package tarfile import ( "archive/tar" "bytes" "encoding/json" "io" "io/ioutil" "os" "path" "github.com/containers/image/manifest" "github.com/containers/image/pkg/compression" "github.com/containers/image/types" "github.com/opencontainers/go-digest" "github.com/pkg/errors" ) // Source is a partial implementation of types.ImageSource for reading from tarPath. type Source struct { tarPath string // The following data is only available after ensureCachedDataIsPresent() succeeds tarManifest *ManifestItem // nil if not available yet. configBytes []byte configDigest digest.Digest orderedDiffIDList []diffID knownLayers map[diffID]*layerInfo // Other state generatedManifest []byte // Private cache for GetManifest(), nil if not set yet. } type layerInfo struct { path string size int64 } // NewSource returns a tarfile.Source for the specified path. func NewSource(path string) *Source { // TODO: We could add support for multiple images in a single archive, so // that people could use docker-archive:opensuse.tar:opensuse:leap as // the source of an image. return &Source{ tarPath: path, } } // tarReadCloser is a way to close the backing file of a tar.Reader when the user no longer needs the tar component. type tarReadCloser struct { *tar.Reader backingFile *os.File } func (t *tarReadCloser) Close() error { return t.backingFile.Close() } // openTarComponent returns a ReadCloser for the specific file within the archive. // This is linear scan; we assume that the tar file will have a fairly small amount of files (~layers), // and that filesystem caching will make the repeated seeking over the (uncompressed) tarPath cheap enough. // The caller should call .Close() on the returned stream. func (s *Source) openTarComponent(componentPath string) (io.ReadCloser, error) { f, err := os.Open(s.tarPath) if err != nil { return nil, err } succeeded := false defer func() { if !succeeded { f.Close() } }() tarReader, header, err := findTarComponent(f, componentPath) if err != nil { return nil, err } if header == nil { return nil, os.ErrNotExist } if header.FileInfo().Mode()&os.ModeType == os.ModeSymlink { // FIXME: untested // We follow only one symlink; so no loops are possible. if _, err := f.Seek(0, os.SEEK_SET); err != nil { return nil, err } // The new path could easily point "outside" the archive, but we only compare it to existing tar headers without extracting the archive, // so we don't care. tarReader, header, err = findTarComponent(f, path.Join(path.Dir(componentPath), header.Linkname)) if err != nil { return nil, err } if header == nil { return nil, os.ErrNotExist } } if !header.FileInfo().Mode().IsRegular() { return nil, errors.Errorf("Error reading tar archive component %s: not a regular file", header.Name) } succeeded = true return &tarReadCloser{Reader: tarReader, backingFile: f}, nil } // findTarComponent returns a header and a reader matching path within inputFile, // or (nil, nil, nil) if not found. func findTarComponent(inputFile io.Reader, path string) (*tar.Reader, *tar.Header, error) { t := tar.NewReader(inputFile) for { h, err := t.Next() if err == io.EOF { break } if err != nil { return nil, nil, err } if h.Name == path { return t, h, nil } } return nil, nil, nil } // readTarComponent returns full contents of componentPath. func (s *Source) readTarComponent(path string) ([]byte, error) { file, err := s.openTarComponent(path) if err != nil { return nil, errors.Wrapf(err, "Error loading tar component %s", path) } defer file.Close() bytes, err := ioutil.ReadAll(file) if err != nil { return nil, err } return bytes, nil } // ensureCachedDataIsPresent loads data necessary for any of the public accessors. func (s *Source) ensureCachedDataIsPresent() error { if s.tarManifest != nil { return nil } // Read and parse manifest.json tarManifest, err := s.loadTarManifest() if err != nil { return err } // Check to make sure length is 1 if len(tarManifest) != 1 { return errors.Errorf("Unexpected tar manifest.json: expected 1 item, got %d", len(tarManifest)) } // Read and parse config. configBytes, err := s.readTarComponent(tarManifest[0].Config) if err != nil { return err } var parsedConfig image // Most fields ommitted, we only care about layer DiffIDs. if err := json.Unmarshal(configBytes, &parsedConfig); err != nil { return errors.Wrapf(err, "Error decoding tar config %s", tarManifest[0].Config) } knownLayers, err := s.prepareLayerData(&tarManifest[0], &parsedConfig) if err != nil { return err } // Success; commit. s.tarManifest = &tarManifest[0] s.configBytes = configBytes s.configDigest = digest.FromBytes(configBytes) s.orderedDiffIDList = parsedConfig.RootFS.DiffIDs s.knownLayers = knownLayers return nil } // loadTarManifest loads and decodes the manifest.json. func (s *Source) loadTarManifest() ([]ManifestItem, error) { // FIXME? Do we need to deal with the legacy format? bytes, err := s.readTarComponent(manifestFileName) if err != nil { return nil, err } var items []ManifestItem if err := json.Unmarshal(bytes, &items); err != nil { return nil, errors.Wrap(err, "Error decoding tar manifest.json") } return items, nil } // LoadTarManifest loads and decodes the manifest.json func (s *Source) LoadTarManifest() ([]ManifestItem, error) { return s.loadTarManifest() } func (s *Source) prepareLayerData(tarManifest *ManifestItem, parsedConfig *image) (map[diffID]*layerInfo, error) { // Collect layer data available in