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containers.go
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package storage
import (
"errors"
"fmt"
"maps"
"os"
"path/filepath"
"slices"
"sync"
"time"
"github.com/containers/storage/pkg/idtools"
"github.com/containers/storage/pkg/ioutils"
"github.com/containers/storage/pkg/lockfile"
"github.com/containers/storage/pkg/stringid"
"github.com/containers/storage/pkg/truncindex"
digest "github.com/opencontainers/go-digest"
"github.com/sirupsen/logrus"
)
type containerLocations uint8
// The backing store is split in two json files, one (the volatile)
// that is written without fsync() meaning it isn't as robust to
// unclean shutdown
const (
stableContainerLocation containerLocations = 1 << iota
volatileContainerLocation
numContainerLocationIndex = iota
)
func containerLocationFromIndex(index int) containerLocations {
return 1 << index
}
// A Container is a reference to a read-write layer with metadata.
type Container struct {
// ID is either one which was specified at create-time, or a random
// value which was generated by the library.
ID string `json:"id"`
// Names is an optional set of user-defined convenience values. The
// container can be referred to by its ID or any of its names. Names
// are unique among containers.
Names []string `json:"names,omitempty"`
// ImageID is the ID of the image which was used to create the container.
ImageID string `json:"image"`
// LayerID is the ID of the read-write layer for the container itself.
// It is assumed that the image's top layer is the parent of the container's
// read-write layer.
LayerID string `json:"layer"`
// Metadata is data we keep for the convenience of the caller. It is not
// expected to be large, since it is kept in memory.
Metadata string `json:"metadata,omitempty"`
// BigDataNames is a list of names of data items that we keep for the
// convenience of the caller. They can be large, and are only in
// memory when being read from or written to disk.
BigDataNames []string `json:"big-data-names,omitempty"`
// BigDataSizes maps the names in BigDataNames to the sizes of the data
// that has been stored, if they're known.
BigDataSizes map[string]int64 `json:"big-data-sizes,omitempty"`
// BigDataDigests maps the names in BigDataNames to the digests of the
// data that has been stored, if they're known.
BigDataDigests map[string]digest.Digest `json:"big-data-digests,omitempty"`
// Created is the datestamp for when this container was created. Older
// versions of the library did not track this information, so callers
// will likely want to use the IsZero() method to verify that a value
// is set before using it.
Created time.Time `json:"created,omitempty"`
// UIDMap and GIDMap are used for setting up a container's root
// filesystem for use inside of a user namespace where UID mapping is
// being used.
UIDMap []idtools.IDMap `json:"uidmap,omitempty"`
GIDMap []idtools.IDMap `json:"gidmap,omitempty"`
Flags map[string]interface{} `json:"flags,omitempty"`
// volatileStore is true if the container is from the volatile json file
volatileStore bool `json:"-"`
}
// rwContainerStore provides bookkeeping for information about Containers.
type rwContainerStore interface {
metadataStore
containerBigDataStore
flaggableStore
// startWriting makes sure the store is fresh, and locks it for writing.
// If this succeeds, the caller MUST call stopWriting().
startWriting() error
// stopWriting releases locks obtained by startWriting.
stopWriting()
// startReading makes sure the store is fresh, and locks it for reading.
// If this succeeds, the caller MUST call stopReading().
startReading() error
// stopReading releases locks obtained by startReading.
stopReading()
// create creates a container that has a specified ID (or generates a
// random one if an empty value is supplied) and optional names,
// based on the specified image, using the specified layer as its
// read-write layer.
// The maps in the container's options structure are recorded for the
// convenience of the caller, nothing more.
create(id string, names []string, image, layer string, options *ContainerOptions) (*Container, error)
// updateNames modifies names associated with a container based on (op, names).
updateNames(id string, names []string, op updateNameOperation) error
// Get retrieves information about a container given an ID or name.
Get(id string) (*Container, error)
// Exists checks if there is a container with the given ID or name.
Exists(id string) bool
// Delete removes the record of the container.
Delete(id string) error
// Wipe removes records of all containers.
Wipe() error
// Lookup attempts to translate a name to an ID. Most methods do this
// implicitly.
Lookup(name string) (string, error)
// Containers returns a slice enumerating the known containers.
