package archiver import ( "bytes" "context" "fmt" "io" "os" "path/filepath" "runtime" "strings" "sync" "sync/atomic" "syscall" "testing" "time" "github.com/google/go-cmp/cmp" "github.com/restic/restic/internal/backend" "github.com/restic/restic/internal/backend/mem" "github.com/restic/restic/internal/checker" "github.com/restic/restic/internal/errors" "github.com/restic/restic/internal/feature" "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" "golang.org/x/sync/errgroup" ) func prepareTempdirRepoSrc(t testing.TB, src TestDir) (string, restic.Repository) { tempdir := rtest.TempDir(t) repo := repository.TestRepository(t) TestCreateFiles(t, tempdir, src) return tempdir, repo } func saveFile(t testing.TB, repo archiverRepo, filename string, filesystem fs.FS) (*restic.Node, ItemStats) { wg, ctx := errgroup.WithContext(context.TODO()) repo.StartPackUploader(ctx, wg) arch := New(repo, filesystem, Options{}) arch.runWorkers(ctx, wg) arch.Error = func(item string, err error) error { t.Errorf("archiver error for %v: %v", item, err) return err } var ( completeReadingCallback bool completeCallbackNode *restic.Node completeCallbackStats ItemStats completeCallback bool startCallback bool ) completeReading := func() { completeReadingCallback = true if completeCallback { t.Error("callbacks called in wrong order") } } complete := func(node *restic.Node, stats ItemStats) { completeCallback = true completeCallbackNode = node completeCallbackStats = stats } start := func() { startCallback = true } file, err := arch.FS.OpenFile(filename, fs.O_RDONLY|fs.O_NOFOLLOW, 0) if err != nil { t.Fatal(err) } fi, err := file.Stat() if err != nil { t.Fatal(err) } res := arch.fileSaver.Save(ctx, "/", filename, file, fi, start, completeReading, complete) fnr := res.take(ctx) if fnr.err != nil { t.Fatal(fnr.err) } arch.stopWorkers() err = repo.Flush(context.Background()) if err != nil { t.Fatal(err) } if err := wg.Wait(); err != nil { t.Fatal(err) } if !startCallback { t.Errorf("start callback did not happen") } if !completeReadingCallback { t.Errorf("completeReading callback did not happen") } if !completeCallback { t.Errorf("complete callback did not happen") } if completeCallbackNode == nil { t.Errorf("no node returned for complete callback") } if completeCallbackNode != nil && !fnr.node.Equals(*completeCallbackNode) { t.Errorf("different node returned for complete callback") } if completeCallbackStats != fnr.stats { t.Errorf("different stats return for complete callback, want:\n %v\ngot:\n %v", fnr.stats, completeCallbackStats) } return fnr.node, fnr.stats } func TestArchiverSaveFile(t *testing.T) { var tests = []TestFile{ {Content: ""}, {Content: "foo"}, {Content: string(rtest.Random(23, 12*1024*1024+1287898))}, } for _, testfile := range tests { t.Run("", func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() tempdir, repo := prepareTempdirRepoSrc(t, TestDir{"file": testfile}) node, stats := saveFile(t, repo, filepath.Join(tempdir, "file"), fs.Track{FS: fs.Local{}}) TestEnsureFileContent(ctx, t, repo, "file", node, testfile) if stats.DataSize != uint64(len(testfile.Content)) { t.Errorf("wrong stats returned in DataSize, want %d, got %d", len(testfile.Content), stats.DataSize) } if stats.DataBlobs <= 0 && len(testfile.Content) > 0 { t.Errorf("wrong stats returned in DataBlobs, want > 0, got %d", stats.DataBlobs) } if stats.TreeSize != 0 { t.Errorf("wrong stats returned in TreeSize, want 0, got %d", stats.TreeSize) } if stats.TreeBlobs != 0 { t.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } }) } } func TestArchiverSaveFileReaderFS(t *testing.T) { var tests = []struct { Data string }{ {Data: "foo"}, {Data: string(rtest.Random(23, 12*1024*1024+1287898))}, } for _, test := range tests { t.Run("", func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() repo := repository.TestRepository(t) ts := time.Now() filename := "xx" readerFs := &fs.Reader{ ModTime: ts, Mode: 0123, Name: filename, ReadCloser: io.NopCloser(strings.NewReader(test.Data)), } node, stats := saveFile(t, repo, filename, readerFs) TestEnsureFileContent(ctx, t, repo, "file", node, TestFile{Content: test.Data}) if stats.DataSize != uint64(len(test.Data)) { t.Errorf("wrong stats returned in DataSize, want %d, got %d", len(test.Data), stats.DataSize) } if stats.DataBlobs <= 0 && len(test.Data) > 0 { t.Errorf("wrong stats returned in DataBlobs, want > 0, got %d", stats.DataBlobs) } if stats.TreeSize != 0 { t.Errorf("wrong stats returned in TreeSize, want 0, got %d", stats.TreeSize) } if stats.TreeBlobs != 0 { t.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } }) } } func TestArchiverSave(t *testing.T) { var tests = []TestFile{ {Content: ""}, {Content: "foo"}, {Content: string(rtest.Random(23, 12*1024*1024+1287898))}, } for _, testfile := range tests { t.Run("", func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() tempdir, repo := prepareTempdirRepoSrc(t, TestDir{"file": testfile}) wg, ctx := errgroup.WithContext(ctx) repo.StartPackUploader(ctx, wg) arch := New(repo, fs.Track{FS: fs.Local{}}, Options{}) arch.Error = func(item string, err error) error { t.Errorf("archiver error for %v: %v", item, err) return err } arch.runWorkers(ctx, wg) arch.summary = &Summary{} node, excluded, err := arch.save(ctx, "/", filepath.Join(tempdir, "file"), nil) if err != nil { t.Fatal(err) } if excluded { t.Errorf("Save() excluded the node, that's unexpected") } fnr := node.take(ctx) if fnr.err != nil { t.Fatal(fnr.err) } if fnr.node == nil { t.Fatalf("returned node is nil") } stats := fnr.stats arch.stopWorkers() err = repo.Flush(ctx) if err != nil { t.Fatal(err) } TestEnsureFileContent(ctx, t, repo, "file", fnr.node, testfile) if stats.DataSize != uint64(len(testfile.Content)) { t.Errorf("wrong stats returned in DataSize, want %d, got %d", len(testfile.Content), stats.DataSize) } if stats.DataBlobs <= 0 && len(testfile.Content) > 0 { t.Errorf("wrong stats returned in DataBlobs, want > 0, got %d", stats.DataBlobs) } if stats.TreeSize != 0 { t.Errorf("wrong stats returned in TreeSize, want 0, got %d", stats.TreeSize) } if stats.TreeBlobs != 0 { t.