// 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" #if defined(OS_WIN) #include <windows.h> #include <aclapi.h> #elif defined(OS_POSIX) #include <sys/stat.h> #endif #include <set> #include "base/basictypes.h" #include "base/bind.h" #include "base/bind_helpers.h" #include "base/compiler_specific.h" #include "base/file_util.h" #include "base/files/file_path.h" #include "base/files/scoped_temp_dir.h" #include "base/message_loop/message_loop.h" #include "base/message_loop/message_loop_proxy.h" #include "base/run_loop.h" #include "base/stl_util.h" #include "base/strings/stringprintf.h" #include "base/synchronization/waitable_event.h" #include "base/test/test_file_util.h" #include "base/test/test_timeouts.h" #include "base/threading/thread.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { class TestDelegate; // Aggregates notifications from the test delegates and breaks the message loop // the test thread is waiting on once they all came in. class NotificationCollector : public base::RefCountedThreadSafe<NotificationCollector> { public: NotificationCollector() : loop_(base::MessageLoopProxy::current()) {} // Called from the file thread by the delegates. void OnChange(TestDelegate* delegate) { loop_->PostTask(FROM_HERE, base::Bind(&NotificationCollector::RecordChange, this, base::Unretained(delegate))); } void Register(TestDelegate* delegate) { delegates_.insert(delegate); } void Reset() { signaled_.clear(); } bool Success() { return signaled_ == delegates_; } private: friend class base::RefCountedThreadSafe<NotificationCollector>; ~NotificationCollector() {} void RecordChange(TestDelegate* delegate) { // Warning: |delegate| is Unretained. Do not dereference. ASSERT_TRUE(loop_->BelongsToCurrentThread()); ASSERT_TRUE(delegates_.count(delegate)); signaled_.insert(delegate); // Check whether all delegates have been signaled. if (signaled_ == delegates_) loop_->PostTask(FROM_HERE, MessageLoop::QuitWhenIdleClosure()); } // Set of registered delegates. std::set<TestDelegate*> delegates_; // Set of signaled delegates. std::set<TestDelegate*> signaled_; // The loop we should break after all delegates signaled. scoped_refptr<base::MessageLoopProxy> loop_; }; class TestDelegateBase : public SupportsWeakPtr<TestDelegateBase> { public: TestDelegateBase() {} virtual ~TestDelegateBase() {} virtual void OnFileChanged(const FilePath& path, bool error) = 0; private: DISALLOW_COPY_AND_ASSIGN(TestDelegateBase); }; // A mock class for testing. Gmock is not appropriate because it is not // thread-safe for setting expectations. Thus the test code cannot safely // reset expectations while the file watcher is running. // Instead, TestDelegate gets the notifications from FilePathWatcher and uses // NotificationCollector to aggregate the results. class TestDelegate : public TestDelegateBase { public: explicit TestDelegate(NotificationCollector* collector) : collector_(collector) { collector_->Register(this); } virtual ~TestDelegate() {} virtual void OnFileChanged(const FilePath& path, bool error) OVERRIDE { if (error) ADD_FAILURE() << "Error " << path.value(); else collector_->OnChange(this); } private: scoped_refptr<NotificationCollector> collector_; DISALLOW_COPY_AND_ASSIGN(TestDelegate); }; void SetupWatchCallback(const FilePath& target, FilePathWatcher* watcher, TestDelegateBase* delegate, bool recursive_watch, bool* result, base::WaitableEvent* completion) { *result = watcher->Watch(target, recursive_watch, base::Bind(&TestDelegateBase::OnFileChanged, delegate->AsWeakPtr())); completion->Signal(); } class FilePathWatcherTest : public testing::Test { public: FilePathWatcherTest() : file_thread_("FilePathWatcherTest") {} virtual ~FilePathWatcherTest() {} protected: virtual void SetUp() OVERRIDE { // Create a separate file thread in order to test proper thread usage. base::Thread::Options options(MessageLoop::TYPE_IO, 0); ASSERT_TRUE(file_thread_.StartWithOptions(options)); ASSERT_TRUE(temp_dir_.CreateUniqueTempDir()); collector_ = new NotificationCollector(); } virtual void TearDown() OVERRIDE { RunLoop().RunUntilIdle(); } void DeleteDelegateOnFileThread(TestDelegate* delegate) { file_thread_.message_loop_proxy()->DeleteSoon(FROM_HERE, delegate); } FilePath test_file() { return temp_dir_.path().AppendASCII("FilePathWatcherTest"); } FilePath test_link() { return temp_dir_.path().AppendASCII("FilePathWatcherTest.lnk"); } // Write |content| to |file|. Returns true on success. bool WriteFile(const FilePath& file, const std::string& content) { int write_size = file_util::WriteFile(file, content.c_str(), content.length()); return write_size == static_cast<int>(content.length()); } bool SetupWatch(const FilePath& target, FilePathWatcher* watcher, TestDelegateBase* delegate, bool recursive_watch) WARN_UNUSED_RESULT; bool WaitForEvents() WARN_UNUSED_RESULT { collector_->Reset(); loop_.Run(); return collector_->Success(); } NotificationCollector* collector() { return collector_.get(); } MessageLoop loop_; base::Thread file_thread_; ScopedTempDir temp_dir_; scoped_refptr<NotificationCollector> collector_; DISALLOW_COPY_AND_ASSIGN(FilePathWatcherTest); }; bool FilePathWatcherTest::SetupWatch(const FilePath& target, FilePathWatcher* watcher, TestDelegateBase* delegate, bool recursive_watch) { base::WaitableEvent completion(false, false); bool result; file_thread_.message_loop_proxy()->PostTask( FROM_HERE, base::Bind(SetupWatchCallback, target, watcher, delegate, recursive_watch, &result, &completion)); completion.Wait(); return result; } // Basic test: Create the file and verify that we notice. TEST_F(FilePathWatcherTest, NewFile) { FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_file(), &watcher, delegate.get(), false)); ASSERT_TRUE(WriteFile(test_file(), "content")); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that modifying the file is caught. TEST_F(FilePathWatcherTest, ModifiedFile) { ASSERT_TRUE(WriteFile(test_file(), "content")); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_file(), &watcher, delegate.get(), false)); // Now make sure we get notified if the file is modified. ASSERT_TRUE(WriteFile(test_file(), "new content")); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that moving the file into place is caught. TEST_F(FilePathWatcherTest, MovedFile) { FilePath source_file(temp_dir_.path().AppendASCII("source")); ASSERT_TRUE(WriteFile(source_file, "content")); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_file(), &watcher, delegate.get(), false)); // Now make sure we get notified if the file is modified. ASSERT_TRUE(base::Move(source_file, test_file())); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } TEST_F(FilePathWatcherTest, DeletedFile) { ASSERT_TRUE(WriteFile(test_file(), "content")); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_file(), &watcher, delegate.get(), false)); // Now make sure we get notified if the file is deleted. base::DeleteFile(test_file(), false); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Used by the DeleteDuringNotify test below. // Deletes the FilePathWatcher when it's notified. class Deleter : public TestDelegateBase { public: Deleter(FilePathWatcher* watcher, MessageLoop* loop) : watcher_(watcher), loop_(loop) { } virtual ~Deleter() {} virtual void OnFileChanged(const FilePath&, bool) OVERRIDE { watcher_.reset(); loop_->PostTask(FROM_HERE, MessageLoop::QuitWhenIdleClosure()); } FilePathWatcher* watcher() const { return watcher_.get(); } private: scoped_ptr<FilePathWatcher> watcher_; MessageLoop* loop_; DISALLOW_COPY_AND_ASSIGN(Deleter); }; // Verify that deleting a watcher during the callback doesn't crash. TEST_F(FilePathWatcherTest, DeleteDuringNotify) { FilePathWatcher* watcher = new FilePathWatcher; // Takes ownership of watcher. scoped_ptr<Deleter> deleter(new Deleter(watcher, &loop_)); ASSERT_TRUE(SetupWatch(test_file(), watcher, deleter.get(), false)); ASSERT_TRUE(WriteFile(test_file(), "content")); ASSERT_TRUE(WaitForEvents()); // We win if we haven't crashed yet. // Might as well double-check it got deleted, too. ASSERT_TRUE(deleter->watcher() == NULL); } // Verify that deleting the watcher works even if there is a pending // notification. // Flaky on MacOS (and ARM linux): http://crbug.com/85930 TEST_F(FilePathWatcherTest, DISABLED_DestroyWithPendingNotification) { scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); FilePathWatcher* watcher = new FilePathWatcher; ASSERT_TRUE(SetupWatch(test_file(), watcher, delegate.get(), false)); ASSERT_TRUE(WriteFile(test_file(), "content")); file_thread_.message_loop_proxy()->DeleteSoon(FROM_HERE, watcher); DeleteDelegateOnFileThread(delegate.release()); } TEST_F(FilePathWatcherTest, MultipleWatchersSingleFile) { FilePathWatcher