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navidrome/server/e2e/e2e_suite_test.go
T
Deluan Quintão b59eb32961 feat(subsonic): sort search3 results by relevance (#5086) 
* fix(subsonic): optimize search3 for high-cardinality FTS queries

Use a two-phase query strategy for FTS5 searches to avoid the
performance penalty of expensive LEFT JOINs (annotation, bookmark,
library) on high-cardinality results like "the".

Phase 1 runs a lightweight query (main table + FTS index only) to get
sorted, paginated rowids. Phase 2 hydrates only those few rowids with
the full JOINs, making them nearly free.

For queries with complex ORDER BY expressions that reference joined
tables (e.g. artist search sorted by play count), the optimization is
skipped and the original single-query approach is used.

* fix(search): update order by clauses to include 'rank' for FTS queries

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): reintroduce 'rank' in Phase 2 ORDER BY for FTS queries

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): remove 'rank' from ORDER BY in non-FTS queries and adjust two-phase query handling

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): update FTS ranking to use bm25 weights and simplify ORDER BY qualification

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): refine FTS query handling and improve comments for clarity

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): refactor full-text search handling to streamline query strategy selection and improve LIKE fallback logic.

Increase e2e coverage for search3

Signed-off-by: Deluan <deluan@navidrome.org>

* refactor: enhance FTS column definitions and relevance weights

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): refactor Search method signatures to remove offset and size parameters, streamline query handling

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): allow single-character queries in search strategies and update related tests

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): make FTS Phase 1 treat Max=0 as no limit, reorganize tests

FTS Phase 1 unconditionally called Limit(uint64(options.Max)), which
produced LIMIT 0 when Max was zero. This diverged from applyOptions
where Max=0 means no limit. Now Phase 1 mirrors applyOptions: only add
LIMIT/OFFSET when the value is positive. Also moved legacy backend
integration tests from sql_search_fts_test.go to sql_search_like_test.go
and added regression tests for the Max=0 behavior on both backends.

* refactor: simplify callSearch function by removing variadic options and directly using QueryOptions

Signed-off-by: Deluan <deluan@navidrome.org>

* fix(search): implement ftsQueryDegraded function to detect significant content loss in FTS queries

