mirror of
https://github.com/cryb-to/cryb-to.git
synced 2024-12-24 05:21:07 +00:00
260 lines
8.1 KiB
C
260 lines
8.1 KiB
C
/*-
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* Copyright (c) 2012 The University of Oslo
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* Copyright (c) 2012-2014 Dag-Erling Smørgrav
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. The name of the author may not be used to endorse or promote
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* products derived from this software without specific prior written
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* permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* Author: Dag-Erling Smørgrav <des@des.no>
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* Sponsor: the University of Oslo
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*
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* $Cryb$
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*/
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#include "cryb/impl.h"
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#ifdef HAVE_SYS_ENDIAN_H
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#include <sys/endian.h>
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#endif
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#ifdef HAVE_ENDIAN_H
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#define _BSD_SOURCE
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#include <endian.h>
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#endif
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#include <stdint.h>
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#include <string.h>
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#include <cryb/bitwise.h>
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#include <cryb/sha1.h>
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static uint32_t sha1_h[5] = {
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0x67452301U, 0xefcdab89U, 0x98badcfeU, 0x10325476U, 0xc3d2e1f0U,
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};
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static uint32_t sha1_k[4] = {
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0x5a827999U, 0x6ed9eba1U, 0x8f1bbcdcU, 0xca62c1d6U,
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};
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void
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sha1_init(sha1_ctx *ctx)
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{
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memset(ctx, 0, sizeof *ctx);
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memcpy(ctx->h, sha1_h, sizeof ctx->h);
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}
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#define sha1_ch(x, y, z) ((x & y) ^ (~x & z))
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#define sha1_parity(x, y, z) ((x ^ y ^ z))
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#define sha1_maj(x, y, z) (((x & y) ^ (x & z) ^ (y & z)))
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#define sha1_step(t, a, f, e, w) \
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do { \
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uint32_t T = rol(a, 5) + f + e + sha1_k[t/20] + w[t]; \
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e = d; \
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d = c; \
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c = rol(b, 30); \
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b = a; \
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a = T; \
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} while (0)
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static void
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sha1_compute(sha1_ctx *ctx, const uint8_t *block)
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{
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uint32_t w[80], a, b, c, d, e;
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memcpy(w, block, 64);
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for (int i = 0; i < 16; ++i)
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w[i] = be32toh(w[i]);
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for (int i = 16; i < 80; ++i) {
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w[i] = w[i-3] ^ w[i-8] ^ w[i-14] ^ w[i-16];
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w[i] = rol(w[i], 1);
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}
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a = ctx->h[0];
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b = ctx->h[1];
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c = ctx->h[2];
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d = ctx->h[3];
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e = ctx->h[4];
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sha1_step( 0, a, sha1_ch(b, c, d), e, w);
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sha1_step( 1, a, sha1_ch(b, c, d), e, w);
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sha1_step( 2, a, sha1_ch(b, c, d), e, w);
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sha1_step( 3, a, sha1_ch(b, c, d), e, w);
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sha1_step( 4, a, sha1_ch(b, c, d), e, w);
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sha1_step( 5, a, sha1_ch(b, c, d), e, w);
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sha1_step( 6, a, sha1_ch(b, c, d), e, w);
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sha1_step( 7, a, sha1_ch(b, c, d), e, w);
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sha1_step( 8, a, sha1_ch(b, c, d), e, w);
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sha1_step( 9, a, sha1_ch(b, c, d), e, w);
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sha1_step(10, a, sha1_ch(b, c, d), e, w);
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sha1_step(11, a, sha1_ch(b, c, d), e, w);
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sha1_step(12, a, sha1_ch(b, c, d), e, w);
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sha1_step(13, a, sha1_ch(b, c, d), e, w);
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sha1_step(14, a, sha1_ch(b, c, d), e, w);
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sha1_step(15, a, sha1_ch(b, c, d), e, w);
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sha1_step(16, a, sha1_ch(b, c, d), e, w);
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sha1_step(17, a, sha1_ch(b, c, d), e, w);
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sha1_step(18, a, sha1_ch(b, c, d), e, w);
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sha1_step(19, a, sha1_ch(b, c, d), e, w);
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sha1_step(20, a, sha1_parity(b, c, d), e, w);
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sha1_step(21, a, sha1_parity(b, c, d), e, w);
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sha1_step(22, a, sha1_parity(b, c, d), e, w);
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sha1_step(23, a, sha1_parity(b, c, d), e, w);
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sha1_step(24, a, sha1_parity(b, c, d), e, w);
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sha1_step(25, a, sha1_parity(b, c, d), e, w);
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sha1_step(26, a, sha1_parity(b, c, d), e, w);
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sha1_step(27, a, sha1_parity(b, c, d), e, w);
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sha1_step(28, a, sha1_parity(b, c, d), e, w);
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sha1_step(29, a, sha1_parity(b, c, d), e, w);
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sha1_step(30, a, sha1_parity(b, c, d), e, w);
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sha1_step(31, a, sha1_parity(b, c, d), e, w);
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sha1_step(32, a, sha1_parity(b, c, d), e, w);
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sha1_step(33, a, sha1_parity(b, c, d), e, w);
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sha1_step(34, a, sha1_parity(b, c, d), e, w);
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sha1_step(35, a, sha1_parity(b, c, d), e, w);
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sha1_step(36, a, sha1_parity(b, c, d), e, w);
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sha1_step(37, a, sha1_parity(b, c, d), e, w);
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sha1_step(38, a, sha1_parity(b, c, d), e, w);
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sha1_step(39, a, sha1_parity(b, c, d), e, w);
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sha1_step(40, a, sha1_maj(b, c, d), e, w);
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sha1_step(41, a, sha1_maj(b, c, d), e, w);
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sha1_step(42, a, sha1_maj(b, c, d), e, w);
