package main import ( "bufio" "bytes" "context" "crypto/rand" "encoding/json" "fmt" "io" "io/ioutil" mrand "math/rand" "os" "path/filepath" "regexp" "strings" "syscall" "testing" "time" "github.com/restic/restic/internal/errors" "github.com/restic/restic/internal/filter" "github.com/restic/restic/internal/fs" "github.com/restic/restic/internal/repository" "github.com/restic/restic/internal/restic" rtest "github.com/restic/restic/internal/test" "github.com/restic/restic/internal/ui/termstatus" "golang.org/x/sync/errgroup" ) func parseIDsFromReader(t testing.TB, rd io.Reader) restic.IDs { IDs := restic.IDs{} sc := bufio.NewScanner(rd) for sc.Scan() { id, err := restic.ParseID(sc.Text()) if err != nil { t.Logf("parse id %v: %v", sc.Text(), err) continue } IDs = append(IDs, id) } return IDs } func testRunInit(t testing.TB, opts GlobalOptions) { repository.TestUseLowSecurityKDFParameters(t) restic.TestDisableCheckPolynomial(t) restic.TestSetLockTimeout(t, 0) rtest.OK(t, runInit(opts, nil)) t.Logf("repository initialized at %v", opts.Repo) } func testRunBackup(t testing.TB, dir string, target []string, opts BackupOptions, gopts GlobalOptions) { ctx, cancel := context.WithCancel(gopts.ctx) defer cancel() var wg errgroup.Group term := termstatus.New(gopts.stdout, gopts.stderr, gopts.Quiet) wg.Go(func() error { term.Run(ctx); return nil }) gopts.stdout = ioutil.Discard t.Logf("backing up %v in %v", target, dir) if dir != "" { cleanup := fs.TestChdir(t, dir) defer cleanup() } rtest.OK(t, runBackup(opts, gopts, term, target)) cancel() err := wg.Wait() if err != nil { t.Fatal(err) } } func testRunList(t testing.TB, tpe string, opts GlobalOptions) restic.IDs { buf := bytes.NewBuffer(nil) globalOptions.stdout = buf defer func() { globalOptions.stdout = os.Stdout }() rtest.OK(t, runList(cmdList, opts, []string{tpe})) return parseIDsFromReader(t, buf) } func testRunRestore(t testing.TB, opts GlobalOptions, dir string, snapshotID restic.ID) { testRunRestoreExcludes(t, opts, dir, snapshotID, nil) } func testRunRestoreLatest(t testing.TB, gopts GlobalOptions, dir string, paths []string, host string) { opts := RestoreOptions{ Target: dir, Host: host, Paths: paths, } rtest.OK(t, runRestore(opts, gopts, []string{"latest"})) } func testRunRestoreExcludes(t testing.TB, gopts GlobalOptions, dir string, snapshotID restic.ID, excludes []string) { opts := RestoreOptions{ Target: dir, Exclude: excludes, } rtest.OK(t, runRestore(opts, gopts, []string{snapshotID.String()})) } func testRunRestoreIncludes(t testing.TB, gopts GlobalOptions, dir string, snapshotID restic.ID, includes []string) { opts := RestoreOptions{ Target: dir, Include: includes, } rtest.OK(t, runRestore(opts, gopts, []string{snapshotID.String()})) } func testRunCheck(t testing.TB, gopts GlobalOptions) { opts := CheckOptions{ ReadData: true, CheckUnused: true, } rtest.OK(t, runCheck(opts, gopts, nil)) } func testRunCheckOutput(gopts GlobalOptions) (string, error) { buf := bytes.NewBuffer(nil) globalOptions.stdout = buf defer func() { globalOptions.stdout = os.Stdout }() opts := CheckOptions{ ReadData: true, } err := runCheck(opts, gopts, nil) return string(buf.Bytes()), err } func testRunRebuildIndex(t testing.TB, gopts GlobalOptions) { globalOptions.stdout = ioutil.Discard defer func() { globalOptions.stdout = os.Stdout }() rtest.OK(t, runRebuildIndex(gopts)) } func testRunLs(t testing.TB, gopts GlobalOptions, snapshotID string) []string { buf := bytes.NewBuffer(nil) globalOptions.stdout = buf quiet := globalOptions.Quiet globalOptions.Quiet = true defer func() { globalOptions.stdout = os.Stdout globalOptions.Quiet = quiet }() opts := LsOptions{} rtest.OK(t, runLs(opts, gopts, []string{snapshotID})) return strings.Split(string(buf.Bytes()), "\n") } func testRunFind(t testing.TB, wantJSON bool, gopts GlobalOptions, pattern string) []byte { buf := bytes.NewBuffer(nil) globalOptions.stdout = buf globalOptions.JSON = wantJSON defer func() { globalOptions.stdout = os.Stdout globalOptions.JSON = false }() opts := FindOptions{} rtest.OK(t, runFind(opts, gopts, []string{pattern})) return buf.Bytes() } func testRunSnapshots(t testing.TB, gopts GlobalOptions) (newest *Snapshot, snapmap