barrier/src/lib/server/Server.cpp

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/*
* synergy -- mouse and keyboard sharing utility
* Copyright (C) 2012 Bolton Software Ltd.
* Copyright (C) 2002 Chris Schoeneman
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*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "server/Server.h"
#include "server/ClientProxy.h"
#include "server/ClientProxyUnknown.h"
#include "server/PrimaryClient.h"
#include "synergy/IPlatformScreen.h"
#include "synergy/option_types.h"
#include "synergy/protocol_types.h"
#include "synergy/XScreen.h"
#include "synergy/XSynergy.h"
#include "synergy/FileChunker.h"
#include "synergy/KeyState.h"
#include "synergy/Screen.h"
#include "net/IDataSocket.h"
#include "net/IListenSocket.h"
#include "net/XSocket.h"
#include "mt/Thread.h"
#include "arch/Arch.h"
#include "base/TMethodJob.h"
#include "base/IEventQueue.h"
#include "base/Log.h"
#include "base/TMethodEventJob.h"
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#include <cstring>
#include <cstdlib>
#include <sstream>
#include <fstream>
#include <stdexcept>
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//
// CServer
//
CServer::CServer(CConfig& config, CPrimaryClient* primaryClient, CScreen* screen, IEventQueue* events, bool enableDragDrop) :
m_mock(false),
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m_primaryClient(primaryClient),
m_active(primaryClient),
m_seqNum(0),
m_xDelta(0),
m_yDelta(0),
m_xDelta2(0),
m_yDelta2(0),
m_config(&config),
m_inputFilter(config.getInputFilter()),
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m_activeSaver(NULL),
m_switchDir(kNoDirection),
m_switchScreen(NULL),
m_switchWaitDelay(0.0),
m_switchWaitTimer(NULL),
m_switchTwoTapDelay(0.0),
m_switchTwoTapEngaged(false),
m_switchTwoTapArmed(false),
m_switchTwoTapZone(3),
m_switchNeedsShift(false),
m_switchNeedsControl(false),
m_switchNeedsAlt(false),
m_relativeMoves(false),
m_keyboardBroadcasting(false),
m_lockedToScreen(false),
m_screen(screen),
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m_events(events),
m_sendFileThread(NULL),
m_writeToDropDirThread(NULL),
m_ignoreFileTransfer(false),
m_enableDragDrop(enableDragDrop)
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{
// must have a primary client and it must have a canonical name
assert(m_primaryClient != NULL);
assert(config.isScreen(primaryClient->getName()));
assert(m_screen != NULL);
CString primaryName = getName(primaryClient);
// clear clipboards
for (ClipboardID id = 0; id < kClipboardEnd; ++id) {
CClipboardInfo& clipboard = m_clipboards[id];
clipboard.m_clipboardOwner = primaryName;
clipboard.m_clipboardSeqNum = m_seqNum;
if (clipboard.m_clipboard.open(0)) {
clipboard.m_clipboard.empty();
clipboard.m_clipboard.close();
}
clipboard.m_clipboardData = clipboard.m_clipboard.marshall();
}
// install event handlers
m_events->adoptHandler(CEvent::kTimer, this,
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new TMethodEventJob<CServer>(this,
&CServer::handleSwitchWaitTimeout));
m_events->adoptHandler(m_events->forIKeyState().keyDown(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleKeyDownEvent));
m_events->adoptHandler(m_events->forIKeyState().keyUp(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleKeyUpEvent));
m_events->adoptHandler(m_events->forIKeyState().keyRepeat(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleKeyRepeatEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().buttonDown(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleButtonDownEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().buttonUp(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleButtonUpEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().motionOnPrimary(),
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m_primaryClient->getEventTarget(),
new TMethodEventJob<CServer>(this,
&CServer::handleMotionPrimaryEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().motionOnSecondary(),
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m_primaryClient->getEventTarget(),
new TMethodEventJob<CServer>(this,
&CServer::handleMotionSecondaryEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().wheel(),
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m_primaryClient->getEventTarget(),
new TMethodEventJob<CServer>(this,
&CServer::handleWheelEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().screensaverActivated(),
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m_primaryClient->getEventTarget(),
new TMethodEventJob<CServer>(this,
&CServer::handleScreensaverActivatedEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().screensaverDeactivated(),
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m_primaryClient->getEventTarget(),
new TMethodEventJob<CServer>(this,
&CServer::handleScreensaverDeactivatedEvent));
m_events->adoptHandler(m_events->forCServer().switchToScreen(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleSwitchToScreenEvent));
m_events->adoptHandler(m_events->forCServer().switchInDirection(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleSwitchInDirectionEvent));
m_events->adoptHandler(m_events->forCServer().keyboardBroadcast(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleKeyboardBroadcastEvent));
m_events->adoptHandler(m_events->forCServer().lockCursorToScreen(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleLockCursorToScreenEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().fakeInputBegin(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleFakeInputBeginEvent));
m_events->adoptHandler(m_events->forIPrimaryScreen().fakeInputEnd(),
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m_inputFilter,
new TMethodEventJob<CServer>(this,
&CServer::handleFakeInputEndEvent));
if (m_enableDragDrop) {
m_events->adoptHandler(m_events->forIScreen().fileChunkSending(),
this,
new TMethodEventJob<CServer>(this,
&CServer::handleFileChunkSendingEvent));
m_events->adoptHandler(m_events->forIScreen().fileRecieveCompleted(),
this,
new TMethodEventJob<CServer>(this,
&CServer::handleFileRecieveCompletedEvent));
}
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// add connection
addClient(m_primaryClient);
// set initial configuration
setConfig(config);
// enable primary client
m_primaryClient->enable();
m_inputFilter->setPrimaryClient(m_primaryClient);
// Determine if scroll lock is already set. If so, lock the cursor to the primary screen
if (m_primaryClient->getToggleMask() & KeyModifierScrollLock) {
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LOG((CLOG_DEBUG "scroll lock on initially. locked to screen"));
m_lockedToScreen = true;
}
}
CServer::~CServer()
{
if (m_mock) {
return;
}
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// remove event handlers and timers
m_events->removeHandler(m_events->forIKeyState().keyDown(),
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m_inputFilter);
m_events->removeHandler(m_events->forIKeyState().keyUp(),
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m_inputFilter);
m_events->removeHandler(m_events->forIKeyState().keyRepeat(),
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m_inputFilter);
m_events->removeHandler(m_events->forIPrimaryScreen().buttonDown(),
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m_inputFilter);
m_events->removeHandler(m_events->forIPrimaryScreen().buttonUp(),
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m_inputFilter);
m_events->removeHandler(m_events->forIPrimaryScreen().motionOnPrimary(),
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m_primaryClient->getEventTarget());
m_events->removeHandler(m_events->forIPrimaryScreen().motionOnSecondary(),
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m_primaryClient->getEventTarget());
m_events->removeHandler(m_events->forIPrimaryScreen().wheel(),
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m_primaryClient->getEventTarget());
m_events->removeHandler(m_events->forIPrimaryScreen().screensaverActivated(),
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m_primaryClient->getEventTarget());
m_events->removeHandler(m_events->forIPrimaryScreen().screensaverDeactivated(),
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m_primaryClient->getEventTarget());
m_events->removeHandler(m_events->forIPrimaryScreen().fakeInputBegin(),
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m_inputFilter);
m_events->removeHandler(m_events->forIPrimaryScreen().fakeInputEnd(),
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m_inputFilter);
m_events->removeHandler(CEvent::kTimer, this);
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stopSwitch();
// force immediate disconnection of secondary clients
disconnect();
for (COldClients::iterator index = m_oldClients.begin();
index != m_oldClients.begin(); ++index) {
CBaseClientProxy* client = index->first;
m_events->deleteTimer(index->second);
m_events->removeHandler(CEvent::kTimer, client);
m_events->removeHandler(m_events->forCClientProxy().disconnected(), client);
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delete client;
}
// remove input filter
m_inputFilter->setPrimaryClient(NULL);
// disable and disconnect primary client
m_primaryClient->disable();
removeClient(m_primaryClient);
}
bool
CServer::setConfig(const CConfig& config)
{
// refuse configuration if it doesn't include the primary screen
if (!config.isScreen(m_primaryClient->getName())) {
return false;
}
// close clients that are connected but being dropped from the
// configuration.
closeClients(config);
// cut over
processOptions();
// add ScrollLock as a hotkey to lock to the screen. this was a
// built-in feature in earlier releases and is now supported via
// the user configurable hotkey mechanism. if the user has already
// registered ScrollLock for something else then that will win but
// we will unfortunately generate a warning. if the user has
// configured a CLockCursorToScreenAction then we don't add
// ScrollLock as a hotkey.
