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|
/* $XFree86: xc/programs/Xserver/hw/xfree86/common/xf86Events.c,v 3.101 2000/11/18 19:37:09 tsi Exp $ */
/*
* Copyright 1990,91 by Thomas Roell, Dinkelscherben, Germany.
*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
* the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the name of Thomas Roell not be used in
* advertising or publicity pertaining to distribution of the software without
* specific, written prior permission. Thomas Roell makes no representations
* about the suitability of this software for any purpose. It is provided
* "as is" without express or implied warranty.
*
* THOMAS ROELL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL THOMAS ROELL BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
* DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*
*/
/* $XConsortium: xf86Events.c /main/46 1996/10/25 11:36:30 kaleb $ */
/* [JCH-96/01/21] Extended std reverse map to four buttons. */
#include "X.h"
#include "Xproto.h"
#include "misc.h"
#include "compiler.h"
#include "xf86.h"
#include "xf86Priv.h"
#define XF86_OS_PRIVS
#include "xf86_OSlib.h"
#include "atKeynames.h"
#include "Xpoll.h"
#ifdef XFreeXDGA
#include "dgaproc.h"
#endif
#ifdef XINPUT
#include "XI.h"
#include "XIproto.h"
#include "xf86Xinput.h"
#else
#include "inputstr.h"
#endif
#include "mipointer.h"
#ifdef XKB
extern Bool noXkbExtension;
#endif
#define XE_POINTER 1
#define XE_KEYBOARD 2
#ifdef XINPUT
#define __EqEnqueue(ev) xf86eqEnqueue(ev)
#else
#define __EqEnqueue(ev) mieqEnqueue(ev)
#endif
#define EqEnqueue(ev) { \
int __sigstate = xf86BlockSIGIO (); \
__EqEnqueue (ev); \
xf86UnblockSIGIO(__sigstate); \
}
#ifdef XTESTEXT1
#define XTestSERVER_SIDE
#include "xtestext1.h"
extern short xtest_mousex;
extern short xtest_mousey;
extern int on_steal_input;
extern Bool XTestStealKeyData();
extern void XTestStealMotionData();
#define ENQUEUE(ev, code, direction, dev_type) \
(ev)->u.u.detail = (code); \
(ev)->u.u.type = (direction); \
if (!on_steal_input || \
XTestStealKeyData((ev)->u.u.detail, (ev)->u.u.type, dev_type, \
xtest_mousex, xtest_mousey)) \
EqEnqueue((ev))
#else /* ! XTESTEXT1 */
#define ENQUEUE(ev, code, direction, dev_type) \
(ev)->u.u.detail = (code); \
(ev)->u.u.type = (direction); \
EqEnqueue((ev))
#endif
/*
* The first of many hack's to get VT switching to work under
* Solaris 2.1 for x86. The basic problem is that Solaris is supposed
* to be SVR4. It is for the most part, except where the video interface
* is concerned. These hacks work around those problems.
* See the comments for Linux, and SCO.
*
* This is a toggleling variable:
* FALSE = No VT switching keys have been pressed last time around
* TRUE = Possible VT switch Pending
* (DWH - 12/2/93)
*
* This has been generalised to work with Linux and *BSD+syscons (DHD)
*/
#ifdef USE_VT_SYSREQ
static Bool VTSysreqToggle = FALSE;
#endif /* !USE_VT_SYSREQ */
static Bool VTSwitchEnabled = TRUE; /* Allows run-time disabling for
*BSD and for avoiding VT
switches when using the DRI
automatic full screen mode.*/
extern fd_set EnabledDevices;
#if defined(XQUEUE)
extern void xf86XqueRequest(void);
#endif
extern void (*xf86OSPMClose)(void);
static void xf86VTSwitch(void);
/*
* Allow arbitrary drivers or other XFree86 code to register with our main
* Wakeup handler.
*/
typedef struct x_IHRec {
int fd;
InputHandlerProc ihproc;
pointer data;
Bool enabled;
struct x_IHRec * next;
} IHRec, *IHPtr;
static IHPtr InputHandlers = NULL;
/*
* TimeSinceLastInputEvent --
* Function used for screensaver purposes by the os module. Retruns the
* time in milliseconds since there last was any input.
*/
int
TimeSinceLastInputEvent()
{
if (xf86Info.lastEventTime == 0) {
xf86Info.lastEventTime = GetTimeInMillis();
}
return GetTimeInMillis() - xf86Info.lastEventTime;
}
/*
* SetTimeSinceLastInputEvent --
* Set the lastEventTime to now.
*/
void
SetTimeSinceLastInputEvent()
{
xf86Info.lastEventTime = GetTimeInMillis();
}
/*
* ProcessInputEvents --
* Retrieve all waiting input events and pass them to DIX in their
* correct chronological order. Only reads from the system pointer
* and keyboard.
*/
void
ProcessInputEvents ()
{
int x, y;
#ifdef INHERIT_LOCK_STATE
static int generation = 0;
#endif
#ifdef AMOEBA
#define MAXEVENTS 32
#define BUTTON_PRESS 0x1000
#define MAP_BUTTON(ev,but) (((ev) == EV_ButtonPress) ? \
((but) | BUTTON_PRESS) : ((but) & ~BUTTON_PRESS))
#define KEY_RELEASE 0x80
#define MAP_KEY(ev, key) (((ev) == EV_KeyReleaseEvent) ? \
((key) | KEY_RELEASE) : ((key) & ~KEY_RELEASE))
register IOPEvent *e, *elast;
IOPEvent events[MAXEVENTS];
int dx, dy, nevents;
#endif
/*
* With INHERIT_LOCK_STATE defined, the initial state of CapsLock, NumLock
* and ScrollLock will be set to match that of the VT the server is
* running on.
