初始化环境
升级内核:
rpm --import https://www.elrepo.org/RPM-GPG-KEY-elrepo.org
rpm -Uvh http://www.elrepo.org/elrepo-release-7.0-2.el7.elrepo.noarch.rpm
yum --enablerepo=elrepo-kernel install kernel-ml-devel kernel-ml
awk -F\' '$1=="menuentry " {print $2}' /etc/grub2.cfg
grub2-set-default 0
reboot
uname -a
安装docker:
yum install -y yum-utils
yum-config-manager --add-repo https://download.docker.com/linux/centos/docker-ce.repo
yum-config-manager --disable docker-ce-edge
yum makecache fast
yum install docker-ce
service docker start
安装open vswitch:
yum -y install wget openssl-devel gcc make python-devel openssl-devel kernel-devel graphviz kernel-debug-devel autoconf automake rpm-build redhat-rpm-config libtool python-twisted-core python-zope-interface PyQt4 desktop-file-utils libcap-ng-devel groff checkpolicy selinux-policy-devel
adduser ovs
su - ovs
yum localinstall /home/ovs/rpmbuild/RPMS/x86_64/openvswitch-2.5.0-1.el7.centos.x86_64.rpm -y
systemctl start openvswitch.service
systemctl is-active openvswitch
ovs-vsctl -V
systemctl enable openvswitch
安装pipework:
yum install git
git clone https://github.com/jpetazzo/pipework
cp pipework/pipework /bin
一些工具安装:
yum install bridge-utils # 如果brctl不能用
yum install net-tools # 如果route命令不能用
单节点上使用ovs vlan划分网络
启动四个容器:
docker run -itd --name con1 ubuntu:14.04 /bin/bash
docker run -itd --name con2 ubuntu:14.04 /bin/bash
docker run -itd --name con3 ubuntu:14.04 /bin/bash
docker run -itd --name con4 ubuntu:14.04 /bin/bash
创建ovs网桥并绑定端口
pipework ovs0 con1 192.168.0.1/24 @100
pipework ovs0 con2 192.168.0.2/24 @100
pipework ovs0 con3 192.168.0.3/24 @200
pipework ovs0 con4 192.168.0.4/24 @200
这样con1 和 con2是通的,con3和con4是通的,这个比较简单。pipework干的具体的事是:
ovs-vsctl add-port ovs0 [容器的虚拟网卡设备] tag=100
ovs划分vlan处理的原理也非常简单,包进入到switch时打上tag,发出去时去掉tag,发出去的端口与包的tag不匹配时不处理,这便实现了二层隔离。
access端口与trunk端口的区别是,trunk端口可接受多个tag。
跨主机vlan
准备两个主机,在host1上:
docker run -itd --name con1 ubuntu:14.04 /bin/bash
docker run -itd --name con2 ubuntu:14.04 /bin/bash
pipework ovs0 con1 192.168.0.1/24 @100
pipework ovs0 con2 192.168.0.2/24 @200
如果是单张网卡的话,把eth0桥接到switch上时会造成网络中断,所以以下几步不要通过ssh操作:
如果非得ssh去操作的话把以下命令放在一条命令中执行(用&&连接各个命令)
ovs-vsctl add-port ovs0 eth0
ifconfig ovs0 10.1.86.201 netmask 255.255.255.0 # 这里地址和掩码与eth0的配置一致
ifconfig ovs0 up
ifconfig eth0 0.0.0.0
route add default gw 10.1.86.1 # 执行之前看看eth0的gw是什么,保持一致,这样eth0就桥接到ovs0上去了。
查看switch端口:
[root@dev-86-204 ~]# ovs-vsctl show
c5ddf9e8-daac-4ed2-80f5-16e6365425fa
Bridge "ovs0"
Port "veth1pl41885"
tag: 100
Interface "veth1pl41885"
Port "ovs0"
Interface "ovs0"
type: internal
Port "eth0"
Interface "eth0"
Port "veth1pl41805"
tag: 200
Interface "veth1pl41805"
ovs_version: "2.5.1"
在host2上:
docker run -itd --name con3 ubuntu:14.04 /bin/bash
docker run -itd --name con4 ubuntu:14.04 /bin/bash
pipework ovs0 con3 192.168.0.3/24 @100
pipework ovs0 con4 192.168.0.4/24 @200
同样要桥接eth0到ovs0上,同host1的操作,然后con1与con3可通,con2与con4可通.
