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android / platform / external / chromium_org / third_party / WebKit / 926b001 / . / Source / WebCore / Modules / websockets / WebSocketChannel.cpp
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/*
* Copyright (C) 2011, 2012 Google Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#if ENABLE(WEB_SOCKETS)
#include "WebSocketChannel.h"
#include "Blob.h"
#include "CookieJar.h"
#include "Document.h"
#include "ExceptionCodePlaceholder.h"
#include "FileError.h"
#include "FileReaderLoader.h"
#include "Frame.h"
#include "FrameLoader.h"
#include "FrameLoaderClient.h"
#include "InspectorInstrumentation.h"
#include "Logging.h"
#include "Page.h"
#include "ProgressTracker.h"
#include "ScriptCallStack.h"
#include "ScriptExecutionContext.h"
#include "Settings.h"
#include "SocketStreamError.h"
#include "SocketStreamHandle.h"
#include "WebSocketChannelClient.h"
#include "WebSocketHandshake.h"
#include <wtf/ArrayBuffer.h>
#include <wtf/Deque.h>
#include <wtf/FastMalloc.h>
#include <wtf/HashMap.h>
#include <wtf/OwnPtr.h>
#include <wtf/PassOwnPtr.h>
#include <wtf/text/CString.h>
#include <wtf/text/StringHash.h>
#include <wtf/text/WTFString.h>
using namespace std;
namespace WebCore {
const double TCPMaximumSegmentLifetime = 2 * 60.0;
WebSocketChannel::WebSocketChannel(Document* document, WebSocketChannelClient* client)
: m_document(document)
, m_client(client)
, m_resumeTimer(this, &WebSocketChannel::resumeTimerFired)
, m_suspended(false)
, m_closing(false)
, m_receivedClosingHandshake(false)
, m_closingTimer(this, &WebSocketChannel::closingTimerFired)
, m_closed(false)
, m_shouldDiscardReceivedData(false)
, m_unhandledBufferedAmount(0)
, m_identifier(0)
, m_hasContinuousFrame(false)
, m_closeEventCode(CloseEventCodeAbnormalClosure)
, m_outgoingFrameQueueStatus(OutgoingFrameQueueOpen)
#if ENABLE(BLOB)
, m_blobLoaderStatus(BlobLoaderNotStarted)
#endif
{
if (Page* page = m_document->page())
m_identifier = page->progress()->createUniqueIdentifier();
}
WebSocketChannel::~WebSocketChannel()
{
}
void WebSocketChannel::connect(const KURL& url, const String& protocol)
{
LOG(Network, "WebSocketChannel %p connect", this);
ASSERT(!m_handle);
ASSERT(!m_suspended);
m_handshake = adoptPtr(new WebSocketHandshake(url, protocol, m_document));
m_handshake->reset();
if (m_deflateFramer.canDeflate())
m_handshake->addExtensionProcessor(m_deflateFramer.createExtensionProcessor());
if (m_identifier)
InspectorInstrumentation::didCreateWebSocket(m_document, m_identifier, url, m_document->url(), protocol);
ref();
m_handle = SocketStreamHandle::create(m_handshake->url(), this);
}
String WebSocketChannel::subprotocol()
{
LOG(Network, "WebSocketChannel %p subprotocol", this);
if (!m_handshake || m_handshake->mode() != WebSocketHandshake::Connected)
return "";
String serverProtocol = m_handshake->serverWebSocketProtocol();
if (serverProtocol.isNull())
return "";
return serverProtocol;
}
String WebSocketChannel::extensions()
{
LOG(Network, "WebSocketChannel %p extensions", this);
if (!m_handshake || m_handshake->mode() != WebSocketHandshake::Connected)
return "";
String extensions = m_handshake->acceptedExtensions();
if (extensions.isNull())
return "";
return extensions;
}
ThreadableWebSocketChannel::SendResult WebSocketChannel::send(const String& message)
{
LOG(Network, "WebSocketChannel %p send %s", this, message.utf8().data());
CString utf8 = message.utf8(String::StrictConversionReplacingUnpairedSurrogatesWithFFFD);
enqueueTextFrame(utf8);
// According to WebSocket API specification, WebSocket.send() should return void instead
// of boolean. However, our implementation still returns boolean due to compatibility
// concern (see bug 65850).
