#include "common.h" #include "files.h" #include #include #include #include #include #include #include #include namespace kernel32 { uint32_t WIN_FUNC GetLastError() { return wibo::lastError; } void *WIN_FUNC GetCurrentProcess() { return (void *) 0xFFFFFFFF; } unsigned int WIN_FUNC GetCurrentThreadId() { return 1001; // a handy placeholder } void WIN_FUNC ExitProcess(unsigned int uExitCode) { exit(uExitCode); } int WIN_FUNC CreateProcessA( const char *lpApplicationName, char *lpCommandLine, void *lpProcessAttributes, void *lpThreadAttributes, int bInheritHandles, int dwCreationFlags, void *lpEnvironment, const char *lpCurrentDirectory, void *lpStartupInfo, void *lpProcessInformation ) { printf("CreateProcessA %s \"%s\" %p %p %d 0x%x %p %s %p %p\n", lpApplicationName, lpCommandLine, lpProcessAttributes, lpThreadAttributes, bInheritHandles, dwCreationFlags, lpEnvironment, lpCurrentDirectory ? lpCurrentDirectory : "", lpStartupInfo, lpProcessInformation ); printf("Cannot handle process creation, aborting\n"); exit(1); return 0; } int WIN_FUNC GetSystemDefaultLangID() { return 0; } void WIN_FUNC InitializeCriticalSection(void *param) { // DEBUG_LOG("InitializeCriticalSection(...)\n"); } void WIN_FUNC DeleteCriticalSection(void *param) { // DEBUG_LOG("DeleteCriticalSection(...)\n"); } void WIN_FUNC EnterCriticalSection(void *param) { // DEBUG_LOG("EnterCriticalSection(...)\n"); } void WIN_FUNC LeaveCriticalSection(void *param) { // DEBUG_LOG("LeaveCriticalSection(...)\n"); } /* * TLS (Thread-Local Storage) */ enum { MAX_TLS_VALUES = 100 }; static bool tlsValuesUsed[MAX_TLS_VALUES] = { false }; static void *tlsValues[MAX_TLS_VALUES]; unsigned int WIN_FUNC TlsAlloc() { DEBUG_LOG("TlsAlloc()\n"); for (size_t i = 0; i < MAX_TLS_VALUES; i++) { if (tlsValuesUsed[i] == false) { tlsValuesUsed[i] = true; tlsValues[i] = 0; DEBUG_LOG("...returning %d\n", i); return i; } } DEBUG_LOG("...returning nothing\n"); return 0xFFFFFFFF; } unsigned int WIN_FUNC TlsFree(unsigned int dwTlsIndex) { DEBUG_LOG("TlsFree(%u)\n", dwTlsIndex); if (dwTlsIndex >= 0 && dwTlsIndex < MAX_TLS_VALUES && tlsValuesUsed[dwTlsIndex]) { tlsValuesUsed[dwTlsIndex] = false; return 1; } else { return 0; } } void *WIN_FUNC TlsGetValue(unsigned int dwTlsIndex) { // DEBUG_LOG("TlsGetValue(%u)\n", dwTlsIndex); if (dwTlsIndex >= 0 && dwTlsIndex < MAX_TLS_VALUES && tlsValuesUsed[dwTlsIndex]) return tlsValues[dwTlsIndex]; else return 0; } unsigned int WIN_FUNC TlsSetValue(unsigned int dwTlsIndex, void *lpTlsValue) { // DEBUG_LOG("TlsSetValue(%u, %p)\n", dwTlsIndex, lpTlsValue); if (dwTlsIndex >= 0 && dwTlsIndex < MAX_TLS_VALUES && tlsValuesUsed[dwTlsIndex]) { tlsValues[dwTlsIndex] = lpTlsValue; return 1; } else { return 0; } } /* * Memory */ void *WIN_FUNC GlobalAlloc(uint32_t uFlags, size_t dwBytes) { // DEBUG_LOG("GlobalAlloc(flags=%x, size=%x)\n", uFlags, dwBytes); if (uFlags & 2) { // GMEM_MOVEABLE - not implemented rn assert(0); return 0; } else { // GMEM_FIXED - this is simpler if (dwBytes == 0) dwBytes = 1; assert(dwBytes > 0); void *buffer = malloc(dwBytes); if (buffer && (uFlags & 0x40)) { // GMEM_ZEROINT memset(buffer, 0, malloc_usable_size(buffer)); } return buffer; } } void *WIN_FUNC GlobalFree(void *hMem) { free(hMem); return 0; } void *WIN_FUNC GlobalReAlloc(void *hMem, size_t dwBytes, uint32_t uFlags) { if (uFlags & 0x80) { // GMEM_MODIFY assert(0); } else { if (dwBytes == 0) dwBytes = 1; size_t oldSize = malloc_usable_size(hMem); void *buffer = realloc(hMem, dwBytes); size_t newSize = malloc_usable_size(buffer); if (buffer && (uFlags & 0x40) && newSize > oldSize) { // GMEM_ZEROINT memset((char*)buffer + oldSize, 0, newSize - oldSize); } return buffer; } } unsigned int WIN_FUNC GlobalFlags(void *hMem) { return 0; } /* * Environment */ char *WIN_FUNC GetCommandLineA() { return wibo::commandLine; } char *WIN_FUNC GetEnvironmentStrings() { DEBUG_LOG("GetEnvironmentStrings\n"); // Step 1, figure out the size of the buffer we need. size_t bufSize = 0; char **work = environ; while (*work) { bufSize += strlen(*work) + 1; work++; } bufSize++; // Step 2, actually build that buffer char *buffer = (char *) malloc(bufSize); char *ptr = buffer; work = environ; while (*work) { size_t strSize = strlen(*work); memcpy(ptr, *work, strSize); ptr[strSize] = 0; ptr += strSize + 1; work++; } *ptr = 0; // an extra null at the end return buffer; } uint16_t* WIN_FUNC GetEnvironmentStringsW() { DEBUG_LOG("GetEnvironmentStringsW\n"); // Step 1, figure out the size of the buffer we need. size_t bufSizeW = 0; char **work = environ; while (*work) { // "hello|" -> " h e l l o|" bufSizeW += strlen(*work) + 1; work++; } bufSizeW++; // Step 2, actually build that buffer uint16_t *buffer = (uint16_t *) malloc(bufSizeW * 2); uint16_t *ptr = buffer; work = environ; while (*work) { size_t strSize = strlen(*work); for (size_t i = 0; i < strSize; i++) { *ptr++ = (*work)[i]; } *ptr++ = 0; // NUL terminate work++; } *ptr = 0; // an extra null at the end return buffer; } void WIN_FUNC FreeEnvironmentStringsA(char *buffer) { free(buffer); } /* * I/O */ void *WIN_FUNC GetStdHandle(uint32_t nStdHandle) { return files::getStdHandle(nStdHandle); } unsigned int WIN_FUNC SetStdHandle(uint32_t nStdHandle, void *hHandle) { return files::setStdHandle(nStdHandle, hHandle); } unsigned int WIN_FUNC DuplicateHandle(void *hSourceProcessHandle, void *hSourceHandle, void *hTargetProcessHandle, void **lpTargetHandle, unsigned int dwDesiredAccess, unsigned int bInheritHandle, unsigned int dwOptions) { DEBUG_LOG("DuplicateHandle(source=%p)\n", hSourceHandle); FILE *fp = files::fpFromHandle(hSourceHandle); if (fp == stdin || fp == stdout || fp == stderr) { // we never close standard handles so they are fine to duplicate *lpTargetHandle = files::allocFpHandle(fp); return 1; } // other handles are more problematic; fail for now printf("failed to duplicate handle\n"); assert(0); } int WIN_FUNC CloseHandle(void *hObject) { DEBUG_LOG("CloseHandle %p\n", hObject); FILE *fp = files::fpFromHandle(hObject, true); if (fp && fp != stdin && fp != stdout && fp != stderr) { fclose(fp); } return 1; } unsigned int WIN_FUNC GetFullPathNameA(const char *lpFileName, unsigned int nBufferLength, char *lpBuffer, char **lpFilePart) { DEBUG_LOG("GetFullPathNameA(%s)...\n", lpFileName); std::filesystem::path absPath = std::filesystem::absolute(files::pathFromWindows(lpFileName)); std::string absStr = files::pathToWindows(absPath); DEBUG_LOG("AbsPath: %s - %s\n", absPath.c_str(), absStr.c_str()); // Enough space? if ((absStr.size() + 1) <= nBufferLength) { strcpy(lpBuffer, absStr.c_str()); // Do we need to fill in FilePart? if (lpFilePart) { *lpFilePart = 0; if (!std::filesystem::is_directory(absPath)) { *lpFilePart = strrchr(lpBuffer, '\\'); if (*lpFilePart) *lpFilePart += 1; } } return absStr.size(); } else { return absStr.size() + 1; } } void *WIN_FUNC FindFirstFileA(const char *lpFileName, void *lpFindFileData) { auto path = files::pathFromWindows(lpFileName); DEBUG_LOG("FindFirstFileA %s (%s)\n", lpFileName, path.c_str()); wibo::lastError = 2; // ERROR_FILE_NOT_FOUND return (void *) 0xFFFFFFFF; } unsigned int WIN_FUNC GetFileAttributesA(const