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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You 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 org.apache.tomcat.websocket;
import java.io.IOException;
import java.io.OutputStream;
import java.io.Writer;
import java.nio.ByteBuffer;
import java.nio.CharBuffer;
import java.nio.charset.CharsetEncoder;
import java.nio.charset.CoderResult;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.List;
import java.util.Queue;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.Future;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.atomic.AtomicBoolean;
import javax.websocket.CloseReason;
import javax.websocket.CloseReason.CloseCodes;
import javax.websocket.DeploymentException;
import javax.websocket.EncodeException;
import javax.websocket.Encoder;
import javax.websocket.EndpointConfig;
import javax.websocket.RemoteEndpoint;
import javax.websocket.SendHandler;
import javax.websocket.SendResult;
import org.apache.juli.logging.Log;
import org.apache.juli.logging.LogFactory;
import org.apache.tomcat.util.buf.Utf8Encoder;
import org.apache.tomcat.util.res.StringManager;
public abstract class WsRemoteEndpointImplBase implements RemoteEndpoint {
private static final StringManager sm =
StringManager.getManager(Constants.PACKAGE_NAME);
// Milliseconds so this is 20 seconds
private static final long DEFAULT_BLOCKING_SEND_TIMEOUT = 20 * 1000;
public static final String BLOCKING_SEND_TIMEOUT_PROPERTY =
"org.apache.tomcat.websocket.BLOCKING_SEND_TIMEOUT";
private final Log log = LogFactory.getLog(WsRemoteEndpointImplBase.class);
private final StateMachine stateMachine = new StateMachine();
private final IntermediateMessageHandler intermediateMessageHandler =
new IntermediateMessageHandler(this);
private Transformation transformation = null;
private boolean messagePartInProgress = false;
private final Queue messagePartQueue = new ArrayDeque();
private final Object messagePartLock = new Object();
// State
private volatile boolean closed = false;
private boolean fragmented = false;
private boolean nextFragmented = false;
private boolean text = false;
private boolean nextText = false;
// Max size of WebSocket header is 14 bytes
private final ByteBuffer headerBuffer = ByteBuffer.allocate(14);
private final ByteBuffer outputBuffer = ByteBuffer.allocate(Constants.DEFAULT_BUFFER_SIZE);
private final CharsetEncoder encoder = new Utf8Encoder();
private final ByteBuffer encoderBuffer = ByteBuffer.allocate(Constants.DEFAULT_BUFFER_SIZE);
private final AtomicBoolean batchingAllowed = new AtomicBoolean(false);
private volatile long sendTimeout = -1;
private WsSession wsSession;
private List encoderEntries = new ArrayList();
protected void setTransformation(Transformation transformation) {
this.transformation = transformation;
}
public long getSendTimeout() {
return sendTimeout;
}
public void setSendTimeout(long timeout) {
this.sendTimeout = timeout;
}
@Override
public void setBatchingAllowed(boolean batchingAllowed) throws IOException {
boolean oldValue = this.batchingAllowed.getAndSet(batchingAllowed);
if (oldValue && !batchingAllowed) {
flushBatch();
}
}
@Override
public boolean getBatchingAllowed() {
return batchingAllowed.get();
}
@Override
public void flushBatch() throws IOException {
startMessageBlock(Constants.INTERNAL_OPCODE_FLUSH, null, true);
}
public void sendBytes(ByteBuffer data) throws IOException {
if (data == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullData"));
}
stateMachine.binaryStart();
startMessageBlock(Constants.OPCODE_BINARY, data, true);
stateMachine.complete(true);
}
public Future sendBytesByFuture(ByteBuffer data) {
FutureToSendHandler f2sh = new FutureToSendHandler(wsSession);
sendBytesByCompletion(data, f2sh);
return f2sh;
}
public void sendBytesByCompletion(ByteBuffer data, SendHandler handler) {
if (data == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullData"));
}
if (handler == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullHandler"));
}
StateUpdateSendHandler sush = new StateUpdateSendHandler(handler);
stateMachine.binaryStart();
startMessage(Constants.OPCODE_BINARY, data, true, sush);
}
public void sendPartialBytes(ByteBuffer partialByte, boolean last)
throws IOException {
if (partialByte == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullData"));
