mirror of
https://github.com/nzp-team/fteqw.git
synced 2024-11-14 00:10:46 +00:00
b63dc8b880
allow for binary updates on linux as on windows (-allowupdate for modified/nonsvn builds). dlightmask is now size_t, because we might as well allow that on 64bit cpus, this allows for 64 lightmaphack lights instead of 32. fix potential openal issue with source=0. added q3bsp_ignorestyles cvar to ignore rbsp styles (and reduce needed batch counts), should only be used on maps with subtle lighting changes (ones that are properly lit without toggling any lightswitches). add support for directly loading foo.bsp.gz Added prints to clarify why servers might be listed under the 'UNKNOWN' category in the master server. Attempt to show hostnames anyway, to make it a little more obvious who's responsible for those badly configured servers. git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5656 fc73d0e0-1445-4013-8a0c-d673dee63da5
563 lines
14 KiB
C
563 lines
14 KiB
C
/* sha512.c - SHA384 and SHA512 hash functions
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* Copyright (C) 2003, 2008, 2009 Free Software Foundation, Inc.
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*
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* This file is part of Libgcrypt.
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*
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* Libgcrypt is free software; you can redistribute it and/or modify
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* it under the terms of the GNU Lesser general Public License as
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* published by the Free Software Foundation; either version 2.1 of
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* the License, or (at your option) any later version.
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*
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* Libgcrypt is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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/* Test vectors from FIPS-180-2:
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*
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* "abc"
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* 384:
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* CB00753F 45A35E8B B5A03D69 9AC65007 272C32AB 0EDED163
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* 1A8B605A 43FF5BED 8086072B A1E7CC23 58BAECA1 34C825A7
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* 512:
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* DDAF35A1 93617ABA CC417349 AE204131 12E6FA4E 89A97EA2 0A9EEEE6 4B55D39A
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* 2192992A 274FC1A8 36BA3C23 A3FEEBBD 454D4423 643CE80E 2A9AC94F A54CA49F
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*
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* "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhijklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu"
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* 384:
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* 09330C33 F71147E8 3D192FC7 82CD1B47 53111B17 3B3B05D2
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* 2FA08086 E3B0F712 FCC7C71A 557E2DB9 66C3E9FA 91746039
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* 512:
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* 8E959B75 DAE313DA 8CF4F728 14FC143F 8F7779C6 EB9F7FA1 7299AEAD B6889018
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* 501D289E 4900F7E4 331B99DE C4B5433A C7D329EE B6DD2654 5E96E55B 874BE909
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*
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* "a" x 1000000
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* 384:
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* 9D0E1809 716474CB 086E834E 310A4A1C ED149E9C 00F24852
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* 7972CEC5 704C2A5B 07B8B3DC 38ECC4EB AE97DDD8 7F3D8985
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* 512:
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* E718483D 0CE76964 4E2E42C7 BC15B463 8E1F98B1 3B204428 5632A803 AFA973EB
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* DE0FF244 877EA60A 4CB0432C E577C31B EB009C5C 2C49AA2E 4EADB217 AD8CC09B
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*/
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#include "quakedef.h"
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#ifndef SHA2
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#define SHA2 256
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#include "sha2.c"
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#undef SHA2
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#define SHA2 512
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#endif
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#undef U64_C
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#undef U64_C_LOW
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#undef u64
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#undef ROUNDS
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#undef SHA2_CONTEXT
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#undef sha2trunc_init
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#undef sha2_init
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#if SHA2==256
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#define U64_C(n) (n##ull>>32)
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#define U64_C_LOW(n) (u64)U64_C(n)
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#define u64 quint32_t
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#define ROUNDS 64
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#define SHA2_CONTEXT SHA256_CONTEXT
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#define sha2trunc_init sha224_init
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#define sha2_init sha256_init
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#else
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#define U64_C(n) n##ull
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#define U64_C_LOW(n) n##ull
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#define u64 quint64_t
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#define ROUNDS 80
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#define SHA2_CONTEXT SHA512_CONTEXT
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#define ROTR ROTR64
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#define Ch Ch64
