daemon/exec.go - third_party/github.com/moby/moby - Git at Google

 package daemon

 import (
 	"io"
 	"io/ioutil"
 	"strings"
 	"sync"
 	"time"

 	"github.com/Sirupsen/logrus"
 	"github.com/docker/docker/daemon/execdriver"
 	derr "github.com/docker/docker/errors"
 	"github.com/docker/docker/pkg/broadcaster"
 	"github.com/docker/docker/pkg/ioutils"
 	"github.com/docker/docker/pkg/pools"
 	"github.com/docker/docker/pkg/stringid"
 	"github.com/docker/docker/pkg/stringutils"
 	"github.com/docker/docker/runconfig"
 )

 // ExecConfig holds the configurations for execs. The Daemon keeps
 // track of both running and finished execs so that they can be
 // examined both during and after completion.
 type ExecConfig struct {
 	sync.Mutex
 	ID            string
 	Running       bool
 	ExitCode      int
 	ProcessConfig *execdriver.ProcessConfig
 	streamConfig
 	OpenStdin  bool
 	OpenStderr bool
 	OpenStdout bool
 	Container  *Container
 	canRemove  bool

 	// waitStart will be closed immediately after the exec is really started.
 	waitStart chan struct{}
 }

 type execStore struct {
 	s map[string]*ExecConfig
 	sync.RWMutex
 }

 func newExecStore() *execStore {
 	return &execStore{s: make(map[string]*ExecConfig, 0)}
 }

 func (e *execStore) Add(id string, ExecConfig *ExecConfig) {
 	e.Lock()
 	e.s[id] = ExecConfig
 	e.Unlock()
 }

 func (e *execStore) Get(id string) *ExecConfig {
 	e.RLock()
 	res := e.s[id]
 	e.RUnlock()
 	return res
 }

 func (e *execStore) Delete(id string) {
 	e.Lock()
 	delete(e.s, id)
 	e.Unlock()
 }

 func (e *execStore) List() []string {
 	var IDs []string
 	e.RLock()
 	for id := range e.s {
 		IDs = append(IDs, id)
 	}
 	e.RUnlock()
 	return IDs
 }

 func (ExecConfig *ExecConfig) resize(h, w int) error {
 	select {
 	case <-ExecConfig.waitStart:
 	case <-time.After(time.Second):
 		return derr.ErrorCodeExecResize.WithArgs(ExecConfig.ID)
 	}
 	return ExecConfig.ProcessConfig.Terminal.Resize(h, w)
 }

 func (d *Daemon) registerExecCommand(ExecConfig *ExecConfig) {
 	// Storing execs in container in order to kill them gracefully whenever the container is stopped or removed.
 	ExecConfig.Container.execCommands.Add(ExecConfig.ID, ExecConfig)
 	// Storing execs in daemon for easy access via remote API.
 	d.execCommands.Add(ExecConfig.ID, ExecConfig)
 }

 // ExecExists looks up the exec instance and returns a bool if it exists or not.
 // It will also return the error produced by `getExecConfig`
 func (d *Daemon) ExecExists(name string) (bool, error) {
 	if _, err := d.getExecConfig(name); err != nil {
 		return false, err
 	}
 	return true, nil
 }

 // getExecConfig looks up the exec instance by name. If the container associated
 // with the exec instance is stopped or paused, it will return an error.
 func (d *Daemon) getExecConfig(name string) (*ExecConfig, error) {
 	ec := d.execCommands.Get(name)

 	// If the exec is found but its container is not in the daemon's list of
 	// containers then it must have been delete, in which case instead of
 	// saying the container isn't running, we should return a 404 so that
 	// the user sees the same error now that they will after the
 	// 5 minute clean-up loop is run which erases old/dead execs.

 	if ec != nil && d.containers.Get(ec.Container.ID) != nil {
 		if !ec.Container.IsRunning() {
 			return nil, derr.ErrorCodeContainerNotRunning.WithArgs(ec.Container.ID, ec.Container.State.String())
 		}
 		if ec.Container.isPaused() {
 			return nil, derr.ErrorCodeExecPaused.WithArgs(ec.Container.ID)
 		}
 		return ec, nil
 	}

 	return nil, derr.ErrorCodeNoExecID.WithArgs(name)
 }

 func (d *Daemon) unregisterExecCommand(ExecConfig *ExecConfig) {
 	ExecConfig.Container.execCommands.Delete(ExecConfig.ID)
 	d.execCommands.Delete(ExecConfig.ID)
 }

 func (d *Daemon) getActiveContainer(name string) (*Container, error) {
 	container, err := d.Get(name)
 	if err != nil {
 		return nil, err
 	}

 	if !container.IsRunning() {
 		return nil, derr.ErrorCodeNotRunning.WithArgs(name)
 	}
 	if container.isPaused() {
 		return nil, derr.ErrorCodeExecPaused.WithArgs(name)
 	}
 	return container, nil
 }