watcher1, watcher2; scoped_ptr<TestDelegate> delegate1(new TestDelegate(collector())); scoped_ptr<TestDelegate> delegate2(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_file(), &watcher1, delegate1.get(), false)); ASSERT_TRUE(SetupWatch(test_file(), &watcher2, delegate2.get(), false)); ASSERT_TRUE(WriteFile(test_file(), "content")); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate1.release()); DeleteDelegateOnFileThread(delegate2.release()); } // Verify that watching a file whose parent directory doesn't exist yet works if // the directory and file are created eventually. TEST_F(FilePathWatcherTest, NonExistentDirectory) { FilePathWatcher watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); FilePath file(dir.AppendASCII("file")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(file, &watcher, delegate.get(), false)); ASSERT_TRUE(base::CreateDirectory(dir)); ASSERT_TRUE(WriteFile(file, "content")); VLOG(1) << "Waiting for file creation"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(WriteFile(file, "content v2")); VLOG(1) << "Waiting for file change"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(base::DeleteFile(file, false)); VLOG(1) << "Waiting for file deletion"; ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Exercises watch reconfiguration for the case that directories on the path // are rapidly created. TEST_F(FilePathWatcherTest, DirectoryChain) { FilePath path(temp_dir_.path()); std::vector<std::string> dir_names; for (int i = 0; i < 20; i++) { std::string dir(base::StringPrintf("d%d", i)); dir_names.push_back(dir); path = path.AppendASCII(dir); } FilePathWatcher watcher; FilePath file(path.AppendASCII("file")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(file, &watcher, delegate.get(), false)); FilePath sub_path(temp_dir_.path()); for (std::vector<std::string>::const_iterator d(dir_names.begin()); d != dir_names.end(); ++d) { sub_path = sub_path.AppendASCII(*d); ASSERT_TRUE(base::CreateDirectory(sub_path)); } VLOG(1) << "Create File"; ASSERT_TRUE(WriteFile(file, "content")); VLOG(1) << "Waiting for file creation"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(WriteFile(file, "content v2")); VLOG(1) << "Waiting for file modification"; ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } #if defined(OS_MACOSX) // http://crbug.com/85930 #define DisappearingDirectory DISABLED_DisappearingDirectory #endif TEST_F(FilePathWatcherTest, DisappearingDirectory) { FilePathWatcher watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); FilePath file(dir.AppendASCII("file")); ASSERT_TRUE(base::CreateDirectory(dir)); ASSERT_TRUE(WriteFile(file, "content")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(file, &watcher, delegate.get(), false)); ASSERT_TRUE(base::DeleteFile(dir, true)); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Tests that a file that is deleted and reappears is tracked correctly. TEST_F(FilePathWatcherTest, DeleteAndRecreate) { ASSERT_TRUE(WriteFile(test_file(), "content")); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_file(), &watcher, delegate.get(), false)); ASSERT_TRUE(base::DeleteFile(test_file(), false)); VLOG(1) << "Waiting for file deletion"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(WriteFile(test_file(), "content")); VLOG(1) << "Waiting for file creation"; ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } TEST_F(FilePathWatcherTest, WatchDirectory) { FilePathWatcher watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); FilePath file1(dir.AppendASCII("file1")); FilePath file2(dir.AppendASCII("file2")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(dir, &watcher, delegate.get(), false)); ASSERT_TRUE(base::CreateDirectory(dir)); VLOG(1) << "Waiting for directory creation"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(WriteFile(file1, "content")); VLOG(1) << "Waiting for file1 creation"; ASSERT_TRUE(WaitForEvents()); #if !defined(OS_MACOSX) // Mac implementation does not detect files modified in a directory. ASSERT_TRUE(WriteFile(file1, "content v2")); VLOG(1) << "Waiting for file1 modification"; ASSERT_TRUE(WaitForEvents()); #endif // !OS_MACOSX ASSERT_TRUE(base::DeleteFile(file1, false)); VLOG(1) << "Waiting for file1 deletion"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(WriteFile(file2, "content")); VLOG(1) << "Waiting for file2 creation"; ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } TEST_F(FilePathWatcherTest, MoveParent) { FilePathWatcher file_watcher; FilePathWatcher subdir_watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); FilePath dest(temp_dir_.path().AppendASCII("dest")); FilePath subdir(dir.AppendASCII("subdir")); FilePath file(subdir.AppendASCII("file")); scoped_ptr<TestDelegate> file_delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(file, &file_watcher, file_delegate.get(), false)); scoped_ptr<TestDelegate> subdir_delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(subdir, &subdir_watcher, subdir_delegate.get(), false)); // Setup a directory hierarchy. ASSERT_TRUE(base::CreateDirectory(subdir)); ASSERT_TRUE(WriteFile(file, "content")); VLOG(1) << "Waiting for file creation"; ASSERT_TRUE(WaitForEvents()); // Move the parent directory. base::Move(dir, dest); VLOG(1) << "Waiting for directory move"; ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(file_delegate.release()); DeleteDelegateOnFileThread(subdir_delegate.release()); } #if defined(OS_WIN) TEST_F(FilePathWatcherTest, RecursiveWatch) { FilePathWatcher watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(dir, &watcher, delegate.get(), true)); // Main directory("dir") creation. ASSERT_TRUE(base::CreateDirectory(dir)); ASSERT_TRUE(WaitForEvents()); // Create "$dir/file1". FilePath file1(dir.AppendASCII("file1")); ASSERT_TRUE(WriteFile(file1, "content")); ASSERT_TRUE(WaitForEvents()); // Create "$dir/subdir". FilePath subdir(dir.AppendASCII("subdir")); ASSERT_TRUE(base::CreateDirectory(subdir)); ASSERT_TRUE(WaitForEvents()); // Create "$dir/subdir/subdir_file1". FilePath subdir_file1(subdir.AppendASCII("subdir_file1")); ASSERT_TRUE(WriteFile(subdir_file1, "content")); ASSERT_TRUE(WaitForEvents()); // Create "$dir/subdir/subdir_child_dir". FilePath subdir_child_dir(subdir.AppendASCII("subdir_child_dir")); ASSERT_TRUE(base::CreateDirectory(subdir_child_dir)); ASSERT_TRUE(WaitForEvents()); // Create "$dir/subdir/subdir_child_dir/child_dir_file1". FilePath child_dir_file1(subdir_child_dir.AppendASCII("child_dir_file1")); ASSERT_TRUE(WriteFile(child_dir_file1, "content v2")); ASSERT_TRUE(WaitForEvents()); // Write into "$dir/subdir/subdir_child_dir/child_dir_file1". ASSERT_TRUE(WriteFile(child_dir_file1, "content")); ASSERT_TRUE(WaitForEvents()); // Modify "$dir/subdir/subdir_child_dir/child_dir_file1" attributes. ASSERT_TRUE(file_util::MakeFileUnreadable(child_dir_file1)); ASSERT_TRUE(WaitForEvents()); // Delete "$dir/subdir/subdir_file1". ASSERT_TRUE(base::DeleteFile(subdir_file1, false)); ASSERT_TRUE(WaitForEvents()); // Delete "$dir/subdir/subdir_child_dir/child_dir_file1". ASSERT_TRUE(base::DeleteFile(child_dir_file1, false)); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } #else TEST_F(FilePathWatcherTest, RecursiveWatch) { FilePathWatcher watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); // Non-Windows implementaion does not support recursive watching. ASSERT_FALSE(SetupWatch(dir, &watcher, delegate.get(), true)); DeleteDelegateOnFileThread(delegate.release()); } #endif TEST_F(FilePathWatcherTest, MoveChild) { FilePathWatcher file_watcher; FilePathWatcher subdir_watcher; FilePath source_dir(temp_dir_.path().AppendASCII("source")); FilePath source_subdir(source_dir.AppendASCII("subdir")); FilePath source_file(source_subdir.AppendASCII("file")); FilePath dest_dir(temp_dir_.path().AppendASCII("dest")); FilePath dest_subdir(dest_dir.AppendASCII("subdir")); FilePath dest_file(dest_subdir.AppendASCII("file")); // Setup a directory hierarchy. ASSERT_TRUE(base::CreateDirectory(source_subdir)); ASSERT_TRUE(WriteFile(source_file, "content")); scoped_ptr<TestDelegate> file_delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(dest_file, &file_watcher, file_delegate.get(), false)); scoped_ptr<TestDelegate> subdir_delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(dest_subdir, &subdir_watcher, subdir_delegate.get(), false)); // Move the directory into place, s.t. the watched file appears. ASSERT_TRUE(base::Move(source_dir, dest_dir)); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(file_delegate.release()); DeleteDelegateOnFileThread(subdir_delegate.release()); } #if !defined(OS_LINUX) // Linux implementation of FilePathWatcher doesn't catch attribute changes. // http://crbug.com/78043 // Verify that changing attributes on a file is caught