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#define Maj Maj64
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#define Sum0 Sum0_64
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#define Sum1 Sum1_64
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#define transform transform_64
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#define sha2trunc_init sha384_init
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#define sha2_init sha512_init
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#define sha2_write sha512_write
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#define sha2_final sha512_final
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#endif
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#define BLOCKBYTES (16*sizeof(u64))
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#define byte qbyte
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typedef struct
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{
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u64 h0, h1, h2, h3, h4, h5, h6, h7;
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u64 nblocks;
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byte buf[BLOCKBYTES];
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int count;
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} SHA2_CONTEXT;
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static void
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sha2_init (void *context)
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{
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SHA2_CONTEXT *hd = context;
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hd->h0 = U64_C(0x6a09e667f3bcc908);
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hd->h1 = U64_C(0xbb67ae8584caa73b);
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hd->h2 = U64_C(0x3c6ef372fe94f82b);
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hd->h3 = U64_C(0xa54ff53a5f1d36f1);
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hd->h4 = U64_C(0x510e527fade682d1);
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hd->h5 = U64_C(0x9b05688c2b3e6c1f);
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hd->h6 = U64_C(0x1f83d9abfb41bd6b);
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hd->h7 = U64_C(0x5be0cd19137e2179);
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hd->nblocks = 0;
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hd->count = 0;
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}
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static void sha2trunc_init (void *context)
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{
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SHA2_CONTEXT *hd = context;
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//sha224 uses only the low parts.
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hd->h0 = U64_C_LOW(0xcbbb9d5dc1059ed8);
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hd->h1 = U64_C_LOW(0x629a292a367cd507);
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hd->h2 = U64_C_LOW(0x9159015a3070dd17);
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hd->h3 = U64_C_LOW(0x152fecd8f70e5939);
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hd->h4 = U64_C_LOW(0x67332667ffc00b31);
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hd->h5 = U64_C_LOW(0x8eb44a8768581511);
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hd->h6 = U64_C_LOW(0xdb0c2e0d64f98fa7);
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hd->h7 = U64_C_LOW(0x47b5481dbefa4fa4);
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hd->nblocks = 0;
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hd->count = 0;
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}
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static inline u64
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ROTR (u64 x, u64 n)
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{
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return ((x >> n) | (x << (64 - n)));
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}
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static inline u64
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Ch (u64 x, u64 y, u64 z)
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{
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return ((x & y) ^ ( ~x & z));
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}
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static inline u64
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Maj (u64 x, u64 y, u64 z)
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{
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return ((x & y) ^ (x & z) ^ (y & z));
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}
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#undef S0
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#undef S1
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#if SHA2==256
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#define S0(x) (ROTR((x),7) ^ ROTR((x),18) ^ ((x)>>3))
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#define S1(x) (ROTR((x),17) ^ ROTR((x),19) ^ ((x)>>10))
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static inline u64
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Sum0 (u64 x)
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{
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return (ROTR (x, 2) ^ ROTR (x, 13) ^ ROTR (x, 22));
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}
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static inline u64
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Sum1 (u64 x)
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{
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return (ROTR (x, 6) ^ ROTR (x, 11) ^ ROTR (x, 25));
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}
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#else
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#define S0(x) (ROTR((x),1) ^ ROTR((x),8) ^ ((x)>>7))
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#define S1(x) (ROTR((x),19) ^ ROTR((x),61) ^ ((x)>>6))
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static inline u64
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Sum0 (u64 x)
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{
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return (ROTR (x, 28) ^ ROTR (x, 34) ^ ROTR (x, 39));
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}