Containers() ([]Container, error)
// Clean up unreferenced datadirs
GarbageCollect() error
}
type containerStore struct {
// The following fields are only set when constructing containerStore, and must never be modified afterwards.
// They are safe to access without any other locking.
lockfile *lockfile.LockFile // Synchronizes readers vs. writers of the _filesystem data_, both cross-process and in-process.
dir string
jsonPath [numContainerLocationIndex]string
inProcessLock sync.RWMutex // Can _only_ be obtained with lockfile held.
// The following fields can only be read/written with read/write ownership of inProcessLock, respectively.
// Almost all users should use startReading() or startWriting().
lastWrite lockfile.LastWrite
containers []*Container
idindex *truncindex.TruncIndex
byid map[string]*Container
bylayer map[string]*Container
byname map[string]*Container
}
func copyContainer(c *Container) *Container {
return &Container{
ID: c.ID,
Names: slices.Clone(c.Names),
ImageID: c.ImageID,
LayerID: c.LayerID,
Metadata: c.Metadata,
BigDataNames: slices.Clone(c.BigDataNames),
BigDataSizes: maps.Clone(c.BigDataSizes),
BigDataDigests: maps.Clone(c.BigDataDigests),
Created: c.Created,
UIDMap: copyIDMap(c.UIDMap),
GIDMap: copyIDMap(c.GIDMap),
Flags: maps.Clone(c.Flags),
volatileStore: c.volatileStore,
}
}
func (c *Container) MountLabel() string {
if label, ok := c.Flags[mountLabelFlag].(string); ok {
return label
}
return ""
}
func (c *Container) ProcessLabel() string {
if label, ok := c.Flags[processLabelFlag].(string); ok {
return label
}
return ""
}
func (c *Container) MountOpts() []string {
switch value := c.Flags[mountOptsFlag].(type) {
case []string:
return value
case []interface{}:
var mountOpts []string
for _, v := range value {
if flag, ok := v.(string); ok {
mountOpts = append(mountOpts, flag)
}
}
return mountOpts
default:
return nil
}
}
// The caller must hold r.inProcessLock for reading.
func containerLocation(c *Container) containerLocations {
if c.volatileStore {
return volatileContainerLocation
}
return stableContainerLocation
}
// startWritingWithReload makes sure the store is fresh if canReload, and locks it for writing.
// If this succeeds, the caller MUST call stopWriting().
//
// This is an internal implementation detail of containerStore construction, every other caller
// should use startWriting() instead.
func (r *containerStore) startWritingWithReload(canReload bool) error {
r.lockfile.Lock()
r.inProcessLock.Lock()
succeeded := false
defer func() {
if !succeeded {
r.inProcessLock.Unlock()
r.lockfile.Unlock()
}
}()
if canReload {
if _, err := r.reloadIfChanged(true); err != nil {
return err
}
}
succeeded = true
return nil
}
// startWriting makes sure the store is fresh, and locks it for writing.
// If this succeeds, the caller MUST call stopWriting().
func (r *containerStore) startWriting() error {
return r.startWritingWithReload(true)
}
// stopWriting releases locks obtained by startWriting.
func (r *containerStore) stopWriting() {
r.inProcessLock.Unlock()
r.lockfile.Unlock()
}
// startReading makes sure the store is fresh, and locks it for reading.
// If this succeeds, the caller MUST call stopReading().
func (r *containerStore) startReading() error {
// inProcessLocked calls the nested function with r.inProcessLock held for writing.
inProcessLocked := func(fn func() error) error {
r.inProcessLock.Lock()
defer r.inProcessLock.Unlock()
return fn()
}
r.lockfile.RLock()
unlockFn := r.lockfile.Unlock // A function to call to clean up, or nil.
defer func() {
if unlockFn != nil {
unlockFn()
}
}()
r.inProcessLock.RLock()
unlockFn = r.stopReading
// If we are lucky, we can just hold the read locks, check that we are fresh, and continue.
_, modified, err := r.modified()
if err != nil {
return err
}
if modified {
// We are unlucky, and need to reload.
