arian/navidrome
1
0
Fork 0
Code Issues Pull Requests 1 Packages Projects Releases Wiki Activity
Files
master
navidrome/server/e2e/e2e_suite_test.go
T
Deluan Quintão 3f7226d253 fix(server): improve transcoding failure diagnostics and error responses (#5227) 
* fix(server): capture ffmpeg stderr and warn on empty transcoded output

When ffmpeg fails during transcoding (e.g., missing codec like libopus),
the error was silently discarded because stderr was sent to io.Discard
and the HTTP response returned 200 OK with a 0-byte body.

- Capture ffmpeg stderr in a bounded buffer (4KB) and include it in the
  error message when the process exits with a non-zero status code
- Log a warning when transcoded output is 0 bytes, guiding users to
  check codec support and enable Trace logging for details
- Remove log level guard so transcoding errors are always logged, not
  just at Debug level

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

* fix(server): return proper error responses for empty transcoded output

Instead of returning HTTP 200 with 0-byte body when transcoding fails,
return a Subsonic error response (for stream/download/getTranscodeStream)
or HTTP 500 (for public shared streams). This gives clients a clear
signal that the request failed rather than a misleading empty success.

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

* test(e2e): add tests for empty transcoded stream error responses

Add E2E tests verifying that stream and download endpoints return
Subsonic error responses when transcoding produces empty output.
Extend spyStreamer with SimulateEmptyStream and SimulateError fields
to support failure injection in tests.

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

* refactor(server): extract stream serving logic into Stream.Serve method

Extract the duplicated non-seekable stream serving logic (header setup,
estimateContentLength, HEAD draining, io.Copy with error/empty detection)
from server/subsonic/stream.go and server/public/handle_streams.go into a
single Stream.Serve method on core/stream. Both callers now delegate to it,
eliminating ~30 lines of near-identical code.

* fix(server): return 200 with empty body for stream/download on empty transcoded output

Don't return a Subsonic error response when transcoding produces empty
output on stream/download endpoints — just log the error and return 200
with an empty body. The getTranscodeStream and public share endpoints
still return HTTP 500 for empty output. Stream.Serve now returns
(int64, error) so callers can check the byte count.