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static inline u64
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Sum1 (u64 x)
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{
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return (ROTR (x, 14) ^ ROTR (x, 18) ^ ROTR (x, 41));
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}
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#endif
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/****************
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* Transform the message W which consists of 16 64-bit-words
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*/
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static void
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transform (SHA2_CONTEXT *hd, const unsigned char *data)
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{
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u64 a, b, c, d, e, f, g, h;
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u64 w[ROUNDS];
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int t;
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static const u64 k[] =
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{
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U64_C(0x428a2f98d728ae22), U64_C(0x7137449123ef65cd),
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U64_C(0xb5c0fbcfec4d3b2f), U64_C(0xe9b5dba58189dbbc),
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U64_C(0x3956c25bf348b538), U64_C(0x59f111f1b605d019),
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U64_C(0x923f82a4af194f9b), U64_C(0xab1c5ed5da6d8118),
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U64_C(0xd807aa98a3030242), U64_C(0x12835b0145706fbe),
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U64_C(0x243185be4ee4b28c), U64_C(0x550c7dc3d5ffb4e2),
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U64_C(0x72be5d74f27b896f), U64_C(0x80deb1fe3b1696b1),
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U64_C(0x9bdc06a725c71235), U64_C(0xc19bf174cf692694),
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U64_C(0xe49b69c19ef14ad2), U64_C(0xefbe4786384f25e3),
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U64_C(0x0fc19dc68b8cd5b5), U64_C(0x240ca1cc77ac9c65),
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U64_C(0x2de92c6f592b0275), U64_C(0x4a7484aa6ea6e483),
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U64_C(0x5cb0a9dcbd41fbd4), U64_C(0x76f988da831153b5),
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U64_C(0x983e5152ee66dfab), U64_C(0xa831c66d2db43210),
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U64_C(0xb00327c898fb213f), U64_C(0xbf597fc7beef0ee4),
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U64_C(0xc6e00bf33da88fc2), U64_C(0xd5a79147930aa725),
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U64_C(0x06ca6351e003826f), U64_C(0x142929670a0e6e70),
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U64_C(0x27b70a8546d22ffc), U64_C(0x2e1b21385c26c926),
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U64_C(0x4d2c6dfc5ac42aed), U64_C(0x53380d139d95b3df),
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U64_C(0x650a73548baf63de), U64_C(0x766a0abb3c77b2a8),
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U64_C(0x81c2c92e47edaee6), U64_C(0x92722c851482353b),
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U64_C(0xa2bfe8a14cf10364), U64_C(0xa81a664bbc423001),
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U64_C(0xc24b8b70d0f89791), U64_C(0xc76c51a30654be30),
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U64_C(0xd192e819d6ef5218), U64_C(0xd69906245565a910),
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U64_C(0xf40e35855771202a), U64_C(0x106aa07032bbd1b8),
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U64_C(0x19a4c116b8d2d0c8), U64_C(0x1e376c085141ab53),
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U64_C(0x2748774cdf8eeb99), U64_C(0x34b0bcb5e19b48a8),
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U64_C(0x391c0cb3c5c95a63), U64_C(0x4ed8aa4ae3418acb),
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U64_C(0x5b9cca4f7763e373), U64_C(0x682e6ff3d6b2b8a3),
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U64_C(0x748f82ee5defb2fc), U64_C(0x78a5636f43172f60),
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U64_C(0x84c87814a1f0ab72), U64_C(0x8cc702081a6439ec),
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U64_C(0x90befffa23631e28), U64_C(0xa4506cebde82bde9),
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U64_C(0xbef9a3f7b2c67915), U64_C(0xc67178f2e372532b),
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U64_C(0xca273eceea26619c), U64_C(0xd186b8c721c0c207),
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U64_C(0xeada7dd6cde0eb1e), U64_C(0xf57d4f7fee6ed178),
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U64_C(0x06f067aa72176fba), U64_C(0x0a637dc5a2c898a6),
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U64_C(0x113f9804bef90dae), U64_C(0x1b710b35131c471b),
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U64_C(0x28db77f523047d84), U64_C(0x32caab7b40c72493),
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U64_C(0x3c9ebe0a15c9bebc), U64_C(0x431d67c49c100d4c),
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U64_C(0x4cc5d4becb3e42b6), U64_C(0x597f299cfc657e2a),
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U64_C(0x5fcb6fab3ad6faec), U64_C(0x6c44198c4a475817)
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};
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/* get values from the chaining vars */
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a = hd->h0;
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b = hd->h1;
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c = hd->h2;
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d = hd->h3;
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e = hd->h4;
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f = hd->h5;
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g = hd->h6;
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h = hd->h7;
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#ifdef WORDS_BIGENDIAN
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memcpy (w, data, BLOCKBYTES);
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#else
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{
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int i;
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byte *p2;
