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weston/src/input.c

1758 lines
46 KiB

/*
* Copyright © 2013 Intel Corporation
*
* Permission to use, copy, modify, distribute, and sell this software and
* its documentation for any purpose is hereby granted without fee, provided
* that the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the name of the copyright holders not be used in
* advertising or publicity pertaining to distribution of the software
* without specific, written prior permission. The copyright holders make
* no representations about the suitability of this software for any
* purpose. It is provided "as is" without express or implied warranty.
*
* THE COPYRIGHT HOLDERS DISCLAIM ALL WARRANTIES WITH REGARD TO THIS
* SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS, IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY
* SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER
* RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF
* CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
* CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include "config.h"
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <sys/mman.h>
#include <assert.h>
#include <unistd.h>
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
#include <fcntl.h>
#include "../shared/os-compatibility.h"
#include "compositor.h"
static void
empty_region(pixman_region32_t *region)
{
pixman_region32_fini(region);
pixman_region32_init(region);
}
static void unbind_resource(struct wl_resource *resource)
{
wl_list_remove(wl_resource_get_link(resource));
}
void
weston_seat_repick(struct weston_seat *seat)
{
const struct weston_pointer *pointer = seat->pointer;
if (pointer == NULL)
return;
pointer->grab->interface->focus(seat->pointer->grab);
}
static void
weston_compositor_idle_inhibit(struct weston_compositor *compositor)
{
weston_compositor_wake(compositor);
compositor->idle_inhibit++;
}
static void
weston_compositor_idle_release(struct weston_compositor *compositor)
{
compositor->idle_inhibit--;
weston_compositor_wake(compositor);
}
static void
move_resources(struct wl_list *destination, struct wl_list *source)
{
wl_list_insert_list(destination, source);
wl_list_init(source);
}
static void
move_resources_for_client(struct wl_list *destination,
struct wl_list *source,
struct wl_client *client)
{
struct wl_resource *resource, *tmp;
wl_resource_for_each_safe(resource, tmp, source) {
if (wl_resource_get_client(resource) == client) {
wl_list_remove(wl_resource_get_link(resource));
wl_list_insert(destination,
wl_resource_get_link(resource));
}
}
}
static void
default_grab_focus(struct weston_pointer_grab *grab)
{
struct weston_pointer *pointer = grab->pointer;
struct weston_surface *surface;
wl_fixed_t sx, sy;
if (pointer->button_count > 0)
return;
surface = weston_compositor_pick_surface(pointer->seat->compositor,
pointer->x, pointer->y,
&sx, &sy);
if (pointer->focus != surface)
weston_pointer_set_focus(pointer, surface, sx, sy);
}
static void
default_grab_motion(struct weston_pointer_grab *grab, uint32_t time)
{
struct weston_pointer *pointer = grab->pointer;
wl_fixed_t sx, sy;
struct wl_list *resource_list;
struct wl_resource *resource;
resource_list = &pointer->focus_resource_list;
wl_resource_for_each(resource, resource_list) {
weston_surface_from_global_fixed(pointer->focus,
pointer->x, pointer->y,
&sx, &sy);
wl_pointer_send_motion(resource, time, sx, sy);
}
}
static void
default_grab_button(struct weston_pointer_grab *grab,
uint32_t time, uint32_t button, uint32_t state_w)
{
struct weston_pointer *pointer = grab->pointer;
struct weston_compositor *compositor = pointer->seat->compositor;
struct weston_surface *surface;
struct wl_resource *resource;
uint32_t serial;
enum wl_pointer_button_state state = state_w;
struct wl_display *display = compositor->wl_display;
wl_fixed_t sx, sy;
struct wl_list *resource_list;
resource_list = &pointer->focus_resource_list;
if (!wl_list_empty(resource_list)) {
serial = wl_display_next_serial(display);
wl_resource_for_each(resource, resource_list)
wl_pointer_send_button(resource,
serial,
time,
button,
state_w);
}
if (pointer->button_count == 0 &&
state == WL_POINTER_BUTTON_STATE_RELEASED) {
surface = weston_compositor_pick_surface(compositor,
pointer->x,
pointer->y,
&sx, &sy);
weston_pointer_set_focus(pointer, surface, sx, sy);
}
}
static const struct weston_pointer_grab_interface
default_pointer_grab_interface = {
default_grab_focus,
default_grab_motion,
default_grab_button
};
static void
default_grab_touch_down(struct weston_touch_grab *grab, uint32_t time,
int touch_id, wl_fixed_t sx, wl_fixed_t sy)
{
struct weston_touch *touch = grab->touch;
struct wl_display *display = touch->seat->compositor->wl_display;
uint32_t serial;
struct wl_resource *resource;
struct wl_list *resource_list;
resource_list = &touch->focus_resource_list;
if (!wl_list_empty(resource_list) && touch->focus) {
serial = wl_display_next_serial(display);
wl_resource_for_each(resource, resource_list)
wl_touch_send_down(resource, serial, time,
touch->focus->resource,
touch_id, sx, sy);
}
}
static void
default_grab_touch_up(struct weston_touch_grab *grab,
uint32_t time, int touch_id)
{
struct weston_touch *touch = grab->touch;
struct wl_display *display = touch->seat->compositor->wl_display;
uint32_t serial;
struct wl_resource *resource;
struct wl_list *resource_list;
resource_list = &touch->focus_resource_list;
if (!wl_list_empty(resource_list)) {
serial = wl_display_next_serial(display);
wl_resource_for_each(resource, resource_list)
wl_touch_send_up(resource, serial, time, touch_id);
}
}
static void
default_grab_touch_motion(struct weston_touch_grab *grab, uint32_t time,
int touch_id, wl_fixed_t sx, wl_fixed_t sy)
{
struct weston_touch *touch = grab->touch;
