS(K[1] (xor) C[1]) = d0b00807642fd78f13f2c3ebc774e80d
                          e0e902d23aef2ee9a73d010807dae9c1
                          88be14f0b2da27973569cd2ba0513010
                          36f728bd1d7eec33f4d18af70c46cf1e

   Iteration 2

   K[2]                    = d0b00807642fd78f13f2c3ebc774e80d
                             e0e902d23aef2ee9a73d010807dae9c1
                             88be14f0b2da27973569cd2ba0513010
                             36f728bd1d7eec33f4d18af70c46cf1e

   LPSX[K[2]]LPSX[K[1]](m) = 301aadd761d13df0b473055b14a2f74a
                             45f408022aecadd4d5f19cab8228883a
                             021ac0b62600a495950c628354ffce11
                             61c68b7be7e0c58af090ce6b45e49f16

   Iteration 3

   K[3]                       = 9d4475c7899f2d0bb0e8b7dac6ef6e6b
                                44ecf66716d3a0f16681105e2d13712a
                                1a9387ecc257930e2d61014a1b5c9fc9
                                e24e7d636eb1607e816dbaf927b8fca9

   LPSX[K[3]]...LPSX[K[1]](m) = 9b83492b9860a93cbca1c0d8e0ce59db
                                04e10500a6ac85d4103304974e78d322
                                59ceff03fbb353147a9c948786582df7
                                8a34c9bde3f72b3ca41b9179c2cceef3



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   Iteration 4

   K[4]                       = 5c283daba5ec1f233b8c833c48e1c670
                                dae2e40cc4c3219c73e58856bd96a72f
                                df9f8055ffe3c004c8cde3b8bf78f95f
                                3370d0a3d6194ac5782487defd83ca0f

   LPSX[K[4]]...LPSX[K[1]](m) = e638e0a1677cdea107ec3402f70698a4
                                038450dab44ac7a447e10155aa33ef1b
                                daf8f49da7b66f3e05815045fbd39c99
                                1cb0dc536e09505fd62d3c2cd00b0f57

   Iteration 5

   K[5]                       = 109f33262731f9bd569cbc9317baa551
                                d4d2964fa18d42c41fab4e37225292ec
                                2fd97d7493784779046388469ae195c4
                                36fa7cba93f8239ceb5ffc818826470c

   LPSX[K[5]]...LPSX[K[1]](m) = 1c7c8e19b2bf443eb3adc0c787a52a17
                                3821a97bc5a8efea58fb8b27861829f6
                                dd5ff9c97865e08c1ac66f47392b578e
                                21266e323a0aacedeec3ef0314f517c6

   Iteration 6

   K[6]                       = b32c9b02667911cf8f8a0877be9a1707
                                57e25026ccf41e67c6b5da70b1b87474
                                3e1135cfbefe244237555c676c153d99
                                459bc382573aee2d85d30d99f286c5e7

   LPSX[K[6]]...LPSX[K[1]](m) = 48fecfc5b3eb77998fb39bfcccd128cd
                                42fccb714221be1e675a1c6fdde7e311
                                98b318622412af7e999a3eff45e6d616
                                09a7f2ae5c2ff1ab7ff3b37be7011ba2

   Iteration 7

   K[7]                       = 8a13c1b195fd0886ac49989e7d84b08b
                                c7b00e4f3f62765ece6050fcbabdc234
                                6c8207594714e8e9c9c7aad694edc922
                                d6b01e17285eb7e61502e634559e32f1

   LPSX[K[7]]...LPSX[K[1]](m) = a48f8d781c2c5be417ae644cc2e15a9f
                                01fcead3232e5bd53f18a5ab875cce1b
                                8a1a400cf48521c7ce27fb1e94452fb5
                                4de23118f53b364ee633170a62f5a8a9




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   Iteration 8

   K[8]                       = 52cec3b11448bb8617d0ddfbc926f2e8
                                8730cb9179d6decea5acbffd323ec376
                                4c47f7a9e13bb1db56c342034773023d
                                617ff01cc546728e71dff8de5d128cac

