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container.go
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container.go
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package docker
import (
"encoding/json"
"flag"
"fmt"
"github.com/dotcloud/docker/term"
"github.com/dotcloud/docker/utils"
"github.com/kr/pty"
"io"
"io/ioutil"
"log"
"os"
"os/exec"
"path"
"path/filepath"
"sort"
"strconv"
"strings"
"syscall"
"time"
)
type Container struct {
root string
ID string
Created time.Time
Path string
Args []string
Config *Config
State State
Image string
network *NetworkInterface
NetworkSettings *NetworkSettings
SysInitPath string
ResolvConfPath string
cmd *exec.Cmd
stdout *utils.WriteBroadcaster
stderr *utils.WriteBroadcaster
stdin io.ReadCloser
stdinPipe io.WriteCloser
ptyMaster io.Closer
runtime *Runtime
waitLock chan struct{}
Volumes map[string]string
// Store rw/ro in a separate structure to preserve reverse-compatibility on-disk.
// Easier than migrating older container configs :)
VolumesRW map[string]bool
}
type Config struct {
Hostname string
User string
Memory int64 // Memory limit (in bytes)
MemorySwap int64 // Total memory usage (memory + swap); set `-1' to disable swap
CpuShares int64 // CPU shares (relative weight vs. other containers)
AttachStdin bool
AttachStdout bool
AttachStderr bool
PortSpecs []string
Tty bool // Attach standard streams to a tty, including stdin if it is not closed.
OpenStdin bool // Open stdin
StdinOnce bool // If true, close stdin after the 1 attached client disconnects.
Env []string
Cmd []string
Dns []string
Image string // Name of the image as it was passed by the operator (eg. could be symbolic)
Volumes map[string]struct{}
VolumesFrom string
Entrypoint []string
NetworkDisabled bool
}
type HostConfig struct {
Binds []string
ContainerIDFile string
}
type BindMap struct {
SrcPath string
DstPath string
Mode string
}
func ParseRun(args []string, capabilities *Capabilities) (*Config, *HostConfig, *flag.FlagSet, error) {
cmd := Subcmd("run", "[OPTIONS] IMAGE [COMMAND] [ARG...]", "Run a command in a new container")
if len(args) > 0 && args[0] != "--help" {
cmd.SetOutput(ioutil.Discard)
cmd.Usage = nil
}
flHostname := cmd.String("h", "", "Container host name")
flUser := cmd.String("u", "", "Username or UID")
flDetach := cmd.Bool("d", false, "Detached mode: Run container in the background, print new container id")
flAttach := NewAttachOpts()
cmd.Var(flAttach, "a", "Attach to stdin, stdout or stderr.")
flStdin := cmd.Bool("i", false, "Keep stdin open even if not attached")
flTty := cmd.Bool("t", false, "Allocate a pseudo-tty")
flMemory := cmd.Int64("m", 0, "Memory limit (in bytes)")
flContainerIDFile := cmd.String("cidfile", "", "Write the container ID to the file")
flNetwork := cmd.Bool("n", true, "Enable networking for this container")
if capabilities != nil && *flMemory > 0 && !capabilities.MemoryLimit {
//fmt.Fprintf(stdout, "WARNING: Your kernel does not support memory limit capabilities. Limitation discarded.\n")
*flMemory = 0
}
flCpuShares := cmd.Int64("c", 0, "CPU shares (relative weight)")
var flPorts ListOpts
cmd.Var(&flPorts, "p", "Expose a container's port to the host (use 'docker port' to see the actual mapping)")
var flEnv ListOpts
cmd.Var(&flEnv, "e", "Set environment variables")
var flDns ListOpts
cmd.Var(&flDns, "dns", "Set custom dns servers")
flVolumes := NewPathOpts()
cmd.Var(flVolumes, "v", "Bind mount a volume (e.g. from the host: -v /host:/container, from docker: -v /container)")