struct wl_resource *resource;
struct wl_list *resource_list;
resource_list = &touch->focus_resource_list;
wl_resource_for_each(resource, resource_list) {
wl_touch_send_motion(resource, time,
touch_id, sx, sy);
}
}
static const struct weston_touch_grab_interface default_touch_grab_interface = {
default_grab_touch_down,
default_grab_touch_up,
default_grab_touch_motion
};
static void
default_grab_key(struct weston_keyboard_grab *grab,
uint32_t time, uint32_t key, uint32_t state)
{
struct weston_keyboard *keyboard = grab->keyboard;
struct wl_resource *resource;
struct wl_display *display = keyboard->seat->compositor->wl_display;
uint32_t serial;
struct wl_list *resource_list;
resource_list = &keyboard->focus_resource_list;
if (!wl_list_empty(resource_list)) {
serial = wl_display_next_serial(display);
wl_resource_for_each(resource, resource_list)
wl_keyboard_send_key(resource,
serial,
time,
key,
state);
}
}
static void
send_modifiers_to_resource(struct weston_keyboard *keyboard,
struct wl_resource *resource,
uint32_t serial)
{
wl_keyboard_send_modifiers(resource,
serial,
keyboard->modifiers.mods_depressed,
keyboard->modifiers.mods_latched,
keyboard->modifiers.mods_locked,
keyboard->modifiers.group);
}
static void
send_modifiers_to_client_in_list(struct wl_client *client,
struct wl_list *list,
uint32_t serial,
struct weston_keyboard *keyboard)
{
struct wl_resource *resource;
wl_resource_for_each(resource, list) {
if (wl_resource_get_client(resource) == client)
send_modifiers_to_resource(keyboard,
resource,
serial);
}
}
static struct wl_resource *
find_resource_for_surface(struct wl_list *list, struct weston_surface *surface)
{
if (!surface)
return NULL;
if (!surface->resource)
return NULL;
return wl_resource_find_for_client(list, wl_resource_get_client(surface->resource));
}
static void
default_grab_modifiers(struct weston_keyboard_grab *grab, uint32_t serial,
uint32_t mods_depressed, uint32_t mods_latched,
uint32_t mods_locked, uint32_t group)
{
struct weston_keyboard *keyboard = grab->keyboard;
struct weston_pointer *pointer = grab->keyboard->seat->pointer;
struct wl_resource *resource;
struct wl_list *resource_list;
resource_list = &keyboard->focus_resource_list;
wl_resource_for_each(resource, resource_list) {
wl_keyboard_send_modifiers(resource, serial, mods_depressed,
mods_latched, mods_locked, group);
}
if (pointer && pointer->focus && pointer->focus != keyboard->focus) {
struct wl_client *pointer_client =
wl_resource_get_client(pointer->focus->resource);
send_modifiers_to_client_in_list(pointer_client,
&keyboard->resource_list,
serial,
keyboard);
}
}
static const struct weston_keyboard_grab_interface
default_keyboard_grab_interface = {
default_grab_key,
default_grab_modifiers,
};
static void
pointer_unmap_sprite(struct weston_pointer *pointer)
{
if (weston_surface_is_mapped(pointer->sprite))
weston_surface_unmap(pointer->sprite);
wl_list_remove(&pointer->sprite_destroy_listener.link);
pointer->sprite->configure = NULL;
pointer->sprite->configure_private = NULL;
pointer->sprite = NULL;
}
static void
pointer_handle_sprite_destroy(struct wl_listener *listener, void *data)
{
struct weston_pointer *pointer =
container_of(listener, struct weston_pointer,
sprite_destroy_listener);
pointer->sprite = NULL;
}
WL_EXPORT struct weston_pointer *
weston_pointer_create(void)
{
struct weston_pointer *pointer;
pointer = zalloc(sizeof *pointer);
if (pointer == NULL)
return NULL;
wl_list_init(&pointer->resource_list);
wl_list_init(&pointer->focus_resource_list);
pointer->default_grab.interface = &default_pointer_grab_interface;
pointer->default_grab.pointer = pointer;
pointer->grab = &pointer->default_grab;
wl_signal_init(&pointer->focus_signal);
pointer->sprite_destroy_listener.notify = pointer_handle_sprite_destroy;
/* FIXME: Pick better co-ords. */
pointer->x = wl_fixed_from_int(100);
pointer->y = wl_fixed_from_int(100);
return pointer;
}
WL_EXPORT void
weston_pointer_destroy(struct weston_pointer *pointer)
{
if (pointer->sprite)
pointer_unmap_sprite(pointer);
/* XXX: What about pointer->resource_list? */
free(pointer);
}
WL_EXPORT struct weston_keyboard *
weston_keyboard_create(void)
{
struct weston_keyboard *keyboard;
keyboard = zalloc(sizeof *keyboard);
if (keyboard == NULL)
return NULL;
wl_list_init(&keyboard->resource_list);
wl_list_init(&keyboard->focus_resource_list);
wl_array_init(&keyboard->keys);
keyboard->default_grab.interface = &default_keyboard_grab_interface;
keyboard->default_grab.keyboard = keyboard;
keyboard->grab = &keyboard->default_grab;
wl_signal_init(&keyboard->focus_signal);
return keyboard;
}
WL_EXPORT void
weston_keyboard_destroy(struct weston_keyboard *keyboard)
{
/* XXX: What about keyboard->resource_list? */
wl_array_release(&keyboard->keys);
free(keyboard);
}
WL_EXPORT struct weston_touch *
weston_touch_create(void)
{
struct weston_touch *touch;
touch = zalloc(sizeof *touch);
if (touch == NULL)
return NULL;
wl_list_init(&touch->resource_list);
wl_list_init(&touch->focus_resource_list);
touch->default_grab.interface = &default_touch_grab_interface;
touch->default_grab.touch = touch;
touch->grab = &touch->default_grab;
wl_signal_init(&touch->focus_signal);
return touch;
}
WL_EXPORT void
weston_touch_destroy(struct weston_touch *touch)
{
/* XXX: What about touch->resource_list? */
free(touch);
}
static void
seat_send_updated_caps(struct weston_seat *seat)
{
enum wl_seat_capability caps = 0;
struct wl_resource *resource;
if (seat->pointer)
caps |= WL_SEAT_CAPABILITY_POINTER;
if (seat->keyboard)
caps |= WL_SEAT_CAPABILITY_KEYBOARD;
if (seat->touch)
caps |= WL_SEAT_CAPABILITY_TOUCH;
wl_resource_for_each(resource, &seat->base_resource_list) {
wl_seat_send_capabilities(resource, caps);
}
}
WL_EXPORT void
weston_pointer_set_focus(struct weston_pointer *pointer,
