mutter/src/backends/native/meta-seat-native.c

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/*
* Clutter.
*
* An OpenGL based 'interactive canvas' library.
*
* Copyright (C) 2010 Intel Corp.
* Copyright (C) 2014 Jonas Ådahl
* Copyright (C) 2016 Red Hat Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see <http://www.gnu.org/licenses/>.
*
* Author: Damien Lespiau <damien.lespiau@intel.com>
* Author: Jonas Ådahl <jadahl@gmail.com>
*/
#include "config.h"
#include <errno.h>
#include <fcntl.h>
#include <libinput.h>
#include <linux/input.h>
#include <math.h>
#include "backends/native/meta-seat-native.h"
#include "backends/native/meta-event-native.h"
#include "backends/native/meta-input-device-native.h"
#include "backends/native/meta-input-device-tool-native.h"
#include "backends/native/meta-keymap-native.h"
#include "backends/native/meta-virtual-input-device-native.h"
#include "clutter/clutter-mutter.h"
#include "core/bell.h"
/*
* Clutter makes the assumption that two core devices have ID's 2 and 3 (core
* pointer and core keyboard).
*
* Since the two first devices that will ever be created will be the virtual
* pointer and virtual keyboard of the first seat, we fulfill the made
* assumptions by having the first device having ID 2 and following 3.
*/
#define INITIAL_DEVICE_ID 2
/* Try to keep the pointer inside the stage. Hopefully no one is using
* this backend with stages smaller than this. */
#define INITIAL_POINTER_X 16
#define INITIAL_POINTER_Y 16
#define AUTOREPEAT_VALUE 2
#define DISCRETE_SCROLL_STEP 10.0
#ifndef BTN_STYLUS3
#define BTN_STYLUS3 0x149 /* Linux 4.15 */
#endif
typedef struct _MetaEventFilter MetaEventFilter;
struct _MetaEventFilter
{
MetaEvdevFilterFunc func;
gpointer data;
GDestroyNotify destroy_notify;
};
struct _MetaEventSource
{
GSource source;
MetaSeatNative *seat;
GPollFD event_poll_fd;
};
static MetaOpenDeviceCallback device_open_callback;
static MetaCloseDeviceCallback device_close_callback;
static gpointer device_callback_data;
#ifdef CLUTTER_ENABLE_DEBUG
static const char *device_type_str[] = {
"pointer", /* CLUTTER_POINTER_DEVICE */
"keyboard", /* CLUTTER_KEYBOARD_DEVICE */
"extension", /* CLUTTER_EXTENSION_DEVICE */
"joystick", /* CLUTTER_JOYSTICK_DEVICE */
"tablet", /* CLUTTER_TABLET_DEVICE */
"touchpad", /* CLUTTER_TOUCHPAD_DEVICE */
"touchscreen", /* CLUTTER_TOUCHSCREEN_DEVICE */
"pen", /* CLUTTER_PEN_DEVICE */
"eraser", /* CLUTTER_ERASER_DEVICE */
"cursor", /* CLUTTER_CURSOR_DEVICE */
"pad", /* CLUTTER_PAD_DEVICE */
};
#endif /* CLUTTER_ENABLE_DEBUG */
enum
{
PROP_0,
PROP_SEAT_ID,
N_PROPS
};
GParamSpec *props[N_PROPS] = { NULL };
G_DEFINE_TYPE (MetaSeatNative, meta_seat_native, CLUTTER_TYPE_SEAT)
static void process_events (MetaSeatNative *seat);
void
meta_seat_native_set_libinput_seat (MetaSeatNative *seat,
struct libinput_seat *libinput_seat)
{
g_assert (seat->libinput_seat == NULL);
libinput_seat_ref (libinput_seat);
libinput_seat_set_user_data (libinput_seat, seat);
seat->libinput_seat = libinput_seat;
}
void
meta_seat_native_sync_leds (MetaSeatNative *seat)
{
GSList *iter;
MetaInputDeviceNative *device_evdev;
int caps_lock, num_lock, scroll_lock;
enum libinput_led leds = 0;
caps_lock = xkb_state_led_index_is_active (seat->xkb, seat->caps_lock_led);
num_lock = xkb_state_led_index_is_active (seat->xkb, seat->num_lock_led);
scroll_lock = xkb_state_led_index_is_active (seat->xkb, seat->scroll_lock_led);
if (caps_lock)
leds |= LIBINPUT_LED_CAPS_LOCK;
if (num_lock)
leds |= LIBINPUT_LED_NUM_LOCK;
if (scroll_lock)
leds |= LIBINPUT_LED_SCROLL_LOCK;
for (iter = seat->devices; iter; iter = iter->next)
{
device_evdev = iter->data;
meta_input_device_native_update_leds (device_evdev, leds);
}
}
static void
clutter_touch_state_free (MetaTouchState *touch_state)
{
g_slice_free (MetaTouchState, touch_state);
}
static void
ensure_seat_slot_allocated (MetaSeatNative *seat,
int seat_slot)
{
if (seat_slot >= seat->n_alloc_touch_states)
{
const int size_increase = 5;
int i;
seat->n_alloc_touch_states += size_increase;
seat->touch_states = g_realloc_n (seat->touch_states,
seat->n_alloc_touch_states,
sizeof (MetaTouchState *));
for (i = 0; i < size_increase; i++)
seat->touch_states[seat->n_alloc_touch_states - (i + 1)] = NULL;
}
}
MetaTouchState *
meta_seat_native_acquire_touch_state (MetaSeatNative *seat,
int device_slot)
{
MetaTouchState *touch_state;
int seat_slot;
for (seat_slot = 0; seat_slot < seat->n_alloc_touch_states; seat_slot++)
{
if (!seat->touch_states[seat_slot])
break;
}
ensure_seat_slot_allocated (seat, seat_slot);
touch_state = g_slice_new0 (MetaTouchState);
*touch_state = (MetaTouchState) {
.seat = seat,
.seat_slot = seat_slot,
.device_slot = device_slot,
};
seat->touch_states[seat_slot] = touch_state;
return touch_state;
}
void
meta_seat_native_release_touch_state (MetaSeatNative *seat,
MetaTouchState *touch_state)
{
g_clear_pointer (&seat->touch_states[touch_state->seat_slot],
clutter_touch_state_free);
}
void
meta_seat_native_clear_repeat_timer (MetaSeatNative *seat)
{
if (seat->repeat_timer)
{
g_clear_handle_id (&seat->repeat_timer, g_source_remove);
g_clear_object (&seat->repeat_device);
}
}
static void
dispatch_libinput (MetaSeatNative *seat)
{
libinput_dispatch (seat->libinput);
process_events (seat);
}
static gboolean
keyboard_repeat (gpointer data)
{
MetaSeatNative *seat = data;
GSource *source;
/* There might be events queued in libinput that could cancel the
repeat timer. */
dispatch_libinput (seat);
if (!seat->repeat_timer)
return G_SOURCE_REMOVE;
g_return_val_if_fail (seat->repeat_device != NULL, G_SOURCE_REMOVE);
source = g_main_context_find_source_by_id (NULL, seat->repeat_timer);
meta_seat_native_notify_key (seat,
seat->repeat_device,
g_source_get_time (source),
seat->repeat_key,
AUTOREPEAT_VALUE,
FALSE);
return G_SOURCE_CONTINUE;
}
static void
queue_event (ClutterEvent *event)
{
_clutter_event_push (event, FALSE);
}
static int
update_button_count (MetaSeatNative *seat,
uint32_t button,
uint32_t state)
{
if (state)
{
return ++seat->button_count[button];
}
else
{
/* Handle cases where we newer saw the initial pressed event. */
if (seat->button_count[button] == 0)
return 0;
return --seat->button_count[button];
}
}
void
meta_seat_native_notify_key (MetaSeatNative *seat,
ClutterInputDevice *device,
uint64_t time_us,
uint32_t key,
uint32_t state,
gboolean update_keys)
{
ClutterStage *stage;
ClutterEvent *event = NULL;
enum xkb_state_component changed_state;
if (state != AUTOREPEAT_VALUE)
{
/* Drop any repeated button press (for example from virtual devices. */
int count = update_button_count (seat, key, state);
if (state && count > 1)
return;
if (!state && count != 0)
return;
}
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (device);
if (stage == NULL)
{
meta_seat_native_clear_repeat_timer (seat);
return;
}
event = meta_key_event_new_from_evdev (device,
seat->core_keyboard,
stage,
seat->xkb,
seat->button_state,
us2ms (time_us), key, state);
meta_event_native_set_event_code (event, key);
/* We must be careful and not pass multiple releases to xkb, otherwise it gets
confused and locks the modifiers */
if (state != AUTOREPEAT_VALUE)
{
changed_state = xkb_state_update_key (seat->xkb,
event->key.hardware_keycode,
state ? XKB_KEY_DOWN : XKB_KEY_UP);
}
else
{
changed_state = 0;
clutter_event_set_flags (event, CLUTTER_EVENT_FLAG_REPEATED);
}
queue_event (event);
if (update_keys && (changed_state & XKB_STATE_LEDS))
{
g_signal_emit_by_name (seat->keymap, "state-changed");
meta_seat_native_sync_leds (seat);
meta_input_device_native_a11y_maybe_notify_toggle_keys (META_INPUT_DEVICE_NATIVE (seat->core_keyboard));
}
if (state == 0 || /* key release */
!seat->repeat ||
!xkb_keymap_key_repeats (xkb_state_get_keymap (seat->xkb),
event->key.hardware_keycode))
{
meta_seat_native_clear_repeat_timer (seat);
return;
}
if (state == 1) /* key press */
seat->repeat_count = 0;
seat->repeat_count += 1;
seat->repeat_key = key;
switch (seat->repeat_count)
{
case 1:
case 2:
{
uint32_t interval;
meta_seat_native_clear_repeat_timer (seat);
seat->repeat_device = g_object_ref (device);
if (seat->repeat_count == 1)
interval = seat->repeat_delay;
else
interval = seat->repeat_interval;
seat->repeat_timer =
clutter_threads_add_timeout_full (CLUTTER_PRIORITY_EVENTS,
interval,
keyboard_repeat,
seat,
NULL);
return;
}
default:
return;
}
}
static ClutterEvent *
