func (imh *imageManifestHandler) convertSchema2Manifest(schema2Manifest *schema2.DeserializedManifest) (distribution.Manifest, error) { targetDescriptor := schema2Manifest.Target() blobs := imh.Repository.Blobs(imh) configJSON, err := blobs.Get(imh, targetDescriptor.Digest) if err != nil { imh.Errors = append(imh.Errors, v2.ErrorCodeManifestInvalid.WithDetail(err)) return nil, err } ref := imh.Repository.Named() if imh.Tag != "" { ref, err = reference.WithTag(ref, imh.Tag) if err != nil { imh.Errors = append(imh.Errors, v2.ErrorCodeTagInvalid.WithDetail(err)) return nil, err } } builder := schema1.NewConfigManifestBuilder(imh.Repository.Blobs(imh), imh.Context.App.trustKey, ref, configJSON) for _, d := range schema2Manifest.References() { if err := builder.AppendReference(d); err != nil { imh.Errors = append(imh.Errors, v2.ErrorCodeManifestInvalid.WithDetail(err)) return nil, err } } manifest, err := builder.Build(imh) if err != nil { imh.Errors = append(imh.Errors, v2.ErrorCodeManifestInvalid.WithDetail(err)) return nil, err } imh.Digest = digest.FromBytes(manifest.(*schema1.SignedManifest).Canonical) return manifest, nil }
// verifyManifest ensures that the manifest content is valid from the // perspective of the registry. As a policy, the registry only tries to store // valid content, leaving trust policies of that content up to consumers. func (ms *schema2ManifestHandler) verifyManifest(ctx context.Context, mnfst schema2.DeserializedManifest, skipDependencyVerification bool) error { var errs distribution.ErrManifestVerification if !skipDependencyVerification { target := mnfst.Target() _, err := ms.repository.Blobs(ctx).Stat(ctx, target.Digest) if err != nil { if err != distribution.ErrBlobUnknown { errs = append(errs, err) } // On error here, we always append unknown blob errors. errs = append(errs, distribution.ErrManifestBlobUnknown{Digest: target.Digest}) } for _, fsLayer := range mnfst.References() { _, err := ms.repository.Blobs(ctx).Stat(ctx, fsLayer.Digest) if err != nil { if err != distribution.ErrBlobUnknown { errs = append(errs, err) } // On error here, we always append unknown blob errors. errs = append(errs, distribution.ErrManifestBlobUnknown{Digest: fsLayer.Digest}) } } } if len(errs) != 0 { return errs } return nil }
// verifyManifest ensures that the manifest content is valid from the // perspective of the registry. As a policy, the registry only tries to store // valid content, leaving trust policies of that content up to consumers. func (ms *schema2ManifestHandler) verifyManifest(ctx context.Context, mnfst schema2.DeserializedManifest, skipDependencyVerification bool) error { var errs distribution.ErrManifestVerification if !skipDependencyVerification { target := mnfst.Target() _, err := ms.repository.Blobs(ctx).Stat(ctx, target.Digest) if err != nil { if err != distribution.ErrBlobUnknown { errs = append(errs, err) } // On error here, we always append unknown blob errors. errs = append(errs, distribution.ErrManifestBlobUnknown{Digest: target.Digest}) } for _, fsLayer := range mnfst.References() { var err error if fsLayer.MediaType != schema2.MediaTypeForeignLayer { if len(fsLayer.URLs) == 0 { _, err = ms.repository.Blobs(ctx).Stat(ctx, fsLayer.Digest) } else { err = errUnexpectedURL } } else { // Clients download this layer from an external URL, so do not check for // its presense. if len(fsLayer.URLs) == 0 { err = errMissingURL } allow := ms.manifestURLs.allow deny := ms.manifestURLs.deny for _, u := range fsLayer.URLs { var pu *url.URL pu, err = url.Parse(u) if err != nil || (pu.Scheme != "http" && pu.Scheme != "https") || pu.Fragment != "" || (allow != nil && !allow.MatchString(u)) || (deny != nil && deny.MatchString(u)) { err = errInvalidURL break } } } if err != nil { if err != distribution.ErrBlobUnknown { errs = append(errs, err) } // On error here, we always append unknown blob errors. errs = append(errs, distribution.ErrManifestBlobUnknown{Digest: fsLayer.Digest}) } } } if len(errs) != 0 { return errs } return nil }
func (mf *v2ManifestFetcher) pullSchema2(ctx context.Context, ref reference.Named, mfst *schema2.DeserializedManifest) (img *image.Image, manifestDigest digest.Digest, err error) { manifestDigest, err = schema2ManifestDigest(ref, mfst) if err != nil { return nil, "", err } target := mfst.Target() configChan := make(chan []byte, 1) errChan := make(chan error, 1) var cancel func() ctx, cancel = context.WithCancel(ctx) // Pull the image config go func() { configJSON, err := mf.pullSchema2ImageConfig(ctx, target.Digest) if err != nil { errChan <- err cancel() return } configChan <- configJSON }() var ( configJSON []byte // raw serialized image config unmarshalledConfig image.Image // deserialized image config ) if runtime.GOOS == "windows" { configJSON, unmarshalledConfig, err = receiveConfig(configChan, errChan) if err != nil { return nil, "", err } if unmarshalledConfig.RootFS == nil { return nil, "", errors.New("image config has no rootfs section") } } if configJSON == nil { configJSON, unmarshalledConfig, err = receiveConfig(configChan, errChan) if err != nil { return nil, "", err } } img, err = image.NewFromJSON(configJSON) if err != nil { return nil, "", err } return img, manifestDigest, nil }
