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enlightenment/src/modules/wl_drm/e_mod_main.c

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#define E_COMP_WL
#include "e.h"
#include <drm_mode.h>
#include <Ecore_Drm2.h>
#include <Elput.h>
#include "e_drm2.x"
static Ecore_Event_Handler *seat_handler;
E_API E_Module_Api e_modapi = { E_MODULE_API_VERSION, "Wl_Drm" };
static Ecore_Event_Handler *activate_handler;
static Ecore_Event_Handler *output_handler;
static Ecore_Event_Handler *input_handler;
static Eina_Bool session_state = EINA_FALSE;
static const char *conn_types[] =
{
"None", "VGA", "DVI-I", "DVI-D", "DVI-A",
"Composite", "S-Video", "LVDS", "Component", "DIN",
"DisplayPort", "HDMI-A", "HDMI-B", "TV", "eDP", "Virtual",
"DSI", "UNKNOWN"
};
static E_Randr2_Connector rtype[] =
{
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_DVI,
E_RANDR2_CONNECTOR_DVI,
E_RANDR2_CONNECTOR_DVI,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_DISPLAY_PORT,
E_RANDR2_CONNECTOR_HDMI_A,
E_RANDR2_CONNECTOR_HDMI_B,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_DISPLAY_PORT,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_UNDEFINED,
E_RANDR2_CONNECTOR_UNDEFINED,
};
static Eina_Bool
_e_mod_drm_cb_activate(void *data EINA_UNUSED, int type EINA_UNUSED, void *event)
{
Ecore_Drm2_Event_Activate *ev;
if (!(ev = event)) goto end;
if (ev->active)
{
if (session_state) goto end;
session_state = EINA_TRUE;
ecore_evas_show(e_comp->ee);
evas_damage_rectangle_add(e_comp->evas, 0, 0, e_comp->w, e_comp->h);
ecore_event_add(E_EVENT_COMPOSITOR_ENABLE, NULL, NULL, NULL);
ecore_evas_pointer_warp(e_comp->ee, e_comp_wl->ptr.x, e_comp_wl->ptr.y);
if (e_comp->pointer->client.ec)
{
ecore_evas_object_cursor_set(e_comp->ee, e_comp->pointer->client.ec->frame,
E_LAYER_MAX - 1, e_comp->pointer->client.x, e_comp->pointer->client.y);
}
else
ecore_evas_object_cursor_set(e_comp->pointer->ee, e_comp->pointer->o_ptr,
E_LAYER_MAX - 1, e_comp->pointer->hot.x, e_comp->pointer->hot.y);
}
else
{
session_state = EINA_FALSE;
ecore_evas_hide(e_comp->ee);
edje_file_cache_flush();
edje_collection_cache_flush();
evas_image_cache_flush(e_comp->evas);
evas_font_cache_flush(e_comp->evas);
evas_render_dump(e_comp->evas);
ecore_event_add(E_EVENT_COMPOSITOR_DISABLE, NULL, NULL, NULL);
}
end:
return ECORE_CALLBACK_PASS_ON;
}
static Eina_Bool
_e_mod_drm_cb_output(void *data EINA_UNUSED, int type EINA_UNUSED, void *event EINA_UNUSED)
{
if (!e_randr2_cfg->ignore_hotplug_events)
e_randr2_screen_refresh_queue(1);
return ECORE_CALLBACK_PASS_ON;
}
static E_Randr2_Screen *
_info_unconf_primary_find(E_Randr2 *r)
{
Eina_List *l;
E_Randr2_Screen *s, *s_primary = NULL;
int priority = 0;
EINA_LIST_FOREACH(r->screens, l, s)
{
if (!((s->config.enabled) &&
(s->config.mode.w > 0) && (s->config.mode.h > 0) &&
(s->config.geom.w > 0) && (s->config.geom.h > 0)))
continue;
if (s->config.priority > priority)
{
s_primary = s;
priority = s->config.priority;
}
}
return s_primary;
}