new_absolute_motion_event (MetaSeatNative *seat,
ClutterInputDevice *input_device,
uint64_t time_us,
float x,
float y,
double *axes)
{
ClutterStage *stage = _clutter_input_device_get_stage (input_device);
ClutterEvent *event;
event = clutter_event_new (CLUTTER_MOTION);
if (clutter_input_device_get_device_type (input_device) != CLUTTER_TABLET_DEVICE)
{
meta_seat_native_constrain_pointer (seat,
seat->core_pointer,
time_us,
seat->pointer_x,
seat->pointer_y,
&x, &y);
}
meta_event_native_set_time_usec (event, time_us);
event->motion.time = us2ms (time_us);
event->motion.stage = stage;
meta_xkb_translate_state (event, seat->xkb, seat->button_state);
event->motion.x = x;
event->motion.y = y;
event->motion.axes = axes;
clutter_event_set_device (event, seat->core_pointer);
clutter_event_set_source_device (event, input_device);
if (clutter_input_device_get_device_type (input_device) == CLUTTER_TABLET_DEVICE)
{
MetaInputDeviceNative *device_evdev =
META_INPUT_DEVICE_NATIVE (input_device);
clutter_event_set_device_tool (event, device_evdev->last_tool);
clutter_event_set_device (event, input_device);
}
else
{
clutter_event_set_device (event, seat->core_pointer);
}
_clutter_input_device_set_stage (seat->core_pointer, stage);
if (clutter_input_device_get_device_type (input_device) != CLUTTER_TABLET_DEVICE)
{
seat->pointer_x = x;
seat->pointer_y = y;
}
return event;
}
void
meta_seat_native_notify_relative_motion (MetaSeatNative *seat,
ClutterInputDevice *input_device,
uint64_t time_us,
float dx,
float dy,
float dx_unaccel,
float dy_unaccel)
{
float new_x, new_y;
ClutterEvent *event;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
if (!_clutter_input_device_get_stage (input_device))
return;
meta_seat_native_filter_relative_motion (seat,
input_device,
seat->pointer_x,
seat->pointer_y,
&dx,
&dy);
new_x = seat->pointer_x + dx;
new_y = seat->pointer_y + dy;
event = new_absolute_motion_event (seat, input_device,
time_us, new_x, new_y, NULL);
meta_event_native_set_relative_motion (event,
dx, dy,
dx_unaccel, dy_unaccel);
queue_event (event);
}
void
meta_seat_native_notify_absolute_motion (MetaSeatNative *seat,
ClutterInputDevice *input_device,
uint64_t time_us,
float x,
float y,
double *axes)
{
ClutterEvent *event;
event = new_absolute_motion_event (seat, input_device, time_us, x, y, axes);
queue_event (event);
}
void
meta_seat_native_notify_button (MetaSeatNative *seat,
ClutterInputDevice *input_device,
uint64_t time_us,
uint32_t button,
uint32_t state)
{
MetaInputDeviceNative *device_evdev = (MetaInputDeviceNative *) input_device;
ClutterStage *stage;
ClutterEvent *event = NULL;
int button_nr;
static int maskmap[8] =
{
CLUTTER_BUTTON1_MASK, CLUTTER_BUTTON3_MASK, CLUTTER_BUTTON2_MASK,
CLUTTER_BUTTON4_MASK, CLUTTER_BUTTON5_MASK, 0, 0, 0
};
int button_count;
/* Drop any repeated button press (for example from virtual devices. */
button_count = update_button_count (seat, button, state);
if (state && button_count > 1)
return;
if (!state && button_count != 0)
return;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
/* The evdev button numbers don't map sequentially to clutter button
* numbers (the right and middle mouse buttons are in the opposite
* order) so we'll map them directly with a switch statement */
switch (button)
{
case BTN_LEFT:
case BTN_TOUCH:
button_nr = CLUTTER_BUTTON_PRIMARY;
break;
case BTN_RIGHT:
case BTN_STYLUS:
button_nr = CLUTTER_BUTTON_SECONDARY;
break;
case BTN_MIDDLE:
case BTN_STYLUS2:
button_nr = CLUTTER_BUTTON_MIDDLE;
break;
case 0x149: /* BTN_STYLUS3 */
button_nr = 8;
break;
default:
/* For compatibility reasons, all additional buttons go after the old 4-7 scroll ones */
if (clutter_input_device_get_device_type (input_device) == CLUTTER_TABLET_DEVICE)
button_nr = button - BTN_TOOL_PEN + 4;
else
button_nr = button - (BTN_LEFT - 1) + 4;
break;
}
if (button_nr < 1 || button_nr > 12)
{
g_warning ("Unhandled button event 0x%x", button);
return;
}
if (state)
event = clutter_event_new (CLUTTER_BUTTON_PRESS);
else
event = clutter_event_new (CLUTTER_BUTTON_RELEASE);
if (button_nr < G_N_ELEMENTS (maskmap))
{
/* Update the modifiers */
if (state)
seat->button_state |= maskmap[button_nr - 1];
else
seat->button_state &= ~maskmap[button_nr - 1];
}
meta_event_native_set_time_usec (event, time_us);
event->button.time = us2ms (time_us);
event->button.stage = CLUTTER_STAGE (stage);
meta_xkb_translate_state (event, seat->xkb, seat->button_state);
event->button.button = button_nr;
if (clutter_input_device_get_device_type (input_device) == CLUTTER_TABLET_DEVICE)
{
graphene_point_t point;
clutter_input_device_get_coords (input_device, NULL, &point);
event->button.x = point.x;
event->button.y = point.y;
}
else
{
event->button.x = seat->pointer_x;
event->button.y = seat->pointer_y;
}
clutter_event_set_device (event, seat->core_pointer);
clutter_event_set_source_device (event, input_device);
if (device_evdev->last_tool)
{
/* Apply the button event code as per the tool mapping */
uint32_t mapped_button;
mapped_button = meta_input_device_tool_native_get_button_code (device_evdev->last_tool,
button_nr);
if (mapped_button != 0)
button = mapped_button;
}
meta_event_native_set_event_code (event, button);
if (clutter_input_device_get_device_type (input_device) == CLUTTER_TABLET_DEVICE)
{
clutter_event_set_device_tool (event, device_evdev->last_tool);
clutter_event_set_device (event, input_device);
}
else
{
clutter_event_set_device (event, seat->core_pointer);
}
_clutter_input_device_set_stage (seat->core_pointer, stage);
queue_event (event);
}
static void
notify_scroll (ClutterInputDevice *input_device,
uint64_t time_us,
double dx,
double dy,
ClutterScrollSource scroll_source,
ClutterScrollFinishFlags flags,
gboolean emulated)
{
MetaInputDeviceNative *device_evdev;
MetaSeatNative *seat;
ClutterStage *stage;
ClutterEvent *event = NULL;
double scroll_factor;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
event = clutter_event_new (CLUTTER_SCROLL);
meta_event_native_set_time_usec (event, time_us);
event->scroll.time = us2ms (time_us);
event->scroll.stage = CLUTTER_STAGE (stage);
meta_xkb_translate_state (event, seat->xkb, seat->button_state);
/* libinput pointer axis events are in pointer motion coordinate space.
* To convert to Xi2 discrete step coordinate space, multiply the factor
* 1/10. */
event->scroll.direction = CLUTTER_SCROLL_SMOOTH;
scroll_factor = 1.0 / DISCRETE_SCROLL_STEP;
clutter_event_set_scroll_delta (event,
scroll_factor * dx,
scroll_factor * dy);
event->scroll.x = seat->pointer_x;
event->scroll.y = seat->pointer_y;
clutter_event_set_device (event, seat->core_pointer);
clutter_event_set_source_device (event, input_device);
event->scroll.scroll_source = scroll_source;
event->scroll.finish_flags = flags;
_clutter_event_set_pointer_emulated (event, emulated);
queue_event (event);
}
static void
notify_discrete_scroll (ClutterInputDevice *input_device,
uint64_t time_us,
ClutterScrollDirection direction,
ClutterScrollSource scroll_source,
gboolean emulated)
{
MetaInputDeviceNative *device_evdev;
MetaSeatNative *seat;
ClutterStage *stage;
ClutterEvent *event = NULL;
if (direction == CLUTTER_SCROLL_SMOOTH)
return;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
event = clutter_event_new (CLUTTER_SCROLL);
meta_event_native_set_time_usec (event, time_us);
event->scroll.time = us2ms (time_us);
event->scroll.stage = CLUTTER_STAGE (stage);
meta_xkb_translate_state (event, seat->xkb, seat->button_state);
event->scroll.direction = direction;
event->scroll.x = seat->pointer_x;
event->scroll.y = seat->pointer_y;
clutter_event_set_device (event, seat->core_pointer);
clutter_event_set_source_device (event, input_device);
event->scroll.scroll_source = scroll_source;
_clutter_event_set_pointer_emulated (event, emulated);
queue_event (event);
}
static void
check_notify_discrete_scroll (MetaSeatNative *seat,
ClutterInputDevice *device,
uint64_t time_us,
ClutterScrollSource scroll_source)
{
int i, n_xscrolls, n_yscrolls;
n_xscrolls = floor (fabs (seat->accum_scroll_dx) / DISCRETE_SCROLL_STEP);
n_yscrolls = floor (fabs (seat->accum_scroll_dy) / DISCRETE_SCROLL_STEP);
for (i = 0; i < n_xscrolls; i++)
{
notify_discrete_scroll (device, time_us,
seat->accum_scroll_dx > 0 ?
CLUTTER_SCROLL_RIGHT : CLUTTER_SCROLL_LEFT,
scroll_source, TRUE);
}
for (i = 0; i < n_yscrolls; i++)
{
notify_discrete_scroll (device, time_us,
seat->accum_scroll_dy > 0 ?
