現在表示しているのは、次のバージョン向けのドキュメントです。Kubernetesバージョン: v1.19
Kubernetes v1.19 のドキュメントは積極的にメンテナンスされていません。現在表示されているバージョンはスナップショットです。最新のドキュメントはこちらです: 最新バージョン
クラスターのネットワーク
ネットワークはKubernetesにおける中心的な部分ですが、どのように動作するかを正確に理解することは難解な場合もあります。 Kubernetesには、4つの異なる対応すべきネットワークの問題があります:
- 高度に結合されたコンテナ間の通信: これは、Podおよび
localhost
通信によって解決されます。 - Pod間の通信: 本ドキュメントの主な焦点です。
- Podからサービスへの通信:これはServiceでカバーされています。
- 外部からサービスへの通信:これはServiceでカバーされています。
Kubernetesは、言ってしまえばアプリケーション間でマシンを共有するためのものです。通常、マシンを共有するには、2つのアプリケーションが同じポートを使用しないようにする必要があります。 複数の開発者間でポートを調整することは、大規模に行うことは非常に難しく、ユーザーが制御できないクラスターレベルの問題に見合うことがあります。
動的ポート割り当てはシステムに多くの複雑さをもたらします。すべてのアプリケーションはパラメータとしてポートを管理する必要があり、APIサーバーにて動的なポート番号を設定値として注入する方法が必要となり、各サービスはお互いにお互いを見つける方法が必要です。Kubernetesはこれに対処するのではなく、別のアプローチを取ります。
Kubernetesのネットワークモデル
すべてのPod
は独自のIPアドレスを持ちます。これは、Pod
間のリンクを明示的に作成する必要がなく、コンテナポートをホストポートにマッピングする必要がほとんどないことを意味します。こうすることで、ポート割り当て、名前解決、サービスディスカバリー、負荷分散、アプリケーション設定、および移行の観点から、Pod
をVMまたは物理ホストと同様に扱うことができる、クリーンで後方互換性のあるモデルを生み出しています。
Kubernetesは、ネットワークの実装に次の基本的な要件を課しています(意図的なネットワークセグメンテーションポリシーを除きます):
- ノード上のPodが、NATなしですべてのノード上のすべてのPodと通信できること
- systemdやkubeletなどノード上にあるエージェントが、そのノード上のすべてのPodと通信できること
注: ホストネットワークで実行されるPod
をサポートするプラットフォームの場合(Linuxなど):
- ノードのホストネットワーク内のPodは、NATなしですべてのノード上のすべてのPodと通信できます
このモデルは全体としてそれほど複雑ではないことに加え、KubernetesがVMからコンテナへのアプリへの移植を簡単にするという要望と基本的に互換性があります。ジョブがVMで実行されていた頃も、VMにはIPがあってプロジェクト内の他のVMと通信できました。これは同じ基本モデルです。
KubernetesのIPアドレスはPod
スコープに存在します。Pod
内のコンテナは、IPアドレスとMACアドレスを含むネットワーク名前空間を共有します。これは、Pod
内のコンテナがすべてlocalhost
上の互いのポートに到達できることを意味します。また、Pod
内のコンテナがポートの使用を調整する必要があることも意味しますが、これもVM内のプロセスと同じです。これのことを「IP-per-pod(Pod毎のIP)」モデルと呼びます。
この実装方法は実際に使われているコンテナランタイムの詳細部分です。
Pod
に転送するノード
自体のポート(ホストポートと呼ばれる)を要求することは可能ですが、これは非常にニッチな操作です。このポート転送の実装方法も、コンテナランタイムの詳細部分です。Pod
自体は、ホストポートの有無を認識しません。
Kubernetesネットワークモデルの実装方法
このネットワークモデルを実装する方法はいくつかあります。このドキュメントは、こうした方法を網羅的にはカバーしませんが、いくつかの技術の紹介として、また出発点として役立つことを願っています。
この一覧はアルファベット順にソートされており、順序は優先ステータスを意味するものではありません。
注意: This section links to third party projects that provide functionality required by Kubernetes. The Kubernetes project authors aren't responsible for these projects. This page follows CNCF website guidelines by listing projects alphabetically. To add a project to this list, read the content guide before submitting a change.
ACI
Cisco Application Centric Infrastructure offers an integrated overlay and underlay SDN solution that supports containers, virtual machines, and bare metal servers. ACI provides container networking integration for ACI. An overview of the integration is provided here.
Antrea
Project Antrea is an opensource Kubernetes networking solution intended to be Kubernetes native. It 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.
AOS from Apstra
AOS is an Intent-Based Networking system that creates and manages complex datacenter environments from a simple integrated platform. AOS leverages a highly scalable distributed design to eliminate network outages while minimizing costs.
