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image.go
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image.go
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package libimage
import (
"context"
"errors"
"fmt"
"path/filepath"
"sort"
"strings"
"time"
"github.com/containers/image/v5/docker/reference"
"github.com/containers/image/v5/manifest"
storageTransport "github.com/containers/image/v5/storage"
"github.com/containers/image/v5/types"
"github.com/containers/storage"
"github.com/hashicorp/go-multierror"
"github.com/opencontainers/go-digest"
ociv1 "github.com/opencontainers/image-spec/specs-go/v1"
"github.com/sirupsen/logrus"
)
// Image represents an image in the containers storage and allows for further
// operations and data manipulation.
type Image struct {
// Backwards pointer to the runtime.
runtime *Runtime
// Counterpart in the local containers storage.
storageImage *storage.Image
// Image reference to the containers storage.
storageReference types.ImageReference
// All fields in the below structure are cached. They may be cleared
// at any time. When adding a new field, please make sure to clear
// it in `(*Image).reload()`.
cached struct {
// Image source. Cached for performance reasons.
imageSource types.ImageSource
// Inspect data we get from containers/image.
partialInspectData *types.ImageInspectInfo
// Fully assembled image data.
completeInspectData *ImageData
// Corresponding OCI image.
ociv1Image *ociv1.Image
// Names() parsed into references.
namesReferences []reference.Reference
}
}
// reload the image and pessimitically clear all cached data.
func (i *Image) reload() error {
logrus.Tracef("Reloading image %s", i.ID())
img, err := i.runtime.store.Image(i.ID())
if err != nil {
return fmt.Errorf("reloading image: %w", err)
}
i.storageImage = img
i.cached.imageSource = nil
i.cached.partialInspectData = nil
i.cached.completeInspectData = nil
i.cached.ociv1Image = nil
i.cached.namesReferences = nil
return nil
}
// isCorrupted returns an error if the image may be corrupted.
func (i *Image) isCorrupted(name string) error {
// If it's a manifest list, we're good for now.
if _, err := i.getManifestList(); err == nil {
return nil
}
ref, err := i.StorageReference()
if err != nil {
return err
}
if _, err := ref.NewImage(context.Background(), nil); err != nil {
if name == "" {
name = i.ID()[:12]
}
return fmt.Errorf("Image %s exists in local storage but may be corrupted (remove the image to resolve the issue): %v", name, err)
}
return nil
}
// Names returns associated names with the image which may be a mix of tags and
// digests.
func (i *Image) Names() []string {
return i.storageImage.Names
}
// NamesReferences returns Names() as references.
func (i *Image) NamesReferences() ([]reference.Reference, error) {
if i.cached.namesReferences != nil {
return i.cached.namesReferences, nil
}
refs := make([]reference.Reference, 0, len(i.Names()))
for _, name := range i.Names() {
ref, err := reference.Parse(name)
if err != nil {
return nil, err
}
refs = append(refs, ref)
}
i.cached.namesReferences = refs
return refs, nil
}
// StorageImage returns the underlying storage.Image.
func (i *Image) StorageImage() *storage.Image {
return i.storageImage
}
// NamesHistory returns a string array of names previously associated with the
// image, which may be a mixture of tags and digests.
func (i *Image) NamesHistory() []string {
return i.storageImage.NamesHistory
}
// ID returns the ID of the image.
func (i *Image) ID() string {
return i.storageImage.ID
}
// Digest is a digest value that we can use to locate the image, if one was
// specified at creation-time. Typically it is the digest of one among
// possibly many digests that we have stored for the image, so many
// applications are better off using the entire list returned by Digests().
func (i *Image) Digest() digest.Digest {
return i.storageImage.Digest
}
// Digests is a list of digest values of the image's manifests, and possibly a
// manually-specified value, that we can use to locate the image. If Digest is
// set, its value is also in this list.
func (i *Image) Digests() []digest.Digest {
return i.storageImage.Digests
}
// IsReadOnly returns whether the image is set read only.
func (i *Image) IsReadOnly() bool {
return i.storageImage.ReadOnly
}
// IsDangling returns true if the image is dangling, that is an untagged image
// without children.