struct weston_surface *surface,
wl_fixed_t sx, wl_fixed_t sy)
{
struct weston_keyboard *kbd = pointer->seat->keyboard;
struct wl_resource *resource;
struct wl_display *display = pointer->seat->compositor->wl_display;
uint32_t serial;
struct wl_list *focus_resource_list;
focus_resource_list = &pointer->focus_resource_list;
if (!wl_list_empty(focus_resource_list) && pointer->focus != surface) {
serial = wl_display_next_serial(display);
wl_resource_for_each(resource, focus_resource_list) {
wl_pointer_send_leave(resource, serial,
pointer->focus->resource);
}
move_resources(&pointer->resource_list, focus_resource_list);
}
if (find_resource_for_surface(&pointer->resource_list, surface) &&
pointer->focus != surface) {
struct wl_client *surface_client =
wl_resource_get_client(surface->resource);
serial = wl_display_next_serial(display);
if (kbd && kbd->focus != pointer->focus)
send_modifiers_to_client_in_list(surface_client,
&kbd->resource_list,
serial,
kbd);
move_resources_for_client(focus_resource_list,
&pointer->resource_list,
surface_client);
wl_resource_for_each(resource, focus_resource_list) {
wl_pointer_send_enter(resource,
serial,
surface->resource,
sx, sy);
}
pointer->focus_serial = serial;
}
pointer->focus = surface;
wl_signal_emit(&pointer->focus_signal, pointer);
}
static void
send_enter_to_resource_list(struct wl_list *list,
struct weston_keyboard *keyboard,
struct weston_surface *surface,
uint32_t serial)
{
struct wl_resource *resource;
wl_resource_for_each(resource, list) {
send_modifiers_to_resource(keyboard, resource, serial);
wl_keyboard_send_enter(resource, serial,
surface->resource,
&keyboard->keys);
}
}
WL_EXPORT void
weston_keyboard_set_focus(struct weston_keyboard *keyboard,
struct weston_surface *surface)
{
struct wl_resource *resource;
struct wl_display *display = keyboard->seat->compositor->wl_display;
uint32_t serial;
struct wl_list *focus_resource_list;
focus_resource_list = &keyboard->focus_resource_list;
if (!wl_list_empty(focus_resource_list) && keyboard->focus != surface) {
serial = wl_display_next_serial(display);
wl_resource_for_each(resource, focus_resource_list) {
wl_keyboard_send_leave(resource, serial,
keyboard->focus->resource);
}
move_resources(&keyboard->resource_list, focus_resource_list);
}
if (find_resource_for_surface(&keyboard->resource_list, surface) &&
keyboard->focus != surface) {
struct wl_client *surface_client =
wl_resource_get_client(surface->resource);
serial = wl_display_next_serial(display);
move_resources_for_client(focus_resource_list,
&keyboard->resource_list,
surface_client);
send_enter_to_resource_list(focus_resource_list,
keyboard,
surface,
serial);
keyboard->focus_serial = serial;
}
keyboard->focus = surface;
wl_signal_emit(&keyboard->focus_signal, keyboard);
}
WL_EXPORT void
weston_keyboard_start_grab(struct weston_keyboard *keyboard,
struct weston_keyboard_grab *grab)
{
keyboard->grab = grab;
grab->keyboard = keyboard;
/* XXX focus? */
}
WL_EXPORT void
weston_keyboard_end_grab(struct weston_keyboard *keyboard)
{
keyboard->grab = &keyboard->default_grab;
}
WL_EXPORT void
weston_pointer_start_grab(struct weston_pointer *pointer,
struct weston_pointer_grab *grab)
{
pointer->grab = grab;
grab->pointer = pointer;
pointer->grab->interface->focus(pointer->grab);
}
WL_EXPORT void
weston_pointer_end_grab(struct weston_pointer *pointer)
{
pointer->grab = &pointer->default_grab;
pointer->grab->interface->focus(pointer->grab);
}
WL_EXPORT void
weston_touch_start_grab(struct weston_touch *touch, struct weston_touch_grab *grab)
{
touch->grab = grab;
grab->touch = touch;
}
WL_EXPORT void
weston_touch_end_grab(struct weston_touch *touch)
{
touch->grab = &touch->default_grab;
}
WL_EXPORT void
weston_pointer_clamp(struct weston_pointer *pointer, wl_fixed_t *fx, wl_fixed_t *fy)
{
struct weston_compositor *ec = pointer->seat->compositor;
struct weston_output *output, *prev = NULL;
int x, y, old_x, old_y, valid = 0;
x = wl_fixed_to_int(*fx);
y = wl_fixed_to_int(*fy);
old_x = wl_fixed_to_int(pointer->x);
old_y = wl_fixed_to_int(pointer->y);
wl_list_for_each(output, &ec->output_list, link) {
if (pointer->seat->output && pointer->seat->output != output)
continue;
if (pixman_region32_contains_point(&output->region,
x, y, NULL))
valid = 1;
if (pixman_region32_contains_point(&output->region,
old_x, old_y, NULL))
prev = output;
}
if (!prev)
prev = pointer->seat->output;
if (prev && !valid) {
if (x < prev->x)
*fx = wl_fixed_from_int(prev->x);
else if (x >= prev->x + prev->width)
*fx = wl_fixed_from_int(prev->x +
prev->width - 1);
if (y < prev->y)
*fy = wl_fixed_from_int(prev->y);
else if (y >= prev->y + prev->height)
*fy = wl_fixed_from_int(prev->y +
prev->height - 1);
}
}
/* Takes absolute values */
static void
move_pointer(struct weston_seat *seat, wl_fixed_t x, wl_fixed_t y)
{
struct weston_compositor *ec = seat->compositor;
struct weston_pointer *pointer = seat->pointer;
struct weston_output *output;
int32_t ix, iy;
weston_pointer_clamp (pointer, &x, &y);
pointer->x = x;
pointer->y = y;
ix = wl_fixed_to_int(x);
iy = wl_fixed_to_int(y);
wl_list_for_each(output, &ec->output_list, link)
if (output->zoom.active &&
pixman_region32_contains_point(&output->region,
ix, iy, NULL))
weston_output_update_zoom(output, ZOOM_FOCUS_POINTER);
if (pointer->sprite) {
weston_surface_set_position(pointer->sprite,
ix - pointer->hotspot_x,
iy - pointer->hotspot_y);
weston_surface_schedule_repaint(pointer->sprite);
}
}
WL_EXPORT void
notify_motion(struct weston_seat *seat,
uint32_t time, wl_fixed_t dx, wl_fixed_t dy)
{
struct weston_compositor *ec = seat->compositor;
struct weston_pointer *pointer = seat->pointer;
weston_compositor_wake(ec);
move_pointer(seat, pointer->x + dx, pointer->y + dy);
pointer->grab->interface->focus(pointer->grab);