// m_channel->send() may happen later, thus it's not always possible to know whether
// the message has been sent to the socket successfully. In this case, we have no choice
// but to return true.
return ThreadableWebSocketChannel::SendSuccess;
}
ThreadableWebSocketChannel::SendResult WebSocketChannel::send(const ArrayBuffer& binaryData, unsigned byteOffset, unsigned byteLength)
{
LOG(Network, "WebSocketChannel %p send arraybuffer %p %u %u", this, &binaryData, byteOffset, byteLength);
enqueueRawFrame(WebSocketFrame::OpCodeBinary, static_cast<const char*>(binaryData.data()) + byteOffset, byteLength);
return ThreadableWebSocketChannel::SendSuccess;
}
ThreadableWebSocketChannel::SendResult WebSocketChannel::send(const Blob& binaryData)
{
LOG(Network, "WebSocketChannel %p send blob %s", this, binaryData.url().elidedString().utf8().data());
enqueueBlobFrame(WebSocketFrame::OpCodeBinary, binaryData);
return ThreadableWebSocketChannel::SendSuccess;
}
bool WebSocketChannel::send(const char* data, int length)
{
LOG(Network, "WebSocketChannel %p send binary %p (%dB)", this, data, length);
enqueueRawFrame(WebSocketFrame::OpCodeBinary, data, length);
return true;
}
unsigned long WebSocketChannel::bufferedAmount() const
{
LOG(Network, "WebSocketChannel %p bufferedAmount", this);
ASSERT(m_handle);
ASSERT(!m_suspended);
return m_handle->bufferedAmount();
}
void WebSocketChannel::close(int code, const String& reason)
{
LOG(Network, "WebSocketChannel %p close", this);
ASSERT(!m_suspended);
if (!m_handle)
return;
startClosingHandshake(code, reason);
if (m_closing && !m_closingTimer.isActive())
m_closingTimer.startOneShot(2 * TCPMaximumSegmentLifetime);
}
void WebSocketChannel::fail(const String& reason)
{
LOG(Network, "WebSocketChannel %p fail: %s", this, reason.utf8().data());
ASSERT(!m_suspended);
if (m_document) {
InspectorInstrumentation::didReceiveWebSocketFrameError(m_document, m_identifier, reason);
m_document->addConsoleMessage(NetworkMessageSource, ErrorMessageLevel, "WebSocket connection to '" + m_handshake->url().elidedString() + "' failed: " + reason);
}
// Hybi-10 specification explicitly states we must not continue to handle incoming data
// once the WebSocket connection is failed (section 7.1.7).
RefPtr<WebSocketChannel> protect(this); // The client can close the channel, potentially removing the last reference.
m_shouldDiscardReceivedData = true;
if (!m_buffer.isEmpty())
skipBuffer(m_buffer.size()); // Save memory.
m_deflateFramer.didFail();
m_hasContinuousFrame = false;
m_continuousFrameData.clear();
m_client->didReceiveMessageError();
if (m_handle && !m_closed)
m_handle->disconnect(); // Will call didClose().