CLUTTER_SCROLL_DOWN : CLUTTER_SCROLL_UP,
scroll_source, TRUE);
}
seat->accum_scroll_dx = fmodf (seat->accum_scroll_dx, DISCRETE_SCROLL_STEP);
seat->accum_scroll_dy = fmodf (seat->accum_scroll_dy, DISCRETE_SCROLL_STEP);
}
void
meta_seat_native_notify_scroll_continuous (MetaSeatNative *seat,
ClutterInputDevice *input_device,
uint64_t time_us,
double dx,
double dy,
ClutterScrollSource scroll_source,
ClutterScrollFinishFlags finish_flags)
{
if (finish_flags & CLUTTER_SCROLL_FINISHED_HORIZONTAL)
seat->accum_scroll_dx = 0;
else
seat->accum_scroll_dx += dx;
if (finish_flags & CLUTTER_SCROLL_FINISHED_VERTICAL)
seat->accum_scroll_dy = 0;
else
seat->accum_scroll_dy += dy;
notify_scroll (input_device, time_us, dx, dy, scroll_source,
finish_flags, FALSE);
check_notify_discrete_scroll (seat, input_device, time_us, scroll_source);
}
static ClutterScrollDirection
discrete_to_direction (double discrete_dx,
double discrete_dy)
{
if (discrete_dx > 0)
return CLUTTER_SCROLL_RIGHT;
else if (discrete_dx < 0)
return CLUTTER_SCROLL_LEFT;
else if (discrete_dy > 0)
return CLUTTER_SCROLL_DOWN;
else if (discrete_dy < 0)
return CLUTTER_SCROLL_UP;
else
g_assert_not_reached ();
return 0;
}
void
meta_seat_native_notify_discrete_scroll (MetaSeatNative *seat,
ClutterInputDevice *input_device,
uint64_t time_us,
double discrete_dx,
double discrete_dy,
ClutterScrollSource scroll_source)
{
notify_scroll (input_device, time_us,
discrete_dx * DISCRETE_SCROLL_STEP,
discrete_dy * DISCRETE_SCROLL_STEP,
scroll_source, CLUTTER_SCROLL_FINISHED_NONE,
TRUE);
notify_discrete_scroll (input_device, time_us,
discrete_to_direction (discrete_dx, discrete_dy),
scroll_source, FALSE);
}
void
meta_seat_native_notify_touch_event (MetaSeatNative *seat,
ClutterInputDevice *input_device,
ClutterEventType evtype,
uint64_t time_us,
int slot,
double x,
double y)
{
ClutterStage *stage;
ClutterEvent *event = NULL;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
event = clutter_event_new (evtype);
meta_event_native_set_time_usec (event, time_us);
event->touch.time = us2ms (time_us);
event->touch.stage = CLUTTER_STAGE (stage);
event->touch.x = x;
event->touch.y = y;
meta_input_device_native_translate_coordinates (input_device, stage,
&event->touch.x,
&event->touch.y);
/* "NULL" sequences are special cased in clutter */
event->touch.sequence = GINT_TO_POINTER (MAX (1, slot + 1));
meta_xkb_translate_state (event, seat->xkb, seat->button_state);
if (evtype == CLUTTER_TOUCH_BEGIN ||
evtype == CLUTTER_TOUCH_UPDATE)
event->touch.modifier_state |= CLUTTER_BUTTON1_MASK;
clutter_event_set_device (event, seat->core_pointer);
clutter_event_set_source_device (event, input_device);
queue_event (event);
}
/*
* MetaEventSource for reading input devices
*/
static gboolean
meta_event_prepare (GSource *source,
gint *timeout)
{
gboolean retval;
_clutter_threads_acquire_lock ();
*timeout = -1;
retval = clutter_events_pending ();
_clutter_threads_release_lock ();
return retval;
}
static gboolean
meta_event_check (GSource *source)
{
MetaEventSource *event_source = (MetaEventSource *) source;
gboolean retval;
_clutter_threads_acquire_lock ();
retval = ((event_source->event_poll_fd.revents & G_IO_IN) ||
clutter_events_pending ());
_clutter_threads_release_lock ();
return retval;
}
void
meta_seat_native_constrain_pointer (MetaSeatNative *seat,
ClutterInputDevice *core_pointer,
uint64_t time_us,
float x,
float y,
float *new_x,
float *new_y)
{
if (seat->constrain_callback)
{
seat->constrain_callback (core_pointer,
us2ms (time_us),
x, y,
new_x, new_y,
seat->constrain_data);
}
else
{
ClutterActor *stage = CLUTTER_ACTOR (meta_seat_native_get_stage (seat));
float stage_width = clutter_actor_get_width (stage);
float stage_height = clutter_actor_get_height (stage);
*new_x = CLAMP (x, 0.f, stage_width - 1);
*new_y = CLAMP (y, 0.f, stage_height - 1);
}
}
void
meta_seat_native_filter_relative_motion (MetaSeatNative *seat,
ClutterInputDevice *device,
float x,
float y,
float *dx,
float *dy)
{
if (!seat->relative_motion_filter)
return;
seat->relative_motion_filter (device, x, y, dx, dy,
seat->relative_motion_filter_user_data);
}
static void
notify_absolute_motion (ClutterInputDevice *input_device,
uint64_t time_us,
float x,
float y,
double *axes)
{
MetaSeatNative *seat;
ClutterEvent *event;
seat = meta_input_device_native_get_seat (META_INPUT_DEVICE_NATIVE (input_device));
event = new_absolute_motion_event (seat, input_device, time_us, x, y, axes);
queue_event (event);
}
static void
notify_relative_tool_motion (ClutterInputDevice *input_device,
uint64_t time_us,
float dx,
float dy,
double *axes)
{
MetaInputDeviceNative *device_evdev;
ClutterEvent *event;
MetaSeatNative *seat;
gfloat x, y;
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
x = input_device->current_x + dx;
y = input_device->current_y + dy;
meta_seat_native_filter_relative_motion (seat,
input_device,
seat->pointer_x,
seat->pointer_y,
&dx,
&dy);
event = new_absolute_motion_event (seat, input_device, time_us, x, y, axes);
meta_event_native_set_relative_motion (event, dx, dy, 0, 0);
queue_event (event);
}
static void
notify_pinch_gesture_event (ClutterInputDevice *input_device,
ClutterTouchpadGesturePhase phase,
uint64_t time_us,
double dx,
double dy,
double angle_delta,
double scale,
uint32_t n_fingers)
{
MetaInputDeviceNative *device_evdev;
MetaSeatNative *seat;
ClutterStage *stage;
ClutterEvent *event = NULL;
graphene_point_t pos;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
event = clutter_event_new (CLUTTER_TOUCHPAD_PINCH);
clutter_input_device_get_coords (seat->core_pointer, NULL, &pos);
meta_event_native_set_time_usec (event, time_us);
event->touchpad_pinch.phase = phase;
event->touchpad_pinch.time = us2ms (time_us);
event->touchpad_pinch.stage = CLUTTER_STAGE (stage);
event->touchpad_pinch.x = pos.x;
event->touchpad_pinch.y = pos.y;
event->touchpad_pinch.dx = dx;
event->touchpad_pinch.dy = dy;
event->touchpad_pinch.angle_delta = angle_delta;
event->touchpad_pinch.scale = scale;
event->touchpad_pinch.n_fingers = n_fingers;
meta_xkb_translate_state (event, seat->xkb, seat->button_state);
clutter_event_set_device (event, seat->core_pointer);
clutter_event_set_source_device (event, input_device);
queue_event (event);
}
static void
notify_swipe_gesture_event (ClutterInputDevice *input_device,
ClutterTouchpadGesturePhase phase,
uint64_t time_us,
uint32_t n_fingers,
double dx,
double dy)
{
MetaInputDeviceNative *device_evdev;
MetaSeatNative *seat;
ClutterStage *stage;
ClutterEvent *event = NULL;
graphene_point_t pos;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
event = clutter_event_new (CLUTTER_TOUCHPAD_SWIPE);
meta_event_native_set_time_usec (event, time_us);
event->touchpad_swipe.phase = phase;
event->touchpad_swipe.time = us2ms (time_us);
event->touchpad_swipe.stage = CLUTTER_STAGE (stage);
clutter_input_device_get_coords (seat->core_pointer, NULL, &pos);
event->touchpad_swipe.x = pos.x;
event->touchpad_swipe.y = pos.y;
event->touchpad_swipe.dx = dx;
event->touchpad_swipe.dy = dy;
event->touchpad_swipe.n_fingers = n_fingers;
meta_xkb_translate_state (event, seat->xkb, seat->button_state);
clutter_event_set_device (event, seat->core_pointer);
clutter_event_set_source_device (event, input_device);
queue_event (event);
}
static void
notify_proximity (ClutterInputDevice *input_device,
uint64_t time_us,
gboolean in)
{
MetaInputDeviceNative *device_evdev;
MetaSeatNative *seat;
ClutterStage *stage;
ClutterEvent *event = NULL;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
if (in)
event = clutter_event_new (CLUTTER_PROXIMITY_IN);
else
event = clutter_event_new (CLUTTER_PROXIMITY_OUT);
meta_event_native_set_time_usec (event, time_us);
event->proximity.time = us2ms (time_us);
event->proximity.stage = CLUTTER_STAGE (stage);
clutter_event_set_device_tool (event, device_evdev->last_tool);
clutter_event_set_device (event, seat->core_pointer);
clutter_event_set_source_device (event, input_device);
_clutter_input_device_set_stage (seat->core_pointer, stage);
queue_event (event);
}
static void
notify_pad_button (ClutterInputDevice *input_device,
uint64_t time_us,
uint32_t button,
uint32_t mode_group,
uint32_t mode,
uint32_t pressed)
{
MetaInputDeviceNative *device_evdev;
MetaSeatNative *seat;
ClutterStage *stage;
ClutterEvent *event;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
if (pressed)
event = clutter_event_new (CLUTTER_PAD_BUTTON_PRESS);
else
event = clutter_event_new (CLUTTER_PAD_BUTTON_RELEASE);
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
meta_event_native_set_time_usec (event, time_us);
event->pad_button.stage = stage;
event->pad_button.button = button;
event->pad_button.group = mode_group;
event->pad_button.mode = mode;
clutter_event_set_device (event, input_device);
clutter_event_set_source_device (event, input_device);
clutter_event_set_time (event, us2ms (time_us));
_clutter_input_device_set_stage (seat->core_pointer, stage);
queue_event (event);
}
static void
notify_pad_strip (ClutterInputDevice *input_device,
uint64_t time_us,
uint32_t strip_number,
uint32_t strip_source,
uint32_t mode_group,
uint32_t mode,
double value)
{
MetaInputDeviceNative *device_evdev;
ClutterInputDevicePadSource source;
MetaSeatNative *seat;
ClutterStage *stage;
ClutterEvent *event;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
if (strip_source == LIBINPUT_TABLET_PAD_STRIP_SOURCE_FINGER)
source = CLUTTER_INPUT_DEVICE_PAD_SOURCE_FINGER;
else
source = CLUTTER_INPUT_DEVICE_PAD_SOURCE_UNKNOWN;
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
event = clutter_event_new (CLUTTER_PAD_STRIP);
meta_event_native_set_time_usec (event, time_us);