}
stateMachine.binaryPartialStart();
startMessageBlock(Constants.OPCODE_BINARY, partialByte, last);
stateMachine.complete(last);
}
@Override
public void sendPing(ByteBuffer applicationData) throws IOException,
IllegalArgumentException {
if (applicationData.remaining() > 125) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.tooMuchData"));
}
startMessageBlock(Constants.OPCODE_PING, applicationData, true);
}
@Override
public void sendPong(ByteBuffer applicationData) throws IOException,
IllegalArgumentException {
if (applicationData.remaining() > 125) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.tooMuchData"));
}
startMessageBlock(Constants.OPCODE_PONG, applicationData, true);
}
public void sendString(String text) throws IOException {
if (text == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullData"));
}
stateMachine.textStart();
sendPartialString(CharBuffer.wrap(text), true);
}
public Future sendStringByFuture(String text) {
FutureToSendHandler f2sh = new FutureToSendHandler(wsSession);
sendStringByCompletion(text, f2sh);
return f2sh;
}
public void sendStringByCompletion(String text, SendHandler handler) {
if (text == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullData"));
}
if (handler == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullHandler"));
}
stateMachine.textStart();
TextMessageSendHandler tmsh = new TextMessageSendHandler(handler,
CharBuffer.wrap(text), true, encoder, encoderBuffer, this);
tmsh.write();
// TextMessageSendHandler will update stateMachine when it completes
}
public void sendPartialString(String fragment, boolean isLast)
throws IOException {
if (fragment == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullData"));
}
stateMachine.textPartialStart();
sendPartialString(CharBuffer.wrap(fragment), isLast);
}
public OutputStream getSendStream() {
stateMachine.streamStart();
return new WsOutputStream(this);
}
public Writer getSendWriter() {
stateMachine.writeStart();
return new WsWriter(this);
}
void sendPartialString(CharBuffer part, boolean last) throws IOException {
try {
// Get the timeout before we send the message. The message may
// trigger a session close and depending on timing the client
// session may close before we can read the timeout.
long timeout = getBlockingSendTimeout();
FutureToSendHandler f2sh = new FutureToSendHandler(wsSession);
TextMessageSendHandler tmsh = new TextMessageSendHandler(f2sh, part,
last, encoder, encoderBuffer, this);
tmsh.write();
if (timeout == -1) {
f2sh.get();
} else {
f2sh.get(timeout, TimeUnit.MILLISECONDS);
}
} catch (InterruptedException e) {
handleSendFailure(e);
} catch (ExecutionException e) {
throw new IOException(e);
} catch (TimeoutException e) {
throw new IOException(e);
}
}
void startMessageBlock(byte opCode, ByteBuffer payload, boolean last)
throws IOException {
// Get the timeout before we send the message. The message may
// trigger a session close and depending on timing the client
// session may close before we can read the timeout.
long timeout = getBlockingSendTimeout();
FutureToSendHandler f2sh =
new FutureToSendHandler(wsSession, opCode == Constants.OPCODE_CLOSE);
startMessage(opCode, payload, last, f2sh);
try {
if (timeout == -1) {
f2sh.get();
} else {
f2sh.get(timeout, TimeUnit.MILLISECONDS);
}
} catch (InterruptedException e) {
handleSendFailure(e);
} catch (ExecutionException e) {
throw new IOException(e);
} catch (TimeoutException e) {
throw new IOException(e);
}
}
void startMessage(byte opCode, ByteBuffer payload, boolean last,
SendHandler handler) {
wsSession.updateLastActive();
List messageParts = new ArrayList();
messageParts.add(new MessagePart(last, 0, opCode, payload,
intermediateMessageHandler,
new EndMessageHandler(this, handler)));
messageParts = transformation.sendMessagePart(messageParts);
// Some extensions/transformations may buffer messages so it is possible
// that no message parts will be returned. If this is the case the
// trigger the suppler SendHandler
if (messageParts.size() == 0) {
handler.onResult(new SendResult());
return;
}
MessagePart mp = messageParts.remove(0);
boolean doWrite = false;
synchronized (messagePartLock) {
if (Constants.OPCODE_CLOSE == mp.getOpCode() && getBatchingAllowed()) {
// Should not happen. To late to send batched messages now since
// the session has been closed. Complain loudly.
