mutter/src/backends/native/meta-cursor-renderer-native.c
Jonas Ådahl 10c4bc6e3f drm-buffer: Create from MetaDeviceFile instead of MetaKmsDevice
The DRM buffers aren't really tied to mode setting, so they shouldn't
need to have an associated mode setting device. Now that we have a
device file level object that can fill this role, port over
MetaDrmBuffer and friends away from MetaKmsDevice to MetaDeviceFile.

Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/1828>
2021-07-07 21:03:26 +02:00

1879 lines
63 KiB
C

/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
/*
* Copyright (C) 2014 Red Hat
* Copyright 2020 DisplayLink (UK) Ltd.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
* 02111-1307, USA.
*
* Written by:
* Jasper St. Pierre <jstpierre@mecheye.net>
*/
#include "config.h"
#include "backends/native/meta-cursor-renderer-native.h"
#include <string.h>
#include <gbm.h>
#include <xf86drm.h>
#include <errno.h>
#include "backends/meta-backend-private.h"
#include "backends/meta-cursor-sprite-xcursor.h"
#include "backends/meta-logical-monitor.h"
#include "backends/meta-monitor.h"
#include "backends/meta-monitor-manager-private.h"
#include "backends/meta-output.h"
#include "backends/native/meta-backend-native-private.h"
#include "backends/native/meta-crtc-kms.h"
#include "backends/native/meta-device-pool.h"
#include "backends/native/meta-drm-buffer-gbm.h"
#include "backends/native/meta-kms-device.h"
#include "backends/native/meta-kms-plane.h"
#include "backends/native/meta-kms-update.h"
#include "backends/native/meta-kms.h"
#include "backends/native/meta-renderer-native.h"
#include "core/boxes-private.h"
#include "meta/boxes.h"
#include "meta/meta-backend.h"
#include "meta/util.h"
#ifdef HAVE_WAYLAND
#include "wayland/meta-cursor-sprite-wayland.h"
#include "wayland/meta-wayland-buffer.h"
#endif
#ifndef DRM_CAP_CURSOR_WIDTH
#define DRM_CAP_CURSOR_WIDTH 0x8
#endif
#ifndef DRM_CAP_CURSOR_HEIGHT
#define DRM_CAP_CURSOR_HEIGHT 0x9
#endif
/* When animating a cursor, we usually call drmModeSetCursor2 once per frame.
* Though, testing shows that we need to triple buffer the cursor buffer in
* order to avoid glitches when animating the cursor, at least when running on
* Intel. The reason for this might be (but is not confirmed to be) due to
* the user space gbm_bo cache, making us reuse and overwrite the kernel side
* buffer content before it was scanned out. To avoid this, we keep a user space
* reference to each buffer we set until at least one frame after it was drawn.
* In effect, this means we three active cursor gbm_bo's: one that that just has
* been set, one that was previously set and may or may not have been scanned
* out, and one pending that will be replaced if the cursor sprite changes.
*/
#define HW_CURSOR_BUFFER_COUNT 3
static GQuark quark_cursor_sprite = 0;
typedef struct _CrtcCursorData
{
MetaDrmBuffer *buffer;
gboolean needs_sync_position;
gboolean hw_state_invalidated;
} CrtcCursorData;
struct _MetaCursorRendererNative
{
MetaCursorRenderer parent;
};
struct _MetaCursorRendererNativePrivate
{
MetaBackend *backend;
gboolean has_hw_cursor;
MetaCursorSprite *last_cursor;
guint animation_timeout_id;
};
typedef struct _MetaCursorRendererNativePrivate MetaCursorRendererNativePrivate;
typedef struct _MetaCursorRendererNativeGpuData
{
gboolean hw_cursor_broken;
uint64_t cursor_width;
uint64_t cursor_height;
} MetaCursorRendererNativeGpuData;
typedef enum _MetaCursorBufferState
{
META_CURSOR_BUFFER_STATE_NONE,
META_CURSOR_BUFFER_STATE_SET,
META_CURSOR_BUFFER_STATE_INVALIDATED,
} MetaCursorBufferState;
typedef struct _MetaCursorNativeGpuState
{
MetaGpu *gpu;
unsigned int active_buffer_idx;
MetaCursorBufferState pending_buffer_state;
MetaDrmBuffer *buffers[HW_CURSOR_BUFFER_COUNT];
} MetaCursorNativeGpuState;
typedef struct _MetaCursorNativePrivate
{
GHashTable *gpu_states;
struct {
gboolean can_preprocess;
float current_relative_scale;
MetaMonitorTransform current_relative_transform;
} preprocess_state;
} MetaCursorNativePrivate;
static GQuark quark_cursor_renderer_native_gpu_data = 0;
G_DEFINE_TYPE_WITH_PRIVATE (MetaCursorRendererNative, meta_cursor_renderer_native, META_TYPE_CURSOR_RENDERER);
static void
on_kms_update_result (const MetaKmsFeedback *kms_feedback,
gpointer user_data);
static void
realize_cursor_sprite (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite,
GList *gpus);
static MetaCursorNativeGpuState *
get_cursor_gpu_state (MetaCursorNativePrivate *cursor_priv,
MetaGpuKms *gpu_kms);
static MetaCursorNativeGpuState *
ensure_cursor_gpu_state (MetaCursorNativePrivate *cursor_priv,
MetaGpuKms *gpu_kms);
static void
invalidate_cursor_gpu_state (MetaCursorSprite *cursor_sprite);
static MetaCursorNativePrivate *
ensure_cursor_priv (MetaCursorSprite *cursor_sprite);
static MetaCursorNativePrivate *
get_cursor_priv (MetaCursorSprite *cursor_sprite);
static MetaCursorRendererNativeGpuData *
meta_cursor_renderer_native_gpu_data_from_gpu (MetaGpuKms *gpu_kms)
{
return g_object_get_qdata (G_OBJECT (gpu_kms),
quark_cursor_renderer_native_gpu_data);
}
static MetaCursorRendererNativeGpuData *
meta_create_cursor_renderer_native_gpu_data (MetaGpuKms *gpu_kms)
{
MetaCursorRendererNativeGpuData *cursor_renderer_gpu_data;
cursor_renderer_gpu_data = g_new0 (MetaCursorRendererNativeGpuData, 1);
g_object_set_qdata_full (G_OBJECT (gpu_kms),
quark_cursor_renderer_native_gpu_data,
cursor_renderer_gpu_data,
g_free);
return cursor_renderer_gpu_data;
}
static void
meta_cursor_renderer_native_finalize (GObject *object)
{
MetaCursorRendererNative *renderer = META_CURSOR_RENDERER_NATIVE (object);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (renderer);
g_clear_handle_id (&priv->animation_timeout_id, g_source_remove);
G_OBJECT_CLASS (meta_cursor_renderer_native_parent_class)->finalize (object);
}
static unsigned int
get_pending_cursor_sprite_buffer_index (MetaCursorNativeGpuState *cursor_gpu_state)
{
return (cursor_gpu_state->active_buffer_idx + 1) % HW_CURSOR_BUFFER_COUNT;
}
static MetaDrmBuffer *
get_pending_cursor_sprite_buffer (MetaCursorNativeGpuState *cursor_gpu_state)
{
unsigned int pending_buffer_idx;
pending_buffer_idx =
get_pending_cursor_sprite_buffer_index (cursor_gpu_state);
