func inspectAll(ctx context.Context, dockerCli *client.DockerCli, getSize bool) inspect.GetRefFunc {
client := dockerCli.Client()
return func(ref string) (interface{}, []byte, error) {
c, rawContainer, err := client.ContainerInspectWithRaw(ctx, ref, getSize)
if err == nil || !apiclient.IsErrNotFound(err) {
return c, rawContainer, err
}
// Search for image with that id if a container doesn't exist.
i, rawImage, err := client.ImageInspectWithRaw(ctx, ref)
if err == nil || !apiclient.IsErrNotFound(err) {
return i, rawImage, err
}
// Search for task with that id if an image doesn't exist.
t, rawTask, err := client.TaskInspectWithRaw(ctx, ref)
if err == nil || !(apiclient.IsErrNotFound(err) || isErrorNoSwarmMode(err)) {
if getSize {
fmt.Fprintln(dockerCli.Err(), "WARNING: --size ignored for tasks")
}
return t, rawTask, err
}
return nil, nil, fmt.Errorf("Error: No such container, image or task: %s", ref)
}
}
// ForwardAllSignals forwards signals to the container
func ForwardAllSignals(ctx context.Context, cli *client.DockerCli, cid string) chan os.Signal {
sigc := make(chan os.Signal, 128)
signal.CatchAll(sigc)
go func() {
for s := range sigc {
if s == signal.SIGCHLD || s == signal.SIGPIPE {
continue
}
var sig string
for sigStr, sigN := range signal.SignalMap {
if sigN == s {
sig = sigStr
break
}
}
if sig == "" {
fmt.Fprintf(cli.Err(), "Unsupported signal: %v. Discarding.\n", s)
continue
}
if err := cli.Client().ContainerKill(ctx, cid, sig); err != nil {
logrus.Debugf("Error sending signal: %s", err)
}
}
}()
return sigc
}
func runLogs(dockerCli *client.DockerCli, opts *logsOptions) error {
ctx := context.Background()
c, err := dockerCli.Client().ContainerInspect(ctx, opts.container)
if err != nil {
return err
}
if !validDrivers[c.HostConfig.LogConfig.Type] {
return fmt.Errorf("\"logs\" command is supported only for \"json-file\" and \"journald\" logging drivers (got: %s)", c.HostConfig.LogConfig.Type)
}
options := types.ContainerLogsOptions{
ShowStdout: true,
ShowStderr: true,
Since: opts.since,
Timestamps: opts.timestamps,
Follow: opts.follow,
Tail: opts.tail,
Details: opts.details,
}
responseBody, err := dockerCli.Client().ContainerLogs(ctx, opts.container, options)
if err != nil {
return err
}
defer responseBody.Close()
if c.Config.Tty {
_, err = io.Copy(dockerCli.Out(), responseBody)
} else {
_, err = stdcopy.StdCopy(dockerCli.Out(), dockerCli.Err(), responseBody)
}
return err
}
func runConfig(dockerCli *client.DockerCli, opts configOptions) error {
bundle, err := loadBundlefile(dockerCli.Err(), opts.namespace, opts.bundlefile)
if err != nil {
return err
}
return bundlefile.Print(dockerCli.Out(), bundle)
}
func runInspect(dockerCli *client.DockerCli, opts inspectOptions) error {
ctx := context.Background()
client := dockerCli.Client()
var getRefFunc inspect.GetRefFunc
switch opts.inspectType {
case "container":
getRefFunc = func(ref string) (interface{}, []byte, error) {
return client.ContainerInspectWithRaw(ctx, ref, opts.size)
}
case "image":
getRefFunc = func(ref string) (interface{}, []byte, error) {
return client.ImageInspectWithRaw(ctx, ref)
}
case "task":
if opts.size {
fmt.Fprintln(dockerCli.Err(), "WARNING: --size ignored for tasks")
}
getRefFunc = func(ref string) (interface{}, []byte, error) {
return client.TaskInspectWithRaw(ctx, ref)
}
case "":
getRefFunc = inspectAll(ctx, dockerCli, opts.size)
default:
return fmt.Errorf("%q is not a valid value for --type", opts.inspectType)
}
return inspect.Inspect(dockerCli.Out(), opts.ids, opts.format, getRefFunc)
}
func newCreateCommand(dockerCli *client.DockerCli) *cobra.Command {
opts := createOptions{
driverOpts: *opts.NewMapOpts(nil, nil),
}
cmd := &cobra.Command{
Use: "create [OPTIONS] [VOLUME]",
Short: "Create a volume",
Long: createDescription,
Args: cli.RequiresMaxArgs(1),
RunE: func(cmd *cobra.Command, args []string) error {
if len(args) == 1 {
if opts.name != "" {
fmt.Fprint(dockerCli.Err(), "Conflicting options: either specify --name or provide positional arg, not both\n")
return cli.StatusError{StatusCode: 1}
}
opts.name = args[0]
}
return runCreate(dockerCli, opts)
},
}
flags := cmd.Flags()
flags.StringVarP(&opts.driver, "driver", "d", "local", "Specify volume driver name")
flags.StringVar(&opts.name, "name", "", "Specify volume name")
flags.Lookup("name").Hidden = true
flags.VarP(&opts.driverOpts, "opt", "o", "Set driver specific options")
flags.StringSliceVar(&opts.labels, "label", []string{}, "Set metadata for a volume")
return cmd
}
func runCreate(dockerCli *client.DockerCli, flags *pflag.FlagSet, opts *createOptions, copts *runconfigopts.ContainerOptions) error {
config, hostConfig, networkingConfig, err := runconfigopts.Parse(flags, copts)
if err != nil {
reportError(dockerCli.Err(), "create", err.Error(), true)
return cli.StatusError{StatusCode: 125}
}
response, err := createContainer(context.Background(), dockerCli, config, hostConfig, networkingConfig, hostConfig.ContainerIDFile, opts.name)
if err != nil {
return err
}
fmt.Fprintf(dockerCli.Out(), "%s\n", response.ID)
return nil
}
func runDeploy(dockerCli *client.DockerCli, opts deployOptions) error {
bundle, err := loadBundlefile(dockerCli.Err(), opts.namespace, opts.bundlefile)
if err != nil {
return err
}
networks := getUniqueNetworkNames(bundle.Services)
ctx := context.Background()
if err := updateNetworks(ctx, dockerCli, networks, opts.namespace); err != nil {
return err
}
return deployServices(ctx, dockerCli, bundle.Services, opts.namespace)
}
func startContainersWithoutAttachments(dockerCli *client.DockerCli, ctx context.Context, containers []string) error {
var failedContainers []string
for _, container := range containers {
if err := dockerCli.Client().ContainerStart(ctx, container, types.ContainerStartOptions{}); err != nil {
fmt.Fprintf(dockerCli.Err(), "%s\n", err)
failedContainers = append(failedContainers, container)
} else {
fmt.Fprintf(dockerCli.Out(), "%s\n", container)
}
}
if len(failedContainers) > 0 {
return fmt.Errorf("Error: failed to start containers: %v", strings.Join(failedContainers, ", "))
}
return nil
}
func runRename(dockerCli *client.DockerCli, opts *renameOptions) error {
ctx := context.Background()
oldName := strings.TrimSpace(opts.oldName)
newName := strings.TrimSpace(opts.newName)
if oldName == "" || newName == "" {
return fmt.Errorf("Error: Neither old nor new names may be empty")
}
if err := dockerCli.Client().ContainerRename(ctx, oldName, newName); err != nil {
fmt.Fprintf(dockerCli.Err(), "%s\n", err)
