/*++ Copyright (C) 2000-2001 Microsoft Corporation --*/ #include #include #include #include "a51tools.h" __int64 g_nCurrentTime = 1; __int64 g_nReadFailures = 0; __int64 g_nWriteFailures = 0; // // FILE_ATTRIBUTE_NOT_CONTENT_INDEXED is not actually supported on CreateFile, // contrary to the docs. However, also contrary to the docs, it is inherited // from the parent directory // #define A51_FILE_CREATION_FLAGS 0 //FILE_ATTRIBUTE_NOT_CONTENT_INDEXED CTempMemoryManager g_Manager; void* TempAlloc(DWORD dwLen) { return g_Manager.Allocate(dwLen); } void TempFree(void* p, DWORD dwLen) { g_Manager.Free(p, dwLen); } void* TempAlloc(CTempMemoryManager& Manager, DWORD dwLen) { return Manager.Allocate(dwLen); } void TempFree(CTempMemoryManager& Manager, void* p, DWORD dwLen) { Manager.Free(p, dwLen); } HANDLE g_hLastEvent = NULL; CCritSec g_csEvents; HANDLE A51GetNewEvent() { { CInCritSec ics(&g_csEvents); if(g_hLastEvent) { HANDLE h = g_hLastEvent; g_hLastEvent = NULL; return h; } } return CreateEvent(NULL, TRUE, FALSE, NULL); } void A51ReturnEvent(HANDLE hEvent) { { CInCritSec ics(&g_csEvents); if(g_hLastEvent == NULL) { g_hLastEvent = hEvent; return; } } CloseHandle(hEvent); } HRESULT A51TranslateErrorCode(long lRes) { if (lRes == ERROR_SUCCESS) return WBEM_S_NO_ERROR; switch(lRes) { case ERROR_FILE_NOT_FOUND: case ERROR_PATH_NOT_FOUND: return WBEM_E_NOT_FOUND; case ERROR_OUTOFMEMORY: case ERROR_NOT_ENOUGH_MEMORY: return WBEM_E_OUT_OF_MEMORY; case ERROR_NOT_ENOUGH_QUOTA: case ERROR_DISK_FULL: return WBEM_E_OUT_OF_DISK_SPACE; case ERROR_SERVER_SHUTDOWN_IN_PROGRESS: return WBEM_E_SHUTTING_DOWN; default: return WBEM_E_FAILED; } } long __stdcall EnsureDirectory(LPCWSTR wszPath, LPSECURITY_ATTRIBUTES pSA) { if(!CreateDirectoryW(wszPath, NULL)) { long lRes = GetLastError(); if(lRes != ERROR_ALREADY_EXISTS) return lRes; else return ERROR_SUCCESS; } else return ERROR_SUCCESS; } long __stdcall EnsureDirectoryRecursiveForFile(LPWSTR wszPath, LPSECURITY_ATTRIBUTES pSA); long __stdcall EnsureDirectoryForFile(LPCWSTR wszPath, LPSECURITY_ATTRIBUTES pSA) { // // Make a copy, since we will be messing with it // CFileName wszNewPath; if (wszNewPath == NULL) return ERROR_OUTOFMEMORY; wcscpy(wszNewPath, wszPath); return EnsureDirectoryRecursiveForFile(wszNewPath, pSA); } long __stdcall EnsureDirectoryRecursiveForFile(LPWSTR wszPath, LPSECURITY_ATTRIBUTES pSA) { long lRes; // // Find the last backslash and remove // WCHAR* pwcLastSlash = wcsrchr(wszPath, L'\\'); if(pwcLastSlash == NULL) return ERROR_BAD_PATHNAME; *pwcLastSlash = 0; // // Try to create it // if(!CreateDirectoryW(wszPath, pSA)) { // // Call ourselves recursively --- to create our parents // lRes = EnsureDirectoryRecursiveForFile(wszPath, pSA); if(lRes != ERROR_SUCCESS) { *pwcLastSlash = L'\\'; return lRes; } // // Try again // BOOL bRes = CreateDirectoryW(wszPath, pSA); *pwcLastSlash = L'\\'; if(bRes) return ERROR_SUCCESS; else return GetLastError(); } else { *pwcLastSlash = L'\\'; return ERROR_SUCCESS; } } static WCHAR g_HexDigit[] = { L'0', L'1', L'2', L'3', L'4', L'5', L'6', L'7', L'8', L'9', L'A', L'B', L'C', L'D', L'E', L'F' }; bool A51Hash(LPCWSTR wszName, LPWSTR wszHash) { // // Have to upper-case everything // DWORD dwBufferSize = wcslen(wszName)*2+2; LPWSTR wszBuffer = (WCHAR*)TempAlloc(dwBufferSize); if (wszBuffer == NULL) return false; CTempFreeMe vdm(wszBuffer, dwBufferSize); wbem_wcsupr(wszBuffer, wszName); BYTE RawHash[16]; MD5::Transform((void*)wszBuffer, wcslen(wszBuffer)*2, RawHash); WCHAR* pwc = wszHash; for(int i = 0; i < 16; i++) { *(pwc++) = g_HexDigit[RawHash[i]/16]; *(pwc++) = g_HexDigit[RawHash[i]%16]; } *pwc = 0; return true; } long A51WriteFile(LPCWSTR wszFullPath, DWORD dwLen, BYTE* pBuffer) { long lRes; A51TRACE(( "Create file %S\n", wszFullPath)); // // Create the right file // HANDLE hFile = CreateFileW(wszFullPath, GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, A51_FILE_CREATION_FLAGS, NULL); if(hFile == INVALID_HANDLE_VALUE) { lRes = GetLastError(); if(lRes == ERROR_PATH_NOT_FOUND) { lRes = EnsureDirectoryForFile(wszFullPath, NULL); if(lRes != ERROR_SUCCESS) return lRes; hFile = CreateFileW(wszFullPath, GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, A51_FILE_CREATION_FLAGS, NULL); if(hFile == INVALID_HANDLE_VALUE) { lRes = GetLastError(); _ASSERT(lRes != ERROR_SUCCESS, L"success error code from fail"); return lRes; } } else return lRes; } CCloseMe cm(hFile); // // Write it and close // if(!WriteFile(hFile, pBuffer, dwLen, &dwLen, NULL)) { lRes = GetLastError(); _ASSERT(lRes != ERROR_SUCCESS, L"success error code from fail"); return lRes; } return ERROR_SUCCESS; } long A51DeleteFile(LPCWSTR wszFullPath) { A51TRACE(("Delete file %S\n", wszFullPath)); // // Delete the right file // if(!DeleteFileW(wszFullPath)) return GetLastError(); return ERROR_SUCCESS; } long A51WriteToFileAsync(HANDLE hFile, long lStartingOffset, BYTE* pBuffer, DWORD dwBufferLen, OVERLAPPED* pov) { pov->Offset = lStartingOffset; pov->OffsetHigh = 0; pov->hEvent = A51GetNewEvent(); BOOL bRes; DWORD dwWritten; while(!(bRes = WriteFile(hFile, pBuffer, dwBufferLen, &dwWritten, pov)) && (GetLastError() == ERROR_INVALID_USER_BUFFER || GetLastError() == ERROR_NOT_ENOUGH_MEMORY)) { // // Out of buffer-space --- wait a bit and retry // g_nWriteFailures++; Sleep(16); } if(!bRes) { long lRes = GetLastError(); if(lRes == ERROR_IO_PENDING) // perfect! return ERROR_SUCCESS; else { A51ReturnEvent(pov->hEvent); pov->hEvent = NULL; return lRes; } } else { // // Succeeded synchronously --- clean up and return // A51ReturnEvent(pov->hEvent); pov->hEvent = NULL; if(dwWritten != dwBufferLen) return ERROR_OUTOFMEMORY; else return ERROR_SUCCESS; } } long