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Antrea Architecture

Antrea is designed to be Kubernetes-centric and Kubernetes-native. It focuses on and is optimized for networking and security of a Kubernetes cluster. Its implementation leverages Kubernetes and Kubernetes native solutions as much as possible.

Antrea leverages Open vSwitch as the networking data plane. Open vSwitch is a high-performance programmable virtual switch that supports both Linux and Windows. Open vSwitch enables Antrea to implement Kubernetes Network Policies in a high-performance and efficient manner. Thanks to the "programmable" characteristic of Open vSwitch, Antrea is able to implement an extensive set of networking and security features and services on top of Open vSwitch.

Some information in this document and in particular when it comes to the Antrea Agent is specific to running Antrea on Linux Nodes. For information about how Antrea is run on Windows Nodes, please refer to the Windows design document.

Components

In a Kubernetes cluster, Antrea creates a Deployment that runs Antrea Controller, and a DaemonSet that includes two containers to run Antrea Agent and OVS daemons respectively, on every Node. The DaemonSet also includes an init container that installs the CNI plugin - antrea-cni - on the Node and ensures that the OVS kernel module is loaded and it is chained with the portmap and bandwidth CNI plugins. All Antrea Controller, Agent, OVS daemons, and antrea-cni bits are included in a single Docker image. Antrea also has a command-line tool called antctl.

Antrea Architecture Overview

Antrea Controller

Antrea Controller watches NetworkPolicy, Pod, and Namespace resources from the Kubernetes API, computes NetworkPolicies and distributes the computed policies to all Antrea Agents. Right now Antrea Controller supports only a single replica. At the moment, Antrea Controller mainly exists for NetworkPolicy implementation. If you only care about connectivity between Pods but not NetworkPolicy support, you may choose not to deploy Antrea Controller at all. However, in the future, Antrea might support more features that require Antrea Controller.

Antrea Controller leverages the Kubernetes apiserver library to implement the communication channel to Antrea Agents. Each Antrea Agent connects to the Controller API server and watches the computed NetworkPolicy objects. Controller also exposes a REST API for antctl on the same HTTP endpoint. See more information about the Controller API server implementation in the Controller API server section.

Controller API server

Antrea Controller leverages the Kubernetes apiserver library to implement its own API server. The API server implementation is customized and optimized for publishing the computed NetworkPolicies to Agents:

  • The API server keeps all the state in in-memory caches and does not require a datastore to persist the data.
  • It sends the NetworkPolicy objects to only those Nodes that need to apply the NetworkPolicies locally. A Node receives a NetworkPolicy if and only if the NetworkPolicy is applied to at least one Pod on the Node.
  • It supports sending incremental updates to the NetworkPolicy objects to Agents.
  • Messages between Controller and Agent are serialized using the Protobuf format for reduced size and higher efficiency.

The Antrea Controller API server also leverages Kubernetes Service for:

  • Service discovery
  • Authentication and authorization

The Controller API endpoint is exposed through a Kubernetes ClusterIP type Service. Antrea Agent gets the Service's ClusterIP from the Service environment variable and connects to the Controller API server using the ClusterIP. The Controller API server delegates authentication and authorization to the Kubernetes API - the Antrea Agent uses a Kubernetes ServiceAccount token to authenticate to the Controller, and the Controller API server validates the token and whether the ServiceAccount is authorized for the API request with the Kubernetes API.

Antrea Controller also exposes a REST API for antctl using the API server HTTP endpoint. It leverages Kubernetes API aggregation to enable antctl to reach the Antrea Controller API through the Kubernetes API - antctl connects and authenticates to the Kubernetes API, which will proxy the antctl API requests to the Antrea Controller. In this way, antctl can be executed on any machine that can reach the Kubernetes API, and it can also leverage the kubectl configuration (kubeconfig file) to discover the Kubernetes API and authentication information. See also the antctl section.

Antrea Agent

Antrea Agent manages the OVS bridge and Pod interfaces and implements Pod networking with OVS on every Kubernetes Node.

Antrea Agent exposes a gRPC service (Cni service) which is invoked by the antrea-cni binary to perform CNI operations. For each new Pod to be created on the Node, after getting the CNI ADD call from antrea-cni, the Agent creates the Pod's network interface, allocates an IP address, connects the interface to the OVS bridge and installs the necessary flows in OVS. To learn more about the OVS flows check out the OVS pipeline doc.

