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Netty源码分析之服务启动
本节主要分析server的启动过程。
Netty是基于Nio实现的,所以也离不开selector、serverSocketChannel、socketChannel和selectKey等,只不过Netty把这些实现都封装在了底层。
从示例可以看出,一切从ServerBootstrap开始。
ServerBootstrap实例中需要两个NioEventLoopGroup实例,分别为boss和work,有不同的分工:
1、 boss负责请求的accept操作。
2、 work负责请求的read、write和处理操作。
NioEventLoopGroup
NioEventLoopGroup主要负责管理eventLoop的生命周期,eventLoop数量默认为处理器个数的两倍。
NioEventLoopGroup
继承关系如下:
NioEventLoopGroup
NioEventLoopGroup构造方法:
public NioEventLoopGroup() { this(0); } public NioEventLoopGroup(int nThreads) { this(nThreads, null); } public NioEventLoopGroup(int nThreads, ThreadFactory threadFactory) { this(nThreads, threadFactory, SelectorProvider.provider()); } public NioEventLoopGroup( int nThreads, ThreadFactory threadFactory, final SelectorProvider selectorProvider) { super(nThreads, threadFactory, selectorProvider); }
MultithreadEventLoopGroup构造方法:
protected MultithreadEventLoopGroup(int nThreads, ThreadFactory threadFactory, Object... args) { super(nThreads == 0? DEFAULT_EVENT_LOOP_THREADS : nThreads, threadFactory, args); }
其中 DEFAULT_EVENT_LOOP_THREADS 为处理器数量的两倍。
MultithreadEventExecutorGroup是核心,管理eventLoop的生命周期,先看看其中几个变量。
1、children:EventExecutor数组,保存eventLoop。
2、chooser:从children中选取一个eventLoop的策略。
构造方法:
protected MultithreadEventExecutorGroup(int nThreads, ThreadFactory threadFactory, Object... args) { if (nThreads <= 0) { throw new IllegalArgumentException(String.format("nThreads: %d (expected: > 0)", nThreads)); } if (threadFactory == null) { threadFactory = newDefaultThreadFactory(); } children = new SingleThreadEventExecutor[nThreads]; if (isPowerOfTwo(children.length)) { chooser = new PowerOfTwoEventExecutorChooser(); } else { chooser = new GenericEventExecutorChooser(); } for (int i = 0; i < nThreads; i ++) { boolean success = false; try { children[i] = newChild(threadFactory, args); success = true; } catch (Exception e) { // TODO: Think about if this is a good exception type throw new IllegalStateException("failed to create a child event loop", e); } finally { if (!success) { for (int j = 0; j < i; j ++) { children[j].shutdownGracefully(); } for (int j = 0; j < i; j ++) { EventExecutor e = children[j]; try { while (!e.isTerminated()) { e.awaitTermination(Integer.MAX_VALUE, TimeUnit.SECONDS); } } catch (InterruptedException interrupted) { Thread.currentThread().interrupt(); break; } } } } } final FutureListener<Object> terminationListener = new FutureListener<Object>() { @Override public void operationComplete(Future<Object> future) throws Exception { if (terminatedChildren.incrementAndGet() == children.length) { terminationFuture.setSuccess(null); } } }; for (EventExecutor e: children) { e.terminationFuture().addListener(terminationListener); } } protected EventExecutor newChild( ThreadFactory threadFactory, Object... args) throws Exception { return new NioEventLoop(this, threadFactory, (SelectorProvider) args[0]); }
1、 根据数组的大小,采用不同策略初始化chooser。
如果大小为2的幂次方,则采用PowerOfTwoEventExecutorChooser;否则使用GenericEventExecutorChooser。
判断一个数是否是2的幂次方的方法,觉得很赞。
private static boolean isPowerOfTwo(int val) {
return (val & -val) == val;
}2、newChild方法重载,初始化EventExecutor时,实际执行的是NioEventLoopGroup中的newChild方法,所以,children元素的实际类型为NioEventLoop。
接下去看看NioEventLoop类。
NioEventLoop
每个eventLoop会维护一个selector和taskQueue,负责处理客户端请求和内部任务,如ServerSocketChannel注册和ServerSocket绑定等。
NioEventLoop
继承关系如下:
NioEventLoop
构造方法:
NioEventLoop(NioEventLoopGroup parent, ThreadFactory threadFactory, SelectorProvider selectorProvider) { super(parent, threadFactory, false); if (selectorProvider == null) { throw new NullPointerException("selectorProvider"); } provider = selectorProvider; selector = openSelector(); }
当看到 selector = openSelector() 时,有没有觉得亲切了许多,这里先不管 selector,看看SingleThreadEventLoop类。
SingleThreadEventLoop 构造方法:
protected SingleThreadEventLoop(EventLoopGroup parent, ThreadFactory threadFactory, boolean addTaskWakesUp) { super(parent, threadFactory, addTaskWakesUp); }
啥事都没做...
