barrier/lib/platform/CXWindowsScreen.cpp

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/*
* synergy -- mouse and keyboard sharing utility
* Copyright (C) 2002 Chris Schoeneman, Nick Bolton, Sorin Sbarnea
*
* 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.
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*
* 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 "CXWindowsScreen.h"
#include "CXWindowsClipboard.h"
#include "CXWindowsEventQueueBuffer.h"
#include "CXWindowsKeyState.h"
#include "CXWindowsScreenSaver.h"
#include "CXWindowsUtil.h"
#include "CClipboard.h"
#include "CKeyMap.h"
#include "XScreen.h"
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#include "XArch.h"
#include "CLog.h"
#include "CStopwatch.h"
#include "CStringUtil.h"
#include "IEventQueue.h"
#include "TMethodEventJob.h"
#include <cstring>
#include <cstdlib>
#if X_DISPLAY_MISSING
# error X11 is required to build synergy
#else
# include <X11/X.h>
# include <X11/Xutil.h>
# define XK_MISCELLANY
# define XK_XKB_KEYS
# include <X11/keysymdef.h>
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# if HAVE_X11_EXTENSIONS_DPMS_H
extern "C" {
# include <X11/extensions/dpms.h>
}
# endif
# if HAVE_X11_EXTENSIONS_XTEST_H
# include <X11/extensions/XTest.h>
# else
# error The XTest extension is required to build synergy
# endif
# if HAVE_X11_EXTENSIONS_XINERAMA_H
// Xinerama.h may lack extern "C" for inclusion by C++
extern "C" {
# include <X11/extensions/Xinerama.h>
}
# endif
# if HAVE_XKB_EXTENSION
# include <X11/XKBlib.h>
# endif
#endif
#include "CArch.h"
//
// CXWindowsScreen
//
// NOTE -- the X display is shared among several objects but is owned
// by the CXWindowsScreen. Xlib is not reentrant so we must ensure
// that no two objects can simultaneously call Xlib with the display.
// this is easy since we only make X11 calls from the main thread.
// we must also ensure that these objects do not use the display in
// their destructors or, if they do, we can tell them not to. This
// is to handle unexpected disconnection of the X display, when any
// call on the display is invalid. In that situation we discard the
// display and the X11 event queue buffer, ignore any calls that try
// to use the display, and wait to be destroyed.
CXWindowsScreen* CXWindowsScreen::s_screen = NULL;
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CXWindowsScreen::CXWindowsScreen(const char* displayName, bool isPrimary, int mouseScrollDelta) :
m_isPrimary(isPrimary),
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m_mouseScrollDelta(mouseScrollDelta),
m_display(NULL),
m_root(None),
m_window(None),
m_isOnScreen(m_isPrimary),
m_x(0), m_y(0),
m_w(0), m_h(0),
m_xCenter(0), m_yCenter(0),
m_xCursor(0), m_yCursor(0),
m_keyState(NULL),
m_lastFocus(None),
m_lastFocusRevert(RevertToNone),
m_im(NULL),
m_ic(NULL),
m_lastKeycode(0),
m_sequenceNumber(0),
m_screensaver(NULL),
m_screensaverNotify(false),
m_xtestIsXineramaUnaware(true),
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m_preserveFocus(false),
m_xkb(false)
{
assert(s_screen == NULL);
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if (mouseScrollDelta==0) m_mouseScrollDelta=120;
s_screen = this;
// initializes Xlib support for concurrent threads.
if (XInitThreads() == 0)
{
throw XArch("XInitThreads() returned zero");
}
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// set the X I/O error handler so we catch the display disconnecting
XSetIOErrorHandler(&CXWindowsScreen::ioErrorHandler);
try {
m_display = openDisplay(displayName);
m_root = DefaultRootWindow(m_display);
saveShape();
m_window = openWindow();
m_screensaver = new CXWindowsScreenSaver(m_display,
m_window, getEventTarget());
m_keyState = new CXWindowsKeyState(m_display, m_xkb);
LOG((CLOG_DEBUG "screen shape: %d,%d %dx%d %s", m_x, m_y, m_w, m_h, m_xinerama ? "(xinerama)" : ""));
LOG((CLOG_DEBUG "window is 0x%08x", m_window));
}
catch (...) {
if (m_display != NULL) {
XCloseDisplay(m_display);
}
throw;
}
// primary/secondary screen only initialization
if (m_isPrimary) {
// start watching for events on other windows
selectEvents(m_root);
// prepare to use input methods
openIM();
}
else {
// become impervious to server grabs
XTestGrabControl(m_display, True);
}
// initialize the clipboards
for (ClipboardID id = 0; id < kClipboardEnd; ++id) {
m_clipboard[id] = new CXWindowsClipboard(m_display, m_window, id);
}
// install event handlers
EVENTQUEUE->adoptHandler(CEvent::kSystem, IEventQueue::getSystemTarget(),
new TMethodEventJob<CXWindowsScreen>(this,
&CXWindowsScreen::handleSystemEvent));
// install the platform event queue
EVENTQUEUE->adoptBuffer(new CXWindowsEventQueueBuffer(m_display, m_window));
}
CXWindowsScreen::~CXWindowsScreen()
{
assert(s_screen != NULL);
assert(m_display != NULL);
EVENTQUEUE->adoptBuffer(NULL);
EVENTQUEUE->removeHandler(CEvent::kSystem, IEventQueue::getSystemTarget());
for (ClipboardID id = 0; id < kClipboardEnd; ++id) {
delete m_clipboard[id];
}
delete m_keyState;
delete m_screensaver;
m_keyState = NULL;
m_screensaver = NULL;
if (m_display != NULL) {
// FIXME -- is it safe to clean up the IC and IM without a display?
if (m_ic != NULL) {
XDestroyIC(m_ic);
}
if (m_im != NULL) {
XCloseIM(m_im);
}
XDestroyWindow(m_display, m_window);
XCloseDisplay(m_display);
}
XSetIOErrorHandler(NULL);
s_screen = NULL;
}
void
CXWindowsScreen::enable()
{
if (!m_isPrimary) {
// get the keyboard control state
XKeyboardState keyControl;
XGetKeyboardControl(m_display, &keyControl);
m_autoRepeat = (keyControl.global_auto_repeat == AutoRepeatModeOn);
m_keyState->setAutoRepeat(keyControl);
// move hider window under the cursor center
XMoveWindow(m_display, m_window, m_xCenter, m_yCenter);
// raise and show the window
// FIXME -- take focus?
XMapRaised(m_display, m_window);
// warp the mouse to the cursor center
fakeMouseMove(m_xCenter, m_yCenter);
}
}
void
CXWindowsScreen::disable()
{
// release input context focus
if (m_ic != NULL) {
XUnsetICFocus(m_ic);
}
// unmap the hider/grab window. this also ungrabs the mouse and
// keyboard if they're grabbed.