   LPSX[K[8]]...LPSX[K[1]](m) = e8a31b2e34bd2ae21b0ecf29cc4c37c7
                                5c4d11d9b82852517515c23e81e906a4
                                51b72779c3087141f1a15ab57f96d7da
                                6c7ee38ed25befbdef631216356ff59c

   Iteration 9

   K[9]                       = f38c5b7947e7736d502007a05ea64a4e
                                b9c243cb82154aa138b963bbb7f28e74
                                d4d710445389671291d70103f48fd4d4
                                c01fc415e3fb7dc61c6088afa1a1e735

   LPSX[K[9]]...LPSX[K[1]](m) = 34392ed32ea3756e32979cb0a2247c39
                                18e0b38d6455ca88183356bf8e5877e5
                                5d542278a696523a8036af0f1c2902e9
                                cbc585de803ee4d26649c9e1f00bda31

   Iteration 10

   K[10]                       = 0740b3faa03ed39b257dd6e3db7c1bf5
                                 6b6e18e40cdaabd30617cecbaddd618e
                                 a5e61bb4654599581dd30c24c1ab877a
                                 d0687948286cfefaa7eef99f6068b315

   LPSX[K[10]]...LPSX[K[1]](m) = 6a82436950177fea74cce6d507a5a64e
                                 54e8a3181458e3bdfbdbc6180c9787de
                                 7ccb676dd809e7cb1eb2c9ebd0165615
                                 70801a4e9ce17a438b85212f4409bb5e

   Iteration 11

   K[11]                       = 185811cf3c2633aec8cfdfcae9dbb293
                                 47011bf92b95910a3ad71e5fca678e45
                                 e374f088f2e5c29496e9695ce8957837
                                 107bb3aa56441af11a82164893313116

   LPSX[K[11]]...LPSX[K[1]](m) = 7b97603135e2842189b0c9667596e96b
                                 d70472ccbc73ae89da7d1599c72860c2
                                 85f5771088f1fb0f943d949f22f1413c
                                 991eafb51ab8e5ad8644770037765aec




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   Iteration 12

   K[12]                       = 9d46bf66234a7ed06c3b2120d2a3f15e
                                 0fedd87189b75b3cd2f206906b5ee00d
                                 c9a1eab800fb8cc5760b251f4db5cdef
                                 427052fa345613fd076451901279ee4c

   LPSX[K[12]]...LPSX[K[1]](m) = 39ec8a88db635b46c4321adf41fd9527
                                 a39a67f6d7510db5044f05efaf721db5
                                 cf976a726ef33dc4dfcda94033e741a4
                                 63770861a5b25fefcb07281eed629c0e

   Iteration 13

   K[13]                    = 0f79104026b900d8d768b6e223484c97
                              61e3c585b3a405a6d2d8565ada926c3f
                              7782ef127cd6b98290bf612558b4b60a
                              a3cbc28fd94f95460d76b621cb45be70

   X[K[13]]...LPSX[K[1]](m) = 36959ac8fdda5b9e135aac3d62b5d9b0
                              c279a27364f50813d69753b575e0718a
                              b8158560122584464f72c8656b53f7ae
                              c0bccaee7cfdcaa9c6719e3f2627227e

   The result of the transformation g_N(h, m) is

   h = cd7f602312faa465e3bb4ccd9795395d
       e2914e938f10f8e127b7ac459b0c517b
       98ef779ef7c7a46aa7843b8889731f48
       2e5d221e8e2cea852e816cdac407c7af

   The variables N and EPSILON change their values to

   N       = 00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000200

   EPSILON = fbeafaebef20fffbf0e1e0f0f520e0ed
             20e8ece0ebe5f0f2f120fff0eeec20f1
             20faf2fee5e2202ce8f6f3ede220e8e6
             eee1e8f0f2d1202ce8f0f2e5e220e5d1









