mirror of
https://github.com/klzgrad/naiveproxy.git
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283 lines
9.5 KiB
C++
283 lines
9.5 KiB
C++
// Copyright 2014 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/files/file_path_watcher_fsevents.h"
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#include <dispatch/dispatch.h>
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#include <list>
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#include "base/bind.h"
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#include "base/files/file_util.h"
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/mac/scoped_cftyperef.h"
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#include "base/strings/stringprintf.h"
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#include "base/threading/sequenced_task_runner_handle.h"
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namespace base {
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namespace {
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// The latency parameter passed to FSEventsStreamCreate().
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const CFAbsoluteTime kEventLatencySeconds = 0.3;
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// Resolve any symlinks in the path.
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FilePath ResolvePath(const FilePath& path) {
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const unsigned kMaxLinksToResolve = 255;
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std::vector<FilePath::StringType> component_vector;
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path.GetComponents(&component_vector);
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std::list<FilePath::StringType>
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components(component_vector.begin(), component_vector.end());
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FilePath result;
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unsigned resolve_count = 0;
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while (resolve_count < kMaxLinksToResolve && !components.empty()) {
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FilePath component(*components.begin());
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components.pop_front();
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FilePath current;
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if (component.IsAbsolute()) {
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current = component;
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} else {
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current = result.Append(component);
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}
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FilePath target;
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if (ReadSymbolicLink(current, &target)) {
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if (target.IsAbsolute())
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result.clear();
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std::vector<FilePath::StringType> target_components;
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target.GetComponents(&target_components);
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components.insert(components.begin(), target_components.begin(),
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target_components.end());
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resolve_count++;
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} else {
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result = current;
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}
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}
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if (resolve_count >= kMaxLinksToResolve)
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result.clear();
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return result;
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}
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} // namespace
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FilePathWatcherFSEvents::FilePathWatcherFSEvents()
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: queue_(dispatch_queue_create(
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base::StringPrintf("org.chromium.base.FilePathWatcher.%p", this)
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.c_str(),
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DISPATCH_QUEUE_SERIAL)),
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fsevent_stream_(nullptr),
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weak_factory_(this) {}
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FilePathWatcherFSEvents::~FilePathWatcherFSEvents() {
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DCHECK(!task_runner() || task_runner()->RunsTasksInCurrentSequence());
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DCHECK(callback_.is_null())
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<< "Cancel() must be called before FilePathWatcher is destroyed.";
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}
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bool FilePathWatcherFSEvents::Watch(const FilePath& path,
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bool recursive,
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const FilePathWatcher::Callback& callback) {
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DCHECK(!callback.is_null());
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DCHECK(callback_.is_null());
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// This class could support non-recursive watches, but that is currently
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// left to FilePathWatcherKQueue.
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if (!recursive)
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return false;
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set_task_runner(SequencedTaskRunnerHandle::Get());
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callback_ = callback;
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FSEventStreamEventId start_event = FSEventsGetCurrentEventId();
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// The block runtime would implicitly capture the reference, not the object
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// it's referencing. Copy the path into a local, so that the value is
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// captured by the block's scope.
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const FilePath path_copy(path);
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dispatch_async(queue_, ^{
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StartEventStream(start_event, path_copy);
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});
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return true;
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}
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void FilePathWatcherFSEvents::Cancel() {
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set_cancelled();
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callback_.Reset();
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// Switch to the dispatch queue to tear down the event stream. As the queue is
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// owned by |this|, and this method is called from the destructor, execute the
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// block synchronously.
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dispatch_sync(queue_, ^{
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if (fsevent_stream_) {
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DestroyEventStream();
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target_.clear();
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resolved_target_.clear();
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}
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});
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}
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// static
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void FilePathWatcherFSEvents::FSEventsCallback(
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ConstFSEventStreamRef stream,
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void* event_watcher,
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size_t num_events,
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void* event_paths,
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const FSEventStreamEventFlags flags[],
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const FSEventStreamEventId event_ids[]) {
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FilePathWatcherFSEvents* watcher =
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reinterpret_cast<FilePathWatcherFSEvents*>(event_watcher);
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bool root_changed = watcher->ResolveTargetPath();
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std::vector<FilePath> paths;
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FSEventStreamEventId root_change_at = FSEventStreamGetLatestEventId(stream);
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for (size_t i = 0; i < num_events; i++) {
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if (flags[i] & kFSEventStreamEventFlagRootChanged)
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root_changed = true;
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if (event_ids[i])
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root_change_at = std::min(root_change_at, event_ids[i]);
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paths.push_back(FilePath(
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reinterpret_cast<char**>(event_paths)[i]).StripTrailingSeparators());
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}
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// Reinitialize the event stream if we find changes to the root. This is
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// necessary since FSEvents doesn't report any events for the subtree after
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// the directory to be watched gets created.
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if (root_changed) {
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// Resetting the event stream from within the callback fails (FSEvents spews
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// bad file descriptor errors), so do the reset asynchronously.
