/* * USHAInput * * Description: * This function accepts an array of octets as the next portion * of the message. * * Parameters: * context: [in/out] * The SHA context to update * message_array: [in] * An array of characters representing the next portion of * the message. * length: [in] * The length of the message in message_array * * Returns: * sha Error Code. * */ int USHAInput(USHAContext *ctx, const uint8_t *bytes, unsigned int bytecount) { if (ctx) { switch (ctx->whichSha) { case SHA1: return SHA1Input((SHA1Context*)&ctx->ctx, bytes, bytecount); case SHA224: return SHA224Input((SHA224Context*)&ctx->ctx, bytes, bytecount); case SHA256: return SHA256Input((SHA256Context*)&ctx->ctx, bytes, bytecount); case SHA384: return SHA384Input((SHA384Context*)&ctx->ctx, bytes, bytecount); case SHA512: return SHA512Input((SHA512Context*)&ctx->ctx, bytes, bytecount); default: return shaBadParam; } } else { return shaNull; } }
/*! Adds the first \a length chars of \a data to the cryptographic hash. */ void QCryptographicHash::addData(const char *data, int length) { switch (d->method) { case Sha1: sha1Update(&d->sha1Context, (const unsigned char *)data, length); break; #ifdef QT_CRYPTOGRAPHICHASH_ONLY_SHA1 default: Q_ASSERT_X(false, "QCryptographicHash", "Method not compiled in"); Q_UNREACHABLE(); break; #else case Md4: md4_update(&d->md4Context, (const unsigned char *)data, length); break; case Md5: MD5Update(&d->md5Context, (const unsigned char *)data, length); break; case Sha224: SHA224Input(&d->sha224Context, reinterpret_cast<const unsigned char *>(data), length); break; case Sha256: SHA256Input(&d->sha256Context, reinterpret_cast<const unsigned char *>(data), length); break; case Sha384: SHA384Input(&d->sha384Context, reinterpret_cast<const unsigned char *>(data), length); break; case Sha512: SHA512Input(&d->sha512Context, reinterpret_cast<const unsigned char *>(data), length); break; case RealSha3_224: case Keccak_224: sha3Update(&d->sha3Context, reinterpret_cast<const BitSequence *>(data), length*8); break; case RealSha3_256: case Keccak_256: sha3Update(&d->sha3Context, reinterpret_cast<const BitSequence *>(data), length*8); break; case RealSha3_384: case Keccak_384: sha3Update(&d->sha3Context, reinterpret_cast<const BitSequence *>(data), length*8); break; case RealSha3_512: case Keccak_512: sha3Update(&d->sha3Context, reinterpret_cast<const BitSequence *>(data), length*8); break; #endif } d->result.clear(); }
int sha224_low_update(SHA224Context *context, const unsigned char *in, size_t in_len) { return SHA224Input(context, (uint8_t *) in, in_len); }