char *lpFileName) { auto path = files::pathFromWindows(lpFileName); DEBUG_LOG("GetFileAttributesA(%s)... (%s)\n", lpFileName, path.c_str()); auto status = std::filesystem::status(path); wibo::lastError = 0; switch (status.type()) { case std::filesystem::file_type::regular: DEBUG_LOG("File exists\n"); return 0x80; // FILE_ATTRIBUTE_NORMAL case std::filesystem::file_type::directory: return 0x10; // FILE_ATTRIBUTE_DIRECTORY case std::filesystem::file_type::not_found: default: DEBUG_LOG("File does not exist\n"); wibo::lastError = 2; // ERROR_FILE_NOT_FOUND return 0xFFFFFFFF; // INVALID_FILE_ATTRIBUTES } } unsigned int WIN_FUNC WriteFile(void *hFile, const void *lpBuffer, unsigned int nNumberOfBytesToWrite, unsigned int *lpNumberOfBytesWritten, void *lpOverlapped) { DEBUG_LOG("WriteFile %d\n", nNumberOfBytesToWrite); assert(!lpOverlapped); wibo::lastError = 0; FILE *fp = files::fpFromHandle(hFile); size_t written = fwrite(lpBuffer, 1, nNumberOfBytesToWrite, fp); if (lpNumberOfBytesWritten) *lpNumberOfBytesWritten = written; #if 0 printf("writing:\n"); for (unsigned int i = 0; i < nNumberOfBytesToWrite; i++) { printf("%c", ((const char*)lpBuffer)[i]); } printf("\n"); #endif if (written == 0) wibo::lastError = 29; // ERROR_WRITE_FAULT return (written == nNumberOfBytesToWrite); } unsigned int WIN_FUNC ReadFile(void *hFile, void *lpBuffer, unsigned int nNumberOfBytesToRead, unsigned int *lpNumberOfBytesRead, void *lpOverlapped) { DEBUG_LOG("ReadFile %d\n", nNumberOfBytesToRead); assert(!lpOverlapped); wibo::lastError = 0; FILE *fp = files::fpFromHandle(hFile); size_t read = fread(lpBuffer, 1, nNumberOfBytesToRead, fp); *lpNumberOfBytesRead = read; return 1; } void *WIN_FUNC CreateFileA( const char* lpFileName, unsigned int dwDesiredAccess, unsigned int dwShareMode, void *lpSecurityAttributes, unsigned int dwCreationDisposition, unsigned int dwFlagsAndAttributes, void *hTemplateFile) { std::string path = files::pathFromWindows(lpFileName); DEBUG_LOG("CreateFileA(filename=%s (%s), desiredAccess=0x%x, shareMode=%u, securityAttributes=%p, creationDisposition=%u, flagsAndAttributes=%u)\n", lpFileName, path.c_str(), dwDesiredAccess, dwShareMode, lpSecurityAttributes, dwCreationDisposition, dwFlagsAndAttributes); FILE *fp; if (dwDesiredAccess == 0x80000000) { // read fp = fopen(path.c_str(), "rb"); } else if (dwDesiredAccess == 0x40000000) { // write fp = fopen(path.c_str(), "wb"); } else if (dwDesiredAccess == 0xc0000000) { // read/write fp = fopen(path.c_str(), "wb+"); } else { assert(0); } if (fp) { wibo::lastError = 0; return files::allocFpHandle(fp); } else { switch (errno) { case EACCES: wibo::lastError = 5; // ERROR_ACCESS_DENIED break; case EEXIST: wibo::lastError = 183; // ERROR_ALREADY_EXISTS break; case ENOENT: wibo::lastError = 2; // ERROR_FILE_NOT_FOUND break; case ENOTDIR: wibo::lastError = 3; // ERROR_PATH_NOT_FOUND break; default: wibo::lastError = 50; // ERROR_NOT_SUPPORTED break; } return (void *) 0xFFFFFFFF; // INVALID_HANDLE_VALUE } } int WIN_FUNC DeleteFileA(const char* lpFileName) { std::string path = files::pathFromWindows(lpFileName); DEBUG_LOG("DeleteFileA %s (%s)\n", lpFileName, path.c_str()); unlink(path.c_str()); return 1; } unsigned int WIN_FUNC SetFilePointer(void *hFile, int lDistanceToMove, int *lpDistanceToMoveHigh, int dwMoveMethod) { DEBUG_LOG("SetFilePointer %d %d %d\n", lDistanceToMove, (lpDistanceToMoveHigh ? *lpDistanceToMoveHigh : -1), dwMoveMethod); assert(!lpDistanceToMoveHigh); FILE *fp = files::fpFromHandle(hFile); wibo::lastError = 0; int r = fseek(fp, lDistanceToMove, dwMoveMethod == 0 ? SEEK_SET : dwMoveMethod == 1 ? SEEK_CUR : SEEK_END); if (r < 0) { if (errno == EINVAL) wibo::lastError = 131; // ERROR_NEGATIVE_SEEK else wibo::lastError = 87; // ERROR_INVALID_PARAMETER return 0xFFFFFFFF; // INVALID_SET_FILE_POINTER } r = ftell(fp); assert(r >= 0); return r; } /* * Time */ unsigned int WIN_FUNC GetFileSize(void *hFile, unsigned int *lpFileSizeHigh) { DEBUG_LOG("GetFileSize\n"); struct stat64 st; FILE *fp = files::fpFromHandle(hFile); fflush(fp); if (fstat64(fileno(fp), &st) == -1 || !S_ISREG(st.st_mode)) { wibo::lastError = 2; // ERROR_FILE_NOT_FOUND (?) return ~0u; // INVALID_FILE_SIZE } DEBUG_LOG("-> %ld\n", st.st_size); if (lpFileSizeHigh != nullptr) { *lpFileSizeHigh = st.st_size >> 32; } return st.st_size; } struct FILETIME { unsigned int dwLowDateTime; unsigned int dwHighDateTime; }; int WIN_FUNC GetFileTime(void *hFile, FILETIME *lpCreationTime, FILETIME *lpLastAccessTime, FILETIME *lpLastWriteTime) { DEBUG_LOG("GetFileTime %p %p %p\n", lpCreationTime, lpLastAccessTime, lpLastWriteTime); if (lpCreationTime) lpCreationTime->dwLowDateTime = lpCreationTime->dwHighDateTime = 0; if (lpLastAccessTime) lpLastAccessTime->dwLowDateTime = lpLastAccessTime->dwHighDateTime = 0; if (lpLastWriteTime) lpLastWriteTime->dwLowDateTime = lpLastWriteTime->dwHighDateTime = 0; return 1; } struct SYSTEMTIME { short wYear; short wMonth; short wDayOfWeek; short wDay; short wHour; short wMinute; short wSecond; short wMilliseconds; }; void WIN_FUNC GetSystemTime(SYSTEMTIME *lpSystemTime) { DEBUG_LOG("GetSystemTime\n"); lpSystemTime->wYear = 0; lpSystemTime->wMonth = 0; lpSystemTime->wDayOfWeek = 0; lpSystemTime->wDay = 0; lpSystemTime->wHour = 0; lpSystemTime->wMinute = 0; lpSystemTime->wSecond = 0; lpSystemTime->wMilliseconds = 0; } void WIN_FUNC GetLocalTime(SYSTEMTIME *lpSystemTime) { DEBUG_LOG("GetLocalTime\n"); GetSystemTime(lpSystemTime); } int WIN_FUNC SystemTimeToFileTime(const SYSTEMTIME *lpSystemTime, FILETIME *lpFileTime) { DEBUG_LOG("SystemTimeToFileTime\n"); lpFileTime->dwLowDateTime = 0; lpFileTime->dwHighDateTime = 0; return 1; } int WIN_FUNC GetTickCount() { DEBUG_LOG("GetTickCount\n"); return 0; } int WIN_FUNC FileTimeToSystemTime(const FILETIME *lpFileTime, SYSTEMTIME *lpSystemTime) { DEBUG_LOG("FileTimeToSystemTime\n"); lpSystemTime->wYear = 0; lpSystemTime->wMonth = 0; lpSystemTime->wDayOfWeek = 0; lpSystemTime->wDay = 0; lpSystemTime->wHour = 0; lpSystemTime->wMinute = 0; lpSystemTime->wSecond = 0; lpSystemTime->wMilliseconds = 0; return 1; } int WIN_FUNC SetFileTime(void *hFile, const FILETIME *lpCreationTime, const FILETIME *lpLastAccessTime, const FILETIME *lpLastWriteTime) { DEBUG_LOG("SetFileTime\n"); return 1; } struct TIME_ZONE_INFORMATION { int Bias; short StandardName[32]; SYSTEMTIME StandardDate; int StandardBias; short DaylightName[32]; SYSTEMTIME DaylightDate; int DaylightBias; }; int WIN_FUNC GetTimeZoneInformation(TIME_ZONE_INFORMATION *lpTimeZoneInformation) { memset(lpTimeZoneInformation, 0, sizeof(*lpTimeZoneInformation)); return 0; } /* * Console Nonsense */ unsigned int WIN_FUNC SetConsoleCtrlHandler(void *HandlerRoutine, unsigned int Add) { // This is a function that gets called when doing ^C // We might want to call this later (being mindful that it'll be stdcall I think) // For now, just pretend we did the thing return 1; } struct CONSOLE_SCREEN_BUFFER_INFO { int16_t dwSize_x; int16_t dwSize_y; int16_t dwCursorPosition_x; int16_t dwCursorPosition_y; uint16_t wAttributes; int16_t srWindow_left; int16_t srWindow_top; int16_t srWindow_right; int16_t