/** * Copyright © 2009 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. */ #ifdef HAVE_DIX_CONFIG_H #include <dix-config.h> #endif #include <stdint.h> #include <X11/X.h> #include "misc.h" #include "resource.h" #include <X11/Xproto.h> #include <X11/extensions/XI2proto.h> #include <X11/Xatom.h> #include "windowstr.h" #include "inputstr.h" #include "eventconvert.h" #include "exevents.h" #include "dixgrabs.h" #include "eventstr.h" #include "inpututils.h" #include <glib.h> /** * Init a device with axes. * Verify values set on the device. * * Result: All axes set to default values (usually 0). */ static void dix_init_valuators(void) { DeviceIntRec dev; ValuatorClassPtr val; const int num_axes = 2; int i; Atom atoms[MAX_VALUATORS] = { 0 }; memset(&dev, 0, sizeof(DeviceIntRec)); dev.type = MASTER_POINTER; /* claim it's a master to stop ptracccel */ g_assert(InitValuatorClassDeviceStruct(NULL, 0, atoms, 0, 0) == FALSE); g_assert(InitValuatorClassDeviceStruct(&dev, num_axes, atoms, 0, Absolute)); val = dev.valuator; g_assert(val); g_assert(val->numAxes == num_axes); g_assert(val->numMotionEvents == 0); g_assert(val->axisVal); for (i = 0; i < num_axes; i++) { g_assert(val->axisVal[i] == 0); g_assert(val->axes->min_value == NO_AXIS_LIMITS); g_assert(val->axes->max_value == NO_AXIS_LIMITS); g_assert(val->axes->mode == Absolute); } g_assert(dev.last.numValuators == num_axes); } /* just check the known success cases, and that error cases set the client's * error value correctly. */ static void dix_check_grab_values(void) { ClientRec client; GrabParameters param; int rc; memset(&client, 0, sizeof(client)); param.grabtype = GRABTYPE_CORE; param.this_device_mode = GrabModeSync; param.other_devices_mode = GrabModeSync; param.modifiers = AnyModifier; param.ownerEvents = FALSE; rc = CheckGrabValues(&client, ¶m); g_assert(rc == Success); param.this_device_mode = GrabModeAsync; rc = CheckGrabValues(&client, ¶m); g_assert(rc == Success); param.this_device_mode = GrabModeAsync + 1; rc = CheckGrabValues(&client, ¶m); g_assert(rc == BadValue); g_assert(client.errorValue == param.this_device_mode); g_assert(client.errorValue == GrabModeAsync + 1); param.this_device_mode = GrabModeSync; param.other_devices_mode = GrabModeAsync; rc = CheckGrabValues(&client, ¶m); g_assert(rc == Success); param.other_devices_mode = GrabModeAsync + 1; rc = CheckGrabValues(&client, ¶m); g_assert(rc == BadValue); g_assert(client.errorValue == param.other_devices_mode); g_assert(client.errorValue == GrabModeAsync + 1); param.other_devices_mode = GrabModeSync; param.modifiers = 1 << 13; rc = CheckGrabValues(&client, ¶m); g_assert(rc == BadValue); g_assert(client.errorValue == param.modifiers); g_assert(client.errorValue == (1 << 13)); param.modifiers = AnyModifier; param.ownerEvents = TRUE; rc = CheckGrabValues(&client, ¶m); g_assert(rc == Success); param.ownerEvents = 3; rc = CheckGrabValues(&client, ¶m); g_assert(rc == BadValue); g_assert(client.errorValue == param.ownerEvents); g_assert(client.errorValue == 3); } /** * Convert various internal events to the matching core event and verify the * parameters. */ static void dix_event_to_core(int type) { DeviceEvent ev; xEvent core; int time; int x, y; int rc; int state; int detail; const int ROOT_WINDOW_ID = 0x100; /* EventToCore memsets the event to 0 */ #define test_event() \ g_assert(rc == Success); \ g_assert(core.u.u.type == type); \ g_assert(core.u.u.detail == detail); \ g_assert(core.u.keyButtonPointer.time == time); \ g_assert(core.u.keyButtonPointer.rootX == x); \ g_assert(core.u.keyButtonPointer.rootY == y); \ g_assert(core.u.keyButtonPointer.state == state); \ g_assert(core.u.keyButtonPointer.eventX == 0); \ g_assert(core.u.keyButtonPointer.eventY == 0); \ g_assert(core.u.keyButtonPointer.root == ROOT_WINDOW_ID); \ g_assert(core.u.keyButtonPointer.event == 0); \ g_assert(core.u.keyButtonPointer.child == 0); \ g_assert(core.u.keyButtonPointer.sameScreen == FALSE); x = 0; y = 0; time = 12345; state = 0; detail = 