关于 kubernetes中网络方面的一些笔记
写在前面
- 学习
k8s
遇到整理笔记 - 博文内容主要涉及
K8s
网络理论体系简述K8s
中Calico
的实现方案Calico
网络方案容器跨主机通信
过程Demo
K8s
中网络策略方式:egress
和ingress
的Demo
ipBlock
,namespaceSelector
,podSelector
的网络策略规则Demo
- 博文部分理论来自
《基于Kubernetes的容器云平台实战》
认定一件事,即使拿十分力气都无法完成,也要拿出十二分力气去努力——烽火戏诸侯《剑来》
Kubernetes网络
K8s中Calico的实现方案
Calico的实现方案 |
---|
Calico的核心组件包括: Felix, etcd, BGP Client (BIRD)、 BGPRoute Reflector |
Felix,即Calico代理
, “跑”在Kubernetes的Node节点
上,主要负责配置路由
及ACL等信息
来确保Endpoint
的连通状态。
etcd,分布式键值存储
,主要负责网络元数据一致性
,确保Calico网络状态的准确性
,可以与Kubernetes共用
。
BGP Client (BIRD),主要负责把Felix写入Kernel的路由信息
分发到当前Calico网络
,确保workload间通信
的有效性。
BGP Route Reflector,大规模部署时使用,摒弃所有节点互联的Mesh模式,通过一个或者多个BGP Route Reflector来完成集中式路由分发。
将整个互联网的可扩展IP网络原则压缩到数据中心级别, Calico在每一个计算节点利用Linux Kernel实现了一个高效的vRouter来负责数据转发,而每个vRouter通过BGP协议把在其上运行的容器的路由信息向整个Calico网络内传播,小规模部署可以直接互联,大规模下可通过指定的BGP Route Reflector来完成。这样保证最终所有的容器间的数据流量都是通过IP包的方式完成互联的。
基于三层实现通信,在二层上没有任何加密包装,因此只能在私有的可靠网络上使用。
流量隔离基于iptables
实现,并且从etcd
中获取需要生成的隔离规则,因此会有一些性能上的隐患。
每个主机上都部署了Calico-Node作为虚拟路由器,并且可以通过Calico将宿主机组织成任意的拓扑集群。当集群中的容器需要与外界通信时,就可以通过BGP协议将网关物理路由器加入到集群中,使外界可以直接访问容器IP,而不需要做任何NAT之类的复杂操作。
K8s整体流程图 |
---|
跨主机Docker网络通信
常见的跨主机通信方案主要有以下几种:
形式 | 描述 |
---|---|
Host模式 | 容器直接使用宿主机的网络,这样天生就可以支持跨主机通信。这种方式虽然可以解决跨主机通信问题,但应用场景很有限,容易出现端口冲突,也无法做到隔离网络环境,一个容器崩溃很可能引起整个宿主机的崩溃。 |
端口绑定 | 通过绑定容器端口到宿主机端口,跨主机通信时使用“主机IP+端口的方式访问容器中的服务。显然,这种方式仅能支持网络栈的4层及以上的应用,·并且容器与宿主机紧耦合,很难灵活地处理问题,可扩展性不佳。 |
定义容器网络 | 使用Open vSwitch 或Flannel 等第三方SDN 工具,为容器构建可以跨主机通信的网络环境。这类方案一般要求各个主机上的Dockero网桥的cidr 不同,以避免出现IP冲突的问题,限制容器在宿主机上可获取的IP范围。并且在容器需要对集群外提供服务时,需要比较复杂的配置,对部署实施人员的网络技能要求比较高。 |
容器网络发展到现在,形成了两大阵营:
- Docker的CNM;
- Google, Coreos,Kuberenetes主导的CNI
CNM
和CNI
是网络规范或者网络体系,并不是网络实现因此并不关心容器网络的实现方式( Flannel或者Calico等), CNM和CNI关心的只是网络管理。
网络类型 | 描述 |
---|---|
CNM (Container Network Model) | CNM的优势在于原生,容器网络和Docker容器,生命周期结合紧密;缺点是被Docker “绑架”。支持CNM网络规范的容器网络实现包括:Docker Swarm overlay, Macvlan & IP networkdrivers, Calico, Contiv, Weave等。 |
CNI ( Container Network Interface) | CNI的优势是兼容其他容器技术(如rkt)及上层编排系统(Kubernetes&Mesos),而且社区活跃势头迅猛;缺点是非Docker原生。支持CNI网络规范的容器网络实现包括: Kubernetes、 Weave,Macvlan, Calico, Flannel, Contiv.Mesos CNI等。 |
但从网络实现角度,又可分为:
网络实现角度 | 描述 |
---|---|
隧道方案 | 隧道方案在laas层的网络中应用也比较多,它的主要缺点是随着节点规模的增长复杂度会提升,而且出了网络问题后跟踪起来比较麻烦,大规模集群情况下这是需要考虑的一个问题 |
路由方案 | 一般是基于3层或者2层实现网络隔离和跨主机容器互通的 ,出了问题也很容易排查。Calico :基于BGP协议的路由方案,支持很细致的ACL控制,对混合云亲和度比较高。Macvlan :从逻辑和Kernel层来看,是隔离性和性能最优的方案。基于二层隔离,所以需要一层路由器支持,大多数云服务商不支持,所以混合云上比较难以实现。 |
calico通信过程
Calico把每个操作系统的协议栈当作一个路由器,认为所有的容器是连在这个路由器上的网络终端,在路由器之间运行标准的路由协议-BGP,然后让它们自己去学习这个网络拓扑该如何转发。
Calico方案其实是一个纯三层的方案,也就是说让 每台机器的协议栈的三层去确保两个容器、跨主机容器之间的三层连通性。其网络模型如图所示。
网络模型 |
---|
对于控制平面,其
每个Calico节点上会运行两个主要的程序
程序 | 描述 |
---|---|
一个是Felix |
它会监听etcd ,并从etcd 获取事件,如该节点新增容器或者增加IP地址等。当在这个节点上创建出一个容器,并将其网卡、IP, MAC 都设置好后,Felix在内核的路由表 里面写一条数据,注明这个IP应该配置到这张网卡 。 |
一个标准的路由程序 |
,它会从内核 里面获取哪一些IP的路由 发生了变化,然后通过标准BGP的路由协议扩散 到整个其他宿主机上,通知外界这个IP在这里。 |
由于Calico
是一种纯三层(网络层)
的实现,因此可以避免与二层方案相关的数据包封装的操作,·中间没有任何的NAT
,没有任何的Overlay
,所以它的转发效率可能是所有方案中最高
的。因为它的包直接走原生TCP/IP的协议栈
,它的隔离也因为这个栈而变得好做。因为TCP/IP的协议栈
提供了一整套的防火墙规则
,所以它可以通过iptables的规则达到比较复杂的隔离逻辑
。
Calico实现方案
拓扑模式 |
---|
环境准备
这里我们通过calico来进行跨主机容器网络通信过程演示,
ansible网络测试
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m ping
192.168.26.101 | SUCCESS => {
"ansible_facts": {
"discovered_interpreter_python": "/usr/bin/python"
},
"changed": false,
"ping": "pong"
}
192.168.26.102 | SUCCESS => {
"ansible_facts": {
"discovered_interpreter_python": "/usr/bin/python"
},
"changed": false,
"ping": "pong"
}
192.168.26.100 | SUCCESS => {
"ansible_facts": {
"discovered_interpreter_python": "/usr/bin/python"
},
"changed": false,
"ping": "pong"
}
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
etcd集群测试,这里我们已经搭建好一个etcd集群,etcdctl member list
查看集群列表
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "etcdctl member list"
192.168.26.102 | CHANGED | rc=0 >>
6f2038a018db1103, started, etcd-100, http://192.168.26.100:2380, http://192.168.26.100:2379,http://localhost:2379
bd330576bb637f25, started, etcd-101, http://192.168.26.101:2380, http://192.168.26.101:2379,http://localhost:2379
fbd8a96cbf1c004d, started, etcd-102, http://192.168.26.102:2380, http://192.168.26.100:2379,http://localhost:2379
192.168.26.101 | CHANGED | rc=0 >>
6f2038a018db1103, started, etcd-100, http://192.168.26.100:2380, http://192.168.26.100:2379,http://localhost:2379
bd330576bb637f25, started, etcd-101, http://192.168.26.101:2380, http://192.168.26.101:2379,http://localhost:2379
fbd8a96cbf1c004d, started, etcd-102, http://192.168.26.102:2380, http://192.168.26.100:2379,http://localhost:2379
192.168.26.100 | CHANGED | rc=0 >>
6f2038a018db1103, started, etcd-100, http://192.168.26.100:2380, http://192.168.26.100:2379,http://localhost:2379
bd330576bb637f25, started, etcd-101, http://192.168.26.101:2380, http://192.168.26.101:2379,http://localhost:2379
fbd8a96cbf1c004d, started, etcd-102, http://192.168.26.102:2380, http://192.168.26.100:2379,http://localhost:2379
