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author | BobTheBob9 <for.oliver.kirkham@gmail.com> | 2022-07-24 20:55:34 +0100 |
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committer | BobTheBob9 <for.oliver.kirkham@gmail.com> | 2022-07-24 20:55:34 +0100 |
commit | 52dc6d143fec8eabb9958bacbdbf6f1b4b4af592 (patch) | |
tree | 61473cc529921fa622d7815b06c8530234248034 /NorthstarDLL/memory.cpp | |
parent | b0bef05111a95a4cce6250d2b79e2aa5baa6dd98 (diff) | |
download | NorthstarLauncher-52dc6d143fec8eabb9958bacbdbf6f1b4b4af592.tar.gz NorthstarLauncher-52dc6d143fec8eabb9958bacbdbf6f1b4b4af592.zip |
add new memory lib
Diffstat (limited to 'NorthstarDLL/memory.cpp')
-rw-r--r-- | NorthstarDLL/memory.cpp | 350 |
1 files changed, 350 insertions, 0 deletions
diff --git a/NorthstarDLL/memory.cpp b/NorthstarDLL/memory.cpp new file mode 100644 index 00000000..e1662fda --- /dev/null +++ b/NorthstarDLL/memory.cpp @@ -0,0 +1,350 @@ +#include "pch.h" +#include "memory.h" + +MemoryAddress::MemoryAddress() : m_nAddress(0) {} +MemoryAddress::MemoryAddress(const uintptr_t nAddress) : m_nAddress(nAddress) {} +MemoryAddress::MemoryAddress(const void* pAddress) : m_nAddress(reinterpret_cast<uintptr_t>(pAddress)) {} + +// operators +MemoryAddress::operator uintptr_t() const +{ + return m_nAddress; +} + +MemoryAddress::operator void* () const +{ + return reinterpret_cast<void*>(m_nAddress); +} + +MemoryAddress::operator bool() const +{ + return m_nAddress != 0; +} + +bool MemoryAddress::operator==(const MemoryAddress& other) const +{ + return m_nAddress == other.m_nAddress; +} + +bool MemoryAddress::operator!=(const MemoryAddress& other) const +{ + return m_nAddress != other.m_nAddress; +} + +bool MemoryAddress::operator==(const uintptr_t& addr) const +{ + return m_nAddress == addr; +} + +bool MemoryAddress::operator!=(const uintptr_t& addr) const +{ + return m_nAddress != addr; +} + +MemoryAddress MemoryAddress::operator+(const MemoryAddress& other) const +{ + return Offset(other.m_nAddress); +} + +MemoryAddress MemoryAddress::operator-(const MemoryAddress& other) const +{ + return MemoryAddress(m_nAddress - other.m_nAddress); +} + +MemoryAddress MemoryAddress::operator+(const uintptr_t& addr) const +{ + return Offset(addr); +} + +MemoryAddress MemoryAddress::operator-(const uintptr_t& addr) const +{ + return MemoryAddress(m_nAddress - addr); +} + +MemoryAddress MemoryAddress::operator*() const +{ + return Deref(); +} + +// traversal +MemoryAddress MemoryAddress::Offset(const uintptr_t nOffset) const +{ + return MemoryAddress(m_nAddress + nOffset); +} + +MemoryAddress MemoryAddress::Deref(const int nNumDerefs) const +{ + uintptr_t ret = m_nAddress; + for (int i = 0; i < nNumDerefs; i++) + ret = *reinterpret_cast<uintptr_t*>(ret); + + return MemoryAddress(ret); +} + +// patching +void MemoryAddress::Patch(const uint8_t* pBytes, const size_t nSize) +{ + if (nSize) + WriteProcessMemory(GetCurrentProcess(), reinterpret_cast<LPVOID>(m_nAddress), pBytes, nSize, NULL); +} + +void MemoryAddress::Patch(const std::initializer_list<uint8_t> bytes) +{ + uint8_t* pBytes = new uint8_t[bytes.size()]; + + int i = 0; + for (const uint8_t& byte : bytes) + pBytes[i++] = byte; + + Patch(pBytes, bytes.size()); + delete[] pBytes; +} + +inline std::vector<uint8_t> HexBytesToString(const char* pHexString) +{ + std::vector<uint8_t> ret; + + int size = strlen(pHexString); + for (int i = 0; i < size; i++) + { + // If this is a space character, ignore it + if (isspace(pHexString[i])) + continue; + + if (i < size - 1) + { + BYTE result = 0; + for (int j = 0; j < 2; j++) + { + int val = 0; + char c = *(pHexString + i + j); + if (c >= 'a') + { + val = c - 'a' + 0xA; + } + else if (c >= 'A') + { + val = c - 'A' + 0xA; + } + else if (isdigit(c)) + { + val = c - '0'; + } + else + { + assert(false, "Failed to parse invalid hex string."); + val = -1; + } + + result += (j == 0) ? val * 16 : val; + } + ret.push_back(result); + } + + i++; + } + + return ret; +} + +void MemoryAddress::Patch(const char* pBytes) +{ + std::vector<uint8_t> vBytes = HexBytesToString(pBytes); + Patch(vBytes.data(), vBytes.size()); +} + +void MemoryAddress::NOP(const size_t nSize) +{ + uint8_t* pBytes = new uint8_t[nSize]; + + memset(pBytes, 0x90, nSize); + Patch(pBytes, nSize); + + delete[] pBytes; +} + +bool MemoryAddress::IsMemoryReadable(const size_t nSize) +{ + static SYSTEM_INFO sysInfo; + if (!sysInfo.dwPageSize) + GetSystemInfo(&sysInfo); + + MEMORY_BASIC_INFORMATION memInfo; + if (!VirtualQuery(reinterpret_cast<LPCVOID>(m_nAddress), &memInfo, sizeof(memInfo))) + return false; + + return memInfo.RegionSize >= nSize && memInfo.State & MEM_COMMIT && !(memInfo.Protect & PAGE_NOACCESS); +} + + + +CModule::CModule(const HMODULE pModule) +{ + MODULEINFO mInfo {0}; + + if (pModule && pModule != INVALID_HANDLE_VALUE) + GetModuleInformation(GetCurrentProcess(), pModule, &mInfo, sizeof(MODULEINFO)); + + m_nModuleSize = static_cast<size_t>(mInfo.SizeOfImage); + m_pModuleBase = reinterpret_cast<uintptr_t>(mInfo.lpBaseOfDll); + m_nAddress = m_pModuleBase; + + if (!m_nModuleSize || !m_pModuleBase) + return; + + m_pDOSHeader = reinterpret_cast<IMAGE_DOS_HEADER*>(m_pModuleBase); + m_pNTHeaders = reinterpret_cast<IMAGE_NT_HEADERS64*>(m_pModuleBase + m_pDOSHeader->e_lfanew); + + const IMAGE_SECTION_HEADER* hSection = IMAGE_FIRST_SECTION(m_pNTHeaders); // Get first image section. + + for (WORD i = 0; i < m_pNTHeaders->FileHeader.NumberOfSections; i++) // Loop through the sections. + { + const IMAGE_SECTION_HEADER& hCurrentSection = hSection[i]; // Get current section. + + ModuleSections_t moduleSection = ModuleSections_t( + std::string(reinterpret_cast<const char*>(hCurrentSection.Name)), + static_cast<uintptr_t>(m_pModuleBase + hCurrentSection.VirtualAddress), + hCurrentSection.SizeOfRawData); + + if (!strcmp((const char*)hCurrentSection.Name, ".text")) + m_ExecutableCode = moduleSection; + else if (!strcmp((const char*)hCurrentSection.Name, ".pdata")) + m_ExceptionTable = moduleSection; + else if (!strcmp((const char*)hCurrentSection.Name, ".data")) + m_RunTimeData = moduleSection; + else if (!strcmp((const char*)hCurrentSection.Name, ".rdata")) + m_ReadOnlyData = moduleSection; + + m_vModuleSections.push_back(moduleSection); // Push back a struct with the section data. + } +} + +CModule::CModule(const char* pModuleName) : CModule(GetModuleHandleA(pModuleName)) {} + +MemoryAddress