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mirror of synced 2024-12-14 16:52:53 +01:00
ImHex/plugins/hashes/source/content/hashes.cpp

731 lines
30 KiB
C++

#include <hex/api/content_registry.hpp>
#include <hex/api/localization_manager.hpp>
#include <hex/helpers/crypto.hpp>
#include <hex/helpers/utils.hpp>
#include <hex/providers/buffered_reader.hpp>
#include <hex/ui/imgui_imhex_extensions.h>
#include <nlohmann/json.hpp>
#include <wolv/literals.hpp>
#include <HashFactory.h>
namespace hex::plugin::hashes {
namespace {
using namespace wolv::literals;
std::vector<u8> hashProviderRegionWithHashLib(const Region& region, prv::Provider *provider, auto &hashFunction) {
auto reader = prv::ProviderReader(provider);
reader.seek(region.getStartAddress());
reader.setEndAddress(region.getEndAddress());
for (u64 address = region.getStartAddress(); address < region.getEndAddress(); address += 1_MiB) {
u64 readSize = std::min<u64>(1_MiB, (region.getEndAddress() - address) + 1);
auto data = reader.read(address, readSize);
hashFunction->TransformBytes({ data.begin(), data.end() }, address - region.getStartAddress(), data.size());
}
auto result = hashFunction->TransformFinal();
auto bytes = result->GetBytes();
return { bytes.begin(), bytes.end() };
}
}
class HashMD5 : public ContentRegistry::Hashes::Hash {
public:
HashMD5() : Hash("hex.hashes.hash.md5") {}
Function create(std::string name) override {
return Hash::create(name, [](const Region& region, prv::Provider *provider) -> std::vector<u8> {
auto array = crypt::md5(provider, region.address, region.size);
return { array.begin(), array.end() };
});
}
[[nodiscard]] nlohmann::json store() const override { return { }; }
void load(const nlohmann::json &) override {}
};
class HashSHA1 : public ContentRegistry::Hashes::Hash {
public:
HashSHA1() : Hash("hex.hashes.hash.sha1") {}
Function create(std::string name) override {
return Hash::create(name, [](const Region& region, prv::Provider *provider) -> std::vector<u8> {
auto array = crypt::sha1(provider, region.address, region.size);
return { array.begin(), array.end() };
});
}
[[nodiscard]] nlohmann::json store() const override { return { }; }
void load(const nlohmann::json &) override {}
};
class HashSHA224 : public ContentRegistry::Hashes::Hash {
public:
HashSHA224() : Hash("hex.hashes.hash.sha224") {}
Function create(std::string name) override {
return Hash::create(name, [](const Region& region, prv::Provider *provider) -> std::vector<u8> {
auto array = crypt::sha224(provider, region.address, region.size);
return { array.begin(), array.end() };
});
}
[[nodiscard]] nlohmann::json store() const override { return { }; }
void load(const nlohmann::json &) override {}
};
class HashSHA256 : public ContentRegistry::Hashes::Hash {
public:
HashSHA256() : Hash("hex.hashes.hash.sha256") {}
Function create(std::string name) override {
return Hash::create(name, [](const Region& region, prv::Provider *provider) -> std::vector<u8> {
auto array = crypt::sha256(provider, region.address, region.size);
return { array.begin(), array.end() };
});
}
[[nodiscard]] nlohmann::json store() const override { return { }; }
void load(const nlohmann::json &) override {}
};
class HashSHA384 : public ContentRegistry::Hashes::Hash {
public:
HashSHA384() : Hash("hex.hashes.hash.sha384") {}
Function create(std::string name) override {
return Hash::create(name, [](const Region& region, prv::Provider *provider) -> std::vector<u8> {
auto array = crypt::sha384(provider, region.address, region.size);
return { array.begin(), array.end() };
});
}
[[nodiscard]] nlohmann::json store() const override { return { }; }
void load(const nlohmann::json &) override {}
};
class HashSHA512 : public ContentRegistry::Hashes::Hash {
public:
HashSHA512() : Hash("hex.hashes.hash.sha512") {}
Function create(std::string name) override {
return Hash::create(name, [](const Region& region, prv::Provider *provider) -> std::vector<u8> {