XUnmapWindow(m_display, m_window);
// restore auto-repeat state
if (!m_isPrimary && m_autoRepeat) {
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//XAutoRepeatOn(m_display);
}
}
void
CXWindowsScreen::enter()
{
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screensaver(false);
// release input context focus
if (m_ic != NULL) {
XUnsetICFocus(m_ic);
}
// set the input focus to what it had been when we took it
if (m_lastFocus != None) {
// the window may not exist anymore so ignore errors
CXWindowsUtil::CErrorLock lock(m_display);
XSetInputFocus(m_display, m_lastFocus, m_lastFocusRevert, CurrentTime);
}
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#if HAVE_X11_EXTENSIONS_DPMS_H
// Force the DPMS to turn screen back on since we don't
// actually cause physical hardware input to trigger it
int dummy;
CARD16 powerlevel;
BOOL enabled;
if (DPMSQueryExtension(m_display, &dummy, &dummy) &&
DPMSCapable(m_display) &&
DPMSInfo(m_display, &powerlevel, &enabled))
{
if (enabled && powerlevel != DPMSModeOn)
DPMSForceLevel(m_display, DPMSModeOn);
}
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#endif
// unmap the hider/grab window. this also ungrabs the mouse and
// keyboard if they're grabbed.
XUnmapWindow(m_display, m_window);
/* maybe call this if entering for the screensaver
// set keyboard focus to root window. the screensaver should then
// pick up key events for when the user enters a password to unlock.
XSetInputFocus(m_display, PointerRoot, PointerRoot, CurrentTime);
*/
if (!m_isPrimary) {
// get the keyboard control state
XKeyboardState keyControl;
XGetKeyboardControl(m_display, &keyControl);
m_autoRepeat = (keyControl.global_auto_repeat == AutoRepeatModeOn);
m_keyState->setAutoRepeat(keyControl);
// turn off auto-repeat. we do this so fake key press events don't
// cause the local server to generate their own auto-repeats of
// those keys.
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//XAutoRepeatOff(m_display);
}
// now on screen
m_isOnScreen = true;
}
bool
CXWindowsScreen::leave()
{
if (!m_isPrimary) {
// restore the previous keyboard auto-repeat state. if the user
// changed the auto-repeat configuration while on the client then
// that state is lost. that's because we can't get notified by
// the X server when the auto-repeat configuration is changed so
// we can't track the desired configuration.
if (m_autoRepeat) {
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//XAutoRepeatOn(m_display);
}
// move hider window under the cursor center
XMoveWindow(m_display, m_window, m_xCenter, m_yCenter);
}
// raise and show the window
XMapRaised(m_display, m_window);
// grab the mouse and keyboard, if primary and possible
if (m_isPrimary && !grabMouseAndKeyboard()) {
XUnmapWindow(m_display, m_window);
return false;
}
// save current focus
XGetInputFocus(m_display, &m_lastFocus, &m_lastFocusRevert);
// take focus
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if (m_isPrimary || !m_preserveFocus) {
XSetInputFocus(m_display, m_window, RevertToPointerRoot, CurrentTime);
}
// now warp the mouse. we warp after showing the window so we're
// guaranteed to get the mouse leave event and to prevent the
// keyboard focus from changing under point-to-focus policies.
if (m_isPrimary) {
warpCursor(m_xCenter, m_yCenter);
}
else {
fakeMouseMove(m_xCenter, m_yCenter);
}
// set input context focus to our window
if (m_ic != NULL) {
XmbResetIC(m_ic);
XSetICFocus(m_ic);
m_filtered.clear();
}
// now off screen
m_isOnScreen = false;
return true;
}
bool
CXWindowsScreen::setClipboard(ClipboardID id, const IClipboard* clipboard)
{
// fail if we don't have the requested clipboard
if (m_clipboard[id] == NULL) {
return false;
}
// get the actual time. ICCCM does not allow CurrentTime.
Time timestamp = CXWindowsUtil::getCurrentTime(
m_display, m_clipboard[id]->getWindow());
if (clipboard != NULL) {
// save clipboard data
return CClipboard::copy(m_clipboard[id], clipboard, timestamp);
}
else {
// assert clipboard ownership
if (!m_clipboard[id]->open(timestamp)) {
return false;
}
m_clipboard[id]->empty();
m_clipboard[id]->close();
return true;
}
}
void
CXWindowsScreen::checkClipboards()
{
// do nothing, we're always up to date
}
void
CXWindowsScreen::openScreensaver(bool notify)
{
m_screensaverNotify = notify;
if (!m_screensaverNotify) {
m_screensaver->disable();
}
}
void
CXWindowsScreen::closeScreensaver()
{
if (!m_screensaverNotify) {
m_screensaver->enable();
}
}
void
CXWindowsScreen::screensaver(bool activate)
{
if (activate) {
m_screensaver->activate();
}
else {
m_screensaver->deactivate();
}
}
void
CXWindowsScreen::resetOptions()
{
m_xtestIsXineramaUnaware = true;
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m_preserveFocus = false;
}
void
CXWindowsScreen::setOptions(const COptionsList& options)
{
for (UInt32 i = 0, n = options.size(); i < n; i += 2) {
if (options[i] == kOptionXTestXineramaUnaware) {
m_xtestIsXineramaUnaware = (options[i + 1] != 0);
LOG((CLOG_DEBUG1 "XTest is Xinerama unaware %s", m_xtestIsXineramaUnaware ? "true" : "false"));
}
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else if (options[i] == kOptionScreenPreserveFocus) {
m_preserveFocus = (options[i + 1] != 0);
LOG((CLOG_DEBUG1 "Preserve Focus = %s", m_preserveFocus ? "true" : "false"));
}
}
}
void
CXWindowsScreen::setSequenceNumber(UInt32 seqNum)
{
m_sequenceNumber = seqNum;
}
bool
CXWindowsScreen::isPrimary() const
{
return m_isPrimary;
}
void*
CXWindowsScreen::getEventTarget() const
{
return const_cast<CXWindowsScreen*>(this);
}
bool
CXWindowsScreen::getClipboard(ClipboardID id, IClipboard* clipboard) const
{
assert(clipboard != NULL);
// fail if we don't have the requested clipboard
if (m_clipboard[id] == NULL) {
return false;
}
// get the actual time. ICCCM does not allow CurrentTime.
