#include "CClientProxy1_0.h" #include "CServer.h" #include "CClipboard.h" #include "CProtocolUtil.h" #include "XSynergy.h" #include "IInputStream.h" #include "IOutputStream.h" #include "CLock.h" #include "CThread.h" #include "CLog.h" #include "CStopwatch.h" #include // // CClientProxy1_0 // CClientProxy1_0::CClientProxy1_0(IServer* server, const CString& name, IInputStream* input, IOutputStream* output) : CClientProxy(server, name, input, output) { for (UInt32 i = 0; i < kClipboardEnd; ++i) { m_clipboardDirty[i] = true; } } CClientProxy1_0::~CClientProxy1_0() { // do nothing } bool CClientProxy1_0::open() { // send request log((CLOG_DEBUG1 "querying client \"%s\" info", getName().c_str())); CProtocolUtil::writef(getOutputStream(), kMsgQInfo); getOutputStream()->flush(); // wait for and verify reply UInt8 code[4]; for (;;) { UInt32 n = getInputStream()->read(code, 4, -1.0); if (n == 4) { if (memcmp(code, kMsgCNoop, 4) == 0) { // discard heartbeats continue; } if (memcmp(code, kMsgDInfo, 4) == 0) { break; } } throw XBadClient(); } // handle reply recvInfo(false); return true; } void CClientProxy1_0::run() { // handle messages until the client hangs up or stops sending heartbeats CStopwatch heartTimer; for (;;) { CThread::testCancel(); // wait for a message UInt8 code[4]; UInt32 n = getInputStream()->read(code, 4, kHeartRate); CThread::testCancel(); // check if client hungup if (n == 0) { log((CLOG_NOTE "client \"%s\" disconnected", getName().c_str())); return; } // check if client has stopped sending heartbeats if (n == (UInt32)-1) { /* FIXME -- disabled to avoid masking bugs if (heartTimer.getTime() > kHeartDeath) { log((CLOG_NOTE "client \"%s\" is dead", getName().c_str())); return; } */ continue; } // got a message so reset heartbeat monitor heartTimer.reset(); // verify we got an entire code if (n != 4) { log((CLOG_ERR "incomplete message from \"%s\": %d bytes", getName().c_str(), n)); // client sent an incomplete message throw XBadClient(); } // parse message log((CLOG_DEBUG2 "msg from \"%s\": %c%c%c%c", getName().c_str(), code[0], code[1], code[2], code[3])); if (memcmp(code, kMsgDInfo, 4) == 0) { recvInfo(true); } else if (memcmp(code, kMsgCNoop, 4) == 0) { // discard no-ops continue; } else if (memcmp(code, kMsgCClipboard, 4) == 0) { recvGrabClipboard(); } else if (memcmp(code, kMsgDClipboard, 4) == 0) { recvClipboard(); } // note -- more message handlers go here else { log((CLOG_ERR "invalid message from client \"%s\"", getName().c_str())); // unknown message throw XBadClient(); } } } void CClientProxy1_0::close() { log((CLOG_DEBUG1 "send close to \"%s\"", getName().c_str())); CProtocolUtil::writef(getOutputStream(), kMsgCClose); // force the close to be sent before we return getOutputStream()->flush(); } void CClientProxy1_0::enter(SInt32 xAbs, SInt32 yAbs, UInt32 seqNum, KeyModifierMask mask, bool) { log((CLOG_DEBUG1 "send enter to \"%s\", %d,%d %d %04x", getName().c_str(), xAbs, yAbs, seqNum, mask)); CProtocolUtil::writef(getOutputStream(), kMsgCEnter, xAbs, yAbs, seqNum, mask); } bool CClientProxy1_0::leave() { log((CLOG_DEBUG1 "send leave to \"%s\"", getName().c_str())); CProtocolUtil::writef(getOutputStream(), kMsgCLeave); // we can never prevent the user from leaving return true; } void CClientProxy1_0::setClipboard(ClipboardID id, const CString& data) { // ignore if this clipboard is already clean CLock lock(&m_mutex); if (m_clipboardDirty[id]) { // this clipboard is now clean m_clipboardDirty[id] = false; log((CLOG_DEBUG "send clipboard %d to \"%s\" size=%d", id, getName().c_str(), data.size())); CProtocolUtil::writef(getOutputStream(), kMsgDClipboard, id, 0, &data); } } void CClientProxy1_0::grabClipboard(ClipboardID id) { log((CLOG_DEBUG "send grab clipboard %d to \"%s\"", id, getName().c_str())); CProtocolUtil::writef(getOutputStream(), kMsgCClipboard, id, 0); // this clipboard is now dirty CLock lock(&m_mutex); m_clipboardDirty[id] = true; } void CClientProxy1_0::setClipboardDirty(ClipboardID id, bool dirty) { CLock lock(&m_mutex); m_clipboardDirty[id] = dirty; } void CClientProxy1_0::keyDown(KeyID