pointer->grab->interface->motion(pointer->grab, time);
}
WL_EXPORT void
notify_motion_absolute(struct weston_seat *seat,
uint32_t time, wl_fixed_t x, wl_fixed_t y)
{
struct weston_compositor *ec = seat->compositor;
struct weston_pointer *pointer = seat->pointer;
weston_compositor_wake(ec);
move_pointer(seat, x, y);
pointer->grab->interface->focus(pointer->grab);
pointer->grab->interface->motion(pointer->grab, time);
}
WL_EXPORT void
weston_surface_activate(struct weston_surface *surface,
struct weston_seat *seat)
{
struct weston_compositor *compositor = seat->compositor;
if (seat->keyboard) {
weston_keyboard_set_focus(seat->keyboard, surface);
wl_data_device_set_keyboard_focus(seat);
}
wl_signal_emit(&compositor->activate_signal, surface);
}
WL_EXPORT void
notify_button(struct weston_seat *seat, uint32_t time, int32_t button,
enum wl_pointer_button_state state)
{
struct weston_compositor *compositor = seat->compositor;
struct weston_pointer *pointer = seat->pointer;
struct weston_surface *focus =
(struct weston_surface *) pointer->focus;
uint32_t serial = wl_display_next_serial(compositor->wl_display);
if (state == WL_POINTER_BUTTON_STATE_PRESSED) {
if (compositor->ping_handler && focus)
compositor->ping_handler(focus, serial);
weston_compositor_idle_inhibit(compositor);
if (pointer->button_count == 0) {
pointer->grab_button = button;
pointer->grab_time = time;
pointer->grab_x = pointer->x;
pointer->grab_y = pointer->y;
}
pointer->button_count++;
} else {
weston_compositor_idle_release(compositor);
pointer->button_count--;
}
weston_compositor_run_button_binding(compositor, seat, time, button,
state);
pointer->grab->interface->button(pointer->grab, time, button, state);
if (pointer->button_count == 1)
pointer->grab_serial =
wl_display_get_serial(compositor->wl_display);
}
WL_EXPORT void
notify_axis(struct weston_seat *seat, uint32_t time, uint32_t axis,
wl_fixed_t value)
{
struct weston_compositor *compositor = seat->compositor;
struct weston_pointer *pointer = seat->pointer;
struct weston_surface *focus =
(struct weston_surface *) pointer->focus;
uint32_t serial = wl_display_next_serial(compositor->wl_display);
struct wl_resource *resource;
struct wl_list *resource_list;
if (compositor->ping_handler && focus)
compositor->ping_handler(focus, serial);
weston_compositor_wake(compositor);
if (!value)
return;
if (weston_compositor_run_axis_binding(compositor, seat,
time, axis, value))
return;
resource_list = &pointer->focus_resource_list;
wl_resource_for_each(resource, resource_list)
wl_pointer_send_axis(resource, time, axis,
value);
}
#ifdef ENABLE_XKBCOMMON
WL_EXPORT void
notify_modifiers(struct weston_seat *seat, uint32_t serial)
{
struct weston_keyboard *keyboard = seat->keyboard;
struct weston_keyboard_grab *grab = keyboard->grab;
uint32_t mods_depressed, mods_latched, mods_locked, group;
uint32_t mods_lookup;
enum weston_led leds = 0;
int changed = 0;
/* Serialize and update our internal state, checking to see if it's
* different to the previous state. */
mods_depressed = xkb_state_serialize_mods(seat->xkb_state.state,
XKB_STATE_DEPRESSED);
mods_latched = xkb_state_serialize_mods(seat->xkb_state.state,
XKB_STATE_LATCHED);
mods_locked = xkb_state_serialize_mods(seat->xkb_state.state,
XKB_STATE_LOCKED);
group = xkb_state_serialize_group(seat->xkb_state.state,
XKB_STATE_EFFECTIVE);
if (mods_depressed != seat->keyboard->modifiers.mods_depressed ||
mods_latched != seat->keyboard->modifiers.mods_latched ||
mods_locked != seat->keyboard->modifiers.mods_locked ||
group != seat->keyboard->modifiers.group)
changed = 1;
seat->keyboard->modifiers.mods_depressed = mods_depressed;
seat->keyboard->modifiers.mods_latched = mods_latched;
seat->keyboard->modifiers.mods_locked = mods_locked;
seat->keyboard->modifiers.group = group;
/* And update the modifier_state for bindings. */
mods_lookup = mods_depressed | mods_latched;
seat->modifier_state = 0;
if (mods_lookup & (1 << seat->xkb_info->ctrl_mod))
seat->modifier_state |= MODIFIER_CTRL;
if (mods_lookup & (1 << seat->xkb_info->alt_mod))
seat->modifier_state |= MODIFIER_ALT;
if (mods_lookup & (1 << seat->xkb_info->super_mod))
seat->modifier_state |= MODIFIER_SUPER;
if (mods_lookup & (1 << seat->xkb_info->shift_mod))
seat->modifier_state |= MODIFIER_SHIFT;
/* Finally, notify the compositor that LEDs have changed. */
if (xkb_state_led_index_is_active(seat->xkb_state.state,
seat->xkb_info->num_led))
leds |= LED_NUM_LOCK;
if (xkb_state_led_index_is_active(seat->xkb_state.state,
seat->xkb_info->caps_led))
leds |= LED_CAPS_LOCK;
if (xkb_state_led_index_is_active(seat->xkb_state.state,
seat->xkb_info->scroll_led))
leds |= LED_SCROLL_LOCK;
if (leds != seat->xkb_state.leds && seat->led_update)
seat->led_update(seat, leds);
seat->xkb_state.leds = leds;
if (changed) {
grab->interface->modifiers(grab,
serial,
keyboard->modifiers.mods_depressed,
keyboard->modifiers.mods_latched,
keyboard->modifiers.mods_locked,
keyboard->modifiers.group);
}
}
static void
update_modifier_state(struct weston_seat *seat, uint32_t serial, uint32_t key,
enum wl_keyboard_key_state state)
{
enum xkb_key_direction direction;
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
/* Keyboard modifiers don't exist in raw keyboard mode */
if (!seat->compositor->use_xkbcommon)
return;
if (state == WL_KEYBOARD_KEY_STATE_PRESSED)
direction = XKB_KEY_DOWN;
else
direction = XKB_KEY_UP;
/* Offset the keycode by 8, as the evdev XKB rules reflect X's
* broken keycode system, which starts at 8. */
xkb_state_update_key(seat->xkb_state.state, key + 8, direction);
notify_modifiers(seat, serial);
}
#else
WL_EXPORT void
notify_modifiers(struct weston_seat *seat, uint32_t serial)
{
}
static void
update_modifier_state(struct weston_seat *seat, uint32_t serial, uint32_t key,
enum wl_keyboard_key_state state)
