/* * Copyright 2008 Red Hat, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) 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 AUTHORS OR COPYRIGHT HOLDERS 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. * * Author: Peter Hutterer */ #ifdef HAVE_DIX_CONFIG_H #include #endif #include "dixstruct.h" #include "windowstr.h" #include "exglobals.h" #include "exevents.h" #include #include "inpututils.h" #include "xiselectev.h" /** * Ruleset: * - if A has XIAllDevices, B may select on device X * - If A has XIAllDevices, B may select on XIAllMasterDevices * - If A has XIAllMasterDevices, B may select on device X * - If A has XIAllMasterDevices, B may select on XIAllDevices * - if A has device X, B may select on XIAllDevices/XIAllMasterDevices */ static int check_for_touch_selection_conflicts(ClientPtr B, WindowPtr win, int deviceid) { OtherInputMasks *inputMasks = wOtherInputMasks(win); InputClients *A = NULL; if (inputMasks) A = inputMasks->inputClients; for (; A; A = A->next) { DeviceIntPtr tmp; if (CLIENT_ID(A->resource) == B->index) continue; if (deviceid == XIAllDevices) tmp = inputInfo.all_devices; else if (deviceid == XIAllMasterDevices) tmp = inputInfo.all_master_devices; else dixLookupDevice(&tmp, deviceid, serverClient, DixReadAccess); if (!tmp) return BadImplementation; /* this shouldn't happen */ /* A has XIAllDevices */ if (xi2mask_isset_for_device(A->xi2mask, inputInfo.all_devices, XI_TouchBegin)) { if (deviceid == XIAllDevices) return BadAccess; } /* A has XIAllMasterDevices */ if (xi2mask_isset_for_device(A->xi2mask, inputInfo.all_master_devices, XI_TouchBegin)) { if (deviceid == XIAllMasterDevices) return BadAccess; } /* A has this device */ if (xi2mask_isset_for_device(A->xi2mask, tmp, XI_TouchBegin)) return BadAccess; } return Success; } /** * Check the given mask (in len bytes) for invalid mask bits. * Invalid mask bits are any bits above XI2LastEvent. * * @return BadValue if at least one invalid bit is set or Success otherwise. */ int XICheckInvalidMaskBits(ClientPtr client, unsigned char *mask, int len) { if (len >= XIMaskLen(XI2LASTEVENT)) { int i; for (i = XI2LASTEVENT + 1; i < len * 8; i++) { if (BitIsOn(mask, i)) { client->errorValue = i; return BadValue; } } } return Success; } int _X_COLD SProcXISelectEvents(ClientPtr client) { int i; int len; xXIEventMask *evmask; REQUEST(xXISelectEventsReq); swaps(&stuff->length); REQUEST_AT_LEAST_SIZE(xXISelectEventsReq); swapl(&stuff->win); swaps(&stuff->num_masks); len = stuff->length - bytes_to_int32(sizeof(xXISelectEventsReq)); evmask = (xXIEventMask *) &stuff[1]; for (i = 0; i < stuff->num_masks; i++) { if (len < bytes_to_int32(sizeof(xXIEventMask))) return BadLength; len -= bytes_to_int32(sizeof(xXIEventMask)); swaps(&evmask->deviceid); swaps(&evmask->mask_len); if (len < evmask->mask_len) return BadLength; len -= evmask->mask_len; evmask = (xXIEventMask *) (((char *) &evmask[1]) + evmask->mask_len * 4); } return (ProcXISelectEvents(client)); } int ProcXISelectEvents(ClientPtr client) { int rc, num_masks; WindowPtr win; DeviceIntPtr dev; DeviceIntRec dummy; xXIEventMask *evmask; int *types = NULL; int len; REQUEST(xXISelectEventsReq); REQUEST_AT_LEAST_SIZE(xXISelectEventsReq); if (stuff->num_masks == 0) return BadValue; rc = dixLookupWindow(&win, stuff->win, client, DixReceiveAccess); if (rc != Success) return rc; len = sz_xXISelectEventsReq; /* check request validity */ evmask = (xXIEventMask *) &stuff[1]; num_masks = stuff->num_masks; while (num_masks--) { len += sizeof(xXIEventMask) + evmask->mask_len * 4; if (bytes_to_int32(len) > stuff->length) return BadLength; if (evmask->deviceid != XIAllDevices && evmask->deviceid != XIAllMasterDevices) rc = dixLookupDevice(&dev, evmask->deviceid, client, DixUseAccess); else { /* XXX: XACE here? */ } if (rc != Success) return rc; /* hierarchy event mask is not allowed on devices */ if (evmask->deviceid != XIAllDevices && evmask->mask_len >= 1) { unsigned char *bits = (unsigned char *) &evmask[1]; if (BitIsOn(bits, XI_HierarchyChanged)) { client->errorValue = XI_HierarchyChanged; return BadValue; } } /* Raw events may only be selected on root windows */ if (win->parent && evmask->mask_len >= 1) { unsigned char *bits = (unsigned char *) &evmask[1]; if (BitIsOn(bits, XI_RawKeyPress) || BitIsOn(bits, XI_RawKeyRelease) || BitIsOn(bits, XI_RawButtonPress) || BitIsOn(bits, XI_RawButtonRelease) || BitIsOn(bits, XI_RawMotion) || BitIsOn(bits, XI_RawTouchBegin) || BitIsOn(bits, XI_RawTouchUpdate) || BitIsOn(bits, XI_RawTouchEnd)) { client->errorValue = XI_RawKeyPress; return BadValue; } } if (evmask->mask_len >= 1) { unsigned char *bits = (unsigned char *) &evmask[1]; /* All three touch events must be selected at once */ if ((BitIsOn(bits, XI_TouchBegin) || BitIsOn(bits, XI_TouchUpdate) || BitIsOn(bits, XI_TouchOwnership) || BitIsOn(bits, XI_TouchEnd)) && (!BitIsOn(bits, XI_TouchBegin) || !BitIsOn(bits, XI_TouchUpdate) || !BitIsOn(bits, XI_TouchEnd))) { client->errorValue = XI_TouchBegin; return BadValue; } /* Only one client per window may select for touch events on the * same devices, including master devices. * XXX: This breaks if a device goes from floating to attached. */ if (BitIsOn(bits, XI_TouchBegin)) { rc = check_for_touch_selection_conflicts(client, win, evmask->deviceid); if (rc != Success) return rc; } } if (XICheckInvalidMaskBits(client, (unsigned char *) &evmask[1], evmask->mask_len * 4) != Success) return BadValue; evmask = (xXIEventMask *) (((unsigned char *) evmask) + evmask->mask_len * 4); evmask++; } if (bytes_to_int32(len) != stuff->length) return BadLength; /* Set masks on window */ evmask = (xXIEventMask *) &stuff[1]; num_masks = stuff->num_masks; while (num_masks--) { if (evmask->deviceid == XIAllDevices || evmask->deviceid == XIAllMasterDevices) { dummy.id = evmask->deviceid; dev = &dummy; } else dixLookupDevice(&dev, evmask->deviceid, client, DixUseAccess); if (XISetEventMask(dev, win, client, evmask->mask_len * 4, (unsigned char *) &evmask[1]) != Success) return BadAlloc; evmask = (xXIEventMask *) (((unsigned char *) evmask) + evmask->mask_len * 4); evmask++; } RecalculateDeliverableEvents(win); free(types); return Success; } int _X_COLD SProcXIGetSelectedEvents(ClientPtr client) { REQUEST(xXIGetSelectedEventsReq); swaps(&stuff->length); REQUEST_SIZE_MATCH(xXIGetSelectedEventsReq); swapl(&stuff->win); return (ProcXIGetSelectedEvents(client)); } int ProcXIGetSelectedEvents(ClientPtr client) { int rc, i; WindowPtr win; char *buffer = NULL; xXIGetSelectedEventsReply reply; OtherInputMasks *masks; InputClientsPtr others = NULL; xXIEventMask *evmask = NULL; DeviceIntPtr dev; uint32_t length; REQUEST(xXIGetSelectedEventsReq); REQUEST_SIZE_MATCH(xXIGetSelectedEventsReq); rc = dixLookupWindow(&win, stuff->win, client, DixGetAttrAccess); if (rc != Success) return rc; reply = (xXIGetSelectedEventsReply) { .repType = X_Reply, .RepType = X_XIGetSelectedEvents, .sequenceNumber = client->sequence, .length = 0, .num_masks = 0 }; masks = wOtherInputMasks(win); if (masks) { for (others = wOtherInputMasks(win)->inputClients; others; others = others->next) { if (SameClient(others, client)) { break; } } } if (!others) { WriteReplyToClient(client, sizeof(xXIGetSelectedEventsReply), &reply); return Success; } buffer = calloc(MAXDEVICES, sizeof(xXIEventMask) + pad_to_int32(XI2MASKSIZE)); if (!buffer) return BadAlloc; evmask = (xXIEventMask *) buffer; for (i = 0; i < MAXDEVICES; i++) { int j; const unsigned char *devmask = xi2mask_get_one_mask(others->xi2mask, i); if (i > 2) { rc = dixLookupDevice(&dev, i, client, DixGetAttrAccess); if (rc != Success) continue; } for (j = xi2mask_mask_size(others->xi2mask) - 1; j >= 0; j--) { if (devmask[j] != 0) { int mask_len = (j + 4) / 4; /* j is an index, hence + 4, not + 3 */ evmask->deviceid = i; evmask->mask_len = mask_len; reply.num_masks++; reply.length += sizeof(xXIEventMask) / 4 + evmask->mask_len; if (client->swapped) { swaps(&evmask->deviceid); swaps(&evmask->mask_len); } memcpy(&evmask[1], devmask, j + 1); evmask = (xXIEventMask *) ((char *) evmask + sizeof(xXIEventMask) + mask_len * 4); break; } } } /* save the value before SRepXIGetSelectedEvents swaps it */ length = reply.length; WriteReplyToClient(client, sizeof(xXIGetSelectedEventsReply), &reply); if (reply.num_masks) WriteToClient(client, length * 4, buffer); free(buffer); return Success; } void SRepXIGetSelectedEvents(ClientPtr client, int len, xXIGetSelectedEventsReply * rep) { swaps(&rep->sequenceNumber); swapl(&rep->length); swaps(&rep->num_masks); WriteToClient(client, len, rep); }