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The source code is released under:
Apache License
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/* * Copyright (C) 2011 The Android Open Source Project *// w w w. j av a 2s. co m * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.squareup.okhttp.internal.spdy; import com.squareup.okhttp.internal.NamedRunnable; import com.squareup.okhttp.internal.Util; import java.io.Closeable; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.net.Socket; import java.util.HashMap; import java.util.Iterator; import java.util.List; import java.util.Map; import java.util.concurrent.ExecutorService; import java.util.concurrent.SynchronousQueue; import java.util.concurrent.ThreadPoolExecutor; import java.util.concurrent.TimeUnit; /** * A socket connection to a remote peer. A connection hosts streams which can * send and receive data. * * <p>Many methods in this API are <strong>synchronous:</strong> the call is * completed before the method returns. This is typical for Java but atypical * for SPDY. This is motivated by exception transparency: an IOException that * was triggered by a certain caller can be caught and handled by that caller. */ public final class SpdyConnection implements Closeable { // Internal state of this connection is guarded by 'this'. No blocking // operations may be performed while holding this lock! // // Socket writes are guarded by frameWriter. // // Socket reads are unguarded but are only made by the reader thread. // // Certain operations (like SYN_STREAM) need to synchronize on both the // frameWriter (to do blocking I/O) and this (to create streams). Such // operations must synchronize on 'this' last. This ensures that we never // wait for a blocking operation while holding 'this'. private static final ExecutorService executor = new ThreadPoolExecutor(0, Integer.MAX_VALUE, 60, TimeUnit.SECONDS, new SynchronousQueue<Runnable>(), Util.daemonThreadFactory("OkHttp SpdyConnection")); /** The protocol variant, like SPDY/3 or HTTP-draft-06/2.0. */ final Variant variant; /** True if this peer initiated the connection. */ final boolean client; /** * User code to run in response to an incoming stream. Callbacks must not be * run on the callback executor. */ private final IncomingStreamHandler handler; private final FrameReader frameReader; private final FrameWriter frameWriter; private final Map<Integer, SpdyStream> streams = new HashMap<Integer, SpdyStream>(); private final String hostName; private int lastGoodStreamId; private int nextStreamId; private boolean shutdown; private long idleStartTimeNs = System.nanoTime(); /** Lazily-created map of in-flight pings awaiting a response. Guarded by this. */ private Map<Integer, Ping> pings; private int nextPingId; /** Lazily-created settings for the peer. */ Settings settings; private SpdyConnection(Builder builder) { variant = builder.variant; client = builder.client; handler = builder.handler; frameReader = variant.newReader(builder.in, client); frameWriter = variant.newWriter(builder.out, client); nextStreamId = builder.client ? 1 : 2; nextPingId = builder.client ? 1 : 2; hostName = builder.hostName; new Thread(new Reader(), "Spdy Reader " + hostName).start(); } /** * Returns the number of {@link SpdyStream#isOpen() open streams} on this * connection. */ public synchronized int openStreamCount() { return streams.size(); } private synchronized SpdyStream getStream(int id) { return streams.get(id); } synchronized SpdyStream removeStream(int streamId) { SpdyStream stream = streams.remove(streamId); if (stream != null && streams.isEmpty()) { setIdle(true); } return stream; } private synchronized void setIdle(boolean value) { idleStartTimeNs = value ? System.nanoTime() : Long.MAX_VALUE; } /** Returns true if this connection is idle. */ public synchronized boolean isIdle() { return idleStartTimeNs != Long.MAX_VALUE; } /** * Returns the time in ns when this connection became idle or Long.MAX_VALUE * if connection is not idle. */ public synchronized long getIdleStartTimeNs() { return