{
}
#endif
WL_EXPORT void
notify_key(struct weston_seat *seat, uint32_t time, uint32_t key,
enum wl_keyboard_key_state state,
enum weston_key_state_update update_state)
{
struct weston_compositor *compositor = seat->compositor;
struct weston_keyboard *keyboard = seat->keyboard;
struct weston_surface *focus =
(struct weston_surface *) keyboard->focus;
struct weston_keyboard_grab *grab = keyboard->grab;
uint32_t serial = wl_display_next_serial(compositor->wl_display);
uint32_t *k, *end;
if (state == WL_KEYBOARD_KEY_STATE_PRESSED) {
if (compositor->ping_handler && focus)
compositor->ping_handler(focus, serial);
weston_compositor_idle_inhibit(compositor);
keyboard->grab_key = key;
keyboard->grab_time = time;
} else {
weston_compositor_idle_release(compositor);
}
end = keyboard->keys.data + keyboard->keys.size;
for (k = keyboard->keys.data; k < end; k++) {
if (*k == key) {
/* Ignore server-generated repeats. */
if (state == WL_KEYBOARD_KEY_STATE_PRESSED)
return;
*k = *--end;
}
}
keyboard->keys.size = (void *) end - keyboard->keys.data;
if (state == WL_KEYBOARD_KEY_STATE_PRESSED) {
k = wl_array_add(&keyboard->keys, sizeof *k);
*k = key;
}
if (grab == &keyboard->default_grab ||
grab == &keyboard->input_method_grab) {
weston_compositor_run_key_binding(compositor, seat, time, key,
state);
grab = keyboard->grab;
}
grab->interface->key(grab, time, key, state);
if (update_state == STATE_UPDATE_AUTOMATIC) {
update_modifier_state(seat,
wl_display_get_serial(compositor->wl_display),
key,
state);
}
}
WL_EXPORT void
notify_pointer_focus(struct weston_seat *seat, struct weston_output *output,
wl_fixed_t x, wl_fixed_t y)
{
struct weston_compositor *compositor = seat->compositor;
if (output) {
move_pointer(seat, x, y);
compositor->focus = 1;
} else {
compositor->focus = 0;
/* FIXME: We should call weston_pointer_set_focus(seat,
* NULL) here, but somehow that breaks re-entry... */
}
}
static void
destroy_device_saved_kbd_focus(struct wl_listener *listener, void *data)
{
struct weston_seat *ws;
ws = container_of(listener, struct weston_seat,
saved_kbd_focus_listener);
ws->saved_kbd_focus = NULL;
}
WL_EXPORT void
notify_keyboard_focus_in(struct weston_seat *seat, struct wl_array *keys,
enum weston_key_state_update update_state)
{
struct weston_compositor *compositor = seat->compositor;
struct weston_keyboard *keyboard = seat->keyboard;
struct weston_surface *surface;
uint32_t *k, serial;
serial = wl_display_next_serial(compositor->wl_display);
wl_array_copy(&keyboard->keys, keys);
wl_array_for_each(k, &keyboard->keys) {
weston_compositor_idle_inhibit(compositor);
if (update_state == STATE_UPDATE_AUTOMATIC)
update_modifier_state(seat, serial, *k,
WL_KEYBOARD_KEY_STATE_PRESSED);
}
/* Run key bindings after we've updated the state. */
wl_array_for_each(k, &keyboard->keys) {
weston_compositor_run_key_binding(compositor, seat, 0, *k,
WL_KEYBOARD_KEY_STATE_PRESSED);
}
surface = seat->saved_kbd_focus;
if (surface) {
wl_list_remove(&seat->saved_kbd_focus_listener.link);
weston_keyboard_set_focus(keyboard, surface);
seat->saved_kbd_focus = NULL;
}
}
WL_EXPORT void
notify_keyboard_focus_out(struct weston_seat *seat)
{
struct weston_compositor *compositor = seat->compositor;
struct weston_keyboard *keyboard = seat->keyboard;
uint32_t *k, serial;
serial = wl_display_next_serial(compositor->wl_display);
wl_array_for_each(k, &keyboard->keys) {
weston_compositor_idle_release(compositor);
update_modifier_state(seat, serial, *k,
WL_KEYBOARD_KEY_STATE_RELEASED);
}
seat->modifier_state = 0;
if (keyboard->focus) {
seat->saved_kbd_focus = keyboard->focus;
seat->saved_kbd_focus_listener.notify =
destroy_device_saved_kbd_focus;
wl_signal_add(&keyboard->focus->destroy_signal,
&seat->saved_kbd_focus_listener);
}
weston_keyboard_set_focus(keyboard, NULL);
/* FIXME: We really need keyboard grab cancel here to
* let the grab shut down properly. As it is we leak
* the grab data. */
weston_keyboard_end_grab(keyboard);
}
WL_EXPORT void
weston_touch_set_focus(struct weston_seat *seat, struct weston_surface *surface)
{
struct wl_list *focus_resource_list;
focus_resource_list = &seat->touch->focus_resource_list;
if (seat->touch->focus == surface)
return;
if (!wl_list_empty(focus_resource_list)) {
move_resources(&seat->touch->resource_list,
focus_resource_list);
}
if (surface) {
struct wl_client *surface_client =
wl_resource_get_client(surface->resource);
move_resources_for_client(focus_resource_list,
&seat->touch->resource_list,
surface_client);
}
seat->touch->focus = surface;
}
/**
* notify_touch - emulates button touches and notifies surfaces accordingly.
*
* It assumes always the correct cycle sequence until it gets here: touch_down
* touch_update ... touch_update touch_end. The driver is responsible
* for sending along such order.
*
*/
WL_EXPORT void
notify_touch(struct weston_seat *seat, uint32_t time, int touch_id,
wl_fixed_t x, wl_fixed_t y, int touch_type)
{
struct weston_compositor *ec = seat->compositor;
struct weston_touch *touch = seat->touch;
struct weston_touch_grab *grab = touch->grab;
struct weston_surface *es;
wl_fixed_t sx, sy;
/* Update grab's global coordinates. */
touch->grab_x = x;
touch->grab_y = y;
switch (touch_type) {
case WL_TOUCH_DOWN:
weston_compositor_idle_inhibit(ec);
seat->num_tp++;
/* the first finger down picks the surface, and all further go
* to that surface for the remainder of the touch session i.e.
* until all touch points are up again. */
if (seat->num_tp == 1) {
es = weston_compositor_pick_surface(ec, x, y, &sx, &sy);
weston_touch_set_focus(seat, es);
} else if (touch->focus) {
es = (struct weston_surface *) touch->focus;
weston_surface_from_global_fixed(es, x, y, &sx, &sy);
} else {
/* Unexpected condition: We have non-initial touch but
* there is no focused surface.