log.warn(sm.getString("wsRemoteEndpoint.flushOnCloseFailed"));
}
if (messagePartInProgress) {
// When a control message is sent while another message is being
// sent, the control message is queued. Chances are the
// subsequent data message part will end up queued while the
// control message is sent. The logic in this class (state
// machine, EndMessageHandler, TextMessageSendHandler) ensures
// that there will only ever be one data message part in the
// queue. There could be multiple control messages in the queue.
// Add it to the queue
messagePartQueue.add(mp);
} else {
messagePartInProgress = true;
doWrite = true;
}
// Add any remaining messages to the queue
messagePartQueue.addAll(messageParts);
}
if (doWrite) {
// Actual write has to be outside sync block to avoid possible
// deadlock between messagePartLock and writeLock in
// o.a.coyote.http11.upgrade.AbstractServletOutputStream
writeMessagePart(mp);
}
}
void endMessage(SendHandler handler, SendResult result) {
boolean doWrite = false;
MessagePart mpNext = null;
synchronized (messagePartLock) {
fragmented = nextFragmented;
text = nextText;
mpNext = messagePartQueue.poll();
if (mpNext == null) {
messagePartInProgress = false;
} else if (!closed){
// Session may have been closed unexpectedly in the middle of
// sending a fragmented message closing the endpoint. If this
// happens, clearly there is no point trying to send the rest of
// the message.
doWrite = true;
}
}
if (doWrite) {
// Actual write has to be outside sync block to avoid possible
// deadlock between messagePartLock and writeLock in
// o.a.coyote.http11.upgrade.AbstractServletOutputStream
writeMessagePart(mpNext);
}
wsSession.updateLastActive();
// Some handlers, such as the IntermediateMessageHandler, do not have a
// nested handler so handler may be null.
if (handler != null) {
handler.onResult(result);
}
}
void writeMessagePart(MessagePart mp) {
if (closed) {
throw new IllegalStateException(
sm.getString("wsRemoteEndpoint.closed"));
}
if (Constants.INTERNAL_OPCODE_FLUSH == mp.getOpCode()) {
nextFragmented = fragmented;
nextText = text;
outputBuffer.flip();
SendHandler flushHandler = new OutputBufferFlushSendHandler(
outputBuffer, mp.getEndHandler());
doWrite(flushHandler, outputBuffer);
return;
}
// Control messages may be sent in the middle of fragmented message
// so they have no effect on the fragmented or text flags
boolean first;
if (Util.isControl(mp.getOpCode())) {
nextFragmented = fragmented;
nextText = text;
if (mp.getOpCode() == Constants.OPCODE_CLOSE) {
closed = true;
}
first = true;
} else {
boolean isText = Util.isText(mp.getOpCode());
if (fragmented) {
// Currently fragmented
if (text != isText) {
throw new IllegalStateException(
sm.getString("wsRemoteEndpoint.changeType"));
}
nextText = text;
nextFragmented = !mp.isFin();
first = false;
} else {
// Wasn't fragmented. Might be now
if (mp.isFin()) {
nextFragmented = false;
} else {
nextFragmented = true;
nextText = isText;
}
first = true;
}
}
byte[] mask;
if (isMasked()) {
mask = Util.generateMask();
} else {
mask = null;
}
headerBuffer.clear();
writeHeader(headerBuffer, mp.isFin(), mp.getRsv(), mp.getOpCode(),
isMasked(), mp.getPayload(), mask, first);
headerBuffer.flip();
if (getBatchingAllowed() || isMasked()) {
// Need to write via output buffer
OutputBufferSendHandler obsh = new OutputBufferSendHandler(
mp.getEndHandler(), headerBuffer, mp.getPayload(), mask,
outputBuffer, !getBatchingAllowed(), this);
obsh.write();
} else {
// Can write directly
doWrite(mp.getEndHandler(), headerBuffer, mp.getPayload());
}
}
private long getBlockingSendTimeout() {
Object obj = wsSession.getUserProperties().get(
BLOCKING_SEND_TIMEOUT_PROPERTY);
Long userTimeout = null;
if (obj instanceof Long) {
userTimeout = (Long) obj;
}
if (userTimeout == null) {
return DEFAULT_BLOCKING_SEND_TIMEOUT;
} else {
return userTimeout.longValue();
}
}
/**
* Wraps the user provided handler so that the end point is notified when
* the message is complete.