return fmt.Errorf("Error: failed to rename container named %s", oldName)
}
return nil
}
// NewVolumeCommand returns a cobra command for `volume` subcommands
func NewVolumeCommand(dockerCli *client.DockerCli) *cobra.Command {
cmd := &cobra.Command{
Use: "volume",
Short: "Manage Docker volumes",
Args: cli.NoArgs,
Run: func(cmd *cobra.Command, args []string) {
fmt.Fprintf(dockerCli.Err(), "\n"+cmd.UsageString())
},
}
cmd.AddCommand(
newCreateCommand(dockerCli),
newInspectCommand(dockerCli),
newListCommand(dockerCli),
newRemoveCommand(dockerCli),
)
return cmd
}
// NewStackCommand returns a cobra command for `stack` subcommands
func NewStackCommand(dockerCli *client.DockerCli) *cobra.Command {
cmd := &cobra.Command{
Use: "stack",
Short: "Manage Docker stacks",
Args: cli.NoArgs,
Run: func(cmd *cobra.Command, args []string) {
fmt.Fprintf(dockerCli.Err(), "\n"+cmd.UsageString())
},
}
cmd.AddCommand(
newConfigCommand(dockerCli),
newDeployCommand(dockerCli),
newRemoveCommand(dockerCli),
newTasksCommand(dockerCli),
)
return cmd
}
func runLogout(dockerCli *client.DockerCli, serverAddress string) error {
ctx := context.Background()
var isDefaultRegistry bool
if serverAddress == "" {
serverAddress = dockerCli.ElectAuthServer(ctx)
isDefaultRegistry = true
}
var (
loggedIn bool
regsToLogout []string
hostnameAddress = serverAddress
regsToTry = []string{serverAddress}
)
if !isDefaultRegistry {
hostnameAddress = registry.ConvertToHostname(serverAddress)
// the tries below are kept for backward compatibily where a user could have
// saved the registry in one of the following format.
regsToTry = append(regsToTry, hostnameAddress, "http://"+hostnameAddress, "https://"+hostnameAddress)
}
// check if we're logged in based on the records in the config file
// which means it couldn't have user/pass cause they may be in the creds store
for _, s := range regsToTry {
if _, ok := dockerCli.ConfigFile().AuthConfigs[s]; ok {
loggedIn = true
regsToLogout = append(regsToLogout, s)
}
}
if !loggedIn {
fmt.Fprintf(dockerCli.Out(), "Not logged in to %s\n", hostnameAddress)
return nil
}
fmt.Fprintf(dockerCli.Out(), "Removing login credentials for %s\n", hostnameAddress)
for _, r := range regsToLogout {
if err := client.EraseCredentials(dockerCli.ConfigFile(), r); err != nil {
fmt.Fprintf(dockerCli.Err(), "WARNING: could not erase credentials: %v\n", err)
}
}
return nil
}
// NewSwarmCommand returns a cobra command for `swarm` subcommands
func NewSwarmCommand(dockerCli *client.DockerCli) *cobra.Command {
cmd := &cobra.Command{
Use: "swarm",
Short: "Manage docker swarm",
Args: cli.NoArgs,
Run: func(cmd *cobra.Command, args []string) {
fmt.Fprintf(dockerCli.Err(), "\n"+cmd.UsageString())
},
}
cmd.AddCommand(
newInitCommand(dockerCli),
newJoinCommand(dockerCli),
newUpdateCommand(dockerCli),
newLeaveCommand(dockerCli),
newInspectCommand(dockerCli),
)
return cmd
}
func runRemove(dockerCli *client.DockerCli, opts *removeOptions) error {
client := dockerCli.Client()
ctx := context.Background()
status := 0
for _, name := range opts.volumes {
if err := client.VolumeRemove(ctx, name, opts.force); err != nil {
fmt.Fprintf(dockerCli.Err(), "%s\n", err)
status = 1
continue
}
fmt.Fprintf(dockerCli.Out(), "%s\n", name)
}
if status != 0 {
return cli.StatusError{StatusCode: status}
}
return nil
}
func runRemove(dockerCli *client.DockerCli, networks []string) error {
client := dockerCli.Client()
ctx := context.Background()
status := 0
for _, name := range networks {
if err := client.NetworkRemove(ctx, name); err != nil {
fmt.Fprintf(dockerCli.Err(), "%s\n", err)
status = 1
continue
}
fmt.Fprintf(dockerCli.Err(), "%s\n", name)
}
if status != 0 {
return cli.StatusError{StatusCode: status}
}
return nil
}
// NewNodeCommand returns a cobra command for `node` subcommands
func NewNodeCommand(dockerCli *client.DockerCli) *cobra.Command {
cmd := &cobra.Command{
Use: "node",
Short: "Manage Docker Swarm nodes",
Args: cli.NoArgs,
Run: func(cmd *cobra.Command, args []string) {
fmt.Fprintf(dockerCli.Err(), "\n"+cmd.UsageString())
},
}
cmd.AddCommand(
newDemoteCommand(dockerCli),
newInspectCommand(dockerCli),
newListCommand(dockerCli),
newPromoteCommand(dockerCli),
newRemoveCommand(dockerCli),
newPsCommand(dockerCli),
newUpdateCommand(dockerCli),
)
return cmd
}
func runRemove(dockerCli *client.DockerCli, opts removeOptions) error {
namespace := opts.namespace
client := dockerCli.Client()
stderr := dockerCli.Err()
ctx := context.Background()
hasError := false
services, err := getServices(ctx, client, namespace)
if err != nil {
return err
}
for _, service := range services {
fmt.Fprintf(stderr, "Removing service %s\n", service.Spec.Name)
if err := client.ServiceRemove(ctx, service.ID); err != nil {
hasError = true
fmt.Fprintf(stderr, "Failed to remove service %s: %s", service.ID, err)
}
}
networks, err := getNetworks(ctx, client, namespace)
if err != nil {
return err
}
for _, network := range networks {
fmt.Fprintf(stderr, "Removing network %s\n", network.Name)
if err := client.NetworkRemove(ctx, network.ID); err != nil {
hasError = true
fmt.Fprintf(stderr, "Failed to remove network %s: %s", network.ID, err)
}
}
if len(services) == 0 && len(networks) == 0 {
fmt.Fprintf(dockerCli.Out(), "Nothing found in stack: %s\n", namespace)
return nil
}
if hasError {
return fmt.Errorf("Failed to remove some resources")
}
return nil
}
func runLogout(dockerCli *client.DockerCli, serverAddress string) error {
ctx := context.Background()
if serverAddress == "" {
serverAddress = dockerCli.ElectAuthServer(ctx)
}
// check if we're logged in based on the records in the config file
// which means it couldn't have user/pass cause they may be in the creds store
if _, ok := dockerCli.ConfigFile().AuthConfigs[serverAddress]; !ok {
fmt.Fprintf(dockerCli.Out(), "Not logged in to %s\n", serverAddress)
return nil
}
fmt.Fprintf(dockerCli.Out(), "Removing login credentials for %s\n", serverAddress)
if err := client.EraseCredentials(dockerCli.ConfigFile(), serverAddress); err != nil {
fmt.Fprintf(dockerCli.Err(), "WARNING: could not erase credentials: %v\n", err)
}
return nil
}
func runDeploy(dockerCli *client.DockerCli, opts deployOptions) error {
bundle, err := loadBundlefile(dockerCli.Err(), opts.namespace, opts.bundlefile)
if err != nil {
return err
}
info, err := dockerCli.Client().Info(context.Background())
if err != nil {
return err
}
if !info.Swarm.ControlAvailable {
return fmt.Errorf("This node is not a swarm manager. Use \"docker swarm init\" or \"docker swarm join\" to connect this node to swarm and try again.")