return cursor_gpu_state->buffers[pending_buffer_idx];
}
static MetaDrmBuffer *
get_active_cursor_sprite_buffer (MetaCursorNativeGpuState *cursor_gpu_state)
{
return cursor_gpu_state->buffers[cursor_gpu_state->active_buffer_idx];
}
static void
set_pending_cursor_sprite_buffer (MetaCursorSprite *cursor_sprite,
MetaGpuKms *gpu_kms,
MetaDrmBuffer *buffer)
{
MetaCursorNativePrivate *cursor_priv;
MetaCursorNativeGpuState *cursor_gpu_state;
unsigned int pending_buffer_idx;
cursor_priv = ensure_cursor_priv (cursor_sprite);
cursor_gpu_state = ensure_cursor_gpu_state (cursor_priv, gpu_kms);
pending_buffer_idx =
get_pending_cursor_sprite_buffer_index (cursor_gpu_state);
cursor_gpu_state->buffers[pending_buffer_idx] = buffer;
cursor_gpu_state->pending_buffer_state = META_CURSOR_BUFFER_STATE_SET;
}
static void
calculate_crtc_cursor_hotspot (MetaCursorSprite *cursor_sprite,
int *cursor_hotspot_x,
int *cursor_hotspot_y)
{
MetaCursorNativePrivate *cursor_priv = get_cursor_priv (cursor_sprite);
int hot_x, hot_y;
int width, height;
float scale;
MetaMonitorTransform transform;
scale = cursor_priv->preprocess_state.current_relative_scale;
transform = cursor_priv->preprocess_state.current_relative_transform;
meta_cursor_sprite_get_hotspot (cursor_sprite, &hot_x, &hot_y);
width = meta_cursor_sprite_get_width (cursor_sprite);
height = meta_cursor_sprite_get_height (cursor_sprite);
meta_monitor_transform_transform_point (transform,
width, height,
hot_x, hot_y,
&hot_x, &hot_y);
*cursor_hotspot_x = (int) roundf (hot_x * scale);
*cursor_hotspot_y = (int) roundf (hot_y * scale);
}
static CrtcCursorData *
ensure_crtc_cursor_data (MetaCrtcKms *crtc_kms)
{
CrtcCursorData *crtc_cursor_data;
crtc_cursor_data = meta_crtc_kms_get_cursor_renderer_private (crtc_kms);
if (!crtc_cursor_data)
{
crtc_cursor_data = g_new0 (CrtcCursorData, 1);
crtc_cursor_data->hw_state_invalidated = TRUE;
meta_crtc_kms_set_cursor_renderer_private (crtc_kms,
crtc_cursor_data,
g_free);
}
return crtc_cursor_data;
}
static void
assign_cursor_plane (MetaCursorRendererNative *native,
MetaCrtcKms *crtc_kms,
int x,
int y,
MetaCursorSprite *cursor_sprite)
{
MetaCrtc *crtc = META_CRTC (crtc_kms);
MetaCursorNativePrivate *cursor_priv = get_cursor_priv (cursor_sprite);
MetaGpuKms *gpu_kms = META_GPU_KMS (meta_crtc_get_gpu (crtc));
MetaCursorRendererNativeGpuData *cursor_renderer_gpu_data =
meta_cursor_renderer_native_gpu_data_from_gpu (gpu_kms);
MetaCursorNativeGpuState *cursor_gpu_state =
get_cursor_gpu_state (cursor_priv, gpu_kms);
MetaKmsCrtc *kms_crtc;
MetaKmsDevice *kms_device;
MetaKmsPlane *cursor_plane;
MetaDrmBuffer *buffer;
int cursor_width, cursor_height;
MetaFixed16Rectangle src_rect;
MetaRectangle dst_rect;
MetaDrmBuffer *crtc_buffer;
MetaKmsAssignPlaneFlag flags;
CrtcCursorData *crtc_cursor_data;
int cursor_hotspot_x;
int cursor_hotspot_y;
MetaKmsUpdate *kms_update;
MetaKmsPlaneAssignment *plane_assignment;
if (cursor_gpu_state->pending_buffer_state == META_CURSOR_BUFFER_STATE_SET)
buffer = get_pending_cursor_sprite_buffer (cursor_gpu_state);
else
buffer = get_active_cursor_sprite_buffer (cursor_gpu_state);
kms_crtc = meta_crtc_kms_get_kms_crtc (crtc_kms);
kms_device = meta_kms_crtc_get_device (kms_crtc);
cursor_plane = meta_kms_device_get_cursor_plane_for (kms_device, kms_crtc);
g_return_if_fail (cursor_plane);
cursor_width = cursor_renderer_gpu_data->cursor_width;
cursor_height = cursor_renderer_gpu_data->cursor_height;
src_rect = (MetaFixed16Rectangle) {
.x = meta_fixed_16_from_int (0),
.y = meta_fixed_16_from_int (0),
.width = meta_fixed_16_from_int (cursor_width),
.height = meta_fixed_16_from_int (cursor_height),
};
dst_rect = (MetaRectangle) {
.x = x,
.y = y,
.width = cursor_width,
.height = cursor_height,
};
flags = META_KMS_ASSIGN_PLANE_FLAG_ALLOW_FAIL;
crtc_cursor_data = ensure_crtc_cursor_data (crtc_kms);
crtc_buffer = crtc_cursor_data->buffer;
if (!crtc_cursor_data->hw_state_invalidated && buffer == crtc_buffer)
flags |= META_KMS_ASSIGN_PLANE_FLAG_FB_UNCHANGED;
kms_update =
meta_kms_ensure_pending_update (meta_kms_device_get_kms (kms_device),
meta_kms_crtc_get_device (kms_crtc));
plane_assignment = meta_kms_update_assign_plane (kms_update,
kms_crtc,
cursor_plane,
buffer,
src_rect,
dst_rect,
flags);
calculate_crtc_cursor_hotspot (cursor_sprite,
&cursor_hotspot_x,
&cursor_hotspot_y);
meta_kms_plane_assignment_set_cursor_hotspot (plane_assignment,
cursor_hotspot_x,
cursor_hotspot_y);
meta_kms_update_add_result_listener (kms_update,
on_kms_update_result,
native);
crtc_cursor_data->buffer = buffer;
if (cursor_gpu_state->pending_buffer_state == META_CURSOR_BUFFER_STATE_SET)
{
cursor_gpu_state->active_buffer_idx =
(cursor_gpu_state->active_buffer_idx + 1) % HW_CURSOR_BUFFER_COUNT;
cursor_gpu_state->pending_buffer_state = META_CURSOR_BUFFER_STATE_NONE;
}
}
static float
calculate_cursor_crtc_sprite_scale (MetaCursorSprite *cursor_sprite,
MetaLogicalMonitor *logical_monitor)
{
if (meta_is_stage_views_scaled ())
{
return (meta_logical_monitor_get_scale (logical_monitor) *
meta_cursor_sprite_get_texture_scale (cursor_sprite));
}
else
{
return 1.0;
}
}
static void
set_crtc_cursor (MetaCursorRendererNative *cursor_renderer_native,
MetaRendererView *view,
MetaCrtc *crtc,
MetaCursorSprite *cursor_sprite)
{
MetaCursorRenderer *cursor_renderer =
META_CURSOR_RENDERER (cursor_renderer_native);
MetaOutput *output = meta_crtc_get_outputs (crtc)->data;
MetaMonitor *monitor = meta_output_get_monitor (output);
MetaLogicalMonitor *logical_monitor =
meta_monitor_get_logical_monitor (monitor);
const MetaCrtcConfig *crtc_config = meta_crtc_get_config (crtc);
graphene_rect_t rect;
graphene_rect_t local_crtc_rect;
graphene_rect_t local_cursor_rect;
float view_scale;
float crtc_cursor_x, crtc_cursor_y;
CoglTexture *texture;
int tex_width, tex_height;
float cursor_crtc_scale;
MetaRectangle cursor_rect;
MetaMonitorTransform transform;
MetaMonitorTransform inverted_transform;
MetaMonitorMode *monitor_mode;
MetaMonitorCrtcMode *monitor_crtc_mode;
const MetaCrtcModeInfo *crtc_mode_info;
view_scale = clutter_stage_view_get_scale (CLUTTER_STAGE_VIEW (view));
rect = meta_cursor_renderer_calculate_rect (cursor_renderer, cursor_sprite);
local_cursor_rect =