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } }) } } func TestArchiverSaveReaderFS(t *testing.T) { var tests = []struct { Data string }{ {Data: "foo"}, {Data: string(rtest.Random(23, 12*1024*1024+1287898))}, } for _, test := range tests { t.Run("", func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() repo := repository.TestRepository(t) wg, ctx := errgroup.WithContext(ctx) repo.StartPackUploader(ctx, wg) ts := time.Now() filename := "xx" readerFs := &fs.Reader{ ModTime: ts, Mode: 0123, Name: filename, ReadCloser: io.NopCloser(strings.NewReader(test.Data)), } arch := New(repo, readerFs, Options{}) arch.Error = func(item string, err error) error { t.Errorf("archiver error for %v: %v", item, err) return err } arch.runWorkers(ctx, wg) arch.summary = &Summary{} node, excluded, err := arch.save(ctx, "/", filename, nil) t.Logf("Save returned %v %v", node, err) if err != nil { t.Fatal(err) } if excluded { t.Errorf("Save() excluded the node, that's unexpected") } fnr := node.take(ctx) if fnr.err != nil { t.Fatal(fnr.err) } if fnr.node == nil { t.Fatalf("returned node is nil") } stats := fnr.stats arch.stopWorkers() err = repo.Flush(ctx) if err != nil { t.Fatal(err) } TestEnsureFileContent(ctx, t, repo, "file", fnr.node, TestFile{Content: test.Data}) if stats.DataSize != uint64(len(test.Data)) { t.Errorf("wrong stats returned in DataSize, want %d, got %d", len(test.Data), stats.DataSize) } if stats.DataBlobs <= 0 && len(test.Data) > 0 { t.Errorf("wrong stats returned in DataBlobs, want > 0, got %d", stats.DataBlobs) } if stats.TreeSize != 0 { t.Errorf("wrong stats returned in TreeSize, want 0, got %d", stats.TreeSize) } if stats.TreeBlobs != 0 { t.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } }) } } func BenchmarkArchiverSaveFileSmall(b *testing.B) { const fileSize = 4 * 1024 d := TestDir{"file": TestFile{ Content: string(rtest.Random(23, fileSize)), }} b.SetBytes(fileSize) for i := 0; i < b.N; i++ { b.StopTimer() tempdir, repo := prepareTempdirRepoSrc(b, d) b.StartTimer() _, stats := saveFile(b, repo, filepath.Join(tempdir, "file"), fs.Track{FS: fs.Local{}}) b.StopTimer() if stats.DataSize != fileSize { b.Errorf("wrong stats returned in DataSize, want %d, got %d", fileSize, stats.DataSize) } if stats.DataBlobs <= 0 { b.Errorf("wrong stats returned in DataBlobs, want > 0, got %d", stats.DataBlobs) } if stats.TreeSize != 0 { b.Errorf("wrong stats returned in TreeSize, want 0, got %d", stats.TreeSize) } if stats.TreeBlobs != 0 { b.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } b.StartTimer() } } func BenchmarkArchiverSaveFileLarge(b *testing.B) { const fileSize = 40*1024*1024 + 1287898 d := TestDir{"file": TestFile{ Content: string(rtest.Random(23, fileSize)), }} b.SetBytes(fileSize) for i := 0; i < b.N; i++ { b.StopTimer() tempdir, repo := prepareTempdirRepoSrc(b, d) b.StartTimer() _, stats := saveFile(b, repo, filepath.Join(tempdir, "file"), fs.Track{FS: fs.Local{}}) b.StopTimer() if stats.DataSize != fileSize { b.Errorf("wrong stats returned in DataSize, want %d, got %d", fileSize, stats.DataSize) } if stats.DataBlobs <= 0 { b.Errorf("wrong stats returned in DataBlobs, want > 0, got %d", stats.DataBlobs) } if stats.TreeSize != 0 { b.Errorf("wrong stats returned in TreeSize, want 0, got %d", stats.TreeSize) } if stats.TreeBlobs != 0 { b.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } b.StartTimer() } } type blobCountingRepo struct { archiverRepo m sync.Mutex saved map[restic.BlobHandle]uint } func (repo *blobCountingRepo) SaveBlob(ctx context.Context, t restic.BlobType, buf []byte, id restic.ID, storeDuplicate bool) (restic.ID, bool, int, error) { id, exists, size, err := repo.archiverRepo.SaveBlob(ctx, t, buf, id, storeDuplicate) if exists { return id, exists, size, err } h := restic.BlobHandle{ID: id, Type: t} repo.m.Lock() repo.saved[h]++ repo.m.Unlock() return id, exists, size, err } func (repo *blobCountingRepo) SaveTree(ctx context.Context, t *restic.Tree) (restic.ID, error) { id, err := restic.SaveTree(ctx, repo.archiverRepo, t) h := restic.BlobHandle{ID: id, Type: restic.TreeBlob} repo.m.Lock() repo.saved[h]++ repo.m.Unlock() return id, err } func appendToFile(t testing.TB, filename string, data []byte) { f, err := os.OpenFile(filename, os.O_CREATE|os.O_APPEND|os.O_WRONLY, 0644) if err != nil { t.Fatal(err) } _, err = f.Write(data) if err != nil { _ = f.Close() t.Fatal(err) } err = f.Close() if err != nil { t.Fatal(err) } } func TestArchiverSaveFileIncremental(t *testing.T) { tempdir := rtest.TempDir(t) repo := &blobCountingRepo{ archiverRepo: repository.TestRepository(t), saved: make(map[restic.BlobHandle]uint), } data := rtest.Random(23, 512*1024+887898) testfile := filepath.Join(tempdir, "testfile") for i := 0; i < 3; i++ { appendToFile(t, testfile, data) node, _ := saveFile(t, repo, testfile, fs.Track{FS: fs.Local{}}) t.Logf("node blobs: %v", node.Content) for h, n := range repo.saved { if n > 1 { t.Errorf("iteration %v: blob %v saved more than once (%d times)", i, h, n) } } } } func save(t testing.TB, filename string, data []byte) { f, err := os.Create(filename) if err != nil { t.Fatal(err) } _, err = f.Write(data) if err != nil { t.Fatal(err) } err = f.Sync() if err != nil { t.Fatal(err) } err = f.Close() if err != nil { t.Fatal(err) } } func chmodTwice(t testing.TB, name string) { // POSIX says that ctime is updated "even if the file status does not // change", but let's make sure it does change, just in case. err := os.Chmod(name, 0700) rtest.OK(t, err) sleep() err = os.Chmod(name, 0600) rtest.OK(t, err) } func lstat(t testing.TB, name string) os.FileInfo { fi, err := os.Lstat(name) if err != nil { t.Fatal(err) } return fi } func setTimestamp(t testing.TB, filename string, atime, mtime time.Time) { var utimes = [...]syscall.Timespec{ syscall.NsecToTimespec(atime.UnixNano()), syscall.NsecToTimespec(mtime.UnixNano()), } err := syscall.UtimesNano(filename, utimes[:]) if err != nil { t.Fatal(err) } } func remove(t testing.TB, filename string) { err := os.Remove(filename) if err != nil { t.Fatal(err) } } func rename(t testing.TB, oldname, newname string) { err := os.Rename(oldname, newname) if err != nil { t.Fatal(err) } } func nodeFromFI(t testing.TB, filename string, fi os.FileInfo) *restic.Node { node, err := fs.NodeFromFileInfo(filename, fi, false) if err != nil { t.Fatal(err) } return node } // sleep sleeps long enough to ensure a timestamp change. func sleep() { d := 50 * time.Millisecond if runtime.GOOS == "darwin" { // On older Darwin instances, the file system only supports one second // granularity. d = 1500 * time.Millisecond } time.Sleep(d) } func TestFileChanged(t *testing.T) { var defaultContent = []byte("foobar") var tests = []struct { Name string SkipForWindows bool Content []byte Modify func(t testing.TB, filename string) ChangeIgnore uint SameFile bool }{ { Name: "same-content-new-file", Modify: func(t testing.TB, filename string) { remove(t, filename) sleep() save(t, filename, defaultContent) }, }, { Name: "same-content-new-timestamp", Modify: func(t testing.TB, filename string) { sleep() save(t, filename, defaultContent) }, }, { Name: "new-content-same-timestamp", // on Windows, there's no "create time" field users cannot modify, // so we're unable to detect if a file has been modified when the // timestamps are reset, so we skip this test for Windows SkipForWindows: true, Modify: func(t testing.TB, filename string) { fi, err := os.Stat(filename) if err != nil { t.Fatal(err) } extFI := fs.ExtendedStat(fi) save(t, filename, bytes.ToUpper(defaultContent)) sleep() setTimestamp(t, filename, extFI.AccessTime, extFI.ModTime) }, }, { Name: "other-content", Modify: func(t testing.TB, filename string) { remove(t, filename) sleep() save(t, filename, []byte("xxxxxx")) }, }, { Name: "longer-content", Modify: func(t testing.TB, filename string) { save(t, filename, []byte("xxxxxxxxxxxxxxxxxxxxxx")) }, }, { Name: "new-file", Modify: func(t testing.TB, filename string) { remove(t, filename) sleep() save(t, filename, defaultContent) }, }, { Name: "ctime-change", Modify: chmodTwice, SameFile: false, SkipForWindows: true, // No ctime on Windows, so this test would fail. }, { Name: "ignore-ctime-change", Modify: chmodTwice, ChangeIgnore: ChangeIgnoreCtime, SameFile: true, SkipForWindows: true, // No ctime on Windows, so this test is meaningless. }, { Name: "ignore-inode", Modify: func(t testing.TB, filename string) { fi := lstat(t, filename) // First create the new file, then remove the old one, // so that the old file retains its inode number. tempname := filename + ".old" rename(t, filename, tempname) save(t, filename, defaultContent) remove(t, tempname) setTimestamp(t, filename, fi.ModTime(), fi.ModTime()) }, ChangeIgnore: ChangeIgnoreCtime | ChangeIgnoreInode, SameFile: true, }, } for _, test := range tests { t.Run(test.Name, func(t *testing.T) { if runtime.GOOS == "windows" && test.SkipForWindows { t.Skip("don't run test on Windows") } tempdir := rtest.TempDir(t) filename := filepath.Join(tempdir, "file") content := defaultContent if test.Content != nil { content = test.Content } save(t, filename, content) fiBefore := lstat(t, filename) node := nodeFromFI(t, filename, fiBefore) if fileChanged(fiBefore, node, 0) { t.Fatalf("unchanged file detected as changed") } test.Modify(t, filename) fiAfter := lstat(t, filename) if test.SameFile { // file should be detected as unchanged if fileChanged(fiAfter, node, test.ChangeIgnore) { t.Fatalf("unmodified file detected as changed") } } else { // file should be detected as changed if !fileChanged(fiAfter, node, test.ChangeIgnore) && !test.SameFile { t.Fatalf("modified file detected as unchanged") } } }) } } func TestFilChangedSpecialCases(t *testing.T) { tempdir := rtest.TempDir(t) filename := filepath.Join(tempdir, "file") content := []byte("foobar") save(t, filename, content) t.Run("nil-node", func(t *testing.T) { fi := lstat(t, filename) if !fileChanged(fi, nil, 0) { t.Fatal("nil node detected as unchanged") } }) t.Run("type-change", func(t *testing.T) { fi := lstat(t, filename) node := nodeFromFI(t, filename, fi) node.Type = "symlink" if !fileChanged(fi, node, 0) { t.Fatal("node with changed type detected as unchanged") } }) } func TestArchiverSaveDir(t *testing.T) { const targetNodeName = "targetdir" var tests = []struct { src TestDir chdir string target string want TestDir }{ { src: TestDir{ "targetfile": TestFile{Content: string(rtest.Random(888, 2*1024*1024+5000))}, }, target: ".", want: TestDir{ "targetdir": TestDir{ "targetfile": TestFile{Content: string(rtest.Random(888, 2*1024*1024+5000))}, }, }, }, { src: TestDir{ "targetdir": TestDir{ "foo": TestFile{Content: "foo"}, "emptyfile": TestFile{Content: ""}, "bar": TestFile{Content: "XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX"}, "largefile": TestFile{Content: string(rtest.Random(888, 2*1024*1024+5000))}, "largerfile": TestFile{Content: string(rtest.Random(234, 5*1024*1024+5000))}, }, }, target: "targetdir", }, { src: TestDir{ "foo": TestFile{Content: "foo"}, "emptyfile": TestFile{Content: ""}, "bar": TestFile{Content: "XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX"}, }, target: ".", want: TestDir{ "targetdir": TestDir{ "foo": TestFile{Content: "foo"}, "emptyfile": TestFile{Content: ""}, "bar": TestFile{Content: "XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX"}, }, }, }, { src: TestDir{ "foo": TestDir{ "subdir": TestDir{ "x": TestFile{Content: "xxx"}, "y": TestFile{Content: "yyyyyyyyyyyyyyyy"}, "z": TestFile{Content: "zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz"}, }, "file": TestFile{Content: "just a test"}, }, }, chdir: "foo/subdir", target: "../../", want: TestDir{ "targetdir": TestDir{ "foo": TestDir{ "subdir": TestDir{ "x": TestFile{Content: "xxx"}, "y": TestFile{Content: "yyyyyyyyyyyyyyyy"}, "z": TestFile{Content: "zzzzzzzzzzzzzzzzzzzzzzzzzzzzzzz"}, }, "file": TestFile{Content: "just a test"}, }, }, }, }, { src: TestDir{ "foo": TestDir{ "file": TestFile{Content: "just a test"}, "file2": TestFile{Content: "again"}, }, }, target: "./foo", want: TestDir{ "targetdir": TestDir{ "file": TestFile{Content: "just a test"}, "file2": TestFile{Content: "again"}, }, }, }, } for _, test := range tests { t.Run("", func(t *testing.T) { tempdir, repo := prepareTempdirRepoSrc(t, test.src) wg, ctx := errgroup.WithContext(context.Background()) repo.StartPackUploader(ctx, wg) arch := New(repo, fs.Track{FS: fs.Local{}}, Options{}) arch.runWorkers(ctx, wg) arch.summary = &Summary{} chdir := tempdir if test.chdir != "" { chdir = filepath.Join(chdir, test.chdir) } back := rtest.Chdir(t, chdir) defer back() fi, err := fs.Lstat(test.target) if err != nil { t.Fatal(err) } ft, err := arch.saveDir(ctx, "/", test.target, fi, nil, nil) if err != nil { t.Fatal(err) } fnr := ft.take(ctx) node, stats := fnr.node, fnr.stats t.Logf("stats: %v", stats) if stats.DataSize != 0 { t.Errorf("wrong stats returned in DataSize, want 0, got %d", stats.DataSize) } if stats.DataBlobs != 0 { t.