// +build !remoteclient package adapter import ( "bufio" "context" "fmt" "io" "io/ioutil" "os" "path/filepath" "strconv" "strings" "sync" "syscall" "time" "github.com/containers/buildah" "github.com/containers/image/manifest" "github.com/containers/libpod/cmd/podman/cliconfig" "github.com/containers/libpod/cmd/podman/shared" "github.com/containers/libpod/cmd/podman/shared/parse" "github.com/containers/libpod/libpod" "github.com/containers/libpod/libpod/define" "github.com/containers/libpod/libpod/image" "github.com/containers/libpod/libpod/logs" "github.com/containers/libpod/pkg/adapter/shortcuts" "github.com/containers/libpod/pkg/systemdgen" "github.com/containers/psgo" "github.com/containers/storage" "github.com/pkg/errors" "github.com/sirupsen/logrus" ) // GetLatestContainer gets the latest Container and wraps it in an adapter Container func (r *LocalRuntime) GetLatestContainer() (*Container, error) { Container := Container{} c, err := r.Runtime.GetLatestContainer() Container.Container = c return &Container, err } // GetAllContainers gets all Containers and wraps each one in an adapter Container func (r *LocalRuntime) GetAllContainers() ([]*Container, error) { var containers []*Container allContainers, err := r.Runtime.GetAllContainers() if err != nil { return nil, err } for _, c := range allContainers { containers = append(containers, &Container{c}) } return containers, nil } // LookupContainer gets a Container by name or id and wraps it in an adapter Container func (r *LocalRuntime) LookupContainer(idOrName string) (*Container, error) { ctr, err := r.Runtime.LookupContainer(idOrName) if err != nil { return nil, err } return &Container{ctr}, nil } // StopContainers stops container(s) based on CLI inputs. // Returns list of successful id(s), map of failed id(s) + error, or error not from container func (r *LocalRuntime) StopContainers(ctx context.Context, cli *cliconfig.StopValues) ([]string, map[string]error, error) { var timeout *uint if cli.Flags().Changed("timeout") || cli.Flags().Changed("time") { t := uint(cli.Timeout) timeout = &t } maxWorkers := shared.DefaultPoolSize("stop") if cli.GlobalIsSet("max-workers") { maxWorkers = cli.GlobalFlags.MaxWorks } logrus.Debugf("Setting maximum stop workers to %d", maxWorkers) ctrs, err := shortcuts.GetContainersByContext(cli.All, cli.Latest, cli.InputArgs, r.Runtime) if err != nil { return nil, nil, err } pool := shared.NewPool("stop", maxWorkers, len(ctrs)) for _, c := range ctrs { c := c if timeout == nil { t := c.StopTimeout() timeout = &t logrus.Debugf("Set timeout to container %s default (%d)", c.ID(), *timeout) } pool.Add(shared.Job{ ID: c.ID(), Fn: func() error { err := c.StopWithTimeout(*timeout) if err != nil { if errors.Cause(err) == define.ErrCtrStopped { logrus.Debugf("Container %s is already stopped", c.ID()) return nil } else if cli.All && errors.Cause(err) == define.ErrCtrStateInvalid { logrus.Debugf("Container %s is not running, could not stop", c.ID()) return nil } logrus.Debugf("Failed to stop container %s: %s", c.ID(), err.Error()) } return err }, }) } return pool.Run() } // KillContainers sends signal to container(s) based on CLI inputs. // Returns list of successful id(s), map of failed id(s) + error, or error not from container func (r *LocalRuntime) KillContainers(ctx context.Context, cli *cliconfig.KillValues, signal syscall.Signal) ([]string, map[string]error, error) { maxWorkers := shared.DefaultPoolSize("kill") if cli.GlobalIsSet("max-workers") { maxWorkers = cli.GlobalFlags.MaxWorks } logrus.Debugf("Setting maximum kill workers to %d", maxWorkers) ctrs, err := shortcuts.GetContainersByContext(cli.All, cli.Latest, cli.InputArgs, r.Runtime) if err != nil { return nil, nil, err } pool := shared.NewPool("kill", maxWorkers, len(ctrs)) for _, c := range ctrs { c := c pool.Add(shared.Job{ ID: c.ID(), Fn: func() error { return c.Kill(uint(signal)) }, }) } return pool.Run() } // InitContainers initializes container(s) based on CLI inputs. // Returns list of successful id(s), map of failed id(s) to errors, or a general // error not from the container. func (r *LocalRuntime) InitContainers(ctx context.Context, cli *cliconfig.InitValues) ([]string, map[string]error, error) { maxWorkers := shared.DefaultPoolSize("init") if cli.GlobalIsSet("max-workers") { maxWorkers = cli.GlobalFlags.MaxWorks } logrus.Debugf("Setting maximum init workers to %d", maxWorkers) ctrs, err := shortcuts.GetContainersByContext(cli.All, cli.Latest, cli.InputArgs, r.Runtime) if err != nil { return nil, nil, err } pool := shared.NewPool("init", maxWorkers, len(ctrs)) for _, c := range ctrs { ctr := c pool.Add(shared.Job{ ID: ctr.ID(), Fn: func() error { err := ctr.Init(ctx) if err != nil { // If we're initializing all containers, ignore invalid state errors if cli.All && errors.Cause(err) == define.ErrCtrStateInvalid { return nil } return err } return nil }, }) } return pool.Run() } // RemoveContainers removes container(s) based on CLI inputs. func (r *LocalRuntime) RemoveContainers(ctx context.Context, cli *cliconfig.RmValues) ([]string, map[string]error, error) { var ( ok = []string{} failures = map[string]error{} ) maxWorkers := shared.DefaultPoolSize("rm") if cli.GlobalIsSet("max-workers") { maxWorkers = cli.GlobalFlags.MaxWorks } logrus.Debugf("Setting maximum rm workers to %d", maxWorkers) if cli.Storage { for _, ctr := range cli.InputArgs { if err := r.RemoveStorageContainer(ctr, cli.Force); err != nil { failures[ctr] = err } ok = append(ok, ctr) } return ok, failures, nil } ctrs, err := shortcuts.GetContainersByContext(cli.All, cli.Latest, cli.InputArgs, r.Runtime) if err != nil { return ok, failures, err } pool := shared.NewPool("rm", maxWorkers, len(ctrs)) for _, c := range ctrs { c := c pool.Add(shared.Job{ c.ID(), func() error { err := r.RemoveContainer(ctx, c, cli.Force, cli.Volumes) if err != nil { logrus.Debugf("Failed to remove container %s: %s", c.ID(), err.Error()) } return err }, }) } return pool.Run() } // UmountRootFilesystems removes container(s) based on CLI inputs. func (r *LocalRuntime) UmountRootFilesystems(ctx context.Context, cli *cliconfig.UmountValues) ([]string, map[string]error, error) { var ( ok = []string{} failures = map[string]error{} ) ctrs, err := shortcuts.GetContainersByContext(cli.All, cli.Latest, cli.InputArgs, r.Runtime) if err != nil { return ok, failures, err } for _, ctr := range ctrs { state, err := ctr.State() if err != nil { logrus.Debugf("Error umounting container %s state: %s", ctr.ID(), err.Error()) continue } if state == define.ContainerStateRunning { logrus.Debugf("Error umounting container %s, is running", ctr.ID()) continue } if err := ctr.Unmount(cli.Force); err != nil { if cli.All && errors.Cause(err) == storage.ErrLayerNotMounted { logrus.Debugf("Error umounting container %s, storage.ErrLayerNotMounted", ctr.ID()) continue } failures[ctr.ID()] = errors.Wrapf(err, "error unmounting continaner %s", ctr.ID()) } else { ok = append(ok, ctr.ID()) } } return ok, failures, nil } // WaitOnContainers waits for all given container(s) to stop func (r *LocalRuntime) WaitOnContainers(ctx context.Context, cli *cliconfig.WaitValues, interval time.Duration) ([]string, map[string]error, error) { var ( ok = []string{} failures = map[string]error{} ) ctrs, err := shortcuts.GetContainersByContext(false, cli.Latest, cli.InputArgs, r.Runtime) if err != nil { return ok, failures, err } for _, c := range ctrs { if returnCode, err := c.WaitWithInterval(interval); err == nil { ok = append(ok, strconv.Itoa(int(returnCode))) } else { failures[c.ID()] = err } } return ok, failures, err } // Log