map[restic.ID]Snapshot) { buf := bytes.NewBuffer(nil) globalOptions.stdout = buf globalOptions.JSON = true defer func() { globalOptions.stdout = os.Stdout globalOptions.JSON = gopts.JSON }() opts := SnapshotOptions{} rtest.OK(t, runSnapshots(opts, globalOptions, []string{})) snapshots := []Snapshot{} rtest.OK(t, json.Unmarshal(buf.Bytes(), &snapshots)) snapmap = make(map[restic.ID]Snapshot, len(snapshots)) for _, sn := range snapshots { snapmap[*sn.ID] = sn if newest == nil || sn.Time.After(newest.Time) { newest = &sn } } return } func testRunForget(t testing.TB, gopts GlobalOptions, args ...string) { opts := ForgetOptions{} rtest.OK(t, runForget(opts, gopts, args)) } func testRunPrune(t testing.TB, gopts GlobalOptions) { rtest.OK(t, runPrune(gopts)) } func TestBackup(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "backup-data.tar.gz") fd, err := os.Open(datafile) if os.IsNotExist(errors.Cause(err)) { t.Skipf("unable to find data file %q, skipping", datafile) return } rtest.OK(t, err) rtest.OK(t, fd.Close()) testRunInit(t, env.gopts) rtest.SetupTarTestFixture(t, env.testdata, datafile) opts := BackupOptions{} // first backup testRunBackup(t, filepath.Dir(env.testdata), []string{"testdata"}, opts, env.gopts) snapshotIDs := testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(snapshotIDs) == 1, "expected one snapshot, got %v", snapshotIDs) testRunCheck(t, env.gopts) stat1 := dirStats(env.repo) // second backup, implicit incremental testRunBackup(t, filepath.Dir(env.testdata), []string{"testdata"}, opts, env.gopts) snapshotIDs = testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(snapshotIDs) == 2, "expected two snapshots, got %v", snapshotIDs) stat2 := dirStats(env.repo) if stat2.size > stat1.size+stat1.size/10 { t.Error("repository size has grown by more than 10 percent") } t.Logf("repository grown by %d bytes", stat2.size-stat1.size) testRunCheck(t, env.gopts) // third backup, explicit incremental opts.Parent = snapshotIDs[0].String() testRunBackup(t, filepath.Dir(env.testdata), []string{"testdata"}, opts, env.gopts) snapshotIDs = testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(snapshotIDs) == 3, "expected three snapshots, got %v", snapshotIDs) stat3 := dirStats(env.repo) if stat3.size > stat1.size+stat1.size/10 { t.Error("repository size has grown by more than 10 percent") } t.Logf("repository grown by %d bytes", stat3.size-stat2.size) // restore all backups and compare for i, snapshotID := range snapshotIDs { restoredir := filepath.Join(env.base, fmt.Sprintf("restore%d", i)) t.Logf("restoring snapshot %v to %v", snapshotID.Str(), restoredir) testRunRestore(t, env.gopts, restoredir, snapshotIDs[0]) rtest.Assert(t, directoriesEqualContents(env.testdata, filepath.Join(restoredir, "testdata")), "directories are not equal") } testRunCheck(t, env.gopts) } func TestBackupNonExistingFile(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "backup-data.tar.gz") fd, err := os.Open(datafile) if os.IsNotExist(errors.Cause(err)) { t.Skipf("unable to find data file %q, skipping", datafile) return } rtest.OK(t, err) rtest.OK(t, fd.Close()) rtest.SetupTarTestFixture(t, env.testdata, datafile) testRunInit(t, env.gopts) globalOptions.stderr = ioutil.Discard defer func() { globalOptions.stderr = os.Stderr }() p := filepath.Join(env.testdata, "0", "0", "9") dirs := []string{ filepath.Join(p, "0"), filepath.Join(p, "1"), filepath.Join(p, "nonexisting"), filepath.Join(p, "5"), } opts := BackupOptions{} testRunBackup(t, "", dirs, opts, env.gopts) } func includes(haystack []string, needle string) bool { for _, s := range haystack { if s == needle { return true } } return false } func loadSnapshotMap(t testing.TB, gopts GlobalOptions) map[string]struct{} { snapshotIDs := testRunList(t, "snapshots", gopts) m := make(map[string]struct{}) for _, id := range snapshotIDs { m[id.String()] = struct{}{} } return m } func lastSnapshot(old, new map[string]struct{}) (map[string]struct{}, string) { for k := range new { if _, ok := old[k]; !ok { old[k] = struct{}{} return old, k } } return old, "" } var backupExcludeFilenames = []string{ "testfile1", "foo.tar.gz", "private/secret/passwords.txt", "work/source/test.c", } func