// 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 https://mozilla.org/MPL/2.0/. package model import ( "bytes" "context" "crypto/tls" "encoding/json" "errors" "fmt" "io" "net" "path/filepath" "reflect" "runtime" "sort" "strings" stdsync "sync" "time" "github.com/syncthing/syncthing/lib/config" "github.com/syncthing/syncthing/lib/connections" "github.com/syncthing/syncthing/lib/db" "github.com/syncthing/syncthing/lib/events" "github.com/syncthing/syncthing/lib/fs" "github.com/syncthing/syncthing/lib/ignore" "github.com/syncthing/syncthing/lib/osutil" "github.com/syncthing/syncthing/lib/protocol" "github.com/syncthing/syncthing/lib/scanner" "github.com/syncthing/syncthing/lib/stats" "github.com/syncthing/syncthing/lib/sync" "github.com/syncthing/syncthing/lib/upgrade" "github.com/syncthing/syncthing/lib/versioner" "github.com/thejerf/suture" ) var locationLocal *time.Location func init() { var err error locationLocal, err = time.LoadLocation("Local") if err != nil { panic(err.Error()) } } // How many files to send in each Index/IndexUpdate message. const ( maxBatchSizeBytes = 250 * 1024 // Aim for making index messages no larger than 250 KiB (uncompressed) maxBatchSizeFiles = 1000 // Either way, don't include more files than this ) type service interface { BringToFront(string) Override(*db.FileSet, func([]protocol.FileInfo)) Revert(*db.FileSet, func([]protocol.FileInfo)) DelayScan(d time.Duration) IgnoresUpdated() // ignore matcher was updated notification SchedulePull() // something relevant changed, we should try a pull Jobs() ([]string, []string) // In progress, Queued Scan(subs []string) error Serve() Stop() CheckHealth() error PullErrors() []FileError WatchError() error getState() (folderState, time.Time, error) setState(state folderState) setError(err error) } type Availability struct { ID protocol.DeviceID `json:"id"` FromTemporary bool `json:"fromTemporary"` } type Model struct { *suture.Supervisor cfg *config.Wrapper db *db.Lowlevel finder *db.BlockFinder progressEmitter *ProgressEmitter id protocol.DeviceID shortID protocol.ShortID cacheIgnoredFiles bool protectedFiles []string clientName string clientVersion string fmut sync.RWMutex // protects the below folderCfgs map[string]config.FolderConfiguration // folder -> cfg folderFiles map[string]*db.FileSet // folder -> files deviceStatRefs map[protocol.DeviceID]*stats.DeviceStatisticsReference // deviceID -> statsRef folderIgnores map[string]*ignore.Matcher // folder -> matcher object folderRunners map[string]service // folder -> puller or scanner folderRunnerTokens map[string][]suture.ServiceToken // folder -> tokens for puller or scanner folderStatRefs map[string]*stats.FolderStatisticsReference // folder -> statsRef folderRestartMuts syncMutexMap // folder -> restart mutex pmut sync.RWMutex // protects the below conn map[protocol.DeviceID]connections.Connection closed map[protocol.DeviceID]chan struct{} helloMessages map[protocol.DeviceID]protocol.HelloResult deviceDownloads map[protocol.DeviceID]*deviceDownloadState remotePausedFolders map[protocol.DeviceID][]string // deviceID -> folders foldersRunning int32 // for testing only } type folderFactory func(*Model, config.FolderConfiguration, versioner.Versioner, fs.Filesystem) service var ( folderFactories = make(map[config.FolderType]folderFactory, 0) ) var ( errDeviceUnknown = errors.New("unknown device") errDevicePaused = errors.New("device is paused") errDeviceIgnored = errors.New("device is ignored") ErrFolderPaused = errors.New("folder is paused") errFolderNotRunning = errors.New("folder is not running") errFolderMissing = errors.New("no such folder") errNetworkNotAllowed = errors.New("network not allowed") ) // NewModel creates and starts a new model. The model starts in read-only mode, // where it sends index information to connected peers and responds to requests // for file data without altering the local folder in any way. func NewModel(cfg *config.Wrapper, id protocol.DeviceID, clientName, clientVersion string, ldb *db.Lowlevel, protectedFiles []string) *Model { m := &Model{ Supervisor: suture.New("model", suture.Spec{ Log: func(line string) { l.Debugln(line) }, PassThroughPanics: true, }), cfg: cfg, db: ldb, finder: db.NewBlockFinder(ldb), progressEmitter: NewProgressEmitter(cfg), id: id, shortID: id.Short(), cacheIgnoredFiles: cfg.Options().CacheIgnoredFiles, protectedFiles: protectedFiles, clientName: clientName, clientVersion: clientVersion, folderCfgs: make(map[string]config.FolderConfiguration), folderFiles: make(map[string]*db.FileSet), deviceStatRefs: make(map[protocol.DeviceID]*stats.DeviceStatisticsReference), folderIgnores: make(map[string]*ignore.Matcher), folderRunners: make(map[string]service), folderRunnerTokens: make(map[string][]suture.ServiceToken), folderStatRefs: make(map[string]*stats.FolderStatisticsReference), conn: make(map[protocol.DeviceID]connections.Connection), closed: make(map[protocol.DeviceID]chan struct{}), helloMessages: make(map[protocol.DeviceID]protocol.HelloResult), deviceDownloads: make(map[protocol.DeviceID]*deviceDownloadState), remotePausedFolders: make(map[protocol.DeviceID][]string), fmut: sync.NewRWMutex(), pmut: sync.NewRWMutex(), } if cfg.Options().ProgressUpdateIntervalS > -1 { go m.progressEmitter.Serve() } cfg.Subscribe(m) return m } // StartDeadlockDetector starts a deadlock detector on the models locks which // causes panics in case the locks cannot be acquired in the given timeout // period. func (m *Model) StartDeadlockDetector(timeout time.Duration) { l.Infof("Starting deadlock detector with %v timeout", timeout) detector := newDeadlockDetector(timeout) detector.Watch("fmut", m.fmut) detector.Watch("pmut", m.pmut) } // StartFolder constructs the folder service and starts it. func (m *Model) StartFolder(folder string) { m.fmut.Lock() m.pmut.Lock() folderType := m.startFolderLocked(folder) folderCfg := m.folderCfgs[folder] m.pmut.Unlock() m.fmut.Unlock() l.Infof("Ready to synchronize %s (%s)", folderCfg.Description(), folderType) } func (m *Model) startFolderLocked(folder string) config.FolderType { if err := m.checkFolderRunningLocked(folder); err == errFolderMissing { panic("cannot start nonexistent folder " + folder) } else if err == nil { panic("cannot start already running folder " + folder) } cfg := m.folderCfgs[folder] folderFactory, ok := folderFactories[cfg.Type] if !ok { panic(fmt.Sprintf("unknown folder type 0x%x", cfg.Type)) } fs := m.folderFiles[folder] // Find any devices for which we hold the index in the db, but the folder // is not shared, and drop it. expected := mapDevices(cfg.DeviceIDs()) for _, available := range fs.ListDevices() { if _, ok := expected[available]; !ok { l.Debugln("dropping", folder, "state for", available) fs.Drop(available) } } // Close connections to affected devices for _, id := range cfg.DeviceIDs() { m.closeLocked(id) } v, ok := fs.Sequence(protocol.LocalDeviceID), true indexHasFiles := ok && v > 0 if !indexHasFiles { // It's a blank folder, so this may the first time we're looking at // it. Attempt to create and tag with our marker as appropriate. We // don't really do anything with errors at this point except warn - // if these things don't work, we still want to start the folder and // it'll show up as errored later. if err := cfg.CreateRoot(); err != nil { l.Warnln("Failed to create folder root directory", err) } else if err = cfg.CreateMarker(); err != nil { l.Warnln("Failed to create folder marker:", err) } } ver := cfg.Versioner() if service, ok := ver.(suture.Service); ok { // The versioner implements the suture.Service interface, so // expects to be run in the background in addition to being called // when files are going to be archived. token := m.Add(service) m.folderRunnerTokens[folder] = append(m.folderRunnerTokens[folder], token) } ffs := fs.MtimeFS() // These are our metadata files, and they should always be hidden. ffs.Hide(config.DefaultMarkerName) ffs.Hide(".stversions") ffs.Hide(".stignore") p := folderFactory(m, cfg, ver, ffs) m.folderRunners[folder] = p m.warnAboutOverwritingProtectedFiles(folder) token := m.Add(p) m.folderRunnerTokens[folder] = append(m.folderRunnerTokens[folder], token) return cfg.Type } func (m *Model) warnAboutOverwritingProtectedFiles(folder string) { if m.folderCfgs[folder].Type == config.FolderTypeSendOnly { return } // This is a bit of a hack. ffs := m.folderCfgs[folder].Filesystem() if ffs.Type() != fs.FilesystemTypeBasic { return } folderLocation := ffs.URI() ignores := m.folderIgnores[folder] var filesAtRisk []string for _, protectedFilePath := range m.protectedFiles { // check if file is synced in this folder if !strings.HasPrefix(protectedFilePath, folderLocation) { continue } // check if file is ignored relPath, _ := filepath.Rel(folderLocation, protectedFilePath) if ignores.Match(relPath).IsIgnored() { continue } filesAtRisk = append(filesAtRisk, protectedFilePath) } if len(filesAtRisk) > 0 { l.Warnln("Some protected files may be overwritten and cause issues. See https://docs.syncthing.net/users/config.html#syncing-configuration-files for more information. The at risk files are:", strings.Join(filesAtRisk, ", ")) } } func (m *Model) AddFolder(cfg config.FolderConfiguration) { if len(cfg.ID) == 0 { panic("cannot add empty folder id") } if len(cfg.Path) == 0 { panic("cannot add empty folder path") } m.fmut.Lock() m.addFolderLocked(cfg) m.fmut.Unlock() } func (m *Model) addFolderLocked(cfg config.FolderConfiguration) { m.folderCfgs[cfg.ID] = cfg folderFs := cfg.Filesystem() m.folderFiles[cfg.ID] = db.NewFileSet(cfg.ID, folderFs, m.db) ignores := ignore.New(folderFs, ignore.WithCache(m.cacheIgnoredFiles)) if err := ignores.Load(".stignore"); err != nil && !fs.IsNotExist(err) { l.Warnln("Loading ignores:", err) } m.folderIgnores[cfg.ID] = ignores } func (m *Model) RemoveFolder(cfg config.FolderConfiguration) { m.fmut.Lock() m.pmut.Lock() // Delete syncthing specific files cfg.Filesystem().RemoveAll(config.DefaultMarkerName) m.tearDownFolderLocked(cfg) // Remove it from the database db.DropFolder(m.db, cfg.ID) m.pmut.Unlock() m.fmut.Unlock() } func (m *Model) tearDownFolderLocked(cfg config.FolderConfiguration) { // Close connections to affected devices // Must happen before stopping the folder service to abort ongoing // transmissions and thus allow timely service termination. for _, dev := range cfg.Devices { m.closeLocked(dev.DeviceID) } // Stop the services running for this folder and wait for them to finish // stopping to prevent races on restart. tokens := m.folderRunnerTokens[cfg.ID] m.pmut.Unlock() m.fmut.Unlock() for _, id := range tokens { m.RemoveAndWait(id, 0) } m.fmut.Lock() m.pmut.Lock() // Clean up our config maps delete(m.folderCfgs, cfg.ID) delete(m.folderFiles, cfg.ID) delete(m.folderIgnores, cfg.ID) delete(m.folderRunners, cfg.ID) delete(m.folderRunnerTokens, cfg.ID) delete(m.folderStatRefs, cfg.ID) } func (m *Model) RestartFolder(from, to config.FolderConfiguration) { if len(to.ID) == 0 { panic("bug: cannot restart empty folder ID") } if to.ID != from.ID { panic(fmt.Sprintf("bug: folder restart cannot change ID %q -> %q", from.ID, to.ID)) } // This mutex protects the entirety of the restart operation, preventing // there from being more than one folder restart operation in progress // at any given time. The usual fmut/pmut stuff doesn't cover this, // because those locks are released while we are waiting for the folder // to shut down (and must be so because the folder might need them as // part of its operations before shutting down). restartMut := m.folderRestartMuts.Get(to.ID) restartMut.Lock() defer restartMut.Unlock() m.fmut.Lock() m.pmut.Lock() defer m.fmut.Unlock() defer m.pmut.Unlock() m.tearDownFolderLocked(from) if to.Paused { l.Infoln("Paused folder", to.Description()) } else { m.addFolderLocked(to) folderType := m.startFolderLocked(to.ID) l.Infoln("Restarted folder", to.Description(), fmt.Sprintf("(%s)", folderType)) } } func (m *Model) UsageReportingStats(version int, preview bool) map[string]interface{} { stats := make(map[string]interface{}) if version >= 3 { // Block stats blockStatsMut.Lock() copyBlockStats := make(map[string]int) for k, v := range blockStats { copyBlockStats[k] = v if !preview { blockStats[k] = 0 } } blockStatsMut.Unlock() stats["blockStats"] = copyBlockStats // Transport stats m.pmut.Lock() transportStats := make(map[string]int) for _, conn := range m.conn { transportStats[conn.Transport()]++ } m.pmut.Unlock() stats["transportStats"] = transportStats // Ignore stats ignoreStats := map[string]int{ "lines": 0, "inverts": 0, "folded": 0, "deletable": 0, "rooted": 0, "includes": 0, "escapedIncludes": 0, "doubleStars": 0, "stars": 0, } var seenPrefix [3]bool for folder := range m.cfg.Folders() { lines, _, err := m.GetIgnores(folder) if err != nil { continue } ignoreStats["lines"] += len(lines) for _, line := range lines { // Allow prefixes to be specified in any order, but only once. for { if strings.HasPrefix(line, "!") && !seenPrefix[0] { seenPrefix[0] = true line = line[1:] ignoreStats["inverts"] += 1 } else if strings.HasPrefix(line, "(?i)") && !seenPrefix[1] { seenPrefix[1] = true line = line[4:] ignoreStats["folded"] += 1 } else if strings.HasPrefix(line, "(?d)") && !seenPrefix[2] { seenPrefix[2] = true line = line[4:] ignoreStats["deletable"] += 1 } else { seenPrefix[0] = false seenPrefix[1] = false seenPrefix[2] = false break } } // Noops, remove if strings.HasSuffix(line, "**") { line = line[:len(line)-2] } if strings.HasPrefix(line, "**/") { line = line[3:] } if strings.HasPrefix(line, "/") { ignoreStats["rooted"] += 1 } else if strings.HasPrefix(line, "#include ") { ignoreStats["includes"] += 1 if strings.Contains(line, "..") { ignoreStats["escapedIncludes"] += 1 } } if strings.Contains(line, "**") { ignoreStats["doubleStars"] += 1 // Remove not to trip up star checks. strings.Replace(line, "**", "", -1) } if strings.Contains(line, "*") { ignoreStats["stars"] += 1 } } } stats["ignoreStats"] = ignoreStats } return stats } type ConnectionInfo struct { protocol.Statistics Connected bool Paused bool Address string ClientVersion string Type string } func (info ConnectionInfo) MarshalJSON() ([]byte, error) { return json.Marshal(map[string]interface{}{ "at": info.At, "inBytesTotal": info.InBytesTotal, "outBytesTotal": info.OutBytesTotal, "connected": info.Connected, "paused": info.Paused, "address": info.Address, "clientVersion": info.ClientVersion, "type": info.Type, }) } // ConnectionStats returns a map with connection statistics for each device. func (m *Model) ConnectionStats() map[string]interface{} { m.fmut.RLock() m.pmut.RLock() res := make(map[string]interface{}) devs := m.cfg.Devices() conns := make(map[string]ConnectionInfo, len(devs)) for device, deviceCfg := range devs { hello := m.helloMessages[device] versionString := hello.ClientVersion if hello.ClientName != "syncthing" { versionString = hello.ClientName + " " + hello.ClientVersion } ci := ConnectionInfo{ ClientVersion: strings.TrimSpace(versionString), Paused: deviceCfg.Paused, } if conn, ok := m.conn[device]; ok { ci.Type = conn.Type() ci.Connected = ok ci.Statistics = conn.Statistics() if addr := conn.RemoteAddr(); addr != nil { ci.Address = addr.String() } } conns[device.String()] = ci } res["connections"] = conns m.pmut.RUnlock() m.fmut.RUnlock() in, out := protocol.TotalInOut() res["total"] = ConnectionInfo{ Statistics: protocol.Statistics{ At: time.Now(), InBytesTotal: in, OutBytesTotal: out, }, } return res } // DeviceStatistics returns statistics about each device func (m *Model) DeviceStatistics() map[string]stats.DeviceStatistics { res := make(map[string]stats.DeviceStatistics) for id := range m.cfg.Devices() { res[id.String()] = m.deviceStatRef(id).GetStatistics() } return res } // FolderStatistics returns statistics about each folder func (m *Model) FolderStatistics() map[string]stats.FolderStatistics { res := make(map[string]stats.FolderStatistics) for id := range m.cfg.Folders() { res[id] = m.folderStatRef(id).GetStatistics() } return res } type FolderCompletion struct { CompletionPct float64 NeedBytes int64 NeedItems int64 GlobalBytes int64 NeedDeletes int64 } // Completion returns the completion status, in percent, for the given device // and folder. func (m *Model) Completion(device protocol.DeviceID, folder string) FolderCompletion { m.fmut.RLock() rf, ok := m.folderFiles[folder] m.fmut.RUnlock() if !ok { return FolderCompletion{} // Folder doesn't exist, so we hardly have any of it } tot := rf.GlobalSize().Bytes if tot == 0 { // Folder is empty, so we have all of it return FolderCompletion{ CompletionPct: 100, } } m.pmut.RLock() counts := m.deviceDownloads[device].GetBlockCounts(folder) m.pmut.RUnlock() var need, items, fileNeed, downloaded, deletes int64 rf.WithNeedTruncated(device, func(f db.FileIntf) bool { ft := f.(db.FileInfoTruncated) // If the file is deleted, we account it only in the deleted column. if ft.Deleted { deletes++ return true } // This might might be more than it really is, because some blocks can be of a smaller size. downloaded = int64(counts[ft.Name] * int(ft.BlockSize())) fileNeed = ft.FileSize() - downloaded if fileNeed < 0 { fileNeed = 0 } need += fileNeed items++ return true }) needRatio := float64(need) / float64(tot) completionPct := 100 * (1 - needRatio) // If the completion is 100% but there are deletes we need to handle, // drop it down a notch. Hack for consumers that look only at the // percentage (our own GUI does the same calculation as here on its own // and needs the same fixup). if need == 0 && deletes > 0 { completionPct = 95 // chosen by fair dice roll } l.Debugf("%v Completion(%s, %q): %f (%d / %d = %f)", m, device, folder, completionPct, need, tot, needRatio) return FolderCompletion{ CompletionPct: completionPct, NeedBytes: need, NeedItems: items, GlobalBytes: tot, NeedDeletes: deletes, } } func addSizeOfFile(s *db.Counts, f db.FileIntf) { switch { case f.IsDeleted(): s.Deleted++ case f.IsDirectory(): s.Directories++ case f.IsSymlink(): s.Symlinks++ default: s.Files++ } s.Bytes += f.FileSize() } // GlobalSize returns the number of files, deleted files and total bytes for all // files in the global model. func (m *Model) GlobalSize(folder string) db.Counts { m.fmut.RLock() defer m.fmut.RUnlock() if rf, ok := m.folderFiles[folder]; ok { return rf.GlobalSize() } return db.Counts{} } // LocalSize returns the number of files, deleted files and total bytes for all // files in the local folder. func (m *Model) LocalSize(folder string) db.Counts { m.fmut.RLock() defer m.fmut.RUnlock() if rf, ok := m.folderFiles[folder]; ok { return rf.LocalSize() } return db.Counts{} } // ReceiveOnlyChangedSize returns the number of files, deleted files and // total bytes for all files that have changed locally in a receieve only // folder. func (m *Model) ReceiveOnlyChangedSize(folder string) db.Counts { m.fmut.RLock() defer m.fmut.RUnlock() if rf, ok := m.folderFiles[folder]; ok { return rf.ReceiveOnlyChangedSize() } return db.Counts{} } // NeedSize returns the number and total size of currently needed files. func (m *Model) NeedSize(folder string) db.Counts { m.fmut.RLock() defer m.fmut.RUnlock() var result db.Counts if rf, ok := m.folderFiles[folder]; ok { cfg := m.folderCfgs[folder] rf.WithNeedTruncated(protocol.LocalDeviceID, func(f db.FileIntf) bool { if cfg.IgnoreDelete && f.IsDeleted() { return true } addSizeOfFile(&result, f) return true }) } result.Bytes -= m.progressEmitter.BytesCompleted(folder) l.Debugf("%v NeedSize(%q): %v", m, folder, result) return result } // NeedFolderFiles returns paginated list of currently needed files in // progress, queued, and to be queued on next puller iteration, as well as the // total number of files currently needed. func (m *Model) NeedFolderFiles(folder string, page, perpage int) ([]db.FileInfoTruncated, []db.FileInfoTruncated, []db.FileInfoTruncated) { m.fmut.RLock() defer m.fmut.RUnlock() rf, ok := m.folderFiles[folder] if !ok { return nil, nil, nil } var progress, queued, rest []db.FileInfoTruncated var seen map[string]struct{} skip := (page - 1) * perpage get := perpage runner, ok := m.folderRunners[folder] if ok { allProgressNames, allQueuedNames := runner.Jobs() var progressNames, queuedNames []string progressNames, skip, get = getChunk(allProgressNames, skip, get) queuedNames, skip, get = getChunk(allQueuedNames, skip, get) progress = make([]db.FileInfoTruncated, len(progressNames)) queued = make([]db.FileInfoTruncated, len(queuedNames)) seen = make(map[string]struct{}, len(progressNames)+len(queuedNames)) for i, name := range progressNames { if f, ok := rf.GetGlobalTruncated(name); ok { progress[i] = f seen[name] = struct{}{} } } for i, name := range queuedNames { if f, ok := rf.GetGlobalTruncated(name); ok { queued[i] = f seen[name] = struct{}{} } } } rest = make([]db.FileInfoTruncated, 0, perpage) cfg := m.folderCfgs[folder] rf.WithNeedTruncated(protocol.LocalDeviceID, func(f db.FileIntf) bool { if cfg.IgnoreDelete && f.IsDeleted() { return true } if skip > 0 { skip-- return true } if get > 0 { ft := f.