srWindow_bottom; int16_t dwMaximumWindowSize_x; int16_t dwMaximumWindowSize_y; }; unsigned int WIN_FUNC GetConsoleScreenBufferInfo(void *hConsoleOutput, CONSOLE_SCREEN_BUFFER_INFO *lpConsoleScreenBufferInfo) { // Tell a lie // mwcc doesn't care about anything else lpConsoleScreenBufferInfo->dwSize_x = 80; lpConsoleScreenBufferInfo->dwSize_y = 25; return 1; } unsigned int WIN_FUNC GetSystemDirectoryA(char *lpBuffer, unsigned int uSize) { strcpy(lpBuffer, "C:\\Windows\\System32"); return strlen(lpBuffer); } unsigned int WIN_FUNC GetWindowsDirectoryA(char *lpBuffer, unsigned int uSize) { strcpy(lpBuffer, "C:\\Windows"); return strlen(lpBuffer); } unsigned int WIN_FUNC GetCurrentDirectoryA(unsigned int uSize, char *lpBuffer) { DEBUG_LOG("GetCurrentDirectoryA\n"); std::filesystem::path cwd = std::filesystem::current_path(); std::string path = files::pathToWindows(cwd); assert(path.size() < uSize); strcpy(lpBuffer, path.c_str()); return path.size(); } void* WIN_FUNC GetModuleHandleA(const char* lpModuleName) { DEBUG_LOG("GetModuleHandleA %s\n", lpModuleName); // wibo::lastError = 0; return (void*)0x100001; } unsigned int WIN_FUNC GetModuleFileNameA(void* hModule, char* lpFilename, unsigned int nSize) { DEBUG_LOG("GetModuleFileNameA %p (%s)\n", hModule, lpFilename); wibo::lastError = 0; return 0; } void* WIN_FUNC FindResourceA(void* hModule, const char* lpName, const char* lpType) { DEBUG_LOG("FindResourceA %p %s %s\n", hModule, lpName, lpType); return (void*)0x100002; } void* WIN_FUNC LoadResource(void* hModule, void* res) { DEBUG_LOG("LoadResource %p %p\n", hModule, res); return (void*)0x100003; } void* WIN_FUNC LockResource(void* res) { DEBUG_LOG("LockResource %p\n", res); return (void*)0x100004; } unsigned int WIN_FUNC SizeofResource(void* hModule, void* res) { DEBUG_LOG("SizeofResource %p %p\n", hModule, res); return 0; } void* WIN_FUNC LoadLibraryA(const char* lpLibFileName) { DEBUG_LOG("LoadLibraryA %s\n", lpLibFileName); return (void*)0x100005; } int WIN_FUNC FreeLibrary(void* hLibModule) { DEBUG_LOG("FreeLibrary %p\n", hLibModule); return 1; } int WIN_FUNC GetVersion() { DEBUG_LOG("GetVersion\n"); return 1; } void *WIN_FUNC HeapCreate(unsigned int flOptions, unsigned int dwInitialSize, unsigned int dwMaximumSize) { DEBUG_LOG("HeapCreate %u %u %u\n", flOptions, dwInitialSize, dwMaximumSize); if (flOptions & 0x00000001) { // HEAP_NO_SERIALIZE } if (flOptions & 0x00040000) { // HEAP_CREATE_ENABLE_EXECUTE } if (flOptions & 0x00000004) { // HEAP_GENERATE_EXCEPTIONS } // return a dummy value wibo::lastError = 0; return (void *) 0x100006; } void *WIN_FUNC VirtualAlloc(void *lpAddress, unsigned int dwSize, unsigned int flAllocationType, unsigned int flProtect) { DEBUG_LOG("VirtualAlloc %p %u %u %u\n",lpAddress, dwSize, flAllocationType, flProtect); if (flAllocationType & 0x2000 || lpAddress == NULL) { // MEM_RESERVE // do this for now... assert(lpAddress == NULL); void *mem = 0; posix_memalign(&mem, 0x1000, dwSize); memset(mem, 0, dwSize); DEBUG_LOG("VirtualAlloc returning %p\n", mem); return mem; } else { assert(lpAddress != NULL); return lpAddress; } } typedef struct _STARTUPINFOA { unsigned int cb; char *lpReserved; char *lpDesktop; char *lpTitle; unsigned int dwX; unsigned int dwY; unsigned int dwXSize; unsigned int dwYSize; unsigned int dwXCountChars; unsigned int dwYCountChars; unsigned int dwFillAttribute; unsigned int dwFlags; unsigned short wShowWindow; unsigned short cbReserved2; unsigned char lpReserved2; void *hStdInput; void *hStdOutput; void *hStdError; } STARTUPINFOA, *LPSTARTUPINFOA; void WIN_FUNC