package storage import ( "errors" "net" "path" "strings" "sync" "github.com/containers/image/copy" "github.com/containers/image/docker/reference" "github.com/containers/image/image" "github.com/containers/image/manifest" "github.com/containers/image/signature" istorage "github.com/containers/image/storage" "github.com/containers/image/transports/alltransports" "github.com/containers/image/types" "github.com/containers/storage" digest "github.com/opencontainers/go-digest" ) const ( minimumTruncatedIDLength = 3 ) var ( // ErrCannotParseImageID is returned when we try to ResolveNames for an image ID ErrCannotParseImageID = errors.New("cannot parse an image ID") // ErrImageMultiplyTagged is returned when we try to remove an image that still has multiple names ErrImageMultiplyTagged = errors.New("image still has multiple names applied") ) // ImageResult wraps a subset of information about an image: its ID, its names, // and the size, if known, or nil if it isn't. type ImageResult struct { ID string Name string RepoTags []string RepoDigests []string Size *uint64 Digest digest.Digest ConfigDigest digest.Digest User string } type indexInfo struct { name string secure bool } // A set of information that we prefer to cache about images, so that we can // avoid having to reread them every time we need to return information about // images. type imageCacheItem struct { user string size *uint64 configDigest digest.Digest } type imageService struct { store storage.Store defaultTransport string insecureRegistryCIDRs []*net.IPNet indexConfigs map[string]*indexInfo registries []string imageCache map[string]imageCacheItem imageCacheLock sync.Mutex } // sizer knows its size. type sizer interface { Size() (int64, error) } // ImageServer wraps up various CRI-related activities into a reusable // implementation. type ImageServer interface { // ListImages returns list of all images which match the filter. ListImages(systemContext *types.SystemContext, filter string) ([]ImageResult, error) // ImageStatus returns status of an image which matches the filter. ImageStatus(systemContext *types.SystemContext, filter string) (*ImageResult, error) // PrepareImage returns an Image where the config digest can be grabbed // for further analysis. Call Close() on the resulting image. PrepareImage(systemContext *types.SystemContext, imageName string, options *copy.Options) (types.Image, error) // PullImage imports an image from the specified location. PullImage(systemContext *types.SystemContext, imageName string, options *copy.Options) (types.ImageReference, error) // UntagImage removes a name from the specified image, and if it was // the only name the image had, removes the image. UntagImage(systemContext *types.SystemContext, imageName string) error // RemoveImage deletes the specified image. RemoveImage(systemContext *types.SystemContext, imageName string) error // GetStore returns the reference to the storage library Store which // the image server uses to hold images, and is the destination used // when it's asked to pull an image. GetStore() storage.Store // CanPull preliminary checks whether we're allowed to pull an image CanPull(imageName string, options *copy.Options) (bool, error) // ResolveNames takes an image reference and if it's unqualified (w/o hostname), // it uses crio's default registries to qualify it. ResolveNames(imageName string) ([]string, error) } func (svc *imageService) getRef(name string) (types.ImageReference, error) { ref, err := alltransports.ParseImageName(name) if err != nil { ref2, err2 := istorage.Transport.ParseStoreReference(svc.store, "@"+name) if err2 != nil { ref3, err3 := istorage.Transport.ParseStoreReference(svc.store, name) if err3 != nil { return nil, err } ref2 = ref3 } ref = ref2 } return ref, nil } func sortNamesByType(names []string) (bestName string, tags, digests []string) { for _, name := range names { if len(name) > 72 && name[len(name)-72:len(name)-64] == "@sha256:" { digests = append(digests, name) } else { tags = append(tags, name) } } if len(digests) > 0 { bestName = digests[0] } if len(tags) > 0 { bestName = tags[0] } return bestName, tags, digests } func (svc *imageService) makeRepoDigests(knownRepoDigests, tags []string, imageID string) (imageDigest digest.Digest, repoDigests []string) { // Look up the image's digest. img, err := svc.store.Image(imageID) if err != nil { return "", knownRepoDigests } imageDigest = img.Digest if imageDigest == "" { imgDigest, err := svc.store.ImageBigDataDigest(imageID, storage.ImageDigestBigDataKey) if err != nil || imgDigest == "" { return "", knownRepoDigests } imageDigest = imgDigest } // If there are no names to convert to canonical references, we're done. if len(tags) == 0 { return imageDigest, knownRepoDigests } // We only want to supplement what's already explicitly in the list, so keep track of values // that we already know. digestMap := make(map[string]struct{}) repoDigests = knownRepoDigests for _, repoDigest := range knownRepoDigests { digestMap[repoDigest] = struct{}{} } // For each tagged name, parse the name, and if we can extract a named reference, convert // it into a canonical reference using the digest and add it to the list. for _, tag := range tags { if ref, err2 := reference.ParseAnyReference(tag); err2 == nil { if name, ok := ref.