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moby--moby/pkg/libcontainer
Alexander Larsson 7f7d8419a7 cgroups: Splity out Apply/Cleanup to separate file/interface
This leaves only the generic cgroup helper functions in cgroups.go and
will allow easy implementations of other cgroup managers.

This also wires up the call to Cleanup the cgroup which was missing
before.

Docker-DCO-1.1-Signed-off-by: Alexander Larsson <alexl@redhat.com> (github: alexlarsson)
2014-03-27 21:47:47 +01:00
..
apparmor Fix issue when /etc/apparmor.d does not exists 2014-03-12 11:13:24 -07:00
capabilities refactor(libcontainer): rename to CapabilitiesMask 2014-03-17 11:07:12 -07:00
network Fix issue #4681 - No loopback interface within container when networking is disabled. 2014-03-17 22:01:24 +01:00
nsinit cgroups: Splity out Apply/Cleanup to separate file/interface 2014-03-27 21:47:47 +01:00
utils Refactor and improve libcontainer and driver 2014-02-24 21:11:52 -08:00
container.go refactor(libcontainer): rename to CapabilitiesMask 2014-03-17 11:07:12 -07:00
container.json refactor(libcontainer): rename to CapabilitiesMask 2014-03-17 11:07:12 -07:00
MAINTAINERS Update email + add self to pkg/signal 2014-03-10 20:26:45 -07:00
README.md refactor(libcontainer): rename to CapabilitiesMask 2014-03-17 11:07:12 -07:00
TODO.md Update libcontainer readme and todo list 2014-03-13 15:18:08 -07:00
types.go Add find tests and remove panic in DEBUG 2014-03-04 08:55:12 -08:00
types_linux.go Fix cross compile for make cross 2014-02-25 15:19:13 -08:00
types_test.go chore(libcontainer): small grammar fix in types_test 2014-03-17 11:07:29 -07:00

libcontainer - reference implementation for containers

background

libcontainer specifies configuration options for what a container is. It provides a native Go implementation for using linux namespaces with no external dependencies. libcontainer provides many convience functions for working with namespaces, networking, and management.

container

A container is a self contained directory that is able to run one or more processes without affecting the host system. The directory is usually a full system tree. Inside the directory a container.json file is placed with the runtime configuration for how the processes should be contained and ran. Environment, networking, and different capabilities for the process are specified in this file. The configuration is used for each process executed inside the container.

Sample container.json file:

{
   "hostname" : "koye",
   "networks" : [
      {
         "gateway" : "172.17.42.1",
         "context" : {
            "bridge" : "docker0",
            "prefix" : "veth"
         },
         "address" : "172.17.0.2/16",
         "type" : "veth",
         "mtu" : 1500
      }
   ],
   "cgroups" : {
      "parent" : "docker",
      "name" : "11bb30683fb0bdd57fab4d3a8238877f1e4395a2cfc7320ea359f7a02c1a5620"
   },
   "tty" : true,
   "environment" : [
      "HOME=/",
      "PATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin",
      "HOSTNAME=11bb30683fb0",
      "TERM=xterm"
   ],
   "capabilities_mask" : [
      "SETPCAP",
      "SYS_MODULE",
      "SYS_RAWIO",
      "SYS_PACCT",
      "SYS_ADMIN",
      "SYS_NICE",
      "SYS_RESOURCE",
      "SYS_TIME",
      "SYS_TTY_CONFIG",
      "MKNOD",
      "AUDIT_WRITE",
      "AUDIT_CONTROL",
      "MAC_OVERRIDE",
      "MAC_ADMIN",
      "NET_ADMIN"
   ],
   "context" : {
      "apparmor_profile" : "docker-default"
   },
   "mounts" : [
      {
         "source" : "/var/lib/docker/containers/11bb30683fb0bdd57fab4d3a8238877f1e4395a2cfc7320ea359f7a02c1a5620/resolv.conf",
         "writable" : false,
         "destination" : "/etc/resolv.conf",
         "private" : true
      },
      {
         "source" : "/var/lib/docker/containers/11bb30683fb0bdd57fab4d3a8238877f1e4395a2cfc7320ea359f7a02c1a5620/hostname",
         "writable" : false,
         "destination" : "/etc/hostname",
         "private" : true
      },
      {
         "source" : "/var/lib/docker/containers/11bb30683fb0bdd57fab4d3a8238877f1e4395a2cfc7320ea359f7a02c1a5620/hosts",
         "writable" : false,
         "destination" : "/etc/hosts",
         "private" : true
      }
   ],
   "namespaces" : [
      "NEWNS",
      "NEWUTS",
      "NEWIPC",
      "NEWPID",
      "NEWNET"
   ]
}

Using this configuration and the current directory holding the rootfs for a process, one can use libcontainer to exec the container. Running the life of the namespace, a pid file is written to the current directory with the pid of the namespaced process to the external world. A client can use this pid to wait, kill, or perform other operation with the container. If a user tries to run an new process inside an existing container with a live namespace the namespace will be joined by the new process.

You may also specify an alternate root place where the container.json file is read and where the pid file will be saved.

nsinit

nsinit is a cli application used as the reference implementation of libcontainer. It is able to spawn or join new containers giving the current directory. To use nsinit cd into a linux rootfs and copy a container.json file into the directory with your specified configuration.

To execute /bin/bash in the current directory as a container just run:

nsinit exec /bin/bash

If you wish to spawn another process inside the container while your current bash session is running just run the exact same command again to get another bash shell or change the command. If the original process dies, PID 1, all other processes spawned inside the container will also be killed and the namespace will be removed.

You can identify if a process is running in a container by looking to see if pid is in the root of the directory.