[1] | 1 | /* crypto/sha/sha256.c */ |
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| 2 | /* ==================================================================== |
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| 3 | * Copyright (c) 2004 The OpenSSL Project. All rights reserved |
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| 4 | * according to the OpenSSL license [found in ../../LICENSE]. |
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| 5 | * ==================================================================== |
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| 6 | */ |
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| 7 | //#include <openssl/opensslconf.h> |
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| 8 | #if !defined(OPENSSL_NO_SHA) && !defined(OPENSSL_NO_SHA256) |
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| 9 | |
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| 10 | #include <stdlib.h> |
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| 11 | #include <string.h> |
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| 12 | |
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| 13 | #include <openssl/crypto.h> |
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| 14 | #include <openssl/sha.h> |
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| 15 | #ifdef OPENSSL_FIPS |
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| 16 | #include <openssl/fips.h> |
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| 17 | #endif |
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| 18 | |
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| 19 | #include <openssl/opensslv.h> |
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| 20 | |
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| 21 | const char SHA256_version[]="SHA-256" OPENSSL_VERSION_PTEXT; |
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| 22 | |
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| 23 | int SHA224_Init (SHA256_CTX *c) |
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| 24 | { |
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| 25 | #ifdef OPENSSL_FIPS |
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| 26 | FIPS_selftest_check(); |
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| 27 | #endif |
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| 28 | c->h[0]=0xc1059ed8UL; c->h[1]=0x367cd507UL; |
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| 29 | c->h[2]=0x3070dd17UL; c->h[3]=0xf70e5939UL; |
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| 30 | c->h[4]=0xffc00b31UL; c->h[5]=0x68581511UL; |
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| 31 | c->h[6]=0x64f98fa7UL; c->h[7]=0xbefa4fa4UL; |
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| 32 | c->Nl=0; c->Nh=0; |
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| 33 | c->num=0; c->md_len=SHA224_DIGEST_LENGTH; |
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| 34 | return 1; |
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| 35 | } |
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| 36 | |
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| 37 | int SHA256_Init (SHA256_CTX *c) |
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| 38 | { |
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| 39 | #ifdef OPENSSL_FIPS |
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| 40 | FIPS_selftest_check(); |
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| 41 | #endif |
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| 42 | c->h[0]=0x6a09e667UL; c->h[1]=0xbb67ae85UL; |
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| 43 | c->h[2]=0x3c6ef372UL; c->h[3]=0xa54ff53aUL; |
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| 44 | c->h[4]=0x510e527fUL; c->h[5]=0x9b05688cUL; |
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| 45 | c->h[6]=0x1f83d9abUL; c->h[7]=0x5be0cd19UL; |
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| 46 | c->Nl=0; c->Nh=0; |
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| 47 | c->num=0; c->md_len=SHA256_DIGEST_LENGTH; |
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| 48 | return 1; |
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| 49 | } |
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| 50 | |
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| 51 | unsigned char *SHA224(const unsigned char *d, size_t n, unsigned char *md) |
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| 52 | { |
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| 53 | SHA256_CTX c; |
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| 54 | static unsigned char m[SHA224_DIGEST_LENGTH]; |
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| 55 | |
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| 56 | if (md == NULL) md=m; |
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| 57 | SHA224_Init(&c); |
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| 58 | SHA256_Update(&c,d,n); |
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| 59 | SHA256_Final(md,&c); |
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| 60 | OPENSSL_cleanse(&c,sizeof(c)); |
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| 61 | return(md); |
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| 62 | } |
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| 63 | |
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| 64 | unsigned char *SHA256(const unsigned char *d, size_t n, unsigned char *md) |
