Пример #1
0
void Connection::processIncomingMessage(MessageID messageID, PassOwnPtr<ArgumentDecoder> arguments)
{
    // Check if this is a sync reply.
    if (messageID == MessageID(CoreIPCMessage::SyncMessageReply)) {
        MutexLocker locker(m_pendingSyncRepliesMutex);
        ASSERT(!m_pendingSyncReplies.isEmpty());

        PendingSyncReply& pendingSyncReply = m_pendingSyncReplies.last();
        ASSERT(pendingSyncReply.syncRequestID == arguments->destinationID());

        pendingSyncReply.replyDecoder = arguments.leakPtr();
        pendingSyncReply.didReceiveReply = true;

        m_waitForSyncReplySemaphore.signal();
        return;
    }
    
    // Check if we're waiting for this message.
    {
        MutexLocker locker(m_waitForMessageMutex);
        
        HashMap<std::pair<unsigned, uint64_t>, ArgumentDecoder*>::iterator it = m_waitForMessageMap.find(std::make_pair(messageID.toInt(), arguments->destinationID()));
        if (it != m_waitForMessageMap.end()) {
            it->second = arguments.leakPtr();
        
            m_waitForMessageCondition.signal();
            return;
        }
    }

    MutexLocker locker(m_incomingMessagesLock);
    m_incomingMessages.append(IncomingMessage(messageID, arguments));

    m_clientRunLoop->scheduleWork(WorkItem::create(this, &Connection::dispatchMessages));
}
Пример #2
0
void Connection::processIncomingMessage(MessageID messageID, PassOwnPtr<ArgumentDecoder> arguments)
{
    // Check if this is a sync reply.
    if (messageID == MessageID(CoreIPCMessage::SyncMessageReply)) {
        MutexLocker locker(m_syncReplyStateMutex);
        ASSERT(!m_pendingSyncReplies.isEmpty());

        PendingSyncReply& pendingSyncReply = m_pendingSyncReplies.last();
        ASSERT(pendingSyncReply.syncRequestID == arguments->destinationID());

        pendingSyncReply.replyDecoder = arguments.leakPtr();
        pendingSyncReply.didReceiveReply = true;

        m_waitForSyncReplySemaphore.signal();
        return;
    }

    // Check if this is a sync message. If it is, and we're waiting for a sync reply this message
    // needs to be dispatched. If we don't we'll end up with a deadlock where both sync message senders are
    // stuck waiting for a reply.
    if (messageID.isSync()) {
        MutexLocker locker(m_syncReplyStateMutex);
        if (!m_pendingSyncReplies.isEmpty()) {
            m_syncMessagesReceivedWhileWaitingForSyncReply.append(IncomingMessage(messageID, arguments));

            // The message has been added, now wake up the client thread.
            m_waitForSyncReplySemaphore.signal();
            return;
        }
    }
        
    // Check if we're waiting for this message.
    {
        MutexLocker locker(m_waitForMessageMutex);
        
        HashMap<std::pair<unsigned, uint64_t>, ArgumentDecoder*>::iterator it = m_waitForMessageMap.find(std::make_pair(messageID.toInt(), arguments->destinationID()));
        if (it != m_waitForMessageMap.end()) {
            it->second = arguments.leakPtr();
        
            m_waitForMessageCondition.signal();
            return;
        }
    }

    MutexLocker locker(m_incomingMessagesLock);
    m_incomingMessages.append(IncomingMessage(messageID, arguments));

    m_clientRunLoop->scheduleWork(WorkItem::create(this, &Connection::dispatchMessages));
}