func (i *Image) IsDangling(ctx context.Context) (bool, error) {
return i.isDangling(ctx, nil)
}
// isDangling returns true if the image is dangling, that is an untagged image
// without children. If tree is nil, it will created for this invocation only.
func (i *Image) isDangling(ctx context.Context, tree *layerTree) (bool, error) {
if len(i.Names()) > 0 {
return false, nil
}
children, err := i.getChildren(ctx, false, tree)
if err != nil {
return false, err
}
return len(children) == 0, nil
}
// IsIntermediate returns true if the image is an intermediate image, that is
// an untagged image with children.
func (i *Image) IsIntermediate(ctx context.Context) (bool, error) {
return i.isIntermediate(ctx, nil)
}
// isIntermediate returns true if the image is an intermediate image, that is
// an untagged image with children. If tree is nil, it will created for this
// invocation only.
func (i *Image) isIntermediate(ctx context.Context, tree *layerTree) (bool, error) {
if len(i.Names()) > 0 {
return false, nil
}
children, err := i.getChildren(ctx, false, tree)
if err != nil {
return false, err
}
return len(children) != 0, nil
}
// Created returns the time the image was created.
func (i *Image) Created() time.Time {
return i.storageImage.Created
}
// Labels returns the label of the image.
func (i *Image) Labels(ctx context.Context) (map[string]string, error) {
data, err := i.inspectInfo(ctx)
if err != nil {
isManifestList, listErr := i.IsManifestList(ctx)
if listErr != nil {
err = fmt.Errorf("fallback error checking whether image is a manifest list: %v: %w", err, err)
} else if isManifestList {
logrus.Debugf("Ignoring error: cannot return labels for manifest list or image index %s", i.ID())
return nil, nil
}
return nil, err
}
return data.Labels, nil
}
// TopLayer returns the top layer id as a string
func (i *Image) TopLayer() string {
return i.storageImage.TopLayer
}
// Parent returns the parent image or nil if there is none
func (i *Image) Parent(ctx context.Context) (*Image, error) {
tree, err := i.runtime.layerTree()
if err != nil {
return nil, err
}
return tree.parent(ctx, i)
}
// HasChildren returns indicates if the image has children.
func (i *Image) HasChildren(ctx context.Context) (bool, error) {
children, err := i.getChildren(ctx, false, nil)
if err != nil {
return false, err
}
return len(children) > 0, nil
}
// Children returns the image's children.
func (i *Image) Children(ctx context.Context) ([]*Image, error) {
children, err := i.getChildren(ctx, true, nil)
if err != nil {
return nil, err
}
return children, nil
}
// getChildren returns a list of imageIDs that depend on the image. If all is
// false, only the first child image is returned. If tree is nil, it will be
// created for this invocation only.
func (i *Image) getChildren(ctx context.Context, all bool, tree *layerTree) ([]*Image, error) {
if tree == nil {
t, err := i.runtime.layerTree()
if err != nil {
return nil, err
}
tree = t
}
return tree.children(ctx, i, all)
}
// Containers returns a list of containers using the image.
func (i *Image) Containers() ([]string, error) {
var containerIDs []string
containers, err := i.runtime.store.Containers()
if err != nil {
return nil, err
}
imageID := i.ID()
for i := range containers {
if containers[i].ImageID == imageID {
containerIDs = append(containerIDs, containers[i].ID)
}
}
return containerIDs, nil
}
// removeContainers removes all containers using the image.
func (i *Image) removeContainers(options *RemoveImagesOptions) error {
if !options.Force && !options.ExternalContainers {
// Nothing to do.
return nil
}
if options.Force && options.RemoveContainerFunc != nil {
logrus.Debugf("Removing containers of image %s with custom removal function", i.ID())
if err := options.RemoveContainerFunc(i.ID()); err != nil {
return err
}
}
containers, err := i.Containers()
if err != nil {
return err
}
if !options.Force && options.ExternalContainers {
// All containers must be external ones.