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| 65 | { |
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| 66 | SHA256_CTX c; |
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| 67 | static unsigned char m[SHA256_DIGEST_LENGTH]; |
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| 68 | |
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| 69 | if (md == NULL) md=m; |
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| 70 | SHA256_Init(&c); |
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| 71 | SHA256_Update(&c,d,n); |
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| 72 | SHA256_Final(md,&c); |
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| 73 | OPENSSL_cleanse(&c,sizeof(c)); |
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| 74 | return(md); |
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| 75 | } |
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| 76 | |
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| 77 | int SHA224_Update(SHA256_CTX *c, const void *data, size_t len) |
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| 78 | { return SHA256_Update (c,data,len); } |
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| 79 | int SHA224_Final (unsigned char *md, SHA256_CTX *c) |
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| 80 | { return SHA256_Final (md,c); } |
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| 81 | |
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| 82 | #define DATA_ORDER_IS_BIG_ENDIAN |
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| 83 | |
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| 84 | #define HASH_LONG SHA_LONG |
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| 85 | #define HASH_CTX SHA256_CTX |
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| 86 | #define HASH_CBLOCK SHA_CBLOCK |
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| 87 | /* |
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| 88 | * Note that FIPS180-2 discusses "Truncation of the Hash Function Output." |
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| 89 | * default: case below covers for it. It's not clear however if it's |
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| 90 | * permitted to truncate to amount of bytes not divisible by 4. I bet not, |
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| 91 | * but if it is, then default: case shall be extended. For reference. |
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| 92 | * Idea behind separate cases for pre-defined lenghts is to let the |
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| 93 | * compiler decide if it's appropriate to unroll small loops. |
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| 94 | */ |
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| 95 | #define HASH_MAKE_STRING(c,s) do { \ |
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| 96 | unsigned long ll; \ |
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| 97 | unsigned int xn; \ |
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| 98 | switch ((c)->md_len) \ |
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| 99 | { case SHA224_DIGEST_LENGTH: \ |
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| 100 | for (xn=0;xn<SHA224_DIGEST_LENGTH/4;xn++) \ |
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| 101 | { ll=(c)->h[xn]; HOST_l2c(ll,(s)); } \ |
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| 102 | break; \ |
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| 103 | case SHA256_DIGEST_LENGTH: \ |
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| 104 | for (xn=0;xn<SHA256_DIGEST_LENGTH/4;xn++) \ |
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| 105 | { ll=(c)->h[xn]; HOST_l2c(ll,(s)); } \ |
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| 106 | break; \ |
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| 107 | default: \ |
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| 108 | if ((c)->md_len > SHA256_DIGEST_LENGTH) \ |
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| 109 | return 0; \ |
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| 110 | for (xn=0;xn<(c)->md_len/4;xn++) \ |
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| 111 | { ll=(c)->h[xn]; HOST_l2c(ll,(s)); } \ |
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| 112 | break; \ |
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| 113 | } \ |
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| 114 | } while (0) |
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| 115 | |
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| 116 | #define HASH_UPDATE SHA256_Update |
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| 117 | #define HASH_TRANSFORM SHA256_Transform |
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| 118 | #define HASH_FINAL SHA256_Final |
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| 119 | #define HASH_BLOCK_DATA_ORDER sha256_block_data_order |
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| 120 | #ifndef SHA256_ASM |
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| 121 | static |
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| 122 | #endif |
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| 123 | void sha256_block_data_order (SHA256_CTX *ctx, const void *in, size_t num); |
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| 124 | |