(reference.Named); ok { trimmed := reference.TrimNamed(name) if imageRef, err3 := reference.WithDigest(trimmed, imageDigest); err3 == nil { if _, ok := digestMap[imageRef.String()]; !ok { repoDigests = append(repoDigests, imageRef.String()) digestMap[imageRef.String()] = struct{}{} } } } } } return imageDigest, repoDigests } func (svc *imageService) ListImages(systemContext *types.SystemContext, filter string) ([]ImageResult, error) { results := []ImageResult{} if filter != "" { ref, err := svc.getRef(filter) if err != nil { return nil, err } if image, err := istorage.Transport.GetStoreImage(svc.store, ref); err == nil { var user string var size *uint64 var configDigest digest.Digest if cacheItem, ok := svc.imageCache[image.ID]; ok { user, size, configDigest = cacheItem.user, cacheItem.size, cacheItem.configDigest } else { img, err := ref.NewImageSource(systemContext) if err != nil { return nil, err } size = imageSize(img) configDigest, err = imageConfigDigest(img, nil) img.Close() if err != nil { return nil, err } imageFull, err := ref.NewImage(systemContext) if err != nil { return nil, err } defer imageFull.Close() imageConfig, err := imageFull.OCIConfig() if err != nil { return nil, err } user = imageConfig.Config.User cacheItem := imageCacheItem{ user: user, size: size, configDigest: configDigest, } svc.imageCache[image.ID] = cacheItem } name, tags, digests := sortNamesByType(image.Names) imageDigest, repoDigests := svc.makeRepoDigests(digests, tags, image.ID) results = append(results, ImageResult{ ID: image.ID, Name: name, RepoTags: tags, RepoDigests: repoDigests, Size: size, Digest: imageDigest, ConfigDigest: configDigest, User: user, }) } } else { images, err := svc.store.Images() if err != nil { return nil, err } visited := make(map[string]struct{}) defer func() { // We built a map using IDs of images that we looked // at, so remove any items from the cache that don't // correspond to any of those IDs. removedIDs := make([]string, 0, len(svc.imageCache)) for imageID := range svc.imageCache { if _, keep := visited[imageID]; !keep { // We have cached data for an image // with this ID, but it's not in the // list of images now, so the image has // been removed. removedIDs = append(removedIDs, imageID) } } // Handle the removals. svc.imageCacheLock.Lock() for _, removedID := range removedIDs { delete(svc.imageCache, removedID) } svc.imageCacheLock.Unlock() }() for _, image := range images { visited[image.ID] = struct{}{} var user string var size *uint64 var configDigest digest.Digest svc.imageCacheLock.Lock() cacheItem, ok := svc.imageCache[image.ID] svc.imageCacheLock.Unlock() if ok { user, size, configDigest = cacheItem.user, cacheItem.size, cacheItem.configDigest } else { ref, err := istorage.Transport.ParseStoreReference(svc.store, "@"+image.ID) if err != nil { return nil, err } img, err := ref.NewImageSource(systemContext) if err != nil { return nil, err } size = imageSize(img) configDigest, err = imageConfigDigest(img, nil) img.Close() if err != nil { return nil, err } imageFull, err := ref.NewImage(systemContext) if err != nil { return nil, err } defer imageFull.Close() imageConfig, err := imageFull.OCIConfig() if err != nil { return nil, err } user = imageConfig.Config.User cacheItem := imageCacheItem{ user: user, size: size, configDigest: configDigest, } svc.imageCacheLock.Lock() svc.imageCache[image.ID] = cacheItem svc.imageCacheLock.Unlock() } name, tags, digests := sortNamesByType(image.Names) imageDigest, repoDigests := svc.makeRepoDigests(digests, tags, image.ID) results = append(results, ImageResult{ ID: image.ID, Name: name, RepoTags: tags, RepoDigests: repoDigests, Size: size, Digest: imageDigest, ConfigDigest: configDigest, User: user, }) } } return results, nil } func (svc *imageService) ImageStatus(systemContext *types.SystemContext, nameOrID string) (*ImageResult, error) { ref, err := alltransports.ParseImageName(nameOrID) if err != nil { ref2, err2 := istorage.Transport.ParseStoreReference(svc.store, "@"+nameOrID) if err2 != nil { ref3, err3 := istorage.Transport.ParseStoreReference(svc.store, nameOrID) if err3 != nil { return nil, err } ref2 = ref3 } ref = ref2 } image, err := istorage.Transport.GetStoreImage(svc.store, ref) if err != nil { return nil, err } imageFull, err := ref.NewImage(systemContext) if err != nil { return nil, err } defer imageFull.Close() imageConfig, err := imageFull.OCIConfig() if err != nil { return nil, err } img, err := ref.NewImageSource(systemContext) if err != nil { return nil, err } defer img.Close() size := imageSize(img) configDigest, err := imageConfigDigest(img, nil) if err != nil { return nil, err } name, tags, digests := sortNamesByType(image.Names) imageDigest, repoDigests := svc.makeRepoDigests(digests, tags, image.ID) result := ImageResult{ ID: image.ID, Name: name, RepoTags: tags, RepoDigests: repoDigests, Size: size, Digest: imageDigest, ConfigDigest: configDigest, User: imageConfig.Config.User, } return &result, nil } func imageSize(img types.ImageSource) *uint64 { if s, ok := img.