GRAPHENE_RECT_INIT (rect.origin.x - logical_monitor->rect.x,
rect.origin.y - logical_monitor->rect.y,
rect.size.width,
rect.size.height);
local_crtc_rect = crtc_config->layout;
graphene_rect_offset (&local_crtc_rect,
-logical_monitor->rect.x,
-logical_monitor->rect.y);
crtc_cursor_x = (local_cursor_rect.origin.x -
local_crtc_rect.origin.x) * view_scale;
crtc_cursor_y = (local_cursor_rect.origin.y -
local_crtc_rect.origin.y) * view_scale;
texture = meta_cursor_sprite_get_cogl_texture (cursor_sprite);
tex_width = cogl_texture_get_width (texture);
tex_height = cogl_texture_get_height (texture);
cursor_crtc_scale =
calculate_cursor_crtc_sprite_scale (cursor_sprite,
logical_monitor);
cursor_rect = (MetaRectangle) {
.x = floorf (crtc_cursor_x),
.y = floorf (crtc_cursor_y),
.width = roundf (tex_width * cursor_crtc_scale),
.height = roundf (tex_height * cursor_crtc_scale)
};
transform = meta_logical_monitor_get_transform (logical_monitor);
transform = meta_monitor_logical_to_crtc_transform (monitor, transform);
inverted_transform = meta_monitor_transform_invert (transform);
monitor_mode = meta_monitor_get_current_mode (monitor);
monitor_crtc_mode = meta_monitor_get_crtc_mode_for_output (monitor,
monitor_mode,
output);
crtc_mode_info = meta_crtc_mode_get_info (monitor_crtc_mode->crtc_mode);
meta_rectangle_transform (&cursor_rect,
inverted_transform,
crtc_mode_info->width,
crtc_mode_info->height,
&cursor_rect);
assign_cursor_plane (cursor_renderer_native,
META_CRTC_KMS (crtc),
cursor_rect.x,
cursor_rect.y,
cursor_sprite);
}
static void
unset_crtc_cursor (MetaCursorRendererNative *native,
MetaCrtc *crtc)
{
MetaCrtcKms *crtc_kms = META_CRTC_KMS (crtc);
CrtcCursorData *crtc_cursor_data;
MetaKmsCrtc *kms_crtc;
MetaKmsDevice *kms_device;
MetaKmsPlane *cursor_plane;
MetaDrmBuffer *crtc_buffer;
crtc_cursor_data = ensure_crtc_cursor_data (crtc_kms);
crtc_buffer = crtc_cursor_data->buffer;
if (!crtc_cursor_data->hw_state_invalidated && !crtc_buffer)
return;
kms_crtc = meta_crtc_kms_get_kms_crtc (crtc_kms);
kms_device = meta_kms_crtc_get_device (kms_crtc);
cursor_plane = meta_kms_device_get_cursor_plane_for (kms_device, kms_crtc);
if (cursor_plane)
{
MetaKms *kms = meta_kms_device_get_kms (kms_device);
MetaKmsUpdate *kms_update;
kms_update = meta_kms_ensure_pending_update (kms, kms_device);
meta_kms_update_unassign_plane (kms_update, kms_crtc, cursor_plane);
}
crtc_cursor_data->buffer = NULL;
}
static void
disable_hw_cursor_for_crtc (MetaKmsCrtc *kms_crtc,
const GError *error)
{
MetaCrtcKms *crtc_kms = meta_crtc_kms_from_kms_crtc (kms_crtc);
MetaCrtc *crtc = META_CRTC (crtc_kms);
MetaGpuKms *gpu_kms = META_GPU_KMS (meta_crtc_get_gpu (crtc));
MetaCursorRendererNativeGpuData *cursor_renderer_gpu_data =
meta_cursor_renderer_native_gpu_data_from_gpu (gpu_kms);
g_warning ("Failed to set hardware cursor (%s), "
"using OpenGL from now on",
error->message);
cursor_renderer_gpu_data->hw_cursor_broken = TRUE;
}
void
meta_cursor_renderer_native_prepare_frame (MetaCursorRendererNative *cursor_renderer_native,
MetaRendererView *view)
{
MetaCursorRenderer *cursor_renderer =
META_CURSOR_RENDERER (cursor_renderer_native);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
MetaBackend *backend = priv->backend;
MetaMonitorManager *monitor_manager =
meta_backend_get_monitor_manager (backend);
MetaCrtc *crtc = meta_renderer_view_get_crtc (view);
MetaCursorSprite *cursor_sprite;
graphene_rect_t cursor_rect;
cairo_rectangle_int_t view_layout;
graphene_rect_t view_rect;
CrtcCursorData *crtc_cursor_data;
if (meta_monitor_manager_get_power_save_mode (monitor_manager) !=
META_POWER_SAVE_ON)
return;
if (!meta_crtc_get_gpu (crtc))
return;
crtc_cursor_data = ensure_crtc_cursor_data (META_CRTC_KMS (crtc));
if (!crtc_cursor_data->hw_state_invalidated &&
!crtc_cursor_data->needs_sync_position)
return;
cursor_sprite = meta_cursor_renderer_get_cursor (cursor_renderer);
if (!cursor_sprite)
goto unset_cursor;
if (!priv->has_hw_cursor)
goto unset_cursor;
cursor_rect = meta_cursor_renderer_calculate_rect (cursor_renderer,
cursor_sprite);
clutter_stage_view_get_layout (CLUTTER_STAGE_VIEW (view), &view_layout);
view_rect = GRAPHENE_RECT_INIT (view_layout.x, view_layout.y,
view_layout.width, view_layout.height);
if (!graphene_rect_intersection (&cursor_rect, &view_rect, NULL))
goto unset_cursor;
set_crtc_cursor (cursor_renderer_native, view, crtc, cursor_sprite);
meta_cursor_renderer_emit_painted (cursor_renderer,
cursor_sprite,
CLUTTER_STAGE_VIEW (view));
crtc_cursor_data->needs_sync_position = FALSE;
crtc_cursor_data->hw_state_invalidated = FALSE;
return;
unset_cursor:
unset_crtc_cursor (cursor_renderer_native, crtc);
crtc_cursor_data = ensure_crtc_cursor_data (META_CRTC_KMS (crtc));
crtc_cursor_data->hw_state_invalidated = FALSE;
}
static gboolean
has_valid_cursor_sprite_buffer (MetaCursorSprite *cursor_sprite,
MetaGpuKms *gpu_kms)
{
MetaCursorNativePrivate *cursor_priv;
MetaCursorNativeGpuState *cursor_gpu_state;
cursor_priv = get_cursor_priv (cursor_sprite);
if (!cursor_priv)
return FALSE;
cursor_gpu_state = get_cursor_gpu_state (cursor_priv, gpu_kms);
if (!cursor_gpu_state)
return FALSE;
switch (cursor_gpu_state->pending_buffer_state)
{
case META_CURSOR_BUFFER_STATE_NONE:
return get_active_cursor_sprite_buffer (cursor_gpu_state) != NULL;
case META_CURSOR_BUFFER_STATE_SET:
return TRUE;
case META_CURSOR_BUFFER_STATE_INVALIDATED:
return FALSE;
}
g_assert_not_reached ();
return FALSE;
}
static void
set_can_preprocess (MetaCursorSprite *cursor_sprite,
float scale,
MetaMonitorTransform transform)
{
MetaCursorNativePrivate *cursor_priv = get_cursor_priv (cursor_sprite);
cursor_priv->preprocess_state.current_relative_scale = scale;
cursor_priv->preprocess_state.current_relative_transform = transform;
cursor_priv->preprocess_state.can_preprocess = TRUE;
invalidate_cursor_gpu_state (cursor_sprite);
}
static void
unset_can_preprocess (MetaCursorSprite *cursor_sprite)
{
MetaCursorNativePrivate *cursor_priv = get_cursor_priv (cursor_sprite);
memset (&cursor_priv->preprocess_state,
0,
sizeof (cursor_priv->preprocess_state));
cursor_priv->preprocess_state.can_preprocess = FALSE;
invalidate_cursor_gpu_state (cursor_sprite);
}