if (!m_config->hasLockToScreenAction()) {
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IPlatformScreen::CKeyInfo* key =
IPlatformScreen::CKeyInfo::alloc(kKeyScrollLock, 0, 0, 0);
CInputFilter::CRule rule(new CInputFilter::CKeystrokeCondition(m_events, key));
rule.adoptAction(new CInputFilter::CLockCursorToScreenAction(m_events), true);
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m_inputFilter->addFilterRule(rule);
}
// tell primary screen about reconfiguration
m_primaryClient->reconfigure(getActivePrimarySides());
// tell all (connected) clients about current options
for (CClientList::const_iterator index = m_clients.begin();
index != m_clients.end(); ++index) {
CBaseClientProxy* client = index->second;
sendOptions(client);
}
return true;
}
void
CServer::adoptClient(CBaseClientProxy* client)
{
assert(client != NULL);
// watch for client disconnection
m_events->adoptHandler(m_events->forCClientProxy().disconnected(), client,
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new TMethodEventJob<CServer>(this,
&CServer::handleClientDisconnected, client));
// name must be in our configuration
if (!m_config->isScreen(client->getName())) {
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LOG((CLOG_WARN "unrecognised client name \"%s\", check server config", client->getName().c_str()));
closeClient(client, kMsgEUnknown);
return;
}
// add client to client list
if (!addClient(client)) {
// can only have one screen with a given name at any given time
LOG((CLOG_WARN "a client with name \"%s\" is already connected", getName(client).c_str()));
closeClient(client, kMsgEBusy);
return;
}
LOG((CLOG_NOTE "client \"%s\" has connected", getName(client).c_str()));
// send configuration options to client
sendOptions(client);
// activate screen saver on new client if active on the primary screen
if (m_activeSaver != NULL) {
client->screensaver(true);
}
// send notification
CServer::CScreenConnectedInfo* info =
new CServer::CScreenConnectedInfo(getName(client));
m_events->addEvent(CEvent(m_events->forCServer().connected(),
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m_primaryClient->getEventTarget(), info));
}
void
CServer::disconnect()
{
// close all secondary clients
if (m_clients.size() > 1 || !m_oldClients.empty()) {
CConfig emptyConfig(m_events);
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closeClients(emptyConfig);
}
else {
m_events->addEvent(CEvent(m_events->forCServer().disconnected(), this));
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}
}
UInt32
CServer::getNumClients() const
{
return (SInt32)m_clients.size();
}
void
CServer::getClients(std::vector<CString>& list) const
{
list.clear();
for (CClientList::const_iterator index = m_clients.begin();
index != m_clients.end(); ++index) {
list.push_back(index->first);
}
}
CString
CServer::getName(const CBaseClientProxy* client) const
{
CString name = m_config->getCanonicalName(client->getName());
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if (name.empty()) {
name = client->getName();
}
return name;
}
UInt32
CServer::getActivePrimarySides() const
{
UInt32 sides = 0;
if (!isLockedToScreenServer()) {
if (hasAnyNeighbor(m_primaryClient, kLeft)) {
sides |= kLeftMask;
}
if (hasAnyNeighbor(m_primaryClient, kRight)) {
sides |= kRightMask;
}
if (hasAnyNeighbor(m_primaryClient, kTop)) {
sides |= kTopMask;
}
if (hasAnyNeighbor(m_primaryClient, kBottom)) {
sides |= kBottomMask;
}
}
return sides;
}
bool
CServer::isLockedToScreenServer() const
{
// locked if scroll-lock is toggled on
return m_lockedToScreen;
}
bool
CServer::isLockedToScreen() const
{
// locked if we say we're locked
if (isLockedToScreenServer()) {
LOG((CLOG_DEBUG "locked to screen"));
return true;
}
// locked if primary says we're locked
if (m_primaryClient->isLockedToScreen()) {
return true;
}
// not locked
return false;
}
SInt32
CServer::getJumpZoneSize(CBaseClientProxy* client) const
{
if (client == m_primaryClient) {
return m_primaryClient->getJumpZoneSize();
}
else {
return 0;
}
}
void
CServer::switchScreen(CBaseClientProxy* dst,
SInt32 x, SInt32 y, bool forScreensaver)
{
assert(dst != NULL);
#ifndef NDEBUG
{
SInt32 dx, dy, dw, dh;
dst->getShape(dx, dy, dw, dh);
assert(x >= dx && y >= dy && x < dx + dw && y < dy + dh);
}
#endif
assert(m_active != NULL);
LOG((CLOG_INFO "switch from \"%s\" to \"%s\" at %d,%d", getName(m_active).c_str(), getName(dst).c_str(), x, y));
// stop waiting to switch
stopSwitch();
// record new position
m_x = x;
m_y = y;
m_xDelta = 0;
m_yDelta = 0;
m_xDelta2 = 0;
m_yDelta2 = 0;
// wrapping means leaving the active screen and entering it again.
// since that's a waste of time we skip that and just warp the
// mouse.
if (m_active != dst) {
// leave active screen
if (!m_active->leave()) {
// cannot leave screen
LOG((CLOG_WARN "can't leave screen"));
return;
}
// update the primary client's clipboards if we're leaving the
// primary screen.
if (m_active == m_primaryClient) {
for (ClipboardID id = 0; id < kClipboardEnd; ++id) {
CClipboardInfo& clipboard = m_clipboards[id];
if (clipboard.m_clipboardOwner == getName(m_primaryClient)) {
onClipboardChanged(m_primaryClient,
id, clipboard.m_clipboardSeqNum);
}
}
}
// cut over
m_active = dst;
// increment enter sequence number
++m_seqNum;
// enter new screen
m_active->enter(x, y, m_seqNum,
m_primaryClient->getToggleMask(),
forScreensaver);
// send the clipboard data to new active screen
for (ClipboardID id = 0; id < kClipboardEnd; ++id) {
m_active->setClipboard(id, &m_clipboards[id].m_clipboard);
}
CServer::CSwitchToScreenInfo* info =
CServer::CSwitchToScreenInfo::alloc(m_active->getName());
m_events->addEvent(CEvent(m_events->forCServer().screenSwitched(), this, info));
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}
else {
m_active->mouseMove(x, y);
}
}
void
CServer::jumpToScreen(CBaseClientProxy* newScreen)
{
assert(newScreen != NULL);
// record the current cursor position on the active screen
m_active->setJumpCursorPos(m_x, m_y);
// get the last cursor position on the target screen
SInt32 x, y;
newScreen->getJumpCursorPos(x, y);
switchScreen(newScreen, x, y, false);
}
float
CServer::mapToFraction(CBaseClientProxy* client,
EDirection dir, SInt32 x, SInt32 y) const
{
SInt32 sx, sy, sw, sh;
client->getShape(sx, sy, sw, sh);
switch (dir) {
case kLeft:
case kRight:
return static_cast<float>(y - sy + 0.5f) / static_cast<float>(sh);
case kTop:
case kBottom:
return static_cast<float>(x - sx + 0.5f) / static_cast<float>(sw);
case kNoDirection:
assert(0 && "bad direction");
break;
}
return 0.0f;
}
void
CServer::mapToPixel(CBaseClientProxy* client,
EDirection dir, float f, SInt32& x, SInt32& y) const
{
SInt32 sx, sy, sw, sh;
client->getShape(sx, sy, sw, sh);
switch (dir) {
case kLeft:
case kRight:
y = static_cast<SInt32>(f * sh) + sy;
break;
case kTop:
case kBottom:
x = static_cast<SInt32>(f * sw) + sx;
break;
case kNoDirection:
assert(0 && "bad direction");
break;
}
}
bool
CServer::hasAnyNeighbor(CBaseClientProxy* client, EDirection dir) const
{
assert(client != NULL);
return m_config->hasNeighbor(getName(client), dir);
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}
CBaseClientProxy*
CServer::getNeighbor(CBaseClientProxy* src,
EDirection dir, SInt32& x, SInt32& y) const
{
// note -- must be locked on entry
assert(src != NULL);
// get source screen name
CString srcName = getName(src);
assert(!srcName.empty());
LOG((CLOG_DEBUG2 "find neighbor on %s of \"%s\"", CConfig::dirName(dir), srcName.c_str()));
// convert position to fraction
float t = mapToFraction(src, dir, x, y);
// search for the closest neighbor that exists in direction dir
float tTmp;
for (;;) {
CString dstName(m_config->getNeighbor(srcName, dir, t, &tTmp));
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// if nothing in that direction then return NULL. if the
// destination is the source then we can make no more
// progress in this direction. since we haven't found a
// connected neighbor we return NULL.
if (dstName.empty()) {
LOG((CLOG_DEBUG2 "no neighbor on %s of \"%s\"", CConfig::dirName(dir), srcName.c_str()));
return NULL;
}
// look up neighbor cell. if the screen is connected and
// ready then we can stop.
