// Integration tests - test rclone by doing real transactions to a // storage provider to and from the local disk. // // By default it will use a local fs, however you can provide a // -remote option to use a different remote. The test_all.go script // is a wrapper to call this for all the test remotes. // // FIXME not safe for concurrent running of tests until fs.Config is // no longer a global // // NB When writing tests // // Make sure every series of writes to the remote has a // fstest.CheckItems() before use. This make sure the directory // listing is now consistent and stops cascading errors. // // Call fs.Stats.ResetCounters() before every fs.Sync() as it uses the // error count internally. package fs_test import ( "bytes" "errors" "flag" "fmt" "io" "io/ioutil" "log" "os" "path" "path/filepath" "regexp" "sort" "strings" "testing" "time" "github.com/ncw/rclone/fs" _ "github.com/ncw/rclone/fs/all" // import all fs "github.com/ncw/rclone/fstest" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) // Some times used in the tests var ( t1 = fstest.Time("2001-02-03T04:05:06.499999999Z") t2 = fstest.Time("2011-12-25T12:59:59.123456789Z") t3 = fstest.Time("2011-12-30T12:59:59.000000000Z") ) // TestMain drives the tests func TestMain(m *testing.M) { flag.Parse() if !*fstest.Individual { oneRun = newRun() } rc := m.Run() if !*fstest.Individual { oneRun.Finalise() } os.Exit(rc) } // Run holds the remotes for a test run type Run struct { localName string flocal fs.Fs fremote fs.Fs fremoteName string cleanRemote func() mkdir map[string]bool // whether the remote has been made yet for the fs name Logf, Fatalf func(text string, args ...interface{}) } // oneRun holds the master run data if individual is not set var oneRun *Run // newRun initialise the remote and local for testing and returns a // run object. // // r.flocal is an empty local Fs // r.fremote is an empty remote Fs // // Finalise() will tidy them away when done. func newRun() *Run { r := &Run{ Logf: log.Printf, Fatalf: log.Fatalf, mkdir: make(map[string]bool), } fstest.Initialise() var err error r.fremote, r.fremoteName, r.cleanRemote, err = fstest.RandomRemote(*fstest.RemoteName, *fstest.SubDir) if err != nil { r.Fatalf("Failed to open remote %q: %v", *fstest.RemoteName, err) } r.localName, err = ioutil.TempDir("", "rclone") if err != nil { r.Fatalf("Failed to create temp dir: %v", err) } r.localName = filepath.ToSlash(r.localName) r.flocal, err = fs.NewFs(r.localName) if err != nil { r.Fatalf("Failed to make %q: %v", r.localName, err) } fs.CalculateModifyWindow(r.fremote, r.flocal) return r } // dirsToRemove sorts by string length type dirsToRemove []string func (d dirsToRemove) Len() int { return len(d) } func (d dirsToRemove) Swap(i, j int) { d[i], d[j] = d[j], d[i] } func (d dirsToRemove) Less(i, j int) bool { return len(d[i]) > len(d[j]) } // NewRun initialise the remote and local for testing and returns a // run object. Call this from the tests. // // r.flocal is an empty local Fs // r.fremote is an empty remote Fs // // Finalise() will tidy them away when done. func NewRun(t *testing.T) *Run { var r *Run if *fstest.Individual { r = newRun() } else { // If not individual, use the global one with the clean method overridden r = new(Run) *r = *oneRun r.cleanRemote = func() { var toDelete dirsToRemove require.NoError(t, fs.Walk(r.fremote, "", true, -1, func(dirPath string, entries fs.DirEntries, err error) error { if err != nil { if err == fs.ErrorDirNotFound { return nil } t.Fatalf("Error listing: %v", err) } for _, entry := range entries { switch x := entry.