package scanner
import (
"cmp"
"context"
"errors"
"fmt"
"maps"
"path"
"slices"
"sync"
"sync/atomic"
"time"
"github.com/Masterminds/squirrel"
ppl "github.com/google/go-pipeline/pkg/pipeline"
"github.com/navidrome/navidrome/conf"
"github.com/navidrome/navidrome/consts"
"github.com/navidrome/navidrome/core/artwork"
"github.com/navidrome/navidrome/core/storage"
"github.com/navidrome/navidrome/log"
"github.com/navidrome/navidrome/model"
"github.com/navidrome/navidrome/model/metadata"
"github.com/navidrome/navidrome/utils"
"github.com/navidrome/navidrome/utils/pl"
"github.com/navidrome/navidrome/utils/slice"
)
func createPhaseFolders(ctx context.Context, state *scanState, ds model.DataStore, cw artwork.CacheWarmer, libs []model.Library) *phaseFolders {
var jobs []*scanJob
for _, lib := range libs {
if lib.LastScanStartedAt.IsZero() {
err := ds.Library(ctx).ScanBegin(lib.ID, state.fullScan)
if err != nil {
log.Error(ctx, "Scanner: Error updating last scan started at", "lib", lib.Name, err)
state.sendWarning(err.Error())
continue
}
// Reload library to get updated state
l, err := ds.Library(ctx).Get(lib.ID)
if err != nil {
log.Error(ctx, "Scanner: Error reloading library", "lib", lib.Name, err)
state.sendWarning(err.Error())
continue
}
lib = *l
} else {
log.Debug(ctx, "Scanner: Resuming previous scan", "lib", lib.Name, "lastScanStartedAt", lib.LastScanStartedAt, "fullScan", lib.FullScanInProgress)
}
job, err := newScanJob(ctx, ds, cw, lib, state.fullScan)
if err != nil {
log.Error(ctx, "Scanner: Error creating scan context", "lib", lib.Name, err)
state.sendWarning(err.Error())
continue
}
jobs = append(jobs, job)
}
return &phaseFolders{jobs: jobs, ctx: ctx, ds: ds, state: state}
}
type scanJob struct {
lib model.Library
fs storage.MusicFS
cw artwork.CacheWarmer
lastUpdates map[string]time.Time
lock sync.Mutex
numFolders atomic.Int64
}
func newScanJob(ctx context.Context, ds model.DataStore, cw artwork.CacheWarmer, lib model.Library, fullScan bool) (*scanJob, error) {
lastUpdates, err := ds.Folder(ctx).GetLastUpdates(lib)
if err != nil {
return nil, fmt.Errorf("getting last updates: %w", err)
}
fileStore, err := storage.For(lib.Path)
if err != nil {
log.Error(ctx, "Error getting storage for library", "library", lib.Name, "path", lib.Path, err)
return nil, fmt.Errorf("getting storage for library: %w", err)
}
fsys, err := fileStore.FS()
if err != nil {
log.Error(ctx, "Error getting fs for library", "library", lib.Name, "path", lib.Path, err)
return nil, fmt.Errorf("getting fs for library: %w", err)
}
lib.FullScanInProgress = lib.FullScanInProgress || fullScan
return &scanJob{
lib: lib,
fs: fsys,
cw: cw,
lastUpdates: lastUpdates,
}, nil
}
func (j *scanJob) popLastUpdate(folderID string) time.Time {
j.lock.Lock()
defer j.lock.Unlock()
lastUpdate := j.lastUpdates[folderID]
delete(j.lastUpdates, folderID)
return lastUpdate
}
// phaseFolders represents the first phase of the scanning process, which is responsible
// for scanning all libraries and importing new or updated files. This phase involves
// traversing the directory tree of each library, identifying new or modified media files,
// and updating the database with the relevant information.
//
// The phaseFolders struct holds the context, data store, and jobs required for the scanning
// process. Each job represents a library being scanned, and contains information about the
// library, file system, and the last updates of the folders.
//
// The phaseFolders struct implements the phase interface, providing methods to produce
// folder entries, process folders, persist changes to the database, and log the results.