Signed-off-by: Deluan <deluan@navidrome.org>

---------

Signed-off-by: Deluan <deluan@navidrome.org>
2026-02-23 08:51:54 -05:00

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package e2e
import (
"context"
"encoding/json"
"io"
"net/http"
"net/http/httptest"
"net/url"
"os"
"path/filepath"
"testing"
"testing/fstest"
"time"
"github.com/navidrome/navidrome/conf"
"github.com/navidrome/navidrome/conf/configtest"
"github.com/navidrome/navidrome/core"
"github.com/navidrome/navidrome/core/artwork"
"github.com/navidrome/navidrome/core/auth"
"github.com/navidrome/navidrome/core/external"
"github.com/navidrome/navidrome/core/metrics"
"github.com/navidrome/navidrome/core/playback"
"github.com/navidrome/navidrome/core/playlists"
"github.com/navidrome/navidrome/core/scrobbler"
"github.com/navidrome/navidrome/core/storage/storagetest"
"github.com/navidrome/navidrome/db"
"github.com/navidrome/navidrome/log"
"github.com/navidrome/navidrome/model"
"github.com/navidrome/navidrome/model/request"
"github.com/navidrome/navidrome/persistence"
"github.com/navidrome/navidrome/scanner"
"github.com/navidrome/navidrome/server/events"
"github.com/navidrome/navidrome/server/subsonic"
"github.com/navidrome/navidrome/server/subsonic/responses"
"github.com/navidrome/navidrome/tests"
. "github.com/onsi/ginkgo/v2"
. "github.com/onsi/gomega"
)
func TestSubsonicE2E(t *testing.T) {
tests.Init(t, false)
defer db.Close(t.Context())
log.SetLevel(log.LevelFatal)
RegisterFailHandler(Fail)
RunSpecs(t, "Subsonic API E2E Suite")
}
// Easy aliases for the storagetest package
type _t = map[string]any
var template = storagetest.Template
var track = storagetest.Track
// MusicBrainz ID constants for test data (valid UUID v4 values)
const (
mbidBeatlesArtist = "b10bbbfc-cf9e-42e0-be17-e2c3e1d2600d"
mbidAbbeyRoadAlbum = "a1b2c3d4-e5f6-4a7b-8c9d-0e1f2a3b4c5d"
mbidAbbeyRoadRelGroup = "d4c3b2a1-f6e5-4b7a-9d8c-1f0e3a2b5c4d"
mbidComeTogether = "11111111-1111-4111-a111-111111111111" // mbz_release_track_id
mbidComeTogetherRec = "22222222-2222-4222-a222-222222222222" // mbz_recording_id
mbidSomething = "33333333-3333-4333-a333-333333333333" // mbz_release_track_id
mbidSomethingRec = "44444444-4444-4444-a444-444444444444" // mbz_recording_id
)
// Shared test state
var (
ctx context.Context
ds *tests.MockDataStore
router *subsonic.Router
lib model.Library
// Snapshot paths for fast DB restore
dbFilePath string
snapshotPath string
// Admin user used for most tests
adminUser = model.User{
ID: "admin-1",
UserName: "admin",
Name: "Admin User",
IsAdmin: true,
}
// Regular (non-admin) user for permission tests
regularUser = model.User{
ID: "regular-1",
UserName: "regular",
Name: "Regular User",
IsAdmin: false,
}
)
func createFS(files fstest.MapFS) storagetest.FakeFS {
fs := storagetest.FakeFS{}
fs.SetFiles(files)
storagetest.Register("fake", &fs)
return fs
}
// buildTestFS creates the full test filesystem matching the plan
func buildTestFS() storagetest.FakeFS {
abbeyRoad := template(_t{
"albumartist": "The Beatles",
"artist": "The Beatles",
"album": "Abbey Road",
"year": 1969,
"genre": "Rock",
"musicbrainz_artistid": mbidBeatlesArtist,
"musicbrainz_albumartistid": mbidBeatlesArtist,
"musicbrainz_albumid": mbidAbbeyRoadAlbum,
"musicbrainz_releasegroupid": mbidAbbeyRoadRelGroup,
})
help := template(_t{"albumartist": "The Beatles", "artist": "The Beatles", "album": "Help!", "year": 1965, "genre": "Rock"})
ledZepIV := template(_t{"albumartist": "Led Zeppelin", "artist": "Led Zeppelin", "album": "IV", "year": 1971, "genre": "Rock"})
kindOfBlue := template(_t{"albumartist": "Miles Davis", "artist": "Miles Davis", "album": "Kind of Blue", "year": 1959, "genre": "Jazz"})
popTrack := template(_t{"albumartist": "Various", "artist": "Various", "album": "Pop", "year": 2020, "genre": "Pop"})