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| 125 | #include <openssl/md32_common.h> |
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| 126 | |
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| 127 | #ifndef SHA256_ASM |
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| 128 | static const SHA_LONG K256[64] = { |
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| 129 | 0x428a2f98UL,0x71374491UL,0xb5c0fbcfUL,0xe9b5dba5UL, |
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| 130 | 0x3956c25bUL,0x59f111f1UL,0x923f82a4UL,0xab1c5ed5UL, |
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| 131 | 0xd807aa98UL,0x12835b01UL,0x243185beUL,0x550c7dc3UL, |
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| 132 | 0x72be5d74UL,0x80deb1feUL,0x9bdc06a7UL,0xc19bf174UL, |
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| 133 | 0xe49b69c1UL,0xefbe4786UL,0x0fc19dc6UL,0x240ca1ccUL, |
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| 134 | 0x2de92c6fUL,0x4a7484aaUL,0x5cb0a9dcUL,0x76f988daUL, |
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| 135 | 0x983e5152UL,0xa831c66dUL,0xb00327c8UL,0xbf597fc7UL, |
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| 136 | 0xc6e00bf3UL,0xd5a79147UL,0x06ca6351UL,0x14292967UL, |
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| 137 | 0x27b70a85UL,0x2e1b2138UL,0x4d2c6dfcUL,0x53380d13UL, |
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| 138 | 0x650a7354UL,0x766a0abbUL,0x81c2c92eUL,0x92722c85UL, |
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| 139 | 0xa2bfe8a1UL,0xa81a664bUL,0xc24b8b70UL,0xc76c51a3UL, |
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| 140 | 0xd192e819UL,0xd6990624UL,0xf40e3585UL,0x106aa070UL, |
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| 141 | 0x19a4c116UL,0x1e376c08UL,0x2748774cUL,0x34b0bcb5UL, |
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| 142 | 0x391c0cb3UL,0x4ed8aa4aUL,0x5b9cca4fUL,0x682e6ff3UL, |
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| 143 | 0x748f82eeUL,0x78a5636fUL,0x84c87814UL,0x8cc70208UL, |
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| 144 | 0x90befffaUL,0xa4506cebUL,0xbef9a3f7UL,0xc67178f2UL }; |
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| 145 | |
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| 146 | /* |
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| 147 | * FIPS specification refers to right rotations, while our ROTATE macro |
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| 148 | * is left one. This is why you might notice that rotation coefficients |
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| 149 | * differ from those observed in FIPS document by 32-N... |
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| 150 | */ |
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| 151 | #define Sigma0(x) (ROTATE((x),30) ^ ROTATE((x),19) ^ ROTATE((x),10)) |
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| 152 | #define Sigma1(x) (ROTATE((x),26) ^ ROTATE((x),21) ^ ROTATE((x),7)) |
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| 153 | #define sigma0(x) (ROTATE((x),25) ^ ROTATE((x),14) ^ ((x)>>3)) |
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| 154 | #define sigma1(x) (ROTATE((x),15) ^ ROTATE((x),13) ^ ((x)>>10)) |
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| 155 | |
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| 156 | #define Ch(x,y,z) (((x) & (y)) ^ ((~(x)) & (z))) |
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| 157 | #define Maj(x,y,z) (((x) & (y)) ^ ((x) & (z)) ^ ((y) & (z))) |
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| 158 | |
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| 159 | #ifdef OPENSSL_SMALL_FOOTPRINT |
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| 160 | |
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| 161 | static void sha256_block_data_order (SHA256_CTX *ctx, const void *in, size_t num) |
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| 162 | { |
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| 163 | unsigned MD32_REG_T a,b,c,d,e,f,g,h,s0,s1,T1,T2; |
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| 164 | SHA_LONG X[16],l; |
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| 165 | int i; |
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| 166 | const unsigned char *data=in; |
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| 167 | |
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| 168 | while (num--) { |
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| 169 | |
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| 170 | a = ctx->h[0]; b = ctx->h[1]; c = ctx->h[2]; d = ctx->h[3]; |
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| 171 | e = ctx->h[4]; f = ctx->h[5]; g = ctx->h[6]; h = ctx->h[7]; |
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| 172 | |
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| 173 | for (i=0;i<16;i++) |
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| 174 | { |
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| 175 | HOST_c2l(data,l); T1 = X[i] = l; |
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| 176 | T1 += h + Sigma1(e) + Ch(e,f,g) + K256[i]; |
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| 177 | T2 = Sigma0(a) + Maj(a,b,c); |
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| 178 | h = g; g = f; f = e; e = d + T1; |