// NOTE: Multiple goroutines can get to this place approximately simultaneously.
r.inProcessLock.RUnlock()
unlockFn = r.lockfile.Unlock
// r.lastWrite can change at this point if another goroutine reloads the store before us. That’s why we don’t unconditionally
// trigger a load below; we (lock and) reloadIfChanged() again.
// First try reloading with r.lockfile held for reading.
// r.inProcessLock will serialize all goroutines that got here;
// each will re-check on-disk state vs. r.lastWrite, and the first one will actually reload the data.
var tryLockedForWriting bool
if err := inProcessLocked(func() error {
// We could optimize this further: The r.lockfile.GetLastWrite() value shouldn’t change as long as we hold r.lockfile,
// so if r.lastWrite was already updated, we don’t need to actually read the on-filesystem lock.
var err error
tryLockedForWriting, err = r.reloadIfChanged(false)
return err
}); err != nil {
if !tryLockedForWriting {
return err
}
// Not good enough, we need r.lockfile held for writing. So, let’s do that.
unlockFn()
unlockFn = nil
r.lockfile.Lock()
unlockFn = r.lockfile.Unlock
if err := inProcessLocked(func() error {
_, err := r.reloadIfChanged(true)
return err
}); err != nil {
return err
}
unlockFn()
unlockFn = nil
r.lockfile.RLock()
unlockFn = r.lockfile.Unlock
// We need to check for a reload once more because the on-disk state could have been modified
// after we released the lock.
// If that, _again_, finds inconsistent state, just give up.
// We could, plausibly, retry a few times, but that inconsistent state (duplicate container names)
// shouldn’t be saved (by correct implementations) in the first place.
if err := inProcessLocked(func() error {
_, err := r.reloadIfChanged(false)
return err
}); err != nil {
return fmt.Errorf("(even after successfully cleaning up once:) %w", err)
}
}
// NOTE that we hold neither a read nor write inProcessLock at this point. That’s fine in ordinary operation, because
// the on-filesystem r.lockfile should protect us against (cooperating) writers, and any use of r.inProcessLock
// protects us against in-process writers modifying data.
// In presence of non-cooperating writers, we just ensure that 1) the in-memory data is not clearly out-of-date
// and 2) access to the in-memory data is not racy;
// but we can’t protect against those out-of-process writers modifying _files_ while we are assuming they are in a consistent state.
r.inProcessLock.RLock()
}
unlockFn = nil
return nil
}
// stopReading releases locks obtained by startReading.
func (r *containerStore) stopReading() {
r.inProcessLock.RUnlock()
r.lockfile.Unlock()
}
// modified returns true if the on-disk state has changed (i.e. if reloadIfChanged may need to modify the store),
// and a lockfile.LastWrite value for that update.
//
// The caller must hold r.lockfile for reading _or_ writing.
// The caller must hold r.inProcessLock for reading or writing.
func (r *containerStore) modified() (lockfile.LastWrite, bool, error) {
return r.lockfile.ModifiedSince(r.lastWrite)
}
// reloadIfChanged reloads the contents of the store from disk if it is changed.
//
// The caller must hold r.lockfile for reading _or_ writing; lockedForWriting is true
// if it is held for writing.
//
// The caller must hold r.inProcessLock for WRITING.
//
// If !lockedForWriting and this function fails, the return value indicates whether
// reloadIfChanged() with lockedForWriting could succeed.
func (r *containerStore) reloadIfChanged(lockedForWriting bool) (bool, error) {
lastWrite, modified, err := r.modified()
if err != nil {
return false, err
}
// We require callers to always hold r.inProcessLock for WRITING, even if they might not end up calling r.load()
// and modify no fields, to ensure they see fresh data:
// r.lockfile.Modified() only returns true once per change. Without an exclusive lock,
// one goroutine might see r.lockfile.Modified() == true and decide to load, and in the meanwhile another one could
// see r.lockfile.Modified() == false and proceed to use in-memory data without noticing it is stale.
if modified {
if tryLockedForWriting, err := r.load(lockedForWriting); err != nil {
return tryLockedForWriting, err // r.lastWrite is unchanged, so we will load the next time again.
