torrentclaw/unarr
1
0
Fork 0
Code Issues Pull requests Projects Releases 4 Packages Wiki Activity Actions
unarr/internal/cmd/daemon.go
Deivid Soto f6117ddeb9 feat(torrent): act as WebTorrent peer for browser ↔ unarr P2P streaming 
Wires anacrolix/torrent's built-in webtorrent package so a browser
running webtorrent.js can fetch pieces from this CLI via WebRTC data
channels. The daemon stays the seeder; we never relay bytes through
TorrentClaw infrastructure — same legal posture as today.

Changes:
- internal/config: new [downloads.webrtc] section
  (enabled/trackers/stun_servers/turn_servers/turn_user/turn_pass).
  Disabled by default, opt-in via config.toml. When enabled but
  trackers / STUN slices are empty, defaults are reapplied on Load() so
  users get a working setup with a single `enabled = true`.
- internal/engine: TorrentConfig gains WebRTCEnabled / WebRTCTrackers
  / ICEServers; NewTorrentDownloader populates ClientConfig.ICEServerList
  and forces NoUpload=false when WebRTC is on (browsers can't pull
  otherwise). buildMagnet now accepts variadic extra trackers and the
  downloader method prepends WSS trackers so anacrolix's
  webtorrent.TrackerClient picks them up first.
- internal/engine/webrtc.go: BuildICEServers helper converts the TOML
  WebRTCConfig into []webrtc.ICEServer with shared TURN credentials.
- internal/cmd/daemon.go + download.go: pass WebRTC config through to
  the engine.

Tests (8 new, all green; full suite 0 lint issues, 0 vet):
- buildMagnet free function: defaults-only, with extras, trim+empty-skip
- downloader method: WebRTC disabled keeps WSS out, enabled prepends them
- BuildICEServers: nil when disabled, STUN-only path, TURN+credentials
- NewTorrentDownloader: full WebRTC-enabled construction (logs WebRTC
  peer enabled, magnet contains wss://tracker.torrentclaw.com)

End-to-end smoke (browser ↔ unarr peer transfer) is deferred to a
manual test once tracker.torrentclaw.com WSS is live.
2026-05-06 08:59:58 +02:00

614 lines
18 KiB
Go
Raw Blame History

package cmd
import (
"context"
"fmt"
"log"
"os"
"os/signal"
"path/filepath"
"strings"
"syscall"
"time"
"github.com/fatih/color"
"github.com/spf13/cobra"
"github.com/torrentclaw/unarr/internal/agent"
"github.com/torrentclaw/unarr/internal/config"
"github.com/torrentclaw/unarr/internal/engine"
"github.com/torrentclaw/unarr/internal/library"
"github.com/torrentclaw/unarr/internal/usenet/download"
)
// newStartCmd creates the top-level `unarr start` command.
func newStartCmd() *cobra.Command {
return &cobra.Command{
Use: "start",
Short: "Start the download daemon (foreground)",
Long: `Start the unarr daemon in the foreground.
Registers with the server, receives download tasks via periodic sync,
and executes them using the configured download method.
Supports torrent, debrid, and usenet downloads concurrently.
The daemon syncs state with the server every 3s when someone is viewing
the web dashboard, or every 60s when idle. Press Ctrl+C to stop
gracefully — active downloads get up to 30 seconds to finish.
Requires: API key, agent ID, and download directory (run 'unarr init' first).
To run as a background service, use 'unarr daemon install' instead.`,
Example: ` unarr start
unarr start --config /path/to/config.toml`,
RunE: func(cmd *cobra.Command, args []string) error {
return runDaemonStart()
},
}
}
// newStopCmd creates the top-level `unarr stop` command.
func newStopCmd() *cobra.Command {
return &cobra.Command{
Use: "stop",
Short: "Stop the running daemon",
Long: `Stop the unarr daemon gracefully.