*/
weston_log("touch event received with %d points down"
"but no surface focused\n", seat->num_tp);
return;
}
grab->interface->down(grab, time, touch_id, sx, sy);
if (seat->num_tp == 1) {
touch->grab_serial =
wl_display_get_serial(ec->wl_display);
touch->grab_time = time;
touch->grab_x = x;
touch->grab_y = y;
}
break;
case WL_TOUCH_MOTION:
es = (struct weston_surface *) touch->focus;
if (!es)
break;
weston_surface_from_global_fixed(es, x, y, &sx, &sy);
grab->interface->motion(grab, time, touch_id, sx, sy);
break;
case WL_TOUCH_UP:
weston_compositor_idle_release(ec);
seat->num_tp--;
grab->interface->up(grab, time, touch_id);
if (seat->num_tp == 0)
weston_touch_set_focus(seat, NULL);
break;
}
}
static void
pointer_cursor_surface_configure(struct weston_surface *es,
int32_t dx, int32_t dy, int32_t width, int32_t height)
{
struct weston_pointer *pointer = es->configure_private;
int x, y;
if (width == 0)
return;
assert(es == pointer->sprite);
pointer->hotspot_x -= dx;
pointer->hotspot_y -= dy;
x = wl_fixed_to_int(pointer->x) - pointer->hotspot_x;
y = wl_fixed_to_int(pointer->y) - pointer->hotspot_y;
weston_surface_configure(pointer->sprite, x, y, width, height);
empty_region(&es->pending.input);
if (!weston_surface_is_mapped(es)) {
wl_list_insert(&es->compositor->cursor_layer.surface_list,
&es->layer_link);
weston_surface_update_transform(es);
}
}
static void
pointer_set_cursor(struct wl_client *client, struct wl_resource *resource,
uint32_t serial, struct wl_resource *surface_resource,
int32_t x, int32_t y)
{
struct weston_pointer *pointer = wl_resource_get_user_data(resource);
struct weston_surface *surface = NULL;
if (surface_resource)
surface = wl_resource_get_user_data(surface_resource);
if (pointer->focus == NULL)
return;
/* pointer->focus->resource can be NULL. Surfaces like the
black_surface used in shell.c for fullscreen don't have
a resource, but can still have focus */
if (pointer->focus->resource == NULL)
return;
if (wl_resource_get_client(pointer->focus->resource) != client)
return;
if (pointer->focus_serial - serial > UINT32_MAX / 2)
return;
if (surface && surface != pointer->sprite) {
if (surface->configure) {
wl_resource_post_error(surface->resource,
WL_DISPLAY_ERROR_INVALID_OBJECT,
"surface->configure already "
"set");
return;
}
}
if (pointer->sprite)
pointer_unmap_sprite(pointer);
if (!surface)
return;
wl_signal_add(&surface->destroy_signal,
&pointer->sprite_destroy_listener);
surface->configure = pointer_cursor_surface_configure;
surface->configure_private = pointer;
pointer->sprite = surface;
pointer->hotspot_x = x;
pointer->hotspot_y = y;
if (surface->buffer_ref.buffer)
pointer_cursor_surface_configure(surface, 0, 0, weston_surface_buffer_width(surface),
weston_surface_buffer_height(surface));
}
static void
pointer_release(struct wl_client *client, struct wl_resource *resource)
{
wl_resource_destroy(resource);
}
static const struct wl_pointer_interface pointer_interface = {
pointer_set_cursor,
pointer_release
};
static void
seat_get_pointer(struct wl_client *client, struct wl_resource *resource,
uint32_t id)
{
struct weston_seat *seat = wl_resource_get_user_data(resource);
struct wl_resource *cr;
if (!seat->pointer)
return;
cr = wl_resource_create(client, &wl_pointer_interface,
wl_resource_get_version(resource), id);
if (cr == NULL) {
wl_client_post_no_memory(client);
return;
}
/* May be moved to focused list later by either
* weston_pointer_set_focus or directly if this client is already
* focused */
wl_list_insert(&seat->pointer->resource_list, wl_resource_get_link(cr));
wl_resource_set_implementation(cr, &pointer_interface, seat->pointer,
unbind_resource);
if (seat->pointer->focus && seat->pointer->focus->resource &&
wl_resource_get_client(seat->pointer->focus->resource) == client) {
struct weston_surface *surface;
wl_fixed_t sx, sy;
surface = (struct weston_surface *) seat->pointer->focus;
weston_surface_from_global_fixed(surface,
seat->pointer->x,
seat->pointer->y,
&sx,
&sy);
wl_list_remove(wl_resource_get_link(cr));
wl_list_insert(&seat->pointer->focus_resource_list,
wl_resource_get_link(cr));
wl_pointer_send_enter(cr,
seat->pointer->focus_serial,
surface->resource,
sx, sy);
}
}
static void
keyboard_release(struct wl_client *client, struct wl_resource *resource)
{
wl_resource_destroy(resource);
}
static const struct wl_keyboard_interface keyboard_interface = {
keyboard_release
};
static int
should_send_modifiers_to_client(struct weston_seat *seat,
struct wl_client *client)
{
if (seat->keyboard &&
seat->keyboard->focus &&
wl_resource_get_client(seat->keyboard->focus->resource) == client)
return 1;
if (seat->pointer &&
seat->pointer->focus &&
wl_resource_get_client(seat->pointer->focus->resource) == client)
return 1;
return 0;
}
static void
seat_get_keyboard(struct wl_client *client, struct wl_resource *resource,
uint32_t id)
{
struct weston_seat *seat = wl_resource_get_user_data(resource);
struct wl_resource *cr;
if (!seat->keyboard)
return;
cr = wl_resource_create(client, &wl_keyboard_interface,
wl_resource_get_version(resource), id);
if (cr == NULL) {
wl_client_post_no_memory(client);
return;
}
/* May be moved to focused list later by either
* weston_keyboard_set_focus or directly if this client is already
* focused */
wl_list_insert(&seat->keyboard->resource_list, wl_resource_get_link(cr));
wl_resource_set_implementation(cr, &keyboard_interface,
seat, unbind_resource);
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
if (seat->compositor->use_xkbcommon) {
wl_keyboard_send_keymap(cr, WL_KEYBOARD_KEYMAP_FORMAT_XKB_V1,
seat->xkb_info->keymap_fd,
seat->xkb_info->keymap_size);
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
} else {
int null_fd = open("/dev/null", O_RDONLY);
wl_keyboard_send_keymap(cr, WL_KEYBOARD_KEYMAP_FORMAT_NO_KEYMAP,
null_fd,
0);
close(null_fd);
}
if (should_send_modifiers_to_client(seat, client)) {
send_modifiers_to_resource(seat->keyboard,