(db.FileInfoTruncated) if _, ok := seen[ft.Name]; !ok { rest = append(rest, ft) get-- } } return get > 0 }) return progress, queued, rest } // RemoteNeedFolderFiles returns paginated list of currently needed files in // progress, queued, and to be queued on next puller iteration, as well as the // total number of files currently needed. func (m *Model) RemoteNeedFolderFiles(device protocol.DeviceID, folder string, page, perpage int) ([]db.FileInfoTruncated, error) { m.fmut.RLock() m.pmut.RLock() if err := m.checkDeviceFolderConnectedLocked(device, folder); err != nil { m.pmut.RUnlock() m.fmut.RUnlock() return nil, err } rf := m.folderFiles[folder] m.pmut.RUnlock() m.fmut.RUnlock() files := make([]db.FileInfoTruncated, 0, perpage) skip := (page - 1) * perpage get := perpage rf.WithNeedTruncated(device, func(f db.FileIntf) bool { if skip > 0 { skip-- return true } if get > 0 { files = append(files, f.(db.FileInfoTruncated)) get-- } return get > 0 }) return files, nil } // Index is called when a new device is connected and we receive their full index. // Implements the protocol.Model interface. func (m *Model) Index(deviceID protocol.DeviceID, folder string, fs []protocol.FileInfo) { m.handleIndex(deviceID, folder, fs, false) } // IndexUpdate is called for incremental updates to connected devices' indexes. // Implements the protocol.Model interface. func (m *Model) IndexUpdate(deviceID protocol.DeviceID, folder string, fs []protocol.FileInfo) { m.handleIndex(deviceID, folder, fs, true) } func (m *Model) handleIndex(deviceID protocol.DeviceID, folder string, fs []protocol.FileInfo, update bool) { op := "Index" if update { op += " update" } l.Debugf("%v (in): %s / %q: %d files", op, deviceID, folder, len(fs)) if cfg, ok := m.cfg.Folder(folder); !ok || !cfg.SharedWith(deviceID) { l.Infof("%v for unexpected folder ID %q sent from device %q; ensure that the folder exists and that this device is selected under \"Share With\" in the folder configuration.", op, folder, deviceID) return } else if cfg.Paused { l.Debugf("%v for paused folder (ID %q) sent from device %q.", op, folder, deviceID) return } m.fmut.RLock() files, existing := m.folderFiles[folder] runner, running := m.folderRunners[folder] m.fmut.RUnlock() if !existing { l.Fatalf("%v for nonexistent folder %q", op, folder) } if running { defer runner.SchedulePull() } else if update { // Runner may legitimately not be set if this is the "cleanup" Index // message at startup. l.Fatalf("%v for not running folder %q", op, folder) } m.pmut.RLock() m.deviceDownloads[deviceID].Update(folder, makeForgetUpdate(fs)) m.pmut.RUnlock() if !update { files.Drop(deviceID) } for i := range fs { // The local flags should never be transmitted over the wire. Make // sure they look like they weren't. fs[i].LocalFlags = 0 } files.Update(deviceID, fs) events.Default.Log(events.RemoteIndexUpdated, map[string]interface{}{ "device": deviceID.String(), "folder": folder, "items": len(fs), "version": files.Sequence(deviceID), }) } func (m *Model) ClusterConfig(deviceID protocol.DeviceID, cm protocol.ClusterConfig) { // Check the peer device's announced folders against our own. Emits events // for folders that we don't expect (unknown or not shared). // Also, collect a list of folders we do share, and if he's interested in // temporary indexes, subscribe the connection. tempIndexFolders := make([]string, 0, len(cm.Folders)) m.pmut.RLock() conn, ok := m.conn[deviceID] hello := m.helloMessages[deviceID] m.pmut.RUnlock() if !ok { panic("bug: ClusterConfig called on closed or nonexistent connection") } dbLocation := filepath.Dir(m.db.Location()) changed := false deviceCfg := m.cfg.Devices()[deviceID] // See issue #3802 - in short, we can't send modern symlink entries to older // clients. dropSymlinks := false if hello.ClientName == m.clientName && upgrade.CompareVersions(hello.ClientVersion, "v0.14.14") < 0 { l.Warnln("Not sending symlinks to old client", deviceID, "- please upgrade to v0.14.14 or newer") dropSymlinks = true } // Needs to happen outside of the fmut, as can cause CommitConfiguration if deviceCfg.AutoAcceptFolders { for _, folder := range cm.Folders { changed = m.handleAutoAccepts(deviceCfg, folder) || changed } } m.fmut.Lock() var paused []string for _, folder := range cm.Folders { cfg, ok := m.cfg.Folder(folder.ID) if !ok || !cfg.SharedWith(deviceID) { if deviceCfg.IgnoredFolder(folder.ID) { l.Infof("Ignoring folder %s from device %s since we are configured to", folder.Description(), deviceID) continue } m.cfg.AddOrUpdatePendingFolder(folder.ID, folder.Label, deviceID) events.Default.Log(events.FolderRejected, map[string]string{ "folder": folder.ID, "folderLabel": folder.Label, "device": deviceID.String(), }) l.Infof("Unexpected folder %s sent from device %q; ensure that the folder exists and that this device is selected under \"Share With\" in the folder configuration.", folder.Description(), deviceID) continue } if folder.Paused { paused = append(paused, folder.ID) continue } if cfg.Paused { continue } fs, ok := m.folderFiles[folder.ID] if !ok { // Shouldn't happen because !cfg.Paused, but might happen // if the folder is about to be unpaused, but not yet. continue } if !folder.DisableTempIndexes { tempIndexFolders = append(tempIndexFolders, folder.ID) } myIndexID := fs.IndexID(protocol.LocalDeviceID) mySequence := fs.Sequence(protocol.LocalDeviceID) var startSequence int64 for _, dev := range folder.Devices { if dev.ID == m.id { // This is the other side's description of what it knows // about us. Lets check to see if we can start sending index // updates directly or need to send the index from start... if dev.IndexID == myIndexID { // They say they've seen our index ID before, so we can // send a delta update only. if dev.MaxSequence > mySequence { // Safety check. They claim to have more or newer // index data than we have - either we have lost // index data, or reset the index without resetting // the IndexID, or something else weird has // happened. We send a full index to reset the // situation. l.Infof("Device %v folder %s is delta index compatible, but seems out of sync with reality", deviceID, folder.Description()) startSequence = 0 continue } l.Debugf("Device %v folder %s is delta index compatible (mlv=%d)", deviceID, folder.Description(), dev.MaxSequence) startSequence = dev.MaxSequence } else if dev.IndexID != 0 { // They say they've seen an index ID from us, but it's // not the right one. Either they are confused or we // must have reset our database since last talking to // them. We'll start with a full index transfer. l.Infof("Device %v folder %s has mismatching index ID for us (%v != %v)", deviceID, folder.Description(), dev.IndexID, myIndexID) startSequence = 0 } } else if dev.ID == deviceID && dev.IndexID != 0 { // This is the other side's description of themselves. We // check to see that it matches the IndexID we have on file, // otherwise we drop our old index data and expect to get a // completely new set. theirIndexID := fs.IndexID(deviceID) if dev.IndexID == 0 { // They're not announcing an index ID. This means they // do not support delta indexes and we should clear any // information we have from them before accepting their // index, which will presumably be a full index. fs.Drop(deviceID) } else if dev.IndexID != theirIndexID { // The index ID we have on file is not what they're // announcing. They must have reset their database and // will probably send us a full index. We drop any // information we have and remember this new index ID // instead. l.Infof("Device %v folder %s has a new index ID (%v)", deviceID, folder.Description(), dev.IndexID) fs.Drop(deviceID) fs.SetIndexID(deviceID, dev.IndexID) } else { // They're sending a recognized index ID and will most // likely use delta indexes. We might already have files // that we need to pull so let the folder runner know // that it should recheck the index data. if runner := m.folderRunners[folder.ID]; runner != nil { defer runner.SchedulePull() } } } } go sendIndexes(conn, folder.ID, fs, m.folderIgnores[folder.ID], startSequence, dbLocation, dropSymlinks) } m.pmut.Lock() m.remotePausedFolders[deviceID] = paused m.pmut.Unlock() // This breaks if we send multiple CM messages during the same connection. if len(tempIndexFolders) > 0 { m.pmut.RLock() conn, ok := m.conn[deviceID] m.pmut.RUnlock() // In case we've got ClusterConfig, and the connection disappeared // from infront of our nose. if ok { m.progressEmitter.temporaryIndexSubscribe(conn, tempIndexFolders) } } if deviceCfg.Introducer { foldersDevices, introduced := m.handleIntroductions(deviceCfg, cm) if introduced { changed = true } // If permitted, check if the introducer has unshare devices/folders with // some of the devices/folders that we know were introduced to us by him. if !deviceCfg.SkipIntroductionRemovals && m.handleDeintroductions(deviceCfg, cm, foldersDevices) { changed = true } } m.fmut.Unlock() if changed { if err := m.cfg.Save(); err != nil { l.Warnln("Failed to save config", err) } } } // handleIntroductions handles adding devices/shares that are shared by an introducer device func (m *Model) handleIntroductions(introducerCfg config.DeviceConfiguration, cm protocol.ClusterConfig) (folderDeviceSet, bool) { // This device is an introducer. Go through the announced lists of folders // and devices and add what we are missing, remove what we have extra that // has been introducer by the introducer. changed := false foldersDevices := make(folderDeviceSet) for _, folder := range cm.Folders { // Adds devices which we do not have, but the introducer has // for the folders that we have in common. Also, shares folders // with devices that we have in common, yet are currently not sharing // the folder. fcfg, ok := m.cfg.Folder(folder.ID) if !ok { // Don't have this folder, carry on. continue } for _, device := range folder.Devices { // No need to share with self. if device.ID == m.id { continue } foldersDevices.set(device.ID, folder.ID) if _, ok := m.cfg.Devices()[device.ID]; !ok { // The device is currently unknown. Add it to the config. m.introduceDevice(device, introducerCfg) } else if fcfg.SharedWith(device.ID) { // We already share the folder with this device, so // nothing to do. continue } // We don't yet share this folder with this device. Add the device // to sharing list of the folder. l.Infof("Sharing folder %s with %v (vouched for by introducer %v)", folder.Description(), device.ID, introducerCfg.DeviceID) fcfg.Devices = append(fcfg.Devices, config.FolderDeviceConfiguration{ DeviceID: device.ID, IntroducedBy: introducerCfg.DeviceID, }) changed = true } if changed { m.cfg.SetFolder(fcfg) } } return foldersDevices, changed } // handleDeintroductions handles removals of devices/shares that are removed by an introducer device func (m *Model) handleDeintroductions(introducerCfg config.DeviceConfiguration, cm protocol.ClusterConfig, foldersDevices folderDeviceSet) bool { changed := false devicesNotIntroduced := make(map[protocol.DeviceID]struct{}) folders := m.cfg.FolderList() // Check if we should unshare some folders, if the introducer has unshared them. for i := range folders { for k := 0; k < len(folders[i].Devices); k++ { if folders[i].Devices[k].IntroducedBy != introducerCfg.DeviceID { devicesNotIntroduced[folders[i].Devices[k].DeviceID] = struct{}{} continue } if !foldersDevices.has(folders[i].Devices[k].DeviceID, folders[i].ID) { // We could not find that folder shared on the // introducer with the device that was introduced to us. // We should follow and unshare as well. l.Infof("Unsharing folder %s with %v as introducer %v no longer shares the folder with that device", folders[i].Description(), folders[i].Devices[k].DeviceID, folders[i].Devices[k].IntroducedBy) folders[i].Devices = append(folders[i].Devices[:k], folders[i].Devices[k+1:]...) k-- changed = true } } } // Check if we should remove some devices, if the introducer no longer // shares any folder with them. Yet do not remove if we share other // folders that haven't been introduced by the introducer. devMap := m.cfg.Devices() devices := make([]config.DeviceConfiguration, 0, len(devMap)) for deviceID, device := range devMap { if device.IntroducedBy == introducerCfg.DeviceID { if !foldersDevices.hasDevice(deviceID) { if _, ok := devicesNotIntroduced[deviceID]; !ok { // The introducer no longer shares any folder with the // device, remove the device. l.Infof("Removing device %v as introducer %v no longer shares any folders with that device", deviceID, device.IntroducedBy) changed = true continue } l.Infof("Would have removed %v as %v no longer shares any folders, yet there are other folders that are shared with this device that haven't been introduced by this introducer.", deviceID, device.IntroducedBy) } } devices = append(devices, device) } if changed { cfg := m.cfg.RawCopy() cfg.Folders = folders cfg.Devices = devices m.cfg.Replace(cfg) } return changed } // handleAutoAccepts handles adding and sharing folders for devices that have // AutoAcceptFolders set to true. func (m *Model) handleAutoAccepts(deviceCfg config.DeviceConfiguration, folder protocol.Folder) bool { if cfg, ok := m.cfg.Folder(folder.ID); !ok { defaultPath := m.cfg.Options().DefaultFolderPath defaultPathFs := fs.NewFilesystem(fs.FilesystemTypeBasic, defaultPath) for _, path := range []string{folder.Label, folder.ID} { if _, err := defaultPathFs.Lstat(path); !fs.IsNotExist(err) { continue } fcfg := config.NewFolderConfiguration(m.id, folder.ID, folder.Label, fs.FilesystemTypeBasic, filepath.Join(defaultPath, path)) fcfg.Devices = append(fcfg.Devices, config.FolderDeviceConfiguration{ DeviceID: deviceCfg.DeviceID, }) // Need to wait for the waiter, as this calls CommitConfiguration, // which sets up the folder and as we return from this call, // ClusterConfig starts poking at m.folderFiles and other things // that might not exist until the config is committed. w, _ := m.cfg.SetFolder(fcfg) w.Wait() l.Infof("Auto-accepted %s folder %s at path %s", deviceCfg.DeviceID, folder.Description(), fcfg.Path) return true } l.Infof("Failed to auto-accept folder %s from %s due to path conflict", folder.Description(), deviceCfg.DeviceID) return false } else { for _, device := range cfg.DeviceIDs() { if device == deviceCfg.DeviceID { // Already shared nothing todo. return false } } cfg.Devices = append(cfg.Devices, config.FolderDeviceConfiguration{ DeviceID: deviceCfg.DeviceID, }) w, _ := m.cfg.SetFolder(cfg) w.Wait() l.Infof("Shared %s with %s due to auto-accept", folder.ID, deviceCfg.DeviceID) return true } } func (m *Model) introduceDevice(device protocol.Device, introducerCfg config.DeviceConfiguration) { addresses := []string{"dynamic"} for _, addr := range device.Addresses { if addr != "dynamic" { addresses = append(addresses, addr) } } l.Infof("Adding device %v to config (vouched for by introducer %v)", device.ID, introducerCfg.DeviceID) newDeviceCfg := config.DeviceConfiguration{ DeviceID: device.ID, Name: device.Name, Compression: introducerCfg.Compression, Addresses: addresses, CertName: device.CertName, IntroducedBy: introducerCfg.DeviceID, } // The introducers' introducers are also our introducers. if device.Introducer { l.Infof("Device %v is now also an introducer", device.ID) newDeviceCfg.Introducer = true newDeviceCfg.SkipIntroductionRemovals = device.SkipIntroductionRemovals } m.cfg.SetDevice(newDeviceCfg) } // Closed is called when a connection has been closed func (m *Model) Closed(conn protocol.Connection, err error) { device := conn.ID() m.pmut.Lock() conn, ok := m.conn[device] if ok { m.progressEmitter.temporaryIndexUnsubscribe(conn) } delete(m.conn, device) delete(m.helloMessages, device) delete(m.deviceDownloads, device) delete(m.remotePausedFolders, device) closed := m.closed[device] delete(m.closed, device) m.pmut.Unlock() l.Infof("Connection to %s at %s closed: %v", device, conn.Name(), err) events.Default.Log(events.DeviceDisconnected, map[string]string{ "id": device.String(), "error": err.Error(), }) close(closed) } // close will close the underlying connection for a given device func (m *Model) close(device protocol.DeviceID) { m.pmut.Lock() m.closeLocked(device) m.pmut.Unlock() } // closeLocked will close the underlying connection for a given device func (m *Model) closeLocked(device protocol.DeviceID) { conn, ok := m.conn[device] if !ok { // There is no connection to close return } closeRawConn(conn) } // Request returns the specified data segment by reading it from local disk. // Implements the protocol.Model interface. func (m *Model) Request(deviceID protocol.DeviceID, folder, name string, offset int64, hash []byte, weakHash uint32, fromTemporary bool, buf []byte) error { if offset < 0 { return protocol.ErrInvalid } if cfg, ok := m.cfg.Folder(folder); !ok || !cfg.SharedWith(deviceID) { l.Warnf("Request from %s for file %s in unshared folder %q", deviceID, name, folder) return protocol.ErrNoSuchFile } else if cfg.Paused { l.Debugf("Request from %s for file %s in paused folder %q", deviceID, name, folder) return protocol.ErrInvalid } m.fmut.RLock() folderCfg, ok := m.folderCfgs[folder] folderIgnores := m.folderIgnores[folder] m.fmut.RUnlock() if !ok { // The folder might be already unpaused in the config, but not yet // in the model. l.Debugf("Request from %s for file %s in unstarted folder %q", deviceID, name, folder) return protocol.ErrInvalid } // Make sure the path is valid and in canonical form var err error if name, err = fs.Canonicalize(name); err != nil { l.Debugf("Request from %s in folder %q for invalid filename %s", deviceID, folder, name) return protocol.ErrInvalid } if deviceID != protocol.LocalDeviceID { l.Debugf("%v REQ(in): %s: %q / %q o=%d s=%d t=%v", m, deviceID, folder, name, offset, len(buf), fromTemporary) } folderFs := folderCfg.Filesystem() if fs.IsInternal(name) { l.Debugf("%v REQ(in) for internal file: %s: %q / %q o=%d s=%d", m, deviceID, folder, name, offset, len(buf)) return protocol.ErrNoSuchFile } if folderIgnores.Match(name).IsIgnored() { l.Debugf("%v REQ(in) for ignored file: %s: %q / %q o=%d s=%d", m, deviceID, folder, name, offset, len(buf)) return protocol.ErrNoSuchFile } if err := osutil.TraversesSymlink(folderFs, filepath.Dir(name)); err != nil { l.Debugf("%v REQ(in) traversal check: %s - %s: %q / %q o=%d s=%d", m, err, deviceID, folder, name, offset, len(buf)) return protocol.ErrNoSuchFile } // Only check temp files if the flag is set, and if we are set to advertise // the temp indexes. if fromTemporary && !folderCfg.DisableTempIndexes { tempFn := fs.TempName(name) if info, err := folderFs.Lstat(tempFn); err != nil || !info.IsRegular() { // Reject reads for anything that doesn't exist or is something // other than a regular file. return protocol.ErrNoSuchFile } err := readOffsetIntoBuf(folderFs, tempFn, offset, buf) if err == nil && scanner.Validate(buf, hash, weakHash) { return nil } // Fall through to reading from a non-temp file, just incase the temp // file has finished downloading. } if info, err := folderFs.Lstat(name); err != nil || !info.IsRegular() { // Reject reads for anything that doesn't exist or is something // other than a regular file. return protocol.ErrNoSuchFile } if err = readOffsetIntoBuf(folderFs, name, offset, buf); fs.IsNotExist(err) { return protocol.ErrNoSuchFile } else if err != nil { return protocol.ErrGeneric } if !scanner.Validate(buf, hash, weakHash) { m.recheckFile(deviceID, folderFs, folder, name, int(offset)/len(buf), hash) return protocol.ErrNoSuchFile } return nil } func (m *Model) recheckFile(deviceID protocol.DeviceID, folderFs fs.Filesystem, folder, name string, blockIndex int, hash []byte) { cf, ok := m.CurrentFolderFile(folder, name) if !ok { l.Debugf("%v recheckFile: %s: %q / %q: no current file", m, deviceID, folder, name) return } if cf.IsDeleted() || cf.IsInvalid() || cf.IsSymlink() || cf.IsDirectory() { l.Debugf("%v recheckFile: %s: %q / %q: not a regular file", m, deviceID, folder, name) return } if blockIndex >= len(cf.Blocks) { l.Debugf("%v recheckFile: %s: %q / %q i=%d: block index too far", m, deviceID, folder, name, blockIndex) return } block := cf.Blocks[blockIndex] // Seems to want a different version of the file, whatever. if !bytes.Equal(block.Hash, hash) { l.Debugf("%v recheckFile: %s: %q / %q i=%d: hash mismatch %x != %x", m, deviceID, folder, name, blockIndex, block.Hash, hash) return } // The hashes provided