TestBackupExclude(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() testRunInit(t, env.gopts) datadir := filepath.Join(env.base, "testdata") for _, filename := range backupExcludeFilenames { fp := filepath.Join(datadir, filename) rtest.OK(t, os.MkdirAll(filepath.Dir(fp), 0755)) f, err := os.Create(fp) rtest.OK(t, err) fmt.Fprintf(f, filename) rtest.OK(t, f.Close()) } snapshots := make(map[string]struct{}) opts := BackupOptions{} testRunBackup(t, filepath.Dir(env.testdata), []string{"testdata"}, opts, env.gopts) snapshots, snapshotID := lastSnapshot(snapshots, loadSnapshotMap(t, env.gopts)) files := testRunLs(t, env.gopts, snapshotID) rtest.Assert(t, includes(files, filepath.Join(string(filepath.Separator), "testdata", "foo.tar.gz")), "expected file %q in first snapshot, but it's not included", "foo.tar.gz") opts.Excludes = []string{"*.tar.gz"} testRunBackup(t, filepath.Dir(env.testdata), []string{"testdata"}, opts, env.gopts) snapshots, snapshotID = lastSnapshot(snapshots, loadSnapshotMap(t, env.gopts)) files = testRunLs(t, env.gopts, snapshotID) rtest.Assert(t, !includes(files, filepath.Join(string(filepath.Separator), "testdata", "foo.tar.gz")), "expected file %q not in first snapshot, but it's included", "foo.tar.gz") opts.Excludes = []string{"*.tar.gz", "private/secret"} testRunBackup(t, filepath.Dir(env.testdata), []string{"testdata"}, opts, env.gopts) _, snapshotID = lastSnapshot(snapshots, loadSnapshotMap(t, env.gopts)) files = testRunLs(t, env.gopts, snapshotID) rtest.Assert(t, !includes(files, filepath.Join(string(filepath.Separator), "testdata", "foo.tar.gz")), "expected file %q not in first snapshot, but it's included", "foo.tar.gz") rtest.Assert(t, !includes(files, filepath.Join(string(filepath.Separator), "testdata", "private", "secret", "passwords.txt")), "expected file %q not in first snapshot, but it's included", "passwords.txt") } const ( incrementalFirstWrite = 10 * 1042 * 1024 incrementalSecondWrite = 1 * 1042 * 1024 incrementalThirdWrite = 1 * 1042 * 1024 ) func appendRandomData(filename string, bytes uint) error { f, err := os.OpenFile(filename, os.O_WRONLY|os.O_CREATE, 0666) if err != nil { fmt.Fprint(os.Stderr, err) return err } _, err = f.Seek(0, 2) if err != nil { fmt.Fprint(os.Stderr, err) return err } _, err = io.Copy(f, io.LimitReader(rand.Reader, int64(bytes))) if err != nil { fmt.Fprint(os.Stderr, err) return err } return f.Close() } func TestIncrementalBackup(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() testRunInit(t, env.gopts) datadir := filepath.Join(env.base, "testdata") testfile := filepath.Join(datadir, "testfile") rtest.OK(t, appendRandomData(testfile, incrementalFirstWrite)) opts := BackupOptions{} testRunBackup(t, "", []string{datadir}, opts, env.gopts) testRunCheck(t, env.gopts) stat1 := dirStats(env.repo) rtest.OK(t, appendRandomData(testfile, incrementalSecondWrite)) testRunBackup(t, "", []string{datadir}, opts, env.gopts) testRunCheck(t, env.gopts) stat2 := dirStats(env.repo) if stat2.size-stat1.size > incrementalFirstWrite { t.Errorf("repository size has grown by more than %d bytes", incrementalFirstWrite) } t.Logf("repository grown by %d bytes", stat2.size-stat1.size) rtest.OK(t, appendRandomData(testfile, incrementalThirdWrite)) testRunBackup(t, "", []string{datadir}, opts, env.gopts) testRunCheck(t, env.gopts) stat3 := dirStats(env.repo) if stat3.size-stat2.size > incrementalFirstWrite { t.Errorf("repository size has grown by more than %d bytes", incrementalFirstWrite) } t.Logf("repository grown by %d bytes", stat3.size-stat2.size) } func TestBackupTags(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "backup-data.tar.gz") testRunInit(t, env.gopts) rtest.SetupTarTestFixture(t, env.testdata, datafile) opts := BackupOptions{} testRunBackup(t, "", []string{env.testdata}, opts, env.gopts) testRunCheck(t, env.gopts) newest, _ := testRunSnapshots(t, env.gopts) rtest.Assert(t, newest != nil, "expected a new backup, got nil") rtest.Assert(t, len(newest.Tags) == 0, "expected no tags, got %v", newest.Tags) parent := newest opts.Tags = []string{"NL"} testRunBackup(t, "", []string{env.testdata}, opts, env.gopts) testRunCheck(t, env.gopts) newest, _ = testRunSnapshots(t, env.gopts) rtest.Assert(t, newest != nil, "expected a new backup, got nil") rtest.Assert(t, len(newest.Tags) == 1 && newest.Tags[0] == "NL", "expected one NL tag, got %v", newest.Tags) // Tagged backup should have untagged backup as parent. rtest.Assert(t, parent.ID.Equal(*newest.Parent), "expected parent to be %v, got %v", parent.ID, newest.Parent) } func testRunTag(t testing.TB, opts TagOptions, gopts GlobalOptions) { rtest.OK(t, runTag(opts, gopts, []string{})) } func TestTag(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "backup-data.tar.gz") testRunInit(t, env.gopts) rtest.SetupTarTestFixture(t, env.testdata, datafile) testRunBackup(t, "", []string{env.testdata}, BackupOptions{}, env.gopts) testRunCheck(t, env.gopts) newest, _ := testRunSnapshots(t, env.gopts) rtest.Assert(t, newest != nil, "expected a new backup, got nil") rtest.Assert(t, len(newest.Tags) == 0, "expected no tags, got %v", newest.Tags) rtest.Assert(t, newest.Original == nil, "expected original ID to be nil, got %v", newest.Original) originalID := *newest.ID testRunTag(t, TagOptions{SetTags: []string{"NL"}}, env.gopts) testRunCheck(t, env.gopts) newest, _ = testRunSnapshots(t, env.gopts) rtest.Assert(t, newest != nil, "expected a new backup, got nil") rtest.Assert(t, len(newest.Tags) == 1 && newest.Tags[0] == "NL", "set failed, expected one NL tag, got %v", newest.Tags) rtest.Assert(t, newest.Original != nil, "expected original snapshot id, got nil") rtest.Assert(t, *newest.Original == originalID, "expected original ID to be set to the first snapshot id") testRunTag(t, TagOptions{AddTags: []string{"CH"}}, env.gopts) testRunCheck(t, env.gopts) newest, _ = testRunSnapshots(t, env.gopts) rtest.Assert(t, newest != nil, "expected a new backup, got nil") rtest.Assert(t, len(newest.Tags) == 2 && newest.Tags[0] == "NL" && newest.Tags[1] == "CH", "add failed, expected CH,NL tags, got %v", newest.Tags) rtest.Assert(t, newest.Original != nil, "expected original snapshot id, got nil") rtest.Assert(t, *newest.Original == originalID, "expected original ID to be set to the first snapshot id") testRunTag(t, TagOptions{RemoveTags: []string{"NL"}}, env.gopts) testRunCheck(t, env.gopts) newest, _ = testRunSnapshots(t, env.gopts) rtest.Assert(t, newest != nil, "expected a new backup, got nil") rtest.Assert(t, len(newest.Tags) == 1 && newest.Tags[0] == "CH", "remove failed, expected one CH tag, got %v", newest.Tags) rtest.Assert(t, newest.Original != nil, "expected original snapshot id, got nil") rtest.Assert(t, *newest.Original == originalID, "expected original ID to be set to the first snapshot id") testRunTag(t, TagOptions{AddTags: []string{"US", "RU"}}, env.gopts) testRunTag(t, TagOptions{RemoveTags: []string{"CH", "US", "RU"}}, env.gopts) testRunCheck(t, env.gopts) newest, _ = testRunSnapshots(t, env.gopts) rtest.Assert(t, newest != nil, "expected a new backup, got nil") rtest.Assert(t, len(newest.Tags) == 0, "expected no tags, got %v", newest.Tags) rtest.Assert(t, newest.Original != nil, "expected original snapshot id, got nil") rtest.Assert(t, *newest.Original == originalID, "expected original ID to be set to the first snapshot id") // Check special case of removing all tags. testRunTag(t, TagOptions{SetTags: []string{""}}, env.gopts) testRunCheck(t, env.gopts) newest, _ = testRunSnapshots(t, env.gopts) rtest.Assert(t, newest != nil, "expected a new backup, got nil") rtest.Assert(t, len(newest.Tags) == 0, "expected no tags, got %v", newest.Tags) rtest.Assert(t, newest.Original != nil, "expected original snapshot id, got nil") rtest.Assert(t, *newest.Original == originalID, "expected original ID to be set to the first snapshot id") } func testRunKeyListOtherIDs(t testing.TB, gopts GlobalOptions) []string { buf := bytes.NewBuffer(nil) globalOptions.stdout = buf defer func() { globalOptions.stdout = os.Stdout }() rtest.OK(t, runKey(gopts, []string{"list"})) scanner := bufio.NewScanner(buf) exp := regexp.MustCompile(`^ ([a-f0-9]+) `) IDs := []string{} for scanner.Scan() { if id := exp.FindStringSubmatch(scanner.Text()); id != nil { IDs = append(IDs, id[1]) } } return IDs } func testRunKeyAddNewKey(t testing.TB, newPassword string, gopts