 // ContainerExecCreate sets up an exec in a running container.
 func (d *Daemon) ContainerExecCreate(config *runconfig.ExecConfig) (string, error) {
 	// Not all drivers support Exec (LXC for example)
 	if err := checkExecSupport(d.execDriver.Name()); err != nil {
 		return "", err
 	}

 	container, err := d.getActiveContainer(config.Container)
 	if err != nil {
 		return "", err
 	}

 	cmd := stringutils.NewStrSlice(config.Cmd...)
 	entrypoint, args := d.getEntrypointAndArgs(stringutils.NewStrSlice(), cmd)

 	user := config.User
 	if len(user) == 0 {
 		user = container.Config.User
 	}

 	processConfig := &execdriver.ProcessConfig{
 		Tty:        config.Tty,
 		Entrypoint: entrypoint,
 		Arguments:  args,
 		User:       user,
 		Privileged: config.Privileged,
 	}

 	ExecConfig := &ExecConfig{
 		ID:            stringid.GenerateNonCryptoID(),
 		OpenStdin:     config.AttachStdin,
 		OpenStdout:    config.AttachStdout,
 		OpenStderr:    config.AttachStderr,
 		streamConfig:  streamConfig{},
 		ProcessConfig: processConfig,
 		Container:     container,
 		Running:       false,
 		waitStart:     make(chan struct{}),
 	}

 	d.registerExecCommand(ExecConfig)

 	container.logEvent("exec_create: " + ExecConfig.ProcessConfig.Entrypoint + " " + strings.Join(ExecConfig.ProcessConfig.Arguments, " "))

 	return ExecConfig.ID, nil
 }

 // ContainerExecStart starts a previously set up exec instance. The
 // std streams are set up.
 func (d *Daemon) ContainerExecStart(name string, stdin io.ReadCloser, stdout io.Writer, stderr io.Writer) error {
 	var (
 		cStdin           io.ReadCloser
 		cStdout, cStderr io.Writer
 	)

 	ec, err := d.getExecConfig(name)
 	if err != nil {
 		return derr.ErrorCodeNoExecID.WithArgs(name)
 	}

 	ec.Lock()
 	if ec.Running {
 		ec.Unlock()
 		return derr.ErrorCodeExecRunning.WithArgs(ec.ID)
 	}
 	ec.Running = true
 	ec.Unlock()

 	logrus.Debugf("starting exec command %s in container %s", ec.ID, ec.Container.ID)
 	container := ec.Container
 	container.logEvent("exec_start: " + ec.ProcessConfig.Entrypoint + " " + strings.Join(ec.ProcessConfig.Arguments, " "))

 	if ec.OpenStdin {
 		r, w := io.Pipe()
 		go func() {
 			defer w.Close()
 			defer logrus.Debugf("Closing buffered stdin pipe")
 			pools.Copy(w, stdin)
 		}()
 		cStdin = r
 	}
 	if ec.OpenStdout {
 		cStdout = stdout
 	}
 	if ec.OpenStderr {
 		cStderr = stderr
 	}

 	ec.streamConfig.stderr = new(broadcaster.Unbuffered)
 	ec.streamConfig.stdout = new(broadcaster.Unbuffered)
 	// Attach to stdin
 	if ec.OpenStdin {
 		ec.streamConfig.stdin, ec.streamConfig.stdinPipe = io.Pipe()
 	} else {
 		ec.streamConfig.stdinPipe = ioutils.NopWriteCloser(ioutil.Discard) // Silently drop stdin
 	}

 	attachErr := attach(&ec.streamConfig, ec.OpenStdin, true, ec.ProcessConfig.Tty, cStdin, cStdout, cStderr)

 	execErr := make(chan error)

 	// Note, the ExecConfig data will be removed when the container
 	// itself is deleted.  This allows us to query it (for things like
 	// the exitStatus) even after the cmd is done running.

