You need to install a container runtime into each node in the cluster so that Pods can run there. This page outlines what is involved and describes related tasks for setting up nodes.
This page lists details for using several common container runtimes with Kubernetes, on Linux:
Control groups are used to constrain resources that are allocated to processes.
When systemd is chosen as the init system for a Linux distribution, the init process generates and consumes a root control group (cgroup
) and acts as a cgroup manager. Systemd has a tight integration with cgroups and allocates a cgroup per systemd unit. It's possible to configure your container runtime and the kubelet to use cgroupfs
. Using cgroupfs
alongside systemd means that there will be two different cgroup managers.
A single cgroup manager simplifies the view of what resources are being allocated and will by default have a more consistent view of the available and in-use resources. When there are two cgroup managers on a system, you end up with two views of those resources. In the field, people have reported cases where nodes that are configured to use cgroupfs
for the kubelet and Docker, but systemd
for the rest of the processes, become unstable under resource pressure.
Changing the settings such that your container runtime and kubelet use systemd
as the cgroup driver stabilized the system. To configure this for Docker, set native.cgroupdriver=systemd
.
Changing the cgroup driver of a Node that has joined a cluster is a sensitive operation. If the kubelet has created Pods using the semantics of one cgroup driver, changing the container runtime to another cgroup driver can cause errors when trying to re-create the Pod sandbox for such existing Pods. Restarting the kubelet may not solve such errors.
If you have automation that makes it feasible, replace the node with another using the updated configuration, or reinstall it using automation.
Cgroup v2 is the next version of the cgroup Linux API. Differently than cgroup v1, there is a single hierarchy instead of a different one for each controller.
The new version offers several improvements over cgroup v1, some of these improvements are:
Even if the kernel supports a hybrid configuration where some controllers are managed by cgroup v1 and some others by cgroup v2, Kubernetes supports only the same cgroup version to manage all the controllers.
If systemd doesn't use cgroup v2 by default, you can configure the system to use it by adding systemd.unified_cgroup_hierarchy=1
to the kernel command line.
# dnf install -y grubby && \ sudo grubby \ --update-kernel=ALL \ --args="systemd.unified_cgroup_hierarchy=1"
To apply the configuration, it is necessary to reboot the node.
There should not be any noticeable difference in the user experience when switching to cgroup v2, unless users are accessing the cgroup file system directly, either on the node or from within the containers.
In order to use it, cgroup v2 must be supported by the CRI runtime as well.
systemd
driver in kubeadm managed clustersFollow this Migration guide if you wish to migrate to the systemd
cgroup driver in existing kubeadm managed clusters.
This section contains the necessary steps to use containerd as CRI runtime.
Use the following commands to install Containerd on your system:
Install and configure prerequisites:
cat <<EOF | sudo tee /etc/modules-load.d/containerd.conf overlay br_netfilter EOF sudo modprobe overlay sudo modprobe br_netfilter # Setup required sysctl params, these persist across reboots. cat <<EOF | sudo tee /etc/sysctl.d/99-kubernetes-cri.conf net.bridge.bridge-nf-call-iptables = 1 net.ipv4.ip_forward = 1 net.bridge.bridge-nf-call-ip6tables = 1 EOF # Apply sysctl params without reboot sudo sysctl --system
Install containerd:
Install the containerd.io
package from the official Docker repositories. Instructions for setting up the Docker repository for your respective Linux distribution and installing the containerd.io
package can be found at Install Docker Engine.
