a0230f3d9a
I think this was there for historic reasons (may have been goimports expected this, and we used to have a linter that wanted it), but it's not needed, so let's remove it (to make my IDE less complaining about unneeded aliases). Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
221 lines
7.6 KiB
Go
221 lines
7.6 KiB
Go
package distribution
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import (
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"context"
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"encoding/json"
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"fmt"
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"io"
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"github.com/containerd/containerd/content"
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"github.com/containerd/containerd/errdefs"
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"github.com/containerd/containerd/log"
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"github.com/containerd/containerd/remotes"
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"github.com/docker/distribution"
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"github.com/docker/distribution/manifest/manifestlist"
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"github.com/docker/distribution/manifest/schema1"
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"github.com/docker/distribution/manifest/schema2"
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"github.com/opencontainers/go-digest"
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specs "github.com/opencontainers/image-spec/specs-go/v1"
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"github.com/pkg/errors"
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)
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// This is used by manifestStore to pare down the requirements to implement a
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// full distribution.ManifestService, since `Get` is all we use here.
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type manifestGetter interface {
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Get(ctx context.Context, dgst digest.Digest, options ...distribution.ManifestServiceOption) (distribution.Manifest, error)
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}
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type manifestStore struct {
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local ContentStore
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remote manifestGetter
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}
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// ContentStore is the interface used to persist registry blobs
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//
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// Currently this is only used to persist manifests and manifest lists.
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// It is exported because `distribution.Pull` takes one as an argument.
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type ContentStore interface {
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content.Ingester
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content.Provider
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Info(ctx context.Context, dgst digest.Digest) (content.Info, error)
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Abort(ctx context.Context, ref string) error
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}
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func (m *manifestStore) getLocal(ctx context.Context, desc specs.Descriptor) (distribution.Manifest, error) {
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ra, err := m.local.ReaderAt(ctx, desc)
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if err != nil {
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return nil, errors.Wrap(err, "error getting content store reader")
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}
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defer ra.Close()
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r := io.NewSectionReader(ra, 0, ra.Size())
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data, err := io.ReadAll(r)
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if err != nil {
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return nil, errors.Wrap(err, "error reading manifest from content store")
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}
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manifest, _, err := distribution.UnmarshalManifest(desc.MediaType, data)
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if err != nil {
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return nil, errors.Wrap(err, "error unmarshaling manifest from content store")
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}
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return manifest, nil
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}
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func (m *manifestStore) getMediaType(ctx context.Context, desc specs.Descriptor) (string, error) {
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ra, err := m.local.ReaderAt(ctx, desc)
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if err != nil {
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return "", errors.Wrap(err, "error getting reader to detect media type")
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}
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defer ra.Close()
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mt, err := detectManifestMediaType(ra)
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if err != nil {
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return "", errors.Wrap(err, "error detecting media type")
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}
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return mt, nil
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}
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func (m *manifestStore) Get(ctx context.Context, desc specs.Descriptor) (distribution.Manifest, error) {
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l := log.G(ctx)
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if desc.MediaType == "" {
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// When pulling by digest we will not have the media type on the
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// descriptor since we have not made a request to the registry yet
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//
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// We already have the digest, so we only lookup locally... by digest.
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//
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// Let's try to detect the media type so we can have a good ref key
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// here. We may not even have the content locally, and this is fine, but
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// if we do we should determine that.
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mt, err := m.getMediaType(ctx, desc)
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if err != nil && !errdefs.IsNotFound(err) {
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l.WithError(err).Warn("Error looking up media type of content")
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}
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desc.MediaType = mt
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}
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key := remotes.MakeRefKey(ctx, desc)
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// Here we open a writer to the requested content. This both gives us a
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// reference to write to if indeed we need to persist it and increments the
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// ref count on the content.
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w, err := m.local.Writer(ctx, content.WithDescriptor(desc), content.WithRef(key))
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if err != nil {
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if errdefs.IsAlreadyExists(err) {
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var manifest distribution.Manifest
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if manifest, err = m.getLocal(ctx, desc); err == nil {
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return manifest, nil
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}
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}
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// always fallback to the remote if there is an error with the local store
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}
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if w != nil {
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defer w.Close()
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}
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l.WithError(err).Debug("Fetching manifest from remote")
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manifest, err := m.remote.Get(ctx, desc.Digest)
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if err != nil {
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if err := m.local.Abort(ctx, key); err != nil {
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l.WithError(err).Warn("Error while attempting to abort content ingest")
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}
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return nil, err
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}
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if w != nil {
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// if `w` is nil here, something happened with the content store, so don't bother trying to persist.