CClientList::const_iterator index = m_clients.find(dstName);
if (index != m_clients.end()) {
LOG((CLOG_DEBUG2 "\"%s\" is on %s of \"%s\" at %f", dstName.c_str(), CConfig::dirName(dir), srcName.c_str(), t));
mapToPixel(index->second, dir, tTmp, x, y);
return index->second;
}
// skip over unconnected screen
LOG((CLOG_DEBUG2 "ignored \"%s\" on %s of \"%s\"", dstName.c_str(), CConfig::dirName(dir), srcName.c_str()));
srcName = dstName;
// use position on skipped screen
t = tTmp;
}
}
CBaseClientProxy*
CServer::mapToNeighbor(CBaseClientProxy* src,
EDirection srcSide, SInt32& x, SInt32& y) const
{
// note -- must be locked on entry
assert(src != NULL);
// get the first neighbor
CBaseClientProxy* dst = getNeighbor(src, srcSide, x, y);
if (dst == NULL) {
return NULL;
}
// get the source screen's size
SInt32 dx, dy, dw, dh;
CBaseClientProxy* lastGoodScreen = src;
lastGoodScreen->getShape(dx, dy, dw, dh);
// find destination screen, adjusting x or y (but not both). the
// searches are done in a sort of canonical screen space where
// the upper-left corner is 0,0 for each screen. we adjust from
// actual to canonical position on entry to and from canonical to
// actual on exit from the search.
switch (srcSide) {
case kLeft:
x -= dx;
while (dst != NULL) {
lastGoodScreen = dst;
lastGoodScreen->getShape(dx, dy, dw, dh);
x += dw;
if (x >= 0) {
break;
}
LOG((CLOG_DEBUG2 "skipping over screen %s", getName(dst).c_str()));
dst = getNeighbor(lastGoodScreen, srcSide, x, y);
}
assert(lastGoodScreen != NULL);
x += dx;
break;
case kRight:
x -= dx;
while (dst != NULL) {
x -= dw;
lastGoodScreen = dst;
lastGoodScreen->getShape(dx, dy, dw, dh);
if (x < dw) {
break;
}
LOG((CLOG_DEBUG2 "skipping over screen %s", getName(dst).c_str()));
dst = getNeighbor(lastGoodScreen, srcSide, x, y);
}
assert(lastGoodScreen != NULL);
x += dx;
break;
case kTop:
y -= dy;
while (dst != NULL) {
lastGoodScreen = dst;
lastGoodScreen->getShape(dx, dy, dw, dh);
y += dh;
if (y >= 0) {
break;
}
LOG((CLOG_DEBUG2 "skipping over screen %s", getName(dst).c_str()));
dst = getNeighbor(lastGoodScreen, srcSide, x, y);
}
assert(lastGoodScreen != NULL);
y += dy;
break;
case kBottom:
y -= dy;
while (dst != NULL) {
y -= dh;
lastGoodScreen = dst;
lastGoodScreen->getShape(dx, dy, dw, dh);
if (y < dh) {
break;
}
LOG((CLOG_DEBUG2 "skipping over screen %s", getName(dst).c_str()));
dst = getNeighbor(lastGoodScreen, srcSide, x, y);
}
assert(lastGoodScreen != NULL);
y += dy;
break;
case kNoDirection:
assert(0 && "bad direction");
return NULL;
}
// save destination screen
assert(lastGoodScreen != NULL);
dst = lastGoodScreen;
// if entering primary screen then be sure to move in far enough
// to avoid the jump zone. if entering a side that doesn't have
// a neighbor (i.e. an asymmetrical side) then we don't need to
// move inwards because that side can't provoke a jump.
avoidJumpZone(dst, srcSide, x, y);
return dst;
}
void
CServer::avoidJumpZone(CBaseClientProxy* dst,
EDirection dir, SInt32& x, SInt32& y) const
{
// we only need to avoid jump zones on the primary screen
if (dst != m_primaryClient) {
return;
}
const CString dstName(getName(dst));
SInt32 dx, dy, dw, dh;
dst->getShape(dx, dy, dw, dh);
float t = mapToFraction(dst, dir, x, y);
SInt32 z = getJumpZoneSize(dst);
// move in far enough to avoid the jump zone. if entering a side
// that doesn't have a neighbor (i.e. an asymmetrical side) then we
// don't need to move inwards because that side can't provoke a jump.
switch (dir) {
case kLeft:
if (!m_config->getNeighbor(dstName, kRight, t, NULL).empty() &&
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x > dx + dw - 1 - z)
x = dx + dw - 1 - z;
break;
case kRight:
if (!m_config->getNeighbor(dstName, kLeft, t, NULL).empty() &&
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x < dx + z)
x = dx + z;
break;
case kTop:
if (!m_config->getNeighbor(dstName, kBottom, t, NULL).empty() &&
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y > dy + dh - 1 - z)
y = dy + dh - 1 - z;
break;
case kBottom:
if (!m_config->getNeighbor(dstName, kTop, t, NULL).empty() &&
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y < dy + z)
y = dy + z;
break;
case kNoDirection:
assert(0 && "bad direction");
}
}
bool
CServer::isSwitchOkay(CBaseClientProxy* newScreen,
EDirection dir, SInt32 x, SInt32 y,
SInt32 xActive, SInt32 yActive)
{
LOG((CLOG_DEBUG1 "try to leave \"%s\" on %s", getName(m_active).c_str(), CConfig::dirName(dir)));
// is there a neighbor?
if (newScreen == NULL) {
// there's no neighbor. we don't want to switch and we don't
// want to try to switch later.
LOG((CLOG_DEBUG1 "no neighbor %s", CConfig::dirName(dir)));
stopSwitch();
return false;
}
// should we switch or not?
bool preventSwitch = false;
bool allowSwitch = false;
// note if the switch direction has changed. save the new
// direction and screen if so.
bool isNewDirection = (dir != m_switchDir);
if (isNewDirection || m_switchScreen == NULL) {
m_switchDir = dir;
m_switchScreen = newScreen;
}
// is this a double tap and do we care?
if (!allowSwitch && m_switchTwoTapDelay > 0.0) {
if (isNewDirection ||
!isSwitchTwoTapStarted() || !shouldSwitchTwoTap()) {
// tapping a different or new edge or second tap not
// fast enough. prepare for second tap.
preventSwitch = true;
startSwitchTwoTap();
}
else {
// got second tap
allowSwitch = true;
}
}
// if waiting before a switch then prepare to switch later
if (!allowSwitch && m_switchWaitDelay > 0.0) {
if (isNewDirection || !isSwitchWaitStarted()) {
startSwitchWait(x, y);
}
preventSwitch = true;
}
// are we in a locked corner? first check if screen has the option set
// and, if not, check the global options.
const CConfig::CScreenOptions* options =
m_config->getOptions(getName(m_active));
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if (options == NULL || options->count(kOptionScreenSwitchCorners) == 0) {
options = m_config->getOptions("");
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}
if (options != NULL && options->count(kOptionScreenSwitchCorners) > 0) {
// get corner mask and size
CConfig::CScreenOptions::const_iterator i =
options->find(kOptionScreenSwitchCorners);
UInt32 corners = static_cast<UInt32>(i->second);
i = options->find(kOptionScreenSwitchCornerSize);
SInt32 size = 0;
if (i != options->end()) {
size = i->second;
}
// see if we're in a locked corner
if ((getCorner(m_active, xActive, yActive, size) & corners) != 0) {
// yep, no switching
LOG((CLOG_DEBUG1 "locked in corner"));
preventSwitch = true;
stopSwitch();
}
}
// ignore if mouse is locked to screen and don't try to switch later
if (!preventSwitch && isLockedToScreen()) {
LOG((CLOG_DEBUG1 "locked to screen"));
preventSwitch = true;
stopSwitch();
}
// check for optional needed modifiers
KeyModifierMask mods = this->m_primaryClient->getToggleMask( );
if (!preventSwitch && (
(this->m_switchNeedsShift && ((mods & KeyModifierShift) != KeyModifierShift)) ||
(this->m_switchNeedsControl && ((mods & KeyModifierControl) != KeyModifierControl)) ||
(this->m_switchNeedsAlt && ((mods & KeyModifierAlt) != KeyModifierAlt))
)) {
LOG((CLOG_DEBUG1 "need modifiers to switch"));
preventSwitch = true;
stopSwitch();
}
return !preventSwitch;
}
void
CServer::noSwitch(SInt32 x, SInt32 y)
{
armSwitchTwoTap(x, y);
stopSwitchWait();
}
void
CServer::stopSwitch()
{
if (m_switchScreen != NULL) {
m_switchScreen = NULL;
m_switchDir = kNoDirection;
stopSwitchTwoTap();
stopSwitchWait();
}
}
void
CServer::startSwitchTwoTap()
{
m_switchTwoTapEngaged = true;
m_switchTwoTapArmed = false;
m_switchTwoTapTimer.reset();
LOG((CLOG_DEBUG1 "waiting for second tap"));
}
void
CServer::armSwitchTwoTap(SInt32 x, SInt32 y)
{
if (m_switchTwoTapEngaged) {
if (m_switchTwoTapTimer.getTime() > m_switchTwoTapDelay) {
// second tap took too long. disengage.
stopSwitchTwoTap();
}
else if (!m_switchTwoTapArmed) {
// still time for a double tap. see if we left the tap
// zone and, if so, arm the two tap.