Reads the daemon PID from the state file and sends a graceful stop signal.
Works regardless of whether the daemon was started in the foreground or as a service.
To stop a service-managed daemon and prevent auto-restart, use 'unarr daemon stop' instead.`,
Example: ` unarr stop`,
RunE: func(cmd *cobra.Command, args []string) error {
return stopDaemonByPID()
},
}
}
// newDaemonCmd creates `unarr daemon` for administrative subcommands.
func newDaemonCmd() *cobra.Command {
cmd := &cobra.Command{
Use: "daemon <command>",
Short: "Manage the daemon as a system service",
Long: `Install, control and inspect the unarr daemon as a system service.
Linux: systemd user service (~/.config/systemd/user/unarr.service)
macOS: launchd agent (~/Library/LaunchAgents/com.torrentclaw.unarr.plist)
Windows: Task Scheduler task (runs at logon)`,
Example: ` unarr daemon install
unarr daemon start
unarr daemon status
unarr daemon logs -f
unarr daemon reload
unarr daemon restart
unarr daemon stop
unarr daemon uninstall`,
}
cmd.AddCommand(
newDaemonInstallCmdReal(),
newDaemonUninstallCmdReal(),
newDaemonStartCmd(),
newDaemonStopCmd(),
newDaemonRestartCmd(),
newDaemonSvcStatusCmd(),
newDaemonLogsCmd(),
newDaemonReloadCmd(),
)
return cmd
}
func runDaemonStart() error {
cfg := loadConfig()
bold := color.New(color.Bold)
// Validate config
if cfg.Auth.APIKey == "" {
return fmt.Errorf("no API key configured — run 'unarr init' first")
}
if cfg.Agent.ID == "" {
return fmt.Errorf("no agent ID — run 'unarr init' first")
}
if cfg.Download.Dir == "" {
return fmt.Errorf("no download directory — run 'unarr init' first")
}
// Validate configured paths are safe
if err := cfg.ValidatePaths(); err != nil {
return fmt.Errorf("unsafe configuration: %w", err)
}
// Ensure download dir exists
if err := os.MkdirAll(cfg.Download.Dir, 0o755); err != nil {
return fmt.Errorf("create download dir: %w", err)
}
// Clean up stale resume files (>7 days old)
resumeDir := filepath.Join(config.DataDir(), "resume")
if removed := download.CleanStaleFiles(resumeDir, 7*24*time.Hour); removed > 0 {
log.Printf("Cleaned %d stale resume file(s)", removed)
}
fmt.Println()
bold.Println(" unarr Daemon")
fmt.Println()
userAgent := "unarr/" + Version
// Create daemon config
daemonCfg := agent.DaemonConfig{
AgentID: cfg.Agent.ID,
AgentName: cfg.Agent.Name,
Version: Version,
DownloadDir: cfg.Download.Dir,
StreamPort: cfg.Download.StreamPort,
LanIP: engine.LanIP(),
TailscaleIP: engine.TailscaleIP(),
CanDelete: cfg.Library.AllowDelete,
ScanPaths: library.ResolveScanPaths(cfg.Download.Dir, cfg.Organize.MoviesDir, cfg.Organize.TVShowsDir, cfg.Library.ScanPath),
}
// Create HTTP client — single communication channel
agentClient := agent.NewClient(cfg.Auth.APIURL, cfg.Auth.APIKey, userAgent)
log.Printf("Transport: HTTP sync → %s", cfg.Auth.APIURL)
// Create daemon
d := agent.NewDaemon(daemonCfg, agentClient)
// Start SIGUSR1 reload watcher (unix only, no-op on Windows)
startReloadWatcher(&ReloadableConfig{Daemon: d})
// Daemon-scoped context — cancelled on shutdown
ctx, cancel := context.WithCancel(context.Background())
defer cancel()
// Parse speed limits
maxDl, _ := config.ParseSpeed(cfg.Download.MaxDownloadSpeed)
maxUl, _ := config.ParseSpeed(cfg.Download.MaxUploadSpeed)
// Parse torrent timeouts
metaTimeout, _ := time.ParseDuration(cfg.Download.MetadataTimeout)
stallTimeout, _ := time.ParseDuration(cfg.Download.StallTimeout)
// Create progress reporter — only used for stream tasks (handleStreamTask)
// The sync goroutine handles all regular progress reporting.