for _, cID := range containers {
isExternal, err := options.IsExternalContainerFunc(cID)
if err != nil {
return fmt.Errorf("checking if %s is an external container: %w", cID, err)
}
if !isExternal {
return fmt.Errorf("cannot remove container %s: not an external container", cID)
}
}
}
logrus.Debugf("Removing containers of image %s from the local containers storage", i.ID())
var multiE error
for _, cID := range containers {
if err := i.runtime.store.DeleteContainer(cID); err != nil {
// If the container does not exist anymore, we're good.
if !errors.Is(err, storage.ErrContainerUnknown) {
multiE = multierror.Append(multiE, err)
}
}
}
return multiE
}
// RemoveContainerFunc allows for customizing the removal of containers using
// an image specified by imageID.
type RemoveContainerFunc func(imageID string) error
// RemoveImagesReport is the assembled data from removing *one* image.
type RemoveImageReport struct {
// ID of the image.
ID string
// Image was removed.
Removed bool
// Size of the removed image. Only set when explicitly requested in
// RemoveImagesOptions.
Size int64
// The untagged tags.
Untagged []string
}
// remove removes the image along with all dangling parent images that no other
// image depends on. The image must not be set read-only and not be used by
// containers. Returns IDs of removed/untagged images in order.
//
// If the image is used by containers return storage.ErrImageUsedByContainer.
// Use force to remove these containers.
//
// NOTE: the rmMap is used to assemble image-removal data across multiple
// invocations of this function. The recursive nature requires some
// bookkeeping to make sure that all data is aggregated correctly.
//
// This function is internal. Users of libimage should always use
// `(*Runtime).RemoveImages()`.
func (i *Image) remove(ctx context.Context, rmMap map[string]*RemoveImageReport, referencedBy string, options *RemoveImagesOptions) ([]string, error) {
processedIDs := []string{}
return i.removeRecursive(ctx, rmMap, processedIDs, referencedBy, options)
}
func (i *Image) removeRecursive(ctx context.Context, rmMap map[string]*RemoveImageReport, processedIDs []string, referencedBy string, options *RemoveImagesOptions) ([]string, error) {
// If referencedBy is empty, the image is considered to be removed via
// `image remove --all` which alters the logic below.
// The removal logic below is complex. There is a number of rules
// inherited from Podman and Buildah (and Docker). This function
// should be the *only* place to extend the removal logic so we keep it
// sealed in one place. Make sure to add verbose comments to leave
// some breadcrumbs for future readers.
logrus.Debugf("Removing image %s", i.ID())
if i.IsReadOnly() {
return processedIDs, fmt.Errorf("cannot remove read-only image %q", i.ID())
}
if i.runtime.eventChannel != nil {
defer i.runtime.writeEvent(&Event{ID: i.ID(), Name: referencedBy, Time: time.Now(), Type: EventTypeImageRemove})
}
// Check if already visisted this image.
report, exists := rmMap[i.ID()]
if exists {
// If the image has already been removed, we're done.
if report.Removed {
return processedIDs, nil
}
} else {
report = &RemoveImageReport{ID: i.ID()}
rmMap[i.ID()] = report
}
// The image may have already been (partially) removed, so we need to
// have a closer look at the errors. On top, image removal should be
// tolerant toward corrupted images.
handleError := func(err error) error {
if errors.Is(err, storage.ErrImageUnknown) || errors.Is(err, storage.ErrNotAnImage) || errors.Is(err, storage.ErrLayerUnknown) {
// The image or layers of the image may already have been removed
// in which case we consider the image to be removed.
return nil
}
return err
}
// Calculate the size if requested. `podman-image-prune` likes to
// report the regained size.
if options.WithSize {
size, err := i.Size()
if handleError(err) != nil {
return processedIDs, err
}
report.Size = size
}
skipRemove := false
numNames := len(i.Names())
// NOTE: the `numNames == 1` check is not only a performance
// optimization but also preserves exiting Podman/Docker behaviour.
