/*++ Copyright (c) 1995-1996 Microsoft Corporation Module Name : dirmon.cpp Abstract: This module includes definitions of functions and variables for CDirMonitor and CDirMonitorEntry object Author: Charles Grant ( cgrant ) April-1997 Revision History: Changed to abstract classes to share code between core IIS and ASP --*/ /************************************************************ * Include Headers ************************************************************/ #include "isatq.hxx" #include "malloc.h" #include "except.h" #define IATQ_DLL_IMPLEMENTATION #define IATQ_IMPLEMENTATION_EXPORT #include "dirmon.h" // // CDirMonitorEntry // #define DEFAULT_BUFFER_SIZE 512 CDirMonitorEntry::CDirMonitorEntry() : m_cDirRefCount(0), m_cIORefCount(0), m_hDir(INVALID_HANDLE_VALUE), m_pAtqCtxt(NULL), m_dwNotificationFlags(0), m_pszPath(NULL), m_cPathLength(0), m_pDirMonitor(NULL), m_cBufferSize(0), m_pbBuffer(NULL), m_fInCleanup(FALSE), m_fWatchSubdirectories(FALSE) /*++ Routine Description: CDirMonitorEntry constructor Arguments: None Return Value: Nothing --*/ { } CDirMonitorEntry::~CDirMonitorEntry( VOID ) /*++ Routine Description: CDirMonitorEntry destructor Arguments: None Return Value: Nothing --*/ { IF_DEBUG( NOTIFICATION ) { DBGPRINTF((DBG_CONTEXT, "[CDirMonitorEntry] Destructor\n")); } // We should only be destroyed when // our ref counts have gone to 0 DBG_ASSERT(m_cDirRefCount == 0); DBG_ASSERT(m_cIORefCount == 0); // // We really ought to have closed the handle by now // if (m_hDir != INVALID_HANDLE_VALUE) { DBGPRINTF(( DBG_CONTEXT, "~CDirMonitorEntry: open handle %p : %p\n", m_hDir, m_pAtqCtxt )); m_hDir = INVALID_HANDLE_VALUE; AtqCloseFileHandle(m_pAtqCtxt); } if (m_pDirMonitor != NULL) { m_pDirMonitor->RemoveEntry(this); m_pDirMonitor = NULL; } m_cPathLength = 0; if ( m_pszPath != NULL ) { free( m_pszPath ); m_pszPath = NULL; } if (m_pAtqCtxt) { AtqFreeContext(m_pAtqCtxt, FALSE); m_pAtqCtxt = NULL; } if (m_pbBuffer != NULL) { free(m_pbBuffer); m_cBufferSize = 0; } } BOOL CDirMonitorEntry::Init( DWORD cBufferSize = DEFAULT_BUFFER_SIZE ) /*++ Routine Description: Initialize the dir montior entry. Arguments: cBufferSize - Initial size of buffer used to store change notifications Return Value: TRUE if success, otherwise FALSE --*/ { // Don't allow a 0 length buffer if (cBufferSize == 0) { return FALSE; } DBG_ASSERT( m_pbBuffer == NULL ); m_pbBuffer = (BYTE *) malloc(cBufferSize); if (m_pbBuffer != NULL) { m_cBufferSize = cBufferSize; return TRUE; } else { // Unable to allocate buffer return FALSE; } } BOOL CDirMonitorEntry::RequestNotification( VOID ) /*++ Routine Description: Request ATQ to monitor directory changes for the directory handle associated with this entry Arguments: None Return Value: TRUE if success, otherwise FALSE --*/ { IF_DEBUG( NOTIFICATION ) { DBGPRINTF((DBG_CONTEXT, "[CDirMonitorEntry] Request change notification\n")); } BOOL fResult = FALSE; DBG_ASSERT(m_pDirMonitor); // Reset the overlapped io structure memset(&m_ovr, 0, sizeof(m_ovr)); // Increase the ref count in advance IOAddRef(); // Request notification of directory changes fResult = AtqReadDirChanges( m_pAtqCtxt, // Atq context handle m_pbBuffer, // Buffer for change notifications m_cBufferSize, // Size of buffer m_fWatchSubdirectories, // Monitor subdirectories? m_dwNotificationFlags, // Which changes should we be notified of &m_ovr ); // Overlapped IO structure if (!fResult) { // ReadDirChanges failed so // release the ref count we did in advance // Might cause IO ref count to go to 0 IORelease(); } return fResult; } BOOL CDirMonitorEntry::Cleanup( VOID ) /*++ Routine Description: Cleans up resource and determines if the caller need to delete the Directory Monitor Entry instance. Arguments: None Return Value: TRUE if the caller is responsible for deleting the object This will be the case if there are no pending Asynch IO requests --*/ { DBG_ASSERT(m_cDirRefCount == 0); BOOL fDeleteNeeded = FALSE; BOOL fHandleClosed = FALSE; BOOL fInCleanup = (BOOL) InterlockedExchange((long *) &m_fInCleanup, TRUE); if (!fInCleanup) { // Get the IO ref count BEFORE we close the handle DWORD cIORefCount = m_cIORefCount; if (m_hDir != INVALID_HANDLE_VALUE) { // If we have a pending AtqReadDirectoryChanges, // closing the directory handle will cause a call back from ATQ. // The call back should relase the final refcount on the object // which should result in its deletion m_hDir = INVALID_HANDLE_VALUE; fHandleClosed = AtqCloseFileHandle( m_pAtqCtxt ); } // If there were no pending Asynch IO operations or if we failed // to close the handle, then the caller will be responsible for // deleting this object. if (cIORefCount == 0 || fHandleClosed == FALSE) { fDeleteNeeded = TRUE; } } return fDeleteNeeded; } BOOL CDirMonitorEntry::ResetDirectoryHandle( VOID ) /*++ Routine Description: Opens a new directory handle and ATQ context for the path, and closes the old ones. We want to be able to do this so we can change the size of the buffer passed in ReadDirectoryChangesW. If we are unable to get a new handle or a new ATQ context, we leave the existing ones in place. Arguments: None Return Value: TRUE if the handles were succesfully reopened FALSE otherwise --*/ { // We'd better have a directory path available to try this if (m_pszPath == NULL) { return FALSE; } // Get a new handle to the directory HANDLE hDir = CreateFile( m_pszPath, FILE_LIST_DIRECTORY, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS | FILE_FLAG_OVERLAPPED, NULL ); if ( hDir == INVALID_HANDLE_VALUE ) { // We couldn't open another handle on the directory, // leave the current handle and ATQ context alone return FALSE; } // Get a new ATQ context for our new handle PATQ_CONTEXT pAtqCtxt = NULL; if ( !AtqAddAsyncHandle(&pAtqCtxt, NULL, (LPVOID) this, (ATQ_COMPLETION) CDirMonitor::DirMonitorCompletionFunction, INFINITE, hDir ) ) { // We couldn't get a new ATQ context. Close our new handle. // We leave the objects current handle and ATQ context alone CloseHandle(hDir); return FALSE; } // We have the new handle and ATQ context so we close // and replace the old ones. AtqCloseFileHandle(m_pAtqCtxt); AtqFreeContext(m_pAtqCtxt, FALSE); m_pAtqCtxt = pAtqCtxt; m_hDir = hDir; return TRUE; } BOOL CDirMonitorEntry::SetBufferSize( DWORD cBufferSize ) /*++ Routine Description: Sets the size of the buffer used for storing change notification records Arguments: cBufferSize new size for the buffer. Return Value: TRUE if the size of the buffer was succesfully set FALSE otherwise Note When a call to ReadDirectoryChangesW is made, the size of the buffer is set in the data associated with the directory handle and is not changed on subsequent calls to ReadDirectoryChangesW. To make use of the new buffer size the directory handle must be closed and a new handle opened (see ResetDirectoryHandle()) --*/ { // We should never be called if the buffer doesn't already exist ASSERT(m_pbBuffer); // Don't allow the buffer to be set to 0 if (cBufferSize == 0) { return FALSE; } VOID *pbBuffer = realloc(m_pbBuffer, cBufferSize); if (pbBuffer == NULL) { // Re-allocation failed, stuck with the same size buffer return FALSE; } else { // Re-allocation succeded, update the member variables m_pbBuffer = (BYTE *) pbBuffer; m_cBufferSize = cBufferSize; return TRUE; } } // // CDirMonitor // CDirMonitor::CDirMonitor() : CTypedHashTable("DirMon") /*++ Routine Description: CDirMonitor constructor Arguments: None Return Value: Nothing --*/ { INITIALIZE_CRITICAL_SECTION( &m_csLock ); INITIALIZE_CRITICAL_SECTION( &m_csSerialComplLock ); m_cRefs = 1; } CDirMonitor::~CDirMonitor() /*++ Routine Description: CDirMonitor destructor Arguments: None Return Value: Nothing --*/ { DeleteCriticalSection(&m_csLock); DeleteCriticalSection(&m_csSerialComplLock); } BOOL CDirMonitor::Monitor( CDirMonitorEntry *pDME, LPCSTR pszDirectory, BOOL fWatchSubDirectories, DWORD dwNotificationFlags ) /*++ Routine Description: Create a monitor entry for the specified path Arguments: pszDirectory - directory to