}
networks := getUniqueNetworkNames(bundle.Services)
ctx := context.Background()
if err := updateNetworks(ctx, dockerCli, networks, opts.namespace); err != nil {
return err
}
return deployServices(ctx, dockerCli, bundle.Services, opts.namespace, opts.sendRegistryAuth)
}
func inspectAll(ctx context.Context, dockerCli *client.DockerCli, getSize bool, typeConstraint string) inspect.GetRefFunc {
var inspectAutodetect = []struct {
ObjectType string
IsSizeSupported bool
ObjectInspector func(string) (interface{}, []byte, error)
}{
{"container", true, inspectContainers(ctx, dockerCli, getSize)},
{"image", true, inspectImages(ctx, dockerCli)},
{"network", false, inspectNetwork(ctx, dockerCli)},
{"volume", false, inspectVolume(ctx, dockerCli)},
{"service", false, inspectService(ctx, dockerCli)},
{"task", false, inspectTasks(ctx, dockerCli)},
{"node", false, inspectNode(ctx, dockerCli)},
}
isErrNotSwarmManager := func(err error) bool {
return strings.Contains(err.Error(), "This node is not a swarm manager")
}
return func(ref string) (interface{}, []byte, error) {
for _, inspectData := range inspectAutodetect {
if typeConstraint != "" && inspectData.ObjectType != typeConstraint {
continue
}
v, raw, err := inspectData.ObjectInspector(ref)
if err != nil {
if typeConstraint == "" && (apiclient.IsErrNotFound(err) || isErrNotSwarmManager(err)) {
continue
}
return v, raw, err
}
if !inspectData.IsSizeSupported {
fmt.Fprintf(dockerCli.Err(), "WARNING: --size ignored for %s\n", inspectData.ObjectType)
}
return v, raw, err
}
return nil, nil, fmt.Errorf("Error: No such object: %s", ref)
}
}
func newDockerCommand(dockerCli *client.DockerCli) *cobra.Command {
opts := cliflags.NewClientOptions()
var flags *pflag.FlagSet
cmd := &cobra.Command{
Use: "docker [OPTIONS] COMMAND [arg...]",
Short: "A self-sufficient runtime for containers.",
SilenceUsage: true,
SilenceErrors: true,
TraverseChildren: true,
Args: noArgs,
RunE: func(cmd *cobra.Command, args []string) error {
if opts.Version {
showVersion()
return nil
}
fmt.Fprintf(dockerCli.Err(), "\n"+cmd.UsageString())
return nil
},
PersistentPreRunE: func(cmd *cobra.Command, args []string) error {
// flags must be the top-level command flags, not cmd.Flags()
opts.Common.SetDefaultOptions(flags)
dockerPreRun(opts)
return dockerCli.Initialize(opts)
},
}
cli.SetupRootCommand(cmd)
flags = cmd.Flags()
flags.BoolVarP(&opts.Version, "version", "v", false, "Print version information and quit")
flags.StringVar(&opts.ConfigDir, "config", cliconfig.ConfigDir(), "Location of client config files")
opts.Common.InstallFlags(flags)
cmd.SetOutput(dockerCli.Out())
cmd.AddCommand(newDaemonCommand())
command.AddCommands(cmd, dockerCli)
return cmd
}
// NewPluginCommand returns a cobra command for `plugin` subcommands
func NewPluginCommand(rootCmd *cobra.Command, dockerCli *client.DockerCli) {
cmd := &cobra.Command{
Use: "plugin",
Short: "Manage Docker plugins",
Args: cli.NoArgs,
Run: func(cmd *cobra.Command, args []string) {
fmt.Fprintf(dockerCli.Err(), "\n"+cmd.UsageString())
},
}
cmd.AddCommand(
newDisableCommand(dockerCli),
newEnableCommand(dockerCli),
newInspectCommand(dockerCli),
newInstallCommand(dockerCli),
newListCommand(dockerCli),
newRemoveCommand(dockerCli),
newSetCommand(dockerCli),
newPushCommand(dockerCli),
)
rootCmd.AddCommand(cmd)
}
func runList(dockerCli *client.DockerCli, opts listOptions) error {
client := dockerCli.Client()
volFilterArgs := filters.NewArgs()
for _, f := range opts.filter {
var err error
volFilterArgs, err = filters.ParseFlag(f, volFilterArgs)
if err != nil {
return err
}
}
volumes, err := client.VolumeList(context.Background(), volFilterArgs)
if err != nil {
return err
}
w := tabwriter.NewWriter(dockerCli.Out(), 20, 1, 3, ' ', 0)
if !opts.quiet {
for _, warn := range volumes.Warnings {
fmt.Fprintln(dockerCli.Err(), warn)
}
fmt.Fprintf(w, "DRIVER \tVOLUME NAME")
fmt.Fprintf(w, "\n")
}
sort.Sort(byVolumeName(volumes.Volumes))
for _, vol := range volumes.Volumes {
if opts.quiet {
fmt.Fprintln(w, vol.Name)
continue
}
fmt.Fprintf(w, "%s\t%s\n", vol.Driver, vol.Name)
}
w.Flush()
return nil
}
func runAttach(dockerCli *client.DockerCli, opts *attachOptions) error {
ctx := context.Background()
c, err := dockerCli.Client().ContainerInspect(ctx, opts.container)
if err != nil {
return err
}
if !c.State.Running {
return fmt.Errorf("You cannot attach to a stopped container, start it first")
}
if c.State.Paused {
return fmt.Errorf("You cannot attach to a paused container, unpause it first")
}
if err := dockerCli.CheckTtyInput(!opts.noStdin, c.Config.Tty); err != nil {
return err
}
if opts.detachKeys != "" {
dockerCli.ConfigFile().DetachKeys = opts.detachKeys
}
options := types.ContainerAttachOptions{
Stream: true,
Stdin: !opts.noStdin && c.Config.OpenStdin,
Stdout: true,
Stderr: true,
DetachKeys: dockerCli.ConfigFile().DetachKeys,
}
var in io.ReadCloser
if options.Stdin {
in = dockerCli.In()
}
if opts.proxy && !c.Config.Tty {
sigc := dockerCli.ForwardAllSignals(ctx, opts.container)
defer signal.StopCatch(sigc)
}
resp, errAttach := dockerCli.Client().ContainerAttach(ctx, opts.container, options)
if errAttach != nil && errAttach != httputil.ErrPersistEOF {
// ContainerAttach returns an ErrPersistEOF (connection closed)
// means server met an error and put it in Hijacked connection
// keep the error and read detailed error message from hijacked connection later
return errAttach
}
defer resp.Close()
if c.Config.Tty && dockerCli.IsTerminalOut() {
height, width := dockerCli.GetTtySize()
// To handle the case where a user repeatedly attaches/detaches without resizing their
// terminal, the only way to get the shell prompt to display for attaches 2+ is to artificially
// resize it, then go back to normal. Without this, every attach after the first will
// require the user to manually resize or hit enter.