part of the request match what we expect to find according // to what we have in the database, yet the content we've read off the filesystem doesn't // Something is fishy, invalidate the file and rescan it. cf.SetMustRescan(m.shortID) // Update the index and tell others // The file will temporarily become invalid, which is ok as the content is messed up. m.updateLocalsFromScanning(folder, []protocol.FileInfo{cf}) if err := m.ScanFolderSubdirs(folder, []string{name}); err != nil { l.Debugf("%v recheckFile: %s: %q / %q rescan: %s", m, deviceID, folder, name, err) } else { l.Debugf("%v recheckFile: %s: %q / %q", m, deviceID, folder, name) } } func (m *Model) CurrentFolderFile(folder string, file string) (protocol.FileInfo, bool) { m.fmut.RLock() fs, ok := m.folderFiles[folder] m.fmut.RUnlock() if !ok { return protocol.FileInfo{}, false } return fs.Get(protocol.LocalDeviceID, file) } func (m *Model) CurrentGlobalFile(folder string, file string) (protocol.FileInfo, bool) { m.fmut.RLock() fs, ok := m.folderFiles[folder] m.fmut.RUnlock() if !ok { return protocol.FileInfo{}, false } return fs.GetGlobal(file) } type cFiler struct { m *Model r string } // Implements scanner.CurrentFiler func (cf cFiler) CurrentFile(file string) (protocol.FileInfo, bool) { return cf.m.CurrentFolderFile(cf.r, file) } // Connection returns the current connection for device, and a boolean whether a connection was found. func (m *Model) Connection(deviceID protocol.DeviceID) (connections.Connection, bool) { m.pmut.RLock() cn, ok := m.conn[deviceID] m.pmut.RUnlock() if ok { m.deviceWasSeen(deviceID) } return cn, ok } func (m *Model) GetIgnores(folder string) ([]string, []string, error) { m.fmut.RLock() defer m.fmut.RUnlock() cfg, ok := m.folderCfgs[folder] if !ok { cfg, ok = m.cfg.Folders()[folder] if !ok { return nil, nil, fmt.Errorf("Folder %s does not exist", folder) } } // On creation a new folder with ignore patterns validly has no marker yet. if err := cfg.CheckPath(); err != nil && err != config.ErrMarkerMissing { return nil, nil, err } ignores, ok := m.folderIgnores[folder] if !ok { ignores = ignore.New(fs.NewFilesystem(cfg.FilesystemType, cfg.Path)) } if err := ignores.Load(".stignore"); err != nil && !fs.IsNotExist(err) { return nil, nil, err } return ignores.Lines(), ignores.Patterns(), nil } func (m *Model) SetIgnores(folder string, content []string) error { cfg, ok := m.cfg.Folders()[folder] if !ok { return fmt.Errorf("folder %s does not exist", cfg.Description()) } err := cfg.CheckPath() if err == config.ErrPathMissing { if err = cfg.CreateRoot(); err != nil { return fmt.Errorf("failed to create folder root: %v", err) } err = cfg.CheckPath() } if err != nil && err != config.ErrMarkerMissing { return err } if err := ignore.WriteIgnores(cfg.Filesystem(), ".stignore", content); err != nil { l.Warnln("Saving .stignore:", err) return err } m.fmut.RLock() runner, ok := m.folderRunners[folder] m.fmut.RUnlock() if ok { return runner.Scan(nil) } return nil } // OnHello is called when an device connects to us. // This allows us to extract some information from the Hello message // and add it to a list of known devices ahead of any checks. func (m *Model) OnHello(remoteID protocol.DeviceID, addr net.Addr, hello protocol.HelloResult) error { if m.cfg.IgnoredDevice(remoteID) { return errDeviceIgnored } cfg, ok := m.cfg.Device(remoteID) if !ok { m.cfg.AddOrUpdatePendingDevice(remoteID, hello.DeviceName, addr.String()) events.Default.Log(events.DeviceRejected, map[string]string{ "name": hello.DeviceName, "device": remoteID.String(), "address": addr.String(), }) return errDeviceUnknown } if cfg.Paused { return errDevicePaused } if len(cfg.AllowedNetworks) > 0 { if !connections.IsAllowedNetwork(addr.String(), cfg.AllowedNetworks) { return errNetworkNotAllowed } } return nil } // GetHello is called when we are about to connect to some remote device. func (m *Model) GetHello(id protocol.DeviceID) protocol.HelloIntf { name := "" if _, ok := m.cfg.Device(id); ok { name = m.cfg.MyName() } return &protocol.Hello{ DeviceName: name, ClientName: m.clientName, ClientVersion: m.clientVersion, } } // AddConnection adds a new peer connection to the model. An initial index will // be sent to the connected peer, thereafter index updates whenever the local // folder changes. func (m *Model) AddConnection(conn connections.Connection, hello protocol.HelloResult) { deviceID := conn.ID() m.pmut.Lock() if oldConn, ok := m.conn[deviceID]; ok { l.Infoln("Replacing old connection", oldConn, "with", conn, "for", deviceID) // There is an existing connection to this device that we are // replacing. We must close the existing connection and wait for the // close to complete before adding the new connection. We do the // actual close without holding pmut as the connection will call // back into Closed() for the cleanup. closed := m.closed[deviceID] m.pmut.Unlock() closeRawConn(oldConn) <-closed m.pmut.Lock() } m.conn[deviceID] = conn m.closed[deviceID] = make(chan struct{}) m.deviceDownloads[deviceID] = newDeviceDownloadState() m.helloMessages[deviceID] = hello event := map[string]string{ "id": deviceID.String(), "deviceName": hello.DeviceName, "clientName": hello.ClientName, "clientVersion": hello.ClientVersion, "type": conn.Type(), } addr := conn.RemoteAddr() if addr != nil { event["addr"] = addr.String() } events.Default.Log(events.DeviceConnected, event) l.Infof(`Device %s client is "%s %s" named "%s" at %s`, deviceID, hello.ClientName, hello.ClientVersion, hello.DeviceName, conn) conn.Start() m.pmut.Unlock() // Acquires fmut, so has to be done outside of pmut. cm := m.generateClusterConfig(deviceID) conn.ClusterConfig(cm) device, ok := m.cfg.Devices()[deviceID] if ok && (device.Name == "" || m.cfg.Options().OverwriteRemoteDevNames) && hello.DeviceName != "" { device.Name = hello.DeviceName m.cfg.SetDevice(device) m.cfg.Save() } m.deviceWasSeen(deviceID) } func (m *Model) DownloadProgress(device protocol.DeviceID, folder string, updates []protocol.FileDownloadProgressUpdate) { m.fmut.RLock() cfg, ok := m.folderCfgs[folder] m.fmut.RUnlock() if !ok || cfg.DisableTempIndexes || !cfg.SharedWith(device) { return } m.pmut.RLock() m.deviceDownloads[device].Update(folder, updates) state := m.deviceDownloads[device].GetBlockCounts(folder) m.pmut.RUnlock() events.Default.Log(events.RemoteDownloadProgress, map[string]interface{}{ "device": device.String(), "folder": folder, "state": state, }) } func (m *Model) deviceStatRef(deviceID protocol.DeviceID) *stats.DeviceStatisticsReference { m.fmut.Lock() defer m.fmut.Unlock() if sr, ok := m.deviceStatRefs[deviceID]; ok { return sr } sr := stats.NewDeviceStatisticsReference(m.db, deviceID.String()) m.deviceStatRefs[deviceID] = sr return sr } func (m *Model) deviceWasSeen(deviceID protocol.DeviceID) { m.deviceStatRef(deviceID).WasSeen() } func (m *Model) folderStatRef(folder string) *stats.FolderStatisticsReference { m.fmut.Lock() defer m.fmut.Unlock() sr, ok := m.folderStatRefs[folder] if !ok { sr = stats.NewFolderStatisticsReference(m.db, folder) m.folderStatRefs[folder] = sr } return sr } func (m *Model) receivedFile(folder string, file protocol.FileInfo) { m.folderStatRef(folder).ReceivedFile(file.Name, file.IsDeleted()) } func sendIndexes(conn protocol.Connection, folder string, fs *db.FileSet, ignores *ignore.Matcher, prevSequence int64, dbLocation string, dropSymlinks bool) { deviceID := conn.ID() var err error l.Debugf("Starting sendIndexes for %s to %s at %s (slv=%d)", folder, deviceID, conn, prevSequence) defer l.Debugf("Exiting sendIndexes for %s to %s at %s: %v", folder, deviceID, conn, err) // We need to send one index, regardless of whether there is something to send or not prevSequence, err = sendIndexTo(prevSequence, conn, folder, fs, ignores, dbLocation, dropSymlinks) // Subscribe to LocalIndexUpdated (we have new information to send) and // DeviceDisconnected (it might be us who disconnected, so we should // exit). sub := events.Default.Subscribe(events.LocalIndexUpdated | events.DeviceDisconnected) defer events.Default.Unsubscribe(sub) for err == nil { if conn.Closed() { // Our work is done. return } // While we have sent a sequence at least equal to the one // currently in the database, wait for the local index to update. The // local index may update for other folders than the one we are // sending for. if fs.Sequence(protocol.LocalDeviceID) <= prevSequence { sub.Poll(time.Minute) continue } prevSequence, err = sendIndexTo(prevSequence, conn, folder, fs, ignores, dbLocation, dropSymlinks) // Wait a short amount of time before entering the next loop. If there // are continuous changes happening to the local index, this gives us // time to batch them up a little. time.Sleep(250 * time.Millisecond) } } // sendIndexTo sends file infos with a sequence number higher than prevSequence and // returns the highest sent sequence number. func sendIndexTo(prevSequence int64, conn protocol.Connection, folder string, fs *db.FileSet, ignores *ignore.Matcher, dbLocation string, dropSymlinks bool) (int64, error) { deviceID := conn.ID() initial := prevSequence == 0 batch := newFileInfoBatch(nil) batch.flushFn = func(fs []protocol.FileInfo) error { l.Debugf("Sending indexes for %s to %s at %s: %d files (<%d bytes)", folder, deviceID, conn, len(batch.infos), batch.size) if initial { initial = false return conn.Index(folder, fs) } return conn.IndexUpdate(folder, fs) } var err error var f protocol.FileInfo fs.WithHaveSequence(prevSequence+1, func(fi db.FileIntf) bool { if err = batch.flushIfFull(); err != nil { return false } if shouldDebug() { if fi.SequenceNo() < prevSequence+1 { panic(fmt.Sprintln("sequence lower than requested, got:", fi.SequenceNo(), ", asked to start at:", prevSequence+1)) } if f.Sequence > 0 && fi.SequenceNo() <= f.Sequence { panic(fmt.Sprintln("non-increasing sequence, current:", fi.SequenceNo(), "<= previous:", f.Sequence)) } } if shouldDebug() { if fi.SequenceNo() < prevSequence+1 { panic(fmt.Sprintln("sequence lower than requested, got:", fi.SequenceNo(), ", asked to start at:", prevSequence+1)) } if f.Sequence > 0 && fi.SequenceNo() <= f.Sequence { panic(fmt.Sprintln("non-increasing sequence, current:", fi.SequenceNo(), "<= previous:", f.Sequence)) } } f = fi.