SInt32 ax, ay, aw, ah;
m_active->getShape(ax, ay, aw, ah);
SInt32 tapZone = m_primaryClient->getJumpZoneSize();
if (tapZone < m_switchTwoTapZone) {
tapZone = m_switchTwoTapZone;
}
if (x >= ax + tapZone && x < ax + aw - tapZone &&
y >= ay + tapZone && y < ay + ah - tapZone) {
// win32 can generate bogus mouse events that appear to
// move in the opposite direction that the mouse actually
// moved. try to ignore that crap here.
switch (m_switchDir) {
case kLeft:
m_switchTwoTapArmed = (m_xDelta > 0 && m_xDelta2 > 0);
break;
case kRight:
m_switchTwoTapArmed = (m_xDelta < 0 && m_xDelta2 < 0);
break;
case kTop:
m_switchTwoTapArmed = (m_yDelta > 0 && m_yDelta2 > 0);
break;
case kBottom:
m_switchTwoTapArmed = (m_yDelta < 0 && m_yDelta2 < 0);
break;
default:
break;
}
}
}
}
}
void
CServer::stopSwitchTwoTap()
{
m_switchTwoTapEngaged = false;
m_switchTwoTapArmed = false;
}
bool
CServer::isSwitchTwoTapStarted() const
{
return m_switchTwoTapEngaged;
}
bool
CServer::shouldSwitchTwoTap() const
{
// this is the second tap if two-tap is armed and this tap
// came fast enough
return (m_switchTwoTapArmed &&
m_switchTwoTapTimer.getTime() <= m_switchTwoTapDelay);
}
void
CServer::startSwitchWait(SInt32 x, SInt32 y)
{
stopSwitchWait();
m_switchWaitX = x;
m_switchWaitY = y;
m_switchWaitTimer = m_events->newOneShotTimer(m_switchWaitDelay, this);
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LOG((CLOG_DEBUG1 "waiting to switch"));
}
void
CServer::stopSwitchWait()
{
if (m_switchWaitTimer != NULL) {
m_events->deleteTimer(m_switchWaitTimer);
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m_switchWaitTimer = NULL;
}
}
bool
CServer::isSwitchWaitStarted() const
{
return (m_switchWaitTimer != NULL);
}
UInt32
CServer::getCorner(CBaseClientProxy* client,
SInt32 x, SInt32 y, SInt32 size) const
{
assert(client != NULL);
// get client screen shape
SInt32 ax, ay, aw, ah;
client->getShape(ax, ay, aw, ah);
// check for x,y on the left or right
SInt32 xSide;
if (x <= ax) {
xSide = -1;
}
else if (x >= ax + aw - 1) {
xSide = 1;
}
else {
xSide = 0;
}
// check for x,y on the top or bottom
SInt32 ySide;
if (y <= ay) {
ySide = -1;
}
else if (y >= ay + ah - 1) {
ySide = 1;
}
else {
ySide = 0;
}
// if against the left or right then check if y is within size
if (xSide != 0) {
if (y < ay + size) {
return (xSide < 0) ? kTopLeftMask : kTopRightMask;
}
else if (y >= ay + ah - size) {
return (xSide < 0) ? kBottomLeftMask : kBottomRightMask;
}
}
// if against the left or right then check if y is within size
if (ySide != 0) {
if (x < ax + size) {
return (ySide < 0) ? kTopLeftMask : kBottomLeftMask;
}
else if (x >= ax + aw - size) {
return (ySide < 0) ? kTopRightMask : kBottomRightMask;
}
}
return kNoCornerMask;
}
void
CServer::stopRelativeMoves()
{
if (m_relativeMoves && m_active != m_primaryClient) {
// warp to the center of the active client so we know where we are
SInt32 ax, ay, aw, ah;
m_active->getShape(ax, ay, aw, ah);
m_x = ax + (aw >> 1);
m_y = ay + (ah >> 1);
m_xDelta = 0;
m_yDelta = 0;
m_xDelta2 = 0;
m_yDelta2 = 0;
LOG((CLOG_DEBUG2 "synchronize move on %s by %d,%d", getName(m_active).c_str(), m_x, m_y));
m_active->mouseMove(m_x, m_y);
}
}
void
CServer::sendOptions(CBaseClientProxy* client) const
{
COptionsList optionsList;
// look up options for client
const CConfig::CScreenOptions* options =
m_config->getOptions(getName(client));
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if (options != NULL) {
// convert options to a more convenient form for sending
optionsList.reserve(2 * options->size());
for (CConfig::CScreenOptions::const_iterator index = options->begin();
index != options->end(); ++index) {
optionsList.push_back(index->first);
optionsList.push_back(static_cast<UInt32>(index->second));
}
}
// look up global options
options = m_config->getOptions("");
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if (options != NULL) {
// convert options to a more convenient form for sending
optionsList.reserve(optionsList.size() + 2 * options->size());
for (CConfig::CScreenOptions::const_iterator index = options->begin();
index != options->end(); ++index) {
optionsList.push_back(index->first);
optionsList.push_back(static_cast<UInt32>(index->second));
}
}
// send the options
client->resetOptions();
client->setOptions(optionsList);
}
void
CServer::processOptions()
{
const CConfig::CScreenOptions* options = m_config->getOptions("");
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if (options == NULL) {
return;
}
m_switchNeedsShift = false; // it seems if i don't add these
m_switchNeedsControl = false; // lines, the 'reload config' option
m_switchNeedsAlt = false; // doesnt' work correct.
bool newRelativeMoves = m_relativeMoves;
for (CConfig::CScreenOptions::const_iterator index = options->begin();
index != options->end(); ++index) {
const OptionID id = index->first;
const OptionValue value = index->second;
if (id == kOptionScreenSwitchDelay) {
m_switchWaitDelay = 1.0e-3 * static_cast<double>(value);
if (m_switchWaitDelay < 0.0) {
m_switchWaitDelay = 0.0;
}
stopSwitchWait();
}
else if (id == kOptionScreenSwitchTwoTap) {
m_switchTwoTapDelay = 1.0e-3 * static_cast<double>(value);
if (m_switchTwoTapDelay < 0.0) {
m_switchTwoTapDelay = 0.0;
}
stopSwitchTwoTap();
}
else if (id == kOptionScreenSwitchNeedsControl) {
m_switchNeedsControl = (value != 0);
}
else if (id == kOptionScreenSwitchNeedsShift) {
m_switchNeedsShift = (value != 0);
}
else if (id == kOptionScreenSwitchNeedsAlt) {
m_switchNeedsAlt = (value != 0);
}
else if (id == kOptionRelativeMouseMoves) {
newRelativeMoves = (value != 0);
}
}
if (m_relativeMoves && !newRelativeMoves) {
stopRelativeMoves();
}
m_relativeMoves = newRelativeMoves;
}
void
CServer::handleShapeChanged(const CEvent&, void* vclient)
{
// ignore events from unknown clients
CBaseClientProxy* client = reinterpret_cast<CBaseClientProxy*>(vclient);
if (m_clientSet.count(client) == 0) {
return;
}
LOG((CLOG_DEBUG "screen \"%s\" shape changed", getName(client).c_str()));
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// update jump coordinate
SInt32 x, y;
client->getCursorPos(x, y);
client->setJumpCursorPos(x, y);
// update the mouse coordinates
if (client == m_active) {
m_x = x;
m_y = y;
}
// handle resolution change to primary screen
if (client == m_primaryClient) {
if (client == m_active) {
onMouseMovePrimary(m_x, m_y);
}
else {
onMouseMoveSecondary(0, 0);
}
}
}
void
CServer::handleClipboardGrabbed(const CEvent& event, void* vclient)
{
// ignore events from unknown clients
CBaseClientProxy* grabber = reinterpret_cast<CBaseClientProxy*>(vclient);
if (m_clientSet.count(grabber) == 0) {
return;
}
const IScreen::CClipboardInfo* info =
reinterpret_cast<const IScreen::CClipboardInfo*>(event.getData());
// ignore grab if sequence number is old. always allow primary
// screen to grab.