func (p *v2Puller) pullSchema2(ctx context.Context, ref reference.Named, mfst *schema2.DeserializedManifest) (imageID image.ID, manifestDigest digest.Digest, err error) { manifestDigest, err = schema2ManifestDigest(ref, mfst) if err != nil { return "", "", err } target := mfst.Target() imageID = image.ID(target.Digest) if _, err := p.config.ImageStore.Get(imageID); err == nil { // If the image already exists locally, no need to pull // anything. return imageID, manifestDigest, nil } configChan := make(chan []byte, 1) errChan := make(chan error, 1) var cancel func() ctx, cancel = context.WithCancel(ctx) // Pull the image config go func() { configJSON, err := p.pullSchema2ImageConfig(ctx, target.Digest) if err != nil { errChan <- err cancel() return } configChan <- configJSON }() var descriptors []xfer.DownloadDescriptor // Note that the order of this loop is in the direction of bottom-most // to top-most, so that the downloads slice gets ordered correctly. for _, d := range mfst.References() { layerDescriptor := &v2LayerDescriptor{ digest: d.Digest, repo: p.repo, blobSumService: p.blobSumService, } descriptors = append(descriptors, layerDescriptor) } var ( configJSON []byte // raw serialized image config unmarshalledConfig image.Image // deserialized image config downloadRootFS image.RootFS // rootFS to use for registering layers. ) if runtime.GOOS == "windows" { configJSON, unmarshalledConfig, err = receiveConfig(configChan, errChan) if err != nil { return "", "", err } if unmarshalledConfig.RootFS == nil { return "", "", errors.New("image config has no rootfs section") } downloadRootFS = *unmarshalledConfig.RootFS downloadRootFS.DiffIDs = []layer.DiffID{} } else { downloadRootFS = *image.NewRootFS() } rootFS, release, err := p.config.DownloadManager.Download(ctx, downloadRootFS, descriptors, p.config.ProgressOutput) if err != nil { if configJSON != nil { // Already received the config return "", "", err } select { case err = <-errChan: return "", "", err default: cancel() select { case <-configChan: case <-errChan: } return "", "", err } } defer release() if configJSON == nil { configJSON, unmarshalledConfig, err = receiveConfig(configChan, errChan) if err != nil { return "", "", err } } // The DiffIDs returned in rootFS MUST match those in the config. // Otherwise the image config could be referencing layers that aren't // included in the manifest. if len(rootFS.DiffIDs) != len(unmarshalledConfig.RootFS.DiffIDs) { return "", "", errRootFSMismatch } for i := range rootFS.DiffIDs { if rootFS.DiffIDs[i] != unmarshalledConfig.RootFS.DiffIDs[i] { return "", "", errRootFSMismatch } } imageID, err = p.config.ImageStore.Create(configJSON) if err != nil { return "", "", err } return imageID, manifestDigest, nil }
func (p *v2Puller) pullSchema2(ctx context.Context, ref reference.Named, mfst *schema2.DeserializedManifest) (imageID image.ID, manifestDigest digest.Digest, err error) { manifestDigest, err = schema2ManifestDigest(ref, mfst) if err != nil { return "", "", err } target := mfst.Target() imageID = image.ID(target.Digest) if _, err := p.config.ImageStore.Get(imageID); err == nil { // If the image already exists locally, no need to pull // anything. return imageID, manifestDigest, nil } var descriptors []xfer.DownloadDescriptor // Note that the order of this loop is in the direction of bottom-most // to top-most, so that the downloads slice gets ordered correctly. for _, d := range mfst.Layers { layerDescriptor := &v2LayerDescriptor{ digest: d.Digest, repo: p.repo, repoInfo: p.repoInfo, V2MetadataService: p.V2MetadataService, src: d, } descriptors = append(descriptors, layerDescriptor) } configChan := make(chan []byte, 1) errChan := make(chan error, 1) var cancel func() ctx, cancel = context.WithCancel(ctx) // Pull the image config go func() { configJSON, err := p.pullSchema2ImageConfig(ctx, target.Digest) if err != nil { errChan <- ImageConfigPullError{Err: err} cancel() return } configChan <- configJSON }() var ( configJSON []byte // raw serialized image config unmarshalledConfig image.Image // deserialized image config downloadRootFS image.RootFS // rootFS to use for registering layers. ) // https://github.com/docker/docker/issues/24766 - Err on the side of caution, // explicitly