(sizer); ok { if sum, err := s.Size(); err == nil { usum := uint64(sum) return &usum } } return nil } func imageConfigDigest(img types.ImageSource, instanceDigest *digest.Digest) (digest.Digest, error) { manifestBytes, manifestType, err := img.GetManifest(instanceDigest) if err != nil { return "", err } imgManifest, err := manifest.FromBlob(manifestBytes, manifestType) if err != nil { return "", err } return imgManifest.ConfigInfo().Digest, nil } func (svc *imageService) CanPull(imageName string, options *copy.Options) (bool, error) { srcRef, err := svc.prepareReference(imageName, options) if err != nil { return false, err } rawSource, err := srcRef.NewImageSource(options.SourceCtx) if err != nil { return false, err } sourceCtx := &types.SystemContext{} if options.SourceCtx != nil { sourceCtx = options.SourceCtx } src, err := image.FromSource(sourceCtx, rawSource) if err != nil { rawSource.Close() return false, err } src.Close() return true, nil } // prepareReference creates an image reference from an image string and set options // for the source context func (svc *imageService) prepareReference(imageName string, options *copy.Options) (types.ImageReference, error) { if imageName == "" { return nil, storage.ErrNotAnImage } srcRef, err := alltransports.ParseImageName(imageName) if err != nil { if svc.defaultTransport == "" { return nil, err } srcRef2, err2 := alltransports.ParseImageName(svc.defaultTransport + imageName) if err2 != nil { return nil, err } srcRef = srcRef2 } if options.SourceCtx == nil { options.SourceCtx = &types.SystemContext{} } hostname := reference.Domain(srcRef.DockerReference()) if secure := svc.isSecureIndex(hostname); !secure { options.SourceCtx.DockerInsecureSkipTLSVerify = !secure } return srcRef, nil } func (svc *imageService) PrepareImage(systemContext *types.SystemContext, imageName string, options *copy.Options) (types.Image, error) { if options == nil { options = ©.Options{} } srcRef, err := svc.prepareReference(imageName, options) if err != nil { return nil, err } return srcRef.NewImage(systemContext) } func (svc *imageService) PullImage(systemContext *types.SystemContext, imageName string, options *copy.Options) (types.ImageReference, error) { policy, err := signature.DefaultPolicy(systemContext) if err != nil { return nil, err } policyContext, err := signature.NewPolicyContext(policy) if err != nil { return nil, err } if options == nil { options = ©.Options{} } srcRef, err := svc.prepareReference(imageName, options) if err != nil { return nil, err } dest := imageName if srcRef.DockerReference() != nil { dest = srcRef.DockerReference().Name() if tagged, ok := srcRef.DockerReference().(reference.NamedTagged); ok { dest = dest + ":" + tagged.Tag() } if canonical, ok := srcRef.DockerReference().(reference.Canonical); ok { dest = dest + "@" + canonical.Digest().String() } } destRef, err := istorage.Transport.ParseStoreReference(svc.store, dest) if err != nil { return nil, err } err = copy.Image(policyContext, destRef, srcRef, options) if err != nil { return nil, err } return destRef, nil } func (svc *imageService) UntagImage(systemContext *types.SystemContext, nameOrID string) error { ref, err := alltransports.ParseImageName(nameOrID) if err != nil { ref2, err2 := istorage.Transport.ParseStoreReference(svc.store, "@"+nameOrID) if err2 != nil { ref3, err3 := istorage.Transport.ParseStoreReference(svc.store, nameOrID) if err3 != nil { return err } ref2 = ref3 } ref = ref2 } img, err := istorage.Transport.GetStoreImage(svc.store, ref) if err != nil { return err } if !strings.HasPrefix(img.ID, nameOrID) { namedRef, err := svc.prepareReference(nameOrID, ©.Options{}) if err != nil { return err } name := nameOrID if namedRef.DockerReference() != nil { name = namedRef.DockerReference().Name() if tagged, ok := namedRef.DockerReference().(reference.NamedTagged); ok { name = name + ":" + tagged.Tag() } if canonical, ok := namedRef.DockerReference().