key, KeyModifierMask mask) { log((CLOG_DEBUG1 "send key down to \"%s\" id=%d, mask=0x%04x", getName().c_str(), key, mask)); CProtocolUtil::writef(getOutputStream(), kMsgDKeyDown, key, mask); } void CClientProxy1_0::keyRepeat(KeyID key, KeyModifierMask mask, SInt32 count) { log((CLOG_DEBUG1 "send key repeat to \"%s\" id=%d, mask=0x%04x, count=%d", getName().c_str(), key, mask, count)); CProtocolUtil::writef(getOutputStream(), kMsgDKeyRepeat, key, mask, count); } void CClientProxy1_0::keyUp(KeyID key, KeyModifierMask mask) { log((CLOG_DEBUG1 "send key up to \"%s\" id=%d, mask=0x%04x", getName().c_str(), key, mask)); CProtocolUtil::writef(getOutputStream(), kMsgDKeyUp, key, mask); } void CClientProxy1_0::mouseDown(ButtonID button) { log((CLOG_DEBUG1 "send mouse down to \"%s\" id=%d", getName().c_str(), button)); CProtocolUtil::writef(getOutputStream(), kMsgDMouseDown, button); } void CClientProxy1_0::mouseUp(ButtonID button) { log((CLOG_DEBUG1 "send mouse up to \"%s\" id=%d", getName().c_str(), button)); CProtocolUtil::writef(getOutputStream(), kMsgDMouseUp, button); } void CClientProxy1_0::mouseMove(SInt32 xAbs, SInt32 yAbs) { log((CLOG_DEBUG2 "send mouse move to \"%s\" %d,%d", getName().c_str(), xAbs, yAbs)); CProtocolUtil::writef(getOutputStream(), kMsgDMouseMove, xAbs, yAbs); } void CClientProxy1_0::mouseWheel(SInt32 delta) { log((CLOG_DEBUG2 "send mouse wheel to \"%s\" %+d", getName().c_str(), delta)); CProtocolUtil::writef(getOutputStream(), kMsgDMouseWheel, delta); } void CClientProxy1_0::screenSaver(bool on) { log((CLOG_DEBUG1 "send screen saver to \"%s\" on=%d", getName().c_str(), on ? 1 : 0)); CProtocolUtil::writef(getOutputStream(), kMsgCScreenSaver, on ? 1 : 0); } void CClientProxy1_0::getShape(SInt32& x, SInt32& y, SInt32& w, SInt32& h) const { CLock lock(&m_mutex); x = m_info.m_x; y = m_info.m_y; w = m_info.m_w; h = m_info.m_h; } void CClientProxy1_0::getCenter(SInt32& x, SInt32& y) const { CLock lock(&m_mutex); x = m_info.m_mx; y = m_info.m_my; } void CClientProxy1_0::getMousePos(SInt32&, SInt32&) const { assert(0 && "shouldn't be called"); } SInt32 CClientProxy1_0::getJumpZoneSize() const { CLock lock(&m_mutex); return m_info.m_zoneSize; } void CClientProxy1_0::recvInfo(bool notify) { { CLock lock(&m_mutex); // parse the message SInt16 x, y, w, h, zoneSize, mx, my; CProtocolUtil::readf(getInputStream(), kMsgDInfo + 4, &x, &y, &w, &h, &zoneSize, &mx, &my); log((CLOG_DEBUG "received client \"%s\" info shape=%d,%d %dx%d, zone=%d, pos=%d,%d", getName().c_str(), x, y, w, h, zoneSize, mx, my)); // validate if (w <= 0 || h <= 0 || zoneSize < 0) { throw XBadClient(); } if (mx < x || my < y || mx >= x + w || my >= y + h) { throw XBadClient(); } // save m_info.m_x = x; m_info.m_y = y; m_info.m_w = w; m_info.m_h = h; m_info.m_zoneSize = zoneSize; m_info.m_mx = mx; m_info.m_my = my; } // tell server of change if (notify) { getServer()->onInfoChanged(getName(), m_info); } // acknowledge receipt log((CLOG_DEBUG1 "send info ack to \"%s\"", getName().c_str())); CProtocolUtil::writef(getOutputStream(), kMsgCInfoAck); } void CClientProxy1_0::recvClipboard() { // parse message ClipboardID id; UInt32 seqNum; CString data; CProtocolUtil::readf(getInputStream(), kMsgDClipboard + 4, &id, &seqNum, &data); log((CLOG_DEBUG "received client \"%s\" clipboard %d seqnum=%d, size=%d", getName().c_str(), id, seqNum, data.size())); // validate if (id >= kClipboardEnd) { throw XBadClient(); } // send update. this calls us back to reset our clipboard dirty flag // so don't hold a lock during the call. getServer()->onClipboardChanged(id, seqNum, data); } void CClientProxy1_0::recvGrabClipboard() { // parse message ClipboardID id; UInt32 seqNum; CProtocolUtil::readf(getInputStream(), kMsgCClipboard + 4, &id, &seqNum); log((CLOG_DEBUG "received client \"%s\" grabbed clipboard %d seqnum=%d", getName().c_str(), id, seqNum)); // validate if (id >= kClipboardEnd) { throw XBadClient(); } // send update. this calls us back to reset our clipboard dirty flag // so don't hold a lock during the call. getServer()->onGrabClipboard(getName(), id, seqNum); }