#pragma once #include #include namespace crypto { namespace sha { const size_t kSha1HashLen = 20; const size_t kSha256HashLen = 32; enum HashType { HASH_SHA1, HASH_SHA256 }; #pragma pack (push, 1) struct sSha1Hash { uint8_t bytes[kSha1HashLen]; void set(const uint8_t hash[kSha1HashLen]) { memcpy(this->bytes, hash, kSha1HashLen); } void operator=(const sSha1Hash& other) { set(other.bytes); } bool compare(const uint8_t hash[kSha1HashLen]) { return memcmp(this->bytes, hash, kSha1HashLen) == 0; } bool compare(const sSha1Hash& other) { return memcmp(this->bytes, other.bytes, kSha1HashLen) == 0; } bool operator==(const sSha1Hash& other) { return compare(other); } }; struct sSha256Hash { uint8_t bytes[kSha256HashLen]; void set(const uint8_t hash[kSha256HashLen]) { memcpy(this->bytes, hash, kSha256HashLen); } void operator=(const sSha256Hash& other) { set(other.bytes); } bool compare(const uint8_t hash[kSha256HashLen]) { return memcmp(this->bytes, hash, kSha256HashLen) == 0; } bool compare(const sSha256Hash& other) { return memcmp(this->bytes, other.bytes, kSha256HashLen) == 0; } bool operator==(const sSha256Hash& other) { return compare(other); } }; #pragma pack (pop) void Sha1(const uint8_t* in, uint64_t size, uint8_t hash[kSha1HashLen]); void Sha256(const uint8_t* in, uint64_t size, uint8_t hash[kSha256HashLen]); } }