// util/util.cc // 8/23/2013 jichi // Branch: ITH_Engine/engine.cpp, revision 133 // See: http://ja.wikipedia.org/wiki/プロジェクト:美少女ゲーム系/ゲームエンジン #include "util/util.h" #include "ithsys/ithsys.h" #include "main.h" #include "growl.h" namespace { // unnamed // jichi 4/19/2014: Return the integer that can mask the signature // Artikash 8/4/2018: change implementation DWORD SigMask(DWORD sig) { DWORD count = 0; while (sig) { sig >>= 8; ++count; } count -= 4; count = -count; return 0xffffffff >> (count << 3); } uint64_t SafeSearchMemory(uint64_t startAddr, uint64_t endAddr, const BYTE* bytes, short length) { __try { for (int i = 0; i < endAddr - startAddr - length; ++i) for (int j = 0; j <= length; ++j) if (j == length) return startAddr + i; // not sure about this algorithm... else if (*((BYTE*)startAddr + i + j) != *(bytes + j) && *(bytes + j) != 0x11) break; // 0x11 = wildcard } __except (EXCEPTION_EXECUTE_HANDLER) { ConsoleOutput("Textractor: SearchMemory ERROR (Textractor will likely still work fine, but please let Artikash know if this happens a lot!)"); } return 0; } } // namespace unnamed namespace Util { // jichi 8/24/2013: binary search? DWORD GetCodeRange(DWORD hModule,DWORD *low, DWORD *high) { IMAGE_DOS_HEADER *DosHdr; IMAGE_NT_HEADERS *NtHdr; DWORD dwReadAddr; IMAGE_SECTION_HEADER *shdr; DosHdr = (IMAGE_DOS_HEADER *)hModule; if (IMAGE_DOS_SIGNATURE == DosHdr->e_magic) { dwReadAddr = hModule + DosHdr->e_lfanew; NtHdr = (IMAGE_NT_HEADERS *)dwReadAddr; if (IMAGE_NT_SIGNATURE == NtHdr->Signature) { shdr = (PIMAGE_SECTION_HEADER)((DWORD)(&NtHdr->OptionalHeader) + NtHdr->FileHeader.SizeOfOptionalHeader); while ((shdr->Characteristics & IMAGE_SCN_CNT_CODE) == 0) shdr++; *low = hModule + shdr->VirtualAddress; *high = *low + (shdr->Misc.VirtualSize & 0xfffff000) + 0x1000; } } return 0; } DWORD FindCallAndEntryBoth(DWORD fun, DWORD size, DWORD pt, DWORD sig) { //WCHAR str[0x40]; enum { reverse_length = 0x800 }; DWORD t, l; DWORD mask = SigMask(sig); bool flag2; for (DWORD i = 0x1000; i < size-4; i++) { bool flag1 = false; if (*(BYTE *)(pt + i) == 0xe8) { flag1 = flag2 = true; t = *(DWORD *)(pt + i + 1); } else if (*(WORD *)(pt + i) == 0x15ff) { flag1 = true; flag2 = false; t = *(DWORD *)(pt + i + 2); } if (flag1) { if (flag2) { flag1 = (pt + i + 5 + t == fun); l = 5; } else if (t >= pt && t <= pt + size - 4) { flag1 = fun == *(DWORD *)t; l = 6; } else flag1 = false; if (flag1) //swprintf(str,L"CALL addr: 0x%.8X",pt + i); //OutputConsole(str); for (DWORD j = i; j > i - reverse_length; j--) if ((*(WORD *)(pt + j)) == (sig & mask)) //Fun entry 1. //swprintf(str,L"Entry: 0x%.8X",pt + j); //OutputConsole(str); return pt + j; else i += l; } } //OutputConsole(L"Find call and entry failed."); return 0; } DWORD FindCallOrJmpRel(DWORD fun, DWORD size, DWORD pt, bool jmp) { BYTE sig = (jmp) ? 0xe9 : 0xe8; for (DWORD i = 0x1000; i < size - 4; i++) if (sig == *(BYTE *)(pt + i)) { DWORD t = *(DWORD *)(pt + i + 1); if(fun == pt + i + 5 + t) //OutputDWORD(pt + i); return pt + i; else i += 5; } return 0; } DWORD FindCallOrJmpAbs(DWORD fun, DWORD size, DWORD pt, bool jmp) { WORD sig = jmp ? 0x25ff : 0x15ff; for (DWORD i = 0x1000; i < size - 4; i++) if (sig == *(WORD *)(pt + i)) { DWORD t = *(DWORD *)(pt + i + 2); if (t > pt && t < pt + size) { if (fun == *(DWORD *)t) return pt + i; else i += 5; } } return 0; } DWORD FindCallBoth(DWORD fun, DWORD size, DWORD pt) { for (DWORD i = 0x1000; i < size - 4; i++) { if (*(BYTE *)(pt + i) == 0xe8) { DWORD t = *(DWORD *)(pt + i + 1) + pt + i + 5; if (t == fun) return i; } if (*(WORD *)(pt + i) == 0x15ff) { DWORD t = *(DWORD *)(pt + i + 2); if (t >= pt && t <= pt + size - 4) { if (*(DWORD *)t == fun) return i; else i += 6; } } } return 0; } DWORD FindCallAndEntryAbs(DWORD fun, DWORD size, DWORD pt, DWORD sig) { //WCHAR str[0x40]; enum { reverse_length = 0x800 }; DWORD mask = SigMask(sig); for (DWORD i = 0x1000; i < size - 4; i++) if (*(WORD *)(pt + i) == 0x15ff) { DWORD t = *(DWORD *)(pt + i + 2); if (t >= pt && t <= pt + size - 4) { if (*(DWORD *)t == fun) //swprintf(str,L"CALL addr: 0x%.8X",pt + i); //OutputConsole(str); for (DWORD j = i ; j > i - reverse_length; j--) if ((*(DWORD *)(pt + j) & mask) == sig) // Fun entry 1. //swprintf(str,L"Entry: 0x%.8X",pt + j); //OutputConsole(str); return pt + j; } else i += 6; } //OutputConsole(L"Find call and entry failed."); return 0; } DWORD FindCallAndEntryRel(DWORD fun, DWORD size, DWORD pt, DWORD sig) { //WCHAR str[0x40]; enum { reverse_length = 0x800 }; if (DWORD i = FindCallOrJmpRel(fun, size, pt, false)) { DWORD mask = SigMask(sig); for (DWORD j = i; j > i - reverse_length; j--) if (((*(DWORD *)j) & mask) == sig) //Fun entry 1. //swprintf(str,L"Entry: 0x%.8X",j); //OutputConsole(str); return j; //OutputConsole(L"Find call and entry failed."); } return 0; } bool CheckFile(LPCWSTR name) { WIN32_FIND_DATAW unused; HANDLE file = FindFirstFileW(name, &unused); if (file != INVALID_HANDLE_VALUE) { FindClose(file); return true; } wchar_t path[MAX_PATH * 2]; wchar_t* end = path + GetModuleFileNameW(nullptr, path, MAX_PATH); while (*(--end) != L'\\'); wcscpy(end + 1, name); file = FindFirstFileW(path, &unused); if (file != INVALID_HANDLE_VALUE) { FindClose(file); return true; } return false; } DWORD FindEntryAligned(DWORD start, DWORD back_range) { start &= ~0xf; for (DWORD i = start, j = start - back_range; i > j; i-=0x10) { DWORD k = *(DWORD *)(i-4); if (k == 0xcccccccc || k == 0x90909090 || k == 0xccccccc3 || k == 0x909090c3 ) return i; DWORD t = k & 0xff0000ff; if (t == 0xcc0000c2 || t == 0x900000c2) return i; k >>= 8; if (k == 0xccccc3 || k == 0x9090c3) return i; t = k & 0xff; if (t == 0xc2) return i; k >>= 8; if (k == 0xccc3 || k == 0x90c3) return i; k >>= 8; if (k == 0xc3) return i; } return 0; } DWORD FindImportEntry(DWORD hModule, DWORD fun) { IMAGE_DOS_HEADER *DosHdr; IMAGE_NT_HEADERS *NtHdr; DWORD IAT, end, pt, addr; DosHdr = (IMAGE_DOS_HEADER *)hModule; if (IMAGE_DOS_SIGNATURE == DosHdr->e_magic) { NtHdr = (IMAGE_NT_HEADERS *)(hModule + DosHdr->e_lfanew); if (IMAGE_NT_SIGNATURE == NtHdr->Signature) { IAT = NtHdr->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IAT].VirtualAddress; end = NtHdr->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IAT].Size; IAT += hModule; end += IAT; for (pt = IAT; pt < end; pt += 4) { addr = *(DWORD *)pt; if (addr == fun) return pt; } } } return 0; } // Search string in rsrc section. This section usually contains version and copyright info. bool SearchResourceString(LPCWSTR str) { DWORD hModule = (DWORD)GetModuleHandleW(nullptr); IMAGE_DOS_HEADER *DosHdr; IMAGE_NT_HEADERS *NtHdr; DosHdr = (IMAGE_DOS_HEADER *)hModule; DWORD rsrc, size; //__asm int 3 if (IMAGE_DOS_SIGNATURE == DosHdr->e_magic) { NtHdr = (IMAGE_NT_HEADERS *)(hModule + DosHdr->e_lfanew); if (IMAGE_NT_SIGNATURE == NtHdr->Signature) { rsrc = NtHdr->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_RESOURCE].VirtualAddress; if (rsrc) { rsrc += hModule; if (IthGetMemoryRange((LPVOID)rsrc, &rsrc ,&size) && SearchPattern(rsrc, size - 4, str, wcslen(str) << 1)) return true; } } } return false; } std::vector SearchMemory(const void* bytes, short length, DWORD protect) { SYSTEM_INFO systemInfo; GetNativeSystemInfo(&systemInfo); std::vector> validMemory; for (BYTE* probe = NULL; probe < systemInfo.lpMaximumApplicationAddress;) { MEMORY_BASIC_INFORMATION info = {}; if (!VirtualQuery(probe, &info, sizeof(info))) { probe += systemInfo.dwPageSize; continue; } else { if (info.Protect >= protect && !(info.Protect & PAGE_GUARD)) validMemory.push_back({ (uint64_t)info.BaseAddress, info.RegionSize }); probe += info.RegionSize; } } std::vector ret; for (auto memory : validMemory) for (uint64_t addr = memory.first; true;) if (addr = SafeSearchMemory(addr, memory.first + memory.second, (const BYTE*)bytes, length)) ret.push_back(addr++); else break; return ret; } } // EOF