blocking images intended for linux from the Windows daemon if runtime.GOOS == "windows" && unmarshalledConfig.OS == "linux" { return "", "", fmt.Errorf("image operating system %q cannot be used on this platform", unmarshalledConfig.OS) } downloadRootFS = *image.NewRootFS() rootFS, release, err := p.config.DownloadManager.Download(ctx, downloadRootFS, descriptors, p.config.ProgressOutput) if err != nil { if configJSON != nil { // Already received the config return "", "", err } select { case err = <-errChan: return "", "", err default: cancel() select { case <-configChan: case <-errChan: } return "", "", err } } defer release() if configJSON == nil { configJSON, unmarshalledConfig, err = receiveConfig(configChan, errChan) if err != nil { return "", "", err } } // The DiffIDs returned in rootFS MUST match those in the config. // Otherwise the image config could be referencing layers that aren't // included in the manifest. if len(rootFS.DiffIDs) != len(unmarshalledConfig.RootFS.DiffIDs) { return "", "", errRootFSMismatch } for i := range rootFS.DiffIDs { if rootFS.DiffIDs[i] != unmarshalledConfig.RootFS.DiffIDs[i] { return "", "", errRootFSMismatch } } imageID, err = p.config.ImageStore.Create(configJSON) if err != nil { return "", "", err } return imageID, manifestDigest, nil }
func (p *v2Puller) pullSchema2(ctx context.Context, ref reference.Named, mfst *schema2.DeserializedManifest) (id digest.Digest, manifestDigest digest.Digest, err error) { manifestDigest, err = schema2ManifestDigest(ref, mfst) if err != nil { return "", "", err } target := mfst.Target() if _, err := p.config.ImageStore.Get(target.Digest); err == nil { // If the image already exists locally, no need to pull // anything. return target.Digest, manifestDigest, nil } var descriptors []xfer.DownloadDescriptor // Note that the order of this loop is in the direction of bottom-most // to top-most, so that the downloads slice gets ordered correctly. for _, d := range mfst.Layers { layerDescriptor := &v2LayerDescriptor{ digest: d.Digest, repo: p.repo, repoInfo: p.repoInfo, V2MetadataService: p.V2MetadataService, src: d, } descriptors = append(descriptors, layerDescriptor) } configChan := make(chan []byte, 1) errChan := make(chan error, 1) var cancel func() ctx, cancel = context.WithCancel(ctx) // Pull the image config go func() { configJSON, err := p.pullSchema2Config(ctx, target.Digest) if err != nil { errChan <- ImageConfigPullError{Err: err} cancel() return } configChan <- configJSON }() var ( configJSON []byte // raw serialized image config downloadedRootFS *image.RootFS // rootFS from registered layers configRootFS *image.RootFS // rootFS from configuration ) // https://github.com/docker/docker/issues/24766 - Err on the side of caution, // explicitly blocking images intended for linux from the Windows daemon. On // Windows, we do this before the attempt to download, effectively serialising // the download slightly slowing it down. We have to do it this way, as // chances are the download of layers itself would fail due to file names // which aren't suitable for NTFS. At some point in the future, if a similar // check to block Windows images being pulled on Linux is implemented, it // may be necessary to perform the same type of serialisation. if runtime.GOOS == "windows" { configJSON, configRootFS, err = receiveConfig(p.config.ImageStore, configChan, errChan) if err != nil { return "", "", err } if configRootFS == nil { return "", "", errRootFSInvalid } } if p.config.DownloadManager != nil { downloadRootFS := *image.NewRootFS() rootFS, release, err := p.config.DownloadManager.Download(ctx, downloadRootFS, descriptors, p.config.ProgressOutput) if err != nil { if configJSON != nil { // Already received the config return "", "", err } select { case err = <-errChan: return "", "", err default: cancel() select { case <-configChan: case <-errChan: } return "", "", err } } if release != nil { defer release() } downloadedRootFS = &rootFS } if configJSON == nil { configJSON, configRootFS, err = receiveConfig(p.config.ImageStore, configChan, errChan) if err != nil { return "", "", err } if configRootFS == nil { return "", "", errRootFSInvalid } } if downloadedRootFS != nil { // The DiffIDs returned in rootFS MUST match those in the config. // Otherwise the image config could be referencing layers that aren't // included in the manifest. if len(downloadedRootFS.DiffIDs) != len(configRootFS.DiffIDs) { return "", "", errRootFSMismatch } for i := range downloadedRootFS.DiffIDs { if downloadedRootFS.DiffIDs[i] != configRootFS.DiffIDs[i] { return "", "", errRootFSMismatch } } } imageID, err := p.config.ImageStore.Put(configJSON) if err != nil { return "", "", err } return imageID, manifestDigest, nil }