///////////////////////////////////////////////////////////////////////////// // Name: wx/msw/private/fswatcher.h // Purpose: File system watcher impl classes // Author: Bartosz Bekier // Created: 2009-05-26 // Copyright: (c) 2009 Bartosz Bekier <bartosz.bekier@gmail.com> // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #ifndef WX_MSW_PRIVATE_FSWATCHER_H_ #define WX_MSW_PRIVATE_FSWATCHER_H_ #include "wx/filename.h" #include "wx/vector.h" #include "wx/msw/private.h" // ============================================================================ // wxFSWatcherEntry implementation & helper declarations // ============================================================================ class wxFSWatcherImplMSW; class wxFSWatchEntryMSW : public wxFSWatchInfo { public: enum { BUFFER_SIZE = 4096 // TODO parametrize }; wxFSWatchEntryMSW(const wxFSWatchInfo& winfo) : wxFSWatchInfo(winfo) { // get handle for this path m_handle = OpenDir(m_path); m_overlapped = (OVERLAPPED*)calloc(1, sizeof(OVERLAPPED)); wxZeroMemory(m_buffer); } virtual ~wxFSWatchEntryMSW() { wxLogTrace(wxTRACE_FSWATCHER, "Deleting entry '%s'", m_path); if (m_handle != INVALID_HANDLE_VALUE) { if (!CloseHandle(m_handle)) { wxLogSysError(_("Unable to close the handle for '%s'"), m_path); } } free(m_overlapped); } bool IsOk() const { return m_handle != INVALID_HANDLE_VALUE; } HANDLE GetHandle() const { return m_handle; } void* GetBuffer() { return m_buffer; } OVERLAPPED* GetOverlapped() const { return m_overlapped; } private: // opens dir with all flags, attributes etc. necessary to be later // asynchronous watched with ReadDirectoryChangesW static HANDLE OpenDir(const wxString& path) { HANDLE handle = CreateFile(path.t_str(), FILE_LIST_DIRECTORY, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS | FILE_FLAG_OVERLAPPED, NULL); if (handle == INVALID_HANDLE_VALUE) { wxLogSysError(_("Failed to open directory \"%s\" for monitoring."), path); } return handle; } HANDLE m_handle; // handle to opened directory char m_buffer[BUFFER_SIZE]; // buffer for fs events OVERLAPPED* m_overlapped; wxDECLARE_NO_COPY_CLASS(wxFSWatchEntryMSW); }; // ============================================================================ // wxFSWatcherImplMSW helper classes implementations // ============================================================================ class wxIOCPService { public: wxIOCPService() : m_iocp(INVALID_HANDLE_VALUE) { Init(); } ~wxIOCPService() { if (m_iocp != INVALID_HANDLE_VALUE) { if (!CloseHandle(m_iocp)) { wxLogSysError(_("Unable to close I/O completion port handle")); } } m_watches.clear(); } // associates a wxFSWatchEntryMSW with completion port bool Add(wxSharedPtr<wxFSWatchEntryMSW> watch) { wxCHECK_MSG( m_iocp != INVALID_HANDLE_VALUE, false, "IOCP not init" ); wxCHECK_MSG( watch->IsOk(), false, "Invalid watch" ); // associate with IOCP HANDLE ret = CreateIoCompletionPort(watch->GetHandle(), m_iocp, (ULONG_PTR)watch.get(), 0); if (ret == NULL) { wxLogSysError(_("Unable to associate handle with " "I/O completion port")); return false; } else if (ret != m_iocp) { wxFAIL_MSG(_("Unexpectedly new I/O completion port was created")); return false; } // add to watch map wxFSWatchEntries::value_type val(watch->GetPath(), watch); return m_watches.insert(val).second; } // Removes a watch we're currently using. Notice that this doesn't happen // immediately, CompleteRemoval() must be called later when it's really // safe to delete the watch, i.e. after completion of the IO operation // using it. bool ScheduleForRemoval(const wxSharedPtr<wxFSWatchEntryMSW>& watch) { wxCHECK_MSG( m_iocp != INVALID_HANDLE_VALUE, false, "IOCP not init" ); wxCHECK_MSG( watch->IsOk(), false, "Invalid watch" ); const wxString path = watch->GetPath(); wxFSWatchEntries::iterator it = m_watches.find(path); wxCHECK_MSG( it != m_watches.end(), false, "Can't remove a watch we don't use" ); // We can't just delete the watch here as we can have pending events // for it and if we destroyed it now, we could get a dangling (or, // worse, reused to point to another object) pointer in ReadEvents() so // just