PlatformMessagePortChannel.cpp   [plain text]


/*
 * Copyright (C) 2009 Google Inc. All rights reserved.
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 * modification, are permitted provided that the following conditions are
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 * in the documentation and/or other materials provided with the
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 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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#include "config.h"
#include "PlatformMessagePortChannel.h"

#include "MessagePort.h"
#include "ScriptExecutionContext.h"
#include "SerializedScriptValue.h"

#include "WebKit.h"
#include "platform/WebKitPlatformSupport.h"
#include "WebMessagePortChannel.h"
#include "platform/WebString.h"

using namespace WebKit;

namespace WebCore {

PassOwnPtr<MessagePortChannel> MessagePortChannel::create(PassRefPtr<PlatformMessagePortChannel> channel)
{
    return adoptPtr(new MessagePortChannel(channel));
}

void MessagePortChannel::createChannel(PassRefPtr<MessagePort> port1, PassRefPtr<MessagePort> port2)
{
    PlatformMessagePortChannel::createChannel(port1, port2);
}

MessagePortChannel::MessagePortChannel(PassRefPtr<PlatformMessagePortChannel> channel)
    : m_channel(channel)
{
}

MessagePortChannel::~MessagePortChannel()
{
    // Make sure we close our platform channel when the base is freed, to keep the channel objects from leaking.
    m_channel->close();
}

bool MessagePortChannel::entangleIfOpen(MessagePort* port)
{
    return m_channel->entangleIfOpen(port);
}

void MessagePortChannel::disentangle()
{
    m_channel->disentangle();
}

void MessagePortChannel::postMessageToRemote(PassOwnPtr<MessagePortChannel::EventData> message)
{
    m_channel->postMessageToRemote(message);
}

bool MessagePortChannel::tryGetMessageFromRemote(OwnPtr<MessagePortChannel::EventData>& result)
{
    return m_channel->tryGetMessageFromRemote(result);
}

void MessagePortChannel::close()
{
    m_channel->close();
}

bool MessagePortChannel::isConnectedTo(MessagePort* port)
{
    return m_channel->isConnectedTo(port);
}

bool MessagePortChannel::hasPendingActivity()
{
    return m_channel->hasPendingActivity();
}

MessagePort* MessagePortChannel::locallyEntangledPort(const ScriptExecutionContext* context)
{
    // This is just an optimization, so return 0 always.
    return 0;
}


PassRefPtr<PlatformMessagePortChannel> PlatformMessagePortChannel::create()
{
    return adoptRef(new PlatformMessagePortChannel());
}

PassRefPtr<PlatformMessagePortChannel> PlatformMessagePortChannel::create(
    WebMessagePortChannel* channel)
{
    return adoptRef(new PlatformMessagePortChannel(channel));
}


PlatformMessagePortChannel::PlatformMessagePortChannel()
    : m_localPort(0)
{
    m_webChannel = webKitPlatformSupport()->createMessagePortChannel();
    if (m_webChannel)
        m_webChannel->setClient(this);
}

PlatformMessagePortChannel::PlatformMessagePortChannel(WebMessagePortChannel* channel)
    : m_localPort(0)
    , m_webChannel(channel)
{
}

PlatformMessagePortChannel::~PlatformMessagePortChannel()
{
    if (m_webChannel)
        m_webChannel->destroy();
}

void PlatformMessagePortChannel::createChannel(PassRefPtr<MessagePort> port1, PassRefPtr<MessagePort> port2)
{
    // Create proxies for each endpoint.
    RefPtr<PlatformMessagePortChannel> channel1 = PlatformMessagePortChannel::create();
    RefPtr<PlatformMessagePortChannel> channel2 = PlatformMessagePortChannel::create();

    // Entangle the two endpoints.
    channel1->setEntangledChannel(channel2);
    channel2->setEntangledChannel(channel1);

    // Now entangle the proxies with the appropriate local ports.
    port1->entangle(MessagePortChannel::create(channel2));
    port2->entangle(MessagePortChannel::create(channel1));
}

void PlatformMessagePortChannel::messageAvailable()
{
    MutexLocker lock(m_mutex);
    if (m_localPort)
        m_localPort->messageAvailable();
}

bool PlatformMessagePortChannel::entangleIfOpen(MessagePort* port)
{
    MutexLocker lock(m_mutex);
    m_localPort = port;
    return true;
}

void PlatformMessagePortChannel::disentangle()
{
    MutexLocker lock(m_mutex);
    m_localPort = 0;
}

void PlatformMessagePortChannel::postMessageToRemote(PassOwnPtr<MessagePortChannel::EventData> message)
{
    if (!m_localPort || !m_webChannel)
        return;

    WebString messageString = message->message()->toWireString();
    OwnPtr<WebCore::MessagePortChannelArray> channels = message->channels();
    WebMessagePortChannelArray* webChannels = 0;
    if (channels && channels->size()) {
        webChannels = new WebMessagePortChannelArray(channels->size());
        for (size_t i = 0; i < channels->size(); ++i) {
            WebCore::PlatformMessagePortChannel* platformChannel = (*channels)[i]->channel();
            (*webChannels)[i] = platformChannel->webChannelRelease();
            (*webChannels)[i]->setClient(0);
        }
    }
    m_webChannel->postMessage(messageString, webChannels);
}

bool PlatformMessagePortChannel::tryGetMessageFromRemote(OwnPtr<MessagePortChannel::EventData>& result)
{
    if (!m_webChannel)
        return false;

    WebString message;
    WebMessagePortChannelArray webChannels;
    bool rv = m_webChannel->tryGetMessage(&message, webChannels);
    if (rv) {
        OwnPtr<MessagePortChannelArray> channels;
        if (webChannels.size()) {
            channels = adoptPtr(new MessagePortChannelArray(webChannels.size()));
            for (size_t i = 0; i < webChannels.size(); ++i) {
                RefPtr<PlatformMessagePortChannel> platformChannel = create(webChannels[i]);
                webChannels[i]->setClient(platformChannel.get());
                (*channels)[i] = MessagePortChannel::create(platformChannel);
            }
        }
        RefPtr<SerializedScriptValue> serializedMessage = SerializedScriptValue::createFromWire(message);
        result = MessagePortChannel::EventData::create(serializedMessage.release(), channels.release());
    }

    return rv;
}

void PlatformMessagePortChannel::close()
{
    MutexLocker lock(m_mutex);
    // Disentangle ourselves from the other end.  We still maintain a reference to m_webChannel,
    // since previously-existing messages should still be delivered.
    m_localPort = 0;
    m_entangledChannel = 0;
}

bool PlatformMessagePortChannel::isConnectedTo(MessagePort* port)
{
    MutexLocker lock(m_mutex);
    return m_entangledChannel && m_entangledChannel->m_localPort == port;
}

bool PlatformMessagePortChannel::hasPendingActivity()
{
    MutexLocker lock(m_mutex);
    return m_localPort;
}

void PlatformMessagePortChannel::setEntangledChannel(PassRefPtr<PlatformMessagePortChannel> remote)
{
    if (m_webChannel)
        m_webChannel->entangle(remote->m_webChannel);

    MutexLocker lock(m_mutex);
    m_entangledChannel = remote;
}

WebMessagePortChannel* PlatformMessagePortChannel::webChannelRelease()
{
    WebMessagePortChannel* rv = m_webChannel;
    m_webChannel = 0;
    return rv;
}

} // namespace WebCore