event->pad_strip.strip_source = source;
event->pad_strip.stage = stage;
event->pad_strip.strip_number = strip_number;
event->pad_strip.value = value;
event->pad_strip.group = mode_group;
event->pad_strip.mode = mode;
clutter_event_set_device (event, input_device);
clutter_event_set_source_device (event, input_device);
clutter_event_set_time (event, us2ms (time_us));
_clutter_input_device_set_stage (seat->core_pointer, stage);
queue_event (event);
}
static void
notify_pad_ring (ClutterInputDevice *input_device,
uint64_t time_us,
uint32_t ring_number,
uint32_t ring_source,
uint32_t mode_group,
uint32_t mode,
double angle)
{
MetaInputDeviceNative *device_evdev;
ClutterInputDevicePadSource source;
MetaSeatNative *seat;
ClutterStage *stage;
ClutterEvent *event;
/* We can drop the event on the floor if no stage has been
* associated with the device yet. */
stage = _clutter_input_device_get_stage (input_device);
if (stage == NULL)
return;
if (ring_source == LIBINPUT_TABLET_PAD_RING_SOURCE_FINGER)
source = CLUTTER_INPUT_DEVICE_PAD_SOURCE_FINGER;
else
source = CLUTTER_INPUT_DEVICE_PAD_SOURCE_UNKNOWN;
device_evdev = META_INPUT_DEVICE_NATIVE (input_device);
seat = meta_input_device_native_get_seat (device_evdev);
event = clutter_event_new (CLUTTER_PAD_RING);
meta_event_native_set_time_usec (event, time_us);
event->pad_ring.ring_source = source;
event->pad_ring.stage = stage;
event->pad_ring.ring_number = ring_number;
event->pad_ring.angle = angle;
event->pad_ring.group = mode_group;
event->pad_ring.mode = mode;
clutter_event_set_device (event, input_device);
clutter_event_set_source_device (event, input_device);
clutter_event_set_time (event, us2ms (time_us));
_clutter_input_device_set_stage (seat->core_pointer, stage);
queue_event (event);
}
static gboolean
meta_event_dispatch (GSource *g_source,
GSourceFunc callback,
gpointer user_data)
{
MetaEventSource *source = (MetaEventSource *) g_source;
MetaSeatNative *seat;
ClutterEvent *event;
_clutter_threads_acquire_lock ();
seat = source->seat;
/* Don't queue more events if we haven't finished handling the previous batch
*/
if (clutter_events_pending ())
goto queue_event;
dispatch_libinput (seat);
queue_event:
event = clutter_event_get ();
if (event)
{
ClutterModifierType event_state;
ClutterInputDevice *input_device =
clutter_event_get_source_device (event);
MetaInputDeviceNative *device_evdev =
META_INPUT_DEVICE_NATIVE (input_device);
MetaSeatNative *seat =
meta_input_device_native_get_seat (device_evdev);
/* Drop events if we don't have any stage to forward them to */
if (!_clutter_input_device_get_stage (input_device))
goto out;
/* update the device states *before* the event */
event_state = seat->button_state |
xkb_state_serialize_mods (seat->xkb, XKB_STATE_MODS_EFFECTIVE);
_clutter_input_device_set_state (seat->core_pointer, event_state);
_clutter_input_device_set_state (seat->core_keyboard, event_state);
/* forward the event into clutter for emission etc. */
_clutter_stage_queue_event (event->any.stage, event, FALSE);
}
out:
_clutter_threads_release_lock ();
return TRUE;
}
static GSourceFuncs event_funcs = {
meta_event_prepare,
meta_event_check,
meta_event_dispatch,
NULL
};
static MetaEventSource *
meta_event_source_new (MetaSeatNative *seat)
{
GSource *source;
MetaEventSource *event_source;
gint fd;
source = g_source_new (&event_funcs, sizeof (MetaEventSource));
event_source = (MetaEventSource *) source;
/* setup the source */
event_source->seat = seat;
fd = libinput_get_fd (seat->libinput);
event_source->event_poll_fd.fd = fd;
event_source->event_poll_fd.events = G_IO_IN;
/* and finally configure and attach the GSource */
g_source_set_priority (source, CLUTTER_PRIORITY_EVENTS);
g_source_add_poll (source, &event_source->event_poll_fd);
g_source_set_can_recurse (source, TRUE);
g_source_attach (source, NULL);
return event_source;
}
static void
meta_event_source_free (MetaEventSource *source)
{
GSource *g_source = (GSource *) source;
/* ignore the return value of close, it's not like we can do something
* about it */
close (source->event_poll_fd.fd);
g_source_destroy (g_source);
g_source_unref (g_source);
}
static void
evdev_add_device (MetaSeatNative *seat,
struct libinput_device *libinput_device)
{
ClutterInputDeviceType type;
ClutterInputDevice *device, *master = NULL;
ClutterActor *stage;
device = meta_input_device_native_new (seat, libinput_device);
stage = CLUTTER_ACTOR (meta_seat_native_get_stage (seat));
_clutter_input_device_set_stage (device, CLUTTER_STAGE (stage));
seat->devices = g_slist_prepend (seat->devices, device);
/* Clutter assumes that device types are exclusive in the
* ClutterInputDevice API */
type = meta_input_device_native_determine_type (libinput_device);
if (type == CLUTTER_KEYBOARD_DEVICE)
master = seat->core_keyboard;
else if (type == CLUTTER_POINTER_DEVICE)
master = seat->core_pointer;
if (master)
{
_clutter_input_device_set_associated_device (device, master);
_clutter_input_device_add_slave (master, device);
}
g_signal_emit_by_name (seat, "device-added", device);
}
static void
evdev_remove_device (MetaSeatNative *seat,
MetaInputDeviceNative *device_evdev)
{
ClutterInputDevice *device;
device = CLUTTER_INPUT_DEVICE (device_evdev);
seat->devices = g_slist_remove (seat->devices, device);
g_signal_emit_by_name (seat, "device-removed", device);
if (seat->repeat_timer && seat->repeat_device == device)
meta_seat_native_clear_repeat_timer (seat);
g_object_run_dispose (G_OBJECT (device));
g_object_unref (device);
}
static void
flush_event_queue (void)
{
ClutterEvent *event;
while ((event = clutter_event_get ()) != NULL)
{
_clutter_process_event (event);
clutter_event_free (event);
}
}
static gboolean
process_base_event (MetaSeatNative *seat,
struct libinput_event *event)
{
ClutterInputDevice *device;
struct libinput_device *libinput_device;
gboolean handled = TRUE;
switch (libinput_event_get_type (event))
{
case LIBINPUT_EVENT_DEVICE_ADDED:
libinput_device = libinput_event_get_device (event);
evdev_add_device (seat, libinput_device);
break;
case LIBINPUT_EVENT_DEVICE_REMOVED:
/* Flush all queued events, there
* might be some from this device.
*/
flush_event_queue ();
libinput_device = libinput_event_get_device (event);
device = libinput_device_get_user_data (libinput_device);
evdev_remove_device (seat,
META_INPUT_DEVICE_NATIVE (device));
break;
default:
handled = FALSE;
}
return handled;
}
static ClutterScrollSource
translate_scroll_source (enum libinput_pointer_axis_source source)
{
switch (source)
{
case LIBINPUT_POINTER_AXIS_SOURCE_WHEEL:
return CLUTTER_SCROLL_SOURCE_WHEEL;
case LIBINPUT_POINTER_AXIS_SOURCE_FINGER:
return CLUTTER_SCROLL_SOURCE_FINGER;
case LIBINPUT_POINTER_AXIS_SOURCE_CONTINUOUS:
return CLUTTER_SCROLL_SOURCE_CONTINUOUS;
default:
return CLUTTER_SCROLL_SOURCE_UNKNOWN;
}
}
static ClutterInputDeviceToolType
translate_tool_type (struct libinput_tablet_tool *libinput_tool)
{
enum libinput_tablet_tool_type tool;
tool = libinput_tablet_tool_get_type (libinput_tool);
switch (tool)
{
case LIBINPUT_TABLET_TOOL_TYPE_PEN:
return CLUTTER_INPUT_DEVICE_TOOL_PEN;
case LIBINPUT_TABLET_TOOL_TYPE_ERASER:
return CLUTTER_INPUT_DEVICE_TOOL_ERASER;
case LIBINPUT_TABLET_TOOL_TYPE_BRUSH:
return CLUTTER_INPUT_DEVICE_TOOL_BRUSH;
case LIBINPUT_TABLET_TOOL_TYPE_PENCIL:
return CLUTTER_INPUT_DEVICE_TOOL_PENCIL;
case LIBINPUT_TABLET_TOOL_TYPE_AIRBRUSH:
return CLUTTER_INPUT_DEVICE_TOOL_AIRBRUSH;
case LIBINPUT_TABLET_TOOL_TYPE_MOUSE:
return CLUTTER_INPUT_DEVICE_TOOL_MOUSE;
case LIBINPUT_TABLET_TOOL_TYPE_LENS:
return CLUTTER_INPUT_DEVICE_TOOL_LENS;
default:
return CLUTTER_INPUT_DEVICE_TOOL_NONE;
}
}
static void
input_device_update_tool (ClutterInputDevice *input_device,
struct libinput_tablet_tool *libinput_tool)
{
MetaInputDeviceNative *evdev_device = META_INPUT_DEVICE_NATIVE (input_device);
MetaSeatNative *seat = meta_input_device_native_get_seat (evdev_device);
ClutterInputDeviceTool *tool = NULL;
ClutterInputDeviceToolType tool_type;
uint64_t tool_serial;
if (libinput_tool)
{
tool_serial = libinput_tablet_tool_get_serial (libinput_tool);
tool_type = translate_tool_type (libinput_tool);
tool = clutter_input_device_lookup_tool (input_device,
tool_serial, tool_type);
if (!tool)
{
tool = meta_input_device_tool_native_new (libinput_tool,
tool_serial, tool_type);
clutter_input_device_add_tool (input_device, tool);
}
}
if (evdev_device->last_tool != tool)
{
evdev_device->last_tool = tool;
g_signal_emit_by_name (seat, "tool-changed", input_device, tool);
}
}
static gdouble *
translate_tablet_axes (struct libinput_event_tablet_tool *tablet_event,
ClutterInputDeviceTool *tool)
{
GArray *axes = g_array_new (FALSE, FALSE, sizeof (gdouble));
struct libinput_tablet_tool *libinput_tool;
gdouble value;
libinput_tool = libinput_event_tablet_tool_get_tool (tablet_event);
value = libinput_event_tablet_tool_get_x (tablet_event);
g_array_append_val (axes, value);
value = libinput_event_tablet_tool_get_y (tablet_event);
g_array_append_val (axes, value);
if (libinput_tablet_tool_has_distance (libinput_tool))
{
value = libinput_event_tablet_tool_get_distance (tablet_event);
g_array_append_val (axes, value);
}
if (libinput_tablet_tool_has_pressure (libinput_tool))
{
value = libinput_event_tablet_tool_get_pressure (tablet_event);
value = meta_input_device_tool_native_translate_pressure (tool, value);
g_array_append_val (axes, value);
}
if (libinput_tablet_tool_has_tilt (libinput_tool))
{
value = libinput_event_tablet_tool_get_tilt_x (tablet_event);
g_array_append_val (axes, value);
value = libinput_event_tablet_tool_get_tilt_y (tablet_event);
g_array_append_val (axes, value);
}
if (libinput_tablet_tool_has_rotation (libinput_tool))