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| 179 | d = c; c = b; b = a; a = T1 + T2; |
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| 180 | } |
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| 181 | |
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| 182 | for (;i<64;i++) |
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| 183 | { |
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| 184 | s0 = X[(i+1)&0x0f]; s0 = sigma0(s0); |
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| 185 | s1 = X[(i+14)&0x0f]; s1 = sigma1(s1); |
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| 186 | |
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| 187 | T1 = X[i&0xf] += s0 + s1 + X[(i+9)&0xf]; |
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| 188 | T1 += h + Sigma1(e) + Ch(e,f,g) + K256[i]; |
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| 189 | T2 = Sigma0(a) + Maj(a,b,c); |
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| 190 | h = g; g = f; f = e; e = d + T1; |
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| 191 | d = c; c = b; b = a; a = T1 + T2; |
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| 192 | } |
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| 193 | |
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| 194 | ctx->h[0] += a; ctx->h[1] += b; ctx->h[2] += c; ctx->h[3] += d; |
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| 195 | ctx->h[4] += e; ctx->h[5] += f; ctx->h[6] += g; ctx->h[7] += h; |
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| 196 | |
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| 197 | } |
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| 198 | } |
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| 199 | |
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| 200 | #else |
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| 201 | |
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| 202 | #define ROUND_00_15(i,a,b,c,d,e,f,g,h) do { \ |
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| 203 | T1 += h + Sigma1(e) + Ch(e,f,g) + K256[i]; \ |
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| 204 | h = Sigma0(a) + Maj(a,b,c); \ |
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| 205 | d += T1; h += T1; } while (0) |
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| 206 | |
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| 207 | #define ROUND_16_63(i,a,b,c,d,e,f,g,h,X) do { \ |
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| 208 | s0 = X[(i+1)&0x0f]; s0 = sigma0(s0); \ |
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| 209 | s1 = X[(i+14)&0x0f]; s1 = sigma1(s1); \ |
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| 210 | T1 = X[(i)&0x0f] += s0 + s1 + X[(i+9)&0x0f]; \ |
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| 211 | ROUND_00_15(i,a,b,c,d,e,f,g,h); } while (0) |
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| 212 | |
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| 213 | static void sha256_block_data_order (SHA256_CTX *ctx, const void *in, size_t num) |
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| 214 | { |
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| 215 | unsigned MD32_REG_T a,b,c,d,e,f,g,h,s0,s1,T1; |
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| 216 | SHA_LONG X[16]; |
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| 217 | int i; |
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| 218 | const unsigned char *data=in; |
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| 219 | const union { long one; char little; } is_endian = {1}; |
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| 220 | |
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| 221 | while (num--) { |
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| 222 | |
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| 223 | a = ctx->h[0]; b = ctx->h[1]; c = ctx->h[2]; d = ctx->h[3]; |
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| 224 | e = ctx->h[4]; f = ctx->h[5]; g = ctx->h[6]; h = ctx->h[7]; |
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| 225 | |
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| 226 | if (!is_endian.little && sizeof(SHA_LONG)==4 && ((size_t)in%4)==0) |
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| 227 | { |
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| 228 | const SHA_LONG *W=(const SHA_LONG *)data; |
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| 229 | |
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| 230 | T1 = X[0] = W[0]; ROUND_00_15(0,a,b,c,d,e,f,g,h); |
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| 231 | T1 = X[1] = W[1]; ROUND_00_15(1,h,a,b,c,d,e,f,g); |
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| 232 | T1 = X[2] = W[2]; ROUND_00_15(2,g,h,a,b,c,d,e,f); |
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| 233 | T1 = X[3] = W[3]; ROUND_00_15(3,f,g,h,a,b,c,d,e); |
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| 234 | T1 = X[4] = W[4]; ROUND_00_15(4,e,f,g,h,a,b,c,d); |
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| 235 | T1 = X[5] = W[5]; ROUND_00_15(5,d,e,f,g,h,a,b,c); |
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| 236 | T1 = X[6] = W[6]; ROUND_00_15(6,c,d,e,f,g,h,a,b); |
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| 237 | T1 = X[7] = W[7]; ROUND_00_15(7,b,c,d,e,f,g,h,a); |
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| 238 | T1 = X[8] = W[8]; ROUND_00_15(8,a,b,c,d,e,f,g,h); |