dockerCli.ResizeTtyTo(ctx, opts.container, height+1, width+1, false)
// After the above resizing occurs, the call to MonitorTtySize below will handle resetting back
// to the actual size.
if err := dockerCli.MonitorTtySize(ctx, opts.container, false); err != nil {
logrus.Debugf("Error monitoring TTY size: %s", err)
}
}
if err := dockerCli.HoldHijackedConnection(ctx, c.Config.Tty, in, dockerCli.Out(), dockerCli.Err(), resp); err != nil {
return err
}
if errAttach != nil {
return errAttach
}
_, status, err := getExitCode(dockerCli, ctx, opts.container)
if err != nil {
return err
}
if status != 0 {
return cli.StatusError{StatusCode: status}
}
return nil
}
func prettyPrintInfo(dockerCli *client.DockerCli, info types.Info) error {
fmt.Fprintf(dockerCli.Out(), "Containers: %d\n", info.Containers)
fmt.Fprintf(dockerCli.Out(), " Running: %d\n", info.ContainersRunning)
fmt.Fprintf(dockerCli.Out(), " Paused: %d\n", info.ContainersPaused)
fmt.Fprintf(dockerCli.Out(), " Stopped: %d\n", info.ContainersStopped)
fmt.Fprintf(dockerCli.Out(), "Images: %d\n", info.Images)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Server Version: %s\n", info.ServerVersion)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Storage Driver: %s\n", info.Driver)
if info.DriverStatus != nil {
for _, pair := range info.DriverStatus {
fmt.Fprintf(dockerCli.Out(), " %s: %s\n", pair[0], pair[1])
// print a warning if devicemapper is using a loopback file
if pair[0] == "Data loop file" {
fmt.Fprintln(dockerCli.Err(), " WARNING: Usage of loopback devices is strongly discouraged for production use. Use `--storage-opt dm.thinpooldev` to specify a custom block storage device.")
}
}
}
if info.SystemStatus != nil {
for _, pair := range info.SystemStatus {
fmt.Fprintf(dockerCli.Out(), "%s: %s\n", pair[0], pair[1])
}
}
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Logging Driver: %s\n", info.LoggingDriver)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Cgroup Driver: %s\n", info.CgroupDriver)
fmt.Fprintf(dockerCli.Out(), "Plugins: \n")
fmt.Fprintf(dockerCli.Out(), " Volume:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Volume, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
fmt.Fprintf(dockerCli.Out(), " Network:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Network, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
if len(info.Plugins.Authorization) != 0 {
fmt.Fprintf(dockerCli.Out(), " Authorization:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Authorization, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
}
fmt.Fprintf(dockerCli.Out(), "Swarm: %v\n", info.Swarm.LocalNodeState)
if info.Swarm.LocalNodeState != swarm.LocalNodeStateInactive {
fmt.Fprintf(dockerCli.Out(), " NodeID: %s\n", info.Swarm.NodeID)
if info.Swarm.Error != "" {
fmt.Fprintf(dockerCli.Out(), " Error: %v\n", info.Swarm.Error)
}
fmt.Fprintf(dockerCli.Out(), " Is Manager: %v\n", info.Swarm.ControlAvailable)
if info.Swarm.ControlAvailable {
fmt.Fprintf(dockerCli.Out(), " ClusterID: %s\n", info.Swarm.Cluster.ID)
fmt.Fprintf(dockerCli.Out(), " Managers: %d\n", info.Swarm.Managers)
fmt.Fprintf(dockerCli.Out(), " Nodes: %d\n", info.Swarm.Nodes)
fmt.Fprintf(dockerCli.Out(), " Orchestration:\n")
fmt.Fprintf(dockerCli.Out(), " Task History Retention Limit: %d\n", info.Swarm.Cluster.Spec.Orchestration.TaskHistoryRetentionLimit)
fmt.Fprintf(dockerCli.Out(), " Raft:\n")
fmt.Fprintf(dockerCli.Out(), " Snapshot Interval: %d\n", info.Swarm.Cluster.Spec.Raft.SnapshotInterval)
fmt.Fprintf(dockerCli.Out(), " Heartbeat Tick: %d\n", info.Swarm.Cluster.Spec.Raft.HeartbeatTick)
fmt.Fprintf(dockerCli.Out(), " Election Tick: %d\n", info.Swarm.Cluster.Spec.Raft.ElectionTick)
fmt.Fprintf(dockerCli.Out(), " Dispatcher:\n")
fmt.Fprintf(dockerCli.Out(), " Heartbeat Period: %s\n", units.HumanDuration(time.Duration(info.Swarm.Cluster.Spec.Dispatcher.HeartbeatPeriod)))
fmt.Fprintf(dockerCli.Out(), " CA Configuration:\n")
fmt.Fprintf(dockerCli.Out(), " Expiry Duration: %s\n", units.HumanDuration(info.Swarm.Cluster.Spec.CAConfig.NodeCertExpiry))
if len(info.Swarm.Cluster.Spec.CAConfig.ExternalCAs) > 0 {
fmt.Fprintf(dockerCli.Out(), " External CAs:\n")
for _, entry := range info.Swarm.Cluster.Spec.CAConfig.ExternalCAs {
fmt.Fprintf(dockerCli.Out(), " %s: %s\n", entry.Protocol, entry.URL)
}
}
}
fmt.Fprintf(dockerCli.Out(), " Node Address: %s\n", info.Swarm.NodeAddr)
}
if len(info.Runtimes) > 0 {
fmt.Fprintf(dockerCli.Out(), "Runtimes:")
for name := range info.Runtimes {
fmt.Fprintf(dockerCli.Out(), " %s", name)
}
fmt.Fprint(dockerCli.Out(), "\n")
fmt.Fprintf(dockerCli.Out(), "Default Runtime: %s\n", info.DefaultRuntime)
}
fmt.Fprintf(dockerCli.Out(), "Security Options:")
ioutils.FprintfIfNotEmpty(dockerCli.Out(), " %s", strings.Join(info.SecurityOptions, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Kernel Version: %s\n", info.KernelVersion)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Operating System: %s\n", info.OperatingSystem)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "OSType: %s\n", info.OSType)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Architecture: %s\n", info.Architecture)