*/
#ifdef INHERIT_LOCK_STATE
if (generation != serverGeneration) {
xEvent kevent;
DevicePtr pKeyboard = xf86Info.pKeyboard;
extern unsigned int xf86InitialCaps, xf86InitialNum, xf86InitialScroll;
generation = serverGeneration;
kevent.u.keyButtonPointer.time = GetTimeInMillis();
kevent.u.keyButtonPointer.rootX = 0;
kevent.u.keyButtonPointer.rootY = 0;
kevent.u.u.type = KeyPress;
if (xf86InitialCaps) {
kevent.u.u.detail = xf86InitialCaps;
(* pKeyboard->processInputProc)(&kevent, (DeviceIntPtr)pKeyboard, 1);
xf86InitialCaps = 0;
}
if (xf86InitialNum) {
kevent.u.u.detail = xf86InitialNum;
(* pKeyboard->processInputProc)(&kevent, (DeviceIntPtr)pKeyboard, 1);
xf86InitialNum = 0;
}
if (xf86InitialScroll) {
kevent.u.u.detail = xf86InitialScroll;
(* pKeyboard->processInputProc)(&kevent, (DeviceIntPtr)pKeyboard, 1);
xf86InitialScroll = 0;
}
}
#endif
#ifdef AMOEBA
/*
* Get all events from the IOP server
*/
while ((nevents = AmoebaGetEvents(events, MAXEVENTS)) > 0) {
for (e = &events[0], elast = &events[nevents]; e < elast; e++) {
xf86Info.lastEventTime = e->time;
switch (e->type) {
case EV_PointerDelta:
if (e->x != 0 || e->y != 0) {
xf86PostMseEvent(&xf86Info.pMouse, 0, e->x, e->y);
}
break;
case EV_ButtonPress:
case EV_ButtonRelease:
xf86PostMseEvent(&xf86Info.pMouse, MAP_BUTTON(e->type, e->keyorbut), 0, 0);
break;
case EV_KeyPressEvent:
case EV_KeyReleaseEvent:
xf86PostKbdEvent(MAP_KEY(e->type, e->keyorbut));
break;
default:
/* this shouldn't happen */
ErrorF("stray event %d (%d,%d) %x\n",
e->type, e->x, e->y, e->keyorbut);
break;
}
}
}
#endif
xf86Info.inputPending = FALSE;
#ifdef XINPUT
xf86eqProcessInputEvents();
#else
mieqProcessInputEvents();
#endif
miPointerUpdate();
miPointerPosition(&x, &y);
xf86SetViewport(xf86Info.currentScreen, x, y);
}
/*
* xf86PostKbdEvent --
* Translate the raw hardware KbdEvent into an XEvent, and tell DIX
* about it. Scancode preprocessing and so on is done ...
*
* OS/2 specific xf86PostKbdEvent(key) has been moved to os-support/os2/os2_kbd.c
* as some things differ, and I did not want to scatter this routine with
* ifdefs further (hv).
*/
#ifdef ASSUME_CUSTOM_KEYCODES
extern u_char SpecialServerMap[];
#endif /* ASSUME_CUSTOM_KEYCODES */
#if !defined(__EMX__) && !defined(__SOL8__) && !defined(__CYGWIN__)
void
xf86PostKbdEvent(unsigned key)
{
int scanCode = (key & 0x7f);
int specialkey = 0;
Bool down = (key & 0x80 ? FALSE : TRUE);
KeyClassRec *keyc = ((DeviceIntPtr)xf86Info.pKeyboard)->key;
Bool updateLeds = FALSE;
Bool UsePrefix = FALSE;
Bool Direction = FALSE;
xEvent kevent;
KeySym *keysym;
int keycode;
static int lockkeys = 0;
#if defined(SYSCONS_SUPPORT) || defined(PCVT_SUPPORT)
static Bool first_time = TRUE;
#endif
#if defined(__sparc__)
static int kbdSun = -1;
#endif
#if defined(SYSCONS_SUPPORT) || defined(PCVT_SUPPORT)
if (first_time)
{
first_time = FALSE;
VTSwitchEnabled = (xf86Info.consType == SYSCONS)
|| (xf86Info.consType == PCVT);
}
#endif
#if defined (__sparc__)
if (kbdSun == -1) {
if ((xf86Info.xkbmodel && !strcmp(xf86Info.xkbmodel, "sun"))
|| (xf86Info.xkbrules && !strcmp(xf86Info.xkbrules, "sun")))
kbdSun = 1;
else
kbdSun = 0;
}
if (kbdSun)
goto special;
#endif /* __sparc__ */
#if defined (i386) && defined (SVR4)
/*
* PANIX returns DICOP standards based keycodes in using 106jp
* keyboard. We need to remap some keys.