static gboolean
get_can_preprocess (MetaCursorSprite *cursor_sprite)
{
MetaCursorNativePrivate *cursor_priv = get_cursor_priv (cursor_sprite);
return cursor_priv->preprocess_state.can_preprocess;
}
static float
get_current_relative_scale (MetaCursorSprite *cursor_sprite)
{
MetaCursorNativePrivate *cursor_priv = get_cursor_priv (cursor_sprite);
return cursor_priv->preprocess_state.current_relative_scale;
}
static MetaMonitorTransform
get_current_relative_transform (MetaCursorSprite *cursor_sprite)
{
MetaCursorNativePrivate *cursor_priv = get_cursor_priv (cursor_sprite);
return cursor_priv->preprocess_state.current_relative_transform;
}
static void
has_cursor_plane (MetaLogicalMonitor *logical_monitor,
MetaMonitor *monitor,
MetaOutput *output,
MetaCrtc *crtc,
gpointer user_data)
{
gboolean *has_cursor_planes = user_data;
MetaCrtcKms *crtc_kms = META_CRTC_KMS (crtc);
MetaKmsCrtc *kms_crtc = meta_crtc_kms_get_kms_crtc (crtc_kms);
MetaKmsDevice *kms_device = meta_kms_crtc_get_device (kms_crtc);
*has_cursor_planes &= !!meta_kms_device_get_cursor_plane_for (kms_device,
kms_crtc);
}
static gboolean
crtcs_has_cursor_planes (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite)
{
MetaCursorRendererNative *cursor_renderer_native =
META_CURSOR_RENDERER_NATIVE (renderer);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
MetaBackend *backend = priv->backend;
MetaMonitorManager *monitor_manager =
meta_backend_get_monitor_manager (backend);
GList *logical_monitors;
GList *l;
graphene_rect_t cursor_rect;
cursor_rect = meta_cursor_renderer_calculate_rect (renderer, cursor_sprite);
logical_monitors =
meta_monitor_manager_get_logical_monitors (monitor_manager);
for (l = logical_monitors; l; l = l->next)
{
MetaLogicalMonitor *logical_monitor = l->data;
MetaRectangle logical_monitor_layout;
graphene_rect_t logical_monitor_rect;
gboolean has_cursor_planes;
logical_monitor_layout =
meta_logical_monitor_get_layout (logical_monitor);
logical_monitor_rect =
meta_rectangle_to_graphene_rect (&logical_monitor_layout);
if (!graphene_rect_intersection (&cursor_rect, &logical_monitor_rect,
NULL))
continue;
has_cursor_planes = TRUE;
meta_logical_monitor_foreach_crtc (logical_monitor,
has_cursor_plane,
&has_cursor_planes);
if (!has_cursor_planes)
return FALSE;
}
return TRUE;
}
static gboolean
get_common_crtc_sprite_scale_for_logical_monitors (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite,
float *out_scale)
{
MetaCursorRendererNative *cursor_renderer_native =
META_CURSOR_RENDERER_NATIVE (renderer);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
MetaBackend *backend = priv->backend;
MetaMonitorManager *monitor_manager =
meta_backend_get_monitor_manager (backend);
graphene_rect_t cursor_rect;
float scale = 1.0;
gboolean has_visible_crtc_sprite = FALSE;
GList *logical_monitors;
GList *l;
cursor_rect = meta_cursor_renderer_calculate_rect (renderer, cursor_sprite);
logical_monitors =
meta_monitor_manager_get_logical_monitors (monitor_manager);
for (l = logical_monitors; l; l = l->next)
{
MetaLogicalMonitor *logical_monitor = l->data;
graphene_rect_t logical_monitor_rect =
meta_rectangle_to_graphene_rect (&logical_monitor->rect);
float tmp_scale;
if (!graphene_rect_intersection (&cursor_rect,
&logical_monitor_rect,
NULL))
continue;
tmp_scale =
calculate_cursor_crtc_sprite_scale (cursor_sprite, logical_monitor);
if (has_visible_crtc_sprite && scale != tmp_scale)
return FALSE;
has_visible_crtc_sprite = TRUE;
scale = tmp_scale;
}
if (!has_visible_crtc_sprite)
return FALSE;
*out_scale = scale;
return TRUE;
}
static gboolean
get_common_crtc_sprite_transform_for_logical_monitors (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite,
MetaMonitorTransform *out_transform)
{
MetaCursorRendererNative *cursor_renderer_native =
META_CURSOR_RENDERER_NATIVE (renderer);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
MetaBackend *backend = priv->backend;
MetaMonitorManager *monitor_manager =
meta_backend_get_monitor_manager (backend);
graphene_rect_t cursor_rect;
MetaMonitorTransform transform = META_MONITOR_TRANSFORM_NORMAL;
gboolean has_visible_crtc_sprite = FALSE;
GList *logical_monitors;
GList *l;
cursor_rect = meta_cursor_renderer_calculate_rect (renderer, cursor_sprite);
logical_monitors =
meta_monitor_manager_get_logical_monitors (monitor_manager);
for (l = logical_monitors; l; l = l->next)
{
MetaLogicalMonitor *logical_monitor = l->data;
graphene_rect_t logical_monitor_rect =
meta_rectangle_to_graphene_rect (&logical_monitor->rect);
MetaMonitorTransform logical_transform, tmp_transform;
GList *monitors, *l_mon;
if (!graphene_rect_intersection (&cursor_rect,
&logical_monitor_rect,
NULL))
continue;
logical_transform = meta_logical_monitor_get_transform (logical_monitor);
monitors = meta_logical_monitor_get_monitors (logical_monitor);
for (l_mon = monitors; l_mon; l_mon = l_mon->next)
{
MetaMonitor *monitor = l_mon->data;
tmp_transform = meta_monitor_transform_relative_transform (
meta_cursor_sprite_get_texture_transform (cursor_sprite),
meta_monitor_logical_to_crtc_transform (monitor, logical_transform));
if (has_visible_crtc_sprite && transform != tmp_transform)
return FALSE;
has_visible_crtc_sprite = TRUE;
transform = tmp_transform;
}
}
if (!has_visible_crtc_sprite)
return FALSE;
*out_transform = transform;
return TRUE;
}
static gboolean
should_have_hw_cursor (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite,
GList *gpus)
{
MetaCursorRendererNative *cursor_renderer_native =
META_CURSOR_RENDERER_NATIVE (renderer);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
CoglTexture *texture;
MetaMonitorTransform transform;
float scale;
GList *l;
if (!gpus)
return FALSE;
if (!cursor_sprite)
return FALSE;
if (meta_backend_is_hw_cursors_inhibited (priv->backend))
return FALSE;
for (l = gpus; l; l = l->next)
{
MetaGpuKms *gpu_kms = l->data;
MetaCursorRendererNativeGpuData *cursor_renderer_gpu_data;
cursor_renderer_gpu_data =
meta_cursor_renderer_native_gpu_data_from_gpu (gpu_kms);
if (!cursor_renderer_gpu_data)
return FALSE;
if (cursor_renderer_gpu_data->hw_cursor_broken)
return FALSE;
if (!has_valid_cursor_sprite_buffer (cursor_sprite, gpu_kms))
return FALSE;
}
if (!crtcs_has_cursor_planes (renderer, cursor_sprite))