CClipboardInfo& clipboard = m_clipboards[info->m_id];
if (grabber != m_primaryClient &&
info->m_sequenceNumber < clipboard.m_clipboardSeqNum) {
LOG((CLOG_INFO "ignored screen \"%s\" grab of clipboard %d", getName(grabber).c_str(), info->m_id));
return;
}
// mark screen as owning clipboard
LOG((CLOG_INFO "screen \"%s\" grabbed clipboard %d from \"%s\"", getName(grabber).c_str(), info->m_id, clipboard.m_clipboardOwner.c_str()));
clipboard.m_clipboardOwner = getName(grabber);
clipboard.m_clipboardSeqNum = info->m_sequenceNumber;
// clear the clipboard data (since it's not known at this point)
if (clipboard.m_clipboard.open(0)) {
clipboard.m_clipboard.empty();
clipboard.m_clipboard.close();
}
clipboard.m_clipboardData = clipboard.m_clipboard.marshall();
// tell all other screens to take ownership of clipboard. tell the
// grabber that it's clipboard isn't dirty.
for (CClientList::iterator index = m_clients.begin();
index != m_clients.end(); ++index) {
CBaseClientProxy* client = index->second;
if (client == grabber) {
client->setClipboardDirty(info->m_id, false);
}
else {
client->grabClipboard(info->m_id);
}
}
}
void
CServer::handleClipboardChanged(const CEvent& event, void* vclient)
{
// ignore events from unknown clients
CBaseClientProxy* sender = reinterpret_cast<CBaseClientProxy*>(vclient);
if (m_clientSet.count(sender) == 0) {
return;
}
const IScreen::CClipboardInfo* info =
reinterpret_cast<const IScreen::CClipboardInfo*>(event.getData());
onClipboardChanged(sender, info->m_id, info->m_sequenceNumber);
}
void
CServer::handleKeyDownEvent(const CEvent& event, void*)
{
IPlatformScreen::CKeyInfo* info =
reinterpret_cast<IPlatformScreen::CKeyInfo*>(event.getData());
onKeyDown(info->m_key, info->m_mask, info->m_button, info->m_screens);
}
void
CServer::handleKeyUpEvent(const CEvent& event, void*)
{
IPlatformScreen::CKeyInfo* info =
reinterpret_cast<IPlatformScreen::CKeyInfo*>(event.getData());
onKeyUp(info->m_key, info->m_mask, info->m_button, info->m_screens);
}
void
CServer::handleKeyRepeatEvent(const CEvent& event, void*)
{
IPlatformScreen::CKeyInfo* info =
reinterpret_cast<IPlatformScreen::CKeyInfo*>(event.getData());
onKeyRepeat(info->m_key, info->m_mask, info->m_count, info->m_button);
}
void
CServer::handleButtonDownEvent(const CEvent& event, void*)
{
IPlatformScreen::CButtonInfo* info =
reinterpret_cast<IPlatformScreen::CButtonInfo*>(event.getData());
onMouseDown(info->m_button);
}
void
CServer::handleButtonUpEvent(const CEvent& event, void*)
{
IPlatformScreen::CButtonInfo* info =
reinterpret_cast<IPlatformScreen::CButtonInfo*>(event.getData());
onMouseUp(info->m_button);
}
void
CServer::handleMotionPrimaryEvent(const CEvent& event, void*)
{
IPlatformScreen::CMotionInfo* info =
reinterpret_cast<IPlatformScreen::CMotionInfo*>(event.getData());
onMouseMovePrimary(info->m_x, info->m_y);
}
void
CServer::handleMotionSecondaryEvent(const CEvent& event, void*)
{
IPlatformScreen::CMotionInfo* info =
reinterpret_cast<IPlatformScreen::CMotionInfo*>(event.getData());
onMouseMoveSecondary(info->m_x, info->m_y);
}
void
CServer::handleWheelEvent(const CEvent& event, void*)
{
IPlatformScreen::CWheelInfo* info =
reinterpret_cast<IPlatformScreen::CWheelInfo*>(event.getData());
onMouseWheel(info->m_xDelta, info->m_yDelta);
}
void
CServer::handleScreensaverActivatedEvent(const CEvent&, void*)
{
onScreensaver(true);
}
void
CServer::handleScreensaverDeactivatedEvent(const CEvent&, void*)
{
onScreensaver(false);
}
void
CServer::handleSwitchWaitTimeout(const CEvent&, void*)
{
// ignore if mouse is locked to screen
if (isLockedToScreen()) {
LOG((CLOG_DEBUG1 "locked to screen"));
stopSwitch();
return;
}
// switch screen
switchScreen(m_switchScreen, m_switchWaitX, m_switchWaitY, false);
}
void
CServer::handleClientDisconnected(const CEvent&, void* vclient)
{
// client has disconnected. it might be an old client or an
// active client. we don't care so just handle it both ways.
CBaseClientProxy* client = reinterpret_cast<CBaseClientProxy*>(vclient);
removeActiveClient(client);
removeOldClient(client);
delete client;
}
void
CServer::handleClientCloseTimeout(const CEvent&, void* vclient)
{
// client took too long to disconnect. just dump it.
CBaseClientProxy* client = reinterpret_cast<CBaseClientProxy*>(vclient);
LOG((CLOG_NOTE "forced disconnection of client \"%s\"", getName(client).c_str()));
removeOldClient(client);
delete client;
}
void
CServer::handleSwitchToScreenEvent(const CEvent& event, void*)
{
CSwitchToScreenInfo* info =
reinterpret_cast<CSwitchToScreenInfo*>(event.getData());
CClientList::const_iterator index = m_clients.find(info->m_screen);
if (index == m_clients.end()) {
LOG((CLOG_DEBUG1 "screen \"%s\" not active", info->m_screen));
}
else {
jumpToScreen(index->second);
}
}
void
CServer::handleSwitchInDirectionEvent(const CEvent& event, void*)
{
CSwitchInDirectionInfo* info =
reinterpret_cast<CSwitchInDirectionInfo*>(event.getData());
// jump to screen in chosen direction from center of this screen
SInt32 x = m_x, y = m_y;
CBaseClientProxy* newScreen =
getNeighbor(m_active, info->m_direction, x, y);
if (newScreen == NULL) {
LOG((CLOG_DEBUG1 "no neighbor %s", CConfig::dirName(info->m_direction)));
}
else {
jumpToScreen(newScreen);
}
}
void
CServer::handleKeyboardBroadcastEvent(const CEvent& event, void*)
{
CKeyboardBroadcastInfo* info = (CKeyboardBroadcastInfo*)event.getData();
// choose new state
bool newState;
switch (info->m_state) {
case CKeyboardBroadcastInfo::kOff:
newState = false;
break;
default:
case CKeyboardBroadcastInfo::kOn:
newState = true;
break;
case CKeyboardBroadcastInfo::kToggle:
newState = !m_keyboardBroadcasting;
break;
}
// enter new state
if (newState != m_keyboardBroadcasting ||
info->m_screens != m_keyboardBroadcastingScreens) {
m_keyboardBroadcasting = newState;
m_keyboardBroadcastingScreens = info->m_screens;
LOG((CLOG_DEBUG "keyboard broadcasting %s: %s", m_keyboardBroadcasting ? "on" : "off", m_keyboardBroadcastingScreens.c_str()));
}
}
void
CServer::handleLockCursorToScreenEvent(const CEvent& event, void*)
{
CLockCursorToScreenInfo* info = (CLockCursorToScreenInfo*)event.getData();
// choose new state
bool newState;
switch (info->m_state) {
case CLockCursorToScreenInfo::kOff:
newState = false;
break;
default:
case CLockCursorToScreenInfo::kOn:
newState = true;
break;
case CLockCursorToScreenInfo::kToggle:
newState = !m_lockedToScreen;
break;
}
// enter new state
if (newState != m_lockedToScreen) {
m_lockedToScreen = newState;
LOG((CLOG_DEBUG "cursor %s current screen", m_lockedToScreen ? "locked to" : "unlocked from"));
m_primaryClient->reconfigure(getActivePrimarySides());
if (!isLockedToScreenServer()) {
stopRelativeMoves();
}
}
}
void
CServer::handleFakeInputBeginEvent(const CEvent&, void*)
{
m_primaryClient->fakeInputBegin();
}
void
CServer::handleFakeInputEndEvent(const CEvent&, void*)
{
m_primaryClient->fakeInputEnd();
}
void
CServer::handleFileChunkSendingEvent(const CEvent& event, void*)
{
onFileChunkSending(event.getData());
}
void
CServer::handleFileRecieveCompletedEvent(const CEvent& event, void*)
{
onFileRecieveCompleted();
}
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void
CServer::onClipboardChanged(CBaseClientProxy* sender,
ClipboardID id, UInt32 seqNum)
{
CClipboardInfo& clipboard = m_clipboards[id];
// ignore update if sequence number is old
if (seqNum < clipboard.m_clipboardSeqNum) {
LOG((CLOG_INFO "ignored screen \"%s\" update of clipboard %d (missequenced)", getName(sender).c_str(), id));
return;
}
// should be the expected client
assert(sender == m_clients.find(clipboard.m_clipboardOwner)->second);
// get data
sender->getClipboard(id, &clipboard.m_clipboard);
// ignore if data hasn't changed
CString data = clipboard.m_clipboard.marshall();
if (data == clipboard.m_clipboardData) {
LOG((CLOG_DEBUG "ignored screen \"%s\" update of clipboard %d (unchanged)", clipboard.m_clipboardOwner.c_str(), id));
return;
}
// got new data
LOG((CLOG_INFO "screen \"%s\" updated clipboard %d", clipboard.m_clipboardOwner.c_str(), id));
clipboard.m_clipboardData = data;
// tell all clients except the sender that the clipboard is dirty
for (CClientList::const_iterator index = m_clients.begin();
index != m_clients.end(); ++index) {
CBaseClientProxy* client = index->second;
client->setClipboardDirty(id, client != sender);
}
// send the new clipboard to the active screen
m_active->setClipboard(id, &clipboard.m_clipboard);
}
void
CServer::onScreensaver(bool activated)
{
LOG((CLOG_DEBUG "onScreenSaver %s", activated ? "activated" : "deactivated"));
if (activated) {
// save current screen and position
m_activeSaver = m_active;
m_xSaver = m_x;
m_ySaver = m_y;
// jump to primary screen
if (m_active != m_primaryClient) {
switchScreen(m_primaryClient, 0, 0, true);
}
}
else {
// jump back to previous screen and position. we must check
// that the position is still valid since the screen may have
// changed resolutions while the screen saver was running.