flVolumesFrom := cmd.String("volumes-from", "", "Mount volumes from the specified container")
flEntrypoint := cmd.String("entrypoint", "", "Overwrite the default entrypoint of the image")
if err := cmd.Parse(args); err != nil {
return nil, nil, cmd, err
}
if *flDetach && len(flAttach) > 0 {
return nil, nil, cmd, fmt.Errorf("Conflicting options: -a and -d")
}
// If neither -d or -a are set, attach to everything by default
if len(flAttach) == 0 && !*flDetach {
if !*flDetach {
flAttach.Set("stdout")
flAttach.Set("stderr")
if *flStdin {
flAttach.Set("stdin")
}
}
}
var binds []string
// add any bind targets to the list of container volumes
for bind := range flVolumes {
arr := strings.Split(bind, ":")
if len(arr) > 1 {
dstDir := arr[1]
flVolumes[dstDir] = struct{}{}
binds = append(binds, bind)
delete(flVolumes, bind)
}
}
parsedArgs := cmd.Args()
runCmd := []string{}
entrypoint := []string{}
image := ""
if len(parsedArgs) >= 1 {
image = cmd.Arg(0)
}
if len(parsedArgs) > 1 {
runCmd = parsedArgs[1:]
}
if *flEntrypoint != "" {
entrypoint = []string{*flEntrypoint}
}
config := &Config{
Hostname: *flHostname,
PortSpecs: flPorts,
User: *flUser,
Tty: *flTty,
NetworkDisabled: !*flNetwork,
OpenStdin: *flStdin,
Memory: *flMemory,
CpuShares: *flCpuShares,
AttachStdin: flAttach.Get("stdin"),
AttachStdout: flAttach.Get("stdout"),
AttachStderr: flAttach.Get("stderr"),
Env: flEnv,
Cmd: runCmd,
Dns: flDns,
Image: image,
Volumes: flVolumes,
VolumesFrom: *flVolumesFrom,
Entrypoint: entrypoint,
}
hostConfig := &HostConfig{
Binds: binds,
ContainerIDFile: *flContainerIDFile,
}
if capabilities != nil && *flMemory > 0 && !capabilities.SwapLimit {
//fmt.Fprintf(stdout, "WARNING: Your kernel does not support swap limit capabilities. Limitation discarded.\n")
config.MemorySwap = -1
}
// When allocating stdin in attached mode, close stdin at client disconnect
if config.OpenStdin && config.AttachStdin {
config.StdinOnce = true
}
return config, hostConfig, cmd, nil
}
type PortMapping map[string]string
type NetworkSettings struct {
IPAddress string
IPPrefixLen int
Gateway string
Bridge string
PortMapping map[string]PortMapping
}
// String returns a human-readable description of the port mapping defined in the settings
func (settings *NetworkSettings) PortMappingHuman() string {
var mapping []string
for private, public := range settings.PortMapping["Tcp"] {
mapping = append(mapping, fmt.Sprintf("%s->%s", public, private))
}
for private, public := range settings.PortMapping["Udp"] {
mapping = append(mapping, fmt.Sprintf("%s->%s/udp", public, private))
}
sort.Strings(mapping)
return strings.Join(mapping, ", ")
}
// Inject the io.Reader at the given path. Note: do not close the reader
func (container *Container) Inject(file io.Reader, pth string) error {
// Make sure the directory exists
if err := os.MkdirAll(path.Join(container.rwPath(), path.Dir(pth)), 0755); err != nil {
return err
}
// FIXME: Handle permissions/already existing dest
dest, err := os.Create(path.Join(container.rwPath(), pth))
if err != nil {
return err
}
if _, err := io.Copy(dest, file); err != nil {
return err
}
return nil
}
func (container *Container) Cmd() *exec.Cmd {
return container.cmd
}
func (container *Container) When() time.Time {
return container.Created
}
func (container *Container) FromDisk() error {
data, err := ioutil.ReadFile(container.jsonPath())
if err != nil {
return err
}
// Load container settings
if err := json.Unmarshal(data, container); err != nil {
return err
}
return nil
}
