package distribution // import "github.com/docker/docker/distribution" import ( "context" "encoding/json" "fmt" "io" "io/ioutil" "net/url" "os" "runtime" "strings" "github.com/containerd/containerd/platforms" "github.com/docker/distribution" "github.com/docker/distribution/manifest/manifestlist" "github.com/docker/distribution/manifest/schema1" "github.com/docker/distribution/manifest/schema2" "github.com/docker/distribution/reference" "github.com/docker/distribution/registry/api/errcode" "github.com/docker/distribution/registry/client/auth" "github.com/docker/distribution/registry/client/transport" "github.com/docker/docker/distribution/metadata" "github.com/docker/docker/distribution/xfer" "github.com/docker/docker/image" v1 "github.com/docker/docker/image/v1" "github.com/docker/docker/layer" "github.com/docker/docker/pkg/ioutils" "github.com/docker/docker/pkg/progress" "github.com/docker/docker/pkg/stringid" "github.com/docker/docker/pkg/system" refstore "github.com/docker/docker/reference" "github.com/docker/docker/registry" "github.com/opencontainers/go-digest" specs "github.com/opencontainers/image-spec/specs-go/v1" "github.com/pkg/errors" "github.com/sirupsen/logrus" ) var ( errRootFSMismatch = errors.New("layers from manifest don't match image configuration") errRootFSInvalid = errors.New("invalid rootfs in image configuration") ) // ImageConfigPullError is an error pulling the image config blob // (only applies to schema2). type ImageConfigPullError struct { Err error } // Error returns the error string for ImageConfigPullError. func (e ImageConfigPullError) Error() string { return "error pulling image configuration: " + e.Err.Error() } type v2Puller struct { V2MetadataService metadata.V2MetadataService endpoint registry.APIEndpoint config *ImagePullConfig repoInfo *registry.RepositoryInfo repo distribution.Repository // confirmedV2 is set to true if we confirm we're talking to a v2 // registry. This is used to limit fallbacks to the v1 protocol. confirmedV2 bool } func (p *v2Puller) Pull(ctx context.Context, ref reference.Named, platform *specs.Platform) (err error) { // TODO(tiborvass): was ReceiveTimeout p.repo, p.confirmedV2, err = NewV2Repository(ctx, p.repoInfo, p.endpoint, p.config.MetaHeaders, p.config.AuthConfig, "pull") if err != nil { logrus.Warnf("Error getting v2 registry: %v", err) return err } if err = p.pullV2Repository(ctx, ref, platform); err != nil { if _, ok := err.(fallbackError); ok { return err } if continueOnError(err, p.endpoint.Mirror) { return fallbackError{ err: err, confirmedV2: p.confirmedV2, transportOK: true, } } } return err } func (p *v2Puller) pullV2Repository(ctx context.Context, ref reference.Named, platform *specs.Platform) (err error) { var layersDownloaded bool if !reference.IsNameOnly(ref) { layersDownloaded, err = p.pullV2Tag(ctx, ref, platform) if err != nil { return err } } else { tags, err := p.repo.Tags(ctx).All(ctx) if err != nil { // If this repository doesn't exist on V2, we should // permit a fallback to V1. return allowV1Fallback(err) } // The v2 registry knows about this repository, so we will not // allow fallback to the v1 protocol even if we encounter an // error later on. p.confirmedV2 = true for _, tag := range tags { tagRef, err := reference.WithTag(ref, tag) if err != nil { return err } pulledNew, err := p.pullV2Tag(ctx, tagRef, platform) if err != nil { // Since this is the pull-all-tags case, don't // allow an error pulling a particular tag to // make the whole pull fall back to v1. if fallbackErr, ok := err.