package rootfs import ( "archive/tar" "bytes" "compress/gzip" "encoding/json" "errors" "fmt" "io" "io/ioutil" "path/filepath" "strings" ) const ( _manifestJSON = "manifest.json" _tarSuffix = ".tar" _whReaddir = ".wh..wh..opq" _whPrefix = ".wh." ) var ( errBadManifest = errors.New("bad manifest.json") ) type ( dockerManifestJSON []struct { Layers []string `json:"Layers"` } nameOffset struct { name string offset int64 } ) // Flatten flattens a docker image to a tarball. The underlying io.Writer // should be an open file handle, which the caller is responsible for closing // themselves func Flatten(rd io.ReadSeeker, w io.Writer) (err error) { tr := tar.NewReader(rd) var closer func() error // layerOffsets maps a layer name (a9b123c0daa/layer.tar) to it's offset layerOffsets := map[string]int64{} // manifest is the docker manifest in the image var manifest dockerManifestJSON // get layer offsets and manifest.json for { hdr, err := tr.Next() if err == io.EOF { break } if hdr.Typeflag != tar.TypeReg { continue } switch { case filepath.Clean(hdr.Name) == _manifestJSON: dec := json.NewDecoder(tr) if err := dec.Decode(&manifest); err != nil { return fmt.Errorf("decode %s: %w", _manifestJSON, err) } case strings.HasSuffix(hdr.Name, _tarSuffix): here, err := rd.Seek(0, io.SeekCurrent) if err != nil { return err } layerOffsets[hdr.Name] = here } } if err := validateManifest(layerOffsets, manifest); err != nil { return err } // enumerate layers the way they would be laid down in the image layers := make([]nameOffset, len(layerOffsets)) for i, name := range manifest[0].Layers { layers[i] = nameOffset{ name: name, offset: layerOffsets[name], } } // file2layer maps a filename to layer number (index in "layers") file2layer := map[string]int{} // whreaddir maps `wh..wh..opq` file to a layer; see doc.go whreaddir := map[string]int{} // wh maps a filename to a layer until which it should be ignored, // inclusively; see doc.go wh := map[string]int{} // iterate over all files, construct `file2layer`, `whreaddir`, `wh` for i, no := range layers { if _, err := rd.Seek(no.offset, io.SeekStart); err != nil { return err } tr, closer = openTargz(rd) for { hdr, err := tr.Next() if err == io.EOF { break } if err != nil { return fmt.Errorf("decode %s: %w", no.name, err) } if hdr.Typeflag == tar.TypeDir { continue } // according to aufs documentation, whiteout files should be // hardlinks. I saw at least one docker container using regular // files for whiteouts. if hdr.Typeflag == tar.TypeLink || hdr.Typeflag == tar.TypeReg { basename := filepath.Base(hdr.Name) basedir := filepath.Dir(hdr.Name) if basename == _whReaddir { whreaddir[basedir] = i continue } else if strings.HasPrefix(basename, _whPrefix) { fname := strings.TrimPrefix(basename, _whPrefix) wh[filepath.Join(basedir, fname)] = i continue } } file2layer[hdr.Name] = i } if err := closer(); err != nil { return err } } // construct directories to whiteout, for each layer. whIgnore := whiteoutDirs(whreaddir, len(layers)) tw := tar.NewWriter(w) defer func() { // Avoiding use of multierr: if error is present, return // that. Otherwise return whatever `Close` returns. err1 := tw.Close() if err == nil { err = err1 } }() // iterate through all layers, all files, and write files. for i, no := range layers { if _, err := rd.Seek(no.offset, io.SeekStart); err != nil { return err } tr, closer = openTargz(rd) for { hdr, err := tr.Next() if err == io.EOF { break } if err != nil { return fmt.Errorf("decode %s: %w", no.name, err) } if layer, ok := wh[hdr.Name]; ok && layer >= i { continue } if whIgnore[i].HasPrefix(hdr.Name) { continue } if hdr.Typeflag != tar.TypeDir && file2layer[hdr.Name] != i { continue } if err := writeFile(tr, tw, hdr); err != nil { return err } } if err := closer(); err != nil { return err } } return nil } func writeFile(tr *tar.Reader, tw *tar.Writer, hdr *tar.Header) error { hdrOut := &tar.Header{ Typeflag: hdr.Typeflag, Name: hdr.Name, Linkname: hdr.Linkname, Size: hdr.Size, Mode: int64(hdr.Mode & 0777), Uid: hdr.Uid, Gid: hdr.Gid, Uname: hdr.Uname, Gname: hdr.Gname, ModTime: hdr.ModTime, Devmajor: hdr.Devmajor, Devminor: hdr.Devminor, Format: tar.FormatGNU, } if err := tw.WriteHeader(hdrOut); err != nil { return err } if hdr.Typeflag == tar.TypeReg { if _, err := io.Copy(tw, tr); err != nil { return err } } return nil } func whiteoutDirs(whreaddir map[string]int, nlayers int) []*tree { ret := make([]*tree, nlayers) for i := range ret { ret[i] = newTree() } for fname, layer := range whreaddir { if layer == 0 { continue } ret[layer-1].Add(fname) } for i := nlayers - 1; i > 0; i-- { ret[i-1].Merge(ret[i]) } return ret } // validateManifest func validateManifest( layerOffsets map[string]int64, manifest dockerManifestJSON, ) error { if len(manifest) == 0 { return fmt.Errorf("empty or missing manifest") } for _, layer := range manifest[0].Layers { if _, ok := layerOffsets[layer]; !ok { return fmt.Errorf("%s defined in manifest, missing in tarball", layer) } } return nil } // openTargz creates a tar reader from a targzip or tar. // // It will try to open a gzip stream, and, if that fails, silently fall back to // tar. I will accept a cleaner implementation looking at magic values. func openTargz(r io.Reader) (*tar.Reader, func() error) { hdrbuf := &bytes.Buffer{} hdrw := &proxyWriter{w: hdrbuf} gz, err := gzip.NewReader(io.TeeReader(r, hdrw)) if err == nil { hdrw.w = ioutil.Discard hdrbuf = nil return tar.NewReader(gz), gz.Close } return tar.NewReader(io.MultiReader(hdrbuf, r)), func() error { return nil } } // proxyWriter is a pass-through writer. Its underlying writer can be changed // on-the-fly. Useful when there is a stream that needs to be discarded (change // the underlying writer to, say, ioutil.Discard). type proxyWriter struct { w io.Writer } // Write writes a slice to the underlying w. func (pw *proxyWriter) Write(p []byte) (int, error) { return pw.w.Write(p) }