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
docker安装启动,修改数据存储位置
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "yum -y install docker-ce"
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "systemctl enable docker --now"
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "systemctl status docker"
192.168.26.100 | CHANGED | rc=0 >>
● docker.service - Docker Application Container Engine
Loaded: loaded (/usr/lib/systemd/system/docker.service; enabled; vendor preset: disabled)
Active: active (running) since Sat 2022-01-01 20:27:17 CST; 10min ago
Docs: https://docs.docker.com
...
修改docker启动参数:数据存储位置--cluster-store=
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "cat /usr/lib/systemd/system/docker.service | grep containerd.sock"
192.168.26.100 | CHANGED | rc=0 >>
ExecStart=/usr/bin/dockerd -H fd:// --containerd=/run/containerd/containerd.sock
192.168.26.102 | CHANGED | rc=0 >>
ExecStart=/usr/bin/dockerd -H fd:// --containerd=/run/containerd/containerd.sock
192.168.26.101 | CHANGED | rc=0 >>
ExecStart=/usr/bin/dockerd -H fd:// --containerd=/run/containerd/containerd.sock
这里我们直接使用SED来修改
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible 192.168.26.100 -m shell -a "sed -i 's#containerd\.sock#containerd.sock --cluster-store=etcd
://192.168.26.100:2379#' /usr/lib/systemd/system/docker.service "
192.168.26.100 | CHANGED | rc=0 >>
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible 192.168.26.101 -m shell -a "sed -i 's#containerd\.sock#containerd.sock --cluster-store=etcd://192.168.26.101:2379#' /usr/lib/systemd/system/docker.service "
192.168.26.101 | CHANGED | rc=0 >>
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible 192.168.26.102 -m shell -a "sed -i 's#containerd\.sock#containerd.sock --cluster-store=etcd
://192.168.26.102:2379#' /usr/lib/systemd/system/docker.service "
192.168.26.102 | CHANGED | rc=0 >>
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
刷新Service文件,重启docker
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "systemctl daemon-reload; systemctl restart docker"
192.168.26.100 | CHANGED | rc=0 >>
192.168.26.102 | CHANGED | rc=0 >>
192.168.26.101 | CHANGED | rc=0 >>
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "systemctl status docker"
然后我们需要创建calico配置文件,这里我们通过ansilbe 的方式
使用file模块新建文件夹mkdir /etc/calico
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m file -a "path=/etc/calico/ state=directory force=yes"
使用template模块创建配置文件
- 新建模板,这里使用到j2模板,魔法变量
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$cat calicoctl.j2
apiVersion: v1
kind: calicoApiConfig
metadata:
spec:
datastoreType: "etcdv2"
etcdEndpoints: "http://{{inventory_hostname}}:2379"
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
calico集群创建配置文件
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m template -a "src=calicoctl.j2 dest=/etc/calico/calicoctl.cfg force=yes"
核对创建的配置文件
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "cat /etc/calico/calicoctl.cfg"
192.168.26.100 | CHANGED | rc=0 >>
apiVersion: v1
kind: calicoApiConfig
metadata:
spec:
datastoreType: "etcdv2"
etcdEndpoints: "http://192.168.26.100:2379"
192.168.26.102 | CHANGED | rc=0 >>
apiVersion: v1
kind: calicoApiConfig
metadata:
spec:
datastoreType: "etcdv2"
etcdEndpoints: "http://192.168.26.102:2379"
192.168.26.101 | CHANGED | rc=0 >>
apiVersion: v1
kind: calicoApiConfig
metadata:
spec:
datastoreType: "etcdv2"
etcdEndpoints: "http://192.168.26.101:2379"
实验相关镜像导入
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m copy -a "src=/root/calico-node-v2.tar dest=/root/"
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "docker load -i /root/calico-node-v2.tar"
192.168.26.100 | CHANGED | rc=0 >>
Loaded image: quay.io/calico/node:v2.6.12
192.168.26.102 | CHANGED | rc=0 >>
Loaded image: quay.io/calico/node:v2.6.12
192.168.26.101 | CHANGED | rc=0 >>
Loaded image: quay.io/calico/node:v2.6.12
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
镜像查看
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "docker images"
192.168.26.102 | CHANGED | rc=0 >>
REPOSITORY TAG IMAGE ID CREATED SIZE
quay.io/calico/node v2.6.12 401cc3e56a1a 3 years ago 281MB
192.168.26.100 | CHANGED | rc=0 >>
REPOSITORY TAG IMAGE ID CREATED SIZE
quay.io/calico/node v2.6.12 401cc3e56a1a 3 years ago 281MB
192.168.26.101 | CHANGED | rc=0 >>
REPOSITORY TAG IMAGE ID CREATED SIZE
quay.io/calico/node v2.6.12 401cc3e56a1a 3 years ago 281MB
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
calicoctl 工具导入
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m copy -a "src=/root/calicoctl dest=/bin/ mode=+x"
搭建Calico网络
开始建立 calico node 信息:每个主机上都部署了Calico/Node作为虚拟路由器
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "calicoctl node run --node-image=quay.io/calico/node:v2.6.12 -c /etc/calico/calicoctl.cfg"
查看node状态,通过Calico将宿主机组织成任意的拓扑集群 |
---|
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "calicoctl node status"
192.168.26.102 | CHANGED | rc=0 >>
Calico process is running.