CModule::GetExport(const char* pExportName) +{ + return MemoryAddress(reinterpret_cast<uintptr_t>(GetProcAddress(reinterpret_cast<HMODULE>(m_nAddress), pExportName))); +} + +MemoryAddress CModule::FindPattern(const uint8_t* pPattern, const char* pMask) +{ + if (!m_ExecutableCode.IsSectionValid()) + return MemoryAddress(); + + uint64_t nBase = static_cast<uint64_t>(m_ExecutableCode.m_pSectionBase); + uint64_t nSize = static_cast<uint64_t>(m_ExecutableCode.m_nSectionSize); + + const uint8_t* pData = reinterpret_cast<uint8_t*>(nBase); + const uint8_t* pEnd = pData + static_cast<uint32_t>(nSize) - strlen(pMask); + + int nMasks[64]; // 64*16 = enough masks for 1024 bytes. + int iNumMasks = static_cast<int>(ceil(static_cast<float>(strlen(pMask)) / 16.f)); + + memset(nMasks, '\0', iNumMasks * sizeof(int)); + for (intptr_t i = 0; i < iNumMasks; ++i) + { + for (intptr_t j = strnlen(pMask + i * 16, 16) - 1; j >= 0; --j) + { + if (pMask[i * 16 + j] == 'x') + { + _bittestandset(reinterpret_cast<LONG*>(&nMasks[i]), j); + } + } + } + __m128i xmm1 = _mm_loadu_si128(reinterpret_cast<const __m128i*>(pPattern)); + __m128i xmm2, xmm3, msks; + for (; pData != pEnd; _mm_prefetch(reinterpret_cast<const char*>(++pData + 64), _MM_HINT_NTA)) + { + if (pPattern[0] == pData[0]) + { + xmm2 = _mm_loadu_si128(reinterpret_cast<const __m128i*>(pData)); + msks = _mm_cmpeq_epi8(xmm1, xmm2); + if ((_mm_movemask_epi8(msks) & nMasks[0]) == nMasks[0]) + { + for (uintptr_t i = 1; i < static_cast<uintptr_t>(iNumMasks); ++i) + { + xmm2 = _mm_loadu_si128(reinterpret_cast<const __m128i*>((pData + i * 16))); + xmm3 = _mm_loadu_si128(reinterpret_cast<const __m128i*>((pPattern + i * 16))); + msks = _mm_cmpeq_epi8(xmm2, xmm3); + if ((_mm_movemask_epi8(msks) & nMasks[i]) == nMasks[i]) + { + if ((i + 1) == iNumMasks) + { + return MemoryAddress(const_cast<uint8_t*>(pData)); + } + } + else + goto CONTINUE; + } + + return MemoryAddress((&*(const_cast<uint8_t*>(pData)))); + } + } + + CONTINUE:; + } + + return MemoryAddress(); +} + +inline std::pair<std::vector<uint8_t>, std::string> MaskedBytesFromPattern(const char* pPatternString) +{ + std::vector<uint8_t> vRet; + std::string sMask; + + int size = strlen(pPatternString); + for (int i = 0; i < size; i++) + { + // If this is a space character, ignore it + if (isspace(pPatternString[i])) + continue; + + if (pPatternString[i] == '?') + { + // Add a wildcard + vRet.push_back(0); + sMask.append("?"); + } + else if (i < size - 1) + { + BYTE result = 0; + for (int j = 0; j < 2; j++) + { + int val = 0; + char c = *(pPatternString + i + j); + if (c >= 'a') + { + val = c - 'a' + 0xA; + } + else if (c >= 'A') + { + val = c - 'A' + 0xA; + } + else if (isdigit(c)) + { + val = c - '0'; + } + else + { + assert(false, "Failed to parse invalid pattern string."); + val = -1; + } + + result += (j == 0) ? val * 16 : val; + } + + vRet.push_back(result); + sMask.append("x"); + } + + i++; + } + + return std::make_pair(vRet, sMask); +} + +MemoryAddress CModule::FindPattern(const char* pPattern) +{ + const auto pattern = MaskedBytesFromPattern(pPattern); + return FindPattern(pattern.first.data(), pattern.second.c_str()); +}
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