#include "rundll.h" #include "tchar.h" #ifndef WIN32 #include // for IsPEFormat definition #endif #define ARRAYSIZE(a) (sizeof(a)/sizeof(a[0])) #define Reference(x) ((x)=(x)) void WINAPI RunDllErrMsg(HWND hwnd, UINT idStr, LPCTSTR pszTitle, LPCTSTR psz1, LPCTSTR psz2); int PASCAL WinMainT(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPTSTR lpszCmdLine, int nCmdShow); TCHAR const g_szAppName [] = TEXT("RunDLL"); TCHAR const s_szRunDLL32[] = TEXT("RUNDLL32.EXE "); TCHAR const c_szNULL[] = TEXT(""); TCHAR const c_szLocalizeMe[] = TEXT("RUNDLL"); HANDLE g_hActCtx = INVALID_HANDLE_VALUE; ULONG_PTR g_dwActCtx = 0; BOOL g_fCatchExceptions = TRUE; HINSTANCE g_hinst; HICON g_hIcon; HINSTANCE g_hModule; HWND g_hwndStub; BOOL g_fUseCCV6 = FALSE; #ifdef WX86 #include WX86LOADX86DLL_ROUTINE pWx86LoadX86Dll = NULL; WX86THUNKPROC_ROUTINE pWx86ThunkProc = NULL; HMODULE g_hWx86Dll = NULL; #endif RUNDLLPROC g_lpfnCommand; #ifdef UNICODE BOOL g_fCmdIsANSI; // TRUE if g_lpfnCommand() expects ANSI strings #endif #ifndef WIN32 void WINAPI WinExecError(HWND hwnd, int err, LPCTSTR lpstrFileName, LPCTSTR lpstrTitle) { RunDllErrMsg(hwnd, err+IDS_LOADERR, lpstrTitle, lpstrFileName, NULL); } #endif LPTSTR NEAR PASCAL StringChr(LPCTSTR lpStart, TCHAR ch) { for (; *lpStart; lpStart = CharNext(lpStart)) { if (*lpStart == ch) return (LPTSTR)lpStart; } return NULL; } #ifdef WIN32 // stolen from the CRT, used to shirink our code int _stdcall ModuleEntry(void) { int i; STARTUPINFO si; LPTSTR pszCmdLine = GetCommandLine(); if ( *pszCmdLine == TEXT('\"') ) { /* * Scan, and skip over, subsequent characters until * another double-quote or a null is encountered. */ while ( *++pszCmdLine && (*pszCmdLine != TEXT('\"')) ); /* * If we stopped on a double-quote (usual case), skip * over it. */ if ( *pszCmdLine == TEXT('\"') ) pszCmdLine++; } else { while (*pszCmdLine > TEXT(' ')) pszCmdLine++; } /* * Skip past any white space preceeding the second token. */ while (*pszCmdLine && (*pszCmdLine <= TEXT(' '))) { pszCmdLine++; } si.dwFlags = 0; GetStartupInfo(&si); i = WinMainT(GetModuleHandle(NULL), NULL, pszCmdLine, si.dwFlags & STARTF_USESHOWWINDOW ? si.wShowWindow : SW_SHOWDEFAULT); ExitProcess(i); return i; // We never comes here. } #endif // WIN32 BOOL NEAR PASCAL ParseCommand(LPTSTR lpszCmdLine, int nCmdShow) { LPTSTR lpStart, lpEnd, lpFunction; ACTCTX act; TCHAR szManifest[MAX_PATH]; LPTSTR pszFullPath; TCHAR szPath[MAX_PATH]; TCHAR kszManifest[] = TEXT(".manifest"); LPTSTR pszName; BOOL bManifest = FALSE; #ifndef WIN32 LPTSTR pCopy; // build a rundll32-based winexec string just in case pCopy = (LPTSTR)LocalAlloc(LPTR, lstrlen(lpszCmdLine)*sizeof(TCHAR) + sizeof(s_szRunDLL32)); if (!pCopy) return FALSE; lstrcpy(pCopy, s_szRunDLL32); lstrcat(pCopy, lpszCmdLine); #endif #ifdef DEBUG OutputDebugString(TEXT("RUNDLL: Command: ")); OutputDebugString(lpszCmdLine); OutputDebugString(TEXT("\r\n")); #endif for (lpStart=lpszCmdLine; ; ) { // Skip leading blanks while (*lpStart == TEXT(' ')) { ++lpStart; } // Check if there are any switches if (*lpStart != TEXT('/')) { break; } // Look at all the switches; ignore unknown ones for (++lpStart; ; ++lpStart) { switch (*lpStart) { case TEXT(' '): case TEXT('\0'): goto EndSwitches; break; // Put any switches we care about here case TEXT('d'): case TEXT('D'): // Disable exception catching. g_fCatchExceptions = FALSE; break; default: break; } } EndSwitches: ; } // If the path is double-quoted, search for the next // quote, otherwise, look for a space lpEnd = lpStart; if ( *lpStart == TEXT('\"') ) { // Skip opening quote lpStart++; // Scan, and skip over, subsequent characters until // another double-quote or a null is encountered. while ( *++lpEnd && (*lpEnd != TEXT('\"')) ) NULL; if (!*lpEnd) return FALSE; *lpEnd++ = TEXT('\0'); } else { // No quotes, so run until a space or a comma while ( *lpEnd && (*lpEnd != TEXT(' ')) && (*lpEnd != TEXT(','))) lpEnd++; if (!*lpEnd) return FALSE; *lpEnd++ = TEXT('\0'); } // At this point we're just past the terminated dll path. We // then skip spaces and commas, which should take us to the start of the // entry point (lpFunction) while ( *lpEnd && ((*lpEnd == TEXT(' ')) || (*lpEnd == TEXT(',')))) lpEnd++; if (!*lpEnd) return FALSE; lpFunction = lpEnd; // If there's a space after the function name, we need to terminate // the function name and move the end pointer, because that's where // the arguments to the function live. lpEnd = StringChr(lpFunction, TEXT(' ')); if (lpEnd) *lpEnd++ = TEXT('\0'); // Load the library and get the procedure address // Note that we try to get a module handle first, so we don't need // to pass full file names around // #ifndef WIN32 // if loading a 32 bit DLL out of 16bit rundll, exec the // 32 bit version of rundll and return if (IsPEFormat(lpStart, NULL)) { int err = (int)WinExec(pCopy, nCmdShow); WinExecError(NULL, err, lpStart, c_szLocalizeMe); LocalFree((HLOCAL)pCopy); return FALSE; } else { LocalFree((HLOCAL)pCopy); } #endif // Get the full name of the DLL pszFullPath = lpStart; // If the path is not specified, find it if (GetFileAttributes(lpStart) == -1) { if (SearchPath(NULL, lpStart, NULL, MAX_PATH, szPath, &pszName) > 0) { pszFullPath = szPath; } } // First see if there is an blah.dll.manifest act.cbSize = sizeof(act); act.dwFlags = 0; if (lstrlen(pszFullPath) + ARRAYSIZE(kszManifest) < ARRAYSIZE(szManifest)) { lstrcpy(szManifest, pszFullPath); lstrcat(szManifest, kszManifest); bManifest = TRUE; } if (bManifest && GetFileAttributes(szManifest) != -1) { act.lpSource = szManifest; g_hActCtx = CreateActCtx(&act); } else { // No? See if there is one in the