// If image "foo" is used by a container and has only this tag/name,
// an `rmi foo` will not untag "foo" but instead attempt to remove the
// entire image. If there's a container using "foo", we should get an
// error.
if referencedBy == "" || numNames == 1 {
// DO NOTHING, the image will be removed
} else {
byID := strings.HasPrefix(i.ID(), referencedBy)
byDigest := strings.HasPrefix(referencedBy, "sha256:")
if !options.Force {
if byID && numNames > 1 {
return processedIDs, fmt.Errorf("unable to delete image %q by ID with more than one tag (%s): please force removal", i.ID(), i.Names())
} else if byDigest && numNames > 1 {
// FIXME - Docker will remove the digest but containers storage
// does not support that yet, so our hands are tied.
return processedIDs, fmt.Errorf("unable to delete image %q by digest with more than one tag (%s): please force removal", i.ID(), i.Names())
}
}
// Only try to untag if we know it's not an ID or digest.
if !byID && !byDigest {
if err := i.Untag(referencedBy); handleError(err) != nil {
return processedIDs, err
}
report.Untagged = append(report.Untagged, referencedBy)
// If there's still tags left, we cannot delete it.
skipRemove = len(i.Names()) > 0
}
}
processedIDs = append(processedIDs, i.ID())
if skipRemove {
return processedIDs, nil
}
// Perform the container removal, if needed.
if err := i.removeContainers(options); err != nil {
return processedIDs, err
}
// Podman/Docker compat: we only report an image as removed if it has
// no children. Otherwise, the data is effectively still present in the
// storage despite the image being removed.
hasChildren, err := i.HasChildren(ctx)
if err != nil {
// We must be tolerant toward corrupted images.
// See containers/podman commit fd9dd7065d44.
logrus.Warnf("Failed to determine if an image is a parent: %v, ignoring the error", err)
hasChildren = false
}
// If there's a dangling parent that no other image depends on, remove
// it recursively.
parent, err := i.Parent(ctx)
if err != nil {
// We must be tolerant toward corrupted images.
// See containers/podman commit fd9dd7065d44.
logrus.Warnf("Failed to determine parent of image: %v, ignoring the error", err)
parent = nil
}
if _, err := i.runtime.store.DeleteImage(i.ID(), true); handleError(err) != nil {
if errors.Is(err, storage.ErrImageUsedByContainer) {
err = fmt.Errorf("%w: consider listing external containers and force-removing image", err)
}
return processedIDs, err
}
report.Untagged = append(report.Untagged, i.Names()...)
if i.runtime.eventChannel != nil {
for _, name := range i.Names() {
i.runtime.writeEvent(&Event{ID: i.ID(), Name: name, Time: time.Now(), Type: EventTypeImageUntag})
}
}
if !hasChildren {
report.Removed = true
}
// Do not delete any parents if NoPrune is true
if options.NoPrune {
return processedIDs, nil
}
// Check if can remove the parent image.
if parent == nil {
return processedIDs, nil
}
// Only remove the parent if it's dangling, that is being untagged and
// without children.
danglingParent, err := parent.IsDangling(ctx)
if err != nil {
// See Podman commit fd9dd7065d44: we need to
// be tolerant toward corrupted images.
logrus.Warnf("Failed to determine if an image is a parent: %v, ignoring the error", err)
danglingParent = false
}
if !danglingParent {
return processedIDs, nil
}
// Recurse into removing the parent.
return parent.removeRecursive(ctx, rmMap, processedIDs, "", options)
}
var errTagDigest = errors.New("tag by digest not supported")
// Tag the image with the specified name and store it in the local containers
// storage. The name is normalized according to the rules of NormalizeName.
func (i *Image) Tag(name string) error {
if strings.HasPrefix(name, "sha256:") { // ambiguous input
return fmt.Errorf("%s: %w", name, errTagDigest)
}
ref, err := NormalizeName(name)
if err != nil {
return fmt.Errorf("normalizing name %q: %w", name, err)
}
if _, isDigested := ref.(reference.Digested); isDigested {
return fmt.Errorf("%s: %w", name, errTagDigest)
}
logrus.Debugf("Tagging image %s with %q", i.ID(), ref.String())
if i.runtime.eventChannel != nil {
defer i.runtime.writeEvent(&Event{ID: i.ID(), Name: name, Time: time.Now(), Type: EventTypeImageTag})
}
newNames := append(i.Names(), ref.String())
if err := i.runtime.store.SetNames(i.ID(), newNames); err != nil {
return err
}
return i.reload()
}
// to have some symmetry with the errors from containers/storage.
