NIO中的Selector封装了底层的系统调用,其中wakeup用于唤醒阻塞在select方法上的线程,它的实现很简单,在linux上就是创建一个管道并加入poll的fd集合,wakeup就是往管道里写一个字节,那么阻塞的poll方法有数据可读就立即返回。证明这一点很简单,strace即可知道:
public class SelectorTest { public static void main(String[] args) throws Exception { Selector selector = Selector.open(); selector.wakeup(); } }使用strace调用,只关心write的系统调用
sudo strace -f -e write java SelectorTest 输出: Process 29181 attached Process 29182 attached Process 29183 attached Process 29184 attached Process 29185 attached Process 29186 attached Process 29187 attached Process 29188 attached Process 29189 attached Process 29190 attached Process 29191 attached [pid 29181] write(36, “1”, 1) = 1 Process 29191 detached Process 29184 detached Process 29181 detached有的同学说了,怎么证明这个write是wakeup方法调用的,而不是其他方法呢,这个很好证明,我们多调用几次:
public class SelectorTest { public static void main(String[] args) throws Exception { Selector selector = Selector.open(); selector.wakeup(); selector.selectNow(); selector.wakeup(); selector.selectNow(); selector.wakeup(); } }修改程序调用三次wakeup,心细的朋友肯定注意到我们还调用了两次selectNow,这是因为在两次成功的select方法之间调用wakeup多次都只算做一次,为了显示3次write,这里就每次调用前select一下将前一次写入的字节读到,同样执行上面的strace调用,输出:
Process 29303 attached Process 29304 attached Process 29305 attached Process 29306 attached Process 29307 attached Process 29308 attached Process 29309 attached Process 29310 attached Process 29311 attached Process 29312 attached Process 29313 attached [pid 29303] write(36, “1”, 1) = 1 [pid 29303] write(36, “1”, 1) = 1 [pid 29303] write(36, “1”, 1) = 1 Process 29313 detached Process 29309 detached Process 29306 detached Process 29303 detached果然是3次write的系统调用,都是写入一个字节,如果我们去掉selectNow,那么三次wakeup还是等于一次:
public class SelectorTest { public static void main(String[] args) throws Exception { Selector selector = Selector.open(); selector.wakeup(); selector.wakeup(); selector.wakeup(); } }输出:
Process 29331 attached Process 29332 attached Process 29333 attached Process 29334 attached Process 29335 attached Process 29336 attached Process 29337 attached Process 29338 attached Process 29339 attached Process 29340 attached Process 29341 attached [pid 29331] write(36, “1”, 1) = 1 Process 29341 detached Process 29337 detached Process 29334 detached Process 29331 detached
具体到源码级别,在linux平台上的wakeup方法其实调用了pipe创建了管道,wakeup调用了EPollArrayWrapper的interrupt方法:
public void interrupt() { interrupt(outgoingInterruptFD); }实际调用的是interrupt(fd)的native方法,查看EPollArrayWrapper.c可见清晰的write系统调用:
JNIEXPORT void JNICALL Java_sun_nio_ch_EPollArrayWrapper_interrupt(JNIEnv *env, jobject this, jint fd) { int fakebuf[1]; fakebuf[0] = 1; if (write(fd, fakebuf, 1) < 0) { JNU_ThrowIOExceptionWithLastError(env,"write to interrupt fd failed"); } }写入一个字节的fakebuf。有朋友问起这个问题,写个注记在此。strace充分利用对了解这些细节很有帮助。