TEST_F(FilePathWatcherTest, FileAttributesChanged) { ASSERT_TRUE(WriteFile(test_file(), "content")); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_file(), &watcher, delegate.get(), false)); // Now make sure we get notified if the file is modified. ASSERT_TRUE(file_util::MakeFileUnreadable(test_file())); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } #endif // !OS_LINUX #if defined(OS_LINUX) // Verify that creating a symlink is caught. TEST_F(FilePathWatcherTest, CreateLink) { FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); // Note that we are watching the symlink ASSERT_TRUE(SetupWatch(test_link(), &watcher, delegate.get(), false)); // Now make sure we get notified if the link is created. // Note that test_file() doesn't have to exist. ASSERT_TRUE(CreateSymbolicLink(test_file(), test_link())); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that deleting a symlink is caught. TEST_F(FilePathWatcherTest, DeleteLink) { // Unfortunately this test case only works if the link target exists. // TODO(craig) fix this as part of crbug.com/91561. ASSERT_TRUE(WriteFile(test_file(), "content")); ASSERT_TRUE(CreateSymbolicLink(test_file(), test_link())); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_link(), &watcher, delegate.get(), false)); // Now make sure we get notified if the link is deleted. ASSERT_TRUE(base::DeleteFile(test_link(), false)); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that modifying a target file that a link is pointing to // when we are watching the link is caught. TEST_F(FilePathWatcherTest, ModifiedLinkedFile) { ASSERT_TRUE(WriteFile(test_file(), "content")); ASSERT_TRUE(CreateSymbolicLink(test_file(), test_link())); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); // Note that we are watching the symlink. ASSERT_TRUE(SetupWatch(test_link(), &watcher, delegate.get(), false)); // Now make sure we get notified if the file is modified. ASSERT_TRUE(WriteFile(test_file(), "new content")); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that creating a target file that a link is pointing to // when we are watching the link is caught. TEST_F(FilePathWatcherTest, CreateTargetLinkedFile) { ASSERT_TRUE(CreateSymbolicLink(test_file(), test_link())); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); // Note that we are watching the symlink. ASSERT_TRUE(SetupWatch(test_link(), &watcher, delegate.get(), false)); // Now make sure we get notified if the target file is created. ASSERT_TRUE(WriteFile(test_file(), "content")); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that deleting a target file that a link is pointing to // when we are watching the link is caught. TEST_F(FilePathWatcherTest, DeleteTargetLinkedFile) { ASSERT_TRUE(WriteFile(test_file(), "content")); ASSERT_TRUE(CreateSymbolicLink(test_file(), test_link())); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); // Note that we are watching the symlink. ASSERT_TRUE(SetupWatch(test_link(), &watcher, delegate.get(), false)); // Now make sure we get notified if the target file is deleted. ASSERT_TRUE(base::DeleteFile(test_file(), false)); ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that watching a file whose parent directory is a link that // doesn't exist yet works if the symlink is created eventually. TEST_F(FilePathWatcherTest, LinkedDirectoryPart1) { FilePathWatcher watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); FilePath link_dir(temp_dir_.path().AppendASCII("dir.lnk")); FilePath file(dir.AppendASCII("file")); FilePath linkfile(link_dir.AppendASCII("file")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); // dir/file should exist. ASSERT_TRUE(base::CreateDirectory(dir)); ASSERT_TRUE(WriteFile(file, "content")); // Note that we are watching dir.lnk/file which doesn't exist yet. ASSERT_TRUE(SetupWatch(linkfile, &watcher, delegate.get(), false)); ASSERT_TRUE(CreateSymbolicLink(dir, link_dir)); VLOG(1) << "Waiting for link creation"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(WriteFile(file, "content v2")); VLOG(1) << "Waiting for file change"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(base::DeleteFile(file, false)); VLOG(1) << "Waiting for file deletion"; ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that watching a file whose parent directory is a // dangling symlink works if the directory is created