monitor pCtxt - Context of path is being monitored pszDirectory - name of directory to monitor fWatchSubDirectories - whether to get notifications for subdirectories dwNotificationFlags - which activities to be notified of Return Value: TRUE if success, otherwise FALSE Remarks: Caller should have a lock on the CDirMonitor Not compatible with WIN95 --*/ { LIST_ENTRY *pEntry; HANDLE hDirectoryFile = INVALID_HANDLE_VALUE; BOOL fRet = TRUE; DWORD dwDirLength = 0; IF_DEBUG( NOTIFICATION ) { DBGPRINTF((DBG_CONTEXT, "[CDirMonitor] Monitoring new CDirMonitorEntry\n")); } // Must have a directory monitor entry and a string // containing the directory path if (!pDME || !pszDirectory)\ { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } // Make copy of pszDirectory for the entry to hang on to pDME->m_cPathLength = strlen(pszDirectory); if ( !(pDME->m_pszPath = (LPSTR)malloc( pDME->m_cPathLength + 1 )) ) { pDME->m_cPathLength = 0; return FALSE; } memcpy( pDME->m_pszPath, pszDirectory, pDME->m_cPathLength + 1 ); pDME->Init(); // Open the directory handle hDirectoryFile = CreateFile( pszDirectory, FILE_LIST_DIRECTORY, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS | FILE_FLAG_OVERLAPPED, NULL ); if ( hDirectoryFile == INVALID_HANDLE_VALUE ) { // Cleanup free(pDME->m_pszPath); pDME->m_pszPath = NULL; pDME->m_cPathLength = 0; return FALSE; } else { // Store the handle so we can close it on cleanup pDME->m_hDir = hDirectoryFile; // Set the flags for the type of notifications we want // and if we should watch subdirectories or just the root pDME->m_dwNotificationFlags = dwNotificationFlags; pDME->m_fWatchSubdirectories = fWatchSubDirectories; // Get an ATQ context for this handle // and register our completion call back function if ( AtqAddAsyncHandle( &pDME->m_pAtqCtxt, NULL, (LPVOID) pDME, (ATQ_COMPLETION) DirMonitorCompletionFunction, INFINITE, hDirectoryFile ) ) { // Insert this entry into the list of active entries if (InsertEntry(pDME) == LK_SUCCESS) { // Ask for notification if this directory has changes if (!pDME->RequestNotification()) { // Couldn't register for change notification // Clean up resources RemoveEntry(pDME); pDME->m_hDir = INVALID_HANDLE_VALUE; AtqCloseFileHandle(pDME->m_pAtqCtxt); free(pDME->m_pszPath); pDME->m_pszPath = NULL; pDME->m_cPathLength = 0; return FALSE; } } } else { // Failed to add handle to ATQ, clean up CloseHandle(hDirectoryFile); pDME->m_hDir = INVALID_HANDLE_VALUE; free(pDME->m_pszPath); pDME->m_pszPath = NULL; pDME->m_cPathLength = 0; return FALSE; } } return TRUE; } VOID CDirMonitor::DirMonitorCompletionFunction( PVOID pCtxt, DWORD dwBytesWritten, DWORD dwCompletionStatus, OVERLAPPED *pOvr ) /*++ Routine Description: Static member function called by ATQ to signal directory changes Arguments: pCtxt - CDirMonitorEntry* dwBytesWritten - # bytes returned by ReadDirectoryChanges dwCompletionStatus - status of request to ReadDirectoryChanges pOvr - OVERLAPPED as specified in call to ReadDirectoryChanges Return Value: Nothing --*/ { IF_DEBUG( NOTIFICATION ) { DBGPRINTF((DBG_CONTEXT, "[CDirMonitor] Notification call-back begining. Status %d\n", dwCompletionStatus)); } CDirMonitorEntry* pDirMonitorEntry = reinterpret_cast(pCtxt); DBG_ASSERT(pDirMonitorEntry); // Safety add ref, this should guarentee that the DME is not deleted // while we are still processing the callback pDirMonitorEntry->IOAddRef(); // Release for the current Asynch operation // Should not send IO ref count to 0 DBG_REQUIRE(pDirMonitorEntry->IORelease()); BOOL fRequestNotification = FALSE; // There has been a change in the directory we were monitoring // carry out whatever work we need to do. if (!pDirMonitorEntry->m_fInCleanup) { pDirMonitorEntry->m_pDirMonitor->SerialComplLock(); // BUG Under stress ActOnNotification has been initiating a chain of events // leading to an AV. For Beta 3 we think we can ignore these AV. For the final // product we need to rework the critical sections for the template manager and // the include file