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } if stats.TreeSize == 0 { t.Errorf("wrong stats returned in TreeSize, want > 0, got %d", stats.TreeSize) } if stats.TreeBlobs <= 0 { t.Errorf("wrong stats returned in TreeBlobs, want > 0, got %d", stats.TreeBlobs) } node.Name = targetNodeName tree := &restic.Tree{Nodes: []*restic.Node{node}} treeID, err := restic.SaveTree(ctx, repo, tree) if err != nil { t.Fatal(err) } arch.stopWorkers() err = repo.Flush(ctx) if err != nil { t.Fatal(err) } err = wg.Wait() if err != nil { t.Fatal(err) } want := test.want if want == nil { want = test.src } TestEnsureTree(context.TODO(), t, "/", repo, treeID, want) }) } } func TestArchiverSaveDirIncremental(t *testing.T) { tempdir := rtest.TempDir(t) repo := &blobCountingRepo{ archiverRepo: repository.TestRepository(t), saved: make(map[restic.BlobHandle]uint), } appendToFile(t, filepath.Join(tempdir, "testfile"), []byte("foobar")) // save the empty directory several times in a row, then have a look if the // archiver did save the same tree several times for i := 0; i < 5; i++ { wg, ctx := errgroup.WithContext(context.TODO()) repo.StartPackUploader(ctx, wg) arch := New(repo, fs.Track{FS: fs.Local{}}, Options{}) arch.runWorkers(ctx, wg) arch.summary = &Summary{} fi, err := fs.Lstat(tempdir) if err != nil { t.Fatal(err) } ft, err := arch.saveDir(ctx, "/", tempdir, fi, nil, nil) if err != nil { t.Fatal(err) } fnr := ft.take(ctx) node, stats := fnr.node, fnr.stats if err != nil { t.Fatal(err) } if i == 0 { // operation must have added new tree data if stats.DataSize != 0 { t.Errorf("wrong stats returned in DataSize, want 0, got %d", stats.DataSize) } if stats.DataBlobs != 0 { t.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } if stats.TreeSize == 0 { t.Errorf("wrong stats returned in TreeSize, want > 0, got %d", stats.TreeSize) } if stats.TreeBlobs <= 0 { t.Errorf("wrong stats returned in TreeBlobs, want > 0, got %d", stats.TreeBlobs) } } else { // operation must not have added any new data if stats.DataSize != 0 { t.Errorf("wrong stats returned in DataSize, want 0, got %d", stats.DataSize) } if stats.DataBlobs != 0 { t.Errorf("wrong stats returned in DataBlobs, want 0, got %d", stats.DataBlobs) } if stats.TreeSize != 0 { t.Errorf("wrong stats returned in TreeSize, want 0, got %d", stats.TreeSize) } if stats.TreeBlobs != 0 { t.Errorf("wrong stats returned in TreeBlobs, want 0, got %d", stats.TreeBlobs) } } t.Logf("node subtree %v", node.Subtree) arch.stopWorkers() err = repo.Flush(ctx) if err != nil { t.Fatal(err) } err = wg.Wait() if err != nil { t.Fatal(err) } for h, n := range repo.saved { if n > 1 { t.Errorf("iteration %v: blob %v saved more than once (%d times)", i, h, n) } } } } // bothZeroOrNeither fails the test if only one of exp, act is zero. func bothZeroOrNeither(tb testing.TB, exp, act uint64) { tb.Helper() if (exp == 0 && act != 0) || (exp != 0 && act == 0) { rtest.Equals(tb, exp, act) } } func TestArchiverSaveTree(t *testing.T) { symlink := func(from, to string) func(t testing.TB) { return func(t testing.TB) { err := os.Symlink(from, to) if err != nil { t.Fatal(err) } } } // The toplevel directory is not counted in the ItemStats var tests = []struct { src TestDir prepare func(t testing.TB) targets []string want TestDir stat Summary }{ { src: TestDir{ "targetfile": TestFile{Content: string("foobar")}, }, targets: []string{"targetfile"}, want: TestDir{ "targetfile": TestFile{Content: string("foobar")}, }, stat: Summary{ ItemStats: ItemStats{1, 6, 32 + 6, 0, 0, 0}, ProcessedBytes: 6, Files: ChangeStats{1, 0, 0}, Dirs: ChangeStats{0, 0, 0}, }, }, { src: TestDir{ "targetfile": TestFile{Content: string("foobar")}, }, prepare: symlink("targetfile", "filesymlink"), targets: []string{"targetfile", "filesymlink"}, want: TestDir{ "targetfile": TestFile{Content: string("foobar")}, "filesymlink": TestSymlink{Target: "targetfile"}, }, stat: Summary{ ItemStats: ItemStats{1, 6, 32 + 6, 0, 0, 0}, ProcessedBytes: 6, Files: ChangeStats{1, 0, 0}, Dirs: ChangeStats{0, 0, 0}, }, }, { src: TestDir{ "dir": TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "targetfile": TestFile{Content: string("foobar")}, }, }, "otherfile": TestFile{Content: string("xxx")}, }, }, prepare: symlink("subdir", filepath.FromSlash("dir/symlink")), targets: []string{filepath.FromSlash("dir/symlink")}, want: TestDir{ "dir": TestDir{ "symlink": TestSymlink{Target: "subdir"}, }, }, stat: Summary{ ItemStats: ItemStats{0, 0, 0, 1, 0x154, 0x16a}, ProcessedBytes: 0, Files: ChangeStats{0, 0, 0}, Dirs: ChangeStats{1, 0, 0}, }, }, { src: TestDir{ "dir": TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "targetfile": TestFile{Content: string("foobar")}, }, }, "otherfile": TestFile{Content: string("xxx")}, }, }, prepare: symlink("subdir", filepath.FromSlash("dir/symlink")), targets: []string{filepath.FromSlash("dir/symlink/subsubdir")}, want: TestDir{ "dir": TestDir{ "symlink": TestDir{ "subsubdir": TestDir{ "targetfile": TestFile{Content: string("foobar")}, }, }, }, }, stat: Summary{ ItemStats: ItemStats{1, 6, 32 + 6, 3, 0x47f, 0x4c1}, ProcessedBytes: 6, Files: ChangeStats{1, 0, 0}, Dirs: ChangeStats{3, 0, 0}, }, }, } for _, test := range tests { t.Run("", func(t *testing.T) { tempdir, repo := prepareTempdirRepoSrc(t, test.src) testFS := fs.Track{FS: fs.Local{}} arch := New(repo, testFS, Options{}) wg, ctx := errgroup.WithContext(context.TODO()) repo.StartPackUploader(ctx, wg) arch.runWorkers(ctx, wg) arch.summary = &Summary{} back := rtest.Chdir(t, tempdir) defer back() if test.prepare != nil { test.prepare(t) } atree, err := NewTree(testFS, test.targets) if err != nil { t.Fatal(err) } fn, _, err := arch.saveTree(ctx, "/", atree, nil, nil) if err != nil { t.Fatal(err) } fnr := fn.take(context.TODO()) if fnr.err != nil { t.Fatal(fnr.err) } treeID := *fnr.node.Subtree arch.stopWorkers() err = repo.Flush(ctx) if err != nil { t.Fatal(err) } err = wg.Wait() if err != nil { t.Fatal(err) } want := test.want if want == nil { want = test.src } TestEnsureTree(context.TODO(), t, "/", repo, treeID, want) stat := arch.summary bothZeroOrNeither(t, uint64(test.stat.DataBlobs), uint64(stat.DataBlobs)) bothZeroOrNeither(t, uint64(test.stat.TreeBlobs), uint64(stat.TreeBlobs)) bothZeroOrNeither(t, test.stat.DataSize, stat.DataSize) bothZeroOrNeither(t, test.stat.DataSizeInRepo, stat.DataSizeInRepo) bothZeroOrNeither(t, test.stat.TreeSizeInRepo, stat.TreeSizeInRepo) rtest.Equals(t, test.stat.ProcessedBytes, stat.ProcessedBytes) rtest.Equals(t, test.stat.Files, stat.Files) rtest.Equals(t, test.stat.Dirs, stat.Dirs) }) } } func TestArchiverSnapshot(t *testing.T) { var tests = []struct { name string src TestDir want TestDir chdir string targets []string }{ { name: "single-file", src: TestDir{ "foo": TestFile{Content: "foo"}, }, targets: []string{"foo"}, }, { name: "file-current-dir", src: TestDir{ "foo": TestFile{Content: "foo"}, }, targets: []string{"./foo"}, }, { name: "dir", src: TestDir{ "target": TestDir{ "foo": TestFile{Content: "foo"}, }, }, targets: []string{"target"}, }, { name: "dir-current-dir", src: TestDir{ "target": TestDir{ "foo": TestFile{Content: "foo"}, }, }, targets: []string{"./target"}, }, { name: "content-dir-current-dir", src: TestDir{ "target": TestDir{ "foo": TestFile{Content: "foo"}, }, }, targets: []string{"./target/."