(type) { case fs.Object: err = x.Remove() if err != nil { t.Errorf("Error removing file %q: %v", x.Remote(), err) } case fs.Directory: toDelete = append(toDelete, x.Remote()) } } return nil })) sort.Sort(toDelete) for _, dir := range toDelete { err := r.fremote.Rmdir(dir) if err != nil { t.Errorf("Error removing dir %q: %v", dir, err) } } // Check remote is empty fstest.CheckItems(t, r.fremote) } } r.Logf = t.Logf r.Fatalf = t.Fatalf r.Logf("Remote %q, Local %q, Modify Window %q", r.fremote, r.flocal, fs.Config.ModifyWindow) return r } // Rename a file in local func (r *Run) RenameFile(item fstest.Item, newpath string) fstest.Item { oldFilepath := path.Join(r.localName, item.Path) newFilepath := path.Join(r.localName, newpath) if err := os.Rename(oldFilepath, newFilepath); err != nil { r.Fatalf("Failed to rename file from %q to %q: %v", item.Path, newpath, err) } item.Path = newpath return item } // Write a file to local func (r *Run) WriteFile(filePath, content string, t time.Time) fstest.Item { item := fstest.NewItem(filePath, content, t) // FIXME make directories? filePath = path.Join(r.localName, filePath) dirPath := path.Dir(filePath) err := os.MkdirAll(dirPath, 0770) if err != nil { r.Fatalf("Failed to make directories %q: %v", dirPath, err) } err = ioutil.WriteFile(filePath, []byte(content), 0600) if err != nil { r.Fatalf("Failed to write file %q: %v", filePath, err) } err = os.Chtimes(filePath, t, t) if err != nil { r.Fatalf("Failed to chtimes file %q: %v", filePath, err) } return item } // ForceMkdir creates the remote func (r *Run) ForceMkdir(f fs.Fs) { err := f.Mkdir("") if err != nil { r.Fatalf("Failed to mkdir %q: %v", f, err) } r.mkdir[f.String()] = true } // Mkdir creates the remote if it hasn't been created already func (r *Run) Mkdir(f fs.Fs) { if !r.mkdir[f.String()] { r.ForceMkdir(f) } } // WriteObjectTo writes an object to the fs, remote passed in func (r *Run) WriteObjectTo(f fs.Fs, remote, content string, modTime time.Time, useUnchecked bool) fstest.Item { put := f.Put if useUnchecked { put = f.Features().PutUnchecked if put == nil { r.Fatalf("Fs doesn't support PutUnchecked") } } r.Mkdir(f) const maxTries = 10 for tries := 1; ; tries++ { in := bytes.NewBufferString(content) objinfo := fs.NewStaticObjectInfo(remote, modTime, int64(len(content)), true, nil, nil) _, err := put(in, objinfo) if err == nil { break } // Retry if err returned a retry error if fs.IsRetryError(err) && tries < maxTries { r.Logf("Retry Put of %q to %v: %d/%d (%v)", remote, f, tries, maxTries, err) time.Sleep(2 * time.Second) continue } r.Fatalf("Failed to put %q to %q: %v", remote, f, err) } return fstest.NewItem(remote, content, modTime) } // WriteObject writes an object to the remote func (r *Run) WriteObject(remote, content string, modTime time.Time) fstest.Item { return r.WriteObjectTo(r.fremote, remote, content, modTime, false) } // WriteUncheckedObject writes an object to the remote not checking for duplicates func (r *Run) WriteUncheckedObject(remote, content string, modTime time.Time) fstest.Item { return r.WriteObjectTo(r.fremote, remote, content, modTime, true) } // WriteBoth calls WriteObject and WriteFile with the same arguments func (r *Run) WriteBoth(remote, content string, modTime time.Time) fstest.Item { r.WriteFile(remote, content, modTime) return r.WriteObject(remote, content, modTime) } // Clean the temporary directory func (r *Run) cleanTempDir() { err := os.RemoveAll(r.localName) if err != nil { r.Logf("Failed to clean temporary directory %q: %v", r.localName, err) } } // finalise cleans the remote and local func (r *Run) Finalise() { // r.Logf("Cleaning remote %q", r.fremote) r.cleanRemote() // r.Logf("Cleaning local %q", r.localName) r.cleanTempDir() } // ------------------------------------------------------------ func TestMkdir(t *testing.T) { r := NewRun(t) defer r.Finalise() fstest.TestMkdir(t, r.fremote) } func TestLsd(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteObject("sub dir/hello world", "hello world", t1) fstest.CheckItems(t, r.fremote, file1) var buf bytes.Buffer err := fs.ListDir(r.fremote, &buf) require.NoError(t, err) res := buf.String() assert.Contains(t, res, "sub dir\n") } func TestLs(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteBoth("potato2", "------------------------------------------------------------", t1) file2 := r.WriteBoth("empty space", "", t2) fstest.CheckItems(t, r.fremote, file1, file2) var buf bytes.Buffer err := fs.List(r.fremote, &buf) require.NoError(t, err) res := buf.String() assert.Contains(t, res, " 0 empty space\n") assert.Contains(t, res, " 60 potato2\n") } func TestLsLong(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteBoth("potato2", "------------------------------------------------------------", t1) file2 := r.WriteBoth("empty space", "", t2) fstest.CheckItems(t, r.fremote, file1, file2) var buf bytes.Buffer err := fs.ListLong(r.fremote, &buf) require.NoError(t, err) res := buf.String() lines := strings.Split(strings.Trim(res, "\n"), "\n") assert.Equal(t, 2, len(lines)) timeFormat := "2006-01-02 15:04:05.000000000" precision := r.fremote.Precision() location := time.Now().Location() checkTime := func(m, filename string, expected time.Time) { modTime, err := time.ParseInLocation(timeFormat, m, location) // parse as localtime if err != nil { t.Errorf("Error parsing %q: %v", m, err) } else { dt, ok := fstest.CheckTimeEqualWithPrecision(expected, modTime, precision) if !ok { t.Errorf("%s: Modification time difference too big |%s| > %s (%s vs %s) (precision %s)", filename, dt, precision, modTime, expected, precision) } } } m1 := regexp.MustCompile(`(?m)^ 0 (\d{4}-\d\d-\d\d \d\d:\d\d:\d\d\.\d{9}) empty space$`) if ms := m1.FindStringSubmatch(res); ms == nil { t.Errorf("empty space missing: %q", res) } else { checkTime(ms[1], "empty space", t2.Local()) } m2 := regexp.MustCompile(`(?m)^ 60 (\d{4}-\d\d-\d\d \d\d:\d\d:\d\d\.\d{9}) potato2$`) if ms := m2.FindStringSubmatch(res); ms == nil { t.Errorf("potato2 missing: %q", res) } else { checkTime(ms[1], "potato2", t1.Local()) } } func TestHashSums(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteBoth("potato2", "------------------------------------------------------------", t1) file2 := r.WriteBoth("empty space", "", t2) fstest.CheckItems(t, r.fremote, file1, file2) // MD5 Sum var buf bytes.Buffer err := fs.Md5sum(r.fremote, &buf) require.NoError(t, err) res := buf.String() if !strings.Contains(res, "d41d8cd98f00b204e9800998ecf8427e empty space\n") && !strings.Contains(res, " UNSUPPORTED empty space\n") && !strings.Contains(res, " empty space\n") { t.Errorf("empty space missing: %q", res) } if !strings.Contains(res, "d6548b156ea68a4e003e786df99eee76 potato2\n") && !strings.Contains(res, " UNSUPPORTED potato2\n") && !strings.Contains(res, " potato2\n") { t.Errorf("potato2 missing: %q", res) } // SHA1 Sum buf.Reset() err = fs.Sha1sum(r.fremote, &buf) require.NoError(t, err) res = buf.String() if !strings.Contains(res, "da39a3ee5e6b4b0d3255bfef95601890afd80709 empty space\n") && !strings.Contains(res, " UNSUPPORTED empty