}
r.lastWrite = lastWrite
}
return false, nil
}
// Requires startReading or startWriting.
func (r *containerStore) Containers() ([]Container, error) {
containers := make([]Container, len(r.containers))
for i := range r.containers {
containers[i] = *copyContainer(r.containers[i])
}
return containers, nil
}
// This looks for datadirs in the store directory that are not referenced
// by the json file and removes it. These can happen in the case of unclean
// shutdowns or regular restarts in transient store mode.
// Requires startReading.
func (r *containerStore) GarbageCollect() error {
entries, err := os.ReadDir(r.dir)
if err != nil {
// Unexpected, don't try any GC
return err
}
for _, entry := range entries {
id := entry.Name()
// Does it look like a datadir directory?
if !entry.IsDir() || stringid.ValidateID(id) != nil {
continue
}
// Should the id be there?
if r.byid[id] != nil {
continue
}
// Otherwise remove datadir
logrus.Debugf("removing %q", filepath.Join(r.dir, id))
moreErr := os.RemoveAll(filepath.Join(r.dir, id))
// Propagate first error
if moreErr != nil && err == nil {
err = moreErr
}
}
return err
}
func (r *containerStore) datadir(id string) string {
return filepath.Join(r.dir, id)
}
func (r *containerStore) datapath(id, key string) string {
return filepath.Join(r.datadir(id), makeBigDataBaseName(key))
}
// load reloads the contents of the store from disk.
//
// Most callers should call reloadIfChanged() instead, to avoid overhead and to correctly
// manage r.lastWrite.
//
// The caller must hold r.lockfile for reading _or_ writing; lockedForWriting is true
// if it is held for writing.
// The caller must hold r.inProcessLock for WRITING.
//
// If !lockedForWriting and this function fails, the return value indicates whether
// retrying with lockedForWriting could succeed.
func (r *containerStore) load(lockedForWriting bool) (bool, error) {
var modifiedLocations containerLocations
containers := []*Container{}
ids := make(map[string]*Container)
for locationIndex := 0; locationIndex < numContainerLocationIndex; locationIndex++ {
location := containerLocationFromIndex(locationIndex)
rpath := r.jsonPath[locationIndex]
data, err := os.ReadFile(rpath)
if err != nil && !os.IsNotExist(err) {
return false, err
}
locationContainers := []*Container{}
if len(data) != 0 {
if err := json.Unmarshal(data, &locationContainers); err != nil {
return false, fmt.Errorf("loading %q: %w", rpath, err)
}
}
for _, container := range locationContainers {
// There should be no duplicated ids between json files, but lets check to be sure
if ids[container.ID] != nil {
continue // skip invalid duplicated container
}
// Remember where the container came from
if location == volatileContainerLocation {
container.volatileStore = true
}
containers = append(containers, container)
ids[container.ID] = container
}
}
idlist := make([]string, 0, len(containers))
layers := make(map[string]*Container)
names := make(map[string]*Container)
var errorToResolveBySaving error // == nil
for n, container := range containers {
idlist = append(idlist, container.ID)
layers[container.LayerID] = containers[n]
for _, name := range container.Names {
if conflict, ok := names[name]; ok {
r.removeName(conflict, name)
errorToResolveBySaving = errors.New("container store is inconsistent and the current caller does not hold a write lock")
modifiedLocations |= containerLocation(container)
}
names[name] = containers[n]
}
}
r.containers = containers
r.idindex = truncindex.NewTruncIndex(idlist) // Invalid values in idlist are ignored: they are not a reason to refuse processing the whole store.
r.byid = ids
r.bylayer = layers
r.byname = names
if errorToResolveBySaving != nil {
if !lockedForWriting {
return true, errorToResolveBySaving
}
return false, r.save(modifiedLocations)
}
return false, nil
}
// save saves the contents of the store to disk.
// The caller must hold r.lockfile locked for writing.
