// ************************************************************************** // * This file is part of the FreeFileSync project. It is distributed under * // * GNU General Public License: http://www.gnu.org/licenses/gpl.html * // * Copyright (C) ZenJu (zhnmju123 AT gmx DOT de) - All Rights Reserved * // ************************************************************************** #include "dir_watcher.h" #include #include #include "thread.h" //includes #include "scope_guard.h" #ifdef FFS_WIN #include "notify_removal.h" #include "win.h" //includes "windows.h" #include "long_path_prefix.h" #include "privilege.h" #elif defined FFS_LINUX #include #include #include "file_traverser.h" #endif using namespace zen; #ifdef FFS_WIN namespace { class SharedData { public: //context of worker thread void addChanges(const char* buffer, DWORD bytesWritten, const Zstring& dirname) //throw () { boost::lock_guard dummy(lockAccess); std::set& output = changedFiles; if (bytesWritten == 0) //according to docu this may happen in case of internal buffer overflow: report some "dummy" change output.insert(L"Overflow!"); else { const char* bufPos = &buffer[0]; for (;;) { const FILE_NOTIFY_INFORMATION& notifyInfo = reinterpret_cast(*bufPos); const Zstring fullname = dirname + Zstring(notifyInfo.FileName, notifyInfo.FileNameLength / sizeof(WCHAR)); //skip modifications sent by changed directories: reason for change, child element creation/deletion, will notify separately! [&] { if (notifyInfo.Action == FILE_ACTION_RENAMED_OLD_NAME) //reporting FILE_ACTION_RENAMED_NEW_NAME should suffice return; if (notifyInfo.Action == FILE_ACTION_MODIFIED) { //note: this check will not work if top watched directory has been renamed const DWORD ret = ::GetFileAttributes(applyLongPathPrefix(fullname).c_str()); if (ret != INVALID_FILE_ATTRIBUTES && (ret & FILE_ATTRIBUTE_DIRECTORY)) //returns true for (dir-)symlinks also return; } output.insert(fullname); }(); if (notifyInfo.NextEntryOffset == 0) break; bufPos += notifyInfo.NextEntryOffset; } } } //context of main thread void addChange(const Zstring& dirname) //throw () { boost::lock_guard dummy(lockAccess); changedFiles.insert(dirname); } //context of main thread void getChanges(std::vector& output) //throw FileError, ErrorNotExisting { boost::lock_guard dummy(lockAccess); //first check whether errors occured in thread if (!errorMsg.first.empty()) { const std::wstring msg = errorMsg.first.c_str(); const DWORD lastError = errorMsg.second; if (errorCodeForNotExisting(lastError)) throw ErrorNotExisting(msg); throw FileError(msg); } output.assign(changedFiles.begin(), changedFiles.end()); changedFiles.clear(); } //context of worker thread void reportError(const std::wstring& msg, DWORD errorCode) //throw() { boost::lock_guard dummy(lockAccess); errorMsg = std::make_pair(copyStringTo(msg), errorCode); } private: typedef Zbase BasicWString; //thread safe string class for UI texts boost::mutex lockAccess; std::set changedFiles; //get rid of duplicate entries (actually occur!) std::pair errorMsg; //non-empty if errors occured in thread }; class ReadChangesAsync { public: //constructed in main thread! ReadChangesAsync(const Zstring& directory, //make sure to not leak in thread-unsafe types! const std::shared_ptr& shared) : shared_(shared), dirnamePf(appendSeparator(directory)), hDir(INVALID_HANDLE_VALUE) { hDir = ::CreateFile(applyLongPathPrefix(dirnamePf).c_str(), FILE_LIST_DIRECTORY, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, nullptr, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS | FILE_FLAG_OVERLAPPED, nullptr); if (hDir == INVALID_HANDLE_VALUE) { const DWORD lastError = ::GetLastError(); const std::wstring errorMsg = replaceCpy(_("Cannot monitor directory %x."), L"%x", fmtFileName(directory)) + L"\n\n" + getLastErrorFormatted(lastError); if (errorCodeForNotExisting(lastError)) throw ErrorNotExisting(errorMsg); throw FileError(errorMsg); } //end of constructor, no need to start managing "hDir" } ~ReadChangesAsync() { if (hDir != INVALID_HANDLE_VALUE) //valid hDir is NOT an invariant, see move constructor! ::CloseHandle(hDir); } void operator()() //thread entry { try { std::vector buffer(64 * 1024); //needs to be aligned on a DWORD boundary; maximum buffer size restricted by some networks protocols (according to docu) for (;;) { boost::this_thread::interruption_point(); //actual work OVERLAPPED overlapped = {}; overlapped.hEvent = ::CreateEvent(nullptr, //__in_opt LPSECURITY_ATTRIBUTES lpEventAttributes, true, //__in BOOL bManualReset, false, //__in BOOL bInitialState, nullptr); //__in_opt LPCTSTR lpName if (overlapped.hEvent == nullptr) return shared_->reportError(replaceCpy(_("Cannot monitor directory %x."), L"%x", fmtFileName(dirnamePf)) + L" (CreateEvent)" L"\n\n" + getLastErrorFormatted(), ::GetLastError()); ZEN_ON_SCOPE_EXIT(::CloseHandle(overlapped.hEvent)); //asynchronous variant: runs on this thread's APC queue! if (!::ReadDirectoryChangesW(hDir, // __in HANDLE hDirectory, &buffer[0], // __out LPVOID lpBuffer, static_cast(buffer.size()), // __in DWORD nBufferLength, true, // __in BOOL bWatchSubtree, FILE_NOTIFY_CHANGE_FILE_NAME | FILE_NOTIFY_CHANGE_DIR_NAME | FILE_NOTIFY_CHANGE_SIZE | FILE_NOTIFY_CHANGE_LAST_WRITE, // __in DWORD dwNotifyFilter, nullptr, // __out_opt LPDWORD lpBytesReturned, &overlapped, // __inout_opt LPOVERLAPPED lpOverlapped, nullptr)) // __in_opt LPOVERLAPPED_COMPLETION_ROUTINE lpCompletionRoutine return shared_->reportError(replaceCpy(_("Cannot monitor directory %x."), L"%x", fmtFileName(dirnamePf)) + L" (ReadDirectoryChangesW)" L"\n\n" + getLastErrorFormatted(), ::GetLastError()); //async I/O is a resource that needs to be guarded since it will write to local variable "buffer"! zen::ScopeGuard guardAio = zen::makeGuard([&] { //http://msdn.microsoft.com/en-us/library/aa363789(v=vs.85).aspx if (::CancelIo(hDir) != FALSE) //cancel all async I/O related to this handle and thread { DWORD bytesWritten = 0; ::GetOverlappedResult(hDir, &overlapped, &bytesWritten, true); //wait until cancellation is complete } }); //wait for results DWORD bytesWritten = 0; while (!::GetOverlappedResult(hDir, //__in HANDLE hFile, &overlapped, //__in LPOVERLAPPED lpOverlapped, &bytesWritten, //__out LPDWORD lpNumberOfBytesTransferred, false)) //__in BOOL bWait { if (::GetLastError() != ERROR_IO_INCOMPLETE) return shared_->reportError(replaceCpy(_("Cannot monitor directory %x."), L"%x", fmtFileName(dirnamePf)) + L" (GetOverlappedResult)" L"\n\n" + getLastErrorFormatted(), ::GetLastError()); //execute asynchronous procedure calls (APC) queued on this thread ::SleepEx(50, // __in DWORD dwMilliseconds, true); // __in BOOL bAlertable boost::this_thread::interruption_point(); } guardAio.dismiss(); shared_->addChanges(&buffer[0], bytesWritten, dirnamePf); //throw () } } catch (boost::thread_interrupted&) { throw; //this is the only exception expected! } } ReadChangesAsync(ReadChangesAsync&& other) : hDir(INVALID_HANDLE_VALUE) { shared_ = std::move(other.shared_); dirnamePf = std::move(other.dirnamePf); std::swap(hDir, other.hDir); } HANDLE