예제 #1
0
파일: upnp.go 프로젝트: hernad/syncthing
// Discover discovers UPnP InternetGatewayDevices.
// The order in which the devices appear in the results list is not deterministic.
func Discover(timeout time.Duration) []IGD {
	var results []IGD

	interfaces, err := net.Interfaces()
	if err != nil {
		l.Infoln("Listing network interfaces:", err)
		return results
	}

	resultChan := make(chan IGD)

	wg := sync.NewWaitGroup()

	for _, intf := range interfaces {
		// Interface flags seem to always be 0 on Windows
		if runtime.GOOS != "windows" && (intf.Flags&net.FlagUp == 0 || intf.Flags&net.FlagMulticast == 0) {
			continue
		}

		for _, deviceType := range []string{"urn:schemas-upnp-org:device:InternetGatewayDevice:1", "urn:schemas-upnp-org:device:InternetGatewayDevice:2"} {
			wg.Add(1)
			go func(intf net.Interface, deviceType string) {
				discover(&intf, deviceType, timeout, resultChan)
				wg.Done()
			}(intf, deviceType)
		}
	}

	go func() {
		wg.Wait()
		close(resultChan)
	}()

nextResult:
	for result := range resultChan {
		for _, existingResult := range results {
			if existingResult.uuid == result.uuid {
				if shouldDebug() {
					l.Debugf("Skipping duplicate result %s with services:", result.uuid)
					for _, service := range result.services {
						l.Debugf("* [%s] %s", service.ID, service.URL)
					}
				}
				continue nextResult
			}
		}

		results = append(results, result)
		if shouldDebug() {
			l.Debugf("UPnP discovery result %s with services:", result.uuid)
			for _, service := range result.services {
				l.Debugf("* [%s] %s", service.ID, service.URL)
			}
		}
	}

	return results
}
예제 #2
0
func TestConcurrentSetClear(t *testing.T) {
	if testing.Short() {
		return
	}

	dur := 30 * time.Second
	t0 := time.Now()
	wg := sync.NewWaitGroup()

	os.RemoveAll("testdata/concurrent-set-clear.db")
	db, err := leveldb.OpenFile("testdata/concurrent-set-clear.db", &opt.Options{OpenFilesCacheCapacity: 10})
	if err != nil {
		t.Fatal(err)
	}
	defer os.RemoveAll("testdata/concurrent-set-clear.db")

	errChan := make(chan error, 3)

	wg.Add(1)
	go func() {
		defer wg.Done()
		for time.Since(t0) < dur {
			if err := setItems(db); err != nil {
				errChan <- err
				return
			}
			if err := clearItems(db); err != nil {
				errChan <- err
				return
			}
		}
	}()

	wg.Add(1)
	go func() {
		defer wg.Done()
		for time.Since(t0) < dur {
			if err := scanItems(db); err != nil {
				errChan <- err
				return
			}
		}
	}()

	go func() {
		wg.Wait()
		errChan <- nil
	}()

	err = <-errChan
	if err != nil {
		t.Error(err)
	}
	db.Close()
}
예제 #3
0
func newParallelHasher(dir string, blockSize, workers int, outbox, inbox chan protocol.FileInfo, counter Counter, done, cancel chan struct{}) {
	wg := sync.NewWaitGroup()
	wg.Add(workers)

	for i := 0; i < workers; i++ {
		go func() {
			hashFiles(dir, blockSize, outbox, inbox, counter, cancel)
			wg.Done()
		}()
	}

	go func() {
		wg.Wait()
		if done != nil {
			close(done)
		}
		close(outbox)
	}()
}
예제 #4
0
// pullerIteration runs a single puller iteration for the given folder and
// returns the number items that should have been synced (even those that
// might have failed). One puller iteration handles all files currently
// flagged as needed in the folder.
func (p *rwFolder) pullerIteration(ignores *ignore.Matcher) int {
	pullChan := make(chan pullBlockState)
	copyChan := make(chan copyBlocksState)
	finisherChan := make(chan *sharedPullerState)

	updateWg := sync.NewWaitGroup()
	copyWg := sync.NewWaitGroup()
	pullWg := sync.NewWaitGroup()
	doneWg := sync.NewWaitGroup()

	l.Debugln(p, "c", p.copiers, "p", p.pullers)

	p.dbUpdates = make(chan dbUpdateJob)
	updateWg.Add(1)
	go func() {
		// dbUpdaterRoutine finishes when p.dbUpdates is closed
		p.dbUpdaterRoutine()
		updateWg.Done()
	}()

