/************************************************************ Copyright 1989, 1998 The Open Group 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. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1989 by Hewlett-Packard Company, Palo Alto, California. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, 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 Hewlett-Packard not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. HEWLETT-PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL HEWLETT-PACKARD 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. ********************************************************/ /******************************************************************** * * Dispatch routines and initialization routines for the X input extension. * */ #define NUMTYPES 15 #include #include #include #include #include #include #include "dix/dix_priv.h" #include "dix/input_priv.h" #include "dix/exevents_priv.h" #include "dix/extension_priv.h" #include "miext/extinit_priv.h" #include "Xext/geext_priv.h" #include "inputstr.h" #include "gcstruct.h" /* pointer for extnsionst.h */ #include "extnsionst.h" /* extension entry */ #include "exglobals.h" #include "swaprep.h" #include "privates.h" #include "protocol-versions.h" /* modules local to Xi */ #include "allowev.h" #include "chgdctl.h" #include "chgfctl.h" #include "chgkbd.h" #include "chgprop.h" #include "chgptr.h" #include "closedev.h" #include "devbell.h" #include "getbmap.h" #include "getdctl.h" #include "getfctl.h" #include "getfocus.h" #include "getkmap.h" #include "getmmap.h" #include "getprop.h" #include "getselev.h" #include "getvers.h" #include "grabdev.h" #include "grabdevb.h" #include "grabdevk.h" #include "gtmotion.h" #include "listdev.h" #include "opendev.h" #include "queryst.h" #include "selectev.h" #include "sendexev.h" #include "chgkmap.h" #include "setbmap.h" #include "setdval.h" #include "setfocus.h" #include "setmmap.h" #include "setmode.h" #include "ungrdev.h" #include "ungrdevb.h" #include "ungrdevk.h" #include "xiallowev.h" #include "xiselectev.h" #include "xigrabdev.h" #include "xipassivegrab.h" #include "xisetdevfocus.h" #include "xiproperty.h" #include "xichangecursor.h" #include "xichangehierarchy.h" #include "xigetclientpointer.h" #include "xiquerydevice.h" #include "xiquerypointer.h" #include "xiqueryversion.h" #include "xisetclientpointer.h" #include "xiwarppointer.h" #include "xibarriers.h" /* Masks for XI events have to be aligned with core event (partially anyway). * If DeviceButtonMotionMask is != ButtonMotionMask, event delivery * breaks down. The device needs the dev->button->motionMask. If DBMM is * the same as BMM, we can ensure that both core and device events can be * delivered, without the need for extra structures in the DeviceIntRec. */ const Mask DeviceProximityMask = (1L << 4); const Mask DeviceStateNotifyMask = (1L << 5); const Mask DevicePointerMotionHintMask = PointerMotionHintMask; const Mask DeviceButton1MotionMask = Button1MotionMask; const Mask DeviceButton2MotionMask = Button2MotionMask; const Mask DeviceButton3MotionMask = Button3MotionMask; const Mask DeviceButton4MotionMask = Button4MotionMask; const Mask DeviceButton5MotionMask = Button5MotionMask; const Mask DeviceButtonMotionMask = ButtonMotionMask; const Mask DeviceFocusChangeMask = (1L << 14); const Mask DeviceMappingNotifyMask = (1L << 15); const Mask ChangeDeviceNotifyMask = (1L << 16); const Mask DeviceButtonGrabMask = (1L << 17); const Mask DeviceOwnerGrabButtonMask = (1L << 17); const Mask DevicePresenceNotifyMask = (1L << 18); const Mask DevicePropertyNotifyMask = (1L << 19); const Mask XIAllMasks = (1L << 20) - 1; int ExtEventIndex; static struct dev_type { Atom type; const char *name; } dev_type[] = { {0, XI_KEYBOARD}, {0, XI_MOUSE}, {0, XI_TABLET}, {0, XI_TOUCHSCREEN}, {0, XI_TOUCHPAD}, {0, XI_BARCODE}, {0, XI_BUTTONBOX}, {0, XI_KNOB_BOX}, {0, XI_ONE_KNOB}, {0, XI_NINE_KNOB}, {0, XI_TRACKBALL}, {0, XI_QUADRATURE}, {0, XI_ID_MODULE}, {0, XI_SPACEBALL}, {0, XI_DATAGLOVE}, {0, XI_EYETRACKER}, {0, XI_CURSORKEYS}, {0, XI_FOOTMOUSE} }; CARD8 event_base[numInputClasses]; XExtEventInfo EventInfo[32]; static DeviceIntRec xi_all_devices; static DeviceIntRec xi_all_master_devices; /***************************************************************** * * Globals referenced