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mutter-performance-source/src/backends/native/meta-output-kms.c
Marco Trevisan (Treviño) 47d7bc7a13 backends/kms: Implement privacy screen handling and setting 
Privacy screen events on connector are handled as notification events
that won't cause any monitors reconfiguration but will emit monitors
changed on DBus, so that the new value can be fetched.

We monitor the hardware state so that we can also handle the case of
devices with hw-switchers only.

In case a software state is available it means we can also support
changing the state, and if so expose the state as unlocked.

Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/1952>
2022-01-25 07:31:19 +00:00

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/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
/*
* Copyright (C) 2013-2017 Red Hat
* Copyright (C) 2018 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.
*/
#include "config.h"
#include "backends/native/meta-output-kms.h"
#include <errno.h>
#include <stdlib.h>
#include <string.h>
#include "backends/meta-crtc.h"
#include "backends/native/meta-kms.h"
#include "backends/native/meta-kms-connector.h"
#include "backends/native/meta-kms-device.h"
#include "backends/native/meta-kms-mode.h"
#include "backends/native/meta-kms-update.h"
#include "backends/native/meta-kms-utils.h"
#include "backends/native/meta-crtc-kms.h"
#include "backends/native/meta-crtc-mode-kms.h"
#define SYNC_TOLERANCE 0.01 /* 1 percent */
struct _MetaOutputKms
{
MetaOutputNative parent;
MetaKmsConnector *kms_connector;
};
G_DEFINE_TYPE (MetaOutputKms, meta_output_kms, META_TYPE_OUTPUT_NATIVE)
MetaKmsConnector *
meta_output_kms_get_kms_connector (MetaOutputKms *output_kms)
{
return output_kms->kms_connector;
}
void
meta_output_kms_set_underscan (MetaOutputKms *output_kms,
MetaKmsUpdate *kms_update)
{
MetaOutput *output = META_OUTPUT (output_kms);
const MetaOutputInfo *output_info = meta_output_get_info (output);
if (!output_info->supports_underscanning)
return;
if (meta_output_is_underscanning (output))
{
MetaCrtc *crtc;
const MetaCrtcConfig *crtc_config;
const MetaCrtcModeInfo *crtc_mode_info;
uint64_t hborder, vborder;
crtc = meta_output_get_assigned_crtc (output);
crtc_config = meta_crtc_get_config (crtc);
crtc_mode_info = meta_crtc_mode_get_info (crtc_config->mode);
hborder = MIN (128, (uint64_t) round (crtc_mode_info->width * 0.05));
vborder = MIN (128, (uint64_t) round (crtc_mode_info->height * 0.05));
g_debug ("Setting underscan of connector %s to %" G_GUINT64_FORMAT " x %" G_GUINT64_FORMAT,
meta_kms_connector_get_name (output_kms->kms_connector),
hborder, vborder);
meta_kms_update_set_underscanning (kms_update,
output_kms->kms_connector,
hborder, vborder);
}
else
{
g_debug ("Unsetting underscan of connector %s",
meta_kms_connector_get_name (output_kms->kms_connector));
meta_kms_update_unset_underscanning (kms_update,
output_kms->kms_connector);
}
}
static MetaPrivacyScreenState
meta_output_kms_get_privacy_screen_state (MetaOutput *output)
{
MetaOutputKms *output_kms = META_OUTPUT_KMS (output);
const MetaKmsConnectorState *connector_state;
connector_state =
meta_kms_connector_get_current_state (output_kms->kms_connector);
return connector_state->privacy_screen_state;
}
static gboolean
meta_output_kms_set_privacy_screen_enabled (MetaOutput *output,
gboolean enabled,
GError **error)
{
MetaGpu *gpu;
MetaKms *kms;
MetaKmsDevice *kms_device;
MetaKmsUpdate *kms_update;
MetaOutputKms *output_kms = META_OUTPUT_KMS (output);
MetaKmsConnector *connector = meta_output_kms_get_kms_connector (output_kms);
if (!meta_kms_connector_is_privacy_screen_supported (connector))
{
g_set_error_literal (error, G_IO_ERROR, G_IO_ERROR_NOT_SUPPORTED,
"No privacy screen support");
return FALSE;
}
gpu = meta_output_get_gpu (META_OUTPUT (output_kms));
kms_device = meta_gpu_kms_get_kms_device (META_GPU_KMS (gpu));
kms = meta_kms_device_get_kms (kms_device);
kms_update = meta_kms_ensure_pending_update (kms, kms_device);
meta_kms_update_set_privacy_screen (kms_update, connector, enabled);
return TRUE;
}
uint32_t
meta_output_kms_get_connector_id (MetaOutputKms *output_kms)
{
return meta_kms_connector_get_id (output_kms->kms_connector);
}
gboolean
meta_output_kms_can_clone (MetaOutputKms *output_kms,
MetaOutputKms *other_output_kms)
{
return meta_kms_connector_can_clone (output_kms->kms_connector,
other_output_kms->kms_connector);
}
static GBytes *
meta_output_kms_read_edid (MetaOutputNative *output_native)