IPv4 BGP status
+----------------+-------------------+-------+----------+-------------+
| PEER ADDRESS | PEER TYPE | STATE | SINCE | INFO |
+----------------+-------------------+-------+----------+-------------+
| 192.168.26.100 | node-to-node mesh | up | 14:46:35 | Established |
| 192.168.26.101 | node-to-node mesh | up | 14:46:34 | Established |
+----------------+-------------------+-------+----------+-------------+
IPv6 BGP status
No IPv6 peers found.
192.168.26.101 | CHANGED | rc=0 >>
Calico process is running.
IPv4 BGP status
+----------------+-------------------+-------+----------+-------------+
| PEER ADDRESS | PEER TYPE | STATE | SINCE | INFO |
+----------------+-------------------+-------+----------+-------------+
| 192.168.26.100 | node-to-node mesh | up | 14:46:31 | Established |
| 192.168.26.102 | node-to-node mesh | up | 14:46:34 | Established |
+----------------+-------------------+-------+----------+-------------+
IPv6 BGP status
No IPv6 peers found.
192.168.26.100 | CHANGED | rc=0 >>
Calico process is running.
IPv4 BGP status
+----------------+-------------------+-------+----------+-------------+
| PEER ADDRESS | PEER TYPE | STATE | SINCE | INFO |
+----------------+-------------------+-------+----------+-------------+
| 192.168.26.101 | node-to-node mesh | up | 14:46:31 | Established |
| 192.168.26.102 | node-to-node mesh | up | 14:46:35 | Established |
+----------------+-------------------+-------+----------+-------------+
IPv6 BGP status
No IPv6 peers found.
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
当集群中的容器需要与外界通信时,就可以通过BGP协议将网关物理路由器加入到集群中,使外界可以直接访问容器IP,而不需要做任何NAT之类的复杂操作。
通过Calico网络实现跨主机通信
在某一个Node上创建一个docker
内部calico
网络
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible 192.168.26.100 -m shell -a "docker network create --driver calico --ipam-driver calico-ipam calnet1"
192.168.26.100 | CHANGED | rc=0 >>
58121f89bcddec441770aa207ef662d09e4413625b0827ce4d8f601fb10650d0
会发现这个内网网络变成的一个全局的网络,在所有节点可见,58121f89bcdd
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "docker network list"
192.168.26.100 | CHANGED | rc=0 >>
NETWORK ID NAME DRIVER SCOPE
caa87ba3dd86 bridge bridge local
58121f89bcdd calnet1 calico global
1d63e3ad385f host host local
adc94f172d5f none null local
192.168.26.102 | CHANGED | rc=0 >>
NETWORK ID NAME DRIVER SCOPE
cc37d3c66e2f bridge bridge local
58121f89bcdd calnet1 calico global
3b138015d4ab host host local
7481614a7084 none null local
192.168.26.101 | CHANGED | rc=0 >>
NETWORK ID NAME DRIVER SCOPE
d0cb224ed111 bridge bridge local
58121f89bcdd calnet1 calico global
106e1c9fb3d3 host host local
f983021e2a02 none null local
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
查看节点中的网卡信息,这个时候没有容器运行,所以没有caliao网卡
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "ip a"
192.168.26.102 | CHANGED | rc=0 >>
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN qlen 1
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
inet6 ::1/128 scope host
valid_lft forever preferred_lft forever
2: ens32: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:0c:29:0f:98:f1 brd ff:ff:ff:ff:ff:ff
inet 192.168.26.102/24 brd 192.168.26.255 scope global ens32
valid_lft forever preferred_lft forever
inet6 fe80::20c:29ff:fe0f:98f1/64 scope link
valid_lft forever preferred_lft forever
3: docker0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN
link/ether 02:42:c3:28:19:78 brd ff:ff:ff:ff:ff:ff
inet 172.17.0.1/16 brd 172.17.255.255 scope global docker0
valid_lft forever preferred_lft forever
192.168.26.100 | CHANGED | rc=0 >>
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN qlen 1
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
inet6 ::1/128 scope host
valid_lft forever preferred_lft forever
2: ens32: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:0c:29:8c:e8:1a brd ff:ff:ff:ff:ff:ff
inet 192.168.26.100/24 brd 192.168.26.255 scope global ens32
valid_lft forever preferred_lft forever
inet6 fe80::20c:29ff:fe8c:e81a/64 scope link
valid_lft forever preferred_lft forever
3: docker0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN
link/ether 02:42:f7:1a:2e:30 brd ff:ff:ff:ff:ff:ff
inet 172.17.0.1/16 brd 172.17.255.255 scope global docker0
valid_lft forever preferred_lft forever
192.168.26.101 | CHANGED | rc=0 >>
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN qlen 1
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
inet6 ::1/128 scope host
valid_lft forever preferred_lft forever
2: ens32: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:0c:29:3b:6e:ef brd ff:ff:ff:ff:ff:ff
inet 192.168.26.101/24 brd 192.168.26.255 scope global ens32
valid_lft forever preferred_lft forever
inet6 fe80::20c:29ff:fe3b:6eef/64 scope link
valid_lft forever preferred_lft forever
3: docker0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN
link/ether 02:42:70:a7:4e:7e brd ff:ff:ff:ff:ff:ff
inet 172.17.0.1/16 brd 172.17.255.255 scope global docker0
valid_lft forever preferred_lft forever
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
每个节点运行一个容器
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "docker run --name {{inventory_hostname}} -itd --net=calnet1 --restart=always busybox "
192.168.26.101 | CHANGED | rc=0 >>
cf2ff4b65e6343fa6e9afba6e75376b97ac47ea59c35f3c492bb7051c15627f0
192.168.26.100 | CHANGED | rc=0 >>
065724c073ded04d6df41d295be3cd5585f8683664fd42a3953dc8067195c58e
192.168.26.102 | CHANGED | rc=0 >>
82e4d6dfde5a6e51f9a4d4f86909678a42e8d1e2d9bfa6edd9cc258b37dfc2db
查看容器节点信息
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "docker ps"
192.168.26.102 | CHANGED | rc=0 >>
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
82e4d6dfde5a busybox "sh" About a minute ago Up About a minute 192.168.26.102
c2d2ab904d6d quay.io/calico/node:v2.6.12 "start_runit" 2 hours ago Up 2 hours calico-node
192.168.26.100 | CHANGED | rc=0 >>
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
065724c073de busybox "sh" About a minute ago Up About a minute 192.168.26.100
f0b150a924d9 quay.io/calico/node:v2.6.12 "start_runit" 2 hours ago Up 2 hours calico-node
192.168.26.101 | CHANGED | rc=0 >>
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
cf2ff4b65e63 busybox "sh" About a minute ago Up About a minute 192.168.26.101
0e4e6f005797 quay.io/calico/node:v2.6.12 "start_runit" 2 hours ago Up 2 hours calico-node
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
查看每个容器的内部网卡和IP
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "docker exec -it {{inventory_hostname}} ip a | grep cali0 -A 4"
192.168.26.100 | CHANGED | rc=0 >>
4: cali0@if5: <BROADCAST,MULTICAST,UP,LOWER_UP,M-DOWN> mtu 1500 qdisc noqueue
link/ether ee:ee:ee:ee:ee:ee brd ff:ff:ff:ff:ff:ff
inet 192.168.239.128/32 scope global cali0
valid_lft forever preferred_lft forever
192.168.26.102 | CHANGED | rc=0 >>
4: cali0@if5: <BROADCAST,MULTICAST,UP,LOWER_UP,M-DOWN> mtu 1500 qdisc noqueue
link/ether ee:ee:ee:ee:ee:ee brd ff:ff:ff:ff:ff:ff
inet 192.168.63.64/32 scope global cali0
valid_lft forever preferred_lft forever
192.168.26.101 | CHANGED | rc=0 >>
4: cali0@if5: <BROADCAST,MULTICAST,UP,LOWER_UP,M-DOWN> mtu 1500 qdisc noqueue
link/ether ee:ee:ee:ee:ee:ee brd ff:ff:ff:ff:ff:ff
inet 192.168.198.0/32 scope global cali0
valid_lft forever preferred_lft forever
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
查看容器内的路由关系,即所有的出口都是通过cali0网卡来实现的
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "docker exec -it {{inventory_hostname}} ip route | grep cali0 "
192.168.26.101 | CHANGED | rc=0 >>
default via 169.254.1.1 dev cali0
169.254.1.1 dev cali0 scope link
192.168.26.102 | CHANGED | rc=0 >>
default via 169.254.1.1 dev cali0
169.254.1.1 dev cali0 scope link
192.168.26.100 | CHANGED | rc=0 >>
default via 169.254.1.1 dev cali0
169.254.1.1 dev cali0 scope link
每创建一个容器,则会在物理机上创建一张虚拟网卡出来,对应容器中的网卡,从这里可以看到容器里的虚拟网卡 cali0 和物理机的 cali6f956c2ada9 是 veth pair
关系。
关于
veth pair
小伙伴可以百度下,这里简单描述,作用很简单,就是要把从一个network namespace
发出的数据包转发到另一个namespace
。veth
设备是成对的,一个是container
之中,另一个在container
之外(宿主机),即在真实机器上能看到的。VETH
设备总是成对出现,送到一端请求发送的数据总是从另一端以请求接受的形式出现。创建并配置正确后,向其一端输入数据,VETH
会改变数据的方向并将其送入内核网络子系统
,完成数据的注入
,而在另一端则能读到此数据
。(Namespace,其中往veth设备上任意一端上RX到的数据,都会在另一端上以TX的方式发送出去)veth工作在L2数据链路层
,veth-pair设备在转发数据包过程中并不串改数据包内容
。
更多小伙伴可以参考:https://blog.csdn.net/sld880311/article/details/77650937
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "ip a | grep -A 4 cali"
192.168.26.102 | CHANGED | rc=0 >>
5: cali6f956c2ada9@if4: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc noqueue state UP
link/ether 6a:65:54:1a:19:e6 brd ff:ff:ff:ff:ff:ff link-netnsid 0
inet6 fe80::6865:54ff:fe1a:19e6/64 scope link
valid_lft forever preferred_lft forever
192.168.26.100 | CHANGED | rc=0 >>
5: cali0b7f49da20a@if4: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc noqueue state UP
link/ether 9e:da:0e:cc:b3:7e brd ff:ff:ff:ff:ff:ff link-netnsid 0
inet6 fe80::9cda:eff:fecc:b37e/64 scope link
valid_lft forever preferred_lft forever
192.168.26.101 | CHANGED | rc=0 >>
5: calib6f7ddae7e3@if4: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc noqueue state UP
link/ether 1e:e6:16:ae:f0:91 brd ff:ff:ff:ff:ff:ff link-netnsid 0
inet6 fe80::1ce6:16ff:feae:f091/64 scope link
valid_lft forever preferred_lft forever
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
查看宿主机路由关系
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "ip route "
192.168.26.101 | CHANGED | rc=0 >>
default via 192.168.26.2 dev ens32
169.254.0.0/16 dev ens32 scope link metric 1002
172.17.0.0/16 dev docker0 proto kernel scope link src 172.17.0.1
192.168.26.0/24 dev ens32 proto kernel scope link src 192.168.26.101