func (container *Container) ToDisk() (err error) {
data, err := json.Marshal(container)
if err != nil {
return
}
return ioutil.WriteFile(container.jsonPath(), data, 0666)
}
func (container *Container) ReadHostConfig() (*HostConfig, error) {
data, err := ioutil.ReadFile(container.hostConfigPath())
if err != nil {
return &HostConfig{}, err
}
hostConfig := &HostConfig{}
if err := json.Unmarshal(data, hostConfig); err != nil {
return &HostConfig{}, err
}
return hostConfig, nil
}
func (container *Container) SaveHostConfig(hostConfig *HostConfig) (err error) {
data, err := json.Marshal(hostConfig)
if err != nil {
return
}
return ioutil.WriteFile(container.hostConfigPath(), data, 0666)
}
func (container *Container) generateLXCConfig() error {
fo, err := os.Create(container.lxcConfigPath())
if err != nil {
return err
}
defer fo.Close()
if err := LxcTemplateCompiled.Execute(fo, container); err != nil {
return err
}
return nil
}
func (container *Container) startPty() error {
ptyMaster, ptySlave, err := pty.Open()
if err != nil {
return err
}
container.ptyMaster = ptyMaster
container.cmd.Stdout = ptySlave
container.cmd.Stderr = ptySlave
// Copy the PTYs to our broadcasters
go func() {
defer container.stdout.CloseWriters()
utils.Debugf("[startPty] Begin of stdout pipe")
io.Copy(container.stdout, ptyMaster)
utils.Debugf("[startPty] End of stdout pipe")
}()
// stdin
if container.Config.OpenStdin {
container.cmd.Stdin = ptySlave
container.cmd.SysProcAttr = &syscall.SysProcAttr{Setctty: true, Setsid: true}
go func() {
defer container.stdin.Close()
utils.Debugf("[startPty] Begin of stdin pipe")
io.Copy(ptyMaster, container.stdin)
utils.Debugf("[startPty] End of stdin pipe")
}()
}
if err := container.cmd.Start(); err != nil {
return err
}
ptySlave.Close()
return nil
}
func (container *Container) start() error {
container.cmd.Stdout = container.stdout
container.cmd.Stderr = container.stderr
if container.Config.OpenStdin {
stdin, err := container.cmd.StdinPipe()
if err != nil {
return err
}
go func() {
defer stdin.Close()
utils.Debugf("Begin of stdin pipe [start]")
io.Copy(stdin, container.stdin)
utils.Debugf("End of stdin pipe [start]")
}()
}
return container.cmd.Start()
}
func (container *Container) Attach(stdin io.ReadCloser, stdinCloser io.Closer, stdout io.Writer, stderr io.Writer) chan error {
var cStdout, cStderr io.ReadCloser
var nJobs int
errors := make(chan error, 3)
if stdin != nil && container.Config.OpenStdin {
nJobs += 1
if cStdin, err := container.StdinPipe(); err != nil {
errors <- err
} else {
go func() {
utils.Debugf("[start] attach stdin\n")
defer utils.Debugf("[end] attach stdin\n")
// No matter what, when stdin is closed (io.Copy unblock), close stdout and stderr
if container.Config.StdinOnce && !container.Config.Tty {
defer cStdin.Close()
} else {
if cStdout != nil {
defer cStdout.Close()
}
if cStderr != nil {
defer cStderr.Close()
}
}
if container.Config.Tty {
_, err = utils.CopyEscapable(cStdin, stdin)
} else {
_, err = io.Copy(cStdin, stdin)
}
if err != nil {
utils.Debugf("[error] attach stdin: %s\n", err)
}
// Discard error, expecting pipe error
errors <- nil
}()
}
}
if stdout != nil {
nJobs += 1
if p, err := container.StdoutPipe(); err != nil {
errors <- err
} else {
cStdout = p
go func() {
utils.Debugf("[start] attach stdout\n")
defer utils.Debugf("[end] attach stdout\n")
// If we are in StdinOnce mode, then close stdin
if container.Config.StdinOnce {
if stdin != nil {
defer stdin.Close()
}
if stdinCloser != nil {
defer stdinCloser.Close()
}
}