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sha1_step(43, a, sha1_maj(b, c, d), e, w);
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sha1_step(44, a, sha1_maj(b, c, d), e, w);
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sha1_step(45, a, sha1_maj(b, c, d), e, w);
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sha1_step(46, a, sha1_maj(b, c, d), e, w);
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sha1_step(47, a, sha1_maj(b, c, d), e, w);
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sha1_step(48, a, sha1_maj(b, c, d), e, w);
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sha1_step(49, a, sha1_maj(b, c, d), e, w);
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sha1_step(50, a, sha1_maj(b, c, d), e, w);
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sha1_step(51, a, sha1_maj(b, c, d), e, w);
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sha1_step(52, a, sha1_maj(b, c, d), e, w);
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sha1_step(53, a, sha1_maj(b, c, d), e, w);
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sha1_step(54, a, sha1_maj(b, c, d), e, w);
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sha1_step(55, a, sha1_maj(b, c, d), e, w);
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sha1_step(56, a, sha1_maj(b, c, d), e, w);
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sha1_step(57, a, sha1_maj(b, c, d), e, w);
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sha1_step(58, a, sha1_maj(b, c, d), e, w);
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sha1_step(59, a, sha1_maj(b, c, d), e, w);
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sha1_step(60, a, sha1_parity(b, c, d), e, w);
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sha1_step(61, a, sha1_parity(b, c, d), e, w);
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sha1_step(62, a, sha1_parity(b, c, d), e, w);
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sha1_step(63, a, sha1_parity(b, c, d), e, w);
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sha1_step(64, a, sha1_parity(b, c, d), e, w);
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sha1_step(65, a, sha1_parity(b, c, d), e, w);
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sha1_step(66, a, sha1_parity(b, c, d), e, w);
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sha1_step(67, a, sha1_parity(b, c, d), e, w);
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sha1_step(68, a, sha1_parity(b, c, d), e, w);
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sha1_step(69, a, sha1_parity(b, c, d), e, w);
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sha1_step(70, a, sha1_parity(b, c, d), e, w);
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sha1_step(71, a, sha1_parity(b, c, d), e, w);
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sha1_step(72, a, sha1_parity(b, c, d), e, w);
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sha1_step(73, a, sha1_parity(b, c, d), e, w);
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sha1_step(74, a, sha1_parity(b, c, d), e, w);
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sha1_step(75, a, sha1_parity(b, c, d), e, w);
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sha1_step(76, a, sha1_parity(b, c, d), e, w);
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sha1_step(77, a, sha1_parity(b, c, d), e, w);
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sha1_step(78, a, sha1_parity(b, c, d), e, w);
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sha1_step(79, a, sha1_parity(b, c, d), e, w);
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ctx->h[0] += a;
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ctx->h[1] += b;
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ctx->h[2] += c;
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ctx->h[3] += d;
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ctx->h[4] += e;
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}
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void
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sha1_update(sha1_ctx *ctx, const void *buf, size_t len)
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{
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size_t copylen;
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while (len) {
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if (ctx->blocklen > 0 || len < sizeof ctx->block) {
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copylen = sizeof ctx->block - ctx->blocklen;
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if (copylen > len)
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copylen = len;
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memcpy(ctx->block + ctx->blocklen, buf, copylen);
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ctx->blocklen += copylen;
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if (ctx->blocklen == sizeof ctx->block) {
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sha1_compute(ctx, ctx->block);
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ctx->blocklen = 0;
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memset(ctx->block, 0, sizeof ctx->block);
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}
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} else {
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copylen = sizeof ctx->block;
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sha1_compute(ctx, buf);
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}
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ctx->bitlen += copylen * 8;
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buf += copylen;
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len -= copylen;
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}
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}
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void
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sha1_final(sha1_ctx *ctx, void *digest)
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{
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uint32_t hi, lo;
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ctx->block[ctx->blocklen++] = 0x80;
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if (ctx->blocklen > 56) {
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sha1_compute(ctx, ctx->block);
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ctx->blocklen = 0;
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memset(ctx->block, 0, sizeof ctx->block);
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}
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hi = htobe32(ctx->bitlen >> 32);
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lo = htobe32(ctx->bitlen & 0xffffffffUL);
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memcpy(ctx->block + 56, &hi, 4);
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memcpy(ctx->block + 60, &lo, 4);
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ctx->blocklen = 64;
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sha1_compute(ctx, ctx->block);
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for (int i = 0; i < 5; ++i)
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ctx->h[i] = htobe32(ctx->h[i]);
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memcpy(digest, ctx->h, 20);
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memset(ctx, 0, sizeof *ctx);
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}
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void
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sha1_complete(const void *buf, size_t len, void *digest)
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{
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sha1_ctx ctx;
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sha1_init(&ctx);
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sha1_update(&ctx, buf, len);
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sha1_final(&ctx, digest);
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}
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digest_algorithm sha1_digest = {
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.name = "sha1",
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.contextlen = sizeof sha1_digest,
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.blocklen = SHA1_BLOCK_LEN,
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.digestlen = SHA1_DIGEST_LEN,
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.init = (digest_init_func)sha1_init,
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.update = (digest_update_func)sha1_update,
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.final = (digest_final_func)sha1_final,
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.complete = (digest_complete_func)sha1_complete,
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};
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