---------

Signed-off-by: Deluan <deluan@navidrome.org>
2026-03-18 12:39:03 -04:00

548 lines
20 KiB
Go
Raw Permalink Blame History

package e2e
import (
"bytes"
"context"
"encoding/json"
"errors"
"io"
"net/http"
"net/http/httptest"
"net/url"
"os"
"path/filepath"
"strings"
"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/ffmpeg"
"github.com/navidrome/navidrome/core/lyrics"
"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/core/stream"
"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
var file = storagetest.File
// 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
streamerSpy *spyStreamer
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"})
// Template for diverse-format transcode test tracks
tcBase := _t{"albumartist": "Test Artist", "artist": "Test Artist", "album": "Transcode Formats", "year": 2024, "genre": "Test"}
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")),
// Diverse audio format tracks for transcode e2e tests
"Test/Transcode Formats/01 - TC FLAC Standard.flac": file(tcBase, _t{
"title": "TC FLAC Standard", "track": 1, "suffix": "flac",
"bitrate": 900, "samplerate": 44100, "bitdepth": 16, "channels": 2, "duration": int64(240),
}),
"Test/Transcode Formats/02 - TC FLAC HiRes.flac": file(tcBase, _t{
"title": "TC FLAC HiRes", "track": 2, "suffix": "flac",
"bitrate": 3000, "samplerate": 96000, "bitdepth": 24, "channels": 2, "duration": int64(180),
}),
"Test/Transcode Formats/03 - TC ALAC Track.m4a": file(tcBase, _t{
"title": "TC ALAC Track", "track": 3, "suffix": "m4a",
"bitrate": 900, "samplerate": 44100, "bitdepth": 16, "channels": 2, "duration": int64(200),
}),
"Test/Transcode Formats/04 - TC DSD Track.dsf": file(tcBase, _t{
"title": "TC DSD Track", "track": 4, "suffix": "dsf",
"bitrate": 5645, "samplerate": 2822400, "bitdepth": 1, "channels": 2, "duration": int64(300),
}),
"Test/Transcode Formats/05 - TC Opus Track.opus": file(tcBase, _t{
"title": "TC Opus Track", "track": 5, "suffix": "opus",
"bitrate": 128, "samplerate": 48000, "bitdepth": 0, "channels": 2, "duration": int64(210),
}),
"Test/Transcode Formats/06 - TC MKA Opus.mka": file(tcBase, _t{
"title": "TC MKA Opus", "track": 6, "suffix": "mka", "codec": "opus",
"bitrate": 128, "samplerate": 48000, "bitdepth": 0, "channels": 2, "duration": int64(220),
}),
// _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)
}
// buildPostReq creates a POST request with a JSON body and Subsonic auth params in the query string.
func buildPostReq(user model.User, endpoint string, body string, params ...string) *http.Request {
getReq := buildReq(user, endpoint, params...)
r := httptest.NewRequest("POST", getReq.URL.RequestURI(), bytes.NewReader([]byte(body)))
r.Header.Set("Content-Type", "application/json")
return r
}
// doPostReq makes a POST round-trip as admin and returns the parsed Subsonic response.
func doPostReq(endpoint string, body string, params ...string) *responses.Subsonic {
w := httptest.NewRecorder()
r := buildPostReq(adminUser, endpoint, body, params...)
router.ServeHTTP(w, r)
return parseJSONResponse(w)
}
// doRawPostReq makes a POST round-trip as admin and returns the raw recorder.
func doRawPostReq(endpoint string, body string, params ...string) *httptest.ResponseRecorder {
w := httptest.NewRecorder()
r := buildPostReq(adminUser, endpoint, body, params...)
router.ServeHTTP(w, r)
return w
}
// 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
}
// spyStreamer captures the Request passed to NewStream for test assertions,
// then returns a minimal fake Stream so the handler completes without error.
type spyStreamer struct {
LastRequest stream.Request
LastMediaFile *model.MediaFile
SimulateError error // When set, NewStream returns this error
SimulateEmptyStream bool // When true, returns a 0-byte stream (simulates ffmpeg producing no output)
}
func (s *spyStreamer) NewStream(_ context.Context, mf *model.MediaFile, req stream.Request) (*stream.Stream, error) {
s.LastRequest = req
s.LastMediaFile = mf
if s.SimulateError != nil {
return nil, s.SimulateError
}
format := req.Format
if format == "" || format == "raw" {
format = mf.Suffix
}
content := "fake audio data"
if s.SimulateEmptyStream {
content = ""
}
r := io.NopCloser(strings.NewReader(content))
return stream.NewStream(mf, format, req.BitRate, r), nil
}
// noopFFmpeg implements ffmpeg.FFmpeg with no-op methods.
type noopFFmpeg struct{}
func (n noopFFmpeg) Transcode(context.Context, ffmpeg.TranscodeOptions) (io.ReadCloser, error) {
return nil, errors.New("noop ffmpeg: transcode not supported")
}
func (n noopFFmpeg) ExtractImage(context.Context, string) (io.ReadCloser, error) {
return nil, errors.New("noop ffmpeg: extract image not supported")
}
func (n noopFFmpeg) Probe(context.Context, []string) (string, error) {
return "", nil
}
func (n noopFFmpeg) ProbeAudioStream(context.Context, string) (*ffmpeg.AudioProbeResult, error) {
return nil, errors.New("noop ffmpeg: probe not supported")
}
func (n noopFFmpeg) ConvertAnimatedImage(context.Context, io.Reader, int, int) (io.ReadCloser, error) {
return nil, errors.New("noop ffmpeg: convert animated image not supported")
}
func (n noopFFmpeg) CmdPath() (string, error) { return "", nil }
func (n noopFFmpeg) IsAvailable() bool { return false }
func (n noopFFmpeg) Version() string { return "noop" }
// 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{}
_ stream.MediaStreamer = &spyStreamer{}
_ core.Archiver = noopArchiver{}
_ external.Provider = noopProvider{}
_ scrobbler.PlayTracker = noopPlayTracker{}
_ ffmpeg.FFmpeg = noopFFmpeg{}
)
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, core.NewImageUploadService()), 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
conf.Server.DevEnableMediaFileProbe = 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, streamer spy, and real Decider
streamerSpy = &spyStreamer{}
decider := stream.NewTranscodeDecider(ds, noopFFmpeg{})
s := scanner.New(ctx, ds, artwork.NoopCacheWarmer(), events.NoopBroker(),
playlists.NewPlaylists(ds, core.NewImageUploadService()), metrics.NewNoopInstance())
router = subsonic.New(
ds,
noopArtwork{},
streamerSpy,
noopArchiver{},
core.NewPlayers(ds),
noopProvider{},
s,
events.NoopBroker(),
playlists.NewPlaylists(ds, core.NewImageUploadService()),
noopPlayTracker{},
core.NewShare(ds),
playback.PlaybackServer(nil),
metrics.NewNoopInstance(),
lyrics.NewLyrics(nil),
decider,
)
}
// 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())
}
Reference in New Issue View Git Blame Copy Permalink