@Override public void operationComplete(ChannelFuture future) throws Exception { if (future.isCancelled()) { if (connectTimeoutFuture != null) { connectTimeoutFuture.cancel(false); } connectPromise = null; close(voidPromise()); } } });
@Override public void operationComplete(ChannelFuture future) throws Exception { if (future.isCancelled()) { if (connectTimeoutFuture != null) { connectTimeoutFuture.cancel(false); } connectPromise = null; close(voidPromise()); } } });
@Override public void operationComplete(ChannelFuture future) throws Exception { if (future.isCancelled()) { if (connectTimeoutFuture != null) { connectTimeoutFuture.cancel(false); } connectPromise = null; close(voidPromise()); } } });
private void fireEventAndClose(Object evt) { pipeline().fireUserEventTriggered(evt); close(voidPromise()); }
@Override public void operationComplete(ChannelFuture future) throws Exception { if (future.isCancelled()) { if (connectTimeoutFuture != null) { connectTimeoutFuture.cancel(false); } connectPromise = null; close(voidPromise()); } } });
@Override public void run() { ChannelPromise connectPromise = AbstractKQueueChannel.this.connectPromise; ConnectTimeoutException cause = new ConnectTimeoutException("connection timed out: " + remoteAddress); if (connectPromise != null && connectPromise.tryFailure(cause)) { close(voidPromise()); } } }, connectTimeoutMillis, TimeUnit.MILLISECONDS);
@Override public void run() { ChannelPromise connectPromise = AbstractKQueueChannel.this.connectPromise; ConnectTimeoutException cause = new ConnectTimeoutException("connection timed out: " + remoteAddress); if (connectPromise != null && connectPromise.tryFailure(cause)) { close(voidPromise()); } } }, connectTimeoutMillis, TimeUnit.MILLISECONDS);
private void fireEventAndClose(Object evt) { pipeline().fireUserEventTriggered(evt); close(voidPromise()); }
@Override public void operationComplete(ChannelFuture future) throws Exception { if (future.isCancelled()) { if (connectTimeoutFuture != null) { connectTimeoutFuture.cancel(false); } connectPromise = null; close(voidPromise()); } } });
@Override public void run() { ChannelPromise connectPromise = AbstractKQueueChannel.this.connectPromise; ConnectTimeoutException cause = new ConnectTimeoutException("connection timed out: " + remoteAddress); if (connectPromise != null && connectPromise.tryFailure(cause)) { close(voidPromise()); } } }, connectTimeoutMillis, TimeUnit.MILLISECONDS);
@Override public void operationComplete(ChannelFuture future) throws Exception { if (future.isCancelled()) { if (connectTimeoutFuture != null) { connectTimeoutFuture.cancel(false); } connectPromise = null; close(voidPromise()); } } });
@Override public void run() { ChannelPromise connectPromise = AbstractKQueueChannel.this.connectPromise; ConnectTimeoutException cause = new ConnectTimeoutException("connection timed out: " + remoteAddress); if (connectPromise != null && connectPromise.tryFailure(cause)) { close(voidPromise()); } } }, connectTimeoutMillis, TimeUnit.MILLISECONDS);
close(voidPromise());
private void fulfillConnectPromise(ChannelPromise promise, boolean wasActive) { if (promise == null) { // Closed via cancellation and the promise has been notified already. return; } active = true; // Get the state as trySuccess() may trigger an ChannelFutureListener that will close the Channel. // We still need to ensure we call fireChannelActive() in this case. boolean active = isActive(); // trySuccess() will return false if a user cancelled the connection attempt. boolean promiseSet = promise.trySuccess(); // Regardless if the connection attempt was cancelled, channelActive() event should be triggered, // because what happened is what happened. if (!wasActive && active) { pipeline().fireChannelActive(); } // If a user cancelled the connection attempt, close the channel, which is followed by channelInactive(). if (!promiseSet) { close(voidPromise()); } }
close(voidPromise());
private void fulfillConnectPromise(ChannelPromise promise, boolean wasActive) { if (promise == null) { // Closed via cancellation and the promise has been notified already. return; } active = true; // Get the state as trySuccess() may trigger an ChannelFutureListener that will close the Channel. // We still need to ensure we call fireChannelActive() in this case. boolean active = isActive(); // trySuccess() will return false if a user cancelled the connection attempt. boolean promiseSet = promise.trySuccess(); // Regardless if the connection attempt was cancelled, channelActive() event should be triggered, // because what happened is what happened. if (!wasActive && active) { pipeline().fireChannelActive(); } // If a user cancelled the connection attempt, close the channel, which is followed by channelInactive(). if (!promiseSet) { close(voidPromise()); } }
private void fireEventAndClose(Object evt) { pipeline().fireUserEventTriggered(evt); close(voidPromise()); }
@Override public void run() { ChannelPromise connectPromise = AbstractKQueueChannel.this.connectPromise; ConnectTimeoutException cause = new ConnectTimeoutException("connection timed out: " + remoteAddress); if (connectPromise != null && connectPromise.tryFailure(cause)) { close(voidPromise()); } } }, connectTimeoutMillis, TimeUnit.MILLISECONDS);
private void fireEventAndClose(Object evt) { pipeline().fireUserEventTriggered(evt); close(voidPromise()); }
@Override public void run() { ChannelPromise connectPromise = AbstractKQueueChannel.this.connectPromise; ConnectTimeoutException cause = new ConnectTimeoutException("connection timed out: " + remoteAddress); if (connectPromise != null && connectPromise.tryFailure(cause)) { close(voidPromise()); } } }, connectTimeoutMillis, TimeUnit.MILLISECONDS);