logs one or more containers func (r *LocalRuntime) Log(c *cliconfig.LogsValues, options *logs.LogOptions) error { var wg sync.WaitGroup options.WaitGroup = &wg if len(c.InputArgs) > 1 { options.Multi = true } logChannel := make(chan *logs.LogLine, int(c.Tail)*len(c.InputArgs)+1) containers, err := shortcuts.GetContainersByContext(false, c.Latest, c.InputArgs, r.Runtime) if err != nil { return err } if err := r.Runtime.Log(containers, options, logChannel); err != nil { return err } go func() { wg.Wait() close(logChannel) }() for line := range logChannel { fmt.Println(line.String(options)) } return nil } // CreateContainer creates a libpod container func (r *LocalRuntime) CreateContainer(ctx context.Context, c *cliconfig.CreateValues) (string, error) { results := shared.NewIntermediateLayer(&c.PodmanCommand, false) ctr, _, err := shared.CreateContainer(ctx, &results, r.Runtime) if err != nil { return "", err } return ctr.ID(), nil } // Run a libpod container func (r *LocalRuntime) Run(ctx context.Context, c *cliconfig.RunValues, exitCode int) (int, error) { results := shared.NewIntermediateLayer(&c.PodmanCommand, false) ctr, createConfig, err := shared.CreateContainer(ctx, &results, r.Runtime) if err != nil { return exitCode, err } if logrus.GetLevel() == logrus.DebugLevel { cgroupPath, err := ctr.CGroupPath() if err == nil { logrus.Debugf("container %q has CgroupParent %q", ctr.ID(), cgroupPath) } } // Handle detached start if createConfig.Detach { // if the container was created as part of a pod, also start its dependencies, if any. if err := ctr.Start(ctx, c.IsSet("pod")); err != nil { // This means the command did not exist exitCode = 127 if strings.Index(err.Error(), "permission denied") > -1 { exitCode = 126 } return exitCode, err } fmt.Printf("%s\n", ctr.ID()) exitCode = 0 return exitCode, nil } outputStream := os.Stdout errorStream := os.Stderr inputStream := os.Stdin // If -i is not set, clear stdin if !c.Bool("interactive") { inputStream = nil } // If attach is set, clear stdin/stdout/stderr and only attach requested if c.IsSet("attach") || c.IsSet("a") { outputStream = nil errorStream = nil if !c.Bool("interactive") { inputStream = nil } attachTo := c.StringSlice("attach") for _, stream := range attachTo { switch strings.ToLower(stream) { case "stdout": outputStream = os.Stdout case "stderr": errorStream = os.Stderr case "stdin": inputStream = os.Stdin default: return exitCode, errors.Wrapf(define.ErrInvalidArg, "invalid stream %q for --attach - must be one of stdin, stdout, or stderr", stream) } } } config, err := r.Runtime.GetConfig() if err != nil { return exitCode, err } detachKeys := c.String("detach-keys") if detachKeys == "" { detachKeys = config.DetachKeys } // if the container was created as part of a pod, also start its dependencies, if any. if err := StartAttachCtr(ctx, ctr, outputStream, errorStream, inputStream, detachKeys, c.Bool("sig-proxy"), true, c.IsSet("pod")); err != nil { // We've manually detached from the container // Do not perform cleanup, or wait for container exit code // Just exit immediately if errors.Cause(err) == define.ErrDetach { exitCode = 0 return exitCode, nil } // This means the command did not exist exitCode = 127 if strings.Index(err.Error(), "permission denied") > -1 { exitCode = 126 } if c.IsSet("rm") { if deleteError := r.Runtime.RemoveContainer(ctx, ctr, true, false); deleteError != nil { logrus.Errorf("unable to remove container %s after failing to start and attach to it", ctr.ID()) } } return exitCode, err } if ecode, err := ctr.Wait(); err != nil { if errors.Cause(err) == define.ErrNoSuchCtr { // The container may have been removed // Go looking for an exit file ctrExitCode, err := ReadExitFile(config.TmpDir, ctr.ID()) if err != nil { logrus.Errorf("Cannot get exit code: %v", err) exitCode = 127 } else { exitCode = ctrExitCode } } } else { exitCode = int(ecode) } if c.IsSet("rm") { if err := r.Runtime.RemoveContainer(ctx, ctr, false, false); err != nil { logrus.Errorf("Error removing container %s: %v", ctr.ID(), err) } } return exitCode, nil } // ReadExitFile reads a container's exit file func ReadExitFile(runtimeTmp, ctrID string) (int, error) { exitFile := filepath.Join(runtimeTmp, "exits", fmt.Sprintf("%s-old", ctrID)) logrus.Debugf("Attempting to read container %s exit code from file %s", ctrID, exitFile) // Check if it exists if _, err := os.Stat(exitFile); err != nil { return 0, errors.Wrapf(err, "error getting exit file for container %s", ctrID) } // File exists, read it in and convert to int statusStr, err := ioutil.ReadFile(exitFile) if err != nil { return 0, errors.Wrapf(err, "error reading exit file for container %s", ctrID) } exitCode, err := strconv.Atoi(string(statusStr)) if err != nil { return 0, errors.Wrapf(err, "error parsing exit code for container %s", ctrID) } return exitCode, nil } // Ps ... func (r *LocalRuntime) Ps(c *cliconfig.PsValues, opts shared.PsOptions) ([]shared.PsContainerOutput, error) { maxWorkers := shared.Parallelize("ps") if c.GlobalIsSet("max-workers") { maxWorkers = c.GlobalFlags.MaxWorks } logrus.Debugf("Setting maximum workers to %d", maxWorkers) return shared.GetPsContainerOutput(r.Runtime, opts, c.Filter, maxWorkers) } // Attach ... func (r *LocalRuntime) Attach(ctx context.Context, c *cliconfig.AttachValues) error { var ( ctr *libpod.Container err error ) if c.Latest { ctr, err = r.Runtime.GetLatestContainer() } else { ctr, err = r.Runtime.LookupContainer(c.InputArgs[0]) } if err != nil { return errors.Wrapf(err, "unable to exec into %s", c.InputArgs[0]) } conState, err := ctr.State() if err != nil { return errors.Wrapf(err, "unable to determine state of %s", ctr.ID()) } if conState != define.ContainerStateRunning { return errors.Errorf("you can only attach to running containers") } inputStream := os.Stdin if c.NoStdin { inputStream = nil } // If the container is in a pod, also set to recursively start dependencies if err := StartAttachCtr(ctx, ctr, os.Stdout, os.Stderr, inputStream, c.DetachKeys, c.SigProxy, false, ctr.PodID() != ""); err != nil && errors.Cause(err) != define.ErrDetach { return errors.Wrapf(err, "error attaching to container %s", ctr.ID()) } return nil } // Checkpoint one or more containers func (r *LocalRuntime) Checkpoint(c *cliconfig.CheckpointValues) error { var ( containers []*libpod.Container err, lastError error ) options := libpod.ContainerCheckpointOptions{ Keep: c.Keep, KeepRunning: c.LeaveRunning, TCPEstablished: c.TcpEstablished, TargetFile: c.Export, IgnoreRootfs: c.IgnoreRootfs, } if c.Export == "" && c.IgnoreRootfs { return errors.Errorf("--ignore-rootfs can only be used with --export") } if c.All { containers, err = r.Runtime.GetRunningContainers() } else { containers, err = shortcuts.GetContainersByContext(false, c.Latest, c.InputArgs, r.Runtime) } if err != nil { return err } for _, ctr := range containers { if err = ctr.Checkpoint(context.TODO(), options); err != nil { if lastError != nil { fmt.Fprintln(os.Stderr, lastError) } lastError = errors.Wrapf(err, "failed to checkpoint container %v", ctr.ID()) } else { fmt.Println(ctr.ID()) } } return lastError } // Restore one or more containers func (r *LocalRuntime) Restore(ctx context.Context, c *cliconfig.RestoreValues) error { var ( containers []*libpod.Container err, lastError error filterFuncs []libpod.ContainerFilter ) options := libpod.ContainerCheckpointOptions{ Keep: c.Keep, TCPEstablished: c.TcpEstablished, TargetFile: c.Import, Name: c.Name, IgnoreRootfs: c.IgnoreRootfs, } filterFuncs = append(filterFuncs, func(c *libpod.Container) bool { state, _ := c.State() return