idleStartTimeNs; } /** * Returns a new locally-initiated stream. * * @param out true to create an output stream that we can use to send data * to the remote peer. Corresponds to {@code FLAG_FIN}. * @param in true to create an input stream that the remote peer can use to * send data to us. Corresponds to {@code FLAG_UNIDIRECTIONAL}. */ public SpdyStream newStream(List<String> requestHeaders, boolean out, boolean in) throws IOException { boolean outFinished = !out; boolean inFinished = !in; int associatedStreamId = 0; // TODO: permit the caller to specify an associated stream? int priority = 0; // TODO: permit the caller to specify a priority? int slot = 0; // TODO: permit the caller to specify a slot? SpdyStream stream; int streamId; synchronized (frameWriter) { synchronized (this) { if (shutdown) { throw new IOException("shutdown"); } streamId = nextStreamId; nextStreamId += 2; stream = new SpdyStream( streamId, this, outFinished, inFinished, priority, requestHeaders, settings); if (stream.isOpen()) { streams.put(streamId, stream); setIdle(false); } } frameWriter.synStream(outFinished, inFinished, streamId, associatedStreamId, priority, slot, requestHeaders); } return stream; } void writeSynReply(int streamId, boolean outFinished, List<String> alternating) throws IOException { frameWriter.synReply(outFinished, streamId, alternating); } public void writeData(int streamId, boolean outFinished, byte[] buffer, int offset, int byteCount) throws IOException { frameWriter.data(outFinished, streamId, buffer, offset, byteCount); } void writeSynResetLater(final int streamId, final ErrorCode errorCode) { executor.submit(new NamedRunnable("OkHttp SPDY Writer %s stream %d", hostName, streamId) { @Override public void execute() { try { writeSynReset(streamId, errorCode); } catch (IOException ignored) { } } }); } void writeSynReset(int streamId, ErrorCode statusCode) throws IOException { frameWriter.rstStream(streamId, statusCode); } void writeWindowUpdateLater(final int streamId, final int deltaWindowSize) { executor.submit(new NamedRunnable("OkHttp SPDY Writer %s stream %d", hostName, streamId) { @Override public void execute() { try { writeWindowUpdate(streamId, deltaWindowSize); } catch (IOException ignored) { } } }); } void writeWindowUpdate(int streamId, int deltaWindowSize) throws IOException { frameWriter.windowUpdate(streamId, deltaWindowSize); } /** * Sends a ping frame to the peer. Use the returned object to await the * ping's response and observe its round trip time. */ public Ping ping() throws IOException { Ping ping = new Ping(); int pingId; synchronized (this) { if (shutdown) { throw new IOException("shutdown"); } pingId = nextPingId; nextPingId += 2; if (pings == null) pings = new HashMap<Integer, Ping>(); pings.put(pingId, ping); } writePing(false, pingId, 0x4f4b6f6b /* ASCII "OKok" */, ping); return ping; } private void writePingLater( final boolean reply, final int payload1, final int payload2, final Ping ping) { executor.submit(new NamedRunnable("OkHttp SPDY Writer %s ping %08x%08x", hostName, payload1, payload2) { @Override public void execute() { try { writePing(reply, payload1, payload2, ping); } catch (IOException ignored) { } } }); } private void writePing(boolean reply, int payload1, int payload2, Ping ping) throws IOException { synchronized (frameWriter) { // Observe the sent time immediately before performing I/O. if (ping != null) ping.send(); frameWriter.ping(reply, payload1, payload2); } } private synchronized Ping removePing(int id) { return pings != null ? pings.remove(id) : null; } /** Sends a noop frame to the peer. */ public void noop() throws IOException { frameWriter.noop(); } public void flush() throws IOException { frameWriter.flush(); } /** * Degrades this connection such that new streams can neither be created * locally, nor accepted from the remote peer. Existing streams are not * impacted. This is intended to permit an endpoint to gracefully stop * accepting new requests without harming previously established streams. */ public void shutdown(ErrorCode statusCode) throws