cr,
seat->keyboard->focus_serial);
}
if (seat->keyboard->focus &&
wl_resource_get_client(seat->keyboard->focus->resource) == client) {
struct weston_surface *surface =
(struct weston_surface *) seat->keyboard->focus;
wl_list_remove(wl_resource_get_link(cr));
wl_list_insert(&seat->keyboard->focus_resource_list,
wl_resource_get_link(cr));
wl_keyboard_send_enter(cr,
seat->keyboard->focus_serial,
surface->resource,
&seat->keyboard->keys);
/* If this is the first keyboard resource for this
* client... */
if (seat->keyboard->focus_resource_list.prev ==
wl_resource_get_link(cr))
wl_data_device_set_keyboard_focus(seat);
}
}
static void
touch_release(struct wl_client *client, struct wl_resource *resource)
{
wl_resource_destroy(resource);
}
static const struct wl_touch_interface touch_interface = {
touch_release
};
static void
seat_get_touch(struct wl_client *client, struct wl_resource *resource,
uint32_t id)
{
struct weston_seat *seat = wl_resource_get_user_data(resource);
struct wl_resource *cr;
if (!seat->touch)
return;
cr = wl_resource_create(client, &wl_touch_interface,
wl_resource_get_version(resource), id);
if (cr == NULL) {
wl_client_post_no_memory(client);
return;
}
if (seat->touch->focus &&
wl_resource_get_client(seat->touch->focus->resource) == client) {
wl_list_insert(&seat->touch->resource_list,
wl_resource_get_link(cr));
} else {
wl_list_insert(&seat->touch->focus_resource_list,
wl_resource_get_link(cr));
}
wl_resource_set_implementation(cr, &touch_interface,
seat, unbind_resource);
}
static const struct wl_seat_interface seat_interface = {
seat_get_pointer,
seat_get_keyboard,
seat_get_touch,
};
static void
bind_seat(struct wl_client *client, void *data, uint32_t version, uint32_t id)
{
struct weston_seat *seat = data;
struct wl_resource *resource;
enum wl_seat_capability caps = 0;
resource = wl_resource_create(client,
&wl_seat_interface, MIN(version, 3), id);
wl_list_insert(&seat->base_resource_list, wl_resource_get_link(resource));
wl_resource_set_implementation(resource, &seat_interface, data,
unbind_resource);
if (seat->pointer)
caps |= WL_SEAT_CAPABILITY_POINTER;
if (seat->keyboard)
caps |= WL_SEAT_CAPABILITY_KEYBOARD;
if (seat->touch)
caps |= WL_SEAT_CAPABILITY_TOUCH;
wl_seat_send_capabilities(resource, caps);
if (version >= 2)
wl_seat_send_name(resource, seat->seat_name);
}
#ifdef ENABLE_XKBCOMMON
int
weston_compositor_xkb_init(struct weston_compositor *ec,
struct xkb_rule_names *names)
{
ec->use_xkbcommon = 1;
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
if (ec->xkb_context == NULL) {
ec->xkb_context = xkb_context_new(0);
if (ec->xkb_context == NULL) {
weston_log("failed to create XKB context\n");
return -1;
}
}
if (names)
ec->xkb_names = *names;
if (!ec->xkb_names.rules)
ec->xkb_names.rules = strdup("evdev");
if (!ec->xkb_names.model)
ec->xkb_names.model = strdup("pc105");
if (!ec->xkb_names.layout)
ec->xkb_names.layout = strdup("us");
return 0;
}
static void
weston_xkb_info_destroy(struct weston_xkb_info *xkb_info)
{
if (--xkb_info->ref_count > 0)
return;
if (xkb_info->keymap)
xkb_map_unref(xkb_info->keymap);
if (xkb_info->keymap_area)
munmap(xkb_info->keymap_area, xkb_info->keymap_size);
if (xkb_info->keymap_fd >= 0)
close(xkb_info->keymap_fd);
free(xkb_info);
}
void
weston_compositor_xkb_destroy(struct weston_compositor *ec)
{
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
/*
* If we're operating in raw keyboard mode, we never initialized
* libxkbcommon so there's no cleanup to do either.
*/
if (!ec->use_xkbcommon)
return;
free((char *) ec->xkb_names.rules);
free((char *) ec->xkb_names.model);
free((char *) ec->xkb_names.layout);
free((char *) ec->xkb_names.variant);
free((char *) ec->xkb_names.options);
if (ec->xkb_info)
weston_xkb_info_destroy(ec->xkb_info);
xkb_context_unref(ec->xkb_context);
}
static struct weston_xkb_info *
weston_xkb_info_create(struct xkb_keymap *keymap)
{
struct weston_xkb_info *xkb_info = zalloc(sizeof *xkb_info);
if (xkb_info == NULL)
return NULL;
xkb_info->keymap = xkb_map_ref(keymap);
xkb_info->ref_count = 1;
char *keymap_str;
xkb_info->shift_mod = xkb_map_mod_get_index(xkb_info->keymap,
XKB_MOD_NAME_SHIFT);
xkb_info->caps_mod = xkb_map_mod_get_index(xkb_info->keymap,
XKB_MOD_NAME_CAPS);
xkb_info->ctrl_mod = xkb_map_mod_get_index(xkb_info->keymap,
XKB_MOD_NAME_CTRL);
xkb_info->alt_mod = xkb_map_mod_get_index(xkb_info->keymap,
XKB_MOD_NAME_ALT);
xkb_info->mod2_mod = xkb_map_mod_get_index(xkb_info->keymap, "Mod2");
xkb_info->mod3_mod = xkb_map_mod_get_index(xkb_info->keymap, "Mod3");
xkb_info->super_mod = xkb_map_mod_get_index(xkb_info->keymap,
XKB_MOD_NAME_LOGO);
xkb_info->mod5_mod = xkb_map_mod_get_index(xkb_info->keymap, "Mod5");
xkb_info->num_led = xkb_map_led_get_index(xkb_info->keymap,
XKB_LED_NAME_NUM);
xkb_info->caps_led = xkb_map_led_get_index(xkb_info->keymap,
XKB_LED_NAME_CAPS);
xkb_info->scroll_led = xkb_map_led_get_index(xkb_info->keymap,
XKB_LED_NAME_SCROLL);
keymap_str = xkb_map_get_as_string(xkb_info->keymap);
if (keymap_str == NULL) {
weston_log("failed to get string version of keymap\n");
goto err_keymap;
}
xkb_info->keymap_size = strlen(keymap_str) + 1;
xkb_info->keymap_fd = os_create_anonymous_file(xkb_info->keymap_size);
if (xkb_info->keymap_fd < 0) {
weston_log("creating a keymap file for %lu bytes failed: %m\n",
(unsigned long) xkb_info->keymap_size);
goto err_keymap_str;
}
xkb_info->keymap_area = mmap(NULL, xkb_info->keymap_size,
PROT_READ | PROT_WRITE,
MAP_SHARED, xkb_info->keymap_fd, 0);
if (xkb_info->keymap_area == MAP_FAILED) {
weston_log("failed to mmap() %lu bytes\n",
(unsigned long) xkb_info->keymap_size);
goto err_dev_zero;
}
strcpy(xkb_info->keymap_area, keymap_str);
free(keymap_str);
return xkb_info;
err_dev_zero:
close(xkb_info->keymap_fd);
err_keymap_str:
free(keymap_str);
err_keymap:
xkb_map_unref(xkb_info->keymap);
free(xkb_info);
return NULL;
}
static int