}
void WebSocketChannel::disconnect()
{
LOG(Network, "WebSocketChannel %p disconnect", this);
if (m_identifier && m_document)
InspectorInstrumentation::didCloseWebSocket(m_document, m_identifier);
if (m_handshake)
m_handshake->clearScriptExecutionContext();
m_client = 0;
m_document = 0;
if (m_handle)
m_handle->disconnect();
}
void WebSocketChannel::suspend()
{
m_suspended = true;
}
void WebSocketChannel::resume()
{
m_suspended = false;
if ((!m_buffer.isEmpty() || m_closed) && m_client && !m_resumeTimer.isActive())
m_resumeTimer.startOneShot(0);
}
void WebSocketChannel::willOpenSocketStream(SocketStreamHandle* handle)
{
LOG(Network, "WebSocketChannel %p willOpensocketStream", this);
ASSERT(handle);
if (m_document->frame())
m_document->frame()->loader()->client()->dispatchWillOpenSocketStream(handle);
}
void WebSocketChannel::didOpenSocketStream(SocketStreamHandle* handle)
{
LOG(Network, "WebSocketChannel %p didOpenSocketStream", this);
ASSERT(handle == m_handle);
if (!m_document)
return;
if (m_identifier)
InspectorInstrumentation::willSendWebSocketHandshakeRequest(m_document, m_identifier, *m_handshake->clientHandshakeRequest());
CString handshakeMessage = m_handshake->clientHandshakeMessage();
if (!handle->send(handshakeMessage.data(), handshakeMessage.length()))
fail("Failed to send WebSocket handshake.");
}
void WebSocketChannel::didCloseSocketStream(SocketStreamHandle* handle)
{
LOG(Network, "WebSocketChannel %p didCloseSocketStream", this);
if (m_identifier && m_document)
InspectorInstrumentation::didCloseWebSocket(m_document, m_identifier);
ASSERT_UNUSED(handle, handle == m_handle || !m_handle);
m_closed = true;
if (m_closingTimer.isActive())
m_closingTimer.stop();
if (m_outgoingFrameQueueStatus != OutgoingFrameQueueClosed)
abortOutgoingFrameQueue();
if (m_handle) {
m_unhandledBufferedAmount = m_handle->bufferedAmount();
if (m_suspended)
return;
WebSocketChannelClient* client = m_client;
m_client = 0;
m_document = 0;
m_handle = 0;
if (client)
client->didClose(m_unhandledBufferedAmount, m_receivedClosingHandshake ? WebSocketChannelClient::ClosingHandshakeComplete : WebSocketChannelClient::ClosingHandshakeIncomplete, m_closeEventCode, m_closeEventReason);
}
deref();
}
void WebSocketChannel::didReceiveSocketStreamData(SocketStreamHandle* handle, const char* data, int len)
{
LOG(Network, "WebSocketChannel %p didReceiveSocketStreamData %d", this, len);
RefPtr<WebSocketChannel> protect(this); // The client can close the channel, potentially removing the last reference.
ASSERT(handle == m_handle);
if (!m_document) {
return;
}
if (len <= 0) {
handle->disconnect();
return;
}
if (!m_client) {
m_shouldDiscardReceivedData = true;
handle->disconnect();
return;
}
if (m_shouldDiscardReceivedData)
return;
if (!appendToBuffer(data, len)) {
m_shouldDiscardReceivedData = true;
fail("Ran out of memory while receiving WebSocket data.");
return;
}
while (!m_suspended && m_client && !m_buffer.isEmpty())
if (!processBuffer())
break;
}
void WebSocketChannel::didUpdateBufferedAmount(SocketStreamHandle*, size_t bufferedAmount)
{
if (m_client)
m_client->didUpdateBufferedAmount(bufferedAmount);
}
void WebSocketChannel::didFailSocketStream(SocketStreamHandle* handle, const SocketStreamError& error)
{
LOG(Network, "WebSocketChannel %p didFailSocketStream", this);
ASSERT(handle == m_handle || !m_handle);
if (m_document) {
String message;
if (error.isNull())
message = "WebSocket network error";
else if (error.localizedDescription().isNull())
message = "WebSocket network error: error code " + String::number(error.errorCode());
else
message = "WebSocket network error: " + error.localizedDescription();
InspectorInstrumentation::didReceiveWebSocketFrameError(m_document, m_identifier, message);
m_document->addConsoleMessage(NetworkMessageSource, ErrorMessageLevel, message);
}
m_shouldDiscardReceivedData = true;
handle->disconnect();
}
void WebSocketChannel::didReceiveAuthenticationChallenge(SocketStreamHandle*, const AuthenticationChallenge&)
{
}
void WebSocketChannel::didCancelAuthenticationChallenge(SocketStreamHandle*, const AuthenticationChallenge&)
{
}
#if ENABLE(BLOB)
void WebSocketChannel::didStartLoading()
{
LOG(Network, "WebSocketChannel %p didStartLoading", this);
ASSERT(m_blobLoader);
ASSERT(m_blobLoaderStatus == BlobLoaderStarted);
}
void WebSocketChannel::didReceiveData()
{
LOG(Network, "WebSocketChannel %p didReceiveData", this);
ASSERT(m_blobLoader);
ASSERT(m_blobLoaderStatus == BlobLoaderStarted);
}
void WebSocketChannel::didFinishLoading()
{
LOG(Network, "WebSocketChannel %p didFinishLoading", this);
ASSERT(m_blobLoader);
ASSERT(m_blobLoaderStatus == BlobLoaderStarted);
m_blobLoaderStatus = BlobLoaderFinished;
processOutgoingFrameQueue();
deref();
}
void WebSocketChannel::didFail(int errorCode)
{
LOG(Network, "WebSocketChannel %p didFail %d", this, errorCode);
ASSERT(m_blobLoader);
ASSERT(m_blobLoaderStatus == BlobLoaderStarted);
m_blobLoader.clear();
m_blobLoaderStatus = BlobLoaderFailed;
fail("Failed to load Blob: error code = " + String::number(errorCode)); // FIXME: Generate human-friendly reason message.
