// Copyright (C) 2014 The Syncthing Authors. // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this file, // You can obtain one at http://mozilla.org/MPL/2.0/. package model import ( "fmt" "path/filepath" "time" "github.com/syncthing/syncthing/lib/config" "github.com/syncthing/syncthing/lib/events" "github.com/syncthing/syncthing/lib/protocol" "github.com/syncthing/syncthing/lib/sync" ) type ProgressEmitter struct { registry map[string]*sharedPullerState interval time.Duration minBlocks int lastUpdate time.Time sentDownloadStates map[protocol.DeviceID]*sentDownloadState // States representing what we've sent to the other peer via DownloadProgress messages. connections map[string][]protocol.Connection mut sync.Mutex timer *time.Timer stop chan struct{} } // NewProgressEmitter creates a new progress emitter which emits // DownloadProgress events every interval. func NewProgressEmitter(cfg *config.Wrapper) *ProgressEmitter { t := &ProgressEmitter{ stop: make(chan struct{}), registry: make(map[string]*sharedPullerState), timer: time.NewTimer(time.Millisecond), sentDownloadStates: make(map[protocol.DeviceID]*sentDownloadState), connections: make(map[string][]protocol.Connection), mut: sync.NewMutex(), } t.CommitConfiguration(config.Configuration{}, cfg.Raw()) cfg.Subscribe(t) return t } // Serve starts the progress emitter which starts emitting DownloadProgress // events as the progress happens. func (t *ProgressEmitter) Serve() { var lastUpdate time.Time var lastCount, newCount int for { select { case <-t.stop: l.Debugln("progress emitter: stopping") return case <-t.timer.C: t.mut.Lock() l.Debugln("progress emitter: timer - looking after", len(t.registry)) newLastUpdated := lastUpdate newCount = len(t.registry) for _, puller := range t.registry { updated := puller.Updated() if updated.After(newLastUpdated) { newLastUpdated = updated } } if !newLastUpdated.Equal(lastUpdate) || newCount != lastCount { lastUpdate = newLastUpdated lastCount = newCount t.sendDownloadProgressEvent() if len(t.connections) > 0 { t.sendDownloadProgressMessages() } } else { l.Debugln("progress emitter: nothing new") } if newCount != 0 { t.timer.Reset(t.interval) } t.mut.Unlock() } } } func (t *ProgressEmitter) sendDownloadProgressEvent() { // registry lock already held output := make(map[string]map[string]*pullerProgress) for _, puller := range t.registry { if output[puller.folder] == nil { output[puller.folder] = make(map[string]*pullerProgress) } output[puller.folder][puller.file.Name] = puller.Progress() } events.Default.Log(events.DownloadProgress, output) l.Debugf("progress emitter: emitting %#v", output) } func (t *ProgressEmitter) sendDownloadProgressMessages() { // registry lock already held sharedFolders := make(map[protocol.DeviceID][]string) deviceConns := make(map[protocol.DeviceID]protocol.Connection) subscribers := t.connections for folder, conns := range subscribers { for _, conn := range conns { id := conn.ID() deviceConns[id] = conn sharedFolders[id] = append(sharedFolders[id], folder) state, ok := t.sentDownloadStates[id] if !ok { state = &sentDownloadState{ folderStates: make(map[string]*sentFolderDownloadState), } t.sentDownloadStates[id] = state } var activePullers []*sharedPullerState for _, puller := range t.registry { if puller.folder != folder || puller.file.IsSymlink() || puller.file.IsDirectory() || len(puller.file.Blocks) <= t.minBlocks { continue } activePullers = append(activePullers, puller) } // For every new puller that hasn't yet been seen, it will send all the blocks the puller has available // For every existing puller, it will check for new blocks, and send update for the new blocks only // For every puller that we've seen before but is no longer there, we will send a forget message updates := state.update(folder, activePullers) if len(updates) > 0 { conn.DownloadProgress(folder, updates, 