static E_Randr2_Screen *
_info_unconf_left_find(E_Randr2 *r)
{
Eina_List *l;
E_Randr2_Screen *s, *s_left = NULL;
int left_x = 0x7fffffff;
int left_size = 0;
EINA_LIST_FOREACH(r->screens, l, s)
{
if (!((s->config.enabled) &&
(s->config.mode.w > 0) && (s->config.mode.h > 0) &&
(s->config.geom.w > 0) && (s->config.geom.h > 0)))
continue;
if ((s->config.geom.x <= left_x) &&
((s->config.geom.w * s->config.geom.h) > left_size))
{
left_size = s->config.geom.w * s->config.geom.h;
left_x = s->config.geom.x;
s_left = s;
}
}
return s_left;
}
static E_Randr2_Screen *
_info_unconf_closest_find(E_Randr2 *r, E_Randr2_Screen *s2, Eina_Bool configured)
{
Eina_List *l;
E_Randr2_Screen *s, *s_sel = NULL;
int dist = 0x7fffffff;
int dx, dy;
EINA_LIST_FOREACH(r->screens, l, s)
{
if (s == s2) continue;
if (!((s->config.enabled) &&
(s->config.mode.w > 0) && (s->config.mode.h > 0) &&
(s->config.geom.w > 0) && (s->config.geom.h > 0)))
continue;
if ((!configured) &&
(s->config.relative.mode != E_RANDR2_RELATIVE_UNKNOWN))
continue;
else if ((configured) &&
(s->config.relative.mode == E_RANDR2_RELATIVE_UNKNOWN))
continue;
dx = (s->config.geom.x + (s->config.geom.w / 2)) -
(s2->config.geom.x + (s2->config.geom.w / 2));
dy = (s->config.geom.y + (s->config.geom.h / 2)) -
(s2->config.geom.y + (s2->config.geom.h / 2));
dx = sqrt((dx * dx) + (dy * dy));
if (dx < dist)
{
s_sel = s;
dist = dx;
}
}
return s_sel;
}
static void
_e_mod_drm_relative_fixup(E_Randr2 *r)
{
E_Randr2_Screen *s, *s2;
int d, dx, dy;
s = _info_unconf_primary_find(r);
if (s)
s->config.relative.mode = E_RANDR2_RELATIVE_NONE;
else
{
s = _info_unconf_left_find(r);
if (!s) return;
s->config.relative.mode = E_RANDR2_RELATIVE_NONE;
}
for (;;)
{
// find the next screen that is closest to the last one we configured
/// that is still not configured yet
s = _info_unconf_closest_find(r, s, EINA_FALSE);
if (!s) break;
s2 = _info_unconf_closest_find(r, s, EINA_TRUE);
// fix up s->config.relative.mode, s->config.relative.to and
// s->config.relative.align to match (as closely as possible)
// the geometry given - config s relative to s2
if (!s2) s->config.relative.mode = E_RANDR2_RELATIVE_NONE;
else
{
s->config.relative.to = strdup(s2->id);
s->config.relative.align = 0.0;
s->config.relative.mode = E_RANDR2_RELATIVE_NONE;
if ((s->config.geom.x + s->config.geom.w) <=
s2->config.geom.x)
{
s->config.relative.mode = E_RANDR2_RELATIVE_TO_LEFT;
d = s->config.geom.h - s2->config.geom.h;
dy = s2->config.geom.y - s->config.geom.y;
if (d != 0)
s->config.relative.align = ((double)dy) / ((double)d);
}
else if (s->config.geom.x >=
(s2->config.geom.x + s2->config.geom.w))
{
s->config.relative.mode = E_RANDR2_RELATIVE_TO_RIGHT;
d = s->config.geom.h - s2->config.geom.h;
dy = s2->config.geom.y - s->config.geom.y;
if (d != 0)
s->config.relative.align = ((double)dy) / ((double)d);
}
else if ((s->config.geom.y + s->config.geom.h) <=
s2->config.geom.y)
{
s->config.relative.mode = E_RANDR2_RELATIVE_TO_ABOVE;
d = s->config.geom.w - s2->config.geom.w;