statusInterval, _ := time.ParseDuration(cfg.Daemon.StatusInterval)
if statusInterval == 0 {
statusInterval = 3 * time.Second
}
reporter := engine.NewProgressReporter(agentClient, statusInterval)
reporter.SetWatchingFunc(func() bool { return d.Watching.Load() })
// Create torrent downloader
torrentDl, err := engine.NewTorrentDownloader(engine.TorrentConfig{
DataDir: cfg.Download.Dir,
MetadataTimeout: metaTimeout,
StallTimeout: stallTimeout,
MaxTimeout: 0,
MaxDownloadRate: maxDl,
MaxUploadRate: maxUl,
ListenPort: cfg.Download.ListenPort,
SeedEnabled: false,
WebRTCEnabled: cfg.Download.WebRTC.Enabled,
WebRTCTrackers: cfg.Download.WebRTC.Trackers,
ICEServers: engine.BuildICEServers(cfg.Download.WebRTC),
})
if err != nil {
return fmt.Errorf("create torrent downloader: %w", err)
}
if maxDl > 0 || maxUl > 0 {
dlStr, ulStr := "unlimited", "unlimited"
if maxDl > 0 {
dlStr = formatSpeedLog(maxDl)
}
if maxUl > 0 {
ulStr = formatSpeedLog(maxUl)
}
log.Printf("Speed limits: download=%s upload=%s", dlStr, ulStr)
}
// Create debrid downloader
debridDl := engine.NewDebridDownloader()
// Create download manager
manager := engine.NewManager(engine.ManagerConfig{
MaxConcurrent: cfg.Download.MaxConcurrent,
OutputDir: cfg.Download.Dir,
Notifications: cfg.Notifications.Enabled,
Organize: engine.OrganizeConfig{
Enabled: cfg.Organize.Enabled,
MoviesDir: cfg.Organize.MoviesDir,
TVShowsDir: cfg.Organize.TVShowsDir,
OutputDir: cfg.Download.Dir,
},
}, reporter, torrentDl, debridDl, engine.NewUsenetDownloader(agentClient))
// Create persistent stream server
streamSrv := engine.NewStreamServer(cfg.Download.StreamPort)
if err := streamSrv.Listen(ctx); err != nil {
return fmt.Errorf("start stream server: %w", err)
}
d.UpdateStreamPort(streamSrv.Port())
// Wire sync client callbacks
sc := d.SyncClient()
sc.GetFreeSlots = manager.FreeSlots
sc.GetTaskStates = manager.TaskStates
d.GetActiveCount = manager.ActiveCount
// Trigger immediate sync when a download slot frees up
manager.OnTaskDone = func() { d.TriggerSync() }
// Wire: sync receives new tasks → submit to manager or handle stream
d.OnTasksClaimed = func(tasks []agent.Task) {
for _, t := range tasks {
if t.Mode == "stream" {
if isStreamingTask(t.ID) {
continue
}
cancelStreamContexts()
streamSrv.ClearFile()
streamCtx, streamCancel := context.WithCancel(ctx) //nolint:gosec // G118: cancel stored in registry
streamRegistry.mu.Lock()
streamRegistry.cancels[t.ID] = streamCancel
streamRegistry.mu.Unlock()
go handleStreamTask(streamCtx, t, reporter, cfg, agentClient, streamSrv)
} else {
manager.Submit(ctx, t)
}
}
}
// Wire: sync receives control signals → act on manager
d.OnControlAction = func(action, taskID string, deleteFiles bool) {
switch action {
case "cancel":
if deleteFiles {
manager.CancelAndDeleteFiles(taskID)
} else {
manager.CancelTask(taskID)
}
cancelStreamTask(taskID)
if streamSrv.CurrentTaskID() == taskID {
streamSrv.ClearFile()
}
case "pause":
manager.PauseTask(taskID)
