package distribution // import "github.com/docker/docker/distribution" import ( "encoding/json" "fmt" "io" "runtime" "github.com/docker/distribution" "github.com/docker/distribution/manifest/schema2" "github.com/docker/docker/api/types" "github.com/docker/docker/distribution/metadata" "github.com/docker/docker/distribution/xfer" "github.com/docker/docker/image" "github.com/docker/docker/layer" "github.com/docker/docker/pkg/progress" "github.com/docker/docker/pkg/system" refstore "github.com/docker/docker/reference" "github.com/docker/docker/registry" "github.com/docker/libtrust" "github.com/opencontainers/go-digest" specs "github.com/opencontainers/image-spec/specs-go/v1" "golang.org/x/net/context" ) // Config stores configuration for communicating // with a registry. type Config struct { // MetaHeaders stores HTTP headers with metadata about the image MetaHeaders map[string][]string // AuthConfig holds authentication credentials for authenticating with // the registry. AuthConfig *types.AuthConfig // ProgressOutput is the interface for showing the status of the pull // operation. ProgressOutput progress.Output // RegistryService is the registry service to use for TLS configuration // and endpoint lookup. RegistryService registry.Service // ImageEventLogger notifies events for a given image ImageEventLogger func(id, name, action string) // MetadataStore is the storage backend for distribution-specific // metadata. MetadataStore metadata.Store // ImageStore manages images. ImageStore ImageConfigStore // ReferenceStore manages tags. This value is optional, when excluded // content will not be tagged. ReferenceStore refstore.Store // RequireSchema2 ensures that only schema2 manifests are used. RequireSchema2 bool } // ImagePullConfig stores pull configuration. type ImagePullConfig struct { Config // DownloadManager manages concurrent pulls. DownloadManager RootFSDownloadManager // Schema2Types is the valid schema2 configuration types allowed // by the pull operation. Schema2Types []string // OS is the requested operating system of the image being pulled to ensure it can be validated // when the host OS supports multiple image operating systems. OS string } // ImagePushConfig stores push configuration. type ImagePushConfig struct { Config // ConfigMediaType is the configuration media type for // schema2 manifests. ConfigMediaType string // LayerStores (indexed by operating system) manages layers. LayerStores map[string]PushLayerProvider // TrustKey is the private key for legacy signatures. This is typically // an ephemeral key, since these signatures are no longer verified. TrustKey libtrust.PrivateKey // UploadManager dispatches uploads. UploadManager *xfer.LayerUploadManager } // ImageConfigStore handles storing and getting image configurations // by digest. Allows getting an image configurations rootfs from the // configuration. type ImageConfigStore interface { Put([]byte) (digest.Digest, error) Get(digest.Digest) ([]byte, error) RootFSFromConfig([]byte) (*image.RootFS, error) PlatformFromConfig([]byte) (*specs.Platform, error) } // PushLayerProvider provides layers to be pushed by ChainID. type PushLayerProvider interface { Get(layer.ChainID) (PushLayer, error) } // PushLayer is a pushable layer with metadata about the layer // and access to the content of the layer. type PushLayer interface { ChainID() layer.ChainID DiffID() layer.DiffID Parent() PushLayer Open() (io.ReadCloser, error) Size() (int64, error) MediaType() string Release() } // RootFSDownloadManager handles downloading of the rootfs type RootFSDownloadManager interface { // Download downloads the layers into the given initial rootfs and // returns the final rootfs. // Given progress output to track download progress // Returns function to release download resources Download(ctx context.Context, initialRootFS image.RootFS, os string, layers []xfer.DownloadDescriptor, progressOutput progress.Output) (image.RootFS, func(), error) } type imageConfigStore struct { image.Store } // NewImageConfigStoreFromStore returns an ImageConfigStore backed // by an image.Store for container images. func NewImageConfigStoreFromStore(is image.Store) ImageConfigStore { return &imageConfigStore{ Store: is, } } func (s *imageConfigStore) Put(c []byte) (digest.Digest, error) { id, err := s.Store.Create(c) return digest.Digest(id), err } func (s *imageConfigStore) Get(d digest.Digest) ([]byte, error) { img, err := s.Store.Get(image.IDFromDigest(d)) if err != nil { return nil, err } return img.RawJSON(), nil } func (s *imageConfigStore) RootFSFromConfig(c []byte) (*image.RootFS, error) { var unmarshalledConfig image.Image if err := json.Unmarshal(c, &unmarshalledConfig); err != nil { return nil, err } return unmarshalledConfig.RootFS, nil } func (s *imageConfigStore) PlatformFromConfig(c []byte) (*specs.Platform, error) { var unmarshalledConfig image.Image if err := json.Unmarshal(c, &unmarshalledConfig); err != nil { return nil, err } // fail immediately on Windows when downloading a non-Windows image // and vice versa. Exception on Windows if Linux Containers are enabled. if runtime.GOOS == "windows" && unmarshalledConfig.OS == "linux" && !system.LCOWSupported() { return nil, fmt.Errorf("image operating system %q cannot be used on this platform", unmarshalledConfig.OS) } else if runtime.GOOS != "windows" && unmarshalledConfig.OS == "windows" { return nil, fmt.Errorf("image operating system %q cannot be used on this platform", unmarshalledConfig.OS) } os := unmarshalledConfig.OS if os == "" { os = runtime.GOOS } if !system.IsOSSupported(os) { return nil, system.ErrNotSupportedOperatingSystem } return &specs.Platform{OS: os, OSVersion: unmarshalledConfig.OSVersion}, nil } type storeLayerProvider struct { ls layer.Store } // NewLayerProvidersFromStores returns layer providers backed by // an instance of LayerStore. Only getting layers as gzipped // tars is supported. func NewLayerProvidersFromStores(lss map[string]layer.Store) map[string]PushLayerProvider { plps := make(map[string]PushLayerProvider) for os, ls := range lss { plps[os] = &storeLayerProvider{ls: ls} } return plps } func (p *storeLayerProvider) Get(lid layer.ChainID) (PushLayer, error) { if lid == "" { return &storeLayer{ Layer: layer.EmptyLayer, }, nil } l, err := p.ls.Get(lid) if err != nil { return nil, err } sl := storeLayer{ Layer: l, ls: p.ls, } if d, ok := l.(distribution.Describable); ok { return &describableStoreLayer{ storeLayer: sl, describable: d, }, nil } return &sl, nil } type storeLayer struct { layer.Layer ls layer.Store } func (l *storeLayer) Parent() PushLayer { p := l.Layer.Parent() if p == nil { return nil } sl := storeLayer{ Layer: p, ls: l.ls, } if d, ok := p.(distribution.Describable); ok { return &describableStoreLayer{ storeLayer: sl, describable: d, } } return &sl } func (l *storeLayer) Open() (io.ReadCloser, error) { return l.Layer.TarStream() } func (l *storeLayer) Size() (int64, error) { return l.Layer.DiffSize() } func (l *storeLayer) MediaType() string { // layer store always returns uncompressed tars return schema2.MediaTypeUncompressedLayer } func (l *storeLayer) Release() { if l.ls != nil { layer.ReleaseAndLog(l.ls, l.Layer) } } type describableStoreLayer struct { storeLayer describable distribution.Describable } func (l *describableStoreLayer) Descriptor() distribution.Descriptor { return l.describable.Descriptor() }