#include "common.h" #include "dataguid.h" #include "compguid.h" #include #include "dataclen.h" #include "compclen.h" #include #include #include #define DECL_CRTFREE #include #ifndef RESOURCE_H #include "resource.h" #endif #include #include #include #include HINSTANCE g_hDllModule = NULL; // Handle to this DLL itself. LONG g_cDllObjects = 0; // Count number of existing objects STDAPI_(int) LibMain(HINSTANCE hInstance, DWORD fdwReason, LPVOID pvRes) { switch (fdwReason) { case DLL_PROCESS_ATTACH: g_hDllModule = hInstance; break;; } return TRUE; } STDAPI DllGetClassObject(REFCLSID rclsid, REFIID riid, void **ppv) { DWORD dw; HRESULT hr; *ppv = NULL; // // Is the request for one of our cleaner objects? // if (IsEqualCLSID(rclsid, CLSID_DataDrivenCleaner)) { dw = ID_SYSTEMDATACLEANER; } else if (IsEqualCLSID(rclsid, CLSID_ContentIndexerCleaner)) { dw = ID_CONTENTINDEXCLEANER; } else if (IsEqualCLSID(rclsid, CLSID_CompCleaner)) { dw = ID_COMPCLEANER; } else if (IsEqualCLSID(rclsid, CLSID_OldFilesInRootPropBag)) { dw = ID_OLDFILESINROOTPROPBAG; } else if (IsEqualCLSID(rclsid, CLSID_TempFilesPropBag)) { dw = ID_TEMPFILESPROPBAG; } else if (IsEqualCLSID(rclsid, CLSID_SetupFilesPropBag)) { dw = ID_SETUPFILESPROPBAG; } else if (IsEqualCLSID(rclsid, CLSID_UninstalledFilesPropBag)) { dw = ID_UNINSTALLEDFILESPROPBAG; } else if (IsEqualCLSID(rclsid, CLSID_IndexCleanerPropBag)) { dw = ID_INDEXCLEANERPROPBAG; } else { return CLASS_E_CLASSNOTAVAILABLE; } if (ID_COMPCLEANER == dw) { CCompCleanerClassFactory *pcf = new CCompCleanerClassFactory(); if (pcf) { hr = pcf->QueryInterface(riid, ppv); pcf->Release(); } else { hr = E_OUTOFMEMORY; } } else { CCleanerClassFactory * pcf = new CCleanerClassFactory(dw); if (pcf) { hr = pcf->QueryInterface(riid, ppv); pcf->Release(); } else { hr = E_OUTOFMEMORY; } } return hr; } STDAPI DllCanUnloadNow(void) { return (0 == g_cDllObjects) ? S_OK : S_FALSE; } HRESULT CallRegInstall(LPCSTR szSection) { HRESULT hr = E_FAIL; HINSTANCE hinstAdvPack = LoadLibrary(TEXT("ADVPACK.DLL")); if (hinstAdvPack) { REGINSTALL pfnri = (REGINSTALL)GetProcAddress(hinstAdvPack, "RegInstall"); if (pfnri) { STRENTRY seReg[] = { { "25", "%SystemRoot%" }, { "11", "%SystemRoot%\\system32" }, }; STRTABLE stReg = { ARRAYSIZE(seReg), seReg }; hr = pfnri(g_hDllModule, szSection, &stReg); } // since we only do this from DllInstall() don't load and unload advpack over and over // FreeLibrary(hinstAdvPack); } return hr; } STDAPI DllRegisterServer() { return CallRegInstall("RegDll"); } STDAPI DllUnregisterServer() { return CallRegInstall("UnregDll"); } UINT incDllObjectCount(void) { return InterlockedIncrement(&g_cDllObjects); } UINT decDllObjectCount(void) { #if DBG==1 if( 0 == g_cDllObjects ) { DebugBreak(); // ref counting problem } #endif return InterlockedDecrement(&g_cDllObjects); } CCleanerClassFactory::CCleanerClassFactory(DWORD dw) : _cRef(1), _dwID(dw) { incDllObjectCount(); } CCleanerClassFactory::~CCleanerClassFactory() { decDllObjectCount(); } STDMETHODIMP CCleanerClassFactory::QueryInterface(REFIID riid, void **ppv) { *ppv = NULL; if (IsEqualIID(riid, IID_IUnknown) || IsEqualIID(riid, IID_IClassFactory)) { *ppv = (IClassFactory *)this; AddRef(); return S_OK; } return E_NOINTERFACE; } STDMETHODIMP_(ULONG) CCleanerClassFactory::AddRef() { return ++_cRef; } STDMETHODIMP_(ULONG) CCleanerClassFactory::Release() { if (--_cRef) return _cRef; delete this; return 0; } STDMETHODIMP