containerd is an industry-standard container runtime with an emphasis on simplicity, robustness and portability. It is available as a daemon for Linux and Windows, which can manage the complete container lifecycle of its host system: image transfer and storage, container execution and supervision, low-level storage and network attachments, etc.
containerd is designed to be embedded into a larger system, rather than being used directly by developers or end-users.
See our documentation on containerd.io:
See how to build containerd from source at BUILDING.
If you are interested in trying out containerd see our example at Getting Started.
Runtime requirements for containerd are very minimal. Most interactions with
the Linux and Windows container feature sets are handled via runc and/or
OS-specific libraries (e.g. hcsshim for Microsoft). The current required version of runc
is always listed in RUNC.md.
There are specific features used by containerd core code and snapshotters that will require a minimum kernel version on Linux. With the understood caveat of distro kernel versioning, a reasonable starting point for Linux is a minimum 4.x kernel version.
The overlay filesystem snapshotter, used by default, uses features that were finalized in the 4.x kernel series. If you choose to use btrfs, there may be more flexibility in kernel version (minimum recommended is 3.18), but will require the btrfs kernel module and btrfs tools to be installed on your Linux distribution.
To use Linux checkpoint and restore features, you will need criu
installed on
your system. See more details in Checkpoint and Restore.
Build requirements for developers are listed in BUILDING.
containerd offers a full client package to help you integrate containerd into your platform.
import (
"github.com/containerd/containerd"
"github.com/containerd/containerd/cio"
)
func main() {
client, err := containerd.New("/run/containerd/containerd.sock")
defer client.Close()
}
Namespaces allow multiple consumers to use the same containerd without conflicting with each other. It has the benefit of sharing content but still having separation with containers and images.
To set a namespace for requests to the API:
context = context.Background()
// create a context for docker
docker = namespaces.WithNamespace(context, "docker")
containerd, err := client.NewContainer(docker, "id")
To set a default namespace on the client:
client, err := containerd.New(address, containerd.WithDefaultNamespace("docker"))
// pull an image
image, err := client.Pull(context, "docker.io/library/redis:latest")
// push an image
err := client.Push(context, "docker.io/library/redis:latest", image.Target())
In containerd, a container is a metadata object. Resources such as an OCI runtime specification, image, root filesystem, and other metadata can be attached to a container.
redis, err := client.NewContainer(context, "redis-master")
defer redis.Delete(context)
containerd fully supports the OCI runtime specification for running containers. We have built in functions to help you generate runtime specifications based on images as well as custom parameters.
You can specify options when creating a container about how to modify the specification.
redis, err := client.NewContainer(context, "redis-master", containerd.WithNewSpec(oci.WithImageConfig(image)))
containerd allows you to use overlay or snapshot filesystems with your containers. It comes with builtin support for overlayfs and btrfs.
// pull an image and unpack it into the configured snapshotter
image, err := client.Pull(context, "docker.io/library/redis:latest", containerd.WithPullUnpack)
// allocate a new RW root filesystem for a container based on the image
redis, err := client.NewContainer(context, "redis-master",
containerd.WithNewSnapshot("redis-rootfs", image),
containerd.WithNewSpec(oci.WithImageConfig(image)),
)
// use a readonly filesystem with multiple containers
for i := 0; i < 10; i++ {
id := fmt.Sprintf("id-%s", i)
container, err := client.NewContainer(ctx, id,
containerd.WithNewSnapshotView(id, image),
containerd.WithNewSpec(oci.WithImageConfig(image)),
)
}
Taking a container object and turning it into a runnable process on a system is done by creating a new Task
from the container. A task represents the runnable object within containerd.
// create a new task
task, err := redis.NewTask(context, cio.Stdio)
defer task.Delete(context)
// the task is now running and has a pid that can be use to setup networking
// or other runtime settings outside of containerd
pid := task.Pid()
// start the redis-server process inside the container
err := task.Start(context)
// wait for the task to exit and get the exit status
status, err := task.Wait(context)
If you have criu installed on your machine you can checkpoint and restore containers and their tasks. This allow you to clone and/or live migrate containers to other machines.
// checkpoint the task then push it to a registry
checkpoint, err := task.Checkpoint(context)
err := client.Push(context, "myregistry/checkpoints/redis:master", checkpoint)
// on a new machine pull the checkpoint and restore the redis container
checkpoint, err := client.Pull(context, "myregistry/checkpoints/redis:master")
redis, err = client.NewContainer(context, "redis-master", containerd.WithNewSnapshot("redis-rootfs", checkpoint))
defer container.Delete(context)
task, err = redis.NewTask(context, cio.Stdio, containerd.WithTaskCheckpoint(checkpoint))
defer task.Delete(context)
err := task.Start(context)
In addition to the built-in Snapshot plugins in containerd, additional external plugins can be configured using GRPC. An external plugin is made available using the configured name and appears as a plugin alongside the built-in ones.
To add an external snapshot plugin, add the plugin to containerd's config file
(by default at /etc/containerd/config.toml
). The string following
proxy_plugin.
will be used as the name of the snapshotter and the address
should refer to a socket with a GRPC listener serving containerd's Snapshot
GRPC API. Remember to restart containerd for any configuration changes to take
effect.
[proxy_plugins]
[proxy_plugins.customsnapshot]
type = "snapshot"
address = "/var/run/mysnapshotter.sock"
See PLUGINS.md for how to create plugins
Please see RELEASES.md for details on versioning and stability of containerd components.
Downloadable 64-bit Intel/AMD binaries of all official releases are available on our releases page, as well as auto-published to the cri-containerd-release storage bucket.
For other architectures and distribution support, you will find that many Linux distributions package their own containerd and provide it across several architectures, such as Canonical's Ubuntu packaging.
Starting with containerd 1.4, the urfave client feature for auto-creation of bash
autocompletion data is enabled. To use the autocomplete feature in your shell, source
the autocomplete/bash_autocomplete file in your .bashrc file while setting the PROG
variable to ctr
:
$ PROG=ctr source vendor/github.com/urfave/cli/autocomplete/bash_autocomplete
Copy vendor/github.com/urfave/cli/autocomplete/bash_autocomplete
into
/etc/bash_completion.d/
and rename it to ctr
.
Provide documentation to users to source
this file into their shell if
you don't place the autocomplete file in a location where it is automatically
loaded for user's bash shell environment.
For async communication and long running discussions please use issues and pull requests on the github repo. This will be the best place to discuss design and implementation.
For sync communication we have a community slack with a #containerd channel that everyone is welcome to join and chat about development.
Slack: Catch us in the #containerd and #containerd-dev channels on dockercommunity.slack.com. Click here for an invite to docker community slack.
A third party security audit was performed by Cure53 in 4Q2018; the full report is available in our docs/ directory.
If you are reporting a security issue, please reach out discreetly at [email protected].
The containerd codebase is released under the Apache 2.0 license. The README.md file, and files in the "docs" folder are licensed under the Creative Commons Attribution 4.0 International License. You may obtain a copy of the license, titled CC-BY-4.0, at http://creativecommons.org/licenses/by/4.0/.
containerd is the primary open source project within the broader containerd GitHub repository.
However, all projects within the repo have common maintainership, governance, and contributing
guidelines which are stored in a project
repository commonly for all containerd projects.
Please find all these core project documents, including the:
information in our containerd/project
repository.
Interested to see who is using containerd? Are you using containerd in a project? Please add yourself via pull request to our ADOPTERS.md file.