Java Code Examples for io.netty.util.concurrent.PromiseCombiner#finish()
The following examples show how to use
io.netty.util.concurrent.PromiseCombiner#finish() .
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Example 1
Source File: ClientConnectionImpl.java From pravega with Apache License 2.0 | 6 votes |
@Override public void sendAsync(List<Append> appends, CompletedCallback callback) { Channel ch; try { checkClientConnectionClosed(); ch = nettyHandler.getChannel(); } catch (ConnectionFailedException e) { callback.complete(new ConnectionFailedException("Connection to " + connectionName + " is not established.")); return; } PromiseCombiner combiner = new PromiseCombiner(ImmediateEventExecutor.INSTANCE); for (Append append : appends) { combiner.add(ch.write(append)); } ch.flush(); ChannelPromise promise = ch.newPromise(); promise.addListener(future -> { nettyHandler.setRecentMessage(); Throwable cause = future.cause(); callback.complete(cause == null ? null : new ConnectionFailedException(cause)); }); combiner.finish(promise); }
Example 2
Source File: Http2ClientCodec.java From xio with Apache License 2.0 | 6 votes |
private void writeContent(ChannelHandlerContext ctx, SegmentedData data, ChannelPromise promise) { Headers trailingHeaders = data.trailingHeaders(); boolean hasTrailing = trailingHeaders != null && trailingHeaders.size() > 0; boolean dataEos = data.endOfMessage() && !hasTrailing; int streamId = data.streamId(); Http2Request request = Http2Request.build(streamId, new DefaultHttp2DataFrame(data.content(), dataEos), dataEos); if (hasTrailing) { Http2Headers headers = trailingHeaders.http2Headers(); Http2Request last = Http2Request.build(streamId, headers, true); PromiseCombiner combiner = new PromiseCombiner(); combiner.add(ctx.write(request, ctx.newPromise())); combiner.add(ctx.write(last, ctx.newPromise())); combiner.finish(promise); } else { ctx.write(request, promise); } }
Example 3
Source File: ClientCodec.java From xio with Apache License 2.0 | 6 votes |
@Override public void write(ChannelHandlerContext ctx, Object msg, ChannelPromise promise) throws Exception { if (msg instanceof Message) { Message message = (Message) msg; Request request = message.getRequest(); if (request.expectsResponse()) { setRequest(ctx.channel().attr(KEY).get(), request); } PromiseCombiner combiner = new PromiseCombiner(); combiner.add(write(ctx, message.getPayload())); combiner.add(write(ctx, message)); combiner.finish(promise); } else { throw new RuntimeException("Only Message objects can be written to ClientCodec"); } }
Example 4
Source File: Http2ClientCodec.java From xio with Apache License 2.0 | 5 votes |
private void writeRequest(ChannelHandlerContext ctx, Request request, ChannelPromise promise) { /* // TOOD(CK): define ACCEPT? if (!response.headers().contains(HttpHeaderNames.CONTENT_TYPE)) { response.headers().set(HttpHeaderNames.CONTENT_TYPE, "text/plain; charset=UTF-8"); } */ Http2Headers headers = request.headers().http2Headers(); headers.authority(request.host()).method(request.method().asciiName()).path(request.path()); int streamId = request.streamId(); if (request instanceof FullRequest) { if (request.body().readableBytes() > 0) { PromiseCombiner combiner = new PromiseCombiner(); combiner.add(ctx.write(Http2Request.build(streamId, headers, false), ctx.newPromise())); Http2DataFrame data = new DefaultHttp2DataFrame(request.body(), true); combiner.add(ctx.write(Http2Request.build(streamId, data, true), ctx.newPromise())); combiner.finish(promise); } else { ctx.write(Http2Request.build(streamId, headers, true), promise); } } else { ctx.write(Http2Request.build(streamId, headers, false), promise); } }
Example 5
Source File: CompressorHttp2ConnectionEncoder.java From netty-4.1.22 with Apache License 2.0 | 4 votes |