weston_compositor_build_global_keymap(struct weston_compositor *ec)
{
struct xkb_keymap *keymap;
if (ec->xkb_info != NULL)
return 0;
keymap = xkb_map_new_from_names(ec->xkb_context,
&ec->xkb_names,
0);
if (keymap == NULL) {
weston_log("failed to compile global XKB keymap\n");
weston_log(" tried rules %s, model %s, layout %s, variant %s, "
"options %s\n",
ec->xkb_names.rules, ec->xkb_names.model,
ec->xkb_names.layout, ec->xkb_names.variant,
ec->xkb_names.options);
return -1;
}
ec->xkb_info = weston_xkb_info_create(keymap);
if (ec->xkb_info == NULL)
return -1;
return 0;
}
#else
int
weston_compositor_xkb_init(struct weston_compositor *ec,
struct xkb_rule_names *names)
{
return 0;
}
void
weston_compositor_xkb_destroy(struct weston_compositor *ec)
{
}
#endif
WL_EXPORT int
weston_seat_init_keyboard(struct weston_seat *seat, struct xkb_keymap *keymap)
{
struct weston_keyboard *keyboard;
if (seat->keyboard)
return 0;
#ifdef ENABLE_XKBCOMMON
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
if (seat->compositor->use_xkbcommon) {
if (keymap != NULL) {
seat->xkb_info = weston_xkb_info_create(keymap);
if (seat->xkb_info == NULL)
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
return -1;
} else {
if (weston_compositor_build_global_keymap(seat->compositor) < 0)
return -1;
seat->xkb_info = seat->compositor->xkb_info;
seat->xkb_info->ref_count++;
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
}
seat->xkb_state.state = xkb_state_new(seat->xkb_info->keymap);
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
if (seat->xkb_state.state == NULL) {
weston_log("failed to initialise XKB state\n");
return -1;
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
}
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
seat->xkb_state.leds = 0;
}
#endif
keyboard = weston_keyboard_create();
if (keyboard == NULL) {
weston_log("failed to allocate weston keyboard struct\n");
return -1;
}
seat->keyboard = keyboard;
keyboard->seat = seat;
seat_send_updated_caps(seat);
return 0;
}
WL_EXPORT void
weston_seat_init_pointer(struct weston_seat *seat)
{
struct weston_pointer *pointer;
if (seat->pointer)
return;
pointer = weston_pointer_create();
if (pointer == NULL)
return;
seat->pointer = pointer;
pointer->seat = seat;
seat_send_updated_caps(seat);
}
WL_EXPORT void
weston_seat_init_touch(struct weston_seat *seat)
{
struct weston_touch *touch;
if (seat->touch)
return;
touch = weston_touch_create();
if (touch == NULL)
return;
seat->touch = touch;
touch->seat = seat;
seat_send_updated_caps(seat);
}
WL_EXPORT void
weston_seat_init(struct weston_seat *seat, struct weston_compositor *ec,
const char *seat_name)
{
memset(seat, 0, sizeof *seat);
seat->selection_data_source = NULL;
wl_list_init(&seat->base_resource_list);
wl_signal_init(&seat->selection_signal);
wl_list_init(&seat->drag_resource_list);
wl_signal_init(&seat->destroy_signal);
seat->global = wl_global_create(ec->wl_display, &wl_seat_interface, 3,
seat, bind_seat);
seat->compositor = ec;
seat->modifier_state = 0;
seat->num_tp = 0;
seat->seat_name = strdup(seat_name);
wl_list_insert(ec->seat_list.prev, &seat->link);
clipboard_create(seat);
wl_signal_emit(&ec->seat_created_signal, seat);
}
WL_EXPORT void
weston_seat_release(struct weston_seat *seat)
{
wl_list_remove(&seat->link);
#ifdef ENABLE_XKBCOMMON
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
if (seat->compositor->use_xkbcommon) {
if (seat->xkb_state.state != NULL)
xkb_state_unref(seat->xkb_state.state);
if (seat->xkb_info)
weston_xkb_info_destroy(seat->xkb_info);
input: Add support for making libxkbcommon optional In embedded environments, devices that appear as evdev "keyboards" often have no resemblence to PC-style keyboards. It is not uncommon for such environments to have no concept of modifier keys and no need for XKB key mapping; in these cases libxkbcommon initialization becomes unnecessary startup overhead. On some SOC platforms, xkb keymap compilation can account for as much as 1/3 - 1/2 of the total compositor startup time. This patch introduces a 'use_xkbcommon' flag in the core compositor structure that indicates whether the compositor is running in "raw keyboard" mode. In raw keyboard mode, the compositor bypasses all libxkbcommon initialization and processing. 'key' events containing the integer keycode will continue to be delivered via the wl_keyboard interface, but no 'keymap' event will be sent to clients. No modifier handling or keysym mapping is performed in this mode. Note that upstream sample apps (e.g., weston-terminal or the desktop-shell client) will not recognize raw keycodes and will not react to keypresses when the compositor is operating in raw keyboard mode. This is expected behavior; key events are still being sent to the client, the client (and/or its toolkit) just isn't written to handle keypresses without doing xkb keysym mapping. Applications written specifically for such embedded environments would be handling keypresses via the raw keycode delivered as part of the 'key' event rather than using xkb keysym mapping. Whether to use xkbcommon is a global option that applies to all compositor keyboard devices on the system; it is an all-or-nothing flag. This patch simply adds conditional checks on whether xkbcommon is to be used or not. v3 don't send zero as the file descriptor - instead send the result of opening /dev/null v2 by Rob Bradford <rob@linux.intel.com>: the original version of the patch used a "raw_keycodes" flag instead of the "use_xkbcommon" used in this patch. v1: Reviewed-by: Singh, Satyeshwar <satyeshwar.singh@intel.com> v1: Reviewed-by: Bob Paauwe <bob.j.paauwe@intel.com>
12 years ago
}
#endif
if (seat->pointer)
weston_pointer_destroy(seat->pointer);
if (seat->keyboard)
weston_keyboard_destroy(seat->keyboard);
if (seat->touch)
weston_touch_destroy(seat->touch);
free (seat->seat_name);
wl_global_destroy(seat->global);
wl_signal_emit(&seat->destroy_signal, seat);
}