// +build varlink package varlinkapi import ( "bytes" "context" "encoding/json" "fmt" "io" "io/ioutil" "os" "path/filepath" "strings" "time" "github.com/containers/buildah" "github.com/containers/buildah/imagebuildah" dockerarchive "github.com/containers/image/docker/archive" "github.com/containers/image/manifest" "github.com/containers/image/transports/alltransports" "github.com/containers/image/types" "github.com/containers/libpod/cmd/podman/shared" "github.com/containers/libpod/cmd/podman/varlink" "github.com/containers/libpod/libpod" "github.com/containers/libpod/libpod/define" "github.com/containers/libpod/libpod/image" "github.com/containers/libpod/pkg/channelwriter" "github.com/containers/libpod/pkg/util" "github.com/containers/libpod/utils" "github.com/containers/storage/pkg/archive" "github.com/opencontainers/image-spec/specs-go/v1" "github.com/opencontainers/runtime-spec/specs-go" "github.com/pkg/errors" "github.com/sirupsen/logrus" ) // ListImages lists all the images in the store // It requires no inputs. func (i *LibpodAPI) ListImages(call iopodman.VarlinkCall) error { images, err := i.Runtime.ImageRuntime().GetImages() if err != nil { return call.ReplyErrorOccurred(fmt.Sprintf("unable to get list of images %q", err)) } var imageList []iopodman.Image for _, image := range images { labels, _ := image.Labels(getContext()) containers, _ := image.Containers() repoDigests, err := image.RepoDigests() if err != nil { return err } size, _ := image.Size(getContext()) isParent, err := image.IsParent(context.TODO()) if err != nil { return call.ReplyErrorOccurred(err.Error()) } i := iopodman.Image{ Id: image.ID(), Digest: string(image.Digest()), ParentId: image.Parent, RepoTags: image.Names(), RepoDigests: repoDigests, Created: image.Created().Format(time.RFC3339), Size: int64(*size), VirtualSize: image.VirtualSize, Containers: int64(len(containers)), Labels: labels, IsParent: isParent, ReadOnly: image.IsReadOnly(), } imageList = append(imageList, i) } return call.ReplyListImages(imageList) } // GetImage returns a single image in the form of a Image func (i *LibpodAPI) GetImage(call iopodman.VarlinkCall, id string) error { newImage, err := i.Runtime.ImageRuntime().NewFromLocal(id) if err != nil { return call.ReplyImageNotFound(id, err.Error()) } labels, err := newImage.Labels(getContext()) if err != nil { return err } containers, err := newImage.Containers() if err != nil { return err } repoDigests, err := newImage.RepoDigests() if err != nil { return err } size, err := newImage.Size(getContext()) if err != nil { return err } il := iopodman.Image{ Id: newImage.ID(), ParentId: newImage.Parent, RepoTags: newImage.Names(), RepoDigests: repoDigests, Created: newImage.Created().Format(time.RFC3339), Size: int64(*size), VirtualSize: newImage.VirtualSize, Containers: int64(len(containers)), Labels: labels, TopLayer: newImage.TopLayer(), ReadOnly: newImage.IsReadOnly(), } return call.ReplyGetImage(il) } // BuildImage ... func (i *LibpodAPI) BuildImage(call iopodman.VarlinkCall, config iopodman.BuildInfo) error { var ( namespace []buildah.NamespaceOption err error ) systemContext := types.SystemContext{} contextDir := config.ContextDir newContextDir, err := ioutil.TempDir("", "buildTarball") if err != nil { call.ReplyErrorOccurred("unable to create tempdir") } logrus.Debugf("created new context dir at %s", newContextDir) reader, err := os.Open(contextDir) if err != nil { logrus.Errorf("failed to open the context dir tar file %s", contextDir) return call.ReplyErrorOccurred(fmt.Sprintf("unable to open context dir tar file %s", contextDir)) } defer reader.Close() if err := archive.Untar(reader, newContextDir, &archive.TarOptions{}); err != nil { logrus.Errorf("fail to untar the context dir tarball (%s) to the context dir (%s)", contextDir, newContextDir) return call.ReplyErrorOccurred(fmt.Sprintf("unable to untar context dir %s", contextDir)) } logrus.Debugf("untar of %s successful", contextDir) // All output (stdout, stderr) is captured in output as well var output bytes.Buffer commonOpts := &buildah.CommonBuildOptions{ AddHost: config.BuildOptions.AddHosts, CgroupParent: config.BuildOptions.CgroupParent, CPUPeriod: uint64(config.BuildOptions.CpuPeriod), CPUQuota: config.BuildOptions.CpuQuota, CPUSetCPUs: config.BuildOptions.CpusetCpus, CPUSetMems: config.BuildOptions.CpusetMems, Memory: config.BuildOptions.Memory, MemorySwap: config.BuildOptions.MemorySwap, ShmSize: config.BuildOptions.ShmSize, Ulimit: config.BuildOptions.Ulimit, Volumes: config.BuildOptions.Volume, } hostNetwork := buildah.NamespaceOption{ Name: string(specs.NetworkNamespace), Host: true, } namespace = append(namespace, hostNetwork) options := imagebuildah.BuildOptions{ CommonBuildOpts: commonOpts, AdditionalTags: config.AdditionalTags, Annotations: config.Annotations, Args: config.BuildArgs, CNIConfigDir: config.CniConfigDir, CNIPluginPath: config.CniPluginDir, Compression: stringCompressionToArchiveType(config.Compression), ContextDirectory: newContextDir, DefaultMountsFilePath: config.DefaultsMountFilePath, Err: &output, ForceRmIntermediateCtrs: config.ForceRmIntermediateCtrs, IIDFile: config.Iidfile, Labels: config.Label, Layers: config.Layers, NoCache: config.Nocache, Out: &output, Output: config.Output, NamespaceOptions: namespace, OutputFormat: config.OutputFormat, PullPolicy: stringPullPolicyToType(config.PullPolicy), Quiet: config.Quiet, RemoveIntermediateCtrs: config.RemoteIntermediateCtrs, ReportWriter: &output, RuntimeArgs: config.RuntimeArgs, Squash: config.Squash, SystemContext: &systemContext, } if call.WantsMore() { call.Continues = true } var newPathDockerFiles []string for _, d := range config.Dockerfiles { if strings.HasPrefix(d, "http://") || strings.HasPrefix(d, "https://") || strings.HasPrefix(d, "git://") || strings.HasPrefix(d, "github.com/") { newPathDockerFiles = append(newPathDockerFiles, d) continue } base := filepath.Base(d) newPathDockerFiles = append(newPathDockerFiles, filepath.Join(newContextDir, base)) } c := make(chan error) go func() { err := i.Runtime.Build(getContext(), options, newPathDockerFiles...) c <- err close(c) }() var log []string done := false for { outputLine, err := output.ReadString('\n') if err == nil { log = append(log, outputLine) if call.WantsMore() { // we want to reply with what we have br := iopodman.MoreResponse{ Logs: log, } call.ReplyBuildImage(br) log = []string{} } continue } else if err == io.EOF { select { case err := <-c: if err != nil { return call.ReplyErrorOccurred(err.Error()) } done = true default: if call.WantsMore() { time.Sleep(1 * time.Second) break } } } else { return call.ReplyErrorOccurred(err.Error()) } if done { break } } call.Continues = false newImage, err := i.Runtime.ImageRuntime().NewFromLocal(config.Output) if err != nil { return call.ReplyErrorOccurred(err.Error()) } br := iopodman.MoreResponse{ Logs: log, Id: newImage.ID(), } return call.ReplyBuildImage(br) } // InspectImage returns an image's inspect information as a string that can be serialized. // Requires an image ID or name func (i *LibpodAPI) InspectImage(call iopodman.VarlinkCall, name string) error { newImage, err := i.Runtime.ImageRuntime().NewFromLocal(name) if err != nil { return call.ReplyImageNotFound(name, err.Error()) } inspectInfo, err := newImage.Inspect(getContext()) if err != nil { return call.ReplyErrorOccurred(err.Error()) } b, err := json.Marshal(inspectInfo) if err != nil { return call.ReplyErrorOccurred(fmt.Sprintf("unable to serialize")) } return call.ReplyInspectImage(string(b)) } // HistoryImage returns the history of the image's layers // Requires an image or name func (i *LibpodAPI) HistoryImage(call iopodman.VarlinkCall, name string) error { newImage, err := i.Runtime.ImageRuntime().NewFromLocal(name) if err != nil { return call.ReplyImageNotFound(name, err.Error()) } history, err := newImage.History(getContext()) if err != nil { return call.ReplyErrorOccurred(err.Error()) } var histories []iopodman.ImageHistory for _, hist := range history { imageHistory := iopodman.ImageHistory{ Id: hist.ID, Created: hist.Created.Format(time.RFC3339), CreatedBy: hist.CreatedBy, Tags: newImage.Names(), Size: hist.Size, Comment: hist.Comment, } histories = append(histories, imageHistory) } return call.ReplyHistoryImage(histories) } // PushImage pushes an local image to registry func (i *LibpodAPI) PushImage(call iopodman.VarlinkCall, name, tag string, compress bool, format string, removeSignatures bool, signBy string) error { var ( manifestType string ) newImage, err := i.Runtime.ImageRuntime().NewFromLocal(name) if err != nil { return call.ReplyImageNotFound(name, err.Error()) } destname := name if tag != "" { destname = tag } dockerRegistryOptions := image.DockerRegistryOptions{} if format != "" { switch format { case "oci": //nolint manifestType = v1.MediaTypeImageManifest case "v2s1": manifestType = manifest.DockerV2Schema1SignedMediaType case "v2s2", "docker": manifestType = manifest.DockerV2Schema2MediaType default: return call.ReplyErrorOccurred(fmt.Sprintf("unknown format %q. Choose on of the supported formats: 'oci', 'v2s1', or 'v2s2'", format)) } } so := image.SigningOptions{ RemoveSignatures: removeSignatures, SignBy: signBy, } if call.WantsMore() { call.Continues = true } output := bytes.NewBuffer([]byte{}) c := make(chan error) go func() { err := newImage.PushImageToHeuristicDestination(getContext(), destname, manifestType, "", "", output, compress, so, &dockerRegistryOptions, nil) c <- err close(c) }() // TODO When pull output gets fixed for the remote client, we need to look into how we can turn below // into something re-usable. it is in build too var log []string done := false for { line, err := output.ReadString('\n') if err == nil { log = append(log, line) continue } else if err == io.EOF { select { case err := <-c: if err != nil { logrus.Errorf("reading of output during push failed for %s", newImage.ID()) return call.ReplyErrorOccurred(err.Error()) } done = true default: if !call.WantsMore() { break } br := iopodman.MoreResponse{ Logs: log, } call.ReplyPushImage(br) log = []string{} } } else { return call.ReplyErrorOccurred(err.Error()) } if done { break } } call.Continues = false br := iopodman.MoreResponse{ Logs: log, } return call.ReplyPushImage(br) } // TagImage accepts an image name and tag as strings and tags an image in the local store. func (i *LibpodAPI) TagImage(call iopodman.VarlinkCall, name, tag string) error { newImage, err := i.Runtime.ImageRuntime().NewFromLocal(name) if err != nil { return call.ReplyImageNotFound(name, err.Error()) } if err := newImage.TagImage(tag); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyTagImage(newImage.ID()) } // RemoveImage accepts a image name or ID as a string and force bool to determine if it should // remove the image even if being used by stopped containers func (i *LibpodAPI) RemoveImage(call iopodman.VarlinkCall, name string, force bool) error { ctx := getContext() newImage, err := i.Runtime.ImageRuntime().NewFromLocal(name) if err != nil { return call.ReplyImageNotFound(name, err.Error()) } _, err = i.Runtime.RemoveImage(ctx, newImage, force) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyRemoveImage(newImage.ID()) } // SearchImages searches all registries configured in /etc/containers/registries.conf for an image // Requires an image name and a search limit as int func (i *LibpodAPI) SearchImages(call iopodman.VarlinkCall, query string, limit *int64, filter iopodman.ImageSearchFilter) error { // Transform all arguments to proper types first argLimit := 0 argIsOfficial := types.OptionalBoolUndefined argIsAutomated := types.OptionalBoolUndefined if limit != nil { argLimit = int(*limit) } if filter.Is_official != nil { argIsOfficial = types.NewOptionalBool(*filter.Is_official) } if filter.Is_automated != nil { argIsAutomated = types.NewOptionalBool(*filter.Is_automated) } // Transform a SearchFilter the backend can deal with sFilter := image.SearchFilter{ IsOfficial: argIsOfficial, IsAutomated: argIsAutomated, Stars: int(filter.Star_count), } searchOptions := image.SearchOptions{ Limit: argLimit, Filter: sFilter, } results, err := image.SearchImages(query, searchOptions) if err != nil { return call.ReplyErrorOccurred(err.Error()) } var imageResults []iopodman.ImageSearchResult for _, result := range results { i := iopodman.ImageSearchResult{ Registry: result.Index, Description: result.Description, Is_official: result.Official == "[OK]", Is_automated: result.Automated == "[OK]", Name: result.Name, Star_count: int64(result.Stars), } imageResults = append(imageResults, i) } return call.ReplySearchImages(imageResults) } // DeleteUnusedImages deletes any images that do not have containers associated with it. // TODO Filters are not implemented func (i *LibpodAPI) DeleteUnusedImages(call iopodman.VarlinkCall) error { images, err := i.Runtime.ImageRuntime().GetImages() if err != nil { return call.ReplyErrorOccurred(err.Error()) } var deletedImages []string for _, img := range images { containers, err := img.Containers() if err != nil { return call.ReplyErrorOccurred(err.Error()) } if len(containers) == 0 { if err := img.Remove(context.TODO(), false); err != nil { return call.ReplyErrorOccurred(err.Error()) } deletedImages = append(deletedImages, img.ID()) } } return call.ReplyDeleteUnusedImages(deletedImages) } // Commit ... func (i *LibpodAPI) Commit(call iopodman.VarlinkCall, name, imageName string, changes []string, author, message string, pause bool, manifestType string) error { var ( newImage *image.Image log []string mimeType string ) output := channelwriter.NewChannelWriter() channelClose := func() { if err := output.Close(); err != nil { logrus.Errorf("failed to close channel writer: %q", err) } } defer channelClose() ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } rtc, err := i.Runtime.GetConfig() if err != nil { return call.ReplyErrorOccurred(err.Error()) } sc := image.GetSystemContext(rtc.SignaturePolicyPath, "", false) switch manifestType { case "oci", "": //nolint mimeType = buildah.OCIv1ImageManifest case "docker": mimeType = manifest.DockerV2Schema2MediaType default: return call.ReplyErrorOccurred(fmt.Sprintf("unrecognized image format %q", manifestType)) } coptions := buildah.CommitOptions{ SignaturePolicyPath: rtc.SignaturePolicyPath, ReportWriter: output, SystemContext: sc, PreferredManifestType: mimeType, } options := libpod.ContainerCommitOptions{ CommitOptions: coptions, Pause: pause, Message: message, Changes: changes, Author: author, } if call.WantsMore() { call.Continues = true } c := make(chan error) defer close(c) go func() { newImage, err = ctr.Commit(getContext(), imageName, options) if err != nil { c <- err } c <- nil }() // reply is the func being sent to the output forwarder. in this case it is replying // with a more response struct reply := func(br iopodman.MoreResponse) error { return call.ReplyCommit(br) } log, err = forwardOutput(log, c, call.WantsMore(), output, reply) if err != nil { return call.ReplyErrorOccurred(err.Error()) } call.Continues = false br := iopodman.MoreResponse{ Logs: log, Id: newImage.ID(), } return call.ReplyCommit(br) } // ImportImage imports an image from a tarball to the image store func (i *LibpodAPI) ImportImage(call iopodman.VarlinkCall, source, reference, message string, changes []string, delete bool) error { configChanges, err := util.GetImageConfig(changes) if err != nil { return call.ReplyErrorOccurred(err.Error()) } history := []v1.History{ {Comment: message}, } config := v1.Image{ Config: configChanges, History: history, } newImage, err := i.Runtime.ImageRuntime().Import(getContext(), source, reference, nil, image.SigningOptions{}, config) if err != nil { return call.ReplyErrorOccurred(err.Error()) } if delete { if err := os.Remove(source); err != nil { return call.ReplyErrorOccurred(err.Error()) } } return call.ReplyImportImage(newImage.ID()) } // ExportImage exports an image to the provided destination // destination must have the transport type!! func (i *LibpodAPI) ExportImage(call iopodman.VarlinkCall, name, destination string, compress bool, tags []string) error { newImage, err := i.Runtime.ImageRuntime().NewFromLocal(name) if err != nil { return call.ReplyImageNotFound(name, err.Error()) } additionalTags, err := image.GetAdditionalTags(tags) if err != nil { return err } if err := newImage.PushImageToHeuristicDestination(getContext(), destination, "", "", "", nil, compress, image.SigningOptions{}, &image.DockerRegistryOptions{}, additionalTags); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyExportImage(newImage.ID()) } // PullImage pulls an image from a registry to the image store. func (i *LibpodAPI) PullImage(call iopodman.VarlinkCall, name string) error { var ( imageID string err error ) dockerRegistryOptions := image.DockerRegistryOptions{} so := image.SigningOptions{} if call.WantsMore() { call.Continues = true } output := channelwriter.NewChannelWriter() channelClose := func() { if err := output.Close(); err != nil { logrus.Errorf("failed to close channel writer: %q", err) } } defer channelClose() c := make(chan error) defer close(c) go func() { if strings.HasPrefix(name, dockerarchive.Transport.Name()+":") { srcRef, err := alltransports.ParseImageName(name) if err != nil { c <- errors.Wrapf(err, "error parsing %q", name) } newImage, err := i.Runtime.ImageRuntime().LoadFromArchiveReference(getContext(), srcRef, "", output) if err != nil { c <- errors.Wrapf(err, "error pulling image from %q", name) } else { imageID = newImage[0].ID() } } else { newImage, err := i.Runtime.ImageRuntime().New(getContext(), name, "", "", output, &dockerRegistryOptions, so, false, nil) if err != nil { c <- errors.Wrapf(err, "unable to pull %s", name) } else { imageID = newImage.ID() } } c <- nil }() var log []string reply := func(br iopodman.MoreResponse) error { return call.ReplyPullImage(br) } log, err = forwardOutput(log, c, call.WantsMore(), output, reply) if err != nil { return call.ReplyErrorOccurred(err.Error()) } call.Continues = false br := iopodman.MoreResponse{ Logs: log, Id: imageID, } return call.ReplyPullImage(br) } // ImageExists returns bool as to whether the input image exists in local storage func (i *LibpodAPI) ImageExists(call iopodman.VarlinkCall, name string) error { _, err := i.Runtime.ImageRuntime().NewFromLocal(name) if errors.Cause(err) == image.ErrNoSuchImage { return call.ReplyImageExists(1) } if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyImageExists(0) } // ContainerRunlabel ... func (i *LibpodAPI) ContainerRunlabel(call iopodman.VarlinkCall, input iopodman.Runlabel) error { ctx := getContext() dockerRegistryOptions := image.DockerRegistryOptions{} stdErr := os.Stderr stdOut := os.Stdout stdIn := os.Stdin runLabel, imageName, err := shared.GetRunlabel(input.Label, input.Image, ctx, i.Runtime, input.Pull, "", dockerRegistryOptions, input.Authfile, "", nil) if err != nil { return call.ReplyErrorOccurred(err.Error()) } if runLabel == "" { return call.ReplyErrorOccurred(fmt.Sprintf("%s does not contain the label %s", input.Image, input.Label)) } cmd, env, err := shared.GenerateRunlabelCommand(runLabel, imageName, input.Name, input.Opts, input.ExtraArgs, "") if err != nil { return call.ReplyErrorOccurred(err.Error()) } if err := utils.ExecCmdWithStdStreams(stdIn, stdOut, stdErr, env, cmd[0], cmd[1:]...); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyContainerRunlabel() } // ImagesPrune .... func (i *LibpodAPI) ImagesPrune(call iopodman.VarlinkCall, all bool) error { prunedImages, err := i.Runtime.ImageRuntime().PruneImages(context.TODO(), all) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyImagesPrune(prunedImages) } // ImageSave .... func (i *LibpodAPI) ImageSave(call iopodman.VarlinkCall, options iopodman.ImageSaveOptions) error { newImage, err := i.Runtime.ImageRuntime().NewFromLocal(options.Name) if err != nil { if errors.Cause(err) == define.ErrNoSuchImage { return call.ReplyImageNotFound(options.Name, err.Error()) } return call.ReplyErrorOccurred(err.Error()) } // Determine if we are dealing with a tarball or dir var output string outputToDir := false if options.Format == "oci-archive" || options.Format == "docker-archive" { tempfile, err := ioutil.TempFile("", "varlink_send") if err != nil { return call.ReplyErrorOccurred(err.Error()) } output = tempfile.Name() tempfile.Close() } else { var err error outputToDir = true output, err = ioutil.TempDir("", "varlink_send") if err != nil { return call.ReplyErrorOccurred(err.Error()) } } if