GetStartupInfoA(STARTUPINFOA *lpStartupInfo) { DEBUG_LOG("GetStartupInfoA\n"); memset(lpStartupInfo, 0, sizeof(STARTUPINFOA)); } unsigned short WIN_FUNC GetFileType(void *hFile) { DEBUG_LOG("GetFileType %p\n", hFile); return 2; // FILE_TYPE_CHAR } unsigned int WIN_FUNC SetHandleCount(unsigned int uNumber) { DEBUG_LOG("SetHandleCount %p\n", uNumber); return uNumber + 10; } unsigned int WIN_FUNC GetACP() { DEBUG_LOG("GetACP\n"); // return 1200; // Unicode (BMP of ISO 10646) return 28591; // ISO/IEC 8859-1 } typedef struct _cpinfo { unsigned int MaxCharSize; unsigned char DefaultChar[2]; unsigned char LeadByte[12]; } CPINFO, *LPCPINFO; unsigned int WIN_FUNC GetCPInfo(unsigned int codePage, CPINFO* lpCPInfo) { DEBUG_LOG("GetCPInfo: %u\n", codePage); lpCPInfo->MaxCharSize = 1; lpCPInfo->DefaultChar[0] = 0; return 1; // success } unsigned int WIN_FUNC WideCharToMultiByte(unsigned int codePage, unsigned int dwFlags, uint16_t *lpWideCharStr, int cchWideChar, char *lpMultiByteStr, int cbMultiByte, char *lpDefaultChar, unsigned int *lpUsedDefaultChar) { DEBUG_LOG("WideCharToMultiByte(codePage=%u, flags=%x, wcs=%p, wideChar=%d, mbs=%p, multiByte=%d, defaultChar=%p, usedDefaultChar=%p)\n", codePage, dwFlags, lpWideCharStr, cchWideChar, lpMultiByteStr, cbMultiByte, lpDefaultChar, lpUsedDefaultChar); if (cchWideChar == -1) { // determine how long the string actually is cchWideChar = 0; while (lpWideCharStr[cchWideChar] != 0) ++cchWideChar; } if (cbMultiByte == 0) { return cchWideChar + 1; } for (int i = 0; i < cchWideChar; i++) { lpMultiByteStr[i] = lpWideCharStr[i]; } lpMultiByteStr[cchWideChar] = 0; DEBUG_LOG("Converted string: [%s]\n", lpMultiByteStr); return cbMultiByte; } unsigned int WIN_FUNC FreeEnvironmentStringsW(void *penv) { DEBUG_LOG("FreeEnvironmentStringsW: %p\n", penv); free(penv); return 1; } unsigned int WIN_FUNC IsProcessorFeaturePresent(unsigned int processorFeature) { DEBUG_LOG("IsProcessorFeaturePresent: %u\n", processorFeature); if (processorFeature == 0) // PF_FLOATING_POINT_PRECISION_ERRATA return 1; // sure.. we have that feature... return 1; } void *WIN_FUNC GetProcAddress(void *hModule, char *lpProcName) { DEBUG_LOG("GetProcAddress: %s from %p\n", lpProcName, hModule); if ((unsigned int)hModule == 1) { if (strcmp(lpProcName, "IsProcessorFeaturePresent") == 0) return (void *) IsProcessorFeaturePresent; } return NULL; } void *WIN_FUNC HeapAlloc(void *hHeap, unsigned int dwFlags, size_t dwBytes) { DEBUG_LOG("HeapAlloc(heap=%p, flags=%x, bytes=%u)\n", hHeap, dwFlags, dwBytes); void *mem = malloc(dwBytes); if (mem && (dwFlags & 8)) memset(mem, 0, dwBytes); DEBUG_LOG("HeapAlloc returning %p\n", mem); return mem; } unsigned int WIN_FUNC HeapFree(void *hHeap, unsigned int dwFlags, void *lpMem) { DEBUG_LOG("HeapFree(heap=%p, flags=%x, mem=%p)\n", hHeap, dwFlags, lpMem); free(lpMem); return 1; } unsigned int WIN_FUNC FormatMessageA(unsigned int dwFlags, void *lpSource, unsigned int dwMessageId, unsigned int dwLanguageId, char *lpBuffer, unsigned int nSize, va_list *argument) { DEBUG_LOG("FormatMessageA: flags: %u, message id: %u\n", dwFlags, dwMessageId); if (dwFlags & 0x00000100) { // FORMAT_MESSAGE_ALLOCATE_BUFFER } else if (dwFlags & 0x00002000) { // FORMAT_MESSAGE_ARGUMENT_ARRAY } else if (dwFlags & 0x00000800) { // FORMAT_MESSAGE_FROM_HMODULE } else if (dwFlags & 0x00000400) { // FORMAT_MESSAGE_FROM_STRING } else if (dwFlags & 0x00001000) { // FORMAT_MESSAGE_FROM_SYSTEM std::string message = std::system_category().message(dwMessageId); size_t length = message.length(); strcpy(lpBuffer, message.c_str()); return