}, }, { name: "current-dir", src: TestDir{ "target": TestDir{ "foo": TestFile{Content: "foo"}, }, }, targets: []string{"."}, }, { name: "subdir", src: TestDir{ "subdir": TestDir{ "foo": TestFile{Content: "foo"}, "subsubdir": TestDir{ "foo": TestFile{Content: "foo in subsubdir"}, }, }, "other": TestFile{Content: "another file"}, }, targets: []string{"subdir"}, want: TestDir{ "subdir": TestDir{ "foo": TestFile{Content: "foo"}, "subsubdir": TestDir{ "foo": TestFile{Content: "foo in subsubdir"}, }, }, }, }, { name: "subsubdir", src: TestDir{ "subdir": TestDir{ "foo": TestFile{Content: "foo"}, "subsubdir": TestDir{ "foo": TestFile{Content: "foo in subsubdir"}, }, }, "other": TestFile{Content: "another file"}, }, targets: []string{"subdir/subsubdir"}, want: TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "foo": TestFile{Content: "foo in subsubdir"}, }, }, }, }, { name: "parent-dir", src: TestDir{ "subdir": TestDir{ "foo": TestFile{Content: "foo"}, }, "other": TestFile{Content: "another file"}, }, chdir: "subdir", targets: []string{".."}, }, { name: "parent-parent-dir", src: TestDir{ "subdir": TestDir{ "foo": TestFile{Content: "foo"}, "subsubdir": TestDir{ "empty": TestFile{Content: ""}, }, }, "other": TestFile{Content: "another file"}, }, chdir: "subdir/subsubdir", targets: []string{"../.."}, }, { name: "parent-parent-dir-slash", src: TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "foo": TestFile{Content: "foo"}, }, }, "other": TestFile{Content: "another file"}, }, chdir: "subdir/subsubdir", targets: []string{"../../"}, want: TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "foo": TestFile{Content: "foo"}, }, }, "other": TestFile{Content: "another file"}, }, }, { name: "parent-subdir", src: TestDir{ "subdir": TestDir{ "foo": TestFile{Content: "foo"}, }, "other": TestFile{Content: "another file"}, }, chdir: "subdir", targets: []string{"../subdir"}, want: TestDir{ "subdir": TestDir{ "foo": TestFile{Content: "foo"}, }, }, }, { name: "parent-parent-dir-subdir", src: TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "foo": TestFile{Content: "foo"}, }, }, "other": TestFile{Content: "another file"}, }, chdir: "subdir/subsubdir", targets: []string{"../../subdir/subsubdir"}, want: TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "foo": TestFile{Content: "foo"}, }, }, }, }, { name: "included-multiple1", src: TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "foo": TestFile{Content: "foo"}, }, "other": TestFile{Content: "another file"}, }, }, targets: []string{"subdir", "subdir/subsubdir"}, }, { name: "included-multiple2", src: TestDir{ "subdir": TestDir{ "subsubdir": TestDir{ "foo": TestFile{Content: "foo"}, }, "other": TestFile{Content: "another file"}, }, }, targets: []string{"subdir/subsubdir", "subdir"}, }, { name: "collision", src: TestDir{ "subdir": TestDir{ "foo": TestFile{Content: "foo in subdir"}, "subsubdir": TestDir{ "foo": TestFile{Content: "foo in subsubdir"}, }, }, "foo": TestFile{Content: "another file"}, }, chdir: "subdir", targets: []string{".", "../foo"}, want: TestDir{ "foo": TestFile{Content: "foo in subdir"}, "subsubdir": TestDir{ "foo": TestFile{Content: "foo in subsubdir"}, }, "foo-1": TestFile{Content: "another file"}, }, }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() tempdir, repo := prepareTempdirRepoSrc(t, test.src) arch := New(repo, fs.Track{FS: fs.Local{}}, Options{}) chdir := tempdir if test.chdir != "" { chdir = filepath.Join(chdir, filepath.FromSlash(test.chdir)) } back := rtest.Chdir(t, chdir) defer back() var targets []string for _, target := range test.targets { targets = append(targets, os.ExpandEnv(target)) } t.Logf("targets: %v", targets) sn, snapshotID, _, err := arch.Snapshot(ctx, targets, SnapshotOptions{Time: time.Now()}) if err != nil { t.Fatal(err) } t.Logf("saved as %v", snapshotID.Str()) want := test.want if want == nil { want = test.src } TestEnsureSnapshot(t, repo, snapshotID, want) checker.TestCheckRepo(t, repo, false) // check that the snapshot contains the targets with absolute paths for i, target := range sn.Paths { atarget, err := filepath.Abs(test.targets[i]) if err != nil { t.Fatal(err) } if target != atarget { t.Errorf("wrong path in snapshot: want %v, got %v", atarget, target) } } }) } } func TestResolveRelativeTargetsSpecial(t *testing.T) { var tests = []struct { name string targets []string expected []string win bool }{ { name: "basic relative path", targets: []string{filepath.FromSlash("some/path")}, expected: []string{filepath.FromSlash("some/path")}, }, { name: "partial relative path", targets: []string{filepath.FromSlash("../some/path")}, expected: []string{filepath.FromSlash("../some/path")}, }, { name: "basic absolute path", targets: []string{filepath.FromSlash("/some/path")}, expected: []string{filepath.FromSlash("/some/path")}, }, { name: "volume name", targets: []string{"C:"}, expected: []string{"C:\\"}, win: true, }, { name: "volume root path", targets: []string{"C:\\"}, expected: []string{"C:\\"}, win: true, }, { name: "UNC path", targets: []string{"\\\\server\\volume"}, expected: []string{"\\\\server\\volume\\"}, win: true, }, { name: "UNC path with trailing slash", targets: []string{"\\\\server\\volume\\"}, expected: []string{"\\\\server\\volume\\"}, win: true, }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { if test.win && runtime.GOOS != "windows" { t.Skip("skip test on unix") } targets, err := resolveRelativeTargets(&fs.Local{}, test.targets) rtest.OK(t, err) rtest.Equals(t, test.expected, targets) }) } } func TestArchiverSnapshotSelect(t *testing.T) { var tests = []struct { name string src TestDir want TestDir selFn SelectFunc err string }{ { name: "include-all", src: TestDir{ "work": TestDir{ "foo": TestFile{Content: "foo"}, "foo.txt": TestFile{Content: "foo text file"}, "subdir": TestDir{ "other": TestFile{Content: "other in subdir"}, "bar.txt": TestFile{Content: "bar.txt in subdir"}, }, }, "other": TestFile{Content: "another file"}, }, selFn: func(item string, fi os.FileInfo) bool { return true }, }, { name: "exclude-all", src: TestDir{ "work": TestDir{ "foo": TestFile{Content: "foo"}, "foo.txt": TestFile{Content: "foo text file"}, "subdir": TestDir{ "other": TestFile{Content: "other in subdir"}, "bar.txt": TestFile{Content: "bar.txt in subdir"}, }, }, "other": TestFile{Content: "another file"}, }, selFn: func(item string, fi os.FileInfo) bool { return false }, err: "snapshot is empty", }, { name: "exclude-txt-files", src: TestDir{ "work": TestDir{ "foo": TestFile{Content: "foo"}, "foo.txt": TestFile{Content: "foo text file"}, "subdir": TestDir{ "other": TestFile{Content: "other in