dx = s2->config.geom.x - s->config.geom.x;
if (d != 0)
s->config.relative.align = ((double)dx) / ((double)d);
}
else if (s->config.geom.y >=
(s2->config.geom.y + s2->config.geom.h))
{
s->config.relative.mode = E_RANDR2_RELATIVE_TO_BELOW;
d = s->config.geom.w - s2->config.geom.w;
dx = s2->config.geom.x - s->config.geom.x;
if (d != 0)
s->config.relative.align = ((double)dx) / ((double)d);
}
else if ((s->config.geom.x == s2->config.geom.x) &&
(s->config.geom.y == s2->config.geom.y) &&
(s->config.geom.w == s2->config.geom.w) &&
(s->config.geom.h == s2->config.geom.h))
{
s->config.relative.mode = E_RANDR2_RELATIVE_CLONE;
}
if (s->config.relative.align < 0.0)
s->config.relative.align = 0.0;
else if (s->config.relative.align > 1.0)
s->config.relative.align = 1.0;
}
}
}
static E_Randr2 *
_drm2_randr_create(void)
{
const Eina_List *l;
E_Randr2 *r = NULL;
Ecore_Drm2_Device *dev;
const Eina_List *outputs;
Ecore_Drm2_Output *output;
unsigned int type;
E_Zone *zone;
dev = ecore_evas_data_get(e_comp->ee, "device");
if (!dev) return NULL;
outputs = ecore_drm2_outputs_get(dev);
if (!outputs) return NULL;
printf("DRM2 RRR: ................. info get!\n");
r = E_NEW(E_Randr2, 1);
if (!r) return NULL;
EINA_LIST_FOREACH(outputs, l, output)
{
E_Randr2_Screen *s;
const Eina_List *m;
Ecore_Drm2_Output_Mode *omode;
E_Config_Randr2_Screen *cs = NULL;
unsigned int *crtcs;
int priority = 0, num = 0, j = 0;
Eina_Bool ok = EINA_FALSE;
Eina_Bool possible = EINA_FALSE;
if (!ecore_drm2_output_connected_get(output))
continue;
s = E_NEW(E_Randr2_Screen, 1);
if (!s) continue;
s->info.name = ecore_drm2_output_name_get(output);
printf("DRM2 RRR: .... out %s\n", s->info.name);
s->info.connected = ecore_drm2_output_connected_get(output);
printf("DRM2 RRR: ...... connected %i\n", s->info.connected);
s->info.screen = ecore_drm2_output_model_get(output);
s->info.edid = ecore_drm2_output_edid_get(output);
if (s->info.edid)
s->id = malloc(strlen(s->info.name) + 1 + strlen(s->info.edid) + 1);
else
s->id = malloc(strlen(s->info.name) + 1 + 1);
if (!s->id)
{
free(s->info.name);
free(s->info.screen);
free(s->info.edid);
free(s);
continue;
}
strcpy(s->id, s->info.name);
strcat(s->id, "/");
if (s->info.edid) strcat(s->id, s->info.edid);
printf("DRM2 RRR: Created Screen: %s\n", s->id);
type = MIN(ecore_drm2_output_connector_type_get(output),
EINA_C_ARRAY_LENGTH(conn_types) - 1);
s->info.connector = rtype[type];
s->info.is_lid = ((type == DRM_MODE_CONNECTOR_LVDS) ||
(type == DRM_MODE_CONNECTOR_eDP));
s->info.lid_closed = (s->info.is_lid && e_acpi_lid_is_closed());
printf("DRM2 RRR: ...... lid_closed = %i (%i && %i)\n",
s->info.lid_closed, s->info.is_lid, e_acpi_lid_is_closed());
s->info.backlight = ecore_drm2_output_backlight_get(output);
s->info.subpixel = ecore_drm2_output_subpixel_get(output);
ecore_drm2_output_physical_size_get(output, &s->info.size.w,
&s->info.size.h);
EINA_LIST_FOREACH(ecore_drm2_output_modes_get(output), m, omode)
{
E_Randr2_Mode *rmode;