(protocol.FileInfo) // Mark the file as invalid if any of the local bad stuff flags are set. f.RawInvalid = f.IsInvalid() // If the file is marked LocalReceive (i.e., changed locally on a // receive only folder) we do not want it to ever become the // globally best version, invalid or not. if f.IsReceiveOnlyChanged() { f.Version = protocol.Vector{} } f.LocalFlags = 0 // never sent externally if dropSymlinks && f.IsSymlink() { // Do not send index entries with symlinks to clients that can't // handle it. Fixes issue #3802. Once both sides are upgraded, a // rescan (i.e., change) of the symlink is required for it to // sync again, due to delta indexes. return true } batch.append(f) return true }) if err != nil { return prevSequence, err } err = batch.flush() // True if there was nothing to be sent if f.Sequence == 0 { return prevSequence, err } return f.Sequence, err } func (m *Model) updateLocalsFromScanning(folder string, fs []protocol.FileInfo) { m.updateLocals(folder, fs) m.fmut.RLock() folderCfg := m.folderCfgs[folder] m.fmut.RUnlock() m.diskChangeDetected(folderCfg, fs, events.LocalChangeDetected) } func (m *Model) updateLocalsFromPulling(folder string, fs []protocol.FileInfo) { m.updateLocals(folder, fs) m.fmut.RLock() folderCfg := m.folderCfgs[folder] m.fmut.RUnlock() m.diskChangeDetected(folderCfg, fs, events.RemoteChangeDetected) } func (m *Model) updateLocals(folder string, fs []protocol.FileInfo) { m.fmut.RLock() files := m.folderFiles[folder] m.fmut.RUnlock() if files == nil { // The folder doesn't exist. return } files.Update(protocol.LocalDeviceID, fs) filenames := make([]string, len(fs)) for i, file := range fs { filenames[i] = file.Name } events.Default.Log(events.LocalIndexUpdated, map[string]interface{}{ "folder": folder, "items": len(fs), "filenames": filenames, "version": files.Sequence(protocol.LocalDeviceID), }) } func (m *Model) diskChangeDetected(folderCfg config.FolderConfiguration, files []protocol.FileInfo, typeOfEvent events.EventType) { for _, file := range files { if file.IsInvalid() { continue } objType := "file" action := "modified" switch { case file.IsDeleted(): action = "deleted" // If our local vector is version 1 AND it is the only version // vector so far seen for this file then it is a new file. Else if // it is > 1 it's not new, and if it is 1 but another shortId // version vector exists then it is new for us but created elsewhere // so the file is still not new but modified by us. Only if it is // truly new do we change this to 'added', else we leave it as // 'modified'. case len(file.Version.Counters) == 1 && file.Version.Counters[0].Value == 1: action = "added" } if file.IsSymlink() { objType = "symlink" } else if file.IsDirectory() { objType = "dir" } // Two different events can be fired here based on what EventType is passed into function events.Default.Log(typeOfEvent, map[string]string{ "folder": folderCfg.ID, "folderID": folderCfg.ID, // incorrect, deprecated, kept for historical compliance "label": folderCfg.Label, "action": action, "type": objType, "path": filepath.FromSlash(file.Name), "modifiedBy": file.ModifiedBy.String(), }) } } func (m *Model) requestGlobal(deviceID protocol.DeviceID, folder, name string, offset int64, size int, hash []byte, weakHash uint32, fromTemporary bool) ([]byte, error) { m.pmut.RLock() nc, ok := m.conn[deviceID] m.pmut.RUnlock() if !ok { return nil, fmt.Errorf("requestGlobal: no such device: %s", deviceID) } l.Debugf("%v REQ(out): %s: %q / %q o=%d s=%d h=%x wh=%x ft=%t", m, deviceID, folder, name, offset, size, hash, weakHash, fromTemporary) return nc.Request(folder, name, offset, size, hash, weakHash, fromTemporary) } func (m *Model) ScanFolders() map[string]error { m.fmut.RLock() folders := make([]string, 0, len(m.folderCfgs)) for folder := range m.folderCfgs { folders = append(folders, folder) } m.fmut.RUnlock() errors := make(map[string]error, len(m.folderCfgs)) errorsMut := sync.NewMutex() wg := sync.NewWaitGroup() wg.Add(len(folders)) for _, folder := range folders { folder := folder go func() { err := m.ScanFolder(folder) if err != nil { errorsMut.Lock() errors[folder] = err errorsMut.Unlock() // Potentially sets the error twice, once in the scanner just // by doing a check, and once here, if the error returned is // the same one as returned by CheckHealth, though // duplicate set is handled by setError. m.fmut.RLock() srv := m.folderRunners[folder] m.fmut.RUnlock() srv.setError(err) } wg.Done() }() } wg.Wait() return errors } func (m *Model) ScanFolder(folder string) error { return m.ScanFolderSubdirs(folder, nil) } func (m *Model) ScanFolderSubdirs(folder string, subs []string) error { m.fmut.RLock() if err := m.checkFolderRunningLocked(folder); err != nil { m.fmut.RUnlock() return err } runner := m.folderRunners[folder] m.fmut.RUnlock() return runner.Scan(subs) } func (m *Model) internalScanFolderSubdirs(ctx context.Context, folder string, subDirs []string, localFlags uint32) error { m.fmut.RLock() if err := m.checkFolderRunningLocked(folder); err != nil { m.fmut.RUnlock() return err } fset := m.folderFiles[folder] folderCfg := m.folderCfgs[folder] ignores := m.folderIgnores[folder] runner := m.folderRunners[folder] m.fmut.RUnlock() mtimefs := fset.MtimeFS() for i := range subDirs { sub := osutil.NativeFilename(subDirs[i]) if sub == "" { // A blank subdirs means to scan the entire folder. We can trim // the subDirs list and go on our way. subDirs = nil break } subDirs[i] = sub } // Check if the ignore patterns changed as part of scanning this folder. // If they did we should schedule a pull of the folder so that we // request things we might have suddenly become unignored and so on. oldHash := ignores.Hash() defer func() { if ignores.Hash() != oldHash { l.Debugln("Folder", folder, "ignore patterns changed; triggering puller") runner.IgnoresUpdated() } }() if err := runner.CheckHealth(); err != nil { return err } if err := ignores.Load(".stignore"); err != nil && !fs.IsNotExist(err) { err = fmt.Errorf("loading ignores: %v", err) runner.setError(err) return err } // Clean the list of subitems to ensure that we start at a known // directory, and don't scan subdirectories of things we've already // scanned. subDirs = unifySubs(subDirs, func(f string) bool { _, ok := fset.Get(protocol.LocalDeviceID, f) return ok }) runner.setState(FolderScanning) fchan := scanner.Walk(ctx, scanner.Config{ Folder: folderCfg.ID, Subs: subDirs, Matcher: ignores, TempLifetime: time.Duration(m.cfg.Options().KeepTemporariesH) * time.Hour, CurrentFiler: cFiler{m, folder}, Filesystem: mtimefs, IgnorePerms: folderCfg.IgnorePerms, AutoNormalize: folderCfg.AutoNormalize, Hashers: m.numHashers(folder), ShortID: m.shortID, ProgressTickIntervalS: folderCfg.ScanProgressIntervalS, UseLargeBlocks: folderCfg.UseLargeBlocks, LocalFlags: localFlags, }) if err := runner.CheckHealth(); err != nil { return err } batchFn := func(fs []protocol.FileInfo) error { if err := runner.CheckHealth(); err != nil { l.Debugf("Stopping scan of folder %s due to: %s", folderCfg.Description(), err) return err } m.updateLocalsFromScanning(folder, fs) return nil } // Resolve items which are identical with the global state. if localFlags&protocol.FlagLocalReceiveOnly != 0 { oldBatchFn := batchFn // can't reference batchFn directly (recursion) batchFn = func(fs []protocol.FileInfo) error { for i := range fs { switch gf, ok := fset.GetGlobal(fs[i].Name); { case !ok: continue case gf.IsEquivalentOptional(fs[i], false, false, protocol.FlagLocalReceiveOnly): // What we have locally is equivalent to the global file. fs[i].Version = fs[i].Version.Merge(gf.Version) fallthrough case fs[i].IsDeleted() && gf.IsReceiveOnlyChanged(): // Our item is deleted and the global item is our own // receive only file. We can't delete file infos, so // we just pretend it is a normal deleted file (nobody // cares about that). fs[i].LocalFlags &^= protocol.FlagLocalReceiveOnly } } return oldBatchFn(fs) } } batch := newFileInfoBatch(batchFn) // Schedule a pull after scanning, but only if we actually detected any // changes. changes := 0 defer func() { if changes > 0 { runner.SchedulePull() } }() for f := range fchan { if err := batch.flushIfFull(); err != nil { return err } batch.append(f) changes++ } if err := batch.flush(); err != nil { return err } if len(subDirs) == 0 { // If we have no specific subdirectories to traverse, set it to one // empty prefix so we traverse the entire folder contents once. subDirs = []string{""} } // Do a scan of the database for each prefix, to check for deleted and // ignored files. var toIgnore []db.FileInfoTruncated ignoredParent := "" pathSep := string(fs.PathSeparator) for _, sub := range subDirs { var iterError error fset.WithPrefixedHaveTruncated(protocol.LocalDeviceID, sub, func(fi db.FileIntf) bool { f := fi.(db.FileInfoTruncated) if err := batch.flushIfFull(); err != nil { iterError = err return false } if ignoredParent != "" && !strings.HasPrefix(f.Name, ignoredParent+pathSep) { for _, f := range toIgnore { l.Debugln("marking file as ignored", f) nf := f.ConvertToIgnoredFileInfo(m.id.Short()) batch.append(nf) changes++ if err := batch.flushIfFull(); err != nil { iterError = err return false } } toIgnore = toIgnore[:0] ignoredParent = "" } switch ignored := ignores.Match(f.Name).IsIgnored(); { case !f.IsIgnored() && ignored: // File was not ignored at last pass but has been ignored. if f.IsDirectory() { // Delay ignoring as a child might be unignored. toIgnore = append(toIgnore, f) if ignoredParent == "" { // If the parent wasn't ignored already, set // this path as the "highest" ignored parent ignoredParent = f.Name } return true } l.Debugln("marking file as ignored", f) nf := f.ConvertToIgnoredFileInfo(m.id.Short()) batch.append(nf) changes++ case f.IsIgnored() && !ignored: // Successfully scanned items are already un-ignored during // the scan, so check whether it is deleted. fallthrough case !f.IsIgnored() && !f.IsDeleted() && !f.IsUnsupported(): // The file is not ignored, deleted or unsupported. Lets check if // it's still here. Simply stat:ing it wont do as there are // tons of corner cases (e.g. parent dir->symlink, missing // permissions) if !osutil.IsDeleted(mtimefs, f.Name) { if ignoredParent != "" { // Don't ignore parents of this not ignored item toIgnore = toIgnore[:0] ignoredParent = "" } return true } nf := protocol.FileInfo{ Name: f.Name, Type: f.Type, Size: 0, ModifiedS: f.ModifiedS, ModifiedNs: f.ModifiedNs, ModifiedBy: m.id.Short(), Deleted: true, Version: f.Version.Update(m.shortID), LocalFlags: localFlags, } // We do not want to override the global version // with the deleted file. Keeping only our local // counter makes sure we are in conflict with any // other existing versions, which will be resolved // by the normal pulling mechanisms. if f.ShouldConflict() { nf.Version = nf.Version.DropOthers(m.shortID) } batch.append(nf) changes++ } return true }) if iterError == nil && len(toIgnore) > 0 { for _, f := range toIgnore { l.Debugln("marking file as ignored", f) nf := f.ConvertToIgnoredFileInfo(m.id.Short()) batch.append(nf) changes++ if iterError = batch.flushIfFull(); iterError != nil { break } } toIgnore = toIgnore[:0] } if iterError != nil { return iterError } } if err := batch.flush(); err != nil { return err } m.folderStatRef(folder).ScanCompleted() runner.setState(FolderIdle) return nil } func (m *Model) DelayScan(folder string, next time.Duration) { m.fmut.Lock() runner, ok := m.folderRunners[folder] m.fmut.Unlock() if !ok { return } runner.DelayScan(next) } // numHashers returns the number of hasher routines to use for a given folder, // taking into account configuration and available CPU cores. func (m *Model) numHashers(folder string) int { m.fmut.Lock() folderCfg := m.folderCfgs[folder] numFolders := len(m.folderCfgs) m.fmut.Unlock() if folderCfg.Hashers > 0 { // Specific value set in the config, use that. return folderCfg.Hashers } if runtime.GOOS == "windows" || runtime.GOOS == "darwin" { // Interactive operating systems; don't load the system too heavily by // default. return 1 } // For other operating systems and architectures, lets try to get some // work done... Divide the available CPU cores among the configured // folders. if perFolder := runtime.GOMAXPROCS(-1) / numFolders; perFolder > 0 { return perFolder } return 1 } // generateClusterConfig returns a ClusterConfigMessage that is correct for // the given peer device func (m *Model) generateClusterConfig(device protocol.DeviceID) protocol.ClusterConfig { var message protocol.ClusterConfig m.fmut.RLock() defer m.fmut.RUnlock() for _, folderCfg := range m.cfg.FolderList() { if !folderCfg.SharedWith(device) { continue } protocolFolder := protocol.Folder{ ID: folderCfg.ID, Label: folderCfg.Label, ReadOnly: folderCfg.Type == config.FolderTypeSendOnly, IgnorePermissions: folderCfg.IgnorePerms, IgnoreDelete: folderCfg.IgnoreDelete, DisableTempIndexes: folderCfg.DisableTempIndexes, Paused: folderCfg.Paused, } var fs *db.FileSet if !folderCfg.Paused { fs = m.folderFiles[folderCfg.ID] } for _, device := range folderCfg.Devices { deviceCfg, _ := m.cfg.Device(device.DeviceID) protocolDevice := protocol.Device{ ID: deviceCfg.DeviceID, Name: deviceCfg.Name, Addresses: deviceCfg.Addresses, Compression: deviceCfg.Compression, CertName: deviceCfg.CertName, Introducer: deviceCfg.Introducer, } if fs != nil { if deviceCfg.DeviceID == m.id { protocolDevice.IndexID = fs.IndexID(protocol.LocalDeviceID) protocolDevice.MaxSequence = fs.Sequence(protocol.LocalDeviceID) } else { protocolDevice.IndexID = fs.IndexID(deviceCfg.DeviceID) protocolDevice.MaxSequence = fs.Sequence(deviceCfg.DeviceID) } } protocolFolder.Devices = append(protocolFolder.Devices, protocolDevice) } message.Folders = append(message.Folders, protocolFolder) } return message } func (m *Model) State(folder string) (string, time.Time, error) { m.fmut.RLock() runner, ok := m.folderRunners[folder] m.fmut.RUnlock() if !ok { // The returned error should be an actual folder error, so returning // errors.New("does not exist") or similar here would be // inappropriate. return "", time.Time{}, nil } state, changed, err := runner.getState() return state.String(), changed, err } func (m *Model) PullErrors(folder string) ([]FileError, error) { m.fmut.RLock() defer m.fmut.RUnlock() if err := m.checkFolderRunningLocked(folder); err != nil { return nil, err } return m.folderRunners[folder].PullErrors(), nil } func (m *Model) WatchError(folder string) error { m.fmut.RLock() defer m.fmut.RUnlock() if err := m.checkFolderRunningLocked(folder); err != nil { return err } return m.folderRunners[folder].WatchError() } func (m *Model) Override(folder string) { // Grab the runner and the file set. m.fmut.RLock() fs, fsOK := m.folderFiles[folder] runner, runnerOK := m.folderRunners[folder] m.fmut.RUnlock() if !fsOK || !runnerOK { return } // Run the override, taking updates as if they came from scanning. runner.Override(fs, func(files []protocol.FileInfo) { m.updateLocalsFromScanning(folder, files) }) } func (m *Model) Revert(folder string) { // Grab the runner and the file set. m.fmut.RLock() fs, fsOK := m.folderFiles[folder] runner, runnerOK := m.folderRunners[folder] m.fmut.RUnlock() if !fsOK || !runnerOK { return } // Run the revert, taking updates as if they came from scanning. runner.Revert(fs, func(files []protocol.FileInfo) { m.updateLocalsFromScanning(folder, files) }) } // CurrentSequence returns the change version for the given folder. // This is guaranteed to increment if the contents of the local folder has // changed. func (m *Model) CurrentSequence(folder string) (int64, bool) { m.fmut.RLock() fs, ok := m.folderFiles[folder] m.fmut.RUnlock() if !ok { // The folder might not exist, since this can be called with a user // specified folder name from the REST interface. return 0, false } return fs.Sequence(protocol.LocalDeviceID), true } // RemoteSequence returns the change version for the given folder, as // sent by remote peers. This is guaranteed to increment if the contents of // the remote or global folder has changed. func (m *Model) RemoteSequence(folder string) (int64, bool) { m.fmut.RLock() defer m.fmut.RUnlock() fs, ok := m.folderFiles[folder] cfg := m.folderCfgs[folder] if !ok { // The folder might not exist, since this can be called with a user // specified folder name from the REST interface. return 0, false } var ver int64 for _, device := range cfg.Devices { ver += fs.Sequence(device.DeviceID) } return ver, true } func (m *Model) GlobalDirectoryTree(folder, prefix string, levels int, dirsonly bool) map[string]interface{} { m.fmut.RLock() files, ok := m.folderFiles[folder] m.fmut.RUnlock() if !ok { return nil } output := make(map[string]interface{}) sep := string(filepath.Separator) prefix = osutil.NativeFilename(prefix) if prefix != "" && !strings.HasSuffix(prefix, sep) { prefix = prefix + sep } files.WithPrefixedGlobalTruncated(prefix, func(fi db.FileIntf) bool { f := fi.(db.FileInfoTruncated) // Don't include the prefix itself. if f.IsInvalid() || f.IsDeleted() || strings.HasPrefix(prefix, f.Name) { return true } f.Name = strings.Replace(f.Name, prefix, "", 1) var dir, base string if f.IsDirectory() && !f.IsSymlink() { dir = f.Name } else { dir = filepath.Dir(f.Name) base = filepath.Base(f.Name) } if levels > -1 && strings.Count(f.Name, sep) > levels { return true } last := output if dir != "." { for _, path := range strings.Split(dir, sep) { directory, ok := last[path] if !ok { newdir := make(map[string]interface{}) last[path] = newdir last = newdir } else { last = directory.(map[string]interface{}) } } } if !dirsonly && base != "" { last[base] = []interface{}{ f.ModTime(), f.FileSize(), } } return true }) return output } func (m *Model) GetFolderVersions(folder string) (map[string][]versioner.FileVersion, error) { fcfg, ok := m.cfg.Folder(folder) if !ok { return nil, errFolderMissing } files := make(map[string][]versioner.FileVersion) filesystem := fcfg.Filesystem() err := filesystem.Walk(".stversions", func(path string, f fs.FileInfo, err error) error { // Skip root (which is ok to be a symlink) if path == ".stversions" { return nil } // Ignore symlinks if f.IsSymlink() { return fs.SkipDir } // No records for directories if f.IsDir() { return nil } // Strip .stversions prefix. path = strings.TrimPrefix(path, ".stversions"+string(fs.PathSeparator)) name, tag := versioner.UntagFilename(path) // Something invalid if name == "" || tag == "" { return nil } name = osutil.NormalizedFilename(name) versionTime, err := time.ParseInLocation(versioner.TimeFormat, tag, locationLocal) if err != nil { return nil } files[name] = append(files[name], versioner.FileVersion{ VersionTime: versionTime.Truncate(time.Second), ModTime: f.ModTime().Truncate(time.Second), Size: f.Size(), }) return nil }) if err != nil { return nil, err } return files, nil } func (m *Model) RestoreFolderVersions(folder string, versions map[string]time.Time) (map[string]string, error) { fcfg, ok := m.cfg.Folder(folder) if !ok { return nil, errFolderMissing } filesystem := fcfg.Filesystem() ver := fcfg.Versioner() restore := make(map[string]string) errors := make(map[string]string) // Validation for file, version := range versions { file = osutil.NativeFilename(file) tag := version.In(locationLocal).Truncate(time.Second).Format(versioner.TimeFormat) versionedTaggedFilename := filepath.Join(".stversions", versioner.TagFilename(file, tag)) // Check that the thing we've been asked to restore is actually a file // and that it exists. if info, err := filesystem.Lstat(versionedTaggedFilename); err != nil { errors[file] = err.Error() continue } else if !info.IsRegular() { errors[file] = "not a file" continue } // Check that the target location of where we are supposed to restore // either does not exist, or is actually a file. if info, err := filesystem.Lstat(file); err == nil && !info.IsRegular() { errors[file] = "cannot replace a non-file" continue } else if err != nil && !fs.IsNotExist(err) { errors[file] = err.Error() continue } restore[file] = versionedTaggedFilename } // Execution var err error for target, source := range restore { err = nil if _, serr := filesystem.Lstat(target); serr == nil { if ver != nil { err = osutil.InWritableDir(ver.Archive, filesystem, target) } else { err = osutil.InWritableDir(filesystem.Remove, filesystem, target) } } filesystem.MkdirAll(filepath.Dir(target), 0755) if err == nil { err = osutil.Copy(filesystem, source, target) } if err != nil { errors[target] = err.Error() continue } } // Trigger scan if !fcfg.FSWatcherEnabled { m.ScanFolder(folder) } return errors, nil } func (m *Model) Availability(folder string, file protocol.FileInfo, block protocol.BlockInfo) []Availability { // The slightly unusual locking sequence here is because we need to hold // pmut for the duration (as the value returned from foldersFiles