mirror of https://github.com/docker/cli.git
252 lines
6.2 KiB
Markdown
252 lines
6.2 KiB
Markdown
Libcontainer provides a native Go implementation for creating containers
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with namespaces, cgroups, capabilities, and filesystem access controls.
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It allows you to manage the lifecycle of the container performing additional operations
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after the container is created.
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#### Container
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A container is a self contained execution environment that shares the kernel of the
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host system and which is (optionally) isolated from other containers in the system.
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#### Using libcontainer
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Because containers are spawned in a two step process you will need a binary that
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will be executed as the init process for the container. In libcontainer, we use
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the current binary (/proc/self/exe) to be executed as the init process, and use
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arg "init", we call the first step process "bootstrap", so you always need a "init"
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function as the entry of "bootstrap".
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```go
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func init() {
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if len(os.Args) > 1 && os.Args[1] == "init" {
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runtime.GOMAXPROCS(1)
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runtime.LockOSThread()
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factory, _ := libcontainer.New("")
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if err := factory.StartInitialization(); err != nil {
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logrus.Fatal(err)
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}
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panic("--this line should have never been executed, congratulations--")
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}
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}
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```
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Then to create a container you first have to initialize an instance of a factory
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that will handle the creation and initialization for a container.
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```go
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factory, err := libcontainer.New("/var/lib/container", libcontainer.Cgroupfs, libcontainer.InitArgs(os.Args[0], "init"))
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if err != nil {
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logrus.Fatal(err)
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return
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}
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```
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Once you have an instance of the factory created we can create a configuration
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struct describing how the container is to be created. A sample would look similar to this:
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```go
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defaultMountFlags := syscall.MS_NOEXEC | syscall.MS_NOSUID | syscall.MS_NODEV
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config := &configs.Config{
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Rootfs: "/your/path/to/rootfs",
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Capabilities: []string{
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"CAP_CHOWN",
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"CAP_DAC_OVERRIDE",
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"CAP_FSETID",
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"CAP_FOWNER",
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"CAP_MKNOD",
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"CAP_NET_RAW",
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"CAP_SETGID",
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"CAP_SETUID",
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"CAP_SETFCAP",
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"CAP_SETPCAP",
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"CAP_NET_BIND_SERVICE",
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"CAP_SYS_CHROOT",
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"CAP_KILL",
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"CAP_AUDIT_WRITE",
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},
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Namespaces: configs.Namespaces([]configs.Namespace{
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{Type: configs.NEWNS},
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{Type: configs.NEWUTS},
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{Type: configs.NEWIPC},
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{Type: configs.NEWPID},
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{Type: configs.NEWUSER},
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{Type: configs.NEWNET},
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}),
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Cgroups: &configs.Cgroup{
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Name: "test-container",
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Parent: "system",
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Resources: &configs.Resources{
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MemorySwappiness: nil,
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AllowAllDevices: nil,
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AllowedDevices: configs.DefaultAllowedDevices,
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},
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},
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MaskPaths: []string{
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"/proc/kcore",
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"/sys/firmware",
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},
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ReadonlyPaths: []string{
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"/proc/sys", "/proc/sysrq-trigger", "/proc/irq", "/proc/bus",
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},
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Devices: configs.DefaultAutoCreatedDevices,
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Hostname: "testing",
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Mounts: []*configs.Mount{
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{
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Source: "proc",
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Destination: "/proc",
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Device: "proc",
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Flags: defaultMountFlags,
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},
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{
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Source: "tmpfs",
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Destination: "/dev",
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Device: "tmpfs",
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Flags: syscall.MS_NOSUID | syscall.MS_STRICTATIME,
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Data: "mode=755",
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},
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{
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Source: "devpts",
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Destination: "/dev/pts",
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Device: "devpts",
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Flags: syscall.MS_NOSUID | syscall.MS_NOEXEC,
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Data: "newinstance,ptmxmode=0666,mode=0620,gid=5",
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},
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{
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Device: "tmpfs",
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Source: "shm",
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Destination: "/dev/shm",
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Data: "mode=1777,size=65536k",
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Flags: defaultMountFlags,
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},
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{
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Source: "mqueue",
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Destination: "/dev/mqueue",
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Device: "mqueue",
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Flags: defaultMountFlags,
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},
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{
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Source: "sysfs",
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Destination: "/sys",
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Device: "sysfs",
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Flags: defaultMountFlags | syscall.MS_RDONLY,
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},
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},
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UidMappings: []configs.IDMap{
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{
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ContainerID: 0,
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HostID: 1000,
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Size: 65536,
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},
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},
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GidMappings: []configs.IDMap{
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{
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ContainerID: 0,
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HostID: 1000,
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Size: 65536,
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},
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},
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Networks: []*configs.Network{
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{
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Type: "loopback",
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Address: "127.0.0.1/0",
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Gateway: "localhost",
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},
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},
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Rlimits: []configs.Rlimit{
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{
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Type: syscall.RLIMIT_NOFILE,
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Hard: uint64(1025),
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Soft: uint64(1025),
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},
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},
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}
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```
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Once you have the configuration populated you can create a container:
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```go
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container, err := factory.Create("container-id", config)
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if err != nil {
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logrus.Fatal(err)
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return
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}
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```
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To spawn bash as the initial process inside the container and have the
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processes pid returned in order to wait, signal, or kill the process:
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```go
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process := &libcontainer.Process{
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Args: []string{"/bin/bash"},
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Env: []string{"PATH=/bin"},
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User: "daemon",
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Stdin: os.Stdin,
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Stdout: os.Stdout,
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Stderr: os.Stderr,
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}
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err := container.Run(process)
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if err != nil {
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container.Destroy()
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logrus.Fatal(err)
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return
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}
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// wait for the process to finish.
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_, err := process.Wait()
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if err != nil {
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logrus.Fatal(err)
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}
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// destroy the container.
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container.Destroy()
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```
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Additional ways to interact with a running container are:
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```go
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// return all the pids for all processes running inside the container.
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processes, err := container.Processes()
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// get detailed cpu, memory, io, and network statistics for the container and
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// it's processes.
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stats, err := container.Stats()
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// pause all processes inside the container.
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container.Pause()
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// resume all paused processes.
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container.Resume()
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// send signal to container's init process.
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container.Signal(signal)
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// update container resource constraints.
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container.Set(config)
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// get current status of the container.
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status, err := container.Status()
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// get current container's state information.
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state, err := container.State()
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```
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#### Checkpoint & Restore
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libcontainer now integrates [CRIU](http://criu.org/) for checkpointing and restoring containers.
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This let's you save the state of a process running inside a container to disk, and then restore
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that state into a new process, on the same machine or on another machine.
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`criu` version 1.5.2 or higher is required to use checkpoint and restore.
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If you don't already have `criu` installed, you can build it from source, following the
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[online instructions](http://criu.org/Installation). `criu` is also installed in the docker image
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generated when building libcontainer with docker.
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## Copyright and license
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Code and documentation copyright 2014 Docker, inc. Code released under the Apache 2.0 license.
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Docs released under Creative commons.
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