Time timestamp = CXWindowsUtil::getCurrentTime(
m_display, m_clipboard[id]->getWindow());
// copy the clipboard
return CClipboard::copy(clipboard, m_clipboard[id], timestamp);
}
void
CXWindowsScreen::getShape(SInt32& x, SInt32& y, SInt32& w, SInt32& h) const
{
x = m_x;
y = m_y;
w = m_w;
h = m_h;
}
void
CXWindowsScreen::getCursorPos(SInt32& x, SInt32& y) const
{
Window root, window;
int mx, my, xWindow, yWindow;
unsigned int mask;
if (XQueryPointer(m_display, m_root, &root, &window,
&mx, &my, &xWindow, &yWindow, &mask)) {
x = mx;
y = my;
}
else {
x = m_xCenter;
y = m_yCenter;
}
}
void
CXWindowsScreen::reconfigure(UInt32)
{
// do nothing
}
void
CXWindowsScreen::warpCursor(SInt32 x, SInt32 y)
{
// warp mouse
warpCursorNoFlush(x, y);
// remove all input events before and including warp
XEvent event;
while (XCheckMaskEvent(m_display, PointerMotionMask |
ButtonPressMask | ButtonReleaseMask |
KeyPressMask | KeyReleaseMask |
KeymapStateMask,
&event)) {
// do nothing
}
// save position as last position
m_xCursor = x;
m_yCursor = y;
}
UInt32
CXWindowsScreen::registerHotKey(KeyID key, KeyModifierMask mask)
{
// only allow certain modifiers
if ((mask & ~(KeyModifierShift | KeyModifierControl |
KeyModifierAlt | KeyModifierSuper)) != 0) {
LOG((CLOG_WARN "could not map hotkey id=%04x mask=%04x", key, mask));
return 0;
}
// fail if no keys
if (key == kKeyNone && mask == 0) {
return 0;
}
// convert to X
unsigned int modifiers;
if (!m_keyState->mapModifiersToX(mask, modifiers)) {
// can't map all modifiers
LOG((CLOG_WARN "could not map hotkey id=%04x mask=%04x", key, mask));
return 0;
}
CXWindowsKeyState::CKeycodeList keycodes;
m_keyState->mapKeyToKeycodes(key, keycodes);
if (key != kKeyNone && keycodes.empty()) {
// can't map key
LOG((CLOG_WARN "could not map hotkey id=%04x mask=%04x", key, mask));
return 0;
}
// choose hotkey id
UInt32 id;
if (!m_oldHotKeyIDs.empty()) {
id = m_oldHotKeyIDs.back();
m_oldHotKeyIDs.pop_back();
}
else {
id = m_hotKeys.size() + 1;
}
HotKeyList& hotKeys = m_hotKeys[id];
// all modifier hotkey must be treated specially. for each modifier
// we need to grab the modifier key in combination with all the other
// requested modifiers.
bool err = false;
{
CXWindowsUtil::CErrorLock lock(m_display, &err);
if (key == kKeyNone) {
static const KeyModifierMask s_hotKeyModifiers[] = {
KeyModifierShift,
KeyModifierControl,
KeyModifierAlt,
KeyModifierMeta,
KeyModifierSuper
};
XModifierKeymap* modKeymap = XGetModifierMapping(m_display);
for (size_t j = 0; j < sizeof(s_hotKeyModifiers) /
sizeof(s_hotKeyModifiers[0]) && !err; ++j) {
// skip modifier if not in mask
if ((mask & s_hotKeyModifiers[j]) == 0) {
continue;
}
// skip with error if we can't map remaining modifiers
unsigned int modifiers2;
KeyModifierMask mask2 = (mask & ~s_hotKeyModifiers[j]);
if (!m_keyState->mapModifiersToX(mask2, modifiers2)) {
err = true;
continue;
}
// compute modifier index for modifier. there should be
// exactly one X modifier missing
int index;
switch (modifiers ^ modifiers2) {
case ShiftMask:
index = ShiftMapIndex;
break;
case LockMask:
index = LockMapIndex;
break;
case ControlMask:
index = ControlMapIndex;
break;
case Mod1Mask:
index = Mod1MapIndex;
break;
case Mod2Mask:
index = Mod2MapIndex;
break;
case Mod3Mask:
index = Mod3MapIndex;
break;
case Mod4Mask:
index = Mod4MapIndex;
break;
case Mod5Mask:
index = Mod5MapIndex;
break;
default:
err = true;
continue;
}
// grab each key for the modifier
const KeyCode* modifiermap =
modKeymap->modifiermap + index * modKeymap->max_keypermod;
for (int k = 0; k < modKeymap->max_keypermod && !err; ++k) {
KeyCode code = modifiermap[k];
if (modifiermap[k] != 0) {
XGrabKey(m_display, code, modifiers2, m_root,
False, GrabModeAsync, GrabModeAsync);
if (!err) {
hotKeys.push_back(std::make_pair(code, modifiers2));
m_hotKeyToIDMap[CHotKeyItem(code, modifiers2)] = id;
}
}
}
}
XFreeModifiermap(modKeymap);
}
// a non-modifier key must be insensitive to CapsLock, NumLock and
// ScrollLock, so we have to grab the key with every combination of
// those.
else {
// collect available toggle modifiers
unsigned int modifier;
unsigned int toggleModifiers[3];
size_t numToggleModifiers = 0;
if (m_keyState->mapModifiersToX(KeyModifierCapsLock, modifier)) {
toggleModifiers[numToggleModifiers++] = modifier;
}
if (m_keyState->mapModifiersToX(KeyModifierNumLock, modifier)) {
toggleModifiers[numToggleModifiers++] = modifier;
}
if (m_keyState->mapModifiersToX(KeyModifierScrollLock, modifier)) {
toggleModifiers[numToggleModifiers++] = modifier;
}
for (CXWindowsKeyState::CKeycodeList::iterator j = keycodes.begin();
j != keycodes.end() && !err; ++j) {
for (size_t i = 0; i < (1u << numToggleModifiers); ++i) {
// add toggle modifiers for index i
unsigned int tmpModifiers = modifiers;
if ((i & 1) != 0) {
tmpModifiers |= toggleModifiers[0];
}
if ((i & 2) != 0) {
tmpModifiers |= toggleModifiers[1];
}
if ((i & 4) != 0) {
tmpModifiers |= toggleModifiers[2];
}
// add grab
XGrabKey(m_display, *j, tmpModifiers, m_root,
False, GrabModeAsync, GrabModeAsync);
if (!err) {
hotKeys.push_back(std::make_pair(*j, tmpModifiers));
m_hotKeyToIDMap[CHotKeyItem(*j, tmpModifiers)] = id;
}
}
}
}
}
if (err) {
// if any failed then unregister any we did get
for (HotKeyList::iterator j = hotKeys.begin();
j != hotKeys.end(); ++j) {
XUngrabKey(m_display, j->first, j->second, m_root);
m_hotKeyToIDMap.erase(CHotKeyItem(j->first, j->second));
}
m_oldHotKeyIDs.push_back(id);
m_hotKeys.erase(id);
LOG((CLOG_WARN "failed to register hotkey %s (id=%04x mask=%04x)", CKeyMap::formatKey(key, mask).c_str(), key, mask));
return 0;
}
LOG((CLOG_DEBUG "registered hotkey %s (id=%04x mask=%04x) as id=%d", CKeyMap::formatKey(key, mask).c_str(), key, mask, id));
return id;
}
void
CXWindowsScreen::unregisterHotKey(UInt32 id)
{
// look up hotkey
HotKeyMap::iterator i = m_hotKeys.find(id);
if (i == m_hotKeys.end()) {
return;
}
// unregister with OS
bool err = false;
{
CXWindowsUtil::CErrorLock lock(m_display, &err);
HotKeyList& hotKeys = i->second;
for (HotKeyList::iterator j = hotKeys.begin();
j != hotKeys.end(); ++j) {
XUngrabKey(m_display, j->first, j->second, m_root);