 	go func() {
 		execErr <- container.exec(ec)
 	}()

 	select {
 	case err := <-attachErr:
 		if err != nil {
 			return derr.ErrorCodeExecAttach.WithArgs(err)
 		}
 		return nil
 	case err := <-execErr:
 		if aErr := <-attachErr; aErr != nil && err == nil {
 			return derr.ErrorCodeExecAttach.WithArgs(aErr)
 		}
 		if err == nil {
 			return nil
 		}

 		// Maybe the container stopped while we were trying to exec
 		if !container.IsRunning() {
 			return derr.ErrorCodeExecContainerStopped
 		}
 		return derr.ErrorCodeExecCantRun.WithArgs(ec.ID, container.ID, err)
 	}
 }

 // Exec calls the underlying exec driver to run
 func (d *Daemon) Exec(c *Container, ExecConfig *ExecConfig, pipes *execdriver.Pipes, startCallback execdriver.DriverCallback) (int, error) {
 	hooks := execdriver.Hooks{
 		Start: startCallback,
 	}
 	exitStatus, err := d.execDriver.Exec(c.command, ExecConfig.ProcessConfig, pipes, hooks)

 	// On err, make sure we don't leave ExitCode at zero
 	if err != nil && exitStatus == 0 {
 		exitStatus = 128
 	}

 	ExecConfig.ExitCode = exitStatus
 	ExecConfig.Running = false

 	return exitStatus, err
 }

 // execCommandGC runs a ticker to clean up the daemon references
 // of exec configs that are no longer part of the container.
 func (d *Daemon) execCommandGC() {
 	for range time.Tick(5 * time.Minute) {
 		var (
 			cleaned          int
 			liveExecCommands = d.containerExecIds()
 		)
 		for id, config := range d.execCommands.s {
 			if config.canRemove {
 				cleaned++
 				d.execCommands.Delete(id)
 			} else {
 				if _, exists := liveExecCommands[id]; !exists {
 					config.canRemove = true
 				}
 			}
 		}
 		if cleaned > 0 {
 			logrus.Debugf("clean %d unused exec commands", cleaned)
 		}
 	}
 }

 // containerExecIds returns a list of all the current exec ids that are in use
 // and running inside a container.
 func (d *Daemon) containerExecIds() map[string]struct{} {
 	ids := map[string]struct{}{}
 	for _, c := range d.containers.List() {
 		for _, id := range c.execCommands.List() {
 			ids[id] = struct{}{}
 		}
 	}
 	return ids
 }
	package daemon

	import (
	"io"
	"io/ioutil"
	"strings"
	"sync"
	"time"

	"github.com/Sirupsen/logrus"
	"github.com/docker/docker/daemon/execdriver"
	derr "github.com/docker/docker/errors"
	"github.com/docker/docker/pkg/broadcaster"
	"github.com/docker/docker/pkg/ioutils"
	"github.com/docker/docker/pkg/pools"
	"github.com/docker/docker/pkg/stringid"
	"github.com/docker/docker/pkg/stringutils"
	"github.com/docker/docker/runconfig"
	)

	// ExecConfig holds the configurations for execs. The Daemon keeps
	// track of both running and finished execs so that they can be
	// examined both during and after completion.
	type ExecConfig struct {
	sync.Mutex
	ID string
	Running bool
	ExitCode int
	ProcessConfig *execdriver.ProcessConfig
	streamConfig
	OpenStdin bool
	OpenStderr bool
	OpenStdout bool
	Container *Container
	canRemove bool

	// waitStart will be closed immediately after the exec is really started.
	waitStart chan struct{}
	}

	type execStore struct {
	s map[string]*ExecConfig
	sync.RWMutex
	}

	func newExecStore() *execStore {
	return &execStore{s: make(map[string]*ExecConfig, 0)}
	}

	func (e execStore) Add(id string, ExecConfig ExecConfig) {
	e.Lock()
	e.s[id] = ExecConfig
	e.Unlock()
	}

	func (e execStore) Get(id string) ExecConfig {
	e.RLock()
	res := e.s[id]
	e.RUnlock()
	return res
	}

	func (e *execStore) Delete(id string) {
	e.Lock()
	delete(e.s, id)
	e.Unlock()
	}