auto array = crypt::sha512(provider, region.address, region.size);
return { array.begin(), array.end() };
});
}
[[nodiscard]] nlohmann::json store() const override { return { }; }
void load(const nlohmann::json &) override {}
};
class HashCRC : public ContentRegistry::Hashes::Hash {
public:
HashCRC() : Hash("Cyclic Redundancy Check (CRC)") {
m_crcs.push_back(HashFactory::Checksum::CreateCRC(3, 0, 0, false, false, 0, 0, { "hex.hashes.hash.common.standard.custom"_lang }));
for (CRCStandard standard = CRC3_GSM; standard < CRC64_XZ; standard = CRCStandard(int(standard) + 1)) {
m_crcs.push_back(HashFactory::Checksum::CreateCRC(standard));
}
}
void draw() override {
if (ImGui::BeginCombo("hex.hashes.hash.common.standard"_lang, m_crcs[m_selectedCrc]->GetName().c_str())) {
for (size_t i = 0; i < m_crcs.size(); i++) {
const bool selected = m_selectedCrc == i;
if (ImGui::Selectable(m_crcs[i]->GetName().c_str(), selected))
m_selectedCrc = i;
if (selected)
ImGui::SetItemDefaultFocus();
}
ImGui::EndCombo();
}
if (m_selectedCrc != 0) {
const auto crc = dynamic_cast<const IICRC*>(m_crcs[m_selectedCrc].get());
m_width = crc->GetWidth();
m_polynomial = crc->GetPolynomial();
m_initialValue = crc->GetInit();
m_xorOut = crc->GetXOROut();
m_reflectIn = crc->GetReflectIn();
m_reflectOut = crc->GetReflectOut();
}
ImGui::BeginDisabled(m_selectedCrc != 0);
ImGuiExt::InputHexadecimal("hex.hashes.hash.common.size"_lang, &m_width);
ImGuiExt::InputHexadecimal("hex.hashes.hash.common.poly"_lang, &m_polynomial);
ImGuiExt::InputHexadecimal("hex.hashes.hash.common.iv"_lang, &m_initialValue);
ImGuiExt::InputHexadecimal("hex.hashes.hash.common.xor_out"_lang, &m_xorOut);
ImGui::NewLine();
ImGui::Checkbox("hex.hashes.hash.common.refl_in"_lang, &m_reflectIn);
ImGui::Checkbox("hex.hashes.hash.common.refl_out"_lang, &m_reflectOut);
ImGui::EndDisabled();
}
Function create(std::string name) override {
return Hash::create(name, [hash = *this](const Region& region, prv::Provider *provider) -> std::vector<u8> {
auto crc = HashFactory::Checksum::CreateCRC(hash.m_width, hash.m_polynomial, hash.m_initialValue, hash.m_reflectIn, hash.m_reflectOut, hash.m_xorOut, 0, { "CRC" });
auto bytes = hashProviderRegionWithHashLib(region, provider, crc);
return bytes;
});
}
[[nodiscard]] nlohmann::json store() const override {
nlohmann::json result;
result["polynomial"] = m_polynomial;
result["initialValue"] = m_initialValue;
result["xorOut"] = m_xorOut;
result["reflectIn"] = m_reflectIn;
result["reflectOut"] = m_reflectOut;
return result;
}
void load(const nlohmann::json &json) override {
try {
m_polynomial = json.at("polynomial");
m_initialValue = json.at("initialValue");
m_xorOut = json.at("xorOut");
m_reflectIn = json.at("reflectIn");
m_reflectOut = json.at("reflectOut");
} catch (std::exception&) { }
}
private:
std::vector<IHash> m_crcs;
size_t m_selectedCrc = 0;
u32 m_width = 3;
u32 m_polynomial = 0;
u32 m_initialValue = 0;
u32 m_xorOut = 0;
bool m_reflectIn = false, m_reflectOut = false;
};
class HashBasic : public ContentRegistry::Hashes::Hash {
public:
using FactoryFunction = IHash(*)();
explicit HashBasic(FactoryFunction function) : Hash(function()->GetName()), m_factoryFunction(function) {}
Function create(std::string name) override {
return Hash::create(name, [hash = *this](const Region& region, prv::Provider *provider) -> std::vector<u8> {
IHash hashFunction = hash.m_factoryFunction();
hashFunction->Initialize();
return hashProviderRegionWithHashLib(region, provider, hashFunction);
});
}
[[nodiscard]] nlohmann::json store() const override { return { }; }
void load(const nlohmann::json &) override {}
private:
FactoryFunction m_factoryFunction;
};
class HashWithKey : public ContentRegistry::Hashes::Hash {
public:
using FactoryFunction = IHashWithKey(*)();
explicit HashWithKey(FactoryFunction function) : Hash(function()->GetName()), m_factoryFunction(function) {}
void draw() override {