GlobalOptions) { testKeyNewPassword = newPassword defer func() { testKeyNewPassword = "" }() rtest.OK(t, runKey(gopts, []string{"add"})) } func testRunKeyPasswd(t testing.TB, newPassword string, gopts GlobalOptions) { testKeyNewPassword = newPassword defer func() { testKeyNewPassword = "" }() rtest.OK(t, runKey(gopts, []string{"passwd"})) } func testRunKeyRemove(t testing.TB, gopts GlobalOptions, IDs []string) { t.Logf("remove %d keys: %q\n", len(IDs), IDs) for _, id := range IDs { rtest.OK(t, runKey(gopts, []string{"remove", id})) } } func TestKeyAddRemove(t *testing.T) { passwordList := []string{ "OnnyiasyatvodsEvVodyawit", "raicneirvOjEfEigonOmLasOd", } env, cleanup := withTestEnvironment(t) defer cleanup() testRunInit(t, env.gopts) testRunKeyPasswd(t, "geheim2", env.gopts) env.gopts.password = "geheim2" t.Logf("changed password to %q", env.gopts.password) for _, newPassword := range passwordList { testRunKeyAddNewKey(t, newPassword, env.gopts) t.Logf("added new password %q", newPassword) env.gopts.password = newPassword testRunKeyRemove(t, env.gopts, testRunKeyListOtherIDs(t, env.gopts)) } env.gopts.password = passwordList[len(passwordList)-1] t.Logf("testing access with last password %q\n", env.gopts.password) rtest.OK(t, runKey(env.gopts, []string{"list"})) testRunCheck(t, env.gopts) } func testFileSize(filename string, size int64) error { fi, err := os.Stat(filename) if err != nil { return err } if fi.Size() != size { return errors.Fatalf("wrong file size for %v: expected %v, got %v", filename, size, fi.Size()) } return nil } func TestRestoreFilter(t *testing.T) { testfiles := []struct { name string size uint }{ {"testfile1.c", 100}, {"testfile2.exe", 101}, {"subdir1/subdir2/testfile3.docx", 102}, {"subdir1/subdir2/testfile4.c", 102}, } env, cleanup := withTestEnvironment(t) defer cleanup() testRunInit(t, env.gopts) for _, testFile := range testfiles { p := filepath.Join(env.testdata, testFile.name) rtest.OK(t, os.MkdirAll(filepath.Dir(p), 0755)) rtest.OK(t, appendRandomData(p, testFile.size)) } opts := BackupOptions{} testRunBackup(t, filepath.Dir(env.testdata), []string{filepath.Base(env.testdata)}, opts, env.gopts) testRunCheck(t, env.gopts) snapshotID := testRunList(t, "snapshots", env.gopts)[0] // no restore filter should restore all files testRunRestore(t, env.gopts, filepath.Join(env.base, "restore0"), snapshotID) for _, testFile := range testfiles { rtest.OK(t, testFileSize(filepath.Join(env.base, "restore0", "testdata", testFile.name), int64(testFile.size))) } for i, pat := range []string{"*.c", "*.exe", "*", "*file3*"} { base := filepath.Join(env.base, fmt.Sprintf("restore%d", i+1)) testRunRestoreExcludes(t, env.gopts, base, snapshotID, []string{pat}) for _, testFile := range testfiles { err := testFileSize(filepath.Join(base, "testdata", testFile.name), int64(testFile.size)) if ok, _ := filter.Match(pat, filepath.Base(testFile.name)); !ok { rtest.OK(t, err) } else { rtest.Assert(t, os.IsNotExist(errors.Cause(err)), "expected %v to not exist in restore step %v, but it exists, err %v", testFile.name, i+1, err) } } } } func TestRestore(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() testRunInit(t, env.gopts) for i := 0; i < 10; i++ { p := filepath.Join(env.testdata, fmt.Sprintf("foo/bar/testfile%v", i)) rtest.OK(t, os.MkdirAll(filepath.Dir(p), 0755)) rtest.OK(t, appendRandomData(p, uint(mrand.Intn(2<<21)))) } opts := BackupOptions{} testRunBackup(t, filepath.Dir(env.testdata), []string{filepath.Base(env.testdata)}, opts, env.gopts) testRunCheck(t, env.gopts) // Restore latest without any filters restoredir := filepath.Join(env.base, "restore") testRunRestoreLatest(t, env.gopts, restoredir, nil, "") rtest.Assert(t, directoriesEqualContents(env.testdata, filepath.Join(restoredir, filepath.Base(env.testdata))), "directories are not equal") } func TestRestoreLatest(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() testRunInit(t, env.gopts) p := filepath.Join(env.testdata, "testfile.c") rtest.OK(t, os.MkdirAll(filepath.Dir(p), 0755)) rtest.OK(t, appendRandomData(p, 100)) opts := BackupOptions{} // chdir manually here so we can get the current directory. This is not the // same as the temp dir