	func (e *execStore) List() []string {
	var IDs []string
	e.RLock()
	for id := range e.s {
	IDs = append(IDs, id)
	}
	e.RUnlock()
	return IDs
	}

	func (ExecConfig *ExecConfig) resize(h, w int) error {
	select {
	case <-ExecConfig.waitStart:
	case <-time.After(time.Second):
	return derr.ErrorCodeExecResize.WithArgs(ExecConfig.ID)
	}
	return ExecConfig.ProcessConfig.Terminal.Resize(h, w)
	}

	func (d Daemon) registerExecCommand(ExecConfig ExecConfig) {
	// Storing execs in container in order to kill them gracefully whenever the container is stopped or removed.
	ExecConfig.Container.execCommands.Add(ExecConfig.ID, ExecConfig)
	// Storing execs in daemon for easy access via remote API.
	d.execCommands.Add(ExecConfig.ID, ExecConfig)
	}

	// ExecExists looks up the exec instance and returns a bool if it exists or not.
	// It will also return the error produced by `getExecConfig`
	func (d *Daemon) ExecExists(name string) (bool, error) {
	if _, err := d.getExecConfig(name); err != nil {
	return false, err
	}
	return true, nil
	}

	// getExecConfig looks up the exec instance by name. If the container associated
	// with the exec instance is stopped or paused, it will return an error.
	func (d Daemon) getExecConfig(name string) (ExecConfig, error) {
	ec := d.execCommands.Get(name)

	// If the exec is found but its container is not in the daemon's list of
	// containers then it must have been delete, in which case instead of
	// saying the container isn't running, we should return a 404 so that
	// the user sees the same error now that they will after the
	// 5 minute clean-up loop is run which erases old/dead execs.

	if ec != nil && d.containers.Get(ec.Container.ID) != nil {
	if !ec.Container.IsRunning() {
	return nil, derr.ErrorCodeContainerNotRunning.WithArgs(ec.Container.ID, ec.Container.State.String())
	}
	if ec.Container.isPaused() {
	return nil, derr.ErrorCodeExecPaused.WithArgs(ec.Container.ID)
	}
	return ec, nil
	}

	return nil, derr.ErrorCodeNoExecID.WithArgs(name)
	}

	func (d Daemon) unregisterExecCommand(ExecConfig ExecConfig) {
	ExecConfig.Container.execCommands.Delete(ExecConfig.ID)
	d.execCommands.Delete(ExecConfig.ID)
	}

	func (d Daemon) getActiveContainer(name string) (Container, error) {
	container, err := d.Get(name)
	if err != nil {
	return nil, err
	}

	if !container.IsRunning() {
	return nil, derr.ErrorCodeNotRunning.WithArgs(name)
	}
	if container.isPaused() {
	return nil, derr.ErrorCodeExecPaused.WithArgs(name)
	}
	return container, nil
	}

	// ContainerExecCreate sets up an exec in a running container.
	func (d Daemon) ContainerExecCreate(config runconfig.ExecConfig) (string, error) {
	// Not all drivers support Exec (LXC for example)
	if err := checkExecSupport(d.execDriver.Name()); err != nil {
	return "", err
	}

	container, err := d.getActiveContainer(config.Container)
	if err != nil {
	return "", err
	}

	cmd := stringutils.NewStrSlice(config.Cmd...)
	entrypoint, args := d.getEntrypointAndArgs(stringutils.NewStrSlice(), cmd)

	user := config.User
	if len(user) == 0 {
	user = container.Config.User
	}

	processConfig := &execdriver.ProcessConfig{
	Tty: config.Tty,
	Entrypoint: entrypoint,
	Arguments: args,
	User: user,
	Privileged: config.Privileged,
	}

	ExecConfig := &ExecConfig{
	ID: stringid.GenerateNonCryptoID(),
	OpenStdin: config.AttachStdin,
	OpenStdout: config.AttachStdout,
	OpenStderr: config.AttachStderr,
	streamConfig: streamConfig{},
	ProcessConfig: processConfig,
	Container: container,
	Running: false,
	waitStart: make(chan struct{}),
	}

	d.registerExecCommand(ExecConfig)

	container.logEvent("exec_create: " + ExecConfig.ProcessConfig.Entrypoint + " " + strings.Join(ExecConfig.ProcessConfig.Arguments, " "))