192.168.63.64/26 via 192.168.26.102 dev ens32 proto bird
blackhole 192.168.198.0/26 proto bird
192.168.198.1 dev cali2f9e2c68bad scope link
192.168.239.128/26 via 192.168.26.100 dev ens32 proto bird
192.168.26.100 | CHANGED | rc=0 >>
default via 192.168.26.2 dev ens32
169.254.0.0/16 dev ens32 scope link metric 1002
172.17.0.0/16 dev docker0 proto kernel scope link src 172.17.0.1
192.168.26.0/24 dev ens32 proto kernel scope link src 192.168.26.100
192.168.63.64/26 via 192.168.26.102 dev ens32 proto bird
192.168.198.0/26 via 192.168.26.101 dev ens32 proto bird
192.168.239.128 dev cali0b7f49da20a scope link
blackhole 192.168.239.128/26 proto bird
192.168.26.102 | CHANGED | rc=0 >>
default via 192.168.26.2 dev ens32
169.254.0.0/16 dev ens32 scope link metric 1002
172.17.0.0/16 dev docker0 proto kernel scope link src 172.17.0.1
192.168.26.0/24 dev ens32 proto kernel scope link src 192.168.26.102
192.168.63.64 dev cali6f956c2ada9 scope link
blackhole 192.168.63.64/26 proto bird
192.168.198.0/26 via 192.168.26.101 dev ens32 proto bird
192.168.239.128/26 via 192.168.26.100 dev ens32 proto bird
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
我们那其中一台机器来看:192.168.26.100宿主机来讲
192.168.239.128 dev cali0b7f49da20a scope link
进去:本机到目的地址到 容器IP(192.168.239.128 ) 的数据包都从 cali6f956c2ada9 (新产生的虚拟网卡)走。
192.168.63.64/26 via 192.168.26.102 dev ens32 proto bird
192.168.198.0/26 via 192.168.26.101 dev ens32 proto bird
出来:本机目的地址到 容器IP(192.168.63.64/26) 容器IP(192.168.198.0/26) 网段的数据包都从 ens32 发到 其他的两个宿主机上去。
每台主机都知道不同的容器在哪台主机上,所以会动态的设置路由。 |
---|
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ansible etcd -m shell -a "route -n "
192.168.26.101 | CHANGED | rc=0 >>
Kernel IP routing table
Destination Gateway Genmask Flags Metric Ref Use Iface
0.0.0.0 192.168.26.2 0.0.0.0 UG 0 0 0 ens32
169.254.0.0 0.0.0.0 255.255.0.0 U 1002 0 0 ens32
172.17.0.0 0.0.0.0 255.255.0.0 U 0 0 0 docker0
192.168.26.0 0.0.0.0 255.255.255.0 U 0 0 0 ens32
192.168.63.64 192.168.26.102 255.255.255.192 UG 0 0 0 ens32
192.168.198.0 0.0.0.0 255.255.255.192 U 0 0 0 *
192.168.198.1 0.0.0.0 255.255.255.255 UH 0 0 0 cali2f9e2c68bad
192.168.239.128 192.168.26.100 255.255.255.192 UG 0 0 0 ens32
192.168.26.100 | CHANGED | rc=0 >>
Kernel IP routing table
Destination Gateway Genmask Flags Metric Ref Use Iface
0.0.0.0 192.168.26.2 0.0.0.0 UG 0 0 0 ens32
169.254.0.0 0.0.0.0 255.255.0.0 U 1002 0 0 ens32
172.17.0.0 0.0.0.0 255.255.0.0 U 0 0 0 docker0
192.168.26.0 0.0.0.0 255.255.255.0 U 0 0 0 ens32
192.168.63.64 192.168.26.102 255.255.255.192 UG 0 0 0 ens32
192.168.198.0 192.168.26.101 255.255.255.192 UG 0 0 0 ens32
192.168.239.128 0.0.0.0 255.255.255.255 UH 0 0 0 cali0b7f49da20a
192.168.239.128 0.0.0.0 255.255.255.192 U 0 0 0 *
192.168.26.102 | CHANGED | rc=0 >>
Kernel IP routing table
Destination Gateway Genmask Flags Metric Ref Use Iface
0.0.0.0 192.168.26.2 0.0.0.0 UG 0 0 0 ens32
169.254.0.0 0.0.0.0 255.255.0.0 U 1002 0 0 ens32
172.17.0.0 0.0.0.0 255.255.0.0 U 0 0 0 docker0
192.168.26.0 0.0.0.0 255.255.255.0 U 0 0 0 ens32
192.168.63.64 0.0.0.0 255.255.255.255 UH 0 0 0 cali6f956c2ada9
192.168.63.64 0.0.0.0 255.255.255.192 U 0 0 0 *
192.168.198.0 192.168.26.101 255.255.255.192 UG 0 0 0 ens32
192.168.239.128 192.168.26.100 255.255.255.192 UG 0 0 0 ens32
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
简单测试一下:192.168.26.100
宿主机上的容器(192.168.239.128
)去ping 192.168.63.64
(192.168.26.100
上的容器),实现跨主机互通。
┌──[root@vms100.liruilongs.github.io]-[~]
└─$ docker exec -it 192.168.26.100 /bin/sh
/ # ls
bin dev etc home proc root sys tmp usr var
/ # ip a
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue qlen 1
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
4: cali0@if5: <BROADCAST,MULTICAST,UP,LOWER_UP,M-DOWN> mtu 1500 qdisc noqueue
link/ether ee:ee:ee:ee:ee:ee brd ff:ff:ff:ff:ff:ff
inet 192.168.239.128/32 scope global cali0
valid_lft forever preferred_lft forever
/ # ping 192.168.63.64
PING 192.168.63.64 (192.168.63.64): 56 data bytes
64 bytes from 192.168.63.64: seq=0 ttl=62 time=18.519 ms
64 bytes from 192.168.63.64: seq=1 ttl=62 time=0.950 ms
64 bytes from 192.168.63.64: seq=2 ttl=62 time=1.086 ms
64 bytes from 192.168.63.64: seq=3 ttl=62 time=0.846 ms
64 bytes from 192.168.63.64: seq=4 ttl=62 time=0.840 ms
64 bytes from 192.168.63.64: seq=5 ttl=62 time=1.151 ms
64 bytes from 192.168.63.64: seq=6 ttl=62 time=0.888 ms
^C
--- 192.168.63.64 ping statistics ---
7 packets transmitted, 7 packets received, 0% packet loss
round-trip min/avg/max = 0.840/3.468/18.519 ms
/ #
在K8s集群的中,有一个容器,就会生成一个calico网卡
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$ip a
1: lo: <LOOPBACK,UP,LOWER_UP> mtu 65536 qdisc noqueue state UNKNOWN qlen 1
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 scope host lo