*/
private static class EndMessageHandler implements SendHandler {
private final WsRemoteEndpointImplBase endpoint;
private final SendHandler handler;
public EndMessageHandler(WsRemoteEndpointImplBase endpoint,
SendHandler handler) {
this.endpoint = endpoint;
this.handler = handler;
}
@Override
public void onResult(SendResult result) {
endpoint.endMessage(handler, result);
}
}
/**
* If a transformation needs to split a {@link MessagePart} into multiple
* {@link MessagePart}s, it uses this handler as the end handler for each of
* the additional {@link MessagePart}s. This handler notifies this this
* class that the {@link MessagePart} has been processed and that the next
* {@link MessagePart} in the queue should be started. The final
* {@link MessagePart} will use the {@link EndMessageHandler} provided with
* the original {@link MessagePart}.
*/
private static class IntermediateMessageHandler implements SendHandler {
private final WsRemoteEndpointImplBase endpoint;
public IntermediateMessageHandler(WsRemoteEndpointImplBase endpoint) {
this.endpoint = endpoint;
}
@Override
public void onResult(SendResult result) {
endpoint.endMessage(null, result);
}
}
public void sendObject(Object obj) throws IOException, EncodeException {
Future f = sendObjectByFuture(obj);
try {
f.get();
} catch (InterruptedException e) {
handleSendFailureWithEncode(e);
} catch (ExecutionException e) {
handleSendFailureWithEncode(e);
}
}
private void handleSendFailure(Throwable t) throws IOException {
try {
handleSendFailureWithEncode(t);
} catch (EncodeException e) {
// Should never happen. But in case it does...
throw new IOException(e);
}
}
private void handleSendFailureWithEncode(Throwable t) throws IOException, EncodeException {
// First, unwrap any execution exception
if (t instanceof ExecutionException) {
t = t.getCause();
}
// Close the session
wsSession.doClose(new CloseReason(CloseCodes.GOING_AWAY, t.getMessage()),
new CloseReason(CloseCodes.CLOSED_ABNORMALLY, t.getMessage()));
// Rethrow the exception
if (t instanceof EncodeException) {
throw (EncodeException) t;
}
if (t instanceof IOException) {
throw (IOException) t;
}
throw new IOException(t);
}
public Future sendObjectByFuture(Object obj) {
FutureToSendHandler f2sh = new FutureToSendHandler(wsSession);
sendObjectByCompletion(obj, f2sh);
return f2sh;
}
@SuppressWarnings({"unchecked", "rawtypes"})
public void sendObjectByCompletion(Object obj, SendHandler completion) {
if (obj == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullData"));
}
if (completion == null) {
throw new IllegalArgumentException(sm.getString("wsRemoteEndpoint.nullHandler"));
}
/*
* Note that the implementation will convert primitives and their object
* equivalents by default but that users are free to specify their own
* encoders and decoders for this if they wish.