(fallbackError); ok { return fallbackErr.err } return err } // pulledNew is true if either new layers were downloaded OR if existing images were newly tagged // TODO(tiborvass): should we change the name of `layersDownload`? What about message in WriteStatus? layersDownloaded = layersDownloaded || pulledNew } } writeStatus(reference.FamiliarString(ref), p.config.ProgressOutput, layersDownloaded) return nil } type v2LayerDescriptor struct { digest digest.Digest diffID layer.DiffID repoInfo *registry.RepositoryInfo repo distribution.Repository V2MetadataService metadata.V2MetadataService tmpFile *os.File verifier digest.Verifier src distribution.Descriptor } func (ld *v2LayerDescriptor) Key() string { return "v2:" + ld.digest.String() } func (ld *v2LayerDescriptor) ID() string { return stringid.TruncateID(ld.digest.String()) } func (ld *v2LayerDescriptor) DiffID() (layer.DiffID, error) { if ld.diffID != "" { return ld.diffID, nil } return ld.V2MetadataService.GetDiffID(ld.digest) } func (ld *v2LayerDescriptor) Download(ctx context.Context, progressOutput progress.Output) (io.ReadCloser, int64, error) { logrus.Debugf("pulling blob %q", ld.digest) var ( err error offset int64 ) if ld.tmpFile == nil { ld.tmpFile, err = createDownloadFile() if err != nil { return nil, 0, xfer.DoNotRetry{Err: err} } } else { offset, err = ld.tmpFile.Seek(0, os.SEEK_END) if err != nil { logrus.Debugf("error seeking to end of download file: %v", err) offset = 0 ld.tmpFile.Close() if err := os.Remove(ld.tmpFile.Name()); err != nil { logrus.Errorf("Failed to remove temp file: %s", ld.tmpFile.Name()) } ld.tmpFile, err = createDownloadFile() if err != nil { return nil, 0, xfer.DoNotRetry{Err: err} } } else if offset != 0 { logrus.Debugf("attempting to resume download of %q from %d bytes", ld.digest, offset) } } tmpFile := ld.tmpFile layerDownload, err := ld.open(ctx) if err != nil { logrus.Errorf("Error initiating layer download: %v", err) return nil, 0, retryOnError(err) } if offset != 0 { _, err := layerDownload.Seek(offset, os.SEEK_SET) if err != nil { if err := ld.truncateDownloadFile(); err != nil { return nil, 0, xfer.DoNotRetry{Err: err} } return nil, 0, err } } size, err := layerDownload.Seek(0, os.SEEK_END) if err != nil { // Seek failed, perhaps because there was no Content-Length // header. This shouldn't fail the download, because we can // still continue without a progress bar. size = 0 } else { if size != 0 && offset > size { logrus.Debug("Partial download is larger than full blob. Starting over") offset = 0 if err := ld.truncateDownloadFile(); err != nil { return nil, 0, xfer.DoNotRetry{Err: err} } } // Restore the seek offset either at the beginning of the // stream, or just after the last byte we have from previous // attempts. _, err = layerDownload.Seek(offset, os.SEEK_SET) if err != nil { return nil, 0, err } } reader := progress.NewProgressReader(ioutils.NewCancelReadCloser(ctx, layerDownload), progressOutput, size-offset, ld.ID(), "Downloading") defer reader.Close() if ld.verifier == nil { ld.verifier = ld.digest.Verifier() } _, err = io.Copy(tmpFile, io.TeeReader(reader, ld.verifier)) if err != nil { if err == transport.ErrWrongCodeForByteRange { if err := ld.truncateDownloadFile(); err != nil { return nil, 0, xfer.DoNotRetry{Err: err} } return nil, 0, err } return nil, 0, retryOnError(err) } progress.Update(progressOutput, ld.ID(), "Verifying Checksum") if !ld.verifier.Verified() { err = fmt.Errorf("filesystem layer verification failed for digest %s", ld.digest) logrus.Error(err) // Allow a retry if this digest verification error happened // after a resumed download. if offset != 0 { if err := ld.truncateDownloadFile(); err != nil { return nil, 0, xfer.DoNotRetry{Err: err} } return nil, 0, err } return nil, 0, xfer.DoNotRetry{Err: err} } progress.Update(progressOutput, ld.ID(), "Download complete") logrus.Debugf("Downloaded %s to tempfile %s", ld.ID(), tmpFile.Name()) _, err = tmpFile.Seek(0, os.SEEK_SET) if err != nil { tmpFile.Close() if err := os.Remove(tmpFile.Name()); err != nil { logrus.Errorf("Failed to remove temp file: %s", tmpFile.Name()) } ld.tmpFile = nil ld.verifier = nil return nil, 0, xfer.DoNotRetry{Err: err} } // hand off the temporary file to the download manager, so it will only // be closed once ld.tmpFile = nil return ioutils.NewReadCloserWrapper(tmpFile, func() error { tmpFile.Close() err := os.RemoveAll(tmpFile.Name()) if err != nil { logrus.Errorf("Failed to remove temp file: %s", tmpFile.Name()) } return err }), size, nil } func (ld *v2LayerDescriptor) Close() { if ld.tmpFile != nil { ld.tmpFile.Close() if err := os.RemoveAll(ld.tmpFile.Name()); err != nil { logrus.Errorf("Failed to remove temp file: %s", ld.tmpFile.Name()) } } } func (ld *v2LayerDescriptor) truncateDownloadFile() error { // Need a new hash context since we will be redoing the download ld.verifier = nil if _, err := ld.tmpFile.Seek(0, os.SEEK_SET); err != nil { logrus.Errorf("error seeking to beginning of download file: %v", err) return err } if err := ld.tmpFile.Truncate(0); err != nil { logrus.Errorf("error truncating download file: %v", err) return err } return nil } func (ld *v2LayerDescriptor) Registered(diffID layer.DiffID) { // Cache mapping from this layer's DiffID to the blobsum ld.V2MetadataService.Add(diffID, metadata.V2Metadata{Digest: ld.digest, SourceRepository: ld.repoInfo.Name.Name()}) } func (p *v2Puller) pullV2Tag(ctx context.Context, ref reference.Named, platform *specs.Platform) (tagUpdated bool, err error) { manSvc, err := p.repo.Manifests(ctx) if err != nil { return false, err } var ( manifest distribution.Manifest tagOrDigest string // Used for logging/progress only ) if digested, isDigested := ref.(reference.Canonical); isDigested { manifest, err = manSvc.Get(ctx, digested.Digest()) if err != nil { return false, err } tagOrDigest = digested.Digest().String() } else if tagged, isTagged := ref.(reference.NamedTagged); isTagged { manifest, err = manSvc.Get(ctx, "", distribution.WithTag(tagged.Tag())) if err != nil { return false, allowV1Fallback(err) } tagOrDigest = tagged.Tag() } else { return false, fmt.Errorf("internal error: reference has neither a tag nor a digest: %s", reference.FamiliarString(ref)) } if manifest == nil { return false, fmt.Errorf("image manifest does not exist for tag or digest %q", tagOrDigest) } if m, ok := manifest.(*schema2.DeserializedManifest); ok { var allowedMediatype bool for _, t := range p.config.Schema2Types { if m.Manifest.Config.MediaType == t { allowedMediatype = true break } } if !allowedMediatype { configClass := mediaTypeClasses[m.Manifest.Config.MediaType] if configClass == "" { configClass = "unknown" } return false, invalidManifestClassError{m.Manifest.Config.MediaType, configClass} } } // If manSvc.Get succeeded, we can be confident that the registry on // the other side speaks the v2 protocol. p.confirmedV2 = true logrus.Debugf("Pulling ref from V2 registry: %s", reference.FamiliarString(ref)) progress.Message(p.config.ProgressOutput, tagOrDigest, "Pulling from "+reference.FamiliarName(p.repo.Named())) var ( id digest.Digest manifestDigest digest.Digest ) switch v := manifest.(type) { case *schema1.SignedManifest: if p.config.RequireSchema2 { return false, fmt.Errorf("invalid manifest: not schema2") } // give registries time to upgrade to schema2 and only warn if we know a registry has been upgraded long time ago // TODO: condition to be removed if reference.Domain(ref) == "docker.io" { msg := fmt.Sprintf("Image %s uses outdated schema1 manifest format. Please upgrade to a schema2 image for better future compatibility. More information at https://docs.docker.com/registry/spec/deprecated-schema-v1/", ref) logrus.Warn(msg) progress.Message(p.config.ProgressOutput, "", msg) } id, manifestDigest, err = p.pullSchema1(ctx, ref, v, platform) if err != nil { return false, err } case *schema2.DeserializedManifest: id, manifestDigest, err = p.pullSchema2(ctx, ref, v, platform) if err != nil { return false, err } case *manifestlist.DeserializedManifestList: id, manifestDigest, err = p.pullManifestList(ctx, ref, v, platform) if err != nil { return false, err } default: return false, invalidManifestFormatError{} } progress.Message(p.config.ProgressOutput, "", "Digest: "+manifestDigest.String()) if p.config.ReferenceStore != nil { oldTagID, err := p.config.ReferenceStore.Get(ref) if err == nil { if oldTagID == id { return false, addDigestReference(p.config.ReferenceStore, ref, manifestDigest, id) } } else if err != refstore.ErrDoesNotExist { return false, err } if canonical, ok := ref.(reference.Canonical); ok { if err = p.config.ReferenceStore.AddDigest(canonical, id, true); err != nil { return false, err } } else { if err = addDigestReference(p.config.ReferenceStore, ref, manifestDigest, id); err != nil { return false, err } if err = p.config.ReferenceStore.AddTag(ref, id, true); err != nil { return false, err } } } return true, nil } func (p *v2Puller) pullSchema1(ctx context.Context, ref reference.Reference, unverifiedManifest *schema1.SignedManifest, platform *specs.Platform) (id digest.Digest, manifestDigest digest.Digest, err error) { var verifiedManifest *schema1.Manifest verifiedManifest, err = verifySchema1Manifest(unverifiedManifest, ref) if err != nil { return "", "", err } rootFS := image.NewRootFS() // remove duplicate layers and check parent chain validity err = fixManifestLayers(verifiedManifest) if err != nil { return "", "", err } var descriptors []xfer.DownloadDescriptor // Image history converted to the new format var history []image.History // 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 i := len(verifiedManifest.FSLayers) - 1; i >= 0; i-- { blobSum := verifiedManifest.FSLayers[i].BlobSum var throwAway struct { ThrowAway bool `json:"throwaway,omitempty"` } if err := json.Unmarshal([]byte(verifiedManifest.History[i].V1Compatibility), &throwAway); err != nil { return "", "", err } h, err := v1.HistoryFromConfig([]byte(verifiedManifest.History[i].V1Compatibility), throwAway.ThrowAway) if err != nil { return "", "", err } history = append(history, h) if throwAway.ThrowAway { continue } layerDescriptor := &v2LayerDescriptor{ digest: blobSum, repoInfo: p.repoInfo, repo: p.repo, V2MetadataService: p.V2MetadataService, } descriptors = append(descriptors, layerDescriptor) } // The v1 manifest itself doesn't directly contain an OS. However, // the history does, but unfortunately that's a string, so search through // all the history until hopefully we find one which indicates the OS. // supertest2014/nyan is an example of a registry image with schemav1. configOS := runtime.GOOS if system.LCOWSupported() { type config struct { Os string `json:"os,omitempty"` } for _, v := range verifiedManifest.History { var c config if err := json.Unmarshal([]byte(v.V1Compatibility), &c); err == nil { if c.Os != "" { configOS = c.Os break } } } } // In the situation that the API call didn't specify an OS explicitly, but // we support the operating system, switch to that operating system. // eg FROM supertest2014/nyan with no platform specifier, and docker build // with no --platform= flag under LCOW. requestedOS := "" if platform != nil { requestedOS = platform.OS } else if system.IsOSSupported(configOS) { requestedOS = configOS } // Early bath if the requested OS doesn't match that of the configuration. // This avoids doing the download, only to potentially fail later. if !strings.EqualFold(configOS, requestedOS) { return "", "", fmt.Errorf("cannot