unsigned int flags, refresh;
rmode = malloc(sizeof(E_Randr2_Mode));
if (!rmode) continue;
ecore_drm2_output_mode_info_get(omode, &rmode->w, &rmode->h,
&refresh, &flags);
rmode->refresh = refresh;
rmode->preferred = (flags & DRM_MODE_TYPE_PREFERRED);
s->info.modes = eina_list_append(s->info.modes, rmode);
}
e_randr2_screen_modes_sort(s);
if (e_randr2_cfg)
cs = e_randr2_config_screen_find(s, e_randr2_cfg);
if (cs)
priority = cs->priority;
else if (ecore_drm2_output_primary_get(output))
priority = 100;
s->config.priority = priority;
crtcs = ecore_drm2_device_crtcs_get(dev, &num);
for (j = 0; j < num; j++)
{
if (crtcs[j] == ecore_drm2_output_crtc_get(output))
{
ok = EINA_TRUE;
break;
}
}
if (!ok)
{
/* get possible crtcs, compare to output_crtc_get */
for (j = 0; j < num; j++)
{
if (ecore_drm2_output_possible_crtc_get(output, crtcs[j]))
{
ok = EINA_TRUE;
possible = EINA_TRUE;
break;
}
}
}
if (ok)
{
int rotations, outrot;
if (!possible)
{
unsigned int refresh;
e_drm2_output_info_get(output,
&s->config.geom.x,
&s->config.geom.y,
&s->config.geom.w,
&s->config.geom.h,
&refresh);
s->config.mode.w = s->config.geom.w;
s->config.mode.h = s->config.geom.h;
s->config.mode.refresh = refresh;
s->config.enabled =
((s->config.mode.w != 0) && (s->config.mode.h != 0));
printf("DRM2 RRR: '%s' %i %i %ix%i\n", s->info.name,
s->config.geom.x, s->config.geom.y,
s->config.geom.w, s->config.geom.h);
}
outrot = e_drm2_output_rotation_get(output);
if (outrot & ECORE_DRM2_ROTATION_NORMAL)
s->config.rotation = 0;
else if (outrot & ECORE_DRM2_ROTATION_90)
s->config.rotation = 90;
else if (outrot & ECORE_DRM2_ROTATION_180)
s->config.rotation = 180;
else if (outrot & ECORE_DRM2_ROTATION_270)
s->config.rotation = 270;
else
{
printf("DRM2 RRR: caution - rotation flags empty - assume 0\n");
s->config.rotation = 0;
}
printf("DRM2 RRR: drm output rotation=%i\n", s->config.rotation);
s->info.can_rot_0 = EINA_FALSE;
s->info.can_rot_90 = EINA_FALSE;
s->info.can_rot_180 = EINA_FALSE;
s->info.can_rot_270 = EINA_FALSE;
rotations =
ecore_drm2_output_supported_rotations_get(output);
if (!(rotations &
(ECORE_DRM2_ROTATION_NORMAL | ECORE_DRM2_ROTATION_90 |
ECORE_DRM2_ROTATION_180 | ECORE_DRM2_ROTATION_270)))
rotations |= ECORE_DRM2_ROTATION_NORMAL;
if (rotations & ECORE_DRM2_ROTATION_NORMAL)
s->info.can_rot_0 = EINA_TRUE;
if (rotations & ECORE_DRM2_ROTATION_90)
s->info.can_rot_90 = EINA_TRUE;
if (rotations & ECORE_DRM2_ROTATION_180)
s->info.can_rot_180 = EINA_TRUE;
if (rotations & ECORE_DRM2_ROTATION_270)
s->info.can_rot_270 = EINA_TRUE;
if (cs)
{
if (cs->profile)
s->config.profile = strdup(cs->profile);
else
s->config.profile = NULL;
s->config.scale_multiplier = cs->scale_multiplier;
}
}
zone = e_zone_for_id_get(s->id);
if ((zone) && (!zone->output)) zone->output = s;
r->screens = eina_list_append(r->screens, s);
}
_e_mod_drm_relative_fixup(r);
return r;
}
static Ecore_Drm2_Output *
_drm2_output_find(const Eina_List *outputs, const char *oname)
{
const Eina_List *l;
