package reference // import "github.com/docker/docker/reference" import ( "encoding/json" "fmt" "os" "path/filepath" "sort" "sync" "github.com/docker/distribution/reference" "github.com/docker/docker/pkg/ioutils" "github.com/opencontainers/go-digest" "github.com/pkg/errors" ) var ( // ErrDoesNotExist is returned if a reference is not found in the // store. ErrDoesNotExist notFoundError = "reference does not exist" ) // An Association is a tuple associating a reference with an image ID. type Association struct { Ref reference.Named ID digest.Digest } // Store provides the set of methods which can operate on a reference store. type Store interface { References(id digest.Digest) []reference.Named ReferencesByName(ref reference.Named) []Association AddTag(ref reference.Named, id digest.Digest, force bool) error AddDigest(ref reference.Canonical, id digest.Digest, force bool) error Delete(ref reference.Named) (bool, error) Get(ref reference.Named) (digest.Digest, error) } type refStore struct { mu sync.RWMutex // jsonPath is the path to the file where the serialized tag data is // stored. jsonPath string // Repositories is a map of repositories, indexed by name. Repositories map[string]repository // referencesByIDCache is a cache of references indexed by ID, to speed // up References. referencesByIDCache map[digest.Digest]map[string]reference.Named } // Repository maps tags to digests. The key is a stringified Reference, // including the repository name. type repository map[string]digest.Digest type lexicalRefs []reference.Named func (a lexicalRefs) Len() int { return len(a) } func (a lexicalRefs) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a lexicalRefs) Less(i, j int) bool { return a[i].String() < a[j].String() } type lexicalAssociations []Association func (a lexicalAssociations) Len() int { return len(a) } func (a lexicalAssociations) Swap(i, j int) { a[i], a[j] = a[j], a[i] } func (a lexicalAssociations) Less(i, j int) bool { return a[i].Ref.String() < a[j].Ref.String() } // NewReferenceStore creates a new reference store, tied to a file path where // the set of references are serialized in JSON format. func NewReferenceStore(jsonPath string) (Store, error) { abspath, err := filepath.Abs(jsonPath) if err != nil { return nil, err } store := &refStore{ jsonPath: abspath, Repositories: make(map[string]repository), referencesByIDCache: make(map[digest.Digest]map[string]reference.Named), } // Load the json file if it exists, otherwise create it. if err := store.reload(); os.IsNotExist(err) { if err := store.save(); err != nil { return nil, err } } else if err != nil { return nil, err } return store, nil } // AddTag adds a tag reference to the store. If force is set to true, existing // references can be overwritten. This only works for tags, not digests. func (store *refStore) AddTag(ref reference.Named, id digest.Digest, force bool) error { if _, isCanonical := ref.(reference.Canonical); isCanonical { return errors.WithStack(invalidTagError("refusing to create a tag with a digest reference")) } return store.addReference(reference.TagNameOnly(ref), id, force) } // AddDigest adds a digest reference to the store. func (store *refStore) AddDigest(ref reference.Canonical, id digest.Digest, force bool) error { return store.addReference(ref, id, force) } func favorDigest(originalRef reference.Named) (reference.Named, error) { ref := originalRef // If the reference includes a digest and a tag, we must store only the // digest. canonical, isCanonical := originalRef.(reference.Canonical) _, isNamedTagged := originalRef.(reference.NamedTagged) if isCanonical && isNamedTagged { trimmed, err := reference.WithDigest(reference.TrimNamed(canonical), canonical.Digest()) if err != nil { // should never happen return originalRef, err } ref = trimmed } return ref, nil } func (store *refStore) addReference(ref reference.Named, id digest.Digest, force bool) error { ref, err := favorDigest(ref) if err != nil { return err } refName := reference.FamiliarName(ref) refStr := reference.FamiliarString(ref) if refName == string(digest.Canonical) { return errors.WithStack(invalidTagError("refusing to create an ambiguous tag using digest algorithm as name")) } store.mu.Lock() defer store.mu.Unlock() repo, exists := store.Repositories[refName] if !exists || repo == nil { repo = make(map[string]digest.Digest) store.Repositories[refName] = repo } oldID, exists := repo[refStr] if exists { if oldID == id { // Nothing to do. The caller may have checked for this using store.Get in advance, but store.mu was unlocked in the meantime, so this can legitimately happen nevertheless. return nil } // force only works for tags if digested, isDigest := ref.