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   The length of the rest of the message is less than 512, so the
   incomplete block is padded:

   m := 00000000000000000000000000000000
        00000000000000000000000000000000
        00000000000000000000000000000000
        0000000000000001fbe2e5f0eee3c820

   The result of the transformation g_N(h, m) is

   h = c544ae6efdf14404f089c72d5faf8dc6
       aca1db5e28577fc07818095f1df70661
       e8b84d0706811cf92dffb8f96e61493d
       c382795c6ed7a17b64685902cbdc878e

   The variables N and EPSILON change their values to

   N       = 00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000240

   EPSILON = fbeafaebef20fffbf0e1e0f0f520e0ed
             20e8ece0ebe5f0f2f120fff0eeec20f1
             20faf2fee5e2202ce8f6f3ede220e8e6
             eee1e8f0f2d1202ee4d3d8d6d104adf1

   The result of the transformation g_0(h, N) is

   h = 4deb6649ffa5caf4163d9d3f9967fbbd
       6eb3da68f916b6a09f41f2518b81292b
       703dc5d74e1ace5bcd3458af43bb456e
       837326088f2b5df14bf83997a0b1ad8d

   The result of the transformation g_0(h, EPSILON) is

   h = 28fbc9bada033b1460642bdcddb90c3f
       b3e56c497ccd0f62b8a2ad4935e85f03
       7613966de4ee00531ae60f3b5a47f8da
       e06915d5f2f194996fcabf2622e6881e

   The hash code of the message M2 is the value

   H(M2) = 28fbc9bada033b1460642bdcddb90c3f
           b3e56c497ccd0f62b8a2ad4935e85f03
           7613966de4ee00531ae60f3b5a47f8da
           e06915d5f2f194996fcabf2622e6881e




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10.2.2.  For Hash Function with 256-Bit Hash Code

   Assign the following values to the variables:

   h := IV = (00000001)^64

   N := 0^512

   EPSILON := 0^512

   The length of the message is |M2| = 576 > 512, so a part of this
   message is initially transformed:

   m := fbeafaebef20fffbf0e1e0f0f520e0ed
        20e8ece0ebe5f0f2f120fff0eeec20f1
        20faf2fee5e2202ce8f6f3ede220e8e6
        eee1e8f0f2d1202ce8f0f2e5e220e5d1

   Calculate:

   K := LPS(h (xor) N) = LPS((00000001)^64)

   After the transformation S:

   S(h (xor) N) = eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                  eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                  eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                  eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee

   after the transformation P:

   PS(h (xor) N) = eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                   eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                   eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
                   eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee

   after the transformation L:

   K := LPS(h (xor) N) = 23c5ee40b07b5f1523c5ee40b07b5f15
                         23c5ee40b07b5f1523c5ee40b07b5f15
                         23c5ee40b07b5f1523c5ee40b07b5f15
                         23c5ee40b07b5f1523c5ee40b07b5f15









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   Then the transformation E(K, m) is performed:

   Iteration 1

   K[1]          = 23c5ee40b07b5f1523c5ee40b07b5f15
                   23c5ee40b07b5f1523c5ee40b07b5f15
                   23c5ee40b07b5f1523c5ee40b07b5f15
                   23c5ee40b07b5f1523c5ee40b07b5f15

   X[K[1]](m)    = d82f14ab5f5ba0eed3240eb0455bbff8
                   032d02a05b9eafe7d2e511b05e977fe4
                   033f1cbe55997f39cb331dad525bb7f3
                   cd2406b042aa7f39cb351ca5525bbac4

   SX[K[1]](m)   = 8d4f93828747a76c49e204adc8473bd1
                   1101dda7470a415b832b77ad5dbc572d
                   111f14950ce8570be4aecd9f0e472fd2
                   d9e231ad2c38570be46a14000e47a586

   PSX[K[1]](m)  = 8d49118311e4d9e44fe2012b1faee26a
                   9304dd7714cd311482ada7ad959fad00
                   87c8475d0c0e2c0e47470abce8473847
                   a73b4157572f57a56cd15b2d0bd20b86

   LPSX[K[1]](m) = a3a72a2e0fb5e6f812681222fec037b0
                   db972086a395a387a6084508cae13093
                   aa71d352dcbce288e9a39718a727f6fd
                   4c5da5d0bc10fac3707ccd127fe45475

   K[1] (xor) C[1] = 92cdb59aaeb185fcc80ec1c1701e230a
                     0caf98039e3e8f03528b56cdc5fe9be9
                     68b90ed1221c36148187c448141b8c00
                     26b39a767c0f1236fe458b1942dd1a12

   S(K[1] (xor) C[1])   = ecd95e282645a83930045858325f5afa
                          2341dc110ad303110ef676d9ac63509b
                          f3a3041b65148f93f5c986f293bb7cfc
                          ef92288ac34df08f63c8f6362cd8f1f0

   PS(K[1] (xor) C[1])  = ec30230ef3f5ef63d90441f6a3c992c8
                          5e58dc76048628f6285811d91bf28a36
                          26320aac6593c32c455fd36314bb4dd8
                          a85a03508f7cf0f139fa119b93fc8ff0

   LPS(K[1] (xor) C[1]) = 18ee8f3176b2ebea3bd6cb8233694cea
                          349769df88be26bf451cfab6a904a549
                          da22de93a66a66b19c7e6b5eea633511
                          e611d68c8401bfcd0c7d0cc39d4a5eb9



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RFC 6986            GOST R 34.11-2012: Hash Function         August 2013


   Iteration 2

   K[2]                    = 18ee8f3176b2ebea3bd6cb8233694cea
                             349769df88be26bf451cfab6a904a549
                             da22de93a66a66b19c7e6b5eea633511
                             e611d68c8401bfcd0c7d0cc39d4a5eb9

   LPSX[K[2]]LPSX[K[1]](m) = 9f50697b1d9ce23680db1f4d35629778
                             864c55780727aa79eb7bb7d648829cba
                             8674afdac5c62ca352d77556145ca7bc
                             758679fbe1fbd32313ca8268a4a603f1

   Iteration 3

   K[3]                       = aaa4cf31a265959157aec8ce91e7fd46
                                bf27dee21164c5e3940bba1a519e9d1f
                                ce0913f1253e7757915000cd674be12c
                                c7f68e73ba26fb00fd74af4101805f2d

   LPSX[K[3]]...LPSX[K[1]](m) = 4183027975b257e9bc239b75c977ecc5
                                2ddad82c091e694243c9143a945b4d85
                                3116eae14fd81b14bb47f2c06fd283cb
                                6c5e61924edfaf971b78d771858d5310

   Iteration 4

   K[4]                       = 61fe0a65cc177af50235e2afadded326
                                a5329a2236747bf8a54228aeca9c4585
                                cd801ea9dd743a0d98d01ef0602b0e33
                                2067fb5ddd6ac1568200311920839286

   LPSX[K[4]]...LPSX[K[1]](m) = 0368c884fcee489207b5b97a133ce39a
                                1ebfe5a3ae3cccb3241de1e7ad72857e
                                76811d324f01fd7a75e0b669e8a22a4d
                                056ce6af3e876453a9c3c47c767e5712

   Iteration 5

   K[5]                       = 9983685f4fd3636f1fd5abb75fbf26a8
                                e2934314aa2ecb3ee4693c86c06c7d4e
                                169bd540af75e1610a546acd63d960ba
                                d595394cc199bf6999a5d5309fe73d5a

   LPSX[K[5]]...LPSX[K[1]](m) = c31433ceb8061e46440144e655539765
                                12e5a9806ac9a2c771d5932d5f6508c5
                                b78e406c4efab98ac5529be0021b4d58
                                fa26f01621eb10b43de4c4c47b63f615




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RFC 6986            GOST R 34.11-2012: Hash Function         August 2013