_, err := io.Copy(stdout, cStdout)
if err != nil {
utils.Debugf("[error] attach stdout: %s\n", err)
}
errors <- err
}()
}
} else {
go func() {
if stdinCloser != nil {
defer stdinCloser.Close()
}
if cStdout, err := container.StdoutPipe(); err != nil {
utils.Debugf("Error stdout pipe")
} else {
io.Copy(&utils.NopWriter{}, cStdout)
}
}()
}
if stderr != nil {
nJobs += 1
if p, err := container.StderrPipe(); err != nil {
errors <- err
} else {
cStderr = p
go func() {
utils.Debugf("[start] attach stderr\n")
defer utils.Debugf("[end] attach stderr\n")
// If we are in StdinOnce mode, then close stdin
if container.Config.StdinOnce {
if stdin != nil {
defer stdin.Close()
}
if stdinCloser != nil {
defer stdinCloser.Close()
}
}
_, err := io.Copy(stderr, cStderr)
if err != nil {
utils.Debugf("[error] attach stderr: %s\n", err)
}
errors <- err
}()
}
} else {
go func() {
if stdinCloser != nil {
defer stdinCloser.Close()
}
if cStderr, err := container.StderrPipe(); err != nil {
utils.Debugf("Error stdout pipe")
} else {
io.Copy(&utils.NopWriter{}, cStderr)
}
}()
}
return utils.Go(func() error {
if cStdout != nil {
defer cStdout.Close()
}
if cStderr != nil {
defer cStderr.Close()
}
// FIXME: how do clean up the stdin goroutine without the unwanted side effect
// of closing the passed stdin? Add an intermediary io.Pipe?
for i := 0; i < nJobs; i += 1 {
utils.Debugf("Waiting for job %d/%d\n", i+1, nJobs)
if err := <-errors; err != nil {
utils.Debugf("Job %d returned error %s. Aborting all jobs\n", i+1, err)
return err
}
utils.Debugf("Job %d completed successfully\n", i+1)
}
utils.Debugf("All jobs completed successfully\n")
return nil
})
}
func (container *Container) Start(hostConfig *HostConfig) error {
container.State.Lock()
defer container.State.Unlock()
if len(hostConfig.Binds) == 0 {
hostConfig, _ = container.ReadHostConfig()
}
if container.State.Running {
return fmt.Errorf("The container %s is already running.", container.ID)
}
if err := container.EnsureMounted(); err != nil {
return err
}
if container.runtime.networkManager.disabled {
container.Config.NetworkDisabled = true
} else {
if err := container.allocateNetwork(); err != nil {
return err
}
}
// Make sure the config is compatible with the current kernel
if container.Config.Memory > 0 && !container.runtime.capabilities.MemoryLimit {
log.Printf("WARNING: Your kernel does not support memory limit capabilities. Limitation discarded.\n")
container.Config.Memory = 0
}
if container.Config.Memory > 0 && !container.runtime.capabilities.SwapLimit {
log.Printf("WARNING: Your kernel does not support swap limit capabilities. Limitation discarded.\n")
container.Config.MemorySwap = -1
}
// Create the requested bind mounts
binds := make(map[string]BindMap)
// Define illegal container destinations
illegalDsts := []string{"/", "."}
for _, bind := range hostConfig.Binds {
// FIXME: factorize bind parsing in parseBind
var src, dst, mode string
arr := strings.Split(bind, ":")
if len(arr) == 2 {
src = arr[0]
dst = arr[1]
mode = "rw"
} else if len(arr) == 3 {
src = arr[0]
dst = arr[1]
mode = arr[2]
} else {
return fmt.Errorf("Invalid bind specification: %s", bind)
}
// Bail if trying to mount to an illegal destination
for _, illegal := range illegalDsts {
if dst == illegal {
return fmt.Errorf("Illegal bind destination: %s", dst)
}
}
bindMap := BindMap{
SrcPath: src,
DstPath: dst,
Mode: mode,
}
binds[path.Clean(dst)] = bindMap
}
// FIXME: evaluate volumes-from before individual volumes, so that the latter can override the former.