m_hotKeyToIDMap.erase(CHotKeyItem(j->first, j->second));
}
}
if (err) {
LOG((CLOG_WARN "failed to unregister hotkey id=%d", id));
}
else {
LOG((CLOG_DEBUG "unregistered hotkey id=%d", id));
}
// discard hot key from map and record old id for reuse
m_hotKeys.erase(i);
m_oldHotKeyIDs.push_back(id);
}
void
CXWindowsScreen::fakeInputBegin()
{
// FIXME -- not implemented
}
void
CXWindowsScreen::fakeInputEnd()
{
// FIXME -- not implemented
}
SInt32
CXWindowsScreen::getJumpZoneSize() const
{
return 1;
}
bool
CXWindowsScreen::isAnyMouseButtonDown() const
{
// query the pointer to get the button state
Window root, window;
int xRoot, yRoot, xWindow, yWindow;
unsigned int state;
if (XQueryPointer(m_display, m_root, &root, &window,
&xRoot, &yRoot, &xWindow, &yWindow, &state)) {
return ((state & (Button1Mask | Button2Mask | Button3Mask |
Button4Mask | Button5Mask)) != 0);
}
return false;
}
void
CXWindowsScreen::getCursorCenter(SInt32& x, SInt32& y) const
{
x = m_xCenter;
y = m_yCenter;
}
void
CXWindowsScreen::fakeMouseButton(ButtonID button, bool press) const
{
const unsigned int xButton = mapButtonToX(button);
if (xButton != 0) {
XTestFakeButtonEvent(m_display, xButton,
press ? True : False, CurrentTime);
XFlush(m_display);
}
}
void
CXWindowsScreen::fakeMouseMove(SInt32 x, SInt32 y) const
{
if (m_xinerama && m_xtestIsXineramaUnaware) {
XWarpPointer(m_display, None, m_root, 0, 0, 0, 0, x, y);
}
else {
XTestFakeMotionEvent(m_display, DefaultScreen(m_display),
x, y, CurrentTime);
}
XFlush(m_display);
}
void
CXWindowsScreen::fakeMouseRelativeMove(SInt32 dx, SInt32 dy) const
{
// FIXME -- ignore xinerama for now
if (false && m_xinerama && m_xtestIsXineramaUnaware) {
// XWarpPointer(m_display, None, m_root, 0, 0, 0, 0, x, y);
}
else {
XTestFakeRelativeMotionEvent(m_display, dx, dy, CurrentTime);
}
XFlush(m_display);
}
void
CXWindowsScreen::fakeMouseWheel(SInt32, SInt32 yDelta) const
{
// XXX -- support x-axis scrolling
if (yDelta == 0) {
return;
}
// choose button depending on rotation direction
const unsigned int xButton = mapButtonToX(static_cast<ButtonID>(
(yDelta >= 0) ? -1 : -2));
if (xButton == 0) {
// If we get here, then the XServer does not support the scroll
// wheel buttons, so send PageUp/PageDown keystrokes instead.
// Patch by Tom Chadwick.
KeyCode keycode = 0;
if (yDelta >= 0) {
keycode = XKeysymToKeycode(m_display, XK_Page_Up);
}
else {
keycode = XKeysymToKeycode(m_display, XK_Page_Down);
}
if (keycode != 0) {
XTestFakeKeyEvent(m_display, keycode, True, CurrentTime);
XTestFakeKeyEvent(m_display, keycode, False, CurrentTime);
}
return;
}
// now use absolute value of delta
if (yDelta < 0) {
yDelta = -yDelta;
}
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if (yDelta < m_mouseScrollDelta) {
LOG((CLOG_WARN "Wheel scroll delta (%d) smaller than threshold (%d)", yDelta, m_mouseScrollDelta));
}
// send as many clicks as necessary
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for (; yDelta >= m_mouseScrollDelta; yDelta -= m_mouseScrollDelta) {
XTestFakeButtonEvent(m_display, xButton, True, CurrentTime);
XTestFakeButtonEvent(m_display, xButton, False, CurrentTime);
}
XFlush(m_display);
}
Display*
CXWindowsScreen::openDisplay(const char* displayName)
{
// get the DISPLAY
if (displayName == NULL) {
displayName = getenv("DISPLAY");
if (displayName == NULL) {
displayName = ":0.0";
}
}
// open the display
LOG((CLOG_DEBUG "XOpenDisplay(\"%s\")", displayName));
Display* display = XOpenDisplay(displayName);
if (display == NULL) {
throw XScreenUnavailable(60.0);
}
// verify the availability of the XTest extension
if (!m_isPrimary) {
int majorOpcode, firstEvent, firstError;
if (!XQueryExtension(display, XTestExtensionName,
&majorOpcode, &firstEvent, &firstError)) {
LOG((CLOG_ERR "XTEST extension not available"));
XCloseDisplay(display);
throw XScreenOpenFailure();
}
}
#if HAVE_XKB_EXTENSION
{
m_xkb = false;
int major = XkbMajorVersion, minor = XkbMinorVersion;
if (XkbLibraryVersion(&major, &minor)) {
int opcode, firstError;
if (XkbQueryExtension(display, &opcode, &m_xkbEventBase,
&firstError, &major, &minor)) {
m_xkb = true;
XkbSelectEvents(display, XkbUseCoreKbd,
XkbMapNotifyMask, XkbMapNotifyMask);
XkbSelectEventDetails(display, XkbUseCoreKbd,
XkbStateNotifyMask,
XkbGroupStateMask, XkbGroupStateMask);
}
}
}
#endif
return display;
}
void
CXWindowsScreen::saveShape()
{
// get shape of default screen
m_x = 0;
m_y = 0;
m_w = WidthOfScreen(DefaultScreenOfDisplay(m_display));
m_h = HeightOfScreen(DefaultScreenOfDisplay(m_display));
// get center of default screen
m_xCenter = m_x + (m_w >> 1);
m_yCenter = m_y + (m_h >> 1);
// check if xinerama is enabled and there is more than one screen.
// get center of first Xinerama screen. Xinerama appears to have
// a bug when XWarpPointer() is used in combination with
// XGrabPointer(). in that case, the warp is successful but the
// next pointer motion warps the pointer again, apparently to
// constrain it to some unknown region, possibly the region from
// 0,0 to Wm,Hm where Wm (Hm) is the minimum width (height) over
// all physical screens. this warp only seems to happen if the
// pointer wasn't in that region before the XWarpPointer(). the
// second (unexpected) warp causes synergy to think the pointer
// has been moved when it hasn't. to work around the problem,
// we warp the pointer to the center of the first physical
// screen instead of the logical screen.
m_xinerama = false;
#if HAVE_X11_EXTENSIONS_XINERAMA_H
int eventBase, errorBase;
if (XineramaQueryExtension(m_display, &eventBase, &errorBase) &&
XineramaIsActive(m_display)) {
int numScreens;
XineramaScreenInfo* screens;
screens = XineramaQueryScreens(m_display, &numScreens);
if (screens != NULL) {
if (numScreens > 1) {
m_xinerama = true;
m_xCenter = screens[0].x_org + (screens[0].width >> 1);
m_yCenter = screens[0].y_org + (screens[0].height >> 1);
}
XFree(screens);
}
}
#endif
}
Window
CXWindowsScreen::openWindow() const
{
// default window attributes. we don't want the window manager
// messing with our window and we don't want the cursor to be
// visible inside the window.