// The caller must hold r.inProcessLock for reading (but usually holds it for writing in order to make the desired changes).
func (r *containerStore) save(saveLocations containerLocations) error {
r.lockfile.AssertLockedForWriting()
// This must be done before we write the file, because the process could be terminated
// after the file is written but before the lock file is updated.
lw, err := r.lockfile.RecordWrite()
if err != nil {
return err
}
r.lastWrite = lw
for locationIndex := 0; locationIndex < numContainerLocationIndex; locationIndex++ {
location := containerLocationFromIndex(locationIndex)
if location&saveLocations == 0 {
continue
}
rpath := r.jsonPath[locationIndex]
if err := os.MkdirAll(filepath.Dir(rpath), 0o700); err != nil {
return err
}
subsetContainers := make([]*Container, 0, len(r.containers))
for _, container := range r.containers {
if containerLocation(container) == location {
subsetContainers = append(subsetContainers, container)
}
}
jdata, err := json.Marshal(&subsetContainers)
if err != nil {
return err
}
var opts *ioutils.AtomicFileWriterOptions
if location == volatileContainerLocation {
opts = &ioutils.AtomicFileWriterOptions{
NoSync: true,
}
}
if err := ioutils.AtomicWriteFileWithOpts(rpath, jdata, 0o600, opts); err != nil {
return err
}
}
return nil
}
// saveFor saves the contents of the store relevant for modifiedContainer to disk.
// The caller must hold r.lockfile locked for writing.
// The caller must hold r.inProcessLock for reading (but usually holds it for writing in order to make the desired changes).
func (r *containerStore) saveFor(modifiedContainer *Container) error {
return r.save(containerLocation(modifiedContainer))
}
func newContainerStore(dir string, runDir string, transient bool) (rwContainerStore, error) {
if err := os.MkdirAll(dir, 0o700); err != nil {
return nil, err
}
volatileDir := dir
if transient {
if err := os.MkdirAll(runDir, 0o700); err != nil {
return nil, err
}
volatileDir = runDir
}
lockfile, err := lockfile.GetLockFile(filepath.Join(volatileDir, "containers.lock"))
if err != nil {
return nil, err
}
cstore := containerStore{
lockfile: lockfile,
dir: dir,
jsonPath: [numContainerLocationIndex]string{
filepath.Join(dir, "containers.json"),
filepath.Join(volatileDir, "volatile-containers.json"),
},
containers: []*Container{},
byid: make(map[string]*Container),
bylayer: make(map[string]*Container),
byname: make(map[string]*Container),
}
if err := cstore.startWritingWithReload(false); err != nil {
return nil, err
}
cstore.lastWrite, err = cstore.lockfile.GetLastWrite()
if err != nil {
return nil, err
}
defer cstore.stopWriting()
if _, err := cstore.load(true); err != nil {
return nil, err
}
return &cstore, nil
}
// Requires startReading or startWriting.
func (r *containerStore) lookup(id string) (*Container, bool) {
if container, ok := r.byid[id]; ok {
return container, ok
} else if container, ok := r.byname[id]; ok {
return container, ok
} else if container, ok := r.bylayer[id]; ok {
return container, ok
} else if longid, err := r.idindex.Get(id); err == nil {
if container, ok := r.byid[longid]; ok {
return container, ok
}
}
return nil, false
}
// Requires startWriting.
func (r *containerStore) ClearFlag(id string, flag string) error {
container, ok := r.lookup(id)
if !ok {
return ErrContainerUnknown
}
delete(container.Flags, flag)
return r.saveFor(container)
}
// Requires startWriting.
func (r *containerStore) SetFlag(id string, flag string, value interface{}) error {
container, ok := r.lookup(id)
if !ok {
return ErrContainerUnknown
}
if container.Flags == nil {
container.Flags = make(map[string]interface{})
}
container.Flags[flag] = value
return r.saveFor(container)
}
// Requires startWriting.