	for i := 0; i < p.copiers; i++ {
		copyWg.Add(1)
		go func() {
			// copierRoutine finishes when copyChan is closed
			p.copierRoutine(copyChan, pullChan, finisherChan)
			copyWg.Done()
		}()
	}

	for i := 0; i < p.pullers; i++ {
		pullWg.Add(1)
		go func() {
			// pullerRoutine finishes when pullChan is closed
			p.pullerRoutine(pullChan, finisherChan)
			pullWg.Done()
		}()
	}

	doneWg.Add(1)
	// finisherRoutine finishes when finisherChan is closed
	go func() {
		p.finisherRoutine(finisherChan)
		doneWg.Done()
	}()

	p.model.fmut.RLock()
	folderFiles := p.model.folderFiles[p.folder]
	p.model.fmut.RUnlock()

	// !!!
	// WithNeed takes a database snapshot (by necessity). By the time we've
	// handled a bunch of files it might have become out of date and we might
	// be attempting to sync with an old version of a file...
	// !!!

	changed := 0

	fileDeletions := map[string]protocol.FileInfo{}
	dirDeletions := []protocol.FileInfo{}
	buckets := map[string][]protocol.FileInfo{}

	handleFile := func(f protocol.FileInfo) bool {
		switch {
		case f.IsDeleted():
			// A deleted file, directory or symlink
			if f.IsDirectory() {
				dirDeletions = append(dirDeletions, f)
			} else {
				fileDeletions[f.Name] = f
				df, ok := p.model.CurrentFolderFile(p.folder, f.Name)
				// Local file can be already deleted, but with a lower version
				// number, hence the deletion coming in again as part of
				// WithNeed, furthermore, the file can simply be of the wrong
				// type if we haven't yet managed to pull it.
				if ok && !df.IsDeleted() && !df.IsSymlink() && !df.IsDirectory() {
					// Put files into buckets per first hash
					key := string(df.Blocks[0].Hash)
					buckets[key] = append(buckets[key], df)
				}
			}
		case f.IsDirectory() && !f.IsSymlink():
			// A new or changed directory
			l.Debugln("Creating directory", f.Name)
			p.handleDir(f)
		default:
			return false
		}
		return true
	}

	folderFiles.WithNeed(protocol.LocalDeviceID, func(intf db.FileIntf) bool {
		// Needed items are delivered sorted lexicographically. We'll handle
		// directories as they come along, so parents before children. Files
		// are queued and the order may be changed later.

		file := intf.(protocol.FileInfo)

		if ignores.Match(file.Name) {
			// This is an ignored file. Skip it, continue iteration.
			return true
		}

		l.Debugln(p, "handling", file.Name)

		if !handleFile(file) {
			// A new or changed file or symlink. This is the only case where we
			// do stuff concurrently in the background
			p.queue.Push(file.Name, file.Size(), file.Modified)
		}

		changed++
		return true
	})

	// Reorder the file queue according to configuration

	switch p.order {
	case config.OrderRandom:
		p.queue.Shuffle()
	case config.OrderAlphabetic:
		// The queue is already in alphabetic order.
	case config.OrderSmallestFirst:
		p.queue.SortSmallestFirst()
	case config.OrderLargestFirst:
		p.queue.SortLargestFirst()
	case config.OrderOldestFirst:
		p.queue.SortOldestFirst()
	case config.OrderNewestFirst:
		p.queue.SortNewestFirst()
	}

	// Process the file queue

nextFile:
	for {
		select {
		case <-p.stop:
			// Stop processing files if the puller has been told to stop.
			break
		default:
		}

		fileName, ok := p.queue.Pop()
		if !ok {
			break
		}

		f, ok := p.model.CurrentGlobalFile(p.folder, fileName)
		if !ok {
			// File is no longer in the index. Mark it as done and drop it.
			p.queue.Done(fileName)
			continue
		}

		// Handles races where an index update arrives changing what the file
		// is between queueing and retrieving it from the queue, effectively
		// changing how the file should be handled.
		if handleFile(f) {
			continue
		}

		if !f.IsSymlink() {
			key := string(f.Blocks[0].Hash)
			for i, candidate := range buckets[key] {
				if scanner.BlocksEqual(candidate.Blocks, f.Blocks) {
					// Remove the candidate from the bucket
					lidx := len(buckets[key]) - 1
					buckets[key][i] = buckets[key][lidx]
					buckets[key] = buckets[key][:lidx]

					// candidate is our current state of the file, where as the
					// desired state with the delete bit set is in the deletion
					// map.
					desired := fileDeletions[candidate.Name]
					// Remove the pending deletion (as we perform it by renaming)
					delete(fileDeletions, candidate.Name)

					p.renameFile(desired, f)

					p.queue.Done(fileName)
					continue nextFile
				}
			}
		}

		// Not a rename or a symlink, deal with it.
		p.handleFile(f, copyChan, finisherChan)
	}