XSetWindowAttributes attr;
attr.do_not_propagate_mask = 0;
attr.override_redirect = True;
attr.cursor = createBlankCursor();
// adjust attributes and get size and shape
SInt32 x, y, w, h;
if (m_isPrimary) {
// grab window attributes. this window is used to capture user
// input when the user is focused on another client. it covers
// the whole screen.
attr.event_mask = PointerMotionMask |
ButtonPressMask | ButtonReleaseMask |
KeyPressMask | KeyReleaseMask |
KeymapStateMask | PropertyChangeMask;
x = m_x;
y = m_y;
w = m_w;
h = m_h;
}
else {
// cursor hider window attributes. this window is used to hide the
// cursor when it's not on the screen. the window is hidden as soon
// as the cursor enters the screen or the display's real mouse is
// moved. we'll reposition the window as necessary so its
// position here doesn't matter. it only needs to be 1x1 because
// it only needs to contain the cursor's hotspot.
attr.event_mask = LeaveWindowMask;
x = 0;
y = 0;
w = 1;
h = 1;
}
// create and return the window
Window window = XCreateWindow(m_display, m_root, x, y, w, h, 0, 0,
InputOnly, CopyFromParent,
CWDontPropagate | CWEventMask |
CWOverrideRedirect | CWCursor,
&attr);
if (window == None) {
throw XScreenOpenFailure();
}
return window;
}
void
CXWindowsScreen::openIM()
{
// open the input methods
XIM im = XOpenIM(m_display, NULL, NULL, NULL);
if (im == NULL) {
LOG((CLOG_INFO "no support for IM"));
return;
}
// find the appropriate style. synergy supports XIMPreeditNothing
// only at the moment.
XIMStyles* styles;
if (XGetIMValues(im, XNQueryInputStyle, &styles, NULL) != NULL ||
styles == NULL) {
LOG((CLOG_WARN "cannot get IM styles"));
XCloseIM(im);
return;
}
XIMStyle style = 0;
for (unsigned short i = 0; i < styles->count_styles; ++i) {
style = styles->supported_styles[i];
if ((style & XIMPreeditNothing) != 0) {
if ((style & (XIMStatusNothing | XIMStatusNone)) != 0) {
break;
}
}
}
XFree(styles);
if (style == 0) {
LOG((CLOG_INFO "no supported IM styles"));
XCloseIM(im);
return;
}
// create an input context for the style and tell it about our window
XIC ic = XCreateIC(im, XNInputStyle, style, XNClientWindow, m_window, NULL);
if (ic == NULL) {
LOG((CLOG_WARN "cannot create IC"));
XCloseIM(im);
return;
}
// find out the events we must select for and do so
unsigned long mask;
if (XGetICValues(ic, XNFilterEvents, &mask, NULL) != NULL) {
LOG((CLOG_WARN "cannot get IC filter events"));
XDestroyIC(ic);
XCloseIM(im);
return;
}
// we have IM
m_im = im;
m_ic = ic;
m_lastKeycode = 0;
// select events on our window that IM requires
XWindowAttributes attr;
XGetWindowAttributes(m_display, m_window, &attr);
XSelectInput(m_display, m_window, attr.your_event_mask | mask);
}
void
CXWindowsScreen::sendEvent(CEvent::Type type, void* data)
{
EVENTQUEUE->addEvent(CEvent(type, getEventTarget(), data));
}
void
CXWindowsScreen::sendClipboardEvent(CEvent::Type type, ClipboardID id)
{
CClipboardInfo* info = (CClipboardInfo*)malloc(sizeof(CClipboardInfo));
info->m_id = id;
info->m_sequenceNumber = m_sequenceNumber;
sendEvent(type, info);
}
IKeyState*
CXWindowsScreen::getKeyState() const
{
return m_keyState;
}
Bool
CXWindowsScreen::findKeyEvent(Display*, XEvent* xevent, XPointer arg)
{
CKeyEventFilter* filter = reinterpret_cast<CKeyEventFilter*>(arg);
return (xevent->type == filter->m_event &&
xevent->xkey.window == filter->m_window &&
xevent->xkey.time == filter->m_time &&
xevent->xkey.keycode == filter->m_keycode) ? True : False;
}
void
CXWindowsScreen::handleSystemEvent(const CEvent& event, void*)
{
XEvent* xevent = reinterpret_cast<XEvent*>(event.getData());
assert(xevent != NULL);
// update key state
bool isRepeat = false;
if (m_isPrimary) {
if (xevent->type == KeyRelease) {
// check if this is a key repeat by getting the next
// KeyPress event that has the same key and time as
// this release event, if any. first prepare the
// filter info.
CKeyEventFilter filter;
filter.m_event = KeyPress;
filter.m_window = xevent->xkey.window;
filter.m_time = xevent->xkey.time;
filter.m_keycode = xevent->xkey.keycode;
XEvent xevent2;
isRepeat = (XCheckIfEvent(m_display, &xevent2,
&CXWindowsScreen::findKeyEvent,
(XPointer)&filter) == True);
}
if (xevent->type == KeyPress || xevent->type == KeyRelease) {
if (xevent->xkey.window == m_root) {
// this is a hot key
onHotKey(xevent->xkey, isRepeat);
return;
}
else if (!m_isOnScreen) {
// this might be a hot key
if (onHotKey(xevent->xkey, isRepeat)) {
return;
}
}
bool down = (isRepeat || xevent->type == KeyPress);
KeyModifierMask state =
m_keyState->mapModifiersFromX(xevent->xkey.state);
m_keyState->onKey(xevent->xkey.keycode, down, state);
}
}
// let input methods try to handle event first
if (m_ic != NULL) {
// XFilterEvent() may eat the event and generate a new KeyPress
// event with a keycode of 0 because there isn't an actual key
// associated with the keysym. but the KeyRelease may pass
// through XFilterEvent() and keep its keycode. this means
// there's a mismatch between KeyPress and KeyRelease keycodes.
// since we use the keycode on the client to detect when a key
// is released this won't do. so we remember the keycode on
// the most recent KeyPress (and clear it on a matching
// KeyRelease) so we have a keycode for a synthesized KeyPress.
if (xevent->type == KeyPress && xevent->xkey.keycode != 0) {
m_lastKeycode = xevent->xkey.keycode;
}
else if (xevent->type == KeyRelease &&
xevent->xkey.keycode == m_lastKeycode) {
m_lastKeycode = 0;
}
// now filter the event
if (XFilterEvent(xevent, None)) {
if (xevent->type == KeyPress) {
// add filtered presses to the filtered list
m_filtered.insert(m_lastKeycode);
}
return;
}
// discard matching key releases for key presses that were
// filtered and remove them from our filtered list.
else if (xevent->type == KeyRelease &&
m_filtered.count(xevent->xkey.keycode) > 0) {
m_filtered.erase(xevent->xkey.keycode);
return;
}
}
// let screen saver have a go
if (m_screensaver->handleXEvent(xevent)) {
// screen saver handled it
return;
}
// handle the event ourself
switch (xevent->type) {
case CreateNotify:
if (m_isPrimary) {
// select events on new window
selectEvents(xevent->xcreatewindow.window);
}
break;
case MappingNotify:
refreshKeyboard(xevent);
break;
case LeaveNotify:
if (!m_isPrimary) {
// mouse moved out of hider window somehow. hide the window.
XUnmapWindow(m_display, m_window);
}
break;
case SelectionClear:
{
// we just lost the selection. that means someone else
// grabbed the selection so this screen is now the
// selection owner. report that to the receiver.