(reference.Canonical); ok { name = name + "@" + canonical.Digest().String() } } prunedNames := make([]string, 0, len(img.Names)) for _, imgName := range img.Names { if imgName != name && imgName != nameOrID { prunedNames = append(prunedNames, imgName) } } if len(prunedNames) > 0 { return svc.store.SetNames(img.ID, prunedNames) } } return ref.DeleteImage(systemContext) } func (svc *imageService) RemoveImage(systemContext *types.SystemContext, nameOrID string) error { ref, err := alltransports.ParseImageName(nameOrID) if err != nil { ref2, err2 := istorage.Transport.ParseStoreReference(svc.store, "@"+nameOrID) if err2 != nil { ref3, err3 := istorage.Transport.ParseStoreReference(svc.store, nameOrID) if err3 != nil { return err } ref2 = ref3 } ref = ref2 } return ref.DeleteImage(systemContext) } func (svc *imageService) GetStore() storage.Store { return svc.store } func (svc *imageService) isSecureIndex(indexName string) bool { if index, ok := svc.indexConfigs[indexName]; ok { return index.secure } host, _, err := net.SplitHostPort(indexName) if err != nil { // assume indexName is of the form `host` without the port and go on. host = indexName } addrs, err := net.LookupIP(host) if err != nil { ip := net.ParseIP(host) if ip != nil { addrs = []net.IP{ip} } // if ip == nil, then `host` is neither an IP nor it could be looked up, // either because the index is unreachable, or because the index is behind an HTTP proxy. // So, len(addrs) == 0 and we're not aborting. } // Try CIDR notation only if addrs has any elements, i.e. if `host`'s IP could be determined. for _, addr := range addrs { for _, ipnet := range svc.insecureRegistryCIDRs { // check if the addr falls in the subnet if ipnet.Contains(addr) { return false } } } return true } func splitDockerDomain(name string) (domain, remainder string) { i := strings.IndexRune(name, '/') if i == -1 || (!strings.ContainsAny(name[:i], ".:") && name[:i] != "localhost") { domain, remainder = "", name } else { domain, remainder = name[:i], name[i+1:] } return } func (svc *imageService) ResolveNames(imageName string) ([]string, error) { // _Maybe_ it's a truncated image ID. Don't prepend a registry name, then. if len(imageName) >= minimumTruncatedIDLength && svc.store != nil { if img, err := svc.store.Image(imageName); err == nil && img != nil && strings.HasPrefix(img.ID, imageName) { // It's a truncated version of the ID of an image that's present in local storage; // we need to expand it. return []string{img.ID}, nil } } // This to prevent any image ID to go through this routine _, err := reference.ParseNormalizedNamed(imageName) if err != nil { if strings.Contains(err.Error(), "cannot specify 64-byte hexadecimal strings") { return nil, ErrCannotParseImageID } return nil, err } domain, remainder := splitDockerDomain(imageName) if domain != "" { // this means the image is already fully qualified return []string{imageName}, nil } // we got an unqualified image here, we can't go ahead w/o registries configured // properly. if len(svc.registries) == 0 { return nil, errors.New("no registries configured while trying to pull an unqualified image") } // this means we got an image in the form of "busybox" // we need to use additional registries... // normalize the unqualified image to be domain/repo/image... images := []string{} for _, r := range svc.registries { rem := remainder if r == "docker.io" && !strings.ContainsRune(remainder, '/') { rem = "library/" + rem } images = append(images, path.Join(r, rem)) } return images, nil } // GetImageService returns an ImageServer that uses the passed-in store, and // which will prepend the passed-in defaultTransport value to an image name if // a name that's passed to its PullImage() method can't be resolved to an image // in the store and can't be resolved to a source on its own. func GetImageService(store storage.Store, defaultTransport string, insecureRegistries []string, registries []string) (ImageServer, error) { if store == nil { var err error store, err = storage.GetStore(storage.DefaultStoreOptions) if err != nil { return nil, err } } seenRegistries := make(map[string]bool, len(registries)) cleanRegistries := []string{} for _, r := range registries { if seenRegistries[r] { continue } cleanRegistries = append(cleanRegistries, r) seenRegistries[r] = true } is := &imageService{ store: store, defaultTransport: defaultTransport, indexConfigs: make(map[string]*indexInfo, 0), insecureRegistryCIDRs: make([]*net.IPNet, 0), registries: cleanRegistries, imageCache: make(map[string]imageCacheItem), } insecureRegistries = append(insecureRegistries, "127.0.0.0/8") // Split --insecure-registry into CIDR and registry-specific settings. for _, r := range insecureRegistries { // Check if CIDR was passed to --insecure-registry _, ipnet, err := net.ParseCIDR(r) if err == nil { // Valid CIDR. is.insecureRegistryCIDRs = append(is.insecureRegistryCIDRs, ipnet) } else { // Assume `host:port` if not CIDR. is.indexConfigs[r] = &indexInfo{ name: r, secure: false, } } } return is, nil }