v/vlib/crypto/md5/md5block_generic.v

133 lines
5.8 KiB
Go

// Copyright (c) 2019 Alexander Medvednikov. All rights reserved.
// Use of this source code is governed by an MIT license
// that can be found in the LICENSE file.
// This is the generic version with no architecture optimizations.
// In its own file so that an architecture
// optimized verision can be substituted
module md5
import math.bits
import encoding.binary
fn block_generic(dig &Digest, p []byte) {
// load state
mut a := dig.s[0]
mut b := dig.s[1]
mut c := dig.s[2]
mut d := dig.s[3]
for i := 0; i <= p.len-BlockSize; i += BlockSize {
mut q := p.right(i)
q = q.left(BlockSize)
// save current state
aa := a
bb := b
cc := c
dd := d
// load input block
x0 := binary.little_endian_u32(q.right(4*0x0))
x1 := binary.little_endian_u32(q.right(4*0x1))
x2 := binary.little_endian_u32(q.right(4*0x2))
x3 := binary.little_endian_u32(q.right(4*0x3))
x4 := binary.little_endian_u32(q.right(4*0x4))
x5 := binary.little_endian_u32(q.right(4*0x5))
x6 := binary.little_endian_u32(q.right(4*0x6))
x7 := binary.little_endian_u32(q.right(4*0x7))
x8 := binary.little_endian_u32(q.right(4*0x8))
x9 := binary.little_endian_u32(q.right(4*0x9))
xa := binary.little_endian_u32(q.right(4*0xa))
xb := binary.little_endian_u32(q.right(4*0xb))
xc := binary.little_endian_u32(q.right(4*0xc))
xd := binary.little_endian_u32(q.right(4*0xd))
xe := binary.little_endian_u32(q.right(4*0xe))
xf := binary.little_endian_u32(q.right(4*0xf))
// round 1
a = b + bits.rotate_left_32((((c^d)&b)^d)+a+x0+u32(0xd76aa478), 7)
d = a + bits.rotate_left_32((((b^c)&a)^c)+d+x1+u32(0xe8c7b756), 12)
c = d + bits.rotate_left_32((((a^b)&d)^b)+c+x2+u32(0x242070db), 17)
b = c + bits.rotate_left_32((((d^a)&c)^a)+b+x3+u32(0xc1bdceee), 22)
a = b + bits.rotate_left_32((((c^d)&b)^d)+a+x4+u32(0xf57c0faf), 7)
d = a + bits.rotate_left_32((((b^c)&a)^c)+d+x5+u32(0x4787c62a), 12)
c = d + bits.rotate_left_32((((a^b)&d)^b)+c+x6+u32(0xa8304613), 17)
b = c + bits.rotate_left_32((((d^a)&c)^a)+b+x7+u32(0xfd469501), 22)
a = b + bits.rotate_left_32((((c^d)&b)^d)+a+x8+u32(0x698098d8), 7)
d = a + bits.rotate_left_32((((b^c)&a)^c)+d+x9+u32(0x8b44f7af), 12)
c = d + bits.rotate_left_32((((a^b)&d)^b)+c+xa+u32(0xffff5bb1), 17)
b = c + bits.rotate_left_32((((d^a)&c)^a)+b+xb+u32(0x895cd7be), 22)
a = b + bits.rotate_left_32((((c^d)&b)^d)+a+xc+u32(0x6b901122), 7)
d = a + bits.rotate_left_32((((b^c)&a)^c)+d+xd+u32(0xfd987193), 12)
c = d + bits.rotate_left_32((((a^b)&d)^b)+c+xe+u32(0xa679438e), 17)
b = c + bits.rotate_left_32((((d^a)&c)^a)+b+xf+u32(0x49b40821), 22)
// round 2
a = b + bits.rotate_left_32((((b^c)&d)^c)+a+x1+u32(0xf61e2562), 5)
d = a + bits.rotate_left_32((((a^b)&c)^b)+d+x6+u32(0xc040b340), 9)
c = d + bits.rotate_left_32((((d^a)&b)^a)+c+xb+u32(0x265e5a51), 14)
b = c + bits.rotate_left_32((((c^d)&a)^d)+b+x0+u32(0xe9b6c7aa), 20)
a = b + bits.rotate_left_32((((b^c)&d)^c)+a+x5+u32(0xd62f105d), 5)