state == define.ContainerStateExited }) if c.Import != "" { containers, err = crImportCheckpoint(ctx, r.Runtime, c.Import, c.Name) } else if c.All { containers, err = r.GetContainers(filterFuncs...) } else { containers, err = shortcuts.GetContainersByContext(false, c.Latest, c.InputArgs, r.Runtime) } if err != nil { return err } for _, ctr := range containers { if err = ctr.Restore(context.TODO(), options); err != nil { if lastError != nil { fmt.Fprintln(os.Stderr, lastError) } lastError = errors.Wrapf(err, "failed to restore container %v", ctr.ID()) } else { fmt.Println(ctr.ID()) } } return lastError } // Start will start a container func (r *LocalRuntime) Start(ctx context.Context, c *cliconfig.StartValues, sigProxy bool) (int, error) { var ( exitCode = 125 lastError error ) args := c.InputArgs if c.Latest { lastCtr, err := r.GetLatestContainer() if err != nil { return 0, errors.Wrapf(err, "unable to get latest container") } args = append(args, lastCtr.ID()) } for _, container := range args { ctr, err := r.LookupContainer(container) if err != nil { if lastError != nil { fmt.Fprintln(os.Stderr, lastError) } lastError = errors.Wrapf(err, "unable to find container %s", container) continue } ctrState, err := ctr.State() if err != nil { return exitCode, errors.Wrapf(err, "unable to get container state") } ctrRunning := ctrState == define.ContainerStateRunning if c.Attach { inputStream := os.Stdin if !c.Interactive { inputStream = nil } // attach to the container and also start it not already running // If the container is in a pod, also set to recursively start dependencies err = StartAttachCtr(ctx, ctr.Container, os.Stdout, os.Stderr, inputStream, c.DetachKeys, sigProxy, !ctrRunning, ctr.PodID() != "") if errors.Cause(err) == define.ErrDetach { // User manually detached // Exit cleanly immediately exitCode = 0 return exitCode, nil } if ctrRunning { return 0, err } if err != nil { return exitCode, errors.Wrapf(err, "unable to start container %s", ctr.ID()) } if ecode, err := ctr.Wait(); err != nil { if errors.Cause(err) == define.ErrNoSuchCtr { // The container may have been removed // Go looking for an exit file rtc, err := r.GetConfig() if err != nil { return 0, err } ctrExitCode, err := ReadExitFile(rtc.TmpDir, ctr.ID()) if err != nil { logrus.Errorf("Cannot get exit code: %v", err) exitCode = 127 } else { exitCode = ctrExitCode } } } else { exitCode = int(ecode) } return exitCode, nil } if ctrRunning { fmt.Println(ctr.ID()) continue } // Handle non-attach start // If the container is in a pod, also set to recursively start dependencies if err := ctr.Start(ctx, ctr.PodID() != ""); err != nil { if lastError != nil { fmt.Fprintln(os.Stderr, lastError) } lastError = errors.Wrapf(err, "unable to start container %q", container) continue } fmt.Println(container) } return exitCode, lastError } // PauseContainers removes container(s) based on CLI inputs. func (r *LocalRuntime) PauseContainers(ctx context.Context, cli *cliconfig.PauseValues) ([]string, map[string]error, error) { var ( ok = []string{} failures = map[string]error{} ctrs []*libpod.Container err error ) maxWorkers := shared.DefaultPoolSize("pause") if cli.GlobalIsSet("max-workers") { maxWorkers = cli.GlobalFlags.MaxWorks } logrus.Debugf("Setting maximum rm workers to %d", maxWorkers) if cli.All { ctrs, err = r.GetRunningContainers() } else { ctrs, err = shortcuts.GetContainersByContext(false, false, cli.InputArgs, r.Runtime) } if err != nil { return ok, failures, err } pool := shared.NewPool("pause", maxWorkers, len(ctrs)) for _, c := range ctrs { ctr := c pool.Add(shared.Job{ ID: ctr.ID(), Fn: func() error { err := ctr.Pause() if err != nil { logrus.Debugf("Failed to pause container %s: %s", ctr.ID(), err.Error()) } return err }, }) } return pool.Run() } // UnpauseContainers