valid_lft forever preferred_lft forever
inet6 ::1/128 scope host
valid_lft forever preferred_lft forever
2: ens32: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1500 qdisc pfifo_fast state UP qlen 1000
link/ether 00:0c:29:ad:e3:93 brd ff:ff:ff:ff:ff:ff
inet 192.168.26.81/24 brd 192.168.26.255 scope global ens32
valid_lft forever preferred_lft forever
inet6 fe80::20c:29ff:fead:e393/64 scope link
valid_lft forever preferred_lft forever
3: docker0: <NO-CARRIER,BROADCAST,MULTICAST,UP> mtu 1500 qdisc noqueue state DOWN
link/ether 02:42:0a:9e:7d:44 brd ff:ff:ff:ff:ff:ff
inet 172.17.0.1/16 brd 172.17.255.255 scope global docker0
valid_lft forever preferred_lft forever
4: tunl0@NONE: <NOARP,UP,LOWER_UP> mtu 1480 qdisc noqueue state UNKNOWN qlen 1
link/ipip 0.0.0.0 brd 0.0.0.0
inet 10.244.88.64/32 scope global tunl0
valid_lft forever preferred_lft forever
5: cali12cf25006b5@if4: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1480 qdisc noqueue state UP
link/ether ee:ee:ee:ee:ee:ee brd ff:ff:ff:ff:ff:ff link-netnsid 0
inet6 fe80::ecee:eeff:feee:eeee/64 scope link
valid_lft forever preferred_lft forever
6: cali5a282a7bbb0@if4: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1480 qdisc noqueue state UP
link/ether ee:ee:ee:ee:ee:ee brd ff:ff:ff:ff:ff:ff link-netnsid 1
inet6 fe80::ecee:eeff:feee:eeee/64 scope link
valid_lft forever preferred_lft forever
7: calicb34164ec79@if4: <BROADCAST,MULTICAST,UP,LOWER_UP> mtu 1480 qdisc noqueue state UP
link/ether ee:ee:ee:ee:ee:ee brd ff:ff:ff:ff:ff:ff link-netnsid 2
inet6 fe80::ecee:eeff:feee:eeee/64 scope link
valid_lft forever preferred_lft forever
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$
Kubernetes网络策略
为了实现
细粒度的容器间网络访问隔离策略(防火墙)
,Kubernetes从1.3
版本开始,由SIG-Network
小组主导研发了Network Policy
机制,目前已升级为networking.k8s.io/v1
稳定版本。
Network Policy
的主要功能是对Pod
间的网络通信进行限制和准入控制
设置方式为将Pod的Label
作为查询条件,设置允许访问
或禁止访问
的客户端Pod列表
。查询条件可以作用于Pod
和Namespace
级别。
为了使用Network Policy
, Kubernetes
引入了一个新的资源对象NetworkPolicy
,供用户设置Pod间网络访问的策略
。但仅定义一个网络策略
是无法完成实际的网络隔离
的,还需要一个策略控制器(PolicyController)进行策略的实现
。
策略控制器由第三方网络组件提供,目前Calico, Cilium, Kube-router, Romana, Weave Net
等开源项目均支持网络策略的实现。Network Policy
的工作原理如图
policy controller
需要实现一个API Listener
,监听用户设置的NetworkPolicy
定义,并将网络访问规则通过各Node的Agent
进行实际设置(Agent
则需要通过CNI网络插件实现)
网络策略配置说明
网络策略
的设置主要用于对目标Pod
的网络访问进行限制,在默认·情况下对所有Pod都是允许访问
的,在设置了指向Pod的NetworkPolicy网络策略
之后,到Pod的访问才会被限制。 需要注意的是网络策略是基于Pod的
NetWorkPolicy基于命名空间进行限制,即只作用当前命名空间,分为两种:
- ingress:定义允许访问目标Pod的入站白名单规则
- egress: 定义目标Pod允许访问的“出站”白名单规则
具体的规则限制方式分为三种(需要注意的是,多个限制之间是或的逻辑关系,如果希望变成与的关系,yaml文件需要配置为数组):
- IP 策略
- 命名空间策略
- pod选择器限制
下面是一个资源文件的Demo
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
namespace: default
spec:
podSelector: #用于定义该网络策略作用的Pod范围
matchLabels:
role: db
policyTypes: #网络策略的类型,包括ingress和egress两种
- Ingress
- Egress
ingress: #定义允许访问目标Pod的入站白名单规则
- from: #满足from 条件的客户端才能访问ports定义的目标Pod端口号。
- ipBlock: # IP限制
cidr: 172.17.0.0/16
except: #排除那些IP
- 172.17.1.0/24
- namespaceSelector: #命名空间限制
matchLabels:
project: myproject
- podSelector: # pod选择器限制
matchLabels:
role: frontend
ports: #允许访问的目标Pod监听的端口号。
- protocol: TCP
port: 6379
egress: #定义目标Pod允许访问的“出站”白名单规则
- to: #目标Pod仅允许访问满足to条件的服务端IP范围和ports定义的端口号
- ipBlock:
cidr: 10.0.0.0/24
ports: #允许访问的服务端的端口号。
- protocol: TCP
port: 5978
在Namespace级别设置默认的网络策略
在Namespace级别还可以设置一些默认的全局网络策略,以方便管理员对整个Namespace进行统一的网络策略设置。
默认拒绝所有入站流量
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: default-deny-ingress
spec:
podSelector: {}
policyTypes:
- Ingress
默认允许所有入站流量
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: allow-all-ingress
spec:
podSelector: {}
ingress:
- {}
policyTypes:
- Ingress
默认拒绝所有出站流量
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: default-deny-egress
spec:
podSelector: {}
policyTypes:
- Egress
默认允许所有出站流量
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: allow-all-egress
spec:
podSelector: {}
egress:
- {}
policyTypes:
- Egress
默认拒绝所有入口和所有出站流量
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: default-deny-all
spec:
podSelector: {}
policyTypes:
- Ingress
- Egress
NetworkPolicy的发展
作为一个稳定特性,
SCTP
支持默认是被启用的。 要在集群层面禁用SCTP
,你(或你的集群管理员)需要为API
服务器指定--feature-gates=SCTPSupport=false
,… 来禁用SCTPSupport
特性门控。 启用该特性门控后,用户可以将NetworkPolicy
的protocol
字段设置为SCTP
(不同版本略有区别)
NetWorkPolicy实战
环境准备
先创建两个没有任何策略的SVC
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$d=k8s-network-create
┌──[root@vms81.liruilongs.github.io]-[~/ansible]
└─$mkdir $d;cd $d
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl create ns liruilong-network-create
namespace/liruilong-network-create created
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl config set-context $(kubectl config current-context) --namespace=liruilong-network-createContext "kubernetes-admin@kubernetes" modified.