// Create the requested volumes volumes
if container.Volumes == nil || len(container.Volumes) == 0 {
container.Volumes = make(map[string]string)
container.VolumesRW = make(map[string]bool)
for volPath := range container.Config.Volumes {
volPath = path.Clean(volPath)
// If an external bind is defined for this volume, use that as a source
if bindMap, exists := binds[volPath]; exists {
container.Volumes[volPath] = bindMap.SrcPath
if strings.ToLower(bindMap.Mode) == "rw" {
container.VolumesRW[volPath] = true
}
// Otherwise create an directory in $ROOT/volumes/ and use that
} else {
c, err := container.runtime.volumes.Create(nil, container, "", "", nil)
if err != nil {
return err
}
srcPath, err := c.layer()
if err != nil {
return err
}
container.Volumes[volPath] = srcPath
container.VolumesRW[volPath] = true // RW by default
}
// Create the mountpoint
if err := os.MkdirAll(path.Join(container.RootfsPath(), volPath), 0755); err != nil {
return nil
}
}
}
if container.Config.VolumesFrom != "" {
c := container.runtime.Get(container.Config.VolumesFrom)
if c == nil {
return fmt.Errorf("Container %s not found. Impossible to mount its volumes", container.ID)
}
for volPath, id := range c.Volumes {
if _, exists := container.Volumes[volPath]; exists {
return fmt.Errorf("The requested volume %s overlap one of the volume of the container %s", volPath, c.ID)
}
if err := os.MkdirAll(path.Join(container.RootfsPath(), volPath), 0755); err != nil {
return nil
}
container.Volumes[volPath] = id
if isRW, exists := c.VolumesRW[volPath]; exists {
container.VolumesRW[volPath] = isRW
}
}
}
if err := container.generateLXCConfig(); err != nil {
return err
}
params := []string{
"-n", container.ID,
"-f", container.lxcConfigPath(),
"--",
"/sbin/init",
}
// Networking
if !container.Config.NetworkDisabled {
params = append(params, "-g", container.network.Gateway.String())
}
// User
if container.Config.User != "" {
params = append(params, "-u", container.Config.User)
}
if container.Config.Tty {
params = append(params, "-e", "TERM=xterm")
}
// Setup environment
params = append(params,
"-e", "HOME=/",
"-e", "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin",
"-e", "container=lxc",
)
for _, elem := range container.Config.Env {
params = append(params, "-e", elem)
}
// Program
params = append(params, "--", container.Path)
params = append(params, container.Args...)
container.cmd = exec.Command("lxc-start", params...)
// Setup logging of stdout and stderr to disk
if err := container.runtime.LogToDisk(container.stdout, container.logPath("json"), "stdout"); err != nil {
return err
}
if err := container.runtime.LogToDisk(container.stderr, container.logPath("json"), "stderr"); err != nil {
return err
}
var err error
if container.Config.Tty {
err = container.startPty()
} else {
err = container.start()
}
if err != nil {
return err
}
// FIXME: save state on disk *first*, then converge
// this way disk state is used as a journal, eg. we can restore after crash etc.
container.State.setRunning(container.cmd.Process.Pid)
// Init the lock
container.waitLock = make(chan struct{})
container.ToDisk()
container.SaveHostConfig(hostConfig)
go container.monitor()
return nil
}
func (container *Container) Run() error {
hostConfig := &HostConfig{}
if err := container.Start(hostConfig); err != nil {
return err
}
container.Wait()
return nil
}
func (container *Container) Output() (output []byte, err error) {
pipe, err := container.StdoutPipe()
if err != nil {
return nil, err
}
defer pipe.Close()
hostConfig := &HostConfig{}
if err := container.Start(hostConfig); err != nil {
return nil, err
}
output, err = ioutil.ReadAll(pipe)
container.Wait()
return output, err
}
// StdinPipe() returns a pipe connected to the standard input of the container's
// active process.
