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|
package libpod
import (
"context"
"io"
"io/ioutil"
"net/http"
"os"
"sync"
"time"
"github.com/containers/podman/v3/libpod/define"
"github.com/containers/podman/v3/libpod/events"
"github.com/containers/podman/v3/pkg/signal"
"github.com/containers/storage/pkg/archive"
"github.com/pkg/errors"
"github.com/sirupsen/logrus"
)
// Init creates a container in the OCI runtime, moving a container from
// ContainerStateConfigured, ContainerStateStopped, or ContainerStateExited to
// ContainerStateCreated. Once in Created state, Conmon will be running, which
// allows the container to be attached to. The container can subsequently
// transition to ContainerStateRunning via Start(), or be transitioned back to
// ContainerStateConfigured by Cleanup() (which will stop conmon and unmount the
// container).
// Init requires that all dependency containers be started (e.g. pod infra
// containers). The `recursive` parameter will, if set to true, start these
// dependency containers before initializing this container.
func (c *Container) Init(ctx context.Context, recursive bool) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if !c.ensureState(define.ContainerStateConfigured, define.ContainerStateStopped, define.ContainerStateExited) {
return errors.Wrapf(define.ErrCtrStateInvalid, "container %s has already been created in runtime", c.ID())
}
if !recursive {
if err := c.checkDependenciesAndHandleError(); err != nil {
return err
}
} else {
if err := c.startDependencies(ctx); err != nil {
return err
}
}
if err := c.prepare(); err != nil {
if err2 := c.cleanup(ctx); err2 != nil {
logrus.Errorf("error cleaning up container %s: %v", c.ID(), err2)
}
return err
}
if c.state.State == define.ContainerStateStopped {
// Reinitialize the container
return c.reinit(ctx, false)
}
// Initialize the container for the first time
return c.init(ctx, false)
}
// Start starts the given container.
// Start will accept container in ContainerStateConfigured,
// ContainerStateCreated, ContainerStateStopped, and ContainerStateExited, and
// transition them to ContainerStateRunning (all containers not in
// ContainerStateCreated will make an intermediate stop there via the Init API).
// Once in ContainerStateRunning, the container can be transitioned to
// ContainerStatePaused via Pause(), or to ContainerStateStopped by the process
// stopping (either due to exit, or being forced to stop by the Kill or Stop API
// calls).
// Start requites that all dependency containers (e.g. pod infra containers) be
// running before being run. The recursive parameter, if set, will start all
// dependencies before starting this container.
func (c *Container) Start(ctx context.Context, recursive bool) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if err := c.prepareToStart(ctx, recursive); err != nil {
return err
}
// Start the container
return c.start()
}
// StartAndAttach starts a container and attaches to it.
// This acts as a combination of the Start and Attach APIs, ensuring proper
// ordering of the two such that no output from the container is lost (e.g. the
// Attach call occurs before Start).
// In overall functionality, it is identical to the Start call, with the added
// side effect that an attach session will also be started.
func (c *Container) StartAndAttach(ctx context.Context, streams *define.AttachStreams, keys string, resize <-chan define.TerminalSize, recursive bool) (<-chan error, error) {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return nil, err
}
}
if err := c.prepareToStart(ctx, recursive); err != nil {
return nil, err
}
attachChan := make(chan error)
// We need to ensure that we don't return until start() fired in attach.
// Use a channel to sync
startedChan := make(chan bool)
// Attach to the container before starting it
go func() {
if err := c.attach(streams, keys, resize, true, startedChan, nil); err != nil {
attachChan <- err
}
close(attachChan)
}()
select {
case err := <-attachChan:
return nil, err
case <-startedChan:
c.newContainerEvent(events.Attach)
}
return attachChan, nil
}
// RestartWithTimeout restarts a running container and takes a given timeout in uint
func (c *Container) RestartWithTimeout(ctx context.Context, timeout uint) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if err := c.checkDependenciesAndHandleError(); err != nil {
return err
}
return c.restartWithTimeout(ctx, timeout)
}
// Stop uses the container's stop signal (or SIGTERM if no signal was specified)
// to stop the container, and if it has not stopped after container's stop
// timeout, SIGKILL is used to attempt to forcibly stop the container
// Default stop timeout is 10 seconds, but can be overridden when the container
// is created
func (c *Container) Stop() error {
// Stop with the container's given timeout
return c.StopWithTimeout(c.config.StopTimeout)
}
// StopWithTimeout is a version of Stop that allows a timeout to be specified
// manually. If timeout is 0, SIGKILL will be used immediately to kill the
// container.