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for (i = 0, p2 = (byte *) w; i < 16; i++, p2 += sizeof(*w))
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{
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#if SHA2==512
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p2[7] = *data++;
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p2[6] = *data++;
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p2[5] = *data++;
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p2[4] = *data++;
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#endif
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p2[3] = *data++;
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p2[2] = *data++;
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p2[1] = *data++;
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p2[0] = *data++;
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}
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}
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#endif
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for (t = 16; t < ROUNDS; t++)
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w[t] = S1 (w[t - 2]) + w[t - 7] + S0 (w[t - 15]) + w[t - 16];
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for (t = 0; t < ROUNDS; )
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{
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u64 t1, t2;
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/* Performance on a AMD Athlon(tm) Dual Core Processor 4050e
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with gcc 4.3.3 using gcry_md_hash_buffer of each 10000 bytes
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initialized to 0,1,2,3...255,0,... and 1000 iterations:
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Not unrolled with macros: 440ms
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Unrolled with macros: 350ms
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Unrolled with inline: 330ms
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*/
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#if 0 /* Not unrolled. */
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t1 = h + Sum1 (e) + Ch (e, f, g) + k[t] + w[t];
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t2 = Sum0 (a) + Maj (a, b, c);
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h = g;
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g = f;
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f = e;
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e = d + t1;
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d = c;
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c = b;
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b = a;
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a = t1 + t2;
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t++;
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#else /* Unrolled to interweave the chain variables. */
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t1 = h + Sum1 (e) + Ch (e, f, g) + k[t] + w[t];
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t2 = Sum0 (a) + Maj (a, b, c);
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d += t1;
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h = t1 + t2;
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t1 = g + Sum1 (d) + Ch (d, e, f) + k[t+1] + w[t+1];
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t2 = Sum0 (h) + Maj (h, a, b);
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c += t1;
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g = t1 + t2;
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t1 = f + Sum1 (c) + Ch (c, d, e) + k[t+2] + w[t+2];
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t2 = Sum0 (g) + Maj (g, h, a);
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b += t1;
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f = t1 + t2;
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t1 = e + Sum1 (b) + Ch (b, c, d) + k[t+3] + w[t+3];
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t2 = Sum0 (f) + Maj (f, g, h);
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a += t1;
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e = t1 + t2;
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t1 = d + Sum1 (a) + Ch (a, b, c) + k[t+4] + w[t+4];
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t2 = Sum0 (e) + Maj (e, f, g);
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h += t1;
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d = t1 + t2;
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t1 = c + Sum1 (h) + Ch (h, a, b) + k[t+5] + w[t+5];
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t2 = Sum0 (d) + Maj (d, e, f);
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g += t1;
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c = t1 + t2;
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t1 = b + Sum1 (g) + Ch (g, h, a) + k[t+6] + w[t+6];
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t2 = Sum0 (c) + Maj (c, d, e);
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f += t1;
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b = t1 + t2;
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t1 = a + Sum1 (f) + Ch (f, g, h) + k[t+7] + w[t+7];
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t2 = Sum0 (b) + Maj (b, c, d);
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e += t1;
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a = t1 + t2;
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t += 8;
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#endif
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}
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/* Update chaining vars. */
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hd->h0 += a;
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hd->h1 += b;
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hd->h2 += c;
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hd->h3 += d;
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hd->h4 += e;
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hd->h5 += f;
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hd->h6 += g;
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hd->h7 += h;
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}
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/* Update the message digest with the contents
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* of INBUF with length INLEN.