(reference.Canonical); isDigest { return errors.WithStack(conflictingTagError("cannot overwrite digest " + digested.Digest().String())) } if !force { return errors.WithStack( conflictingTagError( fmt.Sprintf("tag %s is already set to image %s, use the force option to replace it", refStr, oldID.String()), ), ) } if store.referencesByIDCache[oldID] != nil { delete(store.referencesByIDCache[oldID], refStr) if len(store.referencesByIDCache[oldID]) == 0 { delete(store.referencesByIDCache, oldID) } } } repo[refStr] = id if store.referencesByIDCache[id] == nil { store.referencesByIDCache[id] = make(map[string]reference.Named) } store.referencesByIDCache[id][refStr] = ref return store.save() } // Delete deletes a reference from the store. It returns true if a deletion // happened, or false otherwise. func (store *refStore) Delete(ref reference.Named) (bool, error) { ref, err := favorDigest(ref) if err != nil { return false, err } ref = reference.TagNameOnly(ref) refName := reference.FamiliarName(ref) refStr := reference.FamiliarString(ref) store.mu.Lock() defer store.mu.Unlock() repo, exists := store.Repositories[refName] if !exists { return false, ErrDoesNotExist } if id, exists := repo[refStr]; exists { delete(repo, refStr) if len(repo) == 0 { delete(store.Repositories, refName) } if store.referencesByIDCache[id] != nil { delete(store.referencesByIDCache[id], refStr) if len(store.referencesByIDCache[id]) == 0 { delete(store.referencesByIDCache, id) } } return true, store.save() } return false, ErrDoesNotExist } // Get retrieves an item from the store by reference func (store *refStore) Get(ref reference.Named) (digest.Digest, error) { if canonical, ok := ref.(reference.Canonical); ok { // If reference contains both tag and digest, only // lookup by digest as it takes precedence over // tag, until tag/digest combos are stored. if _, ok := ref.(reference.Tagged); ok { var err error ref, err = reference.WithDigest(reference.TrimNamed(canonical), canonical.Digest()) if err != nil { return "", err } } } else { ref = reference.TagNameOnly(ref) } refName := reference.FamiliarName(ref) refStr := reference.FamiliarString(ref) store.mu.RLock() defer store.mu.RUnlock() repo, exists := store.Repositories[refName] if !exists || repo == nil { return "", ErrDoesNotExist } id, exists := repo[refStr] if !exists { return "", ErrDoesNotExist } return id, nil } // References returns a slice of references to the given ID. The slice // will be nil if there are no references to this ID. func (store *refStore) References(id digest.Digest) []reference.Named { store.mu.RLock() defer store.mu.RUnlock() // Convert the internal map to an array for two reasons: // 1) We must not return a mutable // 2) It would be ugly to expose the extraneous map keys to callers. var references []reference.Named for _, ref := range store.referencesByIDCache[id] { references = append(references, ref) } sort.Sort(lexicalRefs(references)) return references } // ReferencesByName returns the references for a given repository name. // If there are no references known for this repository name, // ReferencesByName returns nil. func (store *refStore) ReferencesByName(ref reference.Named) []Association { refName := reference.FamiliarName(ref) store.mu.RLock() defer store.mu.RUnlock() repo, exists := store.Repositories[refName] if !exists { return nil } var associations []Association for refStr, refID := range repo { ref, err := reference.ParseNormalizedNamed(refStr) if err != nil { // Should never happen return nil } associations = append(associations, Association{ Ref: ref, ID: refID, }) } sort.Sort(lexicalAssociations(associations)) return associations } func (store *refStore) save() error { // Store the json jsonData, err := json.Marshal(store) if err != nil { return err } return ioutils.AtomicWriteFile(store.jsonPath, jsonData, 0600) } func (store *refStore) reload() error { f, err := os.Open(store.jsonPath) if err != nil { return err } defer f.Close() if err := json.NewDecoder(f).Decode(&store); err != nil { return err } for _, repo := range store.Repositories { for refStr, refID := range repo { ref, err := reference.ParseNormalizedNamed(refStr) if err != nil { // Should never happen continue } if store.referencesByIDCache[refID] == nil { store.referencesByIDCache[refID] = make(map[string]reference.Named) } store.referencesByIDCache[refID][refStr] = ref } } return nil }