/* * synergy -- mouse and keyboard sharing utility * Copyright (C) 2004 Chris Schoeneman * * This package is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * found in the file COPYING that should have accompanied this file. * * This package is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include "CPacketStreamFilter.h" #include "IEventQueue.h" #include "CLock.h" #include "TMethodEventJob.h" #include #include // // CPacketStreamFilter // CPacketStreamFilter::CPacketStreamFilter(IStream* stream, bool adoptStream) : CStreamFilter(stream, adoptStream), m_size(0), m_inputShutdown(false) { // do nothing } CPacketStreamFilter::~CPacketStreamFilter() { // do nothing } void CPacketStreamFilter::close() { CLock lock(&m_mutex); m_size = 0; m_buffer.pop(m_buffer.getSize()); CStreamFilter::close(); } UInt32 CPacketStreamFilter::read(void* buffer, UInt32 n) { if (n == 0) { return 0; } CLock lock(&m_mutex); // if not enough data yet then give up if (!isReadyNoLock()) { return 0; } // read no more than what's left in the buffered packet if (n > m_size) { n = m_size; } // read it if (buffer != NULL) { memcpy(buffer, m_buffer.peek(n), n); } m_buffer.pop(n); m_size -= n; // get next packet's size if we've finished with this packet and // there's enough data to do so. readPacketSize(); if (m_inputShutdown && m_size == 0) { EVENTQUEUE->addEvent(CEvent(getInputShutdownEvent(), getEventTarget(), NULL)); } return n; } void CPacketStreamFilter::write(const void* buffer, UInt32 count) { // write the length of the payload UInt8 length[4]; length[0] = (UInt8)((count >> 24) & 0xff); length[1] = (UInt8)((count >> 16) & 0xff); length[2] = (UInt8)((count >> 8) & 0xff); length[3] = (UInt8)( count & 0xff); getStream()->write(length, sizeof(length)); // write the payload getStream()->write(buffer, count); } void CPacketStreamFilter::shutdownInput() { CLock lock(&m_mutex); m_size = 0; m_buffer.pop(m_buffer.getSize()); CStreamFilter::shutdownInput(); } bool CPacketStreamFilter::isReady() const { CLock lock(&m_mutex); return isReadyNoLock(); } UInt32 CPacketStreamFilter::getSize() const { CLock lock(&m_mutex); return isReadyNoLock() ? m_size : 0; } bool CPacketStreamFilter::isReadyNoLock() const { return (m_size != 0 && m_buffer.getSize() >= m_size); } void CPacketStreamFilter::readPacketSize() { // note -- m_mutex must be locked on entry if (m_size == 0 && m_buffer.getSize() >= 4) { UInt8 buffer[4]; memcpy(buffer, m_buffer.peek(sizeof(buffer)), sizeof(buffer)); m_buffer.pop(sizeof(buffer)); m_size = ((UInt32)buffer[0] << 24) | ((UInt32)buffer[1] << 16) | ((UInt32)buffer[2] << 8) | (UInt32)buffer[3]; } } bool CPacketStreamFilter::readMore() { // note if we have whole packet bool wasReady = isReadyNoLock(); // read more data char buffer[4096]; UInt32 n = getStream()->read(buffer, sizeof(buffer)); while (n > 0) { m_buffer.write(buffer, n); n = getStream()->read(buffer, sizeof(buffer)); } // if we don't yet have the next packet size then get it, // if possible. readPacketSize(); // note if we now have a whole packet bool isReady = isReadyNoLock(); // if we weren't ready before but now we are then send a // input ready event apparently from the filtered stream. return (wasReady != isReady); } void CPacketStreamFilter::filterEvent(const CEvent& event) { if (event.getType() == getInputReadyEvent()) { CLock lock(&m_mutex); if (!readMore()) { return; } } else if (event.getType() == getInputShutdownEvent()) { // discard this if we have buffered data CLock lock(&m_mutex); m_inputShutdown = true; if (m_size != 0) { return; } } // pass event CStreamFilter::filterEvent(event); }