package walk import ( "context" "errors" "fmt" "io" "strings" "sync" "testing" "github.com/rclone/rclone/fs" _ "github.com/rclone/rclone/fs/accounting" "github.com/rclone/rclone/fs/filter" "github.com/rclone/rclone/fs/fserrors" "github.com/rclone/rclone/fstest/mockdir" "github.com/rclone/rclone/fstest/mockfs" "github.com/rclone/rclone/fstest/mockobject" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) var errDirNotFound, errorBoom error func init() { errDirNotFound = fserrors.FsError(fs.ErrorDirNotFound) fserrors.Count(errDirNotFound) errorBoom = fserrors.FsError(errors.New("boom")) fserrors.Count(errorBoom) } type ( listResult struct { entries fs.DirEntries err error } listResults map[string]listResult errorMap map[string]error listDirs struct { mu sync.Mutex t *testing.T fs fs.Fs includeAll bool results listResults walkResults listResults walkErrors errorMap finalError error checkMaps bool maxLevel int } ) func newListDirs(t *testing.T, f fs.Fs, includeAll bool, results listResults, walkErrors errorMap, finalError error) *listDirs { return &listDirs{ t: t, fs: f, includeAll: includeAll, results: results, walkErrors: walkErrors, walkResults: listResults{}, finalError: finalError, checkMaps: true, maxLevel: -1, } } // NoCheckMaps marks the maps as to be ignored at the end func (ls *listDirs) NoCheckMaps() *listDirs { ls.checkMaps = false return ls } // SetLevel(1) turns off recursion func (ls *listDirs) SetLevel(maxLevel int) *listDirs { ls.maxLevel = maxLevel return ls } // ListDir returns the expected listing for the directory func (ls *listDirs) ListDir(ctx context.Context, f fs.Fs, includeAll bool, dir string) (entries fs.DirEntries, err error) { ls.mu.Lock() defer ls.mu.Unlock() assert.Equal(ls.t, ls.fs, f) assert.Equal(ls.t, ls.includeAll, includeAll) // Fetch results for this path result, ok := ls.results[dir] if !ok { ls.t.Errorf("Unexpected list of %q", dir) return nil, errors.New("unexpected list") } delete(ls.results, dir) // Put expected results for call of WalkFn ls.walkResults[dir] = result return result.entries, result.err } // ListR returns the expected listing for the directory using ListR func (ls *listDirs) ListR(ctx context.Context, dir string, callback fs.ListRCallback) (err error) { ls.mu.Lock() defer ls.mu.Unlock() var errorReturn error for dirPath, result := range ls.results { // Put expected results for call of WalkFn // Note that we don't call the function at all if we got an error if result.err != nil { errorReturn = result.err } if errorReturn == nil { err = callback(result.entries) require.NoError(ls.t, err) ls.walkResults[dirPath] = result } } ls.results = listResults{} return errorReturn } // IsFinished checks everything expected was used up func (ls *listDirs) IsFinished() { if ls.checkMaps { assert.Equal(ls.t, errorMap{}, ls.walkErrors) assert.Equal(ls.t, listResults{}, ls.results) assert.Equal(ls.t, listResults{}, ls.walkResults) } } // WalkFn is called by the walk to test the expectations func (ls *listDirs) WalkFn(dir string, entries fs.DirEntries, err error) error { ls.mu.Lock() defer ls.mu.Unlock() // ls.t.Logf("WalkFn(%q, %v, %q)", dir, entries, err) // Fetch expected entries and err result, ok := ls.walkResults[dir] if !ok { ls.t.Errorf("Unexpected walk of %q (result not found)", dir) return errors.New("result not found") } delete(ls.walkResults, dir) // Check arguments are as expected assert.Equal(ls.t, result.entries, entries) assert.Equal(ls.t, result.err, err) // Fetch