deref();
}
#endif
bool WebSocketChannel::appendToBuffer(const char* data, size_t len)
{
size_t newBufferSize = m_buffer.size() + len;
if (newBufferSize < m_buffer.size()) {
LOG(Network, "WebSocket buffer overflow (%lu+%lu)", static_cast<unsigned long>(m_buffer.size()), static_cast<unsigned long>(len));
return false;
}
m_buffer.append(data, len);
return true;
}
void WebSocketChannel::skipBuffer(size_t len)
{
ASSERT_WITH_SECURITY_IMPLICATION(len <= m_buffer.size());
memmove(m_buffer.data(), m_buffer.data() + len, m_buffer.size() - len);
m_buffer.resize(m_buffer.size() - len);
}
bool WebSocketChannel::processBuffer()
{
ASSERT(!m_suspended);
ASSERT(m_client);
ASSERT(!m_buffer.isEmpty());
LOG(Network, "WebSocketChannel %p processBuffer %lu", this, static_cast<unsigned long>(m_buffer.size()));
if (m_shouldDiscardReceivedData)
return false;
if (m_receivedClosingHandshake) {
skipBuffer(m_buffer.size());
return false;
}
RefPtr<WebSocketChannel> protect(this); // The client can close the channel, potentially removing the last reference.
if (m_handshake->mode() == WebSocketHandshake::Incomplete) {
int headerLength = m_handshake->readServerHandshake(m_buffer.data(), m_buffer.size());
if (headerLength <= 0)
return false;
if (m_handshake->mode() == WebSocketHandshake::Connected) {
if (m_identifier)
InspectorInstrumentation::didReceiveWebSocketHandshakeResponse(m_document, m_identifier, m_handshake->serverHandshakeResponse());
if (!m_handshake->serverSetCookie().isEmpty()) {
if (cookiesEnabled(m_document)) {
// Exception (for sandboxed documents) ignored.
m_document->setCookie(m_handshake->serverSetCookie(), IGNORE_EXCEPTION);
}
}
// FIXME: handle set-cookie2.
LOG(Network, "WebSocketChannel %p connected", this);
skipBuffer(headerLength);
m_client->didConnect();
LOG(Network, "remaining in read buf %lu", static_cast<unsigned long>(m_buffer.size()));
return !m_buffer.isEmpty();
}
ASSERT(m_handshake->mode() == WebSocketHandshake::Failed);
LOG(Network, "WebSocketChannel %p connection failed", this);
skipBuffer(headerLength);
m_shouldDiscardReceivedData = true;
fail(m_handshake->failureReason());
return false;
}
if (m_handshake->mode() != WebSocketHandshake::Connected)
return false;
return processFrame();
}
void WebSocketChannel::resumeTimerFired(Timer<WebSocketChannel>* timer)
{
ASSERT_UNUSED(timer, timer == &m_resumeTimer);
RefPtr<WebSocketChannel> protect(this); // The client can close the channel, potentially removing the last reference.