func (r *containerStore) create(id string, names []string, image, layer string, options *ContainerOptions) (container *Container, err error) {
if options == nil {
options = &ContainerOptions{}
}
if id == "" {
id = stringid.GenerateRandomID()
_, idInUse := r.byid[id]
for idInUse {
id = stringid.GenerateRandomID()
_, idInUse = r.byid[id]
}
}
if _, idInUse := r.byid[id]; idInUse {
return nil, ErrDuplicateID
}
names = dedupeStrings(names)
for _, name := range names {
if _, nameInUse := r.byname[name]; nameInUse {
return nil, fmt.Errorf("the container name %q is already in use by %s. You have to remove that container to be able to reuse that name: %w", name, r.byname[name].ID, ErrDuplicateName)
}
}
if err := hasOverlappingRanges(options.UIDMap); err != nil {
return nil, err
}
if err := hasOverlappingRanges(options.GIDMap); err != nil {
return nil, err
}
container = &Container{
ID: id,
Names: names,
ImageID: image,
LayerID: layer,
Metadata: options.Metadata,
BigDataNames: []string{},
BigDataSizes: make(map[string]int64),
BigDataDigests: make(map[string]digest.Digest),
Created: time.Now().UTC(),
Flags: copyStringInterfaceMap(options.Flags),
UIDMap: copyIDMap(options.UIDMap),
GIDMap: copyIDMap(options.GIDMap),
volatileStore: options.Volatile,
}
if options.MountOpts != nil {
container.Flags[mountOptsFlag] = slices.Clone(options.MountOpts)
}
if options.Volatile {
container.Flags[volatileFlag] = true
}
r.containers = append(r.containers, container)
// This can only fail on duplicate IDs, which shouldn’t happen — and in
// that case the index is already in the desired state anyway.
// Implementing recovery from an unlikely and unimportant failure here
// would be too risky.
_ = r.idindex.Add(id)
r.byid[id] = container
r.bylayer[layer] = container
for _, name := range names {
r.byname[name] = container
}
defer func() {
if err != nil {
// now that the in-memory structures know about the new
// record, we can use regular Delete() to clean up if
// anything breaks from here on out
if e := r.Delete(id); e != nil {
logrus.Debugf("while cleaning up partially-created container %q we failed to create: %v", id, e)
}
}
}()
err = r.saveFor(container)
if err != nil {
return nil, err
}
for _, item := range options.BigData {
if err = r.SetBigData(id, item.Key, item.Data); err != nil {
return nil, err
}
}
container = copyContainer(container)
return container, err
}
// Requires startReading or startWriting.
func (r *containerStore) Metadata(id string) (string, error) {
if container, ok := r.lookup(id); ok {
return container.Metadata, nil
}
return "", ErrContainerUnknown
}
// Requires startWriting.
func (r *containerStore) SetMetadata(id, metadata string) error {
if container, ok := r.lookup(id); ok {
container.Metadata = metadata
return r.saveFor(container)
}
return ErrContainerUnknown
}
// The caller must hold r.inProcessLock for writing.
func (r *containerStore) removeName(container *Container, name string) {
container.Names = stringSliceWithoutValue(container.Names, name)
}
// Requires startWriting.
func (r *containerStore) updateNames(id string, names []string, op updateNameOperation) error {
container, ok := r.lookup(id)
if !ok {
return ErrContainerUnknown
}
oldNames := container.Names
names, err := applyNameOperation(oldNames, names, op)
if err != nil {
return err
}
for _, name := range oldNames {
delete(r.byname, name)
}
for _, name := range names {
if otherContainer, ok := r.byname[name]; ok {
r.removeName(otherContainer, name)
}
r.byname[name] = container
}
container.Names = names
return r.saveFor(container)
}
// Requires startWriting.
func (r *containerStore) Delete(id string) error {
container, ok := r.lookup(id)
if !ok {
return ErrContainerUnknown
}
id = container.ID
delete(r.byid, id)
// This can only fail if the ID is already missing, which shouldn’t happen — and in that case the index is already in the desired state anyway.
// The store’s Delete method is used on various paths to recover from failures, so this should be robust against partially missing data.
_ = r.idindex.Delete(id)
delete(r.bylayer, container.LayerID)
for _, name := range container.Names {
delete(r.byname, name)
}
r.containers = slices.DeleteFunc(r.containers, func(candidate *Container) bool {
return candidate.ID == id
})
if err := r.saveFor(container); err != nil {
return err
}
if err := os.RemoveAll(r.datadir(id)); err != nil {
return err
}
return nil
}
// Requires startReading or startWriting.
func (r *containerStore) Get(id string) (*Container, error) {
if container, ok := r.lookup(id); ok {
return copyContainer(container), nil
}
return nil, ErrContainerUnknown
}
// Requires startReading or startWriting.
func (r *containerStore) Lookup(name string) (id string, err error) {
if container, ok := r.lookup(name); ok {
return container.ID, nil
}
return "", ErrContainerUnknown
}
// Requires startReading or startWriting.