d = a + bits.rotate_left_32((((a^b)&c)^b)+d+xa+u32(0x02441453), 9)
c = d + bits.rotate_left_32((((d^a)&b)^a)+c+xf+u32(0xd8a1e681), 14)
b = c + bits.rotate_left_32((((c^d)&a)^d)+b+x4+u32(0xe7d3fbc8), 20)
a = b + bits.rotate_left_32((((b^c)&d)^c)+a+x9+u32(0x21e1cde6), 5)
d = a + bits.rotate_left_32((((a^b)&c)^b)+d+xe+u32(0xc33707d6), 9)
c = d + bits.rotate_left_32((((d^a)&b)^a)+c+x3+u32(0xf4d50d87), 14)
b = c + bits.rotate_left_32((((c^d)&a)^d)+b+x8+u32(0x455a14ed), 20)
a = b + bits.rotate_left_32((((b^c)&d)^c)+a+xd+u32(0xa9e3e905), 5)
d = a + bits.rotate_left_32((((a^b)&c)^b)+d+x2+u32(0xfcefa3f8), 9)
c = d + bits.rotate_left_32((((d^a)&b)^a)+c+x7+u32(0x676f02d9), 14)
b = c + bits.rotate_left_32((((c^d)&a)^d)+b+xc+u32(0x8d2a4c8a), 20)
// round 3
a = b + bits.rotate_left_32((b^c^d)+a+x5+u32(0xfffa3942), 4)
d = a + bits.rotate_left_32((a^b^c)+d+x8+u32(0x8771f681), 11)
c = d + bits.rotate_left_32((d^a^b)+c+xb+u32(0x6d9d6122), 16)
b = c + bits.rotate_left_32((c^d^a)+b+xe+u32(0xfde5380c), 23)
a = b + bits.rotate_left_32((b^c^d)+a+x1+u32(0xa4beea44), 4)
d = a + bits.rotate_left_32((a^b^c)+d+x4+u32(0x4bdecfa9), 11)
c = d + bits.rotate_left_32((d^a^b)+c+x7+u32(0xf6bb4b60), 16)
b = c + bits.rotate_left_32((c^d^a)+b+xa+u32(0xbebfbc70), 23)
a = b + bits.rotate_left_32((b^c^d)+a+xd+u32(0x289b7ec6), 4)
d = a + bits.rotate_left_32((a^b^c)+d+x0+u32(0xeaa127fa), 11)
c = d + bits.rotate_left_32((d^a^b)+c+x3+u32(0xd4ef3085), 16)
b = c + bits.rotate_left_32((c^d^a)+b+x6+u32(0x04881d05), 23)
a = b + bits.rotate_left_32((b^c^d)+a+x9+u32(0xd9d4d039), 4)
d = a + bits.rotate_left_32((a^b^c)+d+xc+u32(0xe6db99e5), 11)
c = d + bits.rotate_left_32((d^a^b)+c+xf+u32(0x1fa27cf8), 16)
b = c + bits.rotate_left_32((c^d^a)+b+x2+u32(0xc4ac5665), 23)
// round 4
a = b + bits.rotate_left_32((c^(b|~d))+a+x0+u32(0xf4292244), 6)
d = a + bits.rotate_left_32((b^(a|~c))+d+x7+u32(0x432aff97), 10)
c = d + bits.rotate_left_32((a^(d|~b))+c+xe+u32(0xab9423a7), 15)
b = c + bits.rotate_left_32((d^(c|~a))+b+x5+u32(0xfc93a039), 21)
a = b + bits.rotate_left_32((c^(b|~d))+a+xc+u32(0x655b59c3), 6)
d = a + bits.rotate_left_32((b^(a|~c))+d+x3+u32(0x8f0ccc92), 10)
c = d + bits.rotate_left_32((a^(d|~b))+c+xa+u32(0xffeff47d), 15)
b = c + bits.rotate_left_32((d^(c|~a))+b+x1+u32(0x85845dd1), 21)
a = b + bits.rotate_left_32((c^(b|~d))+a+x8+u32(0x6fa87e4f), 6)
d = a + bits.rotate_left_32((b^(a|~c))+d+xf+u32(0xfe2ce6e0), 10)
c = d + bits.rotate_left_32((a^(d|~b))+c+x6+u32(0xa3014314), 15)
b = c + bits.rotate_left_32((d^(c|~a))+b+xd+u32(0x4e0811a1), 21)
a = b + bits.rotate_left_32((c^(b|~d))+a+x4+u32(0xf7537e82), 6)
d = a + bits.rotate_left_32((b^(a|~c))+d+xb+u32(0xbd3af235), 10)
c = d + bits.rotate_left_32((a^(d|~b))+c+x2+u32(0x2ad7d2bb), 15)
b = c + bits.rotate_left_32((d^(c|~a))+b+x9+u32(0xeb86d391), 21)
// add saved state
a += aa
b += bb
c += cc
d += dd
}
// save state
dig.s[0] = a
dig.s[1] = b
dig.s[2] = c
dig.s[3] = d
}