Ecore_Drm2_Output *output = NULL;
EINA_LIST_FOREACH(outputs, l, output)
{
char *name;
name = ecore_drm2_output_name_get(output);
if (!name) continue;
if (!strcmp(name, oname))
{
free(name);
return output;
}
free(name);
}
return NULL;
}
static Ecore_Drm2_Output_Mode *
_drm2_mode_screen_find(E_Randr2_Screen *s, Ecore_Drm2_Output *output)
{
Ecore_Drm2_Output_Mode *mode, *m = NULL;
const Eina_List *l;
int diff, distance = 0x7fffffff;
EINA_LIST_FOREACH(ecore_drm2_output_modes_get(output), l, mode)
{
int width, height;
unsigned int refresh;
ecore_drm2_output_mode_info_get(mode, &width, &height, &refresh, NULL);
diff = (100 * abs(s->config.mode.w - width)) +
(100 * abs(s->config.mode.h - height)) +
fabs((100 * s->config.mode.refresh) - (100 * refresh));
if (diff < distance)
{
m = mode;
distance = diff;
}
}
return m;
}
static void
_drm2_output_primary_set(const Eina_List *outputs, Ecore_Drm2_Output *output)
{
const Eina_List *l;
Ecore_Drm2_Output *o;
EINA_LIST_FOREACH(outputs, l, o)
{
if (o == output)
ecore_drm2_output_primary_set(output, EINA_TRUE);
else
ecore_drm2_output_primary_set(output, EINA_FALSE);
}
}
static Eina_Bool
_drm2_rotation_exists(Ecore_Drm2_Output *output, int rot)
{
int rots;
rots = ecore_drm2_output_supported_rotations_get(output);
printf("RRR: DRM2 ..... rots for %p rots=%x input=%x\n", output, rots, rot);
// hack for ... broken drivers that don't say anything about rotations
if (!(rots &
(ECORE_DRM2_ROTATION_NORMAL | ECORE_DRM2_ROTATION_90 |
ECORE_DRM2_ROTATION_180 | ECORE_DRM2_ROTATION_270)))
rots |= ECORE_DRM2_ROTATION_NORMAL;
if (rots >= 0)
{
if ((rot == 0) && (rots & ECORE_DRM2_ROTATION_NORMAL))
return EINA_TRUE;
if ((rot == 90) && (rots & ECORE_DRM2_ROTATION_90))
return EINA_TRUE;
if ((rot == 180) && (rots & ECORE_DRM2_ROTATION_180))
return EINA_TRUE;
if ((rot == 270) && (rots & ECORE_DRM2_ROTATION_270))
return EINA_TRUE;
}
printf("RRR: DRM2 ..... no rot matches!\n");
return EINA_FALSE;
}
static void
_drm2_randr_apply(void)
{
Ecore_Drm2_Device *dev;
Ecore_Drm2_Output **outconf, *out;
int nw = 0, nh = 0;
int minw, minh, maxw, maxh;
int rot;
unsigned int *crtcs = NULL;
int num_crtcs = 0, numout = 0;
const Eina_List *outputs = NULL;
E_Randr2_Screen **screenconf;
/* get drm device */
dev = ecore_evas_data_get(e_comp->ee, "device");
if (!dev) return;
nw = e_randr2->w;
nh = e_randr2->h;
/* get screen size range */
ecore_drm2_device_screen_size_range_get(dev, &minw, &minh, &maxw, &maxh);
printf("RRR: size range: %ix%i -> %ix%i\n", minw, minh, maxw, maxh);
crtcs = ecore_drm2_device_crtcs_get(dev, &num_crtcs);
outputs = ecore_drm2_outputs_get(dev);
if ((crtcs) && (outputs))
{
E_Randr2_Screen *s;
Eina_List *l;
int top_priority = 0, i;
outconf = alloca(num_crtcs * sizeof(Ecore_Drm2_Output *));
screenconf = alloca(num_crtcs * sizeof(E_Randr2_Screen *));
memset(outconf, 0, num_crtcs * sizeof(Ecore_Drm2_Output *));
memset(screenconf, 0, num_crtcs * sizeof(E_Randr2_Screen *));
/* decide which outputs gets which crtcs */