download image with operating system %q when requesting %q", configOS, requestedOS) } resultRootFS, release, err := p.config.DownloadManager.Download(ctx, *rootFS, configOS, descriptors, p.config.ProgressOutput) if err != nil { return "", "", err } defer release() config, err := v1.MakeConfigFromV1Config([]byte(verifiedManifest.History[0].V1Compatibility), &resultRootFS, history) if err != nil { return "", "", err } imageID, err := p.config.ImageStore.Put(config) if err != nil { return "", "", err } manifestDigest = digest.FromBytes(unverifiedManifest.Canonical) return imageID, manifestDigest, nil } func (p *v2Puller) pullSchema2(ctx context.Context, ref reference.Named, mfst *schema2.DeserializedManifest, platform *specs.Platform) (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) configErrChan := make(chan error, 1) layerErrChan := make(chan error, 1) downloadsDone := make(chan struct{}) var cancel func() ctx, cancel = context.WithCancel(ctx) defer cancel() // Pull the image config go func() { configJSON, err := p.pullSchema2Config(ctx, target.Digest) if err != nil { configErrChan <- 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 release func() // release resources from rootFS download configPlatform *specs.Platform // for LCOW when registering downloaded layers ) layerStoreOS := runtime.GOOS if platform != nil { layerStoreOS = platform.OS } // 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, configPlatform, err = receiveConfig(p.config.ImageStore, configChan, configErrChan) if err != nil { return "", "", err } if configRootFS == nil { return "", "", errRootFSInvalid } if err := checkImageCompatibility(configPlatform.OS, configPlatform.OSVersion); err != nil { return "", "", err } if len(descriptors) != len(configRootFS.DiffIDs) { return "", "", errRootFSMismatch } if platform == nil { // Early bath if the requested OS doesn't match that of the configuration. // This avoids doing the download, only to potentially fail later. if !system.IsOSSupported(configPlatform.OS) { return "", "", fmt.Errorf("cannot download image with operating system %q when requesting %q", configPlatform.OS, layerStoreOS) } layerStoreOS = configPlatform.OS } // Populate diff ids in descriptors to avoid downloading foreign layers // which have been side loaded for i := range descriptors { descriptors[i].(*v2LayerDescriptor).diffID = configRootFS.DiffIDs[i] } } if p.config.DownloadManager != nil { go func() { var ( err error rootFS image.RootFS ) downloadRootFS := *image.NewRootFS() rootFS, release, err = p.config.DownloadManager.Download(ctx, downloadRootFS, layerStoreOS, descriptors, p.config.ProgressOutput) if err != nil { // Intentionally do not cancel the config download here // as the error from config download (if there is one) // is more interesting than the layer download error layerErrChan <- err return } downloadedRootFS = &rootFS close(downloadsDone) }() } else { // We have nothing to download close(downloadsDone) } if configJSON == nil { configJSON, configRootFS, _, err = receiveConfig(p.config.ImageStore, configChan, configErrChan) if err == nil && configRootFS == nil { err = errRootFSInvalid } if err != nil { cancel() select { case <-downloadsDone: case <-layerErrChan: } return "", "", err } } select { case <-downloadsDone: case err = <-layerErrChan: return "", "", err } if release != nil { defer release() } 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 } func receiveConfig(s ImageConfigStore, configChan <-chan []byte, errChan <-chan error) ([]byte, *image.RootFS, *specs.Platform, error) { select { case configJSON := <-configChan: rootfs, err := s.RootFSFromConfig(configJSON) if err != nil { return nil, nil, nil, err } platform, err := s.PlatformFromConfig(configJSON) if