2 #include "e_input_private.h"
4 #include "e_keyrouter_private.h"
5 #include "e_input_event.h"
6 #include "e_devicemgr.h"
10 #define G_LIST_GET_DATA(list) ((list) ? (((GList *)(list))->data) : NULL)
12 static void _device_modifiers_update(E_Input_Evdev *edev);
13 static void _device_configured_size_get(E_Input_Evdev *edev, int *x, int *y, int *w, int *h);
14 static void _device_output_assign(E_Input_Evdev *edev, E_Input_Seat_Capabilities cap);
17 _device_calibration_set(E_Input_Evdev *edev)
22 E_Comp_Config *comp_conf;
24 if (e_comp->e_comp_screen->num_outputs > 1) //multiple outputs
26 comp_conf = e_comp_config_get();
27 if (comp_conf && (comp_conf->input_output_assign_policy == 1)) //use output-assignment policy
29 _device_output_assign(edev, E_INPUT_SEAT_POINTER);
30 _device_output_assign(edev, E_INPUT_SEAT_TOUCH);
34 output = e_comp_screen_primary_output_get(e_comp->e_comp_screen);
35 e_output_size_get(output, &w, &h);
39 edev->mouse.minx = edev->mouse.miny = 0;
43 if (libinput_device_has_capability(edev->device, LIBINPUT_DEVICE_CAP_POINTER))
45 edev->seat->ptr.dx = (double)(w / 2);
46 edev->seat->ptr.dy = (double)(h / 2);
47 edev->seat->ptr.ix = (int)edev->seat->ptr.dx;
48 edev->seat->ptr.iy = (int)edev->seat->ptr.dy;
49 edev->mouse.dx = edev->seat->ptr.dx;
50 edev->mouse.dy = edev->seat->ptr.dy;
52 if (output->config.rotation == 90 || output->config.rotation == 270)
54 temp = edev->mouse.minx;
55 edev->mouse.minx = edev->mouse.miny;
56 edev->mouse.miny = temp;
58 temp = edev->mouse.maxw;
59 edev->mouse.maxw = edev->mouse.maxh;
60 edev->mouse.maxh = temp;
66 #ifdef _F_E_INPUT_ENABLE_DEVICE_CALIBRATION_
72 if ((!libinput_device_config_calibration_has_matrix(edev->device)) ||
73 (libinput_device_config_calibration_get_default_matrix(edev->device, cal) != 0))
76 sysname = libinput_device_get_sysname(edev->device);
78 devices = eeze_udev_find_by_subsystem_sysname("input", sysname);
79 if (eina_list_count(devices) < 1) return;
81 #ifdef _F_E_INPUT_USE_WL_CALIBRATION_
83 enum libinput_config_status status;
85 EINA_LIST_FREE(devices, device)
87 vals = eeze_udev_syspath_get_property(device, "WL_CALIBRATION");
89 (sscanf(vals, "%f %f %f %f %f %f",
90 &cal[0], &cal[1], &cal[2], &cal[3], &cal[4], &cal[5]) != 6))
97 libinput_device_config_calibration_set_matrix(edev->device, cal);
99 if (status != LIBINPUT_CONFIG_STATUS_SUCCESS)
100 ERR("Failed to apply calibration");
103 eina_stringshare_del(device);
106 #endif//_F_E_INPUT_USE_WL_CALIBRATION_
107 #endif//_F_E_INPUT_ENABLE_DEVICE_CALIBRATION_
112 _device_output_assign(E_Input_Evdev *edev, E_Input_Seat_Capabilities cap)
117 Eina_Bool need_assign_output = EINA_FALSE;
118 const char *output_name;
121 if (!(edev->caps & cap)) return;
122 if (edev->output_name) return; //already assigned
123 if (e_comp->e_comp_screen->num_outputs <= 1) return;
125 last_output_idx = e_comp->e_comp_screen->num_outputs - 1;
126 EINA_LIST_FOREACH(edev->seat->devices, l, ed)
128 if (!(ed->caps & cap)) continue;
129 if (ed == edev) continue;
132 need_assign_output = EINA_FALSE;
135 need_assign_output = EINA_TRUE;
137 if (need_assign_output)
139 output = e_output_find_by_index(last_output_idx);
140 if (!output || !output->info.connected) return;
141 output_name = e_output_output_id_get(output);
142 if (output_name) edev->output_name = eina_stringshare_add(output_name);
143 ELOGF("E_INPUT_EVDEV", "Device is assigned to output:%s", NULL, output_name);
148 _device_touch_count_update(E_Input_Evdev *edev)
150 unsigned int device_touch_count = 0;
151 static unsigned int _max_device_touch_count = 0;
153 E_Input *ei = e_input_get();
154 EINA_SAFETY_ON_NULL_RETURN(ei);
156 device_touch_count = libinput_device_touch_get_touch_count(edev->device);
158 if (_max_device_touch_count < device_touch_count)
159 _max_device_touch_count = device_touch_count;
161 if (e_config->configured_max_touch.use)
163 if (_max_device_touch_count > 0 && e_config->configured_max_touch.count > _max_device_touch_count)
165 ELOGF("E_INPUT_EVDEV_TOUCH", "Touch max count(%d) must be less or equal to device's touch count(%d) !\nTouch max count has been shrinken to %d.\n",
166 NULL, e_config->configured_max_touch.count, _max_device_touch_count, _max_device_touch_count);
167 ei->touch_max_count = _max_device_touch_count;
171 if (ei->touch_max_count != e_config->configured_max_touch.count)
173 ELOGF("E_INPUT_EVDEV_TOUCH", "Touch_max_count has been updated to %d -> %d.\n",
174 NULL, ei->touch_max_count, e_config->configured_max_touch.count);
175 ei->touch_max_count = e_config->configured_max_touch.count;
181 if (ei->touch_max_count < _max_device_touch_count)
183 ELOGF("E_INPUT_EVDEV_TOUCH", "Touch_max_count has been updated to %d -> %d.\n", NULL,
184 ei->touch_max_count, _max_device_touch_count);
185 ei->touch_max_count = _max_device_touch_count;
189 ei->touch_device_count++;
190 ELOGF("E_INPUT_EVDEV_TOUCH", "Touch device count is %d.\n", NULL, ei->touch_device_count);
194 _device_configure(E_Input_Evdev *edev)
196 if (libinput_device_config_tap_get_finger_count(edev->device) > 0)
198 Eina_Bool tap = EINA_FALSE;
200 tap = libinput_device_config_tap_get_default_enabled(edev->device);
201 libinput_device_config_tap_set_enabled(edev->device, tap);
204 _device_calibration_set(edev);
208 _device_keyboard_setup(E_Input_Evdev *edev)
210 E_Input_Backend *input;
211 xkb_mod_index_t xkb_idx;
213 if ((!edev) || (!edev->seat)) return;
214 if (!(input = edev->seat->input)) return;
215 if (!input->dev->xkb_ctx) return;
217 g_mutex_init(&edev->xkb.keymap_mutex);
219 /* create keymap from xkb context */
220 g_mutex_lock(&edev->xkb.keymap_mutex);
221 edev->xkb.keymap = _e_input_device_cached_keymap_get(input->dev->xkb_ctx, NULL, 0);
222 if (!edev->xkb.keymap)
224 g_mutex_unlock(&edev->xkb.keymap_mutex);
225 ERR("Failed to create keymap: %m");
229 g_mutex_lock(&edev->xkb.state_mutex);
231 /* create xkb state */
232 if (!(edev->xkb.state = xkb_state_new(edev->xkb.keymap)))
234 g_mutex_unlock(&edev->xkb.state_mutex);
235 g_mutex_unlock(&edev->xkb.keymap_mutex);
236 ERR("Failed to create xkb state: %m");
240 g_mutex_unlock(&edev->xkb.state_mutex);
242 xkb_idx = xkb_map_mod_get_index(edev->xkb.keymap, XKB_MOD_NAME_CTRL);
243 if (xkb_idx != XKB_MOD_INVALID)
244 edev->xkb.ctrl_mask = 1 << xkb_idx;
246 edev->xkb.ctrl_mask = 0;
248 xkb_idx = xkb_map_mod_get_index(edev->xkb.keymap, XKB_MOD_NAME_ALT);
249 if (xkb_idx != XKB_MOD_INVALID)
250 edev->xkb.alt_mask = 1 << xkb_idx;
252 edev->xkb.alt_mask = 0;
254 xkb_idx = xkb_map_mod_get_index(edev->xkb.keymap, XKB_MOD_NAME_SHIFT);
255 if (xkb_idx != XKB_MOD_INVALID)
256 edev->xkb.shift_mask = 1 << xkb_idx;
258 edev->xkb.shift_mask = 0;
260 xkb_idx = xkb_map_mod_get_index(edev->xkb.keymap, XKB_MOD_NAME_LOGO);
261 if (xkb_idx != XKB_MOD_INVALID)
262 edev->xkb.win_mask = 1 << xkb_idx;
264 edev->xkb.win_mask = 0;
266 xkb_idx = xkb_map_mod_get_index(edev->xkb.keymap, XKB_LED_NAME_SCROLL);
267 if (xkb_idx != XKB_MOD_INVALID)
268 edev->xkb.scroll_mask = 1 << xkb_idx;
270 edev->xkb.scroll_mask = 0;
272 xkb_idx = xkb_map_mod_get_index(edev->xkb.keymap, XKB_LED_NAME_NUM);
273 if (xkb_idx != XKB_MOD_INVALID)
274 edev->xkb.num_mask = 1 << xkb_idx;
276 edev->xkb.num_mask = 0;
278 xkb_idx = xkb_map_mod_get_index(edev->xkb.keymap, XKB_MOD_NAME_CAPS);
279 if (xkb_idx != XKB_MOD_INVALID)
280 edev->xkb.caps_mask = 1 << xkb_idx;
282 edev->xkb.caps_mask = 0;
284 xkb_idx = xkb_map_mod_get_index(edev->xkb.keymap, "ISO_Level3_Shift");
285 if (xkb_idx != XKB_MOD_INVALID)