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*/
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static void
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sha2_write (void *context, const void *inbuf_arg, size_t inlen)
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{
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const unsigned char *inbuf = inbuf_arg;
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SHA2_CONTEXT *hd = context;
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if (hd->count == BLOCKBYTES)
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{ /* flush the buffer */
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transform (hd, hd->buf);
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hd->count = 0;
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hd->nblocks++;
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}
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if (!inbuf)
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return;
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if (hd->count)
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{
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for (; inlen && hd->count < BLOCKBYTES; inlen--)
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hd->buf[hd->count++] = *inbuf++;
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sha2_write (context, NULL, 0);
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if (!inlen)
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return;
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}
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while (inlen >= BLOCKBYTES)
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{
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transform (hd, inbuf);
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hd->count = 0;
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hd->nblocks++;
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inlen -= BLOCKBYTES;
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inbuf += BLOCKBYTES;
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}
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for (; inlen && hd->count < BLOCKBYTES; inlen--)
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hd->buf[hd->count++] = *inbuf++;
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}
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/* The routine final terminates the computation and
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* returns the digest.
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* The handle is prepared for a new cycle, but adding bytes to the
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* handle will the destroy the returned buffer.
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* Returns: 64 bytes representing the digest. When used for sha384,
|
|
* we take the leftmost 48 of those bytes.
|
|
*/
|
|
|
|
static void
|
|
sha2_final (void *context)
|
|
{
|
|
SHA2_CONTEXT *hd = context;
|
|
u64 t, msb, lsb;
|
|
byte *p;
|
|
|
|
sha2_write (context, NULL, 0); /* flush */ ;
|
|
|
|
t = hd->nblocks;
|
|
/* multiply by 128 to make a byte count */
|
|
lsb = t * BLOCKBYTES;
|
|
msb = t >> (sizeof(u64)*8-((BLOCKBYTES==128)?7:6));
|
|
/* add the count */
|
|
t = lsb;
|
|
if ((lsb += hd->count) < t)
|
|
msb++;
|
|
/* multiply by 8 to make a bit count */
|
|
t = lsb;
|
|
lsb <<= 3;
|
|
msb <<= 3;