can // get heavily modified on Close()), but also must acquire fmut before // pmut. (The locks can be *released* in any order.) m.fmut.RLock() m.pmut.RLock() defer m.pmut.RUnlock() fs, ok := m.folderFiles[folder] cfg := m.folderCfgs[folder] m.fmut.RUnlock() if !ok { return nil } var availabilities []Availability next: for _, device := range fs.Availability(file.Name) { for _, pausedFolder := range m.remotePausedFolders[device] { if pausedFolder == folder { continue next } } _, ok := m.conn[device] if ok { availabilities = append(availabilities, Availability{ID: device, FromTemporary: false}) } } for _, device := range cfg.Devices { if m.deviceDownloads[device.DeviceID].Has(folder, file.Name, file.Version, int32(block.Offset/int64(file.BlockSize()))) { availabilities = append(availabilities, Availability{ID: device.DeviceID, FromTemporary: true}) } } return availabilities } // BringToFront bumps the given files priority in the job queue. func (m *Model) BringToFront(folder, file string) { m.pmut.RLock() defer m.pmut.RUnlock() runner, ok := m.folderRunners[folder] if ok { runner.BringToFront(file) } } func (m *Model) ResetFolder(folder string) { l.Infof("Cleaning data for folder %q", folder) db.DropFolder(m.db, folder) } func (m *Model) String() string { return fmt.Sprintf("model@%p", m) } func (m *Model) VerifyConfiguration(from, to config.Configuration) error { return nil } func (m *Model) CommitConfiguration(from, to config.Configuration) bool { // TODO: This should not use reflect, and should take more care to try to handle stuff without restart. // Go through the folder configs and figure out if we need to restart or not. fromFolders := mapFolders(from.Folders) toFolders := mapFolders(to.Folders) for folderID, cfg := range toFolders { if _, ok := fromFolders[folderID]; !ok { // A folder was added. if cfg.Paused { l.Infoln("Paused folder", cfg.Description()) } else { l.Infoln("Adding folder", cfg.Description()) m.AddFolder(cfg) m.StartFolder(folderID) } } } for folderID, fromCfg := range fromFolders { toCfg, ok := toFolders[folderID] if !ok { // The folder was removed. m.RemoveFolder(fromCfg) continue } // This folder exists on both sides. Settings might have changed. // Check if anything differs that requires a restart. if !reflect.DeepEqual(fromCfg.RequiresRestartOnly(), toCfg.RequiresRestartOnly()) { m.RestartFolder(fromCfg, toCfg) } // Emit the folder pause/resume event if fromCfg.Paused != toCfg.Paused { eventType := events.FolderResumed if toCfg.Paused { eventType = events.FolderPaused } events.Default.Log(eventType, map[string]string{"id": toCfg.ID, "label": toCfg.Label}) } } // Removing a device. We actually don't need to do anything. // Because folder config has changed (since the device lists do not match) // Folders for that had device got "restarted", which involves killing // connections to all devices that we were sharing the folder with. // At some point model.Close() will get called for that device which will // clean residue device state that is not part of any folder. // Pausing a device, unpausing is handled by the connection service. fromDevices := from.DeviceMap() toDevices := to.DeviceMap() for deviceID, toCfg := range toDevices { fromCfg, ok := fromDevices[deviceID] if !ok || fromCfg.Paused == toCfg.Paused { continue } // Ignored folder was removed, reconnect to retrigger the prompt. if len(fromCfg.IgnoredFolders) > len(toCfg.IgnoredFolders) { m.close(deviceID) } if toCfg.Paused { l.Infoln("Pausing", deviceID) m.close(deviceID) events.Default.Log(events.DevicePaused, map[string]string{"device": deviceID.String()}) } else { events.Default.Log(events.DeviceResumed, map[string]string{"device": deviceID.String()}) } } // Some options don't require restart as those components handle it fine // by themselves. Compare the options structs containing only the // attributes that require restart and act apprioriately. if !reflect.DeepEqual(from.Options.RequiresRestartOnly(), to.Options.RequiresRestartOnly()) { l.Debugln(m, "requires restart, options differ") return false } return true } // checkFolderRunningLocked returns nil if the folder is up and running and a // descriptive error if not. // Need to hold (read) lock on m.fmut when calling this. func (m *Model) checkFolderRunningLocked(folder string) error { _, ok := m.folderRunners[folder] if ok { return nil } if cfg, ok := m.cfg.Folder(folder); !ok { return errFolderMissing } else if cfg.Paused { return ErrFolderPaused } return errFolderNotRunning } // checkFolderDeviceStatusLocked first checks the folder and then whether the // given device is connected and shares this folder. // Need to hold (read) lock on both m.fmut and m.pmut when calling this. func (m *Model) checkDeviceFolderConnectedLocked(device protocol.DeviceID, folder string) error { if err := m.checkFolderRunningLocked(folder); err != nil { return err } if cfg, ok := m.cfg.Device(device); !ok { return errDeviceUnknown } else if cfg.Paused { return errDevicePaused } if _, ok := m.conn[device]; !ok { return errors.New("device is not connected") } if cfg, ok := m.cfg.Folder(folder); !ok || !cfg.SharedWith(device) { return errors.New("folder is not shared with device") } return nil } // mapFolders returns a map of folder ID to folder configuration for the given // slice of folder configurations. func mapFolders(folders []config.FolderConfiguration) map[string]config.FolderConfiguration { m := make(map[string]config.FolderConfiguration, len(folders)) for _, cfg := range folders { m[cfg.ID] = cfg } return m } // mapDevices returns a map of device ID to nothing for the given slice of // device IDs. func mapDevices(devices []protocol.DeviceID) map[protocol.DeviceID]struct{} { m := make(map[protocol.DeviceID]struct{}, len(devices)) for _, dev := range devices { m[dev] = struct{}{} } return m } // Skips `skip` elements and retrieves up to `get` elements from a given slice. // Returns the resulting slice, plus how much elements are left to skip or // copy to satisfy the values which were provided, given the slice is not // big enough. func getChunk(data []string, skip, get int) ([]string, int, int) { l := len(data) if l <= skip { return []string{}, skip - l, get } else if l < skip+get { return data[skip:l], 0, get - (l - skip) } return data[skip : skip+get], 0, 0 } func closeRawConn(conn io.Closer) error { if conn, ok := conn.(*tls.Conn); ok { // If the underlying connection is a *tls.Conn, Close() does more // than it says on the tin. Specifically, it sends a TLS alert // message, which might block forever if the connection is dead // and we don't have a deadline set. conn.SetWriteDeadline(time.Now().Add(250 * time.Millisecond)) } return conn.Close() } func stringSliceWithout(ss []string, s string) []string { for i := range ss { if ss[i] == s { copy(ss[i:], ss[i+1:]) ss = ss[:len(ss)-1] return ss } } return ss } func readOffsetIntoBuf(fs fs.Filesystem, file string, offset int64, buf []byte) error { fd, err := fs.Open(file) if err != nil { l.Debugln("readOffsetIntoBuf.Open", file, err) return err } defer fd.Close() _, err = fd.ReadAt(buf, offset) if err != nil { l.Debugln("readOffsetIntoBuf.ReadAt", file, err) } return err } // The exists function is expected to return true for all known paths // (excluding "" and ".") func unifySubs(dirs []string, exists func(dir string) bool) []string { if len(dirs) == 0 { return nil } sort.Strings(dirs) if dirs[0] == "" || dirs[0] == "." || dirs[0] == string(fs.PathSeparator) { return nil } prev := "./" // Anything that can't be parent of a clean path for i := 0; i < len(dirs); { dir, err := fs.Canonicalize(dirs[i]) if err != nil { l.Debugf("Skipping %v for scan: %s", dirs[i], err) dirs = append(dirs[:i], dirs[i+1:]...) continue } if dir == prev || strings.HasPrefix(dir, prev+string(fs.PathSeparator)) { dirs = append(dirs[:i], dirs[i+1:]...) continue } parent := filepath.Dir(dir) for parent != "." && parent != string(fs.PathSeparator) && !exists(parent) { dir = parent parent = filepath.Dir(dir) } dirs[i] = dir prev = dir i++ } return dirs } // makeForgetUpdate takes an index update and constructs a download progress update // causing to forget any progress for files which we've just been sent. func makeForgetUpdate(files []protocol.FileInfo) []protocol.FileDownloadProgressUpdate { updates := make([]protocol.FileDownloadProgressUpdate, 0, len(files)) for _, file := range files { if file.IsSymlink() || file.IsDirectory() || file.IsDeleted() { continue } updates = append(updates, protocol.FileDownloadProgressUpdate{ Name: file.Name, Version: file.Version, UpdateType: protocol.UpdateTypeForget, }) } return updates } // folderDeviceSet is a set of (folder, deviceID) pairs type folderDeviceSet map[string]map[protocol.DeviceID]struct{} // set adds the (dev, folder) pair to the set func (s folderDeviceSet) set(dev protocol.DeviceID, folder string) { devs, ok := s[folder] if !ok { devs = make(map[protocol.DeviceID]struct{}) s[folder] = devs } devs[dev] = struct{}{} } // has returns true if the (dev, folder) pair is in the set func (s folderDeviceSet) has(dev protocol.DeviceID, folder string) bool { _, ok := s[folder][dev] return ok } // hasDevice returns true if the device is set on any folder func (s folderDeviceSet) hasDevice(dev protocol.DeviceID) bool { for _, devices := range s { if _, ok := devices[dev]; ok { return true } } return false } type fileInfoBatch struct { infos []protocol.FileInfo size int flushFn func([]protocol.FileInfo) error } func newFileInfoBatch(fn func([]protocol.FileInfo) error) *fileInfoBatch { return &fileInfoBatch{ infos: make([]protocol.FileInfo, 0, maxBatchSizeFiles), flushFn: fn, } } func (b *fileInfoBatch) append(f protocol.FileInfo) { b.infos = append(b.infos, f) b.size += f.ProtoSize() } func (b *fileInfoBatch) flushIfFull() error { if len(b.infos) == maxBatchSizeFiles || b.size > maxBatchSizeBytes { return b.flush() } return nil } func (b *fileInfoBatch) flush() error { if len(b.infos) == 0 { return nil } if err := b.flushFn(b.infos); err != nil { return err } b.reset() return nil } func (b *fileInfoBatch) reset() { b.infos = b.infos[:0] b.size = 0 } // syncMutexMap is a type safe wrapper for a sync.Map that holds mutexes type syncMutexMap struct { inner stdsync.Map } func (m *syncMutexMap) Get(key string) sync.Mutex { v, _ := m.inner.LoadOrStore(key, sync.NewMutex()) return v.(sync.Mutex) }