在Server启动的时候,启动NIO连接器,此时判断oomParachute的配置是否大于0,由于默认为 1024 * 1024,
因此在执行NioEndpoint.bind时,
bind() {
...
if (oomParachute>0) reclaimParachute(true);
...
}
protected boolean reclaimParachute(boolean force) {
if ( oomParachuteData != null ) return true;
if ( oomParachute > 0 && ( force || (Runtime.getRuntime().freeMemory() > (oomParachute*2))) )
oomParachuteData = new byte[oomParachute];
return oomParachuteData != null;
}
上面oomParachute > 0 并且 force传入值为true,因此,此处会创建 oomParachuteData,值为1M的byte数组
注意:是每个connector都会创建一个,
[2014-04-16 16:01:18] [WARNING] [System.out] [java.lang.OutOfMemoryError: Java heap space]
[2014-04-16 16:01:19] [WARNING] [System.out] [Exception in thread "RMI TCP Connection(idle)" ]
[2014-04-16 16:01:19] [WARNING] [System.out] [java.lang.OutOfMemoryError: Java heap space]
[2014-04-16 16:01:19] [WARNING] [System.out] [Exception in thread "RMI TCP Connection(idle)" ]
[2014-04-16 16:01:19] [WARNING] [System.out] [java.lang.OutOfMemoryError: Java heap space]
[2014-04-16 16:02:54] [SEVERE] [web-container] []
java.lang.OutOfMemoryError: Java heap space
at com.tongweb.web.webutil.util.buf.ByteChunk.allocate(ByteChunk.java:168)
at com.tongweb.web.webutil.util.buf.ByteChunk.
at com.tongweb.web.oro.http11.filters.BufferedInputFilter.
)
at com.tongweb.web.oro.http11.AbstractHttp11Processor.initializeFilters(AbstractHttp11Proces
sor.java:698)
at com.tongweb.web.oro.http11.Http11NioProcessor.
at com.tongweb.web.oro.http11.ThorHttp11NioProcessor.
at com.tongweb.web.oro.http11.ThorHttp11NioProtocol$ThorHttp11ConnectionHandler.createProces
sor(ThorHttp11NioProtocol.java:27)
at com.tongweb.web.oro.http11.ThorHttp11NioProtocol$ThorHttp11ConnectionHandler.createProces
sor(ThorHttp11NioProtocol.java:17)
at com.tongweb.web.oro.AbstractProtocol$AbstractConnectionHandler.process(AbstractProtocol.j
ava:569)
at com.tongweb.web.webutil.util.net.NioEndpoint$SocketProcessor.run(NioEndpoint.java:1653)
at com.tongweb.web.webutil.util.threads.TWThreadPoolExecutor.runWorker(TWThreadPoolExecutor.
java:1165)
at com.tongweb.web.webutil.util.threads.TWThreadPoolExecutor$Worker.run(TWThreadPoolExecutor
.java:622)
at java.lang.Thread.run(Thread.java:662)
[2014-04-16 16:03:05] [SEVERE] [web-container] []
java.lang.OutOfMemoryError: Java heap space
[2014-04-16 16:05:34] [SEVERE] [web-container] []
java.lang.OutOfMemoryError: Java heap space
[2014-04-16 16:05:56] [SEVERE] [web-container] [SEVERE:Memory usage is low, parachute is non existen
t, your system may start failing.]
[2014-04-16 16:06:10] [SEVERE] [web-container] [SEVERE:Memory usage is low, parachute is non existen
t, your system may start failing.]
[2014-04-16 16:06:20] [SEVERE] [web-container] [SEVERE:Memory usage is low, parachute is non existen
t, your system may start failing.]
[2014-04-16 16:06:22] [SEVERE] [web-container] []
java.lang.OutOfMemoryError: Java heap space
[2014-04-16 16:06:26] [SEVERE] [web-container] [SEVERE:Memory usage is low, parachute is non existen
t, your system may start failing.]
[2014-04-16 16:06:30] [SEVERE] [web-container] [SEVERE:Memory usage is low, parachute is non existen
t, your system may start failing.]
[2014-04-16 16:06:31] [SEVERE] [web-container] []
java.lang.OutOfMemoryError: Java heap space
[2014-04-16 16:06:36] [SEVERE] [web-container] [SEVERE:Memory usage is low, parachute is non existen
t, your system may start failing.]
[2014-04-16 16:06:40] [SEVERE] [web-container] [SEVERE:Memory usage is low, parachute is non existen
t, your system may start failing.]
[2014-04-16 16:06:46] [SEVERE] [web-container] [SEVERE:Memory usage is low, parachute is non existen
t, your system may start failing.]
目前可以模拟相应的场景,在OOM产生时,该内存块会被置为null进行释放,此时请求不能再处理,但应用服务器并没有马上挂掉,后台仍然在不停的打印SEVERE:Memory usage is low, parachute is non existent, your system may start failing.
catch (OutOfMemoryError oom) {
try {
oomParachuteData = null;
releaseCaches();
log.error("", oom);
}catch ( Throwable oomt ) {
try {
System.err.println(oomParachuteMsg);
oomt.printStackTrace();
}catch (Throwable letsHopeWeDontGetHere){
ExceptionUtils.handleThrowable(letsHopeWeDontGetHere);
}
}
}
protected void releaseCaches() {
this.keyCache.clear();
this.nioChannels.clear();
this.processorCache.clear();
if ( handler != null ) handler.recycle();
}
模拟该问题使用NIO通道产生OOM从而使用该参数生效。每个通道在启动时都会根据参数包含这样一个parachute块,默认大小是1M的byte数组,发现OOM产生时,该数组会被设为null,同时清理一些组件的缓存
protected void releaseCaches() {
this.keyCache.clear();
this.nioChannels.clear();
this.processorCache.clear();
if ( handler != null ) handler.recycle();
}
之后该通道的请求不会被响应,其它通道仍能正常工作。
protected boolean reclaimParachute(boolean force) {
if ( oomParachuteData != null ) return true;
if ( oomParachute > 0 && ( force || (Runtime.getRuntime().freeMemory() > (oomParachute*2))) )
oomParachuteData = new byte[oomParachute];
return oomParachuteData != null;
}