binary. act.dwFlags = ACTCTX_FLAG_RESOURCE_NAME_VALID; act.lpSource = pszFullPath; act.lpResourceName = MAKEINTRESOURCE(123); g_hActCtx = CreateActCtx(&act); } if (g_hActCtx != INVALID_HANDLE_VALUE) ActivateActCtx(g_hActCtx, &g_dwActCtx); g_hModule = LoadLibrary(lpStart); #ifdef WIN32 #ifdef WX86 // // If the load fails try it thru wx86, since it might be an // x86 on risc binary // if (g_hModule==NULL) { g_hWx86Dll = LoadLibrary(TEXT("wx86.dll")); if (g_hWx86Dll) { pWx86LoadX86Dll = (PVOID)GetProcAddress(g_hWx86Dll, "Wx86LoadX86Dll"); pWx86ThunkProc = (PVOID)GetProcAddress(g_hWx86Dll, "Wx86ThunkProc"); if (pWx86LoadX86Dll && pWx86ThunkProc) { g_hModule = pWx86LoadX86Dll(lpStart, 0); } } if (!g_hModule) { if (g_hWx86Dll) { FreeLibrary(g_hWx86Dll); g_hWx86Dll = NULL; } } } #endif if (g_hModule==NULL) { TCHAR szSysErrMsg[MAX_PATH]; BOOL fSuccess = FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM, NULL, GetLastError(), 0, szSysErrMsg, ARRAYSIZE(szSysErrMsg), NULL); if (fSuccess) { RunDllErrMsg(NULL, IDS_CANTLOADDLL, c_szLocalizeMe, lpStart, szSysErrMsg); } return FALSE; } #else if ((UINT)g_hModule <= 32) { WinExecError(NULL, (int)g_hModule, lpStart, c_szLocalizeMe); return(FALSE); } #endif #ifdef WINNT // REVIEW: May need this on Nashville too... // // Check whether we need to run as a different windows version // // Stolen from ntos\mm\procsup.c // // { PPEB Peb = NtCurrentPeb(); PIMAGE_DOS_HEADER pDosHeader = (PIMAGE_DOS_HEADER)g_hModule; PIMAGE_NT_HEADERS pHeader = (PIMAGE_NT_HEADERS)((DWORD_PTR)g_hModule + pDosHeader->e_lfanew); PIMAGE_LOAD_CONFIG_DIRECTORY ImageConfigData; ULONG ReturnedSize; if (pHeader->FileHeader.SizeOfOptionalHeader != 0 && pHeader->OptionalHeader.Win32VersionValue != 0) { Peb->OSMajorVersion = pHeader->OptionalHeader.Win32VersionValue & 0xFF; Peb->OSMinorVersion = (pHeader->OptionalHeader.Win32VersionValue >> 8) & 0xFF; Peb->OSBuildNumber = (USHORT)((pHeader->OptionalHeader.Win32VersionValue >> 16) & 0x3FFF); Peb->OSPlatformId = (pHeader->OptionalHeader.Win32VersionValue >> 30) ^ 0x2; } ImageConfigData = ImageDirectoryEntryToData( Peb->ImageBaseAddress, TRUE, IMAGE_DIRECTORY_ENTRY_LOAD_CONFIG, &ReturnedSize ); if (ImageConfigData != NULL && ImageConfigData->CSDVersion != 0) { Peb->OSCSDVersion = ImageConfigData->CSDVersion; } } #endif #ifdef UNICODE { /* * Look for a 'W' tagged Unicode function. * If it is not there, then look for the 'A' tagged ANSI function * if we cant find that one either, then look for an un-tagged function */ LPSTR lpstrFunctionName; UINT cchLength; cchLength = lstrlen(lpFunction)+1; g_fCmdIsANSI = FALSE; lpstrFunctionName = (LPSTR)LocalAlloc(LMEM_FIXED, (cchLength+1)*2); // +1 for "W", *2 for DBCS if (lpstrFunctionName && (WideCharToMultiByte (CP_ACP, 0, lpFunction, cchLength, lpstrFunctionName, cchLength*2, NULL, NULL))) { cchLength = lstrlenA(lpstrFunctionName); lpstrFunctionName[cchLength] = 'W'; // convert name to Wide version lpstrFunctionName[cchLength+1] = '\0'; g_lpfnCommand = (RUNDLLPROC)GetProcAddress(g_hModule, lpstrFunctionName); if (g_lpfnCommand == NULL) { // No UNICODE version, try for ANSI lpstrFunctionName[cchLength] = 'A'; // convert name to ANSI version g_fCmdIsANSI = TRUE; g_lpfnCommand = (RUNDLLPROC)GetProcAddress(g_hModule, lpstrFunctionName); if (g_lpfnCommand == NULL) { // No ANSI version either, try for non-tagged lpstrFunctionName[cchLength] = '\0'; // convert name to ANSI version g_lpfnCommand = (RUNDLLPROC)GetProcAddress(g_hModule, lpstrFunctionName); } } } if (lpstrFunctionName) { LocalFree((LPVOID)lpstrFunctionName); } } #else { /* * Look for 'A' tagged ANSI version. * If it is not there, then look for a non-tagged function. */ LPSTR pszFunction; int cchFunction; g_lpfnCommand = NULL; cchFunction = lstrlen(lpFunction); pszFunction = LocalAlloc(LMEM_FIXED, cchFunction + sizeof(CHAR) * 2); // string + 'A' + '\0' if (pszFunction != NULL) CopyMemory(pszFunction, lpFunction, cchFunction); pszFunction[cchFunction++] = 'A'; pszFunction[cchFunction] = '\0'; g_lpfnCommand = (RUNDLLPROC)GetProcAddress(g_hModule, achFunction); LocalFree(pszFunction); } if (g_lpfnCommand == NULL) { // No "A" tagged function, just look for the non tagged name g_lpfnCommand = (RUNDLLPROC)GetProcAddress(g_hModule, lpFunction); } } #endif #ifdef WX86 if (g_lpfnCommand && g_hWx86Dll) { g_lpfnCommand = pWx86ThunkProc(g_lpfnCommand, (PVOID)4, TRUE); } #endif if (!g_lpfnCommand) { RunDllErrMsg(NULL, IDS_GETPROCADRERR, c_szLocalizeMe, lpStart, lpFunction); FreeLibrary(g_hModule); return(FALSE); } // Copy the rest of the command parameters down // if (lpEnd) { lstrcpy(lpszCmdLine, lpEnd); } else { *lpszCmdLine = TEXT('\0'); } return(TRUE); } #ifdef WINNT LRESULT NEAR PASCAL StubNotify(HWND hWnd, WPARAM wParam, RUNDLL_NOTIFY FAR *lpn) { switch (lpn->hdr.code) { case RDN_TASKINFO: // don't need to set title too // SetWindowText(hWnd, lpn->lpszTitle ? lpn->lpszTitle : c_szNULL); g_hIcon = lpn->hIcon ? lpn->hIcon : LoadIcon(g_hinst, MAKEINTRESOURCE(IDI_DEFAULT)); SetClassLongPtr(hWnd, GCLP_HICON, (DWORD_PTR)g_hIcon); return 0L; default: return(DefWindowProc(hWnd, WM_NOTIFY, wParam, (LPARAM)lpn)); } } #endif LRESULT CALLBACK WndProc(HWND hWnd, UINT iMessage, WPARAM wParam, LPARAM lParam) { switch(iMessage) { case WM_CREATE: g_hIcon = LoadIcon(g_hinst, MAKEINTRESOURCE(IDI_DEFAULT)); break; case WM_DESTROY: break; #ifdef WINNT case WM_NOTIFY: return(StubNotify(hWnd, wParam, (RUNDLL_NOTIFY *)lParam)); #endif #ifdef COOLICON case WM_QUERYDRAGICON: return(MAKELRESULT(g_hIcon, 0)); #endif default: return DefWindowProc(hWnd, iMessage, wParam, lParam) ; break; } return 0L; } BOOL NEAR PASCAL