manifest and config. if len(tarManifest.Layers) != len(parsedConfig.RootFS.DiffIDs) { return nil, errors.Errorf("Inconsistent layer count: %d in manifest, %d in config", len(tarManifest.Layers), len(parsedConfig.RootFS.DiffIDs)) } knownLayers := map[diffID]*layerInfo{} unknownLayerSizes := map[string]*layerInfo{} // Points into knownLayers, a "to do list" of items with unknown sizes. for i, diffID := range parsedConfig.RootFS.DiffIDs { if _, ok := knownLayers[diffID]; ok { // Apparently it really can happen that a single image contains the same layer diff more than once. // In that case, the diffID validation ensures that both layers truly are the same, and it should not matter // which of the tarManifest.Layers paths is used; (docker save) actually makes the duplicates symlinks to the original. continue } layerPath := tarManifest.Layers[i] if _, ok := unknownLayerSizes[layerPath]; ok { return nil, errors.Errorf("Layer tarfile %s used for two different DiffID values", layerPath) } li := &layerInfo{ // A new element in each iteration path: layerPath, size: -1, } knownLayers[diffID] = li unknownLayerSizes[layerPath] = li } // Scan the tar file to collect layer sizes. file, err := os.Open(s.tarPath) if err != nil { return nil, err } defer file.Close() t := tar.NewReader(file) for { h, err := t.Next() if err == io.EOF { break } if err != nil { return nil, err } if li, ok := unknownLayerSizes[h.Name]; ok { li.size = h.Size delete(unknownLayerSizes, h.Name) } } if len(unknownLayerSizes) != 0 { return nil, errors.Errorf("Some layer tarfiles are missing in the tarball") // This could do with a better error reporting, if this ever happened in practice. } return knownLayers, nil } // GetManifest returns the image's manifest along with its MIME type (which may be empty when it can't be determined but the manifest is available). // It may use a remote (= slow) service. func (s *Source) GetManifest() ([]byte, string, error) { if s.generatedManifest == nil { if err := s.ensureCachedDataIsPresent(); err != nil { return nil, "", err } m := schema2Manifest{ SchemaVersion: 2, MediaType: manifest.DockerV2Schema2MediaType, Config: distributionDescriptor{ MediaType: manifest.DockerV2Schema2ConfigMediaType, Size: int64(len(s.configBytes)), Digest: s.configDigest, }, Layers: []distributionDescriptor{}, } for _, diffID := range s.orderedDiffIDList { li, ok := s.knownLayers[diffID] if !ok { return nil, "", errors.Errorf("Internal inconsistency: Information about layer %s missing", diffID) } m.Layers = append(m.Layers, distributionDescriptor{ Digest: digest.Digest(diffID), // diffID is a digest of the uncompressed tarball MediaType: manifest.DockerV2Schema2LayerMediaType, Size: li.size, }) } manifestBytes, err := json.Marshal(&m) if err != nil { return nil, "", err } s.generatedManifest = manifestBytes } return s.generatedManifest, manifest.DockerV2Schema2MediaType, nil } // GetTargetManifest returns an image's manifest given a digest. This is mainly used to retrieve a single image's manifest // out of a manifest list. func (s *Source) GetTargetManifest(digest digest.Digest) ([]byte, string, error) { // How did we even get here? GetManifest() above has returned a manifest.DockerV2Schema2MediaType. return nil, "", errors.Errorf(`Manifest lists are not supported by "docker-daemon:"`) } type readCloseWrapper struct { io.Reader closeFunc func() error } func (r readCloseWrapper) Close() error { if r.closeFunc != nil { return r.closeFunc() } return nil } // GetBlob returns a stream for the specified blob, and the blob’s size (or -1 if unknown). func (s *Source) GetBlob(info types.BlobInfo) (io.ReadCloser, int64, error) { if err := s.ensureCachedDataIsPresent(); err != nil { return nil, 0, err } if info.Digest == s.configDigest { // FIXME? Implement a more general algorithm matching instead of assuming sha256. return ioutil.NopCloser(bytes.NewReader(s.configBytes)), int64(len(s.configBytes)), nil } if li, ok := s.knownLayers[diffID(info.Digest)]; ok { // diffID is a digest of the uncompressed tarball, stream, err := s.openTarComponent(li.path) if err != nil { return nil, 0, err } // In order to handle the fact that digests != diffIDs (and thus that a // caller which is trying to verify the blob will run into problems), // we need to decompress blobs. This is a bit ugly, but it's a // consequence of making everything addressable by their DiffID rather // than by their digest... // // In particular, because the v2s2 manifest being generated uses // DiffIDs, any caller of GetBlob is going to be asking for DiffIDs of // layers not their _actual_ digest. The result is that copy/... will // be verifing a "digest" which is not the actual layer's digest (but // is instead the DiffID). decompressFunc, reader, err := compression.DetectCompression(stream) if err != nil { return nil, 0, errors.Wrapf(err, "Detecting compression in blob %s", info.Digest) } if decompressFunc != nil { reader, err = decompressFunc(reader) if err != nil { return nil, 0, errors.Wrapf(err, "Decompressing blob %s stream", info.Digest) } } newStream := readCloseWrapper{ Reader: reader, closeFunc: stream.Close, } return newStream, li.size, nil } return nil, 0, errors.Errorf("Unknown blob %s", info.Digest) } // GetSignatures returns the image's signatures. It may use a remote (= slow) service. func (s *Source) GetSignatures() ([][]byte, error) { return [][]byte{}, nil }