fmt.Fprintf(dockerCli.Out(), "CPUs: %d\n", info.NCPU)
fmt.Fprintf(dockerCli.Out(), "Total Memory: %s\n", units.BytesSize(float64(info.MemTotal)))
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Name: %s\n", info.Name)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "ID: %s\n", info.ID)
fmt.Fprintf(dockerCli.Out(), "Docker Root Dir: %s\n", info.DockerRootDir)
fmt.Fprintf(dockerCli.Out(), "Debug Mode (client): %v\n", utils.IsDebugEnabled())
fmt.Fprintf(dockerCli.Out(), "Debug Mode (server): %v\n", info.Debug)
if info.Debug {
fmt.Fprintf(dockerCli.Out(), " File Descriptors: %d\n", info.NFd)
fmt.Fprintf(dockerCli.Out(), " Goroutines: %d\n", info.NGoroutines)
fmt.Fprintf(dockerCli.Out(), " System Time: %s\n", info.SystemTime)
fmt.Fprintf(dockerCli.Out(), " EventsListeners: %d\n", info.NEventsListener)
}
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Http Proxy: %s\n", info.HTTPProxy)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Https Proxy: %s\n", info.HTTPSProxy)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "No Proxy: %s\n", info.NoProxy)
if info.IndexServerAddress != "" {
u := dockerCli.ConfigFile().AuthConfigs[info.IndexServerAddress].Username
if len(u) > 0 {
fmt.Fprintf(dockerCli.Out(), "Username: %v\n", u)
}
fmt.Fprintf(dockerCli.Out(), "Registry: %v\n", info.IndexServerAddress)
}
// Only output these warnings if the server does not support these features
if info.OSType != "windows" {
if !info.MemoryLimit {
fmt.Fprintln(dockerCli.Err(), "WARNING: No memory limit support")
}
if !info.SwapLimit {
fmt.Fprintln(dockerCli.Err(), "WARNING: No swap limit support")
}
if !info.KernelMemory {
fmt.Fprintln(dockerCli.Err(), "WARNING: No kernel memory limit support")
}
if !info.OomKillDisable {
fmt.Fprintln(dockerCli.Err(), "WARNING: No oom kill disable support")
}
if !info.CPUCfsQuota {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu cfs quota support")
}
if !info.CPUCfsPeriod {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu cfs period support")
}
if !info.CPUShares {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu shares support")
}
if !info.CPUSet {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpuset support")
}
if !info.IPv4Forwarding {
fmt.Fprintln(dockerCli.Err(), "WARNING: IPv4 forwarding is disabled")
}
if !info.BridgeNfIptables {
fmt.Fprintln(dockerCli.Err(), "WARNING: bridge-nf-call-iptables is disabled")
}
if !info.BridgeNfIP6tables {
fmt.Fprintln(dockerCli.Err(), "WARNING: bridge-nf-call-ip6tables is disabled")
}
}
if info.Labels != nil {
fmt.Fprintln(dockerCli.Out(), "Labels:")
for _, attribute := range info.Labels {
fmt.Fprintf(dockerCli.Out(), " %s\n", attribute)
}
}
ioutils.FprintfIfTrue(dockerCli.Out(), "Experimental: %v\n", info.ExperimentalBuild)
if info.ClusterStore != "" {
fmt.Fprintf(dockerCli.Out(), "Cluster Store: %s\n", info.ClusterStore)
}
if info.ClusterAdvertise != "" {
fmt.Fprintf(dockerCli.Out(), "Cluster Advertise: %s\n", info.ClusterAdvertise)
}
if info.RegistryConfig != nil && (len(info.RegistryConfig.InsecureRegistryCIDRs) > 0 || len(info.RegistryConfig.IndexConfigs) > 0) {
fmt.Fprintln(dockerCli.Out(), "Insecure Registries:")
for _, registry := range info.RegistryConfig.IndexConfigs {
if registry.Secure == false {
fmt.Fprintf(dockerCli.Out(), " %s\n", registry.Name)
}
}
for _, registry := range info.RegistryConfig.InsecureRegistryCIDRs {
mask, _ := registry.Mask.Size()
fmt.Fprintf(dockerCli.Out(), " %s/%d\n", registry.IP.String(), mask)
}
}
if info.RegistryConfig != nil && len(info.RegistryConfig.Mirrors) > 0 {
fmt.Fprintln(dockerCli.Out(), "Registry Mirrors:")
for _, mirror := range info.RegistryConfig.Mirrors {
fmt.Fprintf(dockerCli.Out(), " %s\n", mirror)
}
}
fmt.Fprintf(dockerCli.Out(), "Live Restore Enabled: %v\n", info.LiveRestoreEnabled)
return nil
}
func runInfo(dockerCli *client.DockerCli) error {
info, err := dockerCli.Client().Info(context.Background())
if err != nil {
return err
}
fmt.Fprintf(dockerCli.Out(), "Containers: %d\n", info.Containers)
fmt.Fprintf(dockerCli.Out(), " Running: %d\n", info.ContainersRunning)
fmt.Fprintf(dockerCli.Out(), " Paused: %d\n", info.ContainersPaused)
fmt.Fprintf(dockerCli.Out(), " Stopped: %d\n", info.ContainersStopped)
fmt.Fprintf(dockerCli.Out(), "Images: %d\n", info.Images)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Server Version: %s\n", info.ServerVersion)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Storage Driver: %s\n", info.Driver)
if info.DriverStatus != nil {
for _, pair := range info.DriverStatus {
fmt.Fprintf(dockerCli.Out(), " %s: %s\n", pair[0], pair[1])
// print a warning if devicemapper is using a loopback file
if pair[0] == "Data loop file" {
fmt.Fprintln(dockerCli.Err(), " WARNING: Usage of loopback devices is strongly discouraged for production use. Either use `--storage-opt dm.thinpooldev` or use `--storage-opt dm.no_warn_on_loop_devices=true` to suppress this warning.")