func (c *Container) StopWithTimeout(timeout uint) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if c.ensureState(define.ContainerStateStopped, define.ContainerStateExited) {
return define.ErrCtrStopped
}
if !c.ensureState(define.ContainerStateCreated, define.ContainerStateRunning, define.ContainerStateStopping) {
return errors.Wrapf(define.ErrCtrStateInvalid, "can only stop created or running containers. %s is in state %s", c.ID(), c.state.State.String())
}
return c.stop(timeout)
}
// Kill sends a signal to a container
func (c *Container) Kill(signal uint) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
// TODO: Is killing a paused container OK?
switch c.state.State {
case define.ContainerStateRunning, define.ContainerStateStopping:
// Note that killing containers in "stopping" state is okay.
// In that state, the Podman is waiting for the runtime to
// stop the container and if that is taking too long, a user
// may have decided to kill the container after all.
default:
return errors.Wrapf(define.ErrCtrStateInvalid, "can only kill running containers. %s is in state %s", c.ID(), c.state.State.String())
}
// Hardcode all = false, we only use all when removing.
if err := c.ociRuntime.KillContainer(c, signal, false); err != nil {
return err
}
c.state.StoppedByUser = true
c.newContainerEvent(events.Kill)
return c.save()
}
// Attach attaches to a container.
// This function returns when the attach finishes. It does not hold the lock for
// the duration of its runtime, only using it at the beginning to verify state.
func (c *Container) Attach(streams *define.AttachStreams, keys string, resize <-chan define.TerminalSize) error {
if !c.batched {
c.lock.Lock()
if err := c.syncContainer(); err != nil {
c.lock.Unlock()
return err
}
// We are NOT holding the lock for the duration of the function.
c.lock.Unlock()
}
if !c.ensureState(define.ContainerStateCreated, define.ContainerStateRunning) {
return errors.Wrapf(define.ErrCtrStateInvalid, "can only attach to created or running containers")
}
// HACK: This is really gross, but there isn't a better way without
// splitting attach into separate versions for StartAndAttach and normal
// attaching, and I really do not want to do that right now.
// Send a SIGWINCH after attach succeeds so that most programs will
// redraw the screen for the new attach session.
attachRdy := make(chan bool, 1)
if c.config.Spec.Process != nil && c.config.Spec.Process.Terminal {
go func() {
<-attachRdy
if err := c.ociRuntime.KillContainer(c, uint(signal.SIGWINCH), false); err != nil {
logrus.Warnf("Unable to send SIGWINCH to container %s after attach: %v", c.ID(), err)
}
}()
}
c.newContainerEvent(events.Attach)
return c.attach(streams, keys, resize, false, nil, attachRdy)
}
// HTTPAttach forwards an attach session over a hijacked HTTP session.
// HTTPAttach will consume and close the included httpCon, which is expected to
// be sourced from a hijacked HTTP connection.
// The cancel channel is optional, and can be used to asynchronously cancel the
// attach session.
// The streams variable is only supported if the container was not a terminal,
// and allows specifying which of the container's standard streams will be
// forwarded to the client.
// This function returns when the attach finishes. It does not hold the lock for
// the duration of its runtime, only using it at the beginning to verify state.
// The streamLogs parameter indicates that all the container's logs until present
// will be streamed at the beginning of the attach.
// The streamAttach parameter indicates that the attach itself will be streamed
// over the socket; if this is not set, but streamLogs is, only the logs will be
// sent.