{
value = libinput_event_tablet_tool_get_rotation (tablet_event);
g_array_append_val (axes, value);
}
if (libinput_tablet_tool_has_slider (libinput_tool))
{
value = libinput_event_tablet_tool_get_slider_position (tablet_event);
g_array_append_val (axes, value);
}
if (libinput_tablet_tool_has_wheel (libinput_tool))
{
value = libinput_event_tablet_tool_get_wheel_delta (tablet_event);
g_array_append_val (axes, value);
}
if (axes->len == 0)
{
g_array_free (axes, TRUE);
return NULL;
}
else
return (gdouble *) g_array_free (axes, FALSE);
}
static MetaSeatNative *
seat_from_device (ClutterInputDevice *device)
{
MetaInputDeviceNative *device_evdev = META_INPUT_DEVICE_NATIVE (device);
return meta_input_device_native_get_seat (device_evdev);
}
static void
notify_continuous_axis (MetaSeatNative *seat,
ClutterInputDevice *device,
uint64_t time_us,
ClutterScrollSource scroll_source,
struct libinput_event_pointer *axis_event)
{
gdouble dx = 0.0, dy = 0.0;
ClutterScrollFinishFlags finish_flags = CLUTTER_SCROLL_FINISHED_NONE;
if (libinput_event_pointer_has_axis (axis_event,
LIBINPUT_POINTER_AXIS_SCROLL_HORIZONTAL))
{
dx = libinput_event_pointer_get_axis_value (
axis_event, LIBINPUT_POINTER_AXIS_SCROLL_HORIZONTAL);
if (fabs (dx) < DBL_EPSILON)
finish_flags |= CLUTTER_SCROLL_FINISHED_HORIZONTAL;
}
if (libinput_event_pointer_has_axis (axis_event,
LIBINPUT_POINTER_AXIS_SCROLL_VERTICAL))
{
dy = libinput_event_pointer_get_axis_value (
axis_event, LIBINPUT_POINTER_AXIS_SCROLL_VERTICAL);
if (fabs (dy) < DBL_EPSILON)
finish_flags |= CLUTTER_SCROLL_FINISHED_VERTICAL;
}
meta_seat_native_notify_scroll_continuous (seat, device, time_us,
dx, dy,
scroll_source, finish_flags);
}
static void
notify_discrete_axis (MetaSeatNative *seat,
ClutterInputDevice *device,
uint64_t time_us,
ClutterScrollSource scroll_source,
struct libinput_event_pointer *axis_event)
{
gdouble discrete_dx = 0.0, discrete_dy = 0.0;
if (libinput_event_pointer_has_axis (axis_event,
LIBINPUT_POINTER_AXIS_SCROLL_HORIZONTAL))
{
discrete_dx = libinput_event_pointer_get_axis_value_discrete (
axis_event, LIBINPUT_POINTER_AXIS_SCROLL_HORIZONTAL);
}
if (libinput_event_pointer_has_axis (axis_event,
LIBINPUT_POINTER_AXIS_SCROLL_VERTICAL))
{
discrete_dy = libinput_event_pointer_get_axis_value_discrete (
axis_event, LIBINPUT_POINTER_AXIS_SCROLL_VERTICAL);
}
meta_seat_native_notify_discrete_scroll (seat, device,
time_us,
discrete_dx, discrete_dy,
scroll_source);
}
static void
process_tablet_axis (MetaSeatNative *seat,
struct libinput_event *event)
{
struct libinput_device *libinput_device = libinput_event_get_device (event);
uint64_t time;
double x, y, dx, dy, *axes;
float stage_width, stage_height;
ClutterStage *stage;
ClutterInputDevice *device;
struct libinput_event_tablet_tool *tablet_event =
libinput_event_get_tablet_tool_event (event);
MetaInputDeviceNative *evdev_device;
device = libinput_device_get_user_data (libinput_device);
evdev_device = META_INPUT_DEVICE_NATIVE (device);
stage = _clutter_input_device_get_stage (device);
if (!stage)
return;
axes = translate_tablet_axes (tablet_event,
evdev_device->last_tool);
if (!axes)
return;
stage_width = clutter_actor_get_width (CLUTTER_ACTOR (stage));
stage_height = clutter_actor_get_height (CLUTTER_ACTOR (stage));
time = libinput_event_tablet_tool_get_time_usec (tablet_event);
if (clutter_input_device_get_mapping_mode (device) == CLUTTER_INPUT_DEVICE_MAPPING_RELATIVE ||
clutter_input_device_tool_get_tool_type (evdev_device->last_tool) == CLUTTER_INPUT_DEVICE_TOOL_MOUSE ||
clutter_input_device_tool_get_tool_type (evdev_device->last_tool) == CLUTTER_INPUT_DEVICE_TOOL_LENS)
{
dx = libinput_event_tablet_tool_get_dx (tablet_event);
dy = libinput_event_tablet_tool_get_dy (tablet_event);
notify_relative_tool_motion (device, time, dx, dy, axes);
}
else
{
x = libinput_event_tablet_tool_get_x_transformed (tablet_event, stage_width);
y = libinput_event_tablet_tool_get_y_transformed (tablet_event, stage_height);
notify_absolute_motion (device, time, x, y, axes);
}
}
static gboolean
process_device_event (MetaSeatNative *seat,
struct libinput_event *event)
{
gboolean handled = TRUE;
struct libinput_device *libinput_device = libinput_event_get_device(event);
ClutterInputDevice *device;
MetaInputDeviceNative *device_evdev;
switch (libinput_event_get_type (event))
{
case LIBINPUT_EVENT_KEYBOARD_KEY:
{
uint32_t key, key_state, seat_key_count;
uint64_t time_us;
struct libinput_event_keyboard *key_event =
libinput_event_get_keyboard_event (event);
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_keyboard_get_time_usec (key_event);
key = libinput_event_keyboard_get_key (key_event);
key_state = libinput_event_keyboard_get_key_state (key_event) ==
LIBINPUT_KEY_STATE_PRESSED;
seat_key_count =
libinput_event_keyboard_get_seat_key_count (key_event);
/* Ignore key events that are not seat wide state changes. */
if ((key_state == LIBINPUT_KEY_STATE_PRESSED &&
seat_key_count != 1) ||
(key_state == LIBINPUT_KEY_STATE_RELEASED &&
seat_key_count != 0))
break;
meta_seat_native_notify_key (seat_from_device (device),
device,
time_us, key, key_state, TRUE);
break;
}
case LIBINPUT_EVENT_POINTER_MOTION:
{
struct libinput_event_pointer *pointer_event =
libinput_event_get_pointer_event (event);
uint64_t time_us;
double dx;
double dy;
double dx_unaccel;
double dy_unaccel;
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_pointer_get_time_usec (pointer_event);
dx = libinput_event_pointer_get_dx (pointer_event);
dy = libinput_event_pointer_get_dy (pointer_event);
dx_unaccel = libinput_event_pointer_get_dx_unaccelerated (pointer_event);
dy_unaccel = libinput_event_pointer_get_dy_unaccelerated (pointer_event);
meta_seat_native_notify_relative_motion (seat_from_device (device),
device,
time_us,
dx, dy,
dx_unaccel, dy_unaccel);
break;
}
case LIBINPUT_EVENT_POINTER_MOTION_ABSOLUTE:
{
uint64_t time_us;
double x, y;
float stage_width, stage_height;
ClutterStage *stage;
struct libinput_event_pointer *motion_event =
libinput_event_get_pointer_event (event);
device = libinput_device_get_user_data (libinput_device);
stage = _clutter_input_device_get_stage (device);
if (stage == NULL)
break;
stage_width = clutter_actor_get_width (CLUTTER_ACTOR (stage));
stage_height = clutter_actor_get_height (CLUTTER_ACTOR (stage));
time_us = libinput_event_pointer_get_time_usec (motion_event);
x = libinput_event_pointer_get_absolute_x_transformed (motion_event,
stage_width);
y = libinput_event_pointer_get_absolute_y_transformed (motion_event,
stage_height);
meta_seat_native_notify_absolute_motion (seat_from_device (device),
device,
time_us,
x, y,
NULL);
break;
}
case LIBINPUT_EVENT_POINTER_BUTTON:
{
uint32_t button, button_state, seat_button_count;
uint64_t time_us;
struct libinput_event_pointer *button_event =
libinput_event_get_pointer_event (event);
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_pointer_get_time_usec (button_event);
button = libinput_event_pointer_get_button (button_event);
button_state = libinput_event_pointer_get_button_state (button_event) ==
LIBINPUT_BUTTON_STATE_PRESSED;
seat_button_count =
libinput_event_pointer_get_seat_button_count (button_event);
/* Ignore button events that are not seat wide state changes. */
if ((button_state == LIBINPUT_BUTTON_STATE_PRESSED &&
seat_button_count != 1) ||
(button_state == LIBINPUT_BUTTON_STATE_RELEASED &&
seat_button_count != 0))
break;
meta_seat_native_notify_button (seat_from_device (device), device,
time_us, button, button_state);
break;
}
case LIBINPUT_EVENT_POINTER_AXIS:
{
uint64_t time_us;
enum libinput_pointer_axis_source source;
struct libinput_event_pointer *axis_event =
libinput_event_get_pointer_event (event);
MetaSeatNative *seat;
ClutterScrollSource scroll_source;
device = libinput_device_get_user_data (libinput_device);
seat = meta_input_device_native_get_seat (META_INPUT_DEVICE_NATIVE (device));
time_us = libinput_event_pointer_get_time_usec (axis_event);
source = libinput_event_pointer_get_axis_source (axis_event);
scroll_source = translate_scroll_source (source);
/* libinput < 0.8 sent wheel click events with value 10. Since 0.8
the value is the angle of the click in degrees. To keep
backwards-compat with existing clients, we just send multiples of
the click count. */
switch (scroll_source)
{
case CLUTTER_SCROLL_SOURCE_WHEEL:
notify_discrete_axis (seat, device, time_us, scroll_source,
axis_event);
break;
case CLUTTER_SCROLL_SOURCE_FINGER:
case CLUTTER_SCROLL_SOURCE_CONTINUOUS:
case CLUTTER_SCROLL_SOURCE_UNKNOWN:
notify_continuous_axis (seat, device, time_us, scroll_source,
axis_event);
break;
}
break;
}
case LIBINPUT_EVENT_TOUCH_DOWN:
{
int device_slot;
uint64_t time_us;
double x, y;
float stage_width, stage_height;
MetaSeatNative *seat;
ClutterStage *stage;
MetaTouchState *touch_state;
struct libinput_event_touch *touch_event =
libinput_event_get_touch_event (event);
device = libinput_device_get_user_data (libinput_device);
device_evdev = META_INPUT_DEVICE_NATIVE (device);
seat = meta_input_device_native_get_seat (device_evdev);
stage = _clutter_input_device_get_stage (device);
if (stage == NULL)
break;
stage_width = clutter_actor_get_width (CLUTTER_ACTOR (stage));
stage_height = clutter_actor_get_height (CLUTTER_ACTOR (stage));
device_slot = libinput_event_touch_get_slot (touch_event);
time_us = libinput_event_touch_get_time_usec (touch_event);
x = libinput_event_touch_get_x_transformed (touch_event,
stage_width);
y = libinput_event_touch_get_y_transformed (touch_event,
stage_height);
touch_state =
meta_input_device_native_acquire_touch_state (device_evdev,
device_slot);
touch_state->coords.x = x;
