// 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 ur import ( "bytes" "context" "crypto/rand" "crypto/tls" "encoding/json" "net" "net/http" "runtime" "sort" "strings" "sync" "time" "github.com/syncthing/syncthing/lib/build" "github.com/syncthing/syncthing/lib/config" "github.com/syncthing/syncthing/lib/connections" "github.com/syncthing/syncthing/lib/dialer" "github.com/syncthing/syncthing/lib/model" "github.com/syncthing/syncthing/lib/protocol" "github.com/syncthing/syncthing/lib/scanner" "github.com/syncthing/syncthing/lib/upgrade" "github.com/syncthing/syncthing/lib/ur/contract" "github.com/syncthing/syncthing/lib/util" "github.com/thejerf/suture" ) // Current version number of the usage report, for acceptance purposes. If // fields are added or changed this integer must be incremented so that users // are prompted for acceptance of the new report. const Version = 3 var StartTime = time.Now() type Service struct { suture.Service cfg config.Wrapper model model.Model connectionsService connections.Service noUpgrade bool forceRun chan struct{} } func New(cfg config.Wrapper, m model.Model, connectionsService connections.Service, noUpgrade bool) *Service { svc := &Service{ cfg: cfg, model: m, connectionsService: connectionsService, noUpgrade: noUpgrade, forceRun: make(chan struct{}, 1), // Buffered to prevent locking } svc.Service = util.AsService(svc.serve, svc.String()) return svc } // ReportData returns the data to be sent in a usage report with the currently // configured usage reporting version. func (s *Service) ReportData(ctx context.Context) (*contract.Report, error) { urVersion := s.cfg.Options().URAccepted return s.reportData(ctx, urVersion, false) } // ReportDataPreview returns a preview of the data to be sent in a usage report // with the given version. func (s *Service) ReportDataPreview(ctx context.Context, urVersion int) (*contract.Report, error) { return s.reportData(ctx, urVersion, true) } func (s *Service) reportData(ctx context.Context, urVersion int, preview bool) (*contract.Report, error) { opts := s.cfg.Options() var totFiles, maxFiles int var totBytes, maxBytes int64 for folderID := range s.cfg.Folders() { snap, err := s.model.DBSnapshot(folderID) if err != nil { continue } global := snap.GlobalSize() snap.Release() totFiles += int(global.Files) totBytes += global.Bytes if int(global.Files) > maxFiles { maxFiles = int(global.Files) } if global.Bytes > maxBytes { maxBytes = global.Bytes } } var mem runtime.MemStats runtime.ReadMemStats(&mem) report := contract.New() report.URVersion = urVersion report.UniqueID = opts.URUniqueID report.Version = build.Version report.LongVersion = build.LongVersion report.Platform = runtime.GOOS + "-" + runtime.GOARCH report.NumFolders = len(s.cfg.Folders()) report.NumDevices = len(s.cfg.Devices()) report.TotFiles = totFiles report.FolderMaxFiles = maxFiles report.TotMiB = int(totBytes / 1024 / 1024) report.FolderMaxMiB = int(maxBytes / 1024 / 1024) report.MemoryUsageMiB = int((mem.Sys - mem.HeapReleased) / 1024 / 1024) report.SHA256Perf = CpuBench(ctx, 5, 125*time.Millisecond, false) report.HashPerf = CpuBench(ctx, 5, 125*time.Millisecond, true) report.MemorySize = int(memorySize() / 1024 / 1024) report.NumCPU = runtime.NumCPU() for _, cfg := range s.cfg.Folders() { report.RescanIntvs = append(report.RescanIntvs, cfg.RescanIntervalS) switch cfg.Type { case config.FolderTypeSendOnly: report.FolderUses.SendOnly++ case config.FolderTypeSendReceive: report.FolderUses.SendReceive++ case config.FolderTypeReceiveOnly: report.FolderUses.ReceiveOnly++ } if cfg.IgnorePerms { report.FolderUses.IgnorePerms++ } if cfg.IgnoreDelete { report.FolderUses.IgnoreDelete++ } if cfg.AutoNormalize { report.FolderUses.AutoNormalize++ } switch cfg.Versioning.Type { case "": // None case "simple": report.FolderUses.SimpleVersioning++ case "staggered": report.FolderUses.StaggeredVersioning++ case "external": report.FolderUses.ExternalVersioning++ case "trashcan": report.FolderUses.TrashcanVersioning++ default: l.Warnf("Unhandled versioning type for