ImGui::InputText("hex.hashes.hash.common.key"_lang, m_key, ImGuiInputTextFlags_CharsHexadecimal);
}
Function create(std::string name) override {
return Hash::create(name, [hash = *this, key = hex::parseByteString(m_key)](const Region& region, prv::Provider *provider) -> std::vector<u8> {
IHashWithKey hashFunction = hash.m_factoryFunction();
hashFunction->Initialize();
hashFunction->SetKey(key);
return hashProviderRegionWithHashLib(region, provider, hashFunction);
});
}
[[nodiscard]] nlohmann::json store() const override {
nlohmann::json result;
result["key"] = m_key;
return result;
}
void load(const nlohmann::json &data) override {
try {
m_key = data.at("key").get<std::string>();
} catch (std::exception&) { }
}
private:
FactoryFunction m_factoryFunction;
std::string m_key;
};
class HashInitialValue : public ContentRegistry::Hashes::Hash {
public:
using FactoryFunction = IHash(*)(const Int32);
explicit HashInitialValue(FactoryFunction function) : Hash(function(0)->GetName()), m_factoryFunction(function) {}
void draw() override {
ImGuiExt::InputHexadecimal("hex.hashes.hash.common.iv"_lang, &m_initialValue);
}
Function create(std::string name) override {
return Hash::create(name, [hash = *this](const Region& region, prv::Provider *provider) -> std::vector<u8> {
IHash hashFunction = hash.m_factoryFunction(Int32(hash.m_initialValue));
hashFunction->Initialize();
return hashProviderRegionWithHashLib(region, provider, hashFunction);
});
}
[[nodiscard]] nlohmann::json store() const override {
nlohmann::json result;
result["iv"] = m_initialValue;
return result;
}
void load(const nlohmann::json &data) override {
try {
m_initialValue = data.at("iv").get<u32>();
} catch (std::exception&) { }
}
private:
FactoryFunction m_factoryFunction;
u32 m_initialValue = 0x00;
};
class HashTiger : public ContentRegistry::Hashes::Hash {
public:
using FactoryFunction = IHash(*)(const Int32, const HashRounds&);
explicit HashTiger(std::string name, FactoryFunction function) : Hash(std::move(name)), m_factoryFunction(function) {}
void draw() override {
ImGui::Combo("hex.hashes.hash.common.size"_lang, &m_hashSize, "128 Bits\0" "160 Bits\0" "192 Bits\0");
ImGui::Combo("hex.hashes.hash.common.rounds"_lang, &m_hashRounds, "3 Rounds\0" "4 Rounds\0" "5 Rounds\0" "8 Rounds\0");
}
Function create(std::string name) override {
return Hash::create(name, [hash = *this](const Region& region, prv::Provider *provider) -> std::vector<u8> {
Int32 hashSize = 16;
switch (hash.m_hashSize) {
case 0: hashSize = 16; break;
case 1: hashSize = 20; break;
case 2: hashSize = 24; break;
}
HashRounds hashRounds = HashRounds::Rounds3;
switch (hash.m_hashRounds) {
case 0: hashRounds = HashRounds::Rounds3; break;
case 1: hashRounds = HashRounds::Rounds4; break;
case 2: hashRounds = HashRounds::Rounds5; break;
case 3: hashRounds = HashRounds::Rounds8; break;
}
IHash hashFunction = hash.m_factoryFunction(hashSize, hashRounds);
hashFunction->Initialize();
return hashProviderRegionWithHashLib(region, provider, hashFunction);
});
}
[[nodiscard]] nlohmann::json store() const override {
nlohmann::json result;
result["size"] = m_hashSize;
result["rounds"] = m_hashRounds;
return result;
}
void load(const nlohmann::json &data) override {
try {
m_hashSize = data.at("size").get<int>();
m_hashRounds = data.at("rounds").get<int>();
} catch (std::exception&) { }
}
private:
FactoryFunction m_factoryFunction;
int m_hashSize = 0, m_hashRounds = 0;
};
template<typename Config, typename T1, typename T2>
class HashBlake2 : public ContentRegistry::Hashes::Hash {
public:
using FactoryFunction = IHash(*)(T1 a_Config, T2 a_TreeConfig);
explicit HashBlake2(std::string name, FactoryFunction function) : Hash(std::move(name)), m_factoryFunction(function) {}
void draw() override {
ImGui::InputText("hex.hashes.hash.common.salt"_lang, m_salt, ImGuiInputTextFlags_CharsHexadecimal);
ImGui::InputText("hex.hashes.hash.common.key"_lang, m_key, ImGuiInputTextFlags_CharsHexadecimal);
