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1337.4.3
by Eric Day
Fixed sha1 cpplint issues. |
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/*
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* Copyright (C) 2010 nobody (this is public domain)
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*/
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1337.4.2
by Eric Day
Added MYSQL_PASSWORD() UDF. |
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/**
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* @file
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* @brief SHA1 Definitions
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*/
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/*
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* SHA-1 in C
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* By Steve Reid <steve@edmweb.com>
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* 100% Public Domain
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*
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* Test Vectors (from FIPS PUB 180-1)
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* "abc"
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* A9993E36 4706816A BA3E2571 7850C26C 9CD0D89D
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* "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq"
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* 84983E44 1C3BD26E BAAE4AA1 F95129E5 E54670F1
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* A million repetitions of "a"
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* 34AA973C D4C4DAA4 F61EEB2B DBAD2731 6534016F
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*/
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#include "config.h" |
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#include "sha1.h" |
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#include <string.h> |
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namespace drizzled |
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{
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#define rol(value, bits) (((value) << (bits)) | ((value) >> (32 - (bits))))
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/* Solaris + gcc don't always define this. */
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#ifndef BYTE_ORDER
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# define LITTLE_ENDIAN 1234
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# define BIG_ENDIAN 4321
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# if defined(sparc) || defined(__sparc) || defined(__sparc__)
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# define BYTE_ORDER BIG_ENDIAN
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1337.5.1
by Eric Day
Fixed byte order check for SHA1, only shows up with Solaris x86. |
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# else
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# define BYTE_ORDER LITTLE_ENDIAN
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1337.4.2
by Eric Day
Added MYSQL_PASSWORD() UDF. |
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# endif
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#endif /* BYTE_ORDER */ |
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/*
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* blk0() and blk() perform the initial expand.
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* I got the idea of expanding during the round function from SSLeay
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*/
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#if BYTE_ORDER == LITTLE_ENDIAN
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# define blk0(i) (block->l[i] = (rol(block->l[i],24)&0xFF00FF00) \
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|(rol(block->l[i],8)&0x00FF00FF))
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#else
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# define blk0(i) block->l[i]
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#endif
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#define blk(i) (block->l[i&15] = rol(block->l[(i+13)&15]^block->l[(i+8)&15] \
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^block->l[(i+2)&15]^block->l[i&15],1))
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/*
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* (R0+R1), R2, R3, R4 are the different operations (rounds) used in SHA1
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*/
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#define R0(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk0(i)+0x5A827999+rol(v,5);w=rol(w,30);
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#define R1(v,w,x,y,z,i) z+=((w&(x^y))^y)+blk(i)+0x5A827999+rol(v,5);w=rol(w,30);
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#define R2(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0x6ED9EBA1+rol(v,5);w=rol(w,30);
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#define R3(v,w,x,y,z,i) z+=(((w|x)&y)|(w&x))+blk(i)+0x8F1BBCDC+rol(v,5);w=rol(w,30);
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#define R4(v,w,x,y,z,i) z+=(w^x^y)+blk(i)+0xCA62C1D6+rol(v,5);w=rol(w,30);
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/*
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* Hash a single 512-bit block. This is the core of the algorithm.
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*/
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void
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SHA1Transform(uint32_t state[5], const uint8_t buffer[SHA1_BLOCK_LENGTH]) |
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{
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uint32_t a, b, c, d, e; |
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typedef union { |
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uint8_t c[64]; |
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uint32_t l[16]; |
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} CHAR64LONG16; |
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CHAR64LONG16 realBlock; |
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CHAR64LONG16 *block= &realBlock; |
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(void)memcpy(block, buffer, SHA1_BLOCK_LENGTH); |
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/* Copy context->state[] to working vars */
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a = state[0]; |
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b = state[1]; |
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c = state[2]; |
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d = state[3]; |
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e = state[4]; |
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/* 4 rounds of 20 operations each. Loop unrolled. */
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R0(a,b,c,d,e, 0); R0(e,a,b,c,d, 1); R0(d,e,a,b,c, 2); R0(c,d,e,a,b, 3); |
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R0(b,c,d,e,a, 4); R0(a,b,c,d,e, 5); R0(e,a,b,c,d, 6); R0(d,e,a,b,c, 7); |
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R0(c,d,e,a,b, 8); R0(b,c,d,e,a, 9); R0(a,b,c,d,e,10); R0(e,a,b,c,d,11); |
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R0(d,e,a,b,c,12); R0(c,d,e,a,b,13); R0(b,c,d,e,a,14); R0(a,b,c,d,e,15); |
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R1(e,a,b,c,d,16); R1(d,e,a,b,c,17); R1(c,d,e,a,b,18); R1(b,c,d,e,a,19); |