ClipboardID id = getClipboardID(xevent->xselectionclear.selection);
if (id != kClipboardEnd) {
LOG((CLOG_DEBUG "lost clipboard %d ownership at time %d", id, xevent->xselectionclear.time));
m_clipboard[id]->lost(xevent->xselectionclear.time);
sendClipboardEvent(getClipboardGrabbedEvent(), id);
return;
}
}
break;
case SelectionNotify:
// notification of selection transferred. we shouldn't
// get this here because we handle them in the selection
// retrieval methods. we'll just delete the property
// with the data (satisfying the usual ICCCM protocol).
if (xevent->xselection.property != None) {
XDeleteProperty(m_display,
xevent->xselection.requestor,
xevent->xselection.property);
}
break;
case SelectionRequest:
{
// somebody is asking for clipboard data
ClipboardID id = getClipboardID(
xevent->xselectionrequest.selection);
if (id != kClipboardEnd) {
m_clipboard[id]->addRequest(
xevent->xselectionrequest.owner,
xevent->xselectionrequest.requestor,
xevent->xselectionrequest.target,
xevent->xselectionrequest.time,
xevent->xselectionrequest.property);
return;
}
}
break;
case PropertyNotify:
// property delete may be part of a selection conversion
if (xevent->xproperty.state == PropertyDelete) {
processClipboardRequest(xevent->xproperty.window,
xevent->xproperty.time,
xevent->xproperty.atom);
}
break;
case DestroyNotify:
// looks like one of the windows that requested a clipboard
// transfer has gone bye-bye.
destroyClipboardRequest(xevent->xdestroywindow.window);
break;
case KeyPress:
if (m_isPrimary) {
onKeyPress(xevent->xkey);
}
return;
case KeyRelease:
if (m_isPrimary) {
onKeyRelease(xevent->xkey, isRepeat);
}
return;
case ButtonPress:
if (m_isPrimary) {
onMousePress(xevent->xbutton);
}
return;
case ButtonRelease:
if (m_isPrimary) {
onMouseRelease(xevent->xbutton);
}
return;
case MotionNotify:
if (m_isPrimary) {
onMouseMove(xevent->xmotion);
}
return;
default:
#if HAVE_XKB_EXTENSION
if (m_xkb && xevent->type == m_xkbEventBase) {
XkbEvent* xkbEvent = reinterpret_cast<XkbEvent*>(xevent);
switch (xkbEvent->any.xkb_type) {
case XkbMapNotify:
refreshKeyboard(xevent);
return;
case XkbStateNotify:
LOG((CLOG_INFO "group change: %d", xkbEvent->state.group));
m_keyState->setActiveGroup((SInt32)xkbEvent->state.group);
return;
}
}
#endif
break;
}
}
void
CXWindowsScreen::onKeyPress(XKeyEvent& xkey)
{
LOG((CLOG_DEBUG1 "event: KeyPress code=%d, state=0x%04x", xkey.keycode, xkey.state));
const KeyModifierMask mask = m_keyState->mapModifiersFromX(xkey.state);
KeyID key = mapKeyFromX(&xkey);
if (key != kKeyNone) {
// check for ctrl+alt+del emulation
if ((key == kKeyPause || key == kKeyBreak) &&
(mask & (KeyModifierControl | KeyModifierAlt)) ==
(KeyModifierControl | KeyModifierAlt)) {
// pretend it's ctrl+alt+del
LOG((CLOG_DEBUG "emulate ctrl+alt+del"));
key = kKeyDelete;
}
// get which button. see call to XFilterEvent() in onEvent()
// for more info.
bool isFake = false;
KeyButton keycode = static_cast<KeyButton>(xkey.keycode);
if (keycode == 0) {
isFake = true;
keycode = static_cast<KeyButton>(m_lastKeycode);
if (keycode == 0) {
// no keycode
return;
}
}
// handle key
m_keyState->sendKeyEvent(getEventTarget(),
true, false, key, mask, 1, keycode);
// do fake release if this is a fake press
if (isFake) {
m_keyState->sendKeyEvent(getEventTarget(),
false, false, key, mask, 1, keycode);
}
}
}
void
CXWindowsScreen::onKeyRelease(XKeyEvent& xkey, bool isRepeat)
{
const KeyModifierMask mask = m_keyState->mapModifiersFromX(xkey.state);
KeyID key = mapKeyFromX(&xkey);
if (key != kKeyNone) {
// check for ctrl+alt+del emulation
if ((key == kKeyPause || key == kKeyBreak) &&
(mask & (KeyModifierControl | KeyModifierAlt)) ==
(KeyModifierControl | KeyModifierAlt)) {
// pretend it's ctrl+alt+del and ignore autorepeat
LOG((CLOG_DEBUG "emulate ctrl+alt+del"));
key = kKeyDelete;
isRepeat = false;
}
KeyButton keycode = static_cast<KeyButton>(xkey.keycode);
if (!isRepeat) {
// no press event follows so it's a plain release
LOG((CLOG_DEBUG1 "event: KeyRelease code=%d, state=0x%04x", keycode, xkey.state));
m_keyState->sendKeyEvent(getEventTarget(),
false, false, key, mask, 1, keycode);
}
else {
// found a press event following so it's a repeat.
// we could attempt to count the already queued
// repeats but we'll just send a repeat of 1.
// note that we discard the press event.
LOG((CLOG_DEBUG1 "event: repeat code=%d, state=0x%04x", keycode, xkey.state));
m_keyState->sendKeyEvent(getEventTarget(),
false, true, key, mask, 1, keycode);
}
}
}
bool
CXWindowsScreen::onHotKey(XKeyEvent& xkey, bool isRepeat)
{
// find the hot key id
HotKeyToIDMap::const_iterator i =
m_hotKeyToIDMap.find(CHotKeyItem(xkey.keycode, xkey.state));
if (i == m_hotKeyToIDMap.end()) {
return false;
}
// find what kind of event
CEvent::Type type;
if (xkey.type == KeyPress) {
type = getHotKeyDownEvent();
}
else if (xkey.type == KeyRelease) {
type = getHotKeyUpEvent();
}
else {
return false;
}
// generate event (ignore key repeats)
if (!isRepeat) {
EVENTQUEUE->addEvent(CEvent(type, getEventTarget(),
CHotKeyInfo::alloc(i->second)));
}
return true;
}
void
CXWindowsScreen::onMousePress(const XButtonEvent& xbutton)
{
LOG((CLOG_DEBUG1 "event: ButtonPress button=%d", xbutton.button));
ButtonID button = mapButtonFromX(&xbutton);
KeyModifierMask mask = m_keyState->mapModifiersFromX(xbutton.state);
if (button != kButtonNone) {
sendEvent(getButtonDownEvent(), CButtonInfo::alloc(button, mask));
}
}
void
CXWindowsScreen::onMouseRelease(const XButtonEvent& xbutton)
{
LOG((CLOG_DEBUG1 "event: ButtonRelease button=%d", xbutton.button));
ButtonID button = mapButtonFromX(&xbutton);
KeyModifierMask mask = m_keyState->mapModifiersFromX(xbutton.state);
if (button != kButtonNone) {
sendEvent(getButtonUpEvent(), CButtonInfo::alloc(button, mask));
}
else if (xbutton.button == 4) {
// wheel forward (away from user)
sendEvent(getWheelEvent(), CWheelInfo::alloc(0, 120));
}
else if (xbutton.button == 5) {
// wheel backward (toward user)
sendEvent(getWheelEvent(), CWheelInfo::alloc(0, -120));
}
// XXX -- support x-axis scrolling
}
void
CXWindowsScreen::onMouseMove(const XMotionEvent& xmotion)
{
LOG((CLOG_DEBUG2 "event: MotionNotify %d,%d", xmotion.x_root, xmotion.y_root));
// compute motion delta (relative to the last known
// mouse position)
SInt32 x = xmotion.x_root - m_xCursor;
SInt32 y = xmotion.y_root - m_yCursor;
// save position to compute delta of next motion
m_xCursor = xmotion.x_root;
m_yCursor = xmotion.y_root;
if (xmotion.send_event) {
// we warped the mouse. discard events until we
// find the matching sent event. see
// warpCursorNoFlush() for where the events are
// sent. we discard the matching sent event and
// can be sure we've skipped the warp event.