A51WriteToFileSync(HANDLE hFile, long lStartingOffset, BYTE* pBuffer, DWORD dwBufferLen) { OVERLAPPED ov; long lRes = A51WriteToFileAsync(hFile, lStartingOffset, pBuffer, dwBufferLen, &ov); if(lRes != ERROR_SUCCESS) return lRes; if(ov.hEvent) { CReturnMe rm(ov.hEvent); // // Wait for completion // DWORD dwWritten; if(!GetOverlappedResult(hFile, &ov, &dwWritten, TRUE)) return GetLastError(); if(dwWritten != dwBufferLen) return ERROR_OUTOFMEMORY; } return ERROR_SUCCESS; } long A51ReadFromFileAsync(HANDLE hFile, long lStartingOffset, BYTE* pBuffer, DWORD dwBufferLen, OVERLAPPED* pov) { long lRes; pov->Offset = lStartingOffset; pov->OffsetHigh = 0; pov->hEvent = A51GetNewEvent(); BOOL bRes; DWORD dwRead; while(!(bRes = ReadFile(hFile, pBuffer, dwBufferLen, &dwRead, pov)) && (GetLastError() == ERROR_INVALID_USER_BUFFER || GetLastError() == ERROR_NOT_ENOUGH_MEMORY)) { // // Out of buffer-space --- wait a bit and retry // g_nReadFailures++; Sleep(16); } if(!bRes) { if(GetLastError() == ERROR_IO_PENDING) // perfect! return ERROR_SUCCESS; else { lRes = GetLastError(); _ASSERT(lRes != ERROR_SUCCESS, L"Success returned on failure"); A51ReturnEvent(pov->hEvent); pov->hEvent = NULL; if(lRes == ERROR_HANDLE_EOF) lRes = ERROR_SUCCESS; return lRes; } } else { // // Succeeded synchronously --- clean up and return // A51ReturnEvent(pov->hEvent); pov->hEvent = NULL; return ERROR_SUCCESS; } } long A51ReadFromFileSync(HANDLE hFile, long lStartingOffset, BYTE* pBuffer, DWORD dwBufferLen) { OVERLAPPED ov; long lRes = A51ReadFromFileAsync(hFile, lStartingOffset, pBuffer, dwBufferLen, &ov); if(lRes != ERROR_SUCCESS) return lRes; if(ov.hEvent) { CReturnMe rm(ov.hEvent); // // Wait for completion // DWORD dwRead = 0; if(!GetOverlappedResult(hFile, &ov, &dwRead, TRUE)) { lRes = GetLastError(); _ASSERT(lRes != ERROR_SUCCESS, L"Success returned on failure"); if(lRes == ERROR_HANDLE_EOF) lRes = ERROR_SUCCESS; return lRes; } } return ERROR_SUCCESS; } long RemoveDirectoryRecursive(LPCWSTR wszDirectoryPath, bool bAbortOnFiles); long A51RemoveDirectory(LPCWSTR wszFullPath, bool bAbortOnFiles) { long lRes = RemoveDirectoryRecursive(wszFullPath, bAbortOnFiles); if(lRes == ERROR_PATH_NOT_FOUND || lRes == ERROR_FILE_NOT_FOUND) return ERROR_FILE_NOT_FOUND; else return lRes; } long RemoveDirectoryRecursive(LPCWSTR wszDirectoryPath, bool bAbortOnFiles) { long lRes; // // Try removing it right away // if(!RemoveDirectoryW(wszDirectoryPath)) { lRes = GetLastError(); if(lRes == ERROR_PATH_NOT_FOUND || lRes == ERROR_FILE_NOT_FOUND) return ERROR_FILE_NOT_FOUND; else if(lRes != ERROR_DIR_NOT_EMPTY && lRes != ERROR_SHARING_VIOLATION) return lRes; } else return ERROR_SUCCESS; // // Not empty (or at least we are not sure it is empty) --- enumerate // everything // CFileName wszMap; if (wszMap == NULL) return