The AOS Reference Design currently supports Layer-3 connected hosts that eliminate legacy Layer-2 switching problems. These Layer-3 hosts can be Linux servers (Debian, Ubuntu, CentOS) that create BGP neighbor relationships directly with the top of rack switches (TORs). AOS automates the routing adjacencies and then provides fine grained control over the route health injections (RHI) that are common in a Kubernetes deployment.
AOS has a rich set of REST API endpoints that enable Kubernetes to quickly change the network policy based on application requirements. Further enhancements will integrate the AOS Graph model used for the network design with the workload provisioning, enabling an end to end management system for both private and public clouds.
AOS supports the use of common vendor equipment from manufacturers including Cisco, Arista, Dell, Mellanox, HPE, and a large number of white-box systems and open network operating systems like Microsoft SONiC, Dell OPX, and Cumulus Linux.
Details on how the AOS system works can be accessed here: https://www.apstra.com/products/how-it-works/
AWS VPC CNI for Kubernetes
AWS VPC CNIは、Kubernetesクラスター向けの統合されたAWS Virtual Private Cloud(VPC)ネットワーキングを提供します。このCNIプラグインは、高いスループットと可用性、低遅延、および最小のネットワークジッタを提供します。さらに、ユーザーは、Kubernetesクラスターを構築するための既存のAWS VPCネットワーキングとセキュリティのベストプラクティスを適用できます。これには、ネットワークトラフィックの分離にVPCフローログ、VPCルーティングポリシー、およびセキュリティグループを使用する機能が含まれます。
このCNIプラグインを使用すると、Kubernetes PodはVPCネットワーク上と同じIPアドレスをPod内に持つことができます。CNIはAWS Elastic Networking Interface(ENI)を各Kubernetesノードに割り当て、ノード上のPodに各ENIのセカンダリIP範囲を使用します。このCNIには、Podの起動時間を短縮するためのENIとIPアドレスの事前割り当ての制御が含まれており、最大2,000ノードの大規模クラスターが可能です。
さらに、このCNIはネットワークポリシーの適用のためにCalicoと一緒に実行できます。AWS VPC CNIプロジェクトは、GitHubのドキュメントとともにオープンソースで公開されています。
Azure CNI for Kubernetes
Azure CNI is an open source plugin that integrates Kubernetes Pods with an Azure Virtual Network (also known as VNet) providing network performance at par with VMs. Pods can connect to peered VNet and to on-premises over Express Route or site-to-site VPN and are also directly reachable from these networks. Pods can access Azure services, such as storage and SQL, that are protected by Service Endpoints or Private Link. You can use VNet security policies and routing to filter Pod traffic. The plugin assigns VNet IPs to Pods by utilizing a pool of secondary IPs pre-configured on the Network Interface of a Kubernetes node.
Azure CNI is available natively in the [Azure Kubernetes Service (AKS)] (https://docs.microsoft.com/en-us/azure/aks/configure-azure-cni).
Big Cloud Fabric from Big Switch Networks
Big Cloud Fabric is a cloud native networking architecture, designed to run Kubernetes in private cloud/on-premises environments. Using unified physical & virtual SDN, Big Cloud Fabric tackles inherent container networking problems such as load balancing, visibility, troubleshooting, security policies & container traffic monitoring.
With the help of the Big Cloud Fabric's virtual pod multi-tenant architecture, container orchestration systems such as Kubernetes, RedHat OpenShift, Mesosphere DC/OS & Docker Swarm will be natively integrated alongside with VM orchestration systems such as VMware, OpenStack & Nutanix. Customers will be able to securely inter-connect any number of these clusters and enable inter-tenant communication between them if needed.
BCF was recognized by Gartner as a visionary in the latest Magic Quadrant. One of the BCF Kubernetes on-premises deployments (which includes Kubernetes, DC/OS & VMware running on multiple DCs across different geographic regions) is also referenced here.
Calico
Calicoは、コンテナ、仮想マシン、ホストベースのワークロードのためのオープンソースのネットワーク及びネットワークセキュリティのソリューションです。Calicoは、純粋なLinuxのeBPFデータプレーンや、Linuxの標準的なネットワークデータプレーン、WindowsのHNSデータプレーンを含む、複数のデータプレーンをサポートしています。Calicoは完全なネットワークスタックを提供していますが、クラウドプロバイダーのCNIと組み合わせてネットワークポリシーを提供することもできます。
Cilium
Cilium is open source software for providing and transparently securing network connectivity between application containers. Cilium is L7/HTTP aware and can enforce network policies on L3-L7 using an identity based security model that is decoupled from network addressing, and it can be used in combination with other CNI plugins.