CCleanerClassFactory::CreateInstance(IUnknown *pUnkOuter, REFIID riid, void **ppv) { HRESULT hr = E_NOINTERFACE; *ppv = NULL; if (pUnkOuter) { return CLASS_E_NOAGGREGATION; } if (_dwID == ID_CONTENTINDEXCLEANER) { CContentIndexCleaner *pContentIndexCleaner = new CContentIndexCleaner(); if (pContentIndexCleaner) { hr = pContentIndexCleaner->QueryInterface(riid, ppv); pContentIndexCleaner->Release(); } else { hr = E_OUTOFMEMORY; } } else if (IsEqualIID(riid, IID_IEmptyVolumeCache)) { CDataDrivenCleaner *pDataDrivenCleaner = new CDataDrivenCleaner(); if (pDataDrivenCleaner) { hr = pDataDrivenCleaner->QueryInterface(riid, ppv); pDataDrivenCleaner->Release(); } else { hr = E_OUTOFMEMORY; } } else if (IsEqualIID(riid, IID_IPropertyBag)) { CDataDrivenPropBag *pDataDrivenPropBag = new CDataDrivenPropBag(_dwID); if (pDataDrivenPropBag) { hr = pDataDrivenPropBag->QueryInterface(riid, ppv); pDataDrivenPropBag->Release(); } else { hr = E_OUTOFMEMORY; } } else { MiDebugMsg((0, TEXT("CDataDrivenCleanerClassFactory::CreateInstance called for unknown riid (%d)"), (_dwID))); } return hr; } STDMETHODIMP CCleanerClassFactory::LockServer(BOOL fLock) { if (fLock) incDllObjectCount(); else decDllObjectCount(); return S_OK; } CDataDrivenCleaner::CDataDrivenCleaner() : _cRef(1) { _cbSpaceUsed.QuadPart = 0; _cbSpaceFreed.QuadPart = 0; _szVolume[0] = 0; _szFolder[0] = 0; _filelist[0] = 0; _dwFlags = 0; _head = NULL; incDllObjectCount(); } CDataDrivenCleaner::~CDataDrivenCleaner() { FreeList(_head); _head = NULL; decDllObjectCount(); } STDMETHODIMP CDataDrivenCleaner::QueryInterface(REFIID riid, void **ppv) { *ppv = NULL; if (IsEqualIID(riid, IID_IUnknown) || IsEqualIID(riid, IID_IEmptyVolumeCache)) { *ppv = (IEmptyVolumeCache*) this; AddRef(); return S_OK; } return E_NOINTERFACE; } STDMETHODIMP_(ULONG) CDataDrivenCleaner::AddRef() { return ++_cRef; } STDMETHODIMP_(ULONG) CDataDrivenCleaner::Release() { if (--_cRef) return _cRef; delete this; return 0; } // Initializes the System Data Driven Cleaner and returns the // specified IEmptyVolumeCache flags to the cache manager. STDMETHODIMP CDataDrivenCleaner::Initialize(HKEY hRegKey, LPCWSTR pszVolume, LPWSTR *ppszDisplayName, LPWSTR *ppszDescription, DWORD *pdwFlags) { TCHAR szTempFolder[MAX_PATH]; ULONG DaysLastAccessed = 0; PTSTR pTemp; BOOL bFolderOnVolume; _bPurged = FALSE; *ppszDisplayName = NULL; // cleanmgr.exe will get these values from *ppszDescription = NULL; _ftMinLastAccessTime.dwLowDateTime = 0; _ftMinLastAccessTime.dwHighDateTime = 0; if (*pdwFlags & EVCF_SETTINGSMODE) { return S_OK; } _szFolder[0] = 0; _dwFlags = 0; _filelist[0] = 0; _szCleanupCmdLine[0] = 0; if (hRegKey) { DWORD dwType, cbData; DWORD dwCSIDL; cbData = sizeof(dwCSIDL); if (ERROR_SUCCESS == RegQueryValueEx(hRegKey, REGSTR_VAL_CSIDL, NULL, &dwType, (LPBYTE)&dwCSIDL, &cbData)) { // CSIDL= SHGetFolderPath(NULL, dwCSIDL, NULL, 0, _szFolder); if (_szFolder[0]) { TCHAR szRelPath[MAX_PATH]; cbData = sizeof(szRelPath); if (ERROR_SUCCESS == RegQueryValueEx(hRegKey, REGSTR_VAL_FOLDER, NULL, &dwType, (LPBYTE)szRelPath, &cbData)) { // optionally append "folder" as a relative path PathAppend(_szFolder, szRelPath); } } } if (0 == _szFolder[0]) { // still nothing, try "folder"=| cbData = sizeof(_szFolder); if (ERROR_SUCCESS == RegQueryValueEx(hRegKey, REGSTR_VAL_FOLDER, NULL, &dwType, (LPBYTE)_szFolder, &cbData)) { if (REG_SZ == dwType) { // REG_SZ that needs to be converted to a MULTI_SZ // // paths separated by '|' like ?:\foo|?:\bar for (pTemp = _szFolder; *pTemp; pTemp++) { if (*pTemp == TEXT('|')) { *pTemp++ = NULL; } } // double NULL terminated pTemp++; *pTemp = 0; } else if (REG_EXPAND_SZ == dwType) { // single folder with environment expantion if (SHExpandEnvironmentStrings(_szFolder, szTempFolder, (ARRAYSIZE(szTempFolder) - 1))) // leave extra space for double NULL { StringCchCopy(_szFolder, ARRAYSIZE(_szFolder), szTempFolder); } _szFolder[lstrlen(_szFolder) + 1] = 0; // double NULL terminated. } else if (REG_MULTI_SZ == dwType) { // nothing else to do, we're done } else { // invalid data _szFolder[0] = NULL; } } } cbData = sizeof(_dwFlags); RegQueryValueEx(hRegKey, REGSTR_VAL_FLAGS, NULL, &dwType, (LPBYTE)&_dwFlags, &cbData); cbData = sizeof(_filelist); RegQueryValueEx(hRegKey, REGSTR_VAL_FILELIST, NULL, &dwType, (LPBYTE)_filelist, &cbData); cbData = sizeof(DaysLastAccessed); RegQueryValueEx(hRegKey, REGSTR_VAL_LASTACCESS, NULL, &dwType, (LPBYTE)&DaysLastAccessed, &cbData); cbData = sizeof(_szCleanupCmdLine); RegQueryValueEx(hRegKey, REGSTR_VAL_CLEANUPSTRING, NULL, &dwType, (LPBYTE)_szCleanupCmdLine, &cbData); } // If the DDEVCF_RUNIFOUTOFDISKSPACE bit is set then make sure the EVCF_OUTOFDISKSPACE flag // was passed in. If it was not then return S_FALSE so we won't run. if ((_dwFlags & DDEVCF_RUNIFOUTOFDISKSPACE) && (!(*pdwFlags & EVCF_OUTOFDISKSPACE))) { return S_FALSE; } StringCchCopy(_szVolume, ARRAYSIZE(_szVolume), pszVolume); // Fix up the filelist. The file list can either be a MULTI_SZ list of files or // a list of files separated by the ':' colon character or a '|' bar character. // These characters were choosen because they are invalid filename characters. for (pTemp = _filelist; *pTemp; pTemp++) { if (*pTemp == TEXT(':') || *pTemp == TEXT('|')) { *pTemp++ = 0; } } pTemp++; // double null terminate *pTemp = 0; bFolderOnVolume = FALSE; if (_szFolder[0] == 0) { // If no folder value is given so use the current volume StringCchCopy(_szFolder, ARRAYSIZE(_szFolder), pszVolume); bFolderOnVolume = TRUE; } else { // A valid folder value was given, loop over each folder to check for "?" and ensure that // we are on a drive that contains some of the specified folders for (LPTSTR pszFolder = _szFolder; *pszFolder; pszFolder += lstrlen(pszFolder) + 1) { // Replace the first character of each folder (driver letter) if it is a '?' // with the current volume. if (*pszFolder == TEXT('?')) { *pszFolder = *pszVolume; bFolderOnVolume = TRUE; } // If there is a valid "folder" value in the registry make sure that it is // on the specified volume. If it is not then return S_FALSE so that we are // not displayed on the list of items that can be freed. if (!bFolderOnVolume) { StringCchCopy(szTempFolder, ARRAYSIZE(szTempFolder), pszFolder); szTempFolder[lstrlen(pszVolume)] = 0; if (lstrcmpi(pszVolume, szTempFolder) == 0) { bFolderOnVolume = TRUE; } } } } if (bFolderOnVolume == FALSE) { return S_FALSE; //Don't display us in the list } // // Determine the LastAccessedTime // if (DaysLastAccessed) { ULARGE_INTEGER ulTemp, ulLastAccessTime; //Determine the number of days in 100ns units ulTemp.LowPart = FILETIME_HOUR_LOW; ulTemp.HighPart = FILETIME_HOUR_HIGH; ulTemp.QuadPart *= DaysLastAccessed; //Get the current FILETIME SYSTEMTIME st; GetSystemTime(&st); FILETIME ft; SystemTimeToFileTime(&st, &ft); ulLastAccessTime.LowPart = ft.dwLowDateTime; ulLastAccessTime.HighPart = ft.dwHighDateTime; //Subtract the Last Access