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IN NO EVENT SHALL THE OpenSSL PROJECT OR * ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED * OF THE POSSIBILITY OF SUCH DAMAGE. * ==================================================================== */ #include #include #include "../../internal.h" #if defined(__cplusplus) extern "C" { #endif // This is a generic 32-bit "collector" for message digest algorithms. It // collects input character stream into chunks of 32-bit values and invokes the // block function that performs the actual hash calculations. To make use of // this mechanism, the following macros must be defined before including // md32_common.h. // // One of |DATA_ORDER_IS_BIG_ENDIAN| or |DATA_ORDER_IS_LITTLE_ENDIAN| must be // defined to specify the byte order of the input stream. // // |HASH_CBLOCK| must be defined as the integer block size, in bytes. // // |HASH_CTX| must be defined as the name of the context structure, which must // have at least the following members: // // typedef struct _state_st { // uint32_t h[ / sizeof(uint32_t)]; // uint32_t Nl, Nh; // uint8_t data[HASH_CBLOCK]; // unsigned num; // ... // } _CTX; // // is the output length of the hash in bytes, before // any truncation (e.g. 64 for SHA-224 and SHA-256, 128 for SHA-384 and // SHA-512). // // |HASH_UPDATE| must be defined as the name of the "Update" function to // generate. // // |HASH_TRANSFORM| must be defined as the the name of the "Transform" // function to generate. // // |HASH_FINAL| must be defined as the name of "Final" function to generate. // // |HASH_BLOCK_DATA_ORDER| must be defined as the name of the "Block" function. // That function must be implemented manually. It must be capable of operating // on *unaligned* input data in its original (data) byte order. It must have // this signature: // // void HASH_BLOCK_DATA_ORDER(uint32_t *state, const uint8_t *data, // size_t num); // // It must update the hash state |state| with |num| blocks of data from |data|, // where each block is |HASH_CBLOCK| bytes; i.e. |data| points to a array of // |HASH_CBLOCK * num| bytes. |state| points to the |h| member of a |HASH_CTX|, // and so will have | / sizeof(uint32_t)| elements. // // |HASH_MAKE_STRING(c, s)| must be defined as a block statement that converts // the hash state |c->h| into the output byte order, storing the result in |s|. #if !defined(DATA_ORDER_IS_BIG_ENDIAN) && !defined(DATA_ORDER_IS_LITTLE_ENDIAN) #error "DATA_ORDER must be defined!" #endif #ifndef HASH_CBLOCK #error "HASH_CBLOCK must be defined!" #endif #ifndef HASH_CTX #error "HASH_CTX must be defined!" #endif #ifndef HASH_UPDATE #error "HASH_UPDATE must be defined!" #endif #ifndef HASH_TRANSFORM #error "HASH_TRANSFORM must be defined!" #endif #ifndef HASH_FINAL #error "HASH_FINAL must be defined!" #endif #ifndef HASH_BLOCK_DATA_ORDER #error "HASH_BLOCK_DATA_ORDER must be defined!" #endif #ifndef HASH_MAKE_STRING #error "HASH_MAKE_STRING must be defined!" #endif #if defined(DATA_ORDER_IS_BIG_ENDIAN) #define HOST_c2l(c, l) \ do { \ (l) = (((uint32_t)(*((c)++))) << 24); \ (l) |= (((uint32_t)(*((c)++))) << 16); \ (l) |= (((uint32_t)(*((c)++))) << 8); \ (l) |= (((uint32_t)(*((c)++)))); \ } while (0) #define HOST_l2c(l, c) \ do { \ *((c)++) = (uint8_t)(((l) >> 24) & 0xff); \ *((c)++) = (uint8_t)(((l) >> 16) & 0xff); \ *((c)++) = (uint8_t)(((l) >> 8) & 0xff); \ *((c)++) = (uint8_t)(((l)) & 0xff); \ } while (0) #elif defined(DATA_ORDER_IS_LITTLE_ENDIAN) #define HOST_c2l(c, l) \ do { \ (l) = (((uint32_t)(*((c)++)))); \ (l) |= (((uint32_t)(*((c)++))) << 8); \ (l) |= (((uint32_t)(*((c)++))) << 16); \ (l) |= (((uint32_t)(*((c)++))) << 24); \ } while (0) #define HOST_l2c(l, c) \ do { \ *((c)++) = (uint8_t)(((l)) & 0xff); \ *((c)++) = (uint8_t)(((l) >> 8) & 0xff); \ *((c)++) = (uint8_t)(((l) >> 16) & 0xff); \ *((c)++) = (uint8_t)(((l) >> 24) & 0xff); \ } while (0) #endif // DATA_ORDER int HASH_UPDATE(HASH_CTX *c, const void *data_, size_t len) { const uint8_t *data = data_; if (len == 0) { return 1; } uint32_t l = c->Nl + (((uint32_t)len) << 3); if (l < c->Nl) { // Handle carries. c->Nh++; } c->Nh += (uint32_t)(len >> 29); c->Nl = l; size_t n = c->num; if (n != 0) { if (len >= HASH_CBLOCK || len + n >= HASH_CBLOCK) { OPENSSL_memcpy(c->data + n, data, HASH_CBLOCK - n); HASH_BLOCK_DATA_ORDER(c->h, c->data, 1); n = HASH_CBLOCK - n; data += n; len -= n; c->num = 0; // Keep |c->data| zeroed when unused. OPENSSL_memset(c->data, 0, HASH_CBLOCK); } else { OPENSSL_memcpy(c->data + n, data, len); c->num += (unsigned)len; return 1; } } n = len / HASH_CBLOCK; if (n > 0) { HASH_BLOCK_DATA_ORDER(c->h, data, n); n *= HASH_CBLOCK; data += n; len -= n; } if (len != 0) { c->num = (unsigned)len; OPENSSL_memcpy(c->data, data, len); } return 1; } void HASH_TRANSFORM(HASH_CTX *c, const uint8_t *data) { HASH_BLOCK_DATA_ORDER(c->h, data, 1); } int HASH_FINAL(uint8_t *md, HASH_CTX *c) { // |c->data| always has room for at least one byte. A full block would have // been consumed. size_t n = c->num; assert(n < HASH_CBLOCK); c->data[n] = 0x80; n++; // Fill the block with zeros if there isn't room for a 64-bit length. if (n > (HASH_CBLOCK - 8)) { OPENSSL_memset(c->data + n, 0, HASH_CBLOCK - n); n = 0; HASH_BLOCK_DATA_ORDER(c->h, c->data, 1); } OPENSSL_memset(c->data + n, 0, HASH_CBLOCK - 8 - n); // Append a 64-bit length to the block and process it. uint8_t *p = c->data + HASH_CBLOCK - 8; #if defined(DATA_ORDER_IS_BIG_ENDIAN) HOST_l2c(c->Nh, p); HOST_l2c(c->Nl, p); #elif defined(DATA_ORDER_IS_LITTLE_ENDIAN) HOST_l2c(c->Nl, p); HOST_l2c(c->Nh, p); #endif assert(p == c->data + HASH_CBLOCK); HASH_BLOCK_DATA_ORDER(c->h, c->data, 1); c->num = 0; OPENSSL_memset(c->data, 0, HASH_CBLOCK); HASH_MAKE_STRING(c, md); return 1; } #if defined(__cplusplus) } // extern C #endif