if (m_activeSaver != NULL && m_activeSaver != m_primaryClient) {
// check position
CBaseClientProxy* screen = m_activeSaver;
SInt32 x, y, w, h;
screen->getShape(x, y, w, h);
SInt32 zoneSize = getJumpZoneSize(screen);
if (m_xSaver < x + zoneSize) {
m_xSaver = x + zoneSize;
}
else if (m_xSaver >= x + w - zoneSize) {
m_xSaver = x + w - zoneSize - 1;
}
if (m_ySaver < y + zoneSize) {
m_ySaver = y + zoneSize;
}
else if (m_ySaver >= y + h - zoneSize) {
m_ySaver = y + h - zoneSize - 1;
}
// jump
switchScreen(screen, m_xSaver, m_ySaver, false);
}
// reset state
m_activeSaver = NULL;
}
// send message to all clients
for (CClientList::const_iterator index = m_clients.begin();
index != m_clients.end(); ++index) {
CBaseClientProxy* client = index->second;
client->screensaver(activated);
}
}
void
CServer::onKeyDown(KeyID id, KeyModifierMask mask, KeyButton button,
const char* screens)
{
LOG((CLOG_DEBUG1 "onKeyDown id=%d mask=0x%04x button=0x%04x", id, mask, button));
assert(m_active != NULL);
// relay
if (!m_keyboardBroadcasting && IKeyState::CKeyInfo::isDefault(screens)) {
m_active->keyDown(id, mask, button);
}
else {
if (!screens && m_keyboardBroadcasting) {
screens = m_keyboardBroadcastingScreens.c_str();
if (IKeyState::CKeyInfo::isDefault(screens)) {
screens = "*";
}
}
for (CClientList::const_iterator index = m_clients.begin();
index != m_clients.end(); ++index) {
if (IKeyState::CKeyInfo::contains(screens, index->first)) {
index->second->keyDown(id, mask, button);
}
}
}
}
void
CServer::onKeyUp(KeyID id, KeyModifierMask mask, KeyButton button,
const char* screens)
{
LOG((CLOG_DEBUG1 "onKeyUp id=%d mask=0x%04x button=0x%04x", id, mask, button));
assert(m_active != NULL);
// relay
if (!m_keyboardBroadcasting && IKeyState::CKeyInfo::isDefault(screens)) {
m_active->keyUp(id, mask, button);
}
else {
if (!screens && m_keyboardBroadcasting) {
screens = m_keyboardBroadcastingScreens.c_str();
if (IKeyState::CKeyInfo::isDefault(screens)) {
screens = "*";
}
}
for (CClientList::const_iterator index = m_clients.begin();
index != m_clients.end(); ++index) {
if (IKeyState::CKeyInfo::contains(screens, index->first)) {
index->second->keyUp(id, mask, button);
}
}
}
}
void
CServer::onKeyRepeat(KeyID id, KeyModifierMask mask,
SInt32 count, KeyButton button)
{
LOG((CLOG_DEBUG1 "onKeyRepeat id=%d mask=0x%04x count=%d button=0x%04x", id, mask, count, button));
assert(m_active != NULL);
// relay
m_active->keyRepeat(id, mask, count, button);
}
void
CServer::onMouseDown(ButtonID id)
{
LOG((CLOG_DEBUG1 "onMouseDown id=%d", id));
assert(m_active != NULL);
// relay
m_active->mouseDown(id);
}
void
CServer::onMouseUp(ButtonID id)
{
LOG((CLOG_DEBUG1 "onMouseUp id=%d", id));
assert(m_active != NULL);
// relay
m_active->mouseUp(id);
if (m_ignoreFileTransfer) {
m_ignoreFileTransfer = false;
return;
}
if (m_enableDragDrop && !m_screen->isOnScreen()) {
CString& file = m_screen->getDraggingFilename();
if (!file.empty()) {
LOG((CLOG_DEBUG "send file to client: %s", file.c_str()));
sendFileToClient(file.c_str());
}
}
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}
bool
CServer::onMouseMovePrimary(SInt32 x, SInt32 y)
{
LOG((CLOG_DEBUG4 "onMouseMovePrimary %d,%d", x, y));
// mouse move on primary (server's) screen
if (m_active != m_primaryClient) {
// stale event -- we're actually on a secondary screen
return false;
}
// save last delta
m_xDelta2 = m_xDelta;
m_yDelta2 = m_yDelta;
// save current delta
m_xDelta = x - m_x;
m_yDelta = y - m_y;
// save position
m_x = x;
m_y = y;
// get screen shape
SInt32 ax, ay, aw, ah;
m_active->getShape(ax, ay, aw, ah);
SInt32 zoneSize = getJumpZoneSize(m_active);
// clamp position to screen
SInt32 xc = x, yc = y;
if (xc < ax + zoneSize) {
xc = ax;
}
else if (xc >= ax + aw - zoneSize) {
xc = ax + aw - 1;
}
if (yc < ay + zoneSize) {
yc = ay;
}
else if (yc >= ay + ah - zoneSize) {
yc = ay + ah - 1;
}
// see if we should change screens
EDirection dir;
if (x < ax + zoneSize) {
x -= zoneSize;
dir = kLeft;
}
else if (x >= ax + aw - zoneSize) {
x += zoneSize;
dir = kRight;
}
else if (y < ay + zoneSize) {
y -= zoneSize;
dir = kTop;
}
else if (y >= ay + ah - zoneSize) {
y += zoneSize;
dir = kBottom;
}
else {
// still on local screen
noSwitch(x, y);
return false;
}
// get jump destination
CBaseClientProxy* newScreen = mapToNeighbor(m_active, dir, x, y);
// should we switch or not?