|
|
msb |= t >> (sizeof(u64)*8-3);
|
|
|
|
if (hd->count < BLOCKBYTES-sizeof(u64)*2)
|
|
{ /* enough room */
|
|
hd->buf[hd->count++] = 0x80; /* pad */
|
|
while (hd->count < BLOCKBYTES-sizeof(u64)*2)
|
|
hd->buf[hd->count++] = 0; /* pad */
|
|
}
|
|
else
|
|
{ /* need one extra block */
|
|
hd->buf[hd->count++] = 0x80; /* pad character */
|
|
while (hd->count < BLOCKBYTES)
|
|
hd->buf[hd->count++] = 0;
|
|
sha2_write (context, NULL, 0); /* flush */ ;
|
|
memset (hd->buf, 0, BLOCKBYTES-sizeof(u64)*2); /* fill next block with zeroes */
|
|
}
|
|
|
|
#if SHA2==256
|
|
#define X(a) do { *p++ = hd->h##a >> 24; *p++ = hd->h##a >> 16; \
|
|
*p++ = hd->h##a >> 8; *p++ = hd->h##a; } while (0)
|
|
|
|
/* append the 128 bit count */
|
|
hd->buf[56] = msb >> 24;
|
|
hd->buf[57] = msb >> 16;
|
|
hd->buf[58] = msb >> 8;
|
|
hd->buf[59] = msb;
|
|
|
|
hd->buf[60] = lsb >> 24;
|
|
hd->buf[61] = lsb >> 16;
|
|
hd->buf[62] = lsb >> 8;
|
|
hd->buf[63] = lsb;
|
|
#else
|
|
#define X(a) do { *p++ = hd->h##a >> 56; *p++ = hd->h##a >> 48; \
|
|
*p++ = hd->h##a >> 40; *p++ = hd->h##a >> 32; \
|
|
*p++ = hd->h##a >> 24; *p++ = hd->h##a >> 16; \
|
|
*p++ = hd->h##a >> 8; *p++ = hd->h##a; } while (0)
|
|
|
|
/* append the 128 bit count */
|
|
hd->buf[112] = msb >> 56;
|
|
hd->buf[113] = msb >> 48;
|
|
hd->buf[114] = msb >> 40;
|
|
hd->buf[115] = msb >> 32;
|
|
hd->buf[116] = msb >> 24;
|
|
hd->buf[117] = msb >> 16;
|
|
hd->buf[118] = msb >> 8;
|
|
hd->buf[119] = msb;
|
|
|
|
hd->buf[120] = lsb >> 56;
|
|
hd->buf[121] = lsb >> 48;
|
|
hd->buf[122] = lsb >> 40;
|
|
hd->buf[123] = lsb >> 32;
|
|
hd->buf[124] = lsb >> 24;
|
|
hd->buf[125] = lsb >> 16;
|
|
hd->buf[126] = lsb >> 8;
|
|
hd->buf[127] = lsb;
|
|
#endif
|
|
transform (hd, hd->buf);
|
|
|
|
p = hd->buf;
|
|
#ifdef WORDS_BIGENDIAN
|
|
#undef X
|
|
#define X(a) do { *(u64*)p = hd->h##a ; p += sizeof(u64); } while (0)
|
|
#endif
|
|
X (0);
|
|
X (1);
|
|
X (2);
|
|
X (3);
|
|
X (4);
|
|
X (5);
|
|
/* Note that these last two chunks are included even for SHA384.
|
|
We just ignore them. */
|
|
X (6);
|
|
X (7);
|
|
#undef X
|
|
}
|
|
|
|
#if SHA2==256
|
|
static void sha224_finish (qbyte *digest, void *context)
|
|
{
|
|
SHA2_CONTEXT *hd = (SHA2_CONTEXT *) context;
|
|
sha2_final(context);
|
|
memcpy(digest, hd->buf, 224/8); //only the first 224 bits of the result...
|
|
}
|
|
static void sha256_finish (qbyte *digest, void *context)
|
|
{
|
|
SHA2_CONTEXT *hd = (SHA2_CONTEXT *) context;
|
|
sha2_final(context);
|
|
memcpy(digest, hd->buf, 256/8);
|
|
}
|
|
|
|
hashfunc_t hash_sha224 =
|
|
{
|
|
224/8,
|
|
sizeof(SHA2_CONTEXT),
|
|
sha224_init,
|
|
sha2_write,
|
|
sha224_finish
|
|
};
|
|
hashfunc_t hash_sha256 =
|
|
{
|
|
256/8,
|
|
sizeof(SHA2_CONTEXT),
|
|
sha256_init,
|
|
sha2_write,
|
|
sha256_finish
|
|
};
|
|
#endif
|
|
#if SHA2==512
|
|
static void sha384_finish (qbyte *digest, void *context)
|
|
{
|
|
SHA2_CONTEXT *hd = (SHA2_CONTEXT *) context;
|
|
sha2_final(context);
|
|
memcpy(digest, hd->buf, 384/8);
|
|
}
|
|
|
|
static void sha512_finish (qbyte *digest, void *context)
|
|
{
|
|
SHA2_CONTEXT *hd = (SHA2_CONTEXT *) context;
|
|
sha2_final(context);
|
|
memcpy(digest, hd->buf, 512/8);
|
|
}
|
|
|
|
hashfunc_t hash_sha384 =
|
|
{
|
|
384/8,
|
|
sizeof(SHA2_CONTEXT),
|
|
sha384_init,
|
|
sha2_write,
|
|
sha384_finish
|
|
};
|
|
hashfunc_t hash_sha512 =
|
|
{
|
|
512/8,
|
|
sizeof(SHA2_CONTEXT),
|
|
sha512_init,
|
|
sha2_write,
|
|
sha512_finish
|
|
};
|
|
#endif
|