0; ev.header = 0xFF; ev.length = sizeof(DeviceEvent); ev.time = time; ev.root_y = x; ev.root_x = y; SetBit(ev.valuators.mask, 0); SetBit(ev.valuators.mask, 1); ev.root = ROOT_WINDOW_ID; ev.corestate = state; ev.detail.key = detail; ev.type = type; ev.detail.key = 0; rc = EventToCore((InternalEvent*)&ev, &core); test_event(); x = 1; y = 2; ev.root_x = x; ev.root_y = y; rc = EventToCore((InternalEvent*)&ev, &core); test_event(); x = 0x7FFF; y = 0x7FFF; ev.root_x = x; ev.root_y = y; rc = EventToCore((InternalEvent*)&ev, &core); test_event(); x = 0x8000; /* too high */ y = 0x8000; /* too high */ ev.root_x = x; ev.root_y = y; rc = EventToCore((InternalEvent*)&ev, &core); g_assert(core.u.keyButtonPointer.rootX != x); g_assert(core.u.keyButtonPointer.rootY != y); x = 0x7FFF; y = 0x7FFF; ev.root_x = x; ev.root_y = y; time = 0; ev.time = time; rc = EventToCore((InternalEvent*)&ev, &core); test_event(); detail = 1; ev.detail.key = detail; rc = EventToCore((InternalEvent*)&ev, &core); test_event(); detail = 0xFF; /* highest value */ ev.detail.key = detail; rc = EventToCore((InternalEvent*)&ev, &core); test_event(); detail = 0xFFF; /* too big */ ev.detail.key = detail; rc = EventToCore((InternalEvent*)&ev, &core); g_assert(rc == BadMatch); detail = 0xFF; /* too big */ ev.detail.key = detail; state = 0xFFFF; /* highest value */ ev.corestate = state; rc = EventToCore((InternalEvent*)&ev, &core); test_event(); state = 0x10000; /* too big */ ev.corestate = state; rc = EventToCore((InternalEvent*)&ev, &core); g_assert(core.u.keyButtonPointer.state != state); g_assert(core.u.keyButtonPointer.state == (state & 0xFFFF)); #undef test_event } static void dix_event_to_core_conversion(void) { DeviceEvent ev; xEvent core; int rc; ev.header = 0xFF; ev.length = sizeof(DeviceEvent); ev.type = 0; rc = EventToCore((InternalEvent*)&ev, &core); g_assert(rc == BadImplementation); ev.type = 1; rc = EventToCore((InternalEvent*)&ev, &core); g_assert(rc == BadImplementation); ev.type = ET_ProximityOut + 1; rc = EventToCore((InternalEvent*)&ev, &core); g_assert(rc == BadImplementation); ev.type = ET_ProximityIn; rc = EventToCore((InternalEvent*)&ev, &core); g_assert(rc == BadMatch); ev.type = ET_ProximityOut; rc = EventToCore((InternalEvent*)&ev, &core); g_assert(rc == BadMatch); dix_event_to_core(ET_KeyPress); dix_event_to_core(ET_KeyRelease); dix_event_to_core(ET_ButtonPress); dix_event_to_core(ET_ButtonRelease); dix_event_to_core(ET_Motion); } static void xi2_struct_sizes(void) { #define compare(req) \ g_assert(sizeof(req) == sz_##req); compare(xXIQueryVersionReq); compare(xXIWarpPointerReq); compare(xXIChangeCursorReq); compare(xXIChangeHierarchyReq); compare(xXISetClientPointerReq); compare(xXIGetClientPointerReq); compare(xXISelectEventsReq); compare(xXIQueryVersionReq); compare(xXIQueryDeviceReq); compare(xXISetFocusReq); compare(xXIGetFocusReq); compare(xXIGrabDeviceReq); compare(xXIUngrabDeviceReq); compare(xXIAllowEventsReq); compare(xXIPassiveGrabDeviceReq); compare(xXIPassiveUngrabDeviceReq); compare(xXIListPropertiesReq); compare(xXIChangePropertyReq); compare(xXIDeletePropertyReq); compare(xXIGetPropertyReq); compare(xXIGetSelectedEventsReq); #undef compare } static void dix_grab_matching(void) { DeviceIntRec xi_all_devices, xi_all_master_devices, dev1, dev2; GrabRec a, b; BOOL rc; memset(&a, 0, sizeof(a)); memset(&b, 0, sizeof(b)); /* different grabtypes must fail */ a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_XI2; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI2; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_CORE; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); /* XI2 grabs for different devices must fail, regardless of ignoreDevice * XI2 grabs for master devices must fail against a slave */ memset(&xi_all_devices, 0, sizeof(DeviceIntRec)); memset(&xi_all_master_devices, 0, sizeof(DeviceIntRec)); memset(&dev1, 0, sizeof(DeviceIntRec)); memset(&dev2, 0, sizeof(DeviceIntRec)); xi_all_devices.id = XIAllDevices; xi_all_master_devices.id = XIAllMasterDevices; dev1.id = 10; dev1.type = SLAVE; dev2.id = 11; dev2.type = SLAVE; inputInfo.all_devices = &xi_all_devices; inputInfo.all_master_devices = &xi_all_master_devices; a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.device = &dev1; b.device = &dev2; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); a.device = &dev2; b.device = &dev1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&a, &b, TRUE); g_assert(rc == FALSE); a.device = inputInfo.all_master_devices; b.device = &dev1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&a, &b, TRUE); g_assert(rc == FALSE); a.device = &dev1; b.device = inputInfo.all_master_devices; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&a, &b, TRUE); g_assert(rc == FALSE); /* ignoreDevice FALSE must fail for different devices for CORE and XI */ a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; a.device = &dev1; b.device = &dev2; a.modifierDevice = &dev1; b.modifierDevice = &dev1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; a.device = &dev1; b.device = &dev2; a.modifierDevice = &dev1; b.modifierDevice = &dev1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); /* ignoreDevice FALSE must fail for different modifier devices for CORE * and XI */ a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; a.device = &dev1; b.device = &dev1; a.modifierDevice = &dev1; b.modifierDevice = &dev2; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; a.device = &dev1; b.device = &dev1; a.modifierDevice = &dev1; b.modifierDevice = &dev2; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); /* different event type must fail */ a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.device = &dev1; b.device = &dev1; a.modifierDevice = &dev1; b.modifierDevice = &dev1; a.type = XI_KeyPress; b.type = XI_KeyRelease; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&a, &b, TRUE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; a.device = &dev1; b.device = &dev1; a.modifierDevice = &dev1; b.modifierDevice = &dev1; a.type = XI_KeyPress; b.type = XI_KeyRelease; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&a, &b, TRUE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; a.device = &dev1; b.device = &dev1; a.modifierDevice = &dev1; b.modifierDevice = &dev1; a.type = XI_KeyPress; b.type = XI_KeyRelease; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&a, &b, TRUE); g_assert(rc == FALSE); /* different modifiers must fail */ a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.device = &dev1; b.device = &dev1; a.modifierDevice = &dev1; b.modifierDevice = &dev1; a.type = XI_KeyPress; b.type = XI_KeyPress; a.modifiersDetail.exact = 1; b.modifiersDetail.exact = 2; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); /* AnyModifier must fail for XI2 */ a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.modifiersDetail.exact = AnyModifier; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); /* XIAnyModifier must fail for CORE and XI */ a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; a.modifiersDetail.exact = XIAnyModifier; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; a.modifiersDetail.exact = XIAnyModifier; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); /* different detail must fail */ a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.detail.exact = 1; b.detail.exact = 2; a.modifiersDetail.exact = 1; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); /* detail of AnyModifier must fail */ a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.detail.exact = AnyModifier; b.detail.exact = 1; a.modifiersDetail.exact = 1; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); /* detail of XIAnyModifier must fail */ a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.detail.exact = XIAnyModifier; b.detail.exact = 1; a.modifiersDetail.exact = 1; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == FALSE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == FALSE); /* XIAnyModifier or AnyModifer must