removes container(s) based on CLI inputs. func (r *LocalRuntime) UnpauseContainers(ctx context.Context, cli *cliconfig.UnpauseValues) ([]string, map[string]error, error) { var ( ok = []string{} failures = map[string]error{} ctrs []*libpod.Container err error ) maxWorkers := shared.DefaultPoolSize("pause") if cli.GlobalIsSet("max-workers") { maxWorkers = cli.GlobalFlags.MaxWorks } logrus.Debugf("Setting maximum rm workers to %d", maxWorkers) if cli.All { var filterFuncs []libpod.ContainerFilter filterFuncs = append(filterFuncs, func(c *libpod.Container) bool { state, _ := c.State() return state == define.ContainerStatePaused }) ctrs, err = r.GetContainers(filterFuncs...) } else { ctrs, err = shortcuts.GetContainersByContext(false, false, cli.InputArgs, r.Runtime) } if err != nil { return ok, failures, err } pool := shared.NewPool("pause", maxWorkers, len(ctrs)) for _, c := range ctrs { ctr := c pool.Add(shared.Job{ ID: ctr.ID(), Fn: func() error { err := ctr.Unpause() if err != nil { logrus.Debugf("Failed to unpause container %s: %s", ctr.ID(), err.Error()) } return err }, }) } return pool.Run() } // Restart containers without or without a timeout func (r *LocalRuntime) Restart(ctx context.Context, c *cliconfig.RestartValues) ([]string, map[string]error, error) { var ( containers []*libpod.Container restartContainers []*libpod.Container err error ) useTimeout := c.Flag("timeout").Changed || c.Flag("time").Changed inputTimeout := c.Timeout // Handle --latest if c.Latest { lastCtr, err := r.Runtime.GetLatestContainer() if err != nil { return nil, nil, errors.Wrapf(err, "unable to get latest container") } restartContainers = append(restartContainers, lastCtr) } else if c.Running { containers, err = r.GetRunningContainers() if err != nil { return nil, nil, err } restartContainers = append(restartContainers, containers...) } else if c.All { containers, err = r.Runtime.GetAllContainers() if err != nil { return nil, nil, err } restartContainers = append(restartContainers, containers...) } else { for _, id := range c.InputArgs { ctr, err := r.Runtime.LookupContainer(id) if err != nil { return nil, nil, err } restartContainers = append(restartContainers, ctr) } } maxWorkers := shared.DefaultPoolSize("restart") if c.GlobalIsSet("max-workers") { maxWorkers = c.GlobalFlags.MaxWorks } logrus.Debugf("Setting maximum workers to %d", maxWorkers) // We now have a slice of all the containers to be restarted. Iterate them to // create restart Funcs with a timeout as needed pool := shared.NewPool("restart", maxWorkers, len(restartContainers)) for _, c := range restartContainers { ctr := c timeout := ctr.StopTimeout() if useTimeout { timeout = inputTimeout } pool.Add(shared.Job{ ID: ctr.ID(), Fn: func() error { err := ctr.RestartWithTimeout(ctx, timeout) if err != nil { logrus.Debugf("Failed to restart container %s: %s", ctr.ID(), err.Error()) } return err }, }) } return pool.Run() } // Top display the running processes of a container func (r *LocalRuntime) Top(cli *cliconfig.TopValues) ([]string, error) { var ( descriptors []string container *libpod.Container err error ) if cli.Latest { descriptors = cli.InputArgs container, err = r.Runtime.GetLatestContainer() } else { descriptors = cli.InputArgs[1:] container, err = r.Runtime.LookupContainer(cli.InputArgs[0]) } if err != nil { return nil, errors.Wrapf(err, "unable to lookup requested container") } output, psgoErr := container.Top(descriptors) if psgoErr == nil { return output, nil } // If we encountered an ErrUnknownDescriptor error, fallback to executing // ps(1). This ensures backwards compatibility to users depending on ps(1) // and makes sure we're ~compatible with docker. if errors.Cause(psgoErr) != psgo.ErrUnknownDescriptor { return nil, psgoErr } output, err = r.execPS(container, descriptors) if