cancelStreamTask(taskID)
if streamSrv.CurrentTaskID() == taskID {
streamSrv.ClearFile()
}
case "resume":
log.Printf("[%s] resume requested, triggering sync", agent.ShortID(taskID))
d.TriggerSync()
case "stream":
if streamSrv.CurrentTaskID() == taskID {
return
}
task := manager.GetTask(taskID)
if task == nil || task.GetStreamURL() != "" {
return
}
provider, err := torrentDl.GetStreamProvider(taskID)
if err != nil {
log.Printf("[%s] stream failed: %v", agent.ShortID(taskID), err)
return
}
cancelStreamContexts()
streamSrv.SetFile(provider, taskID)
task.SetStreamURL(streamSrv.URLsJSON())
log.Printf("[%s] streaming: %s", agent.ShortID(taskID), provider.FileName())
watchCtx, watchCancel := context.WithCancel(ctx) //nolint:gosec // G118
streamRegistry.mu.Lock()
streamRegistry.cancels["watch:"+taskID] = watchCancel
streamRegistry.mu.Unlock()
go engine.NewWatchReporter(agentClient, streamSrv, taskID).Run(watchCtx)
case "stop-stream":
cancelStreamTask(taskID)
if streamSrv.CurrentTaskID() == taskID {
streamSrv.ClearFile()
}
}
}
// Wire: sync receives file deletion requests from the server
if cfg.Library.AllowDelete && len(daemonCfg.ScanPaths) > 0 {
sc.OnDeleteFiles = func(items []agent.LibraryDeleteRequest) []int {
return library.DeleteFiles(items, daemonCfg.ScanPaths)
}
}
// Wire: sync receives stream requests for completed downloads
d.OnStreamRequested = func(sr agent.StreamRequest) {
if streamSrv.CurrentTaskID() == sr.TaskID {
// Already serving — notify server it's ready
go func() {
if _, err := agentClient.ReportStatus(ctx, agent.StatusUpdate{
TaskID: sr.TaskID,
StreamReady: true,
}); err != nil {
log.Printf("[%s] stream ready re-notify failed: %v", agent.ShortID(sr.TaskID), err)
}
}()
return
}
filePath := filepath.Clean(sr.FilePath)
if !isAllowedStreamPath(filePath, cfg.Download.Dir, cfg.Library.ScanPath,
cfg.Organize.MoviesDir, cfg.Organize.TVShowsDir) {
log.Printf("[%s] stream request rejected: path outside allowed dirs: %s", agent.ShortID(sr.TaskID), filePath)
go func() {
if _, err := agentClient.ReportStatus(ctx, agent.StatusUpdate{
TaskID: sr.TaskID,
Status: "failed",
ErrorMessage: fmt.Sprintf("path outside allowed dirs: %s", filePath),
}); err != nil {
log.Printf("[%s] stream error report failed: %v", agent.ShortID(sr.TaskID), err)
}
}()
return
}
info, err := os.Stat(filePath)
if err != nil {
log.Printf("[%s] stream request: file not found: %s", agent.ShortID(sr.TaskID), filePath)
go func() {
if _, err := agentClient.ReportStatus(ctx, agent.StatusUpdate{
TaskID: sr.TaskID,
Status: "failed",
ErrorMessage: fmt.Sprintf("file not found: %s", filePath),
}); err != nil {
log.Printf("[%s] stream error report failed: %v", agent.ShortID(sr.TaskID), err)
}
}()
return
}
if info.IsDir() {
found := engine.FindVideoFile(filePath)
if found == "" {
log.Printf("[%s] stream request: no video file in directory: %s", agent.ShortID(sr.TaskID), filePath)
go func() {