*/
Encoder encoder = findEncoder(obj);
if (encoder == null && Util.isPrimitive(obj.getClass())) {
String msg = obj.toString();
sendStringByCompletion(msg, completion);
return;
}
if (encoder == null && byte[].class.isAssignableFrom(obj.getClass())) {
ByteBuffer msg = ByteBuffer.wrap((byte[]) obj);
sendBytesByCompletion(msg, completion);
return;
}
try {
if (encoder instanceof Encoder.Text) {
String msg = ((Encoder.Text) encoder).encode(obj);
sendStringByCompletion(msg, completion);
} else if (encoder instanceof Encoder.TextStream) {
Writer w = null;
try {
w = getSendWriter();
((Encoder.TextStream) encoder).encode(obj, w);
} finally {
if (w != null) {
try {
w.close();
} catch (IOException ioe) {
// Ignore
}
}
}
completion.onResult(new SendResult());
} else if (encoder instanceof Encoder.Binary) {
ByteBuffer msg = ((Encoder.Binary) encoder).encode(obj);
sendBytesByCompletion(msg, completion);
} else if (encoder instanceof Encoder.BinaryStream) {
OutputStream os = null;
try {
os = getSendStream();
((Encoder.BinaryStream) encoder).encode(obj, os);
} finally {
if (os != null) {
try {
os.close();
} catch (IOException ioe) {
// Ignore
}
}
}
completion.onResult(new SendResult());
} else {
throw new EncodeException(obj, sm.getString(
"wsRemoteEndpoint.noEncoder", obj.getClass()));
}
} catch (Exception e) {
SendResult sr = new SendResult(e);
completion.onResult(sr);
}
}
protected void setSession(WsSession wsSession) {
this.wsSession = wsSession;
}
protected void setEncoders(EndpointConfig endpointConfig)
throws DeploymentException {
encoderEntries.clear();
for (Class extends Encoder> encoderClazz :
endpointConfig.getEncoders()) {
Encoder instance;
try {
instance = encoderClazz.newInstance();
instance.init(endpointConfig);
} catch (InstantiationException e) {
throw new DeploymentException(
sm.getString("wsRemoteEndpoint.invalidEncoder",
encoderClazz.getName()), e);
} catch (IllegalAccessException e) {
throw new DeploymentException(
sm.getString("wsRemoteEndpoint.invalidEncoder",
encoderClazz.getName()), e);
}
EncoderEntry entry = new EncoderEntry(
Util.getEncoderType(encoderClazz), instance);
encoderEntries.add(entry);
}
}
private Encoder findEncoder(Object obj) {
for (EncoderEntry entry : encoderEntries) {
if (entry.getClazz().isAssignableFrom(obj.getClass())) {
return entry.getEncoder();
}
}
return null;
}
public final void close() {
for (EncoderEntry entry : encoderEntries) {
entry.getEncoder().destroy();
}
// The transformation handles both input and output. It only needs to be
// closed once so it is closed here on the output side.
transformation.close();
doClose();
}
protected abstract void doWrite(SendHandler handler, ByteBuffer... data);
protected abstract boolean isMasked();
protected abstract void doClose();
private static void writeHeader(ByteBuffer headerBuffer, boolean fin,
int rsv, byte opCode, boolean masked, ByteBuffer payload,
byte[] mask, boolean first) {
byte b = 0;
if (fin) {
// Set the fin bit
b -= 128;
}
b += (rsv << 4);
if (first) {
// This is the first fragment of this message
b += opCode;
}
// If not the first fragment, it is a continuation with opCode of zero
headerBuffer.put(b);
if (masked) {
b = (byte) 0x80;
} else {
b = 0;
}
// Next write the mask && length length
if (payload.limit() < 126) {
headerBuffer.put((byte) (payload.limit() | b));
} else if (payload.limit() < 65536) {
headerBuffer.put((byte) (126 | b));
headerBuffer.put((byte) (payload.limit() >>> 8));
headerBuffer.put((byte) (payload.limit() & 0xFF));
} else {
// Will never be more than 2^31-1
headerBuffer.put((byte) (127 | b));
headerBuffer.put((byte) 0);
headerBuffer.put((byte) 0);
headerBuffer.put((byte) 0);
headerBuffer.put((byte) 0);
headerBuffer.put((byte) (payload.limit() >>> 24));
headerBuffer.put((byte) (payload.limit() >>> 16));
headerBuffer.put((byte) (payload.limit() >>> 8));
headerBuffer.put((byte) (payload.limit() & 0xFF));
}