touch_state->coords.y = y;
meta_seat_native_notify_touch_event (seat, device,
CLUTTER_TOUCH_BEGIN,
time_us,
touch_state->seat_slot,
touch_state->coords.x,
touch_state->coords.y);
break;
}
case LIBINPUT_EVENT_TOUCH_UP:
{
int device_slot;
uint64_t time_us;
MetaSeatNative *seat;
MetaTouchState *touch_state;
struct libinput_event_touch *touch_event =
libinput_event_get_touch_event (event);
device = libinput_device_get_user_data (libinput_device);
device_evdev = META_INPUT_DEVICE_NATIVE (device);
seat = meta_input_device_native_get_seat (device_evdev);
device_slot = libinput_event_touch_get_slot (touch_event);
time_us = libinput_event_touch_get_time_usec (touch_event);
touch_state =
meta_input_device_native_lookup_touch_state (device_evdev,
device_slot);
if (!touch_state)
break;
meta_seat_native_notify_touch_event (seat, device,
CLUTTER_TOUCH_END, time_us,
touch_state->seat_slot,
touch_state->coords.x,
touch_state->coords.y);
meta_input_device_native_release_touch_state (device_evdev,
touch_state);
break;
}
case LIBINPUT_EVENT_TOUCH_MOTION:
{
int device_slot;
uint64_t time_us;
double x, y;
float stage_width, stage_height;
MetaSeatNative *seat;
ClutterStage *stage;
MetaTouchState *touch_state;
struct libinput_event_touch *touch_event =
libinput_event_get_touch_event (event);
device = libinput_device_get_user_data (libinput_device);
device_evdev = META_INPUT_DEVICE_NATIVE (device);
seat = meta_input_device_native_get_seat (device_evdev);
stage = _clutter_input_device_get_stage (device);
if (stage == NULL)
break;
stage_width = clutter_actor_get_width (CLUTTER_ACTOR (stage));
stage_height = clutter_actor_get_height (CLUTTER_ACTOR (stage));
device_slot = libinput_event_touch_get_slot (touch_event);
time_us = libinput_event_touch_get_time_usec (touch_event);
x = libinput_event_touch_get_x_transformed (touch_event,
stage_width);
y = libinput_event_touch_get_y_transformed (touch_event,
stage_height);
touch_state =
meta_input_device_native_lookup_touch_state (device_evdev,
device_slot);
if (!touch_state)
break;
touch_state->coords.x = x;
touch_state->coords.y = y;
meta_seat_native_notify_touch_event (seat, device,
CLUTTER_TOUCH_UPDATE,
time_us,
touch_state->seat_slot,
touch_state->coords.x,
touch_state->coords.y);
break;
}
case LIBINPUT_EVENT_TOUCH_CANCEL:
{
uint64_t time_us;
struct libinput_event_touch *touch_event =
libinput_event_get_touch_event (event);
device = libinput_device_get_user_data (libinput_device);
device_evdev = META_INPUT_DEVICE_NATIVE (device);
time_us = libinput_event_touch_get_time_usec (touch_event);
meta_input_device_native_release_touch_slots (device_evdev, time_us);
break;
}
case LIBINPUT_EVENT_GESTURE_PINCH_BEGIN:
case LIBINPUT_EVENT_GESTURE_PINCH_END:
{
struct libinput_event_gesture *gesture_event =
libinput_event_get_gesture_event (event);
ClutterTouchpadGesturePhase phase;
uint32_t n_fingers;
uint64_t time_us;
if (libinput_event_get_type (event) == LIBINPUT_EVENT_GESTURE_PINCH_BEGIN)
phase = CLUTTER_TOUCHPAD_GESTURE_PHASE_BEGIN;
else
phase = libinput_event_gesture_get_cancelled (gesture_event) ?
CLUTTER_TOUCHPAD_GESTURE_PHASE_CANCEL : CLUTTER_TOUCHPAD_GESTURE_PHASE_END;
n_fingers = libinput_event_gesture_get_finger_count (gesture_event);
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_gesture_get_time_usec (gesture_event);
notify_pinch_gesture_event (device, phase, time_us, 0, 0, 0, 0, n_fingers);
break;
}
case LIBINPUT_EVENT_GESTURE_PINCH_UPDATE:
{
struct libinput_event_gesture *gesture_event =
libinput_event_get_gesture_event (event);
gdouble angle_delta, scale, dx, dy;
uint32_t n_fingers;
uint64_t time_us;
n_fingers = libinput_event_gesture_get_finger_count (gesture_event);
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_gesture_get_time_usec (gesture_event);
angle_delta = libinput_event_gesture_get_angle_delta (gesture_event);
scale = libinput_event_gesture_get_scale (gesture_event);
dx = libinput_event_gesture_get_dx (gesture_event);
dy = libinput_event_gesture_get_dy (gesture_event);
notify_pinch_gesture_event (device,
CLUTTER_TOUCHPAD_GESTURE_PHASE_UPDATE,
time_us, dx, dy, angle_delta, scale, n_fingers);
break;
}
case LIBINPUT_EVENT_GESTURE_SWIPE_BEGIN:
case LIBINPUT_EVENT_GESTURE_SWIPE_END:
{
struct libinput_event_gesture *gesture_event =
libinput_event_get_gesture_event (event);
ClutterTouchpadGesturePhase phase;
uint32_t n_fingers;
uint64_t time_us;
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_gesture_get_time_usec (gesture_event);
n_fingers = libinput_event_gesture_get_finger_count (gesture_event);
if (libinput_event_get_type (event) == LIBINPUT_EVENT_GESTURE_SWIPE_BEGIN)
phase = CLUTTER_TOUCHPAD_GESTURE_PHASE_BEGIN;
else
phase = libinput_event_gesture_get_cancelled (gesture_event) ?
CLUTTER_TOUCHPAD_GESTURE_PHASE_CANCEL : CLUTTER_TOUCHPAD_GESTURE_PHASE_END;
notify_swipe_gesture_event (device, phase, time_us, n_fingers, 0, 0);
break;
}
case LIBINPUT_EVENT_GESTURE_SWIPE_UPDATE:
{
struct libinput_event_gesture *gesture_event =
libinput_event_get_gesture_event (event);
uint32_t n_fingers;
uint64_t time_us;
double dx, dy;
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_gesture_get_time_usec (gesture_event);
n_fingers = libinput_event_gesture_get_finger_count (gesture_event);
dx = libinput_event_gesture_get_dx (gesture_event);
dy = libinput_event_gesture_get_dy (gesture_event);
notify_swipe_gesture_event (device,
CLUTTER_TOUCHPAD_GESTURE_PHASE_UPDATE,
time_us, n_fingers, dx, dy);
break;
}
case LIBINPUT_EVENT_TABLET_TOOL_AXIS:
{
process_tablet_axis (seat, event);
break;
}
case LIBINPUT_EVENT_TABLET_TOOL_PROXIMITY:
{
uint64_t time;
struct libinput_event_tablet_tool *tablet_event =
libinput_event_get_tablet_tool_event (event);
struct libinput_tablet_tool *libinput_tool = NULL;
enum libinput_tablet_tool_proximity_state state;
state = libinput_event_tablet_tool_get_proximity_state (tablet_event);
time = libinput_event_tablet_tool_get_time_usec (tablet_event);
device = libinput_device_get_user_data (libinput_device);
libinput_tool = libinput_event_tablet_tool_get_tool (tablet_event);
if (state == LIBINPUT_TABLET_TOOL_PROXIMITY_STATE_IN)
input_device_update_tool (device, libinput_tool);
notify_proximity (device, time, state == LIBINPUT_TABLET_TOOL_PROXIMITY_STATE_IN);
if (state == LIBINPUT_TABLET_TOOL_PROXIMITY_STATE_OUT)
input_device_update_tool (device, NULL);
break;
}
case LIBINPUT_EVENT_TABLET_TOOL_BUTTON:
{
uint64_t time_us;
uint32_t button_state;
struct libinput_event_tablet_tool *tablet_event =
libinput_event_get_tablet_tool_event (event);
uint32_t tablet_button;
process_tablet_axis (seat, event);
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_tablet_tool_get_time_usec (tablet_event);
tablet_button = libinput_event_tablet_tool_get_button (tablet_event);
button_state = libinput_event_tablet_tool_get_button_state (tablet_event) ==
LIBINPUT_BUTTON_STATE_PRESSED;
meta_seat_native_notify_button (seat_from_device (device), device,
time_us, tablet_button, button_state);
break;
}
case LIBINPUT_EVENT_TABLET_TOOL_TIP:
{
uint64_t time_us;
uint32_t button_state;
struct libinput_event_tablet_tool *tablet_event =
libinput_event_get_tablet_tool_event (event);
device = libinput_device_get_user_data (libinput_device);
time_us = libinput_event_tablet_tool_get_time_usec (tablet_event);
button_state = libinput_event_tablet_tool_get_tip_state (tablet_event) ==
LIBINPUT_TABLET_TOOL_TIP_DOWN;
/* To avoid jumps on tip, notify axes before the tip down event
but after the tip up event */
if (button_state)
process_tablet_axis (seat, event);
meta_seat_native_notify_button (seat_from_device (device), device,
time_us, BTN_TOUCH, button_state);
if (!button_state)
process_tablet_axis (seat, event);
break;
}
case LIBINPUT_EVENT_TABLET_PAD_BUTTON:
{
uint64_t time;
uint32_t button_state, button, group, mode;
struct libinput_tablet_pad_mode_group *mode_group;
struct libinput_event_tablet_pad *pad_event =
libinput_event_get_tablet_pad_event (event);
device = libinput_device_get_user_data (libinput_device);
time = libinput_event_tablet_pad_get_time_usec (pad_event);
mode_group = libinput_event_tablet_pad_get_mode_group (pad_event);
group = libinput_tablet_pad_mode_group_get_index (mode_group);
mode = libinput_event_tablet_pad_get_mode (pad_event);
button = libinput_event_tablet_pad_get_button_number (pad_event);
button_state = libinput_event_tablet_pad_get_button_state (pad_event) ==
LIBINPUT_BUTTON_STATE_PRESSED;
notify_pad_button (device, time, button, group, mode, button_state);
break;
}
case LIBINPUT_EVENT_TABLET_PAD_STRIP:
{
uint64_t time;
uint32_t number, source, group, mode;
struct libinput_tablet_pad_mode_group *mode_group;
struct libinput_event_tablet_pad *pad_event =
libinput_event_get_tablet_pad_event (event);
double value;
device = libinput_device_get_user_data (libinput_device);
time = libinput_event_tablet_pad_get_time_usec (pad_event);
number = libinput_event_tablet_pad_get_strip_number (pad_event);
value = libinput_event_tablet_pad_get_strip_position (pad_event);
source = libinput_event_tablet_pad_get_strip_source (pad_event);
mode_group = libinput_event_tablet_pad_get_mode_group (pad_event);
group = libinput_tablet_pad_mode_group_get_index (mode_group);
mode = libinput_event_tablet_pad_get_mode (pad_event);
notify_pad_strip (device, time, number, source, group, mode, value);
break;
}
case LIBINPUT_EVENT_TABLET_PAD_RING:
{
uint64_t time;
uint32_t number, source, group, mode;
struct libinput_tablet_pad_mode_group *mode_group;
struct libinput_event_tablet_pad *pad_event =
libinput_event_get_tablet_pad_event (event);
double angle;
device = libinput_device_get_user_data (libinput_device);