length; } else if (dwFlags & 0x00000200) { // FORMAT_MESSAGE_IGNORE_INSERTS } else { // unhandled? } *lpBuffer = '\0'; return 0; } int WIN_FUNC CompareStringA(int Locale, unsigned int dwCmpFlags, const char *lpString1, unsigned int cchCount1, const char *lpString2, unsigned int cchCount2) { DEBUG_LOG("CompareStringA: '%s' vs '%s' (%u)\n", lpString1, lpString2, dwCmpFlags); // too simple? return strcmp(lpString1, lpString2); } int WIN_FUNC CompareStringW(int Locale, unsigned int dwCmpFlags, const char *lpString1, unsigned int cchCount1, const char *lpString2, unsigned int cchCount2) { DEBUG_LOG("CompareStringW: '%s' vs '%s' (%u)\n", lpString1, lpString2, dwCmpFlags); return strcmp(lpString1, lpString2); } unsigned int WIN_FUNC SetEnvironmentVariableA(const char *lpName, const char *lpValue) { DEBUG_LOG("SetEnvironmentVariableA: %s=%s\n", lpName, lpValue); return setenv(lpName, lpValue, 1 /* OVERWRITE */); } } void *wibo::resolveKernel32(const char *name) { if (strcmp(name, "GetLastError") == 0) return (void *) kernel32::GetLastError; if (strcmp(name, "GetCurrentProcess") == 0) return (void *) kernel32::GetCurrentProcess; if (strcmp(name, "GetCurrentThreadId") == 0) return (void *) kernel32::GetCurrentThreadId; if (strcmp(name, "ExitProcess") == 0) return (void *) kernel32::ExitProcess; if (strcmp(name, "CreateProcessA") == 0) return (void *) kernel32::CreateProcessA; if (strcmp(name, "GetSystemDefaultLangID") == 0) return (void *) kernel32::GetSystemDefaultLangID; if (strcmp(name, "InitializeCriticalSection") == 0) return (void *) kernel32::InitializeCriticalSection; if (strcmp(name, "DeleteCriticalSection") == 0) return (void *) kernel32::DeleteCriticalSection; if (strcmp(name, "EnterCriticalSection") == 0) return (void *) kernel32::EnterCriticalSection; if (strcmp(name, "LeaveCriticalSection") == 0) return (void *) kernel32::LeaveCriticalSection; if (strcmp(name, "GlobalAlloc") == 0) return (void *) kernel32::GlobalAlloc; if (strcmp(name, "GlobalReAlloc") == 0) return (void *) kernel32::GlobalReAlloc; if (strcmp(name, "GlobalFree") == 0) return (void *) kernel32::GlobalFree; if (strcmp(name, "GlobalFlags") == 0) return (void *) kernel32::GlobalFlags; if (strcmp(name, "TlsAlloc") == 0) return (void *) kernel32::TlsAlloc; if (strcmp(name, "TlsFree") == 0) return (void *) kernel32::TlsFree; if (strcmp(name, "TlsGetValue") == 0) return (void *) kernel32::TlsGetValue; if (strcmp(name, "TlsSetValue") == 0) return (void *) kernel32::TlsSetValue; if (strcmp(name, "GetCommandLineA") == 0) return (void *) kernel32::GetCommandLineA; if (strcmp(name, "GetEnvironmentStrings") == 0) return (void *) kernel32::GetEnvironmentStrings; if (strcmp(name, "FreeEnvironmentStringsA") == 0) return (void *) kernel32::FreeEnvironmentStringsA; if (strcmp(name, "GetStdHandle") == 0) return (void *) kernel32::GetStdHandle; if (strcmp(name, "SetStdHandle") == 0) return (void *) kernel32::SetStdHandle; if (strcmp(name, "DuplicateHandle") == 0) return (void *) kernel32::DuplicateHandle; if (strcmp(name, "CloseHandle") == 0) return (void *) kernel32::CloseHandle; if (strcmp(name, "GetFullPathNameA") == 0) return (void *) kernel32::GetFullPathNameA; if (strcmp(name, "FindFirstFileA") == 0) return (void *) kernel32::FindFirstFileA; if (strcmp(name, "GetFileAttributesA") == 0) return (void *) kernel32::GetFileAttributesA; if (strcmp(name, "WriteFile") == 0) return (void *) kernel32::WriteFile; if (strcmp(name, "ReadFile") == 0) return (void *) kernel32::ReadFile; if (strcmp(name, "CreateFileA") == 0) return (void *) kernel32::CreateFileA; if (strcmp(name, "DeleteFileA") == 0) return (void *) kernel32::DeleteFileA; if (strcmp(name, "SetFilePointer") == 0) return (void *) kernel32::SetFilePointer; if (strcmp(name, "GetFileSize") == 0) return (void *) kernel32::GetFileSize; if (strcmp(name, "GetFileTime") == 0) return (void *) kernel32::GetFileTime; if (strcmp(name, "GetSystemTime") == 0) return (void *) kernel32::GetSystemTime; if (strcmp(name, "GetLocalTime") == 0) return (void *) kernel32::GetLocalTime; if (strcmp(name, "SystemTimeToFileTime") == 0) return (void *) kernel32::SystemTimeToFileTime; if (strcmp(name, "FileTimeToSystemTime") == 0) return (void *) kernel32::FileTimeToSystemTime; if (strcmp(name, "SetFileTime") == 0) return (void *) kernel32::SetFileTime; if (strcmp(name, "GetTickCount") == 0) return (void *) kernel32::GetTickCount; if (strcmp(name, "GetTimeZoneInformation") == 0) return (void *) kernel32::GetTimeZoneInformation; if (strcmp(name, "SetConsoleCtrlHandler") == 0) return (void *) kernel32::SetConsoleCtrlHandler; if (strcmp(name, "GetConsoleScreenBufferInfo") == 0) return (void *) kernel32::GetConsoleScreenBufferInfo; if (strcmp(name, "GetSystemDirectoryA") == 0) return (void *) kernel32::GetSystemDirectoryA; if (strcmp(name, "GetWindowsDirectoryA") == 0) return (void *) kernel32::GetWindowsDirectoryA; if (strcmp(name, "GetCurrentDirectoryA") == 0) return (void *) kernel32::GetCurrentDirectoryA; if (strcmp(name, "GetModuleHandleA") == 0) return (void *) kernel32::GetModuleHandleA; if (strcmp(name, "GetModuleFileNameA") == 0) return (void *) kernel32::GetModuleFileNameA; if (strcmp(name, "FindResourceA") == 0) return (void *) kernel32::FindResourceA; if (strcmp(name, "LoadResource") == 0) return (void *) kernel32::LoadResource; if (strcmp(name, "LockResource") == 0) return (void *) kernel32::LockResource; if (strcmp(name, "SizeofResource") == 0) return (void *) kernel32::SizeofResource; if (strcmp(name, "LoadLibraryA") == 0) return (void *) kernel32::LoadLibraryA; if (strcmp(name, "FreeLibrary") == 0) return (void *) kernel32::FreeLibrary; if (strcmp(name, "GetVersion") == 0) return (void *) kernel32::GetVersion; if (strcmp(name, "HeapCreate") == 0) return (void *) kernel32::HeapCreate; if (strcmp(name, "VirtualAlloc") == 0) return (void *) kernel32::VirtualAlloc; if (strcmp(name, "GetStartupInfoA") == 0) return (void *) kernel32::GetStartupInfoA; if (strcmp(name, "GetFileType") == 0) return (void *) kernel32::GetFileType; if (strcmp(name, "SetHandleCount") == 0) return (void *) kernel32::SetHandleCount; if (strcmp(name, "GetACP") == 0) return (void *) kernel32::GetACP; if (strcmp(name, "GetCPInfo") == 0) return (void *) kernel32::GetCPInfo; if (strcmp(name, "GetEnvironmentStringsW") == 0) return (void *) kernel32::GetEnvironmentStringsW; if (strcmp(name, "WideCharToMultiByte") == 0) return (void *) kernel32::WideCharToMultiByte; if (strcmp(name, "FreeEnvironmentStringsW") == 0) return (void *) kernel32::FreeEnvironmentStringsW; if (strcmp(name, "GetProcAddress") == 0) return (void *) kernel32::GetProcAddress; if (strcmp(name, "HeapAlloc") == 0) return (void *) kernel32::HeapAlloc; if (strcmp(name, "HeapFree") == 0) return (void *) kernel32::HeapFree; if (strcmp(name, "FormatMessageA") == 0) return (void *) kernel32::FormatMessageA; if (strcmp(name, "CompareStringA") == 0) return (void *) kernel32::CompareStringA; if (strcmp(name, "CompareStringW") == 0) return (void *) kernel32::CompareStringW; if (strcmp(name, "SetEnvironmentVariableA") == 0) return (void *) kernel32::SetEnvironmentVariableA; return 0; }