CNI-Genie from Huawei
CNI-Genie is a CNI plugin that enables Kubernetes to simultaneously have access to different implementations of the Kubernetes network model in runtime. This includes any implementation that runs as a CNI plugin, such as Flannel, Calico, Romana, Weave-net.
CNI-Genie also supports assigning multiple IP addresses to a pod, each from a different CNI plugin.
cni-ipvlan-vpc-k8s
cni-ipvlan-vpc-k8s contains a set of CNI and IPAM plugins to provide a simple, host-local, low latency, high throughput, and compliant networking stack for Kubernetes within Amazon Virtual Private Cloud (VPC) environments by making use of Amazon Elastic Network Interfaces (ENI) and binding AWS-managed IPs into Pods using the Linux kernel's IPvlan driver in L2 mode.
The plugins are designed to be straightforward to configure and deploy within a VPC. Kubelets boot and then self-configure and scale their IP usage as needed without requiring the often recommended complexities of administering overlay networks, BGP, disabling source/destination checks, or adjusting VPC route tables to provide per-instance subnets to each host (which is limited to 50-100 entries per VPC). In short, cni-ipvlan-vpc-k8s significantly reduces the network complexity required to deploy Kubernetes at scale within AWS.
Coil
Coilは、容易に連携できるよう設計されていて、フレキシブルなEgressネットワークを提供することができるCNIプラグインです。 Coilはベアメタルと比較して低いオーバーヘッドで操作することができ、また外部のネットワークへの任意のEgress NATゲートウェイを定義することができます。
Contiv
Contiv provides configurable networking (native l3 using BGP, overlay using vxlan, classic l2, or Cisco-SDN/ACI) for various use cases. Contiv is all open sourced.
Contrail / Tungsten Fabric
Contrail, based on Tungsten Fabric, is a truly open, multi-cloud network virtualization and policy management platform. Contrail and Tungsten Fabric are integrated with various orchestration systems such as Kubernetes, OpenShift, OpenStack and Mesos, and provide different isolation modes for virtual machines, containers/pods and bare metal workloads.
DANM
DANM is a networking solution for telco workloads running in a Kubernetes cluster. It's built up from the following components:
- A CNI plugin capable of provisioning IPVLAN interfaces with advanced features
- An in-built IPAM module with the capability of managing multiple, cluster-wide, discontinuous L3 networks and provide a dynamic, static, or no IP allocation scheme on-demand
- A CNI metaplugin capable of attaching multiple network interfaces to a container, either through its own CNI, or through delegating the job to any of the popular CNI solution like SRI-OV, or Flannel in parallel
- A Kubernetes controller capable of centrally managing both VxLAN and VLAN interfaces of all Kubernetes hosts
- Another Kubernetes controller extending Kubernetes' Service-based service discovery concept to work over all network interfaces of a Pod
With this toolset DANM is able to provide multiple separated network interfaces, the possibility to use different networking back ends and advanced IPAM features for the pods.
Flannel
Flannel is a very simple overlay network that satisfies the Kubernetes requirements. Many people have reported success with Flannel and Kubernetes.
Google Compute Engine (GCE)
For the Google Compute Engine cluster configuration scripts, advanced
routing is used to
assign each VM a subnet (default is /24
- 254 IPs). Any traffic bound for that
subnet will be routed directly to the VM by the GCE network fabric. This is in
addition to the "main" IP address assigned to the VM, which is NAT'ed for
outbound internet access. A linux bridge (called cbr0
) is configured to exist
on that subnet, and is passed to docker's --bridge
flag.
Docker is started with:
DOCKER_OPTS="--bridge=cbr0 --iptables=false --ip-masq=false"
This bridge is created by Kubelet (controlled by the --network-plugin=kubenet
flag) according to the Node
's .spec.podCIDR
.
Docker will now allocate IPs from the cbr-cidr
block. Containers can reach
each other and Nodes
over the cbr0
bridge. Those IPs are all routable
within the GCE project network.
GCE itself does not know anything about these IPs, though, so it will not NAT
them for outbound internet traffic. To achieve that an iptables rule is used
to masquerade (aka SNAT - to make it seem as if packets came from the Node
itself) traffic that is bound for IPs outside the GCE project network
(10.0.0.0/8).
iptables -t nat -A POSTROUTING ! -d 10.0.0.0/8 -o eth0 -j MASQUERADE
Lastly IP forwarding is enabled in the kernel (so the kernel will process packets for bridged containers):
sysctl net.ipv4.ip_forward=1
The result of all this is that all Pods
can reach each other and can egress
traffic to the internet.