@Override public ChannelFuture writeData(final ChannelHandlerContext ctx, final int streamId, ByteBuf data, int padding, final boolean endOfStream, ChannelPromise promise) { final Http2Stream stream = connection().stream(streamId); final EmbeddedChannel channel = stream == null ? null : (EmbeddedChannel) stream.getProperty(propertyKey); if (channel == null) { // The compressor may be null if no compatible encoding type was found in this stream's headers return super.writeData(ctx, streamId, data, padding, endOfStream, promise); } try { // The channel will release the buffer after being written channel.writeOutbound(data); ByteBuf buf = nextReadableBuf(channel); if (buf == null) { if (endOfStream) { if (channel.finish()) { buf = nextReadableBuf(channel); } return super.writeData(ctx, streamId, buf == null ? Unpooled.EMPTY_BUFFER : buf, padding, true, promise); } // END_STREAM is not set and the assumption is data is still forthcoming. promise.setSuccess(); return promise; } PromiseCombiner combiner = new PromiseCombiner(); for (;;) { ByteBuf nextBuf = nextReadableBuf(channel); boolean compressedEndOfStream = nextBuf == null && endOfStream; if (compressedEndOfStream && channel.finish()) { nextBuf = nextReadableBuf(channel); compressedEndOfStream = nextBuf == null; } ChannelPromise bufPromise = ctx.newPromise(); combiner.add(bufPromise); super.writeData(ctx, streamId, buf, padding, compressedEndOfStream, bufPromise); if (nextBuf == null) { break; } padding = 0; // Padding is only communicated once on the first iteration buf = nextBuf; } combiner.finish(promise); } catch (Throwable cause) { promise.tryFailure(cause); } finally { if (endOfStream) { cleanup(stream, channel); } } return promise; }
Example 6
Source File: HttpObjectEncoder.java From servicetalk with Apache License 2.0 | 4 votes |
@Override public void write(ChannelHandlerContext ctx, Object msg, ChannelPromise promise) { if (msg instanceof HttpMetaData) { if (state != ST_INIT) { throw new IllegalStateException("unexpected message type: " + simpleClassName(msg)); } T metaData = castMetaData(msg); // We prefer a direct allocation here because it is expected the resulted encoded Buffer will be written // to a socket. In order to do the write to the socket the memory typically needs to be allocated in direct // memory and will be copied to direct memory if not. Using a direct buffer will avoid the copy. ByteBuf byteBuf = ctx.alloc().directBuffer((int) headersEncodedSizeAccumulator); Buffer stBuf = newBufferFrom(byteBuf); // Encode the message. encodeInitialLine(stBuf, metaData); state = isContentAlwaysEmpty(metaData) ? ST_CONTENT_ALWAYS_EMPTY : isTransferEncodingChunked(metaData.headers()) ? ST_CONTENT_CHUNK : ST_CONTENT_NON_CHUNK; sanitizeHeadersBeforeEncode(metaData, state == ST_CONTENT_ALWAYS_EMPTY); encodeHeaders(metaData.headers(), byteBuf, stBuf); writeShortBE(byteBuf, CRLF_SHORT); closeHandler.protocolPayloadBeginOutbound(ctx); if (shouldClose(metaData)) { closeHandler.protocolClosingOutbound(ctx); } headersEncodedSizeAccumulator = HEADERS_WEIGHT_NEW * padSizeForAccumulation(byteBuf.readableBytes()) + HEADERS_WEIGHT_HISTORICAL * headersEncodedSizeAccumulator; ctx.write(byteBuf, promise); } else if (msg instanceof Buffer) { final Buffer stBuffer = (Buffer) msg; if (stBuffer.readableBytes() == 0) { // Bypass the encoder in case of an empty buffer, so that the following idiom works: // // ch.write(Unpooled.EMPTY_BUFFER).addListener(ChannelFutureListener.CLOSE); // // See https://github.com/netty/netty/issues/2983 for more information. // We can directly write EMPTY_BUFFER here because there is no need to worry about the buffer being // already released. ctx.write(EMPTY_BUFFER, promise); } else { switch (state) { case ST_INIT: throw