if (masked) {
headerBuffer.put(mask[0]);
headerBuffer.put(mask[1]);
headerBuffer.put(mask[2]);
headerBuffer.put(mask[3]);
}
}
private class TextMessageSendHandler implements SendHandler {
private final SendHandler handler;
private final CharBuffer message;
private final boolean isLast;
private final CharsetEncoder encoder;
private final ByteBuffer buffer;
private final WsRemoteEndpointImplBase endpoint;
private volatile boolean isDone = false;
public TextMessageSendHandler(SendHandler handler, CharBuffer message,
boolean isLast, CharsetEncoder encoder,
ByteBuffer encoderBuffer, WsRemoteEndpointImplBase endpoint) {
this.handler = handler;
this.message = message;
this.isLast = isLast;
this.encoder = encoder.reset();
this.buffer = encoderBuffer;
this.endpoint = endpoint;
}
public void write() {
buffer.clear();
CoderResult cr = encoder.encode(message, buffer, true);
if (cr.isError()) {
throw new IllegalArgumentException(cr.toString());
}
isDone = !cr.isOverflow();
buffer.flip();
endpoint.startMessage(Constants.OPCODE_TEXT, buffer,
isDone && isLast, this);
}
@Override
public void onResult(SendResult result) {
if (isDone) {
endpoint.stateMachine.complete(isLast);
handler.onResult(result);
} else if(!result.isOK()) {
handler.onResult(result);
} else if (closed){
SendResult sr = new SendResult(new IOException(
sm.getString("wsRemoteEndpoint.closedDuringMessage")));
handler.onResult(sr);
} else {
write();
}
}
}
/**
* Used to write data to the output buffer, flushing the buffer if it fills
* up.
*/
private static class OutputBufferSendHandler implements SendHandler {
private final SendHandler handler;
private final ByteBuffer headerBuffer;
private final ByteBuffer payload;
private final byte[] mask;
private final ByteBuffer outputBuffer;
private final boolean flushRequired;
private final WsRemoteEndpointImplBase endpoint;
private int maskIndex = 0;
public OutputBufferSendHandler(SendHandler completion,
ByteBuffer headerBuffer, ByteBuffer payload, byte[] mask,
ByteBuffer outputBuffer, boolean flushRequired,
WsRemoteEndpointImplBase endpoint) {
this.handler = completion;
this.headerBuffer = headerBuffer;
this.payload = payload;
this.mask = mask;
this.outputBuffer = outputBuffer;
this.flushRequired = flushRequired;
this.endpoint = endpoint;
}
public void write() {
// Write the header
while (headerBuffer.hasRemaining() && outputBuffer.hasRemaining()) {
outputBuffer.put(headerBuffer.get());
}
if (headerBuffer.hasRemaining()) {
// Still more headers to write, need to flush
outputBuffer.flip();
endpoint.doWrite(this, outputBuffer);
return;
}
// Write the payload
int payloadLeft = payload.remaining();
int payloadLimit = payload.limit();
int outputSpace = outputBuffer.remaining();
int toWrite = payloadLeft;
if (payloadLeft > outputSpace) {
toWrite = outputSpace;
// Temporarily reduce the limit
payload.limit(payload.position() + toWrite);
}
if (mask == null) {
// Use a bulk copy
outputBuffer.put(payload);
} else {
for (int i = 0; i < toWrite; i++) {
outputBuffer.put(
(byte) (payload.get() ^ (mask[maskIndex++] & 0xFF)));
if (maskIndex > 3) {
maskIndex = 0;
}
}
}
if (payloadLeft > outputSpace) {
// Restore the original limit
payload.limit(payloadLimit);
// Still more headers to write, need to flush
outputBuffer.flip();
endpoint.doWrite(this, outputBuffer);
return;
}
if (flushRequired) {
outputBuffer.flip();
if (outputBuffer.remaining() == 0) {
handler.onResult(new SendResult());
} else {
endpoint.doWrite(this, outputBuffer);
}
} else {
handler.onResult(new SendResult());
}
}
// ------------------------------------------------- SendHandler methods
@Override
public void onResult(SendResult result) {
if (result.isOK()) {
if (outputBuffer.hasRemaining()) {
endpoint.doWrite(this, outputBuffer);
} else {
outputBuffer.clear();
write();
}
} else {
handler.onResult(result);
}
}
}
/**
* Ensures that tne output buffer is cleared after it has been flushed.