Configure containerd:
sudo mkdir -p /etc/containerd containerd config default | sudo tee /etc/containerd/config.toml
Restart containerd:
sudo systemctl restart containerd
Start a Powershell session, set $Version
to the desired version (ex: $Version=1.4.3
), and then run the following commands:
Download containerd:
curl.exe -L https://github.com/containerd/containerd/releases/download/v$Version/containerd-$Version-windows-amd64.tar.gz -o containerd-windows-amd64.tar.gz tar.exe xvf .\containerd-windows-amd64.tar.gz
Extract and configure:
Copy-Item -Path ".\bin\" -Destination "$Env:ProgramFiles\containerd" -Recurse -Force cd $Env:ProgramFiles\containerd\ .\containerd.exe config default | Out-File config.toml -Encoding ascii # Review the configuration. Depending on setup you may want to adjust: # - the sandbox_image (Kubernetes pause image) # - cni bin_dir and conf_dir locations Get-Content config.toml # (Optional - but highly recommended) Exclude containerd from Windows Defender Scans Add-MpPreference -ExclusionProcess "$Env:ProgramFiles\containerd\containerd.exe"
Start containerd:
.\containerd.exe --register-service Start-Service containerd
systemd
cgroup driverTo use the systemd
cgroup driver in /etc/containerd/config.toml
with runc
, set
[plugins."io.containerd.grpc.v1.cri".containerd.runtimes.runc]
...
[plugins."io.containerd.grpc.v1.cri".containerd.runtimes.runc.options]
SystemdCgroup = true
If you apply this change make sure to restart containerd again:
sudo systemctl restart containerd
When using kubeadm, manually configure the cgroup driver for kubelet.
This section contains the necessary steps to install CRI-O as a container runtime.
Use the following commands to install CRI-O on your system:
Install and configure prerequisites:
# Create the .conf file to load the modules at bootup cat <<EOF | sudo tee /etc/modules-load.d/crio.conf overlay br_netfilter EOF sudo modprobe overlay sudo modprobe br_netfilter # Set up required sysctl params, these persist across reboots. cat <<EOF | sudo tee /etc/sysctl.d/99-kubernetes-cri.conf net.bridge.bridge-nf-call-iptables = 1 net.ipv4.ip_forward = 1 net.bridge.bridge-nf-call-ip6tables = 1 EOF sudo sysctl --system
To install CRI-O on the following operating systems, set the environment variable OS
to the appropriate value from the following table:
Operating system | $OS |
---|---|
Debian Unstable | Debian_Unstable |
Debian Testing | Debian_Testing |
Then, set $VERSION
to the CRI-O version that matches your Kubernetes version. For instance, if you want to install CRI-O 1.20, set VERSION=1.20
. You can pin your installation to a specific release. To install version 1.20.0, set VERSION=1.20:1.20.0
.
Then run
cat <<EOF | sudo tee /etc/apt/sources.list.d/devel:kubic:libcontainers:stable.list deb https://download.opensuse.org/repositories/devel:/kubic:/libcontainers:/stable/$OS/ / EOF cat <<EOF | sudo tee /etc/apt/sources.list.d/devel:kubic:libcontainers:stable:cri-o:$VERSION.list deb http://download.opensuse.org/repositories/devel:/kubic:/libcontainers:/stable:/cri-o:/$VERSION/$OS/ / EOF curl -L https://download.opensuse.org/repositories/devel:kubic:libcontainers:stable:cri-o:$VERSION/$OS/Release.key | sudo apt-key --keyring /etc/apt/trusted.gpg.d/libcontainers.gpg add - curl -L https://download.opensuse.org/repositories/devel:/kubic:/libcontainers:/stable/$OS/Release.key | sudo apt-key --keyring /etc/apt/trusted.gpg.d/libcontainers.gpg add - sudo apt-get update sudo apt-get install cri-o cri-o-runc
To install on the following operating systems, set the environment variable OS
to the appropriate field in the following table:
Operating system | $OS |
---|---|
Ubuntu 20.04 | xUbuntu_20.04 |
Ubuntu 19.10 | xUbuntu_19.10 |
Ubuntu 19.04 | xUbuntu_19.04 |
Ubuntu 18.04 | xUbuntu_18.04 |
Then, set $VERSION
to the CRI-O version that matches your Kubernetes version. For instance, if you want to install CRI-O 1.20, set VERSION=1.20
. You can pin your installation to a specific release. To install version 1.20.0, set VERSION=1.20:1.20.0
.