while (!m_suspended && m_client && !m_buffer.isEmpty())
if (!processBuffer())
break;
if (!m_suspended && m_client && m_closed && m_handle)
didCloseSocketStream(m_handle.get());
}
void WebSocketChannel::startClosingHandshake(int code, const String& reason)
{
LOG(Network, "WebSocketChannel %p closing %d %d", this, m_closing, m_receivedClosingHandshake);
if (m_closing)
return;
ASSERT(m_handle);
Vector<char> buf;
if (!m_receivedClosingHandshake && code != CloseEventCodeNotSpecified) {
unsigned char highByte = code >> 8;
unsigned char lowByte = code;
buf.append(static_cast<char>(highByte));
buf.append(static_cast<char>(lowByte));
buf.append(reason.utf8().data(), reason.utf8().length());
}
enqueueRawFrame(WebSocketFrame::OpCodeClose, buf.data(), buf.size());
m_closing = true;
if (m_client)
m_client->didStartClosingHandshake();
}
void WebSocketChannel::closingTimerFired(Timer<WebSocketChannel>* timer)
{
LOG(Network, "WebSocketChannel %p closing timer", this);
ASSERT_UNUSED(timer, &m_closingTimer == timer);
if (m_handle)
m_handle->disconnect();
}
bool WebSocketChannel::processFrame()
{
ASSERT(!m_buffer.isEmpty());
WebSocketFrame frame;
const char* frameEnd;
String errorString;
WebSocketFrame::ParseFrameResult result = WebSocketFrame::parseFrame(m_buffer.data(), m_buffer.size(), frame, frameEnd, errorString);
if (result == WebSocketFrame::FrameIncomplete)
return false;
if (result == WebSocketFrame::FrameError) {
fail(errorString);
return false;
}
ASSERT(m_buffer.data() < frameEnd);
ASSERT(frameEnd <= m_buffer.data() + m_buffer.size());
OwnPtr<InflateResultHolder> inflateResult = m_deflateFramer.inflate(frame);
if (!inflateResult->succeeded()) {
fail(inflateResult->failureReason());
return false;
}
// Validate the frame data.
if (WebSocketFrame::isReservedOpCode(frame.opCode)) {
fail("Unrecognized frame opcode: " + String::number(frame.opCode));
return false;
}
if (frame.reserved2 || frame.reserved3) {
fail("One or more reserved bits are on: reserved2 = " + String::number(frame.reserved2) + ", reserved3 = " + String::number(frame.reserved3));
return false;
}
if (frame.masked) {
fail("A server must not mask any frames that it sends to the client.");
return false;
}
// All control frames must not be fragmented.
if (WebSocketFrame::isControlOpCode(frame.opCode) && !frame.final) {
fail("Received fragmented control frame: opcode = " + String::number(frame.opCode));
return false;
}
// All control frames must have a payload of 125 bytes or less, which means the frame must not contain
// the "extended payload length" field.
if (WebSocketFrame::isControlOpCode(frame.opCode) && WebSocketFrame::needsExtendedLengthField(frame.payloadLength)) {
fail("Received control frame having too long payload: " + String::number(frame.payloadLength) + " bytes");
return false;
}
// A new data frame is received before the previous continuous frame finishes.
// Note that control frames are allowed to come in the middle of continuous frames.
if (m_hasContinuousFrame && frame.opCode != WebSocketFrame::OpCodeContinuation && !WebSocketFrame::isControlOpCode(frame.opCode)) {
fail("Received new data frame but previous continuous frame is unfinished.");
return false;
}
InspectorInstrumentation::didReceiveWebSocketFrame(m_document, m_identifier, frame);
switch (frame.opCode) {
case WebSocketFrame::OpCodeContinuation:
// An unexpected continuation frame is received without any leading frame.
if (!m_hasContinuousFrame) {
fail("Received unexpected continuation frame.");
return false;
}
m_continuousFrameData.append(frame.payload, frame.payloadLength);
skipBuffer(frameEnd - m_buffer.data());
if (frame.final) {
// onmessage handler may eventually call the other methods of this channel,
// so we should pretend that we have finished to read this frame and
// make sure that the member variables are in a consistent state before
// the handler is invoked.
// Vector<char>::swap() is used here to clear m_continuousFrameData.