Antrea Agent includes two Kubernetes controllers:

  • The Node controller watches the Kubernetes API server for new Nodes, and creates an OVS (Geneve / VXLAN / GRE / STT) tunnel to each remote Node.
  • The NetworkPolicy controller watches the computed NetworkPolicies from the Antrea Controller API, and installs OVS flows to implement the NetworkPolicies for the local Pods.

Antrea Agent also exposes a REST API on a local HTTP endpoint for antctl.

OVS daemons

The two OVS daemons - ovsdb-server and ovs-vswitchd run in a separate container, called antrea-ovs, of the Antrea Agent DaemonSet.

antrea-cni

antrea-cni is the CNI plugin binary of Antrea. It is executed by kubelet for each CNI command. It is a simple gRPC client which issues an RPC to Antrea Agent for each CNI command. The Agent performs the actual work (sets up networking for the Pod) and returns the result or an error to antrea-cni.

antctl

antctl is a command-line tool for Antrea. At the moment, it can show basic runtime information for both Antrea Controller and Antrea Agent, for debugging purposes.

When accessing the Controller, antctl invokes the Controller API to query the required information. As described earlier, antctl can reach the Controller API through the Kubernetes API, and have the Kubernetes API authenticate, authorize, and proxy the API requests to the Controller. antctl can be executed through kubectl as a kubectl plugin as well.

When accessing the Agent, antctl connects to the Agent's local REST endpoint, and can only be executed locally in the Agent's container.

Antrea web UI

Antrea also comes with a web UI, which can show the Controller and Agent's health and basic runtime information. The UI gets the Controller and Agent's information from the AntreaControllerInfo and AntreaAgentInfo CRDs (Custom Resource Definition) in the Kubernetes API. The CRDs are created by the Antrea Controller and each Antrea Agent to populate their health and runtime information.

The Antrea web UI provides additional capabilities. Please refer to the Antrea UI repository for more information.

Pod Networking

Pod interface configuration and IPAM

On every Node, Antrea Agent creates an OVS bridge (named br-int by default), and creates a veth pair for each Pod, with one end being in the Pod's network namespace and the other connected to the OVS bridge. On the OVS bridge, Antrea Agent also creates an internal port - antrea-gw0 by default - to be the gateway of the Node's subnet, and a tunnel port antrea-tun0 which is for creating overlay tunnels to other Nodes.

Antrea Node Network

By default, Antrea leverages Kubernetes' NodeIPAMController to allocate a single subnet for each Kubernetes Node, and Antrea Agent on a Node allocates an IP for each Pod on the Node from the Node's subnet. NodeIPAMController sets the podCIDR field of the Kubernetes Node spec to the allocated subnet. Antrea Agent retrieves the subnets of Nodes from the podCIDR field. It reserves the first IP of the local Node's subnet to be the gateway IP and assigns it to the antrea-gw0 port, and invokes the host-local IPAM plugin to allocate IPs from the subnet to all Pods. A local Pod is assigned an IP when the CNI ADD command is received for that Pod.

NodeIPAMController can run in kube-controller-manager context, or within the context of Antrea Controller.

For every remote Node, Antrea Agent adds an OVS flow to send the traffic to that Node through the appropriate tunnel. The flow matches the packets' destination IP against each Node's subnet.

In addition to Kubernetes NodeIPAM, Antrea also implements its own IPAM feature, which can allocate IPs for Pods from user-defined IP pools. For more information, please refer to the Antrea IPAM documentation.

Traffic walk

Antrea Traffic Walk

  • Intra-node traffic Packets between two local Pods will be forwarded by the OVS bridge directly.

  • Inter-node traffic Packets to a Pod on another Node will be first forwarded to the antrea-tun0 port, encapsulated, and sent to the destination Node through the tunnel; then they will be decapsulated, injected through the antrea-tun0 port to the OVS bridge, and finally forwarded to the destination Pod.

  • Pod to external traffic Packets sent to an external IP or the Nodes' network will be forwarded to the antrea-gw0 port (as it is the gateway of the local Pod subnet), and will be routed (based on routes configured on the Node) to the appropriate network interface of the Node (e.g. a physical network interface for a baremetal Node) and sent out to the Node network from there. Antrea Agent creates an iptables (MASQUERADE) rule to perform SNAT on the packets from Pods, so their source IP will be rewritten to the Node's IP before going out.

