// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/files/file_path_watcher.h" #include #include #include #include #include #include #include #include #include #include #include "base/bind.h" #include "base/containers/hash_tables.h" #include "base/file_util.h" #include "base/files/file_path.h" #include "base/lazy_instance.h" #include "base/location.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/message_loop/message_loop.h" #include "base/message_loop/message_loop_proxy.h" #include "base/posix/eintr_wrapper.h" #include "base/synchronization/lock.h" #include "base/threading/thread.h" namespace base { namespace { class FilePathWatcherImpl; // Singleton to manage all inotify watches. // TODO(tony): It would be nice if this wasn't a singleton. // http://crbug.com/38174 class InotifyReader { public: typedef int Watch; // Watch descriptor used by AddWatch and RemoveWatch. static const Watch kInvalidWatch = -1; // Watch directory |path| for changes. |watcher| will be notified on each // change. Returns kInvalidWatch on failure. Watch AddWatch(const FilePath& path, FilePathWatcherImpl* watcher); // Remove |watch|. Returns true on success. bool RemoveWatch(Watch watch, FilePathWatcherImpl* watcher); // Callback for InotifyReaderTask. void OnInotifyEvent(const inotify_event* event); private: friend struct ::base::DefaultLazyInstanceTraits; typedef std::set WatcherSet; InotifyReader(); ~InotifyReader(); // We keep track of which delegates want to be notified on which watches. base::hash_map watchers_; // Lock to protect watchers_. base::Lock lock_; // Separate thread on which we run blocking read for inotify events. base::Thread thread_; // File descriptor returned by inotify_init. const int inotify_fd_; // Use self-pipe trick to unblock select during shutdown. int shutdown_pipe_[2]; // Flag set to true when startup was successful. bool valid_; DISALLOW_COPY_AND_ASSIGN(InotifyReader); }; class FilePathWatcherImpl : public FilePathWatcher::PlatformDelegate, public MessageLoop::DestructionObserver { public: FilePathWatcherImpl(); // Called for each event coming from the watch. |fired_watch| identifies the // watch that fired, |child| indicates what has changed, and is relative to // the currently watched path for |fired_watch|. The flag |created| is true if // the object appears. void OnFilePathChanged(InotifyReader::Watch fired_watch, const FilePath::StringType& child, bool created); // Start watching |path| for changes and notify |delegate| on each change. // Returns true if watch for |path| has been added successfully. virtual bool Watch(const FilePath& path, bool recursive, const FilePathWatcher::Callback& callback) OVERRIDE; // Cancel the watch. This unregisters the instance with InotifyReader. virtual void Cancel() OVERRIDE; // Deletion of the FilePathWatcher will call Cancel() to dispose of this // object in the right thread. This also observes destruction of the required // cleanup thread, in case it quits before Cancel() is called. virtual void WillDestroyCurrentMessageLoop() OVERRIDE; protected: virtual ~FilePathWatcherImpl() {} private: // Cleans up and stops observing the |message_loop_| thread. virtual void CancelOnMessageLoopThread() OVERRIDE; // Inotify watches are installed for all directory components of |target_|. A // WatchEntry instance holds the watch descriptor for a component and the // subdirectory for that identifies the next component. If a symbolic link // is being watched, the target of the link is also kept. struct WatchEntry { WatchEntry(InotifyReader::Watch watch, const FilePath::StringType& subdir) : watch_(watch), subdir_(subdir) {} InotifyReader::Watch watch_; FilePath::StringType subdir_; FilePath::StringType linkname_; }; typedef std::vector WatchVector; // Reconfigure to watch for the most specific parent directory of |target_| // that exists. Updates |watched_path_|. Returns true on success. bool UpdateWatches() WARN_UNUSED_RESULT; // Callback to notify upon changes. FilePathWatcher::Callback callback_; // The file or directory we're supposed to watch. FilePath target_; // The vector of watches and next component names for all path components, // starting at the root directory. The last entry corresponds to the watch for // |target_| and always stores an empty next component name in |subdir_|. WatchVector watches_; DISALLOW_COPY_AND_ASSIGN(FilePathWatcherImpl); }; void InotifyReaderCallback(InotifyReader* reader, int inotify_fd, int shutdown_fd) { // Make sure the file descriptors are good for use with