Then run
cat <<EOF | sudo tee /etc/apt/sources.list.d/devel:kubic:libcontainers:stable.list deb https://download.opensuse.org/repositories/devel:/kubic:/libcontainers:/stable/$OS/ / EOF cat <<EOF | sudo tee /etc/apt/sources.list.d/devel:kubic:libcontainers:stable:cri-o:$VERSION.list deb http://download.opensuse.org/repositories/devel:/kubic:/libcontainers:/stable:/cri-o:/$VERSION/$OS/ / EOF curl -L https://download.opensuse.org/repositories/devel:/kubic:/libcontainers:/stable/$OS/Release.key | sudo apt-key --keyring /etc/apt/trusted.gpg.d/libcontainers.gpg add - curl -L https://download.opensuse.org/repositories/devel:kubic:libcontainers:stable:cri-o:$VERSION/$OS/Release.key | sudo apt-key --keyring /etc/apt/trusted.gpg.d/libcontainers-cri-o.gpg add - sudo apt-get update sudo apt-get install cri-o cri-o-runc
To install on the following operating systems, set the environment variable OS
to the appropriate field in the following table:
Operating system | $OS |
---|---|
Centos 8 | CentOS_8 |
Centos 8 Stream | CentOS_8_Stream |
Centos 7 | CentOS_7 |
Then, set $VERSION
to the CRI-O version that matches your Kubernetes version. For instance, if you want to install CRI-O 1.20, set VERSION=1.20
. You can pin your installation to a specific release. To install version 1.20.0, set VERSION=1.20:1.20.0
.
Then run
sudo curl -L -o /etc/yum.repos.d/devel:kubic:libcontainers:stable.repo https://download.opensuse.org/repositories/devel:/kubic:/libcontainers:/stable/$OS/devel:kubic:libcontainers:stable.repo sudo curl -L -o /etc/yum.repos.d/devel:kubic:libcontainers:stable:cri-o:$VERSION.repo https://download.opensuse.org/repositories/devel:kubic:libcontainers:stable:cri-o:$VERSION/$OS/devel:kubic:libcontainers:stable:cri-o:$VERSION.repo sudo yum install cri-o
sudo zypper install cri-o
Set $VERSION
to the CRI-O version that matches your Kubernetes version. For instance, if you want to install CRI-O 1.20, VERSION=1.20
.
You can find available versions with:
sudo dnf module list cri-o
CRI-O does not support pinning to specific releases on Fedora.
Then run
sudo dnf module enable cri-o:$VERSION sudo dnf install cri-o
Start CRI-O:
sudo systemctl daemon-reload sudo systemctl enable crio --now
Refer to the CRI-O installation guide for more information.
CRI-O uses the systemd cgroup driver per default. To switch to the cgroupfs
cgroup driver, either edit /etc/crio/crio.conf
or place a drop-in configuration in /etc/crio/crio.conf.d/02-cgroup-manager.conf
, for example:
[crio.runtime] conmon_cgroup = "pod" cgroup_manager = "cgroupfs"
Please also note the changed conmon_cgroup
, which has to be set to the value pod
when using CRI-O with cgroupfs
. It is generally necessary to keep the cgroup driver configuration of the kubelet (usually done via kubeadm) and CRI-O in sync.
On each of your nodes, install the Docker for your Linux distribution as per Install Docker Engine. You can find the latest validated version of Docker in this dependencies file.
Configure the Docker daemon, in particular to use systemd for the management of the container’s cgroups.
sudo mkdir /etc/docker cat <<EOF | sudo tee /etc/docker/daemon.json { "exec-opts": ["native.cgroupdriver=systemd"], "log-driver": "json-file", "log-opts": { "max-size": "100m" }, "storage-driver": "overlay2" } EOF
overlay2
is the preferred storage driver for systems running Linux kernel version 4.0 or higher, or RHEL or CentOS using version 3.10.0-514 and above. Restart Docker and enable on boot:
sudo systemctl enable docker sudo systemctl daemon-reload sudo systemctl restart docker
For more information refer to
© 2022 The Kubernetes Authors
Documentation Distributed under CC BY 4.0.
https://kubernetes.io/docs/setup/production-environment/container-runtimes