if (isSwitchOkay(newScreen, dir, x, y, xc, yc)) {
if (m_enableDragDrop && m_screen->getDraggingStarted() && m_active != newScreen) {
CString& dragFileList = m_screen->getDraggingFilename();
size_t size = dragFileList.size() + 1;
char* fileList = NULL;
UInt32 fileCount = 1;
if (dragFileList.empty() == false) {
fileList = new char[size];
memcpy(fileList, dragFileList.c_str(), size);
fileList[size - 1] = '\0';
}
// fake a escape key down and up then left mouse button up
m_screen->keyDown(kKeyEscape, 8192, 1);
m_screen->keyUp(kKeyEscape, 8192, 1);
m_screen->mouseUp(kButtonLeft);
#if defined(__APPLE__)
// on mac it seems that after faking a LMB up, system would signal back
// to synergy a mouse up event, which doesn't happen on windows. as a
// result, synergy would send dragging file to client twice. This variable
// is used to ignore the first file sending.
m_ignoreFileTransfer = true;
#endif
if (dragFileList.empty() == false) {
LOG((CLOG_DEBUG2 "sending drag information to client"));
LOG((CLOG_DEBUG3 "dragging file list: %s", fileList));
LOG((CLOG_DEBUG3 "dragging file list string size: %i", size));
newScreen->draggingInfoSending(fileCount, fileList, size);
}
}
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// switch screen
switchScreen(newScreen, x, y, false);
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return true;
}
else {
return false;
}
}
void
CServer::onMouseMoveSecondary(SInt32 dx, SInt32 dy)
{
LOG((CLOG_DEBUG2 "onMouseMoveSecondary %+d,%+d", dx, dy));
// mouse move on secondary (client's) screen
assert(m_active != NULL);
if (m_active == m_primaryClient) {
// stale event -- we're actually on the primary screen
return;
}
// if doing relative motion on secondary screens and we're locked
// to the screen (which activates relative moves) then send a
// relative mouse motion. when we're doing this we pretend as if
// the mouse isn't actually moving because we're expecting some
// program on the secondary screen to warp the mouse on us, so we
// have no idea where it really is.
if (m_relativeMoves && isLockedToScreenServer()) {
LOG((CLOG_DEBUG2 "relative move on %s by %d,%d", getName(m_active).c_str(), dx, dy));
m_active->mouseRelativeMove(dx, dy);
return;
}
// save old position
const SInt32 xOld = m_x;
const SInt32 yOld = m_y;
// save last delta
m_xDelta2 = m_xDelta;
m_yDelta2 = m_yDelta;
// save current delta
m_xDelta = dx;
m_yDelta = dy;
// accumulate motion
m_x += dx;
m_y += dy;
// get screen shape
SInt32 ax, ay, aw, ah;
m_active->getShape(ax, ay, aw, ah);
// find direction of neighbor and get the neighbor
bool jump = true;
CBaseClientProxy* newScreen;
do {
// clamp position to screen
SInt32 xc = m_x, yc = m_y;
if (xc < ax) {
xc = ax;
}
else if (xc >= ax + aw) {
xc = ax + aw - 1;
}
if (yc < ay) {
yc = ay;
}
else if (yc >= ay + ah) {
yc = ay + ah - 1;
}
EDirection dir;
if (m_x < ax) {
dir = kLeft;
}
else if (m_x > ax + aw - 1) {
dir = kRight;
}
else if (m_y < ay) {
dir = kTop;
}
else if (m_y > ay + ah - 1) {
dir = kBottom;
}
else {
// we haven't left the screen
newScreen = m_active;
jump = false;
// if waiting and mouse is not on the border we're waiting
// on then stop waiting. also if it's not on the border
// then arm the double tap.
if (m_switchScreen != NULL) {
bool clearWait;
SInt32 zoneSize = m_primaryClient->getJumpZoneSize();
switch (m_switchDir) {
case kLeft:
clearWait = (m_x >= ax + zoneSize);
break;
case kRight:
clearWait = (m_x <= ax + aw - 1 - zoneSize);
break;
case kTop:
clearWait = (m_y >= ay + zoneSize);
break;
case kBottom:
clearWait = (m_y <= ay + ah - 1 + zoneSize);
break;
default:
clearWait = false;
break;
}
if (clearWait) {
// still on local screen
noSwitch(m_x, m_y);
}
}
// skip rest of block
break;
}
// try to switch screen. get the neighbor.
newScreen = mapToNeighbor(m_active, dir, m_x, m_y);
// see if we should switch
if (!isSwitchOkay(newScreen, dir, m_x, m_y, xc, yc)) {
newScreen = m_active;
jump = false;
}
} while (false);
if (jump) {
// switch screens
switchScreen(newScreen, m_x, m_y, false);
}
else {
// same screen. clamp mouse to edge.
m_x = xOld + dx;
m_y = yOld + dy;
if (m_x < ax) {
m_x = ax;
LOG((CLOG_DEBUG2 "clamp to left of \"%s\"", getName(m_active).c_str()));
}
else if (m_x > ax + aw - 1) {
m_x = ax + aw - 1;
LOG((CLOG_DEBUG2 "clamp to right of \"%s\"", getName(m_active).c_str()));
}
if (m_y < ay) {
m_y = ay;
LOG((CLOG_DEBUG2 "clamp to top of \"%s\"", getName(m_active).c_str()));
}
else if (m_y > ay + ah - 1) {
m_y = ay + ah - 1;
LOG((CLOG_DEBUG2 "clamp to bottom of \"%s\"", getName(m_active).c_str()));
}
// warp cursor if it moved.
if (m_x != xOld || m_y != yOld) {
LOG((CLOG_DEBUG2 "move on %s to %d,%d", getName(m_active).c_str(), m_x, m_y));
m_active->mouseMove(m_x, m_y);
}
}
}
void
CServer::onMouseWheel(SInt32 xDelta, SInt32 yDelta)
{
LOG((CLOG_DEBUG1 "onMouseWheel %+d,%+d", xDelta, yDelta));
assert(m_active != NULL);
// relay
m_active->mouseWheel(xDelta, yDelta);
}
void
CServer::onFileChunkSending(const void* data)
{
CFileChunker::CFileChunk* fileChunk = reinterpret_cast<CFileChunker::CFileChunk*>(const_cast<void*>(data));
LOG((CLOG_DEBUG1 "onFileChunkSending"));
assert(m_active != NULL);
// relay
m_active->fileChunkSending(fileChunk->m_chunk[0], &(fileChunk->m_chunk[1]), fileChunk->m_dataSize);
}
void
CServer::onFileRecieveCompleted()
{
if (isReceivedFileSizeValid()) {
m_writeToDropDirThread = new CThread(
new TMethodJob<CServer>(
this, &CServer::writeToDropDirThread));
}
}
void
CServer::writeToDropDirThread(void*)
{
LOG((CLOG_DEBUG "starting write to drop dir thread"));
while (m_screen->getFakeDraggingStarted()) {
ARCH->sleep(.1f);
}
m_fileTransferDes = m_screen->getDropTarget();
LOG((CLOG_DEBUG "dropping file, files=%i target=%s", m_dragFileList.size(), m_fileTransferDes.c_str()));
if (!m_fileTransferDes.empty() && m_dragFileList.size() > 0) {
std::fstream file;
CString dropTarget = m_fileTransferDes;
#ifdef SYSAPI_WIN32
dropTarget.append("\\");
#else
dropTarget.append("/");
#endif
dropTarget.append(m_dragFileList.at(0));
file.open(dropTarget.c_str(), std::ios::out | std::ios::binary);
if (!file.is_open()) {
// TODO: file open failed
}
file.write(m_receivedFileData.c_str(), m_receivedFileData.size());
file.close();
}
else {
LOG((CLOG_ERR "drop file failed: drop target is empty"));
}
}
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bool
CServer::addClient(CBaseClientProxy* client)
{
CString name = getName(client);
if (m_clients.count(name) != 0) {
return false;
}
// add event handlers
m_events->adoptHandler(m_events->forIScreen().shapeChanged(),
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client->getEventTarget(),
new TMethodEventJob<CServer>(this,
&CServer::handleShapeChanged, client));
m_events->adoptHandler(m_events->forIScreen().clipboardGrabbed(),
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client->getEventTarget(),
new TMethodEventJob<CServer>(this,
&CServer::handleClipboardGrabbed, client));
m_events->adoptHandler(m_events->forCClientProxy().clipboardChanged(),
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client->getEventTarget(),
new TMethodEventJob<CServer>(this,
&CServer::handleClipboardChanged, client));
// add to list
m_clientSet.insert(client);
m_clients.insert(std::make_pair(name, client));
// initialize client data
SInt32 x, y;
client->getCursorPos(x, y);
client->setJumpCursorPos(x, y);
// tell primary client about the active sides
m_primaryClient->reconfigure(getActivePrimarySides());
return true;
}
bool
CServer::removeClient(CBaseClientProxy* client)
{
// return false if not in list
CClientSet::iterator i = m_clientSet.find(client);
if (i == m_clientSet.end()) {
return false;
}
// remove event handlers
m_events->removeHandler(m_events->forIScreen().shapeChanged(),
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client->getEventTarget());
m_events->removeHandler(m_events->forIScreen().clipboardGrabbed(),
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client->getEventTarget());
m_events->removeHandler(m_events->forCClientProxy().clipboardChanged(),
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client->getEventTarget());
// remove from list
m_clients.erase(getName(client));
m_clientSet.erase(i);
return true;
}
void
CServer::closeClient(CBaseClientProxy* client, const char* msg)
{
assert(client != m_primaryClient);
assert(msg != NULL);
// send message to client. this message should cause the client
// to disconnect. we add this client to the closed client list
// and install a timer to remove the client if it doesn't respond
// quickly enough. we also remove the client from the active
// client list since we're not going to listen to it anymore.