func (r *containerStore) Exists(id string) bool {
_, ok := r.lookup(id)
return ok
}
// Requires startReading or startWriting.
func (r *containerStore) BigData(id, key string) ([]byte, error) {
if key == "" {
return nil, fmt.Errorf("can't retrieve container big data value for empty name: %w", ErrInvalidBigDataName)
}
c, ok := r.lookup(id)
if !ok {
return nil, ErrContainerUnknown
}
return os.ReadFile(r.datapath(c.ID, key))
}
// Requires startWriting. Yes, really, WRITING (see SetBigData).
func (r *containerStore) BigDataSize(id, key string) (int64, error) {
if key == "" {
return -1, fmt.Errorf("can't retrieve size of container big data with empty name: %w", ErrInvalidBigDataName)
}
c, ok := r.lookup(id)
if !ok {
return -1, ErrContainerUnknown
}
if size, ok := c.BigDataSizes[key]; ok { // This is valid, and returns ok == false, for BigDataSizes == nil.
return size, nil
}
if data, err := r.BigData(id, key); err == nil && data != nil {
if err = r.SetBigData(id, key, data); err == nil {
c, ok := r.lookup(id)
if !ok {
return -1, ErrContainerUnknown
}
if size, ok := c.BigDataSizes[key]; ok {
return size, nil
}
} else {
return -1, err
}
}
return -1, ErrSizeUnknown
}
// Requires startWriting. Yes, really, WRITING (see SetBigData).
func (r *containerStore) BigDataDigest(id, key string) (digest.Digest, error) {
if key == "" {
return "", fmt.Errorf("can't retrieve digest of container big data value with empty name: %w", ErrInvalidBigDataName)
}
c, ok := r.lookup(id)
if !ok {
return "", ErrContainerUnknown
}
if d, ok := c.BigDataDigests[key]; ok { // This is valid, and returns ok == false, for BigDataSizes == nil.
return d, nil
}
if data, err := r.BigData(id, key); err == nil && data != nil {
if err = r.SetBigData(id, key, data); err == nil {
c, ok := r.lookup(id)
if !ok {
return "", ErrContainerUnknown
}
if d, ok := c.BigDataDigests[key]; ok {
return d, nil
}
} else {
return "", err
}
}
return "", ErrDigestUnknown
}
// Requires startReading or startWriting.
func (r *containerStore) BigDataNames(id string) ([]string, error) {
c, ok := r.lookup(id)
if !ok {
return nil, ErrContainerUnknown
}
return copyStringSlice(c.BigDataNames), nil
}
// Requires startWriting.
func (r *containerStore) SetBigData(id, key string, data []byte) error {
if key == "" {
return fmt.Errorf("can't set empty name for container big data item: %w", ErrInvalidBigDataName)
}
c, ok := r.lookup(id)
if !ok {
return ErrContainerUnknown
}
if err := os.MkdirAll(r.datadir(c.ID), 0o700); err != nil {
return err
}
err := ioutils.AtomicWriteFile(r.datapath(c.ID, key), data, 0o600)
if err == nil {
save := false
if c.BigDataSizes == nil {
c.BigDataSizes = make(map[string]int64)
}
oldSize, sizeOk := c.BigDataSizes[key]
c.BigDataSizes[key] = int64(len(data))
if c.BigDataDigests == nil {
c.BigDataDigests = make(map[string]digest.Digest)
}
oldDigest, digestOk := c.BigDataDigests[key]
newDigest := digest.Canonical.FromBytes(data)
c.BigDataDigests[key] = newDigest
if !sizeOk || oldSize != c.BigDataSizes[key] || !digestOk || oldDigest != newDigest {
save = true
}
if !slices.Contains(c.BigDataNames, key) {
c.BigDataNames = append(c.BigDataNames, key)
save = true
}
if save {
err = r.saveFor(c)
}
}
return err
}
// Requires startWriting.
func (r *containerStore) Wipe() error {
ids := make([]string, 0, len(r.byid))
for id := range r.byid {
ids = append(ids, id)
}
for _, id := range ids {
if err := r.Delete(id); err != nil {
return err
}
}
return nil
}