EINA_LIST_FOREACH(e_randr2->screens, l, s)
{
printf("RRR: find output for '%s'\n", s->info.name);
if (!s->config.configured)
{
printf("RRR: unconfigured screen: %s\n", s->info.name);
continue;
}
out = _drm2_output_find(outputs, s->info.name);
if (out)
{
printf("RRR: enabled: %i\n", s->config.enabled);
if (s->config.enabled)
{
if (s->config.priority > top_priority)
top_priority = s->config.priority;
for (i = 0; i < num_crtcs; i++)
{
if (!outconf[i])
{
printf("RRR: crtc slot empty: %i\n", i);
if (ecore_drm2_output_possible_crtc_get(out, crtcs[i]))
{
printf("RRR: output is possible...\n");
if (_drm2_rotation_exists(out, s->config.rotation))
{
printf("RRR: assign slot out: %p\n", out);
outconf[i] = out;
screenconf[i] = s;
break;
}
}
}
}
}
}
}
numout = 0;
for (i = 0; i < num_crtcs; i++)
if (outconf[i]) numout++;
if (numout)
{
for (i = 0; i < num_crtcs; i++)
{
if (outconf[i])
{
Ecore_Drm2_Output_Mode *mode;
Ecore_Drm2_Rotation orient = ECORE_DRM2_ROTATION_NORMAL;
mode = _drm2_mode_screen_find(screenconf[i], outconf[i]);
if (screenconf[i]->config.rotation == 0)
orient = ECORE_DRM2_ROTATION_NORMAL;
else if (screenconf[i]->config.rotation == 90)
orient = ECORE_DRM2_ROTATION_90;
else if (screenconf[i]->config.rotation == 180)
orient = ECORE_DRM2_ROTATION_180;
else if (screenconf[i]->config.rotation == 270)
orient = ECORE_DRM2_ROTATION_270;
printf("RRR: crtc on: %i = '%s' @ %i %i - %ix%i orient %i mode %p out %p\n",
i, screenconf[i]->info.name,
screenconf[i]->config.geom.x,
screenconf[i]->config.geom.y,
screenconf[i]->config.geom.w,
screenconf[i]->config.geom.h,
orient, mode, outconf[i]);
ecore_drm2_output_mode_set(outconf[i], mode,
screenconf[i]->config.geom.x,
screenconf[i]->config.geom.y);
ecore_drm2_output_relative_to_set(outconf[i],
screenconf[i]->config.relative.to);
ecore_drm2_output_relative_mode_set(outconf[i],
screenconf[i]->config.relative.mode);
if (screenconf[i]->config.priority == top_priority)
{
_drm2_output_primary_set(outputs, outconf[i]);
top_priority = -1;
}
ecore_drm2_output_enabled_set(outconf[i],
screenconf[i]->config.enabled);
e_drm2_output_rotation_set(outconf[i], orient);
ecore_evas_rotation_with_resize_set(e_comp->ee,
screenconf[i]->config.rotation);
}
else
{
printf("RRR: crtc off: %i\n", i);
/* FIXME: Need new drm2 API to disable crtc...
* one which Does Not Take an Output as param */
}
}
}
}
/* free(outputs); */
/* free(crtcs); */
if (nw > maxw) nw = maxw;
if (nh > maxh) nh = maxh;
if (nw < minw) nw = minw;
if (nh < minh) nh = minh;
printf("RRR: set vsize: %ix%i, rot=%i\n", nw, nh, ecore_evas_rotation_get(e_comp->ee));
ecore_drm2_device_calibrate(dev, nw, nh);
rot = ecore_evas_rotation_get(e_comp->ee);
if ((rot == 90) || (rot == 270))
ecore_drm2_device_pointer_max_set(dev, nh, nw);
else
ecore_drm2_device_pointer_max_set(dev, nw, nh);
ecore_drm2_device_pointer_rotation_set(dev, rot);
if (!e_randr2_cfg->ignore_hotplug_events)
e_randr2_screen_refresh_queue(EINA_FALSE);
}
static void
_drm2_dpms(int set)
{
Eina_List *l;
E_Randr2_Screen *s;
