package walker import ( "context" "encoding/json" "fmt" "testing" "github.com/pkg/errors" "github.com/restic/restic/internal/restic" ) // TestTree is used to construct a list of trees for testing the walker. type TestTree map[string]interface{} // TestNode is used to test the walker. type TestFile struct{} func BuildTreeMap(tree TestTree) (m TreeMap, root restic.ID) { m = TreeMap{} id := buildTreeMap(tree, m) return m, id } func buildTreeMap(tree TestTree, m TreeMap) restic.ID { res := restic.NewTree() for name, item := range tree { switch elem := item.(type) { case TestFile: res.Insert(&restic.Node{ Name: name, Type: "file", }) case TestTree: id := buildTreeMap(elem, m) res.Insert(&restic.Node{ Name: name, Subtree: &id, Type: "dir", }) default: panic(fmt.Sprintf("invalid type %T", elem)) } } buf, err := json.Marshal(res) if err != nil { panic(err) } id := restic.Hash(buf) if _, ok := m[id]; !ok { m[id] = res } return id } // TreeMap returns the trees from the map on LoadTree. type TreeMap map[restic.ID]*restic.Tree func (t TreeMap) LoadTree(ctx context.Context, id restic.ID) (*restic.Tree, error) { tree, ok := t[id] if !ok { return nil, errors.New("tree not found") } return tree, nil } // checkFunc returns a function suitable for walking the tree to check // something, and a function which will check the final result. type checkFunc func(t testing.TB) (walker WalkFunc, final func(testing.TB)) // checkItemOrder ensures that the order of the 'path' arguments is the one passed in as 'want'. func checkItemOrder(want []string) checkFunc { pos := 0 return func(t testing.TB) (walker WalkFunc, final func(testing.TB)) { walker = func(path string, node *restic.Node, err error) (bool, error) { if err != nil { t.Errorf("error walking %v: %v", path, err) return false, err } if pos >= len(want) { t.Errorf("additional unexpected path found: %v", path) return false, nil } if path != want[pos] { t.Errorf("wrong path found, want %q, got %q", want[pos], path) } pos++ return false, nil } final = func(t testing.TB) { if pos != len(want) { t.Errorf("not enough items returned, want %d, got %d", len(want), pos) } } return walker, final } } // checkSkipFor returns SkipNode if path is in skipFor, it checks that the // paths the walk func is called for are exactly the ones in wantPaths. func checkSkipFor(skipFor map[string]struct{}, wantPaths []string) checkFunc { var pos int return func(t testing.TB) (walker WalkFunc, final func(testing.TB)) { walker = func(path string, node *restic.Node, err error) (bool, error) { if err != nil { t.Errorf("error walking %v: %v", path, err) return false, err } if pos >= len(wantPaths) { t.Errorf("additional unexpected path found: %v", path) return false, nil } if path != wantPaths[pos] { t.Errorf("wrong path found, want %q, got %q", wantPaths[pos], path) } pos++ if _, ok := skipFor[path]; ok { return false, SkipNode } return false, nil } final = func(t testing.TB) { if pos != len(wantPaths) { t.Errorf("wrong number of paths returned, want %d, got %d", len(wantPaths), pos) } } return walker, final } } // checkIgnore returns SkipNode if path is in skipFor and sets ignore according // to ignoreFor. It checks that the paths the walk func is called for are exactly // the ones in wantPaths. func checkIgnore(skipFor map[string]struct{}, ignoreFor map[string]bool, wantPaths []string) checkFunc { var pos int return func(t testing.TB) (walker WalkFunc, final func(testing.TB)) { walker = func(path string, node *restic.Node, err error) (bool, error) { if err != nil { t.Errorf("error walking %v: %v", path, err) return false, err } if pos >= len(wantPaths) { t.Errorf("additional unexpected path found: %v", path) return ignoreFor[path], nil } if path != wantPaths[pos] { t.Errorf("wrong path found, want %q, got %q", wantPaths[pos], path) } pos++ if _, ok := skipFor[path]; ok { return ignoreFor[path], SkipNode } return ignoreFor[path], nil } final = func(t testing.TB) { if pos != len(wantPaths) { t.Errorf("wrong number of paths returned, want %d, got %d", len(wantPaths), pos) } } return walker, final } } func TestWalker(t *testing.T) { var tests = []struct { tree TestTree checks []checkFunc }{ { tree: TestTree{ "foo": TestFile{}, "subdir": TestTree{ "subfile": TestFile{}, }, }, checks: []checkFunc{ checkItemOrder([]string{ "/", "/foo", "/subdir", "/subdir/subfile", }), checkSkipFor( map[string]struct{}{ "/subdir": struct{}{}, }, []string{ "/", "/foo", "/subdir", }, ), checkIgnore( map[string]struct{}{}, map[string]bool{ "/subdir": true, }, []string{ "/", "/foo", "/subdir", "/subdir/subfile", }, ), }, }, { tree: TestTree{ "foo": TestFile{}, "subdir1": TestTree{ "subfile1": TestFile{}, }, "subdir2": TestTree{ "subfile2": TestFile{}, "subsubdir2": TestTree{ "subsubfile3": TestFile{}, }, }, }, checks: []checkFunc{ checkItemOrder([]string{ "/", "/foo", "/subdir1", "/subdir1/subfile1", "/subdir2", "/subdir2/subfile2", "/subdir2/subsubdir2", "/subdir2/subsubdir2/subsubfile3", }), checkSkipFor( map[string]struct{}{ "/subdir1": struct{}{}, }, []string{ "/", "/foo", "/subdir1", "/subdir2", "/subdir2/subfile2", "/subdir2/subsubdir2", "/subdir2/subsubdir2/subsubfile3", }, ), checkSkipFor( map[string]struct{}{ "/subdir1": struct{}{}, "/subdir2/subsubdir2": struct{}{}, }, []string{ "/", "/foo", "/subdir1", "/subdir2", "/subdir2/subfile2", "/subdir2/subsubdir2", }, ), checkSkipFor( map[string]struct{}{ "/foo": struct{}{}, }, []string{ "/", "/foo", }, ), }, }, { tree: TestTree{ "foo": TestFile{}, "subdir1": TestTree{ "subfile1": TestFile{}, "subfile2": TestFile{}, "subfile3": TestFile{}, }, "subdir2": TestTree{ "subfile1": TestFile{}, "subfile2": TestFile{}, "subfile3": TestFile{}, }, "subdir3": TestTree{ "subfile1": TestFile{}, "subfile2": TestFile{}, "subfile3": TestFile{}, }, "zzz other": TestFile{}, }, checks: []checkFunc{ checkItemOrder([]string{ "/", "/foo", "/subdir1", "/subdir1/subfile1", "/subdir1/subfile2", "/subdir1/subfile3", "/subdir2", "/subdir2/subfile1", "/subdir2/subfile2", "/subdir2/subfile3", "/subdir3", "/subdir3/subfile1", "/subdir3/subfile2", "/subdir3/subfile3", "/zzz other", }), checkIgnore( map[string]struct{}{ "/subdir1": struct{}{}, }, map[string]bool{ "/subdir1": true, }, []string{ "/", "/foo", "/subdir1", "/zzz other", }, ), checkIgnore( map[string]struct{}{}, map[string]bool{ "/subdir1": true, }, []string{ "/", "/foo", "/subdir1", "/subdir1/subfile1", "/subdir1/subfile2", "/subdir1/subfile3", "/zzz other", }, ), checkIgnore( map[string]struct{}{ "/subdir2": struct{}{}, }, map[string]bool{ "/subdir2": true, }, []string{ "/", "/foo", "/subdir1", "/subdir1/subfile1", "/subdir1/subfile2", "/subdir1/subfile3", "/subdir2", "/zzz other", }, ), checkIgnore( map[string]struct{}{}, map[string]bool{ "/subdir1/subfile1": true, "/subdir1/subfile2": true, "/subdir1/subfile3": true, }, []string{ "/", "/foo", "/subdir1", "/subdir1/subfile1", "/subdir1/subfile2", "/subdir1/subfile3", "/zzz other", }, ), checkIgnore( map[string]struct{}{}, map[string]bool{ "/subdir2/subfile1": true, "/subdir2/subfile2": true, "/subdir2/subfile3": true, }, []string{ "/", "/foo", "/subdir1", "/subdir1/subfile1", "/subdir1/subfile2", "/subdir1/subfile3", "/subdir2", "/subdir2/subfile1", "/subdir2/subfile2", "/subdir2/subfile3", "/zzz other", }, ), }, }, } for _, test := range tests { t.Run("", func(t *testing.T) { repo, root := BuildTreeMap(test.tree) for _, check := range test.checks { t.Run("", func(t *testing.T) { ctx, cancel := context.WithCancel(context.TODO()) defer cancel() fn, last := check(t) err := Walk(ctx, repo, root, restic.NewIDSet(), fn) if err != nil { t.Error(err) } last(t) }) } }) } }