if _, err := agentClient.ReportStatus(ctx, agent.StatusUpdate{
TaskID: sr.TaskID,
Status: "failed",
ErrorMessage: fmt.Sprintf("no video file in directory: %s", filePath),
}); err != nil {
log.Printf("[%s] stream error report failed: %v", agent.ShortID(sr.TaskID), err)
}
}()
return
}
filePath = found
log.Printf("[%s] resolved directory to video file: %s", agent.ShortID(sr.TaskID), filepath.Base(filePath))
}
cancelStreamContexts()
streamSrv.SetFile(engine.NewDiskFileProvider(filePath), sr.TaskID)
log.Printf("[%s] streaming from disk: %s → %s", agent.ShortID(sr.TaskID), filepath.Base(filePath), streamSrv.URL())
watchCtx, watchCancel := context.WithCancel(ctx) //nolint:gosec // G118
streamRegistry.mu.Lock()
streamRegistry.cancels["watch:"+sr.TaskID] = watchCancel
streamRegistry.mu.Unlock()
go engine.NewWatchReporter(agentClient, streamSrv, sr.TaskID).Run(watchCtx)
go func() {
if _, err := agentClient.ReportStatus(ctx, agent.StatusUpdate{
TaskID: sr.TaskID,
StreamReady: true,
}); err != nil {
log.Printf("[%s] stream ready report failed: %v", agent.ShortID(sr.TaskID), err)
}
}()
}
// Periodic DHT node persistence (every 5 min)
go func() {
ticker := time.NewTicker(5 * time.Minute)
defer ticker.Stop()
for {
select {
case <-ticker.C:
torrentDl.SaveDhtNodes()
case <-ctx.Done():
return
}
}
}()
// Start auto-scan goroutine
scanPaths := daemonCfg.ScanPaths
if len(scanPaths) > 0 && cfg.Library.AutoScan {
scanInterval := 24 * time.Hour
if cfg.Library.ScanInterval != "" {
if parsed, err := time.ParseDuration(cfg.Library.ScanInterval); err == nil && parsed > 0 {
scanInterval = parsed
}
}
go runAutoScan(ctx, cfg, scanInterval, agentClient, d.ScanNow, scanPaths)
}
// Start reporter only for stream task handling
go reporter.Run(ctx)
// Start daemon (blocks — runs sync loop)
errCh := make(chan error, 1)
go func() {
errCh <- d.Run(ctx)
}()
// Start idle guard for the persistent stream server
go startIdleGuard(ctx, streamSrv)
// Signal handling
sigCh := make(chan os.Signal, 1)
signal.Notify(sigCh, syscall.SIGINT, syscall.SIGTERM)
// Wait for signal or error
select {
case sig := <-sigCh:
fmt.Printf("\n Received %s, shutting down...\n", sig)
cancelStreamContexts()
streamSrv.Shutdown(context.Background())
cancel()
// Give active downloads 30s to finish
shutdownCtx, shutdownCancel := context.WithTimeout(context.Background(), 30*time.Second)
defer shutdownCancel()
manager.Shutdown(shutdownCtx)
d.Deregister()
fmt.Println(" Daemon stopped.")
return nil
case err := <-errCh:
cancelStreamContexts()
streamSrv.Shutdown(context.Background())
cancel()
return err
}
}
// isAllowedStreamPath checks that filePath is within one of the directories
// the daemon is configured to manage. This defends against a compromised API
// server sending a path traversal payload (e.g. /etc/passwd) in StreamRequest.
// isAllowedStreamPath reports whether filePath is contained within one of the
// allowedDirs. filePath must already be cleaned (filepath.Clean) by the caller.