return value returnErr, ok := ls.walkErrors[dir] if !ok { ls.t.Errorf("Unexpected walk of %q (error not found)", dir) return errors.New("error not found") } delete(ls.walkErrors, dir) return returnErr } // Walk does the walk and tests the expectations func (ls *listDirs) Walk() { err := walk(context.Background(), nil, "", ls.includeAll, ls.maxLevel, ls.WalkFn, ls.ListDir) assert.Equal(ls.t, ls.finalError, err) ls.IsFinished() } // WalkR does the walkR and tests the expectations func (ls *listDirs) WalkR() { err := walkR(context.Background(), nil, "", ls.includeAll, ls.maxLevel, ls.WalkFn, ls.ListR) assert.Equal(ls.t, ls.finalError, err) if ls.finalError == nil { ls.IsFinished() } } func testWalkEmpty(t *testing.T) *listDirs { return newListDirs(t, nil, false, listResults{ "": {entries: fs.DirEntries{}, err: nil}, }, errorMap{ "": nil, }, nil, ) } func TestWalkEmpty(t *testing.T) { testWalkEmpty(t).Walk() } func TestWalkREmpty(t *testing.T) { testWalkEmpty(t).WalkR() } func testWalkEmptySkip(t *testing.T) *listDirs { return newListDirs(t, nil, true, listResults{ "": {entries: fs.DirEntries{}, err: nil}, }, errorMap{ "": ErrorSkipDir, }, nil, ) } func TestWalkEmptySkip(t *testing.T) { testWalkEmptySkip(t).Walk() } func TestWalkREmptySkip(t *testing.T) { testWalkEmptySkip(t).WalkR() } func testWalkNotFound(t *testing.T) *listDirs { return newListDirs(t, nil, true, listResults{ "": {err: errDirNotFound}, }, errorMap{ "": errDirNotFound, }, errDirNotFound, ) } func TestWalkNotFound(t *testing.T) { testWalkNotFound(t).Walk() } func TestWalkRNotFound(t *testing.T) { testWalkNotFound(t).WalkR() } func TestWalkNotFoundMaskError(t *testing.T) { // this doesn't work for WalkR newListDirs(t, nil, true, listResults{ "": {err: errDirNotFound}, }, errorMap{ "": nil, }, nil, ).Walk() } func TestWalkNotFoundSkipError(t *testing.T) { // this doesn't work for WalkR newListDirs(t, nil, true, listResults{ "": {err: errDirNotFound}, }, errorMap{ "": ErrorSkipDir, }, nil, ).Walk() } func testWalkLevels(t *testing.T, maxLevel int) *listDirs { da := mockdir.New("a") oA := mockobject.Object("A") db := mockdir.New("a/b") oB := mockobject.Object("a/B") dc := mockdir.New("a/b/c") oC := mockobject.Object("a/b/C") dd := mockdir.New("a/b/c/d") oD := mockobject.Object("a/b/c/D") return newListDirs(t, nil, false, listResults{ "": {entries: fs.DirEntries{oA, da}, err: nil}, "a": {entries: fs.DirEntries{oB, db}, err: nil}, "a/b": {entries: fs.DirEntries{oC, dc}, err: nil}, "a/b/c": {entries: fs.DirEntries{oD, dd}, err: nil}, "a/b/c/d": {entries: fs.DirEntries{}, err: nil}, }, errorMap{ "": nil, "a": nil, "a/b": nil, "a/b/c": nil, "a/b/c/d": nil, }, nil, ).SetLevel(maxLevel) } func TestWalkLevels(t *testing.T) { testWalkLevels(t, -1).Walk() } func TestWalkRLevels(t *testing.T) { testWalkLevels(t, -1).WalkR() } func TestWalkLevelsNoRecursive10(t *testing.T) { testWalkLevels(t, 10).Walk() } func TestWalkRLevelsNoRecursive10(t *testing.T) { testWalkLevels(t, 10).WalkR() } func TestWalkNDirTree(t *testing.T) { ls := testWalkLevels(t, -1) entries, err := walkNDirTree(context.Background(), nil, "", ls.includeAll, ls.maxLevel, ls.ListDir) require.NoError(t, err) assert.Equal(t, `/ A a/ a/ B b/ a/b/ C c/ a/b/c/ D d/ a/b/c/d/ `, entries.String()) } func testWalkLevelsNoRecursive(t *testing.T) *listDirs { da := mockdir.New("a") oA := mockobject.Object("A") return newListDirs(t, nil, false, listResults{ "": {entries: fs.DirEntries{oA, da}, err: nil}, }, errorMap{ "": nil, }, nil, ).SetLevel(1) } func TestWalkLevelsNoRecursive(t *testing.T) { testWalkLevelsNoRecursive(t).Walk() } func TestWalkRLevelsNoRecursive(t *testing.T) { testWalkLevelsNoRecursive(t).WalkR() } func testWalkLevels2(t *testing.T) *listDirs { da := mockdir.New("a") oA := mockobject.Object("A") db := mockdir.New("a/b") oB := mockobject.Object("a/B") return newListDirs(t, nil, false, listResults{ "": {entries: fs.DirEntries{oA, da}, err: nil}, "a": {entries: fs.DirEntries{oB, db}, err: nil}, }, errorMap{ "": nil, "a": nil, }, nil, ).SetLevel(2) } func TestWalkLevels2(t *testing.T) { testWalkLevels2(t).Walk() } func TestWalkRLevels2(t *testing.T) { testWalkLevels2(t).WalkR() } func testWalkSkip(t *testing.T) *listDirs { da := mockdir.New("a") db := mockdir.New("a/b") dc := mockdir.New("a/b/c") return newListDirs(t, nil, false, listResults{ "": {entries: fs.DirEntries{da}, err: nil}, "a": {entries: fs.DirEntries{db}, err: nil}, "a/b": {entries: fs.DirEntries{dc}, err: nil}, }, errorMap{ "": nil, "a": nil, "a/b": ErrorSkipDir, }, nil, ) } func TestWalkSkip(t *testing.T) { testWalkSkip(t).Walk() } func TestWalkRSkip(t *testing.T) { testWalkSkip(t).WalkR() } func walkErrors(t *testing.T, expectedErr error) *listDirs { lr := listResults{} em := errorMap{} de := make(fs.DirEntries, 10) for i := range de { path := string('0' + rune(i)) de[i] = mockdir.New(path) lr[path] = listResult{entries: nil, err: fs.ErrorDirNotFound} em[path] = fs.ErrorDirNotFound } lr[""] = listResult{entries: de, err: nil} em[""] = nil return newListDirs(t, nil, true, lr, em, expectedErr, ).NoCheckMaps() } func testWalkErrors(t *testing.T) *listDirs { return walkErrors(t, errDirNotFound) } func testWalkRErrors(t *testing.T) *listDirs { return walkErrors(t, fs.ErrorDirNotFound) } func TestWalkErrors(t *testing.T) { testWalkErrors(t).Walk() } func TestWalkRErrors(t *testing.T) { testWalkRErrors(t).WalkR() } func makeTree(level int, terminalErrors bool) (listResults, errorMap) { lr := listResults{} em := errorMap{} var fill func(path string, level int) fill = func(path string, level int) { de := fs.DirEntries{} if level > 0 { for _, a := range "0123456789" { subPath := string(a) if path != "" { subPath = path + "/" + subPath } de = append(de, mockdir.New(subPath)) fill(subPath, level-1) } } lr[path] = listResult{entries: de, err: nil} em[path] = nil if level == 0 && terminalErrors { em[path] = errorBoom } } fill("", level) return lr, em } func testWalkMulti(t *testing.T) *listDirs { lr, em := makeTree(3, false) return newListDirs(t, nil, true, lr, em, nil, ) } func TestWalkMulti(t *testing.T) { testWalkMulti(t).Walk() } func TestWalkRMulti(t *testing.T) { testWalkMulti(t).WalkR() } func testWalkMultiErrors(t *testing.T) *listDirs { lr, em := makeTree(3, true) return newListDirs(t, nil, true, lr, em, errorBoom, ).NoCheckMaps() } func TestWalkMultiErrors(t *testing.T) { testWalkMultiErrors(t).Walk() } func TestWalkRMultiErrors(t *testing.T) { testWalkMultiErrors(t).Walk() } // a very simple listRcallback function func makeListRCallback(entries fs.DirEntries, err error) fs.ListRFn { return func(ctx context.Context, dir string, callback fs.ListRCallback) error { if err == nil { err = callback(entries) } return err } } func TestWalkRDirTree(t *testing.T) { for _, test := range []struct { entries fs.DirEntries want string err error root string level int exclude string }{ { entries: fs.DirEntries{}, want: "/\n", level: -1, }, { entries: fs.DirEntries{mockobject.Object("a")}, want: `/ a `, level: -1, }, { entries: fs.DirEntries{mockobject.Object("a/b")}, want: `/ a/ a/ b `, level: -1, }, { entries: fs.DirEntries{mockobject.Object("a/b/c/d")}, want: `/ a/ a/ b/ a/b/ c/ a/b/c/ d `, level: -1, }, { entries: fs.DirEntries{mockobject.Object("a")}, err: errorBoom, level: -1, }, { entries: fs.DirEntries{ mockobject.Object("0/1/2/3"), mockobject.Object("4/5/6/7"), mockobject.Object("8/9/a/b"), mockobject.Object("c/d/e/f"), mockobject.Object("g/h/i/j"), mockobject.Object("k/l/m/n"), mockobject.Object("o/p/q/r"), mockobject.Object("s/t/u/v"), mockobject.Object("w/x/y/z"), }, want: `/ 0/ 4/ 8/ c/ g/ k/ o/ s/ w/ 0/ 1/ 0/1/ 2/ 0/1/2/ 3 4/ 5/ 4/5/ 6/ 4/5/6/ 7 8/ 9/ 8/9/ a/ 8/9/a/ b c/ d/ c/d/ e/ c/d/e/ f g/ h/ g/h/ i/ g/h/i/ j k/ l/ k/l/ m/ k/l/m/ n o/ p/ o/p/ q/ o/p/q/ r s/ t/ s/t/ u/ s/t/u/ v w/ x/ w/x/ y/ w/x/y/ z `, level: -1, }, { entries: fs.DirEntries{ mockobject.Object("a/b/c/d/e/f1"), mockobject.Object("a/b/c/d/e/f2"), mockobject.Object("a/b/c/d/e/f3"), }, want: `a/b/c/ d/ a/b/c/d/ e/ a/b/c/d/e/ f1 f2 f3 `, root: "a/b/c", level: -1, }, { entries: fs.DirEntries{ mockobject.Object("A"), mockobject.Object("a/B"), mockobject.Object("a/b/C"), mockobject.Object("a/b/c/D"), mockobject.Object("a/b/c/d/E"), }, want: `/ A a/ a/ B b/ a/b/ `, level: 2, }, { entries: fs.DirEntries{ mockobject.Object("a/b/c"), mockobject.Object("a/b/c/d/e"), }, want: `/ a/ a/ b/ a/b/ `, level: 2, }, { entries: fs.DirEntries{ mockobject.Object("a/.bzEmpty"), mockobject.Object("a/b1/.bzEmpty"), mockobject.Object("a/b2/.bzEmpty"), }, want: `/ a/ a/ .bzEmpty b1/ b2/ a/b1/ .bzEmpty a/b2/ .bzEmpty `, level: -1, exclude: ""}, { entries: fs.DirEntries{ mockobject.Object("a/.bzEmpty"), mockobject.Object("a/b1/.bzEmpty"), mockobject.Object("a/b2/.bzEmpty"), }, want: `/ a/ a/ b1/ b2/ a/b1/ a/b2/ `, level: -1, exclude: ".bzEmpty", }, } { ctx := context.Background() if test.exclude != "" { fi, err := filter.NewFilter(nil) require.NoError(t, err) require.NoError(t, fi.Add(false, test.exclude)) // Change the active filter ctx = filter.ReplaceConfig(ctx, fi) } r, err := walkRDirTree(ctx, nil, test.root, test.exclude == "", test.level, makeListRCallback(test.entries, test.err)) what := fmt.Sprintf("%+v", test) assert.Equal(t, test.err, err, what) assert.Equal(t, test.want, r.String(), what) } } func TestWalkRDirTreeExclude(t *testing.T) { ctx := context.Background() fi := filter.GetConfig(ctx) for _, test := range []struct { entries fs.DirEntries want string err error root string level int excludeFile string includeAll bool }{ {fs.DirEntries{mockobject.Object("a"), mockobject.Object("ignore")}, "", nil, "", -1, "ignore", false}, {fs.DirEntries{mockobject.Object("a")}, `/ a `, nil, "", -1, "ignore", false}, {fs.DirEntries{ mockobject.Object("a"), mockobject.Object("b/b"), mockobject.Object("b/.ignore"), }, `/ a `, nil, "", -1, ".ignore", false}, {fs.DirEntries{ mockobject.Object("a"), mockobject.Object("b/.ignore"), mockobject.Object("b/b"), }, `/ a b/ b/ .ignore b `, nil, "", -1, ".ignore", true}, {fs.DirEntries{ mockobject.Object("a"), mockobject.Object("b/b"), mockobject.Object("b/c/d/e"), mockobject.Object("b/c/ign"), mockobject.Object("b/c/x"), }, `/ a b/ b/ b `, nil, "", -1, "ign", false}, {fs.DirEntries{ mockobject.Object("a"), mockobject.Object("b/b"), mockobject.Object("b/c/d/e"), mockobject.Object("b/c/ign"), mockobject.Object("b/c/x"), }, `/ a b/ b/ b c/ b/c/ d/ ign x b/c/d/ e `, nil, "", -1, "ign", true}, } { fi.Opt.ExcludeFile = test.excludeFile r, err := walkRDirTree(context.Background(), nil, test.root, test.includeAll, test.level, makeListRCallback(test.entries, test.err)) assert.Equal(t, test.err, err, fmt.Sprintf("%+v", test)) assert.Equal(t, test.want, r.String(), fmt.Sprintf("%+v", test)) } // Set to default value, to avoid side effects fi.Opt.ExcludeFile = "" } func TestListType(t *testing.T) { assert.Equal(t, true, ListObjects.Objects()) assert.Equal(t, false, ListObjects.Dirs()) assert.Equal(t, false, ListDirs.Objects()) assert.Equal(t, true, ListDirs.Dirs()) assert.Equal(t, true, ListAll.Objects()) assert.Equal(t, true, ListAll.Dirs()) var ( a = mockobject.Object("a") b = mockobject.Object("b") dir = mockdir.New("dir") adir = mockobject.Object("dir/a") dir2 = mockdir.New("dir2") origEntries = fs.DirEntries{ a, b, dir, adir, dir2, } dirEntries = fs.DirEntries{ dir, dir2, } objEntries = fs.DirEntries{ a, b, adir, } ) copyOrigEntries := func() (out fs.DirEntries) { out = make(fs.DirEntries, len(origEntries)) copy(out, origEntries) return out } got := copyOrigEntries() ListAll.Filter(&got) assert.Equal(t, origEntries, got) got = copyOrigEntries() ListObjects.Filter(&got) assert.Equal(t, objEntries, got) got = copyOrigEntries() ListDirs.Filter(&got) assert.Equal(t, dirEntries, got) } func TestListR(t *testing.T) { ctx := context.Background() objects := fs.DirEntries{ mockobject.Object("a"), mockobject.Object("b"), mockdir.New("dir"), mockobject.Object("dir/a"), mockobject.Object("dir/b"), mockobject.Object("dir/c"), } f := mockfs.NewFs(ctx, "mock", "/") var got []string clearCallback := func() { got = nil } callback := func(entries fs.DirEntries) error { for _, entry := range entries { got = append(got, entry.Remote()) } return nil } doListR := func(ctx context.Context, dir string, callback fs.ListRCallback) error { var os fs.DirEntries for _, o := range objects { if dir == "" || strings.HasPrefix(o.Remote(), dir+"/") { os = append(os, o) } } return callback(os) } fi, err := filter.NewFilter(nil) require.NoError(t, err) require.NoError(t, fi.AddRule("+ b")) require.NoError(t, fi.AddRule("- *")) // Change the active filter ctx = filter.ReplaceConfig(ctx, fi) // Base case clearCallback() err = listR(ctx, f, "", true, ListAll, callback, doListR, false) require.NoError(t, err) require.Equal(t, []string{"a", "b", "dir", "dir/a", "dir/b", "dir/c"}, got) // Base case - with Objects clearCallback() err = listR(ctx, f, "", true, ListObjects, callback, doListR, false) require.NoError(t, err) require.Equal(t, []string{"a", "b", "dir/a", "dir/b", "dir/c"}, got) // Base case - with Dirs clearCallback() err = listR(ctx, f, "", true, ListDirs, callback, doListR, false) require.NoError(t, err) require.Equal(t, []string{"dir"}, got) // With filter clearCallback() err = listR(ctx, f, "", false, ListAll, callback, doListR, false) require.NoError(t, err) require.Equal(t, []string{"b", "dir", "dir/b"}, got) // With filter - with Objects clearCallback() err = listR(ctx, f, "", false, ListObjects, callback, doListR, false) require.NoError(t, err) require.Equal(t, []string{"b", "dir/b"}, got) // With filter - with Dir clearCallback() err = listR(ctx, f, "", false, ListDirs, callback, doListR, false) require.NoError(t, err) require.Equal(t, []string{"dir"}, got) // With filter and subdir clearCallback() err = listR(ctx, f, "dir", false, ListAll, callback, doListR, false) require.NoError(t, err) require.Equal(t, []string{"dir/b"}, got) // Now bucket-based objects = fs.DirEntries{ mockobject.Object("a"), mockobject.Object("b"), mockobject.Object("dir/a"), mockobject.Object("dir/b"), mockobject.Object("dir/subdir/c"), mockdir.New("dir/subdir"), } // Base case clearCallback() err = listR(ctx, f, "", true, ListAll, callback, doListR, true) require.NoError(t, err) require.Equal(t, []string{"a", "b", "dir/a", "dir/b", "dir/subdir/c", "dir/subdir", "dir"}, got) // With filter clearCallback() err = listR(ctx, f, "", false, ListAll, callback, doListR, true) require.NoError(t, err) require.Equal(t, []string{"b", "dir/b", "dir/subdir", "dir"}, got) // With filter and subdir clearCallback() err = listR(ctx, f, "dir", false, ListAll, callback, doListR, true) require.NoError(t, err) require.Equal(t, []string{"dir/b", "dir/subdir"}, got) // With filter and subdir - with Objects clearCallback() err = listR(ctx, f, "dir", false, ListObjects, callback, doListR, true) require.NoError(t, err) require.Equal(t, []string{"dir/b"}, got) // With filter and subdir - with Dirs clearCallback() err = listR(ctx, f, "dir", false, ListDirs, callback, doListR, true) require.NoError(t, err) require.Equal(t, []string{"dir/subdir"}, got) } func TestDirMapAdd(t *testing.T) { type add struct { dir string sent bool } for i, test := range []struct { root string in []add want map[string]bool }{ { root: "", in: []add{ {"", true}, }, want: map[string]bool{}, }, { root: "", in: []add{ {"a/b/c", true}, }, want: map[string]bool{ "a/b/c": true, "a/b": false, "a": false, }, }, { root: "", in: []add{ {"a/b/c", true}, {"a/b", true}, }, want: map[string]bool{ "a/b/c": true, "a/b": true, "a": false, }, }, { root: "", in: []add{ {"a/b", true}, {"a/b/c", false}, }, want: map[string]bool{ "a/b/c": false, "a/b": true, "a": false, }, }, { root: "root", in: []add{ {"root/a/b", true}, {"root/a/b/c", false}, }, want: map[string]bool{ "root/a/b/c": false, "root/a/b": true, "root/a": false, }, }, } { t.Run(fmt.Sprintf("%d", i), func(t *testing.T) { dm := newDirMap(test.root) for _, item := range test.in { dm.add(item.dir, item.sent) } assert.Equal(t, test.want, dm.m) }) } } func TestDirMapAddEntries(t *testing.T) { dm := newDirMap("") entries := fs.DirEntries{ mockobject.Object("dir/a"), mockobject.Object("dir/b"), mockdir.New("dir"), mockobject.Object("dir2/a"), mockobject.Object("dir2/b"), } require.NoError(t, dm.addEntries(entries)) assert.Equal(t, map[string]bool{"dir": true, "dir2": false}, dm.m) } func TestDirMapSendEntries(t *testing.T) { var got []string clearCallback := func() { got = nil } callback := func(entries fs.DirEntries) error { for _, entry := range entries { got = append(got, entry.Remote()) } return nil } // general test dm := newDirMap("") entries := fs.DirEntries{ mockobject.Object("dir/a"), mockobject.Object("dir/b"), mockdir.New("dir"), mockobject.Object("dir2/a"), mockobject.Object("dir2/b"), mockobject.Object("dir1/a"), mockobject.Object("dir3/b"), } require.NoError(t, dm.addEntries(entries)) clearCallback() err := dm.sendEntries(callback) require.NoError(t, err) assert.Equal(t, []string{ "dir1", "dir2", "dir3", }, got) // return error from callback callback2 := func(entries fs.DirEntries) error { return io.EOF } err = dm.sendEntries(callback2) require.Equal(t, io.EOF, err) // empty dm = newDirMap("") clearCallback() err = dm.sendEntries(callback) require.NoError(t, err) assert.Equal(t, []string(nil), got) }