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R2(a,b,c,d,e,20); R2(e,a,b,c,d,21); R2(d,e,a,b,c,22); R2(c,d,e,a,b,23); |
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R2(b,c,d,e,a,24); R2(a,b,c,d,e,25); R2(e,a,b,c,d,26); R2(d,e,a,b,c,27); |
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R2(c,d,e,a,b,28); R2(b,c,d,e,a,29); R2(a,b,c,d,e,30); R2(e,a,b,c,d,31); |
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R2(d,e,a,b,c,32); R2(c,d,e,a,b,33); R2(b,c,d,e,a,34); R2(a,b,c,d,e,35); |
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R2(e,a,b,c,d,36); R2(d,e,a,b,c,37); R2(c,d,e,a,b,38); R2(b,c,d,e,a,39); |
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R3(a,b,c,d,e,40); R3(e,a,b,c,d,41); R3(d,e,a,b,c,42); R3(c,d,e,a,b,43); |
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R3(b,c,d,e,a,44); R3(a,b,c,d,e,45); R3(e,a,b,c,d,46); R3(d,e,a,b,c,47); |
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R3(c,d,e,a,b,48); R3(b,c,d,e,a,49); R3(a,b,c,d,e,50); R3(e,a,b,c,d,51); |
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R3(d,e,a,b,c,52); R3(c,d,e,a,b,53); R3(b,c,d,e,a,54); R3(a,b,c,d,e,55); |
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R3(e,a,b,c,d,56); R3(d,e,a,b,c,57); R3(c,d,e,a,b,58); R3(b,c,d,e,a,59); |
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R4(a,b,c,d,e,60); R4(e,a,b,c,d,61); R4(d,e,a,b,c,62); R4(c,d,e,a,b,63); |
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R4(b,c,d,e,a,64); R4(a,b,c,d,e,65); R4(e,a,b,c,d,66); R4(d,e,a,b,c,67); |
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R4(c,d,e,a,b,68); R4(b,c,d,e,a,69); R4(a,b,c,d,e,70); R4(e,a,b,c,d,71); |
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R4(d,e,a,b,c,72); R4(c,d,e,a,b,73); R4(b,c,d,e,a,74); R4(a,b,c,d,e,75); |
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R4(e,a,b,c,d,76); R4(d,e,a,b,c,77); R4(c,d,e,a,b,78); R4(b,c,d,e,a,79); |
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/* Add the working vars back into context.state[] */
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state[0] += a; |
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state[1] += b; |
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state[2] += c; |
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state[3] += d; |
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state[4] += e; |
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/* Wipe variables */
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a = b = c = d = e = 0; |
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}
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/*
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* SHA1Init - Initialize new context
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*/
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void
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SHA1Init(SHA1_CTX *context) |
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{
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/* SHA1 initialization constants */
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context->count = 0; |
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context->state[0] = 0x67452301; |
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context->state[1] = 0xEFCDAB89; |
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context->state[2] = 0x98BADCFE; |
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context->state[3] = 0x10325476; |
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context->state[4] = 0xC3D2E1F0; |
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}
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/*
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* Run your data through this.
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*/
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void
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SHA1Update(SHA1_CTX *context, const uint8_t *data, size_t len) |
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{
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size_t i, j; |
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j = (size_t)((context->count >> 3) & 63); |
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context->count += (len << 3); |
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if ((j + len) > 63) { |
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(void)memcpy(&context->buffer[j], data, (i = 64-j)); |
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SHA1Transform(context->state, context->buffer); |
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for ( ; i + 63 < len; i += 64) |
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SHA1Transform(context->state, (uint8_t *)&data[i]); |
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j = 0; |
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} else { |
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i = 0; |
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}
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(void)memcpy(&context->buffer[j], &data[i], len - i); |
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}
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/*
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* Add padding and return the message digest.
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*/
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void
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SHA1Pad(SHA1_CTX *context) |
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{
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uint8_t finalcount[8]; |
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u_int i; |
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for (i = 0; i < 8; i++) { |
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finalcount[i] = (uint8_t)((context->count >> |
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((7 - (i & 7)) * 8)) & 255); /* Endian independent */ |
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}
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SHA1Update(context, (uint8_t *)"\200", 1); |
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while ((context->count & 504) != 448) |
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SHA1Update(context, (uint8_t *)"\0", 1); |
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SHA1Update(context, finalcount, 8); /* Should cause a SHA1Transform() */ |
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}
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void
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SHA1Final(uint8_t digest[SHA1_DIGEST_LENGTH], SHA1_CTX *context) |
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{
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u_int i; |
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SHA1Pad(context); |
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if (digest) { |
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for (i = 0; i < SHA1_DIGEST_LENGTH; i++) { |
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digest[i] = (uint8_t) |
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((context->state[i>>2] >> ((3-(i & 3)) * 8) ) & 255); |
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}
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memset(context, 0, sizeof(*context)); |
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}
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}
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} /* namespace drizzled */ |