var errTagUnknown = errors.New("tag not known")
// TODO (@vrothberg) - `docker rmi sha256:` will remove the digest from the
// image. However, that's something containers storage does not support.
var errUntagDigest = errors.New("untag by digest not supported")
// Untag the image with the specified name and make the change persistent in
// the local containers storage. The name is normalized according to the rules
// of NormalizeName.
func (i *Image) Untag(name string) error {
if strings.HasPrefix(name, "sha256:") { // ambiguous input
return fmt.Errorf("%s: %w", name, errUntagDigest)
}
ref, err := NormalizeName(name)
if err != nil {
return fmt.Errorf("normalizing name %q: %w", name, err)
}
// FIXME: this is breaking Podman CI but must be re-enabled once
// c/storage supports alterting the digests of an image. Then,
// Podman will do the right thing.
//
// !!! Also make sure to re-enable the tests !!!
//
// if _, isDigested := ref.(reference.Digested); isDigested {
// return fmt.Errorf("%s: %w", name, errUntagDigest)
// }
name = ref.String()
logrus.Debugf("Untagging %q from image %s", ref.String(), i.ID())
if i.runtime.eventChannel != nil {
defer i.runtime.writeEvent(&Event{ID: i.ID(), Name: name, Time: time.Now(), Type: EventTypeImageUntag})
}
removedName := false
newNames := []string{}
for _, n := range i.Names() {
if n == name {
removedName = true
continue
}
newNames = append(newNames, n)
}
if !removedName {
return fmt.Errorf("%s: %w", name, errTagUnknown)
}
if err := i.runtime.store.SetNames(i.ID(), newNames); err != nil {
return err
}
return i.reload()
}
// RepoTags returns a string slice of repotags associated with the image.
func (i *Image) RepoTags() ([]string, error) {
namedTagged, err := i.NamedTaggedRepoTags()
if err != nil {
return nil, err
}
repoTags := make([]string, len(namedTagged))
for i := range namedTagged {
repoTags[i] = namedTagged[i].String()
}
return repoTags, nil
}
// NamedTaggedRepoTags returns the repotags associated with the image as a
// slice of reference.NamedTagged.
func (i *Image) NamedTaggedRepoTags() ([]reference.NamedTagged, error) {
repoTags := make([]reference.NamedTagged, 0, len(i.Names()))
for _, name := range i.Names() {
parsed, err := reference.Parse(name)
if err != nil {
return nil, err
}
named, isNamed := parsed.(reference.Named)
if !isNamed {
continue
}
tagged, isTagged := named.(reference.NamedTagged)
if !isTagged {
continue
}
repoTags = append(repoTags, tagged)
}
return repoTags, nil
}
// NamedRepoTags returns the repotags associated with the image as a
// slice of reference.Named.
func (i *Image) NamedRepoTags() ([]reference.Named, error) {
var repoTags []reference.Named
for _, name := range i.Names() {
parsed, err := reference.Parse(name)
if err != nil {
return nil, err
}
if named, isNamed := parsed.(reference.Named); isNamed {
repoTags = append(repoTags, named)
}
}
return repoTags, nil
}
// inRepoTags looks for the specified name/tag pair in the image's repo tags.
func (i *Image) inRepoTags(namedTagged reference.NamedTagged) (reference.Named, error) {
repoTags, err := i.NamedRepoTags()
if err != nil {
return nil, err
}
pairs, err := ToNameTagPairs(repoTags)
if err != nil {
return nil, err
}
name := namedTagged.Name()
tag := namedTagged.Tag()
for _, pair := range pairs {
if tag != pair.Tag {
continue
}
if !strings.HasSuffix(pair.Name, name) {
continue
}
if len(pair.Name) == len(name) { // full match
return pair.named, nil
}
if pair.Name[len(pair.Name)-len(name)-1] == '/' { // matches at repo
return pair.named, nil
}
}
return nil, nil
}
// RepoDigests returns a string array of repodigests associated with the image.