   Iteration 6

   K[6]                       = f05772ae2ce7f025156c9a7fbcc6b8fd
                                f1e735d613946e32922994e52820ffea
                                62615d907eb0551ad170990a86602088
                                af98c83c22cdb0e2be297c13c0f7a156

   LPSX[K[6]]...LPSX[K[1]](m) = 5d0ae97f252ad04534503fe5f52e9bd0
                                7f483ee3b3d206beadc6e736c6e754bb
                                713f97ea7339927893eacf2b474a482c
                                add9ac2e58f09bcb440cf36c2d14a9b6

   Iteration 7

   K[7]                       = 5ad144c362546e4e46b3e7688829fbb7
                                7453e9c3211974330b2b8d0e6be2b5ac
                                c89eb6b35167f159b7b005a43e5959a6
                                51a9b18cfc8e4098fcf03d9b81cfbb8d

   LPSX[K[7]]...LPSX[K[1]](m) = a59aa21e6ad3e330deedb9ab9912205c
                                355b1c479fdfd89a7696d7de66fbf7d3
                                cec25879f7f1a8cca4c793d5f2888407
                                aecb188bda375eae586a8cfd0245c317

   Iteration 8

   K[8]                       = 6a6cec9a1ba20a8db64fa840b934352b
                                518c638ed530122a83332fe0b8efdac9
                                018287e5a9f509c78d6c746adcd5426f
                                b0a0ad5790dfb73fc1f191a539016daa

   LPSX[K[8]]...LPSX[K[1]](m) = 9903145a39d5a8c83d28f70fa1fbd88f
                                31b82dc7cfe17b54b50e276cb2c4ac68
                                2b4434163f214cf7ce6164a75731bcea
                                5819e6a6a6fea99da9222951d2a28e01

   Iteration 9

   K[9]                       = 99217036737aa9b38a8d6643f705bd51
                                f351531f948f0fc5e35fa35fee9dd8bd
                                bb4c9d580a224e9cd82e0e2069fc49ed
                                367d5f94374435382b8fb6a8f5dd0409

   LPSX[K[9]]...LPSX[K[1]](m) = 330e6cb1d04961826aa263f2328f15b4
                                f3370175a6a9fd6505b286efed2d8505
                                f71823337ef71513e57a700eb1672a68
                                5578e45dad298ee2223d4cb3fda8262f




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RFC 6986            GOST R 34.11-2012: Hash Function         August 2013


   Iteration 10

   K[10]                       = 906763c0fc89fa1ae69288d8ec9e9dda
                                 9a7630e8bfd6c3fed703c35d2e62aeaf
                                 f0b35d80a7317a7f76f83022f2526791
                                 ca8fdf678fcb337bd74fe5393ccb05d2

   LPSX[K[10]]...LPSX[K[1]](m) = ad347608443ab9c9bbb64f633a5749ab
                                 85c45d4174bfd78f6bc79fc4f4ce9ad1
                                 dd71cb2195b1cfab8dcaaf6f3a65c8bb
                                 0079847a0800e4427d3a0a815f40a644

   Iteration 11

   K[11]                       = 88ce996c63618e6404a5c8e03ee43385
                                 4e2ae3eee68991bbbff3c29d38dadb6e
                                 d6a1dae9a6dc6ddf52ce34af272f96d3
                                 159c8c624c3fe6e13d695c0bfc89add5

   LPSX[K[11]]...LPSX[K[1]](m) = a065c55e2168c31576a756c7ecc1a912
                                 9cd3d207f8f43073076c30e111fd5f11
                                 9095ca396e9fb78a2bf4781c44e845e4
                                 47b8fc75b788284aae27582212ec23ee

   Iteration 12

   K[12]                       = 3e0a281ea9bd46063eec550100576f3a
                                 506aa168cf82915776b978fccaa32f38
                                 b55f30c79982ca45628e8365d8798477
                                 e75a49c68199112a1d7b5a0f7655f2db