space\n") && !strings.Contains(res, " empty space\n") { t.Errorf("empty space missing: %q", res) } if !strings.Contains(res, "9dc7f7d3279715991a22853f5981df582b7f9f6d potato2\n") && !strings.Contains(res, " UNSUPPORTED potato2\n") && !strings.Contains(res, " potato2\n") { t.Errorf("potato2 missing: %q", res) } // Dropbox Hash Sum buf.Reset() err = fs.DropboxHashSum(r.fremote, &buf) require.NoError(t, err) res = buf.String() if !strings.Contains(res, "e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855 empty space\n") && !strings.Contains(res, " UNSUPPORTED empty space\n") && !strings.Contains(res, " empty space\n") { t.Errorf("empty space missing: %q", res) } if !strings.Contains(res, "a979481df794fed9c3990a6a422e0b1044ac802c15fab13af9c687f8bdbee01a potato2\n") && !strings.Contains(res, " UNSUPPORTED potato2\n") && !strings.Contains(res, " potato2\n") { t.Errorf("potato2 missing: %q", res) } } func TestCount(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteBoth("potato2", "------------------------------------------------------------", t1) file2 := r.WriteBoth("empty space", "", t2) file3 := r.WriteBoth("sub dir/potato3", "hello", t2) fstest.CheckItems(t, r.fremote, file1, file2, file3) // Check the MaxDepth too fs.Config.MaxDepth = 1 defer func() { fs.Config.MaxDepth = -1 }() objects, size, err := fs.Count(r.fremote) require.NoError(t, err) assert.Equal(t, int64(2), objects) assert.Equal(t, int64(60), size) } func TestDelete(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteObject("small", "1234567890", t2) // 10 bytes file2 := r.WriteObject("medium", "------------------------------------------------------------", t1) // 60 bytes file3 := r.WriteObject("large", "AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA", t1) // 100 bytes fstest.CheckItems(t, r.fremote, file1, file2, file3) fs.Config.Filter.MaxSize = 60 defer func() { fs.Config.Filter.MaxSize = -1 }() err := fs.Delete(r.fremote) require.NoError(t, err) fstest.CheckItems(t, r.fremote, file3) } func testCheck(t *testing.T, checkFunction func(fdst, fsrc fs.Fs) error) { r := NewRun(t) defer r.Finalise() check := func(i int, wantErrors int64) { fs.Debugf(r.fremote, "%d: Starting check test", i) oldErrors := fs.Stats.GetErrors() err := checkFunction(r.flocal, r.fremote) gotErrors := fs.Stats.GetErrors() - oldErrors if wantErrors == 0 && err != nil { t.Errorf("%d: Got error when not expecting one: %v", i, err) } if wantErrors != 0 && err == nil { t.Errorf("%d: No error when expecting one", i) } if wantErrors != gotErrors { t.Errorf("%d: Expecting %d errors but got %d", i, wantErrors, gotErrors) } fs.Debugf(r.fremote, "%d: Ending check test", i) } file1 := r.WriteBoth("rutabaga", "is tasty", t3) fstest.CheckItems(t, r.fremote, file1) fstest.CheckItems(t, r.flocal, file1) check(1, 0) file2 := r.WriteFile("potato2", "------------------------------------------------------------", t1) fstest.CheckItems(t, r.flocal, file1, file2) check(2, 1) file3 := r.WriteObject("empty space", "", t2) fstest.CheckItems(t, r.fremote, file1, file3) check(3, 2) file2r := file2 if fs.Config.SizeOnly { file2r = r.WriteObject("potato2", "--Some-Differences-But-Size-Only-Is-Enabled-----------------", t1) } else { r.WriteObject("potato2", "------------------------------------------------------------", t1) } fstest.CheckItems(t, r.fremote, file1, file2r, file3) check(4, 1) r.WriteFile("empty space", "", t2) fstest.CheckItems(t, r.flocal, file1, file2, file3) check(5, 0) } func TestCheck(t *testing.T) { testCheck(t, fs.Check) } func TestCheckDownload(t *testing.T) { testCheck(t, fs.CheckDownload) } func TestCheckSizeOnly(t *testing.T) { fs.Config.SizeOnly = true defer func() { fs.Config.SizeOnly = false }() TestCheck(t) } func (r *Run) checkWithDuplicates(t *testing.T, items ...fstest.Item) { objects, size, err := fs.Count(r.fremote) require.NoError(t, err) assert.Equal(t, int64(len(items)), objects) wantSize := int64(0) for _, item := range items { wantSize += item.Size } assert.Equal(t, wantSize, size) } func skipIfCantDedupe(t *testing.T, f fs.Fs) { if f.Features().PutUnchecked == nil { t.Skip("Can't test deduplicate - no PutUnchecked") } if !f.Features().DuplicateFiles { t.Skip("Can't test deduplicate - no duplicate files possible") } if !f.Hashes().Contains(fs.HashMD5) { t.Skip("Can't test deduplicate - MD5 not supported") } } func TestDeduplicateInteractive(t *testing.T) { r := NewRun(t) defer r.Finalise() skipIfCantDedupe(t, r.fremote) file1 := r.WriteUncheckedObject("one", "This is one", t1) file2 := r.WriteUncheckedObject("one", "This is one", t1) file3 := r.WriteUncheckedObject("one", "This is one", t1) r.checkWithDuplicates(t, file1, file2, file3) err := fs.Deduplicate(r.fremote, fs.DeduplicateInteractive) require.NoError(t, err) fstest.CheckItems(t, r.fremote, file1) } func TestDeduplicateSkip(t *testing.T) { r := NewRun(t) defer r.Finalise() skipIfCantDedupe(t, r.fremote) file1 := r.WriteUncheckedObject("one", "This is one", t1) file2 := r.WriteUncheckedObject("one", "This is one", t1) file3 := r.WriteUncheckedObject("one", "This is another one", t1) r.checkWithDuplicates(t, file1, file2, file3) err := fs.Deduplicate(r.fremote, fs.DeduplicateSkip) require.NoError(t, err) r.checkWithDuplicates(t, file1, file3) } func TestDeduplicateFirst(t *testing.T) { r := NewRun(t) defer r.Finalise() skipIfCantDedupe(t, r.fremote) file1 := r.WriteUncheckedObject("one", "This is one", t1) file2 := r.WriteUncheckedObject("one", "This is one A", t1) file3 := r.WriteUncheckedObject("one", "This is one BB", t1) r.checkWithDuplicates(t, file1, file2, file3) err := fs.Deduplicate(r.fremote, fs.DeduplicateFirst) require.NoError(t, err) objects, size, err := fs.Count(r.fremote) require.NoError(t, err) assert.Equal(t, int64(1), objects) if size != file1.Size && size != file2.Size && size != file3.Size { t.Errorf("Size not one of the object sizes %d", size) } } func TestDeduplicateNewest(t *testing.T) { r := NewRun(t) defer r.Finalise() skipIfCantDedupe(t, r.fremote) file1 := r.WriteUncheckedObject("one", "This is one", t1) file2 := r.WriteUncheckedObject("one", "This is one too", t2) file3 := r.WriteUncheckedObject("one", "This is another one", t3) r.checkWithDuplicates(t, file1, file2, file3) err := fs.Deduplicate(r.fremote, fs.DeduplicateNewest) require.NoError(t, err) fstest.CheckItems(t, r.fremote, file3) } func TestDeduplicateOldest(t *testing.T) { r := NewRun(t) defer r.Finalise() skipIfCantDedupe(t, r.fremote) file1 := r.WriteUncheckedObject("one", "This is one", t1) file2 := r.WriteUncheckedObject("one", "This is one too", t2) file3 := r.WriteUncheckedObject("one", "This is another one", t3) r.checkWithDuplicates(t, file1, file2, file3) err := fs.Deduplicate(r.fremote, fs.DeduplicateOldest) require.NoError(t, err) fstest.CheckItems(t, r.fremote, file1) } func TestDeduplicateRename(t *testing.T) { r := NewRun(t) defer r.Finalise() skipIfCantDedupe(t, r.fremote) file1 := r.WriteUncheckedObject("one.txt", "This is one", t1) file2 := r.WriteUncheckedObject("one.txt", "This is one too", t2) file3 := r.WriteUncheckedObject("one.txt", "This