286 edev->xkb.altgr_mask = 1 << xkb_idx;
288 edev->xkb.altgr_mask = 0;
290 g_mutex_unlock(&edev->xkb.keymap_mutex);
294 _device_keysym_translate(xkb_keysym_t keysym, unsigned int modifiers, char *buffer, int bytes)
296 unsigned long hbytes = 0;
299 if (!keysym) return 0;
300 hbytes = (keysym >> 8);
305 (((keysym >= XKB_KEY_BackSpace) && (keysym <= XKB_KEY_Clear)) ||
306 (keysym == XKB_KEY_Return) || (keysym == XKB_KEY_Escape) ||
307 (keysym == XKB_KEY_KP_Space) || (keysym == XKB_KEY_KP_Tab) ||
308 (keysym == XKB_KEY_KP_Enter) ||
309 ((keysym >= XKB_KEY_KP_Multiply) && (keysym <= XKB_KEY_KP_9)) ||
310 (keysym == XKB_KEY_KP_Equal) || (keysym == XKB_KEY_Delete))))))
313 if (keysym == XKB_KEY_KP_Space)
314 c = (XKB_KEY_space & 0x7F);
315 else if (hbytes == 0xFF)
320 if (modifiers & ECORE_EVENT_MODIFIER_CTRL)
322 if (((c >= '@') && (c < '\177')) || c == ' ')
326 else if ((c >= '3') && (c <= '7'))
338 _device_modifiers_update_device(E_Input_Evdev *edev, E_Input_Evdev *from)
342 g_mutex_lock(&from->xkb.state_mutex);
344 edev->xkb.depressed =
345 xkb_state_serialize_mods(from->xkb.state, XKB_STATE_DEPRESSED);
347 xkb_state_serialize_mods(from->xkb.state, XKB_STATE_LATCHED);
349 xkb_state_serialize_mods(from->xkb.state, XKB_STATE_LOCKED);
351 xkb_state_serialize_mods(from->xkb.state, XKB_STATE_EFFECTIVE);
353 g_mutex_unlock(&from->xkb.state_mutex);
355 mask = (edev->xkb.depressed | edev->xkb.latched);
357 if (mask & from->xkb.ctrl_mask)
358 edev->xkb.modifiers |= ECORE_EVENT_MODIFIER_CTRL;
359 if (mask & from->xkb.alt_mask)
360 edev->xkb.modifiers |= ECORE_EVENT_MODIFIER_ALT;
361 if (mask & from->xkb.shift_mask)
362 edev->xkb.modifiers |= ECORE_EVENT_MODIFIER_SHIFT;
363 if (mask & from->xkb.win_mask)
364 edev->xkb.modifiers |= ECORE_EVENT_MODIFIER_WIN;
365 if (mask & from->xkb.scroll_mask)
366 edev->xkb.modifiers |= ECORE_EVENT_LOCK_SCROLL;
367 if (mask & from->xkb.num_mask)
368 edev->xkb.modifiers |= ECORE_EVENT_LOCK_NUM;
369 if (mask & from->xkb.caps_mask)
370 edev->xkb.modifiers |= ECORE_EVENT_LOCK_CAPS;
371 if (mask & from->xkb.altgr_mask)
372 edev->xkb.modifiers |= ECORE_EVENT_MODIFIER_ALTGR;
376 _device_modifiers_update(E_Input_Evdev *edev)
381 edev->xkb.modifiers = 0;
383 if (edev->caps & E_INPUT_SEAT_KEYBOARD)
384 _device_modifiers_update_device(edev, edev);
387 EINA_LIST_FOREACH(edev->seat->devices, l, ed)
389 if (!(ed->caps & E_INPUT_SEAT_KEYBOARD)) continue;
390 _device_modifiers_update_device(edev, ed);
397 _device_remapped_key_get(E_Input_Evdev *edev, int code)
401 EINA_SAFETY_ON_NULL_RETURN_VAL(edev, code);
402 if (!edev->key_remap_enabled) return code;
403 EINA_SAFETY_ON_NULL_RETURN_VAL(edev->key_remap_hash, code);
405 ret = eina_hash_find(edev->key_remap_hash, &code);
407 if (ret) code = (int)(intptr_t)ret;
413 e_input_evdev_get_e_device(const char *path, Ecore_Device_Class clas)
415 const GList *dev_list = NULL;
417 E_Device *dev = NULL;
418 const char *identifier;
420 if (!path) return NULL;
422 dev_list = e_device_list_get();
423 if (!dev_list) return NULL;
430 identifier = e_device_identifier_get(dev);
431 if (!identifier) continue;
432 if ((e_device_class_get(dev) == clas) && !(strcmp(identifier, path)))
441 EINTERN Ecore_Device *
442 e_input_evdev_get_ecore_device(const char *path, Ecore_Device_Class clas)
444 const Eina_List *dev_list = NULL;
446 Ecore_Device *dev = NULL;
447 const char *identifier;
449 if (!path) return NULL;
451 dev_list = ecore_device_list();
452 if (!dev_list) return NULL;
453 EINA_LIST_FOREACH(dev_list, l, dev)
456 identifier = ecore_device_identifier_get(dev);
457 if (!identifier) continue;
458 if ((ecore_device_class_get(dev) == clas) && !(strcmp(identifier, path)))
465 _e_input_event_mouse_move_cb_free(void *data EINA_UNUSED, void *event)
467 Ecore_Event_Mouse_Move *ev = event;
469 if (ev->dev) ecore_device_unref(ev->dev);
475 _e_input_event_mouse_relative_move_cb_free(void *data EINA_UNUSED, void *event)
477 Ecore_Event_Mouse_Relative_Move *ev = event;
479 if (ev->dev) ecore_device_unref(ev->dev);
485 _e_input_event_mouse_wheel_cb_free(void *data EINA_UNUSED, void *event)
487 Ecore_Event_Mouse_Wheel *ev = event;
489 if (ev->dev) ecore_device_unref(ev->dev);
495 _e_input_event_mouse_button_cb_free(void *data EINA_UNUSED, void *event)
497 Ecore_Event_Mouse_Button *ev = event;
499 if (ev->dev) ecore_device_unref(ev->dev);
505 _e_input_event_key_cb_free(void *data EINA_UNUSED, void *event)
507 Ecore_Event_Key *ev = event;
509 if (e_input_thread_mode_get())
511 if (ev->dev) g_object_unref(ev->dev);
515 if (ev->dev) ecore_device_unref(ev->dev);
518 if (ev->data) E_FREE(ev->data);
524 _device_handle_key(struct libinput_device *device, struct libinput_event_keyboard *event)
527 E_Input_Backend *input;
529 uint32_t code, nsyms;
530 const xkb_keysym_t *syms;
531 enum libinput_key_state state;
533 xkb_keysym_t sym = XKB_KEY_NoSymbol;
534 char key[256] = {0, }, keyname[256] = {0, }, compose_buffer[256] = {0, };
536 char *tmp = NULL, *compose = NULL;
537 E_Keyrouter_Event_Data *key_data;
538 Ecore_Device *ecore_dev = NULL, *data;
539 E_Device *e_dev = NULL, *e_dev_data;
540 Eina_List *l = NULL, *l_next = NULL;
542 E_Comp_Config *comp_conf = NULL;
543 int *pressed_keycode = NULL, *idata = NULL;
544 Eina_Bool dup_found = EINA_FALSE;
545 const char *device_name = NULL;
546 Ecore_Device_Subclass device_subclas = ECORE_DEVICE_SUBCLASS_NONE;
548 if (!(edev = libinput_device_get_user_data(device)))
553 if (!(input = edev->seat->input))
558 if (!e_input_thread_mode_get())
560 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
561 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
563 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
565 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_KEYBOARD)
574 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_KEYBOARD);
575 ecore_dev = edev->ecore_dev;
580 ERR("Failed to get source ecore device from event !\n");
584 device_name = ecore_device_name_get(ecore_dev);
585 device_subclas = ecore_device_subclass_get(ecore_dev);
589 if (edev->e_dev) e_dev = edev->e_dev;
590 else if (edev->e_dev_list && g_list_length(edev->e_dev_list) > 0)
592 glist = edev->e_dev_list;
595 e_dev_data = glist->data;
596 if (e_device_class_get(e_dev_data) == ECORE_DEVICE_CLASS_KEYBOARD)
602 glist = g_list_next(glist);
607 edev->e_dev = e_input_evdev_get_e_device(edev->path, ECORE_DEVICE_CLASS_KEYBOARD);
613 ERR("Failed to get source e device from event !\n");
617 device_name = e_device_name_get(e_dev);
618 device_subclas = e_device_subclass_get(e_dev);
621 timestamp = libinput_event_keyboard_get_time(event);
622 code = libinput_event_keyboard_get_key(event);
623 code = _device_remapped_key_get(edev, code + 8);
624 state = libinput_event_keyboard_get_key_state(event);
625 key_count = libinput_event_keyboard_get_seat_key_count(event);
627 if (state == LIBINPUT_KEY_STATE_PRESSED)
629 if ((edev->seat->dev->blocked & E_INPUT_SEAT_KEYBOARD) ||
630 (edev->seat->dev->server_blocked & E_INPUT_SEAT_KEYBOARD))
632 void *blocked_client = atomic_load(&edev->seat->dev->blocked_client);
633 ELOGF("Key", "Press (keycode: %d, device: %s) is blocked by %p, server: 0x%x", NULL,
634 code, device_name, blocked_client,
635 edev->seat->dev->server_blocked);
639 /* FIXME: Currently to maintain press/release event pair during input block,
640 * used Eina_List and this is method used in devicemgr module.
641 * But we need to consider which way is better to maintain key press/release pair.