time = libinput_event_tablet_pad_get_time_usec (pad_event);
number = libinput_event_tablet_pad_get_ring_number (pad_event);
angle = libinput_event_tablet_pad_get_ring_position (pad_event);
source = libinput_event_tablet_pad_get_ring_source (pad_event);
mode_group = libinput_event_tablet_pad_get_mode_group (pad_event);
group = libinput_tablet_pad_mode_group_get_index (mode_group);
mode = libinput_event_tablet_pad_get_mode (pad_event);
notify_pad_ring (device, time, number, source, group, mode, angle);
break;
}
default:
handled = FALSE;
}
return handled;
}
static gboolean
filter_event (MetaSeatNative *seat,
struct libinput_event *event)
{
gboolean retval = CLUTTER_EVENT_PROPAGATE;
MetaEventFilter *filter;
GSList *tmp_list;
tmp_list = seat->event_filters;
while (tmp_list)
{
filter = tmp_list->data;
retval = filter->func (event, filter->data);
tmp_list = tmp_list->next;
if (retval != CLUTTER_EVENT_PROPAGATE)
break;
}
return retval;
}
static void
process_event (MetaSeatNative *seat,
struct libinput_event *event)
{
gboolean retval;
retval = filter_event (seat, event);
if (retval != CLUTTER_EVENT_PROPAGATE)
return;
if (process_base_event (seat, event))
return;
if (process_device_event (seat, event))
return;
}
static void
process_events (MetaSeatNative *seat)
{
struct libinput_event *event;
while ((event = libinput_get_event (seat->libinput)))
{
process_event(seat, event);
libinput_event_destroy(event);
}
}
static int
open_restricted (const char *path,
int flags,
void *user_data)
{
gint fd;
if (device_open_callback)
{
GError *error = NULL;
fd = device_open_callback (path, flags, device_callback_data, &error);
if (fd < 0)
{
g_warning ("Could not open device %s: %s", path, error->message);
g_error_free (error);
}
}
else
{
fd = open (path, O_RDWR | O_NONBLOCK);
if (fd < 0)
{
g_warning ("Could not open device %s: %s", path, strerror (errno));
}
}
return fd;
}
static void
close_restricted (int fd,
void *user_data)
{
if (device_close_callback)
device_close_callback (fd, device_callback_data);
else
close (fd);
}
static const struct libinput_interface libinput_interface = {
open_restricted,
close_restricted
};
static void
meta_seat_native_constructed (GObject *object)
{
MetaSeatNative *seat = META_SEAT_NATIVE (object);
ClutterInputDevice *device;
ClutterStage *stage;
MetaEventSource *source;
struct udev *udev;
struct xkb_keymap *xkb_keymap;
device = meta_input_device_native_new_virtual (
seat, CLUTTER_POINTER_DEVICE,
CLUTTER_INPUT_MODE_MASTER);
stage = meta_seat_native_get_stage (seat);
_clutter_input_device_set_stage (device, stage);
seat->pointer_x = INITIAL_POINTER_X;
seat->pointer_y = INITIAL_POINTER_Y;
_clutter_input_device_set_coords (device, NULL,
seat->pointer_x, seat->pointer_y,
NULL);
seat->core_pointer = device;
device = meta_input_device_native_new_virtual (
seat, CLUTTER_KEYBOARD_DEVICE,
CLUTTER_INPUT_MODE_MASTER);
_clutter_input_device_set_stage (device, stage);
seat->core_keyboard = device;
udev = udev_new ();
if (G_UNLIKELY (udev == NULL))
{
g_warning ("Failed to create udev object");
return;
}
seat->libinput = libinput_udev_create_context (&libinput_interface,
seat, udev);
if (seat->libinput == NULL)
{
g_critical ("Failed to create the libinput object.");
return;
}
if (libinput_udev_assign_seat (seat->libinput, seat->seat_id) == -1)
{
g_critical ("Failed to assign a seat to the libinput object.");
libinput_unref (seat->libinput);
seat->libinput = NULL;
return;
}
udev_unref (udev);
dispatch_libinput (seat);
source = meta_event_source_new (seat);
seat->event_source = source;
seat->keymap = g_object_new (META_TYPE_KEYMAP_NATIVE, NULL);
xkb_keymap = meta_keymap_native_get_keyboard_map (seat->keymap);
if (xkb_keymap)
{
seat->xkb = xkb_state_new (xkb_keymap);
seat->caps_lock_led =
xkb_keymap_led_get_index (xkb_keymap, XKB_LED_NAME_CAPS);
seat->num_lock_led =
xkb_keymap_led_get_index (xkb_keymap, XKB_LED_NAME_NUM);
seat->scroll_lock_led =
xkb_keymap_led_get_index (xkb_keymap, XKB_LED_NAME_SCROLL);
}
if (G_OBJECT_CLASS (meta_seat_native_parent_class)->constructed)
G_OBJECT_CLASS (meta_seat_native_parent_class)->constructed (object);
}
static void
meta_seat_native_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
MetaSeatNative *seat_native = META_SEAT_NATIVE (object);
switch (prop_id)
{
case PROP_SEAT_ID:
seat_native->seat_id = g_value_dup_string (value);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
}
}
static void
meta_seat_native_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
MetaSeatNative *seat_native = META_SEAT_NATIVE (object);
switch (prop_id)
{
case PROP_SEAT_ID:
g_value_set_string (value, seat_native->seat_id);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
}
}
static void
meta_seat_native_dispose (GObject *object)
{
MetaSeatNative *seat = META_SEAT_NATIVE (object);
g_clear_signal_handler (&seat->stage_added_handler, seat->stage_manager);
g_clear_signal_handler (&seat->stage_removed_handler, seat->stage_manager);
if (seat->stage_manager)
{
g_object_unref (seat->stage_manager);
seat->stage_manager = NULL;
}
if (seat->libinput)
{
libinput_unref (seat->libinput);
seat->libinput = NULL;
}
G_OBJECT_CLASS (meta_seat_native_parent_class)->dispose (object);
}
static void
meta_seat_native_finalize (GObject *object)
{
MetaSeatNative *seat = META_SEAT_NATIVE (object);
GSList *iter;
for (iter = seat->devices; iter; iter = g_slist_next (iter))
{
ClutterInputDevice *device = iter->data;
g_object_unref (device);
}
g_slist_free (seat->devices);
g_free (seat->touch_states);
meta_event_source_free (seat->event_source);
xkb_state_unref (seat->xkb);
meta_seat_native_clear_repeat_timer (seat);
if (seat->libinput_seat)
libinput_seat_unref (seat->libinput_seat);
g_list_free (seat->free_device_ids);
if (seat->constrain_data_notify != NULL)
seat->constrain_data_notify (seat->constrain_data);
g_free (seat->seat_id);
G_OBJECT_CLASS (meta_seat_native_parent_class)->finalize (object);
}
static ClutterInputDevice *
meta_seat_native_get_pointer (ClutterSeat *seat)
{
MetaSeatNative *seat_native = META_SEAT_NATIVE (seat);
return seat_native->core_pointer;
}
static ClutterInputDevice *
meta_seat_native_get_keyboard (ClutterSeat *seat)
{
MetaSeatNative *seat_native = META_SEAT_NATIVE (seat);
return seat_native->core_keyboard;
}
static GList *
meta_seat_native_list_devices (ClutterSeat *seat)
{
MetaSeatNative *seat_native = META_SEAT_NATIVE (seat);
GList *devices = NULL;
GSList *l;
for (l = seat_native->devices; l; l = l->next)
devices = g_list_prepend (devices, l->data);
return devices;
}
static void
meta_seat_native_bell_notify (ClutterSeat *seat)
{
MetaDisplay *display = meta_get_display ();
meta_bell_notify (display, NULL);
}
static ClutterKeymap *
meta_seat_native_get_keymap (ClutterSeat *seat)
{
MetaSeatNative *seat_native = META_SEAT_NATIVE (seat);
return CLUTTER_KEYMAP (seat_native->keymap);
}
static void
meta_seat_native_copy_event_data (ClutterSeat *seat,
const ClutterEvent *src,
ClutterEvent *dest)
{
MetaEventNative *event_evdev;
event_evdev = _clutter_event_get_platform_data (src);
if (event_evdev != NULL)
_clutter_event_set_platform_data (dest, meta_event_native_copy (event_evdev));
}
static void
meta_seat_native_free_event_data (ClutterSeat *seat,
ClutterEvent *event)
{
MetaEventNative *event_evdev;
event_evdev = _clutter_event_get_platform_data (event);
if (event_evdev != NULL)
meta_event_native_free (event_evdev);
}
static void
meta_seat_native_apply_kbd_a11y_settings (ClutterSeat *seat,
ClutterKbdA11ySettings *settings)
{
ClutterInputDevice *device;
device = clutter_seat_get_keyboard (seat);
if (device)
meta_input_device_native_apply_kbd_a11y_settings (META_INPUT_DEVICE_NATIVE (device),
settings);
}
static ClutterVirtualInputDevice *
meta_seat_native_create_virtual_device (ClutterSeat *seat,
ClutterInputDeviceType device_type)
{
return g_object_new (META_TYPE_VIRTUAL_INPUT_DEVICE_NATIVE,
"seat", seat,
"device-type", device_type,
NULL);
}
static ClutterVirtualDeviceType
meta_seat_native_get_supported_virtual_device_types (ClutterSeat *seat)
{
return (CLUTTER_VIRTUAL_DEVICE_TYPE_KEYBOARD |
CLUTTER_VIRTUAL_DEVICE_TYPE_POINTER |
CLUTTER_VIRTUAL_DEVICE_TYPE_TOUCHSCREEN);
}
static void
meta_seat_native_class_init (MetaSeatNativeClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
ClutterSeatClass *seat_class = CLUTTER_SEAT_CLASS (klass);
object_class->constructed = meta_seat_native_constructed;
object_class->set_property = meta_seat_native_set_property;
object_class->get_property = meta_seat_native_get_property;
object_class->dispose = meta_seat_native_dispose;
object_class->finalize = meta_seat_native_finalize;
seat_class->get_pointer = meta_seat_native_get_pointer;
seat_class->get_keyboard = meta_seat_native_get_keyboard;
seat_class->list_devices = meta_seat_native_list_devices;
seat_class->bell_notify = meta_seat_native_bell_notify;
seat_class->get_keymap = meta_seat_native_get_keymap;
seat_class->copy_event_data = meta_seat_native_copy_event_data;
seat_class->free_event_data = meta_seat_native_free_event_data;
seat_class->apply_kbd_a11y_settings = meta_seat_native_apply_kbd_a11y_settings;
seat_class->create_virtual_device = meta_seat_native_create_virtual_device;
seat_class->get_supported_virtual_device_types = meta_seat_native_get_supported_virtual_device_types;
props[PROP_SEAT_ID] =
g_param_spec_string ("seat-id",
"Seat ID",
"Seat ID",
NULL,
G_PARAM_READWRITE |
G_PARAM_CONSTRUCT_ONLY);
g_object_class_install_properties (object_class, N_PROPS, props);
}
static void
meta_seat_native_stage_added_cb (ClutterStageManager *manager,
ClutterStage *stage,
MetaSeatNative *seat)
{
/* NB: Currently we can only associate a single stage with all evdev
* devices.
