2021-12-07 22:47:41 +01:00
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#include <hex/helpers/patches.hpp>
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2020-11-27 09:09:48 +01:00
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2021-08-29 22:15:18 +02:00
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#include <hex/helpers/utils.hpp>
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2020-11-27 09:09:48 +01:00
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#include <cstring>
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#include <string_view>
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#include <type_traits>
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namespace hex {
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2021-09-08 15:18:24 +02:00
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static void pushBytesBack(std::vector<u8> &buffer, const std::string &string) {
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std::copy(string.begin(), string.end(), std::back_inserter(buffer));
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2020-11-27 09:09:48 +01:00
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}
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template<typename T>
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static void pushBytesBack(std::vector<u8> &buffer, T bytes) {
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buffer.resize(buffer.size() + sizeof(T));
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std::memcpy((&buffer.back() - sizeof(T)) + 1, &bytes, sizeof(T));
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}
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2020-11-29 15:09:36 +01:00
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2020-11-27 09:09:48 +01:00
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std::vector<u8> generateIPSPatch(const Patches &patches) {
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std::vector<u8> result;
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pushBytesBack(result, "PATCH");
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std::vector<u64> addresses;
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std::vector<u8> values;
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for (const auto &[address, value] : patches) {
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addresses.push_back(address);
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values.push_back(value);
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}
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std::optional<u64> startAddress;
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std::vector<u8> bytes;
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for (u32 i = 0; i < addresses.size(); i++) {
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if (!startAddress.has_value())
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startAddress = addresses[i];
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if (i != addresses.size() - 1 && addresses[i] == (addresses[i + 1] - 1)) {
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bytes.push_back(values[i]);
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} else {
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bytes.push_back(values[i]);
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if (bytes.size() > 0xFFFF || startAddress > 0xFF'FFFF)
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return { };
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u32 address = startAddress.value();
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auto addressBytes = reinterpret_cast<u8*>(&address);
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result.push_back(addressBytes[2]); result.push_back(addressBytes[1]); result.push_back(addressBytes[0]);
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pushBytesBack<u16>(result, changeEndianess<u16>(bytes.size(), std::endian::big));
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for (auto byte : bytes)
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result.push_back(byte);
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bytes.clear();
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startAddress = { };
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}
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}
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pushBytesBack(result, "EOF");
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return result;
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}
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std::vector<u8> generateIPS32Patch(const Patches &patches) {
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std::vector<u8> result;
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pushBytesBack(result, "IPS32");
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std::vector<u64> addresses;
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std::vector<u8> values;
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for (const auto &[address, value] : patches) {
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addresses.push_back(address);
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values.push_back(value);
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}
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std::optional<u64> startAddress;
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std::vector<u8> bytes;
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for (u32 i = 0; i < addresses.size(); i++) {
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if (!startAddress.has_value())
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startAddress = addresses[i];
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if (i != addresses.size() - 1 && addresses[i] == (addresses[i + 1] - 1)) {
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bytes.push_back(values[i]);
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} else {
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bytes.push_back(values[i]);
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if (bytes.size() > 0xFFFF || startAddress > 0xFFFF'FFFF)
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return { };
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u32 address = startAddress.value();
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auto addressBytes = reinterpret_cast<u8*>(&address);
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result.push_back(addressBytes[3]); result.push_back(addressBytes[2]); result.push_back(addressBytes[1]); result.push_back(addressBytes[0]);
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pushBytesBack<u16>(result, changeEndianess<u16>(bytes.size(), std::endian::big));
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for (auto byte : bytes)
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result.push_back(byte);
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bytes.clear();
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startAddress = { };
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}
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}
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pushBytesBack(result, "EEOF");
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return result;
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}
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2020-11-29 15:09:36 +01:00
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Patches loadIPSPatch(const std::vector<u8> &ipsPatch) {
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if (ipsPatch.size() < (5 + 3))
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return { };
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if (std::memcmp(ipsPatch.data(), "PATCH", 5) != 0)
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return { };
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Patches result;
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bool foundEOF = false;
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u32 ipsOffset = 5;
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while (ipsOffset < ipsPatch.size() - (5 + 3)) {
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u32 offset = ipsPatch[ipsOffset + 2] | (ipsPatch[ipsOffset + 1] << 8) | (ipsPatch[ipsOffset + 0] << 16);
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u16 size = ipsPatch[ipsOffset + 4] | (ipsPatch[ipsOffset + 3] << 8);
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ipsOffset += 5;
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// Handle normal record
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if (size > 0x0000) {
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if (ipsOffset + size > ipsPatch.size() - 3)
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return { };
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for (u16 i = 0; i < size; i++)
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result[offset + i] = ipsPatch[ipsOffset + i];
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ipsOffset += size;
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}
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// Handle RLE record
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else {
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if (ipsOffset + 3 > ipsPatch.size() - 3)
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return { };
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u16 rleSize = ipsPatch[ipsOffset + 0] | (ipsPatch[ipsOffset + 1] << 8);
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ipsOffset += 2;
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for (u16 i = 0; i < rleSize; i++)
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result[offset + i] = ipsPatch[ipsOffset + 0];
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ipsOffset += 1;
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}
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if (std::memcmp(ipsPatch.data(), "EOF", 3))
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foundEOF = true;
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}
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if (foundEOF)
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return result;
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else
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return { };
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}
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Patches loadIPS32Patch(const std::vector<u8> &ipsPatch) {
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if (ipsPatch.size() < (5 + 4))
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return { };
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if (std::memcmp(ipsPatch.data(), "IPS32", 5) != 0)
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return { };
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Patches result;
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bool foundEEOF = false;
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u32 ipsOffset = 5;
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while (ipsOffset < ipsPatch.size() - (5 + 4)) {
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u32 offset = ipsPatch[ipsOffset + 3] | (ipsPatch[ipsOffset + 2] << 8) | (ipsPatch[ipsOffset + 1] << 16) | (ipsPatch[ipsOffset + 0] << 24);
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u16 size = ipsPatch[ipsOffset + 5] | (ipsPatch[ipsOffset + 4] << 8);
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ipsOffset += 6;
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// Handle normal record
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if (size > 0x0000) {
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if (ipsOffset + size > ipsPatch.size() - 3)
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return { };
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for (u16 i = 0; i < size; i++)
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result[offset + i] = ipsPatch[ipsOffset + i];
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ipsOffset += size;
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}
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// Handle RLE record
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else {
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if (ipsOffset + 3 > ipsPatch.size() - 3)
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return { };
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u16 rleSize = ipsPatch[ipsOffset + 0] | (ipsPatch[ipsOffset + 1] << 8);
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ipsOffset += 2;
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for (u16 i = 0; i < rleSize; i++)
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result[offset + i] = ipsPatch[ipsOffset + 0];
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ipsOffset += 1;
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}
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if (std::memcmp(ipsPatch.data(), "EEOF", 4))
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foundEEOF = true;
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}
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if (foundEEOF)
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return result;
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else
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return { };
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}
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2020-11-27 09:09:48 +01:00
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}
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