type phaseFolders struct {
jobs []*scanJob
ds model.DataStore
ctx context.Context
state *scanState
prevAlbumPIDConf string
}
func (p *phaseFolders) description() string {
return "Scan all libraries and import new/updated files"
}
func (p *phaseFolders) producer() ppl.Producer[*folderEntry] {
return ppl.NewProducer(func(put func(entry *folderEntry)) error {
var err error
p.prevAlbumPIDConf, err = p.ds.Property(p.ctx).DefaultGet(consts.PIDAlbumKey, "")
if err != nil {
return fmt.Errorf("getting album PID conf: %w", err)
}
// TODO Parallelize multiple job when we have multiple libraries
var total int64
var totalChanged int64
for _, job := range p.jobs {
if utils.IsCtxDone(p.ctx) {
break
}
outputChan, err := walkDirTree(p.ctx, job)
if err != nil {
log.Warn(p.ctx, "Scanner: Error scanning library", "lib", job.lib.Name, err)
}
for folder := range pl.ReadOrDone(p.ctx, outputChan) {
job.numFolders.Add(1)
p.state.sendProgress(&ProgressInfo{
LibID: job.lib.ID,
FileCount: uint32(len(folder.audioFiles)),
Path: folder.path,
Phase: "1",
})
if folder.isOutdated() {
if !p.state.fullScan {
if folder.hasNoFiles() && folder.isNew() {
log.Trace(p.ctx, "Scanner: Skipping new folder with no files", "folder", folder.path, "lib", job.lib.Name)
continue
}
log.Trace(p.ctx, "Scanner: Detected changes in folder", "folder", folder.path, "lastUpdate", folder.modTime, "lib", job.lib.Name)
}
totalChanged++
folder.elapsed.Stop()
put(folder)
}
}
total += job.numFolders.Load()
}
log.Debug(p.ctx, "Scanner: Finished loading all folders", "numFolders", total, "numChanged", totalChanged)
return nil
}, ppl.Name("traverse filesystem"))
}
func (p *phaseFolders) measure(entry *folderEntry) func() time.Duration {
entry.elapsed.Start()
return func() time.Duration { return entry.elapsed.Stop() }
}
func (p *phaseFolders) stages() []ppl.Stage[*folderEntry] {
return []ppl.Stage[*folderEntry]{
ppl.NewStage(p.processFolder, ppl.Name("process folder"), ppl.Concurrency(conf.Server.DevScannerThreads)),
ppl.NewStage(p.persistChanges, ppl.Name("persist changes")),
ppl.NewStage(p.logFolder, ppl.Name("log results")),
}
}
func (p *phaseFolders) processFolder(entry *folderEntry) (*folderEntry, error) {
defer p.measure(entry)()
// Load children mediafiles from DB
cursor, err := p.ds.MediaFile(p.ctx).GetCursor(model.QueryOptions{
Filters: squirrel.And{squirrel.Eq{"folder_id": entry.id}},
})
if err != nil {
log.Error(p.ctx, "Scanner: Error loading mediafiles from DB", "folder", entry.path, err)
return entry, err
}
dbTracks := make(map[string]*model.MediaFile)
for mf, err := range cursor {
if err != nil {
log.Error(p.ctx, "Scanner: Error loading mediafiles from DB", "folder", entry.path, err)
return entry, err
}
dbTracks[mf.Path] = &mf
}
// Get list of files to import, based on modtime (or all if fullScan),
// leave in dbTracks only tracks that are missing (not found in the FS)
filesToImport := make(map[string]*model.MediaFile, len(entry.audioFiles))
for afPath, af := range entry.audioFiles {
fullPath := path.Join(entry.path, afPath)
dbTrack, foundInDB := dbTracks[fullPath]
if !foundInDB || p.state.fullScan {
filesToImport[fullPath] = dbTrack
} else {
info, err := af.Info()
if err != nil {
log.Warn(p.ctx, "Scanner: Error getting file info", "folder", entry.path, "file", af.Name(), err)
p.state.sendWarning(fmt.Sprintf("Error getting file info for %s/%s: %v", entry.path, af.Name(), err))
return entry, nil
}
if info.ModTime().After(dbTrack.UpdatedAt) || dbTrack.Missing {
filesToImport[fullPath] = dbTrack
}
}
delete(dbTracks, fullPath)
}
// Remaining dbTracks are tracks that were not found in the FS, so they should be marked as missing
entry.missingTracks = slices.Collect(maps.Values(dbTracks))
// Load metadata from files that need to be imported
if len(filesToImport) > 0 {
err = p.loadTagsFromFiles(entry, filesToImport)
if err != nil {
log.Warn(p.ctx, "Scanner: Error loading tags from files. Skipping", "folder", entry.path, err)
p.state.sendWarning(fmt.Sprintf("Error loading tags from files in %s: %v", entry.path, err))
return entry, nil
}
p.createAlbumsFromMediaFiles(entry)
p.createArtistsFromMediaFiles(entry)
}
return entry, nil
}
const filesBatchSize = 200
// loadTagsFromFiles reads metadata from the files in the given list and populates
// the entry's tracks and tags with the results.