}
}
}
if info.SystemStatus != nil {
for _, pair := range info.SystemStatus {
fmt.Fprintf(dockerCli.Out(), "%s: %s\n", pair[0], pair[1])
}
}
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Execution Driver: %s\n", info.ExecutionDriver)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Logging Driver: %s\n", info.LoggingDriver)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Cgroup Driver: %s\n", info.CgroupDriver)
fmt.Fprintf(dockerCli.Out(), "Plugins: \n")
fmt.Fprintf(dockerCli.Out(), " Volume:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Volume, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
fmt.Fprintf(dockerCli.Out(), " Network:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Network, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
if len(info.Plugins.Authorization) != 0 {
fmt.Fprintf(dockerCli.Out(), " Authorization:")
fmt.Fprintf(dockerCli.Out(), " %s", strings.Join(info.Plugins.Authorization, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
}
fmt.Fprintf(dockerCli.Out(), "Swarm: %v\n", info.Swarm.LocalNodeState)
if info.Swarm.LocalNodeState != swarm.LocalNodeStateInactive {
fmt.Fprintf(dockerCli.Out(), " NodeID: %s\n", info.Swarm.NodeID)
if info.Swarm.Error != "" {
fmt.Fprintf(dockerCli.Out(), " Error: %v\n", info.Swarm.Error)
}
if info.Swarm.ControlAvailable {
fmt.Fprintf(dockerCli.Out(), " IsManager: Yes\n")
fmt.Fprintf(dockerCli.Out(), " Managers: %d\n", info.Swarm.Managers)
fmt.Fprintf(dockerCli.Out(), " Nodes: %d\n", info.Swarm.Nodes)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), " CACertHash: %s\n", info.Swarm.CACertHash)
} else {
fmt.Fprintf(dockerCli.Out(), " IsManager: No\n")
}
}
if len(info.Runtimes) > 0 {
fmt.Fprintf(dockerCli.Out(), "Runtimes:")
for name := range info.Runtimes {
fmt.Fprintf(dockerCli.Out(), " %s", name)
}
fmt.Fprint(dockerCli.Out(), "\n")
fmt.Fprintf(dockerCli.Out(), "Default Runtime: %s\n", info.DefaultRuntime)
}
fmt.Fprintf(dockerCli.Out(), "Security Options:")
ioutils.FprintfIfNotEmpty(dockerCli.Out(), " %s", strings.Join(info.SecurityOptions, " "))
fmt.Fprintf(dockerCli.Out(), "\n")
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Kernel Version: %s\n", info.KernelVersion)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Operating System: %s\n", info.OperatingSystem)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "OSType: %s\n", info.OSType)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Architecture: %s\n", info.Architecture)
fmt.Fprintf(dockerCli.Out(), "CPUs: %d\n", info.NCPU)
fmt.Fprintf(dockerCli.Out(), "Total Memory: %s\n", units.BytesSize(float64(info.MemTotal)))
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Name: %s\n", info.Name)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "ID: %s\n", info.ID)
fmt.Fprintf(dockerCli.Out(), "Docker Root Dir: %s\n", info.DockerRootDir)
fmt.Fprintf(dockerCli.Out(), "Debug Mode (client): %v\n", utils.IsDebugEnabled())
fmt.Fprintf(dockerCli.Out(), "Debug Mode (server): %v\n", info.Debug)
if info.Debug {
fmt.Fprintf(dockerCli.Out(), " File Descriptors: %d\n", info.NFd)
fmt.Fprintf(dockerCli.Out(), " Goroutines: %d\n", info.NGoroutines)
fmt.Fprintf(dockerCli.Out(), " System Time: %s\n", info.SystemTime)
fmt.Fprintf(dockerCli.Out(), " EventsListeners: %d\n", info.NEventsListener)
}
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Http Proxy: %s\n", info.HTTPProxy)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "Https Proxy: %s\n", info.HTTPSProxy)
ioutils.FprintfIfNotEmpty(dockerCli.Out(), "No Proxy: %s\n", info.NoProxy)
if info.IndexServerAddress != "" {
u := dockerCli.ConfigFile().AuthConfigs[info.IndexServerAddress].Username
if len(u) > 0 {
fmt.Fprintf(dockerCli.Out(), "Username: %v\n", u)
}
fmt.Fprintf(dockerCli.Out(), "Registry: %v\n", info.IndexServerAddress)
}
// Only output these warnings if the server does not support these features
if info.OSType != "windows" {
if !info.MemoryLimit {
fmt.Fprintln(dockerCli.Err(), "WARNING: No memory limit support")
}
if !info.SwapLimit {
fmt.Fprintln(dockerCli.Err(), "WARNING: No swap limit support")
}
if !info.KernelMemory {
fmt.Fprintln(dockerCli.Err(), "WARNING: No kernel memory limit support")
}
if !info.OomKillDisable {
fmt.Fprintln(dockerCli.Err(), "WARNING: No oom kill disable support")
}
if !info.CPUCfsQuota {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu cfs quota support")
}
if !info.CPUCfsPeriod {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu cfs period support")
}
if !info.CPUShares {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpu shares support")
}
if !info.CPUSet {
fmt.Fprintln(dockerCli.Err(), "WARNING: No cpuset support")
}
if !info.IPv4Forwarding {
fmt.Fprintln(dockerCli.Err(), "WARNING: IPv4 forwarding is disabled")
}
if !info.BridgeNfIptables {
fmt.Fprintln(dockerCli.Err(), "WARNING: bridge-nf-call-iptables is disabled")
}
if !info.BridgeNfIP6tables {
fmt.Fprintln(dockerCli.Err(), "WARNING: bridge-nf-call-ip6tables is disabled")
}
}
if info.Labels != nil {
fmt.Fprintln(dockerCli.Out(), "Labels:")
for _, attribute := range info.Labels {
fmt.Fprintf(dockerCli.Out(), " %s\n", attribute)
}
}
ioutils.FprintfIfTrue(dockerCli.Out(), "Experimental: %v\n", info.ExperimentalBuild)
if info.ClusterStore != "" {
fmt.Fprintf(dockerCli.Out(), "Cluster Store: %s\n", info.ClusterStore)
}
if info.ClusterAdvertise != "" {
fmt.Fprintf(dockerCli.Out(), "Cluster Advertise: %s\n", info.ClusterAdvertise)
}
if info.RegistryConfig != nil && (len(info.RegistryConfig.InsecureRegistryCIDRs) > 0 || len(info.RegistryConfig.IndexConfigs) > 0) {
fmt.Fprintln(dockerCli.Out(), "Insecure Registries:")
for _, registry := range info.RegistryConfig.IndexConfigs {
if registry.Secure == false {
fmt.Fprintf(dockerCli.Out(), " %s\n", registry.Name)
}
}
for _, registry := range info.RegistryConfig.InsecureRegistryCIDRs {
mask, _ := registry.Mask.Size()
fmt.Fprintf(dockerCli.Out(), " %s/%d\n", registry.IP.String(), mask)
}
}
return nil
}
func runStart(dockerCli *client.DockerCli, opts *startOptions) error {
ctx, cancelFun := context.WithCancel(context.Background())
if opts.attach || opts.openStdin {
// We're going to attach to a container.
// 1. Ensure we only have one container.
if len(opts.containers) > 1 {
return fmt.Errorf("You cannot start and attach multiple containers at once.")
}
// 2. Attach to the container.
container := opts.containers[0]
c, err := dockerCli.Client().ContainerInspect(ctx, container)
if err != nil {
return err
}
// We always use c.ID instead of container to maintain consistency during `docker start`
if !c.Config.Tty {
sigc := dockerCli.ForwardAllSignals(ctx, c.ID)
defer signal.StopCatch(sigc)
}
if opts.detachKeys != "" {
dockerCli.ConfigFile().DetachKeys = opts.detachKeys
}
options := types.ContainerAttachOptions{
Stream: true,
Stdin: opts.openStdin && c.Config.OpenStdin,
Stdout: true,
Stderr: true,
DetachKeys: dockerCli.ConfigFile().DetachKeys,
}
var in io.ReadCloser
if options.Stdin {
in = dockerCli.In()
}
resp, errAttach := dockerCli.Client().ContainerAttach(ctx, c.ID, options)
if errAttach != nil && errAttach != httputil.ErrPersistEOF {
// ContainerAttach return an ErrPersistEOF (connection closed)
// means server met an error and put it in Hijacked connection
// keep the error and read detailed error message from hijacked connection
return errAttach
}
defer resp.Close()
cErr := promise.Go(func() error {
errHijack := dockerCli.HoldHijackedConnection(ctx, c.Config.Tty, in, dockerCli.Out(), dockerCli.Err(), resp)
if errHijack == nil {
return errAttach
}
return errHijack
})
// 3. Start the container.
if err := dockerCli.Client().ContainerStart(ctx, c.ID, types.ContainerStartOptions{}); err != nil {
cancelFun()
<-cErr
return err
}
// 4. Wait for attachment to break.
if c.Config.Tty && dockerCli.IsTerminalOut() {
if err := dockerCli.MonitorTtySize(ctx, c.ID, false); err != nil {
fmt.Fprintf(dockerCli.Err(), "Error monitoring TTY size: %s\n", err)
}
}
if attchErr := <-cErr; attchErr != nil {
return attchErr
}
_, status, err := getExitCode(dockerCli, ctx, c.ID)
if err != nil {
return err
}
if status != 0 {
return cli.StatusError{StatusCode: status}
}
} else {
// We're not going to attach to anything.