644 EINA_LIST_FOREACH(edev->xkb.pressed_keys, l, idata)
648 dup_found = EINA_TRUE;
654 pressed_keycode = E_NEW(int, 1);
655 EINA_SAFETY_ON_NULL_RETURN(pressed_keycode);
656 *pressed_keycode = code;
658 edev->xkb.pressed_keys = eina_list_append(edev->xkb.pressed_keys, pressed_keycode);
663 dup_found = EINA_FALSE;
664 EINA_LIST_FOREACH_SAFE(edev->xkb.pressed_keys, l, l_next, idata)
668 edev->xkb.pressed_keys = eina_list_remove_list(edev->xkb.pressed_keys, l);
670 dup_found = EINA_TRUE;
676 void *blocked_client = atomic_load(&edev->seat->dev->blocked_client);
677 ELOGF("Key", "Release (keycode: %d, device: %s) is blocked by %p", NULL,
678 code, device_name, blocked_client);
683 /* ignore key events that are not seat wide state changes */
684 if (((state == LIBINPUT_KEY_STATE_PRESSED) && (key_count != 1)) ||
685 ((state == LIBINPUT_KEY_STATE_RELEASED) && (key_count != 0)))
690 e_input_keyboard_grab_key_cb func = e_input_keyboard_grab_key_handler_get();
693 if (e_devicemgr_keyboard_grab_subtype_is_grabbed(device_subclas))
695 if (!e_input_thread_mode_get())
696 func(code, state, timestamp, ecore_dev);
698 func(code, state, timestamp, e_dev);
703 g_mutex_lock(&edev->xkb.state_mutex);
704 xkb_state_update_key(edev->xkb.state, code,
705 (state ? XKB_KEY_DOWN : XKB_KEY_UP));
707 /* get the keysym for this code */
708 nsyms = xkb_key_get_syms(edev->xkb.state, code, &syms);
709 g_mutex_unlock(&edev->xkb.state_mutex);
711 if (nsyms == 1) sym = syms[0];
713 /* If no keysym was found, name it "Keycode-NNN" */
714 if (sym == XKB_KEY_NoSymbol)
715 snprintf(key, sizeof(key), "Keycode-%u", code);
718 /* get the keyname for this sym */
719 xkb_keysym_get_name(sym, key, sizeof(key));
724 /* If no keyname was found, name it "Keycode-NNN" */
725 snprintf(keyname, sizeof(keyname), "Keycode-%u", code);
729 memcpy(keyname, key, sizeof(keyname));
732 /* if shift is active, we need to transform the key to lower */
733 g_mutex_lock(&edev->xkb.keymap_mutex);
734 g_mutex_lock(&edev->xkb.state_mutex);
735 if (xkb_state_mod_index_is_active(edev->xkb.state,
736 xkb_map_mod_get_index(edev->xkb.keymap,
738 XKB_STATE_MODS_EFFECTIVE))
740 if (keyname[0] != '\0')
741 keyname[0] = tolower(keyname[0]);
743 g_mutex_unlock(&edev->xkb.keymap_mutex);
744 g_mutex_unlock(&edev->xkb.state_mutex);
746 if (_device_keysym_translate(sym, edev->xkb.modifiers,
747 compose_buffer, sizeof(compose_buffer)))
749 compose = eina_str_convert("ISO8859-1", "UTF-8", compose_buffer);
752 ERR("E Input cannot convert input key string '%s' to UTF-8. "
753 "Is Eina built with iconv support?", compose_buffer);
759 if (!compose) compose = compose_buffer;
761 e = calloc(1, sizeof(Ecore_Event_Key) + strlen(key) + strlen(keyname) +
762 ((compose[0] != '\0') ? strlen(compose) : 0) + 3);
768 key_data = E_NEW(E_Keyrouter_Event_Data, 1);
776 e->keyname = (char *)(e + 1);
777 e->key = e->keyname + strlen(keyname) + 1;
778 e->compose = strlen(compose) ? e->key + strlen(key) + 1 : NULL;
779 e->string = e->compose;
781 strncpy((char *)e->keyname, keyname, strlen(keyname));
782 strncpy((char *)e->key, key, strlen(key));
783 if (strlen(compose)) strncpy((char *)e->compose, compose, strlen(compose));
785 e->window = (Ecore_Window)input->dev->window;
786 e->event_window = (Ecore_Window)input->dev->window;
787 e->root_window = (Ecore_Window)input->dev->window;
788 e->timestamp = timestamp;
793 _device_modifiers_update(edev);
795 e->modifiers = edev->xkb.modifiers;
797 comp_conf = e_comp_config_get();
799 if (comp_conf && comp_conf->input_log_enable)
800 ELOGF("Key", "%s (keyname: %s, keycode: %d, timestamp: %u, device: %s)", NULL, state?"Press":"Release", e->keyname, e->keycode, e->timestamp, device_name);
802 if (e_config->key_input_ttrace_enable)
804 TRACE_INPUT_BEGIN(ECORE_EVENT_KEY:%s:%s:%u:%lld, state ? "PRESS" : "RELEASE", e->keyname, timestamp, libinput_event_keyboard_get_time_usec(event));
805 ELOGF("INPUT", "ECORE_EVENT_KEY:%s:%s:%u:%lld|B|", NULL, state ? "PRESS" : "RELEASE", e->keyname, timestamp, libinput_event_keyboard_get_time_usec(event));
808 _e_input_key_event_list_add(e);
810 if (e_input_thread_mode_get())
812 e->dev = (Eo *)g_object_ref(e_dev);
813 e_input_event_add(input->event_source, state ? ECORE_EVENT_KEY_DOWN : ECORE_EVENT_KEY_UP, e, _e_input_event_key_cb_free, NULL);
817 e->dev = ecore_device_ref(ecore_dev);
818 ecore_event_add(state ? ECORE_EVENT_KEY_DOWN : ECORE_EVENT_KEY_UP, e, _e_input_event_key_cb_free, NULL);
821 if (e_config->key_input_ttrace_enable)
824 ELOGF("INPUT", "ECORE_EVENT_KEY|E|", NULL);
831 _device_pointer_motion(E_Input_Evdev *edev, struct libinput_event_pointer *event)
833 E_Input_Backend *input;
834 Ecore_Event_Mouse_Move *ev;
835 Ecore_Device *ecore_dev = NULL, *data, *detent_data = NULL;
837 int x = 0, y = 0, w = 0, h = 0;
839 if (!(input = edev->seat->input)) return;
841 ecore_thread_main_loop_begin();
843 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
844 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
846 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
848 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_MOUSE)
853 else if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_NONE)
858 if (!ecore_dev && e_devicemgr_detent_is_detent(libinput_device_get_name(edev->device)))
860 ecore_dev = detent_data;
865 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_MOUSE);
866 ecore_dev = edev->ecore_dev;
871 ERR("Failed to get source ecore device from event !\n");
874 else if ((detent_data == ecore_dev) || e_devicemgr_detent_is_detent(ecore_device_name_get(ecore_dev)))
876 /* Do not process detent device's move events. */
880 if (!(ev = calloc(1, sizeof(Ecore_Event_Mouse_Move)))) return;
882 _device_configured_size_get(edev, &x, &y, &w, &h);
884 if (edev->seat->ptr.ix < x)
885 edev->seat->ptr.dx = edev->seat->ptr.ix = x;
886 else if (edev->seat->ptr.ix >= (x + w))
887 edev->seat->ptr.dx = edev->seat->ptr.ix = (x + w - 1);
889 if (edev->seat->ptr.iy < y)
890 edev->seat->ptr.dy = edev->seat->ptr.iy = y;
891 else if (edev->seat->ptr.iy >= (y + h))
892 edev->seat->ptr.dy = edev->seat->ptr.iy = (y + h - 1);
894 edev->mouse.dx = edev->seat->ptr.dx;
895 edev->mouse.dy = edev->seat->ptr.dy;
897 ev->window = (Ecore_Window)input->dev->window;
898 ev->event_window = (Ecore_Window)input->dev->window;
899 ev->root_window = (Ecore_Window)input->dev->window;
900 if (event) ev->timestamp = libinput_event_pointer_get_time(event);
903 _device_modifiers_update(edev);
904 ev->modifiers = edev->xkb.modifiers;
906 ev->x = edev->seat->ptr.ix;
907 ev->y = edev->seat->ptr.iy;
911 ev->multi.device = edev->mt_slot;
912 ev->multi.radius = 1;
913 ev->multi.radius_x = 1;
914 ev->multi.radius_y = 1;
915 ev->multi.pressure = 1.0;
916 ev->multi.angle = 0.0;
919 ev->multi.root.x = ev->x;
920 ev->multi.root.y = ev->y;
922 ev->dev = ecore_device_ref(ecore_dev);
924 ecore_event_add(ECORE_EVENT_MOUSE_MOVE, ev, _e_input_event_mouse_move_cb_free, NULL);
927 ecore_thread_main_loop_end();
931 _e_input_pointer_motion_post(E_Input_Evdev *edev)
933 _device_pointer_motion(edev, NULL);
937 _device_pointer_relative_motion(E_Input_Evdev *edev, struct libinput_event_pointer *event, double dx[2], double dy[2])
939 E_Input_Backend *input;
940 Ecore_Event_Mouse_Relative_Move *ev;
941 Ecore_Device *ecore_dev = NULL, *data, *detent_data = NULL;
943 E_Comp_Config *comp_conf;
945 if (!(input = edev->seat->input)) return;
947 ecore_thread_main_loop_begin();
949 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
950 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
952 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
954 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_MOUSE)
959 else if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_NONE)
964 if (!ecore_dev && e_devicemgr_detent_is_detent(libinput_device_get_name(edev->device)))
966 ecore_dev = detent_data;
971 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_MOUSE);
972 ecore_dev = edev->ecore_dev;
977 ERR("Failed to get source ecore device from event !\n");
980 else if ((detent_data == ecore_dev) || e_devicemgr_detent_is_detent(ecore_device_name_get(ecore_dev)))
982 /* Do not process detent device's move events. */
986 if (!(ev = calloc(1, sizeof(Ecore_Event_Mouse_Relative_Move)))) return;
988 ev->window = (Ecore_Window)input->dev->window;
989 ev->event_window = (Ecore_Window)input->dev->window;
990 if (event) ev->timestamp = libinput_event_pointer_get_time(event);
992 ev->modifiers = edev->xkb.modifiers;
996 ev->dx_unaccel = (int)dx[1];
997 ev->dy_unaccel = (int)dy[1];
999 ev->dev = ecore_device_ref(ecore_dev);
1001 comp_conf = e_comp_config_get();
1002 if (comp_conf && comp_conf->input_log_enable)
1003 ELOGF("Mouse", "Relative Move (dx: %d, dy: %d, unaccel(%d, %d) device: %s)", NULL, ev->dx, ev->dx, ev->dx_unaccel, ev->dy_unaccel, ecore_device_name_get(ev->dev));
1005 ecore_event_add(ECORE_EVENT_MOUSE_RELATIVE_MOVE, ev, _e_input_event_mouse_relative_move_cb_free, NULL);
1008 ecore_thread_main_loop_end();
1012 _device_pointer_motion_send(E_Input_Evdev *edev, struct libinput_event_pointer *event, double dx[2], double dy[2])
1014 e_input_relative_motion_cb func = e_input_relative_motion_handler_get();