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl config view | grep namespace
namespace: liruilong-network-create
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$
我们先构造两个pod,为两个SVC提供能力
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl run pod1 --image=nginx --image-pull-policy=IfNotPresent
pod/pod1 created
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl run pod2 --image=nginx --image-pull-policy=IfNotPresent
pod/pod2 created
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get pods -o wide
NAME READY STATUS RESTARTS AGE IP NODE NOMINATED NODE READINESS GATES
pod1 1/1 Running 0 35s 10.244.70.31 vms83.liruilongs.github.io <none> <none>
pod2 1/1 Running 0 21s 10.244.171.181 vms82.liruilongs.github.io <none> <none>
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$
然后我们分别修改pod中Ngixn容器主页
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get pods --show-labels
NAME READY STATUS RESTARTS AGE LABELS
pod1 1/1 Running 0 100s run=pod1
pod2 1/1 Running 0 86s run=pod2
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl exec -it pod1 -- sh -c "echo pod1 >/usr/share/nginx/html/index.html"
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl exec -it pod2 -- sh -c "echo pod2 >/usr/share/nginx/html/index.html"
创建两个SVC
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl expose --name=svc1 pod pod1 --port=80 --type=LoadBalancer
service/svc1 exposed
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl expose --name=svc2 pod pod2 --port=80 --type=LoadBalancer
service/svc2 exposed
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get svc
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
svc1 LoadBalancer 10.106.61.84 192.168.26.240 80:30735/TCP 14s
svc2 LoadBalancer 10.111.123.194 192.168.26.241 80:31034/TCP 5s
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$
访问测试,无论在当前命名空间还是在指定命名空间,都可以相互访问
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl run testpod1 -it --rm --image=yauritux/busybox-curl --image-pull-policy=IfNotPresent
If you don''t see a command prompt, try pressing enter.
/home # curl svc1
pod1
/home # curl svc2
pod2
/home # exit
指定命名空间
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl run testpod2 -it --rm --image=yauritux/busybox-curl --image-pull-policy=IfNotPresent -n default
If you don''t see a command prompt, try pressing enter.
/home # curl svc1.liruilong-network-create
pod1
/home # curl svc2.liruilong-network-create
pod2
/home #
由于使用了LB,所以物理机也可以访问
PS E:\docker> curl 192.168.26.240
StatusCode : 200
StatusDescription : OK
Content : pod1
RawContent : HTTP/1.1 200 OK
Connection: keep-alive
Accept-Ranges: bytes
Content-Length: 5
Content-Type: text/html
Date: Mon, 03 Jan 2022 12:29:32 GMT
ETag: "61d27744-5"
Last-Modified: Mon, 03 Jan 2022 04:1...
Forms : {}
Headers : {[Connection, keep-alive], [Accept-Ranges, bytes], [Content-Lengt
h, 5], [Content-Type, text/html]...}
Images : {}
InputFields : {}
Links : {}
ParsedHtml : System.__ComObject
RawContentLength : 5
PS E:\docker> curl 192.168.26.241
StatusCode : 200
StatusDescription : OK
Content : pod2
RawContent : HTTP/1.1 200 OK
Connection: keep-alive
Accept-Ranges: bytes
Content-Length: 5
Content-Type: text/html
Date: Mon, 03 Jan 2022 12:29:49 GMT
ETag: "61d27752-5"
Last-Modified: Mon, 03 Jan 2022 04:1...
Forms : {}
Headers : {[Connection, keep-alive], [Accept-Ranges, bytes], [Content-Lengt
h, 5], [Content-Type, text/html]...}
Images : {}
InputFields : {}
Links : {}
ParsedHtml : System.__ComObject
RawContentLength : 5
PS E:\docker>
进入策略
下面我们看一下进入的策略
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get pods --show-labels
NAME READY STATUS RESTARTS AGE LABELS
pod1 1/1 Running 2 (3d12h ago) 5d9h run=pod1
pod2 1/1 Running 2 (3d12h ago) 5d9h run=pod2
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get svc -o wide
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE SELECTOR
svc1 LoadBalancer 10.106.61.84 192.168.26.240 80:30735/TCP 5d9h run=pod1
svc2 LoadBalancer 10.111.123.194 192.168.26.241 80:31034/TCP 5d9h run=pod2
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$
测试的外部物理机机器IP
PS E:\docker> ipconfig
Windows IP 配置
..........
以太网适配器 VMware Network Adapter VMnet8:
连接特定的 DNS 后缀 . . . . . . . :
本地链接 IPv6 地址. . . . . . . . : fe80::f9c8:e941:4deb:698f%24
IPv4 地址 . . . . . . . . . . . . : 192.168.26.1
子网掩码 . . . . . . . . . . . . : 255.255.255.0
默认网关. . . . . . . . . . . . . :
IP限制
我们通过修改ip限制来演示网路策略,通过宿主机所在物理机访问。当设置指定网段可以访问,不是指定网段不可以访问
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$vim networkpolicy.yaml
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl apply -f networkpolicy.yaml
networkpolicy.networking.k8s.io/test-network-policy configured
编写资源文件,允许172.17.0.0/16
网段的机器访问
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
namespace: liruilong-network-create
spec:
podSelector:
matchLabels:
run: pod1
policyTypes:
- Ingress
ingress:
- from:
- ipBlock:
cidr: 172.17.0.0/16 # 只允许这个网段访问
ports:
- protocol: TCP
port: 80
集群外部机器无法访问
PS E:\docker> curl 192.168.26.240
curl : 无法连接到远程服务器
所在位置 行:1 字符: 1
+ curl 192.168.26.240
+ ~~~~~~~~~~~~~~~~~~~
+ CategoryInfo : InvalidOperation: (System.Net.HttpWebRequest:HttpWebRequest) [Invoke-WebRequest],WebExce
ption
+ FullyQualifiedErrorId : WebCmdletWebResponseException,Microsoft.PowerShell.Commands.InvokeWebRequestCommand
配置允许当前网段的ip访问
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
namespace: liruilong-network-create
spec:
podSelector:
matchLabels:
run: pod1
policyTypes:
- Ingress
ingress:
- from:
- ipBlock:
cidr: 192.168.26.0/24 # 只允许这个网段访问
ports:
- protocol: TCP
port: 80
修改网段之后正常外部机器可以访问
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$sed -i 's#172.17.0.0/16#192.168.26.0/24#' networkpolicy.yaml
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl apply -f networkpolicy.yaml
测试,外部机器可以访问
PS E:\docker> curl 192.168.26.240
StatusCode : 200
StatusDescription : OK
Content : pod1
RawContent : HTTP/1.1 200 OK
Connection: keep-alive
Accept-Ranges: bytes
Content-Length: 5
Content-Type: text/html
Date: Sat, 08 Jan 2022 14:59:13 GMT
ETag: "61d9a663-5"
Last-Modified: Sat, 08 Jan 2022 14:5...
