【N版】openstack——基础环境准备

一.版本演化

版本名称

版本日期

包含组件代码名称

Austin

2010-10-21

Nova,Swift

Bexar

2011-02-03

Nova,Swift,Glance

Cactus

2011-04-15

Nova,Swift,Glance

Diablo

2011-09-22

Nova,Swift,Glance

Essex

2012-04-05

Nova,Swift,Glance,Horizon,Keystone

Folsom

2012-09-27

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder

Grizzly

2013-04-04

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder

Havana

2013-10-17

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder,Heat,

Ceilometer

Icehouse

2014-04-17

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder,Heat,

Ceilometer,Trove

Juno

2014-10-16

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder,

Heat,Ceilometer,Trove,Sahara

Kilo

2015-04-30

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder,Heat,

Ceilometer,Trove,Sahara,Ironic

Liberty

2015-10-16

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder,Heat,

Ceilometer,Trove,Sahara,Ironic,Zaqar, Manila, Designate, Barbican

Mitaka

2016-04-08

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder,Heat,

Ceilometer,Trove,Sahara,Ironic,Zaqar, Manila, Designate, Barbican

Newton

2016-10-06

Nova,Swift,Glance,Horizon,Keystone,Quantum,Cinder,Heat,

Ceilometer,Trove,Sahara,Ironic,Zaqar, Manila, Designate, Barbican

 

二.基础环境

2.1环境介绍

  • linux-node1

[root@linux-node1~]# cat /etc/redhat-release

CentOS Linux release7.2.1511 (Core)

[root@linux-node1~]# uname -r

3.10.0-327.36.3.el7.x86_64

[root@linux-node1~]# hostname

linux-node1.example.com

[root@linux-node1~]# ifconfig eth0 |awk -F '[ :]+' 'NR ==2 {print $3}'

192.168.56.11

 

  • linux-node2

[root@linux-node2~]# cat /etc/redhat-release

CentOS Linux release7.2.1511 (Core)

[root@linux-node2~]# uname -r

3.10.0-327.36.3.el7.x86_64

[root@linux-node2~]# hostname

linux-node2.example.com

[root@linux-node2~]# ifconfig eth0 |awk -F '[ :]+' 'NR ==2 {print $3}'

192.168.56.12

2.2安装包准备

2.2.1两个节点都安装:

[root@linux-node1~]# yum install centos-release-openstack-newton –y

                                                                                                       <- openstack N版 仓库 ->

[root@linux-node1~]# yum install python-openstackclient –y    <- openstack客户端 ->

[root@linux-node1~]# yum install openstack-selinux –y  

<- 如果没有关闭selinux安装这个包会自动设置selinux支持openstack ->

 

2.2.2在node1上安装:

[root@linux-node1 ~]# yum install mariadbmariadb-server python2-PyMySQL –y

<- 安装数据库->

[root@linux-node1 ~]# vim/etc/my.cnf.d/openstack.cnf  <- 编辑数据库配置文件->

[mysqld]

bind-address = 192.168.56.11              <- 监听地址 ->

default-storage-engine = innodb             <- 默认引擎 ->

innodb_file_per_table

max_connections = 4096                 <- 最大连接数->

collation-server = utf8_general_ci           <- 核对字符集 ->

character-set-server = utf8              <- 字符集 ->

[root@linux-node1 ~]# yum installrabbitmq-server    <- 安装rabbitMQ消息队列->

[root@linux-node1 ~]#  yum install memcached python-memcached <- 安装缓存 ->

[root@linux-node1 ~]# yum installopenstack-keystone httpd mod_wsgi –y

<- 安装keystone及wsgi模块 ,openstack的认证服务->

[root@linux-node1 ~]# yum installopenstack-glance –y

<- 安装glance,openstack的镜像服务 ->

[root@linux-node1 ~]# yum install –y \ <- 安装nova,openstack的计算服务->

openstack-nova-api \                 <- nova的api接口 ->

openstack-nova-conductor \              <- 计算节点访问数据库的中间件 ->

openstack-nova-console \               <- 控制台授权认证 ->

openstack-nova-novncproxy \             <- VNC代理 ->

openstack-nova-scheduler               <- 云主机调度 ->

[root@linux-node1 ~]# yum install -y \       <- 安装neutron,openstack的网络服务 ->

openstack-neutron \

openstack-neutron-ml2 \

openstack-neutron-linuxbridge \

ebtables

2.2.3在node2上安装

[root@linux-node2 ~]# yum installopenstack-nova-compute –y <- 计算节点nova->

[root@linux-node2 ~]# yum installopenstack-neutron-linuxbridge ebtables ipset –y                             <-计算节点neutron ->