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| 239 | T1 = X[9] = W[9]; ROUND_00_15(9,h,a,b,c,d,e,f,g); |
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| 240 | T1 = X[10] = W[10]; ROUND_00_15(10,g,h,a,b,c,d,e,f); |
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| 241 | T1 = X[11] = W[11]; ROUND_00_15(11,f,g,h,a,b,c,d,e); |
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| 242 | T1 = X[12] = W[12]; ROUND_00_15(12,e,f,g,h,a,b,c,d); |
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| 243 | T1 = X[13] = W[13]; ROUND_00_15(13,d,e,f,g,h,a,b,c); |
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| 244 | T1 = X[14] = W[14]; ROUND_00_15(14,c,d,e,f,g,h,a,b); |
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| 245 | T1 = X[15] = W[15]; ROUND_00_15(15,b,c,d,e,f,g,h,a); |
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| 246 | |
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| 247 | data += SHA256_CBLOCK; |
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| 248 | } |
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| 249 | else |
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| 250 | { |
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| 251 | SHA_LONG l; |
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| 252 | |
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| 253 | HOST_c2l(data,l); T1 = X[0] = l; ROUND_00_15(0,a,b,c,d,e,f,g,h); |
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| 254 | HOST_c2l(data,l); T1 = X[1] = l; ROUND_00_15(1,h,a,b,c,d,e,f,g); |
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| 255 | HOST_c2l(data,l); T1 = X[2] = l; ROUND_00_15(2,g,h,a,b,c,d,e,f); |
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| 256 | HOST_c2l(data,l); T1 = X[3] = l; ROUND_00_15(3,f,g,h,a,b,c,d,e); |
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| 257 | HOST_c2l(data,l); T1 = X[4] = l; ROUND_00_15(4,e,f,g,h,a,b,c,d); |
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| 258 | HOST_c2l(data,l); T1 = X[5] = l; ROUND_00_15(5,d,e,f,g,h,a,b,c); |
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| 259 | HOST_c2l(data,l); T1 = X[6] = l; ROUND_00_15(6,c,d,e,f,g,h,a,b); |
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| 260 | HOST_c2l(data,l); T1 = X[7] = l; ROUND_00_15(7,b,c,d,e,f,g,h,a); |
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| 261 | HOST_c2l(data,l); T1 = X[8] = l; ROUND_00_15(8,a,b,c,d,e,f,g,h); |
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| 262 | HOST_c2l(data,l); T1 = X[9] = l; ROUND_00_15(9,h,a,b,c,d,e,f,g); |
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| 263 | HOST_c2l(data,l); T1 = X[10] = l; ROUND_00_15(10,g,h,a,b,c,d,e,f); |
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| 264 | HOST_c2l(data,l); T1 = X[11] = l; ROUND_00_15(11,f,g,h,a,b,c,d,e); |
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| 265 | HOST_c2l(data,l); T1 = X[12] = l; ROUND_00_15(12,e,f,g,h,a,b,c,d); |
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| 266 | HOST_c2l(data,l); T1 = X[13] = l; ROUND_00_15(13,d,e,f,g,h,a,b,c); |
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| 267 | HOST_c2l(data,l); T1 = X[14] = l; ROUND_00_15(14,c,d,e,f,g,h,a,b); |
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| 268 | HOST_c2l(data,l); T1 = X[15] = l; ROUND_00_15(15,b,c,d,e,f,g,h,a); |
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| 269 | } |
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| 270 | |
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| 271 | for (i=16;i<64;i+=8) |
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| 272 | { |
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| 273 | ROUND_16_63(i+0,a,b,c,d,e,f,g,h,X); |
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| 274 | ROUND_16_63(i+1,h,a,b,c,d,e,f,g,X); |
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| 275 | ROUND_16_63(i+2,g,h,a,b,c,d,e,f,X); |
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| 276 | ROUND_16_63(i+3,f,g,h,a,b,c,d,e,X); |
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| 277 | ROUND_16_63(i+4,e,f,g,h,a,b,c,d,X); |
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| 278 | ROUND_16_63(i+5,d,e,f,g,h,a,b,c,X); |
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| 279 | ROUND_16_63(i+6,c,d,e,f,g,h,a,b,X); |
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| 280 | ROUND_16_63(i+7,b,c,d,e,f,g,h,a,X); |
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| 281 | } |
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| 282 | |
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| 283 | ctx->h[0] += a; ctx->h[1] += b; ctx->h[2] += c; ctx->h[3] += d; |
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| 284 | ctx->h[4] += e; ctx->h[5] += f; ctx->h[6] += g; ctx->h[7] += h; |
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| 285 | |
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| 286 | } |
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| 287 | } |
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| 288 | |
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| 289 | #endif |
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| 290 | #endif /* SHA256_ASM */ |
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| 291 | |
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| 292 | #endif /* OPENSSL_NO_SHA256 */ |
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