package storage import ( "context" "regexp" "strings" "testing" "github.com/distribution/distribution/v3" "github.com/distribution/distribution/v3/manifest" "github.com/distribution/distribution/v3/manifest/ocischema" "github.com/distribution/distribution/v3/registry/storage/driver/inmemory" "github.com/opencontainers/go-digest" v1 "github.com/opencontainers/image-spec/specs-go/v1" ) func TestVerifyOCIManifestNonDistributableLayer(t *testing.T) { ctx := context.Background() inmemoryDriver := inmemory.New() registry := createRegistry(t, inmemoryDriver, ManifestURLsAllowRegexp(regexp.MustCompile("^https?://foo")), ManifestURLsDenyRegexp(regexp.MustCompile("^https?://foo/nope"))) repo := makeRepository(t, registry, "test") manifestService := makeManifestService(t, repo) config, err := repo.Blobs(ctx).Put(ctx, v1.MediaTypeImageConfig, nil) if err != nil { t.Fatal(err) } layer, err := repo.Blobs(ctx).Put(ctx, v1.MediaTypeImageLayerGzip, nil) if err != nil { t.Fatal(err) } nonDistributableLayer := distribution.Descriptor{ Digest: "sha256:463435349086340864309863409683460843608348608934092322395278926a", Size: 6323, MediaType: v1.MediaTypeImageLayerNonDistributableGzip, //nolint:staticcheck // ignore A1019: v1.MediaTypeImageLayerNonDistributableGzip is deprecated: Non-distributable layers are deprecated, and not recommended for future use } emptyLayer := distribution.Descriptor{ Digest: "", } emptyGzipLayer := distribution.Descriptor{ Digest: "", MediaType: v1.MediaTypeImageLayerGzip, } template := ocischema.Manifest{ Versioned: manifest.Versioned{ SchemaVersion: 2, MediaType: v1.MediaTypeImageManifest, }, Config: config, } type testcase struct { BaseLayer distribution.Descriptor URLs []string Err error } cases := []testcase{ { nonDistributableLayer, nil, distribution.ErrManifestBlobUnknown{Digest: nonDistributableLayer.Digest}, }, { layer, []string{"http://foo/bar"}, nil, }, { nonDistributableLayer, []string{"file:///local/file"}, errInvalidURL, }, { nonDistributableLayer, []string{"http://foo/bar#baz"}, errInvalidURL, }, { nonDistributableLayer, []string{""}, errInvalidURL, }, { nonDistributableLayer, []string{"https://foo/bar", ""}, errInvalidURL, }, { nonDistributableLayer, []string{"", "https://foo/bar"}, errInvalidURL, }, { nonDistributableLayer, []string{"http://nope/bar"}, errInvalidURL, }, { nonDistributableLayer, []string{"http://foo/nope"}, errInvalidURL, }, { nonDistributableLayer, []string{"http://foo/bar"}, nil, }, { nonDistributableLayer, []string{"https://foo/bar"}, nil, }, { emptyLayer, []string{"https://foo/empty"}, digest.ErrDigestInvalidFormat, }, { emptyLayer, []string{}, digest.ErrDigestInvalidFormat, }, { emptyGzipLayer, []string{"https://foo/empty"}, digest.ErrDigestInvalidFormat, }, { emptyGzipLayer, []string{}, digest.ErrDigestInvalidFormat, }, } for _, c := range cases { m := template l := c.BaseLayer l.URLs = c.URLs m.Layers = []distribution.Descriptor{l} dm, err := ocischema.FromStruct(m) if err != nil { t.Error(err) continue } _, err = manifestService.Put(ctx, dm) if verr, ok := err.(distribution.ErrManifestVerification); ok { // Extract the first error if len(verr) == 2 { if _, ok = verr[1].(distribution.ErrManifestBlobUnknown); ok { err = verr[0] } } else if len(verr) == 1 { err = verr[0] } } if err != c.Err { t.Errorf("%#v: expected %v, got %v", l, c.Err, err) } } } func TestVerifyOCIManifestBlobLayerAndConfig(t *testing.T) { ctx := context.Background() inmemoryDriver := inmemory.New() registry := createRegistry(t, inmemoryDriver, ManifestURLsAllowRegexp(regexp.MustCompile("^https?://foo")), ManifestURLsDenyRegexp(regexp.MustCompile("^https?://foo/nope"))) repo := makeRepository(t, registry, strings.ToLower(t.Name())) manifestService := makeManifestService(t, repo) config, err := repo.Blobs(ctx).Put(ctx, v1.MediaTypeImageConfig, nil) if err != nil { t.Fatal(err) } layer, err := repo.Blobs(ctx).Put(ctx, v1.MediaTypeImageLayerGzip, nil) if err != nil { t.Fatal(err) } template := ocischema.Manifest{ Versioned: manifest.Versioned{ SchemaVersion: 2, MediaType: v1.MediaTypeImageManifest, }, } checkFn := func(m ocischema.Manifest, rerr error) { dm, err := ocischema.FromStruct(m) if err != nil { t.Error(err) return } _, err = manifestService.Put(ctx, dm) if verr, ok := err.(distribution.ErrManifestVerification); ok { // Extract the first error if len(verr) == 2 { if _, ok = verr[1].(distribution.ErrManifestBlobUnknown); ok { err = verr[0] } } else if len(verr) == 1 { err = verr[0] } } if err != rerr { t.Errorf("%#v: expected %v, got %v", m, rerr, err) } } type testcase struct { Desc distribution.Descriptor URLs []string Err error } layercases := []testcase{ // empty media type { distribution.Descriptor{}, []string{"http://foo/bar"}, digest.ErrDigestInvalidFormat, }, { distribution.Descriptor{}, nil, digest.ErrDigestInvalidFormat, }, // unknown media type, but blob is present { distribution.Descriptor{ Digest: layer.Digest, }, nil, nil, }, { distribution.Descriptor{ Digest: layer.Digest, }, []string{"http://foo/bar"}, nil, }, // gzip layer, but invalid digest { distribution.Descriptor{ MediaType: v1.MediaTypeImageLayerGzip, }, nil, digest.ErrDigestInvalidFormat, }, { distribution.Descriptor{ MediaType: v1.MediaTypeImageLayerGzip, }, []string{"https://foo/bar"}, digest.ErrDigestInvalidFormat, }, { distribution.Descriptor{ MediaType: v1.MediaTypeImageLayerGzip, Digest: digest.Digest("invalid"), }, nil, digest.ErrDigestInvalidFormat, }, // normal uploaded gzip layer { layer, nil, nil, }, { layer, []string{"https://foo/bar"}, nil, }, } for _, c := range layercases { m := template m.Config = config l := c.Desc l.URLs = c.URLs m.Layers = []distribution.Descriptor{l} checkFn(m, c.Err) } configcases := []testcase{ // valid config { config, nil, nil, }, // invalid digest { distribution.Descriptor{ MediaType: v1.MediaTypeImageConfig, }, []string{"https://foo/bar"}, digest.ErrDigestInvalidFormat, }, { distribution.Descriptor{ MediaType: v1.MediaTypeImageConfig, Digest: digest.Digest("invalid"), }, nil, digest.ErrDigestInvalidFormat, }, } for _, c := range configcases { m := template m.Config = c.Desc m.Config.URLs = c.URLs checkFn(m, c.Err) } }