succeed */ a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.detail.exact = 1; b.detail.exact = 1; a.modifiersDetail.exact = XIAnyModifier; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == TRUE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == TRUE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; a.detail.exact = 1; b.detail.exact = 1; a.modifiersDetail.exact = AnyModifier; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == TRUE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == TRUE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; a.detail.exact = 1; b.detail.exact = 1; a.modifiersDetail.exact = AnyModifier; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == TRUE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == TRUE); /* AnyKey or XIAnyKeycode must succeed */ a.grabtype = GRABTYPE_XI2; b.grabtype = GRABTYPE_XI2; a.detail.exact = XIAnyKeycode; b.detail.exact = 1; a.modifiersDetail.exact = 1; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == TRUE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == TRUE); a.grabtype = GRABTYPE_CORE; b.grabtype = GRABTYPE_CORE; a.detail.exact = AnyKey; b.detail.exact = 1; a.modifiersDetail.exact = 1; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == TRUE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == TRUE); a.grabtype = GRABTYPE_XI; b.grabtype = GRABTYPE_XI; a.detail.exact = AnyKey; b.detail.exact = 1; a.modifiersDetail.exact = 1; b.modifiersDetail.exact = 1; rc = GrabMatchesSecond(&a, &b, FALSE); g_assert(rc == TRUE); rc = GrabMatchesSecond(&b, &a, FALSE); g_assert(rc == TRUE); } static void test_bits_to_byte(int i) { int expected_bytes; expected_bytes = (i + 7)/8; g_assert(bits_to_bytes(i) >= i/8); g_assert((bits_to_bytes(i) * 8) - i <= 7); g_assert(expected_bytes == bits_to_bytes(i)); } static void test_bytes_to_int32(int i) { int expected_4byte; expected_4byte = (i + 3)/4; g_assert(bytes_to_int32(i) <= i); g_assert((bytes_to_int32(i) * 4) - i <= 3); g_assert(expected_4byte == bytes_to_int32(i)); } static void test_pad_to_int32(int i) { int expected_bytes; expected_bytes = ((i + 3)/4) * 4; g_assert(pad_to_int32(i) >= i); g_assert(pad_to_int32(i) - i <= 3); g_assert(expected_bytes == pad_to_int32(i)); } static void include_byte_padding_macros(void) { g_test_message("Testing bits_to_bytes()"); /* the macros don't provide overflow protection */ test_bits_to_byte(0); test_bits_to_byte(1); test_bits_to_byte(2); test_bits_to_byte(7); test_bits_to_byte(8); test_bits_to_byte(0xFF); test_bits_to_byte(0x100); test_bits_to_byte(INT_MAX - 9); test_bits_to_byte(INT_MAX - 8); g_test_message("Testing bytes_to_int32()"); test_bytes_to_int32(0); test_bytes_to_int32(1); test_bytes_to_int32(2); test_bytes_to_int32(7); test_bytes_to_int32(8); test_bytes_to_int32(0xFF); test_bytes_to_int32(0x100); test_bytes_to_int32(0xFFFF); test_bytes_to_int32(0x10000); test_bytes_to_int32(0xFFFFFF); test_bytes_to_int32(0x1000000); test_bytes_to_int32(INT_MAX - 4); test_bytes_to_int32(INT_MAX - 3); g_test_message("Testing pad_to_int32"); test_pad_to_int32(0); test_pad_to_int32(0); test_pad_to_int32(1); test_pad_to_int32(2); test_pad_to_int32(7); test_pad_to_int32(8); test_pad_to_int32(0xFF); test_pad_to_int32(0x100); test_pad_to_int32(0xFFFF); test_pad_to_int32(0x10000); test_pad_to_int32(0xFFFFFF); test_pad_to_int32(0x1000000); test_pad_to_int32(INT_MAX - 4); test_pad_to_int32(INT_MAX - 3); } static void xi_unregister_handlers(void) { DeviceIntRec dev; int handler; memset(&dev, 0, sizeof(dev)); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 1); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 2); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 3); g_test_message("Unlinking from front."); XIUnregisterPropertyHandler(&dev, 4); /* NOOP */ g_assert(dev.properties.handlers->id == 3); XIUnregisterPropertyHandler(&dev, 3); g_assert(dev.properties.handlers->id == 2); XIUnregisterPropertyHandler(&dev, 2); g_assert(dev.properties.handlers->id == 