InitStubWindow(HINSTANCE hInst, HINSTANCE hPrevInstance) { WNDCLASS wndclass; if (!hPrevInstance) { wndclass.style = 0 ; wndclass.lpfnWndProc = WndProc ; wndclass.cbClsExtra = 0 ; wndclass.cbWndExtra = 0 ; wndclass.hInstance = hInst ; #ifdef COOLICON wndclass.hIcon = NULL ; #else wndclass.hIcon = LoadIcon(hInst, MAKEINTRESOURCE(IDI_DEFAULT)) ; #endif wndclass.hCursor = LoadCursor (NULL, IDC_ARROW) ; wndclass.hbrBackground = GetStockObject (WHITE_BRUSH) ; wndclass.lpszMenuName = NULL ; wndclass.lpszClassName = g_szAppName ; if (!RegisterClass(&wndclass)) { return(FALSE); } } g_hwndStub = CreateWindowEx(WS_EX_TOOLWINDOW, g_szAppName, c_szNULL, WS_OVERLAPPED, CW_USEDEFAULT, CW_USEDEFAULT, 0, 0, NULL, NULL, hInst, NULL); return(g_hwndStub != NULL); } void NEAR PASCAL CleanUp(void) { DestroyWindow(g_hwndStub); FreeLibrary(g_hModule); } int PASCAL WinMainT (HINSTANCE hInstance, HINSTANCE hPrevInstance, LPTSTR lpszCmdLine, int nCmdShow) { LPTSTR lpszCmdLineCopy; HANDLE hFusionManifest; g_hinst = hInstance; // make a copy of lpCmdLine, since ParseCommand modifies the string lpszCmdLineCopy = LocalAlloc(LPTR, (_tcslen(lpszCmdLine)+1)*sizeof(TCHAR)); if (!lpszCmdLineCopy) { goto Error0; } _tcscpy(lpszCmdLineCopy, lpszCmdLine); if (!ParseCommand(lpszCmdLineCopy, nCmdShow)) { goto Error1; } // turn off critical error bullshit SetErrorMode(g_fCatchExceptions ? (SEM_NOOPENFILEERRORBOX | SEM_FAILCRITICALERRORS) : SEM_NOOPENFILEERRORBOX); if (!InitStubWindow(hInstance, hPrevInstance)) { goto Error2; } { LPVOID pchCmdLine; pchCmdLine = lpszCmdLineCopy; #ifdef UNICODE if (g_fCmdIsANSI) { int cchCmdLine; cchCmdLine = WideCharToMultiByte(CP_ACP, 0, lpszCmdLineCopy, -1, NULL, 0, NULL, NULL); pchCmdLine = LocalAlloc( LMEM_FIXED, sizeof(char) * cchCmdLine ); if (pchCmdLine == NULL) { RunDllErrMsg(NULL, IDS_LOADERR+00, c_szLocalizeMe, lpszCmdLineCopy, NULL); goto Error3; } WideCharToMultiByte(CP_ACP, 0, lpszCmdLineCopy, -1, pchCmdLine, cchCmdLine, NULL, NULL); } #endif if (g_fCatchExceptions) { try { g_lpfnCommand(g_hwndStub, hInstance, pchCmdLine, nCmdShow); } _except (EXCEPTION_EXECUTE_HANDLER) { RunDllErrMsg(NULL, IDS_LOADERR+17, c_szLocalizeMe, lpszCmdLine, NULL); } } else { g_lpfnCommand(g_hwndStub, hInstance, pchCmdLine, nCmdShow); } #ifdef UNICODE Error3: if (g_fCmdIsANSI) { LocalFree(pchCmdLine); } #endif } Error2: CleanUp(); Error1: LocalFree(lpszCmdLineCopy); Error0: if (g_hActCtx != INVALID_HANDLE_VALUE) { DeactivateActCtx(0, g_dwActCtx); ReleaseActCtx(g_hActCtx); g_hActCtx = NULL; } return(FALSE); } void WINAPI RunDllErrMsg(HWND hwnd, UINT idStr, LPCTSTR pszTitle, LPCTSTR psz1, LPCTSTR psz2) { TCHAR szTmp[200]; TCHAR szMsg[200 + MAX_PATH]; if (LoadString(g_hinst, idStr, szTmp, ARRAYSIZE(szTmp))) { wsprintf(szMsg, szTmp, psz1, psz2); MessageBox(hwnd, szMsg, pszTitle, MB_OK|MB_ICONHAND); } }