mongodb中的副本集搭建实践

准备运行1个主节点,2个从节点,从节点中其中是一个是仲裁节点(Arb)。

sudo mongod --replSet application --dbpath /data/node1/ --port  --oplogSize
sudo mongod --replSet application --dbpath /data/node2/ --port --oplogSize
sudo mongod --replSet application --dbpath /data/arbiter/ --port --oplogSize

其中application是副本集的名称,节点必须相同,–dbpath指定数据库储存路径,–port指定侦听端口,–oplogSize指定数据同步之前的缓存的空间大小,暂时指定1G。选择9927端口的实例为主节点,进入9927的shell:

mongo localhost:

初始化副本集需要配置表,申明配置表如下:

config = {_id: "application", members: []}

注意_id和副本集启动的共享名称一致。下面来逐步添加节点的数据信息:

config.members.push({_id: , host: "localhost:9927"})
config.members.push({_id: , host: "localhost:9928"})
config.members.push({_id: , host: "localhost:9929", arbiterOnly: true})

也可以使用rs.add和rs.addArb函数来实现同样的操作。然后需要用这个表作为参数初始化副本集,在9927端口的shell执行:

> rs.initiate(config)
{
"info" : "Config now saved locally. Should come online in about a minute.",
"ok" :
}

返回ok为1表示初始化成功,三个节点互相检测通信,需要1分钟左右(反应够慢的 ^-),可以查看三个终端窗口的信息确认,完成通信后,在9927端口的shell回车执行命令确认配置:

> rs.isMaster()
{
"setName" : "application",
"ismaster" : true,
"secondary" : false,
"hosts" : [
"localhost:9927",
"localhost:9928"
],
"arbiters" : [
"localhost:9929"
],
"primary" : "localhost:9927",
"me" : "localhost:9927",
"maxBsonObjectSize" : ,
"localTime" : ISODate("2013-01-26T13:34:03.378Z"),
"ok" :
}

注意到9927端口的实例ismaster是true,secondary为false,hosts有2个实例,arbiter有1个元素,primary关键key表示了主节点,通信完成几次回车后可以看到9927的端口的实例shell的提示符已经改变,更改为application:PRIMARY,查看更详细的信息:

application:PRIMARY> rs.status()
{
"set" : "application",
"date" : ISODate("2013-01-26T13:34:35Z"),
"myState" : ,
"members" : [
{
"_id" : ,
"name" : "localhost:9927",
"health" : ,
"state" : ,
"stateStr" : "PRIMARY",
"uptime" : ,
"optime" : Timestamp(, ),
"optimeDate" : ISODate("2013-01-26T13:33:20Z"),
"self" : true
},
{
"_id" : ,
"name" : "localhost:9928",
"health" : ,
"state" : ,
"stateStr" : "SECONDARY",
"uptime" : ,
"optime" : Timestamp(, ),
"optimeDate" : ISODate("2013-01-26T13:33:20Z"),
"lastHeartbeat" : ISODate("2013-01-26T13:34:34Z"),
"pingMs" :
},
{
"_id" : ,
"name" : "localhost:9929",
"health" : ,
"state" : ,
"stateStr" : "ARBITER",
"uptime" : ,
"lastHeartbeat" : ISODate("2013-01-26T13:34:34Z"),
"pingMs" :
}
],
"ok" :
}

显示了每个节点的健康状况,名称,启动的时间,节点的类型等。查看当前副本集的配置表:

application:PRIMARY> rs.conf()
{
"_id" : "application",
"version" : ,
"members" : [
{
"_id" : ,
"host" : "localhost:9927"
},
{
"_id" : ,
"host" : "localhost:9928"
},
{
"_id" : ,
"host" : "localhost:9929",
"arbiterOnly" : true
}
]
}

插入测试数据:

application:PRIMARY> db.users.insert({username: "visionwang", age: })

进入9928从节点,执行查看集合:

application:SECONDARY> show collections
application:SECONDARY> show collections
Sat Jan :: uncaught exception: error: { "$err" : "not master and slaveOk=false", "code" : 13435 }

发现shell抛出了异常,显示slaveOK为false,当前副本集需要明确从节点参数,执行函数:

application:SECONDARY> rs.slaveOk()
application:SECONDARY> show collections
system.indexes
users

查询测试数据:

application:SECONDARY> db.users.find()
{ "_id" : ObjectId("5103dbc8f556a05a96a28e69"), "username" : "visionwang", "age" : }

插入数据没有抛出异常,但是显示not master,表示当前从节点是只读的:

application:SECONDARY> db.users.insert({username: "nl", age: })
not master

切换到9927主节点,使用系统空间库查询副本集信息:

application:PRIMARY> db.system.replset.findOne()
{
"_id" : "application",
"version" : ,
"members" : [
{
"_id" : ,
"host" : "localhost:9927"
},
{
"_id" : ,
"host" : "localhost:9928"
},
{
"_id" : ,
"host" : "localhost:9929",
"arbiterOnly" : true
}
]
}
application:PRIMARY> db.getReplicationInfo()
{
"logSizeMB" : ,
"usedMB" : 0.01,
"timeDiff" : ,
"timeDiffHours" : 0.05,
"tFirst" : "Sat Jan 26 2013 21:33:20 GMT+0800 (CDT)",
"tLast" : "Sat Jan 26 2013 21:36:09 GMT+0800 (CDT)",
"now" : "Sat Jan 26 2013 21:48:07 GMT+0800 (CDT)"
}

进入9929端口,可以看到仲裁节点的提示符号:

mongo localhost:
application:ARBITER>

执行故障转移测试,可以ctrl+c掉9927的主节点,观察终端信息提示,9927处于down状态,9928从节点自举为主节点,回车后发现shell提示符号已经更改为application:PRIMARY,再将9927上线,添加为从节点,再ctrl+c掉9928节点,经过少许时间,9927端口又恢复成主节点,再将9928上线,系统恢复到初始的副本集,仲裁节点的作用是协调leader选举,监测系统运行状态,提供节点互相通讯的数据信息。

mongodb也支持简单的主从复制,但是有了强大的副本集,几乎找不到什么理由使用简单的主从复制策略,甚至mongodb的分片(auto-sharding)也是使用副本集实现。

51CTO也有一个windows上面的版本http://database.51cto.com/art/201301/379033.htm。

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