subdir"}, "bar.txt": TestFile{Content: "bar.txt in subdir"}, }, }, "other": TestFile{Content: "another file"}, }, want: TestDir{ "work": TestDir{ "foo": TestFile{Content: "foo"}, "subdir": TestDir{ "other": TestFile{Content: "other in subdir"}, }, }, "other": TestFile{Content: "another file"}, }, selFn: func(item string, fi os.FileInfo) bool { return filepath.Ext(item) != ".txt" }, }, { name: "exclude-dir", src: TestDir{ "work": TestDir{ "foo": TestFile{Content: "foo"}, "foo.txt": TestFile{Content: "foo text file"}, "subdir": TestDir{ "other": TestFile{Content: "other in subdir"}, "bar.txt": TestFile{Content: "bar.txt in subdir"}, }, }, "other": TestFile{Content: "another file"}, }, want: TestDir{ "work": TestDir{ "foo": TestFile{Content: "foo"}, "foo.txt": TestFile{Content: "foo text file"}, }, "other": TestFile{Content: "another file"}, }, selFn: func(item string, fi os.FileInfo) bool { return filepath.Base(item) != "subdir" }, }, { name: "select-absolute-paths", src: TestDir{ "foo": TestFile{Content: "foo"}, }, selFn: func(item string, fi os.FileInfo) bool { return filepath.IsAbs(item) }, }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() tempdir, repo := prepareTempdirRepoSrc(t, test.src) arch := New(repo, fs.Track{FS: fs.Local{}}, Options{}) arch.Select = test.selFn back := rtest.Chdir(t, tempdir) defer back() targets := []string{"."} _, snapshotID, _, err := arch.Snapshot(ctx, targets, SnapshotOptions{Time: time.Now()}) if test.err != "" { if err == nil { t.Fatalf("expected error not found, got %v, wanted %q", err, test.err) } if err.Error() != test.err { t.Fatalf("unexpected error, want %q, got %q", test.err, err) } return } if err != nil { t.Fatal(err) } t.Logf("saved as %v", snapshotID.Str()) want := test.want if want == nil { want = test.src } TestEnsureSnapshot(t, repo, snapshotID, want) checker.TestCheckRepo(t, repo, false) }) } } // MockFS keeps track which files are read. type MockFS struct { fs.FS m sync.Mutex bytesRead map[string]int // tracks bytes read from all opened files } func (m *MockFS) OpenFile(name string, flag int, perm os.FileMode) (fs.File, error) { f, err := m.FS.OpenFile(name, flag, perm) if err != nil { return f, err } return MockFile{File: f, fs: m, filename: name}, nil } type MockFile struct { fs.File filename string fs *MockFS } func (f MockFile) Read(p []byte) (int, error) { n, err := f.File.Read(p) if n > 0 { f.fs.m.Lock() f.fs.bytesRead[f.filename] += n f.fs.m.Unlock() } return n, err } func checkSnapshotStats(t *testing.T, sn *restic.Snapshot, stat Summary) { rtest.Equals(t, stat.Files.New, sn.Summary.FilesNew) rtest.Equals(t, stat.Files.Changed, sn.Summary.FilesChanged) rtest.Equals(t, stat.Files.Unchanged, sn.Summary.FilesUnmodified) rtest.Equals(t, stat.Dirs.New, sn.Summary.DirsNew) rtest.Equals(t, stat.Dirs.Changed, sn.Summary.DirsChanged) rtest.Equals(t, stat.Dirs.Unchanged, sn.Summary.DirsUnmodified) rtest.Equals(t, stat.ProcessedBytes, sn.Summary.TotalBytesProcessed) rtest.Equals(t, stat.Files.New+stat.Files.Changed+stat.Files.Unchanged, sn.Summary.TotalFilesProcessed) bothZeroOrNeither(t, uint64(stat.DataBlobs), uint64(sn.Summary.DataBlobs)) bothZeroOrNeither(t, uint64(stat.TreeBlobs), uint64(sn.Summary.TreeBlobs)) bothZeroOrNeither(t, uint64(stat.DataSize+stat.TreeSize), uint64(sn.Summary.DataAdded)) bothZeroOrNeither(t, uint64(stat.DataSizeInRepo+stat.TreeSizeInRepo), uint64(sn.Summary.DataAddedPacked)) } func TestArchiverParent(t *testing.T) { var tests = []struct { src TestDir modify func(path string) statInitial Summary statSecond Summary }{ { src: TestDir{ "targetfile": TestFile{Content: string(rtest.Random(888, 2*1024*1024+5000))}, }, statInitial: Summary{ Files: ChangeStats{1, 0, 0}, Dirs: ChangeStats{0, 0, 0}, ProcessedBytes: 2102152, ItemStats: ItemStats{3, 0x201593, 0x201632, 1, 0, 0}, }, statSecond: Summary{ Files: ChangeStats{0, 0, 1}, Dirs: ChangeStats{0, 0, 0}, ProcessedBytes: 2102152, }, }, { src: TestDir{ "targetDir": TestDir{ "targetfile": TestFile{Content: string(rtest.Random(888, 1234))}, "targetfile2": TestFile{Content: string(rtest.Random(888, 1235))}, }, }, statInitial: Summary{ Files: ChangeStats{2, 0, 0}, Dirs: ChangeStats{1, 0, 0}, ProcessedBytes: 2469, ItemStats: ItemStats{2, 0xe1c, 0xcd9, 2, 0, 0}, }, statSecond: Summary{ Files: ChangeStats{0, 0, 2}, Dirs: ChangeStats{0, 0, 1}, ProcessedBytes: 2469, }, }, { src: TestDir{ "targetDir": TestDir{ "targetfile": TestFile{Content: string(rtest.Random(888, 1234))}, }, "targetfile2": TestFile{Content: string(rtest.Random(888, 1235))}, }, modify: func(path string) { remove(t, filepath.Join(path, "targetDir", "targetfile")) save(t, filepath.Join(path, "targetfile2"), []byte("foobar")) }, statInitial: Summary{ Files: ChangeStats{2, 0, 0}, Dirs: ChangeStats{1, 0, 0}, ProcessedBytes: 2469, ItemStats: ItemStats{2, 0xe13, 0xcf8, 2, 0, 0}, }, statSecond: Summary{ Files: ChangeStats{0, 1, 0}, Dirs: ChangeStats{0, 1, 0}, ProcessedBytes: 6, ItemStats: ItemStats{1, 0x305, 0x233, 2, 0, 0}, }, }, } for _, test := range tests { t.Run("", func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() tempdir, repo := prepareTempdirRepoSrc(t, test.src) testFS := &MockFS{ FS: fs.Track{FS: fs.Local{}}, bytesRead: make(map[string]int), } arch := New(repo, testFS, Options{}) back := rtest.Chdir(t, tempdir) defer back() firstSnapshot, firstSnapshotID, summary, err := arch.Snapshot(ctx, []string{"."}, SnapshotOptions{Time: time.Now()}) if err != nil { t.Fatal(err) } t.Logf("first backup saved as %v", firstSnapshotID.Str()) t.Logf("testfs: %v", testFS) // check that all files have been read exactly once TestWalkFiles(t, ".", test.src, func(filename string, item interface{}) error { file, ok := item.(TestFile) if !ok { return nil } n, ok := testFS.bytesRead[filename] if !ok { t.Fatalf("file %v was not read at all", filename) } if n != len(file.Content) { t.Fatalf("file %v: read %v bytes, wanted %v bytes", filename, n, len(file.Content)) } return nil }) rtest.Equals(t, test.statInitial.Files, summary.Files) rtest.Equals(t, test.statInitial.Dirs, summary.Dirs) rtest.Equals(t, test.statInitial.ProcessedBytes, summary.ProcessedBytes) checkSnapshotStats(t, firstSnapshot, test.statInitial) if test.modify != nil { test.modify(tempdir) } opts := SnapshotOptions{ Time: time.Now(), ParentSnapshot: firstSnapshot, } testFS.bytesRead = map[string]int{} secondSnapshot, secondSnapshotID, summary, err := arch.Snapshot(ctx, []string{"."