number of days (in 100ns units) from //the current system time. ulLastAccessTime.QuadPart -= ulTemp.QuadPart; //Save this minimal Last Access time in the FILETIME member variable //ftMinLastAccessTime. _ftMinLastAccessTime.dwLowDateTime = ulLastAccessTime.LowPart; _ftMinLastAccessTime.dwHighDateTime = ulLastAccessTime.HighPart; _dwFlags |= DDEVCF_PRIVATE_LASTACCESS; } *pdwFlags = 0; // disable this item by default if (_dwFlags & DDEVCF_DONTSHOWIFZERO) *pdwFlags |= EVCF_DONTSHOWIFZERO; return S_OK; } // Returns the total amount of space that the data driven cleaner can remove. STDMETHODIMP CDataDrivenCleaner::GetSpaceUsed(DWORDLONG *pdwSpaceUsed, IEmptyVolumeCacheCallBack *picb) { _cbSpaceUsed.QuadPart = 0; // // Walk all of the folders in the folders list scanning for disk space. // for (LPTSTR pszFolder = _szFolder; *pszFolder; pszFolder += lstrlen(pszFolder) + 1) WalkForUsedSpace(pszFolder, picb); picb->ScanProgress(_cbSpaceUsed.QuadPart, EVCCBF_LASTNOTIFICATION, NULL); *pdwSpaceUsed = _cbSpaceUsed.QuadPart; return S_OK; } // Purges (deletes) all of the files specified in the "filelist" portion of the registry. STDMETHODIMP CDataDrivenCleaner::Purge(DWORDLONG dwSpaceToFree, IEmptyVolumeCacheCallBack *picb) { _bPurged = TRUE; // //Delete the files // PurgeFiles(picb, FALSE); PurgeFiles(picb, TRUE); // //Send the last notification to the cleanup manager // picb->PurgeProgress(_cbSpaceFreed.QuadPart, (_cbSpaceUsed.QuadPart - _cbSpaceFreed.QuadPart), EVCCBF_LASTNOTIFICATION, NULL); // //Free the list of files // FreeList(_head); _head = NULL; // //Run the "CleanupString" command line if one was provided // if (*_szCleanupCmdLine) { STARTUPINFO si = {0}; PROCESS_INFORMATION pi = {0}; si.cb = sizeof(si); if (CreateProcess(NULL, _szCleanupCmdLine, NULL, NULL, FALSE, 0, NULL, NULL, &si, &pi)) { CloseHandle(pi.hThread); CloseHandle(pi.hProcess); } else { MiDebugMsg((0, TEXT("CreateProcess(%s) failed with error %d"), _szCleanupCmdLine, GetLastError())); } } return S_OK; } STDMETHODIMP CDataDrivenCleaner::ShowProperties(HWND hwnd) { return S_OK; } // Deactivates the System Driven Data cleaner...this basically does nothing. STDMETHODIMP CDataDrivenCleaner::Deactivate(DWORD *pdwFlags) { *pdwFlags = 0; // //See if this object should be removed. //Note that we will only remove a cleaner if it's Purge() method was run. // if (_bPurged && (_dwFlags & DDEVCF_REMOVEAFTERCLEAN)) *pdwFlags |= EVCF_REMOVEFROMLIST; return S_OK; } /* ** checks if the file is a specified number of days ** old (if the "lastaccess" DWORD is in the registry for this cleaner). ** If the file has not been accessed in the specified number of days ** then it can safely be deleted. If the file has been accessed in ** that number of days then the file will not be deleted. */ BOOL CDataDrivenCleaner::LastAccessisOK(FILETIME ftFileLastAccess) { if (_dwFlags & DDEVCF_PRIVATE_LASTACCESS) { //Is the last access FILETIME for this file less than the current //FILETIME minus the number of specified days? return (CompareFileTime(&ftFileLastAccess, &_ftMinLastAccessTime) == -1); } return TRUE; } // checks if a file is open by doing a CreateFile // with fdwShareMode of 0. If GetLastError() retuns // ERROR_SHARING_VIOLATION then this function retuns TRUE because // someone has the file open. Otherwise this function retuns false. BOOL TestFileIsOpen(LPCTSTR lpFile, FILETIME *pftFileLastAccess) { #if 0 // too slow, disable this HANDLE hFile = CreateFile(lpFile, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if ((hFile == INVALID_HANDLE_VALUE) && (GetLastError() == ERROR_SHARING_VIOLATION)) { return TRUE; //File is currently open by someone } // // File is not currently open // SetFileTime(hFile, NULL, pftFileLastAccess, NULL); CloseHandle(hFile); #endif return FALSE; } // recursively walk the specified directory and // add all the files under this directory to the delete list. BOOL CDataDrivenCleaner::WalkAllFiles(LPCTSTR lpPath, IEmptyVolumeCacheCallBack *picb) { BOOL bRet = TRUE; BOOL bFind = TRUE; HANDLE hFind; WIN32_FIND_DATA wd; TCHAR szFindPath[MAX_PATH]; TCHAR szAddFile[MAX_PATH]; ULARGE_INTEGER dwFileSize; static DWORD dwCount = 0; // //If this is a directory then tack a *.* onto the end of the path //and recurse through the rest of the directories // DWORD dwAttributes = GetFileAttributes(lpPath); if (dwAttributes & FILE_ATTRIBUTE_DIRECTORY) { if (PathCombine(szFindPath, lpPath, TEXT("*.*"))) { bFind = TRUE; hFind = FindFirstFile(szFindPath, &wd); while (hFind != INVALID_HANDLE_VALUE && bFind) { // //First check if the attributes of this file are OK for us to delete. // if (((!(wd.dwFileAttributes & FILE_ATTRIBUTE_READONLY)) || (_dwFlags & DDEVCF_REMOVEREADONLY)) && ((!(wd.dwFileAttributes & FILE_ATTRIBUTE_SYSTEM)) || (_dwFlags & DDEVCF_REMOVESYSTEM)) && ((!(wd.dwFileAttributes & FILE_ATTRIBUTE_HIDDEN)) || (_dwFlags & DDEVCF_REMOVEHIDDEN))) { if (PathCombine(szAddFile, lpPath, wd.cFileName)) { // //This is a file so check if it is open // if ((!(wd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) && (TestFileIsOpen(szAddFile, &wd.ftLastAccessTime) == FALSE) && (LastAccessisOK(wd.ftLastAccessTime))) { // //File is not open so add it to the list // dwFileSize.HighPart = wd.nFileSizeHigh; dwFileSize.LowPart = wd.nFileSizeLow; AddFileToList(szAddFile, dwFileSize, FALSE); } } // //CallBack the cleanup Manager to update the UI // if ((dwCount++ % 10) == 0) { if (picb->ScanProgress(_cbSpaceUsed.QuadPart, 0, NULL) == E_ABORT) { // //User aborted // FindClose(hFind); return FALSE; } } } bFind = FindNextFile(hFind, &wd); } FindClose(hFind); } // //Recurse through all of the directories // if (PathCombine(szFindPath, lpPath, TEXT("*.*"))) { bFind = TRUE; hFind = FindFirstFile(szFindPath, &wd); while (hFind != INVALID_HANDLE_VALUE && bFind) { // //This is a directory // if ((wd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) && (lstrcmp(wd.cFileName, TEXT(".")) != 0) && (lstrcmp(wd.cFileName, TEXT("..")) != 0)) { if (PathCombine(szAddFile, lpPath, wd.cFileName)) { dwFileSize.QuadPart = 0; AddFileToList(szAddFile, dwFileSize, TRUE); if (WalkAllFiles(szAddFile, picb) == FALSE) { // //User cancled // FindClose(hFind); return FALSE; } } } bFind = FindNextFile(hFind, &wd); } FindClose(hFind); } } return bRet; } // walk the specified directory and create a // linked list of files that can be deleted. It will also // increment the member variable to indicate how much disk space // these files are taking. // It will look at the dwFlags member variable to determine if it // needs to recursively walk the tree or not. BOOL CDataDrivenCleaner::WalkForUsedSpace(LPCTSTR lpPath, IEmptyVolumeCacheCallBack *picb) { BOOL bRet = TRUE; BOOL bFind = TRUE; HANDLE hFind; WIN32_FIND_DATA wd; TCHAR szFindPath[MAX_PATH]; TCHAR szAddFile[MAX_PATH]; ULARGE_INTEGER dwFileSize; static DWORD dwCount = 0; LPTSTR lpSingleFile; // //If this is a directory then tack a *.