ERROR_OUTOFMEMORY; wcscpy(wszMap, wszDirectoryPath); wcscat(wszMap, L"\\*"); CFileName wszChild; if (wszChild == NULL) return ERROR_OUTOFMEMORY; wcscpy(wszChild, wszDirectoryPath); wcscat(wszChild, L"\\"); long lChildLen = wcslen(wszChild); WIN32_FIND_DATAW fd; HANDLE hSearch = FindFirstFileW(wszMap, &fd); if(hSearch == INVALID_HANDLE_VALUE) return ERROR_DIR_NOT_EMPTY; do { if(fd.cFileName[0] == L'.') continue; if((fd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) == 0) { if(bAbortOnFiles) { // There is a file --- give up FindClose(hSearch); return ERROR_DIR_NOT_EMPTY; } else { wcscpy(wszChild + lChildLen, fd.cFileName); if(!DeleteFileW(wszChild)) { FindClose(hSearch); return GetLastError(); } } } else { wcscpy(wszChild + lChildLen, fd.cFileName); lRes = RemoveDirectoryRecursive(wszChild, bAbortOnFiles); if(lRes != ERROR_SUCCESS && lRes != ERROR_FILE_NOT_FOUND) { FindClose(hSearch); return lRes; } } } while(FindNextFileW(hSearch, &fd)); FindClose(hSearch); // // And try again // if(!RemoveDirectoryW(wszDirectoryPath)) { lRes = GetLastError(); if(lRes == ERROR_PATH_NOT_FOUND || lRes == ERROR_FILE_NOT_FOUND) return ERROR_FILE_NOT_FOUND; else if(lRes == ERROR_SHARING_VIOLATION) return ERROR_SUCCESS; else return lRes; } return ERROR_SUCCESS; } CRITICAL_SECTION g_csLog; char* g_szText = NULL; long g_lTextLen = 0; WCHAR g_wszLogFilename[MAX_PATH] = L""; void A51Trace(LPCSTR szFormat, ...) { if((g_wszLogFilename[0] == 0) || (g_szText == NULL)) { InitializeCriticalSection(&g_csLog); delete g_szText; g_wszLogFilename[0] = 0; g_szText = NULL; HKEY hKey; long lRes = RegOpenKeyExW(HKEY_LOCAL_MACHINE, L"SOFTWARE\\Microsoft\\WBEM\\CIMOM", 0, KEY_READ, &hKey); if(lRes) { wcscpy(g_wszLogFilename, L"c:\\a51.log"); } else { DWORD dwLen = MAX_PATH; CFileName wszTmp; if (wszTmp == 0) { wcscpy(g_wszLogFilename, L"c:\\a51.log"); RegCloseKey(hKey); } else { lRes = RegQueryValueExW(hKey, L"Logging Directory", NULL, NULL, (LPBYTE)(wchar_t*)wszTmp, &dwLen); RegCloseKey(hKey); if(lRes) { wcscpy(g_wszLogFilename, L"c:\\a51.log"); } else { if (ExpandEnvironmentStringsW(wszTmp,g_wszLogFilename,MAX_PATH) == 0) { wcscpy(g_wszLogFilename, L"c:\\a51.log"); } else { if (g_wszLogFilename[wcslen(g_wszLogFilename)] == L'\\') { wcscat(g_wszLogFilename, L"a51.log"); } else { wcscat(g_wszLogFilename, L"\\a51.log"); } } } } } g_szText = new char[3000000]; if (g_szText == NULL) return; } EnterCriticalSection(&g_csLog); char szBuffer[256]; va_list argptr; va_start(argptr, szFormat); vsprintf(szBuffer, szFormat, argptr); long lLen = strlen(szBuffer); if(g_lTextLen + lLen > 2900000) A51TraceFlush(); strcpy(g_szText + g_lTextLen, szBuffer); g_lTextLen += lLen; LeaveCriticalSection(&g_csLog); } void A51TraceFlush() { FILE* fLog = NULL; fLog = _wfopen(g_wszLogFilename, L"a"); if(fLog) { fwrite(g_szText, 1, g_lTextLen, fLog); g_lTextLen = 0; // fflush(fLog); fclose(fLog); } }