//
func (container *Container) StdinPipe() (io.WriteCloser, error) {
return container.stdinPipe, nil
}
func (container *Container) StdoutPipe() (io.ReadCloser, error) {
reader, writer := io.Pipe()
container.stdout.AddWriter(writer, "")
return utils.NewBufReader(reader), nil
}
func (container *Container) StderrPipe() (io.ReadCloser, error) {
reader, writer := io.Pipe()
container.stderr.AddWriter(writer, "")
return utils.NewBufReader(reader), nil
}
func (container *Container) allocateNetwork() error {
if container.Config.NetworkDisabled {
return nil
}
iface, err := container.runtime.networkManager.Allocate()
if err != nil {
return err
}
container.NetworkSettings.PortMapping = make(map[string]PortMapping)
container.NetworkSettings.PortMapping["Tcp"] = make(PortMapping)
container.NetworkSettings.PortMapping["Udp"] = make(PortMapping)
for _, spec := range container.Config.PortSpecs {
nat, err := iface.AllocatePort(spec)
if err != nil {
iface.Release()
return err
}
proto := strings.Title(nat.Proto)
backend, frontend := strconv.Itoa(nat.Backend), strconv.Itoa(nat.Frontend)
container.NetworkSettings.PortMapping[proto][backend] = frontend
}
container.network = iface
container.NetworkSettings.Bridge = container.runtime.networkManager.bridgeIface
container.NetworkSettings.IPAddress = iface.IPNet.IP.String()
container.NetworkSettings.IPPrefixLen, _ = iface.IPNet.Mask.Size()
container.NetworkSettings.Gateway = iface.Gateway.String()
return nil
}
func (container *Container) releaseNetwork() {
if container.Config.NetworkDisabled {
return
}
container.network.Release()
container.network = nil
container.NetworkSettings = &NetworkSettings{}
}
// FIXME: replace this with a control socket within docker-init
func (container *Container) waitLxc() error {
for {
output, err := exec.Command("lxc-info", "-n", container.ID).CombinedOutput()
if err != nil {
return err
}
if !strings.Contains(string(output), "RUNNING") {
return nil
}
time.Sleep(500 * time.Millisecond)
}
}
func (container *Container) monitor() {
// Wait for the program to exit
utils.Debugf("Waiting for process")
// If the command does not exists, try to wait via lxc
if container.cmd == nil {
if err := container.waitLxc(); err != nil {
utils.Debugf("%s: Process: %s", container.ID, err)
}
} else {
if err := container.cmd.Wait(); err != nil {
// Discard the error as any signals or non 0 returns will generate an error
utils.Debugf("%s: Process: %s", container.ID, err)
}
}
utils.Debugf("Process finished")
if container.runtime != nil && container.runtime.srv != nil {
container.runtime.srv.LogEvent("die", container.ShortID())
}
exitCode := -1
if container.cmd != nil {
exitCode = container.cmd.ProcessState.Sys().(syscall.WaitStatus).ExitStatus()
}
// Cleanup
container.releaseNetwork()
if container.Config.OpenStdin {
if err := container.stdin.Close(); err != nil {
utils.Debugf("%s: Error close stdin: %s", container.ID, err)
}
}
if err := container.stdout.CloseWriters(); err != nil {
utils.Debugf("%s: Error close stdout: %s", container.ID, err)
}
if err := container.stderr.CloseWriters(); err != nil {
utils.Debugf("%s: Error close stderr: %s", container.ID, err)
}
if container.ptyMaster != nil {
if err := container.ptyMaster.Close(); err != nil {
utils.Debugf("%s: Error closing Pty master: %s", container.ID, err)
}
}
if err := container.Unmount(); err != nil {
log.Printf("%v: Failed to umount filesystem: %v", container.ID, err)
}
// Re-create a brand new stdin pipe once the container exited
if container.Config.OpenStdin {
container.stdin, container.stdinPipe = io.Pipe()
}
// Report status back
container.State.setStopped(exitCode)
// Release the lock
close(container.waitLock)
if err := container.ToDisk(); err != nil {
// FIXME: there is a race condition here which causes this to fail during the unit tests.