remember that this one should be removed when CompleteRemoval() // is called later. m_removedWatches.push_back(watch); m_watches.erase(it); return true; } // Really remove the watch previously passed to ScheduleForRemoval(). // // It's ok to call this for a watch that hadn't been removed before, in // this case we'll just return false and do nothing. bool CompleteRemoval(wxFSWatchEntryMSW* watch) { for ( Watches::iterator it = m_removedWatches.begin(); it != m_removedWatches.end(); ++it ) { if ( (*it).get() == watch ) { // Removing the object from here will result in deleting the // watch itself as it's not referenced from anywhere else now. m_removedWatches.erase(it); return true; } } return false; } // post completion packet bool PostEmptyStatus() { wxCHECK_MSG( m_iocp != INVALID_HANDLE_VALUE, false, "IOCP not init" ); // The special values of 0 will make GetStatus() return Status_Exit. const int ret = PostQueuedCompletionStatus(m_iocp, 0, 0, NULL); if (!ret) { wxLogSysError(_("Unable to post completion status")); } return ret != 0; } // Possible return values of GetStatus() enum Status { // Status successfully retrieved into the provided arguments. Status_OK, // Special status indicating that we should exit retrieved. Status_Exit, // An error occurred because the watched directory was deleted. Status_Deleted, // Some other error occurred. Status_Error }; // Wait for completion status to arrive. // This function can block forever in it's wait for completion status. // Use PostEmptyStatus() to wake it up (and end the worker thread) Status GetStatus(DWORD* count, wxFSWatchEntryMSW** watch, OVERLAPPED** overlapped) { wxCHECK_MSG( m_iocp != INVALID_HANDLE_VALUE, Status_Error, "Invalid IOCP object" ); wxCHECK_MSG( count && watch && overlapped, Status_Error, "Output parameters can't be NULL" ); const int ret = GetQueuedCompletionStatus(m_iocp, count, (ULONG_PTR *)watch, overlapped, INFINITE); if ( ret != 0 ) { return *count || *watch || *overlapped ? Status_OK : Status_Exit; } // An error is returned if the underlying directory has been deleted, // but this is not really an unexpected failure, so handle it // specially. if ( wxSysErrorCode() == ERROR_ACCESS_DENIED && *watch && !wxFileName::DirExists((*watch)->GetPath()) ) return Status_Deleted; // Some other error, at least log it. wxLogSysError(_("Unable to dequeue completion packet")); return Status_Error; } protected: bool Init() { m_iocp = CreateIoCompletionPort(INVALID_HANDLE_VALUE, NULL, 0, 0); if (m_iocp == NULL) { wxLogSysError(_("Unable to create I/O completion port")); } return m_iocp != NULL; } HANDLE m_iocp; // The hash containing all the wxFSWatchEntryMSW objects currently being // watched keyed by their paths. wxFSWatchEntries m_watches; // Contains the watches which had been removed but are still pending. typedef wxVector< wxSharedPtr<wxFSWatchEntryMSW> > Watches; Watches m_removedWatches; }; class wxIOCPThread : public wxThread { public: wxIOCPThread(wxFSWatcherImplMSW* service, wxIOCPService* iocp); // finishes this thread bool Finish(); protected: // structure to hold information needed to process one native event // this is just a dummy holder, so it doesn't take ownership of its data struct wxEventProcessingData { wxEventProcessingData(const FILE_NOTIFY_INFORMATION* ne, const wxFSWatchEntryMSW* watch_) : nativeEvent(ne), watch(watch_) {} const FILE_NOTIFY_INFORMATION* nativeEvent; const wxFSWatchEntryMSW* watch; }; virtual ExitCode Entry() wxOVERRIDE; // wait for events to occur, read them and send to interested parties // returns false it empty status was read, which means we would exit // true otherwise bool ReadEvents(); void ProcessNativeEvents(wxVector<wxEventProcessingData>& events); void SendEvent(wxFileSystemWatcherEvent& evt); static int Native2WatcherFlags(int flags); static wxString FileNotifyInformationToString( const FILE_NOTIFY_INFORMATION& e); static wxFileName GetEventPath(const wxFSWatchEntryMSW& watch, const FILE_NOTIFY_INFORMATION& e); wxFSWatcherImplMSW* m_service; wxIOCPService* m_iocp; }; #endif /* WX_MSW_PRIVATE_FSWATCHER_H_ */