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1:NIOConnector(负责链接mysql数据库,连接池以数据库为准不以链接字符串为准),
1:NIOAcceptor,ManagerConnectionFactory(管理模块,默认端口9066)
2:NIOAcceptor,ServerConnectionFactory(mysql服务模块,默认端口8066)
这里介绍下管理模块的启动流程
mycat分别实现了NIO和AIO,由于linux当前没有真正实现AIO这里主要介绍NIO的流程。
NIO的Reactor与AIO的Proactor两种模式的场景区别:
下面是Reactor的做法:
1. 等待事件响应 (Reactor job)
2. 分发 “Ready-to-Read” 事件给用户句柄 ( Reactor job)
3. 读数据 (user handler job)
4. 处理数据( user handler job)
下面再来看看真正意义的异步模式Proactor是如何做的:
1. 等待事件响应 (Proactor job)
2. 读数据 (Proactor job)
3. 分发 “Read-Completed” 事件给用户句柄 (Proactor job)
4. 处理数据(user handler job)
mycat的NIO实现
Selector(选择器)是Java NIO中能够检测一到多个NIO通道,并能够知晓通道是否为诸如读写事件做好准备的组件。这样,一个单独的线程可以管理多个channel,从而管理多个网络连接。
Selector可以监听四种不同类型的事件:
- Connect
- Accept
- Read
- Write
这四种事件用SelectionKey的四个常量来表示:
- SelectionKey.OP_CONNECT
- SelectionKey.OP_ACCEPT
- SelectionKey.OP_READ
- SelectionKey.OP_WRITE
前面已经说了,NIO采用的Reactor模式:例如汽车是乘客访问的主体(Reactor),乘客上车后,到售票员(acceptor)处登记,之后乘客便可以休息睡觉去了,当到达乘客所要到达的目的地后,售票员将其唤醒即可。
核心顺序
1:new ManagerConnectionFactory extends FrontendConnectionFactory
2:new NIOReactorPool,new NIOReactor,new RW中new ConcurrentLinkedQueue<AbstractConnection>()而AbstractConnection中new NIOSocketWR
3:new NIOAcceptor中向反应堆中注册了OP_ACCEPT,该类继承了Thread然后start启动
channel = serverChannel.accept(); channel.configureBlocking(false); FrontendConnection c = factory.make(channel); c.setAccepted(true); c.setId(ID_GENERATOR.getId()); NIOProcessor processor = (NIOProcessor) MycatServer.getInstance() .nextProcessor(); c.setProcessor(processor); LOGGER.info("accept"); NIOReactor reactor = reactorPool.getNextReactor(); reactor.postRegister(c);
factory.make(channel):最终构造了ManagerQueryHandler(管理命令解析器)和FrontendAuthenticator(mycat权限解析器)
reactor.postRegister(c):把当前链接添加到reactor的registerQueue中并唤醒reactor的selector
在NIOReactor的registerQueue为空的时候run循环空运转,当上一步把accept的链接放到队列的时候则
for (;;) { ++reactCount; try { selector.select(500L); register(selector); keys = selector.selectedKeys(); for (SelectionKey key : keys) { AbstractConnection con = null; try { Object att = key.attachment(); if (att != null) { con = (AbstractConnection) att; if (key.isValid() && key.isReadable()) { try { con.asynRead(); } catch (IOException e) { con.close("program err:" + e.toString()); continue; } catch (Exception e) { LOGGER.debug("caught err:", e); con.close("program err:" + e.toString()); continue; } } if (key.isValid() && key.isWritable()) { con.doNextWriteCheck(); } } else { key.cancel(); } } catch (CancelledKeyException e) { if (LOGGER.isDebugEnabled()) { LOGGER.debug(con + " socket key canceled"); } } catch (Exception e) { LOGGER.warn(con + " " + e); } } } catch (Exception e) { LOGGER.warn(name, e); } finally { if (keys != null) { keys.clear(); } }
register(selector);也即
((NIOSocketWR) c.getSocketWR()).register(selector); 注册OP_READ事件
c.register();即FrontendConnection的register发送握手数据包
con.asynRead();即NIOSocketWR的asynRead即
public void asynRead() throws IOException { LOGGER.info("asynRead"); ByteBuffer theBuffer = con.readBuffer; if (theBuffer == null) { theBuffer = con.processor.getBufferPool().allocate(); con.readBuffer = theBuffer; } int got = channel.read(theBuffer); con.onReadData(got); }