1017 //func(dx, dy, time_us);
1018 _device_pointer_relative_motion(edev, event, dx, dy);
1022 double seat_dx, seat_dy, temp;
1023 if (edev->disable_acceleration)
1034 if (edev->seat->ptr.swap)
1040 if (edev->seat->ptr.invert_x)
1042 if (edev->seat->ptr.invert_y)
1045 edev->seat->ptr.dx += seat_dx;
1046 edev->seat->ptr.dy += seat_dy;
1048 edev->mouse.dx = edev->seat->ptr.dx;
1049 edev->mouse.dy = edev->seat->ptr.dy;
1051 if (floor(edev->seat->ptr.dx) == edev->seat->ptr.ix &&
1052 floor(edev->seat->ptr.dy) == edev->seat->ptr.iy)
1057 edev->seat->ptr.ix = edev->seat->ptr.dx;
1058 edev->seat->ptr.iy = edev->seat->ptr.dy;
1060 if ((edev->seat->dev->blocked & E_INPUT_SEAT_POINTER) ||
1061 (edev->seat->dev->server_blocked & E_INPUT_SEAT_POINTER))
1066 _device_pointer_motion(edev, event);
1071 _device_handle_pointer_motion(struct libinput_device *device, struct libinput_event_pointer *event)
1073 E_Input_Evdev *edev;
1074 double delta_x[2]; /* delta_x[0] for accelerated, delta_x[1] for unaccelerated */
1075 double delta_y[2]; /* delta_y[0] for accelerated, delta_y[1] for unaccelerated */
1077 if (!(edev = libinput_device_get_user_data(device)))
1082 delta_x[0] = libinput_event_pointer_get_dx(event);
1083 delta_x[1] = libinput_event_pointer_get_dx_unaccelerated(event);
1084 delta_y[0] = libinput_event_pointer_get_dy(event);
1085 delta_y[1] = libinput_event_pointer_get_dy_unaccelerated(event);
1087 _device_pointer_motion_send(edev, event, &delta_x[0], &delta_y[0]);
1091 _device_handle_pointer_motion_absolute(struct libinput_device *device, struct libinput_event_pointer *event)
1093 E_Input_Evdev *edev;
1096 if (!(edev = libinput_device_get_user_data(device)))
1101 e_output_size_get(e_comp_screen_primary_output_get(e_comp->e_comp_screen), &w, &h);
1103 edev->mouse.dx = edev->seat->ptr.dx =
1104 libinput_event_pointer_get_absolute_x_transformed(event, w);
1105 edev->mouse.dy = edev->seat->ptr.dy =
1106 libinput_event_pointer_get_absolute_y_transformed(event, h);
1108 if (floor(edev->seat->ptr.dx) == edev->seat->ptr.ix &&
1109 floor(edev->seat->ptr.dy) == edev->seat->ptr.iy)
1114 edev->seat->ptr.ix = edev->seat->ptr.dx;
1115 edev->seat->ptr.iy = edev->seat->ptr.dy;
1117 if ((edev->seat->dev->blocked & E_INPUT_SEAT_POINTER) ||
1118 (edev->seat->dev->server_blocked & E_INPUT_SEAT_POINTER))
1123 _device_pointer_motion(edev, event);
1127 _device_handle_button(struct libinput_device *device, struct libinput_event_pointer *event)
1129 E_Input_Evdev *edev;
1130 E_Input_Backend *input;
1131 Ecore_Event_Mouse_Button *ev;
1132 enum libinput_button_state state;
1133 uint32_t button, timestamp;
1134 Ecore_Device *ecore_dev = NULL, *detent_data = NULL, *data;
1136 E_Comp_Config *comp_conf = NULL;
1138 if (!(edev = libinput_device_get_user_data(device)))
1142 if (!(input = edev->seat->input))
1147 ecore_thread_main_loop_begin();
1149 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
1150 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
1152 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
1154 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_MOUSE)
1159 else if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_NONE)
1164 if (!ecore_dev && e_devicemgr_detent_is_detent(libinput_device_get_name(edev->device)))
1166 ecore_dev = detent_data;
1171 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_MOUSE);
1172 ecore_dev = edev->ecore_dev;
1177 ERR("Failed to get source ecore device from event !\n");
1181 state = libinput_event_pointer_get_button_state(event);
1182 button = libinput_event_pointer_get_button(event);
1183 timestamp = libinput_event_pointer_get_time(event);
1185 button = ((button & 0x00F) + 1);
1186 if (button == 3) button = 2;
1187 else if (button == 2) button = 3;
1189 void *blocked_client = atomic_load(&edev->seat->dev->blocked_client);
1193 if ((edev->seat->dev->blocked & E_INPUT_SEAT_POINTER) ||
1194 (edev->seat->dev->server_blocked & E_INPUT_SEAT_POINTER))
1197 ELOGF("Mouse", "Button Press (btn: %d, device: %s) is blocked by %p, server: 0x%x", NULL,
1198 button, ecore_device_name_get(ecore_dev), blocked_client,
1199 edev->seat->dev->server_blocked);
1204 edev->mouse.pressed_button |= (1 << button);
1209 if (!(edev->mouse.pressed_button & (1 << button)))
1211 ELOGF("Mouse", "Button Release (btn: %d, device: %s) is blocked by %p, server: 0x%x", NULL,
1212 button, ecore_device_name_get(ecore_dev), blocked_client,
1213 edev->seat->dev->server_blocked);
1216 edev->mouse.pressed_button &= ~(1 << button);
1219 if (!(ev = calloc(1, sizeof(Ecore_Event_Mouse_Button))))
1224 ev->window = (Ecore_Window)input->dev->window;
1225 ev->event_window = (Ecore_Window)input->dev->window;
1226 ev->root_window = (Ecore_Window)input->dev->window;
1227 ev->timestamp = timestamp;
1228 ev->same_screen = 1;
1230 _device_modifiers_update(edev);
1231 ev->modifiers = edev->xkb.modifiers;
1233 ev->x = edev->seat->ptr.ix;
1234 ev->y = edev->seat->ptr.iy;
1238 ev->multi.device = edev->mt_slot;
1239 ev->multi.radius = 1;
1240 ev->multi.radius_x = 1;
1241 ev->multi.radius_y = 1;
1242 ev->multi.pressure = 1.0;
1243 ev->multi.angle = 0.0;
1244 ev->multi.x = ev->x;
1245 ev->multi.y = ev->y;
1246 ev->multi.root.x = ev->x;
1247 ev->multi.root.y = ev->y;
1248 ev->dev = ecore_device_ref(ecore_dev);
1252 unsigned int current;
1254 current = timestamp;
1255 edev->mouse.did_double = EINA_FALSE;
1256 edev->mouse.did_triple = EINA_FALSE;
1258 if (((current - edev->mouse.prev) <= edev->mouse.threshold) &&
1259 (button == edev->mouse.prev_button))
1261 edev->mouse.did_double = EINA_TRUE;
1262 if (((current - edev->mouse.last) <= (2 * edev->mouse.threshold)) &&
1263 (button == edev->mouse.last_button))
1265 edev->mouse.did_triple = EINA_TRUE;
1266 edev->mouse.prev = 0;
1267 edev->mouse.last = 0;
1272 edev->mouse.last = edev->mouse.prev;
1273 edev->mouse.prev = current;
1274 edev->mouse.last_button = edev->mouse.prev_button;
1275 edev->mouse.prev_button = button;
1278 ev->buttons = button;
1280 if (edev->mouse.did_double)
1281 ev->double_click = 1;
1282 if (edev->mouse.did_triple)
1283 ev->triple_click = 1;
1285 comp_conf = e_comp_config_get();
1286 if (comp_conf && comp_conf->input_log_enable)
1287 ELOGF("Mouse", "Button %s (btn: %d, device: %s)", NULL, state?"Press":"Release", button, ecore_device_name_get(ev->dev));
1290 ecore_event_add(ECORE_EVENT_MOUSE_BUTTON_DOWN, ev, _e_input_event_mouse_button_cb_free, NULL);
1292 ecore_event_add(ECORE_EVENT_MOUSE_BUTTON_UP, ev, _e_input_event_mouse_button_cb_free, NULL);
1295 ecore_thread_main_loop_end();
1298 #if !LIBINPUT_HAVE_SCROLL_VALUE_V120
1300 _axis_value_get(struct libinput_event_pointer *pointer_event, enum libinput_pointer_axis axis)
1302 enum libinput_pointer_axis_source source;
1303 double value = 0.0, value_discrete = 0.0;
1305 E_Comp_Config *comp_conf = NULL;
1307 comp_conf = e_comp_config_get();
1308 source = libinput_event_pointer_get_axis_source(pointer_event);
1311 case LIBINPUT_POINTER_AXIS_SOURCE_WHEEL:
1312 value_discrete = libinput_event_pointer_get_axis_value_discrete(pointer_event, axis);
1313 value = libinput_event_pointer_get_axis_value(pointer_event, axis);
1314 if (comp_conf && comp_conf->input_log_enable)
1316 ELOGF("Axis", "SOURCE_WHEEL discrete: %lf (cf. value: %lf)", NULL, value_discrete, value);
1318 ret = (int)value_discrete;
1320 case LIBINPUT_POINTER_AXIS_SOURCE_FINGER:
1321 case LIBINPUT_POINTER_AXIS_SOURCE_CONTINUOUS:
1322 value = libinput_event_pointer_get_axis_value(pointer_event, axis);
1323 if (comp_conf && comp_conf->input_log_enable)
1325 ELOGF("Axis", "SOURCE_FINGER/CONTINUOUS value: %lf", NULL, value);
1327 if (value >= E_INPUT_FINGER_SCROLL_THRESHOLD)
1329 else if (value <= E_INPUT_FINGER_SCROLL_THRESHOLD * (-1))
1342 _device_handle_axis(struct libinput_device *device, struct libinput_event_pointer *event)
1344 E_Input_Evdev *edev;
1345 E_Input_Backend *input;
1346 Ecore_Event_Mouse_Wheel *ev;
1348 enum libinput_pointer_axis axis;
1349 Ecore_Device *ecore_dev = NULL, *detent_data = NULL, *data;
1351 E_Comp_Config *comp_conf = NULL;
1352 int direction = 0, z = 0;
1354 if (!(edev = libinput_device_get_user_data(device)))
1358 if (!(input = edev->seat->input))
1363 ecore_thread_main_loop_begin();
1365 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
1366 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
1368 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
1370 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_MOUSE)
1375 else if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_NONE)
1380 if (!ecore_dev && e_devicemgr_detent_is_detent(libinput_device_get_name(edev->device)))
1382 ecore_dev = detent_data;
1387 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_MOUSE);
1388 ecore_dev = edev->ecore_dev;
1393 ERR("Failed to get source ecore device from event !\n");
1397 axis = LIBINPUT_POINTER_AXIS_SCROLL_VERTICAL;
1398 if (libinput_event_pointer_has_axis(event, axis))
1399 z = _axis_value_get(event, axis);
1401 axis = LIBINPUT_POINTER_AXIS_SCROLL_HORIZONTAL;
1402 if (libinput_event_pointer_has_axis(event, axis))
1405 z = _axis_value_get(event, axis);