// note that this method also works on clients that are not in
// the m_clients list. adoptClient() may call us with such a
// client.
LOG((CLOG_NOTE "disconnecting client \"%s\"", getName(client).c_str()));
// send message
// FIXME -- avoid type cast (kinda hard, though)
((CClientProxy*)client)->close(msg);
// install timer. wait timeout seconds for client to close.
double timeout = 5.0;
CEventQueueTimer* timer = m_events->newOneShotTimer(timeout, NULL);
m_events->adoptHandler(CEvent::kTimer, timer,
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new TMethodEventJob<CServer>(this,
&CServer::handleClientCloseTimeout, client));
// move client to closing list
removeClient(client);
m_oldClients.insert(std::make_pair(client, timer));
// if this client is the active screen then we have to
// jump off of it
forceLeaveClient(client);
}
void
CServer::closeClients(const CConfig& config)
{
// collect the clients that are connected but are being dropped
// from the configuration (or who's canonical name is changing).
typedef std::set<CBaseClientProxy*> CRemovedClients;
CRemovedClients removed;
for (CClientList::iterator index = m_clients.begin();
index != m_clients.end(); ++index) {
if (!config.isCanonicalName(index->first)) {
removed.insert(index->second);
}
}
// don't close the primary client
removed.erase(m_primaryClient);
// now close them. we collect the list then close in two steps
// because closeClient() modifies the collection we iterate over.
for (CRemovedClients::iterator index = removed.begin();
index != removed.end(); ++index) {
closeClient(*index, kMsgCClose);
}
}
void
CServer::removeActiveClient(CBaseClientProxy* client)
{
if (removeClient(client)) {
forceLeaveClient(client);
m_events->removeHandler(m_events->forCClientProxy().disconnected(), client);
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if (m_clients.size() == 1 && m_oldClients.empty()) {
m_events->addEvent(CEvent(m_events->forCServer().disconnected(), this));
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}
}
}
void
CServer::removeOldClient(CBaseClientProxy* client)
{
COldClients::iterator i = m_oldClients.find(client);
if (i != m_oldClients.end()) {
m_events->removeHandler(m_events->forCClientProxy().disconnected(), client);
m_events->removeHandler(CEvent::kTimer, i->second);
m_events->deleteTimer(i->second);
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m_oldClients.erase(i);
if (m_clients.size() == 1 && m_oldClients.empty()) {
m_events->addEvent(CEvent(m_events->forCServer().disconnected(), this));
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}
}
}
void
CServer::forceLeaveClient(CBaseClientProxy* client)
{
CBaseClientProxy* active =
(m_activeSaver != NULL) ? m_activeSaver : m_active;
if (active == client) {
// record new position (center of primary screen)
m_primaryClient->getCursorCenter(m_x, m_y);
// stop waiting to switch to this client
if (active == m_switchScreen) {
stopSwitch();
}
// don't notify active screen since it has probably already
// disconnected.
LOG((CLOG_INFO "jump from \"%s\" to \"%s\" at %d,%d", getName(active).c_str(), getName(m_primaryClient).c_str(), m_x, m_y));
// cut over
m_active = m_primaryClient;
// enter new screen (unless we already have because of the
// screen saver)
if (m_activeSaver == NULL) {
m_primaryClient->enter(m_x, m_y, m_seqNum,
m_primaryClient->getToggleMask(), false);
}
}
// if this screen had the cursor when the screen saver activated
// then we can't switch back to it when the screen saver
// deactivates.
if (m_activeSaver == client) {
m_activeSaver = NULL;
}
// tell primary client about the active sides
m_primaryClient->reconfigure(getActivePrimarySides());
}
//
// CServer::CClipboardInfo
//
CServer::CClipboardInfo::CClipboardInfo() :
m_clipboard(),
m_clipboardData(),
m_clipboardOwner(),
m_clipboardSeqNum(0)
{
// do nothing
}
//
// CServer::CLockCursorToScreenInfo
//
CServer::CLockCursorToScreenInfo*
CServer::CLockCursorToScreenInfo::alloc(State state)
{
CLockCursorToScreenInfo* info =
(CLockCursorToScreenInfo*)malloc(sizeof(CLockCursorToScreenInfo));
info->m_state = state;
return info;
}
//
// CServer::CSwitchToScreenInfo
//
CServer::CSwitchToScreenInfo*
CServer::CSwitchToScreenInfo::alloc(const CString& screen)
{
CSwitchToScreenInfo* info =
(CSwitchToScreenInfo*)malloc(sizeof(CSwitchToScreenInfo) +
screen.size());
strcpy(info->m_screen, screen.c_str());
return info;
}
//
// CServer::CSwitchInDirectionInfo
//
CServer::CSwitchInDirectionInfo*
CServer::CSwitchInDirectionInfo::alloc(EDirection direction)
{
CSwitchInDirectionInfo* info =
(CSwitchInDirectionInfo*)malloc(sizeof(CSwitchInDirectionInfo));
info->m_direction = direction;
return info;
}
//
// CServer::CKeyboardBroadcastInfo
//
CServer::CKeyboardBroadcastInfo*
CServer::CKeyboardBroadcastInfo::alloc(State state)
{
CKeyboardBroadcastInfo* info =
(CKeyboardBroadcastInfo*)malloc(sizeof(CKeyboardBroadcastInfo));
info->m_state = state;
info->m_screens[0] = '\0';
return info;
}
CServer::CKeyboardBroadcastInfo*
CServer::CKeyboardBroadcastInfo::alloc(State state, const CString& screens)
{
CKeyboardBroadcastInfo* info =
(CKeyboardBroadcastInfo*)malloc(sizeof(CKeyboardBroadcastInfo) +
screens.size());
info->m_state = state;
strcpy(info->m_screens, screens.c_str());
return info;
}
void
CServer::clearReceivedFileData()
{
m_receivedFileData.clear();
}
void
CServer::setExpectedFileSize(CString data)
{
std::istringstream iss(data);
iss >> m_expectedFileSize;
}
void
CServer::fileChunkReceived(CString data)
{
m_receivedFileData += data;
}
bool
CServer::isReceivedFileSizeValid()
{
return m_expectedFileSize == m_receivedFileData.size();
}
void
CServer::sendFileToClient(const char* filename)
{
m_sendFileThread = new CThread(
new TMethodJob<CServer>(
this, &CServer::sendFileThread,
reinterpret_cast<void*>(const_cast<char*>(filename))));
}
void
CServer::sendFileThread(void* filename)
{
try {
char* name = reinterpret_cast<char*>(filename);
CFileChunker::sendFileChunks(name, m_events, this);
}
catch (std::runtime_error error) {
LOG((CLOG_ERR "failed sending file chunks: %s", error.what()));
}
m_sendFileThread = NULL;
}
void
CServer::dragInfoReceived(UInt32 fileNum, CString content)
{
// TODO: fix duplicate function from CClient
if (!m_enableDragDrop) {
LOG((CLOG_DEBUG "drag drop not enabled, ignoring drag info."));
return;
}
CDragInformation::parseDragInfo(m_dragFileList, fileNum, content);
LOG((CLOG_DEBUG "drag info received, total drag file number: %i", m_dragFileList.size()));
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for (size_t i = 0; i < m_dragFileList.size(); ++i) {
LOG((CLOG_DEBUG "dragging file %i name: %s", i + 1, m_dragFileList.at(i).c_str()));
}
if (m_dragFileList.size() == 1) {
m_dragFileExt = CDragInformation::getDragFileExtension(m_dragFileList.at(0));
}
else if (m_dragFileList.size() > 1) {
m_dragFileExt.clear();
}
else {
return;
}
m_screen->startDraggingFiles(m_dragFileExt);
}
void
CServer::draggingInfoSending(UInt32 fileCount, CString& fileList, size_t size)
{
m_active->draggingInfoSending(fileCount, fileList.c_str(), size);
}