select(). CHECK_LE(0, inotify_fd); CHECK_GT(FD_SETSIZE, inotify_fd); CHECK_LE(0, shutdown_fd); CHECK_GT(FD_SETSIZE, shutdown_fd); while (true) { fd_set rfds; FD_ZERO(&rfds); FD_SET(inotify_fd, &rfds); FD_SET(shutdown_fd, &rfds); // Wait until some inotify events are available. int select_result = HANDLE_EINTR(select(std::max(inotify_fd, shutdown_fd) + 1, &rfds, NULL, NULL, NULL)); if (select_result < 0) { DPLOG(WARNING) << "select failed"; return; } if (FD_ISSET(shutdown_fd, &rfds)) return; // Adjust buffer size to current event queue size. int buffer_size; int ioctl_result = HANDLE_EINTR(ioctl(inotify_fd, FIONREAD, &buffer_size)); if (ioctl_result != 0) { DPLOG(WARNING) << "ioctl failed"; return; } std::vector buffer(buffer_size); ssize_t bytes_read = HANDLE_EINTR(read(inotify_fd, &buffer[0], buffer_size)); if (bytes_read < 0) { DPLOG(WARNING) << "read from inotify fd failed"; return; } ssize_t i = 0; while (i < bytes_read) { inotify_event* event = reinterpret_cast(&buffer[i]); size_t event_size = sizeof(inotify_event) + event->len; DCHECK(i + event_size <= static_cast(bytes_read)); reader->OnInotifyEvent(event); i += event_size; } } } static base::LazyInstance::Leaky g_inotify_reader = LAZY_INSTANCE_INITIALIZER; InotifyReader::InotifyReader() : thread_("inotify_reader"), inotify_fd_(inotify_init()), valid_(false) { shutdown_pipe_[0] = -1; shutdown_pipe_[1] = -1; if (inotify_fd_ >= 0 && pipe(shutdown_pipe_) == 0 && thread_.Start()) { thread_.message_loop()->PostTask( FROM_HERE, base::Bind(&InotifyReaderCallback, this, inotify_fd_, shutdown_pipe_[0])); valid_ = true; } } InotifyReader::~InotifyReader() { if (valid_) { // Write to the self-pipe so that the select call in InotifyReaderTask // returns. ssize_t ret = HANDLE_EINTR(write(shutdown_pipe_[1], "", 1)); DPCHECK(ret > 0); DCHECK_EQ(ret, 1); thread_.Stop(); } if (inotify_fd_ >= 0) close(inotify_fd_); if (shutdown_pipe_[0] >= 0) close(shutdown_pipe_[0]); if (shutdown_pipe_[1] >= 0) close(shutdown_pipe_[1]); } InotifyReader::Watch InotifyReader::AddWatch( const FilePath& path, FilePathWatcherImpl* watcher) { if (!valid_) return kInvalidWatch; base::AutoLock auto_lock(lock_); Watch watch = inotify_add_watch(inotify_fd_, path.value().c_str(), IN_CREATE | IN_DELETE | IN_CLOSE_WRITE | IN_MOVE | IN_ONLYDIR); if (watch == kInvalidWatch) return kInvalidWatch; watchers_[watch].insert(watcher); return watch; } bool InotifyReader::RemoveWatch(Watch watch, FilePathWatcherImpl* watcher) { if (!valid_) return false; base::AutoLock auto_lock(lock_); watchers_[watch].erase(watcher); if (watchers_[watch].empty()) { watchers_.erase(watch); return (inotify_rm_watch(inotify_fd_, watch) == 0); } return true; } void InotifyReader::OnInotifyEvent(const inotify_event* event) { if (event->mask & IN_IGNORED) return; FilePath::StringType child(event->len ? event->name : FILE_PATH_LITERAL("")); base::AutoLock auto_lock(lock_); for (WatcherSet::iterator watcher = watchers_[event->wd].begin(); watcher != watchers_[event->wd].end(); ++watcher) { (*watcher)->OnFilePathChanged(event->wd, child, event->mask & (IN_CREATE | IN_MOVED_TO)); } } FilePathWatcherImpl::FilePathWatcherImpl() { } void FilePathWatcherImpl::OnFilePathChanged(InotifyReader::Watch fired_watch, const FilePath::StringType& child, bool created) { if (!message_loop()->BelongsToCurrentThread()) { // Switch to message_loop_ to access watches_ safely. message_loop()->PostTask(FROM_HERE, base::Bind(&FilePathWatcherImpl::OnFilePathChanged, this, fired_watch, child, created)); return; } DCHECK(MessageLoopForIO::current()); // Find the entry in |watches_| that corresponds to |fired_watch|. WatchVector::const_iterator watch_entry(watches_.begin()); for ( ; watch_entry != watches_.end(); ++watch_entry) { if (fired_watch == watch_entry->watch_) { // Check whether a path component of |target_| changed. bool change_on_target_path = child.empty() || ((child == watch_entry->subdir_) && watch_entry->linkname_.empty()) || (child == watch_entry->linkname_); // Check whether the change references |target_| or a direct child. DCHECK(watch_entry->subdir_.empty() || (watch_entry + 1) != watches_.end()); bool target_changed = (watch_entry->subdir_.empty() && (child == watch_entry->linkname_)) || (watch_entry->subdir_.empty() && watch_entry->linkname_.empty()) || (watch_entry->subdir_ == child && (watch_entry + 1)->subdir_.empty()); // Update watches if a directory component of the |target_| path // (dis)appears. Note that we don't add the additional restriction // of checking the event mask to see if it is for a directory