// At least one of streamAttach and streamLogs must be set.
func (c *Container) HTTPAttach(r *http.Request, w http.ResponseWriter, streams *HTTPAttachStreams, detachKeys *string, cancel <-chan bool, streamAttach, streamLogs bool, hijackDone chan<- bool) error {
// Ensure we don't leak a goroutine if we exit before hijack completes.
defer func() {
close(hijackDone)
}()
if !c.batched {
c.lock.Lock()
if err := c.syncContainer(); err != nil {
c.lock.Unlock()
return err
}
// We are NOT holding the lock for the duration of the function.
c.lock.Unlock()
}
if !c.ensureState(define.ContainerStateCreated, define.ContainerStateRunning) {
return errors.Wrapf(define.ErrCtrStateInvalid, "can only attach to created or running containers")
}
if !streamAttach && !streamLogs {
return errors.Wrapf(define.ErrInvalidArg, "must specify at least one of stream or logs")
}
logrus.Infof("Performing HTTP Hijack attach to container %s", c.ID())
c.newContainerEvent(events.Attach)
return c.ociRuntime.HTTPAttach(c, r, w, streams, detachKeys, cancel, hijackDone, streamAttach, streamLogs)
}
// AttachResize resizes the container's terminal, which is displayed by Attach
// and HTTPAttach.
func (c *Container) AttachResize(newSize define.TerminalSize) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if !c.ensureState(define.ContainerStateCreated, define.ContainerStateRunning) {
return errors.Wrapf(define.ErrCtrStateInvalid, "can only resize created or running containers")
}
logrus.Infof("Resizing TTY of container %s", c.ID())
return c.ociRuntime.AttachResize(c, newSize)
}
// Mount mounts a container's filesystem on the host
// The path where the container has been mounted is returned
func (c *Container) Mount() (string, error) {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return "", err
}
}
defer c.newContainerEvent(events.Mount)
return c.mount()
}
// Unmount unmounts a container's filesystem on the host
func (c *Container) Unmount(force bool) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if c.state.Mounted {
mounted, err := c.runtime.storageService.MountedContainerImage(c.ID())
if err != nil {
return errors.Wrapf(err, "can't determine how many times %s is mounted, refusing to unmount", c.ID())
}
if mounted == 1 {
if c.ensureState(define.ContainerStateRunning, define.ContainerStatePaused) {
return errors.Wrapf(define.ErrCtrStateInvalid, "cannot unmount storage for container %s as it is running or paused", c.ID())
}
execSessions, err := c.getActiveExecSessions()
if err != nil {
return err
}
if len(execSessions) != 0 {
return errors.Wrapf(define.ErrCtrStateInvalid, "container %s has active exec sessions, refusing to unmount", c.ID())
}
return errors.Wrapf(define.ErrInternal, "can't unmount %s last mount, it is still in use", c.ID())
}
}
defer c.newContainerEvent(events.Unmount)
return c.unmount(force)
}
// Pause pauses a container
func (c *Container) Pause() error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if c.state.State == define.ContainerStatePaused {
return errors.Wrapf(define.ErrCtrStateInvalid, "%q is already paused", c.ID())
}
if c.state.State != define.ContainerStateRunning {
return errors.Wrapf(define.ErrCtrStateInvalid, "%q is not running, can't pause", c.state.State)
}
defer c.newContainerEvent(events.Pause)
return c.pause()
}
// Unpause unpauses a container
func (c *Container) Unpause() error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if c.state.State != define.ContainerStatePaused {
return errors.Wrapf(define.ErrCtrStateInvalid, "%q is not paused, can't unpause", c.ID())
}
defer c.newContainerEvent(events.Unpause)
return c.unpause()
}
// Export exports a container's root filesystem as a tar archive
// The archive will be saved as a file at the given path
func (c *Container) Export(path string) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if c.state.State == define.ContainerStateRemoving {
return errors.Wrapf(define.ErrCtrStateInvalid, "cannot mount container %s as it is being removed", c.ID())
}
defer c.newContainerEvent(events.Mount)
return c.export(path)
}
// AddArtifact creates and writes to an artifact file for the container
func (c *Container) AddArtifact(name string, data []byte) error {
if !c.valid {
return define.ErrCtrRemoved
}
return ioutil.WriteFile(c.getArtifactPath(name), data, 0740)
}
// GetArtifact reads the specified artifact file from the container
func (c *Container) GetArtifact(name string) ([]byte, error) {
if !c.valid {
return nil, define.ErrCtrRemoved
}
return ioutil.ReadFile(c.getArtifactPath(name))
}
// RemoveArtifact deletes the specified artifacts file
func (c *Container) RemoveArtifact(name string) error {
if !c.valid {
return define.ErrCtrRemoved
}
return os.Remove(c.getArtifactPath(name))
}
// Wait blocks until the container exits and returns its exit code.