usage reports: %s", cfg.Versioning.Type) } } sort.Ints(report.RescanIntvs) for _, cfg := range s.cfg.Devices() { if cfg.Introducer { report.DeviceUses.Introducer++ } if cfg.CertName != "" && cfg.CertName != "syncthing" { report.DeviceUses.CustomCertName++ } switch cfg.Compression { case protocol.CompressionAlways: report.DeviceUses.CompressAlways++ case protocol.CompressionMetadata: report.DeviceUses.CompressMetadata++ case protocol.CompressionNever: report.DeviceUses.CompressNever++ default: l.Warnf("Unhandled versioning type for usage reports: %s", cfg.Compression) } for _, addr := range cfg.Addresses { if addr == "dynamic" { report.DeviceUses.DynamicAddr++ } else { report.DeviceUses.StaticAddr++ } } } report.Announce.GlobalEnabled = opts.GlobalAnnEnabled report.Announce.LocalEnabled = opts.LocalAnnEnabled for _, addr := range opts.RawGlobalAnnServers { if addr == "default" || addr == "default-v4" || addr == "default-v6" { report.Announce.DefaultServersDNS++ } else { report.Announce.OtherServers++ } } report.Relays.Enabled = opts.RelaysEnabled for _, addr := range s.cfg.Options().ListenAddresses() { switch { case addr == "dynamic+https://relays.syncthing.net/endpoint": report.Relays.DefaultServers++ case strings.HasPrefix(addr, "relay://") || strings.HasPrefix(addr, "dynamic+http"): report.Relays.OtherServers++ } } report.UsesRateLimit = opts.MaxRecvKbps > 0 || opts.MaxSendKbps > 0 report.UpgradeAllowedManual = !(upgrade.DisabledByCompilation || s.noUpgrade) report.UpgradeAllowedAuto = !(upgrade.DisabledByCompilation || s.noUpgrade) && opts.AutoUpgradeEnabled() report.UpgradeAllowedPre = !(upgrade.DisabledByCompilation || s.noUpgrade) && opts.AutoUpgradeEnabled() && opts.UpgradeToPreReleases // V3 if urVersion >= 3 { report.Uptime = s.UptimeS() report.NATType = s.connectionsService.NATType() report.AlwaysLocalNets = len(opts.AlwaysLocalNets) > 0 report.CacheIgnoredFiles = opts.CacheIgnoredFiles report.OverwriteRemoteDeviceNames = opts.OverwriteRemoteDevNames report.ProgressEmitterEnabled = opts.ProgressUpdateIntervalS > -1 report.CustomDefaultFolderPath = opts.DefaultFolderPath != "~" report.CustomTrafficClass = opts.TrafficClass != 0 report.CustomTempIndexMinBlocks = opts.TempIndexMinBlocks != 10 report.TemporariesDisabled = opts.KeepTemporariesH == 0 report.TemporariesCustom = opts.KeepTemporariesH != 24 report.LimitBandwidthInLan = opts.LimitBandwidthInLan report.CustomReleaseURL = opts.ReleasesURL != "https=//upgrades.syncthing.net/meta.json" report.RestartOnWakeup = opts.RestartOnWakeup report.CustomStunServers = len(opts.RawStunServers) != 1 || opts.RawStunServers[0] != "default" for _, cfg := range s.cfg.Folders() { if cfg.ScanProgressIntervalS < 0 { report.FolderUsesV3.ScanProgressDisabled++ } if cfg.MaxConflicts == 0 { report.FolderUsesV3.ConflictsDisabled++ } else if cfg.MaxConflicts < 0 { report.FolderUsesV3.ConflictsUnlimited++ } else { report.FolderUsesV3.ConflictsOther++ } if cfg.DisableSparseFiles { report.FolderUsesV3.DisableSparseFiles++ } if cfg.DisableTempIndexes { report.FolderUsesV3.DisableTempIndexes++ } if cfg.WeakHashThresholdPct < 0 { report.FolderUsesV3.AlwaysWeakHash++ } else if cfg.WeakHashThresholdPct != 25 { report.FolderUsesV3.CustomWeakHashThreshold++ } if cfg.FSWatcherEnabled { report.FolderUsesV3.FsWatcherEnabled++ } report.FolderUsesV3.PullOrder[cfg.Order.String()]++ report.FolderUsesV3.FilesystemType[cfg.FilesystemType.String()]++ report.FolderUsesV3.FsWatcherDelays = append(report.FolderUsesV3.FsWatcherDelays, cfg.FSWatcherDelayS) if cfg.MarkerName != config.DefaultMarkerName { report.FolderUsesV3.CustomMarkerName++ } if cfg.CopyOwnershipFromParent { report.FolderUsesV3.CopyOwnershipFromParent++ } report.FolderUsesV3.ModTimeWindowS = append(report.FolderUsesV3.ModTimeWindowS, int(cfg.ModTimeWindow().Seconds())) report.FolderUsesV3.MaxConcurrentWrites = append(report.FolderUsesV3.MaxConcurrentWrites, cfg.MaxConcurrentWrites) if cfg.DisableFsync { report.FolderUsesV3.DisableFsync++ } report.FolderUsesV3.BlockPullOrder[cfg.BlockPullOrder.String()]++ report.FolderUsesV3.CopyRangeMethod[cfg.CopyRangeMethod.String()]++ if cfg.CaseSensitiveFS { report.FolderUsesV3.CaseSensitiveFS++ } } sort.Ints(report.FolderUsesV3.FsWatcherDelays) for _, cfg := range s.cfg.Devices() { if cfg.Untrusted { report.DeviceUsesV3.Untrusted++ } } guiCfg := s.cfg.GUI() // Anticipate multiple GUI configs in the future, hence store counts. if guiCfg.Enabled { report.GUIStats.Enabled++ if guiCfg.UseTLS() { report.GUIStats.UseTLS++ } if len(guiCfg.User) > 0 && len(guiCfg.Password) > 0 { report.GUIStats.UseAuth++ } if guiCfg.InsecureAdminAccess { report.GUIStats.InsecureAdminAccess++ } if guiCfg.Debugging { report.GUIStats.Debugging++ } if guiCfg.InsecureSkipHostCheck { report.GUIStats.InsecureSkipHostCheck++ } if guiCfg.InsecureAllowFrameLoading { report.GUIStats.InsecureAllowFrameLoading++ } addr, err := net.ResolveTCPAddr("tcp", guiCfg.Address()) if err == nil { if addr.IP.IsLoopback() { report.GUIStats.ListenLocal++ } else if addr.IP.IsUnspecified() { report.GUIStats.ListenUnspecified++ } } report.GUIStats.Theme[guiCfg.Theme]++ } } s.model.UsageReportingStats(report, urVersion, preview) if err := report.ClearForVersion(urVersion); err != nil { return nil, err } return report, nil } func (s *Service) UptimeS() int { return int(time.Since(StartTime).Seconds()) } func (s *Service) sendUsageReport(ctx context.Context) error { d, err := s.ReportData(ctx) if err != nil { return err } var b bytes.Buffer if err := json.NewEncoder(&b).Encode(d); err != nil { return err } client := &http.Client{ Transport: &http.Transport{ DialContext: dialer.DialContext, Proxy: http.ProxyFromEnvironment, TLSClientConfig: &tls.Config{ InsecureSkipVerify: s.cfg.Options().URPostInsecurely, }, }, } req, err := http.NewRequestWithContext(ctx, "POST", s.cfg.Options().URURL, &b) if err != nil { return err } req.Header.Set("Content-Type", "application/json") resp, err := client.Do(req) if err != nil { return err } resp.Body.Close() return nil } func (s *Service) serve(ctx context.Context) { s.cfg.Subscribe(s) defer s.cfg.Unsubscribe(s) t := time.NewTimer(time.Duration(s.cfg.Options().URInitialDelayS) * time.Second) for { select { case <-ctx.Done(): return case <-s.forceRun: t.Reset(0) case <-t.C: if s.cfg.Options().URAccepted >= 2 { err := s.sendUsageReport(ctx) if err != nil { l.Infoln("Usage report:", err) } else { l.Infof("Sent usage report (version %d)", s.cfg.Options().URAccepted) } } t.Reset(24 * time.Hour) // next report tomorrow } } } func (s *Service) VerifyConfiguration(from, to config.Configuration) error { return nil } func (s *Service) CommitConfiguration(from, to config.Configuration) bool { if from.Options.URAccepted != to.Options.URAccepted || from.Options.URUniqueID != to.Options.URUniqueID || from.Options.URURL != to.Options.URURL { select { case s.forceRun <- struct{}{}: default: // s.forceRun is one buffered, so even though nothing // was sent, a run will still happen after this point. } } return true } func (*Service) String() string { return "ur.Service" } var ( blocksResult []protocol.BlockInfo // so the result is not optimized away blocksResultMut sync.Mutex ) // CpuBench returns CPU performance as a measure of single threaded SHA-256 MiB/s func CpuBench(ctx context.Context, iterations int, duration time.Duration, useWeakHash bool) float64 { blocksResultMut.Lock() defer blocksResultMut.Unlock() dataSize := 16 * protocol.MinBlockSize bs := make([]byte, dataSize) rand.Reader.Read(bs) var perf float64 for i := 0; i < iterations; i++ { if v := cpuBenchOnce(ctx, duration, useWeakHash, bs); v > perf { perf = v } } blocksResult = nil return perf } func cpuBenchOnce(ctx context.Context, duration time.Duration, useWeakHash bool, bs []byte) float64 { t0 := time.Now() b := 0 var err error for time.Since(t0) < duration { r := bytes.NewReader(bs) blocksResult, err = scanner.Blocks(ctx, r, protocol.MinBlockSize, int64(len(bs)), nil, useWeakHash) if err != nil { return 0 // Context done } b += len(bs) } d := time.Since(t0) return float64(int(float64(b)/d.Seconds()/(1<<20)*100)) / 100 }