1410 ELOGF("Mouse", "Axis event is ignored since it has zero value", NULL);
1414 comp_conf = e_comp_config_get();
1415 if (comp_conf && comp_conf->e_wheel_click_angle)
1417 z = (int)(z * comp_conf->e_wheel_click_angle);
1420 if ((edev->seat->dev->blocked & E_INPUT_SEAT_POINTER) ||
1421 (edev->seat->dev->server_blocked & E_INPUT_SEAT_POINTER))
1423 void *blocked_client = atomic_load(&edev->seat->dev->blocked_client);
1426 ELOGF("Mouse", "Detent (direction: %d, value: %d) is blocked by %p, server: 0x%x", NULL,
1427 direction, z, blocked_client, edev->seat->dev->server_blocked);
1429 ELOGF("Mouse", "Wheel (direction: %d, value: %d) is blocked by %p, server: 0x%x", NULL,
1430 direction, z, blocked_client, edev->seat->dev->server_blocked);
1435 if (!(ev = calloc(1, sizeof(Ecore_Event_Mouse_Wheel))))
1440 timestamp = libinput_event_pointer_get_time(event);
1442 ev->window = (Ecore_Window)input->dev->window;
1443 ev->event_window = (Ecore_Window)input->dev->window;
1444 ev->root_window = (Ecore_Window)input->dev->window;
1445 ev->timestamp = timestamp;
1446 ev->same_screen = 1;
1448 _device_modifiers_update(edev);
1449 ev->modifiers = edev->xkb.modifiers;
1451 ev->x = edev->seat->ptr.ix;
1452 ev->y = edev->seat->ptr.iy;
1456 ev->direction = direction;
1458 if (comp_conf && comp_conf->input_log_enable)
1461 ELOGF("Mouse", "Detent (direction: %d, value: %d)", NULL, ev->direction, ev->z);
1463 ELOGF("Mouse", "Wheel (direction: %d, value: %d)", NULL, ev->direction, ev->z);
1467 ev->dev = ecore_device_ref(ecore_dev);
1468 ecore_event_add(ECORE_EVENT_MOUSE_WHEEL, ev, _e_input_event_mouse_wheel_cb_free, NULL);
1471 ecore_thread_main_loop_end();
1475 #if LIBINPUT_HAVE_SCROLL_VALUE_V120
1477 _scroll_value_get(struct libinput_event_pointer *pointer_event, enum libinput_pointer_axis axis, E_Input_Axis_Source source)
1480 double value_v120 = 0.0;
1482 E_Comp_Config *comp_conf = NULL;
1484 comp_conf = e_comp_config_get();
1487 case E_INPUT_AXIS_SOURCE_WHEEL:
1488 value_v120 = libinput_event_pointer_get_scroll_value_v120(pointer_event, axis);
1489 value = libinput_event_pointer_get_scroll_value(pointer_event, axis);
1490 if (comp_conf && comp_conf->input_log_enable)
1492 ELOGF("Scroll", "SOURCE_WHEEL value_v120: %lf (cf. value: %lf)", NULL, value_v120, value);
1494 if (((int)value_v120 % E_INPUT_POINTER_AXIS_DISCRETE_STEP) != 0)
1496 ERR("Wheel movements should be multiples (or fractions) of 120!\n");
1501 ret = value_v120 / E_INPUT_POINTER_AXIS_DISCRETE_STEP;
1504 case E_INPUT_AXIS_SOURCE_FINGER:
1505 case E_INPUT_AXIS_SOURCE_CONTINUOUS:
1506 value = libinput_event_pointer_get_scroll_value(pointer_event, axis);
1507 if (comp_conf && comp_conf->input_log_enable)
1509 ELOGF("Scroll", "SOURCE_FINGER/CONTINUOUS value: %lf", NULL, value);
1511 if (value >= E_INPUT_FINGER_SCROLL_THRESHOLD)
1513 else if (value <= E_INPUT_FINGER_SCROLL_THRESHOLD * (-1))
1526 _device_handle_axis_v120(struct libinput_device *device, struct libinput_event_pointer *event, E_Input_Axis_Source source)
1528 E_Input_Evdev *edev;
1529 E_Input_Backend *input;
1530 Ecore_Event_Mouse_Wheel *ev;
1532 enum libinput_pointer_axis axis;
1533 Ecore_Device *ecore_dev = NULL, *detent_data = NULL, *data;
1535 E_Comp_Config *comp_conf = NULL;
1536 int direction = 0, z = 0;
1538 if (!(edev = libinput_device_get_user_data(device)))
1542 if (!(input = edev->seat->input))
1547 ecore_thread_main_loop_begin();
1549 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
1550 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
1552 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
1554 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_MOUSE)
1559 else if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_NONE)
1564 if (!ecore_dev && e_devicemgr_detent_is_detent(libinput_device_get_name(edev->device)))
1566 ecore_dev = detent_data;
1571 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_MOUSE);
1572 ecore_dev = edev->ecore_dev;
1577 ERR("Failed to get source ecore device from event !\n");
1581 axis = LIBINPUT_POINTER_AXIS_SCROLL_VERTICAL;
1582 if (libinput_event_pointer_has_axis(event, axis))
1583 z = _scroll_value_get(event, axis, source);
1585 axis = LIBINPUT_POINTER_AXIS_SCROLL_HORIZONTAL;
1586 if (libinput_event_pointer_has_axis(event, axis))
1589 z = _scroll_value_get(event, axis, source);
1594 ELOGF("Mouse", "Scroll event is ignored since it has zero value", NULL);
1598 comp_conf = e_comp_config_get();
1599 if (comp_conf && comp_conf->e_wheel_click_angle)
1601 z = (int)(z * comp_conf->e_wheel_click_angle);
1604 if ((edev->seat->dev->blocked & E_INPUT_SEAT_POINTER) ||
1605 (edev->seat->dev->server_blocked & E_INPUT_SEAT_POINTER))
1607 void *blocked_client = atomic_load(&edev->seat->dev->blocked_client);
1609 ELOGF("Mouse", "Detent (direction: %d, value: %d) is blocked by %p, server: 0x%x", NULL,
1610 direction, z, blocked_client, edev->seat->dev->server_blocked);
1612 ELOGF("Mouse", "Wheel (direction: %d, value: %d) is blocked by %p, server: 0x%x", NULL,
1613 direction, z, blocked_client, edev->seat->dev->server_blocked);
1618 if (!(ev = calloc(1, sizeof(Ecore_Event_Mouse_Wheel))))
1623 timestamp = libinput_event_pointer_get_time(event);
1625 ev->window = (Ecore_Window)input->dev->window;
1626 ev->event_window = (Ecore_Window)input->dev->window;
1627 ev->root_window = (Ecore_Window)input->dev->window;
1628 ev->timestamp = timestamp;
1629 ev->same_screen = 1;
1631 _device_modifiers_update(edev);
1632 ev->modifiers = edev->xkb.modifiers;
1634 ev->x = edev->seat->ptr.ix;
1635 ev->y = edev->seat->ptr.iy;
1639 ev->direction = direction;
1641 if (comp_conf && comp_conf->input_log_enable)
1644 ELOGF("Mouse", "Detent (direction: %d, value: %d)", NULL, ev->direction, ev->z);
1646 ELOGF("Mouse", "Wheel (direction: %d, value: %d)", NULL, ev->direction, ev->z);
1649 ev->dev = ecore_device_ref(ecore_dev);
1650 ecore_event_add(ECORE_EVENT_MOUSE_WHEEL, ev, _e_input_event_mouse_wheel_cb_free, NULL);
1653 ecore_thread_main_loop_end();
1658 _device_handle_touch_event_send(E_Input_Evdev *edev, struct libinput_event_touch *event, int state)
1660 E_Input_Backend *input;
1661 Ecore_Event_Mouse_Button *ev;
1662 uint32_t timestamp, button = 0;
1663 Ecore_Device *ecore_dev = NULL, *data;
1667 if (!(input = edev->seat->input)) return;
1669 ecore_thread_main_loop_begin();
1671 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
1672 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
1674 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
1676 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_TOUCH)
1685 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_TOUCH);
1686 ecore_dev = edev->ecore_dev;
1691 ERR("Failed to get source ecore device from event !\n");
1695 if (!(ev = calloc(1, sizeof(Ecore_Event_Mouse_Button)))) goto end;
1697 timestamp = libinput_event_touch_get_time(event);
1699 ev->window = (Ecore_Window)input->dev->window;
1700 ev->event_window = (Ecore_Window)input->dev->window;
1701 ev->root_window = (Ecore_Window)input->dev->window;
1702 ev->timestamp = timestamp;
1703 ev->same_screen = 1;
1705 _device_modifiers_update(edev);
1706 ev->modifiers = edev->xkb.modifiers;
1708 ev->x = edev->seat->ptr.ix;
1709 ev->y = edev->seat->ptr.iy;
1713 ev->multi.device = edev->mt_slot;
1714 ev->multi.radius = 1;
1715 ev->multi.radius_x = 1;
1716 ev->multi.radius_y = 1;
1717 ev->multi.pressure = 1.0;
1718 ev->multi.angle = 0.0;
1719 #if LIBINPUT_SUPPORT_EXTRA_TOUCH_EVENT
1720 if (libinput_event_get_type(libinput_event_touch_get_base_event(event))
1721 == LIBINPUT_EVENT_TOUCH_DOWN)
1723 if (libinput_event_touch_has_minor(event))
1724 ev->multi.radius_x = libinput_event_touch_get_minor(event);
1725 if (libinput_event_touch_has_major(event))
1726 ev->multi.radius_y = libinput_event_touch_get_major(event);
1727 if (libinput_event_touch_has_pressure(event))
1728 ev->multi.pressure = libinput_event_touch_get_pressure(event);
1729 if (libinput_event_touch_has_orientation(event))
1730 ev->multi.angle = libinput_event_touch_get_orientation(event);
1733 ev->multi.x = ev->x;
1734 ev->multi.y = ev->y;
1735 ev->multi.root.x = ev->x;
1736 ev->multi.root.y = ev->y;
1737 ev->dev = ecore_device_ref(ecore_dev);
1739 if (state == ECORE_EVENT_MOUSE_BUTTON_DOWN)
1741 unsigned int current;
1743 current = timestamp;
1744 edev->mouse.did_double = EINA_FALSE;
1745 edev->mouse.did_triple = EINA_FALSE;
1747 if (((current - edev->mouse.prev) <= edev->mouse.threshold) &&
1748 (button == edev->mouse.prev_button))
1750 edev->mouse.did_double = EINA_TRUE;
1751 if (((current - edev->mouse.last) <= (2 * edev->mouse.threshold)) &&
1752 (button == edev->mouse.last_button))
1754 edev->mouse.did_triple = EINA_TRUE;
1755 edev->mouse.prev = 0;
1756 edev->mouse.last = 0;
1761 edev->mouse.last = edev->mouse.prev;
1762 edev->mouse.prev = current;
1763 edev->mouse.last_button = edev->mouse.prev_button;
1764 edev->mouse.prev_button = button;
1765 edev->touch.pressed |= (1 << ev->multi.device);
1769 edev->touch.pressed &= ~(1 << ev->multi.device);
1772 ev->buttons = ((button & 0x00F) + 1);
1774 if (edev->mouse.did_double)
1775 ev->double_click = 1;
1776 if (edev->mouse.did_triple)
1777 ev->triple_click = 1;