func (c *Container) Wait(ctx context.Context) (int32, error) {
return c.WaitWithInterval(ctx, DefaultWaitInterval)
}
// WaitWithInterval blocks until the container to exit and returns its exit
// code. The argument is the interval at which checks the container's status.
func (c *Container) WaitWithInterval(ctx context.Context, waitTimeout time.Duration) (int32, error) {
if !c.valid {
return -1, define.ErrCtrRemoved
}
exitFile, err := c.exitFilePath()
if err != nil {
return -1, err
}
chWait := make(chan error, 1)
go func() {
<-ctx.Done()
chWait <- define.ErrCanceled
}()
for {
// ignore errors here (with exception of cancellation), it is only used to avoid waiting
// too long.
_, e := WaitForFile(exitFile, chWait, waitTimeout)
if e == define.ErrCanceled {
return -1, define.ErrCanceled
}
stopped, code, err := c.isStopped()
if err != nil {
return -1, err
}
if stopped {
return code, nil
}
}
}
type waitResult struct {
code int32
err error
}
func (c *Container) WaitForConditionWithInterval(ctx context.Context, waitTimeout time.Duration, conditions ...define.ContainerStatus) (int32, error) {
if !c.valid {
return -1, define.ErrCtrRemoved
}
if len(conditions) == 0 {
panic("at least one condition should be passed")
}
ctx, cancelFn := context.WithCancel(ctx)
defer cancelFn()
resultChan := make(chan waitResult)
waitForExit := false
wantedStates := make(map[define.ContainerStatus]bool, len(conditions))
for _, condition := range conditions {
if condition == define.ContainerStateStopped || condition == define.ContainerStateExited {
waitForExit = true
continue
}
wantedStates[condition] = true
}
trySend := func(code int32, err error) {
select {
case resultChan <- waitResult{code, err}:
case <-ctx.Done():
}
}
var wg sync.WaitGroup
if waitForExit {
wg.Add(1)
go func() {
defer wg.Done()
code, err := c.WaitWithInterval(ctx, waitTimeout)
trySend(code, err)
}()
}
if len(wantedStates) > 0 {
wg.Add(1)
go func() {
defer wg.Done()
for {
state, err := c.State()
if err != nil {
trySend(-1, err)
return
}
if _, found := wantedStates[state]; found {
trySend(-1, nil)
return
}
select {
case <-ctx.Done():
return
case <-time.After(waitTimeout):
continue
}
}
}()
}
var result waitResult
select {
case result = <-resultChan:
cancelFn()
case <-ctx.Done():
result = waitResult{-1, define.ErrCanceled}
}
wg.Wait()
return result.code, result.err
}
// Cleanup unmounts all mount points in container and cleans up container storage
// It also cleans up the network stack
func (c *Container) Cleanup(ctx context.Context) error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
// Check if state is good
if !c.ensureState(define.ContainerStateConfigured, define.ContainerStateCreated, define.ContainerStateStopped, define.ContainerStateStopping, define.ContainerStateExited) {
return errors.Wrapf(define.ErrCtrStateInvalid, "container %s is running or paused, refusing to clean up", c.ID())
}
// Handle restart policy.
// Returns a bool indicating whether we actually restarted.