0, nil) } } } // Clean up sentDownloadStates for devices which we are no longer connected to. for id := range t.sentDownloadStates { _, ok := deviceConns[id] if !ok { // Null out outstanding entries for device delete(t.sentDownloadStates, id) } } // If a folder was unshared from some device, tell it that all temp files // are now gone. for id, sharedDeviceFolders := range sharedFolders { state := t.sentDownloadStates[id] nextFolder: // For each of the folders that the state is aware of, // try to match it with a shared folder we've discovered above, for _, folder := range state.folders() { for _, existingFolder := range sharedDeviceFolders { if existingFolder == folder { continue nextFolder } } // If we fail to find that folder, we tell the state to forget about it // and return us a list of updates which would clean up the state // on the remote end. updates := state.cleanup(folder) if len(updates) > 0 { // XXX: Don't send this now, as the only way we've unshared a folder // is by breaking the connection and reconnecting, hence sending // forget messages for some random folder currently makes no sense. // deviceConns[id].DownloadProgress(folder, updates, 0, nil) } } } } // VerifyConfiguration implements the config.Committer interface func (t *ProgressEmitter) VerifyConfiguration(from, to config.Configuration) error { return nil } // CommitConfiguration implements the config.Committer interface func (t *ProgressEmitter) CommitConfiguration(from, to config.Configuration) bool { t.mut.Lock() defer t.mut.Unlock() t.interval = time.Duration(to.Options.ProgressUpdateIntervalS) * time.Second t.minBlocks = to.Options.TempIndexMinBlocks l.Debugln("progress emitter: updated interval", t.interval) return true } // Stop stops the emitter. func (t *ProgressEmitter) Stop() { t.stop <- struct{}{} } // Register a puller with the emitter which will start broadcasting pullers // progress. func (t *ProgressEmitter) Register(s *sharedPullerState) { t.mut.Lock() defer t.mut.Unlock() l.Debugln("progress emitter: registering", s.folder, s.file.Name) if len(t.registry) == 0 { t.timer.Reset(t.interval) } t.registry[filepath.Join(s.folder, s.file.Name)] = s } // Deregister a puller which will stop broadcasting pullers state. func (t *ProgressEmitter) Deregister(s *sharedPullerState) { t.mut.Lock() defer t.mut.Unlock() l.Debugln("progress emitter: deregistering", s.folder, s.file.Name) delete(t.registry, filepath.Join(s.folder, s.file.Name)) } // BytesCompleted returns the number of bytes completed in the given folder. func (t *ProgressEmitter) BytesCompleted(folder string) (bytes int64) { t.mut.Lock() defer t.mut.Unlock() for _, s := range t.registry { if s.folder == folder { bytes += s.Progress().BytesDone } } l.Debugf("progress emitter: bytes completed for %s: %d", folder, bytes) return } func (t *ProgressEmitter) String() string { return fmt.Sprintf("ProgressEmitter@%p", t) } func (t *ProgressEmitter) lenRegistry() int { t.mut.Lock() defer t.mut.Unlock() return len(t.registry) } func (t *ProgressEmitter) temporaryIndexSubscribe(conn protocol.Connection, folders []string) { t.mut.Lock() for _, folder := range folders { t.connections[folder] = append(t.connections[folder], conn) } t.mut.Unlock() } func (t *ProgressEmitter) temporaryIndexUnsubscribe(conn protocol.Connection) { t.mut.Lock() left := make(map[string][]protocol.Connection, len(t.connections)) for folder, conns := range t.connections { connsLeft := connsWithout(conns, conn) if len(connsLeft) > 0 { left[folder] = connsLeft } } t.connections = left t.mut.Unlock() } func connsWithout(conns []protocol.Connection, conn protocol.Connection) []protocol.Connection { if len(conns) == 0 { return nil } newConns := make([]protocol.Connection, 0, len(conns)-1) for _, existingConn := range conns { if existingConn != conn { newConns = append(newConns, existingConn) } } return newConns }