return FALSE;
texture = meta_cursor_sprite_get_cogl_texture (cursor_sprite);
if (!texture)
return FALSE;
if (!get_common_crtc_sprite_scale_for_logical_monitors (renderer,
cursor_sprite,
&scale))
return FALSE;
if (!get_common_crtc_sprite_transform_for_logical_monitors (renderer,
cursor_sprite,
&transform))
return FALSE;
if (G_APPROX_VALUE (scale, 1.f, FLT_EPSILON) &&
transform == META_MONITOR_TRANSFORM_NORMAL)
return TRUE;
else
return get_can_preprocess (cursor_sprite);
return TRUE;
}
static gboolean
meta_cursor_renderer_native_update_animation (MetaCursorRendererNative *native)
{
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (native);
MetaCursorRenderer *renderer = META_CURSOR_RENDERER (native);
MetaCursorSprite *cursor_sprite = meta_cursor_renderer_get_cursor (renderer);
priv->animation_timeout_id = 0;
meta_cursor_sprite_tick_frame (cursor_sprite);
meta_cursor_renderer_force_update (renderer);
return G_SOURCE_REMOVE;
}
static void
maybe_schedule_cursor_sprite_animation_frame (MetaCursorRendererNative *native,
MetaCursorSprite *cursor_sprite)
{
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (native);
gboolean cursor_change;
guint delay;
cursor_change = cursor_sprite != priv->last_cursor;
priv->last_cursor = cursor_sprite;
if (!cursor_change && priv->animation_timeout_id)
return;
g_clear_handle_id (&priv->animation_timeout_id, g_source_remove);
if (cursor_sprite && meta_cursor_sprite_is_animated (cursor_sprite))
{
delay = meta_cursor_sprite_get_current_frame_time (cursor_sprite);
if (delay == 0)
return;
priv->animation_timeout_id =
g_timeout_add (delay,
(GSourceFunc) meta_cursor_renderer_native_update_animation,
native);
g_source_set_name_by_id (priv->animation_timeout_id,
"[mutter] meta_cursor_renderer_native_update_animation");
}
}
static GList *
calculate_cursor_sprite_gpus (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite)
{
MetaCursorRendererNative *native = META_CURSOR_RENDERER_NATIVE (renderer);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (native);
MetaBackend *backend = priv->backend;
MetaMonitorManager *monitor_manager =
meta_backend_get_monitor_manager (backend);
GList *gpus = NULL;
GList *logical_monitors;
GList *l;
graphene_rect_t cursor_rect;
cursor_rect = meta_cursor_renderer_calculate_rect (renderer, cursor_sprite);
logical_monitors =
meta_monitor_manager_get_logical_monitors (monitor_manager);
for (l = logical_monitors; l; l = l->next)
{
MetaLogicalMonitor *logical_monitor = l->data;
MetaRectangle logical_monitor_layout;
graphene_rect_t logical_monitor_rect;
GList *monitors, *l_mon;
logical_monitor_layout =
meta_logical_monitor_get_layout (logical_monitor);
logical_monitor_rect =
meta_rectangle_to_graphene_rect (&logical_monitor_layout);
if (!graphene_rect_intersection (&cursor_rect, &logical_monitor_rect,
NULL))
continue;
monitors = meta_logical_monitor_get_monitors (logical_monitor);
for (l_mon = monitors; l_mon; l_mon = l_mon->next)
{
MetaMonitor *monitor = l_mon->data;
MetaOutput *output = meta_monitor_get_main_output (monitor);
MetaGpu *gpu;
gpu = meta_output_get_gpu (output);
if (gpu && !g_list_find (gpus, gpu))
gpus = g_list_prepend (gpus, gpu);
}
}
return gpus;
}
static void
on_kms_update_result (const MetaKmsFeedback *kms_feedback,
gpointer user_data)
{
MetaCursorRendererNative *cursor_renderer_native = user_data;
MetaCursorRenderer *cursor_renderer =
META_CURSOR_RENDERER (cursor_renderer_native);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
gboolean has_hw_cursor_failure = FALSE;
GList *l;
for (l = meta_kms_feedback_get_failed_planes (kms_feedback); l; l = l->next)
{
MetaKmsPlaneFeedback *plane_feedback = l->data;
switch (meta_kms_plane_get_plane_type (plane_feedback->plane))
{
case META_KMS_PLANE_TYPE_CURSOR:
break;
case META_KMS_PLANE_TYPE_PRIMARY:
case META_KMS_PLANE_TYPE_OVERLAY:
continue;
}
disable_hw_cursor_for_crtc (plane_feedback->crtc,
plane_feedback->error);
has_hw_cursor_failure = TRUE;
}
if (has_hw_cursor_failure)
{
priv->has_hw_cursor = FALSE;
meta_cursor_renderer_force_update (cursor_renderer);
}
}
static void
schedule_sync_position (MetaCursorRendererNative *cursor_renderer_native)
{
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
GList *l;
for (l = meta_backend_get_gpus (priv->backend); l; l = l->next)
{
MetaGpu *gpu = l->data;
GList *l_crtc;
for (l_crtc = meta_gpu_get_crtcs (gpu); l_crtc; l_crtc = l_crtc->next)
{
MetaCrtcKms *crtc_kms = META_CRTC_KMS (l_crtc->data);
CrtcCursorData *crtc_cursor_data;
crtc_cursor_data = ensure_crtc_cursor_data (crtc_kms);
crtc_cursor_data->needs_sync_position = TRUE;
}
}
}
static gboolean
meta_cursor_renderer_native_update_cursor (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite)
{
MetaCursorRendererNative *native = META_CURSOR_RENDERER_NATIVE (renderer);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (native);
ClutterStage *stage = CLUTTER_STAGE (meta_backend_get_stage (priv->backend));
g_autoptr (GList) gpus = NULL;
if (cursor_sprite)
{
meta_cursor_sprite_realize_texture (cursor_sprite);
gpus = calculate_cursor_sprite_gpus (renderer, cursor_sprite);
realize_cursor_sprite (renderer, cursor_sprite, gpus);
}
maybe_schedule_cursor_sprite_animation_frame (native, cursor_sprite);
priv->has_hw_cursor = should_have_hw_cursor (renderer, cursor_sprite, gpus);
schedule_sync_position (native);
clutter_stage_schedule_update (stage);
return (priv->has_hw_cursor ||
!cursor_sprite ||
!meta_cursor_sprite_get_cogl_texture (cursor_sprite));
}
static void
unset_crtc_cursor_renderer_privates (MetaGpu *gpu,
MetaDrmBuffer *buffer)
{
GList *l;
for (l = meta_gpu_get_crtcs (gpu); l; l = l->next)
{
MetaCrtcKms *crtc_kms = META_CRTC_KMS (l->data);
MetaDrmBuffer *crtc_buffer;
crtc_buffer = meta_crtc_kms_get_cursor_renderer_private (crtc_kms);
if (buffer == crtc_buffer)
meta_crtc_kms_set_cursor_renderer_private (crtc_kms, NULL, NULL);
}
}
static void
cursor_gpu_state_free (MetaCursorNativeGpuState *cursor_gpu_state)
{
int i;
MetaDrmBuffer *active_buffer;
active_buffer = get_active_cursor_sprite_buffer (cursor_gpu_state);
if (active_buffer)
unset_crtc_cursor_renderer_privates (cursor_gpu_state->gpu,
active_buffer);
for (i = 0; i < HW_CURSOR_BUFFER_COUNT; i++)