	return ExecConfig.ID, nil
	}

	// ContainerExecStart starts a previously set up exec instance. The
	// std streams are set up.
	func (d *Daemon) ContainerExecStart(name string, stdin io.ReadCloser, stdout io.Writer, stderr io.Writer) error {
	var (
	cStdin io.ReadCloser
	cStdout, cStderr io.Writer
	)

	ec, err := d.getExecConfig(name)
	if err != nil {
	return derr.ErrorCodeNoExecID.WithArgs(name)
	}

	ec.Lock()
	if ec.Running {
	ec.Unlock()
	return derr.ErrorCodeExecRunning.WithArgs(ec.ID)
	}
	ec.Running = true
	ec.Unlock()

	logrus.Debugf("starting exec command %s in container %s", ec.ID, ec.Container.ID)
	container := ec.Container
	container.logEvent("exec_start: " + ec.ProcessConfig.Entrypoint + " " + strings.Join(ec.ProcessConfig.Arguments, " "))

	if ec.OpenStdin {
	r, w := io.Pipe()
	go func() {
	defer w.Close()
	defer logrus.Debugf("Closing buffered stdin pipe")
	pools.Copy(w, stdin)
	}()
	cStdin = r
	}
	if ec.OpenStdout {
	cStdout = stdout
	}
	if ec.OpenStderr {
	cStderr = stderr
	}

	ec.streamConfig.stderr = new(broadcaster.Unbuffered)
	ec.streamConfig.stdout = new(broadcaster.Unbuffered)
	// Attach to stdin
	if ec.OpenStdin {
	ec.streamConfig.stdin, ec.streamConfig.stdinPipe = io.Pipe()
	} else {
	ec.streamConfig.stdinPipe = ioutils.NopWriteCloser(ioutil.Discard) // Silently drop stdin
	}

	attachErr := attach(&ec.streamConfig, ec.OpenStdin, true, ec.ProcessConfig.Tty, cStdin, cStdout, cStderr)

	execErr := make(chan error)

	// Note, the ExecConfig data will be removed when the container
	// itself is deleted. This allows us to query it (for things like
	// the exitStatus) even after the cmd is done running.

	go func() {
	execErr <- container.exec(ec)
	}()

	select {
	case err := <-attachErr:
	if err != nil {
	return derr.ErrorCodeExecAttach.WithArgs(err)
	}
	return nil
	case err := <-execErr:
	if aErr := <-attachErr; aErr != nil && err == nil {
	return derr.ErrorCodeExecAttach.WithArgs(aErr)
	}
	if err == nil {
	return nil
	}

	// Maybe the container stopped while we were trying to exec
	if !container.IsRunning() {
	return derr.ErrorCodeExecContainerStopped
	}
	return derr.ErrorCodeExecCantRun.WithArgs(ec.ID, container.ID, err)
	}
	}

	// Exec calls the underlying exec driver to run
	func (d Daemon) Exec(c Container, ExecConfig ExecConfig, pipes execdriver.Pipes, startCallback execdriver.DriverCallback) (int, error) {
	hooks := execdriver.Hooks{
	Start: startCallback,
	}
	exitStatus, err := d.execDriver.Exec(c.command, ExecConfig.ProcessConfig, pipes, hooks)

	// On err, make sure we don't leave ExitCode at zero
	if err != nil && exitStatus == 0 {
	exitStatus = 128
	}

	ExecConfig.ExitCode = exitStatus
	ExecConfig.Running = false

	return exitStatus, err
	}

	// execCommandGC runs a ticker to clean up the daemon references
	// of exec configs that are no longer part of the container.
	func (d *Daemon) execCommandGC() {
	for range time.Tick(5 * time.Minute) {
	var (
	cleaned int
	liveExecCommands = d.containerExecIds()
	)
	for id, config := range d.execCommands.s {
	if config.canRemove {
	cleaned++
	d.execCommands.Delete(id)
	} else {
	if _, exists := liveExecCommands[id]; !exists {
	config.canRemove = true
	}
	}
	}
	if cleaned > 0 {
	logrus.Debugf("clean %d unused exec commands", cleaned)
	}
	}
	}

	// containerExecIds returns a list of all the current exec ids that are in use
	// and running inside a container.
	func (d *Daemon) containerExecIds() map[string]struct{} {
	ids := map[string]struct{}{}
	for _, c := range d.containers.List() {
	for _, id := range c.execCommands.List() {
	ids[id] = struct{}{}
	}
	}
	return ids
	}