getDirHandle() const { return hDir; } //for reading/monitoring purposes only, don't abuse (e.g. close handle)! private: ReadChangesAsync(const ReadChangesAsync&); ReadChangesAsync& operator=(const ReadChangesAsync&); //shared between main and worker: std::shared_ptr shared_; //worker thread only: Zstring dirnamePf; //thread safe! HANDLE hDir; }; class HandleVolumeRemoval : public NotifyRequestDeviceRemoval { public: HandleVolumeRemoval(HANDLE hDir, boost::thread& worker) : NotifyRequestDeviceRemoval(hDir), //throw FileError worker_(worker), removalRequested(false), operationComplete(false) {} //all functions are called by main thread! bool requestReceived() const { return removalRequested; } bool finished() const { return operationComplete; } private: virtual void onRequestRemoval(HANDLE hnd) { //must release hDir immediately => stop monitoring! worker_.interrupt(); worker_.join(); //now hDir should have been released removalRequested = true; } //don't throw! virtual void onRemovalFinished(HANDLE hnd, bool successful) { operationComplete = true; } //throw()! boost::thread& worker_; bool removalRequested; bool operationComplete; }; } struct DirWatcher::Pimpl { boost::thread worker; std::shared_ptr shared; Zstring dirname; std::unique_ptr volRemoval; }; DirWatcher::DirWatcher(const Zstring& directory) : //throw FileError pimpl_(new Pimpl) { pimpl_->shared = std::make_shared(); pimpl_->dirname = directory; ReadChangesAsync reader(directory, pimpl_->shared); //throw FileError pimpl_->volRemoval.reset(new HandleVolumeRemoval(reader.getDirHandle(), pimpl_->worker)); //throw FileError pimpl_->worker = boost::thread(std::move(reader)); } DirWatcher::~DirWatcher() { pimpl_->worker.interrupt(); //pimpl_->worker.join(); -> we don't have time to wait... will take ~50ms anyway //caveat: exitting the app may simply kill this thread! } std::vector DirWatcher::getChanges(const std::function& processGuiMessages) //throw FileError { std::vector output; //wait until device removal is confirmed, to prevent locking hDir again by some new watch! if (pimpl_->volRemoval->requestReceived()) { const boost::system_time maxwait = boost::get_system_time() + boost::posix_time::seconds(15); //HandleVolumeRemoval::finished() not guaranteed! note: Windows gives unresponsive applications ca. 10 seconds until unmounting the usb stick in worst case while (!pimpl_->volRemoval->finished() && boost::get_system_time() < maxwait) { processGuiMessages(); //DBT_DEVICEREMOVECOMPLETE message is sent here! boost::thread::sleep(boost::get_system_time() + boost::posix_time::milliseconds(50)); } output.push_back(pimpl_->dirname); //report removal as change to main directory } else //the normal case... pimpl_->shared->getChanges(output); //throw FileError return output; } #elif defined FFS_LINUX struct DirWatcher::Pimpl { Zstring dirname; int notifDescr; std::map watchDescrs; //watch descriptor and corresponding (sub-)directory name (postfixed with separator!) }; namespace { class DirsOnlyTraverser : public zen::TraverseCallback { public: DirsOnlyTraverser(std::vector& dirs, const std::shared_ptr& otherMe) : otherMe_(otherMe), dirs_(dirs) {} virtual void onFile (const Zchar* shortName, const Zstring& fullName, const FileInfo& details) {} virtual HandleLink onSymlink(const Zchar* shortName, const Zstring& fullName, const SymlinkInfo& details) { return LINK_SKIP; } virtual std::shared_ptr onDir(const Zchar* shortName, const Zstring& fullName) { dirs_.push_back(fullName); return otherMe_; } virtual