err != nil { return nil, nil, nil, err } return configJSON, rootfs, platform, nil case err := <-errChan: return nil, nil, nil, err // Don't need a case for ctx.Done in the select because cancellation // will trigger an error in p.pullSchema2ImageConfig. } } // pullManifestList handles "manifest lists" which point to various // platform-specific manifests. func (p *v2Puller) pullManifestList(ctx context.Context, ref reference.Named, mfstList *manifestlist.DeserializedManifestList, pp *specs.Platform) (id digest.Digest, manifestListDigest digest.Digest, err error) { manifestListDigest, err = schema2ManifestDigest(ref, mfstList) if err != nil { return "", "", err } var platform specs.Platform if pp != nil { platform = *pp } logrus.Debugf("%s resolved to a manifestList object with %d entries; looking for a %s/%s match", ref, len(mfstList.Manifests), platforms.Format(platform), runtime.GOARCH) manifestMatches := filterManifests(mfstList.Manifests, platform) if len(manifestMatches) == 0 { errMsg := fmt.Sprintf("no matching manifest for %s in the manifest list entries", formatPlatform(platform)) logrus.Debugf(errMsg) return "", "", errors.New(errMsg) } if len(manifestMatches) > 1 { logrus.Debugf("found multiple matches in manifest list, choosing best match %s", manifestMatches[0].Digest.String()) } manifestDigest := manifestMatches[0].Digest if err := checkImageCompatibility(manifestMatches[0].Platform.OS, manifestMatches[0].Platform.OSVersion); err != nil { return "", "", err } manSvc, err := p.repo.Manifests(ctx) if err != nil { return "", "", err } manifest, err := manSvc.Get(ctx, manifestDigest) if err != nil { return "", "", err } manifestRef, err := reference.WithDigest(reference.TrimNamed(ref), manifestDigest) if err != nil { return "", "", err } switch v := manifest.(type) { case *schema1.SignedManifest: msg := fmt.Sprintf("[DEPRECATION NOTICE] v2 schema1 manifests in manifest lists are not supported and will break in a future release. Suggest author of %s to upgrade to v2 schema2. More information at https://docs.docker.com/registry/spec/deprecated-schema-v1/", ref) logrus.Warn(msg) progress.Message(p.config.ProgressOutput, "", msg) platform := toOCIPlatform(manifestMatches[0].Platform) id, _, err = p.pullSchema1(ctx, manifestRef, v, &platform) if err != nil { return "", "", err } case *schema2.DeserializedManifest: platform := toOCIPlatform(manifestMatches[0].Platform) id, _, err = p.pullSchema2(ctx, manifestRef, v, &platform) if err != nil { return "", "", err } default: return "", "", errors.New("unsupported manifest format") } return id, manifestListDigest, err } func (p *v2Puller) pullSchema2Config(ctx context.Context, dgst digest.Digest) (configJSON []byte, err error) { blobs := p.repo.Blobs(ctx) configJSON, err = blobs.Get(ctx, dgst) if err != nil { return nil, err } // Verify image config digest verifier := dgst.Verifier() if _, err := verifier.Write(configJSON); err != nil { return nil, err } if !verifier.Verified() { err := fmt.Errorf("image config verification failed for digest %s", dgst) logrus.Error(err) return nil, err } return configJSON, nil } // schema2ManifestDigest computes the manifest digest, and, if pulling by // digest, ensures that it matches the requested digest. func schema2ManifestDigest(ref reference.Named, mfst distribution.Manifest) (digest.Digest, error) { _, canonical, err := mfst.Payload() if err != nil { return "", err } // If pull by digest, then verify the manifest digest. if digested, isDigested := ref.