*/
#define KEY_P_UP 0x5A
#define KEY_P_PGUP 0x5B
#define KEY_P_LEFT 0x5C
#define KEY_P_BKSL 0x73
#define KEY_P_YEN 0x7D
#define KEY_P_NFER 0x7B
#define KEY_P_XFER 0x79
if(xf86Info.panix106 == TRUE){
switch (scanCode) {
/* case 0x78: scanCode = KEY_P_UP; break; not needed*/
case 0x56: scanCode = KEY_P_BKSL; break; /* Backslash */
case 0x5A: scanCode = KEY_P_NFER; break; /* No Kanji Transfer*/
case 0x5B: scanCode = KEY_P_XFER; break; /* Kanji Tranfer */
case 0x5C: scanCode = KEY_P_YEN; break; /* Yen curs pgup */
case 0x6B: scanCode = KEY_P_LEFT; break; /* Cur Left */
case 0x6F: scanCode = KEY_P_PGUP; break; /* Cur PageUp */
case 0x72: scanCode = KEY_AltLang; break; /* AltLang(right) */
case 0x73: scanCode = KEY_RCtrl; break; /* not needed */
}
}
#endif /* i386 && SVR4 */
#ifndef ASSUME_CUSTOM_KEYCODES
/*
* First do some special scancode remapping ...
*/
if (xf86Info.scanPrefix == 0) {
switch (scanCode) {
case KEY_Prefix0:
case KEY_Prefix1:
#if defined(PCCONS_SUPPORT) || defined(SYSCONS_SUPPORT) || defined(PCVT_SUPPORT)
if (xf86Info.consType == PCCONS || xf86Info.consType == SYSCONS
|| xf86Info.consType == PCVT) {
#endif
xf86Info.scanPrefix = scanCode; /* special prefixes */
return;
#if defined(PCCONS_SUPPORT) || defined(SYSCONS_SUPPORT) || defined(PCVT_SUPPORT)
}
break;
#endif
}
}
else if (
#ifdef CSRG_BASED
(xf86Info.consType == PCCONS || xf86Info.consType == SYSCONS
|| xf86Info.consType == PCVT) &&
#endif
(xf86Info.scanPrefix == KEY_Prefix0)) {
xf86Info.scanPrefix = 0;
switch (scanCode) {
case KEY_KP_7: scanCode = KEY_Home; break; /* curs home */
case KEY_KP_8: scanCode = KEY_Up; break; /* curs up */
case KEY_KP_9: scanCode = KEY_PgUp; break; /* curs pgup */
case KEY_KP_4: scanCode = KEY_Left; break; /* curs left */
case KEY_KP_5: scanCode = KEY_Begin; break; /* curs begin */
case KEY_KP_6: scanCode = KEY_Right; break; /* curs right */
case KEY_KP_1: scanCode = KEY_End; break; /* curs end */
case KEY_KP_2: scanCode = KEY_Down; break; /* curs down */
case KEY_KP_3: scanCode = KEY_PgDown; break; /* curs pgdown */
case KEY_KP_0: scanCode = KEY_Insert; break; /* curs insert */
case KEY_KP_Decimal: scanCode = KEY_Delete; break; /* curs delete */
case KEY_Enter: scanCode = KEY_KP_Enter; break; /* keypad enter */
case KEY_LCtrl: scanCode = KEY_RCtrl; break; /* right ctrl */
case KEY_KP_Multiply: scanCode = KEY_Print; break; /* print */
case KEY_Slash: scanCode = KEY_KP_Divide; break; /* keyp divide */
case KEY_Alt: scanCode = KEY_AltLang; break; /* right alt */
case KEY_ScrollLock: scanCode = KEY_Break; break; /* curs break */
case 0x5b: scanCode = KEY_LMeta; break;
case 0x5c: scanCode = KEY_RMeta; break;
case 0x5d: scanCode = KEY_Menu; break;
case KEY_F3: scanCode = KEY_F13; break;
case KEY_F4: scanCode = KEY_F14; break;
case KEY_F5: scanCode = KEY_F15; break;
case KEY_F6: scanCode = KEY_F16; break;
case KEY_F7: scanCode = KEY_F17; break;
case KEY_KP_Plus: scanCode = KEY_KP_DEC; break;
/*
* Ignore virtual shifts (E0 2A, E0 AA, E0 36, E0 B6)
*/
case 0x2A:
case 0x36:
return;
default:
xf86MsgVerb(X_INFO, 2, "Unreported Prefix0 scancode: 0x%02x\n",
scanCode);
/*
* "Internet" keyboards are generating lots of new codes. Let them
* pass. There is little consistency between them, so don't bother
* with symbolic names at this level.