Forms : {}
Headers : {[Connection, keep-alive], [Accept-Ranges, bytes], [Content-Length, 5], [Content-T
ype, text/html]...}
Images : {}
InputFields : {}
Links : {}
ParsedHtml : System.__ComObject
RawContentLength : 5
命名空间限制
设置只允许default命名空间的数据通过
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get ns --show-labels | grep default
default Active 26d kubernetes.io/metadata.name=default
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$vim networkpolicy-name.yaml
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl apply -f networkpolicy-name.yaml
networkpolicy.networking.k8s.io/test-network-policy configured
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
namespace: liruilong-network-create
spec:
podSelector:
matchLabels:
run: pod1
policyTypes:
- Ingress
ingress:
- from:
- namespaceSelector:
matchLabels:
kubernetes.io/metadata.name: default
ports:
- protocol: TCP
port: 80
宿主机所在物理机无法访问访问
PS E:\docker> curl 192.168.26.240
curl : 无法连接到远程服务器
所在位置 行:1 字符: 1
+ curl 192.168.26.240
+ ~~~~~~~~~~~~~~~~~~~
+ CategoryInfo : InvalidOperation: (System.Net.HttpWebRequest:HttpWebRequest) [Invoke-WebR
equest],WebException
+ FullyQualifiedErrorId : WebCmdletWebResponseException,Microsoft.PowerShell.Commands.InvokeWebRequ
estCommand
PS E:\docker>
当前命名空间也无法访问
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl run testpod1 -it --rm --image=yauritux/busybox-curl --image-pull-policy=IfNotPresent
/home # curl --connect-timeout 10 -m 10 svc1
curl: (28) Connection timed out after 10413 milliseconds
default命名空间可以访问
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl run testpod1 -it --rm --image=yauritux/busybox-curl --image-pull-policy=IfNotPresent --namespace=default
/home # curl --connect-timeout 10 -m 10 svc1.liruilong-network-create
pod1
/home #
pod选择器限制
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
namespace: liruilong-network-create
spec:
podSelector:
matchLabels:
run: pod1
policyTypes:
- Ingress
ingress:
- from:
- podSelector:
matchLabels:
run: testpod
ports:
- protocol: TCP
port: 80
创建一个策略,只允许标签为run=testpod
的pod访问
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl apply -f networkpolicy-pod.yaml
networkpolicy.networking.k8s.io/test-network-policy created
创建两个pod,都设置--labels=run=testpod
标签,只有当前命名空间可以访问
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl run testpod1 -it --rm --image=yauritux/busybox-curl --image-pull-policy=IfNotPresent --labels=run=testpod --namespace=default
/home # curl --connect-timeout 10 -m 10 svc1.liruilong-network-create
curl: (28) Connection timed out after 10697 milliseconds
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl run testpod1 -it --rm --image=yauritux/busybox-curl --image-pull-policy=IfNotPresent --labels=run=testpod
/home # curl --connect-timeout 10 -m 10 svc1
pod1
/home #
下面的设置可以其他所有命名空间可以访问
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
namespace: liruilong-network-create
spec:
podSelector:
matchLabels:
run: pod1
policyTypes:
- Ingress
ingress:
- from:
- podSelector:
matchLabels:
podSelector:
matchLabels:
run: testpod
ports:
- protocol: TCP
port: 80
default 命名空间和当前命名空间可以访问
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
namespace: liruilong-network-create
spec:
podSelector:
matchLabels:
run: pod1
policyTypes:
- Ingress
ingress:
- from:
- podSelector:
matchLabels:
kubernetes.io/metadata.name: default
podSelector:
matchLabels:
run: testpod
- podSelector:
matchLabels:
run: testpod
ports:
- protocol: TCP
port: 80
定位pod所使用的网络策略
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get networkpolicies
NAME POD-SELECTOR AGE
test-network-policy run=pod1 13m
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get pods --show-labels
NAME READY STATUS RESTARTS AGE LABELS
pod1 1/1 Running 2 (3d15h ago) 5d12h run=pod1
pod2 1/1 Running 2 (3d15h ago) 5d12h run=pod2
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get networkpolicies | grep run=pod1
test-network-policy run=pod1 15m
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$
出去策略
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
spec:
podSelector:
matchLabels:
run: pod1
policyTypes:
- Egress
egress:
- to:
- podSelector:
matchLabels:
run: pod2
ports:
- protocol: TCP
port: 80
pod1只能访问pod2的TCP协议80端口
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl apply -f networkpolicy1.yaml
通过IP访问正常pod2
┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl exec -it pod1 -- bash
root@pod1:/# curl 10.111.123.194
pod2
因为DNS的pod在另一个命名空间(kube-system)运行,pod1只能到pod,所以无法通过域名访问,需要添加另一个命名空间
┌──[root@vms81.liruilongs.github.io]-[~]
└─$kubectl exec -it pod1 -- bash
root@pod1:/# curl svc2
^C
相关参数获取
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get ns --show-labels | grep kube-system
kube-system Active 27d kubernetes.io/metadata.name=kube-system
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get pods --show-labels -n kube-system | grep dns
coredns-7f6cbbb7b8-ncd2s 1/1 Running 13 (3d19h ago) 24d k8s-app=kube-dns,pod-template-hash=7f6cbbb7b8
coredns-7f6cbbb7b8-pjnct 1/1 Running 13 (3d19h ago) 24d k8s-app=kube-dns,pod-template-hash=7f6cbbb7b8
配置两个出去规则,一个到pod2,一个到kube-dns,使用不同端口协议
apiVersion: networking.k8s.io/v1
kind: NetworkPolicy
metadata:
name: test-network-policy
spec:
podSelector:
matchLabels:
run: pod1
policyTypes:
- Egress
egress:
- to:
- podSelector:
matchLabels:
run: pod2
ports:
- protocol: TCP
port: 80
- to:
- namespaceSelector:
matchLabels:
kubernetes.io/metadata.name: kube-system
podSelector:
matchLabels:
k8s-app: kube-dns
ports:
- protocol: UDP
port: 53
测试可以通过域名访问
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$vim networkpolicy2.yaml
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl apply -f networkpolicy2.yaml
networkpolicy.networking.k8s.io/test-network-policy configured
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl get networkpolicies
NAME POD-SELECTOR AGE
test-network-policy run=pod1 3h38m
┌──[root@vms81.liruilongs.github.io]-[~/ansible/k8s-network-create]
└─$kubectl exec -it pod1 -- bash
root@pod1:/# curl svc2
pod2
root@pod1:/#
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