HandleError onError(const std::wstring& errorText) { throw FileError(errorText); } private: const std::shared_ptr& otherMe_; //lifetime management, two options: 1. use std::weak_ptr 2. ref to shared_ptr std::vector& dirs_; }; } DirWatcher::DirWatcher(const Zstring& directory) : //throw FileError pimpl_(new Pimpl) { //still in main thread Zstring dirname = directory; if (endsWith(dirname, FILE_NAME_SEPARATOR)) dirname.resize(dirname.size() - 1); //get all subdirectories std::vector fullDirList; fullDirList.push_back(dirname); std::shared_ptr traverser; traverser = std::make_shared(fullDirList, traverser); //throw FileError zen::traverseFolder(dirname, *traverser); //don't traverse into symlinks (analog to windows build) //init pimpl_->dirname = directory; pimpl_->notifDescr = ::inotify_init(); if (pimpl_->notifDescr == -1) throw FileError(replaceCpy(_("Cannot monitor directory %x."), L"%x", fmtFileName(dirname)) + L"\n\n" + getLastErrorFormatted()); zen::ScopeGuard guardDescr = zen::makeGuard([&] { ::close(pimpl_->notifDescr); }); //set non-blocking mode bool initSuccess = false; int flags = ::fcntl(pimpl_->notifDescr, F_GETFL); if (flags != -1) initSuccess = ::fcntl(pimpl_->notifDescr, F_SETFL, flags | O_NONBLOCK) != -1; if (!initSuccess) throw FileError(replaceCpy(_("Cannot monitor directory %x."), L"%x", fmtFileName(dirname)) + L"\n\n" + getLastErrorFormatted()); //add watches std::for_each(fullDirList.begin(), fullDirList.end(), [&](Zstring subdir) { int wd = ::inotify_add_watch(pimpl_->notifDescr, subdir.c_str(), IN_ONLYDIR | //watch directories only IN_DONT_FOLLOW | //don't follow symbolic links IN_MODIFY | IN_CLOSE_WRITE | IN_MOVE | IN_CREATE | IN_DELETE | IN_DELETE_SELF | IN_MOVE_SELF); if (wd == -1) { const std::wstring errorMsg = replaceCpy(_("Cannot monitor directory %x."), L"%x", fmtFileName(subdir)) + L"\n\n" + getLastErrorFormatted(); if (errorCodeForNotExisting(errno)) throw ErrorNotExisting(errorMsg); throw FileError(errorMsg); } pimpl_->watchDescrs.insert(std::make_pair(wd, appendSeparator(subdir))); }); guardDescr.dismiss(); } DirWatcher::~DirWatcher() { ::close(pimpl_->notifDescr); //associated watches are removed automatically! } std::vector DirWatcher::getChanges(const std::function&) //throw FileError { //non-blocking call, see O_NONBLOCK std::vector buffer(1024 * (sizeof(struct inotify_event) + 16)); ssize_t bytesRead = ::read(pimpl_->notifDescr, &buffer[0], buffer.size()); if (bytesRead == -1) { if (errno == EINTR || //Interrupted function call; When this happens, you should try the call again. errno == EAGAIN) //Non-blocking I/O has been selected using O_NONBLOCK and no data was immediately available for reading return std::vector(); throw FileError(replaceCpy(_("Cannot monitor directory %x."), L"%x", fmtFileName(pimpl_->dirname)) + L"\n\n" + getLastErrorFormatted()); } std::set tmp; //get rid of duplicate entries (actually occur!) ssize_t bytePos = 0; while (bytePos < bytesRead) { struct inotify_event& evt = reinterpret_cast(buffer[bytePos]); if (evt.len != 0) //exclude case: deletion of "self", already reported by parent directory watch { auto iter = pimpl_->watchDescrs.find(evt.wd); if (iter != pimpl_->watchDescrs.end()) { //Note: evt.len is NOT the size of the evt.name c-string, but the array size including all padding 0 characters! //It may be even 0 in which case evt.name must not be used! tmp.insert(iter->second + evt.name); } } bytePos += sizeof(struct inotify_event) + evt.len; } return std::vector(tmp.begin(), tmp.end()); } #endif