*/
scanCode += 0x78;
}
}
else if (xf86Info.scanPrefix == KEY_Prefix1)
{
xf86Info.scanPrefix = (scanCode == KEY_LCtrl) ? KEY_LCtrl : 0;
return;
}
else if (xf86Info.scanPrefix == KEY_LCtrl)
{
xf86Info.scanPrefix = 0;
if (scanCode != KEY_NumLock) return;
scanCode = KEY_Pause; /* pause */
}
#endif /* !ASSUME_CUSTOM_KEYCODES */
/*
* and now get some special keysequences
*/
#ifdef ASSUME_CUSTOM_KEYCODES
specialkey = SpecialServerMap[scanCode];
#else /* ASSUME_CUSTOM_KEYCODES */
specialkey = scanCode;
#endif /* ASSUME_CUSTOM_KEYCODES */
if (xf86IsPc98()) {
switch (scanCode) {
case 0x0e: specialkey = 0x0e; break; /* KEY_BackSpace */
case 0x40: specialkey = 0x4a; break; /* KEY_KP_Minus */
case 0x49: specialkey = 0x4e; break; /* KEY_KP_Plus */
case 0x62: specialkey = 0x3b; break; /* KEY_F1 */
case 0x63: specialkey = 0x3c; break; /* KEY_F2 */
case 0x64: specialkey = 0x3d; break; /* KEY_F3 */
case 0x65: specialkey = 0x3e; break; /* KEY_F4 */
case 0x66: specialkey = 0x3f; break; /* KEY_F5 */
case 0x67: specialkey = 0x40; break; /* KEY_F6 */
case 0x68: specialkey = 0x41; break; /* KEY_F7 */
case 0x69: specialkey = 0x42; break; /* KEY_F8 */
case 0x6a: specialkey = 0x43; break; /* KEY_F9 */
case 0x6b: specialkey = 0x44; break; /* KEY_F10 */
/* case 0x73: specialkey = 0x38; break; KEY_Alt */
/* case 0x74: specialkey = 0x1d; break; KEY_LCtrl */
default: specialkey = 0x00; break;
}
}
#if defined (__sparc__)
special:
if (kbdSun) {
switch (scanCode) {
case 0x2b: specialkey = KEY_BackSpace; break;
case 0x47: specialkey = KEY_KP_Minus; break;
case 0x7d: specialkey = KEY_KP_Plus; break;
case 0x05: specialkey = KEY_F1; break;
case 0x06: specialkey = KEY_F2; break;
case 0x08: specialkey = KEY_F3; break;
case 0x0a: specialkey = KEY_F4; break;
case 0x0c: specialkey = KEY_F5; break;
case 0x0e: specialkey = KEY_F6; break;
case 0x10: specialkey = KEY_F7; break;
case 0x11: specialkey = KEY_F8; break;
case 0x12: specialkey = KEY_F9; break;
case 0x07: specialkey = KEY_F10; break;
case 0x09: specialkey = KEY_F11; break;
case 0x0b: specialkey = KEY_F12; break;
default: specialkey = 0; break;
}
/*
* XXX XXX XXX:
*
* I really don't know what's wrong here, but passing the real
* scanCode offsets by one from XKB's point of view.
*
* (ecd@skynet.be, 980405)
*/
scanCode--;
}
#endif /* defined (__sparc__) */
if ((ModifierDown(ControlMask | AltMask)) ||
(ModifierDown(ControlMask | AltLangMask)))
{
switch (specialkey) {
case KEY_BackSpace:
if (!xf86Info.dontZap) {
#ifdef XFreeXDGA
DGAShutdown();
#endif
GiveUp(0);
}
break;
/*
* The idea here is to pass the scancode down to a list of
* registered routines. There should be some standard conventions
* for processing certain keys.
*/
case KEY_KP_Minus: /* Keypad - */
if (!xf86Info.dontZoom) {
if (down) xf86ZoomViewport(xf86Info.currentScreen, -1);
return;
}
break;
case KEY_KP_Plus: /* Keypad + */
if (!xf86Info.dontZoom) {
if (down) xf86ZoomViewport(xf86Info.currentScreen, 1);
return;
}
break;
/* Under QNX4, we set the vtPending flag for VT switching and
* let the VT switch function do the rest...
* This is a little different from the other OS'es.
*/
#if defined(QNX4)
case KEY_1:
case KEY_2:
case KEY_3:
case KEY_4:
case KEY_5:
case KEY_6:
case KEY_7:
case KEY_8:
case KEY_9:
if (down){
xf86Info.vtRequestsPending =
specialkey - KEY_1 + 1;
return;
}
break;
#endif
#if defined(linux) || (defined(CSRG_BASED) && (defined(SYSCONS_SUPPORT) || defined(PCVT_SUPPORT))) || defined(SCO)
/*
* Under Linux, the raw keycodes are consumed before the kernel
* does any processing on them, so we must emulate the vt switching
* we want ourselves.
*/
case KEY_F1:
case KEY_F2:
case KEY_F3:
case KEY_F4:
case KEY_F5:
case KEY_F6:
case KEY_F7:
case KEY_F8:
case KEY_F9:
case KEY_F10:
if (VTSwitchEnabled && !xf86Info.vtSysreq
#if (defined(CSRG_BASED) && (defined(SYSCONS_SUPPORT) || defined(PCVT_SUPPORT)))
&& (xf86Info.consType == SYSCONS || xf86Info.consType == PCVT)
#endif
)
{
if (down)
#ifdef SCO325
ioctl(xf86Info.consoleFd, VT_ACTIVATE, specialkey - KEY_F1);
#else
ioctl(xf86Info.consoleFd, VT_ACTIVATE, specialkey - KEY_F1 + 1);
#endif
return;
}
break;
case KEY_F11:
case KEY_F12:
if (VTSwitchEnabled && !xf86Info.vtSysreq
#if (defined(CSRG_BASED) && (defined(SYSCONS_SUPPORT) || defined(PCVT_SUPPORT)))
&& (xf86Info.consType == SYSCONS || xf86Info.consType == PCVT)
#endif
)
{
if (down)
#ifdef SCO325
ioctl(xf86Info.consoleFd, VT_ACTIVATE, specialkey - KEY_F11 + 10);
#else
ioctl(xf86Info.consoleFd, VT_ACTIVATE, specialkey - KEY_F11 + 11);
#endif
return;
}
break;
#endif /* linux || BSD with VTs */
/* just worth mentioning here: any 386bsd keyboard driver
* (pccons.c or co_kbd.c) catches CTRL-ALT-DEL and CTRL-ALT-ESC
* before any application (e.g. XF86) will see it
* OBS: syscons does not, nor does pcvt !
*/
}
}
/*
* Start of actual Solaris VT switching code.
* This should pretty much emulate standard SVR4 switching keys.
