ref: 71ac88392f2033256b29f22bd8afdd7374100e5a
dir: /sys/src/libsec/port/sha2_64.c/
/* * sha2 64-bit */ #include <u.h> #include <libc.h> #include <libsec.h> static void encode32(uchar*, u32int*, ulong); static DigestState* sha2_64(uchar *, ulong, uchar *, SHA2_256state *, int); extern void _sha2block64(uchar*, ulong, u32int*); /* * for sha2_224 and sha2_256, len must be multiple of 64 for all but * the last call. There must be room in the input buffer to pad. * * Note: sha2_224 calls sha2_256block as sha2_224, just uses different * initial seed and produces a 224b hash result. otherwise it's * the same as sha2_256. */ SHA2_224state* sha2_224(uchar *p, ulong len, uchar *digest, SHA2_224state *s) { if(s == nil) { s = mallocz(sizeof(*s), 1); if(s == nil) return nil; s->malloced = 1; } if(s->seeded == 0){ /* * seed the state with the first 32 bits of the fractional * parts of the square roots of the first 8 primes 2..19). */ s->state[0] = 0xc1059ed8; s->state[1] = 0x367cd507; s->state[2] = 0x3070dd17; s->state[3] = 0xf70e5939; s->state[4] = 0xffc00b31; s->state[5] = 0x68581511; s->state[6] = 0x64f98fa7; s->state[7] = 0xbefa4fa4; s->seeded = 1; } return sha2_64(p, len, digest, s, SHA2_224dlen); } SHA2_256state* sha2_256(uchar *p, ulong len, uchar *digest, SHA2_256state *s) { if(s == nil) { s = mallocz(sizeof(*s), 1); if(s == nil) return nil; s->malloced = 1; } if(s->seeded == 0){ /* * seed the state with the first 32 bits of the fractional * parts of the square roots of the first 8 primes 2..19). */ s->state[0] = 0x6a09e667; s->state[1] = 0xbb67ae85; s->state[2] = 0x3c6ef372; s->state[3] = 0xa54ff53a; s->state[4] = 0x510e527f; s->state[5] = 0x9b05688c; s->state[6] = 0x1f83d9ab; s->state[7] = 0x5be0cd19; s->seeded = 1; } return sha2_64(p, len, digest, s, SHA2_256dlen); } /* common 64 byte block padding and count code for SHA2_224 and SHA2_256 */ static DigestState* sha2_64(uchar *p, ulong len, uchar *digest, SHA2_256state *s, int dlen) { int i; u32int x[16]; uchar buf[128]; uchar *e; /* fill out the partial 64 byte block from previous calls */ if(s->blen){ i = 64 - s->blen; if(len < i) i = len; memmove(s->buf + s->blen, p, i); len -= i; s->blen += i; p += i; if(s->blen == 64){ _sha2block64(s->buf, s->blen, s->state); s->len += s->blen; s->blen = 0; } } /* do 64 byte blocks */ i = len & ~(64-1); if(i){ _sha2block64(p, i, s->state); s->len += i; len -= i; p += i; } /* save the left overs if not last call */ if(digest == 0){ if(len){ memmove(s->buf, p, len); s->blen += len; } return s; } /* * this is the last time through, pad what's left with 0x80, * 0's, and the input count to create a multiple of 64 bytes. */ if(s->blen){ p = s->buf; len = s->blen; } else { memmove(buf, p, len); p = buf; } s->len += len; e = p + len; if(len < 56) i = 56 - len; else i = 120 - len; memset(e, 0, i); *e = 0x80; len += i; /* append the count */ x[0] = s->len>>29; x[1] = s->len<<3; encode32(p+len, x, 8); /* digest the last part */ _sha2block64(p, len+8, s->state); s->len += len+8; /* return result and free state */ encode32(digest, s->state, dlen); if(s->malloced == 1) free(s); return nil; } /* * Encodes input (ulong) into output (uchar). * Assumes len is a multiple of 4. */ static void encode32(uchar *output, u32int *input, ulong len) { u32int x; uchar *e; for(e = output + len; output < e;) { x = *input++; *output++ = x >> 24; *output++ = x >> 16; *output++ = x >> 8; *output++ = x; } } DigestState* hmac_sha2_224(uchar *p, ulong len, uchar *key, ulong klen, uchar *digest, DigestState *s) { return hmac_x(p, len, key, klen, digest, s, sha2_224, SHA2_224dlen); } DigestState* hmac_sha2_256(uchar *p, ulong len, uchar *key, ulong klen, uchar *digest, DigestState *s) { return hmac_x(p, len, key, klen, digest, s, sha2_256, SHA2_256dlen); }