XEvent xevent;
char cntr = 0;
do {
XMaskEvent(m_display, PointerMotionMask, &xevent);
if (cntr++ > 10) {
LOG((CLOG_WARN "too many discarded events! %d", cntr));
break;
}
} while (!xevent.xany.send_event);
cntr = 0;
}
else if (m_isOnScreen) {
// motion on primary screen
sendEvent(getMotionOnPrimaryEvent(),
CMotionInfo::alloc(m_xCursor, m_yCursor));
}
else {
// motion on secondary screen. warp mouse back to
// center.
//
// my lombard (powerbook g3) running linux and
// using the adbmouse driver has two problems:
// first, the driver only sends motions of +/-2
// pixels and, second, it seems to discard some
// physical input after a warp. the former isn't a
// big deal (we're just limited to every other
// pixel) but the latter is a PITA. to work around
// it we only warp when the mouse has moved more
// than s_size pixels from the center.
static const SInt32 s_size = 32;
if (xmotion.x_root - m_xCenter < -s_size ||
xmotion.x_root - m_xCenter > s_size ||
xmotion.y_root - m_yCenter < -s_size ||
xmotion.y_root - m_yCenter > s_size) {
warpCursorNoFlush(m_xCenter, m_yCenter);
}
// send event if mouse moved. do this after warping
// back to center in case the motion takes us onto
// the primary screen. if we sent the event first
// in that case then the warp would happen after
// warping to the primary screen's enter position,
// effectively overriding it.
if (x != 0 || y != 0) {
sendEvent(getMotionOnSecondaryEvent(), CMotionInfo::alloc(x, y));
}
}
}
Cursor
CXWindowsScreen::createBlankCursor() const
{
// this seems just a bit more complicated than really necessary
// get the closet cursor size to 1x1
unsigned int w, h;
XQueryBestCursor(m_display, m_root, 1, 1, &w, &h);
// make bitmap data for cursor of closet size. since the cursor
// is blank we can use the same bitmap for shape and mask: all
// zeros.
const int size = ((w + 7) >> 3) * h;
char* data = new char[size];
memset(data, 0, size);
// make bitmap
Pixmap bitmap = XCreateBitmapFromData(m_display, m_root, data, w, h);
// need an arbitrary color for the cursor
XColor color;
color.pixel = 0;
color.red = color.green = color.blue = 0;
color.flags = DoRed | DoGreen | DoBlue;
// make cursor from bitmap
Cursor cursor = XCreatePixmapCursor(m_display, bitmap, bitmap,
&color, &color, 0, 0);
// don't need bitmap or the data anymore
delete[] data;
XFreePixmap(m_display, bitmap);
return cursor;
}
ClipboardID
CXWindowsScreen::getClipboardID(Atom selection) const
{
for (ClipboardID id = 0; id < kClipboardEnd; ++id) {
if (m_clipboard[id] != NULL &&
m_clipboard[id]->getSelection() == selection) {
return id;
}
}
return kClipboardEnd;
}
void
CXWindowsScreen::processClipboardRequest(Window requestor,
Time time, Atom property)
{
// check every clipboard until one returns success
for (ClipboardID id = 0; id < kClipboardEnd; ++id) {
if (m_clipboard[id] != NULL &&
m_clipboard[id]->processRequest(requestor, time, property)) {
break;
}
}
}
void
CXWindowsScreen::destroyClipboardRequest(Window requestor)
{
// check every clipboard until one returns success
for (ClipboardID id = 0; id < kClipboardEnd; ++id) {
if (m_clipboard[id] != NULL &&
m_clipboard[id]->destroyRequest(requestor)) {
break;
}
}
}
void
CXWindowsScreen::onError()
{
// prevent further access to the X display
EVENTQUEUE->adoptBuffer(NULL);
m_screensaver->destroy();
m_screensaver = NULL;
m_display = NULL;
// notify of failure
sendEvent(getErrorEvent(), NULL);
// FIXME -- should ensure that we ignore operations that involve
// m_display from now on. however, Xlib will simply exit the
// application in response to the X I/O error so there's no
// point in trying to really handle the error. if we did want
// to handle the error, it'd probably be easiest to delegate to
// one of two objects. one object would take the implementation
// from this class. the other object would be stub methods that
// don't use X11. on error, we'd switch to the latter.
}
int
CXWindowsScreen::ioErrorHandler(Display*)
{
// the display has disconnected, probably because X is shutting
// down. X forces us to exit at this point which is annoying.
// we'll pretend as if we won't exit so we try to make sure we
// don't access the display anymore.
LOG((CLOG_CRIT "X display has unexpectedly disconnected"));
s_screen->onError();
return 0;
}
void
CXWindowsScreen::selectEvents(Window w) const
{
// ignore errors while we adjust event masks. windows could be
// destroyed at any time after the XQueryTree() in doSelectEvents()
// so we must ignore BadWindow errors.
CXWindowsUtil::CErrorLock lock(m_display);
// adjust event masks
doSelectEvents(w);
}
void
CXWindowsScreen::doSelectEvents(Window w) const
{
// we want to track the mouse everywhere on the display. to achieve
// that we select PointerMotionMask on every window. we also select
// SubstructureNotifyMask in order to get CreateNotify events so we
// select events on new windows too.
//
// note that this can break certain clients due a design flaw of X.
// X will deliver a PointerMotion event to the deepest window in the
// hierarchy that contains the pointer and has PointerMotionMask
// selected by *any* client. if another client doesn't select
// motion events in a subwindow so the parent window will get them
// then by selecting for motion events on the subwindow we break
// that client because the parent will no longer get the events.
// FIXME -- should provide some workaround for event selection
// design flaw. perhaps only select for motion events on windows
// that already do or are top-level windows or don't propagate
// pointer events. or maybe an option to simply poll the mouse.
// we don't want to adjust our grab window
if (w == m_window) {
return;
}
// select events of interest. do this before querying the tree so
// we'll get notifications of children created after the XQueryTree()
// so we won't miss them.