err != nil { // Note: return psgoErr to guide users into using the AIX descriptors // instead of using ps(1). return nil, psgoErr } // Trick: filter the ps command from the output instead of // checking/requiring PIDs in the output. filtered := []string{} cmd := strings.Join(descriptors, " ") for _, line := range output { if !strings.Contains(line, cmd) { filtered = append(filtered, line) } } return filtered, nil } func (r *LocalRuntime) execPS(c *libpod.Container, args []string) ([]string, error) { rPipe, wPipe, err := os.Pipe() if err != nil { return nil, err } defer wPipe.Close() defer rPipe.Close() streams := new(libpod.AttachStreams) streams.OutputStream = wPipe streams.ErrorStream = wPipe streams.InputStream = os.Stdin streams.AttachOutput = true streams.AttachError = true streams.AttachInput = true psOutput := []string{} go func() { scanner := bufio.NewScanner(rPipe) for scanner.Scan() { psOutput = append(psOutput, scanner.Text()) } }() cmd := append([]string{"ps"}, args...) if err := c.Exec(false, false, []string{}, cmd, "", "", streams, 0); err != nil { return nil, err } return psOutput, nil } // Prune removes stopped containers func (r *LocalRuntime) Prune(ctx context.Context, maxWorkers int, force bool) ([]string, map[string]error, error) { var ( ok = []string{} failures = map[string]error{} err error ) logrus.Debugf("Setting maximum rm workers to %d", maxWorkers) filter := func(c *libpod.Container) bool { state, err := c.State() if err != nil { logrus.Error(err) return false } if c.PodID() != "" { return false } if state == define.ContainerStateStopped || state == define.ContainerStateExited { return true } return false } delContainers, err := r.Runtime.GetContainers(filter) if err != nil { return ok, failures, err } if len(delContainers) < 1 { return ok, failures, err } pool := shared.NewPool("prune", maxWorkers, len(delContainers)) for _, c := range delContainers { ctr := c pool.Add(shared.Job{ ID: ctr.ID(), Fn: func() error { err := r.Runtime.RemoveContainer(ctx, ctr, force, false) if err != nil { logrus.Debugf("Failed to prune container %s: %s", ctr.ID(), err.Error()) } return err }, }) } return pool.Run() } // CleanupContainers any leftovers bits of stopped containers func (r *LocalRuntime) CleanupContainers(ctx context.Context, cli *cliconfig.CleanupValues) ([]string, map[string]error, error) { var ( ok = []string{} failures = map[string]error{} ) ctrs, err := shortcuts.GetContainersByContext(cli.All, cli.Latest, cli.InputArgs, r.Runtime) if err != nil { return ok, failures, err } for _, ctr := range ctrs { if cli.Remove { err = removeContainer(ctx, ctr, r) } else { err = cleanupContainer(ctx, ctr, r) } if err == nil { ok = append(ok, ctr.ID()) } else { failures[ctr.ID()] = err } } return ok, failures, nil } // Only used when cleaning up containers func removeContainer(ctx context.Context, ctr *libpod.Container, runtime *LocalRuntime) error { if err := runtime.RemoveContainer(ctx, ctr, false, false); err != nil { return errors.Wrapf(err, "failed to cleanup and remove container %v", ctr.ID()) } return nil } func cleanupContainer(ctx context.Context, ctr *libpod.Container, runtime *LocalRuntime) error { if err := ctr.Cleanup(ctx); err != nil { return errors.Wrapf(err, "failed to cleanup container %v", ctr.ID()) } return nil } // Port displays port information about existing containers func (r *LocalRuntime) Port(c *cliconfig.PortValues) ([]*Container, error) { var ( portContainers []*Container containers []*libpod.Container err error ) if !c.All { containers, err = shortcuts.GetContainersByContext(false, c.Latest, c.InputArgs, r.Runtime) } else { containers, err = r.Runtime.GetRunningContainers() } if err != nil { return nil, err } //Convert libpod containers to adapter Containers for _, con := range containers { if state, _ := con.State(); state != define.ContainerStateRunning { continue } portContainers = append(portContainers, &Container{con}) } return portContainers, nil } // GenerateSystemd creates a unit file for a container func (r *LocalRuntime) GenerateSystemd(c *cliconfig.GenerateSystemdValues) (string, error) { ctr, err := r.Runtime.LookupContainer(c.InputArgs[0]) if err != nil { return "", err } timeout := int(ctr.StopTimeout()) if c.StopTimeout >= 0 { timeout = int(c.StopTimeout) } name := ctr.ID() if c.Name { name = ctr.Name() } config := ctr.Config() conmonPidFile := config.ConmonPidFile if conmonPidFile == "" { return "", errors.Errorf("conmon PID file path is empty, try to recreate the container with --conmon-pidfile flag") } return systemdgen.CreateSystemdUnitAsString(name, ctr.ID(), c.RestartPolicy, conmonPidFile, timeout) } // GetNamespaces returns namespace information about a container for PS func (r *LocalRuntime) GetNamespaces(container shared.PsContainerOutput) *shared.Namespace { return shared.GetNamespaces(container.Pid) } // Commit creates a local image from a container func (r *LocalRuntime) Commit(ctx context.Context, c *cliconfig.CommitValues, container, imageName string) (string, error) { var ( writer io.Writer mimeType string ) switch c.Format { case "oci": mimeType = buildah.OCIv1ImageManifest if c.Flag("message").Changed { return "", errors.Errorf("messages are only compatible with the docker image format (-f docker)") } case "docker": mimeType = manifest.DockerV2Schema2MediaType default: return "", errors.Errorf("unrecognized image format %q", c.Format) } if !c.Quiet { writer = os.Stderr } ctr, err := r.Runtime.LookupContainer(container) if err != nil { return "", errors.Wrapf(err, "error looking up container %q", container) } rtc, err := r.Runtime.GetConfig() if err != nil { return "", err } sc := image.GetSystemContext(rtc.SignaturePolicyPath, "", false) coptions := buildah.CommitOptions{ SignaturePolicyPath: rtc.SignaturePolicyPath, ReportWriter: writer, SystemContext: sc, PreferredManifestType: mimeType, } options := libpod.ContainerCommitOptions{ CommitOptions: coptions, Pause: c.Pause, IncludeVolumes: c.IncludeVolumes, Message: c.Message, Changes: c.Change, Author: c.Author, } newImage, err := ctr.Commit(ctx, imageName, options) if err != nil { return "", err } return newImage.ID(), nil } // Exec a command in a container func (r *LocalRuntime) Exec(c *cliconfig.ExecValues, cmd []string) error { var ctr *Container var err error if c.Latest { ctr, err = r.GetLatestContainer() } else { ctr, err = r.LookupContainer(c.InputArgs[0]) } if err != nil { return errors.Wrapf(err, "unable to exec into %s", c.InputArgs[0]) } if c.PreserveFDs > 0 { entries, err := ioutil.ReadDir("/proc/self/fd") if err != nil { return errors.Wrapf(err, "unable to read /proc/self/fd") } m := make(map[int]bool) for _, e := range entries { i, err := strconv.Atoi(e.Name()) if err != nil { if err != nil { return errors.Wrapf(err, "cannot parse %s in /proc/self/fd", e.Name()) } } m[i] = true } for i := 3; i < 3+c.PreserveFDs; i++ { if _, found := m[i]; !found { return errors.New("invalid --preserve-fds=N specified. Not enough FDs available") } } } // ENVIRONMENT VARIABLES env := map[string]string{} if err := parse.ReadKVStrings(env, []string{}, c.Env); err != nil { return errors.Wrapf(err, "unable to process environment variables") } envs := []string{} for k, v := range env { envs = append(envs, fmt.Sprintf("%s=%s", k, v)) } streams := new(libpod.AttachStreams) streams.OutputStream = os.Stdout streams.ErrorStream = os.Stderr streams.InputStream = os.Stdin streams.AttachOutput = true streams.AttachError = true streams.AttachInput = true return ctr.Exec(c.Tty, c.Privileged, envs, cmd, c.User, c.Workdir, streams, c.PreserveFDs) }