SingleThreadEventExecutor
从命名上可以看出,这是一个只有一个线程的线程池, 先看看其中的几个变量:
1、state:线程池当前的状态
2、taskQueue:存放任务的队列
3、thread:线程池维护的唯一线程
4、scheduledTaskQueue:定义在其父类AbstractScheduledEventExecutor中,用以保存延迟执行的任务。
...
构造方法:
protected SingleThreadEventExecutor(EventExecutorGroup parent, ThreadFactory threadFactory, boolean addTaskWakesUp) { if (threadFactory == null) { throw new NullPointerException("threadFactory"); } this.parent = parent; this.addTaskWakesUp = addTaskWakesUp; thread = threadFactory.newThread(new Runnable() { @Override public void run() { boolean success = false; updateLastExecutionTime(); try { SingleThreadEventExecutor.this.run(); success = true; } catch (Throwable t) { logger.warn("Unexpected exception from an event executor: ", t); } finally { for (;;) { int oldState = STATE_UPDATER.get(SingleThreadEventExecutor.this); if (oldState >= ST_SHUTTING_DOWN || STATE_UPDATER.compareAndSet( SingleThreadEventExecutor.this, oldState, ST_SHUTTING_DOWN)) { break; } } // Check if confirmShutdown() was called at the end of the loop. if (success && gracefulShutdownStartTime == 0) { logger.error( "Buggy " + EventExecutor.class.getSimpleName() + " implementation; " + SingleThreadEventExecutor.class.getSimpleName() + ".confirmShutdown() must be called " + "before run() implementation terminates."); } try { // Run all remaining tasks and shutdown hooks. for (;;) { if (confirmShutdown()) { break; } } } finally { try { cleanup(); } finally { STATE_UPDATER.set(SingleThreadEventExecutor.this, ST_TERMINATED); threadLock.release(); if (!taskQueue.isEmpty()) { logger.warn( "An event executor terminated with " + "non-empty task queue (" + taskQueue.size() + ‘)‘); } terminationFuture.setSuccess(null); } } } } }); threadProperties = new DefaultThreadProperties(thread); taskQueue = newTaskQueue(); }
代码很长,内容很简单:
1、初始化一个线程,并在线程内部执行NioEventLoop类的run方法,当然这个线程不会立刻执行。
2、使用LinkedBlockingQueue类初始化taskQueue。
ServerBootstrap
通过serverBootstrap.bind(port)启动服务,过程如下:
bind过程
doBind实现如下
private ChannelFuture doBind(final SocketAddress localAddress) { final ChannelFuture regFuture = initAndRegister(); final Channel channel = regFuture.channel(); if (regFuture.cause() != null) { return regFuture; } if (regFuture.isDone()) { // At this point we know that the registration was complete and successful. ChannelPromise promise = channel.newPromise(); doBind0(regFuture, channel, localAddress, promise); return promise; } else { // Registration future is almost always fulfilled already, but just in case it‘s not. final PendingRegistrationPromise promise = new PendingRegistrationPromise(channel); regFuture.addListener(new ChannelFutureListener() { @Override public void operationComplete(ChannelFuture future) throws Exception { Throwable cause = future.cause(); if (cause != null) { // Registration on the EventLoop failed so fail the ChannelPromise directly to not cause an // IllegalStateException once we try to access the EventLoop of the Channel. promise.setFailure(cause); } else { // Registration was successful, so set the correct executor to use. // See https://github.com/netty/netty/issues/2586 promise.executor = channel.eventLoop(); } doBind0(regFuture, channel, localAddress, promise); } }); return promise; } }
1、方法initAndRegister返回一个ChannelFuture实例regFuture,通过regFuture可以判断initAndRegister执行结果。
2、如果regFuture.isDone()为true,说明initAndRegister已经执行完,则直接执行doBind0进行socket绑定。
3、否则regFuture添加一个ChannelFutureListener监听,当initAndRegister执行完成时,调用operationComplete方法并执行doBind0进行socket绑定。
所以只有当initAndRegister操作结束之后才能进行bind操作。
initAndRegister