here // as changes to symlinks on the target path will not have // IN_ISDIR set in the event masks. As a result we may sometimes // call UpdateWatches() unnecessarily. if (change_on_target_path && !UpdateWatches()) { callback_.Run(target_, true /* error */); return; } // Report the following events: // - The target or a direct child of the target got changed (in case the // watched path refers to a directory). // - One of the parent directories got moved or deleted, since the target // disappears in this case. // - One of the parent directories appears. The event corresponding to // the target appearing might have been missed in this case, so // recheck. if (target_changed || (change_on_target_path && !created) || (change_on_target_path && PathExists(target_))) { callback_.Run(target_, false); return; } } } } bool FilePathWatcherImpl::Watch(const FilePath& path, bool recursive, const FilePathWatcher::Callback& callback) { DCHECK(target_.empty()); DCHECK(MessageLoopForIO::current()); if (recursive) { // Recursive watch is not supported on this platform. NOTIMPLEMENTED(); return false; } set_message_loop(base::MessageLoopProxy::current().get()); callback_ = callback; target_ = path; MessageLoop::current()->AddDestructionObserver(this); std::vector comps; target_.GetComponents(&comps); DCHECK(!comps.empty()); std::vector::const_iterator comp = comps.begin(); for (++comp; comp != comps.end(); ++comp) watches_.push_back(WatchEntry(InotifyReader::kInvalidWatch, *comp)); watches_.push_back(WatchEntry(InotifyReader::kInvalidWatch, FilePath::StringType())); return UpdateWatches(); } void FilePathWatcherImpl::Cancel() { if (callback_.is_null()) { // Watch was never called, or the |message_loop_| thread is already gone. set_cancelled(); return; } // Switch to the message_loop_ if necessary so we can access |watches_|. if (!message_loop()->BelongsToCurrentThread()) { message_loop()->PostTask(FROM_HERE, base::Bind(&FilePathWatcher::CancelWatch, make_scoped_refptr(this))); } else { CancelOnMessageLoopThread(); } } void FilePathWatcherImpl::CancelOnMessageLoopThread() { if (!is_cancelled()) set_cancelled(); if (!callback_.is_null()) { MessageLoop::current()->RemoveDestructionObserver(this); callback_.Reset(); } for (WatchVector::iterator watch_entry(watches_.begin()); watch_entry != watches_.end(); ++watch_entry) { if (watch_entry->watch_ != InotifyReader::kInvalidWatch) g_inotify_reader.Get().RemoveWatch(watch_entry->watch_, this); } watches_.clear(); target_.clear(); } void FilePathWatcherImpl::WillDestroyCurrentMessageLoop() { CancelOnMessageLoopThread(); } bool FilePathWatcherImpl::UpdateWatches() { // Ensure this runs on the |message_loop_| exclusively in order to avoid // concurrency issues. DCHECK(message_loop()->BelongsToCurrentThread()); // Walk the list of watches and update them as we go. FilePath path(FILE_PATH_LITERAL("/")); bool path_valid = true; for (WatchVector::iterator watch_entry(watches_.begin()); watch_entry != watches_.end(); ++watch_entry) { InotifyReader::Watch old_watch = watch_entry->watch_; if (path_valid) { watch_entry->watch_ = g_inotify_reader.Get().AddWatch(path, this); if ((watch_entry->watch_ == InotifyReader::kInvalidWatch) && file_util::IsLink(path)) { FilePath link; if (file_util::ReadSymbolicLink(path, &link)) { if (!link.IsAbsolute()) link = path.DirName().Append(link); // Try watching symlink target directory. If the link target is "/", // then we shouldn't get here in normal situations and if we do, we'd // watch "/" for changes to a component "/" which is harmless so no // special treatment of this case is required. watch_entry->watch_ = g_inotify_reader.Get().AddWatch(link.DirName(), this); if (watch_entry->watch_ != InotifyReader::kInvalidWatch) { watch_entry->linkname_ = link.BaseName().value(); } else { DPLOG(WARNING) << "Watch failed for " << link.DirName().value(); // TODO(craig) Symlinks only work if the parent directory // for the target exist. Ideally we should make sure we've // watched all the components of the symlink path for // changes. See crbug.com/91561 for details. } } } if (watch_entry->watch_ == InotifyReader::kInvalidWatch) { path_valid = false; } } else { watch_entry->watch_ = InotifyReader::kInvalidWatch; } if (old_watch != InotifyReader::kInvalidWatch && old_watch != watch_entry->watch_) { g_inotify_reader.Get().RemoveWatch(old_watch, this); } path = path.Append(watch_entry->subdir_); } return true; } } // namespace FilePathWatcher::FilePathWatcher() { impl_ = new FilePathWatcherImpl(); } } // namespace base