returned by ioutil.TempDir() on darwin. back := fs.TestChdir(t, filepath.Dir(env.testdata)) defer back() curdir, err := os.Getwd() if err != nil { t.Fatal(err) } testRunBackup(t, "", []string{filepath.Base(env.testdata)}, opts, env.gopts) testRunCheck(t, env.gopts) os.Remove(p) rtest.OK(t, appendRandomData(p, 101)) testRunBackup(t, "", []string{filepath.Base(env.testdata)}, opts, env.gopts) testRunCheck(t, env.gopts) // Restore latest without any filters testRunRestoreLatest(t, env.gopts, filepath.Join(env.base, "restore0"), nil, "") rtest.OK(t, testFileSize(filepath.Join(env.base, "restore0", "testdata", "testfile.c"), int64(101))) // Setup test files in different directories backed up in different snapshots p1 := filepath.Join(curdir, filepath.FromSlash("p1/testfile.c")) rtest.OK(t, os.MkdirAll(filepath.Dir(p1), 0755)) rtest.OK(t, appendRandomData(p1, 102)) testRunBackup(t, "", []string{"p1"}, opts, env.gopts) testRunCheck(t, env.gopts) p2 := filepath.Join(curdir, filepath.FromSlash("p2/testfile.c")) rtest.OK(t, os.MkdirAll(filepath.Dir(p2), 0755)) rtest.OK(t, appendRandomData(p2, 103)) testRunBackup(t, "", []string{"p2"}, opts, env.gopts) testRunCheck(t, env.gopts) p1rAbs := filepath.Join(env.base, "restore1", "p1/testfile.c") p2rAbs := filepath.Join(env.base, "restore2", "p2/testfile.c") testRunRestoreLatest(t, env.gopts, filepath.Join(env.base, "restore1"), []string{filepath.Dir(p1)}, "") rtest.OK(t, testFileSize(p1rAbs, int64(102))) if _, err := os.Stat(p2rAbs); os.IsNotExist(errors.Cause(err)) { rtest.Assert(t, os.IsNotExist(errors.Cause(err)), "expected %v to not exist in restore, but it exists, err %v", p2rAbs, err) } testRunRestoreLatest(t, env.gopts, filepath.Join(env.base, "restore2"), []string{filepath.Dir(p2)}, "") rtest.OK(t, testFileSize(p2rAbs, int64(103))) if _, err := os.Stat(p1rAbs); os.IsNotExist(errors.Cause(err)) { rtest.Assert(t, os.IsNotExist(errors.Cause(err)), "expected %v to not exist in restore, but it exists, err %v", p1rAbs, err) } } func TestRestoreWithPermissionFailure(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "repo-restore-permissions-test.tar.gz") rtest.SetupTarTestFixture(t, env.base, datafile) snapshots := testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(snapshots) > 0, "no snapshots found in repo (%v)", datafile) globalOptions.stderr = ioutil.Discard defer func() { globalOptions.stderr = os.Stderr }() testRunRestore(t, env.gopts, filepath.Join(env.base, "restore"), snapshots[0]) // make sure that all files have been restored, regardless of any // permission errors files := testRunLs(t, env.gopts, snapshots[0].String()) for _, filename := range files { fi, err := os.Lstat(filepath.Join(env.base, "restore", filename)) rtest.OK(t, err) rtest.Assert(t, !isFile(fi) || fi.Size() > 0, "file %v restored, but filesize is 0", filename) } } func setZeroModTime(filename string) error { var utimes = []syscall.Timespec{ syscall.NsecToTimespec(0), syscall.NsecToTimespec(0), } return syscall.UtimesNano(filename, utimes) } func TestRestoreNoMetadataOnIgnoredIntermediateDirs(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() testRunInit(t, env.gopts) p := filepath.Join(env.testdata, "subdir1", "subdir2", "subdir3", "file.ext") rtest.OK(t, os.MkdirAll(filepath.Dir(p), 0755)) rtest.OK(t, appendRandomData(p, 200)) rtest.OK(t, setZeroModTime(filepath.Join(env.testdata, "subdir1", "subdir2"))) opts := BackupOptions{} testRunBackup(t, filepath.Dir(env.testdata), []string{filepath.Base(env.testdata)}, opts, env.gopts) testRunCheck(t, env.gopts) snapshotID := testRunList(t, "snapshots", env.gopts)[0] // restore with filter "*.ext", this should restore "file.ext", but // since the directories are ignored and only created because of // "file.ext", no meta data should be restored for them. testRunRestoreIncludes(t, env.gopts, filepath.Join(env.base, "restore0"), snapshotID, []string{"*.ext"}) f1 := filepath.Join(env.base, "restore0", "testdata", "subdir1", "subdir2") fi, err := os.Stat(f1) rtest.OK(t, err) rtest.Assert(t, fi.ModTime() != time.Unix(0, 0), "meta data of intermediate directory has been restore although it was ignored") // restore with filter "*", this should restore meta