ImGui::InputText("hex.hashes.hash.common.personalization"_lang, m_personalization, ImGuiInputTextFlags_CharsHexadecimal);
ImGui::Combo("hex.hashes.hash.common.size"_lang, &m_hashSize, "128 Bits\0" "160 Bits\0" "192 Bits\0" "224 Bits\0" "256 Bits\0" "288 Bits\0" "384 Bits\0" "512 Bits\0");
}
Function create(std::string name) override {
return Hash::create(name, [hash = *this, key = hex::parseByteString(m_key), salt = hex::parseByteString(m_salt), personalization = hex::parseByteString(m_personalization)](const Region& region, prv::Provider *provider) -> std::vector<u8> {
u32 hashSize = 16;
switch (hash.m_hashSize) {
case 0: hashSize = 16; break;
case 1: hashSize = 20; break;
case 2: hashSize = 24; break;
case 3: hashSize = 28; break;
case 4: hashSize = 32; break;
case 5: hashSize = 36; break;
case 6: hashSize = 48; break;
case 7: hashSize = 64; break;
}
auto config = Config::GetDefaultConfig();
config->SetKey(key);
config->SetSalt(salt);
config->SetPersonalization(personalization);
config->SetHashSize(hashSize);
IHash hashFunction = hash.m_factoryFunction(config, nullptr);
hashFunction->Initialize();
return hashProviderRegionWithHashLib(region, provider, hashFunction);
});
}
[[nodiscard]] nlohmann::json store() const override {
nlohmann::json result;
result["salt"] = m_salt;
result["key"] = m_key;
result["personalization"] = m_personalization;
result["size"] = m_hashSize;
return result;
}
void load(const nlohmann::json &data) override {
try {
m_hashSize = data.at("size").get<int>();
m_salt = data.at("salt").get<std::string>();
m_key = data.at("key").get<std::string>();
m_personalization = data.at("personalization").get<std::string>();
} catch (std::exception&) { }
}
private:
FactoryFunction m_factoryFunction;
std::string m_salt, m_key, m_personalization;
int m_hashSize = 0;
};
class HashSum : public ContentRegistry::Hashes::Hash {
public:
HashSum() : Hash("hex.hashes.hash.sum") {}
Function create(std::string name) override {
return Hash::create(name, [hash = *this](const Region& region, prv::Provider *provider) -> std::vector<u8> {
std::array<u8, 8> result = { 0x00 };
auto reader = prv::ProviderReader(provider);
reader.seek(region.getStartAddress());
reader.setEndAddress(region.getEndAddress());
u64 sum = hash.m_initialValue;
u8 progress = 0;
for (u8 byte : reader) {
sum += (byte << (8 * progress));
progress += 1;
progress = progress % hash.m_inputSize;
}
u64 foldedSum = sum;
if (hash.m_foldOutput) {
while (foldedSum >= (1LLU << (hash.m_outputSize * 8))) {
u64 partialSum = 0;
for (size_t i = 0; i < sizeof(u64); i += hash.m_inputSize) {
u64 value = 0;
std::memcpy(&value, reinterpret_cast<const u8*>(&foldedSum) + i, hash.m_inputSize);
partialSum += value;
}
foldedSum = partialSum;
}
}
std::memcpy(result.data(), &foldedSum, hash.m_outputSize);
return { result.begin(), result.begin() + hash.m_outputSize };
});
}
void draw() override {
ImGuiExt::InputHexadecimal("hex.hashes.hash.common.iv"_lang, &m_initialValue);
ImGui::SliderInt("hex.hashes.hash.common.input_size"_lang, &m_inputSize, 1, 8, "%d", ImGuiSliderFlags_AlwaysClamp);
ImGui::SliderInt("hex.hashes.hash.common.output_size"_lang, &m_outputSize, 1, 8, "%d", ImGuiSliderFlags_AlwaysClamp);
ImGui::Checkbox("hex.hashes.hash.sum.fold"_lang, &m_foldOutput);
}
[[nodiscard]] nlohmann::json store() const override {
nlohmann::json result;
result["iv"] = m_initialValue;
result["size"] = m_outputSize;
return result;
}
void load(const nlohmann::json &data) override {
try {
m_initialValue = data.at("iv").get<int>();
m_outputSize = data.at("size").get<int>();
} catch (std::exception&) { }
}
private:
u64 m_initialValue = 0x00;
int m_inputSize = 1;
int m_outputSize = 1;
bool m_foldOutput = false;
};
class HashSnefru : public ContentRegistry::Hashes::Hash {
public:
using FactoryFunction = IHash(*)(Int32 a_security_level, const HashSize &a_hash_size);