cowboyBebop := template(_t{"albumartist": "シートベルツ", "artist": "シートベルツ", "album": "COWBOY BEBOP", "year": 1998, "genre": "Jazz"})
return createFS(fstest.MapFS{
// Rock / The Beatles / Abbey Road (with MBIDs)
// Note: "musicbrainz_trackid" is an alias for the musicbrainz_recordingid tag (populates MbzRecordingID),
// "musicbrainz_releasetrackid" is an alias for the musicbrainz_trackid tag (populates MbzReleaseTrackID).
"Rock/The Beatles/Abbey Road/01 - Come Together.mp3": abbeyRoad(track(1, "Come Together",
_t{"musicbrainz_releasetrackid": mbidComeTogether, "musicbrainz_trackid": mbidComeTogetherRec})),
"Rock/The Beatles/Abbey Road/02 - Something.mp3": abbeyRoad(track(2, "Something",
_t{"musicbrainz_releasetrackid": mbidSomething, "musicbrainz_trackid": mbidSomethingRec})),
// Rock / The Beatles / Help! (no MBIDs)
"Rock/The Beatles/Help!/01 - Help.mp3": help(track(1, "Help!")),
// Rock / Led Zeppelin / IV (no MBIDs)
"Rock/Led Zeppelin/IV/01 - Stairway To Heaven.mp3": ledZepIV(track(1, "Stairway To Heaven")),
// Jazz / Miles Davis / Kind of Blue (no MBIDs)
"Jazz/Miles Davis/Kind of Blue/01 - So What.mp3": kindOfBlue(track(1, "So What")),
// Pop (standalone track, no MBIDs)
"Pop/01 - Standalone Track.mp3": popTrack(track(1, "Standalone Track")),
// CJK / シートベルツ / COWBOY BEBOP (Japanese artist, for CJK search tests)
"CJK/シートベルツ/COWBOY BEBOP/01 - プラチナ・ジェット.mp3": cowboyBebop(track(1, "プラチナ・ジェット")),
// _empty folder (directory with no audio)
"_empty/.keep": &fstest.MapFile{Data: []byte{}, ModTime: time.Now()},
})
}
// createUser creates a user in the database with the given properties, assigns them to the test
// library, and returns the fully-loaded user (with Libraries populated).
func createUser(id, username, name string, isAdmin bool) model.User {
user := model.User{
ID: id,
UserName: username,
Name: name,
IsAdmin: isAdmin,
NewPassword: "password",
}
Expect(ds.User(ctx).Put(&user)).To(Succeed())
Expect(ds.User(ctx).SetUserLibraries(user.ID, []int{lib.ID})).To(Succeed())
loadedUser, err := ds.User(ctx).FindByUsername(user.UserName)
Expect(err).ToNot(HaveOccurred())
user.Libraries = loadedUser.Libraries
return user
}
// doReq makes a full HTTP round-trip through the router and returns the parsed Subsonic response.
func doReq(endpoint string, params ...string) *responses.Subsonic {
return doReqWithUser(adminUser, endpoint, params...)
}
// doReqWithUser makes a full HTTP round-trip for the given user and returns the parsed Subsonic response.
func doReqWithUser(user model.User, endpoint string, params ...string) *responses.Subsonic {
w := httptest.NewRecorder()
r := buildReq(user, endpoint, params...)
router.ServeHTTP(w, r)
return parseJSONResponse(w)
}
// doRawReq returns the raw ResponseRecorder for endpoints that write binary data (stream, download, getCoverArt).
func doRawReq(endpoint string, params ...string) *httptest.ResponseRecorder {
return doRawReqWithUser(adminUser, endpoint, params...)
}
// doRawReqWithUser returns the raw ResponseRecorder for the given user.
func doRawReqWithUser(user model.User, endpoint string, params ...string) *httptest.ResponseRecorder {
w := httptest.NewRecorder()
r := buildReq(user, endpoint, params...)
router.ServeHTTP(w, r)
return w
}
// buildReq creates a GET request with Subsonic auth params (u, p, v, c, f=json).
func buildReq(user model.User, endpoint string, params ...string) *http.Request {
if len(params)%2 != 0 {
panic("buildReq: odd number of parameters")
}
q := url.Values{}
q.Add("u", user.UserName)
q.Add("p", "password")
q.Add("v", "1.16.1")
q.Add("c", "test-client")
q.Add("f", "json")
for i := 0; i < len(params); i += 2 {
q.Add(params[i], params[i+1])
}
return httptest.NewRequest("GET", "/"+endpoint+"?"+q.Encode(), nil)
}