func (p *phaseFolders) loadTagsFromFiles(entry *folderEntry, toImport map[string]*model.MediaFile) error {
tracks := make([]model.MediaFile, 0, len(toImport))
uniqueTags := make(map[string]model.Tag, len(toImport))
for chunk := range slice.CollectChunks(maps.Keys(toImport), filesBatchSize) {
allInfo, err := entry.job.fs.ReadTags(chunk...)
if err != nil {
log.Warn(p.ctx, "Scanner: Error extracting metadata from files. Skipping", "folder", entry.path, err)
return err
}
for filePath, info := range allInfo {
md := metadata.New(filePath, info)
track := md.ToMediaFile(entry.job.lib.ID, entry.id)
tracks = append(tracks, track)
for _, t := range track.Tags.FlattenAll() {
uniqueTags[t.ID] = t
}
// Keep track of any album ID changes, to reassign annotations later
prevAlbumID := ""
if prev := toImport[filePath]; prev != nil {
prevAlbumID = prev.AlbumID
} else {
prevAlbumID = md.AlbumID(track, p.prevAlbumPIDConf)
}
_, ok := entry.albumIDMap[track.AlbumID]
if prevAlbumID != track.AlbumID && !ok {
entry.albumIDMap[track.AlbumID] = prevAlbumID
}
}
}
entry.tracks = tracks
entry.tags = slices.Collect(maps.Values(uniqueTags))
return nil
}
// createAlbumsFromMediaFiles groups the entry's tracks by album ID and creates albums
func (p *phaseFolders) createAlbumsFromMediaFiles(entry *folderEntry) {
grouped := slice.Group(entry.tracks, func(mf model.MediaFile) string { return mf.AlbumID })
albums := make(model.Albums, 0, len(grouped))
for _, group := range grouped {
songs := model.MediaFiles(group)
album := songs.ToAlbum()
albums = append(albums, album)
}
entry.albums = albums
}
// createArtistsFromMediaFiles creates artists from the entry's tracks
func (p *phaseFolders) createArtistsFromMediaFiles(entry *folderEntry) {
participants := make(model.Participants, len(entry.tracks)*3) // preallocate ~3 artists per track
for _, track := range entry.tracks {
participants.Merge(track.Participants)
}
entry.artists = participants.AllArtists()
}
func (p *phaseFolders) persistChanges(entry *folderEntry) (*folderEntry, error) {
defer p.measure(entry)()
p.state.changesDetected.Store(true)
err := p.ds.WithTx(func(tx model.DataStore) error {
// Instantiate all repositories just once per folder
folderRepo := tx.Folder(p.ctx)
tagRepo := tx.Tag(p.ctx)
artistRepo := tx.Artist(p.ctx)
libraryRepo := tx.Library(p.ctx)
albumRepo := tx.Album(p.ctx)
mfRepo := tx.MediaFile(p.ctx)
// Save folder to DB
folder := entry.toFolder()
err := folderRepo.Put(folder)
if err != nil {
log.Error(p.ctx, "Scanner: Error persisting folder to DB", "folder", entry.path, err)
return err
}
// Save all tags to DB
err = tagRepo.Add(entry.tags...)
if err != nil {
log.Error(p.ctx, "Scanner: Error persisting tags to DB", "folder", entry.path, err)
return err
}
// Save all new/modified artists to DB. Their information will be incomplete, but they will be refreshed later
for i := range entry.artists {
err = artistRepo.Put(&entry.artists[i], "name", "mbz_artist_id", "sort_artist_name", "order_artist_name")
if err != nil {
log.Error(p.ctx, "Scanner: Error persisting artist to DB", "folder", entry.path, "artist", entry.artists[i].Name, err)
return err
}
err = libraryRepo.AddArtist(entry.job.lib.ID, entry.artists[i].ID)
if err != nil {
log.Error(p.ctx, "Scanner: Error adding artist to library", "lib", entry.job.lib.ID, "artist", entry.artists[i].Name, err)
return err
}
if entry.artists[i].Name != consts.UnknownArtist && entry.artists[i].Name != consts.VariousArtists {
entry.job.cw.PreCache(entry.artists[i].CoverArtID())
}
}
// Save all new/modified albums to DB. Their information will be incomplete, but they will be refreshed later
for i := range entry.albums {
err = p.persistAlbum(albumRepo, &entry.albums[i], entry.albumIDMap)
if err != nil {
log.Error(p.ctx, "Scanner: Error persisting album to DB", "folder", entry.path, "album", entry.albums[i], err)
return err
}
if entry.albums[i].Name != consts.UnknownAlbum {
entry.job.cw.PreCache(entry.albums[i].CoverArtID())
}
}
// Save all tracks to DB
for i := range entry.tracks {
err = mfRepo.Put(&entry.tracks[i])
if err != nil {
log.Error(p.ctx, "Scanner: Error persisting mediafile to DB", "folder", entry.path, "track", entry.tracks[i], err)
return err
}
}
// Mark all missing tracks as not available
if len(entry.missingTracks) > 0 {
err = mfRepo.MarkMissing(true, entry.missingTracks...)