* onto the end of the path //and recurse through the rest of the directories // DWORD dwAttributes = GetFileAttributes(lpPath); if (dwAttributes & FILE_ATTRIBUTE_DIRECTORY) { // //Enum through the MULTI_SZ filelist // for (lpSingleFile = _filelist; *lpSingleFile; lpSingleFile += lstrlen(lpSingleFile) + 1) { StringCchCopy(szFindPath, ARRAYSIZE(szFindPath), lpPath); PathAppend(szFindPath, lpSingleFile); bFind = TRUE; hFind = FindFirstFile(szFindPath, &wd); while (hFind != INVALID_HANDLE_VALUE && bFind) { if (StrCmp(wd.cFileName, TEXT(".")) == 0 || StrCmp(wd.cFileName, TEXT("..")) == 0) { // ignore these two, otherwise we'll cover the whole disk.. bFind = FindNextFile(hFind, &wd); continue; } // //First check if the attributes of this file are OK for us to delete. // if (((!(wd.dwFileAttributes & FILE_ATTRIBUTE_READONLY)) || (_dwFlags & DDEVCF_REMOVEREADONLY)) && ((!(wd.dwFileAttributes & FILE_ATTRIBUTE_SYSTEM)) || (_dwFlags & DDEVCF_REMOVESYSTEM)) && ((!(wd.dwFileAttributes & FILE_ATTRIBUTE_HIDDEN)) || (_dwFlags & DDEVCF_REMOVEHIDDEN))) { StringCchCopy(szAddFile, ARRAYSIZE(szAddFile), lpPath); PathAppend(szAddFile, wd.cFileName); // //Check if this is a subdirectory // if (wd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) { if (_dwFlags & DDEVCF_REMOVEDIRS) { dwFileSize.QuadPart = 0; AddFileToList(szAddFile, dwFileSize, TRUE); if (WalkAllFiles(szAddFile, picb) == FALSE) { // //User cancled // FindClose(hFind); return FALSE; } } } // //This is a file so check if it is open // else if ((TestFileIsOpen(szAddFile, &wd.ftLastAccessTime) == FALSE) && (LastAccessisOK(wd.ftLastAccessTime))) { // //File is not open so add it to the list // dwFileSize.HighPart = wd.nFileSizeHigh; dwFileSize.LowPart = wd.nFileSizeLow; AddFileToList(szAddFile, dwFileSize, FALSE); } // //CallBack the cleanup Manager to update the UI // if ((dwCount++ % 10) == 0) { if (picb->ScanProgress(_cbSpaceUsed.QuadPart, 0, NULL) == E_ABORT) { // //User aborted // FindClose(hFind); return FALSE; } } } bFind = FindNextFile(hFind, &wd); } FindClose(hFind); } if (_dwFlags & DDEVCF_DOSUBDIRS) { // //Recurse through all of the directories // StringCchCopy(szFindPath, ARRAYSIZE(szFindPath), lpPath); PathAppend(szFindPath, TEXT("*.*")); bFind = TRUE; hFind = FindFirstFile(szFindPath, &wd); while (hFind != INVALID_HANDLE_VALUE && bFind) { // //This is a directory // if ((wd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) && (lstrcmp(wd.cFileName, TEXT(".")) != 0) && (lstrcmp(wd.cFileName, TEXT("..")) != 0)) { StringCchCopy(szAddFile, ARRAYSIZE(szAddFile), lpPath); PathAppend(szAddFile, wd.cFileName); if (WalkForUsedSpace(szAddFile, picb) == FALSE) { // //User cancled // FindClose(hFind); return FALSE; } } bFind = FindNextFile(hFind, &wd); } FindClose(hFind); } if (_dwFlags & DDEVCF_REMOVEPARENTDIR) { // add the parent directory to the list if we are told to remove them.... dwFileSize.QuadPart = 0; AddFileToList(lpPath, dwFileSize, TRUE); } } else { MiDebugMsg((0, TEXT("CDataDrivenCleaner::WalkForUsedSpace -> %s is NOT a directory!"), lpPath)); } return bRet; } // Adds a file to the linked list of files. BOOL CDataDrivenCleaner::AddFileToList(LPCTSTR lpFile, ULARGE_INTEGER filesize, BOOL bDirectory) { BOOL bRet = TRUE; CLEANFILESTRUCT *pNew = (CLEANFILESTRUCT *)HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*pNew)); if (pNew == NULL) { MiDebugMsg((0, TEXT("CDataDrivenCleaner::AddFileToList -> ERROR