Before installing Cilium, please ensure that your system meets the minimum requirements below. Most modern Linux distributions already do.
When running Cilium using the container image
cilium/cilium, the host
system must meet these requirements:
- Linux kernel >= 4.9.17
When running Cilium as a native process on your host (i.e. not running the
cilium/cilium container image) these additional requirements must be met:
When running Cilium without Kubernetes these additional requirements must be met:
- Key-Value store etcd >= 3.1.0 or consul >= 0.6.4
|Requirement||Minimum Version||In cilium container|
|Linux kernel||>= 4.9.17||no|
|Key-Value store (etcd)||>= 3.1.0||no|
|Key-Value store (consul)||>= 0.6.4||no|
|iproute2||>= 5.0.0 ||yes|
|||(1, 2) Requires support for eBPF templating as documented below.|
cilium kernel-check can be invoked as a Kubernetes Job
in order to check whether the machine provides the relevant eBPF capabilities:
kubectl apply -f https://raw.githubusercontent.com/cilium/cilium/v1.9/examples/kubernetes/kernel-check/kernel-check.yaml
Linux Distribution Compatibility Matrix¶
The following table lists Linux distributions that are known to work well with Cilium.
|Amazon Linux 2||all|
|CentOS||>= 7.0 |
|CoreOS||stable (>= 1298.5.0)|
|Debian||>= 9 Stretch|
|Fedora Atomic/Core||>= 25|
|RedHat Enterprise Linux||>= 8.0|
|Ubuntu||>= 16.04.2, >= 16.10|
|Opensuse||Tumbleweed, >=Leap 15.0|
|||CentOS 7 requires a third-party kernel provided by ElRepo whereas CentOS 8 ships with a supported kernel.|
The above list is based on feedback by users. If you find an unlisted Linux distribution that works well, please let us know by opening a GitHub issue or by creating a pull request that updates this guide.
Systemd 245 and above (
systemctl --version) overrides
of Cilium network interfaces. This introduces connectivity issues (see
GH-10645 for details). To
avoid that, configure
rp_filter in systemd using the following commands:
echo 'net.ipv4.conf.lxc*.rp_filter = 0' > /etc/sysctl.d/99-override_cilium_rp_filter.conf systemctl restart systemd-sysctl
Cilium leverages and builds on the kernel eBPF functionality as well as various subsystems which integrate with eBPF. Therefore, host systems are required to run Linux kernel version 4.9.17 or later to run a Cilium agent. More recent kernels may provide additional eBPF functionality that Cilium will automatically detect and use on agent start.
In order for the eBPF feature to be enabled properly, the following kernel configuration options must be enabled. This is typically the case with distribution kernels. When an option can be built as a module or statically linked, either choice is valid.
CONFIG_BPF=y CONFIG_BPF_SYSCALL=y CONFIG_NET_CLS_BPF=y CONFIG_BPF_JIT=y CONFIG_NET_CLS_ACT=y CONFIG_NET_SCH_INGRESS=y CONFIG_CRYPTO_SHA1=y CONFIG_CRYPTO_USER_API_HASH=y
Users running Linux 4.10 or earlier with Cilium CIDR policies may face Restrictions on unique prefix lengths for CIDR policy rules.
L7 proxy redirection currently uses
TPROXY iptables actions as well
socket matches. For L7 redirection to work as intended kernel
configuration must include the following modules:
CONFIG_NETFILTER_XT_TARGET_TPROXY=m CONFIG_NETFILTER_XT_MATCH_MARK=m CONFIG_NETFILTER_XT_MATCH_SOCKET=m
xt_socket kernel module is missing the forwarding of
redirected L7 traffic does not work in non-tunneled datapath
modes. Since some notable kernels (e.g., COS) are shipping without
xt_socket module, Cilium implements a fallback compatibility mode
to allow L7 policies and visibility to be used with those
kernels. Currently this fallback disables
feature in non-tunneled datapath modes, which may decrease system
networking performance. This guarantees HTTP and Kafka redirection
works as intended. However, if HTTP or Kafka enforcement policies or
visibility annotations are never used, this behavior can be turned off
by adding the following to the helm configuration command line:
helm install cilium cilium/cilium --version 1.9.0 \ ... --set enableXTSocketFallback=false
Required Kernel Versions for Advanced Features¶
Cilium requires Linux kernel 4.9.17 or higher; however, development on additional kernel features continues to progress in the Linux community. Some of Cilium’s features are dependent on newer kernel versions and are thus enabled by upgrading to more recent kernel versions as detailed below.
|Cilium Feature||Minimum Kernel Version|
|IPv4 fragment handling||>= 4.10|
|Restrictions on unique prefix lengths for CIDR policy rules||>= 4.11|
|Host-Reachable Services||>= 4.19.57, >= 5.1.16, >= 5.2|
|Kubernetes Without kube-proxy||>= 4.19.57, >= 5.1.16, >= 5.2|
|Bandwidth Manager (beta)||>= 5.1|
|Local Redirect Policy (beta)||>= 4.19.57, >= 5.1.16, >= 5.2|
|Full support for Session Affinity||>= 5.7|
|BPF-based proxy redirection||>= 5.7|
Cilium optionally uses a distributed Key-Value store to manage, synchronize and distribute security identities across all cluster nodes. The following Key-Value stores are currently supported:
- etcd >= 3.1.0
- consul >= 0.6.4
Cilium can be used without a Key-Value store when CRD-based state management is used with Kubernetes. This is the default for new Cilium installations. Larger clusters will perform better with a Key-Value store backed identity management instead, see Quick Installation for more details.