g_clear_object (&cursor_gpu_state->buffers[i]);
g_free (cursor_gpu_state);
}
static MetaCursorNativeGpuState *
get_cursor_gpu_state (MetaCursorNativePrivate *cursor_priv,
MetaGpuKms *gpu_kms)
{
return g_hash_table_lookup (cursor_priv->gpu_states, gpu_kms);
}
static MetaCursorNativeGpuState *
ensure_cursor_gpu_state (MetaCursorNativePrivate *cursor_priv,
MetaGpuKms *gpu_kms)
{
MetaCursorNativeGpuState *cursor_gpu_state;
cursor_gpu_state = get_cursor_gpu_state (cursor_priv, gpu_kms);
if (cursor_gpu_state)
return cursor_gpu_state;
cursor_gpu_state = g_new0 (MetaCursorNativeGpuState, 1);
cursor_gpu_state->gpu = META_GPU (gpu_kms);
g_hash_table_insert (cursor_priv->gpu_states, gpu_kms, cursor_gpu_state);
return cursor_gpu_state;
}
static void
invalidate_cursor_gpu_state (MetaCursorSprite *cursor_sprite)
{
MetaCursorNativePrivate *cursor_priv = get_cursor_priv (cursor_sprite);
GHashTableIter iter;
MetaCursorNativeGpuState *cursor_gpu_state;
g_hash_table_iter_init (&iter, cursor_priv->gpu_states);
while (g_hash_table_iter_next (&iter, NULL, (gpointer *) &cursor_gpu_state))
{
unsigned int pending_buffer_idx;
pending_buffer_idx = get_pending_cursor_sprite_buffer_index (cursor_gpu_state);
g_clear_object (&cursor_gpu_state->buffers[pending_buffer_idx]);
cursor_gpu_state->pending_buffer_state =
META_CURSOR_BUFFER_STATE_INVALIDATED;
}
}
static void
on_cursor_sprite_texture_changed (MetaCursorSprite *cursor_sprite)
{
invalidate_cursor_gpu_state (cursor_sprite);
}
static void
cursor_priv_free (MetaCursorNativePrivate *cursor_priv)
{
g_hash_table_destroy (cursor_priv->gpu_states);
g_free (cursor_priv);
}
static MetaCursorNativePrivate *
get_cursor_priv (MetaCursorSprite *cursor_sprite)
{
return g_object_get_qdata (G_OBJECT (cursor_sprite), quark_cursor_sprite);
}
static MetaCursorNativePrivate *
ensure_cursor_priv (MetaCursorSprite *cursor_sprite)
{
MetaCursorNativePrivate *cursor_priv;
cursor_priv = get_cursor_priv (cursor_sprite);
if (cursor_priv)
return cursor_priv;
cursor_priv = g_new0 (MetaCursorNativePrivate, 1);
cursor_priv->gpu_states =
g_hash_table_new_full (g_direct_hash,
g_direct_equal,
NULL,
(GDestroyNotify) cursor_gpu_state_free);
g_object_set_qdata_full (G_OBJECT (cursor_sprite),
quark_cursor_sprite,
cursor_priv,
(GDestroyNotify) cursor_priv_free);
g_signal_connect (cursor_sprite, "texture-changed",
G_CALLBACK (on_cursor_sprite_texture_changed), NULL);
unset_can_preprocess (cursor_sprite);
return cursor_priv;
}
static void
load_cursor_sprite_gbm_buffer_for_gpu (MetaCursorRendererNative *native,
MetaGpuKms *gpu_kms,
MetaCursorSprite *cursor_sprite,
uint8_t *pixels,
uint width,
uint height,
int rowstride,
uint32_t gbm_format)
{
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (native);
uint64_t cursor_width, cursor_height;
MetaCursorRendererNativeGpuData *cursor_renderer_gpu_data;
struct gbm_device *gbm_device;
cursor_renderer_gpu_data =
meta_cursor_renderer_native_gpu_data_from_gpu (gpu_kms);
if (!cursor_renderer_gpu_data)
return;
cursor_width = (uint64_t) cursor_renderer_gpu_data->cursor_width;
cursor_height = (uint64_t) cursor_renderer_gpu_data->cursor_height;
if (width > cursor_width || height > cursor_height)
{
meta_warning ("Invalid theme cursor size (must be at most %ux%u)",
(unsigned int)cursor_width, (unsigned int)cursor_height);
return;
}
gbm_device = meta_gbm_device_from_gpu (gpu_kms);
if (gbm_device_is_format_supported (gbm_device, gbm_format,
GBM_BO_USE_CURSOR | GBM_BO_USE_WRITE))
{
MetaBackendNative *backend_native = META_BACKEND_NATIVE (priv->backend);
MetaDevicePool *device_pool =
meta_backend_native_get_device_pool (backend_native);
g_autoptr (MetaDeviceFile) device_file = NULL;
struct gbm_bo *bo;
uint8_t buf[4 * cursor_width * cursor_height];
uint i;
g_autoptr (GError) error = NULL;
MetaDrmBufferGbm *buffer_gbm;
device_file = meta_device_pool_open (device_pool,
meta_gpu_kms_get_file_path (gpu_kms),
META_DEVICE_FILE_FLAG_TAKE_CONTROL,
&error);
if (!device_file)
{
g_warning ("Failed to open '%s' for updating the cursor: %s",
meta_gpu_kms_get_file_path (gpu_kms),
error->message);
return;
}
bo = gbm_bo_create (gbm_device, cursor_width, cursor_height,
gbm_format, GBM_BO_USE_CURSOR | GBM_BO_USE_WRITE);
if (!bo)
{
meta_warning ("Failed to allocate HW cursor buffer");
return;
}
memset (buf, 0, sizeof(buf));
for (i = 0; i < height; i++)
memcpy (buf + i * 4 * cursor_width, pixels + i * rowstride, width * 4);
if (gbm_bo_write (bo, buf, cursor_width * cursor_height * 4) != 0)
{
meta_warning ("Failed to write cursors buffer data: %s",
g_strerror (errno));
gbm_bo_destroy (bo);
return;
}
buffer_gbm = meta_drm_buffer_gbm_new_take (device_file, bo, FALSE, &error);
if (!buffer_gbm)
{
meta_warning ("Failed to create DRM buffer wrapper: %s",
error->message);
gbm_bo_destroy (bo);
return;
}
set_pending_cursor_sprite_buffer (cursor_sprite, gpu_kms,
META_DRM_BUFFER (buffer_gbm));
}
else
{
meta_warning ("HW cursor for format %d not supported", gbm_format);
}
}
static gboolean
is_cursor_hw_state_valid (MetaCursorSprite *cursor_sprite,
MetaGpuKms *gpu_kms)
{
MetaCursorNativePrivate *cursor_priv;
MetaCursorNativeGpuState *cursor_gpu_state;
cursor_priv = get_cursor_priv (cursor_sprite);
if (!cursor_priv)
return FALSE;
cursor_gpu_state = get_cursor_gpu_state (cursor_priv, gpu_kms);
if (!cursor_gpu_state)
return FALSE;
switch (cursor_gpu_state->pending_buffer_state)
{
case META_CURSOR_BUFFER_STATE_SET:
case META_CURSOR_BUFFER_STATE_NONE:
return TRUE;
case META_CURSOR_BUFFER_STATE_INVALIDATED:
return FALSE;
}
g_assert_not_reached ();
return FALSE;
}
static gboolean
is_cursor_scale_and_transform_valid (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite)
{
MetaMonitorTransform transform;
float scale;
if (!get_common_crtc_sprite_scale_for_logical_monitors (renderer,
cursor_sprite,
&scale))
return FALSE;
if (!get_common_crtc_sprite_transform_for_logical_monitors (renderer,
cursor_sprite,
&transform))
return FALSE;
return (scale == get_current_relative_scale (cursor_sprite) &&
transform == get_current_relative_transform (cursor_sprite));
}
static cairo_surface_t *
scale_and_transform_cursor_sprite_cpu (uint8_t *pixels,
int width,
int height,
int rowstride,
float scale,