*
* DWH 12/2/93
*/
#ifdef USE_VT_SYSREQ
if (VTSwitchEnabled && xf86Info.vtSysreq)
{
switch (specialkey)
{
/*
* syscons on *BSD doesn't have a VT #0 -- don't think Linux does
* either
*/
#if defined (sun) && defined (i386) && defined (SVR4)
case KEY_H:
if (VTSysreqToggle && down)
{
ioctl(xf86Info.consoleFd, VT_ACTIVATE, 0);
VTSysreqToggle = 0;
return;
}
break;
/*
* Yah, I know the N, and P keys seem backwards, however that's
* how they work under Solaris
* XXXX N means go to next active VT not necessarily vtno+1 (or vtno-1)
*/
case KEY_N:
if (VTSysreqToggle && down)
{
if (ioctl(xf86Info.consoleFd, VT_ACTIVATE, xf86Info.vtno - 1 ) < 0)
ErrorF("Failed to switch consoles (%s)\n", strerror(errno));
VTSysreqToggle = FALSE;
return;
}
break;
case KEY_P:
if (VTSysreqToggle && down)
{
if (ioctl(xf86Info.consoleFd, VT_ACTIVATE, xf86Info.vtno + 1 ) < 0)
if (ioctl(xf86Info.consoleFd, VT_ACTIVATE, 0) < 0)
ErrorF("Failed to switch consoles (%s)\n", strerror(errno));
VTSysreqToggle = FALSE;
return;
}
break;
#endif
case KEY_F1:
case KEY_F2:
case KEY_F3:
case KEY_F4:
case KEY_F5:
case KEY_F6:
case KEY_F7:
case KEY_F8:
case KEY_F9:
case KEY_F10:
if (VTSysreqToggle && down)
{
if (ioctl(xf86Info.consoleFd, VT_ACTIVATE, specialkey-KEY_F1 + 1) < 0)
ErrorF("Failed to switch consoles (%s)\n", strerror(errno));
VTSysreqToggle = FALSE;
return;
}
break;
case KEY_F11:
case KEY_F12:
if (VTSysreqToggle && down)
{
if (ioctl(xf86Info.consoleFd, VT_ACTIVATE, specialkey-KEY_F11 + 11) < 0)
ErrorF("Failed to switch consoles (%s)\n", strerror(errno));
VTSysreqToggle = FALSE;
return;
}
break;
/* Ignore these keys -- ie don't let them cancel an alt-sysreq */
case KEY_Alt:
case KEY_AltLang:
break;
case KEY_SysReqest:
if (down && (ModifierDown(AltMask) || ModifierDown(AltLangMask)))
VTSysreqToggle = TRUE;
break;
default:
if (VTSysreqToggle)
{
/*
* We only land here when Alt-SysReq is followed by a
* non-switching key.
*/
VTSysreqToggle = FALSE;
}
}
}
#endif /* USE_VT_SYSREQ */
#ifdef SCO
/*
* With the console in raw mode, SCO will not switch consoles,
* you get around this by activating the next console along, if
* this fails then go back to console 0, if there is only one
* then it doesn't matter, switching to yourself is a nop as far
* as the console driver is concerned.
* We could do something similar to linux here but SCO ODT uses
* Ctrl-PrintScrn, so why change?
*/
if (specialkey == KEY_Print && ModifierDown(ControlMask)) {
if (down)
if (ioctl(xf86Info.consoleFd, VT_ACTIVATE, xf86Info.vtno + 1) < 0)
if (ioctl(xf86Info.consoleFd, VT_ACTIVATE, 0) < 0)
ErrorF("Failed to switch consoles (%s)\n", strerror(errno));
return;
}
#endif /* SCO */
/*
* Now map the scancodes to real X-keycodes ...
*/
keycode = scanCode + MIN_KEYCODE;
keysym = (keyc->curKeySyms.map +
keyc->curKeySyms.mapWidth *
(keycode - keyc->curKeySyms.minKeyCode));
#ifdef XKB
if (noXkbExtension) {
#endif
/*
* Filter autorepeated caps/num/scroll lock keycodes.
*/
#define CAPSFLAG 0x01
#define NUMFLAG 0x02
#define SCROLLFLAG 0x04
#define MODEFLAG 0x08
if( down ) {
switch( keysym[0] ) {
case XK_Caps_Lock :
if (lockkeys & CAPSFLAG)
return;
else
lockkeys |= CAPSFLAG;
break;
case XK_Num_Lock :
if (lockkeys & NUMFLAG)
return;
else
lockkeys |= NUMFLAG;
break;
case XK_Scroll_Lock :
if (lockkeys & SCROLLFLAG)
return;
else
lockkeys |= SCROLLFLAG;
break;
}
if (keysym[1] == XF86XK_ModeLock)
{
if (lockkeys & MODEFLAG)
return;
else
lockkeys |= MODEFLAG;
}
}
else {
switch( keysym[0] ) {
case XK_Caps_Lock :
lockkeys &= ~CAPSFLAG;
break;
case XK_Num_Lock :
lockkeys &= ~NUMFLAG;
break;
case XK_Scroll_Lock :
lockkeys &= ~SCROLLFLAG;
break;
}
if (keysym[1] == XF86XK_ModeLock)
lockkeys &= ~MODEFLAG;
}
/*
* LockKey special handling:
* ignore releases, toggle on & off on presses.