1779 ecore_event_add(state, ev, _e_input_event_mouse_button_cb_free, NULL);
1782 ecore_thread_main_loop_end();
1786 _device_handle_touch_motion_send(E_Input_Evdev *edev, struct libinput_event_touch *event)
1788 E_Input_Backend *input;
1789 Ecore_Event_Mouse_Move *ev;
1790 Ecore_Device *ecore_dev = NULL, *data;
1794 if (!(input = edev->seat->input)) return;
1796 ecore_thread_main_loop_begin();
1798 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
1799 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
1801 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
1803 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_TOUCH)
1812 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_TOUCH);
1813 ecore_dev = edev->ecore_dev;
1818 ERR("Failed to get source ecore device from event !\n");
1822 if (!(ev = calloc(1, sizeof(Ecore_Event_Mouse_Move)))) goto end;
1824 ev->window = (Ecore_Window)input->dev->window;
1825 ev->event_window = (Ecore_Window)input->dev->window;
1826 ev->root_window = (Ecore_Window)input->dev->window;
1827 ev->timestamp = libinput_event_touch_get_time(event);
1828 ev->same_screen = 1;
1830 _device_modifiers_update(edev);
1831 ev->modifiers = edev->xkb.modifiers;
1833 ev->x = edev->seat->ptr.ix;
1834 ev->y = edev->seat->ptr.iy;
1838 ev->multi.device = edev->mt_slot;
1839 ev->multi.radius = 1;
1840 ev->multi.radius_x = 1;
1841 ev->multi.radius_y = 1;
1842 ev->multi.pressure = 1.0;
1843 ev->multi.angle = 0.0;
1844 #if LIBINPUT_SUPPORT_EXTRA_TOUCH_EVENT
1845 if (libinput_event_touch_has_minor(event))
1846 ev->multi.radius_x = libinput_event_touch_get_minor(event);
1847 if (libinput_event_touch_has_major(event))
1848 ev->multi.radius_y = libinput_event_touch_get_major(event);
1849 if (libinput_event_touch_has_pressure(event))
1850 ev->multi.pressure = libinput_event_touch_get_pressure(event);
1851 if (libinput_event_touch_has_orientation(event))
1852 ev->multi.angle = libinput_event_touch_get_orientation(event);
1854 ev->multi.x = ev->x;
1855 ev->multi.y = ev->y;
1856 ev->multi.root.x = ev->x;
1857 ev->multi.root.y = ev->y;
1858 ev->dev = ecore_device_ref(ecore_dev);
1860 ecore_event_add(ECORE_EVENT_MOUSE_MOVE, ev, _e_input_event_mouse_move_cb_free, NULL);
1863 ecore_thread_main_loop_end();
1867 _device_handle_touch_cancel_send(E_Input_Evdev *edev, struct libinput_event_touch *event)
1869 E_Input_Backend *input;
1870 Ecore_Event_Mouse_Button *ev;
1871 uint32_t timestamp, button = 0;
1872 Ecore_Device *ecore_dev = NULL, *data;
1876 if (!(input = edev->seat->input)) return;
1878 ecore_thread_main_loop_begin();
1880 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
1881 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
1883 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
1885 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_TOUCH)
1894 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_TOUCH);
1895 ecore_dev = edev->ecore_dev;
1900 ERR("Failed to get source ecore device from event !\n");
1904 if (!(ev = calloc(1, sizeof(Ecore_Event_Mouse_Button)))) goto end;
1906 timestamp = libinput_event_touch_get_time(event);
1908 ev->window = (Ecore_Window)input->dev->window;
1909 ev->event_window = (Ecore_Window)input->dev->window;
1910 ev->root_window = (Ecore_Window)input->dev->window;
1911 ev->timestamp = timestamp;
1912 ev->same_screen = 1;
1914 ev->x = edev->seat->ptr.ix;
1915 ev->y = edev->seat->ptr.iy;
1919 ev->multi.device = edev->mt_slot;
1920 ev->multi.radius = 1;
1921 ev->multi.radius_x = 1;
1922 ev->multi.radius_y = 1;
1923 ev->multi.pressure = 1.0;
1924 ev->multi.angle = 0.0;
1925 ev->multi.x = ev->x;
1926 ev->multi.y = ev->y;
1927 ev->multi.root.x = ev->x;
1928 ev->multi.root.y = ev->y;
1930 edev->touch.pressed &= ~(1 << ev->multi.device);
1932 ev->buttons = ((button & 0x00F) + 1);
1933 ev->dev = ecore_device_ref(ecore_dev);
1935 ecore_event_add(ECORE_EVENT_MOUSE_BUTTON_CANCEL, ev, _e_input_event_mouse_button_cb_free, NULL);
1938 ecore_thread_main_loop_end();
1942 _device_configured_size_get(E_Input_Evdev *edev, int *x, int *y, int *w, int *h)
1944 E_Output *output = NULL;
1946 EINA_SAFETY_ON_NULL_RETURN(edev);
1948 if (!edev->output_configured)
1950 if (edev->output_name)
1952 output = e_output_find(edev->output_name);
1955 edev->mouse.minx = output->config.geom.x;
1956 edev->mouse.miny = output->config.geom.y;
1957 edev->mouse.maxw = output->config.geom.w;
1958 edev->mouse.maxh = output->config.geom.h;
1959 if (libinput_device_has_capability(edev->device, LIBINPUT_DEVICE_CAP_POINTER))
1961 edev->seat->ptr.dx = (double)(edev->mouse.maxw / 2);
1962 edev->seat->ptr.dy = (double)(edev->mouse.maxh / 2);
1963 edev->seat->ptr.ix = (int)edev->seat->ptr.dx;
1964 edev->seat->ptr.iy = (int)edev->seat->ptr.dy;
1965 edev->mouse.dx = edev->seat->ptr.dx;
1966 edev->mouse.dy = edev->seat->ptr.dy;
1971 edev->output_configured = EINA_TRUE;
1972 ELOGF("E_INPUT_EVDEV", "Device is configured by output x:%d,y:%d (w:%d, h:%d)",
1973 NULL, edev->mouse.minx, edev->mouse.miny, edev->mouse.maxw, edev->mouse.maxh);
1975 if (x) *x = edev->mouse.minx;
1976 if (y) *y = edev->mouse.miny;
1977 if (w) *w = edev->mouse.maxw;
1978 if (h) *h = edev->mouse.maxh;
1982 _device_handle_touch_down(struct libinput_device *device, struct libinput_event_touch *event)
1984 E_Input_Evdev *edev;
1985 int x = 0, y = 0, w = 0, h = 0;
1986 E_Comp_Config *comp_conf = NULL;
1988 if (!(edev = libinput_device_get_user_data(device)))
1993 _device_configured_size_get(edev, &x, &y, &w, &h);
1995 edev->mouse.dx = edev->seat->ptr.ix = edev->seat->ptr.dx =
1996 x + libinput_event_touch_get_x_transformed(event, w);
1997 edev->mouse.dy = edev->seat->ptr.iy = edev->seat->ptr.dy =
1998 y + libinput_event_touch_get_y_transformed(event, h);
2000 edev->mt_slot = libinput_event_touch_get_slot(event);
2001 if (edev->mt_slot < 0)
2003 /* FIXME: The single touch device return slot id -1
2004 * But currently we have no API to distinguish multi touch or single touch
2005 * After libinput 1.11 version, libinput provides get_touch_count API,
2006 * so we can distinguish multi touch device or single touch device.
2008 if (edev->mt_slot == -1)
2012 WRN("%d slot touch down events are not supported\n", edev->mt_slot);
2017 if (edev->mt_slot < e_input_touch_max_count_get())
2019 edev->touch.coords[edev->mt_slot].x = edev->seat->ptr.ix;
2020 edev->touch.coords[edev->mt_slot].y = edev->seat->ptr.iy;
2023 comp_conf = e_comp_config_get();
2024 if (comp_conf && comp_conf->input_log_enable)
2025 ELOGF("Touch", "Down (id: %d, x: %d, y: %d)", NULL, edev->mt_slot, edev->seat->ptr.ix, edev->seat->ptr.iy);
2027 atomic_fetch_or(&edev->touch.raw_pressed, (1 << edev->mt_slot));
2029 if (edev->touch.blocked)
2031 void *blocked_client = atomic_load(&edev->seat->dev->blocked_client);
2032 ELOGF("Touch", "Down (id: %d, x: %d, y: %d) is blocked by %p, server: 0x%x", NULL,
2033 edev->mt_slot, edev->seat->ptr.ix, edev->seat->ptr.iy, blocked_client,
2034 edev->seat->dev->server_blocked);
2038 _device_handle_touch_motion_send(edev, event);
2039 _device_handle_touch_event_send(edev, event, ECORE_EVENT_MOUSE_BUTTON_DOWN);
2043 _device_handle_touch_motion(struct libinput_device *device, struct libinput_event_touch *event)
2045 E_Input_Evdev *edev;
2046 int x = 0, y = 0, w = 0, h = 0;
2048 if (!(edev = libinput_device_get_user_data(device)))
2053 _device_configured_size_get(edev, &x, &y, &w, &h);
2055 edev->mouse.dx = edev->seat->ptr.dx =
2056 x + libinput_event_touch_get_x_transformed(event, w);
2057 edev->mouse.dy = edev->seat->ptr.dy =
2058 y + libinput_event_touch_get_y_transformed(event, h);
2060 if (floor(edev->seat->ptr.dx) == edev->seat->ptr.ix &&
2061 floor(edev->seat->ptr.dy) == edev->seat->ptr.iy)
2066 edev->seat->ptr.ix = edev->seat->ptr.dx;
2067 edev->seat->ptr.iy = edev->seat->ptr.dy;
2069 edev->mt_slot = libinput_event_touch_get_slot(event);
2070 if (edev->mt_slot < 0)
2072 /* FIXME: The single touch device return slot id -1
2073 * But currently we have no API to distinguish multi touch or single touch
2074 * After libinput 1.11 version, libinput provides get_touch_count API,
2075 * so we can distinguish multi touch device or single touch device.
2077 if (edev->mt_slot == -1)
2081 WRN("%d slot touch motion events are not supported\n", edev->mt_slot);
2086 if (edev->mt_slot < e_input_touch_max_count_get())
2088 edev->touch.coords[edev->mt_slot].x = edev->seat->ptr.ix;
2089 edev->touch.coords[edev->mt_slot].y = edev->seat->ptr.iy;
2092 if (!(edev->touch.pressed & (1 << edev->mt_slot)))
2094 if (edev->touch.blocked)
2100 _device_handle_touch_motion_send(edev, event);
2104 _device_handle_touch_up(struct libinput_device *device, struct libinput_event_touch *event)
2106 E_Input_Evdev *edev;
2107 E_Comp_Config *comp_conf = NULL;
2109 if (!(edev = libinput_device_get_user_data(device)))
2114 edev->mt_slot = libinput_event_touch_get_slot(event);
2115 if (edev->mt_slot < 0)
2117 /* FIXME: The single touch device return slot id -1
2118 * But currently we have no API to distinguish multi touch or single touch
2119 * After libinput 1.11 version, libinput provides get_touch_count API,
2120 * so we can distinguish multi touch device or single touch device.