}, opts) if err != nil { t.Fatal(err) } if test.modify == nil { // check that no files were read this time rtest.Equals(t, map[string]int{}, testFS.bytesRead) } rtest.Equals(t, test.statSecond.Files, summary.Files) rtest.Equals(t, test.statSecond.Dirs, summary.Dirs) rtest.Equals(t, test.statSecond.ProcessedBytes, summary.ProcessedBytes) checkSnapshotStats(t, secondSnapshot, test.statSecond) t.Logf("second backup saved as %v", secondSnapshotID.Str()) t.Logf("testfs: %v", testFS) checker.TestCheckRepo(t, repo, false) }) } } func TestArchiverErrorReporting(t *testing.T) { ignoreErrorForBasename := func(basename string) ErrorFunc { return func(item string, err error) error { if filepath.Base(item) == "targetfile" { t.Logf("ignoring error for targetfile: %v", err) return nil } t.Errorf("error handler called for unexpected file %v: %v", item, err) return err } } chmodUnreadable := func(filename string) func(testing.TB) { return func(t testing.TB) { if runtime.GOOS == "windows" { t.Skip("Skipping this test for windows") } err := os.Chmod(filepath.FromSlash(filename), 0004) if err != nil { t.Fatal(err) } } } var tests = []struct { name string src TestDir want TestDir prepare func(t testing.TB) errFn ErrorFunc mustError bool }{ { name: "no-error", src: TestDir{ "targetfile": TestFile{Content: "foobar"}, }, }, { name: "file-unreadable", src: TestDir{ "targetfile": TestFile{Content: "foobar"}, }, prepare: chmodUnreadable("targetfile"), mustError: true, }, { name: "file-unreadable-ignore-error", src: TestDir{ "targetfile": TestFile{Content: "foobar"}, "other": TestFile{Content: "xxx"}, }, want: TestDir{ "other": TestFile{Content: "xxx"}, }, prepare: chmodUnreadable("targetfile"), errFn: ignoreErrorForBasename("targetfile"), }, { name: "file-subdir-unreadable", src: TestDir{ "subdir": TestDir{ "targetfile": TestFile{Content: "foobar"}, }, }, prepare: chmodUnreadable("subdir/targetfile"), mustError: true, }, { name: "file-subdir-unreadable-ignore-error", src: TestDir{ "subdir": TestDir{ "targetfile": TestFile{Content: "foobar"}, "other": TestFile{Content: "xxx"}, }, }, want: TestDir{ "subdir": TestDir{ "other": TestFile{Content: "xxx"}, }, }, prepare: chmodUnreadable("subdir/targetfile"), errFn: ignoreErrorForBasename("targetfile"), }, } for _, test := range tests { t.Run(test.name, func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() tempdir, repo := prepareTempdirRepoSrc(t, test.src) back := rtest.Chdir(t, tempdir) defer back() if test.prepare != nil { test.prepare(t) } arch := New(repo, fs.Track{FS: fs.Local{}}, Options{}) arch.Error = test.errFn _, snapshotID, _, err := arch.Snapshot(ctx, []string{"."}, SnapshotOptions{Time: time.Now()}) if test.mustError { if err != nil { t.Logf("found expected error (%v), skipping further checks", err) return } t.Fatalf("expected error not returned by archiver") return } if err != nil { t.Fatalf("unexpected error of type %T found: %v", err, err) } t.Logf("saved as %v", snapshotID.Str()) want := test.want if want == nil { want = test.src } TestEnsureSnapshot(t, repo, snapshotID, want) checker.TestCheckRepo(t, repo, false) }) } } type noCancelBackend struct { backend.Backend } func (c *noCancelBackend) Remove(_ context.Context, h backend.Handle) error { return c.Backend.Remove(context.Background(), h) } func (c *noCancelBackend) Save(_ context.Context, h backend.Handle, rd backend.RewindReader) error { return c.Backend.Save(context.Background(), h, rd) } func (c *noCancelBackend) Load(_ context.Context, h backend.Handle, length int, offset int64, fn func(rd io.Reader) error) error { return c.Backend.Load(context.Background(), h, length, offset, fn) } func (c *noCancelBackend) Stat(_ context.Context, h backend.Handle) (backend.FileInfo, error) { return c.Backend.Stat(context.Background(), h) } func (c *noCancelBackend) List(_ context.Context, t backend.FileType, fn func(backend.FileInfo) error) error { return c.Backend.List(context.Background(), t, fn) } func (c *noCancelBackend) Delete(_ context.Context) error { return c.Backend.Delete(context.Background()) } func TestArchiverContextCanceled(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) cancel() tempdir := rtest.TempDir(t) TestCreateFiles(t, tempdir, TestDir{ "targetfile": TestFile{Content: "foobar"}, }) // Ensure that the archiver itself reports the canceled context and not just the backend repo, _ := repository.TestRepositoryWithBackend(t, &noCancelBackend{mem.New()}, 0, repository.Options{}) back := rtest.Chdir(t, tempdir) defer back() arch := New(repo, fs.Track{FS: fs.Local{}}, Options{}) _, snapshotID, _, err := arch.Snapshot(ctx, []string{"."}, SnapshotOptions{Time: time.Now()}) if err != nil { t.Logf("found expected error (%v)", err) return } if snapshotID.IsNull() { t.Fatalf("no error returned but found null id") } t.Fatalf("expected error not returned by archiver") } // TrackFS keeps track which files are opened. For some files, an error is injected. type TrackFS struct { fs.FS errorOn map[string]error opened map[string]uint m sync.Mutex } func (m *TrackFS) OpenFile(name string, flag int, perm os.FileMode) (fs.File, error) { m.m.Lock() m.opened[name]++ m.m.Unlock() return m.FS.OpenFile(name, flag, perm) } type failSaveRepo struct { archiverRepo failAfter int32 cnt int32 err error } func (f *failSaveRepo) SaveBlob(ctx context.Context, t restic.BlobType, buf []byte, id restic.ID, storeDuplicate bool) (restic.ID, bool, int, error) { val := atomic.AddInt32(&f.cnt, 1) if val >= f.failAfter { return restic.Hash(buf), false, 0, f.err } return f.archiverRepo.SaveBlob(ctx, t, buf, id, storeDuplicate) } func TestArchiverAbortEarlyOnError(t *testing.T) { var testErr = errors.New("test error") var tests = []struct { src TestDir wantOpen map[string]uint failAfter uint // error after so many blobs have been saved to the repo err error }{ { src: TestDir{ "dir": TestDir{ "bar": TestFile{Content: "foobar"}, "baz": TestFile{Content: "foobar"}, "foo": TestFile{Content: "foobar"}, }, }, wantOpen: map[string]uint{ filepath.FromSlash("dir/bar"): 1, filepath.FromSlash("dir/baz"): 1, filepath.FromSlash("dir/foo"): 1, }, }, { src: TestDir{ "dir": TestDir{ "file0": TestFile{Content: string(rtest.Random(0, 1024))}, "file1": TestFile{Content: string(rtest.Random(1, 1024))}, "file2": TestFile{Content: string(rtest.Random(2, 1024))}, "file3": TestFile{Content: string(rtest.Random(3, 1024))}, "file4": TestFile{Content: string(rtest.Random(4, 1024))}, "file5": TestFile{Content: string(rtest.Random(5, 1024))}, "file6": TestFile{Content: string(rtest.Random(6, 1024))}, "file7": TestFile{Content: string(rtest.Random(7, 1024))}, "file8": TestFile{Content: string(rtest.Random(8, 1024))}, "file9": TestFile{Content: string(rtest.Random(9, 1024))}, }, }, wantOpen: map[string]uint{ filepath.FromSlash("dir/file0"): 1, filepath.FromSlash("dir/file1"): 1, filepath.FromSlash("dir/file2"): 1, filepath.FromSlash("dir/file3"): 1, filepath.FromSlash("dir/file8"): 0, filepath.FromSlash("dir/file9"): 0, }, // fails after four to seven files were opened, as the ReadConcurrency allows for // two queued files and SaveBlobConcurrency for one blob queued for saving. failAfter: 4, err: testErr, }, } for _, test := range tests { t.Run("", func(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() tempdir, repo := prepareTempdirRepoSrc(t, test.src) back := rtest.Chdir(t, tempdir) defer back() testFS := &TrackFS{ FS: fs.Track{FS: fs.Local{}}, opened: make(map[string]uint), } if testFS.errorOn == nil { testFS.errorOn = make(map[string]error) } testRepo := &failSaveRepo{ archiverRepo: repo, failAfter: int32(test.failAfter), err: test.err, } // at most two files may be queued arch := New(testRepo, testFS, Options{ ReadConcurrency: 2, SaveBlobConcurrency: 1, }) _, _, _, err := arch.Snapshot(ctx, []string{"."}, SnapshotOptions{Time: time.Now()}) if !errors.Is(err, test.err) { t.Errorf("expected error (%v) not found, got %v", test.err, err) } t.Logf("Snapshot return error: %v", err) t.Logf("track fs: %v", testFS.opened) for k, v := range test.wantOpen { if testFS.opened[k] != v { t.Errorf("opened %v %d times, want %d", k, testFS.opened[k], v) } } }) } } func snapshot(t testing.TB, repo archiverRepo, fs fs.FS, parent *restic.Snapshot, filename string) (*restic.Snapshot, *restic.Node) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() arch := New(repo, fs, Options{}) sopts := SnapshotOptions{ Time: time.Now(), ParentSnapshot: parent, } snapshot, _, _, err := arch.Snapshot(ctx, []string{filename}, sopts) if err != nil { t.Fatal(err) } tree, err := restic.LoadTree(ctx, repo, *snapshot.Tree) if err != nil { t.Fatal(err) } node := tree.Find(filename) if node == nil { t.Fatalf("unable to find node for testfile in snapshot") } return snapshot, node } // StatFS allows overwriting what is returned by the Lstat function. type StatFS struct { fs.FS OverrideLstat map[string]os.FileInfo OnlyOverrideStat bool } func (fs *StatFS) Lstat(name string) (os.FileInfo, error) { if !fs.OnlyOverrideStat { if fi, ok := fs.OverrideLstat[fixpath(name)]; ok { return fi, nil } } return fs.FS.Lstat(name) } func (fs *StatFS) OpenFile(name string, flags int, perm os.FileMode) (fs.File, error) { if fi, ok := fs.OverrideLstat[fixpath(name)]; ok { f, err := fs.FS.OpenFile(name, flags, perm) if err != nil { return nil, err } wrappedFile := fileStat{ File: f, fi: fi, } return wrappedFile, nil } return fs.FS.OpenFile(name, flags, perm) } type fileStat struct { fs.File fi os.FileInfo } func (f fileStat) Stat() (os.FileInfo, error) { return f.fi, nil } // used by wrapFileInfo, use untyped const in order to avoid having a version // of wrapFileInfo for each OS const ( mockFileInfoMode = 0400 mockFileInfoUID = 51234 mockFileInfoGID = 51235 ) func TestMetadataChanged(t *testing.T) { defer feature.TestSetFlag(t, feature.Flag, feature.DeviceIDForHardlinks, true)() files := TestDir{ "testfile": TestFile{ Content: "foo bar test file", }, } tempdir, repo := prepareTempdirRepoSrc(t, files) back := rtest.Chdir(t, tempdir) defer back() // get metadata fi := lstat(t, "testfile") want, err := fs.NodeFromFileInfo("testfile", fi, false) if err != nil { t.Fatal(err) } fs := &StatFS{ FS: fs.Local{}, OverrideLstat: map[string]os.FileInfo{ "testfile": fi, }, } sn, node2 := snapshot(t, repo, fs, nil, "testfile") // set some values so we can then compare the nodes want.DeviceID = 0 want.Content = node2.Content want.Path = "" if len(want.ExtendedAttributes) == 0 { want.ExtendedAttributes = nil } want.AccessTime = want.ModTime // make sure that metadata was recorded successfully if !cmp.Equal(want, node2) { t.Fatalf("metadata does not match:\n%v", cmp.Diff(want, node2)) } // modify the mode by wrapping it in a new struct, uses the consts defined above fs.OverrideLstat["testfile"] = wrapFileInfo(fi) // set the override values in the 'want' node which want.Mode = 0400 // ignore UID and GID on Windows if runtime.GOOS != "windows" { want.UID = 51234 want.GID = 51235 } // no user and group name want.User = "" want.Group = "" // make another snapshot _, node3 := snapshot(t, repo, fs, sn, "testfile") // Override username and group to empty string - in case underlying system has user with UID 51234 // See https://github.com/restic/restic/issues/2372 node3.User = "" node3.Group = "" // make sure that metadata was recorded successfully if !cmp.Equal(want, node3) { t.Fatalf("metadata does not match:\n%v", cmp.Diff(want, node3)) } // make sure the content matches TestEnsureFileContent(context.Background(), t, repo, "testfile", node3, files["testfile"].(TestFile)) checker.TestCheckRepo(t, repo, false) } func TestRacyFileSwap(t *testing.T) { files := TestDir{ "file": TestFile{ Content: "foo bar test file", }, } tempdir, repo := prepareTempdirRepoSrc(t, files) back := rtest.Chdir(t, tempdir) defer back() // get metadata of current folder fi := lstat(t, ".") tempfile := filepath.Join(tempdir, "file") statfs := &StatFS{ FS: fs.Local{}, OverrideLstat: map[string]os.FileInfo{ tempfile: fi, }, OnlyOverrideStat: true, } ctx, cancel := context.WithCancel(context.Background()) defer cancel() wg, ctx := errgroup.WithContext(ctx) repo.StartPackUploader(ctx, wg) arch := New(repo, fs.Track{FS: statfs}, Options{}) arch.Error = func(item string, err error) error { t.Logf("archiver error as expected for %v: %v", item, err) return err } arch.runWorkers(ctx, wg) // fs.Track will panic if the file was not closed _, excluded, err := arch.save(ctx, "/", tempfile, nil) if err == nil { t.Errorf("Save() should have failed") } if excluded { t.Errorf("Save() excluded the node, that's unexpected") } } func TestMetadataBackupErrorFiltering(t *testing.T) { tempdir := t.TempDir() repo := repository.TestRepository(t) filename := filepath.Join(tempdir, "file") rtest.OK(t, os.WriteFile(filename, []byte("example"), 0o600)) fi, err := os.Stat(filename) rtest.OK(t, err) arch := New(repo, fs.Local{}, Options{}) var filteredErr error replacementErr := fmt.Errorf("replacement") arch.Error = func(item string, err error) error { filteredErr = err return replacementErr } // check that errors from reading extended metadata are properly filtered node, err := arch.nodeFromFileInfo("file", filename+"invalid", fi, false) rtest.Assert(t, node != nil, "node is missing") rtest.Assert(t, err == replacementErr, "expected %v got %v", replacementErr, err) rtest.Assert(t, filteredErr != nil, "missing inner error") }