table. TRY fRequestNotification = pDirMonitorEntry->ActOnNotification(dwCompletionStatus, dwBytesWritten); CATCH(nExcept) // We should never get here DBG_ASSERT(FALSE); END_TRY pDirMonitorEntry->m_pDirMonitor->SerialComplUnlock(); } // If we aren't cleaning up and ActOnNotification returned TRUE // then make another Asynch notification request. We check m_fInCleanup // again because ActOnNotification may have caused it to change if (!pDirMonitorEntry->m_fInCleanup && fRequestNotification) { fRequestNotification = pDirMonitorEntry->RequestNotification(); } // Remove safety ref count, may cause IO ref count to go to 0 pDirMonitorEntry->IORelease(); IF_DEBUG( NOTIFICATION ) { DBGPRINTF((DBG_CONTEXT, "[CDirMonitor] Notification call-back ending\n")); } } CDirMonitorEntry * CDirMonitor::FindEntry( LPCSTR pszPath ) /*++ Routine Description: Searches the list of entries for the specified path Arguments: pszPath - file path, including file name Return Value: pointer to the entry, allready addref'd --*/ { DBG_ASSERT(pszPath); CDirMonitorEntry *pDME = NULL; FindKey(pszPath, &pDME); if (pDME) { if (pDME->m_fInCleanup) { // Don't hand back a DME that is being shutdown pDME = NULL; } else { // We found a valid DME which we are going to hand to the caller pDME->AddRef(); } } return pDME; } LK_RETCODE CDirMonitor::InsertEntry( CDirMonitorEntry *pDME ) /*++ Routine Description: Insert an entry into the list of entries for the monitor Arguments: pDME - entry to insert Return Value: nothing --*/ { DBG_ASSERT(pDME); LK_RETCODE lkResult; IF_DEBUG( NOTIFICATION ) { DBGPRINTF((DBG_CONTEXT, "[CDirMonitor] Inserting directory (DME %08x) %s\n", pDME, pDME->m_pszPath)); } pDME->m_pDirMonitor = this; // pass a true value for the fOverwrite flag. This allows the new entry // to replace the previous entry. The previous entry should only be there // if the app it is associated with is being shutdown and the cleanup of // the DME records has yet to happen. lkResult = InsertRecord(pDME, true); if (lkResult == LK_SUCCESS) { // AddRef on the DirMonitor object to allow Cleanup to wait for all // DirMonitorEntries to be removed. The problem arises when duplicates // are added to the hash table. In this case, only the last entry is // kept so checking the size of the hash table during shutdown is not // good enough since the DMEs that were bounced may not have been freed // yet. AddRef(); } return lkResult; } LK_RETCODE CDirMonitor::RemoveEntry( CDirMonitorEntry *pDME ) /*++ Routine Description: Deletes an entry from the list of entries for the monitor Arguments: pDME - entry to delete Return Value: None --*/ { DBG_ASSERT(pDME); // Release the DME's reference on the DirMonitor object. Release(); LK_RETCODE lkResult = DeleteKey(pDME->m_pszPath); pDME->m_pDirMonitor = NULL; IF_DEBUG( NOTIFICATION ) { DBGPRINTF((DBG_CONTEXT, "[CDirMonitor] Removed DME(%08x), directory %s\n", pDME, pDME->m_pszPath)); } return lkResult; } BOOL CDirMonitor::Cleanup( VOID ) /*++ Routine Description: Pauses while all entries are cleaned up Arguments: None Return Value: None --*/ { //BOOL fProperShutdown = FALSE; // Check that all DME have been released before shutting down // Sleep a maximum of 30 seconds before shutting down anyway while (Size() > 0 || m_cRefs != 1) { // At least one DME is still active, sleep and try again Sleep(200); } DBGPRINTF((DBG_CONTEXT, "CDirMonitor(%08x): Cleanup, entries remaining %d (Refs = %d)\n", this, Size(),m_cRefs)); #ifdef _DEBUG // TODO: Use LKHASH iterator /*if (CHashTable::m_Count) { Lock(); CLinkElem *pLink = CHashTable::Head(); DBGPRINTF((DBG_CONTEXT, "Remaining CDirMonitorEntry objects:\n")); while (pLink) { CDirMonitorEntry *pDME = reinterpret_cast(pLink); DBGPRINTF((DBG_CONTEXT, "CDirMonitorEntry(%08x), ref count = %d, io refcount = %d", pDME, pDME->m_cDirRefCount, pDME->m_cIORefCount)); pLink = pLink->m_pNext; } Unlock(); } */ #endif //_DEBUG //DBG_ASSERT(fProperShutdown ); return TRUE; } /************************ End of File ***********************/