Back to project page eu.marcelkloubert.simplemessenger.
The source code is released under:
GNU General Public License
If you think the Android project eu.marcelkloubert.simplemessenger listed in this page is inappropriate, such as containing malicious code/tools or violating the copyright, please email info at java2s dot com, thanks.
/* * Copyright (C) 2011 The Android Open Source Project *//from www . j a v a 2 s . com * 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.Util; import java.io.IOException; import java.io.InputStream; import java.io.InterruptedIOException; import java.io.OutputStream; import java.net.SocketTimeoutException; import java.util.ArrayList; import java.util.List; import static com.squareup.okhttp.internal.Util.checkOffsetAndCount; /** A logical bidirectional stream. */ public final class SpdyStream { // Internal state is guarded by this. No long-running or potentially // blocking operations are performed while the lock is held. /** * The number of unacknowledged bytes at which the input stream will send * the peer a {@code WINDOW_UPDATE} frame. Must be less than this client's * window size, otherwise the remote peer will stop sending data on this * stream. (Chrome 25 uses 5 MiB.) */ public static final int WINDOW_UPDATE_THRESHOLD = Settings.DEFAULT_INITIAL_WINDOW_SIZE / 2; private final int id; private final SpdyConnection connection; private final int priority; private long readTimeoutMillis = 0; private int writeWindowSize; /** Headers sent by the stream initiator. Immutable and non null. */ private final List<String> requestHeaders; /** Headers sent in the stream reply. Null if reply is either not sent or not sent yet. */ private List<String> responseHeaders; private final SpdyDataInputStream in = new SpdyDataInputStream(); private final SpdyDataOutputStream out = new SpdyDataOutputStream(); /** * The reason why this stream was abnormally closed. If there are multiple * reasons to abnormally close this stream (such as both peers closing it * near-simultaneously) then this is the first reason known to this peer. */ private ErrorCode errorCode = null; SpdyStream(int id, SpdyConnection connection, boolean outFinished, boolean inFinished, int priority, List<String> requestHeaders, Settings settings) { if (connection == null) throw new NullPointerException("connection == null"); if (requestHeaders == null) throw new NullPointerException("requestHeaders == null"); this.id = id; this.connection = connection; this.in.finished = inFinished; this.out.finished = outFinished; this.priority = priority; this.requestHeaders = requestHeaders; setSettings(settings); } /** * Returns true if this stream is open. A stream is open until either: * <ul> * <li>A {@code SYN_RESET} frame abnormally terminates the stream. * <li>Both input and output streams have transmitted all data and * headers. * </ul> * Note that the input stream may continue to yield data even after a stream * reports itself as not open. This is because input data is buffered. */ public synchronized boolean isOpen() { if (errorCode != null) { return false; } if ((in.finished || in.closed) && (out.finished || out.closed) && responseHeaders != null) { return false; } return true; } /** Returns true if this stream was created by this peer. */ public boolean isLocallyInitiated() { boolean streamIsClient = (id % 2 == 1); return connection.client == streamIsClient; } public SpdyConnection getConnection() { return connection; } public List<String> getRequestHeaders() { return requestHeaders; } /** * Returns the stream's response headers, blocking if necessary if they * have not been received yet. */ public synchronized List<String> getResponseHeaders() throws IOException { long remaining = 0; long start = 0; if (readTimeoutMillis != 0) { start = (System.nanoTime() / 1000000); remaining = readTimeoutMillis; } try { while (responseHeaders == null && errorCode == null) { if (readTimeoutMillis == 0) { // No timeout configured. wait(); } else if (remaining > 0) { wait(remaining); remaining = start + readTimeoutMillis - (System.nanoTime() / 1000000); } else { throw new SocketTimeoutException("Read response header timeout. readTimeoutMillis: " + readTimeoutMillis); } } if (responseHeaders != null) { return responseHeaders; } throw new IOException("stream was reset: " + errorCode); } catch (InterruptedException e) { InterruptedIOException rethrow = new InterruptedIOException(); rethrow.initCause(e); throw