1); XIUnregisterPropertyHandler(&dev, 1); g_assert(dev.properties.handlers == NULL); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 4); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 5); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 6); XIUnregisterPropertyHandler(&dev, 3); /* NOOP */ g_assert(dev.properties.handlers->next->next->next == NULL); XIUnregisterPropertyHandler(&dev, 4); g_assert(dev.properties.handlers->next->next == NULL); XIUnregisterPropertyHandler(&dev, 5); g_assert(dev.properties.handlers->next == NULL); XIUnregisterPropertyHandler(&dev, 6); g_assert(dev.properties.handlers == NULL); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 7); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 8); handler = XIRegisterPropertyHandler(&dev, NULL, NULL, NULL); g_assert(handler == 9); XIDeleteAllDeviceProperties(&dev); g_assert(dev.properties.handlers == NULL); XIUnregisterPropertyHandler(&dev, 7); /* NOOP */ } static void cmp_attr_fields(InputAttributes *attr1, InputAttributes *attr2) { char **tags1, **tags2; g_assert(attr1 && attr2); g_assert(attr1 != attr2); g_assert(attr1->flags == attr2->flags); if (attr1->product != NULL) { g_assert(attr1->product != attr2->product); g_assert(strcmp(attr1->product, attr2->product) == 0); } else g_assert(attr2->product == NULL); if (attr1->vendor != NULL) { g_assert(attr1->vendor != attr2->vendor); g_assert(strcmp(attr1->vendor, attr2->vendor) == 0); } else g_assert(attr2->vendor == NULL); if (attr1->device != NULL) { g_assert(attr1->device != attr2->device); g_assert(strcmp(attr1->device, attr2->device) == 0); } else g_assert(attr2->device == NULL); if (attr1->pnp_id != NULL) { g_assert(attr1->pnp_id != attr2->pnp_id); g_assert(strcmp(attr1->pnp_id, attr2->pnp_id) == 0); } else g_assert(attr2->pnp_id == NULL); if (attr1->usb_id != NULL) { g_assert(attr1->usb_id != attr2->usb_id); g_assert(strcmp(attr1->usb_id, attr2->usb_id) == 0); } else g_assert(attr2->usb_id == NULL); tags1 = attr1->tags; tags2 = attr2->tags; /* if we don't have any tags, skip the tag checking bits */ if (!tags1) { g_assert(!tags2); return; } /* Don't lug around empty arrays */ g_assert(*tags1); g_assert(*tags2); /* check for identical content, but duplicated */ while (*tags1) { g_assert(*tags1 != *tags2); g_assert(strcmp(*tags1, *tags2) == 0); tags1++; tags2++; } /* ensure tags1 and tags2 have the same no of elements */ g_assert(!*tags2); /* check for not sharing memory */ tags1 = attr1->tags; while (*tags1) { tags2 = attr2->tags; while (*tags2) g_assert(*tags1 != *tags2++); tags1++; } } static void dix_input_attributes(void) { InputAttributes orig = {0}; InputAttributes *new; char *tags[4] = {"tag1", "tag2", "tag2", NULL}; new = DuplicateInputAttributes(NULL); g_assert(!new); new = DuplicateInputAttributes(&orig); g_assert(memcmp(&orig, new, sizeof(InputAttributes)) == 0); orig.product = "product name"; new = DuplicateInputAttributes(&orig); cmp_attr_fields(&orig, new); FreeInputAttributes(new); orig.vendor = "vendor name"; new = DuplicateInputAttributes(&orig); cmp_attr_fields(&orig, new); FreeInputAttributes(new); orig.device = "device path"; new = DuplicateInputAttributes(&orig); cmp_attr_fields(&orig, new); FreeInputAttributes(new); orig.pnp_id = "PnPID"; new = DuplicateInputAttributes(&orig); cmp_attr_fields(&orig, new); FreeInputAttributes(new); orig.usb_id = "USBID"; new = DuplicateInputAttributes(&orig); cmp_attr_fields(&orig, new); FreeInputAttributes(new); orig.flags = 0xF0; new = DuplicateInputAttributes(&orig); cmp_attr_fields(&orig, new); FreeInputAttributes(new); orig.tags = tags; new = DuplicateInputAttributes(&orig); cmp_attr_fields(&orig, new); FreeInputAttributes(new); } static void dix_input_valuator_masks(void) { ValuatorMask *mask = NULL, *copy; int nvaluators = MAX_VALUATORS; int valuators[nvaluators]; int i; int first_val, num_vals; for (i = 0; i < nvaluators; i++) valuators[i] = i; mask = valuator_mask_new(nvaluators); g_assert(mask != NULL); g_assert(valuator_mask_size(mask) == 