MetaMonitorTransform transform)
{
cairo_t *cr;
cairo_surface_t *source_surface;
cairo_surface_t *target_surface;
int image_width;
int image_height;
image_width = ceilf (width * scale);
image_height = ceilf (height * scale);
target_surface = cairo_image_surface_create (CAIRO_FORMAT_ARGB32,
image_width,
image_height);
cr = cairo_create (target_surface);
if (transform != META_MONITOR_TRANSFORM_NORMAL)
{
cairo_translate (cr, 0.5 * image_width, 0.5 * image_height);
switch (transform)
{
case META_MONITOR_TRANSFORM_90:
cairo_rotate (cr, M_PI * 1.5);
break;
case META_MONITOR_TRANSFORM_180:
cairo_rotate (cr, M_PI);
break;
case META_MONITOR_TRANSFORM_270:
cairo_rotate (cr, M_PI * 0.5);
break;
case META_MONITOR_TRANSFORM_FLIPPED:
cairo_scale (cr, 1, -1);
break;
case META_MONITOR_TRANSFORM_FLIPPED_90:
cairo_rotate (cr, M_PI * 1.5);
cairo_scale (cr, -1, 1);
break;
case META_MONITOR_TRANSFORM_FLIPPED_180:
cairo_rotate (cr, M_PI);
cairo_scale (cr, 1, -1);
break;
case META_MONITOR_TRANSFORM_FLIPPED_270:
cairo_rotate (cr, M_PI * 0.5);
cairo_scale (cr, -1, 1);
break;
case META_MONITOR_TRANSFORM_NORMAL:
g_assert_not_reached ();
}
cairo_translate (cr, -0.5 * image_width, -0.5 * image_height);
}
cairo_scale (cr, scale, scale);
source_surface = cairo_image_surface_create_for_data (pixels,
CAIRO_FORMAT_ARGB32,
width,
height,
rowstride);
cairo_set_source_surface (cr, source_surface, 0, 0);
cairo_paint (cr);
cairo_destroy (cr);
cairo_surface_destroy (source_surface);
return target_surface;
}
static void
load_scaled_and_transformed_cursor_sprite (MetaCursorRendererNative *native,
MetaGpuKms *gpu_kms,
MetaCursorSprite *cursor_sprite,
float relative_scale,
MetaMonitorTransform relative_transform,
uint8_t *data,
int width,
int height,
int rowstride,
uint32_t gbm_format)
{
if (!G_APPROX_VALUE (relative_scale, 1.f, FLT_EPSILON) ||
relative_transform != META_MONITOR_TRANSFORM_NORMAL)
{
cairo_surface_t *surface;
surface = scale_and_transform_cursor_sprite_cpu (data,
width,
height,
rowstride,
relative_scale,
relative_transform);
load_cursor_sprite_gbm_buffer_for_gpu (native,
gpu_kms,
cursor_sprite,
cairo_image_surface_get_data (surface),
cairo_image_surface_get_width (surface),
cairo_image_surface_get_width (surface),
cairo_image_surface_get_stride (surface),
gbm_format);
cairo_surface_destroy (surface);
}
else
{
load_cursor_sprite_gbm_buffer_for_gpu (native,
gpu_kms,
cursor_sprite,
data,
width,
height,
rowstride,
gbm_format);
}
}
#ifdef HAVE_WAYLAND
static void
realize_cursor_sprite_from_wl_buffer_for_gpu (MetaCursorRenderer *renderer,
MetaGpuKms *gpu_kms,
MetaCursorSpriteWayland *sprite_wayland)
{
MetaCursorRendererNative *native = META_CURSOR_RENDERER_NATIVE (renderer);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (native);
MetaCursorSprite *cursor_sprite = META_CURSOR_SPRITE (sprite_wayland);
MetaCursorRendererNativeGpuData *cursor_renderer_gpu_data;
uint64_t cursor_width, cursor_height;
CoglTexture *texture;
uint width, height;
MetaWaylandBuffer *buffer;
struct wl_resource *buffer_resource;
struct wl_shm_buffer *shm_buffer;
cursor_renderer_gpu_data =
meta_cursor_renderer_native_gpu_data_from_gpu (gpu_kms);
if (!cursor_renderer_gpu_data || cursor_renderer_gpu_data->hw_cursor_broken)
return;
if (is_cursor_hw_state_valid (cursor_sprite, gpu_kms) &&
is_cursor_scale_and_transform_valid (renderer, cursor_sprite))
return;
buffer = meta_cursor_sprite_wayland_get_buffer (sprite_wayland);
if (!buffer)
return;
buffer_resource = meta_wayland_buffer_get_resource (buffer);
if (!buffer_resource)
return;
ensure_cursor_priv (cursor_sprite);
shm_buffer = wl_shm_buffer_get (buffer_resource);
if (shm_buffer)
{
int rowstride = wl_shm_buffer_get_stride (shm_buffer);
uint8_t *buffer_data;
float relative_scale;
MetaMonitorTransform relative_transform;
uint32_t gbm_format;
if (!get_common_crtc_sprite_scale_for_logical_monitors (renderer,
cursor_sprite,
&relative_scale))
{
unset_can_preprocess (cursor_sprite);
return;
}
if (!get_common_crtc_sprite_transform_for_logical_monitors (renderer,
cursor_sprite,
&relative_transform))
{
unset_can_preprocess (cursor_sprite);
return;
}
set_can_preprocess (cursor_sprite,
relative_scale,
relative_transform);
wl_shm_buffer_begin_access (shm_buffer);
buffer_data = wl_shm_buffer_get_data (shm_buffer);
width = wl_shm_buffer_get_width (shm_buffer);
height = wl_shm_buffer_get_height (shm_buffer);
switch (wl_shm_buffer_get_format (shm_buffer))
{
case WL_SHM_FORMAT_ARGB8888:
gbm_format = GBM_FORMAT_ARGB8888;
break;
case WL_SHM_FORMAT_XRGB8888:
gbm_format = GBM_FORMAT_XRGB8888;
break;
default:
g_warn_if_reached ();
gbm_format = GBM_FORMAT_ARGB8888;
}
load_scaled_and_transformed_cursor_sprite (native,
gpu_kms,
cursor_sprite,
relative_scale,
relative_transform,
buffer_data,
width,
height,
rowstride,
gbm_format);
wl_shm_buffer_end_access (shm_buffer);
}
else
{
MetaBackendNative *backend_native = META_BACKEND_NATIVE (priv->backend);
MetaDevicePool *device_pool =
meta_backend_native_get_device_pool (backend_native);
g_autoptr (MetaDeviceFile) device_file = NULL;
struct gbm_device *gbm_device;
struct gbm_bo *bo;
g_autoptr (GError) error = NULL;
MetaDrmBufferGbm *buffer_gbm;
device_file = meta_device_pool_open (device_pool,
meta_gpu_kms_get_file_path (gpu_kms),
META_DEVICE_FILE_FLAG_TAKE_CONTROL,
&error);
if (!device_file)
{
g_warning ("Failed to open '%s' for updating the cursor: %s",
meta_gpu_kms_get_file_path (gpu_kms),
error->message);
return;
}
/* HW cursors have a predefined size (at least 64x64), which usually is
* bigger than cursor theme size, so themed cursors must be padded with
* transparent pixels to fill the overlay. This is trivial if we have CPU
* access to the data, but it's not possible if the buffer is in GPU
* memory (and possibly tiled too), so if we don't get the right size, we
* fallback to GL. */
cursor_width = (uint64_t) cursor_renderer_gpu_data->cursor_width;
cursor_height = (uint64_t) cursor_renderer_gpu_data->cursor_height;
texture = meta_cursor_sprite_get_cogl_texture (cursor_sprite);
width = cogl_texture_get_width (texture);
height = cogl_texture_get_height (texture);
if (width != cursor_width || height != cursor_height)
{
meta_warning ("Invalid cursor size (must be 64x64), falling back to software (GL) cursors");