GRE实现overlay网络
linux内核需要3.11以上,本尊在3.10内核上实践失败,在虚拟机中升级内核时虚拟机启动不了,CPU飙到100%,以后再试。
发现把容器直接挂ovs网桥上是可以通的
gre与下面的vxlan非常类似,只需要在添加往外连的端口时改成下面命令即可:
ovs-vsctl add-port ovs0 gre0 -- set interface gre0 type=gre options:remote_ip=172.31.244.185
Vxlan实现跨主机通信
host1:10.1.86.203
ovs0
|
|-veth1 <-------> eth1 192.168.0.3 con3
|
|-vxlan1-------------+
| |
|
host2:10.1.86.204 |
ovs0 |
| |
|-vxlan1------------+
|
|-veth1 <--------> eth1 192.168.0.4 con4
|
可以看到con3和con4在搭建vxlan之前是无法通信的。
在host1上:
[root@dev-86-203 ~]# docker run --name con3 -itd ubuntu:14.04 /bin/bash
[root@dev-86-203 ~]# ovs-vsctl add-br ovs0
[root@dev-86-203 ~]# pipework ovs0 con3 192.168.0.3/24 # 给容器分配地址并挂到ovs0上
[root@dev-86-203 ~]# ovs-vsctl add-port ovs0 vxlan1 -- set interface vxlan1 type=vxlan options:remote_ip=10.1.86.204 options:key=flow # 创建vxlan
[root@dev-86-203 ~]# ovs-vsctl show
5e371797-db70-451c-a0f2-d70c6d00cd05
Bridge "ovs0"
Port "veth1pl3342"
Interface "veth1pl3342"
Port "ovs0"
Interface "ovs0"
type: internal
Port "vxlan1"
Interface "vxlan1"
type: vxlan
options: {key=flow, remote_ip="10.1.86.204"}
ovs_version: "2.5.1"
host2上同理:
[root@dev-86-204 ~]# docker run --name con4 -itd ubuntu:14.04 /bin/bash
[root@dev-86-204 ~]# ovs-vsctl add-br ovs0
[root@dev-86-204 ~]# pipework ovs0 con4 192.168.0.4/24 # 给容器分配地址并挂到ovs0上
[root@dev-86-204 ~]# ovs-vsctl add-port ovs0 vxlan1 -- set interface vxlan1 type=vxlan options:remote_ip=10.1.86.203 options:key=flow # 创建vxlan
[root@dev-86-204 ~]# ovs-vsctl show
c5ddf9e8-daac-4ed2-80f5-16e6365425fa
Bridge "ovs0"
Port "ovs0"
Interface "ovs0"
type: internal
Port "veth1pl52846"
Interface "veth1pl52846"
Port "vxlan1"
Interface "vxlan1"
type: vxlan
options: {key=flow, remote_ip="10.1.86.203"}
ovs_version: "2.5.1"
验证:
[root@dev-86-204 ~]# docker exec con4 ping 192.168.0.3 # con4容器中ping con3的地址,可通
PING 192.168.0.3 (192.168.0.3) 56(84) bytes of data.
64 bytes from 192.168.0.3: icmp_seq=1 ttl=64 time=0.251 ms
64 bytes from 192.168.0.3: icmp_seq=2 ttl=64 time=0.170 ms
更多问题欢迎联系我: https://github.com/fanux