0); g_assert(valuator_mask_num_valuators(mask) == 0); for (i = 0; i < nvaluators; i++) { g_assert(!valuator_mask_isset(mask, i)); valuator_mask_set(mask, i, valuators[i]); g_assert(valuator_mask_isset(mask, i)); g_assert(valuator_mask_get(mask, i) == valuators[i]); g_assert(valuator_mask_size(mask) == i + 1); g_assert(valuator_mask_num_valuators(mask) == i + 1); } for (i = 0; i < nvaluators; i++) { g_assert(valuator_mask_isset(mask, i)); valuator_mask_unset(mask, i); /* we're removing valuators from the front, so size should stay the * same until the last bit is removed */ if (i < nvaluators - 1) g_assert(valuator_mask_size(mask) == nvaluators); g_assert(!valuator_mask_isset(mask, i)); } g_assert(valuator_mask_size(mask) == 0); valuator_mask_zero(mask); g_assert(valuator_mask_size(mask) == 0); g_assert(valuator_mask_num_valuators(mask) == 0); for (i = 0; i < nvaluators; i++) g_assert(!valuator_mask_isset(mask, i)); first_val = 5; num_vals = 6; valuator_mask_set_range(mask, first_val, num_vals, valuators); g_assert(valuator_mask_size(mask) == first_val + num_vals); g_assert(valuator_mask_num_valuators(mask) == num_vals); for (i = 0; i < nvaluators; i++) { if (i < first_val || i >= first_val + num_vals) g_assert(!valuator_mask_isset(mask, i)); else { g_assert(valuator_mask_isset(mask, i)); g_assert(valuator_mask_get(mask, i) == valuators[i - first_val]); } } copy = valuator_mask_new(nvaluators); valuator_mask_copy(copy, mask); g_assert(mask != copy); g_assert(valuator_mask_size(mask) == valuator_mask_size(copy)); g_assert(valuator_mask_num_valuators(mask) == valuator_mask_num_valuators(copy)); for (i = 0; i < nvaluators; i++) { g_assert(valuator_mask_isset(mask, i) == valuator_mask_isset(copy, i)); g_assert(valuator_mask_get(mask, i) == valuator_mask_get(copy, i)); } free(mask); } static void dix_valuator_mode(void) { DeviceIntRec dev; const int num_axes = MAX_VALUATORS; int i; Atom atoms[MAX_VALUATORS] = { 0 }; memset(&dev, 0, sizeof(DeviceIntRec)); dev.type = MASTER_POINTER; /* claim it's a master to stop ptracccel */ g_assert(InitValuatorClassDeviceStruct(NULL, 0, atoms, 0, 0) == FALSE); g_assert(InitValuatorClassDeviceStruct(&dev, num_axes, atoms, 0, Absolute)); for (i = 0; i < num_axes; i++) { g_assert(valuator_get_mode(&dev, i) == Absolute); valuator_set_mode(&dev, i, Relative); g_assert(dev.valuator->axes[i].mode == Relative); g_assert(valuator_get_mode(&dev, i) == Relative); } valuator_set_mode(&dev, VALUATOR_MODE_ALL_AXES, Absolute); for (i = 0; i < num_axes; i++) g_assert(valuator_get_mode(&dev, i) == Absolute); valuator_set_mode(&dev, VALUATOR_MODE_ALL_AXES, Relative); for (i = 0; i < num_axes; i++) g_assert(valuator_get_mode(&dev, i) == Relative); } static void include_bit_test_macros(void) { uint8_t mask[9] = { 0 }; int i; for (i = 0; i < sizeof(mask)/sizeof(mask[0]); i++) { g_assert(BitIsOn(mask, i) == 0); SetBit(mask, i); g_assert(BitIsOn(mask, i) == 1); g_assert(!!(mask[i/8] & (1 << (i % 8)))); g_assert(CountBits(mask, sizeof(mask)) == 1); ClearBit(mask, i); g_assert(BitIsOn(mask, i) == 0); } } int main(int argc, char** argv) { g_test_init(&argc, &argv,NULL); g_test_bug_base("https://bugzilla.freedesktop.org/show_bug.cgi?id="); g_test_add_func("/dix/input/valuator-masks", dix_input_valuator_masks); g_test_add_func("/dix/input/attributes", dix_input_attributes); g_test_add_func("/dix/input/init-valuators", dix_init_valuators); g_test_add_func("/dix/input/event-core-conversion", dix_event_to_core_conversion); g_test_add_func("/dix/input/check-grab-values", dix_check_grab_values); g_test_add_func("/dix/input/xi2-struct-sizes", xi2_struct_sizes); g_test_add_func("/dix/input/grab_matching", dix_grab_matching); g_test_add_func("/dix/input/valuator_mode", dix_valuator_mode); g_test_add_func("/include/byte_padding_macros", include_byte_padding_macros); g_test_add_func("/include/bit_test_macros", include_bit_test_macros); g_test_add_func("/Xi/xiproperty/register-unregister", xi_unregister_handlers); return g_test_run(); }