*/
private static class OutputBufferFlushSendHandler implements SendHandler {
private final ByteBuffer outputBuffer;
private final SendHandler handler;
public OutputBufferFlushSendHandler(ByteBuffer outputBuffer, SendHandler handler) {
this.outputBuffer = outputBuffer;
this.handler = handler;
}
@Override
public void onResult(SendResult result) {
if (result.isOK()) {
outputBuffer.clear();
}
handler.onResult(result);
}
}
private static class WsOutputStream extends OutputStream {
private final WsRemoteEndpointImplBase endpoint;
private final ByteBuffer buffer = ByteBuffer.allocate(Constants.DEFAULT_BUFFER_SIZE);
private final Object closeLock = new Object();
private volatile boolean closed = false;
private volatile boolean used = false;
public WsOutputStream(WsRemoteEndpointImplBase endpoint) {
this.endpoint = endpoint;
}
@Override
public void write(int b) throws IOException {
if (closed) {
throw new IllegalStateException(
sm.getString("wsRemoteEndpoint.closedOutputStream"));
}
used = true;
if (buffer.remaining() == 0) {
flush();
}
buffer.put((byte) b);
}
@Override
public void write(byte[] b, int off, int len) throws IOException {
if (closed) {
throw new IllegalStateException(
sm.getString("wsRemoteEndpoint.closedOutputStream"));
}
if (len == 0) {
return;
}
if ((off < 0) || (off > b.length) || (len < 0) ||
((off + len) > b.length) || ((off + len) < 0)) {
throw new IndexOutOfBoundsException();
}
used = true;
if (buffer.remaining() == 0) {
flush();
}
int remaining = buffer.remaining();
int written = 0;
while (remaining < len - written) {
buffer.put(b, off + written, remaining);
written += remaining;
flush();
remaining = buffer.remaining();
}
buffer.put(b, off + written, len - written);
}
@Override
public void flush() throws IOException {
if (closed) {
throw new IllegalStateException(
sm.getString("wsRemoteEndpoint.closedOutputStream"));
}
// Optimisation. If there is no data to flush then do not send an
// empty message.
if (!Constants.STREAMS_DROP_EMPTY_MESSAGES || buffer.position() > 0) {
doWrite(false);
}
}
@Override
public void close() throws IOException {
synchronized (closeLock) {
if (closed) {
return;
}
closed = true;
}
doWrite(true);
}
private void doWrite(boolean last) throws IOException {
if (!Constants.STREAMS_DROP_EMPTY_MESSAGES || used) {
buffer.flip();
endpoint.startMessageBlock(Constants.OPCODE_BINARY, buffer, last);
}
endpoint.stateMachine.complete(last);
buffer.clear();
}
}
private static class WsWriter extends Writer {
private final WsRemoteEndpointImplBase endpoint;
private final CharBuffer buffer = CharBuffer.allocate(Constants.DEFAULT_BUFFER_SIZE);
private final Object closeLock = new Object();
private volatile boolean closed = false;
private volatile boolean used = false;
public WsWriter(WsRemoteEndpointImplBase endpoint) {
this.endpoint = endpoint;
}
@Override
public void write(char[] cbuf, int off, int len) throws IOException {
if (closed) {
throw new IllegalStateException(
sm.getString("wsRemoteEndpoint.closedWriter"));
}
if (len == 0) {
return;
}
if ((off < 0) || (off > cbuf.length) || (len < 0) ||
((off + len) > cbuf.length) || ((off + len) < 0)) {
throw new IndexOutOfBoundsException();
}
used = true;
if (buffer.remaining() == 0) {
flush();
}
int remaining = buffer.remaining();
int written = 0;
while (remaining < len - written) {
buffer.put(cbuf, off + written, remaining);
