// +build varlink package varlinkapi import ( "bufio" "encoding/json" "fmt" "io" "io/ioutil" "os" "sync" "syscall" "time" "github.com/containers/libpod/cmd/podman/shared" "github.com/containers/libpod/cmd/podman/varlink" "github.com/containers/libpod/libpod" "github.com/containers/libpod/libpod/define" "github.com/containers/libpod/libpod/logs" "github.com/containers/libpod/pkg/adapter/shortcuts" "github.com/containers/libpod/pkg/varlinkapi/virtwriter" "github.com/containers/storage/pkg/archive" "github.com/pkg/errors" "github.com/sirupsen/logrus" "k8s.io/client-go/tools/remotecommand" ) // ListContainers ... func (i *LibpodAPI) ListContainers(call iopodman.VarlinkCall) error { var ( listContainers []iopodman.Container ) containers, err := i.Runtime.GetAllContainers() if err != nil { return call.ReplyErrorOccurred(err.Error()) } opts := shared.PsOptions{ Namespace: true, Size: true, } for _, ctr := range containers { batchInfo, err := shared.BatchContainerOp(ctr, opts) if err != nil { return call.ReplyErrorOccurred(err.Error()) } listContainers = append(listContainers, makeListContainer(ctr.ID(), batchInfo)) } return call.ReplyListContainers(listContainers) } func (i *LibpodAPI) Ps(call iopodman.VarlinkCall, opts iopodman.PsOpts) error { var ( containers []iopodman.PsContainer ) maxWorkers := shared.Parallelize("ps") psOpts := makePsOpts(opts) filters := []string{} if opts.Filters != nil { filters = *opts.Filters } psContainerOutputs, err := shared.GetPsContainerOutput(i.Runtime, psOpts, filters, maxWorkers) if err != nil { return call.ReplyErrorOccurred(err.Error()) } for _, ctr := range psContainerOutputs { container := iopodman.PsContainer{ Id: ctr.ID, Image: ctr.Image, Command: ctr.Command, Created: ctr.Created, Ports: ctr.Ports, Names: ctr.Names, IsInfra: ctr.IsInfra, Status: ctr.Status, State: ctr.State.String(), PidNum: int64(ctr.Pid), Pod: ctr.Pod, CreatedAt: ctr.CreatedAt.Format(time.RFC3339Nano), ExitedAt: ctr.ExitedAt.Format(time.RFC3339Nano), StartedAt: ctr.StartedAt.Format(time.RFC3339Nano), Labels: ctr.Labels, NsPid: ctr.PID, Cgroup: ctr.Cgroup, Ipc: ctr.Cgroup, Mnt: ctr.MNT, Net: ctr.NET, PidNs: ctr.PIDNS, User: ctr.User, Uts: ctr.UTS, Mounts: ctr.Mounts, } if ctr.Size != nil { container.RootFsSize = ctr.Size.RootFsSize container.RwSize = ctr.Size.RwSize } containers = append(containers, container) } return call.ReplyPs(containers) } // GetContainer ... func (i *LibpodAPI) GetContainer(call iopodman.VarlinkCall, id string) error { ctr, err := i.Runtime.LookupContainer(id) if err != nil { return call.ReplyContainerNotFound(id, err.Error()) } opts := shared.PsOptions{ Namespace: true, Size: true, } batchInfo, err := shared.BatchContainerOp(ctr, opts) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyGetContainer(makeListContainer(ctr.ID(), batchInfo)) } // GetContainersByContext returns a slice of container ids based on all, latest, or a list func (i *LibpodAPI) GetContainersByContext(call iopodman.VarlinkCall, all, latest bool, input []string) error { var ids []string ctrs, err := shortcuts.GetContainersByContext(all, latest, input, i.Runtime) if err != nil { if errors.Cause(err) == define.ErrNoSuchCtr { return call.ReplyContainerNotFound("", err.Error()) } return call.ReplyErrorOccurred(err.Error()) } for _, c := range ctrs { ids = append(ids, c.ID()) } return call.ReplyGetContainersByContext(ids) } // GetContainersByStatus returns a slice of containers filtered by a libpod status func (i *LibpodAPI) GetContainersByStatus(call iopodman.VarlinkCall, statuses []string) error { var ( filterFuncs []libpod.ContainerFilter containers []iopodman.Container ) for _, status := range statuses { lpstatus, err := define.StringToContainerStatus(status) if err != nil { return call.ReplyErrorOccurred(err.Error()) } filterFuncs = append(filterFuncs, func(c *libpod.Container) bool { state, _ := c.State() return state == lpstatus }) } filteredContainers, err := i.Runtime.GetContainers(filterFuncs...) if err != nil { return call.ReplyErrorOccurred(err.Error()) } opts := shared.PsOptions{Size: true, Namespace: true} for _, ctr := range filteredContainers { batchInfo, err := shared.BatchContainerOp(ctr, opts) if err != nil { return call.ReplyErrorOccurred(err.Error()) } containers = append(containers, makeListContainer(ctr.ID(), batchInfo)) } return call.ReplyGetContainersByStatus(containers) } // InspectContainer ... func (i *LibpodAPI) InspectContainer(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } data, err := ctr.Inspect(true) if err != nil { return call.ReplyErrorOccurred(err.Error()) } b, err := json.Marshal(data) if err != nil { return call.ReplyErrorOccurred(fmt.Sprintf("unable to serialize")) } return call.ReplyInspectContainer(string(b)) } // ListContainerProcesses ... func (i *LibpodAPI) ListContainerProcesses(call iopodman.VarlinkCall, name string, opts []string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } containerState, err := ctr.State() if err != nil { return call.ReplyErrorOccurred(err.Error()) } if containerState != define.ContainerStateRunning { return call.ReplyErrorOccurred(fmt.Sprintf("container %s is not running", name)) } var psArgs []string psOpts := []string{"user", "pid", "ppid", "pcpu", "etime", "tty", "time", "comm"} if len(opts) > 1 { psOpts = opts } psArgs = append(psArgs, psOpts...) psOutput, err := ctr.GetContainerPidInformation(psArgs) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyListContainerProcesses(psOutput) } // GetContainerLogs ... func (i *LibpodAPI) GetContainerLogs(call iopodman.VarlinkCall, name string) error { var logs []string ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } logPath := ctr.LogPath() containerState, err := ctr.State() if err != nil { return call.ReplyErrorOccurred(err.Error()) } if _, err := os.Stat(logPath); err != nil { if containerState == define.ContainerStateConfigured { return call.ReplyGetContainerLogs(logs) } } file, err := os.Open(logPath) if err != nil { return errors.Wrapf(err, "unable to read container log file") } defer file.Close() reader := bufio.NewReader(file) if call.WantsMore() { call.Continues = true } for { line, err := reader.ReadString('\n') // We've read the entire file if err == io.EOF { if !call.WantsMore() { // If this is a non-following log request, we return what we have break } else { // If we want to follow, return what we have, wipe the slice, and make // sure the container is still running before iterating. call.ReplyGetContainerLogs(logs) logs = []string{} time.Sleep(1 * time.Second) state, err := ctr.State() if err != nil { return call.ReplyErrorOccurred(err.Error()) } if state != define.ContainerStateRunning && state != define.ContainerStatePaused { return call.ReplyErrorOccurred(fmt.Sprintf("%s is no longer running", ctr.ID())) } } } else if err != nil { return call.ReplyErrorOccurred(err.Error()) } else { logs = append(logs, line) } } call.Continues = false return call.ReplyGetContainerLogs(logs) } // ListContainerChanges ... func (i *LibpodAPI) ListContainerChanges(call iopodman.VarlinkCall, name string) error { changes, err := i.Runtime.GetDiff("", name) if err != nil { return call.ReplyErrorOccurred(err.Error()) } result := iopodman.ContainerChanges{} for _, change := range changes { switch change.Kind { case archive.ChangeModify: result.Changed = append(result.Changed, change.Path) case archive.ChangeDelete: result.Deleted = append(result.Deleted, change.Path) case archive.ChangeAdd: result.Added = append(result.Added, change.Path) } } return call.ReplyListContainerChanges(result) } // ExportContainer ... func (i *LibpodAPI) ExportContainer(call iopodman.VarlinkCall, name, outPath string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } outputFile, err := ioutil.TempFile("", "varlink_recv") if err != nil { return call.ReplyErrorOccurred(err.Error()) } defer outputFile.Close() if outPath == "" { outPath = outputFile.Name() } if err := ctr.Export(outPath); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyExportContainer(outPath) } // GetContainerStats ... func (i *LibpodAPI) GetContainerStats(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } containerStats, err := ctr.GetContainerStats(&libpod.ContainerStats{}) if err != nil { if errors.Cause(err) == define.ErrCtrStateInvalid { return call.ReplyNoContainerRunning() } return call.ReplyErrorOccurred(err.Error()) } cs := iopodman.ContainerStats{ Id: ctr.ID(), Name: ctr.Name(), Cpu: containerStats.CPU, Cpu_nano: int64(containerStats.CPUNano), System_nano: int64(containerStats.SystemNano), Mem_usage: int64(containerStats.MemUsage), Mem_limit: int64(containerStats.MemLimit), Mem_perc: containerStats.MemPerc, Net_input: int64(containerStats.NetInput), Net_output: int64(containerStats.NetOutput), Block_input: int64(containerStats.BlockInput), Block_output: int64(containerStats.BlockOutput), Pids: int64(containerStats.PIDs), } return call.ReplyGetContainerStats(cs) } // StartContainer ... func (i *LibpodAPI) StartContainer(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } state, err := ctr.State() if err != nil { return call.ReplyErrorOccurred(err.Error()) } if state == define.ContainerStateRunning || state == define.ContainerStatePaused { return call.ReplyErrorOccurred("container is already running or paused") } recursive := false if ctr.PodID() != "" { recursive = true } if err := ctr.Start(getContext(), recursive); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyStartContainer(ctr.ID()) } // InitContainer initializes the container given by Varlink. func (i *LibpodAPI) InitContainer(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } if err := ctr.Init(getContext()); err != nil { if errors.Cause(err) == define.ErrCtrStateInvalid { return call.ReplyInvalidState(ctr.ID(), err.Error()) } return call.ReplyErrorOccurred(err.Error()) } return call.ReplyInitContainer(ctr.ID()) } // StopContainer ... func (i *LibpodAPI) StopContainer(call iopodman.VarlinkCall, name string, timeout int64) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } if err := ctr.StopWithTimeout(uint(timeout)); err != nil { if errors.Cause(err) == define.ErrCtrStopped { return call.ReplyErrCtrStopped(ctr.ID()) } if errors.Cause(err) == define.ErrCtrStateInvalid { return call.ReplyInvalidState(ctr.ID(), err.Error()) } return call.ReplyErrorOccurred(err.Error()) } return call.ReplyStopContainer(ctr.ID()) } // RestartContainer ... func (i *LibpodAPI) RestartContainer(call iopodman.VarlinkCall, name string, timeout int64) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } if err := ctr.RestartWithTimeout(getContext(), uint(timeout)); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyRestartContainer(ctr.ID()) } // ContainerExists looks in local storage for the existence of a container func (i *LibpodAPI) ContainerExists(call iopodman.VarlinkCall, name string) error { _, err := i.Runtime.LookupContainer(name) if errors.Cause(err) == define.ErrNoSuchCtr { return call.ReplyContainerExists(1) } if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyContainerExists(0) } // KillContainer kills a running container. If you want to use the default SIGTERM signal, just send a -1 // for the signal arg. func (i *LibpodAPI) KillContainer(call iopodman.VarlinkCall, name string, signal int64) error { killSignal := uint(syscall.SIGTERM) if signal != -1 { killSignal = uint(signal) } ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } if err := ctr.Kill(killSignal); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyKillContainer(ctr.ID()) } // PauseContainer ... func (i *LibpodAPI) PauseContainer(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } if err := ctr.Pause(); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyPauseContainer(ctr.ID()) } // UnpauseContainer ... func (i *LibpodAPI) UnpauseContainer(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } if err := ctr.Unpause(); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyUnpauseContainer(ctr.ID()) } // WaitContainer ... func (i *LibpodAPI) WaitContainer(call iopodman.VarlinkCall, name string, interval int64) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } exitCode, err := ctr.WaitWithInterval(time.Duration(interval)) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyWaitContainer(int64(exitCode)) } // RemoveContainer ... func (i *LibpodAPI) RemoveContainer(call iopodman.VarlinkCall, name string, force bool, removeVolumes bool) error { ctx := getContext() ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } if err := i.Runtime.RemoveContainer(ctx, ctr, force, removeVolumes); err != nil { if errors.Cause(err) == define.ErrNoSuchCtr { return call.ReplyContainerExists(1) } if errors.Cause(err) == define.ErrCtrStateInvalid { return call.ReplyInvalidState(ctr.ID(), err.Error()) } return call.ReplyErrorOccurred(err.Error()) } return call.ReplyRemoveContainer(ctr.ID()) } // DeleteStoppedContainers ... func (i *LibpodAPI) DeleteStoppedContainers(call iopodman.VarlinkCall) error { ctx := getContext() var deletedContainers []string containers, err := i.Runtime.GetAllContainers() if err != nil { return call.ReplyErrorOccurred(err.Error()) } for _, ctr := range containers { state, err := ctr.State() if err != nil { return call.ReplyErrorOccurred(err.Error()) } if state != define.ContainerStateRunning { if err := i.Runtime.RemoveContainer(ctx, ctr, false, false); err != nil { return call.ReplyErrorOccurred(err.Error()) } deletedContainers = append(deletedContainers, ctr.ID()) } } return call.ReplyDeleteStoppedContainers(deletedContainers) } // GetAttachSockets ... func (i *LibpodAPI) GetAttachSockets(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } status, err := ctr.State() if err != nil { return call.ReplyErrorOccurred(err.Error()) } // If the container hasn't been run, we need to run init // so the conmon sockets get created. if status == define.ContainerStateConfigured || status == define.ContainerStateStopped { if err := ctr.Init(getContext()); err != nil { return call.ReplyErrorOccurred(err.Error()) } } s := iopodman.Sockets{ Container_id: ctr.ID(), Io_socket: ctr.AttachSocketPath(), Control_socket: ctr.ControlSocketPath(), } return call.ReplyGetAttachSockets(s) } // ContainerCheckpoint ... func (i *LibpodAPI) ContainerCheckpoint(call iopodman.VarlinkCall, name string, keep, leaveRunning, tcpEstablished bool) error { ctx := getContext() ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } options := libpod.ContainerCheckpointOptions{ Keep: keep, TCPEstablished: tcpEstablished, KeepRunning: leaveRunning, } if err := ctr.Checkpoint(ctx, options); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyContainerCheckpoint(ctr.ID()) } // ContainerRestore ... func (i *LibpodAPI) ContainerRestore(call iopodman.VarlinkCall, name string, keep, tcpEstablished bool) error { ctx := getContext() ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } options := libpod.ContainerCheckpointOptions{ Keep: keep, TCPEstablished: tcpEstablished, } if err := ctr.Restore(ctx, options); err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyContainerRestore(ctr.ID()) } // ContainerConfig returns just the container.config struct func (i *LibpodAPI) ContainerConfig(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } config := ctr.Config() b, err := json.Marshal(config) if err != nil { return call.ReplyErrorOccurred("unable to serialize container config") } return call.ReplyContainerConfig(string(b)) } // ContainerArtifacts returns an untouched container's artifact in string format func (i *LibpodAPI) ContainerArtifacts(call iopodman.VarlinkCall, name, artifactName string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } artifacts, err := ctr.GetArtifact(artifactName) if err != nil { return call.ReplyErrorOccurred("unable to get container artifacts") } b, err := json.Marshal(artifacts) if err != nil { return call.ReplyErrorOccurred("unable to serialize container artifacts") } return call.ReplyContainerArtifacts(string(b)) } // ContainerInspectData returns the inspect data of a container in string format func (i *LibpodAPI) ContainerInspectData(call iopodman.VarlinkCall, name string, size bool) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } data, err := ctr.Inspect(size) if err != nil { return call.ReplyErrorOccurred("unable to inspect container") } b, err := json.Marshal(data) if err != nil { return call.ReplyErrorOccurred("unable to serialize container inspect data") } return call.ReplyContainerInspectData(string(b)) } // ContainerStateData returns a container's state data in string format func (i *LibpodAPI) ContainerStateData(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyContainerNotFound(name, err.Error()) } data, err := ctr.ContainerState() if err != nil { return call.ReplyErrorOccurred("unable to obtain container state") } b, err := json.Marshal(data) if err != nil { return call.ReplyErrorOccurred("unable to serialize container inspect data") } return call.ReplyContainerStateData(string(b)) } // GetContainerStatsWithHistory is a varlink endpoint that returns container stats based on current and // previous statistics func (i *LibpodAPI) GetContainerStatsWithHistory(call iopodman.VarlinkCall, prevStats iopodman.ContainerStats) error { con, err := i.Runtime.LookupContainer(prevStats.Id) if err != nil { return call.ReplyContainerNotFound(prevStats.Id, err.Error()) } previousStats := ContainerStatsToLibpodContainerStats(prevStats) stats, err := con.GetContainerStats(&previousStats) if err != nil { return call.ReplyErrorOccurred(err.Error()) } cStats := iopodman.ContainerStats{ Id: stats.ContainerID, Name: stats.Name, Cpu: stats.CPU, Cpu_nano: int64(stats.CPUNano), System_nano: int64(stats.SystemNano), Mem_usage: int64(stats.MemUsage), Mem_limit: int64(stats.MemLimit), Mem_perc: stats.MemPerc, Net_input: int64(stats.NetInput), Net_output: int64(stats.NetOutput), Block_input: int64(stats.BlockInput), Block_output: int64(stats.BlockOutput), Pids: int64(stats.PIDs), } return call.ReplyGetContainerStatsWithHistory(cStats) } // Spec ... func (i *LibpodAPI) Spec(call iopodman.VarlinkCall, name string) error { ctr, err := i.Runtime.LookupContainer(name) if err != nil { return call.ReplyErrorOccurred(err.Error()) } spec := ctr.Spec() b, err := json.Marshal(spec) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplySpec(string(b)) } // GetContainersLogs is the varlink endpoint to obtain one or more container logs func (i *LibpodAPI) GetContainersLogs(call iopodman.VarlinkCall, names []string, follow, latest bool, since string, tail int64, timestamps bool) error { var wg sync.WaitGroup if call.WantsMore() { call.Continues = true } sinceTime, err := time.Parse(time.RFC3339Nano, since) if err != nil { return call.ReplyErrorOccurred(err.Error()) } options := logs.LogOptions{ Follow: follow, Since: sinceTime, Tail: uint64(tail), Timestamps: timestamps, } options.WaitGroup = &wg if len(names) > 1 { options.Multi = true } logChannel := make(chan *logs.LogLine, int(tail)*len(names)+1) containers, err := shortcuts.GetContainersByContext(false, latest, names, i.Runtime) if err != nil { return call.ReplyErrorOccurred(err.Error()) } if err := i.Runtime.Log(containers, &options, logChannel); err != nil { return err } go func() { wg.Wait() close(logChannel) }() for line := range logChannel { call.ReplyGetContainersLogs(newPodmanLogLine(line)) if !call.Continues { break } } return call.ReplyGetContainersLogs(iopodman.LogLine{}) } func newPodmanLogLine(line *logs.LogLine) iopodman.LogLine { return iopodman.LogLine{ Device: line.Device, ParseLogType: line.ParseLogType, Time: line.Time.Format(time.RFC3339Nano), Msg: line.Msg, Cid: line.CID, } } // Top displays information about a container's running processes func (i *LibpodAPI) Top(call iopodman.VarlinkCall, nameOrID string, descriptors []string) error { ctr, err := i.Runtime.LookupContainer(nameOrID) if err != nil { return call.ReplyContainerNotFound(ctr.ID(), err.Error()) } topInfo, err := ctr.Top(descriptors) if err != nil { return call.ReplyErrorOccurred(err.Error()) } return call.ReplyTop(topInfo) } // ExecContainer is the varlink endpoint to execute a command in a container func (i *LibpodAPI) ExecContainer(call iopodman.VarlinkCall, opts iopodman.ExecOpts) error { if !call.WantsUpgrade() { return call.ReplyErrorOccurred("client must use upgraded connection to exec") } ctr, err := i.Runtime.LookupContainer(opts.Name) if err != nil { return call.ReplyContainerNotFound(opts.Name, err.Error()) } state, err := ctr.State() if err != nil { return call.ReplyErrorOccurred( fmt.Sprintf("exec failed to obtain container %s state: %s", ctr.ID(), err.Error())) } if state != define.ContainerStateRunning { return call.ReplyErrorOccurred( fmt.Sprintf("exec requires a running container, %s is %s", ctr.ID(), state.String())) } // ACK the client upgrade request call.ReplyExecContainer() envs := []string{} if opts.Env != nil { envs = *opts.Env } var user string if opts.User != nil { user = *opts.User } var workDir string if opts.Workdir != nil { workDir = *opts.Workdir } var detachKeys string if opts.DetachKeys != nil { detachKeys = *opts.DetachKeys } resizeChan := make(chan remotecommand.TerminalSize) reader, writer, _, pipeWriter, streams := setupStreams(call) type ExitCodeError struct { ExitCode uint32 Error error } ecErrChan := make(chan ExitCodeError, 1) go func() { if err := virtwriter.Reader(reader, nil, nil, pipeWriter, resizeChan, nil); err != nil { ecErrChan <- ExitCodeError{ define.ExecErrorCodeGeneric, err, } } }() go func() { ec, err := ctr.Exec(opts.Tty, opts.Privileged, envs, opts.Cmd, user, workDir, streams, 0, resizeChan, detachKeys) if err != nil { logrus.Errorf(err.Error()) } ecErrChan <- ExitCodeError{ uint32(ec), err, } }() ecErr := <-ecErrChan exitCode := define.TranslateExecErrorToExitCode(int(ecErr.ExitCode), ecErr.Error) if err = virtwriter.HangUp(writer, uint32(exitCode)); err != nil { logrus.Errorf("ExecContainer failed to HANG-UP on %s: %s", ctr.ID(), err.Error()) } if err := call.Writer.Flush(); err != nil { logrus.Errorf("Exec Container err: %s", err.Error()) } return ecErr.Error }