// parseJSONResponse parses the JSON response body into a Subsonic response struct.
func parseJSONResponse(w *httptest.ResponseRecorder) *responses.Subsonic {
Expect(w.Code).To(Equal(http.StatusOK))
var wrapper responses.JsonWrapper
Expect(json.Unmarshal(w.Body.Bytes(), &wrapper)).To(Succeed())
return &wrapper.Subsonic
}
// --- Noop stub implementations for Router dependencies ---
// noopArtwork implements artwork.Artwork
type noopArtwork struct{}
func (n noopArtwork) Get(context.Context, model.ArtworkID, int, bool) (io.ReadCloser, time.Time, error) {
return nil, time.Time{}, model.ErrNotFound
}
func (n noopArtwork) GetOrPlaceholder(_ context.Context, _ string, _ int, _ bool) (io.ReadCloser, time.Time, error) {
return io.NopCloser(io.LimitReader(nil, 0)), time.Time{}, nil
}
// noopStreamer implements core.MediaStreamer
type noopStreamer struct{}
func (n noopStreamer) NewStream(context.Context, string, string, int, int) (*core.Stream, error) {
return nil, model.ErrNotFound
}
func (n noopStreamer) DoStream(context.Context, *model.MediaFile, string, int, int) (*core.Stream, error) {
return nil, model.ErrNotFound
}
// noopArchiver implements core.Archiver
type noopArchiver struct{}
func (n noopArchiver) ZipAlbum(context.Context, string, string, int, io.Writer) error {
return model.ErrNotFound
}
func (n noopArchiver) ZipArtist(context.Context, string, string, int, io.Writer) error {
return model.ErrNotFound
}
func (n noopArchiver) ZipShare(context.Context, string, io.Writer) error {
return model.ErrNotFound
}
func (n noopArchiver) ZipPlaylist(context.Context, string, string, int, io.Writer) error {
return model.ErrNotFound
}
// noopProvider implements external.Provider
type noopProvider struct{}
func (n noopProvider) UpdateAlbumInfo(_ context.Context, _ string) (*model.Album, error) {
return &model.Album{}, nil
}
func (n noopProvider) UpdateArtistInfo(_ context.Context, _ string, _ int, _ bool) (*model.Artist, error) {
return &model.Artist{}, nil
}
func (n noopProvider) SimilarSongs(context.Context, string, int) (model.MediaFiles, error) {
return nil, nil
}
func (n noopProvider) TopSongs(context.Context, string, int) (model.MediaFiles, error) {
return nil, nil
}
func (n noopProvider) ArtistImage(context.Context, string) (*url.URL, error) {
return nil, model.ErrNotFound
}
func (n noopProvider) AlbumImage(context.Context, string) (*url.URL, error) {
return nil, model.ErrNotFound
}
// noopPlayTracker implements scrobbler.PlayTracker
type noopPlayTracker struct{}
func (n noopPlayTracker) NowPlaying(context.Context, string, string, string, int) error {
return nil
}
func (n noopPlayTracker) GetNowPlaying(context.Context) ([]scrobbler.NowPlayingInfo, error) {
return nil, nil
}
func (n noopPlayTracker) Submit(context.Context, []scrobbler.Submission) error {
return nil
}
// Compile-time interface checks
var (
_ artwork.Artwork = noopArtwork{}
_ core.MediaStreamer = noopStreamer{}
_ core.Archiver = noopArchiver{}
_ external.Provider = noopProvider{}
_ scrobbler.PlayTracker = noopPlayTracker{}
)
var _ = BeforeSuite(func() {
ctx = request.WithUser(GinkgoT().Context(), adminUser)
tmpDir := GinkgoT().TempDir()
dbFilePath = filepath.Join(tmpDir, "test-e2e.db")
snapshotPath = filepath.Join(tmpDir, "test-e2e.db.snapshot")
conf.Server.DbPath = dbFilePath + "?_journal_mode=WAL"
db.Db().SetMaxOpenConns(1)
// Initial setup: schema, user, library, and full scan (runs once for the entire suite)
conf.Server.MusicFolder = "fake:///music"
conf.Server.DevExternalScanner = false
db.Init(ctx)
initDS := &tests.MockDataStore{RealDS: persistence.New(db.Db())}
auth.Init(initDS)
adminUserWithPass := adminUser
adminUserWithPass.NewPassword = "password"
Expect(initDS.User(ctx).Put(&adminUserWithPass)).To(Succeed())
