TimeUnit.SECONDS);
final InetSocketAddress addr1 = UnitHelp.localSocketAddress();
final InetSocketAddress addr2 = UnitHelp.localSocketAddress();
final EchoByteHandler handler1 = new EchoByteHandler(rate1, messageSize);
final EchoByteHandler handler2 = new EchoByteHandler(rate2, messageSize);
final NioEventLoopGroup group1 =
new NioEventLoopGroup(1, new DefaultExecutorServiceFactory("group1"), NioUdtProvider.BYTE_PROVIDER);
final NioEventLoopGroup group2 =
new NioEventLoopGroup(1, new DefaultExecutorServiceFactory("group2"), NioUdtProvider.BYTE_PROVIDER);
final Bootstrap boot1 = new Bootstrap();
boot1.group(group1)
.channelFactory(NioUdtProvider.BYTE_RENDEZVOUS)
.localAddress(addr1)
.remoteAddress(addr2)
.handler(handler1);
final Bootstrap boot2 = new Bootstrap();
boot2.group(group1)
.channelFactory(NioUdtProvider.BYTE_RENDEZVOUS)
.localAddress(addr2)
.remoteAddress(addr1)
.handler(handler2);
final ChannelFuture connectFuture1 = boot1.connect();
final ChannelFuture connectFuture2 = boot2.connect();
while (handler1.meter().count() < transferLimit
&& handler2.meter().count() < transferLimit) {
log.info("progress : {} {}", handler1.meter().count(), handler2
.meter().count());
Thread.sleep(1000);
}
connectFuture1.channel().close().sync();
connectFuture2.channel().close().sync();
log.info("handler1 : {}", handler1.meter().count());
log.info("handler2 : {}", handler2.meter().count());
assertTrue(handler1.meter().count() >= transferLimit);
assertTrue(handler2.meter().count() >= transferLimit);
assertEquals(handler1.meter().count(), handler2.meter().count());
group1.shutdownGracefully();
group2.shutdownGracefully();
group1.terminationFuture().sync();