if err != nil {
log.Error(p.ctx, "Scanner: Error marking missing tracks", "folder", entry.path, err)
return err
}
// Touch all albums that have missing tracks, so they get refreshed in later phases
groupedMissingTracks := slice.ToMap(entry.missingTracks, func(mf *model.MediaFile) (string, struct{}) {
return mf.AlbumID, struct{}{}
})
albumsToUpdate := slices.Collect(maps.Keys(groupedMissingTracks))
err = albumRepo.Touch(albumsToUpdate...)
if err != nil {
log.Error(p.ctx, "Scanner: Error touching album", "folder", entry.path, "albums", albumsToUpdate, err)
return err
}
}
return nil
}, "scanner: persist changes")
if err != nil {
log.Error(p.ctx, "Scanner: Error persisting changes to DB", "folder", entry.path, err)
}
return entry, err
}
// persistAlbum persists the given album to the database, and reassigns annotations from the previous album ID
func (p *phaseFolders) persistAlbum(repo model.AlbumRepository, a *model.Album, idMap map[string]string) error {
prevID := idMap[a.ID]
log.Trace(p.ctx, "Persisting album", "album", a.Name, "albumArtist", a.AlbumArtist, "id", a.ID, "prevID", cmp.Or(prevID, "nil"))
if err := repo.Put(a); err != nil {
return fmt.Errorf("persisting album %s: %w", a.ID, err)
}
if prevID == "" {
return nil
}
// Reassign annotation from previous album to new album
log.Trace(p.ctx, "Reassigning album annotations", "from", prevID, "to", a.ID, "album", a.Name)
if err := repo.ReassignAnnotation(prevID, a.ID); err != nil {
log.Warn(p.ctx, "Scanner: Could not reassign annotations", "from", prevID, "to", a.ID, "album", a.Name, err)
p.state.sendWarning(fmt.Sprintf("Could not reassign annotations from %s to %s ('%s'): %v", prevID, a.ID, a.Name, err))
}
// Keep created_at field from previous instance of the album
if err := repo.CopyAttributes(prevID, a.ID, "created_at"); err != nil {
// Silently ignore when the previous album is not found
if !errors.Is(err, model.ErrNotFound) {
log.Warn(p.ctx, "Scanner: Could not copy fields", "from", prevID, "to", a.ID, "album", a.Name, err)
p.state.sendWarning(fmt.Sprintf("Could not copy fields from %s to %s ('%s'): %v", prevID, a.ID, a.Name, err))
}
}
// Don't keep track of this mapping anymore
delete(idMap, a.ID)
return nil
}
func (p *phaseFolders) logFolder(entry *folderEntry) (*folderEntry, error) {
logCall := log.Info
if entry.hasNoFiles() {
logCall = log.Trace
}
logCall(p.ctx, "Scanner: Completed processing folder",
"audioCount", len(entry.audioFiles), "imageCount", len(entry.imageFiles), "plsCount", entry.numPlaylists,
"elapsed", entry.elapsed.Elapsed(), "tracksMissing", len(entry.missingTracks),
"tracksImported", len(entry.tracks), "library", entry.job.lib.Name, consts.Zwsp+"folder", entry.path)
return entry, nil
}
func (p *phaseFolders) finalize(err error) error {
errF := p.ds.WithTx(func(tx model.DataStore) error {
for _, job := range p.jobs {
// Mark all folders that were not updated as missing
if len(job.lastUpdates) == 0 {
continue
}
folderIDs := slices.Collect(maps.Keys(job.lastUpdates))
err := tx.Folder(p.ctx).MarkMissing(true, folderIDs...)
if err != nil {
log.Error(p.ctx, "Scanner: Error marking missing folders", "lib", job.lib.Name, err)
return err
}
err = tx.MediaFile(p.ctx).MarkMissingByFolder(true, folderIDs...)
if err != nil {
log.Error(p.ctx, "Scanner: Error marking tracks in missing folders", "lib", job.lib.Name, err)
return err
}
// Touch all albums that have missing folders, so they get refreshed in later phases
_, err = tx.Album(p.ctx).TouchByMissingFolder()
if err != nil {
log.Error(p.ctx, "Scanner: Error touching albums with missing folders", "lib", job.lib.Name, err)
return err
}
}
return nil
}, "scanner: finalize phaseFolders")
return errors.Join(err, errF)
}
var _ phase[*folderEntry] = (*phaseFolders)(nil)