package main import ( "context" "encoding/json" "fmt" "io" "os" "strings" "time" "github.com/spf13/cobra" "github.com/restic/restic/internal/errors" "github.com/restic/restic/internal/fs" "github.com/restic/restic/internal/restic" "github.com/restic/restic/internal/walker" ) var cmdLs = &cobra.Command{ Use: "ls [flags] snapshotID [dir...]", Short: "List files in a snapshot", Long: ` The "ls" command lists files and directories in a snapshot. The special snapshot ID "latest" can be used to list files and directories of the latest snapshot in the repository. The --host flag can be used in conjunction to select the latest snapshot originating from a certain host only. File listings can optionally be filtered by directories. Any positional arguments after the snapshot ID are interpreted as absolute directory paths, and only files inside those directories will be listed. If the --recursive flag is used, then the filter will allow traversing into matching directories' subfolders. Any directory paths specified must be absolute (starting with a path separator); paths use the forward slash '/' as separator. EXIT STATUS =========== Exit status is 0 if the command was successful, and non-zero if there was any error. `, DisableAutoGenTag: true, RunE: func(cmd *cobra.Command, args []string) error { return runLs(cmd.Context(), lsOptions, globalOptions, args) }, } // LsOptions collects all options for the ls command. type LsOptions struct { ListLong bool restic.SnapshotFilter Recursive bool HumanReadable bool Ncdu bool } var lsOptions LsOptions func init() { cmdRoot.AddCommand(cmdLs) flags := cmdLs.Flags() initSingleSnapshotFilter(flags, &lsOptions.SnapshotFilter) flags.BoolVarP(&lsOptions.ListLong, "long", "l", false, "use a long listing format showing size and mode") flags.BoolVar(&lsOptions.Recursive, "recursive", false, "include files in subfolders of the listed directories") flags.BoolVar(&lsOptions.HumanReadable, "human-readable", false, "print sizes in human readable format") flags.BoolVar(&lsOptions.Ncdu, "ncdu", false, "output NCDU export format (pipe into 'ncdu -f -')") } type lsPrinter interface { Snapshot(sn *restic.Snapshot) Node(path string, node *restic.Node) LeaveDir(path string) Close() } type jsonLsPrinter struct { enc *json.Encoder } func (p *jsonLsPrinter) Snapshot(sn *restic.Snapshot) { type lsSnapshot struct { *restic.Snapshot ID *restic.ID `json:"id"` ShortID string `json:"short_id"` MessageType string `json:"message_type"` // "snapshot" StructType string `json:"struct_type"` // "snapshot", deprecated } err := p.enc.Encode(lsSnapshot{ Snapshot: sn, ID: sn.ID(), ShortID: sn.ID().Str(), MessageType: "snapshot", StructType: "snapshot", }) if err != nil { Warnf("JSON encode failed: %v\n", err) } } // Print node in our custom JSON format, followed by a newline. func (p *jsonLsPrinter) Node(path string, node *restic.Node) { err := lsNodeJSON(p.enc, path, node) if err != nil { Warnf("JSON encode failed: %v\n", err) } } func lsNodeJSON(enc *json.Encoder, path string, node *restic.Node) error { n := &struct { Name string `json:"name"` Type string `json:"type"` Path string `json:"path"` UID uint32 `json:"uid"` GID uint32 `json:"gid"` Size *uint64 `json:"size,omitempty"` Mode os.FileMode `json:"mode,omitempty"` Permissions string `json:"permissions,omitempty"` ModTime time.Time `json:"mtime,omitempty"` AccessTime time.Time `json:"atime,omitempty"` ChangeTime time.Time `json:"ctime,omitempty"` Inode uint64 `json:"inode,omitempty"` MessageType string `json:"message_type"` // "node" StructType string `json:"struct_type"` // "node", deprecated size uint64 // Target for Size pointer. }{ Name: node.Name, Type: node.Type, Path: path, UID: node.UID, GID: node.GID, size: node.Size, Mode: node.Mode, Permissions: node.Mode.String(), ModTime: node.ModTime, AccessTime: node.AccessTime, ChangeTime: node.ChangeTime, Inode: node.Inode, MessageType: "node", StructType: "node", } // Always print size for regular files, even when empty, // but never for other types. if node.Type == "file" { n.Size = &n.size } return enc.Encode(n) } func (p *jsonLsPrinter) LeaveDir(_ string) {} func (p *jsonLsPrinter) Close() {} type ncduLsPrinter struct { out io.Writer depth int } // lsSnapshotNcdu prints a restic snapshot in Ncdu save format. // It opens the JSON list. Nodes are added with lsNodeNcdu and the list is closed by lsCloseNcdu. // Format documentation: https://dev.yorhel.nl/ncdu/jsonfmt func (p *ncduLsPrinter) Snapshot(sn *restic.Snapshot) { const NcduMajorVer = 1 const NcduMinorVer = 2 snapshotBytes, err := json.Marshal(sn) if err != nil { Warnf("JSON encode failed: %v\n", err) } p.depth++ fmt.Fprintf(p.out, "[%d, %d, %s", NcduMajorVer, NcduMinorVer, string(snapshotBytes)) } func lsNcduNode(_ string, node *restic.Node) ([]byte, error) { type NcduNode struct { Name string `json:"name"` Asize uint64 `json:"asize"` Dsize uint64 `json:"dsize"` Dev uint64 `json:"dev"` Ino uint64 `json:"ino"` NLink uint64 `json:"nlink"` NotReg bool `json:"notreg"` UID uint32 `json:"uid"` GID uint32 `json:"gid"` Mode uint16 `json:"mode"` Mtime int64 `json:"mtime"` } outNode := NcduNode{ Name: node.Name, Asize: node.Size, Dsize: node.Size, Dev: node.DeviceID, Ino: node.Inode, NLink: node.Links, NotReg: node.Type != "dir" && node.Type != "file", UID: node.UID, GID: node.GID, Mode: uint16(node.Mode & os.ModePerm), Mtime: node.ModTime.Unix(), } // bits according to inode(7) manpage if node.Mode&os.ModeSetuid != 0 { outNode.Mode |= 0o4000 } if node.Mode&os.ModeSetgid != 0 { outNode.Mode |= 0o2000 } if node.Mode&os.ModeSticky != 0 { outNode.Mode |= 0o1000 } return json.Marshal(outNode) } func (p *ncduLsPrinter) Node(path string, node *restic.Node) { out, err := lsNcduNode(path, node) if err != nil { Warnf("JSON encode failed: %v\n", err) } if node.Type == "dir" { fmt.Fprintf(p.out, ",\n%s[\n%s%s", strings.Repeat(" ", p.depth), strings.Repeat(" ", p.depth+1), string(out)) p.depth++ } else { fmt.Fprintf(p.out, ",\n%s%s", strings.Repeat(" ", p.depth), string(out)) } } func (p *ncduLsPrinter) LeaveDir(_ string) { p.depth-- fmt.Fprintf(p.out, "\n%s]", strings.Repeat(" ", p.depth)) } func (p *ncduLsPrinter) Close() { fmt.Fprint(p.out, "\n]\n") } type textLsPrinter struct { dirs []string ListLong bool HumanReadable bool } func (p *textLsPrinter) Snapshot(sn *restic.Snapshot) { Verbosef("%v filtered by %v:\n", sn, p.dirs) } func (p *textLsPrinter) Node(path string, node *restic.Node) { Printf("%s\n", formatNode(path, node, p.ListLong, p.HumanReadable)) } func (p *textLsPrinter) LeaveDir(_ string) {} func (p *textLsPrinter) Close() {} func runLs(ctx context.Context, opts LsOptions, gopts GlobalOptions, args []string) error { if len(args) == 0 { return errors.Fatal("no snapshot ID specified, specify snapshot ID or use special ID 'latest'") } if opts.Ncdu && gopts.JSON { return errors.Fatal("only either '--json' or '--ncdu' can be specified") } // extract any specific directories to walk var dirs []string if len(args) > 1 { dirs = args[1:] for _, dir := range dirs { if !strings.HasPrefix(dir, "/") { return errors.Fatal("All path filters must be absolute, starting with a forward slash '/'") } } } withinDir := func(nodepath string) bool { if len(dirs) == 0 { return true } for _, dir := range dirs { // we're within one of the selected dirs, example: // nodepath: "/test/foo" // dir: "/test" if fs.HasPathPrefix(dir, nodepath) { return true } } return false } approachingMatchingTree := func(nodepath string) bool { if len(dirs) == 0 { return true } for _, dir := range dirs { // the current node path is a prefix for one of the // directories, so we're interested in something deeper in the // tree. Example: // nodepath: "/test" // dir: "/test/foo" if fs.HasPathPrefix(nodepath, dir) { return true } } return false } ctx, repo, unlock, err := openWithReadLock(ctx, gopts, gopts.NoLock) if err != nil { return err } defer unlock() snapshotLister, err := restic.MemorizeList(ctx, repo, restic.SnapshotFile) if err != nil { return err } bar := newIndexProgress(gopts.Quiet, gopts.JSON) if err = repo.LoadIndex(ctx, bar); err != nil { return err } var printer lsPrinter if gopts.JSON { printer = &jsonLsPrinter{ enc: json.NewEncoder(globalOptions.stdout), } } else if opts.Ncdu { printer = &ncduLsPrinter{ out: globalOptions.stdout, } } else { printer = &textLsPrinter{ dirs: dirs, ListLong: opts.ListLong, HumanReadable: opts.HumanReadable, } } sn, subfolder, err := (&restic.SnapshotFilter{ Hosts: opts.Hosts, Paths: opts.Paths, Tags: opts.Tags, }).FindLatest(ctx, snapshotLister, repo, args[0]) if err != nil { return err } sn.Tree, err = restic.FindTreeDirectory(ctx, repo, sn.Tree, subfolder) if err != nil { return err } printer.Snapshot(sn) processNode := func(_ restic.ID, nodepath string, node *restic.Node, err error) error { if err != nil { return err } if node == nil { return nil } if withinDir(nodepath) { // if we're within a dir, print the node printer.Node(nodepath, node) // if recursive listing is requested, signal the walker that it // should continue walking recursively if opts.Recursive { return nil } } // if there's an upcoming match deeper in the tree (but we're not // there yet), signal the walker to descend into any subdirs if approachingMatchingTree(nodepath) { return nil } // otherwise, signal the walker to not walk recursively into any // subdirs if node.Type == "dir" { return walker.ErrSkipNode } return nil } err = walker.Walk(ctx, repo, *sn.Tree, walker.WalkVisitor{ ProcessNode: processNode, LeaveDir: func(path string) { // the root path `/` has no corresponding node and is thus also skipped by processNode if withinDir(path) && path != "/" { printer.LeaveDir(path) } }, }) if err != nil { return err } printer.Close() return nil }