func TestExchangeDataNotSupported(t *testing.T) { t.Parallel() mnt, err := fstestutil.MountedT(t, fstestutil.SimpleFS{&fstestutil.ChildMap{ "one": &exchangeData{}, "two": &exchangeData{}, }}, nil) if err != nil { t.Fatal(err) } defer mnt.Close() if err := unix.Exchangedata(mnt.Dir+"/one", mnt.Dir+"/two", 0); err != unix.ENOTSUP { t.Fatalf("expected ENOTSUP from exchangedata: %v", err) } }
// testExchangedataForWatcher tests the watcher with the exchangedata operation on OS X. // // This is widely used for atomic saves on OS X, e.g. TextMate and in Apple's NSDocument. // // See https://developer.apple.com/library/mac/documentation/Darwin/Reference/ManPages/man2/exchangedata.2.html // Also see: https://github.com/textmate/textmate/blob/cd016be29489eba5f3c09b7b70b06da134dda550/Frameworks/io/src/swap_file_data.cc#L20 func testExchangedataForWatcher(t *testing.T, watchDir bool) { // Create directory to watch testDir1 := tempMkdir(t) // For the intermediate file testDir2 := tempMkdir(t) defer os.RemoveAll(testDir1) defer os.RemoveAll(testDir2) resolvedFilename := "TestFsnotifyEvents.file" // TextMate does: // // 1. exchangedata (intermediate, resolved) // 2. unlink intermediate // // Let's try to simulate that: resolved := filepath.Join(testDir1, resolvedFilename) intermediate := filepath.Join(testDir2, resolvedFilename+"~") // Make sure we create the file before we start watching createAndSyncFile(t, resolved) watcher := newWatcher(t) // Test both variants in isolation if watchDir { addWatch(t, watcher, testDir1) } else { addWatch(t, watcher, resolved) } // Receive errors on the error channel on a separate goroutine go func() { for err := range watcher.Errors { t.Fatalf("error received: %s", err) } }() // Receive events on the event channel on a separate goroutine eventstream := watcher.Events var removeReceived counter var createReceived counter done := make(chan bool) go func() { for event := range eventstream { // Only count relevant events if event.Name == filepath.Clean(resolved) { if event.Op&Remove == Remove { removeReceived.increment() } if event.Op&Create == Create { createReceived.increment() } } t.Logf("event received: %s", event) } done <- true }() // Repeat to make sure the watched file/directory "survives" the REMOVE/CREATE loop. for i := 1; i <= 3; i++ { // The intermediate file is created in a folder outside the watcher createAndSyncFile(t, intermediate) // 1. Swap if err := unix.Exchangedata(intermediate, resolved, 0); err != nil { t.Fatalf("[%d] exchangedata failed: %s", i, err) } time.Sleep(50 * time.Millisecond) // 2. Delete the intermediate file err := os.Remove(intermediate) if err != nil { t.Fatalf("[%d] remove %s failed: %s", i, intermediate, err) } time.Sleep(50 * time.Millisecond) } // We expect this event to be received almost immediately, but let's wait 500 ms to be sure time.Sleep(500 * time.Millisecond) // The events will be (CHMOD + REMOVE + CREATE) X 2. Let's focus on the last two: if removeReceived.value() < 3 { t.Fatal("fsnotify remove events have not been received after 500 ms") } if createReceived.value() < 3 { t.Fatal("fsnotify create events have not been received after 500 ms") } watcher.Close() t.Log("waiting for the event channel to become closed...") select { case <-done: t.Log("event channel closed") case <-time.After(2 * time.Second): t.Fatal("event stream was not closed after 2 seconds") } }