rethrow; } } /** * Returns the reason why this stream was closed, or null if it closed * normally or has not yet been closed. */ public synchronized ErrorCode getErrorCode() { return errorCode; } /** * Sends a reply to an incoming 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}. */ public void reply(List<String> responseHeaders, boolean out) throws IOException { assert (!Thread.holdsLock(SpdyStream.this)); boolean outFinished = false; synchronized (this) { if (responseHeaders == null) { throw new NullPointerException("responseHeaders == null"); } if (isLocallyInitiated()) { throw new IllegalStateException("cannot reply to a locally initiated stream"); } if (this.responseHeaders != null) { throw new IllegalStateException("reply already sent"); } this.responseHeaders = responseHeaders; if (!out) { this.out.finished = true; outFinished = true; } } connection.writeSynReply(id, outFinished, responseHeaders); } /** * Sets the maximum time to wait on input stream reads before failing with a * {@code SocketTimeoutException}, or {@code 0} to wait indefinitely. */ public void setReadTimeout(long readTimeoutMillis) { this.readTimeoutMillis = readTimeoutMillis; } public long getReadTimeoutMillis() { return readTimeoutMillis; } /** Returns an input stream that can be used to read data from the peer. */ public InputStream getInputStream() { return in; } /** * Returns an output stream that can be used to write data to the peer. * * @throws IllegalStateException if this stream was initiated by the peer * and a {@link #reply} has not yet been sent. */ public OutputStream getOutputStream() { synchronized (this) { if (responseHeaders == null && !isLocallyInitiated()) { throw new IllegalStateException("reply before requesting the output stream"); } } return out; } /** * Abnormally terminate this stream. This blocks until the {@code RST_STREAM} * frame has been transmitted. */ public void close(ErrorCode rstStatusCode) throws IOException { if (!closeInternal(rstStatusCode)) { return; // Already closed. } connection.writeSynReset(id, rstStatusCode); } /** * Abnormally terminate this stream. This enqueues a {@code RST_STREAM} * frame and returns immediately. */ public void closeLater(ErrorCode errorCode) { if (!closeInternal(errorCode)) { return; // Already closed. } connection.writeSynResetLater(id, errorCode); } /** Returns true if this stream was closed. */ private boolean closeInternal(ErrorCode errorCode) { assert (!Thread.holdsLock(this)); synchronized (this) { if (this.errorCode != null) { return false; } if (in.finished && out.finished) { return false; } this.errorCode = errorCode; notifyAll(); } connection.removeStream(id); return true; } void receiveHeaders(List<String> headers, HeadersMode headersMode) { assert (!Thread.holdsLock(SpdyStream.this)); ErrorCode errorCode = null; boolean open = true; synchronized (this) { if (responseHeaders == null) { if (headersMode.failIfHeadersAbsent()) { errorCode = ErrorCode.PROTOCOL_ERROR; } else { responseHeaders = headers; open = isOpen(); notifyAll(); } } else { if (headersMode.failIfHeadersPresent()) { errorCode = ErrorCode.STREAM_IN_USE; } else { List<String> newHeaders = new ArrayList<String>(); newHeaders.addAll(responseHeaders); newHeaders.addAll(headers); this.responseHeaders = newHeaders; } } } if (errorCode != null) { closeLater(errorCode); } else if (!open) { connection.removeStream(id); } } void receiveData(InputStream in, int length) throws IOException { assert (!Thread.holdsLock(SpdyStream.this)); this.in.receive(in, length); } void receiveFin() { assert (!Thread.holdsLock(SpdyStream.this)); boolean open; synchronized (this) { this.in.finished = true; open = isOpen(); notifyAll(); } if (!open) { connection.removeStream(id); } } synchronized void receiveRstStream(ErrorCode errorCode) { if (this.errorCode == null) { this.errorCode = errorCode; notifyAll(); } } private void setSettings(Settings settings) { // TODO: For HTTP/2.0, also adjust the stream flow control window size // by the difference between the new value and the old value. assert (Thread.holdsLock(connection)); // Because 'settings' is guarded by 'connection'. this.writeWindowSize = settings != null ? settings.getInitialWindowSize(Settings.DEFAULT_INITIAL_WINDOW_SIZE) : Settings.DEFAULT_INITIAL_WINDOW_SIZE; } void receiveSettings(Settings settings) { assert (Thread.holdsLock(this)); setSettings(settings); notifyAll(); } synchronized