eventually. TEST_F(FilePathWatcherTest, LinkedDirectoryPart2) { FilePathWatcher watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); FilePath link_dir(temp_dir_.path().AppendASCII("dir.lnk")); FilePath file(dir.AppendASCII("file")); FilePath linkfile(link_dir.AppendASCII("file")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); // Now create the link from dir.lnk pointing to dir but // neither dir nor dir/file exist yet. ASSERT_TRUE(CreateSymbolicLink(dir, link_dir)); // Note that we are watching dir.lnk/file. ASSERT_TRUE(SetupWatch(linkfile, &watcher, delegate.get(), false)); ASSERT_TRUE(base::CreateDirectory(dir)); ASSERT_TRUE(WriteFile(file, "content")); VLOG(1) << "Waiting for dir/file creation"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(WriteFile(file, "content v2")); VLOG(1) << "Waiting for file change"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(base::DeleteFile(file, false)); VLOG(1) << "Waiting for file deletion"; ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } // Verify that watching a file with a symlink on the path // to the file works. TEST_F(FilePathWatcherTest, LinkedDirectoryPart3) { FilePathWatcher watcher; FilePath dir(temp_dir_.path().AppendASCII("dir")); FilePath link_dir(temp_dir_.path().AppendASCII("dir.lnk")); FilePath file(dir.AppendASCII("file")); FilePath linkfile(link_dir.AppendASCII("file")); scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(base::CreateDirectory(dir)); ASSERT_TRUE(CreateSymbolicLink(dir, link_dir)); // Note that we are watching dir.lnk/file but the file doesn't exist yet. ASSERT_TRUE(SetupWatch(linkfile, &watcher, delegate.get(), false)); ASSERT_TRUE(WriteFile(file, "content")); VLOG(1) << "Waiting for file creation"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(WriteFile(file, "content v2")); VLOG(1) << "Waiting for file change"; ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(base::DeleteFile(file, false)); VLOG(1) << "Waiting for file deletion"; ASSERT_TRUE(WaitForEvents()); DeleteDelegateOnFileThread(delegate.release()); } #endif // OS_LINUX enum Permission { Read, Write, Execute }; #if defined(OS_MACOSX) bool ChangeFilePermissions(const FilePath& path, Permission perm, bool allow) { struct stat stat_buf; if (stat(path.value().c_str(), &stat_buf) != 0) return false; mode_t mode = 0; switch (perm) { case Read: mode = S_IRUSR | S_IRGRP | S_IROTH; break; case Write: mode = S_IWUSR | S_IWGRP | S_IWOTH; break; case Execute: mode = S_IXUSR | S_IXGRP | S_IXOTH; break; default: ADD_FAILURE() << "unknown perm " << perm; return false; } if (allow) { stat_buf.st_mode |= mode; } else { stat_buf.st_mode &= ~mode; } return chmod(path.value().c_str(), stat_buf.st_mode) == 0; } #endif // defined(OS_MACOSX) #if defined(OS_MACOSX) // Linux implementation of FilePathWatcher doesn't catch attribute changes. // http://crbug.com/78043 // Windows implementation of FilePathWatcher catches attribute changes that // don't affect the path being watched. // http://crbug.com/78045 // Verify that changing attributes on a directory works. TEST_F(FilePathWatcherTest, DirAttributesChanged) { FilePath test_dir1(temp_dir_.path().AppendASCII("DirAttributesChangedDir1")); FilePath test_dir2(test_dir1.AppendASCII("DirAttributesChangedDir2")); FilePath test_file(test_dir2.AppendASCII("DirAttributesChangedFile")); // Setup a directory hierarchy. ASSERT_TRUE(base::CreateDirectory(test_dir1)); ASSERT_TRUE(base::CreateDirectory(test_dir2)); ASSERT_TRUE(WriteFile(test_file, "content")); FilePathWatcher watcher; scoped_ptr<TestDelegate> delegate(new TestDelegate(collector())); ASSERT_TRUE(SetupWatch(test_file, &watcher, delegate.get(), false)); // We should not get notified in this case as it hasn't affected our ability // to access the file. ASSERT_TRUE(ChangeFilePermissions(test_dir1, Read, false)); loop_.PostDelayedTask(FROM_HERE, MessageLoop::QuitWhenIdleClosure(), TestTimeouts::tiny_timeout()); ASSERT_FALSE(WaitForEvents()); ASSERT_TRUE(ChangeFilePermissions(test_dir1, Read, true)); // We should get notified in this case because filepathwatcher can no // longer access the file ASSERT_TRUE(ChangeFilePermissions(test_dir1, Execute, false)); ASSERT_TRUE(WaitForEvents()); ASSERT_TRUE(ChangeFilePermissions(test_dir1, Execute, true)); DeleteDelegateOnFileThread(delegate.release()); } #endif // OS_MACOSX } // namespace } // namespace base