err != nil { return call.ReplyErrorOccurred(err.Error()) } if call.WantsMore() { call.Continues = true } saveOutput := bytes.NewBuffer([]byte{}) c := make(chan error) go func() { err := newImage.Save(getContext(), options.Name, options.Format, output, options.MoreTags, options.Quiet, options.Compress) c <- err close(c) }() var log []string done := false for { line, err := saveOutput.ReadString('\n') if err == nil { log = append(log, line) continue } else if err == io.EOF { select { case err := <-c: if err != nil { logrus.Errorf("reading of output during save failed for %s", newImage.ID()) return call.ReplyErrorOccurred(err.Error()) } done = true default: if !call.WantsMore() { break } br := iopodman.MoreResponse{ Logs: log, } call.ReplyImageSave(br) log = []string{} } } else { return call.ReplyErrorOccurred(err.Error()) } if done { break } } call.Continues = false sendfile := output // Image has been saved to `output` if outputToDir { // If the output is a directory, we need to tar up the directory to send it back //Create a tempfile for the directory tarball outputFile, err := ioutil.TempFile("", "varlink_save_dir") if err != nil { return err } defer outputFile.Close() if err := utils.TarToFilesystem(output, outputFile); err != nil { return call.ReplyErrorOccurred(err.Error()) } sendfile = outputFile.Name() } br := iopodman.MoreResponse{ Logs: log, Id: sendfile, } return call.ReplyPushImage(br) } // LoadImage ... func (i *LibpodAPI) LoadImage(call iopodman.VarlinkCall, name, inputFile string, deleteInputFile, quiet bool) error { var ( names string writer io.Writer err error ) if !quiet { writer = os.Stderr } if call.WantsMore() { call.Continues = true } output := bytes.NewBuffer([]byte{}) c := make(chan error) go func() { names, err = i.Runtime.LoadImage(getContext(), name, inputFile, writer, "") c <- err close(c) }() var log []string done := false for { line, err := output.ReadString('\n') if err == nil { log = append(log, line) continue } else if err == io.EOF { select { case err := <-c: if err != nil { logrus.Error(err) return call.ReplyErrorOccurred(err.Error()) } done = true default: if !call.WantsMore() { break } br := iopodman.MoreResponse{ Logs: log, } call.ReplyLoadImage(br) log = []string{} } } else { return call.ReplyErrorOccurred(err.Error()) } if done { break } } call.Continues = false br := iopodman.MoreResponse{ Logs: log, Id: names, } if deleteInputFile { if err := os.Remove(inputFile); err != nil { logrus.Errorf("unable to delete input file %s", inputFile) } } return call.ReplyLoadImage(br) } // Diff ... func (i *LibpodAPI) Diff(call iopodman.VarlinkCall, name string) error { var response []iopodman.DiffInfo changes, err := i.Runtime.GetDiff("", name) if err != nil { return call.ReplyErrorOccurred(err.Error()) } for _, change := range changes { response = append(response, iopodman.DiffInfo{Path: change.Path, ChangeType: change.Kind.String()}) } return call.ReplyDiff(response) } // GetLayersMapWithImageInfo is a development only endpoint to obtain layer information for an image. func (i *LibpodAPI) GetLayersMapWithImageInfo(call iopodman.VarlinkCall) error { layerInfo, err := image.GetLayersMapWithImageInfo(i.Runtime.ImageRuntime()) if err != nil { return call.ReplyErrorOccurred(err.Error()) } b, err := json.Marshal(layerInfo) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyGetLayersMapWithImageInfo(string(b)) } // BuildImageHierarchyMap ... func (i *LibpodAPI) BuildImageHierarchyMap(call iopodman.VarlinkCall, name string) error { img, err := i.Runtime.ImageRuntime().NewFromLocal(name) if err != nil { return call.ReplyErrorOccurred(err.Error()) } imageInfo := &image.InfoImage{ ID: img.ID(), Tags: img.Names(), } layerInfo, err := image.GetLayersMapWithImageInfo(i.Runtime.ImageRuntime()) if err != nil { return call.ReplyErrorOccurred(err.Error()) } if err := image.BuildImageHierarchyMap(imageInfo, layerInfo, img.TopLayer()); err != nil { return call.ReplyErrorOccurred(err.Error()) } b, err := json.Marshal(imageInfo) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyBuildImageHierarchyMap(string(b)) }