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TWHash.cpp
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122 lines (103 loc) · 4.74 KB
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// Copyright © 2017-2020 Trust Wallet.
//
// This file is part of Trust. The full Trust copyright notice, including
// terms governing use, modification, and redistribution, is contained in the
// file LICENSE at the root of the source code distribution tree.
#include "../Data.h"
#include "BinaryCoding.h"
#include "XXHash64.h"
#include <TrezorCrypto/blake2b.h>
#include <TrezorCrypto/ripemd160.h>
#include <TrezorCrypto/sha2.h>
#include <TrezorCrypto/sha3.h>
#include <TrustWalletCore/TWHash.h>
#include <array>
TWData* _Nonnull TWHashSHA1(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA1Length> resultBytes;
auto dataBytes = TWDataBytes(data);
sha1_Raw(dataBytes, TWDataSize(data), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashSHA1Length);
}
TWData* _Nonnull TWHashSHA256(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA256Length> resultBytes;
auto dataBytes = TWDataBytes(data);
sha256_Raw(dataBytes, TWDataSize(data), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashSHA256Length);
}
TWData* _Nonnull TWHashSHA512(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA512Length> resultBytes;
auto dataBytes = TWDataBytes(data);
sha512_Raw(dataBytes, TWDataSize(data), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashSHA512Length);
}
TWData* _Nonnull TWHashSHA512_256(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA256Length> resultBytes;
auto dataBytes = TWDataBytes(data);
sha512_256_Raw(dataBytes, TWDataSize(data), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashSHA256Length);
}
TWData* _Nonnull TWHashKeccak256(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA256Length> resultBytes;
auto dataBytes = TWDataBytes(data);
keccak_256(dataBytes, TWDataSize(data), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashSHA256Length);
}
TWData* _Nonnull TWHashKeccak512(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA512Length> resultBytes;
auto dataBytes = TWDataBytes(data);
keccak_512(dataBytes, TWDataSize(data), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashSHA512Length);
}
TWData* _Nonnull TWHashSHA3_256(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA256Length> resultBytes;
auto dataBytes = TWDataBytes(data);
sha3_256(dataBytes, TWDataSize(data), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashSHA256Length);
}
TWData* _Nonnull TWHashSHA3_512(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA512Length> resultBytes;
auto dataBytes = TWDataBytes(data);
sha3_512(dataBytes, TWDataSize(data), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashSHA512Length);
}
TWData* _Nonnull TWHashRIPEMD(TWData* _Nonnull data) {
std::array<uint8_t, TWHashRipemdLength> resultBytes;
auto dataBytes = TWDataBytes(data);
ripemd160(dataBytes, static_cast<uint32_t>(TWDataSize(data)), resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashRipemdLength);
}
TWData* _Nonnull TWHashBlake2b(TWData* _Nonnull data, size_t outlen) {
auto resultBytes = TW::Data(outlen);
auto dataBytes = TWDataBytes(data);
blake2b(dataBytes, static_cast<uint32_t>(TWDataSize(data)), resultBytes.data(), outlen);
auto result = TWDataCreateWithBytes(resultBytes.data(), outlen);
return result;
}
TWData* _Nonnull TWHashSHA256RIPEMD(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA256Length> round1;
auto dataBytes = TWDataBytes(data);
sha256_Raw(dataBytes, TWDataSize(data), round1.data());
std::array<uint8_t, TWHashRipemdLength> resultBytes;
ripemd160(round1.data(), TWHashSHA256Length, resultBytes.data());
return TWDataCreateWithBytes(resultBytes.data(), TWHashRipemdLength);
}
TWData* _Nonnull TWHashSHA256SHA256(TWData* _Nonnull data) {
std::array<uint8_t, TWHashSHA256Length> round1;
auto dataBytes = TWDataBytes(data);
sha256_Raw(dataBytes, TWDataSize(data), round1.data());
std::array<uint8_t, TWHashSHA256Length> round2;
sha256_Raw(round1.data(), TWHashSHA256Length, round2.data());
return TWDataCreateWithBytes(round2.data(), TWHashSHA256Length);
}
TWData* _Nonnull TWHashXXHash64(TWData* _Nonnull data, uint64_t seed) {
auto hashed = XXHash64::hash(TWDataBytes(data), TWDataSize(data), seed);
TW::Data result;
TW::encode64LE(hashed, result);
return TWDataCreateWithBytes(result.data(), result.size());
}
TWData* _Nonnull TWHashTwoXXHash64Concat(TWData* _Nonnull data) {
auto key1 = TWHashXXHash64(data, 0);
auto key2 = TWHashXXHash64(data, 1);
TWDataAppendBytes(key1, TWDataBytes(key2), TWDataSize(key2));
return key1;
}