written += remaining;
flush();
remaining = buffer.remaining();
}
buffer.put(cbuf, off + written, len - written);
}
@Override
public void flush() throws IOException {
if (closed) {
throw new IllegalStateException(
sm.getString("wsRemoteEndpoint.closedWriter"));
}
if (!Constants.STREAMS_DROP_EMPTY_MESSAGES || buffer.position() > 0) {
doWrite(false);
}
}
@Override
public void close() throws IOException {
synchronized (closeLock) {
if (closed) {
return;
}
closed = true;
}
doWrite(true);
}
private void doWrite(boolean last) throws IOException {
if (!Constants.STREAMS_DROP_EMPTY_MESSAGES || used) {
buffer.flip();
endpoint.sendPartialString(buffer, last);
buffer.clear();
} else {
endpoint.stateMachine.complete(last);
}
}
}
private static class EncoderEntry {
private final Class> clazz;
private final Encoder encoder;
public EncoderEntry(Class> clazz, Encoder encoder) {
this.clazz = clazz;
this.encoder = encoder;
}
public Class> getClazz() {
return clazz;
}
public Encoder getEncoder() {
return encoder;
}
}
private enum State {
OPEN,
STREAM_WRITING,
WRITER_WRITING,
BINARY_PARTIAL_WRITING,
BINARY_PARTIAL_READY,
BINARY_FULL_WRITING,
TEXT_PARTIAL_WRITING,
TEXT_PARTIAL_READY,
TEXT_FULL_WRITING
}
private static class StateMachine {
private State state = State.OPEN;
public synchronized void streamStart() {
checkState(State.OPEN);
state = State.STREAM_WRITING;
}
public synchronized void writeStart() {
checkState(State.OPEN);
state = State.WRITER_WRITING;
}
public synchronized void binaryPartialStart() {
checkState(State.OPEN, State.BINARY_PARTIAL_READY);
state = State.BINARY_PARTIAL_WRITING;
}
public synchronized void binaryStart() {
checkState(State.OPEN);
state = State.BINARY_FULL_WRITING;
}
public synchronized void textPartialStart() {
checkState(State.OPEN, State.TEXT_PARTIAL_READY);
state = State.TEXT_PARTIAL_WRITING;
}
public synchronized void textStart() {
checkState(State.OPEN);
state = State.TEXT_FULL_WRITING;
}
public synchronized void complete(boolean last) {
if (last) {
checkState(State.TEXT_PARTIAL_WRITING, State.TEXT_FULL_WRITING,
State.BINARY_PARTIAL_WRITING, State.BINARY_FULL_WRITING,
State.STREAM_WRITING, State.WRITER_WRITING);
state = State.OPEN;
} else {
checkState(State.TEXT_PARTIAL_WRITING, State.BINARY_PARTIAL_WRITING,
State.STREAM_WRITING, State.WRITER_WRITING);
if (state == State.TEXT_PARTIAL_WRITING) {
state = State.TEXT_PARTIAL_READY;
} else if (state == State.BINARY_PARTIAL_WRITING){
state = State.BINARY_PARTIAL_READY;
} else if (state == State.WRITER_WRITING) {
// NO-OP. Leave state as is.
} else if (state == State.STREAM_WRITING) {
// NO-OP. Leave state as is.
} else {
// Should never happen
// The if ... else ... blocks above should cover all states
// permitted by the preceding checkState() call
throw new IllegalStateException(
"BUG: This code should never be called");
}
}
}
private void checkState(State... required) {
for (State state : required) {
if (this.state == state) {
return;
}
}
throw new IllegalStateException(
sm.getString("wsRemoteEndpoint.wrongState", this.state));
}
}
private class StateUpdateSendHandler implements SendHandler {
private final SendHandler handler;
public StateUpdateSendHandler(SendHandler handler) {
this.handler = handler;
}
@Override
public void onResult(SendResult result) {
if (result.isOK()) {
stateMachine.complete(true);
}
handler.onResult(result);
}
}
}