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//
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// We can't dispatch_async a call to UpdateEventStream() directly because
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// there would be no guarantee that |watcher| still exists when it runs.
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//
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// Instead, bounce on task_runner() and use a WeakPtr to verify that
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// |watcher| still exists. If it does, dispatch_async a call to
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// UpdateEventStream(). Because the destructor of |watcher| runs on
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// task_runner() and calls dispatch_sync, it is guaranteed that |watcher|
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// still exists when UpdateEventStream() runs.
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watcher->task_runner()->PostTask(
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FROM_HERE, Bind(
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[](WeakPtr<FilePathWatcherFSEvents> weak_watcher,
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FSEventStreamEventId root_change_at) {
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if (!weak_watcher)
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return;
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FilePathWatcherFSEvents* watcher = weak_watcher.get();
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dispatch_async(watcher->queue_, ^{
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watcher->UpdateEventStream(root_change_at);
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});
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},
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watcher->weak_factory_.GetWeakPtr(), root_change_at));
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}
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watcher->OnFilePathsChanged(paths);
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}
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void FilePathWatcherFSEvents::OnFilePathsChanged(
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const std::vector<FilePath>& paths) {
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DCHECK(!resolved_target_.empty());
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task_runner()->PostTask(
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FROM_HERE,
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Bind(&FilePathWatcherFSEvents::DispatchEvents, weak_factory_.GetWeakPtr(),
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paths, target_, resolved_target_));
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}
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void FilePathWatcherFSEvents::DispatchEvents(const std::vector<FilePath>& paths,
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const FilePath& target,
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const FilePath& resolved_target) {
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DCHECK(task_runner()->RunsTasksInCurrentSequence());
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// Don't issue callbacks after Cancel() has been called.
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if (is_cancelled() || callback_.is_null()) {
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return;
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}
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for (const FilePath& path : paths) {
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if (resolved_target.IsParent(path) || resolved_target == path) {
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callback_.Run(target, false);
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return;
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}
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}
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}
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void FilePathWatcherFSEvents::UpdateEventStream(
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FSEventStreamEventId start_event) {
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// It can happen that the watcher gets canceled while tasks that call this
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// function are still in flight, so abort if this situation is detected.
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if (resolved_target_.empty())
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return;
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if (fsevent_stream_)
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DestroyEventStream();
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ScopedCFTypeRef<CFStringRef> cf_path(CFStringCreateWithCString(
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NULL, resolved_target_.value().c_str(), kCFStringEncodingMacHFS));
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ScopedCFTypeRef<CFStringRef> cf_dir_path(CFStringCreateWithCString(
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NULL, resolved_target_.DirName().value().c_str(),
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kCFStringEncodingMacHFS));
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CFStringRef paths_array[] = { cf_path.get(), cf_dir_path.get() };
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ScopedCFTypeRef<CFArrayRef> watched_paths(CFArrayCreate(
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NULL, reinterpret_cast<const void**>(paths_array), arraysize(paths_array),
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&kCFTypeArrayCallBacks));
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FSEventStreamContext context;
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context.version = 0;
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context.info = this;
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context.retain = NULL;
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context.release = NULL;
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context.copyDescription = NULL;
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fsevent_stream_ = FSEventStreamCreate(NULL, &FSEventsCallback, &context,
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watched_paths,
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start_event,
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kEventLatencySeconds,
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kFSEventStreamCreateFlagWatchRoot);
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FSEventStreamSetDispatchQueue(fsevent_stream_, queue_);
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if (!FSEventStreamStart(fsevent_stream_)) {
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task_runner()->PostTask(FROM_HERE,
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Bind(&FilePathWatcherFSEvents::ReportError,
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weak_factory_.GetWeakPtr(), target_));
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}
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}
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bool FilePathWatcherFSEvents::ResolveTargetPath() {
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FilePath resolved = ResolvePath(target_).StripTrailingSeparators();
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bool changed = resolved != resolved_target_;
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resolved_target_ = resolved;
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if (resolved_target_.empty()) {
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task_runner()->PostTask(FROM_HERE,
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Bind(&FilePathWatcherFSEvents::ReportError,
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weak_factory_.GetWeakPtr(), target_));
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}
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return changed;
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}
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void FilePathWatcherFSEvents::ReportError(const FilePath& target) {
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DCHECK(task_runner()->RunsTasksInCurrentSequence());
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if (!callback_.is_null()) {
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callback_.Run(target, true);
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}
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}
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void FilePathWatcherFSEvents::DestroyEventStream() {
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FSEventStreamStop(fsevent_stream_);
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FSEventStreamInvalidate(fsevent_stream_);
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FSEventStreamRelease(fsevent_stream_);
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fsevent_stream_ = NULL;
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}
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void FilePathWatcherFSEvents::StartEventStream(FSEventStreamEventId start_event,
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const FilePath& path) {
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DCHECK(resolved_target_.empty());
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target_ = path;
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ResolveTargetPath();
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UpdateEventStream(start_event);
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}
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} // namespace base
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