return;
}
gbm_device = meta_gbm_device_from_gpu (gpu_kms);
bo = gbm_bo_import (gbm_device,
GBM_BO_IMPORT_WL_BUFFER,
buffer,
GBM_BO_USE_CURSOR);
if (!bo)
{
meta_warning ("Importing HW cursor from wl_buffer failed");
return;
}
unset_can_preprocess (cursor_sprite);
buffer_gbm = meta_drm_buffer_gbm_new_take (device_file, bo, FALSE, &error);
if (!buffer_gbm)
{
meta_warning ("Failed to create DRM buffer wrapper: %s",
error->message);
gbm_bo_destroy (bo);
return;
}
set_pending_cursor_sprite_buffer (cursor_sprite, gpu_kms,
META_DRM_BUFFER (buffer_gbm));
}
}
#endif
static void
realize_cursor_sprite_from_xcursor_for_gpu (MetaCursorRenderer *renderer,
MetaGpuKms *gpu_kms,
MetaCursorSpriteXcursor *sprite_xcursor)
{
MetaCursorRendererNative *native = META_CURSOR_RENDERER_NATIVE (renderer);
MetaCursorRendererNativeGpuData *cursor_renderer_gpu_data;
MetaCursorSprite *cursor_sprite = META_CURSOR_SPRITE (sprite_xcursor);
XcursorImage *xc_image;
float relative_scale;
MetaMonitorTransform relative_transform;
ensure_cursor_priv (cursor_sprite);
cursor_renderer_gpu_data =
meta_cursor_renderer_native_gpu_data_from_gpu (gpu_kms);
if (!cursor_renderer_gpu_data || cursor_renderer_gpu_data->hw_cursor_broken)
return;
if (is_cursor_hw_state_valid (cursor_sprite, gpu_kms) &&
is_cursor_scale_and_transform_valid (renderer, cursor_sprite))
return;
if (!get_common_crtc_sprite_scale_for_logical_monitors (renderer,
cursor_sprite,
&relative_scale))
{
unset_can_preprocess (cursor_sprite);
return;
}
if (!get_common_crtc_sprite_transform_for_logical_monitors (renderer,
cursor_sprite,
&relative_transform))
{
unset_can_preprocess (cursor_sprite);
return;
}
set_can_preprocess (cursor_sprite,
relative_scale,
relative_transform);
xc_image = meta_cursor_sprite_xcursor_get_current_image (sprite_xcursor);
load_scaled_and_transformed_cursor_sprite (native,
gpu_kms,
cursor_sprite,
relative_scale,
relative_transform,
(uint8_t *) xc_image->pixels,
xc_image->width,
xc_image->height,
xc_image->width * 4,
GBM_FORMAT_ARGB8888);
}
static void
realize_cursor_sprite_for_gpu (MetaCursorRenderer *renderer,
MetaGpuKms *gpu_kms,
MetaCursorSprite *cursor_sprite)
{
if (META_IS_CURSOR_SPRITE_XCURSOR (cursor_sprite))
{
MetaCursorSpriteXcursor *sprite_xcursor =
META_CURSOR_SPRITE_XCURSOR (cursor_sprite);
realize_cursor_sprite_from_xcursor_for_gpu (renderer,
gpu_kms,
sprite_xcursor);
}
#ifdef HAVE_WAYLAND
else if (META_IS_CURSOR_SPRITE_WAYLAND (cursor_sprite))
{
MetaCursorSpriteWayland *sprite_wayland =
META_CURSOR_SPRITE_WAYLAND (cursor_sprite);
realize_cursor_sprite_from_wl_buffer_for_gpu (renderer,
gpu_kms,
sprite_wayland);
}
#endif
}
static void
realize_cursor_sprite (MetaCursorRenderer *renderer,
MetaCursorSprite *cursor_sprite,
GList *gpus)
{
GList *l;
for (l = gpus; l; l = l->next)
{
MetaGpuKms *gpu_kms = l->data;
realize_cursor_sprite_for_gpu (renderer, gpu_kms, cursor_sprite);
}
}
static void
meta_cursor_renderer_native_class_init (MetaCursorRendererNativeClass *klass)
{
MetaCursorRendererClass *renderer_class = META_CURSOR_RENDERER_CLASS (klass);
GObjectClass *object_class = G_OBJECT_CLASS (klass);
object_class->finalize = meta_cursor_renderer_native_finalize;
renderer_class->update_cursor = meta_cursor_renderer_native_update_cursor;
quark_cursor_sprite = g_quark_from_static_string ("-meta-cursor-native");
quark_cursor_renderer_native_gpu_data =
g_quark_from_static_string ("-meta-cursor-renderer-native-gpu-data");
}
static void
force_update_hw_cursor (MetaCursorRendererNative *native)
{
MetaCursorRenderer *renderer = META_CURSOR_RENDERER (native);
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (native);
GList *l;
for (l = meta_backend_get_gpus (priv->backend); l; l = l->next)
{
MetaGpu *gpu = l->data;
GList *l_crtc;
for (l_crtc = meta_gpu_get_crtcs (gpu); l_crtc; l_crtc = l_crtc->next)
{
MetaCrtcKms *crtc_kms = META_CRTC_KMS (l_crtc->data);
CrtcCursorData *crtc_cursor_data;
crtc_cursor_data = ensure_crtc_cursor_data (crtc_kms);
crtc_cursor_data->hw_state_invalidated = TRUE;
}
}
meta_cursor_renderer_force_update (renderer);
}
static void
on_monitors_changed (MetaMonitorManager *monitors,
MetaCursorRendererNative *native)
{
force_update_hw_cursor (native);
}
static void
init_hw_cursor_support_for_gpu (MetaGpuKms *gpu_kms)
{
MetaKmsDevice *kms_device = meta_gpu_kms_get_kms_device (gpu_kms);
MetaCursorRendererNativeGpuData *cursor_renderer_gpu_data;
struct gbm_device *gbm_device;
uint64_t width, height;
gbm_device = meta_gbm_device_from_gpu (gpu_kms);
if (!gbm_device)
return;
cursor_renderer_gpu_data =
meta_create_cursor_renderer_native_gpu_data (gpu_kms);
if (!meta_kms_device_get_cursor_size (kms_device, &width, &height))
{
width = 64;
height = 64;
}
cursor_renderer_gpu_data->cursor_width = width;
cursor_renderer_gpu_data->cursor_height = height;
}
static void
on_gpu_added_for_cursor (MetaBackend *backend,
MetaGpuKms *gpu_kms)
{
init_hw_cursor_support_for_gpu (gpu_kms);
}
static void
init_hw_cursor_support (MetaCursorRendererNative *cursor_renderer_native)
{
MetaCursorRendererNativePrivate *priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
GList *gpus;
GList *l;
gpus = meta_backend_get_gpus (priv->backend);
for (l = gpus; l; l = l->next)
{
MetaGpuKms *gpu_kms = l->data;
init_hw_cursor_support_for_gpu (gpu_kms);
}
}
MetaCursorRendererNative *
meta_cursor_renderer_native_new (MetaBackend *backend,
ClutterInputDevice *device)
{
MetaMonitorManager *monitor_manager =
meta_backend_get_monitor_manager (backend);
MetaCursorRendererNative *cursor_renderer_native;
MetaCursorRendererNativePrivate *priv;
cursor_renderer_native = g_object_new (META_TYPE_CURSOR_RENDERER_NATIVE,
"backend", backend,
"device", device,
NULL);
priv =
meta_cursor_renderer_native_get_instance_private (cursor_renderer_native);
g_signal_connect_object (monitor_manager, "monitors-changed-internal",
G_CALLBACK (on_monitors_changed),
cursor_renderer_native, 0);
g_signal_connect (backend, "gpu-added",
G_CALLBACK (on_gpu_added_for_cursor), NULL);
priv->backend = backend;
init_hw_cursor_support (cursor_renderer_native);
return cursor_renderer_native;
}
static void
meta_cursor_renderer_native_init (MetaCursorRendererNative *native)
{
}