   LPSX[K[12]]...LPSX[K[1]](m) = 2a6549f7a5cd2eb4a271a7c71762c868
                                 3e7a3a906985d60f8fc86f64e35908b2
                                 9f83b1fe3c704f3c116bdfe660704f3b
                                 9c8a1d0531baaffaa3940ae9090a33ab

   Iteration 13

   K[13]                    = f0b273409eb31aebe432fbae18672122
                              62c848422b6a92f93f6cbab54ed18b83
                              14b21cffc51e3fa319ff433e76ef6adb
                              0ef9f5e03c907fa1fcf9eca06500bf03

   X[K[13]]...LPSX[K[1]](m) = dad73ab73b7e345f46435c690f05e94a
                              5cb272d242ef44f6b0a4d5d1ad888331
                              8b31ad01f96e709f08949cd8169f25e0
                              9273e8e50d2ad05b5f6de6496c0a8ca8




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   The result of the transformation g_N(h, m) is

   h = 203cc15dd55fcaa5b7a3bd98fb2408a6
       7d5b9f33a80bb50540852b204265a2c1
       aaca5efe1d8d51b2e1636e34f5becc07
       7d930114fefaf176b69c15ad8f2b6878

   The variables N and EPSILON changed their values to:

   N       = 00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000200

   EPSILON = fbeafaebef20fffbf0e1e0f0f520e0ed
             20e8ece0ebe5f0f2f120fff0eeec20f1
             20faf2fee5e2202ce8f6f3ede220e8e6
             eee1e8f0f2d1202ce8f0f2e5e220e5d1

   The length of the rest of the message is less than 512, so the
   incomplete block is padded:

   m = 00000000000000000000000000000000
       00000000000000000000000000000000
       00000000000000000000000000000000
       0000000000000001fbe2e5f0eee3c820

   The result of the transformation g_N(h, m) is

   h = a69049e7bd076ab775bc2873af26f098
       c538b17e39a5c027d532f0a2b3b56426
       c96b285fa297b9d39ae6afd8b9001d97
       bb718a65fcc53c41b4ebf4991a617227

   The variables N and EPSILON change their values to

   N       = 00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000000
             00000000000000000000000000000240

   EPSILON = fbeafaebef20fffbf0e1e0f0f520e0ed
             20e8ece0ebe5f0f2f120fff0eeec20f1
             20faf2fee5e2202ce8f6f3ede220e8e6
             eee1e8f0f2d1202ee4d3d8d6d104adf1






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RFC 6986            GOST R 34.11-2012: Hash Function         August 2013


   The result of the transformation g_0(h, N) is

   h = aee3bd55ea6f387bcf28c6dcbdbbfb3d
       dacc67dcc13dbd8d548c6bf808111d4b
       75b8e74d2afae960835ae6a5f0357555
       9c9fd839783ffcd5cf99bd61566b4818

   The result of the transformation g_0(h, EPSILON) is

   h = 508f7e553c06501d749a66fc28c6cac0
       b005746d97537fa85d9e40904efed29d
       c345e53d7f84875d5068e4eb743f0793
       d673f09741f9578471fb2598cb35c230

   The hash code of the message M2 is the value

   H(M2) = 508f7e553c06501d749a66fc28c6cac0
           b005746d97537fa85d9e40904efed29d

11.  Security Considerations

   This entire document is about security considerations.

12.  References

12.1.  Normative References

   [GOST3411-94]    "Information technology.  Cryptographic data
                    security.  Hashing function", GOST R 34.11-94,
                    Federal Agency on Technical Regulating and
                    Metrology, 1994.

   [GOST28147-89]   "Systems of information processing.  Cryptographic
                    data security.  Algorithms of cryptographic
                    transformation", GOST 28147-89, Gosudarstvennyi
                    Standard of USSR, Government Committee of the USSR
                    for Standards, 1989. (In Russian)

   [GOST3411-2012]  "Information technology.  Cryptographic Data
                    Security.  Hashing function", GOST R 34.11-2012,
                    Federal Agency on Technical Regulating and
                    Metrology, 2012.