HeapAlloc() failed with error %d"), GetLastError())); return FALSE; } StringCchCopy(pNew->file, ARRAYSIZE(pNew->file), lpFile); pNew->ulFileSize.QuadPart = filesize.QuadPart; pNew->bSelected = TRUE; pNew->bDirectory = bDirectory; if (_head) pNew->pNext = _head; else pNew->pNext = NULL; _head = pNew; _cbSpaceUsed.QuadPart += filesize.QuadPart; return bRet; } // Removes the files from the disk. void CDataDrivenCleaner::PurgeFiles(IEmptyVolumeCacheCallBack *picb, BOOL bDoDirectories) { CLEANFILESTRUCT *pCleanFile = _head; _cbSpaceFreed.QuadPart = 0; while (pCleanFile) { // //Remove a directory // if (bDoDirectories && pCleanFile->bDirectory) { SetFileAttributes(pCleanFile->file, FILE_ATTRIBUTE_NORMAL); if (!RemoveDirectory(pCleanFile->file)) { MiDebugMsg((0, TEXT("Error RemoveDirectory(%s) returned error %d"), pCleanFile->file, GetLastError())); } } // //Remove a file // else if (!bDoDirectories && !pCleanFile->bDirectory) { SetFileAttributes(pCleanFile->file, FILE_ATTRIBUTE_NORMAL); if (!DeleteFile(pCleanFile->file)) { MiDebugMsg((0, TEXT("Error DeleteFile(%s) returned error %d"), pCleanFile->file, GetLastError())); } } // //Adjust the cbSpaceFreed // _cbSpaceFreed.QuadPart += pCleanFile->ulFileSize.QuadPart; // //Call back the cleanup manager to update the progress bar // if (picb->PurgeProgress(_cbSpaceFreed.QuadPart, (_cbSpaceUsed.QuadPart - _cbSpaceFreed.QuadPart), 0, NULL) == E_ABORT) { // //User aborted so stop removing files // return; } pCleanFile = pCleanFile->pNext; } } // Frees the memory allocated by AddFileToList. void CDataDrivenCleaner::FreeList(CLEANFILESTRUCT *pCleanFile) { if (pCleanFile == NULL) return; if (pCleanFile->pNext) FreeList(pCleanFile->pNext); HeapFree(GetProcessHeap(), 0, pCleanFile); } CDataDrivenPropBag::CDataDrivenPropBag(DWORD dw) : _cRef(1), _dwFilter(dw) { incDllObjectCount(); } CDataDrivenPropBag::~CDataDrivenPropBag() { decDllObjectCount(); } STDMETHODIMP CDataDrivenPropBag::QueryInterface(REFIID riid, void **ppv) { *ppv = NULL; if (IsEqualIID(riid, IID_IUnknown) || IsEqualIID(riid, IID_IPropertyBag)) { *ppv = (IPropertyBag*) this; AddRef(); return S_OK; } return E_NOINTERFACE; } STDMETHODIMP_(ULONG) CDataDrivenPropBag::AddRef() { return ++_cRef; } STDMETHODIMP_(ULONG) CDataDrivenPropBag::Release() { if (--_cRef) return _cRef; delete this; return 0; } STDMETHODIMP CDataDrivenPropBag::Read(LPCOLESTR pwszProp, VARIANT *pvar, IErrorLog *) { if (pvar->vt != VT_BSTR) // in/out { return E_FAIL; } DWORD dwID = 0; DWORD dwDisplay; DWORD dwDesc; TCHAR szBuf[MAX_PATH]; switch (_dwFilter) { case ID_OLDFILESINROOTPROPBAG: dwDisplay = IDS_OLDFILESINROOT_DISP; dwDesc = IDS_OLDFILESINROOT_DESC; break; case ID_TEMPFILESPROPBAG: dwDisplay = IDS_TEMPFILES_DISP; dwDesc = IDS_TEMPFILES_DESC; break; case ID_SETUPFILESPROPBAG: dwDisplay = IDS_SETUPFILES_DISP; dwDesc = IDS_SETUPFILES_DESC; break; case ID_UNINSTALLEDFILESPROPBAG: dwDisplay = IDS_UNINSTALLFILES_DISP; dwDesc = IDS_UNINSTALLFILES_DESC; break; case ID_INDEXCLEANERPROPBAG: dwDisplay = IDS_INDEXERFILES_DISP; dwDesc = IDS_INDEXERFILES_DESC; break; default: return E_UNEXPECTED; } if (0 == lstrcmpiW(pwszProp, L"display")) { dwID = dwDisplay; } else if (0 == lstrcmpiW(pwszProp, L"description")) { dwID = dwDesc; } else { return E_INVALIDARG; } if (LoadString(g_hDllModule, dwID, szBuf, ARRAYSIZE(szBuf))) { pvar->bstrVal = SysAllocString(szBuf); if (pvar->bstrVal) { return S_OK; } } return E_OUTOFMEMORY; } STDMETHODIMP