*
* We save a pointer to the stage so if we release/reclaim input
* devices due to switching virtual terminals then we know what
* stage to re associate the devices with.
*/
meta_seat_native_set_stage (seat, stage);
/* We only want to do this once so we can catch the default
stage. If the application has multiple stages then it will need
to manage the stage of the input devices itself */
g_clear_signal_handler (&seat->stage_added_handler, seat->stage_manager);
}
static void
meta_seat_native_stage_removed_cb (ClutterStageManager *manager,
ClutterStage *stage,
MetaSeatNative *seat)
{
meta_seat_native_set_stage (seat, NULL);
}
static void
meta_seat_native_init (MetaSeatNative *seat)
{
seat->stage_manager = clutter_stage_manager_get_default ();
g_object_ref (seat->stage_manager);
/* evdev doesn't have any way to link an event to a particular stage
so we'll have to leave it up to applications to set the
corresponding stage for an input device. However to make it
easier for applications that are only using one fullscreen stage
(which is probably the most frequent use-case for the evdev
backend) we'll associate any input devices that don't have a
stage with the first stage created. */
seat->stage_added_handler =
g_signal_connect (seat->stage_manager,
"stage-added",
G_CALLBACK (meta_seat_native_stage_added_cb),
seat);
seat->stage_removed_handler =
g_signal_connect (seat->stage_manager,
"stage-removed",
G_CALLBACK (meta_seat_native_stage_removed_cb),
seat);
seat->device_id_next = INITIAL_DEVICE_ID;
seat->repeat = TRUE;
seat->repeat_delay = 250; /* ms */
seat->repeat_interval = 33; /* ms */
}
ClutterInputDevice *
meta_seat_native_get_device (MetaSeatNative *seat,
int id)
{
ClutterInputDevice *device;
GSList *l;
for (l = seat->devices; l; l = l->next)
{
device = l->data;
if (clutter_input_device_get_device_id (device) == id)
return device;
}
return NULL;
}
void
meta_seat_native_set_stage (MetaSeatNative *seat,
ClutterStage *stage)
{
GSList *l;
if (seat->stage == stage)
return;
seat->stage = stage;
_clutter_input_device_set_stage (seat->core_pointer, stage);
_clutter_input_device_set_stage (seat->core_keyboard, stage);
for (l = seat->devices; l; l = l->next)
{
ClutterInputDevice *device = l->data;
_clutter_input_device_set_stage (device, stage);
}
}
ClutterStage *
meta_seat_native_get_stage (MetaSeatNative *seat)
{
return seat->stage;
}
/**
* meta_seat_native_set_device_callbacks: (skip)
* @open_callback: the user replacement for open()
* @close_callback: the user replacement for close()
* @user_data: user data for @callback
*
* Through this function, the application can set a custom callback
* to be invoked when Clutter is about to open an evdev device. It can do
* so if special handling is needed, for example to circumvent permission
* problems.
*
* Setting @callback to %NULL will reset the default behavior.
*
* For reliable effects, this function must be called before clutter_init().
*/
void
meta_seat_native_set_device_callbacks (MetaOpenDeviceCallback open_callback,
MetaCloseDeviceCallback close_callback,
gpointer user_data)
{
device_open_callback = open_callback;
device_close_callback = close_callback;
device_callback_data = user_data;
}
/**
* meta_seat_native_set_pointer_constrain_callback:
* @seat: the #ClutterSeat created by the evdev backend
* @callback: the callback
* @user_data: data to pass to the callback
* @user_data_notify: function to be called when removing the callback
*
* Sets a callback to be invoked for every pointer motion. The callback
* can then modify the new pointer coordinates to constrain movement within
* a specific region.
*/
void
meta_seat_native_set_pointer_constrain_callback (MetaSeatNative *seat,
MetaPointerConstrainCallback callback,
gpointer user_data,
GDestroyNotify user_data_notify)
{
g_return_if_fail (META_IS_SEAT_NATIVE (seat));
if (seat->constrain_data_notify)
seat->constrain_data_notify (seat->constrain_data);
seat->constrain_callback = callback;
seat->constrain_data = user_data;
seat->constrain_data_notify = user_data_notify;
}
void
meta_seat_native_set_relative_motion_filter (MetaSeatNative *seat,
MetaRelativeMotionFilter filter,
gpointer user_data)
{
g_return_if_fail (META_IS_SEAT_NATIVE (seat));
seat->relative_motion_filter = filter;
seat->relative_motion_filter_user_data = user_data;
}
/**
* meta_seat_native_add_filter: (skip)
* @func: (closure data): a filter function
* @data: (allow-none): user data to be passed to the filter function, or %NULL
* @destroy_notify: (allow-none): function to call on @data when the filter is removed, or %NULL
*
* Adds an event filter function.
*/
void
meta_seat_native_add_filter (MetaSeatNative *seat,
MetaEvdevFilterFunc func,
gpointer data,
GDestroyNotify destroy_notify)
{
MetaEventFilter *filter;
g_return_if_fail (func != NULL);
filter = g_new0 (MetaEventFilter, 1);
filter->func = func;
filter->data = data;
filter->destroy_notify = destroy_notify;
seat->event_filters = g_slist_append (seat->event_filters, filter);
}
/**
* meta_seat_native_remove_filter: (skip)
* @func: a filter function
* @data: (allow-none): user data to be passed to the filter function, or %NULL
*
* Removes the given filter function.
*/
void
meta_seat_native_remove_filter (MetaSeatNative *seat,
MetaEvdevFilterFunc func,
gpointer data)
{
MetaEventFilter *filter;
GSList *tmp_list;
g_return_if_fail (func != NULL);
tmp_list = seat->event_filters;
while (tmp_list)
{
filter = tmp_list->data;
if (filter->func == func && filter->data == data)
{
if (filter->destroy_notify)
filter->destroy_notify (filter->data);
g_free (filter);
seat->event_filters =
g_slist_delete_link (seat->event_filters, tmp_list);
return;
}
tmp_list = tmp_list->next;
}
}
void
meta_seat_native_update_xkb_state (MetaSeatNative *seat)
{
xkb_mod_mask_t latched_mods;
xkb_mod_mask_t locked_mods;
struct xkb_keymap *xkb_keymap;
xkb_keymap = meta_keymap_native_get_keyboard_map (seat->keymap);
latched_mods = xkb_state_serialize_mods (seat->xkb,
XKB_STATE_MODS_LATCHED);
locked_mods = xkb_state_serialize_mods (seat->xkb,
XKB_STATE_MODS_LOCKED);
xkb_state_unref (seat->xkb);
seat->xkb = xkb_state_new (xkb_keymap);
xkb_state_update_mask (seat->xkb,
0, /* depressed */
latched_mods,
locked_mods,
0, 0, seat->layout_idx);
seat->caps_lock_led = xkb_keymap_led_get_index (xkb_keymap, XKB_LED_NAME_CAPS);
seat->num_lock_led = xkb_keymap_led_get_index (xkb_keymap, XKB_LED_NAME_NUM);
seat->scroll_lock_led = xkb_keymap_led_get_index (xkb_keymap, XKB_LED_NAME_SCROLL);
meta_seat_native_sync_leds (seat);
}
/**
* meta_seat_native_warp_pointer:
* @pointer_device: the pointer device to warp
* @time: the timestamp for the warp event
* @x: the new X position of the pointer
* @y: the new Y position of the pointer
*
* Warps the pointer to a new location. Technically, this is
* processed the same way as an absolute motion event from
* libinput: it simply generates an absolute motion event that
* will be processed on the next iteration of the mainloop.
*
* The intended use for this is for display servers that need
* to warp cursor the cursor to a new location.
*/
void
meta_seat_native_warp_pointer (ClutterInputDevice *pointer_device,
uint32_t time_,
int x,
int y)
{
notify_absolute_motion (pointer_device, ms2us(time_), x, y, NULL);
}
gint
meta_seat_native_acquire_device_id (MetaSeatNative *seat)
{
GList *first;
gint next_id;
if (seat->free_device_ids == NULL)
{
gint i;
/* We ran out of free ID's, so append 10 new ones. */
for (i = 0; i < 10; i++)
seat->free_device_ids =
g_list_append (seat->free_device_ids,
GINT_TO_POINTER (seat->device_id_next++));
}
first = g_list_first (seat->free_device_ids);
next_id = GPOINTER_TO_INT (first->data);
seat->free_device_ids = g_list_delete_link (seat->free_device_ids, first);
return next_id;
}
static int
compare_ids (gconstpointer a,
gconstpointer b)
{
return GPOINTER_TO_INT (a) - GPOINTER_TO_INT (b);
}
void
meta_seat_native_release_device_id (MetaSeatNative *seat,
ClutterInputDevice *device)
{
gint device_id;
device_id = clutter_input_device_get_device_id (device);
seat->free_device_ids = g_list_insert_sorted (seat->free_device_ids,
GINT_TO_POINTER (device_id),
compare_ids);
}
/**
* meta_seat_native_release_devices:
*
* Releases all the evdev devices that Clutter is currently managing. This api
* is typically used when switching away from the Clutter application when
* switching tty. The devices can be reclaimed later with a call to
* meta_seat_native_reclaim_devices().
*
* This function should only be called after clutter has been initialized.
*/
void
meta_seat_native_release_devices (MetaSeatNative *seat)
{
g_return_if_fail (META_IS_SEAT_NATIVE (seat));
if (seat->released)
{
g_warning ("meta_seat_native_release_devices() shouldn't be called "
"multiple times without a corresponding call to "
"meta_seat_native_reclaim_devices() first");
return;
}
libinput_suspend (seat->libinput);
process_events (seat);
seat->released = TRUE;
}
/**
* meta_seat_native_reclaim_devices:
*
* This causes Clutter to re-probe for evdev devices. This is must only be
* called after a corresponding call to meta_seat_native_release_devices()
* was previously used to release all evdev devices. This API is typically
* used when a clutter application using evdev has regained focus due to
* switching ttys.
*
* This function should only be called after clutter has been initialized.
*/
void
meta_seat_native_reclaim_devices (MetaSeatNative *seat)
{
if (!seat->released)
{
g_warning ("Spurious call to meta_seat_native_reclaim_devices() without "
"previous call to meta_seat_native_release_devices");
return;
}
libinput_resume (seat->libinput);
meta_seat_native_update_xkb_state (seat);
process_events (seat);
seat->released = FALSE;
}