elsewhere in the server. * */ int IEventBase = 0; int BadDevice = 0; static int BadEvent = 1; int BadMode = 2; int DeviceBusy = 3; int BadClass = 4; int DeviceValuator; int DeviceKeyPress; int DeviceKeyRelease; int DeviceButtonPress; int DeviceButtonRelease; int DeviceMotionNotify; int DeviceFocusIn; int DeviceFocusOut; int ProximityIn; int ProximityOut; int DeviceStateNotify; int DeviceKeyStateNotify; int DeviceButtonStateNotify; int DeviceMappingNotify; int ChangeDeviceNotify; int DevicePresenceNotify; int DevicePropertyNotify; RESTYPE RT_INPUTCLIENT; /***************************************************************** * * Externs defined elsewhere in the X server. * */ extern XExtensionVersion XIVersion; /***************************************************************** * * Versioning support * */ DevPrivateKeyRec XIClientPrivateKeyRec; /***************************************************************** * * Declarations of local routines. * */ /************************************************************************* * * ProcIDispatch - main dispatch routine for requests to this extension. * This routine is used if server and client have the same byte ordering. * */ static int ProcIDispatch(ClientPtr client) { REQUEST(xReq); UpdateCurrentTimeIf(); switch (stuff->data) { case X_GetExtensionVersion: return ProcXGetExtensionVersion(client); case X_ListInputDevices: return ProcXListInputDevices(client); case X_OpenDevice: return ProcXOpenDevice(client); case X_CloseDevice: return ProcXCloseDevice(client); case X_SetDeviceMode: return ProcXSetDeviceMode(client); case X_SelectExtensionEvent: return ProcXSelectExtensionEvent(client); case X_GetSelectedExtensionEvents: return ProcXGetSelectedExtensionEvents(client); case X_ChangeDeviceDontPropagateList: return ProcXChangeDeviceDontPropagateList(client); case X_GetDeviceDontPropagateList: return ProcXGetDeviceDontPropagateList(client); case X_GetDeviceMotionEvents: return ProcXGetDeviceMotionEvents(client); case X_ChangeKeyboardDevice: return ProcXChangeKeyboardDevice(client); case X_ChangePointerDevice: return ProcXChangePointerDevice(client); case X_GrabDevice: return ProcXGrabDevice(client); case X_UngrabDevice: return ProcXUngrabDevice(client); case X_GrabDeviceKey: return ProcXGrabDeviceKey(client); case X_UngrabDeviceKey: return ProcXUngrabDeviceKey(client); case X_GrabDeviceButton: return ProcXGrabDeviceButton(client); case X_UngrabDeviceButton: return ProcXUngrabDeviceButton(client); case X_AllowDeviceEvents: return ProcXAllowDeviceEvents(client); case X_GetDeviceFocus: return ProcXGetDeviceFocus(client); case X_SetDeviceFocus: return ProcXSetDeviceFocus(client); case X_GetFeedbackControl: return ProcXGetFeedbackControl(client); case X_ChangeFeedbackControl: return ProcXChangeFeedbackControl(client); case X_GetDeviceKeyMapping: return ProcXGetDeviceKeyMapping(client); case X_ChangeDeviceKeyMapping: return ProcXChangeDeviceKeyMapping(client); case X_GetDeviceModifierMapping: return ProcXGetDeviceModifierMapping(client); case X_SetDeviceModifierMapping: return ProcXSetDeviceModifierMapping(client); case X_GetDeviceButtonMapping: return ProcXGetDeviceButtonMapping(client); case X_SetDeviceButtonMapping: return ProcXSetDeviceButtonMapping(client); case X_QueryDeviceState: return ProcXQueryDeviceState(client); case X_SendExtensionEvent: return ProcXSendExtensionEvent(client); case X_DeviceBell: return ProcXDeviceBell(client); case X_SetDeviceValuators: return ProcXSetDeviceValuators(client); case X_GetDeviceControl: return ProcXGetDeviceControl(client); case X_ChangeDeviceControl: return ProcXChangeDeviceControl(client); /* XI 1.5 */ case X_ListDeviceProperties: return ProcXListDeviceProperties(client); case X_ChangeDeviceProperty: return ProcXChangeDeviceProperty(client); case X_DeleteDeviceProperty: return ProcXDeleteDeviceProperty(client); case X_GetDeviceProperty: return ProcXGetDeviceProperty(client); /* XI 2 */ case X_XIQueryPointer: return ProcXIQueryPointer(client); case X_XIWarpPointer: return ProcXIWarpPointer(client); case X_XIChangeCursor: return ProcXIChangeCursor(client); case X_XIChangeHierarchy: return ProcXIChangeHierarchy(client); case X_XISetClientPointer: return ProcXISetClientPointer(client); case X_XIGetClientPointer: return ProcXIGetClientPointer(client); case X_XISelectEvents: return