con.onReadData(got);即AbstractConnection的onReadData这里拆包得到完成的数据包后调用
handler.handle(data);也即FrontendAuthenticator的handle在这里check user;check password;check schema如果失败则将失败信息写入缓冲区,如果成功
则把AbstractConnection的默认hander从FrontendAuthenticator换成FrontendCommandHandler等待接下来的处理(比如show命令等,
以上的处理是发生在输入mysql -utest -ptest -h10.97.177.83 -P9066时)
认证完成后下一次的handler.handle(data)则使用FrontendCommandHandler的handle来处理也即
public void handle(byte[] data) { if(source.getLoadDataInfileHandler()!=null&&source.getLoadDataInfileHandler().isStartLoadData()) { MySQLMessage mm = new MySQLMessage(data); int packetLength = mm.readUB3(); if(packetLength+4==data.length) { source.loadDataInfileData(data); } return; } switch (data[4]) { case MySQLPacket.COM_INIT_DB: commands.doInitDB(); source.initDB(data); break; case MySQLPacket.COM_QUERY: commands.doQuery(); source.query(data); break; case MySQLPacket.COM_PING: commands.doPing(); source.ping(); break; case MySQLPacket.COM_QUIT: commands.doQuit(); source.close("quit cmd"); break; case MySQLPacket.COM_PROCESS_KILL: commands.doKill(); source.kill(data); break; case MySQLPacket.COM_STMT_PREPARE: commands.doStmtPrepare(); source.stmtPrepare(data); break; case MySQLPacket.COM_STMT_EXECUTE: commands.doStmtExecute(); source.stmtExecute(data); break; case MySQLPacket.COM_STMT_CLOSE: commands.doStmtClose(); source.stmtClose(data); break; case MySQLPacket.COM_HEARTBEAT: commands.doHeartbeat(); source.heartbeat(data); break; default: commands.doOther(); source.writeErrMessage(ErrorCode.ER_UNKNOWN_COM_ERROR, "Unknown command"); } }
source.query(data);即queryHandler.query(sql);这里的queryHandler是ManagerQueryHandler即
public void query(String sql) { ManagerConnection c = this.source; if (LOGGER.isDebugEnabled()) { LOGGER.debug(new StringBuilder().append(c).append(sql).toString()); } int rs = ManagerParse.parse(sql); switch (rs & 0xff) { case ManagerParse.SELECT: SelectHandler.handle(sql, c, rs >>> SHIFT); break; case ManagerParse.SET: c.write(c.writeToBuffer(OkPacket.OK, c.allocate())); break; case ManagerParse.SHOW: ShowHandler.handle(sql, c, rs >>> SHIFT); break; case ManagerParse.SWITCH: SwitchHandler.handler(sql, c, rs >>> SHIFT); break; case ManagerParse.KILL_CONN: KillConnection.response(sql, rs >>> SHIFT, c); break; case ManagerParse.OFFLINE: Offline.execute(sql, c); break; case ManagerParse.ONLINE: Online.execute(sql, c); break; case ManagerParse.STOP: StopHandler.handle(sql, c, rs >>> SHIFT); break; case ManagerParse.RELOAD: ReloadHandler.handle(sql, c, rs >>> SHIFT); break; case ManagerParse.ROLLBACK: RollbackHandler.handle(sql, c, rs >>> SHIFT); break; case ManagerParse.CLEAR: ClearHandler.handle(sql, c, rs >>> SHIFT); break; case ManagerParse.CONFIGFILE: ConfFileHandler.handle(sql, c); break; case ManagerParse.LOGFILE: ShowServerLog.handle(sql, c); break; default: c.writeErrMessage(ErrorCode.ER_YES, "Unsupported statement"); } }
mycat的网络处理逻辑上是通过队列加上后台线程来实现了accept和read的解耦从而实现了高性能,但是代码写的就不敢恭维。
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原文地址:http://www.cnblogs.com/tommyli/p/5127550.html