XSelectInput(m_display, w, PointerMotionMask | SubstructureNotifyMask);
// recurse on child windows
Window rw, pw, *cw;
unsigned int nc;
if (XQueryTree(m_display, w, &rw, &pw, &cw, &nc)) {
for (unsigned int i = 0; i < nc; ++i) {
doSelectEvents(cw[i]);
}
XFree(cw);
}
}
KeyID
CXWindowsScreen::mapKeyFromX(XKeyEvent* event) const
{
// convert to a keysym
KeySym keysym;
if (event->type == KeyPress && m_ic != NULL) {
// do multibyte lookup. can only call XmbLookupString with a
// key press event and a valid XIC so we checked those above.
char scratch[32];
int n = sizeof(scratch) / sizeof(scratch[0]);
char* buffer = scratch;
int status;
n = XmbLookupString(m_ic, event, buffer, n, &keysym, &status);
if (status == XBufferOverflow) {
// not enough space. grow buffer and try again.
buffer = new char[n];
n = XmbLookupString(m_ic, event, buffer, n, &keysym, &status);
delete[] buffer;
}
// see what we got. since we don't care about the string
// we'll just look for a keysym.
switch (status) {
default:
case XLookupNone:
case XLookupChars:
keysym = 0;
break;
case XLookupKeySym:
case XLookupBoth:
break;
}
}
else {
// plain old lookup
char dummy[1];
XLookupString(event, dummy, 0, &keysym, NULL);
}
// convert key
return CXWindowsUtil::mapKeySymToKeyID(keysym);
}
ButtonID
CXWindowsScreen::mapButtonFromX(const XButtonEvent* event) const
{
unsigned int button = event->button;
// first three buttons map to 1, 2, 3 (kButtonLeft, Middle, Right)
if (button >= 1 && button <= 3) {
return static_cast<ButtonID>(button);
}
// buttons 4 and 5 are ignored here. they're used for the wheel.
// buttons 6, 7, etc and up map to 4, 5, etc.
else if (button >= 6) {
return static_cast<ButtonID>(button - 2);
}
// unknown button
else {
return kButtonNone;
}
}
unsigned int
CXWindowsScreen::mapButtonToX(ButtonID id) const
{
// map button -1 to button 4 (+wheel)
if (id == static_cast<ButtonID>(-1)) {
id = 4;
}
// map button -2 to button 5 (-wheel)
else if (id == static_cast<ButtonID>(-2)) {
id = 5;
}
// map buttons 4, 5, etc. to 6, 7, etc. to make room for buttons
// 4 and 5 used to simulate the mouse wheel.
else if (id >= 4) {
id += 2;
}
// check button is in legal range
if (id < 1 || id > m_buttons.size()) {
// out of range
return 0;
}
// map button
return static_cast<unsigned int>(id);
}
void
CXWindowsScreen::warpCursorNoFlush(SInt32 x, SInt32 y)
{
assert(m_window != None);
// send an event that we can recognize before the mouse warp
XEvent eventBefore;
eventBefore.type = MotionNotify;
eventBefore.xmotion.display = m_display;
eventBefore.xmotion.window = m_window;
eventBefore.xmotion.root = m_root;
eventBefore.xmotion.subwindow = m_window;
eventBefore.xmotion.time = CurrentTime;
eventBefore.xmotion.x = x;
eventBefore.xmotion.y = y;
eventBefore.xmotion.x_root = x;
eventBefore.xmotion.y_root = y;
eventBefore.xmotion.state = 0;
eventBefore.xmotion.is_hint = NotifyNormal;
eventBefore.xmotion.same_screen = True;
XEvent eventAfter = eventBefore;
XSendEvent(m_display, m_window, False, 0, &eventBefore);
// warp mouse
XWarpPointer(m_display, None, m_root, 0, 0, 0, 0, x, y);
// send an event that we can recognize after the mouse warp
XSendEvent(m_display, m_window, False, 0, &eventAfter);
XSync(m_display, False);
LOG((CLOG_DEBUG2 "warped to %d,%d", x, y));
}
void
CXWindowsScreen::updateButtons()
{
// query the button mapping
UInt32 numButtons = XGetPointerMapping(m_display, NULL, 0);
unsigned char* tmpButtons = new unsigned char[numButtons];
XGetPointerMapping(m_display, tmpButtons, numButtons);
// find the largest logical button id
unsigned char maxButton = 0;
for (UInt32 i = 0; i < numButtons; ++i) {
if (tmpButtons[i] > maxButton) {
maxButton = tmpButtons[i];
}
}
// allocate button array
m_buttons.resize(maxButton);
// fill in button array values. m_buttons[i] is the physical
// button number for logical button i+1.
for (UInt32 i = 0; i < numButtons; ++i) {
m_buttons[i] = 0;
}
for (UInt32 i = 0; i < numButtons; ++i) {
m_buttons[tmpButtons[i] - 1] = i + 1;
}
// clean up
delete[] tmpButtons;
}
bool
CXWindowsScreen::grabMouseAndKeyboard()
{
// grab the mouse and keyboard. keep trying until we get them.
// if we can't grab one after grabbing the other then ungrab
// and wait before retrying. give up after s_timeout seconds.
static const double s_timeout = 1.0;
int result;
CStopwatch timer;
do {
// keyboard first
do {
result = XGrabKeyboard(m_display, m_window, True,
GrabModeAsync, GrabModeAsync, CurrentTime);
assert(result != GrabNotViewable);
if (result != GrabSuccess) {
LOG((CLOG_DEBUG2 "waiting to grab keyboard"));
ARCH->sleep(0.05);
if (timer.getTime() >= s_timeout) {
LOG((CLOG_DEBUG2 "grab keyboard timed out"));
return false;
}
}
} while (result != GrabSuccess);
LOG((CLOG_DEBUG2 "grabbed keyboard"));
// now the mouse
result = XGrabPointer(m_display, m_window, True, 0,
GrabModeAsync, GrabModeAsync,
m_window, None, CurrentTime);
assert(result != GrabNotViewable);
if (result != GrabSuccess) {
// back off to avoid grab deadlock
XUngrabKeyboard(m_display, CurrentTime);
LOG((CLOG_DEBUG2 "ungrabbed keyboard, waiting to grab pointer"));
ARCH->sleep(0.05);
if (timer.getTime() >= s_timeout) {
LOG((CLOG_DEBUG2 "grab pointer timed out"));
return false;
}
}
} while (result != GrabSuccess);
LOG((CLOG_DEBUG1 "grabbed pointer and keyboard"));
return true;
}
void
CXWindowsScreen::refreshKeyboard(XEvent* event)
{
if (XPending(m_display) > 0) {
XEvent tmpEvent;
XPeekEvent(m_display, &tmpEvent);
if (tmpEvent.type == MappingNotify) {
// discard this event since another follows.
// we tend to get a bunch of these in a row.
return;
}
}
// keyboard mapping changed
#if HAVE_XKB_EXTENSION
if (m_xkb && event->type == m_xkbEventBase) {
XkbRefreshKeyboardMapping((XkbMapNotifyEvent*)event);
}
else
#else
{
XRefreshKeyboardMapping(&event->xmapping);
}
#endif
m_keyState->updateKeyMap();
m_keyState->updateKeyState();
}
//
// CXWindowsScreen::CHotKeyItem
//
CXWindowsScreen::CHotKeyItem::CHotKeyItem(int keycode, unsigned int mask) :
m_keycode(keycode),
m_mask(mask)
{
// do nothing
}
bool
CXWindowsScreen::CHotKeyItem::operator<(const CHotKeyItem& x) const
{
return (m_keycode < x.m_keycode ||
(m_keycode == x.m_keycode && m_mask < x.m_mask));
}