2122 if (edev->mt_slot == -1)
2126 WRN("%d slot touch up events are not supported\n", edev->mt_slot);
2131 if (edev->mt_slot < e_input_touch_max_count_get())
2133 edev->mouse.dx = edev->seat->ptr.dx = edev->seat->ptr.ix =
2134 edev->touch.coords[edev->mt_slot].x;
2135 edev->mouse.dy = edev->seat->ptr.dy = edev->seat->ptr.iy =
2136 edev->touch.coords[edev->mt_slot].y;
2139 comp_conf = e_comp_config_get();
2140 if (comp_conf && comp_conf->input_log_enable)
2141 ELOGF("Touch", "Up (id: %d, x: %d, y: %d)", NULL, edev->mt_slot, edev->seat->ptr.ix, edev->seat->ptr.iy);
2143 atomic_fetch_and(&edev->touch.raw_pressed, ~(1 << edev->mt_slot));
2145 if (edev->touch.blocked)
2147 if (!(edev->touch.pressed & (1 << edev->mt_slot)))
2149 void *blocked_client = atomic_load(&edev->seat->dev->blocked_client);
2150 ELOGF("Touch", "Up (id: %d, x: %d, y: %d) is blocked by %p, server(0x%x)", NULL,
2151 edev->mt_slot, edev->seat->ptr.ix, edev->seat->ptr.iy, blocked_client,
2152 edev->seat->dev->server_blocked);
2154 if (edev->touch.raw_pressed == 0x0)
2156 edev->touch.blocked = EINA_FALSE;
2162 _device_handle_touch_event_send(edev, event, ECORE_EVENT_MOUSE_BUTTON_UP);
2166 _device_handle_touch_cancel(struct libinput_device *device, struct libinput_event_touch *event)
2168 E_Input_Evdev *edev;
2169 E_Comp_Config *comp_conf = NULL;
2171 if (!(edev = libinput_device_get_user_data(device)))
2176 edev->mt_slot = libinput_event_touch_get_slot(event);
2177 if (edev->mt_slot < 0)
2179 /* FIXME: The single touch device return slot id -1
2180 * But currently we have no API to distinguish multi touch or single touch
2181 * After libinput 1.11 version, libinput provides get_touch_count API,
2182 * so we can distinguish multi touch device or single touch device.
2184 if (edev->mt_slot == -1)
2188 WRN("%d slot touch up events are not supported\n", edev->mt_slot);
2193 comp_conf = e_comp_config_get();
2194 if (comp_conf && comp_conf->input_log_enable)
2195 ELOGF("Touch", "cancel (id: %d, x: %d, y: %d)", NULL, edev->mt_slot, edev->seat->ptr.ix, edev->seat->ptr.iy);
2197 _device_handle_touch_cancel_send(edev, event);
2202 _device_handle_touch_frame(struct libinput_device *device EINA_UNUSED, struct libinput_event_touch *event EINA_UNUSED)
2204 /* DBG("Unhandled Touch Frame Event"); */
2208 _e_input_aux_data_event_free(void *user_data EINA_UNUSED, void *ev)
2210 Ecore_Event_Axis_Update *e = (Ecore_Event_Axis_Update *)ev;
2212 if (e->axis) free(e->axis);
2213 if (e->dev) ecore_device_unref(e->dev);
2219 _device_handle_touch_aux_data(struct libinput_device *device, struct libinput_event_touch_aux_data *event)
2221 E_Input_Evdev *edev;
2222 E_Input_Backend *input;
2223 Ecore_Event_Axis_Update *ev;
2225 Ecore_Device *ecore_dev = NULL, *data;
2227 E_Comp_Config *comp_conf;
2229 ecore_thread_main_loop_begin();
2231 if (libinput_event_touch_aux_data_get_type(event) != LIBINPUT_TOUCH_AUX_DATA_TYPE_PALM &&
2232 libinput_event_touch_aux_data_get_value(event) > 0)
2235 if (!(edev = libinput_device_get_user_data(device))) goto end;
2236 if (!(input = edev->seat->input)) goto end;
2238 if (edev->ecore_dev) ecore_dev = edev->ecore_dev;
2239 else if (edev->ecore_dev_list && eina_list_count(edev->ecore_dev_list) > 0)
2241 EINA_LIST_FOREACH(edev->ecore_dev_list, l, data)
2243 if (ecore_device_class_get(data) == ECORE_DEVICE_CLASS_TOUCH)
2252 edev->ecore_dev = e_input_evdev_get_ecore_device(edev->path, ECORE_DEVICE_CLASS_TOUCH);
2253 ecore_dev = edev->ecore_dev;
2258 ERR("Failed to get source ecore device from event !\n");
2262 if (!(ev = calloc(1, sizeof(Ecore_Event_Axis_Update)))) goto end;
2264 ev->window = (Ecore_Window)input->dev->window;
2265 ev->event_window = (Ecore_Window)input->dev->window;
2266 ev->root_window = (Ecore_Window)input->dev->window;
2267 ev->timestamp = libinput_event_touch_aux_data_get_time(event);
2269 axis = (Ecore_Axis *)calloc(1, sizeof(Ecore_Axis));
2272 axis->label = ECORE_AXIS_LABEL_TOUCH_PALM;
2273 axis->value = libinput_event_touch_aux_data_get_value(event);
2278 comp_conf = e_comp_config_get();
2279 if (comp_conf && comp_conf->input_log_enable)
2280 ELOGF("Touch", "Axis (label: %d, value: %lf)", NULL, axis?axis->label:-1, axis?axis->value:0.0);
2282 ev->dev = ecore_device_ref(ecore_dev);
2284 ecore_event_add(ECORE_EVENT_AXIS_UPDATE, ev, _e_input_aux_data_event_free, NULL);
2287 ecore_thread_main_loop_end();
2291 _e_input_evdev_device_create(E_Input_Seat *seat, struct libinput_device *device)
2293 E_Input_Evdev *edev;
2294 E_Input_Backend *b_input;
2295 const char *output_name;
2297 EINA_SAFETY_ON_NULL_RETURN_VAL(seat, NULL);
2299 E_Input *e_input = e_input_get();
2301 /* try to allocate space for new evdev */
2302 if (!(edev = calloc(1, sizeof(E_Input_Evdev)))) return NULL;
2305 edev->device = device;
2306 edev->path = eina_stringshare_printf("%s/%s", e_input_base_dir_get(), libinput_device_get_sysname(device));
2309 g_rec_mutex_lock(&e_input->libinput_mutex);
2311 if (libinput_device_has_capability(device, LIBINPUT_DEVICE_CAP_KEYBOARD))
2313 edev->caps |= E_INPUT_SEAT_KEYBOARD;
2314 _device_keyboard_setup(edev);
2317 if (libinput_device_has_capability(device, LIBINPUT_DEVICE_CAP_POINTER))
2319 edev->caps |= E_INPUT_SEAT_POINTER;
2321 /* TODO: make this configurable */
2322 edev->mouse.threshold = 250;
2324 b_input = seat->input;
2325 if (b_input->left_handed == EINA_TRUE)
2327 if (libinput_device_config_left_handed_set(device, 1) !=
2328 LIBINPUT_CONFIG_STATUS_SUCCESS)
2330 WRN("Failed to set left hand mode about device: %s\n",
2331 libinput_device_get_name(device));
2336 if (libinput_device_has_capability(device, LIBINPUT_DEVICE_CAP_TOUCH))
2339 edev->caps |= E_INPUT_SEAT_TOUCH;
2340 palm_code = libinput_device_touch_aux_data_get_code(LIBINPUT_TOUCH_AUX_DATA_TYPE_PALM);
2341 if (libinput_device_touch_has_aux_data(device, palm_code))
2343 libinput_device_touch_set_aux_data(device, palm_code);
2346 _device_touch_count_update(edev);
2348 edev->touch.coords = calloc(1, sizeof(E_Input_Coord)*e_input_touch_max_count_get());
2350 if (!edev->touch.coords)
2351 ERR("Failed to allocate memory for touch coords !\n");
2354 output_name = libinput_device_get_output_name(device);
2357 eina_stringshare_replace(&edev->output_name, output_name);
2358 ELOGF("E_INPUT_EVDEV", "Device has output_name:%s", NULL, output_name);
2361 libinput_device_set_user_data(device, edev);
2362 libinput_device_ref(device);
2364 /* configure device */
2365 _device_configure(edev);
2368 g_rec_mutex_unlock(&e_input->libinput_mutex);
2374 _e_input_evdev_device_destroy(E_Input_Evdev *edev)
2377 E_Input *e_input = e_input_get();
2379 EINA_SAFETY_ON_NULL_RETURN(edev);
2381 ecore_thread_main_loop_begin();
2383 if (edev->caps & E_INPUT_SEAT_KEYBOARD)
2385 g_mutex_lock(&edev->xkb.state_mutex);
2386 if (edev->xkb.state) xkb_state_unref(edev->xkb.state);
2387 g_mutex_unlock(&edev->xkb.state_mutex);
2389 g_mutex_lock(&edev->xkb.keymap_mutex);
2390 if (edev->xkb.keymap) xkb_map_unref(edev->xkb.keymap);
2391 g_mutex_unlock(&edev->xkb.keymap_mutex);
2394 if (edev->ecore_dev) ecore_device_del(edev->ecore_dev);
2395 if (edev->ecore_dev_list)
2396 EINA_LIST_FREE(edev->ecore_dev_list, dev)
2398 ecore_device_del(dev);
2401 if (edev->e_dev) g_object_unref(edev->e_dev);
2402 if (edev->e_dev_list)
2404 GList *glist = edev->e_dev_list;
2408 e_dev = glist->data;
2409 g_object_unref(e_dev);
2411 glist = g_list_next(glist);
2414 if (edev->path) eina_stringshare_del(edev->path);
2415 if (e_input) g_rec_mutex_lock(&e_input->libinput_mutex);
2416 if (edev->device) libinput_device_unref(edev->device);
2417 if (e_input) g_rec_mutex_unlock(&e_input->libinput_mutex);
2418 if (edev->key_remap_hash) eina_hash_free(edev->key_remap_hash);
2419 if (edev->touch.coords)
2421 free(edev->touch.coords);
2422 edev->touch.coords = NULL;
2424 eina_stringshare_del(edev->output_name);
2426 ecore_thread_main_loop_end();
2432 _e_input_evdev_event_process(struct libinput_event *event)
2434 struct libinput_device *device;
2435 Eina_Bool ret = EINA_TRUE;
2437 device = libinput_event_get_device(event);
2438 switch (libinput_event_get_type(event))
2440 case LIBINPUT_EVENT_KEYBOARD_KEY:
2441 _device_handle_key(device, libinput_event_get_keyboard_event(event));
2443 case LIBINPUT_EVENT_POINTER_MOTION:
2444 _device_handle_pointer_motion(device,
2445 libinput_event_get_pointer_event(event));
2447 case LIBINPUT_EVENT_POINTER_MOTION_ABSOLUTE:
2448 _device_handle_pointer_motion_absolute(device,
2449 libinput_event_get_pointer_event(event));
2451 case LIBINPUT_EVENT_POINTER_BUTTON:
2452 _device_handle_button(device, libinput_event_get_pointer_event(event));
2454 case LIBINPUT_EVENT_POINTER_AXIS:
2455 #if !LIBINPUT_HAVE_SCROLL_VALUE_V120
2456 _device_handle_axis(device, libinput_event_get_pointer_event(event));
2459 #if LIBINPUT_HAVE_SCROLL_VALUE_V120
2460 case LIBINPUT_EVENT_POINTER_SCROLL_WHEEL:
2461 _device_handle_axis_v120(device, libinput_event_get_pointer_event(event), E_INPUT_AXIS_SOURCE_WHEEL);
2463 case LIBINPUT_EVENT_POINTER_SCROLL_FINGER:
2464 _device_handle_axis_v120(device, libinput_event_get_pointer_event(event), E_INPUT_AXIS_SOURCE_FINGER);
2466 case LIBINPUT_EVENT_POINTER_SCROLL_CONTINUOUS:
2467 _device_handle_axis_v120(device, libinput_event_get_pointer_event(event), E_INPUT_AXIS_SOURCE_CONTINUOUS);
2470 case LIBINPUT_EVENT_TOUCH_DOWN:
2471 _device_handle_touch_down(device, libinput_event_get_touch_event(event));
2473 case LIBINPUT_EVENT_TOUCH_MOTION:
2474 _device_handle_touch_motion(device,
2475 libinput_event_get_touch_event(event));
2477 case LIBINPUT_EVENT_TOUCH_UP:
2478 _device_handle_touch_up(device, libinput_event_get_touch_event(event));
2480 case LIBINPUT_EVENT_TOUCH_CANCEL:
2481 _device_handle_touch_cancel(device, libinput_event_get_touch_event(event));
2483 case LIBINPUT_EVENT_TOUCH_FRAME:
2484 _device_handle_touch_frame(device, libinput_event_get_touch_event(event));
2486 case LIBINPUT_EVENT_TOUCH_AUX_DATA:
2487 _device_handle_touch_aux_data(device, libinput_event_get_touch_aux_data(event));
2498 * @brief Set the axis size of the given device.