final ChannelFuture initAndRegister() { final Channel channel = channelFactory().newChannel(); try { init(channel); } catch (Throwable t) { channel.unsafe().closeForcibly(); // as the Channel is not registered yet we need to force the usage of the GlobalEventExecutor return new DefaultChannelPromise(channel, GlobalEventExecutor.INSTANCE).setFailure(t); } ChannelFuture regFuture = group().register(channel); if (regFuture.cause() != null) { if (channel.isRegistered()) { channel.close(); } else { channel.unsafe().closeForcibly(); } } return regFuture; }
1、主要负责创建服务端channel,在本例子中,创建了NioServerSocketChannel。
2、为NioServerSocketChannel的pipeline添加handler。
3、注册NioServerSocketChannel到selector。
NioServerSocketChannel
对Nio的ServerSocketChannel和SelectionKey进行了封装。
继承关系:
NioServerSocketChannel继承关系
构造方法:
public NioServerSocketChannel() { this(newSocket(DEFAULT_SELECTOR_PROVIDER)); } private static ServerSocketChannel newSocket(SelectorProvider provider) { try { return provider.openServerSocketChannel(); } catch (IOException e) { throw new ChannelException( "Failed to open a server socket.", e); } }
public NioServerSocketChannel(ServerSocketChannel channel) { super(null, channel, SelectionKey.OP_ACCEPT); config = new NioServerSocketChannelConfig(this, javaChannel().socket()); }
1、方法newSocket利用 provider.openServerSocketChannel() 生成Nio中的ServerSocketChannel对象。
2、设置SelectionKey.OP_ACCEPT事件。
AbstractNioMessageChannel构造方法
protected AbstractNioMessageChannel(Channel parent, SelectableChannel ch, int readInterestOp) { super(parent, ch, readInterestOp); }
啥也没做...
AbstractNioChannel构造方法
protected AbstractNioChannel(Channel parent, SelectableChannel ch, int readInterestOp) { super(parent); this.ch = ch; this.readInterestOp = readInterestOp; try { ch.configureBlocking(false); } catch (IOException e) { try { ch.close(); } catch (IOException e2) { if (logger.isWarnEnabled()) { logger.warn( "Failed to close a partially initialized socket.", e2); } } throw new ChannelException("Failed to enter non-blocking mode.", e); } }
设置当前ServerSocketChannel为非阻塞通道。
AbstractChannel构造方法
protected AbstractChannel(Channel parent) { this.parent = parent; unsafe = newUnsafe(); pipeline = new DefaultChannelPipeline(this); }
1、初始化unsafe。
这里的Unsafe并非是jdk中底层Unsafe类,用来负责底层的connect、register、read和write等操作。
2、初始化pipeline。
每个Channel都有自己的pipeline,当有请求事件发生时,pipeline负责调用相应的hander进行处理。
unsafe和pipeline的具体实现原理会在后续进行分析。
回到ServerBootstrap的init(Channel channel)方法,添加handler到channel的pipeline中。
void init(Channel channel) throws Exception { final Map<ChannelOption<?>, Object> options = options(); synchronized (options) { channel.config().setOptions(options); } final Map<AttributeKey<?>, Object> attrs = attrs(); synchronized (attrs) { for (Entry<AttributeKey<?>, Object> e: attrs.entrySet()) { @SuppressWarnings("unchecked") AttributeKey<Object> key = (AttributeKey<Object>) e.getKey(); channel.attr(key).set(e.getValue()); } } ChannelPipeline p = channel.pipeline(); final EventLoopGroup currentChildGroup = childGroup; final ChannelHandler currentChildHandler = childHandler; final Entry<ChannelOption<?>, Object>[] currentChildOptions; final Entry<AttributeKey<?>, Object>[] currentChildAttrs; synchronized (childOptions) { currentChildOptions = childOptions.entrySet().toArray(newOptionArray(childOptions.size())); } synchronized (childAttrs) { currentChildAttrs = childAttrs.entrySet().toArray(newAttrArray(childAttrs.size())); } p.addLast(new ChannelInitializer<Channel>() { @Override public void initChannel(Channel ch) throws Exception { ChannelPipeline pipeline = ch.pipeline(); ChannelHandler handler = handler(); if (handler != null) { pipeline.addLast(handler); } pipeline.addLast(new ServerBootstrapAcceptor( currentChildGroup, currentChildHandler, currentChildOptions, currentChildAttrs)); } }); }