Ecore_Drm2_Device *dev;
const Eina_List *outputs, *ll;
Ecore_Drm2_Output *output;
dev = ecore_evas_data_get(e_comp->ee, "device");
if (!dev) return;
outputs = ecore_drm2_outputs_get(dev);
if (!outputs) return;
EINA_LIST_FOREACH(e_randr2->screens, l, s)
{
EINA_LIST_FOREACH(outputs, ll, output)
{
char *name;
name = ecore_drm2_output_name_get(output);
if (!name) continue;
if (!strcmp(name, s->info.name))
{
if ((!s->config.configured) || s->config.enabled)
if (ecore_drm2_output_dpms_get(output) != set)
ecore_drm2_output_dpms_set(output, set);
}
free(name);
}
}
}
static Eina_Bool
_drm2_key_down(Ecore_Event_Key *ev)
{
int code;
code = (ev->keycode - 8);
if ((ev->modifiers & ECORE_EVENT_MODIFIER_CTRL) &&
((ev->modifiers & ECORE_EVENT_MODIFIER_ALT) ||
(ev->modifiers & ECORE_EVENT_MODIFIER_ALTGR)) &&
(code >= KEY_F1) && (code <= KEY_F8))
{
Ecore_Drm2_Device *dev;
int vt;
vt = (code - KEY_F1 + 1);
dev = ecore_evas_data_get(e_comp->ee, "device");
if (dev)
{
ecore_drm2_device_vt_set(dev, vt);
return EINA_TRUE;
}
}
return EINA_FALSE;
}
static Eina_Bool
_drm2_key_up(Ecore_Event_Key *ev)
{
(void)ev;
return EINA_FALSE;
}
static Eina_Bool
_drm_randr_available(void)
{
return EINA_TRUE;
}
static Eina_Bool
_drm2_cb_seat_caps(void *data EINA_UNUSED, int type EINA_UNUSED, void *event)
{
Elput_Event_Seat_Caps *ev;
ev = event;
if (ev->pointer_count <= 0)
{
e_pointer_hide(e_comp->pointer);
e_comp_wl_input_pointer_enabled_set(EINA_FALSE);
}
else if (ev->pointer_count > 0)
{
e_mouse_update();
e_comp_wl_input_pointer_enabled_set(EINA_TRUE);
e_pointer_show(e_comp->pointer);
}
if (ev->keyboard_count <= 0)
e_comp_wl_input_keyboard_enabled_set(EINA_FALSE);
else if (ev->keyboard_count > 0)
e_comp_wl_input_keyboard_enabled_set(EINA_TRUE);
if (ev->touch_count <= 0)
e_comp_wl_input_touch_enabled_set(EINA_FALSE);
else if (ev->touch_count > 0)
e_comp_wl_input_touch_enabled_set(EINA_TRUE);
return ECORE_CALLBACK_RENEW;
}
static void
_drm2_init(void)
{
seat_handler =
ecore_event_handler_add(ELPUT_EVENT_SEAT_CAPS, _drm2_cb_seat_caps, NULL);
}
static void
_drm2_shutdown(void)
{
ecore_event_handler_del(seat_handler);
}
static E_Comp_Screen_Iface drmiface =
{
.available = _drm_randr_available,
.init = _drm2_init,
.shutdown = _drm2_shutdown,
.create = _drm2_randr_create,
.apply = _drm2_randr_apply,
.dpms = _drm2_dpms,
.key_down = _drm2_key_down,
.key_up = _drm2_key_up,
.relative_motion = EINA_TRUE,
.backlight_enabled = EINA_TRUE,
};
static Eina_Bool
_pointer_motion(void *d EINA_UNUSED, int t EINA_UNUSED, Elput_Event_Pointer_Motion *ev)
{
e_comp_wl_extension_relative_motion_event(ev->time_usec, ev->dx, ev->dy,
ev->dx_unaccel, ev->dy_unaccel);
return ECORE_CALLBACK_RENEW;
}
static void
_drm_device_del(void *data EINA_UNUSED, const Efl_Event *event)
{
Eo *seat = event->info;
if (efl_input_device_type_get(event->info) == EFL_INPUT_DEVICE_TYPE_SEAT) return;
seat = efl_input_device_seat_get(event->info);
if (seat != evas_default_device_get(e_comp->evas, EFL_INPUT_DEVICE_TYPE_SEAT)) return;