explicit HashSnefru(FactoryFunction function) : Hash("Snefru"), m_factoryFunction(function) {}
void draw() override {
ImGui::SliderInt("hex.hashes.hash.common.security_level"_lang, &m_securityLevel, 1, 1024);
ImGui::Combo("hex.hashes.hash.common.size"_lang, &m_hashSize, "128 Bits\0" "256 Bits\0");
}
Function create(std::string name) override {
return Hash::create(name, [hash = *this](const Region& region, prv::Provider *provider) -> std::vector<u8> {
u32 hashSize = 16;
switch (hash.m_hashSize) {
case 0: hashSize = 16; break;
case 1: hashSize = 32; break;
}
IHash hashFunction = hash.m_factoryFunction(hash.m_securityLevel, HashSize(hashSize));
hashFunction->Initialize();
return hashProviderRegionWithHashLib(region, provider, hashFunction);
});
}
[[nodiscard]] nlohmann::json store() const override {
nlohmann::json result;
result["securityLevel"] = m_securityLevel;
result["size"] = m_hashSize;
return result;
}
void load(const nlohmann::json &data) override {
try {
m_securityLevel = data.at("securityLevel").get<int>();
m_hashSize = data.at("size").get<int>();
} catch (std::exception&) { }
}
private:
FactoryFunction m_factoryFunction;
int m_securityLevel = 8;
int m_hashSize = 0;
};
class HashHaval : public ContentRegistry::Hashes::Hash {
public:
using FactoryFunction = IHash(*)(const HashRounds& a_rounds, const HashSize& a_hash_size);
explicit HashHaval(FactoryFunction function) : Hash("Haval"), m_factoryFunction(function) {}
void draw() override {
ImGui::Combo("hex.hashes.hash.common.rounds"_lang, &m_hashRounds, "3 Rounds\0" "4 Rounds\0" "5 Rounds\0");
ImGui::Combo("hex.hashes.hash.common.size"_lang, &m_hashSize, "128 Bits\0" "160 Bits\0" "192 Bits\0" "224 Bits\0" "256 Bits\0");
}
Function create(std::string name) override {
return Hash::create(name, [hash = *this](const Region& region, prv::Provider *provider) -> std::vector<u8> {
u32 hashSize = 16;
switch (hash.m_hashSize) {
case 0: hashSize = 16; break;
case 1: hashSize = 32; break;
}
u32 hashRounds = 3;
switch (hash.m_hashRounds) {
case 0: hashRounds = 3; break;
case 1: hashRounds = 4; break;
case 2: hashRounds = 5; break;
}
IHash hashFunction = hash.m_factoryFunction(HashRounds(hashRounds), HashSize(hashSize));
hashFunction->Initialize();
return hashProviderRegionWithHashLib(region, provider, hashFunction);
});
}
[[nodiscard]] nlohmann::json store() const override {
nlohmann::json result;
result["rounds"] = m_hashRounds;
result["size"] = m_hashSize;
return result;
}
void load(const nlohmann::json &data) override {
try {
m_hashRounds = data.at("rounds").get<int>();
m_hashSize = data.at("size").get<int>();
} catch (std::exception&) { }
}
private:
FactoryFunction m_factoryFunction;
int m_hashRounds = 0;
int m_hashSize = 0;
};
void registerHashes() {
ContentRegistry::Hashes::add<HashSum>();
ContentRegistry::Hashes::add<HashCRC>();
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Checksum::CreateAdler32);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateMD2);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateMD4);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateMD5);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA0);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA1);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA2_224);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA2_256);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA2_384);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA2_512);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA2_512_224);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA2_512_256);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA3_224);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA3_256);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA3_384);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateSHA3_512);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateKeccak_224);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateKeccak_256);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateKeccak_288);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateKeccak_384);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateKeccak_512);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateGrindahl256);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateGrindahl512);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreatePanama);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateWhirlPool);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateRadioGatun32);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateRadioGatun64);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateGost);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateGOST3411_2012_256);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateGOST3411_2012_512);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateHAS160);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateRIPEMD);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateRIPEMD128);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateRIPEMD160);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateRIPEMD256);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Crypto::CreateRIPEMD320);
ContentRegistry::Hashes::add<HashSnefru>(HashFactory::Crypto::CreateSnefru);
ContentRegistry::Hashes::add<HashHaval>(HashFactory::Crypto::CreateHaval);
ContentRegistry::Hashes::add<HashTiger>("Tiger", HashFactory::Crypto::CreateTiger);
ContentRegistry::Hashes::add<HashTiger>("Tiger2", HashFactory::Crypto::CreateTiger2);
ContentRegistry::Hashes::add<HashBlake2<Blake2BConfig, IBlake2BConfig, IBlake2BTreeConfig>>("Blake2b", HashFactory::Crypto::CreateBlake2B);
ContentRegistry::Hashes::add<HashBlake2<Blake2SConfig, IBlake2SConfig, IBlake2STreeConfig>>("Blake2s", HashFactory::Crypto::CreateBlake2S);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateAP);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateBKDR);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateBernstein);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateBernstein1);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateDEK);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateDJB);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateELF);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateFNV1a_32);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateFNV32);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateJS);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateOneAtTime);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreatePJW);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateRotating);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateRS);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateSDBM);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateShiftAndXor);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash32::CreateSuperFast);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash32::CreateMurmur2_32);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash32::CreateMurmurHash3_x86_32);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash32::CreateXXHash32);
ContentRegistry::Hashes::add<HashInitialValue>(HashFactory::Hash32::CreateJenkins3);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash64::CreateFNV64);
ContentRegistry::Hashes::add<HashBasic>(HashFactory::Hash64::CreateFNV1a_64);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash64::CreateMurmur2_64);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash64::CreateSipHash64_2_4);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash64::CreateXXHash64);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash128::CreateSipHash128_2_4);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash128::CreateMurmurHash3_x86_128);
ContentRegistry::Hashes::add<HashWithKey>(HashFactory::Hash128::CreateMurmurHash3_x64_128);
}
}