is another one", t3) r.checkWithDuplicates(t, file1, file2, file3) err := fs.Deduplicate(r.fremote, fs.DeduplicateRename) require.NoError(t, err) require.NoError(t, fs.Walk(r.fremote, "", true, -1, func(dirPath string, entries fs.DirEntries, err error) error { if err != nil { return err } entries.ForObject(func(o fs.Object) { remote := o.Remote() if remote != "one-1.txt" && remote != "one-2.txt" && remote != "one-3.txt" { t.Errorf("Bad file name after rename %q", remote) } size := o.Size() if size != file1.Size && size != file2.Size && size != file3.Size { t.Errorf("Size not one of the object sizes %d", size) } }) return nil })) } func TestCat(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteBoth("file1", "ABCDEFGHIJ", t1) file2 := r.WriteBoth("file2", "012345678", t2) fstest.CheckItems(t, r.fremote, file1, file2) for _, test := range []struct { offset int64 count int64 a string b string }{ {0, -1, "ABCDEFGHIJ", "012345678"}, {0, 5, "ABCDE", "01234"}, {-3, -1, "HIJ", "678"}, {1, 3, "BCD", "123"}, } { var buf bytes.Buffer err := fs.Cat(r.fremote, &buf, test.offset, test.count) require.NoError(t, err) res := buf.String() if res != test.a+test.b && res != test.b+test.a { t.Errorf("Incorrect output from Cat(%d,%d): %q", test.offset, test.count, res) } } } func TestRcat(t *testing.T) { r := NewRun(t) defer r.Finalise() fstest.CheckListing(t, r.fremote, []fstest.Item{}) data := "this is some really nice test data" path := "file_from_pipe" in := ioutil.NopCloser(strings.NewReader(data)) err := fs.Rcat(r.fremote, path, in, t1) require.NoError(t, err) file := fstest.NewItem(path, data, t1) fstest.CheckItems(t, r.fremote, file) } func TestRmdirs(t *testing.T) { r := NewRun(t) defer r.Finalise() r.Mkdir(r.fremote) // Make some files and dirs we expect to keep r.ForceMkdir(r.fremote) file1 := r.WriteObject("A1/B1/C1/one", "aaa", t1) //..and dirs we expect to delete require.NoError(t, fs.Mkdir(r.fremote, "A2")) require.NoError(t, fs.Mkdir(r.fremote, "A1/B2")) require.NoError(t, fs.Mkdir(r.fremote, "A1/B2/C2")) require.NoError(t, fs.Mkdir(r.fremote, "A1/B1/C3")) require.NoError(t, fs.Mkdir(r.fremote, "A3")) require.NoError(t, fs.Mkdir(r.fremote, "A3/B3")) require.NoError(t, fs.Mkdir(r.fremote, "A3/B3/C4")) //..and one more file at the end file2 := r.WriteObject("A1/two", "bbb", t2) fstest.CheckListingWithPrecision( t, r.fremote, []fstest.Item{ file1, file2, }, /* FIXME bucket based Fses are only showing some of the directories []string{ "A1", "A1/B1", "A1/B1/C1", "A2", "A1/B2", "A1/B2/C2", "A1/B1/C3", "A3", "A3/B3", "A3/B3/C4", },*/ nil, fs.Config.ModifyWindow, ) require.NoError(t, fs.Rmdirs(r.fremote, "")) fstest.CheckListingWithPrecision( t, r.fremote, []fstest.Item{ file1, file2, }, []string{ "A1", "A1/B1", "A1/B1/C1", }, fs.Config.ModifyWindow, ) } func TestMoveFile(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteFile("file1", "file1 contents", t1) fstest.CheckItems(t, r.flocal, file1) file2 := file1 file2.Path = "sub/file2" err := fs.MoveFile(r.fremote, r.flocal, file2.Path, file1.Path) require.NoError(t, err) fstest.CheckItems(t, r.flocal) fstest.CheckItems(t, r.fremote, file2) r.WriteFile("file1", "file1 contents", t1) fstest.CheckItems(t, r.flocal, file1) err = fs.MoveFile(r.fremote, r.flocal, file2.Path, file1.Path) require.NoError(t, err) fstest.CheckItems(t, r.flocal) fstest.CheckItems(t, r.fremote, file2) err = fs.MoveFile(r.fremote, r.fremote, file2.Path, file2.Path) require.NoError(t, err) fstest.CheckItems(t, r.flocal) fstest.CheckItems(t, r.fremote, file2) } func TestCopyFile(t *testing.T) { r := NewRun(t) defer r.Finalise() file1 := r.WriteFile("file1", "file1 contents", t1) fstest.CheckItems(t, r.flocal, file1) file2 := file1 file2.Path = "sub/file2" err := fs.CopyFile(r.fremote, r.flocal, file2.Path, file1.Path) require.NoError(t, err) fstest.CheckItems(t, r.flocal, file1) fstest.CheckItems(t, r.fremote, file2) err = fs.CopyFile(r.fremote, r.flocal, file2.Path, file1.Path) require.NoError(t, err) fstest.CheckItems(t, r.flocal, file1) fstest.CheckItems(t, r.fremote, file2) err = fs.CopyFile(r.fremote, r.fremote, file2.Path, file2.Path) require.NoError(t, err) fstest.CheckItems(t, r.flocal, file1) fstest.CheckItems(t, r.fremote, file2) } // testFsInfo is for unit testing fs.Info type testFsInfo struct { name string root string stringVal string precision time.Duration hashes fs.HashSet features fs.Features } // Name of the remote (as passed into NewFs) func (i *testFsInfo) Name() string { return i.name } // Root of the remote (as passed into NewFs) func (i *testFsInfo) Root() string { return i.root } // String returns a description of the FS func (i *testFsInfo) String() string { return i.stringVal } // Precision of the ModTimes in this Fs func (i *testFsInfo) Precision() time.Duration { return i.precision } // Returns the supported hash types of the filesystem func (i *testFsInfo) Hashes() fs.HashSet { return i.hashes } // Returns the supported hash types of the filesystem func (i *testFsInfo) Features() *fs.Features { return &i.features } func TestSameConfig(t *testing.T) { a := &testFsInfo{name: "name", root: "root"} for _, test := range []struct { name string root string expected bool }{ {"name", "root", true}, {"name", "rooty", true}, {"namey", "root", false}, {"namey", "roott", false}, } { b := &testFsInfo{name: test.name, root: test.root} actual := fs.SameConfig(a, b) assert.Equal(t, test.expected, actual) actual = fs.SameConfig(b, a) assert.Equal(t, test.expected, actual) } } func TestSame(t *testing.T) { a := &testFsInfo{name: "name", root: "root"} for _, test := range []struct { name string root string expected bool }{ {"name", "root", true}, {"name", "rooty", false}, {"namey", "root", false}, {"namey", "roott", false}, } { b := &testFsInfo{name: test.name, root: test.root} actual := fs.Same(a, b) assert.Equal(t, test.expected, actual) actual = fs.Same(b, a) assert.Equal(t, test.expected, actual) } } func TestOverlapping(t *testing.T) { a := &testFsInfo{name: "name", root: "root"} for _, test := range []struct { name string root string expected bool }{ {"name", "root", true}, {"namey", "root", false}, {"name", "rooty", false}, {"namey", "rooty", false}, {"name", "roo", false}, {"name", "root/toot", true}, {"name", "root/toot/", true}, {"name", "", true}, {"name", "/", true}, } { b := &testFsInfo{name: test.name, root: test.root} what := fmt.Sprintf("(%q,%q) vs (%q,%q)", a.name, a.root, b.name, b.root) actual := fs.Overlapping(a, b) assert.Equal(t, test.expected, actual, what) actual = fs.Overlapping(b, a) assert.Equal(t, test.expected, actual, what) } } func TestListDirSorted(t *testing.T) { r := NewRun(t) defer r.Finalise() fs.Config.Filter.MaxSize = 10 defer func() { fs.Config.Filter.MaxSize = -1 }() files := []fstest.Item{ r.WriteObject("a.txt", "hello world", t1), r.WriteObject("zend.txt", "hello", t1), r.WriteObject("sub dir/hello world", "hello world", t1), r.WriteObject("sub dir/hello world2", "hello world", t1), r.WriteObject("sub dir/sub sub dir/hello world3", "hello world", t1), } fstest.CheckItems(t, r.fremote, files...) var items fs.DirEntries var err error // Turn the DirEntry into a name, ending with a / if it is a // dir str := func(i int) string { item := items[i] name := item.Remote() switch item.