1、设置channel的options和attrs。
2、在pipeline中添加一个ChannelInitializer对象。
init执行完,需要把当前channel注册到EventLoopGroup。
其实最终目的是为了实现Nio中把ServerSocket注册到selector上,这样就可以实现client请求的监听了。
看看Netty中是如何实现的:
public ChannelFuture register(Channel channel, ChannelPromise promise) { return next().register(channel, promise); } public EventLoop next() { return (EventLoop) super.next(); } public EventExecutor next() { return children[Math.abs(childIndex.getAndIncrement() % children.length)]; }
因为EventLoopGroup中维护了多个eventLoop,next方法会调用chooser策略找到下一个eventLoop,并执行eventLoop的register方法进行注册。
public ChannelFuture register(final Channel channel, final ChannelPromise promise) { ... channel.unsafe().register(this, promise); return promise; }
channel.unsafe()是什么?
NioServerSocketChannel初始化时,会创建一个NioMessageUnsafe实例,用于实现底层的register、read、write等操作。
eventLoop.execute(new Runnable() { @Override public void run() { register0(promise); } }); private void register0(ChannelPromise promise) { try { if (!ensureOpen(promise)) { return; } Runnable postRegisterTask = doRegister(); registered = true; promise.setSuccess(); pipeline.fireChannelRegistered(); if (postRegisterTask != null) { postRegisterTask.run(); } if (isActive()) { pipeline.fireChannelActive(); } } catch (Throwable t) { // Close the channel directly to avoid FD leak. closeForcibly(); if (!promise.tryFailure(t)) { } closeFuture.setClosed(); } } public void execute(Runnable task) { if (task == null) { throw new NullPointerException("task"); } boolean inEventLoop = inEventLoop(); if (inEventLoop) { addTask(task); } else { startThread(); addTask(task); if (isShutdown() && removeTask(task)) { reject(); } } if (!addTaskWakesUp) { wakeup(inEventLoop); } }
1、register0方法提交到eventLoop线程池中执行,这个时候会启动eventLoop中的线程。
2、方法doRegister()才是最终Nio中的注册方法,方法javaChannel()获取ServerSocketChannel。
protected Runnable doRegister() throws Exception { boolean selected = false; for (;;) { try { selectionKey = javaChannel().register(eventLoop().selector, 0, this); return null; } catch (CancelledKeyException e) { if (!selected) { // Force the Selector to select now as the "canceled" SelectionKey may still be // cached and not removed because no Select.select(..) operation was called yet. eventLoop().selectNow(); selected = true; } else { // We forced a select operation on the selector before but the SelectionKey is still cached // for whatever reason. JDK bug ? throw e; } } } }
ServerSocketChannel注册完之后,通知pipeline执行fireChannelRegistered方法,pipeline中维护了handler链表,通过遍历链表,执行InBound类型handler的channelRegistered方法,最终执行init中添加的ChannelInitializer handler。
public final void channelRegistered(ChannelHandlerContext ctx) throws Exception { boolean removed = false; boolean success = false; try { initChannel((C) ctx.channel()); ctx.pipeline().remove(this); removed = true; ctx.fireChannelRegistered(); success = true; } catch (Throwable t) { logger.warn("Failed to initialize a channel. Closing: " + ctx.channel(), t); } finally { if (!removed) { ctx.pipeline().remove(this); } if (!success) { ctx.close(); } } }
1、initChannel方法最终把ServerBootstrapAcceptor添加到ServerSocketChannel的pipeline,负责accept客户端请求。
2、在pipeline中删除对应的handler。
3、触发fireChannelRegistered方法,可以自定义handler的channelRegistered方法。
到目前为止,ServerSocketChannel完成了初始化并注册到seletor上,启动线程执行selector.select()方法准备接受客户端请求。
细心的同学已经发现,ServerSocketChannel的socket还未绑定到指定端口,那么这一块Netty是如何实现的?