// If we did, don't proceed to cleanup - just exit.
didRestart, err := c.handleRestartPolicy(ctx)
if err != nil {
return err
}
if didRestart {
return nil
}
// If we didn't restart, we perform a normal cleanup
// Check for running exec sessions
sessions, err := c.getActiveExecSessions()
if err != nil {
return err
}
if len(sessions) > 0 {
return errors.Wrapf(define.ErrCtrStateInvalid, "container %s has active exec sessions, refusing to clean up", c.ID())
}
defer c.newContainerEvent(events.Cleanup)
return c.cleanup(ctx)
}
// Batch starts a batch operation on the given container
// All commands in the passed function will execute under the same lock and
// without synchronizing state after each operation
// This will result in substantial performance benefits when running numerous
// commands on the same container
// Note that the container passed into the Batch function cannot be removed
// during batched operations. runtime.RemoveContainer can only be called outside
// of Batch
// Any error returned by the given batch function will be returned unmodified by
// Batch
// As Batch normally disables updating the current state of the container, the
// Sync() function is provided to enable container state to be updated and
// checked within Batch.
func (c *Container) Batch(batchFunc func(*Container) error) error {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
newCtr := new(Container)
newCtr.config = c.config
newCtr.state = c.state
newCtr.runtime = c.runtime
newCtr.ociRuntime = c.ociRuntime
newCtr.lock = c.lock
newCtr.valid = true
newCtr.batched = true
err := batchFunc(newCtr)
newCtr.batched = false
return err
}
// Sync updates the status of a container by querying the OCI runtime.
// If the container has not been created inside the OCI runtime, nothing will be
// done.
// Most of the time, Podman does not explicitly query the OCI runtime for
// container status, and instead relies upon exit files created by conmon.
// This can cause a disconnect between running state and what Podman sees in
// cases where Conmon was killed unexpected, or runc was upgraded.
// Running a manual Sync() ensures that container state will be correct in
// such situations.
func (c *Container) Sync() error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
}
// If runtime knows about the container, update its status in runtime
// And then save back to disk
if c.ensureState(define.ContainerStateCreated, define.ContainerStateRunning, define.ContainerStatePaused, define.ContainerStateStopped, define.ContainerStateStopping) {
oldState := c.state.State
if err := c.ociRuntime.UpdateContainerStatus(c); err != nil {
return err
}
// Only save back to DB if state changed
if c.state.State != oldState {
if err := c.save(); err != nil {
return err
}
}
}
defer c.newContainerEvent(events.Sync)
return nil
}
// ReloadNetwork reconfigures the container's network.
// Technically speaking, it will tear down and then reconfigure the container's
// network namespace, which will result in all firewall rules being recreated.
// It is mostly intended to be used in cases where the system firewall has been
// reloaded, and existing rules have been wiped out. It is expected that some
// downtime will result, as the rules are destroyed as part of this process.
// At present, this only works on root containers; it may be expanded to restart
// slirp4netns in the future to work with rootless containers as well.
// Requires that the container must be running or created.
func (c *Container) ReloadNetwork() error {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
if !c.ensureState(define.ContainerStateCreated, define.ContainerStateRunning) {
return errors.Wrapf(define.ErrCtrStateInvalid, "cannot reload network unless container network has been configured")
}
return c.reloadNetwork()
}
// Refresh is DEPRECATED and REMOVED.
func (c *Container) Refresh(ctx context.Context) error {
// This has been deprecated for a long while, and is in the process of
// being removed.
return define.ErrNotImplemented
}
// ContainerCheckpointOptions is a struct used to pass the parameters
// for checkpointing (and restoring) to the corresponding functions
type ContainerCheckpointOptions struct {
// Keep tells the API to not delete checkpoint artifacts
Keep bool
// KeepRunning tells the API to keep the container running
// after writing the checkpoint to disk
KeepRunning bool
// TCPEstablished tells the API to checkpoint a container
// even if it contains established TCP connections
TCPEstablished bool
// TargetFile tells the API to read (or write) the checkpoint image
// from (or to) the filename set in TargetFile
TargetFile string
// Name tells the API that during restore from an exported
// checkpoint archive a new name should be used for the
// restored container
Name string
// IgnoreRootfs tells the API to not export changes to
// the container's root file-system (or to not import)
IgnoreRootfs bool
// IgnoreStaticIP tells the API to ignore the IP set
// during 'podman run' with '--ip'. This is especially
// important to be able to restore a container multiple
// times with '--import --name'.