* Don't deal with the Caps_Lock keysym directly, but check the lock modifier
*/
if (keyc->modifierMap[keycode] & LockMask ||
keysym[0] == XK_Scroll_Lock ||
keysym[1] == XF86XK_ModeLock ||
keysym[0] == XK_Num_Lock)
{
Bool flag;
if (!down) return;
if (KeyPressed(keycode)) {
down = !down;
flag = FALSE;
}
else
flag = TRUE;
if (keyc->modifierMap[keycode] & LockMask) xf86Info.capsLock = flag;
if (keysym[0] == XK_Num_Lock) xf86Info.numLock = flag;
if (keysym[0] == XK_Scroll_Lock) xf86Info.scrollLock = flag;
if (keysym[1] == XF86XK_ModeLock) xf86Info.modeSwitchLock = flag;
updateLeds = TRUE;
}
#ifndef ASSUME_CUSTOM_KEYCODES
/*
* normal, non-keypad keys
*/
if (scanCode < KEY_KP_7 || scanCode > KEY_KP_Decimal) {
#if !defined(CSRG_BASED) && !defined(MACH386) && !defined(MINIX) && !defined(__OSF__) && !defined(__GNU__) && !defined(__CYGWIN__)
/*
* magic ALT_L key on AT84 keyboards for multilingual support
*/
if (xf86Info.kbdType == KB_84 &&
ModifierDown(AltMask) &&
keysym[2] != NoSymbol)
{
UsePrefix = TRUE;
Direction = TRUE;
}
#endif /* !CSRG_BASED && !MACH386 && !MINIX && !__OSF__ */
}
#endif /* !ASSUME_CUSTOM_KEYCODES */
if (updateLeds) xf86KbdLeds();
#ifdef XKB
}
#endif
/*
* check for an autorepeat-event
*/
if (down && KeyPressed(keycode)) {
KbdFeedbackClassRec *kbdfeed = ((DeviceIntPtr)xf86Info.pKeyboard)->kbdfeed;
if ((xf86Info.autoRepeat != AutoRepeatModeOn) ||
keyc->modifierMap[keycode] ||
(kbdfeed && !(kbdfeed->ctrl.autoRepeats[keycode>>3] & ( 1<<(keycode&7) ))))
return;
}
xf86Info.lastEventTime = kevent.u.keyButtonPointer.time = GetTimeInMillis();
/*
* And now send these prefixes ...
* NOTE: There cannot be multiple Mode_Switch keys !!!!
*/
if (UsePrefix)
{
ENQUEUE(&kevent,
keyc->modifierKeyMap[keyc->maxKeysPerModifier*7],
(Direction ? KeyPress : KeyRelease),
XE_KEYBOARD);
ENQUEUE(&kevent, keycode, (down ? KeyPress : KeyRelease), XE_KEYBOARD);
ENQUEUE(&kevent,
keyc->modifierKeyMap[keyc->maxKeysPerModifier*7],
(Direction ? KeyRelease : KeyPress),
XE_KEYBOARD);
}
else
{
ENQUEUE(&kevent, keycode, (down ? KeyPress : KeyRelease), XE_KEYBOARD);
}
}
#endif /* !__EMX__ */
#ifndef AMOEBA
/*
* xf86Wakeup --
* Os wakeup handler.
*/
/* ARGSUSED */
void
xf86Wakeup(pointer blockData, int err, pointer pReadmask)
{
#if !defined(__EMX__) && !defined(__QNX__) && !defined(__CYGWIN__)
#ifdef __OSF__
fd_set kbdDevices;
fd_set mseDevices;
#endif /* __OSF__ */
fd_set* LastSelectMask = (fd_set*)pReadmask;
fd_set devicesWithInput;
InputInfoPtr pInfo;
if (err >= 0) {
XFD_ANDSET(&devicesWithInput, LastSelectMask, &EnabledDevices);
#ifndef __OSF__
if (XFD_ANYSET(&devicesWithInput)) {
(xf86Info.kbdEvents)();
pInfo = xf86InputDevs;
while (pInfo) {
if (pInfo->read_input && pInfo->fd >= 0 &&
(FD_ISSET(pInfo->fd, ((fd_set *)pReadmask)) != 0)) {
int sigstate = xf86BlockSIGIO();
pInfo->read_input(pInfo);
xf86UnblockSIGIO(sigstate);
/*
* Must break here because more than one device may share
* the same file descriptor.
*/
break;
}
pInfo = pInfo->next;
}
}
#else /* __OSF__ */
/*
* Until the two devices are made nonblock on read, we have to do this.
*/
MASKANDSETBITS(devicesWithInput, pReadmask, EnabledDevices);
CLEARBITS(kbdDevices);
BITSET(kbdDevices, xf86Info.consoleFd);
MASKANDSETBITS(kbdDevices, kbdDevices, devicesWithInput);
CLEARBITS(mseDevices);
BITSET(mseDevices, xf86Info.mouseDev->mseFd);
MASKANDSETBITS(mseDevices, mseDevices, devicesWithInput);
if (ANYSET(kbdDevices) || xf86Info.kbdRate)
(xf86Info.kbdEvents)(ANYSET(kbdDevices));
if (ANYSET(mseDevices))
(xf86Info.mouseDev->mseEvents)(1);
#endif /* __OSF__ */
}
#else /* __EMX__ and __QNX__ */
InputInfoPtr pInfo;
(xf86Info.kbdEvents)(); /* Under OS/2 and QNX, always call */
pInfo = xf86InputDevs;
while (pInfo) {
if (pInfo->read_input && pInfo->fd >= 0) {
int sigstate = xf86BlockSIGIO();
pInfo->read_input(pInfo);
xf86UnblockSIGIO(sigstate);
/*
* Must break here because more than one device may share
* the same file descriptor.