// This defends against a compromised API server sending a path traversal payload.
func isAllowedStreamPath(filePath string, allowedDirs ...string) bool {
for _, dir := range allowedDirs {
if dir == "" {
continue
}
rel, err := filepath.Rel(filepath.Clean(dir), filePath)
if err == nil && !strings.HasPrefix(rel, "..") {
return true
}
}
return false
}
func formatSpeedLog(bps int64) string {
switch {
case bps >= 1024*1024*1024:
return fmt.Sprintf("%.1f GB/s", float64(bps)/(1024*1024*1024))
case bps >= 1024*1024:
return fmt.Sprintf("%.1f MB/s", float64(bps)/(1024*1024))
case bps >= 1024:
return fmt.Sprintf("%.0f KB/s", float64(bps)/1024)
default:
return fmt.Sprintf("%d B/s", bps)
}
}
// runAutoScan runs a library scan + sync on a timer or on-demand via scanNow channel.
// It scans all provided paths and syncs each independently so stale-item cleanup
// is scoped to the correct directory prefix on the server.
func runAutoScan(ctx context.Context, cfg config.Config, interval time.Duration, ac *agent.Client, scanNow <-chan struct{}, scanPaths []string) {
log.Printf("[auto-scan] enabled: every %s, paths: %v", interval, scanPaths)
select {
case <-time.After(30 * time.Second):
case <-scanNow:
case <-ctx.Done():
return
}
doScan := func() {
defer func() {
if r := recover(); r != nil {
log.Printf("[auto-scan] panic recovered: %v", r)
}
}()
log.Printf("[auto-scan] starting scan of %v", scanPaths)
existing, _ := library.LoadCache()
workers := cfg.Library.Workers
if workers == 0 {
workers = 8
}
scanOpts := library.ScanOptions{
Workers: workers,
FFprobePath: cfg.Library.FFprobePath,
Incremental: existing != nil,
}
// Scan each path independently and sync per path so the server can
// scope stale-item deletion to the correct directory prefix.
const batchSize = 100
totalSynced := 0
var mergedItems []library.LibraryItem
for _, scanPath := range scanPaths {
cache, err := library.Scan(ctx, scanPath, existing, scanOpts)
if err != nil {
log.Printf("[auto-scan] scan failed for %s: %v", scanPath, err)
continue
}
mergedItems = append(mergedItems, cache.Items...)
items := library.BuildSyncItems(cache)
if len(items) == 0 {
log.Printf("[auto-scan] no items under %s", scanPath)
continue
}
syncStartedAt := time.Now().UTC().Format(time.RFC3339)
for i := 0; i < len(items); i += batchSize {
end := i + batchSize
if end > len(items) {
end = len(items)
}
isLast := end >= len(items)
_, err := ac.SyncLibrary(ctx, agent.LibrarySyncRequest{
Items: items[i:end],
ScanPath: scanPath,
IsLastBatch: isLast,
SyncStartedAt: syncStartedAt,
})
if err != nil {
log.Printf("[auto-scan] sync failed for %s: %v", scanPath, err)
break
}
}
totalSynced += len(items)
}
// Save merged cache for incremental scanning next time.
if len(mergedItems) > 0 {
mergedCache := &library.LibraryCache{
ScannedAt: time.Now().UTC().Format(time.RFC3339),
Path: scanPaths[0],
Items: mergedItems,
}
if err := library.SaveCache(mergedCache); err != nil {
log.Printf("[auto-scan] save cache failed: %v", err)
}
}
log.Printf("[auto-scan] synced %d items across %d path(s)", totalSynced, len(scanPaths))
}
doScan()
ticker := time.NewTicker(interval)
defer ticker.Stop()
for {
select {
case <-ticker.C:
doScan()
case <-scanNow:
log.Printf("[auto-scan] on-demand scan triggered")
ticker.Reset(interval)
doScan()
case <-ctx.Done():
return
}
}
}
Reference in a new issue View git blame Copy permalink