ProcXISelectEvents(client); case X_XIQueryVersion: return ProcXIQueryVersion(client); case X_XIQueryDevice: return ProcXIQueryDevice(client); case X_XISetFocus: return ProcXISetFocus(client); case X_XIGetFocus: return ProcXIGetFocus(client); case X_XIGrabDevice: return ProcXIGrabDevice(client); case X_XIUngrabDevice: return ProcXIUngrabDevice(client); case X_XIAllowEvents: return ProcXIAllowEvents(client); case X_XIPassiveGrabDevice: return ProcXIPassiveGrabDevice(client); case X_XIPassiveUngrabDevice: return ProcXIPassiveUngrabDevice(client); case X_XIListProperties: return ProcXIListProperties(client); case X_XIChangeProperty: return ProcXIChangeProperty(client); case X_XIDeleteProperty: return ProcXIDeleteProperty(client); case X_XIGetProperty: return ProcXIGetProperty(client); case X_XIGetSelectedEvents: return ProcXIGetSelectedEvents(client); case X_XIBarrierReleasePointer: return ProcXIBarrierReleasePointer(client); default: return BadRequest; } } /******************************************************************************* * * SProcXDispatch * * Main swapped dispatch routine for requests to this extension. * This routine is used if server and client do not have the same byte ordering. * */ static int _X_COLD SProcIDispatch(ClientPtr client) { REQUEST(xReq); UpdateCurrentTimeIf(); switch (stuff->data) { case X_GetExtensionVersion: return SProcXGetExtensionVersion(client); case X_ListInputDevices: return ProcXListInputDevices(client); case X_OpenDevice: return ProcXOpenDevice(client); case X_CloseDevice: return ProcXCloseDevice(client); case X_SetDeviceMode: return ProcXSetDeviceMode(client); case X_SelectExtensionEvent: return SProcXSelectExtensionEvent(client); case X_GetSelectedExtensionEvents: return SProcXGetSelectedExtensionEvents(client); case X_ChangeDeviceDontPropagateList: return SProcXChangeDeviceDontPropagateList(client); case X_GetDeviceDontPropagateList: return SProcXGetDeviceDontPropagateList(client); case X_GetDeviceMotionEvents: return SProcXGetDeviceMotionEvents(client); case X_ChangeKeyboardDevice: return ProcXChangeKeyboardDevice(client); case X_ChangePointerDevice: return ProcXChangePointerDevice(client); case X_GrabDevice: return SProcXGrabDevice(client); case X_UngrabDevice: return SProcXUngrabDevice(client); case X_GrabDeviceKey: return SProcXGrabDeviceKey(client); case X_UngrabDeviceKey: return SProcXUngrabDeviceKey(client); case X_GrabDeviceButton: return SProcXGrabDeviceButton(client); case X_UngrabDeviceButton: return SProcXUngrabDeviceButton(client); case X_AllowDeviceEvents: return SProcXAllowDeviceEvents(client); case X_GetDeviceFocus: return ProcXGetDeviceFocus(client); case X_SetDeviceFocus: return SProcXSetDeviceFocus(client); case X_GetFeedbackControl: return ProcXGetFeedbackControl(client); case X_ChangeFeedbackControl: return SProcXChangeFeedbackControl(client); case X_GetDeviceKeyMapping: return ProcXGetDeviceKeyMapping(client); case X_ChangeDeviceKeyMapping: return SProcXChangeDeviceKeyMapping(client); case X_GetDeviceModifierMapping: return ProcXGetDeviceModifierMapping(client); case X_SetDeviceModifierMapping: return ProcXSetDeviceModifierMapping(client); case X_GetDeviceButtonMapping: return ProcXGetDeviceButtonMapping(client); case X_SetDeviceButtonMapping: return ProcXSetDeviceButtonMapping(client); case X_QueryDeviceState: return ProcXQueryDeviceState(client); case X_SendExtensionEvent: return SProcXSendExtensionEvent(client); case X_DeviceBell: return ProcXDeviceBell(client); case X_SetDeviceValuators: return ProcXSetDeviceValuators(client); case X_GetDeviceControl: return SProcXGetDeviceControl(client); case X_ChangeDeviceControl: return SProcXChangeDeviceControl(client); /* XI 1.5 */ case X_ListDeviceProperties: return ProcXListDeviceProperties(client); case X_ChangeDeviceProperty: return SProcXChangeDeviceProperty(client); case X_DeleteDeviceProperty: return SProcXDeleteDeviceProperty(client); case X_GetDeviceProperty: return SProcXGetDeviceProperty(client); /* XI 2 */ case X_XIQueryPointer: return SProcXIQueryPointer(client); case X_XIWarpPointer: return SProcXIWarpPointer(client); case X_XIChangeCursor: return SProcXIChangeCursor(client); case X_XIChangeHierarchy: return ProcXIChangeHierarchy(client); case X_XISetClientPointer: return SProcXISetClientPointer(client); case X_XIGetClientPointer: return SProcXIGetClientPointer(client); case X_XISelectEvents: return SProcXISelectEvents(client); case X_XIQueryVersion: return SProcXIQueryVersion(client); case X_XIQueryDevice: return SProcXIQueryDevice(client); case X_XISetFocus: return SProcXISetFocus(client); case X_XIGetFocus: return SProcXIGetFocus(client); case X_XIGrabDevice: return SProcXIGrabDevice(client); case X_XIUngrabDevice: return SProcXIUngrabDevice(client); case X_XIAllowEvents: return SProcXIAllowEvents(client); case X_XIPassiveGrabDevice: return SProcXIPassiveGrabDevice(client); case X_XIPassiveUngrabDevice: return SProcXIPassiveUngrabDevice(client); case X_XIListProperties: return SProcXIListProperties(client); case X_XIChangeProperty: return SProcXIChangeProperty(client); case X_XIDeleteProperty: return SProcXIDeleteProperty(client); case X_XIGetProperty: return SProcXIGetProperty(client); case X_XIGetSelectedEvents: return SProcXIGetSelectedEvents(client); case X_XIBarrierReleasePointer: return SProcXIBarrierReleasePointer(client); default: return BadRequest; } } /************************************************************************ * * This function swaps the DeviceValuator event. * */ static void SEventDeviceValuator(deviceValuator * from, deviceValuator * to) { int i; INT32 *ip; *to = *from; swaps(&to->sequenceNumber); swaps(&to->device_state); ip = &to->valuator0; for (i = 0; i < 6; i++) { swapl(ip + i); } } static void SEventFocus(deviceFocus * from, deviceFocus * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->time); swapl(&to->window); } static void SDeviceStateNotifyEvent(deviceStateNotify * from, deviceStateNotify * to) { int i; INT32 *ip; *to = *from; swaps(&to->sequenceNumber); swapl(&to->time); ip = &to->valuator0; for (i = 0; i < 3; i++) { swapl(ip + i); } } static void SDeviceKeyStateNotifyEvent(deviceKeyStateNotify * from, deviceKeyStateNotify * to) { *to = *from; swaps(&to->sequenceNumber); } static void SDeviceButtonStateNotifyEvent(deviceButtonStateNotify * from, deviceButtonStateNotify * to) { *to = *from; swaps(&to->sequenceNumber); } static void SChangeDeviceNotifyEvent(changeDeviceNotify * from, changeDeviceNotify * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->time); } static void SDeviceMappingNotifyEvent(deviceMappingNotify * from, deviceMappingNotify * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->time); } static void SDevicePresenceNotifyEvent(devicePresenceNotify * from, devicePresenceNotify * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->time); swaps(&to->control); } static void SDevicePropertyNotifyEvent(devicePropertyNotify * from, devicePropertyNotify * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->time); swapl(&to->atom); } static void SDeviceLeaveNotifyEvent(xXILeaveEvent * from, xXILeaveEvent * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->time); swapl(&to->root); swapl(&to->event); swapl(&to->child); swapl(&to->root_x); swapl(&to->root_y); swapl(&to->event_x); swapl(&to->event_y); swaps(&to->sourceid); swaps(&to->buttons_len); swapl(&to->mods.base_mods); swapl(&to->mods.latched_mods); swapl(&to->mods.locked_mods); } static void SDeviceChangedEvent(xXIDeviceChangedEvent * from, xXIDeviceChangedEvent * to) { int i, j; xXIAnyInfo *any; *to = *from; memcpy(&to[1], &from[1], from->length * 4); any = (xXIAnyInfo *) &to[1]; for (i = 0; i < to->num_classes; i++) { int length = any->length; switch (any->type) { case KeyClass: { xXIKeyInfo *ki = (xXIKeyInfo *) any; uint32_t *key = (uint32_t *) &ki[1]; for (j = 0; j < ki->num_keycodes; j++, key++) swapl(key); swaps(&ki->num_keycodes); } break; case ButtonClass: { xXIButtonInfo *bi = (xXIButtonInfo *) any; Atom *labels = (Atom *) ((char *) bi + sizeof(xXIButtonInfo) + pad_to_int32(bits_to_bytes (bi->num_buttons))); for (j = 0; j < bi->num_buttons; j++) swapl(&labels[j]); swaps(&bi->num_buttons); } break; case ValuatorClass: { xXIValuatorInfo *ai = (xXIValuatorInfo *) any; swapl(&ai->label); swapl(&ai->min.integral); swapl(&ai->min.frac); swapl(&ai->max.integral); swapl(&ai->max.frac); swapl(&ai->resolution); swaps(&ai->number); } break; } swaps(&any->type); swaps(&any->length); swaps(&any->sourceid); any = (xXIAnyInfo *) ((char *) any + length * 4); } swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->time); swaps(&to->num_classes); swaps(&to->sourceid); } static