new IllegalStateException("unexpected message type: " + simpleClassName(msg)); case ST_CONTENT_NON_CHUNK: final long contentLength = calculateContentLength(stBuffer); if (contentLength > 0) { ctx.write(encodeAndRetain(stBuffer), promise); break; } // fall-through! case ST_CONTENT_ALWAYS_EMPTY: // Need to produce some output otherwise an IllegalStateException will be thrown as we did // not write anything Its ok to just write an EMPTY_BUFFER as if there are reference count // issues these will be propagated as the caller of the encodeAndRetain(...) method will // release the original buffer. Writing an empty buffer will not actually write anything on // the wire, so if there is a user error with msg it will not be visible externally ctx.write(EMPTY_BUFFER, promise); break; case ST_CONTENT_CHUNK: PromiseCombiner promiseCombiner = new PromiseCombiner(); encodeChunkedContent(ctx, stBuffer, calculateContentLength(stBuffer), promiseCombiner); promiseCombiner.finish(promise); break; default: throw new Error(); } } } else if (msg instanceof HttpHeaders) { closeHandler.protocolPayloadEndOutbound(ctx); promise.addListener(f -> { if (f.isSuccess()) { // Only writes of the last payload that have been successfully written and flushed should emit // events. A CloseHandler should not get into a completed state on a failed write so that it can // abort and close the Channel when appropriate. closeHandler.protocolPayloadEndOutboundSuccess(ctx); } }); final int oldState = state; state = ST_INIT; if (oldState == ST_CONTENT_CHUNK) { encodeAndWriteTrailers(ctx, (HttpHeaders) msg, promise); } else { ctx.write(EMPTY_BUFFER, promise); } } }
Example 7
Source File: ClientConnectionsShutdown.java From zuul with Apache License 2.0 | 4 votes |
/** * Note this blocks until all the channels have finished closing. */ public void gracefullyShutdownClientChannels() { LOG.warn("Gracefully shutting down all client channels"); try { // Mark all active connections to be closed after next response sent. LOG.warn("Flagging CLOSE_AFTER_RESPONSE on " + channels.size() + " client channels."); // Pick some arbitrary executor. PromiseCombiner closeAfterPromises = new PromiseCombiner(ImmediateEventExecutor.INSTANCE); for (Channel channel : channels) { ConnectionCloseType.setForChannel(channel, ConnectionCloseType.DELAYED_GRACEFUL); ChannelPromise closePromise = channel.pipeline().newPromise(); channel.attr(ConnectionCloseChannelAttributes.CLOSE_AFTER_RESPONSE).set(closePromise); // TODO(carl-mastrangelo): remove closePromise, since I don't think it's needed. Need to verify. closeAfterPromises.add(channel.closeFuture()); } // Wait for all of the attempts to close connections gracefully, or max of 30 secs each. Promise<Void> combinedCloseAfterPromise = executor.newPromise(); closeAfterPromises.finish(combinedCloseAfterPromise); combinedCloseAfterPromise.await(30, TimeUnit.SECONDS); // Close all of the remaining active connections. LOG.warn("Closing remaining active client channels."); List<ChannelFuture> forceCloseFutures = new ArrayList<>(); channels.forEach(channel -> { if (channel.isActive()) { ChannelFuture f = channel.pipeline().close(); forceCloseFutures.add(f); } }); LOG.warn("Waiting for " + forceCloseFutures.size() + " client channels to be closed."); PromiseCombiner closePromisesCombiner = new PromiseCombiner(ImmediateEventExecutor.INSTANCE); closePromisesCombiner.addAll(forceCloseFutures.toArray(new ChannelFuture[0])); Promise<Void> combinedClosePromise = executor.newPromise(); closePromisesCombiner.finish(combinedClosePromise); combinedClosePromise.await(5, TimeUnit.SECONDS); LOG.warn(forceCloseFutures.size() + " client channels closed."); } catch (InterruptedException ie) { LOG.warn("Interrupted while shutting down client channels"); } }