Netty把注册操作放到eventLoop中执行。
private static void doBind0( final ChannelFuture regFuture, final Channel channel, final SocketAddress localAddress, final ChannelPromise promise) { channel.eventLoop().execute(new Runnable() { @Override public void run() { if (regFuture.isSuccess()) { channel.bind(localAddress, promise) .addListener(ChannelFutureListener.CLOSE_ON_FAILURE); } else { promise.setFailure(regFuture.cause()); } } }); } public ChannelFuture bind(SocketAddress localAddress, ChannelPromise promise) { return pipeline.bind(localAddress, promise); } @Override public ChannelFuture bind(SocketAddress localAddress, ChannelPromise promise) { return tail.bind(localAddress, promise); } @Override public ChannelFuture bind(SocketAddress localAddress, ChannelPromise promise) { if (localAddress == null) { throw new NullPointerException("localAddress"); } validatePromise(promise, false); return findContextOutbound().invokeBind(localAddress, promise); } private ChannelFuture invokeBind(final SocketAddress localAddress, final ChannelPromise promise) { EventExecutor executor = executor(); if (executor.inEventLoop()) { invokeBind0(localAddress, promise); } else { executor.execute(new Runnable() { @Override public void run() { invokeBind0(localAddress, promise); } }); } return promise; } private void invokeBind0(SocketAddress localAddress, ChannelPromise promise) { try { ((ChannelOutboundHandler) handler()).bind(this, localAddress, promise); } catch (Throwable t) { notifyOutboundHandlerException(t, promise); } } @Override public void bind( ChannelHandlerContext ctx, SocketAddress localAddress, ChannelPromise promise) throws Exception { unsafe.bind(localAddress, promise); }
最终由unsafe实现端口的bind操作。
public final void bind(final SocketAddress localAddress, final ChannelPromise promise) { if (!ensureOpen(promise)) { return; } try { boolean wasActive = isActive(); ... doBind(localAddress); promise.setSuccess(); if (!wasActive && isActive()) { pipeline.fireChannelActive(); } } catch (Throwable t) { promise.setFailure(t); closeIfClosed(); } } protected void doBind(SocketAddress localAddress) throws Exception { javaChannel().socket().bind(localAddress, config.getBacklog()); }
bind完成后,且ServerSocketChannel也已经注册完成,则触发pipeline的fireChannelActive方法,所以在这里可以自定义fireChannelActive方法,默认执行tail的fireChannelActive。
@Override public ChannelPipeline fireChannelActive() { head.fireChannelActive(); if (channel.config().isAutoRead()) { channel.read(); } return this; }
channel.read()方法会触发pipeline的行为:
@Override public Channel read() { pipeline.read(); return this; } @Override public ChannelPipeline read() { tail.read(); return this; } @Override public ChannelHandlerContext read() { findContextOutbound().invokeRead(); return this; } private void invokeRead() { EventExecutor executor = executor(); if (executor.inEventLoop()) { invokeRead0(); } else { Runnable task = invokeRead0Task; if (task == null) { invokeRead0Task = task = new Runnable() { @Override public void run() { invokeRead0(); } }; } executor.execute(task); } } private void invokeRead0() { try { ((ChannelOutboundHandler) handler()).read(this); } catch (Throwable t) { notifyHandlerException(t); } }
最终会在pipeline中找到handler执行read方法,默认是head。
至此为止,server已经启动完成。
Netty源码分析之服务启动
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