#pragma once #include"memdbg/memsearch.h" // util.h // 8/23/2013 jichi #define XX2 XX,XX // WORD #define XX4 XX2,XX2 // DWORD #define XX8 XX4,XX4 // QWORD enum : DWORD { X64_MAX_REL_ADDR = 0x00300000 }; enum : DWORD { MAX_REL_ADDR = 0x00300000 }; namespace{ static union { char text_buffer[0x1000]; wchar_t wc_buffer[0x800]; }; DWORD buffer_index, buffer_length; } namespace Util { #ifndef _WIN64 DWORD GetCodeRange(DWORD hModule,DWORD *low, DWORD *high); DWORD FindCallAndEntryBoth(DWORD fun, DWORD size, DWORD pt, DWORD sig); DWORD FindCallOrJmpRel(DWORD fun, DWORD size, DWORD pt, bool jmp); DWORD FindCallOrJmpAbs(DWORD fun, DWORD size, DWORD pt, bool jmp); DWORD FindCallBoth(DWORD fun, DWORD size, DWORD pt); DWORD FindCallAndEntryAbs(DWORD fun, DWORD size, DWORD pt, DWORD sig); DWORD FindCallAndEntryRel(DWORD fun, DWORD size, DWORD pt, DWORD sig); DWORD FindImportEntry(DWORD hModule, DWORD fun); #endif bool CheckFile(LPCWSTR name); bool SearchResourceString(LPCWSTR str); std::pair QueryModuleLimits(HMODULE module,uintptr_t addition=0x1000,DWORD protect=PAGE_EXECUTE); std::vector SearchMemory(const void* bytes, short length, DWORD protect = PAGE_EXECUTE, uintptr_t minAddr = 0, uintptr_t maxAddr = -1ULL); uintptr_t FindFunction(const char* function); } // namespace Util #ifndef _WIN64 ULONG SafeFindEnclosingAlignedFunction(DWORD addr, DWORD range); ULONG SafeFindBytes(LPCVOID pattern, DWORD patternSize, DWORD lowerBound, DWORD upperBound); ULONG _SafeMatchBytesInMappedMemory(LPCVOID pattern, DWORD patternSize, BYTE wildcard, ULONG start, ULONG stop, ULONG step); ULONG SafeMatchBytesInGCMemory(LPCVOID pattern, DWORD patternSize); std::vector findrelativecall(const BYTE* pattern ,int length,DWORD calladdress,DWORD start, DWORD end); std::vector findxref_reverse_checkcallop(DWORD addr, DWORD from, DWORD to,BYTE op) ; uintptr_t finddllfunctioncall(uintptr_t funcptr,uintptr_t start, uintptr_t end,WORD sig=0x15ff,bool reverse=false); uintptr_t findfuncstart(uintptr_t addr,uintptr_t range=0x100); #endif uintptr_t find_pattern(const char* pattern,uintptr_t start,uintptr_t end); uintptr_t reverseFindBytes(const BYTE* pattern, int length, uintptr_t start, uintptr_t end); std::vector findxref_reverse(uintptr_t addr, uintptr_t from, uintptr_t to); namespace Engine{ bool isAddressReadable(const uintptr_t *p); bool isAddressReadable(const char *p, size_t count = 1); bool isAddressReadable(const wchar_t *p, size_t count = 1); bool isAddressWritable(const uintptr_t *p); bool isAddressWritable(const char *p, size_t count = 1); bool isAddressWritable(const wchar_t *p, size_t count = 1); inline bool isAddressReadable(const void *addr) { return isAddressReadable((const uintptr_t *)addr); } inline bool isAddressReadable(uintptr_t addr) { return isAddressReadable((const void *)addr); } inline bool isAddressWritable(const void *addr) { return isAddressWritable((const uintptr_t *)addr); } inline bool isAddressWritable(uintptr_t addr) { return isAddressWritable((const void *)addr); } } void write_string_new(uintptr_t* data, size_t* len,const std::wstring& s); void write_string_new(uintptr_t* data, size_t* len,const std::string& s); bool write_string_overwrite(void* data, size_t* len,const std::wstring& s); bool write_string_overwrite(void* data, size_t* len,const std::string& s);