func (i *Image) RepoDigests() ([]string, error) {
repoDigests := []string{}
added := make(map[string]struct{})
for _, name := range i.Names() {
for _, imageDigest := range append(i.Digests(), i.Digest()) {
if imageDigest == "" {
continue
}
named, err := reference.ParseNormalizedNamed(name)
if err != nil {
return nil, err
}
canonical, err := reference.WithDigest(reference.TrimNamed(named), imageDigest)
if err != nil {
return nil, err
}
if _, alreadyInList := added[canonical.String()]; !alreadyInList {
repoDigests = append(repoDigests, canonical.String())
added[canonical.String()] = struct{}{}
}
}
}
sort.Strings(repoDigests)
return repoDigests, nil
}
// Mount the image with the specified mount options and label, both of which
// are directly passed down to the containers storage. Returns the fully
// evaluated path to the mount point.
func (i *Image) Mount(ctx context.Context, mountOptions []string, mountLabel string) (string, error) {
if i.runtime.eventChannel != nil {
defer i.runtime.writeEvent(&Event{ID: i.ID(), Name: "", Time: time.Now(), Type: EventTypeImageMount})
}
mountPoint, err := i.runtime.store.MountImage(i.ID(), mountOptions, mountLabel)
if err != nil {
return "", err
}
mountPoint, err = filepath.EvalSymlinks(mountPoint)
if err != nil {
return "", err
}
logrus.Debugf("Mounted image %s at %q", i.ID(), mountPoint)
return mountPoint, nil
}
// Mountpoint returns the path to image's mount point. The path is empty if
// the image is not mounted.
func (i *Image) Mountpoint() (string, error) {
mountedTimes, err := i.runtime.store.Mounted(i.TopLayer())
if err != nil || mountedTimes == 0 {
if errors.Is(err, storage.ErrLayerUnknown) {
// Can happen, Podman did it, but there's no
// explanation why.
err = nil
}
return "", err
}
layer, err := i.runtime.store.Layer(i.TopLayer())
if err != nil {
return "", err
}
mountPoint, err := filepath.EvalSymlinks(layer.MountPoint)
if err != nil {
return "", err
}
return mountPoint, nil
}
// Unmount the image. Use force to ignore the reference counter and forcefully
// unmount.
func (i *Image) Unmount(force bool) error {
if i.runtime.eventChannel != nil {
defer i.runtime.writeEvent(&Event{ID: i.ID(), Name: "", Time: time.Now(), Type: EventTypeImageUnmount})
}
logrus.Debugf("Unmounted image %s", i.ID())
_, err := i.runtime.store.UnmountImage(i.ID(), force)
return err
}
// Size computes the size of the image layers and associated data.
func (i *Image) Size() (int64, error) {
// TODO: cache the result to optimize performance of subsequent calls
return i.runtime.store.ImageSize(i.ID())
}
// HasDifferentDigestOptions allows for customizing the check if another
// (remote) image has a different digest.
type HasDifferentDigestOptions struct {
// containers-auth.json(5) file to use when authenticating against
// container registries.
AuthFilePath string
}
// HasDifferentDigest returns true if the image specified by `remoteRef` has a
// different digest than the local one. This check can be useful to check for
// updates on remote registries.
func (i *Image) HasDifferentDigest(ctx context.Context, remoteRef types.ImageReference, options *HasDifferentDigestOptions) (bool, error) {
// We need to account for the arch that the image uses. It seems
// common on ARM to tweak this option to pull the correct image. See
// github.com/containers/podman/issues/6613.
inspectInfo, err := i.inspectInfo(ctx)
if err != nil {
return false, err
}
sys := i.runtime.systemContextCopy()
sys.ArchitectureChoice = inspectInfo.Architecture
// OS and variant may not be set, so let's check to avoid accidental
// overrides of the runtime settings.