void receiveWindowUpdate(int deltaWindowSize) { out.unacknowledgedBytes -= deltaWindowSize; notifyAll(); } int getPriority() { return priority; } /** * An input stream that reads the incoming data frames of a stream. Although * this class uses synchronization to safely receive incoming data frames, * it is not intended for use by multiple readers. */ private final class SpdyDataInputStream extends InputStream { // Store incoming data bytes in a circular buffer. When the buffer is // empty, pos == -1. Otherwise pos is the first byte to read and limit // is the first byte to write. // // { - - - X X X X - - - } // ^ ^ // pos limit // // { X X X - - - - X X X } // ^ ^ // limit pos private final byte[] buffer = new byte[Settings.DEFAULT_INITIAL_WINDOW_SIZE]; /** the next byte to be read, or -1 if the buffer is empty. Never buffer.length */ private int pos = -1; /** the last byte to be read. Never buffer.length */ private int limit; /** True if the caller has closed this stream. */ private boolean closed; /** * True if either side has cleanly shut down this stream. We will * receive no more bytes beyond those already in the buffer. */ private boolean finished; /** * The total number of bytes consumed by the application (with {@link * #read}), but not yet acknowledged by sending a {@code WINDOW_UPDATE} * frame. */ private int unacknowledgedBytes = 0; @Override public int available() throws IOException { synchronized (SpdyStream.this) { checkNotClosed(); if (pos == -1) { return 0; } else if (limit > pos) { return limit - pos; } else { return limit + (buffer.length - pos); } } } @Override public int read() throws IOException { return Util.readSingleByte(this); } @Override public int read(byte[] b, int offset, int count) throws IOException { synchronized (SpdyStream.this) { checkOffsetAndCount(b.length, offset, count); waitUntilReadable(); checkNotClosed(); if (pos == -1) { return -1; } int copied = 0; // drain from [pos..buffer.length) if (limit <= pos) { int bytesToCopy = Math.min(count, buffer.length - pos); System.arraycopy(buffer, pos, b, offset, bytesToCopy); pos += bytesToCopy; copied += bytesToCopy; if (pos == buffer.length) { pos = 0; } } // drain from [pos..limit) if (copied < count) { int bytesToCopy = Math.min(limit - pos, count - copied); System.arraycopy(buffer, pos, b, offset + copied, bytesToCopy); pos += bytesToCopy; copied += bytesToCopy; } // Flow control: notify the peer that we're ready for more data! unacknowledgedBytes += copied; if (unacknowledgedBytes >= WINDOW_UPDATE_THRESHOLD) { connection.writeWindowUpdateLater(id, unacknowledgedBytes); unacknowledgedBytes = 0; } if (pos == limit) { pos = -1; limit = 0; } return copied; } } /** * Returns once the input stream is either readable or finished. Throws * a {@link SocketTimeoutException} if the read timeout elapses before * that happens. */ private void waitUntilReadable() throws IOException { long start = 0; long remaining = 0; if (readTimeoutMillis != 0) { start = (System.nanoTime() / 1000000); remaining = readTimeoutMillis; } try { while (pos == -1 && !finished && !closed && errorCode == null) { if (readTimeoutMillis == 0) { SpdyStream.this.wait(); } else if (remaining > 0) { SpdyStream.this.wait(remaining); remaining = start + readTimeoutMillis - (System.nanoTime() / 1000000); } else { throw new SocketTimeoutException(); } } } catch (InterruptedException e) { throw new InterruptedIOException(); } } void receive(InputStream in, int byteCount) throws IOException { assert (!Thread.holdsLock(SpdyStream.this)); if (byteCount == 0) { return; } int pos; int limit; int firstNewByte; boolean finished; boolean flowControlError; synchronized (SpdyStream.this) { finished = this.finished; pos = this.pos; firstNewByte = this.limit; limit = this.limit; flowControlError = byteCount > buffer.length - available(); } // If the peer sends more data than we can handle, discard it and close the connection. if (flowControlError) { Util.skipByReading(in, byteCount); closeLater(ErrorCode.FLOW_CONTROL_ERROR); return; } // Discard data received after the stream is finished. It's probably a benign race. if (finished) { Util.skipByReading(in, byteCount); return; } // Fill the buffer without holding any locks. First fill [limit..buffer.length) if that // won't overwrite unread data. Then fill [limit..pos). We can't hold a lock, otherwise // writes will be blocked until reads complete. if (pos < limit) { int firstCopyCount = Math.min(byteCount, buffer.length - limit); Util.readFully(in, buffer, limit, firstCopyCount); limit += firstCopyCount; byteCount -= firstCopyCount; if (limit == buffer.length) { limit = 0; } } if (byteCount > 0) { Util.readFully(in, buffer, limit, byteCount); limit += byteCount; } synchronized (SpdyStream.this) { // Update the new limit, and mark the position as readable if necessary. this.limit = limit; if (this.pos == -1) { this.pos = firstNewByte; SpdyStream.this.notifyAll(); } } } @Override public void close() throws IOException { synchronized (SpdyStream.this) { closed = true; SpdyStream.this.notifyAll(); } cancelStreamIfNecessary(); } private void checkNotClosed() throws IOException { if (closed) { throw new IOException("stream closed"); } if (errorCode != null) { throw new IOException("stream was reset: " + errorCode); } } } private void cancelStreamIfNecessary() throws IOException { assert (!Thread.holdsLock(SpdyStream.this)); boolean open; boolean cancel; synchronized (this) { cancel = !in.finished && in.closed && (out.finished || out.closed); open = isOpen(); } if (cancel) { // RST this stream to prevent additional data from being sent. This // is safe because the input stream is closed (we won't use any // further bytes) and the output stream is either finished or closed // (so RSTing both streams doesn't cause harm). SpdyStream.this.close(ErrorCode.CANCEL); } else if (!open) { connection.removeStream(id); } } /** * An output stream that writes outgoing data frames of a stream. This class * is not thread safe. */ private final class SpdyDataOutputStream extends OutputStream { private final byte[] buffer = new byte[8192]; private int pos = 0; /** True if the caller has closed this stream. */ private boolean closed; /** * True if either side has cleanly shut down this stream. We shall send * no more bytes. */ private boolean finished; /** * The total number of bytes written out to the peer, but not yet * acknowledged with an incoming {@code WINDOW_UPDATE} frame. Writes * block if they cause this to exceed the {@code WINDOW_SIZE}. */ private int unacknowledgedBytes = 0; @Override public void write(int b) throws IOException { Util.writeSingleByte(this, b); } @Override public void write(byte[] bytes, int offset, int count) throws IOException { assert (!Thread.holdsLock(SpdyStream.this)); checkOffsetAndCount(bytes.length, offset, count); checkNotClosed(); while (count > 0) { if (pos == buffer.length) { writeFrame(false); } int bytesToCopy = Math.min(count, buffer.length - pos); System.arraycopy(bytes, offset, buffer, pos, bytesToCopy); pos += bytesToCopy; offset += bytesToCopy; count -= bytesToCopy; } } @Override public void flush() throws IOException { assert (!Thread.holdsLock(SpdyStream.this)); checkNotClosed(); if (pos > 0) { writeFrame(false); connection.flush(); } } @Override public void close() throws IOException { assert (!Thread.holdsLock(SpdyStream.this)); synchronized (SpdyStream.this) { if (closed) { return; } closed = true; } if (!out.finished) { writeFrame(true); } connection.flush(); cancelStreamIfNecessary(); } private void writeFrame(boolean outFinished) throws IOException { assert (!Thread.holdsLock(SpdyStream.this)); int length = pos; synchronized (SpdyStream.this) { waitUntilWritable(length, outFinished); unacknowledgedBytes += length; } connection.writeData(id, outFinished, buffer, 0, pos); pos = 0; } /** * Returns once the peer is ready to receive {@code count} bytes. * * @throws IOException if the stream was finished or closed, or the * thread was interrupted. */ private void waitUntilWritable(int count, boolean last) throws IOException { try { while (unacknowledgedBytes + count >= writeWindowSize) { SpdyStream.this.wait(); // Wait until we receive a WINDOW_UPDATE. // The stream may have been closed or reset while we were waiting! if (!last && closed) { throw new IOException("stream closed"); } else if (finished) { throw new IOException("stream finished"); } else if (errorCode != null) { throw new IOException("stream was reset: " + errorCode); } } } catch (InterruptedException e) { throw new InterruptedIOException(); } } private void checkNotClosed() throws IOException { synchronized (SpdyStream.this) { if (closed) { throw new IOException("stream closed"); } else if (finished) { throw new IOException("stream finished"); } else if (errorCode != null) { throw new IOException("stream was reset: " + errorCode); } } } } }