data on everything. testRunRestoreIncludes(t, env.gopts, filepath.Join(env.base, "restore1"), snapshotID, []string{"*"}) f2 := filepath.Join(env.base, "restore1", "testdata", "subdir1", "subdir2") fi, err = os.Stat(f2) rtest.OK(t, err) rtest.Assert(t, fi.ModTime() == time.Unix(0, 0), "meta data of intermediate directory hasn't been restore") } func TestFind(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "backup-data.tar.gz") testRunInit(t, env.gopts) rtest.SetupTarTestFixture(t, env.testdata, datafile) opts := BackupOptions{} testRunBackup(t, "", []string{env.testdata}, opts, env.gopts) testRunCheck(t, env.gopts) results := testRunFind(t, false, env.gopts, "unexistingfile") rtest.Assert(t, len(results) == 0, "unexisting file found in repo (%v)", datafile) results = testRunFind(t, false, env.gopts, "testfile") lines := strings.Split(string(results), "\n") rtest.Assert(t, len(lines) == 2, "expected one file found in repo (%v)", datafile) results = testRunFind(t, false, env.gopts, "testfile*") lines = strings.Split(string(results), "\n") rtest.Assert(t, len(lines) == 4, "expected three files found in repo (%v)", datafile) } type testMatch struct { Path string `json:"path,omitempty"` Permissions string `json:"permissions,omitempty"` Size uint64 `json:"size,omitempty"` Date time.Time `json:"date,omitempty"` UID uint32 `json:"uid,omitempty"` GID uint32 `json:"gid,omitempty"` } type testMatches struct { Hits int `json:"hits,omitempty"` SnapshotID string `json:"snapshot,omitempty"` Matches []testMatch `json:"matches,omitempty"` } func TestFindJSON(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "backup-data.tar.gz") testRunInit(t, env.gopts) rtest.SetupTarTestFixture(t, env.testdata, datafile) opts := BackupOptions{} testRunBackup(t, "", []string{env.testdata}, opts, env.gopts) testRunCheck(t, env.gopts) results := testRunFind(t, true, env.gopts, "unexistingfile") matches := []testMatches{} rtest.OK(t, json.Unmarshal(results, &matches)) rtest.Assert(t, len(matches) == 0, "expected no match in repo (%v)", datafile) results = testRunFind(t, true, env.gopts, "testfile") rtest.OK(t, json.Unmarshal(results, &matches)) rtest.Assert(t, len(matches) == 1, "expected a single snapshot in repo (%v)", datafile) rtest.Assert(t, len(matches[0].Matches) == 1, "expected a single file to match (%v)", datafile) rtest.Assert(t, matches[0].Hits == 1, "expected hits to show 1 match (%v)", datafile) results = testRunFind(t, true, env.gopts, "testfile*") rtest.OK(t, json.Unmarshal(results, &matches)) rtest.Assert(t, len(matches) == 1, "expected a single snapshot in repo (%v)", datafile) rtest.Assert(t, len(matches[0].Matches) == 3, "expected 3 files to match (%v)", datafile) rtest.Assert(t, matches[0].Hits == 3, "expected hits to show 3 matches (%v)", datafile) } func TestRebuildIndex(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("..", "..", "internal", "checker", "testdata", "duplicate-packs-in-index-test-repo.tar.gz") rtest.SetupTarTestFixture(t, env.base, datafile) out, err := testRunCheckOutput(env.gopts) if !strings.Contains(out, "contained in several indexes") { t.Fatalf("did not find checker hint for packs in several indexes") } if err != nil { t.Fatalf("expected no error from checker for test repository, got %v", err) } if !strings.Contains(out, "restic rebuild-index") { t.Fatalf("did not find hint for rebuild-index command") } testRunRebuildIndex(t, env.gopts) out, err = testRunCheckOutput(env.gopts) if len(out) != 0 { t.Fatalf("expected no output from the checker, got: %v", out) } if err != nil { t.Fatalf("expected no error from checker after rebuild-index, got: %v", err) } } func TestRebuildIndexAlwaysFull(t *testing.T) { repository.IndexFull = func(*repository.Index) bool { return true } TestRebuildIndex(t) } func TestCheckRestoreNoLock(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "small-repo.tar.gz") rtest.SetupTarTestFixture(t, env.base, datafile) err := filepath.Walk(env.repo, func(p string, fi os.FileInfo, e error) error { if e != nil { return e } return os.Chmod(p, fi.Mode() & ^(os.FileMode(0222))) }) rtest.OK(t, err) env.gopts.NoLock = true testRunCheck(t, env.gopts) snapshotIDs := testRunList(t, "snapshots", env.gopts) if len(snapshotIDs) == 0 { t.Fatalf("found no snapshots") } testRunRestore(t, env.gopts, filepath.Join(env.base, "restore"), snapshotIDs[0]) } func TestPrune(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "backup-data.tar.gz") fd, err := os.Open(datafile) if os.IsNotExist(errors.Cause(err)) { t.Skipf("unable to find data file %q, skipping", datafile) return } rtest.OK(t, err) rtest.OK(t, fd.Close()) testRunInit(t, env.gopts) rtest.SetupTarTestFixture(t, env.testdata, datafile) opts := BackupOptions{} testRunBackup(t, "", []string{filepath.Join(env.testdata, "0", "0", "9")}, opts, env.gopts) firstSnapshot := testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(firstSnapshot) == 1, "expected one snapshot, got %v", firstSnapshot) testRunBackup(t, "", []string{filepath.Join(env.testdata, "0", "0", "9", "2")}, opts, env.gopts) testRunBackup(t, "", []string{filepath.Join(env.testdata, "0", "0", "9", "3")}, opts, env.gopts) snapshotIDs := testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(snapshotIDs) == 3, "expected 3 snapshot, got %v", snapshotIDs) testRunForget(t, env.gopts, firstSnapshot[0].String()) testRunPrune(t, env.gopts) testRunCheck(t, env.gopts) } func TestHardLink(t *testing.T) { // this test assumes a test set with a single directory containing hard linked files env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "test.hl.tar.gz") fd, err := os.Open(datafile) if os.IsNotExist(errors.Cause(err)) { t.Skipf("unable to find data file %q, skipping", datafile) return } rtest.OK(t, err) rtest.OK(t, fd.Close()) testRunInit(t, env.gopts) rtest.SetupTarTestFixture(t, env.testdata, datafile) linkTests := createFileSetPerHardlink(env.testdata) opts := BackupOptions{} // first backup testRunBackup(t, filepath.Dir(env.testdata), []string{filepath.Base(env.testdata)}, opts, env.gopts) snapshotIDs := testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(snapshotIDs) == 1, "expected one snapshot, got %v", snapshotIDs) testRunCheck(t, env.gopts) // restore all backups and compare for i, snapshotID := range snapshotIDs { restoredir := filepath.Join(env.base, fmt.Sprintf("restore%d", i)) t.Logf("restoring snapshot %v to %v", snapshotID.Str(), restoredir) testRunRestore(t, env.gopts, restoredir, snapshotIDs[0]) rtest.Assert(t, directoriesEqualContents(env.testdata, filepath.Join(restoredir, "testdata")), "directories are not equal") linkResults := createFileSetPerHardlink(filepath.Join(restoredir, "testdata")) rtest.Assert(t, linksEqual(linkTests, linkResults), "links are not equal") } testRunCheck(t, env.gopts) } func linksEqual(source, dest map[uint64][]string) bool { for _, vs := range source { found := false for kd, vd := range dest { if linkEqual(vs, vd) { delete(dest, kd) found = true break } } if !found { return false } } if len(dest) != 0 { return false } return true } func linkEqual(source, dest []string) bool { // equal if sliced are equal without considering order if source == nil && dest == nil { return true } if source == nil || dest == nil { return false } if len(source) != len(dest) { return false } for i := range source { found := false for j := range dest { if source[i] == dest[j] { found = true break } } if !found { return false } } return true } func TestQuietBackup(t *testing.T) { env, cleanup := withTestEnvironment(t) defer cleanup() datafile := filepath.Join("testdata", "backup-data.tar.gz") fd, err := os.Open(datafile) if os.IsNotExist(errors.Cause(err)) { t.Skipf("unable to find data file %q, skipping", datafile) return } rtest.OK(t, err) rtest.OK(t, fd.Close()) testRunInit(t, env.gopts) rtest.SetupTarTestFixture(t, env.testdata, datafile) opts := BackupOptions{} env.gopts.Quiet = false testRunBackup(t, "", []string{env.testdata}, opts, env.gopts) snapshotIDs := testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(snapshotIDs) == 1, "expected one snapshot, got %v", snapshotIDs) testRunCheck(t, env.gopts) env.gopts.Quiet = true testRunBackup(t, "", []string{env.testdata}, opts, env.gopts) snapshotIDs = testRunList(t, "snapshots", env.gopts) rtest.Assert(t, len(snapshotIDs) == 2, "expected two snapshots, got %v", snapshotIDs) testRunCheck(t, env.gopts) }