ClusterIP Service

Antrea supports two ways to implement Services of type ClusterIP - leveraging kube-proxy, or AntreaProxy that implements load balancing for ClusterIP Service traffic with OVS.

When leveraging kube-proxy, Antrea Agent adds OVS flows to forward the packets from a Pod to a Service's ClusterIP to the antrea-gw0 port, then kube-proxy will intercept the packets and select one Service endpoint to be the connection's destination and DNAT the packets to the endpoint's IP and port. If the destination endpoint is a local Pod, the packets will be forwarded to the Pod directly; if it is on another Node the packets will be sent to that Node via the tunnel.

Antrea Service Traffic Walk

kube-proxy can be used in any supported mode: iptables, IPVS or nftables. See the Kubernetes Service Proxies documentation for more details.

When AntreaProxy is enabled, Antrea Agent will add OVS flows that implement load balancing and DNAT for the ClusterIP Service traffic. In this way, Service traffic load balancing is done inside OVS together with the rest of the forwarding, and it can achieve better performance than using kube-proxy, as there is no extra overhead of forwarding Service traffic to the host's network stack and iptables processing. The AntreaProxy implementation in Antrea Agent leverages some kube-proxy packages to watch and process Service Endpoints.

NetworkPolicy

An important design choice Antrea took regarding the NetworkPolicy implementation is centralized policy computation. Antrea Controller watches NetworkPolicy, Pod, and Namespace resources from the Kubernetes API. It processes podSelectors, namespaceSelectors, and ipBlocks as follows:

  • PodSelectors directly under the NetworkPolicy spec (which define the Pods to which the NetworkPolicy is applied) will be translated to member Pods.
  • Selectors (podSelectors and namespaceSelectors) and ipBlocks in rules (which define the ingress and egress traffic allowed by this policy) will be mapped to Pod IP addresses / IP address ranges.

Antrea Controller also computes which Nodes need to receive a NetworkPolicy. Each Antrea Agent receives only the computed policies which affect Pods running locally on its Node, and directly uses the IP addresses computed by the Controller to create OVS flows enforcing the specified NetworkPolicies.

We see the following major benefits of the centralized computation approach:

  • Only one Antrea Controller instance needs to receive and process all NetworkPolicy, Pod, and Namespace updates, and compute podSelectors and namespaceSelectors. This has a much lower overall cost compared to watching these updates and performing the same complex policy computation on all Nodes.

  • It could enable scale-out of Controllers, with multiple Controllers working together on the NetworkPolicy computation, each one being responsible for a subset of NetworkPolicies (though at the moment Antrea supports only a single Controller instance).

  • Antrea Controller is the single source of NetworkPolicy computation. It is much easier to achieve consistency among Nodes and easier to debug the NetworkPolicy implementation.

As described earlier, Antrea Controller leverages the Kubernetes apiserver library to build the API and communication channel to Agents.

Hybrid, NoEncap, NetworkPolicyOnly TrafficEncapMode

Besides the default Encap mode, which always creates overlay tunnels among Nodes and encapsulates inter-Node Pod traffic, Antrea also supports other TrafficEncapModes including Hybrid, NoEncap, NetworkPolicyOnly modes. This section introduces these modes.

  • Hybrid When two Nodes are in two different subnets, Pod traffic between the two Nodes is encapsulated; when the two Nodes are in the same subnet, Pod traffic between them is not encapsulated, instead the traffic is routed from one Node to another. Antrea Agent adds routes on the Node to enable the routing within the same Node subnet. For every remote Node in the same subnet as the local Node, Agent adds a static route entry that uses the remote Node IP as the next hop of its Pod subnet.

Hybrid mode requires the Node network to allow packets with Pod IPs to be sent out from the Nodes' NICs.

  • NoEncap Pod traffic is never encapsulated. Antrea just assumes the Node network can handle routing of Pod traffic across Nodes. Typically this is achieved by the Kubernetes Cloud Provider implementation which adds routes for Pod subnets to the Node network routers. Antrea Agent still creates static routes on each Node for remote Nodes in the same subnet, which is an optimization that routes Pod traffic directly to the destination Node without going through the extra hop of the Node network router. Antrea Agent also creates the iptables (MASQUERADE) rule for SNAT of Pod-to-external traffic.

Antrea supports GKE with NoEncap mode.

  • NetworkPolicyOnly Inter-Node Pod traffic is neither tunneled nor routed by Antrea. Antrea just implements NetworkPolicies for Pod traffic, but relies on another cloud CNI and cloud network to implement Pod IPAM and cross-Node traffic forwarding. Refer to the NetworkPolicyOnly mode design document for more information.

Antrea for AKS Engine and Antrea EKS support work in NetworkPolicyOnly mode.

Features

Antrea Network Policy

Besides Kubernetes NetworkPolicy, Antrea supports two extra types of Network Policies available as CRDs - Antrea Namespaced NetworkPolicy and ClusterNetworkPolicy. The former is scoped to a specific Namespace, while the latter is scoped to the whole cluster. These two types of Network Policies extend Kubernetes NetworkPolicy with advanced features including: policy priority, tiering, deny action, external entity, and policy statistics. For more information about Antrea network policies, refer to the Antrea Network Policy document.

Just like for Kubernetes NetworkPolicies, Antrea Controller transforms Antrea NetworkPolicies and ClusterNetworkPolicies to internal NetworkPolicy, AddressGroup and AppliedToGroup objects, and disseminates them to Antrea Agents. Antrea Agents create OVS flows to enforce the NetworkPolicies applied to the local Pods on their Nodes.

IPsec encryption

Antrea supports encrypting Pod traffic across Linux Nodes with IPsec ESP. The IPsec implementation leverages OVS IPsec and leverages strongSwan as the IKE daemon. By default GRE tunnels are used but other tunnel types are also supported.

To enable IPsec, an extra container -antrea-ipsec - must be added to the Antrea Agent DaemonSet, which runs the ovs-monitor-ipsec and strongSwan daemons. Antrea now supports only using pre-shared key (PSK) for IKE authentication, and the PSK string must be passed to Antrea Agent using an environment variable - ANTREA_IPSEC_PSK. The PSK string can be specified in the Antrea IPsec deployment yaml, which creates a Kubernetes Secret to save the PSK value and populates it to the ANTREA_IPSEC_PSK environment variable of the Antrea Agent container.

When IPsec is enabled, Antrea Agent will create a separate tunnel port on the OVS bridge for each remote Node, and write the PSK string and the remote Node IP address to two OVS interface options of the tunnel interface. Then ovs-monitor-ipsec can detect the tunnel and create IPsec Security Policies with PSK for the remote Node, and strongSwan can create the IPsec Security Associations based on the Security Policies. These additional tunnel ports are not used to send traffic to a remote Node - the tunnel traffic is still output to the default tunnel port (antrea-tun0) with OVS flow based tunneling. However, the traffic from a remote Node will be received from the Node's IPsec tunnel port.

Network flow visibility

Antrea supports exporting network flow information with Kubernetes context using IPFIX. The exported network flows can be visualized using Elastic Stack and Kibana dashboards. For more information, refer to the network flow visibility document.

Prometheus integration

Antrea supports exporting metrics to Prometheus. Both Antrea Controller and Antrea Agent implement the /metrics API endpoint on their API server to expose various metrics generated by Antrea components or 3rd party components used by Antrea. Prometheus can be configured to collect metrics from the API endpoints. For more information, please refer to the Prometheus integration document.

Windows Node

On a Windows Node, Antrea acts very much like it does on a Linux Node. Antrea Agent and OVS are still run on the Node, Windows Pods are still connected to the OVS bridge, and Pod networking is still mostly implemented with OVS flows. Even the OVS flows are mostly the same as those on a Linux Node. The main differences in the Antrea implementation for Window Node are: how Antrea Agent and OVS daemons are run and managed, how the OVS bridge is configured and Pod network interfaces are connected to the bridge, and how host network routing and SNAT are implemented. For more information about the Antrea Windows implementation, refer to the Windows design document.

Antrea Multi-cluster

Antrea Multi-cluster implements Multi-cluster Service API, which allows users to create multi-cluster Services that can be accessed cross clusters in a ClusterSet. Antrea Multi-cluster also supports Antrea ClusterNetworkPolicy replication. Multi-cluster admins can define ClusterNetworkPolicies to be replicated across the entire ClusterSet, and enforced in all member clusters. To learn more information about the Antrea Multi-cluster architecture, please refer to the Antrea Multi-cluster architecture document.