	// Signal copy and puller routines that we are done with the in data for
	// this iteration. Wait for them to finish.
	close(copyChan)
	copyWg.Wait()
	close(pullChan)
	pullWg.Wait()

	// Signal the finisher chan that there will be no more input.
	close(finisherChan)

	// Wait for the finisherChan to finish.
	doneWg.Wait()

	for _, file := range fileDeletions {
		l.Debugln("Deleting file", file.Name)
		p.deleteFile(file)
	}

	for i := range dirDeletions {
		dir := dirDeletions[len(dirDeletions)-i-1]
		l.Debugln("Deleting dir", dir.Name)
		p.deleteDir(dir)
	}

	// Wait for db updates to complete
	close(p.dbUpdates)
	updateWg.Wait()

	return changed
}
예제 #5
0
파일: monitor.go 프로젝트: hernad/syncthing
func monitorMain(runtimeOptions RuntimeOptions) {
	os.Setenv("STNORESTART", "yes")
	os.Setenv("STMONITORED", "yes")
	l.SetPrefix("[monitor] ")

	var dst io.Writer = os.Stdout

	logFile := runtimeOptions.logFile
	if logFile != "-" {
		var fileDst io.Writer = newAutoclosedFile(logFile, logFileAutoCloseDelay, logFileMaxOpenTime)

		if runtime.GOOS == "windows" {
			// Translate line breaks to Windows standard
			fileDst = osutil.ReplacingWriter{
				Writer: fileDst,
				From:   '\n',
				To:     []byte{'\r', '\n'},
			}
		}

		// Log to both stdout and file.
		dst = io.MultiWriter(dst, fileDst)

		l.Infof(`Log output saved to file "%s"`, logFile)
	}

	args := os.Args
	var restarts [countRestarts]time.Time

	stopSign := make(chan os.Signal, 1)
	sigTerm := syscall.Signal(15)
	signal.Notify(stopSign, os.Interrupt, sigTerm)
	restartSign := make(chan os.Signal, 1)
	sigHup := syscall.Signal(1)
	signal.Notify(restartSign, sigHup)

	for {
		if t := time.Since(restarts[0]); t < loopThreshold {
			l.Warnf("%d restarts in %v; not retrying further", countRestarts, t)
			os.Exit(exitError)
		}

		copy(restarts[0:], restarts[1:])
		restarts[len(restarts)-1] = time.Now()

		cmd := exec.Command(args[0], args[1:]...)

		stderr, err := cmd.StderrPipe()
		if err != nil {
			l.Fatalln("stderr:", err)
		}

		stdout, err := cmd.StdoutPipe()
		if err != nil {
			l.Fatalln("stdout:", err)
		}

		l.Infoln("Starting syncthing")
		err = cmd.Start()
		if err != nil {
			l.Fatalln(err)
		}

		// Let the next child process know that this is not the first time
		// it's starting up.
		os.Setenv("STRESTART", "yes")

		stdoutMut.Lock()
		stdoutFirstLines = make([]string, 0, 10)
		stdoutLastLines = make([]string, 0, 50)
		stdoutMut.Unlock()

		wg := sync.NewWaitGroup()

		wg.Add(1)
		go func() {
			copyStderr(stderr, dst)
			wg.Done()
		}()

		wg.Add(1)
		go func() {
			copyStdout(stdout, dst)
			wg.Done()
		}()

		exit := make(chan error)

		go func() {
			wg.Wait()
			exit <- cmd.Wait()
		}()

		select {
		case s := <-stopSign:
			l.Infof("Signal %d received; exiting", s)
			cmd.Process.Kill()
			<-exit
			return

		case s := <-restartSign:
			l.Infof("Signal %d received; restarting", s)
			cmd.Process.Signal(sigHup)
			err = <-exit

		case err = <-exit:
			if err == nil {
				// Successful exit indicates an intentional shutdown
				return
			} else if exiterr, ok := err.(*exec.ExitError); ok {
				if status, ok := exiterr.Sys().(syscall.WaitStatus); ok {
					switch status.ExitStatus() {
					case exitUpgrading:
						// Restart the monitor process to release the .old
						// binary as part of the upgrade process.
						l.Infoln("Restarting monitor...")
						os.Setenv("STNORESTART", "")
						if err = restartMonitor(args); err != nil {
							l.Warnln("Restart:", err)
						}
						return
					}
				}
			}
		}

		l.Infoln("Syncthing exited:", err)
		time.Sleep(1 * time.Second)
	}
}