(reference.Canonical); isDigested { verifier := digested.Digest().Verifier() if _, err := verifier.Write(canonical); err != nil { return "", err } if !verifier.Verified() { err := fmt.Errorf("manifest verification failed for digest %s", digested.Digest()) logrus.Error(err) return "", err } return digested.Digest(), nil } return digest.FromBytes(canonical), nil } // allowV1Fallback checks if the error is a possible reason to fallback to v1 // (even if confirmedV2 has been set already), and if so, wraps the error in // a fallbackError with confirmedV2 set to false. Otherwise, it returns the // error unmodified. func allowV1Fallback(err error) error { switch v := err.(type) { case errcode.Errors: if len(v) != 0 { if v0, ok := v[0].(errcode.Error); ok && shouldV2Fallback(v0) { return fallbackError{ err: err, confirmedV2: false, transportOK: true, } } } case errcode.Error: if shouldV2Fallback(v) { return fallbackError{ err: err, confirmedV2: false, transportOK: true, } } case *url.Error: if v.Err == auth.ErrNoBasicAuthCredentials { return fallbackError{err: err, confirmedV2: false} } } return err } func verifySchema1Manifest(signedManifest *schema1.SignedManifest, ref reference.Reference) (m *schema1.Manifest, err error) { // If pull by digest, then verify the manifest digest. NOTE: It is // important to do this first, before any other content validation. If the // digest cannot be verified, don't even bother with those other things. if digested, isCanonical := ref.(reference.Canonical); isCanonical { verifier := digested.Digest().Verifier() if _, err := verifier.Write(signedManifest.Canonical); err != nil { return nil, err } if !verifier.Verified() { err := fmt.Errorf("image verification failed for digest %s", digested.Digest()) logrus.Error(err) return nil, err } } m = &signedManifest.Manifest if m.SchemaVersion != 1 { return nil, fmt.Errorf("unsupported schema version %d for %q", m.SchemaVersion, reference.FamiliarString(ref)) } if len(m.FSLayers) != len(m.History) { return nil, fmt.Errorf("length of history not equal to number of layers for %q", reference.FamiliarString(ref)) } if len(m.FSLayers) == 0 { return nil, fmt.Errorf("no FSLayers in manifest for %q", reference.FamiliarString(ref)) } return m, nil } // fixManifestLayers removes repeated layers from the manifest and checks the // correctness of the parent chain. func fixManifestLayers(m *schema1.Manifest) error { imgs := make([]*image.V1Image, len(m.FSLayers)) for i := range m.FSLayers { img := &image.V1Image{} if err := json.Unmarshal([]byte(m.History[i].V1Compatibility), img); err != nil { return err } imgs[i] = img if err := v1.ValidateID(img.ID); err != nil { return err } } if imgs[len(imgs)-1].Parent != "" && runtime.GOOS != "windows" { // Windows base layer can point to a base layer parent that is not in manifest. return errors.New("invalid parent ID in the base layer of the image") } // check general duplicates to error instead of a deadlock idmap := make(map[string]struct{}) var lastID string for _, img := range imgs { // skip IDs that appear after each other, we handle those later if _, exists := idmap[img.ID]; img.ID != lastID && exists { return fmt.Errorf("ID %+v appears multiple times in manifest", img.ID) } lastID = img.ID idmap[lastID] = struct{}{} } // backwards loop so that we keep the remaining indexes after removing items for i := len(imgs) - 2; i >= 0; i-- { if imgs[i].ID == imgs[i+1].ID { // repeated ID. remove and continue m.FSLayers = append(m.FSLayers[:i], m.FSLayers[i+1:]...) m.History = append(m.History[:i], m.History[i+1:]...) } else if imgs[i].Parent != imgs[i+1].ID { return fmt.Errorf("invalid parent ID. Expected %v, got %v", imgs[i+1].ID, imgs[i].Parent) } } return nil } func createDownloadFile() (*os.File, error) { return ioutil.TempFile("", "GetImageBlob") } func toOCIPlatform(p manifestlist.PlatformSpec) specs.Platform { return specs.Platform{ OS: p.OS, Architecture: p.Architecture, Variant: p.Variant, OSFeatures: p.OSFeatures, OSVersion: p.OSVersion, } }