*/
break;
}
pInfo = pInfo->next;
}
#endif /* __EMX__ and __QNX__ */
if (err >= 0) { /* we don't want the handlers called if select() */
IHPtr ih; /* returned with an error condition, do we? */
for (ih = InputHandlers; ih; ih = ih->next) {
if (ih->enabled && ih->fd >= 0 && ih->ihproc &&
(FD_ISSET(ih->fd, ((fd_set *)pReadmask)) != 0)) {
ih->ihproc(ih->fd, ih->data);
}
}
}
if (xf86VTSwitchPending()) xf86VTSwitch();
if (xf86Info.inputPending) ProcessInputEvents();
}
#endif /* AMOEBA */
/*
* xf86SigioReadInput --
* signal handler for the SIGIO signal.
*/
static void
xf86SigioReadInput(int fd,
void *closure)
{
int sigstate = xf86BlockSIGIO();
InputInfoPtr pInfo = (InputInfoPtr) closure;
pInfo->read_input(pInfo);
xf86UnblockSIGIO(sigstate);
}
/*
* xf86AddEnabledDevice --
*
*/
void
xf86AddEnabledDevice(InputInfoPtr pInfo)
{
if (!xf86InstallSIGIOHandler (pInfo->fd, xf86SigioReadInput, pInfo)) {
AddEnabledDevice(pInfo->fd);
}
}
/*
* xf86RemoveEnabledDevice --
*
*/
void
xf86RemoveEnabledDevice(InputInfoPtr pInfo)
{
if (!xf86RemoveSIGIOHandler (pInfo->fd)) {
RemoveEnabledDevice(pInfo->fd);
}
}
static int *xf86SignalIntercept = NULL;
void
xf86InterceptSignals(int *signo)
{
if ((xf86SignalIntercept = signo))
*signo = -1;
}
/*
* xf86SigHandler --
* Catch unexpected signals and exit or continue cleanly.
*/
void
xf86SigHandler(int signo)
{
if (xf86SignalIntercept && (*xf86SignalIntercept < 0)) {
/* Re-arm handler just in case */
(void) signal(signo, xf86SigHandler);
*xf86SignalIntercept = signo;
return;
}
signal(signo,SIG_IGN);
xf86Info.caughtSignal = TRUE;
#ifdef XF86BIGFONT
XF86BigfontCleanup();
#endif
#if defined(DEBUG) && defined(XFree86LOADER)
if (signo == SIGSEGV)
LoaderDumpSymbols();
#endif
FatalError("Caught signal %d. Server aborting\n", signo);
}
/*
* xf86VTSwitch --
* Handle requests for switching the vt.
*/
static void
xf86VTSwitch()
{
int i;
InputInfoPtr pInfo;
IHPtr ih;
#ifdef DEBUG
ErrorF("xf86VTSwitch()\n");
#endif
#ifdef XFreeXDGA
if(!DGAVTSwitch())
return;
#endif
/*
* Since all screens are currently all in the same state it is sufficient
* check the first. This might change in future.
*/
if (xf86Screens[0]->vtSema) {
#ifdef DEBUG
ErrorF("xf86VTSwitch: Leaving, xf86Exiting is %s\n",
BOOLTOSTRING((dispatchException & DE_TERMINATE) ? TRUE : FALSE));
#endif
for (i = 0; i < xf86NumScreens; i++) {
if (!(dispatchException & DE_TERMINATE))
if (xf86Screens[i]->EnableDisableFBAccess)
(*xf86Screens[i]->EnableDisableFBAccess) (i, FALSE);
}
xf86EnterServerState(SETUP);
for (i = 0; i < xf86NumScreens; i++) {
xf86Screens[i]->LeaveVT(i, 0);
}
#if !defined(__EMX__) && !defined(__CYGWIN__)
DisableDevice((DeviceIntPtr)xf86Info.pKeyboard);
pInfo = xf86InputDevs;
while (pInfo) {
DisableDevice(pInfo->dev);
pInfo = pInfo->next;
}
#endif /* !__EMX__ */
for (ih = InputHandlers; ih; ih = ih->next)
xf86DisableInputHandler(ih);
xf86AccessLeave(); /* We need this here, otherwise */
xf86AccessLeaveState(); /* console won't be restored */
if (!xf86VTSwitchAway()) {
/*
* switch failed
*/
#ifdef DEBUG
ErrorF("xf86VTSwitch: Leave failed\n");
#endif
xf86AccessEnter();
xf86EnterServerState(SETUP);
for (i = 0; i < xf86NumScreens; i++) {
if (!xf86Screens[i]->EnterVT(i, 0))
FatalError("EnterVT failed for screen %d\n", i);
}
xf86EnterServerState(OPERATING);
if (!(dispatchException & DE_TERMINATE)) {
for (i = 0; i < xf86NumScreens; i++) {
if (xf86Screens[i]->EnableDisableFBAccess)
(*xf86Screens[i]->EnableDisableFBAccess) (i, TRUE);
}
}
SaveScreens(SCREEN_SAVER_FORCER, ScreenSaverReset);
#if !defined(__EMX__) && !defined(__CYGWIN__)
EnableDevice((DeviceIntPtr)xf86Info.pKeyboard);
pInfo = xf86InputDevs;
while (pInfo) {
EnableDevice(pInfo->dev);
pInfo = pInfo->next;
}
#endif /* !__EMX__ */
for (ih = InputHandlers; ih; ih = ih->next)
xf86EnableInputHandler(ih);
} else {
if (xf86OSPMClose)
xf86OSPMClose();
xf86OSPMClose = NULL;
for (i = 0; i < xf86NumScreens; i++) {
/*
* zero all access functions to
* trap calls when switched away.