See Key-Value Store for details on how to configure the
cilium-agent to use a Key-Value store.
This requirement is only needed if you run
If you are using the Cilium container image
clang+LLVM is included in the container image.
LLVM is the compiler suite that Cilium uses to generate eBPF bytecode programs
to be loaded into the Linux kernel. The minimum supported version of LLVM
cilium-agent should be >=5.0. The version of clang installed
must be compiled with the eBPF backend enabled.
See https://releases.llvm.org/ for information on how to download and install LLVM.
iproute2 is only needed if you run
cilium-agent directly on the
host machine. iproute2 is included in the
iproute2 is a low level tool used to configure various networking related
subsystems of the Linux kernel. Cilium uses iproute2 to configure networking
tc, which is part of iproute2, to load eBPF programs into the kernel.
The version of iproute2 must include the eBPF templating patches. See the links in the table below for documentation on how to install the correct version of iproute2 for your distribution.
|Binary (OpenSUSE)||Open Build Service|
|Source||Cilium iproute2 source|
If you are running Cilium in an environment that requires firewall rules to enable connectivity, you will have to add the following rules to ensure Cilium works properly.
It is recommended but optional that all nodes running Cilium in a given cluster must be able to ping each other so
cilium-health can report and monitor connectivity among nodes. This requires ICMP Type 0/8, Code 0 open among all nodes. TCP 4240 should also be open among all nodes for
cilium-health monitoring. Note that it is also an option to only use one of these two methods to enable health monitoring. If the firewall does not permit either of these methods, Cilium will still operate fine but will not be able to provide health information.
If you are using VXLAN overlay network mode, Cilium uses Linux’s default VXLAN port 8472 over UDP, unless Linux has been configured otherwise. In this case, UDP 8472 must be open among all nodes to enable VXLAN overlay mode. The same applies to Geneve overlay network mode, except the port is UDP 6081.
If you are running in direct routing mode, your network must allow routing of pod IPs.
As an example, if you are running on AWS with VXLAN overlay networking, here is a minimum set of AWS Security Group (SG) rules. It assumes a separation between the SG on the master nodes,
master-sg, and the worker nodes,
worker-sg. It also assumes
etcd is running on the master nodes.
Master Nodes (
|Port Range / Protocol||Ingress/Egress||Source/Destination||Description|
Worker Nodes (
|Port Range / Protocol||Ingress/Egress||Source/Destination||Description|
If you use a shared SG for the masters and workers, you can condense these rules into ingress/egress to self. If you are using Direct Routing mode, you can condense all rules into ingress/egress ANY port/protocol to/from self.
The following ports should also be available on each node:
|Port Range / Protocol||Description|
|4240/tcp||cluster health checks (
|6942/tcp||operator Prometheus metrics|
|9090/tcp||cilium-agent Prometheus metrics|
|9876/tcp||cilium-agent health status API|
Mounted eBPF filesystem¶
Some distributions mount the bpf filesystem automatically. Check if the bpf filesystem is mounted by running the command.
mount | grep /sys/fs/bpf # if present should output, e.g. "none on /sys/fs/bpf type bpf"...
This step is required for production environments but optional for testing
and development. It allows the
cilium-agent to pin eBPF resources to a
persistent filesystem and make them persistent across restarts of the agent.
If the eBPF filesystem is not mounted in the host filesystem, Cilium will
automatically mount the filesystem but it will be unmounted and re-mounted when
the Cilium pod is restarted. This in turn will cause eBPF resources to be
re-created which will cause network connectivity to be disrupted while Cilium
is not running. Mounting the eBPF filesystem in the host mount namespace will
ensure that the agent can be restarted without affecting connectivity of any
In order to mount the eBPF filesystem, the following command must be run in the host mount namespace. The command must only be run once during the boot process of the machine.
mount bpffs /sys/fs/bpf -t bpf
A portable way to achieve this with persistence is to add the following line to
/etc/fstab and then run
mount /sys/fs/bpf. This will cause the
filesystem to be automatically mounted when the node boots.
bpffs /sys/fs/bpf bpf defaults 0 0
If you are using systemd to manage the kubelet, see the section Mounting BPFFS with systemd.
The following privileges are required to run Cilium. When running the standard
DaemonSet, the privileges are automatically granted to Cilium.
Cilium interacts with the Linux kernel to install eBPF program which will then perform networking tasks and implement security rules. In order to install eBPF programs system-wide,
CAP_SYS_ADMINprivileges are required. These privileges must be granted to
The quickest way to meet the requirement is to run
cilium-agentas root and/or as privileged container.
Cilium requires access to the host networking namespace. For this purpose, the Cilium pod is scheduled to run in the host networking namespace directly.