if inspectInfo.Os != "" {
sys.OSChoice = inspectInfo.Os
}
if inspectInfo.Variant != "" {
sys.VariantChoice = inspectInfo.Variant
}
if options != nil && options.AuthFilePath != "" {
sys.AuthFilePath = options.AuthFilePath
}
return i.hasDifferentDigestWithSystemContext(ctx, remoteRef, sys)
}
func (i *Image) hasDifferentDigestWithSystemContext(ctx context.Context, remoteRef types.ImageReference, sys *types.SystemContext) (bool, error) {
remoteImg, err := remoteRef.NewImage(ctx, sys)
if err != nil {
return false, err
}
rawManifest, rawManifestMIMEType, err := remoteImg.Manifest(ctx)
if err != nil {
return false, err
}
// If the remote ref's manifest is a list, try to zero in on the image
// in the list that we would eventually try to pull.
var remoteDigest digest.Digest
if manifest.MIMETypeIsMultiImage(rawManifestMIMEType) {
list, err := manifest.ListFromBlob(rawManifest, rawManifestMIMEType)
if err != nil {
return false, err
}
remoteDigest, err = list.ChooseInstance(sys)
if err != nil {
return false, err
}
} else {
remoteDigest, err = manifest.Digest(rawManifest)
if err != nil {
return false, err
}
}
// Check if we already have that image's manifest in this image. A
// single image can have multiple manifests that describe the same
// config blob and layers, so treat any match as a successful match.
for _, digest := range append(i.Digests(), i.Digest()) {
if digest.Validate() != nil {
continue
}
if digest.String() == remoteDigest.String() {
return false, nil
}
}
// No matching digest found in the local image.
return true, nil
}
// driverData gets the driver data from the store on a layer
func (i *Image) driverData() (*DriverData, error) {
store := i.runtime.store
layerID := i.TopLayer()
driver, err := store.GraphDriver()
if err != nil {
return nil, err
}
metaData, err := driver.Metadata(layerID)
if err != nil {
return nil, err
}
if mountTimes, err := store.Mounted(layerID); mountTimes == 0 || err != nil {
delete(metaData, "MergedDir")
}
return &DriverData{
Name: driver.String(),
Data: metaData,
}, nil
}
// StorageReference returns the image's reference to the containers storage
// using the image ID.
func (i *Image) StorageReference() (types.ImageReference, error) {
if i.storageReference != nil {
return i.storageReference, nil
}
ref, err := storageTransport.Transport.ParseStoreReference(i.runtime.store, "@"+i.ID())
if err != nil {
return nil, err
}
i.storageReference = ref
return ref, nil
}
// source returns the possibly cached image reference.
func (i *Image) source(ctx context.Context) (types.ImageSource, error) {
if i.cached.imageSource != nil {
return i.cached.imageSource, nil
}
ref, err := i.StorageReference()
if err != nil {
return nil, err
}
src, err := ref.NewImageSource(ctx, i.runtime.systemContextCopy())
if err != nil {
return nil, err
}
i.cached.imageSource = src
return src, nil
}
// rawConfigBlob returns the image's config as a raw byte slice. Users need to
// unmarshal it to the corresponding type (OCI, Docker v2s{1,2})
func (i *Image) rawConfigBlob(ctx context.Context) ([]byte, error) {
ref, err := i.StorageReference()
if err != nil {
return nil, err
}
imageCloser, err := ref.NewImage(ctx, i.runtime.systemContextCopy())
if err != nil {
return nil, err
}
defer imageCloser.Close()
return imageCloser.ConfigBlob(ctx)
}
// Manifest returns the raw data and the MIME type of the image's manifest.
func (i *Image) Manifest(ctx context.Context) (rawManifest []byte, mimeType string, err error) {
src, err := i.source(ctx)
if err != nil {
return nil, "", err
}
return src.GetManifest(ctx, nil)
}
// getImageID creates an image object and uses the hex value of the config
// blob's digest (if it has one) as the image ID for parsing the store reference
func getImageID(ctx context.Context, src types.ImageReference, sys *types.SystemContext) (string, error) {
newImg, err := src.NewImage(ctx, sys)
if err != nil {
return "", err
}
defer func() {
if err := newImg.Close(); err != nil {
logrus.Errorf("Failed to close image: %q", err)
}
}()
imageDigest := newImg.ConfigInfo().Digest
if err = imageDigest.Validate(); err != nil {
return "", fmt.Errorf("getting config info: %w", err)
}
return "@" + imageDigest.Encoded(), nil
}