Jaguar
Jaguar is an open source solution for Kubernetes's network based on OpenDaylight. Jaguar provides overlay network using vxlan and Jaguar CNIPlugin provides one IP address per pod.
k-vswitch
k-vswitch is a simple Kubernetes networking plugin based on Open vSwitch. It leverages existing functionality in Open vSwitch to provide a robust networking plugin that is easy-to-operate, performant and secure.
Knitter
Knitter is a network solution which supports multiple networking in Kubernetes. It provides the ability of tenant management and network management. Knitter includes a set of end-to-end NFV container networking solutions besides multiple network planes, such as keeping IP address for applications, IP address migration, etc.
Kube-OVN
Kube-OVN is an OVN-based kubernetes network fabric for enterprises. With the help of OVN/OVS, it provides some advanced overlay network features like subnet, QoS, static IP allocation, traffic mirroring, gateway, openflow-based network policy and service proxy.
Kube-router
Kube-router is a purpose-built networking solution for Kubernetes that aims to provide high performance and operational simplicity. Kube-router provides a Linux LVS/IPVS-based service proxy, a Linux kernel forwarding-based pod-to-pod networking solution with no overlays, and iptables/ipset-based network policy enforcer.
L2 networks and linux bridging
If you have a "dumb" L2 network, such as a simple switch in a "bare-metal" environment, you should be able to do something similar to the above GCE setup. Note that these instructions have only been tried very casually - it seems to work, but has not been thoroughly tested. If you use this technique and perfect the process, please let us know.
Follow the "With Linux Bridge devices" section of this very nice tutorial from Lars Kellogg-Stedman.
Multus (a Multi Network plugin)
Multus is a Multi CNI plugin to support the Multi Networking feature in Kubernetes using CRD based network objects in Kubernetes.
Multus supports all reference plugins (eg. Flannel, DHCP, Macvlan) that implement the CNI specification and 3rd party plugins (eg. Calico, Weave, Cilium, Contiv). In addition to it, Multus supports SRIOV, DPDK, OVS-DPDK & VPP workloads in Kubernetes with both cloud native and NFV based applications in Kubernetes.
OVN4NFV-K8s-Plugin (OVN based CNI controller & plugin)
OVN4NFV-K8S-Plugin is OVN based CNI controller plugin to provide cloud native based Service function chaining(SFC), Multiple OVN overlay networking, dynamic subnet creation, dynamic creation of virtual networks, VLAN Provider network, Direct provider network and pluggable with other Multi-network plugins, ideal for edge based cloud native workloads in Multi-cluster networking
NSX-T
VMware NSX-T is a network virtualization and security platform. NSX-T can provide network virtualization for a multi-cloud and multi-hypervisor environment and is focused on emerging application frameworks and architectures that have heterogeneous endpoints and technology stacks. In addition to vSphere hypervisors, these environments include other hypervisors such as KVM, containers, and bare metal.
NSX-T Container Plug-in (NCP) provides integration between NSX-T and container orchestrators such as Kubernetes, as well as integration between NSX-T and container-based CaaS/PaaS platforms such as Pivotal Container Service (PKS) and OpenShift.
Nuage Networks VCS (Virtualized Cloud Services)
Nuage provides a highly scalable policy-based Software-Defined Networking (SDN) platform. Nuage uses the open source Open vSwitch for the data plane along with a feature rich SDN Controller built on open standards.
The Nuage platform uses overlays to provide seamless policy-based networking between Kubernetes Pods and non-Kubernetes environments (VMs and bare metal servers). Nuage's policy abstraction model is designed with applications in mind and makes it easy to declare fine-grained policies for applications.The platform's real-time analytics engine enables visibility and security monitoring for Kubernetes applications.
OpenVSwitch
OpenVSwitch is a somewhat more mature but also complicated way to build an overlay network. This is endorsed by several of the "Big Shops" for networking.
OVN (Open Virtual Networking)
OVN is an opensource network virtualization solution developed by the Open vSwitch community. It lets one create logical switches, logical routers, stateful ACLs, load-balancers etc to build different virtual networking topologies. The project has a specific Kubernetes plugin and documentation at ovn-kubernetes.
Romana
Romana is an open source network and security automation solution that lets you deploy Kubernetes without an overlay network. Romana supports Kubernetes Network Policy to provide isolation across network namespaces.
Weave Net from Weaveworks
Weave Net is a resilient and simple to use network for Kubernetes and its hosted applications. Weave Net runs as a CNI plug-in or stand-alone. In either version, it doesn't require any configuration or extra code to run, and in both cases, the network provides one IP address per pod - as is standard for Kubernetes.
次の項目
ネットワークモデルの初期設計とその根拠、および将来の計画については、ネットワーク設計ドキュメントで詳細に説明されています。