distribution/docs/storage/registry.go

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package storage
import (
"github.com/docker/distribution"
"github.com/docker/distribution/registry/api/v2"
"github.com/docker/distribution/registry/storage/cache"
storagedriver "github.com/docker/distribution/registry/storage/driver"
"golang.org/x/net/context"
)
// registry is the top-level implementation of Registry for use in the storage
// package. All instances should descend from this object.
type registry struct {
driver storagedriver.StorageDriver
pm *pathMapper
blobStore *blobStore
layerInfoCache cache.LayerInfoCache
}
// NewRegistryWithDriver creates a new registry instance from the provided
// driver. The resulting registry may be shared by multiple goroutines but is
// cheap to allocate.
func NewRegistryWithDriver(driver storagedriver.StorageDriver, layerInfoCache cache.LayerInfoCache) distribution.Namespace {
bs := &blobStore{
driver: driver,
pm: defaultPathMapper,
}
return &registry{
driver: driver,
blobStore: bs,
// TODO(sday): This should be configurable.
pm: defaultPathMapper,
layerInfoCache: layerInfoCache,
}
}
// Scope returns the namespace scope for a registry. The registry
// will only serve repositories contained within this scope.
func (reg *registry) Scope() distribution.Scope {
return distribution.GlobalScope
}
// Repository returns an instance of the repository tied to the registry.
// Instances should not be shared between goroutines but are cheap to
// allocate. In general, they should be request scoped.
func (reg *registry) Repository(ctx context.Context, name string) (distribution.Repository, error) {
if err := v2.ValidateRespositoryName(name); err != nil {
return nil, distribution.ErrRepositoryNameInvalid{
Name: name,
Reason: err,
}
}
return &repository{
ctx: ctx,
registry: reg,
name: name,
}, nil
}
// repository provides name-scoped access to various services.
type repository struct {
*registry
ctx context.Context
name string
}
// Name returns the name of the repository.
func (repo *repository) Name() string {
return repo.name
}
// Manifests returns an instance of ManifestService. Instantiation is cheap and
// may be context sensitive in the future. The instance should be used similar
// to a request local.
func (repo *repository) Manifests() distribution.ManifestService {
return &manifestStore{
repository: repo,
revisionStore: &revisionStore{
repository: repo,
},
tagStore: &tagStore{
repository: repo,
},
}
}
// Layers returns an instance of the LayerService. Instantiation is cheap and
// may be context sensitive in the future. The instance should be used similar
// to a request local.
func (repo *repository) Layers() distribution.LayerService {
ls := &layerStore{
repository: repo,
}
if repo.registry.layerInfoCache != nil {
// TODO(stevvooe): This is not the best place to setup a cache. We would
// really like to decouple the cache from the backend but also have the
// manifeset service use the layer service cache. For now, we can simply
// integrate the cache directly. The main issue is that we have layer
// access and layer data coupled in a single object. Work is already under
// way to decouple this.
return &cachedLayerService{
LayerService: ls,
repository: repo,
ctx: repo.ctx,
driver: repo.driver,
blobStore: repo.blobStore,
cache: repo.registry.layerInfoCache,
}
}
return ls
}
func (repo *repository) Signatures() distribution.SignatureService {
return &signatureStore{
repository: repo,
}
}