(type) { case fs.Object: case fs.Directory: name += "/" default: t.Fatalf("Unknown type %+v", item) } return name } items, err = fs.ListDirSorted(r.fremote, true, "") require.NoError(t, err) require.Len(t, items, 3) assert.Equal(t, "a.txt", str(0)) assert.Equal(t, "sub dir/", str(1)) assert.Equal(t, "zend.txt", str(2)) items, err = fs.ListDirSorted(r.fremote, false, "") require.NoError(t, err) require.Len(t, items, 2) assert.Equal(t, "sub dir/", str(0)) assert.Equal(t, "zend.txt", str(1)) items, err = fs.ListDirSorted(r.fremote, true, "sub dir") require.NoError(t, err) require.Len(t, items, 3) assert.Equal(t, "sub dir/hello world", str(0)) assert.Equal(t, "sub dir/hello world2", str(1)) assert.Equal(t, "sub dir/sub sub dir/", str(2)) items, err = fs.ListDirSorted(r.fremote, false, "sub dir") require.NoError(t, err) require.Len(t, items, 1) assert.Equal(t, "sub dir/sub sub dir/", str(0)) } type byteReader struct { c byte } func (br *byteReader) Read(p []byte) (n int, err error) { if br.c == 0 { err = io.EOF } else if len(p) >= 1 { p[0] = br.c n = 1 br.c-- } return } func TestReadFill(t *testing.T) { buf := []byte{9, 9, 9, 9, 9} n, err := fs.ReadFill(&byteReader{0}, buf) assert.Equal(t, io.EOF, err) assert.Equal(t, 0, n) assert.Equal(t, []byte{9, 9, 9, 9, 9}, buf) n, err = fs.ReadFill(&byteReader{3}, buf) assert.Equal(t, io.EOF, err) assert.Equal(t, 3, n) assert.Equal(t, []byte{3, 2, 1, 9, 9}, buf) n, err = fs.ReadFill(&byteReader{8}, buf) assert.Equal(t, nil, err) assert.Equal(t, 5, n) assert.Equal(t, []byte{8, 7, 6, 5, 4}, buf) } type errorReader struct { err error } func (er errorReader) Read(p []byte) (n int, err error) { return 0, er.err } func TestCheckEqualReaders(t *testing.T) { b65a := make([]byte, 65*1024) b65b := make([]byte, 65*1024) b65b[len(b65b)-1] = 1 b66 := make([]byte, 66*1024) differ, err := fs.CheckEqualReaders(bytes.NewBuffer(b65a), bytes.NewBuffer(b65a)) assert.NoError(t, err) assert.Equal(t, differ, false) differ, err = fs.CheckEqualReaders(bytes.NewBuffer(b65a), bytes.NewBuffer(b65b)) assert.NoError(t, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(bytes.NewBuffer(b65a), bytes.NewBuffer(b66)) assert.NoError(t, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(bytes.NewBuffer(b66), bytes.NewBuffer(b65a)) assert.NoError(t, err) assert.Equal(t, differ, true) myErr := errors.New("sentinel") wrap := func(b []byte) io.Reader { r := bytes.NewBuffer(b) e := errorReader{myErr} return io.MultiReader(r, e) } differ, err = fs.CheckEqualReaders(wrap(b65a), bytes.NewBuffer(b65a)) assert.Equal(t, myErr, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(wrap(b65a), bytes.NewBuffer(b65b)) assert.Equal(t, myErr, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(wrap(b65a), bytes.NewBuffer(b66)) assert.Equal(t, myErr, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(wrap(b66), bytes.NewBuffer(b65a)) assert.Equal(t, myErr, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(bytes.NewBuffer(b65a), wrap(b65a)) assert.Equal(t, myErr, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(bytes.NewBuffer(b65a), wrap(b65b)) assert.Equal(t, myErr, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(bytes.NewBuffer(b65a), wrap(b66)) assert.Equal(t, myErr, err) assert.Equal(t, differ, true) differ, err = fs.CheckEqualReaders(bytes.NewBuffer(b66), wrap(b65a)) assert.Equal(t, myErr, err) assert.Equal(t, differ, true) }