2500 * @param dev The device to set the axis size to.
2501 * @param w The width of the axis.
2502 * @param h The height of the axis.
2504 * This function sets set the width @p w and height @p h of the axis
2505 * of device @p dev. If @p dev is a relative input device, a width and
2506 * height must set for it. If its absolute set the ioctl correctly, if
2507 * not, unsupported device.
2510 e_input_evdev_axis_size_set(E_Input_Evdev *edev, int w, int h)
2512 const char *sysname;
2517 enum libinput_config_status status;
2519 EINA_SAFETY_ON_NULL_RETURN(edev);
2520 EINA_SAFETY_ON_TRUE_RETURN((w == 0) || (h == 0));
2522 if ((!libinput_device_config_calibration_has_matrix(edev->device)) ||
2523 (libinput_device_config_calibration_get_default_matrix(edev->device, cal) != 0))
2526 sysname = libinput_device_get_sysname(edev->device);
2528 devices = eeze_udev_find_by_subsystem_sysname("input", sysname);
2529 if (eina_list_count(devices) < 1) return;
2531 EINA_LIST_FREE(devices, device)
2533 vals = eeze_udev_syspath_get_property(device, "WL_CALIBRATION");
2535 (sscanf(vals, "%f %f %f %f %f %f",
2536 &cal[0], &cal[1], &cal[2], &cal[3], &cal[4], &cal[5]) != 6))
2543 libinput_device_config_calibration_set_matrix(edev->device, cal);
2545 if (status != LIBINPUT_CONFIG_STATUS_SUCCESS)
2546 ERR("Failed to apply calibration");
2549 eina_stringshare_del(device);
2554 EINTERN const char *
2555 e_input_evdev_name_get(E_Input_Evdev *evdev)
2557 EINA_SAFETY_ON_NULL_RETURN_VAL(evdev, NULL);
2558 EINA_SAFETY_ON_NULL_RETURN_VAL(evdev->device, NULL);
2560 return libinput_device_get_name(evdev->device);
2563 EINTERN const char *
2564 e_input_evdev_sysname_get(E_Input_Evdev *evdev)
2566 EINA_SAFETY_ON_NULL_RETURN_VAL(evdev, NULL);
2567 EINA_SAFETY_ON_NULL_RETURN_VAL(evdev->device, NULL);
2569 return libinput_device_get_sysname(evdev->device);
2573 e_input_evdev_key_remap_enable(E_Input_Evdev *edev, Eina_Bool enable)
2575 EINA_SAFETY_ON_NULL_RETURN_VAL(edev, EINA_FALSE);
2576 EINA_SAFETY_ON_NULL_RETURN_VAL(edev->device, EINA_FALSE);
2578 edev->key_remap_enabled = enable;
2580 if (enable == EINA_FALSE && edev->key_remap_hash)
2582 eina_hash_free(edev->key_remap_hash);
2583 edev->key_remap_hash = NULL;
2590 e_input_evdev_key_remap_set(E_Input_Evdev *edev, int *from_keys, int *to_keys, int num)
2594 EINA_SAFETY_ON_NULL_RETURN_VAL(edev, EINA_FALSE);
2595 EINA_SAFETY_ON_NULL_RETURN_VAL(edev->device, EINA_FALSE);
2596 EINA_SAFETY_ON_NULL_RETURN_VAL(from_keys, EINA_FALSE);
2597 EINA_SAFETY_ON_NULL_RETURN_VAL(to_keys, EINA_FALSE);
2598 EINA_SAFETY_ON_TRUE_RETURN_VAL(num <= 0, EINA_FALSE);
2599 EINA_SAFETY_ON_TRUE_RETURN_VAL(!edev->key_remap_enabled, EINA_FALSE);
2601 if (edev->key_remap_hash == NULL)
2602 edev->key_remap_hash = eina_hash_int32_new(NULL);
2604 if (edev->key_remap_hash == NULL)
2606 ERR("Failed to set remap key information : creating a hash is failed.");
2610 for (i = 0; i < num ; i++)
2612 if (!from_keys[i] || !to_keys[i])
2614 ERR("Failed to set remap key information : given arguments are invalid.");
2619 for (i = 0; i < num ; i++)
2621 eina_hash_add(edev->key_remap_hash, &from_keys[i], (void *)(intptr_t)to_keys[i]);
2628 e_input_evdev_wheel_click_angle_get(E_Input_Evdev *dev)
2630 EINA_SAFETY_ON_NULL_RETURN_VAL(dev, -1);
2631 return libinput_device_config_scroll_get_wheel_click_angle(dev->device);
2635 e_input_evdev_touch_calibration_set(E_Input_Evdev *edev, float matrix[6])
2637 EINA_SAFETY_ON_NULL_RETURN_VAL(edev, EINA_FALSE);
2638 EINA_SAFETY_ON_NULL_RETURN_VAL(edev->device, EINA_FALSE);
2640 if (!libinput_device_config_calibration_has_matrix(edev->device) ||
2641 !libinput_device_has_capability(edev->device, LIBINPUT_DEVICE_CAP_TOUCH))
2644 if (libinput_device_config_calibration_set_matrix(edev->device, matrix) !=
2645 LIBINPUT_CONFIG_STATUS_SUCCESS)
2647 WRN("Failed to set input transformation about device: %s\n",
2648 libinput_device_get_name(edev->device));
2656 e_input_evdev_mouse_accel_speed_set(E_Input_Evdev *edev, double speed)
2658 EINA_SAFETY_ON_NULL_RETURN_VAL(edev, EINA_FALSE);
2659 EINA_SAFETY_ON_NULL_RETURN_VAL(edev->device, EINA_FALSE);
2661 if (!libinput_device_has_capability(edev->device, LIBINPUT_DEVICE_CAP_POINTER))
2664 if (!libinput_device_config_accel_is_available(edev->device))
2667 if (libinput_device_config_accel_set_speed(edev->device, speed) !=
2668 LIBINPUT_CONFIG_STATUS_SUCCESS)
2670 WRN("Failed to set mouse accel about device: %s\n",
2671 libinput_device_get_name(edev->device));
2678 EINTERN unsigned int
2679 e_input_evdev_touch_pressed_get(E_Input_Evdev *edev)
2681 EINA_SAFETY_ON_NULL_RETURN_VAL(edev, 0x0);
2683 return edev->touch.pressed;
2687 e_input_evdev_seatname_get(E_Input_Evdev *evdev)
2689 struct libinput_seat *libinput_seat;
2690 EINA_SAFETY_ON_NULL_RETURN_VAL(evdev, NULL);
2691 EINA_SAFETY_ON_NULL_RETURN_VAL(evdev->device, NULL);
2693 libinput_seat = libinput_device_get_seat(evdev->device);
2695 return libinput_seat_get_logical_name(libinput_seat);
2699 e_input_evdev_seatname_set(E_Input_Evdev *evdev, const char *seatname)
2701 Eina_Bool res = EINA_FALSE;
2702 E_Input_Backend *input;
2703 E_Input *e_input = e_input_get();
2705 EINA_SAFETY_ON_NULL_RETURN_VAL(seatname, EINA_FALSE);
2706 EINA_SAFETY_ON_NULL_RETURN_VAL(evdev, EINA_FALSE);
2707 EINA_SAFETY_ON_NULL_RETURN_VAL(evdev->device, EINA_FALSE);
2709 if (libinput_device_set_seat_logical_name(evdev->device, seatname) == 0)
2711 input = evdev->seat->input;
2712 if (!input) return EINA_FALSE;
2715 g_rec_mutex_lock(&e_input->libinput_mutex);
2717 if (libinput_dispatch(input->libinput) != 0)
2719 ERR("Failed to dispatch libinput events: %m");
2722 g_rec_mutex_unlock(&e_input->libinput_mutex);
2728 g_rec_mutex_unlock(&e_input->libinput_mutex);
2730 /* process pending events */
2731 _input_events_process(input);