IgnoreStaticIP bool
// IgnoreStaticMAC tells the API to ignore the MAC set
// during 'podman run' with '--mac-address'. This is especially
// important to be able to restore a container multiple
// times with '--import --name'.
IgnoreStaticMAC bool
// IgnoreVolumes tells the API to not export or not to import
// the content of volumes associated with the container
IgnoreVolumes bool
// Pre Checkpoint container and leave container running
PreCheckPoint bool
// Dump container with Pre Checkpoint images
WithPrevious bool
// ImportPrevious tells the API to restore container with two
// images. One is TargetFile, the other is ImportPrevious.
ImportPrevious string
// Compression tells the API which compression to use for
// the exported checkpoint archive.
Compression archive.Compression
// If Pod is set the container should be restored into the
// given Pod. If Pod is empty it is a restore without a Pod.
// Restoring a non Pod container into a Pod or a Pod container
// without a Pod is theoretically possible, but will
// probably not work if a PID namespace is shared.
// A shared PID namespace means that a Pod container has PID 1
// in the infrastructure container, but without the infrastructure
// container no PID 1 will be in the namespace and that is not
// possible.
Pod string
}
// Checkpoint checkpoints a container
func (c *Container) Checkpoint(ctx context.Context, options ContainerCheckpointOptions) error {
logrus.Debugf("Trying to checkpoint container %s", c.ID())
if options.TargetFile != "" {
if err := c.prepareCheckpointExport(); err != nil {
return err
}
}
if options.WithPrevious {
if err := c.canWithPrevious(); err != nil {
return err
}
}
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
return c.checkpoint(ctx, options)
}
// Restore restores a container
func (c *Container) Restore(ctx context.Context, options ContainerCheckpointOptions) error {
if options.Pod == "" {
logrus.Debugf("Trying to restore container %s", c.ID())
} else {
logrus.Debugf("Trying to restore container %s into pod %s", c.ID(), options.Pod)
}
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return err
}
}
defer c.newContainerEvent(events.Restore)
return c.restore(ctx, options)
}
// Indicate whether or not the container should restart
func (c *Container) ShouldRestart(ctx context.Context) bool {
logrus.Debugf("Checking if container %s should restart", c.ID())
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return false
}
}
return c.shouldRestart()
}
// CopyFromArchive copies the contents from the specified tarStream to path
// *inside* the container.
func (c *Container) CopyFromArchive(ctx context.Context, containerPath string, chown bool, rename map[string]string, tarStream io.Reader) (func() error, error) {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return nil, err
}
}
return c.copyFromArchive(ctx, containerPath, chown, rename, tarStream)
}
// CopyToArchive copies the contents from the specified path *inside* the
// container to the tarStream.
func (c *Container) CopyToArchive(ctx context.Context, containerPath string, tarStream io.Writer) (func() error, error) {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return nil, err
}
}
return c.copyToArchive(ctx, containerPath, tarStream)
}
// Stat the specified path *inside* the container and return a file info.
func (c *Container) Stat(ctx context.Context, containerPath string) (*define.FileInfo, error) {
if !c.batched {
c.lock.Lock()
defer c.lock.Unlock()
if err := c.syncContainer(); err != nil {
return nil, err
}
}
var mountPoint string
var err error
if c.state.Mounted {
mountPoint = c.state.Mountpoint
} else {
mountPoint, err = c.mount()
if err != nil {
return nil, err
}
defer c.unmount(false)
}
info, _, _, err := c.stat(ctx, mountPoint, containerPath)
return info, err
}
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