OwnPtr<Vector<char> > continuousFrameData = adoptPtr(new Vector<char>);
m_continuousFrameData.swap(*continuousFrameData);
m_hasContinuousFrame = false;
if (m_continuousFrameOpCode == WebSocketFrame::OpCodeText) {
String message;
if (continuousFrameData->size())
message = String::fromUTF8(continuousFrameData->data(), continuousFrameData->size());
else
message = "";
if (message.isNull())
fail("Could not decode a text frame as UTF-8.");
else
m_client->didReceiveMessage(message);
} else if (m_continuousFrameOpCode == WebSocketFrame::OpCodeBinary)
m_client->didReceiveBinaryData(continuousFrameData.release());
}
break;
case WebSocketFrame::OpCodeText:
if (frame.final) {
String message;
if (frame.payloadLength)
message = String::fromUTF8(frame.payload, frame.payloadLength);
else
message = "";
skipBuffer(frameEnd - m_buffer.data());
if (message.isNull())
fail("Could not decode a text frame as UTF-8.");
else
m_client->didReceiveMessage(message);
} else {
m_hasContinuousFrame = true;
m_continuousFrameOpCode = WebSocketFrame::OpCodeText;
ASSERT(m_continuousFrameData.isEmpty());
m_continuousFrameData.append(frame.payload, frame.payloadLength);
skipBuffer(frameEnd - m_buffer.data());
}
break;
case WebSocketFrame::OpCodeBinary:
if (frame.final) {
OwnPtr<Vector<char> > binaryData = adoptPtr(new Vector<char>(frame.payloadLength));
memcpy(binaryData->data(), frame.payload, frame.payloadLength);
skipBuffer(frameEnd - m_buffer.data());
m_client->didReceiveBinaryData(binaryData.release());
} else {
m_hasContinuousFrame = true;
m_continuousFrameOpCode = WebSocketFrame::OpCodeBinary;
ASSERT(m_continuousFrameData.isEmpty());
m_continuousFrameData.append(frame.payload, frame.payloadLength);
skipBuffer(frameEnd - m_buffer.data());
}
break;
case WebSocketFrame::OpCodeClose:
if (!frame.payloadLength)
m_closeEventCode = CloseEventCodeNoStatusRcvd;
else if (frame.payloadLength == 1) {
m_closeEventCode = CloseEventCodeAbnormalClosure;
fail("Received a broken close frame containing an invalid size body.");
return false;
} else {
unsigned char highByte = static_cast<unsigned char>(frame.payload[0]);
unsigned char lowByte = static_cast<unsigned char>(frame.payload[1]);
m_closeEventCode = highByte << 8 | lowByte;
if (m_closeEventCode == CloseEventCodeNoStatusRcvd || m_closeEventCode == CloseEventCodeAbnormalClosure || m_closeEventCode == CloseEventCodeTLSHandshake) {
m_closeEventCode = CloseEventCodeAbnormalClosure;
fail("Received a broken close frame containing a reserved status code.");
return false;
}
}
if (frame.payloadLength >= 3)
m_closeEventReason = String::fromUTF8(&frame.payload[2], frame.payloadLength - 2);
else
m_closeEventReason = "";
skipBuffer(frameEnd - m_buffer.data());
m_receivedClosingHandshake = true;
startClosingHandshake(m_closeEventCode, m_closeEventReason);
if (m_closing) {
m_outgoingFrameQueueStatus = OutgoingFrameQueueClosing;
processOutgoingFrameQueue();
}
break;
case WebSocketFrame::OpCodePing:
enqueueRawFrame(WebSocketFrame::OpCodePong, frame.payload, frame.payloadLength);
skipBuffer(frameEnd - m_buffer.data());
break;
case WebSocketFrame::OpCodePong:
// A server may send a pong in response to our ping, or an unsolicited pong which is not associated with
// any specific ping. Either way, there's nothing to do on receipt of pong.