void SDeviceEvent(xXIDeviceEvent * from, xXIDeviceEvent * to) { int i; char *ptr; char *vmask; memcpy(to, from, sizeof(xEvent) + from->length * 4); swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->time); swapl(&to->detail); swapl(&to->root); swapl(&to->event); swapl(&to->child); swapl(&to->root_x); swapl(&to->root_y); swapl(&to->event_x); swapl(&to->event_y); swaps(&to->buttons_len); swaps(&to->valuators_len); swaps(&to->sourceid); swapl(&to->mods.base_mods); swapl(&to->mods.latched_mods); swapl(&to->mods.locked_mods); swapl(&to->mods.effective_mods); swapl(&to->flags); ptr = (char *) (&to[1]); ptr += from->buttons_len * 4; vmask = ptr; /* valuator mask */ ptr += from->valuators_len * 4; for (i = 0; i < from->valuators_len * 32; i++) { if (BitIsOn(vmask, i)) { swapl(((uint32_t *) ptr)); ptr += 4; swapl(((uint32_t *) ptr)); ptr += 4; } } } static void SDeviceHierarchyEvent(xXIHierarchyEvent * from, xXIHierarchyEvent * to) { int i; xXIHierarchyInfo *info; *to = *from; memcpy(&to[1], &from[1], from->length * 4); swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->time); swapl(&to->flags); swaps(&to->num_info); info = (xXIHierarchyInfo *) &to[1]; for (i = 0; i < from->num_info; i++) { swaps(&info->deviceid); swaps(&info->attachment); info++; } } static void SXIPropertyEvent(xXIPropertyEvent * from, xXIPropertyEvent * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->property); } static void SRawEvent(xXIRawEvent * from, xXIRawEvent * to) { int i; FP3232 *values; unsigned char *mask; memcpy(to, from, sizeof(xEvent) + from->length * 4); swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->time); swapl(&to->detail); mask = (unsigned char *) &to[1]; values = (FP3232 *) (mask + from->valuators_len * 4); for (i = 0; i < from->valuators_len * 4 * 8; i++) { if (BitIsOn(mask, i)) { /* for each bit set there are two FP3232 values on the wire, in * the order abcABC for data and data_raw. Here we swap as if * they were in aAbBcC order because it's easier and really * doesn't matter. */ swapl(&values->integral); swapl(&values->frac); values++; swapl(&values->integral); swapl(&values->frac); values++; } } swaps(&to->valuators_len); } static void STouchOwnershipEvent(xXITouchOwnershipEvent * from, xXITouchOwnershipEvent * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->time); swaps(&to->sourceid); swapl(&to->touchid); swapl(&to->flags); swapl(&to->root); swapl(&to->event); swapl(&to->child); } static void SBarrierEvent(xXIBarrierEvent * from, xXIBarrierEvent * to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swapl(&to->time); swaps(&to->deviceid); swaps(&to->sourceid); swapl(&to->event); swapl(&to->root); swapl(&to->root_x); swapl(&to->root_y); swapl(&to->dx.integral); swapl(&to->dx.frac); swapl(&to->dy.integral); swapl(&to->dy.frac); swapl(&to->dtime); swapl(&to->barrier); swapl(&to->eventid); } static void SGesturePinchEvent(xXIGesturePinchEvent* from, xXIGesturePinchEvent* to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->time); swapl(&to->detail); swapl(&to->root); swapl(&to->event); swapl(&to->child); swapl(&to->root_x); swapl(&to->root_y); swapl(&to->event_x); swapl(&to->event_y); swapl(&to->delta_x); swapl(&to->delta_y); swapl(&to->delta_unaccel_x); swapl(&to->delta_unaccel_y); swapl(&to->scale); swapl(&to->delta_angle); swaps(&to->sourceid); swapl(&to->mods.base_mods); swapl(&to->mods.latched_mods); swapl(&to->mods.locked_mods); swapl(&to->mods.effective_mods); swapl(&to->flags); } static void SGestureSwipeEvent(xXIGestureSwipeEvent* from, xXIGestureSwipeEvent* to) { *to = *from; swaps(&to->sequenceNumber); swapl(&to->length); swaps(&to->evtype); swaps(&to->deviceid); swapl(&to->time); swapl(&to->detail); swapl(&to->root); swapl(&to->event); swapl(&to->child); swapl(&to->root_x); swapl(&to->root_y); swapl(&to->event_x); swapl(&to->event_y); swapl(&to->delta_x); swapl(&to->delta_y); swapl(&to->delta_unaccel_x); swapl(&to->delta_unaccel_y); swaps(&to->sourceid); swapl(&to->mods.base_mods); swapl(&to->mods.latched_mods); swapl(&to->mods.locked_mods); swapl(&to->mods.effective_mods); swapl(&to->flags); } /** Event swapping function for XI2 events. */ void _X_COLD XI2EventSwap(xGenericEvent *from, xGenericEvent *to) { switch (from->evtype) { case XI_Enter: case XI_Leave: case XI_FocusIn: case XI_FocusOut: SDeviceLeaveNotifyEvent((xXILeaveEvent *) from, (xXILeaveEvent *) to); break; case XI_DeviceChanged: SDeviceChangedEvent((xXIDeviceChangedEvent *) from, (xXIDeviceChangedEvent *) to); break; case XI_HierarchyChanged: SDeviceHierarchyEvent((xXIHierarchyEvent *) from, (xXIHierarchyEvent *) to); break; case XI_PropertyEvent: SXIPropertyEvent((xXIPropertyEvent *) from, (xXIPropertyEvent *) to); break; case XI_Motion: case XI_KeyPress: case XI_KeyRelease: case XI_ButtonPress: case XI_ButtonRelease: case XI_TouchBegin: case XI_TouchUpdate: case XI_TouchEnd: SDeviceEvent((xXIDeviceEvent *) from, (xXIDeviceEvent *) to); break; case XI_TouchOwnership: STouchOwnershipEvent((xXITouchOwnershipEvent *) from, (xXITouchOwnershipEvent *) to); break; case XI_RawMotion: case XI_RawKeyPress: case XI_RawKeyRelease: case XI_RawButtonPress: case XI_RawButtonRelease: case XI_RawTouchBegin: case XI_RawTouchUpdate: case XI_RawTouchEnd: SRawEvent((xXIRawEvent *) from, (xXIRawEvent *) to); break; case XI_BarrierHit: case XI_BarrierLeave: SBarrierEvent((xXIBarrierEvent *) from, (xXIBarrierEvent *) to); break; case XI_GesturePinchBegin: case XI_GesturePinchUpdate: case XI_GesturePinchEnd: SGesturePinchEvent((xXIGesturePinchEvent*) from, (xXIGesturePinchEvent*) to); break; case XI_GestureSwipeBegin: case XI_GestureSwipeUpdate: case XI_GestureSwipeEnd: SGestureSwipeEvent((xXIGestureSwipeEvent*) from, (xXIGestureSwipeEvent*) to); break; default: ErrorF("[Xi] Unknown event type to swap. This is a bug.\n"); break; } } /************************************************************************** * * Record an event mask where there is no unique corresponding event type. * We can't call SetMaskForEvent, since that would clobber the existing * mask for that event. MotionHint and ButtonMotion are examples. * * Since extension event types will never be less than 64, we can use * 0-63 in the EventInfo array as the "type" to be used to look up this * mask. This means that the corresponding macros such as * DevicePointerMotionHint must have access to the same constants. * */ static void SetEventInfo(Mask mask, int constant) { EventInfo[ExtEventIndex].mask = mask; EventInfo[ExtEventIndex++].type = constant; } /************************************************************************** * * Assign the specified mask to the specified event. * */ static void SetMaskForExtEvent(Mask mask, int event) { int i; EventInfo[ExtEventIndex].mask = mask; EventInfo[ExtEventIndex++].type = event; if ((event < LASTEvent) || (event >= 128)) FatalError("MaskForExtensionEvent: bogus event number"); for (i = 0; i < MAXDEVICES; i++) SetMaskForEvent(i, mask, event); } /************************************************************************ * * This function sets up extension event types and masks. * */ static void FixExtensionEvents(ExtensionEntry * extEntry) { DeviceValuator = extEntry->eventBase; DeviceKeyPress = DeviceValuator + 1; DeviceKeyRelease = DeviceKeyPress + 1; DeviceButtonPress = DeviceKeyRelease + 1; DeviceButtonRelease = DeviceButtonPress + 1; DeviceMotionNotify = DeviceButtonRelease + 1; DeviceFocusIn = DeviceMotionNotify + 1; DeviceFocusOut = DeviceFocusIn + 1; ProximityIn = DeviceFocusOut + 1; ProximityOut = ProximityIn + 1; DeviceStateNotify = ProximityOut + 1; DeviceMappingNotify = DeviceStateNotify + 1; ChangeDeviceNotify = DeviceMappingNotify + 1; DeviceKeyStateNotify = ChangeDeviceNotify + 1; DeviceButtonStateNotify = DeviceKeyStateNotify + 1; DevicePresenceNotify = DeviceButtonStateNotify + 1; DevicePropertyNotify = DevicePresenceNotify + 1; event_base[KeyClass] = DeviceKeyPress; event_base[ButtonClass] = DeviceButtonPress; event_base[ValuatorClass] = DeviceMotionNotify; event_base[ProximityClass] = ProximityIn; event_base[FocusClass] = DeviceFocusIn; event_base[OtherClass] = DeviceStateNotify; BadDevice += extEntry->errorBase; BadEvent += extEntry->errorBase; BadMode += extEntry->errorBase; DeviceBusy += extEntry->errorBase; BadClass += extEntry->errorBase; SetMaskForExtEvent(KeyPressMask, DeviceKeyPress); SetCriticalEvent(DeviceKeyPress); SetMaskForExtEvent(KeyReleaseMask, DeviceKeyRelease); SetCriticalEvent(DeviceKeyRelease); SetMaskForExtEvent(ButtonPressMask, DeviceButtonPress); SetCriticalEvent(DeviceButtonPress); SetMaskForExtEvent(ButtonReleaseMask, DeviceButtonRelease); SetCriticalEvent(DeviceButtonRelease); SetMaskForExtEvent(DeviceProximityMask, ProximityIn); SetMaskForExtEvent(DeviceProximityMask, ProximityOut); SetMaskForExtEvent(DeviceStateNotifyMask, DeviceStateNotify); SetMaskForExtEvent(PointerMotionMask, DeviceMotionNotify); SetCriticalEvent(DeviceMotionNotify); SetEventInfo(DevicePointerMotionHintMask, _devicePointerMotionHint); SetEventInfo(DeviceButton1MotionMask, _deviceButton1Motion); SetEventInfo(DeviceButton2MotionMask, _deviceButton2Motion); SetEventInfo(DeviceButton3MotionMask, _deviceButton3Motion); SetEventInfo(DeviceButton4MotionMask, _deviceButton4Motion); SetEventInfo(DeviceButton5MotionMask, _deviceButton5Motion); SetEventInfo(DeviceButtonMotionMask, _deviceButtonMotion); SetMaskForExtEvent(DeviceFocusChangeMask, DeviceFocusIn); SetMaskForExtEvent(DeviceFocusChangeMask, DeviceFocusOut); SetMaskForExtEvent(DeviceMappingNotifyMask, DeviceMappingNotify); SetMaskForExtEvent(ChangeDeviceNotifyMask, ChangeDeviceNotify); SetEventInfo(DeviceButtonGrabMask, _deviceButtonGrab); SetEventInfo(DeviceOwnerGrabButtonMask, _deviceOwnerGrabButton); SetEventInfo(DevicePresenceNotifyMask, _devicePresence); SetMaskForExtEvent(DevicePropertyNotifyMask, DevicePropertyNotify); SetEventInfo(0, _noExtensionEvent); } /************************************************************************ * * This function restores extension event types and masks to their * initial state. * */ static void RestoreExtensionEvents(void) { int i, j; IEventBase = 0; for (i = 0; i < ExtEventIndex - 1; i++) { if ((EventInfo[i].type >= LASTEvent) && (EventInfo[i].type < 128)) { for (j = 0; j < MAXDEVICES; j++) SetMaskForEvent(j, 0, EventInfo[i].type); } EventInfo[i].mask = 0; EventInfo[i].type = 0; } ExtEventIndex = 0; DeviceValuator = 0; DeviceKeyPress = 1; DeviceKeyRelease = 2; DeviceButtonPress = 3; DeviceButtonRelease = 4; DeviceMotionNotify = 5; DeviceFocusIn = 6; DeviceFocusOut = 7; ProximityIn = 8; ProximityOut = 9; DeviceStateNotify = 10; DeviceMappingNotify = 11; ChangeDeviceNotify = 12; DeviceKeyStateNotify = 13; DeviceButtonStateNotify = 13; DevicePresenceNotify = 14; DevicePropertyNotify = 15; BadDevice = 0; BadEvent = 1; BadMode = 2; DeviceBusy = 3; BadClass = 4; } /*********************************************************************** * * IResetProc. * Remove reply-swapping routine. * Remove event-swapping routine. * */ static void IResetProc(ExtensionEntry * unused) { EventSwapVector[DeviceValuator] = NotImplemented; EventSwapVector[DeviceKeyPress] = NotImplemented; EventSwapVector[DeviceKeyRelease] = NotImplemented; EventSwapVector[DeviceButtonPress] = NotImplemented; EventSwapVector[DeviceButtonRelease] = NotImplemented; EventSwapVector[DeviceMotionNotify] = NotImplemented; EventSwapVector[DeviceFocusIn] = NotImplemented; EventSwapVector[DeviceFocusOut] = NotImplemented; EventSwapVector[ProximityIn] = NotImplemented; EventSwapVector[ProximityOut] = NotImplemented; EventSwapVector[DeviceStateNotify] = NotImplemented; EventSwapVector[DeviceKeyStateNotify] = NotImplemented; EventSwapVector[DeviceButtonStateNotify] = NotImplemented; EventSwapVector[DeviceMappingNotify] = NotImplemented; EventSwapVector[ChangeDeviceNotify] = NotImplemented; EventSwapVector[DevicePresenceNotify] = NotImplemented; EventSwapVector[DevicePropertyNotify] = NotImplemented; RestoreExtensionEvents(); free(xi_all_devices.name); free(xi_all_master_devices.name); XIBarrierReset(); } /*********************************************************************** * * Assign an id and type to an input device. * */ void AssignTypeAndName(DeviceIntPtr dev, Atom type, const char *name) { dev->xinput_type = type; dev->name = strdup(name); } /*********************************************************************** * * Make device type atoms. * */ static void MakeDeviceTypeAtoms(void) { int i; for (i = 0; i < NUMTYPES; i++) dev_type[i].type = MakeAtom(dev_type[i].name, strlen(dev_type[i].name), 1); } /***************************************************************************** * * SEventIDispatch * * Swap any events defined in this extension. */ #define DO_SWAP(func,type) func ((type *)from, (type *)to) static void _X_COLD SEventIDispatch(xEvent *from, xEvent *to) { int type = from->u.u.type & 0177; if (type == DeviceValuator) DO_SWAP(SEventDeviceValuator, deviceValuator); else if (type == DeviceKeyPress) { SKeyButtonPtrEvent(from, to); to->u.keyButtonPointer.pad1 = from->u.keyButtonPointer.pad1; } else if (type == DeviceKeyRelease) { SKeyButtonPtrEvent(from, to); to->u.keyButtonPointer.pad1 = from->u.keyButtonPointer.pad1; } else if (type == DeviceButtonPress) { SKeyButtonPtrEvent(from, to); to->u.keyButtonPointer.pad1 = from->u.keyButtonPointer.pad1; } else if (type == DeviceButtonRelease) { SKeyButtonPtrEvent(from, to); to->u.keyButtonPointer.pad1 = from->u.keyButtonPointer.pad1; } else if (type == DeviceMotionNotify) { SKeyButtonPtrEvent(from, to); to->u.keyButtonPointer.pad1 = from->u.keyButtonPointer.pad1; } else if (type == DeviceFocusIn) DO_SWAP(SEventFocus, deviceFocus); else if (type == DeviceFocusOut) DO_SWAP(SEventFocus, deviceFocus); else if (type == ProximityIn) { SKeyButtonPtrEvent(from, to); to->u.keyButtonPointer.pad1 = from->u.keyButtonPointer.pad1; } else if (type == ProximityOut) { SKeyButtonPtrEvent(from, to); to->u.keyButtonPointer.pad1 = from->u.keyButtonPointer.pad1; } else if (type == DeviceStateNotify) DO_SWAP(SDeviceStateNotifyEvent, deviceStateNotify); else if (type == DeviceKeyStateNotify) DO_SWAP(SDeviceKeyStateNotifyEvent, deviceKeyStateNotify); else if (type == DeviceButtonStateNotify) DO_SWAP(SDeviceButtonStateNotifyEvent, deviceButtonStateNotify); else if (type == DeviceMappingNotify) DO_SWAP(SDeviceMappingNotifyEvent, deviceMappingNotify); else if (type == ChangeDeviceNotify) DO_SWAP(SChangeDeviceNotifyEvent, changeDeviceNotify); else if (type == DevicePresenceNotify) DO_SWAP(SDevicePresenceNotifyEvent, devicePresenceNotify); else if (type == DevicePropertyNotify) DO_SWAP(SDevicePropertyNotifyEvent, devicePropertyNotify); else { FatalError("XInputExtension: Impossible event!\n"); } } /********************************************************************** * * IExtensionInit - initialize the input extension. * * Called from InitExtensions in main() or from QueryExtension() if the * extension is dynamically loaded. * * This extension has several events and errors. * * XI is mandatory nowadays, so if we fail to init XI, we die. */ void XInputExtensionInit(void) { ExtensionEntry *extEntry; XExtensionVersion thisversion = { XI_Present, SERVER_XI_MAJOR_VERSION, SERVER_XI_MINOR_VERSION, }; if (!dixRegisterPrivateKey (&XIClientPrivateKeyRec, PRIVATE_CLIENT, sizeof(XIClientRec))) FatalError("Cannot request private for XI.\n"); if (!XIBarrierInit()) FatalError("Could not initialize barriers.\n"); extEntry = AddExtension(INAME, IEVENTS, IERRORS, ProcIDispatch, SProcIDispatch, IResetProc, StandardMinorOpcode); if (extEntry) { assert(extEntry->base == EXTENSION_MAJOR_XINPUT); IEventBase = extEntry->eventBase; XIVersion = thisversion; MakeDeviceTypeAtoms(); RT_INPUTCLIENT = CreateNewResourceType((DeleteType) InputClientGone, "INPUTCLIENT"); if (!RT_INPUTCLIENT) FatalError("Failed to add resource type for XI.\n"); FixExtensionEvents(extEntry); EventSwapVector[DeviceValuator] = SEventIDispatch; EventSwapVector[DeviceKeyPress] = SEventIDispatch; EventSwapVector[DeviceKeyRelease] = SEventIDispatch; EventSwapVector[DeviceButtonPress] = SEventIDispatch; EventSwapVector[DeviceButtonRelease] = SEventIDispatch; EventSwapVector[DeviceMotionNotify] = SEventIDispatch; EventSwapVector[DeviceFocusIn] = SEventIDispatch; EventSwapVector[DeviceFocusOut] = SEventIDispatch; EventSwapVector[ProximityIn] = SEventIDispatch; EventSwapVector[ProximityOut] = SEventIDispatch; EventSwapVector[DeviceStateNotify] = SEventIDispatch; EventSwapVector[DeviceKeyStateNotify] = SEventIDispatch; EventSwapVector[DeviceButtonStateNotify] = SEventIDispatch; EventSwapVector[DeviceMappingNotify] = SEventIDispatch; EventSwapVector[ChangeDeviceNotify] = SEventIDispatch; EventSwapVector[DevicePresenceNotify] = SEventIDispatch; GERegisterExtension(EXTENSION_MAJOR_XINPUT, XI2EventSwap); memset(&xi_all_devices, 0, sizeof(xi_all_devices)); memset(&xi_all_master_devices, 0, sizeof(xi_all_master_devices)); xi_all_devices.id = XIAllDevices; xi_all_devices.name = strdup("XIAllDevices"); xi_all_master_devices.id = XIAllMasterDevices; xi_all_master_devices.name = strdup("XIAllMasterDevices"); inputInfo.all_devices = &xi_all_devices; inputInfo.all_master_devices = &xi_all_master_devices; XIResetProperties(); } else { FatalError("IExtensionInit: AddExtensions failed\n"); } }