IOException { synchronized (frameWriter) { int lastGoodStreamId; synchronized (this) { if (shutdown) { return; } shutdown = true; lastGoodStreamId = this.lastGoodStreamId; } frameWriter.goAway(lastGoodStreamId, statusCode); } } /** * Closes this connection. This cancels all open streams and unanswered * pings. It closes the underlying input and output streams and shuts down * internal executor services. */ @Override public void close() throws IOException { close(ErrorCode.NO_ERROR, ErrorCode.CANCEL); } private void close(ErrorCode connectionCode, ErrorCode streamCode) throws IOException { assert (!Thread.holdsLock(this)); IOException thrown = null; try { shutdown(connectionCode); } catch (IOException e) { thrown = e; } SpdyStream[] streamsToClose = null; Ping[] pingsToCancel = null; synchronized (this) { if (!streams.isEmpty()) { streamsToClose = streams.values().toArray(new SpdyStream[streams.size()]); streams.clear(); setIdle(false); } if (pings != null) { pingsToCancel = pings.values().toArray(new Ping[pings.size()]); pings = null; } } if (streamsToClose != null) { for (SpdyStream stream : streamsToClose) { try { stream.close(streamCode); } catch (IOException e) { if (thrown != null) thrown = e; } } } if (pingsToCancel != null) { for (Ping ping : pingsToCancel) { ping.cancel(); } } try { frameReader.close(); } catch (IOException e) { thrown = e; } try { frameWriter.close(); } catch (IOException e) { if (thrown == null) thrown = e; } if (thrown != null) throw thrown; } /** * Sends a connection header if the current variant requires it. This should * be called after {@link Builder#build} for all new connections. */ public void sendConnectionHeader() throws IOException { frameWriter.connectionHeader(); frameWriter.settings(new Settings()); } /** * Reads a connection header if the current variant requires it. This should * be called after {@link Builder#build} for all new connections. */ public void readConnectionHeader() throws IOException { frameReader.readConnectionHeader(); } public static class Builder { private String hostName; private InputStream in; private OutputStream out; private IncomingStreamHandler handler = IncomingStreamHandler.REFUSE_INCOMING_STREAMS; private Variant variant = Variant.SPDY3; private boolean client; public Builder(boolean client, Socket socket) throws IOException { this("", client, socket.getInputStream(), socket.getOutputStream()); } public Builder(boolean client, InputStream in, OutputStream out) { this("", client, in, out); } /** * @param client true if this peer initiated the connection; false if * this peer accepted the connection. */ public Builder(String hostName, boolean client, Socket socket) throws IOException { this(hostName, client, socket.getInputStream(), socket.getOutputStream()); } /** * @param client true if this peer initiated the connection; false if this * peer accepted the connection. */ public Builder(String hostName, boolean client, InputStream in, OutputStream out) { this.hostName = hostName; this.client = client; this.in = in; this.out = out; } public Builder handler(IncomingStreamHandler handler) { this.handler = handler; return this; } public Builder spdy3() { this.variant = Variant.SPDY3; return this; } public Builder http20Draft06() { this.variant = Variant.HTTP_20_DRAFT_06; return this; } public SpdyConnection build() { return new SpdyConnection(this); } } private class Reader implements Runnable, FrameReader.Handler { @Override public void run() { ErrorCode connectionErrorCode = ErrorCode.INTERNAL_ERROR; ErrorCode streamErrorCode = ErrorCode.INTERNAL_ERROR; try { while (frameReader.nextFrame(this)) { } connectionErrorCode = ErrorCode.NO_ERROR; streamErrorCode = ErrorCode.CANCEL; } catch (IOException e) { connectionErrorCode = ErrorCode.PROTOCOL_ERROR; streamErrorCode = ErrorCode.PROTOCOL_ERROR; } finally { try { close(connectionErrorCode, streamErrorCode); } catch (IOException ignored) { } } } @Override public void data(boolean inFinished, int streamId, InputStream in, int length) throws IOException { SpdyStream dataStream = getStream(streamId); if (dataStream == null) { writeSynResetLater(streamId, ErrorCode.INVALID_STREAM); Util.skipByReading(in, length); return; } dataStream.receiveData(in, length); if (inFinished) { dataStream.receiveFin(); } } @Override public void headers(boolean outFinished, boolean inFinished, int streamId, int associatedStreamId, int priority, List<String> nameValueBlock, HeadersMode headersMode) { SpdyStream stream; synchronized (SpdyConnection.this) { // If we're shutdown, don't bother with this stream. if (shutdown) return; stream = getStream(streamId); if (stream == null) { // The headers claim to be for an existing stream, but we don't have one. if (headersMode.failIfStreamAbsent()) { writeSynResetLater(streamId, ErrorCode.INVALID_STREAM); return; } // If the stream ID is less than the last created ID, assume it's already closed. if (streamId <= lastGoodStreamId) return; // If the stream ID is in the client's namespace, assume it's already closed. if (streamId % 2 == nextStreamId % 2) return; // Create a stream. final SpdyStream newStream = new SpdyStream(streamId, SpdyConnection.this, outFinished, inFinished, priority, nameValueBlock, settings); lastGoodStreamId = streamId; streams.put(streamId, newStream); executor.submit(new NamedRunnable("OkHttp Callback %s stream %d", hostName, streamId) { @Override public void execute() { try { handler.receive(newStream); } catch (IOException e) { throw new RuntimeException(e); } } }); return; } } // The headers claim to be for a new stream, but we already have one. if (headersMode.failIfStreamPresent()) { stream.closeLater(ErrorCode.PROTOCOL_ERROR); removeStream(streamId); return; } // Update an existing stream. stream.receiveHeaders(nameValueBlock, headersMode); if (inFinished) stream.receiveFin(); } @Override public void rstStream(int streamId, ErrorCode errorCode) { SpdyStream rstStream = removeStream(streamId); if (rstStream != null) { rstStream.receiveRstStream(errorCode); } } @Override public void settings(boolean clearPrevious, Settings newSettings) { SpdyStream[] streamsToNotify = null; synchronized (SpdyConnection.this) { if (settings == null || clearPrevious) { settings = newSettings; } else { settings.merge(newSettings); } if (!streams.isEmpty()) { streamsToNotify = streams.values().toArray(new SpdyStream[streams.size()]); } } if (streamsToNotify != null) { for (SpdyStream stream : streamsToNotify) { // The synchronization here is ugly. We need to synchronize on 'this' to guard // reads to 'settings'. We synchronize on 'stream' to guard the state change. // And we need to acquire the 'stream' lock first, since that may block. // TODO: this can block the reader thread until a write completes. That's bad! synchronized (stream) { synchronized (SpdyConnection.this) { stream.receiveSettings(settings); } } } } } @Override public void noop() { } @Override public void ping(boolean reply, int payload1, int payload2) { if (reply) { Ping ping = removePing(payload1); if (ping != null) { ping.receive(); } } else { // Send a reply to a client ping if this is a server and vice versa. writePingLater(true, payload1, payload2, null); } } @Override public void goAway(int lastGoodStreamId, ErrorCode errorCode) { synchronized (SpdyConnection.this) { shutdown = true; // Fail all streams created after the last good stream ID. for (Iterator<Map.Entry<Integer, SpdyStream>> i = streams.entrySet().iterator(); i.hasNext(); ) { Map.Entry<Integer, SpdyStream> entry = i.next(); int streamId = entry.getKey(); if (streamId > lastGoodStreamId && entry.getValue().isLocallyInitiated()) { entry.getValue().receiveRstStream(ErrorCode.REFUSED_STREAM); i.remove(); } } } } @Override public void windowUpdate(int streamId, int deltaWindowSize, boolean endFlowControl) { if (streamId == 0) { // TODO: honor whole-stream flow control return; } // TODO: honor endFlowControl SpdyStream stream = getStream(streamId); if (stream != null) { stream.receiveWindowUpdate(deltaWindowSize); } } @Override public void priority(int streamId, int priority) { // TODO: honor priority. } } }