// Start as many containers as we want.
return startContainersWithoutAttachments(dockerCli, ctx, opts.containers)
}
return nil
}
func runRun(dockerCli *client.DockerCli, flags *pflag.FlagSet, opts *runOptions, copts *runconfigopts.ContainerOptions) error {
stdout, stderr, stdin := dockerCli.Out(), dockerCli.Err(), dockerCli.In()
client := dockerCli.Client()
// TODO: pass this as an argument
cmdPath := "run"
var (
flAttach *opttypes.ListOpts
ErrConflictAttachDetach = fmt.Errorf("Conflicting options: -a and -d")
ErrConflictRestartPolicyAndAutoRemove = fmt.Errorf("Conflicting options: --restart and --rm")
ErrConflictDetachAutoRemove = fmt.Errorf("Conflicting options: --rm and -d")
)
config, hostConfig, networkingConfig, err := runconfigopts.Parse(flags, copts)
// just in case the Parse does not exit
if err != nil {
reportError(stderr, cmdPath, err.Error(), true)
return cli.StatusError{StatusCode: 125}
}
if hostConfig.OomKillDisable != nil && *hostConfig.OomKillDisable && hostConfig.Memory == 0 {
fmt.Fprintf(stderr, "WARNING: Disabling the OOM killer on containers without setting a '-m/--memory' limit may be dangerous.\n")
}
if len(hostConfig.DNS) > 0 {
// check the DNS settings passed via --dns against
// localhost regexp to warn if they are trying to
// set a DNS to a localhost address
for _, dnsIP := range hostConfig.DNS {
if dns.IsLocalhost(dnsIP) {
fmt.Fprintf(stderr, "WARNING: Localhost DNS setting (--dns=%s) may fail in containers.\n", dnsIP)
break
}
}
}
config.ArgsEscaped = false
if !opts.detach {
if err := dockerCli.CheckTtyInput(config.AttachStdin, config.Tty); err != nil {
return err
}
} else {
if fl := flags.Lookup("attach"); fl != nil {
flAttach = fl.Value.(*opttypes.ListOpts)
if flAttach.Len() != 0 {
return ErrConflictAttachDetach
}
}
if opts.autoRemove {
return ErrConflictDetachAutoRemove
}
config.AttachStdin = false
config.AttachStdout = false
config.AttachStderr = false
config.StdinOnce = false
}
// Disable sigProxy when in TTY mode
if config.Tty {
opts.sigProxy = false
}
// Telling the Windows daemon the initial size of the tty during start makes
// a far better user experience rather than relying on subsequent resizes
// to cause things to catch up.
if runtime.GOOS == "windows" {
hostConfig.ConsoleSize[0], hostConfig.ConsoleSize[1] = dockerCli.GetTtySize()
}
ctx, cancelFun := context.WithCancel(context.Background())
createResponse, err := createContainer(ctx, dockerCli, config, hostConfig, networkingConfig, hostConfig.ContainerIDFile, opts.name)
if err != nil {
reportError(stderr, cmdPath, err.Error(), true)
return runStartContainerErr(err)
}
if opts.sigProxy {
sigc := dockerCli.ForwardAllSignals(ctx, createResponse.ID)
defer signal.StopCatch(sigc)
}
var (
waitDisplayID chan struct{}
errCh chan error
)
if !config.AttachStdout && !config.AttachStderr {
// Make this asynchronous to allow the client to write to stdin before having to read the ID
waitDisplayID = make(chan struct{})
go func() {
defer close(waitDisplayID)
fmt.Fprintf(stdout, "%s\n", createResponse.ID)
}()
}
if opts.autoRemove && (hostConfig.RestartPolicy.IsAlways() || hostConfig.RestartPolicy.IsOnFailure()) {
return ErrConflictRestartPolicyAndAutoRemove
}
attach := config.AttachStdin || config.AttachStdout || config.AttachStderr
if attach {
var (
out, cerr io.Writer
in io.ReadCloser
)
if config.AttachStdin {
in = stdin
}
if config.AttachStdout {
out = stdout
}
if config.AttachStderr {
if config.Tty {
cerr = stdout
} else {
cerr = stderr
}
}
if opts.detachKeys != "" {
dockerCli.ConfigFile().DetachKeys = opts.detachKeys
}
options := types.ContainerAttachOptions{
Stream: true,
Stdin: config.AttachStdin,
Stdout: config.AttachStdout,
Stderr: config.AttachStderr,
DetachKeys: dockerCli.ConfigFile().DetachKeys,
}
resp, errAttach := client.ContainerAttach(ctx, createResponse.ID, options)
if errAttach != nil && errAttach != httputil.ErrPersistEOF {
// ContainerAttach returns an ErrPersistEOF (connection closed)
// means server met an error and put it in Hijacked connection
// keep the error and read detailed error message from hijacked connection later
return errAttach
}
defer resp.Close()
errCh = promise.Go(func() error {
errHijack := dockerCli.HoldHijackedConnection(ctx, config.Tty, in, out, cerr, resp)
if errHijack == nil {
return errAttach
}
return errHijack
})
}
if opts.autoRemove {
defer func() {
// Explicitly not sharing the context as it could be "Done" (by calling cancelFun)
// and thus the container would not be removed.
if err := removeContainer(dockerCli, context.Background(), createResponse.ID, true, false, true); err != nil {
fmt.Fprintf(stderr, "%v\n", err)
}
}()
}
//start the container
if err := client.ContainerStart(ctx, createResponse.ID, types.ContainerStartOptions{}); err != nil {
// If we have holdHijackedConnection, we should notify
// holdHijackedConnection we are going to exit and wait
// to avoid the terminal are not restored.
if attach {
cancelFun()
<-errCh
}
reportError(stderr, cmdPath, err.Error(), false)
return runStartContainerErr(err)
}
if (config.AttachStdin || config.AttachStdout || config.AttachStderr) && config.Tty && dockerCli.IsTerminalOut() {
if err := dockerCli.MonitorTtySize(ctx, createResponse.ID, false); err != nil {
fmt.Fprintf(stderr, "Error monitoring TTY size: %s\n", err)
}
}
if errCh != nil {
if err := <-errCh; err != nil {
logrus.Debugf("Error hijack: %s", err)
return err
}
}
// Detached mode: wait for the id to be displayed and return.
