# coding: utf-8
# PyGOST -- Pure Python GOST cryptographic functions library
-# Copyright (C) 2015-2016 Sergey Matveev <stargrave@stargrave.org>
+# Copyright (C) 2015-2023 Sergey Matveev <stargrave@stargrave.org>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
+# the Free Software Foundation, version 3 of the License.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
-""" GOST R 34.11-2012 (Streebog) hash function common files
+"""GOST R 34.11-2012 (Streebog) hash function common files
This is implementation of :rfc:`6986`. Most function and variable names are
taken according to specification's terminology.
from pygost.iface import PEP247
from pygost.utils import hexdec
-from pygost.utils import hexenc
from pygost.utils import strxor
from pygost.utils import xrange
))
A = [unpack(">Q", hexdec(s))[0] for s in (
- "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",
+ "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",
)]
Tau = (
)]
+def _lcache():
+ cache = []
+ for byteN in xrange(8):
+ cache.append([0 for _ in xrange(256)])
+ for byteN in xrange(8):
+ for byteVal in xrange(256):
+ res64 = 0
+ val = byteVal
+ for bitN in xrange(8):
+ if val & 0x80 > 0:
+ res64 ^= A[(7 - byteN) * 8 + bitN]
+ val <<= 1
+ cache[byteN][byteVal] = res64
+ return cache
+
+
+# Trade memory for CPU for part of L() calculations
+LCache = _lcache()
+
+
def add512bit(a, b):
- """ Add two 512 integers
- """
- a = bytearray(a)
- b = bytearray(b)
- cb = 0
- res = bytearray(64)
- for i in range(64):
- cb = a[i] + b[i] + (cb >> 8)
- res[i] = cb & 0xff
- return res
+ a = int.from_bytes(a, "little")
+ b = int.from_bytes(b, "little")
+ r = (a + b) % (1 << 512)
+ return r.to_bytes(512 // 8, "little")
def g(n, hsh, msg):
def L(data):
res = []
for i in range(8):
- val = unpack("<Q", data[i * 8:i * 8 + 8])[0]
res64 = 0
- for j in range(BLOCKSIZE):
- if val & 0x8000000000000000:
- res64 ^= A[j]
- val <<= 1
+ for j in range(8):
+ res64 ^= LCache[j][data[8 * i + j]]
res.append(pack("<Q", res64))
return b"".join(res)
class GOST34112012(PEP247):
- """ GOST 34.11-2012 big-endian hash
+ """GOST 34.11-2012 big-endian hash
>>> m = GOST34112012(digest_size=32)
>>> m.update("foo")
:param digest_size: hash digest size to compute
:type digest_size: 32 or 64 bytes
"""
- self.data = data
self._digest_size = digest_size
+ self.hsh = BLOCKSIZE * (b"\x01" if digest_size == 32 else b"\x00")
+ self.chk = bytearray(BLOCKSIZE * b"\x00")
+ self.n = 0
+ self.buf = b""
+ self.update(data)
def copy(self):
- return GOST34112012(copy(self.data), self.digest_size)
+ obj = GOST34112012()
+ obj._digest_size = self._digest_size
+ obj.hsh = self.hsh
+ obj.chk = copy(self.chk)
+ obj.n = self.n
+ obj.buf = self.buf
+ return obj
@property
def digest_size(self):
return self._digest_size
+ def _update_block(self, block):
+ self.hsh = g(self.n, self.hsh, block)
+ self.chk = add512bit(self.chk, block)
+ self.n += 512
+
def update(self, data):
- """ Append data that has to be hashed
+ """Update state with the new data
"""
- self.data += data
+ if len(self.buf) > 0:
+ self.buf += data[:BLOCKSIZE - len(self.buf)]
+ data = data[BLOCKSIZE - len(self.buf):]
+ if len(self.buf) == BLOCKSIZE:
+ self._update_block(self.buf)
+ self.buf = b""
+ while len(data) >= BLOCKSIZE:
+ self._update_block(data[:BLOCKSIZE])
+ data = data[BLOCKSIZE:]
+ self.buf += data
def digest(self):
- """ Get hash of the provided data
+ """Get hash of the provided data
"""
- hsh = BLOCKSIZE * (b"\x01" if self.digest_size == 32 else b"\x00")
- chk = bytearray(BLOCKSIZE * b"\x00")
- n = 0
- data = self.data
- for i in xrange(0, len(data) // BLOCKSIZE * BLOCKSIZE, BLOCKSIZE):
- block = data[i:i + BLOCKSIZE]
- hsh = g(n, hsh, block)
- chk = add512bit(chk, block)
- n += 512
+ data = self.buf
# Padding
- padblock_size = len(data) * 8 - n
+ padblock_size = len(data) * 8
data += b"\x01"
- padlen = BLOCKSIZE - len(data) % BLOCKSIZE
+ padlen = BLOCKSIZE - len(data)
if padlen != BLOCKSIZE:
data += b"\x00" * padlen
- hsh = g(n, hsh, data[-BLOCKSIZE:])
- n += padblock_size
- chk = add512bit(chk, data[-BLOCKSIZE:])
+ hsh = g(self.n, self.hsh, data)
+ n = self.n + padblock_size
+ chk = add512bit(self.chk, data)
hsh = g(0, hsh, pack("<Q", n) + 56 * b"\x00")
hsh = g(0, hsh, chk)
return hsh[-self._digest_size:]
-