CDataDrivenPropBag::Write(LPCOLESTR, VARIANT *) { return E_NOTIMPL; } CContentIndexCleaner::CContentIndexCleaner(void) : _cRef(1) { _pDataDriven = NULL; incDllObjectCount(); } CContentIndexCleaner::~CContentIndexCleaner(void) { if (_pDataDriven) { _pDataDriven->Release(); } decDllObjectCount(); } STDMETHODIMP CContentIndexCleaner::QueryInterface(REFIID riid, void **ppv) { *ppv = NULL; if (riid == IID_IUnknown || riid == IID_IEmptyVolumeCache) { *ppv = (IEmptyVolumeCache *) this; AddRef(); return S_OK; } return E_NOINTERFACE; } STDMETHODIMP_(ULONG) CContentIndexCleaner::AddRef(void) { return ++_cRef; } STDMETHODIMP_(ULONG) CContentIndexCleaner::Release(void) { if (--_cRef) return _cRef; delete this; return 0; } STDMETHODIMP CContentIndexCleaner::Initialize(HKEY hRegKey, LPCWSTR pszVolume, LPWSTR *ppszDisplayName, LPWSTR *ppszDescription, DWORD *pdwFlags) { // check the volume first to see if it is in the list of cache's know about. // If it isn't, then we can just go ahead. If the volume is a known cache, then // we must check to see if the service is running... HKEY hkeyCatalogs; BOOL fFound = FALSE; LONG lRes = RegOpenKeyExW(HKEY_LOCAL_MACHINE, L"System\\CurrentControlSet\\Control\\ContentIndex\\Catalogs", 0, KEY_READ, &hkeyCatalogs); if (lRes != ERROR_SUCCESS) { return S_FALSE; } int iIndex = 0; do { WCHAR szBuffer[MAX_PATH]; DWORD dwSize = ARRAYSIZE(szBuffer); lRes = RegEnumKeyExW(hkeyCatalogs, iIndex ++, szBuffer, &dwSize, NULL, NULL, NULL, NULL); if (lRes != ERROR_SUCCESS) { break; } WCHAR szData[MAX_PATH]; dwSize = sizeof(szData); lRes = SHGetValueW(hkeyCatalogs, szBuffer, L"Location", NULL, szData, &dwSize); if (lRes == ERROR_SUCCESS) { // check to see if it is the same volume... (two characters letter and colon) if (StrCmpNIW(pszVolume, szData , 2) == 0) { fFound = TRUE; } } } while (TRUE); RegCloseKey(hkeyCatalogs); if (fFound) { // check to see if the index is on or off, if the indexer is on, then we should not allow the user to blow // this off their hard drive... SC_HANDLE hSCM = OpenSCManager(NULL, NULL, GENERIC_READ | SC_MANAGER_ENUMERATE_SERVICE); if (hSCM) { SC_HANDLE hCI; hCI = OpenService(hSCM, TEXT("cisvc"), SERVICE_QUERY_STATUS); if (hCI) { SERVICE_STATUS rgSs; if (QueryServiceStatus(hCI, &rgSs)) { if (rgSs.dwCurrentState != SERVICE_RUNNING) fFound = FALSE; } CloseServiceHandle(hCI); } CloseServiceHandle(hSCM); } // if it wasn't inactive, then we can't delete it... if (fFound) return S_FALSE; } CDataDrivenCleaner *pDataDrivenCleaner = new CDataDrivenCleaner; if (pDataDrivenCleaner) { pDataDrivenCleaner->QueryInterface(IID_IEmptyVolumeCache, (void **)&_pDataDriven); pDataDrivenCleaner->Release(); } return _pDataDriven ? _pDataDriven->Initialize(hRegKey, pszVolume, ppszDisplayName, ppszDescription, pdwFlags) : E_FAIL; } STDMETHODIMP CContentIndexCleaner::GetSpaceUsed(DWORDLONG *pdwSpaceUsed, IEmptyVolumeCacheCallBack *picb) { if (_pDataDriven) return _pDataDriven->GetSpaceUsed(pdwSpaceUsed, picb); return E_FAIL; } STDMETHODIMP CContentIndexCleaner::Purge(DWORDLONG dwSpaceToFree, IEmptyVolumeCacheCallBack *picb) { if (_pDataDriven) return _pDataDriven->Purge(dwSpaceToFree, picb); return E_FAIL; } STDMETHODIMP CContentIndexCleaner::ShowProperties(HWND hwnd) { if (_pDataDriven) return _pDataDriven->ShowProperties(hwnd); return E_FAIL; } STDMETHODIMP CContentIndexCleaner::Deactivate(DWORD *pdwFlags) { if (_pDataDriven) return _pDataDriven->Deactivate(pdwFlags); return E_FAIL; }