if !config.AttachStdout && !config.AttachStderr {
// Detached mode
<-waitDisplayID
return nil
}
var status int
// Attached mode
if opts.autoRemove {
// Autoremove: wait for the container to finish, retrieve
// the exit code and remove the container
if status, err = client.ContainerWait(ctx, createResponse.ID); err != nil {
return runStartContainerErr(err)
}
if _, status, err = dockerCli.GetExitCode(ctx, createResponse.ID); err != nil {
return err
}
} else {
// No Autoremove: Simply retrieve the exit code
if !config.Tty {
// In non-TTY mode, we can't detach, so we must wait for container exit
if status, err = client.ContainerWait(ctx, createResponse.ID); err != nil {
return err
}
} else {
// In TTY mode, there is a race: if the process dies too slowly, the state could
// be updated after the getExitCode call and result in the wrong exit code being reported
if _, status, err = dockerCli.GetExitCode(ctx, createResponse.ID); err != nil {
return err
}
}
}
if status != 0 {
return cli.StatusError{StatusCode: status}
}
return nil
}
func runBuild(dockerCli *client.DockerCli, options buildOptions) error {
var (
buildCtx io.ReadCloser
err error
)
specifiedContext := options.context
var (
contextDir string
tempDir string
relDockerfile string
progBuff io.Writer
buildBuff io.Writer
)
progBuff = dockerCli.Out()
buildBuff = dockerCli.Out()
if options.quiet {
progBuff = bytes.NewBuffer(nil)
buildBuff = bytes.NewBuffer(nil)
}
switch {
case specifiedContext == "-":
buildCtx, relDockerfile, err = builder.GetContextFromReader(dockerCli.In(), options.dockerfileName)
case urlutil.IsGitURL(specifiedContext):
tempDir, relDockerfile, err = builder.GetContextFromGitURL(specifiedContext, options.dockerfileName)
case urlutil.IsURL(specifiedContext):
buildCtx, relDockerfile, err = builder.GetContextFromURL(progBuff, specifiedContext, options.dockerfileName)
default:
contextDir, relDockerfile, err = builder.GetContextFromLocalDir(specifiedContext, options.dockerfileName)
}
if err != nil {
if options.quiet && urlutil.IsURL(specifiedContext) {
fmt.Fprintln(dockerCli.Err(), progBuff)
}
return fmt.Errorf("unable to prepare context: %s", err)
}
if tempDir != "" {
defer os.RemoveAll(tempDir)
contextDir = tempDir
}
if buildCtx == nil {
// And canonicalize dockerfile name to a platform-independent one
relDockerfile, err = archive.CanonicalTarNameForPath(relDockerfile)
if err != nil {
return fmt.Errorf("cannot canonicalize dockerfile path %s: %v", relDockerfile, err)
}
f, err := os.Open(filepath.Join(contextDir, ".dockerignore"))
if err != nil && !os.IsNotExist(err) {
return err
}
var excludes []string
if err == nil {
excludes, err = dockerignore.ReadAll(f)
if err != nil {
return err
}
}
if err := builder.ValidateContextDirectory(contextDir, excludes); err != nil {
return fmt.Errorf("Error checking context: '%s'.", err)
}
// If .dockerignore mentions .dockerignore or the Dockerfile
// then make sure we send both files over to the daemon
// because Dockerfile is, obviously, needed no matter what, and
// .dockerignore is needed to know if either one needs to be
// removed. The daemon will remove them for us, if needed, after it
// parses the Dockerfile. Ignore errors here, as they will have been
// caught by validateContextDirectory above.
var includes = []string{"."}
keepThem1, _ := fileutils.Matches(".dockerignore", excludes)
keepThem2, _ := fileutils.Matches(relDockerfile, excludes)
if keepThem1 || keepThem2 {
includes = append(includes, ".dockerignore", relDockerfile)
}
buildCtx, err = archive.TarWithOptions(contextDir, &archive.TarOptions{
Compression: archive.Uncompressed,
ExcludePatterns: excludes,
IncludeFiles: includes,
})
if err != nil {
return err
}
}
ctx := context.Background()
var resolvedTags []*resolvedTag
if client.IsTrusted() {
// Wrap the tar archive to replace the Dockerfile entry with the rewritten
// Dockerfile which uses trusted pulls.
buildCtx = replaceDockerfileTarWrapper(ctx, buildCtx, relDockerfile, dockerCli.TrustedReference, &resolvedTags)
}
// Setup an upload progress bar
progressOutput := streamformatter.NewStreamFormatter().NewProgressOutput(progBuff, true)
var body io.Reader = progress.NewProgressReader(buildCtx, progressOutput, 0, "", "Sending build context to Docker daemon")
var memory int64
if options.memory != "" {
parsedMemory, err := units.RAMInBytes(options.memory)
if err != nil {
return err
}
memory = parsedMemory
}
var memorySwap int64
if options.memorySwap != "" {
if options.memorySwap == "-1" {
memorySwap = -1
} else {
parsedMemorySwap, err := units.RAMInBytes(options.memorySwap)
if err != nil {
return err
}
memorySwap = parsedMemorySwap
}
}
var shmSize int64
if options.shmSize != "" {
shmSize, err = units.RAMInBytes(options.shmSize)
if err != nil {
return err
}
}
buildOptions := types.ImageBuildOptions{
Memory: memory,
MemorySwap: memorySwap,
Tags: options.tags.GetAll(),
SuppressOutput: options.quiet,
NoCache: options.noCache,
Remove: options.rm,
ForceRemove: options.forceRm,
PullParent: options.pull,
Isolation: container.Isolation(options.isolation),
CPUSetCPUs: options.cpuSetCpus,
CPUSetMems: options.cpuSetMems,
CPUShares: options.cpuShares,
CPUQuota: options.cpuQuota,
CPUPeriod: options.cpuPeriod,
CgroupParent: options.cgroupParent,
Dockerfile: relDockerfile,
ShmSize: shmSize,
Ulimits: options.ulimits.GetList(),
BuildArgs: runconfigopts.ConvertKVStringsToMap(options.buildArgs.GetAll()),
AuthConfigs: dockerCli.RetrieveAuthConfigs(),
Labels: runconfigopts.ConvertKVStringsToMap(options.labels),
}
response, err := dockerCli.Client().ImageBuild(ctx, body, buildOptions)
if err != nil {
return err
}
defer response.Body.Close()
err = jsonmessage.DisplayJSONMessagesStream(response.Body, buildBuff, dockerCli.OutFd(), dockerCli.IsTerminalOut(), nil)
if err != nil {
if jerr, ok := err.(*jsonmessage.JSONError); ok {
// If no error code is set, default to 1
if jerr.Code == 0 {
jerr.Code = 1
}
if options.quiet {
fmt.Fprintf(dockerCli.Err(), "%s%s", progBuff, buildBuff)
}
return cli.StatusError{Status: jerr.Message, StatusCode: jerr.Code}
}
}
// Windows: show error message about modified file permissions if the
// daemon isn't running Windows.
if response.OSType != "windows" && runtime.GOOS == "windows" && !options.quiet {
fmt.Fprintln(dockerCli.Err(), `SECURITY WARNING: You are building a Docker image from Windows against a non-Windows Docker host. All files and directories added to build context will have '-rwxr-xr-x' permissions. It is recommended to double check and reset permissions for sensitive files and directories.`)
}
// Everything worked so if -q was provided the output from the daemon
// should be just the image ID and we'll print that to stdout.
if options.quiet {
fmt.Fprintf(dockerCli.Out(), "%s", buildBuff)
}
if client.IsTrusted() {
// Since the build was successful, now we must tag any of the resolved
// images from the above Dockerfile rewrite.
for _, resolved := range resolvedTags {
if err := dockerCli.TagTrusted(ctx, resolved.digestRef, resolved.tagRef); err != nil {
return err
}
}
}
return nil
}