2.3时间同步

[root@linux-node1 ~]# ntpdatetime1.aliyun.com     <- 两台机器均要做时间同步 ->

19 Dec 13:15:45 ntpdate[16110]: step timeserver 115.28.122.198 offset -28798.618654 sec

 

三.数据库环境及消息队列环境配置

2.1数据库配置

[root@linux-node1 ~]# cat/etc/my.cnf.d/openstack.cnf   <- 准备环境时配置的 ->

[mysqld]

bind-address = 192.168.56.11

 

default-storage-engine = innodb

innodb_file_per_table

max_connections = 4096

collation-server = utf8_general_ci

character-set-server = utf8

[root@linux-node1 ~]# systemctl enablemariadb.service   <- 允许数据库启动 ->

[root@linux-node1 ~]# systemctl startmariadb.service   <- 启动数据库 ->

[root@linux-node1 ~]#mysql_secure_installation      <- 设置密码并配置 ->

 

NOTE: RUNNING ALL PARTS OF THIS SCRIPT IS RECOMMENDEDFOR ALL MariaDB

     SERVERS IN PRODUCTION USE!  PLEASEREAD EACH STEP CAREFULLY!

 

In order to log into MariaDB to secure it,we'll need the current

password for the root user.  If you've just installed MariaDB, and

you haven't set the root password yet, thepassword will be blank,

so you should just press enter here.

 

Enter current password for root (enter fornone):

OK, successfully used password, moving on...

 

Setting the root password ensures thatnobody can log into the MariaDB

root user without the proper authorisation.

 

Set root password? [Y/n] y

New password:

Re-enter new password:

Password updated successfully!

Reloading privilege tables..

 ...Success!

 

 

By default, a MariaDB installation has ananonymous user, allowing anyone

to log into MariaDB without having to have auser account created for

them. This is intended only for testing, and to make the installation

go a bit smoother.  You should remove them before moving into a

production environment.

 

Remove anonymous users? [Y/n] y

 ...Success!

 

Normally, root should only be allowed toconnect from 'localhost'.  This

ensures that someone cannot guess at theroot password from the network.

 

Disallow root login remotely? [Y/n] y

 ...Success!

 

By default, MariaDB comes with a databasenamed 'test' that anyone can

access. This is also intended only for testing, and should be removed

before moving into a production environment.

 

Remove test database and access to it? [Y/n]y

 -Dropping test database...

 ...Success!

 -Removing privileges on test database...

 ...Success!

 

Reloading the privilege tables will ensurethat all changes made so far

will take effect immediately.

 

Reload privilege tables now? [Y/n] y

 ...Success!

 

Cleaning up...

 

All done! If you've completed all of the above steps, your MariaDB

installation should now be secure.

 

Thanks for using MariaDB!

 

2.2配置rabbitMQ消息队列

[root@linux-node1 ~]# systemctl enablerabbitmq-server.service

[root@linux-node1 ~]# systemctl startrabbitmq-server.service  <- 启动 ->

[root@linux-node1 ~]# rabbitmqctl add_useropenstack openstack  <- 添加用户 ->

Creating user "openstack" ...

[root@linux-node1 ~]# rabbitmqctlset_permissions openstack ".*" ".*" ".*"

Setting permissions for user"openstack" in vhost "/" ...     <- 设置权限->

[root@linux-node1 ~]# rabbitmq-pluginsenable rabbitmq_management <- 重启 ->

The following plugins have been enabled:

 mochiweb

 webmachine

 rabbitmq_web_dispatch

 amqp_client

 rabbitmq_management_agent

 rabbitmq_management

 

Applying plugin configuration torabbit@linux-node1... started 6 plugins.

 

页面访问:192.168.56.11:15672打开rabbitmq页面

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