   [GOST3410-2012]  "Information technology.  Cryptographic data
                    security.  Formation and verification processes of
                    [electronic] digital signature", GOST R 34.10-2012,
                    Federal Agency on Technical Regulating and
                    Metrology, 2012.



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RFC 6986            GOST R 34.11-2012: Hash Function         August 2013


   [RFC2119]        Bradner, S., "Key words for use in RFCs to Indicate
                    Requirement Levels", BCP 14, RFC 2119, March 1997.

12.2.  Informative References

   [RFC5831]        Dolmatov, V., Ed., "GOST R 34.11-94: Hash Function
                    Algorithm", RFC 5831, March 2010.

   [ISO2382-2]      ISO, "Data processing - Vocabulary - Part 2:
                    Arithmetic and logic operations", ISO 2382-2, 1976.

   [ISO/IEC9796-2]  ISO/IEC, "Information technology - Security
                    techniques - Digital signature schemes giving
                    message recovery - Part 2: Integer factorization
                    based mechanisms", ISO/IEC 9796-2, 2010.

   [ISO/IEC9796-3]  ISO/IEC, "Information technology - Security
                    techniques - Digital signature schemes giving
                    message recovery - Part 3: Discrete logarithm based
                    mechanisms", ISO/IEC 9796-3, 2006.

   [ISO/IEC14888-1] ISO/IEC, "Information technology - Security
                    techniques - Digital signatures with appendix - Part
                    1: General", ISO/IEC 14888-1, 2008.

   [ISO/IEC14888-2] ISO/IEC, "Information technology - Security
                    techniques - Digital signatures with appendix - Part
                    2: Integer factorization based mechanisms", ISO/IEC
                    14888-2, 2008.

   [ISO/IEC14888-3] ISO/IEC, "Information technology - Security
                    techniques - Digital signatures with appendix - Part
                    3: Discrete logarithm based mechanisms", ISO/IEC
                    14888-3, 2006.

   [ISO/IEC14888-3Amd]
                    ISO/IEC, "Information technology - Security
                    techniques - Digital signatures with appendix - Part
                    3: Discrete logarithm based mechanisms.  Amendment
                    1.  Elliptic Curve Russian Digital Signature
                    Algorithm, Schnorr Digital Signature Algorithm,
                    Elliptic Curve Schnorr Digital Signature Algorithm,
                    and Elliptic Curve Full Schnorr Digital Signature
                    Algorithm", ISO/IEC 14888-3:2006/Amd 1, 2010.

   [ISO/IEC10118-1] ISO/IEC, "Information technology - Security
                    techniques - Hash-functions - Part 1: General",
                    ISO/IEC 10118-1, 2000.



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RFC 6986            GOST R 34.11-2012: Hash Function         August 2013


   [ISO/IEC10118-2] ISO/IEC, "Information technology - Security
                    techniques - Hash-functions - Part 2: Hash-functions
                    using an n-bit block cipher", ISO/IEC 10118-2, 2010.

   [ISO/IEC10118-3] ISO/IEC, "Information technology - Security
                    techniques - Hash-functions - Part 3: Dedicated
                    hash-functions", ISO/IEC 10118-3, 2004.

   [ISO/IEC10118-4] ISO/IEC, "Information technology - Security
                    techniques - Hash-functions - Part 4: Hash-functions
                    using modular arithmetic", ISO/IEC 10118-4, 1998.

Authors' Addresses

   Vasily Dolmatov (editor)
   Cryptocom, Ltd.
   14 Kedrova St., Bldg. 2
   Moscow, 117218
   Russian Federation

   EMail: dol@cryptocom.ru


   Alexey Degtyarev
   Cryptocom, Ltd.
   14 Kedrova St., Bldg. 2
   Moscow, 117218
   Russian Federation

   EMail: alexey@renatasystems.org





















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