*/
xf86Screens[i]->vtSema = FALSE;
xf86Screens[i]->access = NULL;
xf86Screens[i]->busAccess = NULL;
}
xf86DisableIO();
}
} else {
#ifdef DEBUG
ErrorF("xf86VTSwitch: Entering\n");
#endif
if (!xf86VTSwitchTo()) return;
xf86OSPMClose = xf86OSPMOpen();
xf86EnableIO();
xf86AccessEnter();
xf86EnterServerState(SETUP);
for (i = 0; i < xf86NumScreens; i++) {
xf86Screens[i]->vtSema = TRUE;
if (!xf86Screens[i]->EnterVT(i, 0))
FatalError("EnterVT failed for screen %d\n", i);
}
xf86EnterServerState(OPERATING);
for (i = 0; i < xf86NumScreens; i++) {
if (xf86Screens[i]->EnableDisableFBAccess)
(*xf86Screens[i]->EnableDisableFBAccess)(i, TRUE);
}
/* Turn screen saver off when switching back */
SaveScreens(SCREEN_SAVER_FORCER,ScreenSaverReset);
#if !defined(__EMX__) && !defined(__CYGWIN__)
EnableDevice((DeviceIntPtr)xf86Info.pKeyboard);
pInfo = xf86InputDevs;
while (pInfo) {
EnableDevice(pInfo->dev);
pInfo = pInfo->next;
}
#endif /* !__EMX__ */
for (ih = InputHandlers; ih; ih = ih->next)
xf86EnableInputHandler(ih);
}
}
/* Input handler registration */
pointer
xf86AddInputHandler(int fd, InputHandlerProc proc, pointer data)
{
IHPtr ih;
if (fd < 0 || !proc)
return NULL;
ih = xcalloc(sizeof(*ih), 1);
if (!ih)
return NULL;
ih->fd = fd;
ih->ihproc = proc;
ih->data = data;
ih->enabled = TRUE;
ih->next = InputHandlers;
InputHandlers = ih;
AddEnabledDevice(fd);
return ih;
}
int
xf86RemoveInputHandler(pointer handler)
{
IHPtr ih, p;
int fd;
if (!handler)
return -1;
ih = handler;
fd = ih->fd;
if (ih->fd >= 0)
RemoveEnabledDevice(ih->fd);
if (ih == InputHandlers)
InputHandlers = ih->next;
else {
p = InputHandlers;
while (p && p->next != ih)
p = p->next;
if (ih)
p->next = ih->next;
}
xfree(ih);
return fd;
}
void
xf86DisableInputHandler(pointer handler)
{
IHPtr ih;
if (!handler)
return;
ih = handler;
ih->enabled = FALSE;
if (ih->fd >= 0)
RemoveEnabledDevice(ih->fd);
}
void
xf86EnableInputHandler(pointer handler)
{
IHPtr ih;
if (!handler)
return;
ih = handler;
ih->enabled = TRUE;
if (ih->fd >= 0)
AddEnabledDevice(ih->fd);
}
Bool
xf86EnableVTSwitch(Bool new)
{
Bool old = VTSwitchEnabled;
VTSwitchEnabled = new;
return old;
}
#ifdef XTESTEXT1
void
XTestGetPointerPos(short *fmousex, short *fmousey)
{
int x,y;
miPointerPosition(&x, &y);
*fmousex = x;
*fmousey = y;
}
void
XTestJumpPointer(int jx, int jy, int dev_type)
{
miPointerAbsoluteCursor(jx, jy, GetTimeInMillis() );
}
void
XTestGenerateEvent(int dev_type, int keycode, int keystate, int mousex,
int mousey)
{
xEvent tevent;
tevent.u.u.type = (dev_type == XE_POINTER) ?
(keystate == XTestKEY_UP) ? ButtonRelease : ButtonPress :
(keystate == XTestKEY_UP) ? KeyRelease : KeyPress;
tevent.u.u.detail = keycode;
tevent.u.keyButtonPointer.rootX = mousex;
tevent.u.keyButtonPointer.rootY = mousey;
tevent.u.keyButtonPointer.time = xf86Info.lastEventTime = GetTimeInMillis();
#ifdef XINPUT
xf86eqEnqueue(&tevent);
#else
mieqEnqueue(&tevent);
#endif
xf86Info.inputPending = TRUE; /* virtual event */
}
#endif /* XTESTEXT1 */
#ifdef WSCONS_SUPPORT
/* XXX Currently XKB is mandatory. */
void
xf86PostWSKbdEvent(struct wscons_event *event)
{
int type = event->type;
int value = event->value;
Bool down = (type == WSCONS_EVENT_KEY_DOWN ? TRUE : FALSE);
KeyClassRec *keyc = ((DeviceIntPtr)xf86Info.pKeyboard)->key;
xEvent kevent;
KeySym *keysym;
int keycode;
/*
* Now map the scancodes to real X-keycodes ...
*/
keycode = value + MIN_KEYCODE;
keysym = keyc->curKeySyms.map +
keyc->curKeySyms.mapWidth * (keycode - keyc->curKeySyms.minKeyCode);
/*
* check for an autorepeat-event
*/
if ((down && KeyPressed(keycode)) &&
(xf86Info.autoRepeat != AutoRepeatModeOn || keyc->modifierMap[keycode]))
return;
xf86Info.lastEventTime = kevent.u.keyButtonPointer.time
= event->time.tv_sec * 1000 + event->time.tv_nsec / 1000000;
ENQUEUE(&kevent, keycode, (down ? KeyPress : KeyRelease), XE_KEYBOARD);
}
#endif /* WSCONS_SUPPORT */
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