regularUserWithPass := regularUser
regularUserWithPass.NewPassword = "password"
Expect(initDS.User(ctx).Put(&regularUserWithPass)).To(Succeed())
lib = model.Library{ID: 1, Name: "Music Library", Path: "fake:///music"}
Expect(initDS.Library(ctx).Put(&lib)).To(Succeed())
Expect(initDS.User(ctx).SetUserLibraries(adminUser.ID, []int{lib.ID})).To(Succeed())
Expect(initDS.User(ctx).SetUserLibraries(regularUser.ID, []int{lib.ID})).To(Succeed())
loadedUser, err := initDS.User(ctx).FindByUsername(adminUser.UserName)
Expect(err).ToNot(HaveOccurred())
adminUser.Libraries = loadedUser.Libraries
loadedRegular, err := initDS.User(ctx).FindByUsername(regularUser.UserName)
Expect(err).ToNot(HaveOccurred())
regularUser.Libraries = loadedRegular.Libraries
ctx = request.WithUser(GinkgoT().Context(), adminUser)
buildTestFS()
s := scanner.New(ctx, initDS, artwork.NoopCacheWarmer(), events.NoopBroker(),
playlists.NewPlaylists(initDS), metrics.NewNoopInstance())
_, err = s.ScanAll(ctx, true)
Expect(err).ToNot(HaveOccurred())
// Checkpoint WAL and snapshot the golden DB state
_, err = db.Db().Exec("PRAGMA wal_checkpoint(TRUNCATE)")
Expect(err).ToNot(HaveOccurred())
data, err := os.ReadFile(dbFilePath)
Expect(err).ToNot(HaveOccurred())
Expect(os.WriteFile(snapshotPath, data, 0600)).To(Succeed())
})
// setupTestDB restores the database from the golden snapshot and creates the
// Subsonic Router. Call this from BeforeEach/BeforeAll in each test container.
func setupTestDB() {
ctx = request.WithUser(GinkgoT().Context(), adminUser)
DeferCleanup(configtest.SetupConfig())
DeferCleanup(func() {
// Wait for any background scan (e.g. from startScan endpoint) to finish
// before config cleanup runs, to avoid a data race on conf.Server.
Eventually(scanner.IsScanning).Should(BeFalse())
})
conf.Server.MusicFolder = "fake:///music"
conf.Server.DevExternalScanner = false
// Restore DB to golden state (no scan needed)
restoreDB()
ds = &tests.MockDataStore{RealDS: persistence.New(db.Db())}
auth.Init(ds)
// Create the Subsonic Router with real DS + noop stubs
s := scanner.New(ctx, ds, artwork.NoopCacheWarmer(), events.NoopBroker(),
playlists.NewPlaylists(ds), metrics.NewNoopInstance())
router = subsonic.New(
ds,
noopArtwork{},
noopStreamer{},
noopArchiver{},
core.NewPlayers(ds),
noopProvider{},
s,
events.NoopBroker(),
playlists.NewPlaylists(ds),
noopPlayTracker{},
core.NewShare(ds),
playback.PlaybackServer(nil),
metrics.NewNoopInstance(),
)
}
// restoreDB restores all table data from the snapshot using ATTACH DATABASE.
// This is much faster than re-running the scanner for each test.
func restoreDB() {
sqlDB := db.Db()
_, err := sqlDB.Exec("PRAGMA foreign_keys = OFF")
Expect(err).ToNot(HaveOccurred())
_, err = sqlDB.Exec("ATTACH DATABASE ? AS snapshot", snapshotPath)
Expect(err).ToNot(HaveOccurred())
rows, err := sqlDB.Query("SELECT name FROM main.sqlite_master WHERE type='table' AND name NOT LIKE 'sqlite_%' AND name NOT LIKE '%_fts' AND name NOT LIKE '%_fts_%'")
Expect(err).ToNot(HaveOccurred())
var tables []string
for rows.Next() {
var name string
Expect(rows.Scan(&name)).To(Succeed())
tables = append(tables, name)
}
Expect(rows.Err()).ToNot(HaveOccurred())
rows.Close()
for _, table := range tables {
// Table names come from sqlite_master, not user input, so concatenation is safe here
_, err = sqlDB.Exec(`DELETE FROM main."` + table + `"`) //nolint:gosec
Expect(err).ToNot(HaveOccurred())
_, err = sqlDB.Exec(`INSERT INTO main."` + table + `" SELECT * FROM snapshot."` + table + `"`) //nolint:gosec
Expect(err).ToNot(HaveOccurred())
}
_, err = sqlDB.Exec("DETACH DATABASE snapshot")
Expect(err).ToNot(HaveOccurred())
_, err = sqlDB.Exec("PRAGMA foreign_keys = ON")
Expect(err).ToNot(HaveOccurred())
}
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