skipBuffer(frameEnd - m_buffer.data());
break;
default:
ASSERT_NOT_REACHED();
skipBuffer(frameEnd - m_buffer.data());
break;
}
return !m_buffer.isEmpty();
}
void WebSocketChannel::enqueueTextFrame(const CString& string)
{
ASSERT(m_outgoingFrameQueueStatus == OutgoingFrameQueueOpen);
OwnPtr<QueuedFrame> frame = adoptPtr(new QueuedFrame);
frame->opCode = WebSocketFrame::OpCodeText;
frame->frameType = QueuedFrameTypeString;
frame->stringData = string;
m_outgoingFrameQueue.append(frame.release());
processOutgoingFrameQueue();
}
void WebSocketChannel::enqueueRawFrame(WebSocketFrame::OpCode opCode, const char* data, size_t dataLength)
{
ASSERT(m_outgoingFrameQueueStatus == OutgoingFrameQueueOpen);
OwnPtr<QueuedFrame> frame = adoptPtr(new QueuedFrame);
frame->opCode = opCode;
frame->frameType = QueuedFrameTypeVector;
frame->vectorData.resize(dataLength);
if (dataLength)
memcpy(frame->vectorData.data(), data, dataLength);
m_outgoingFrameQueue.append(frame.release());
processOutgoingFrameQueue();
}
void WebSocketChannel::enqueueBlobFrame(WebSocketFrame::OpCode opCode, const Blob& blob)
{
ASSERT(m_outgoingFrameQueueStatus == OutgoingFrameQueueOpen);
OwnPtr<QueuedFrame> frame = adoptPtr(new QueuedFrame);
frame->opCode = opCode;
frame->frameType = QueuedFrameTypeBlob;
frame->blobData = Blob::create(blob.url(), blob.type(), blob.size());
m_outgoingFrameQueue.append(frame.release());
processOutgoingFrameQueue();
}
void WebSocketChannel::processOutgoingFrameQueue()
{
if (m_outgoingFrameQueueStatus == OutgoingFrameQueueClosed)
return;
while (!m_outgoingFrameQueue.isEmpty()) {
OwnPtr<QueuedFrame> frame = m_outgoingFrameQueue.takeFirst();
switch (frame->frameType) {
case QueuedFrameTypeString: {
if (!sendFrame(frame->opCode, frame->stringData.data(), frame->stringData.length()))
fail("Failed to send WebSocket frame.");
break;
}
case QueuedFrameTypeVector:
if (!sendFrame(frame->opCode, frame->vectorData.data(), frame->vectorData.size()))
fail("Failed to send WebSocket frame.");
break;
case QueuedFrameTypeBlob: {
#if ENABLE(BLOB)
switch (m_blobLoaderStatus) {
case BlobLoaderNotStarted:
ref(); // Will be derefed after didFinishLoading() or didFail().
ASSERT(!m_blobLoader);
m_blobLoader = adoptPtr(new FileReaderLoader(FileReaderLoader::ReadAsArrayBuffer, this));
m_blobLoaderStatus = BlobLoaderStarted;
m_blobLoader->start(m_document, frame->blobData.get());
m_outgoingFrameQueue.prepend(frame.release());
return;
case BlobLoaderStarted:
case BlobLoaderFailed:
m_outgoingFrameQueue.prepend(frame.release());
return;
case BlobLoaderFinished: {
RefPtr<ArrayBuffer> result = m_blobLoader->arrayBufferResult();
m_blobLoader.clear();
m_blobLoaderStatus = BlobLoaderNotStarted;
if (!sendFrame(frame->opCode, static_cast<const char*>(result->data()), result->byteLength()))
fail("Failed to send WebSocket frame.");
break;
}
}
#else
fail("FileReader is not available. Could not send a Blob as WebSocket binary message.");
#endif
break;
}
default:
ASSERT_NOT_REACHED();
break;
}
}
ASSERT(m_outgoingFrameQueue.isEmpty());
if (m_outgoingFrameQueueStatus == OutgoingFrameQueueClosing) {
m_outgoingFrameQueueStatus = OutgoingFrameQueueClosed;
m_handle->close();
}
}
void WebSocketChannel::abortOutgoingFrameQueue()
{
m_outgoingFrameQueue.clear();
m_outgoingFrameQueueStatus = OutgoingFrameQueueClosed;
#if ENABLE(BLOB)
if (m_blobLoaderStatus == BlobLoaderStarted) {
m_blobLoader->cancel();
didFail(FileError::ABORT_ERR);
}
#endif
}
bool WebSocketChannel::sendFrame(WebSocketFrame::OpCode opCode, const char* data, size_t dataLength)
{
ASSERT(m_handle);
ASSERT(!m_suspended);
WebSocketFrame frame(opCode, true, false, true, data, dataLength);
InspectorInstrumentation::didSendWebSocketFrame(m_document, m_identifier, frame);
OwnPtr<DeflateResultHolder> deflateResult = m_deflateFramer.deflate(frame);
if (!deflateResult->succeeded()) {
fail(deflateResult->failureReason());
return false;
}
Vector<char> frameData;
frame.makeFrameData(frameData);
return m_handle->send(frameData.data(), frameData.size());
}
} // namespace WebCore
#endif // ENABLE(WEB_SOCKETS)