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if err := m.Put(ctx, manifest, desc, w); err != nil {
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if err := m.local.Abort(ctx, key); err != nil {
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l.WithError(err).Warn("error aborting content ingest")
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}
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l.WithError(err).Warn("Error persisting manifest")
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}
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}
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return manifest, nil
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}
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func (m *manifestStore) Put(ctx context.Context, manifest distribution.Manifest, desc specs.Descriptor, w content.Writer) error {
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mt, payload, err := manifest.Payload()
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if err != nil {
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return err
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}
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desc.Size = int64(len(payload))
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desc.MediaType = mt
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if _, err = w.Write(payload); err != nil {
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return errors.Wrap(err, "error writing manifest to content store")
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}
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if err := w.Commit(ctx, desc.Size, desc.Digest); err != nil {
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return errors.Wrap(err, "error committing manifest to content store")
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}
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return nil
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}
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func detectManifestMediaType(ra content.ReaderAt) (string, error) {
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dt := make([]byte, ra.Size())
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if _, err := ra.ReadAt(dt, 0); err != nil {
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return "", err
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}
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return detectManifestBlobMediaType(dt)
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}
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// This is used when the manifest store does not know the media type of a sha it
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// was told to get. This would currently only happen when pulling by digest.
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// The media type is needed so the blob can be unmarshalled properly.
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func detectManifestBlobMediaType(dt []byte) (string, error) {
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var mfst struct {
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MediaType string `json:"mediaType"`
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Manifests json.RawMessage `json:"manifests"` // oci index, manifest list
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Config json.RawMessage `json:"config"` // schema2 Manifest
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Layers json.RawMessage `json:"layers"` // schema2 Manifest
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FSLayers json.RawMessage `json:"fsLayers"` // schema1 Manifest
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}
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if err := json.Unmarshal(dt, &mfst); err != nil {
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return "", err
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}
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// We may have a media type specified in the json, in which case that should be used.
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// Docker types should generally have a media type set.
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// OCI (golang) types do not have a `mediaType` defined, and it is optional in the spec.
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//
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// `distribution.UnmarshalManifest`, which is used to unmarshal this for real, checks these media type values.
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// If the specified media type does not match it will error, and in some cases (docker media types) it is required.
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// So pretty much if we don't have a media type we can fall back to OCI.
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// This does have a special fallback for schema1 manifests just because it is easy to detect.
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switch mfst.MediaType {
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case schema2.MediaTypeManifest, specs.MediaTypeImageManifest:
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if mfst.Manifests != nil || mfst.FSLayers != nil {
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return "", fmt.Errorf(`media-type: %q should not have "manifests" or "fsLayers"`, mfst.MediaType)
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}
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return mfst.MediaType, nil
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case manifestlist.MediaTypeManifestList, specs.MediaTypeImageIndex:
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if mfst.Config != nil || mfst.Layers != nil || mfst.FSLayers != nil {
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return "", fmt.Errorf(`media-type: %q should not have "config", "layers", or "fsLayers"`, mfst.MediaType)
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}
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return mfst.MediaType, nil
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case schema1.MediaTypeManifest:
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if mfst.Manifests != nil || mfst.Layers != nil {
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return "", fmt.Errorf(`media-type: %q should not have "manifests" or "layers"`, mfst.MediaType)
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}
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return mfst.MediaType, nil
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default:
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if mfst.MediaType != "" {
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return mfst.MediaType, nil
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}
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}
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switch {
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case mfst.FSLayers != nil && mfst.Manifests == nil && mfst.Layers == nil && mfst.Config == nil:
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return schema1.MediaTypeManifest, nil
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case mfst.Config != nil && mfst.Manifests == nil && mfst.FSLayers == nil,
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mfst.Layers != nil && mfst.Manifests == nil && mfst.FSLayers == nil:
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return specs.MediaTypeImageManifest, nil
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case mfst.Config == nil && mfst.Layers == nil && mfst.FSLayers == nil:
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// fallback to index
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return specs.MediaTypeImageIndex, nil
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}
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return "", errors.New("media-type: cannot determine")
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}
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