#ifdef EFL_VERSION_1_23
if (!efl_input_device_is_pointer_type_get(event->info)) return;
if (efl_input_device_pointer_device_count_get(seat) == 1)
ecore_evas_cursor_device_unset(e_comp->ee, event->info);
#else
if (!efl_input_device_has_pointer_caps(event->info)) return;
if (efl_input_device_has_pointer_caps(seat) == 1)
ecore_evas_cursor_device_unset(e_comp->ee, event->info);
#endif
}
E_API void *
e_modapi_init(E_Module *m)
{
int w = 0, h = 0;
static Efl_Callback_Array_Item arr[2] = { { 0, _drm_device_del } };
printf("LOAD WL_DRM MODULE\n");
/* try to init ecore_drm */
/* if (!ecore_drm_init()) */
/* { */
/* fprintf(stderr, "Could not initialize ecore_drm"); */
/* return NULL; */
/* } */
if (!e_drm2_compat_init()) return NULL;
if (e_comp_config_get()->engine == E_COMP_ENGINE_GL)
{
e_comp->ee = ecore_evas_new("gl_drm", 0, 0, 1, 1, NULL);
e_comp_gl_set(!!e_comp->ee);
}
/* fallback to framebuffer drm (non-accel) */
if (!e_comp->ee)
{
if ((e_comp->ee = ecore_evas_new("drm", 0, 0, 1, 1, NULL)))
{
e_comp_gl_set(EINA_FALSE);
elm_config_accel_preference_set("none");
elm_config_accel_preference_override_set(EINA_TRUE);
elm_config_all_flush();
elm_config_save();
}
else
{
fprintf(stderr, "Could not create ecore_evas_drm canvas");
return NULL;
}
}
ecore_evas_data_set(e_comp->ee, "comp", e_comp);
e_comp->screen = &drmiface;
if (!e_comp_wl_init()) return NULL;
/* get the current screen geometry */
ecore_evas_screen_geometry_get(e_comp->ee, NULL, NULL, &w, &h);
if (!e_comp_canvas_init(w, h)) return NULL;
#ifdef EFL_VERSION_1_21
arr[0].desc = EFL_CANVAS_SCENE_EVENT_DEVICE_REMOVED;
#else
if (E_EFL_VERSION_MINIMUM(1, 20, 99))
arr[0].desc = dlsym(NULL, "_EFL_CANVAS_SCENE_EVENT_DEVICE_REMOVED");
if (!arr[0].desc)
arr[0].desc = dlsym(NULL, "_EFL_CANVAS_EVENT_DEVICE_REMOVED");
#endif
ecore_evas_pointer_xy_get(e_comp->ee, &e_comp_wl->ptr.x,
&e_comp_wl->ptr.y);
evas_event_feed_mouse_in(e_comp->evas, 0, NULL);
e_comp_wl_input_pointer_enabled_set(EINA_TRUE);
e_comp_wl_input_keyboard_enabled_set(EINA_TRUE);
e_comp_wl_input_touch_enabled_set(EINA_TRUE);
e_comp->pointer = e_pointer_canvas_new(e_comp->ee, EINA_TRUE);
e_comp->pointer->color = EINA_TRUE;
activate_handler =
ecore_event_handler_add(ECORE_DRM2_EVENT_ACTIVATE,
_e_mod_drm_cb_activate, NULL);
output_handler =
ecore_event_handler_add(ECORE_DRM2_EVENT_OUTPUT_CHANGED,
_e_mod_drm_cb_output, NULL);
input_handler =
ecore_event_handler_add(ELPUT_EVENT_POINTER_MOTION,
(Ecore_Event_Handler_Cb)_pointer_motion, NULL);
efl_event_callback_array_priority_add(e_comp->evas, arr,
EFL_CALLBACK_PRIORITY_BEFORE, NULL);
return m;
}
E_API int
e_modapi_shutdown(E_Module *m EINA_UNUSED)
{
if (output_handler) ecore_event_handler_del(output_handler);
output_handler = NULL;
if (activate_handler) ecore_event_handler_del(activate_handler);
activate_handler = NULL;
E_FREE_FUNC(input_handler, ecore_event_handler_del);
e_drm2_compat_shutdown();
return 1;
}
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