// If another goroutine was waiting for Wait() to return before removing the container's root
// from the filesystem... At this point it may already have done so.
// This is because State.setStopped() has already been called, and has caused Wait()
// to return.
// FIXME: why are we serializing running state to disk in the first place?
//log.Printf("%s: Failed to dump configuration to the disk: %s", container.ID, err)
}
}
func (container *Container) kill() error {
if !container.State.Running {
return nil
}
// Sending SIGKILL to the process via lxc
output, err := exec.Command("lxc-kill", "-n", container.ID, "9").CombinedOutput()
if err != nil {
log.Printf("error killing container %s (%s, %s)", container.ID, output, err)
}
// 2. Wait for the process to die, in last resort, try to kill the process directly
if err := container.WaitTimeout(10 * time.Second); err != nil {
if container.cmd == nil {
return fmt.Errorf("lxc-kill failed, impossible to kill the container %s", container.ID)
}
log.Printf("Container %s failed to exit within 10 seconds of lxc SIGKILL - trying direct SIGKILL", container.ID)
if err := container.cmd.Process.Kill(); err != nil {
return err
}
}
// Wait for the container to be actually stopped
container.Wait()
return nil
}
func (container *Container) Kill() error {
container.State.Lock()
defer container.State.Unlock()
if !container.State.Running {
return nil
}
return container.kill()
}
func (container *Container) Stop(seconds int) error {
container.State.Lock()
defer container.State.Unlock()
if !container.State.Running {
return nil
}
// 1. Send a SIGTERM
if output, err := exec.Command("lxc-kill", "-n", container.ID, "15").CombinedOutput(); err != nil {
log.Print(string(output))
log.Print("Failed to send SIGTERM to the process, force killing")
if err := container.kill(); err != nil {
return err
}
}
// 2. Wait for the process to exit on its own
if err := container.WaitTimeout(time.Duration(seconds) * time.Second); err != nil {
log.Printf("Container %v failed to exit within %d seconds of SIGTERM - using the force", container.ID, seconds)
if err := container.kill(); err != nil {
return err
}
}
return nil
}
func (container *Container) Restart(seconds int) error {
if err := container.Stop(seconds); err != nil {
return err
}
hostConfig := &HostConfig{}
if err := container.Start(hostConfig); err != nil {
return err
}
return nil
}
// Wait blocks until the container stops running, then returns its exit code.
func (container *Container) Wait() int {
<-container.waitLock
return container.State.ExitCode
}
func (container *Container) Resize(h, w int) error {
pty, ok := container.ptyMaster.(*os.File)
if !ok {
return fmt.Errorf("ptyMaster does not have Fd() method")
}
return term.SetWinsize(pty.Fd(), &term.Winsize{Height: uint16(h), Width: uint16(w)})
}
func (container *Container) ExportRw() (Archive, error) {
return Tar(container.rwPath(), Uncompressed)
}
func (container *Container) RwChecksum() (string, error) {
rwData, err := Tar(container.rwPath(), Xz)
if err != nil {
return "", err
}
return utils.HashData(rwData)
}
func (container *Container) Export() (Archive, error) {
if err := container.EnsureMounted(); err != nil {
return nil, err
}
return Tar(container.RootfsPath(), Uncompressed)
}
func (container *Container) WaitTimeout(timeout time.Duration) error {
done := make(chan bool)
go func() {
container.Wait()
done <- true
}()
select {
case <-time.After(timeout):
return fmt.Errorf("Timed Out")
case <-done:
return nil
}
}
func (container *Container) EnsureMounted() error {
if mounted, err := container.Mounted(); err != nil {
return err
} else if mounted {
return nil
}
return container.Mount()
}
func (container *Container) Mount() error {
image, err := container.GetImage()
if err != nil {
return err
}
return image.Mount(container.RootfsPath(), container.rwPath())
}