{
MetaOutputKms *output_kms = META_OUTPUT_KMS (output_native);
const MetaKmsConnectorState *connector_state;
GBytes *edid_data;
connector_state =
meta_kms_connector_get_current_state (output_kms->kms_connector);
edid_data = connector_state->edid_data;
if (!edid_data)
return NULL;
return g_bytes_new_from_bytes (edid_data, 0, g_bytes_get_size (edid_data));
}
static void
add_common_modes (MetaOutputInfo *output_info,
MetaGpuKms *gpu_kms)
{
MetaCrtcMode *crtc_mode;
GPtrArray *array;
unsigned i;
unsigned max_hdisplay = 0;
unsigned max_vdisplay = 0;
float max_refresh_rate = 0.0;
float max_bandwidth = 0.0;
MetaKmsDevice *kms_device;
MetaKmsModeFlag flag_filter;
GList *l;
for (i = 0; i < output_info->n_modes; i++)
{
const MetaCrtcModeInfo *crtc_mode_info =
meta_crtc_mode_get_info (output_info->modes[i]);
float bandwidth;
bandwidth = crtc_mode_info->refresh_rate * crtc_mode_info->width *
crtc_mode_info->height;
max_hdisplay = MAX (max_hdisplay, crtc_mode_info->width);
max_vdisplay = MAX (max_vdisplay, crtc_mode_info->height);
max_refresh_rate = MAX (max_refresh_rate, crtc_mode_info->refresh_rate);
max_bandwidth = MAX (max_bandwidth, bandwidth);
}
max_refresh_rate = MAX (max_refresh_rate, 60.0);
max_refresh_rate *= (1 + SYNC_TOLERANCE);
kms_device = meta_gpu_kms_get_kms_device (gpu_kms);
array = g_ptr_array_new ();
if (max_hdisplay > max_vdisplay)
flag_filter = META_KMS_MODE_FLAG_FALLBACK_LANDSCAPE;
else
flag_filter = META_KMS_MODE_FLAG_FALLBACK_PORTRAIT;
for (l = meta_kms_device_get_fallback_modes (kms_device); l; l = l->next)
{
MetaKmsMode *fallback_mode = l->data;
const drmModeModeInfo *drm_mode;
float bandwidth;
float refresh_rate;
gboolean is_duplicate = FALSE;
if (!(meta_kms_mode_get_flags (fallback_mode) & flag_filter))
continue;
drm_mode = meta_kms_mode_get_drm_mode (fallback_mode);
refresh_rate = meta_calculate_drm_mode_refresh_rate (drm_mode);
bandwidth = refresh_rate * drm_mode->hdisplay * drm_mode->vdisplay;
if (drm_mode->hdisplay > max_hdisplay ||
drm_mode->vdisplay > max_vdisplay ||
refresh_rate > max_refresh_rate ||
bandwidth > max_bandwidth)
continue;
for (i = 0; i < output_info->n_modes; i++)
{
const MetaCrtcModeInfo *crtc_mode_info =
meta_crtc_mode_get_info (output_info->modes[i]);
if (drm_mode->hdisplay == crtc_mode_info->width &&
drm_mode->vdisplay == crtc_mode_info->height &&
fabs (1 - (refresh_rate / crtc_mode_info->refresh_rate)) <
SYNC_TOLERANCE)
{
is_duplicate = TRUE;
break;
}
}
if (is_duplicate)
continue;
crtc_mode = meta_gpu_kms_get_mode_from_kms_mode (gpu_kms, fallback_mode);
g_ptr_array_add (array, crtc_mode);
}
output_info->modes = g_renew (MetaCrtcMode *, output_info->modes,
output_info->n_modes + array->len);
memcpy (output_info->modes + output_info->n_modes, array->pdata,
array->len * sizeof (MetaCrtcMode *));
output_info->n_modes += array->len;
g_ptr_array_free (array, TRUE);
}
static int
compare_modes (const void *one,
const void *two)
{
MetaCrtcMode *crtc_mode_one = *(MetaCrtcMode **) one;
MetaCrtcMode *crtc_mode_two = *(MetaCrtcMode **) two;
const MetaCrtcModeInfo *crtc_mode_info_one =
meta_crtc_mode_get_info (crtc_mode_one);
const MetaCrtcModeInfo *crtc_mode_info_two =
meta_crtc_mode_get_info (crtc_mode_two);
if (crtc_mode_info_one->width != crtc_mode_info_two->width)
return crtc_mode_info_one->width > crtc_mode_info_two->width ? -1 : 1;
if (crtc_mode_info_one->height != crtc_mode_info_two->height)
return crtc_mode_info_one->height > crtc_mode_info_two->height ? -1 : 1;
if (crtc_mode_info_one->refresh_rate != crtc_mode_info_two->refresh_rate)
return (crtc_mode_info_one->refresh_rate > crtc_mode_info_two->refresh_rate
? -1 : 1);
return g_strcmp0 (meta_crtc_mode_get_name (crtc_mode_one),
meta_crtc_mode_get_name (crtc_mode_two));
}
static gboolean
init_output_modes (MetaOutputInfo *output_info,
MetaGpuKms *gpu_kms,
MetaKmsConnector *kms_connector,
GError **error)
{
const MetaKmsConnectorState *connector_state;
GList *l;
int i;
connector_state = meta_kms_connector_get_current_state (kms_connector);
output_info->preferred_mode = NULL;
output_info->n_modes = g_list_length (connector_state->modes);
output_info->modes = g_new0 (MetaCrtcMode *, output_info->n_modes);
for (l = connector_state->modes, i = 0; l; l = l->next, i++)
{
MetaKmsMode *kms_mode = l->data;
const drmModeModeInfo *drm_mode = meta_kms_mode_get_drm_mode (kms_mode);
MetaCrtcMode *crtc_mode;
crtc_mode = meta_gpu_kms_get_mode_from_kms_mode (gpu_kms, kms_mode);
output_info->modes[i] = crtc_mode;
if (drm_mode->type & DRM_MODE_TYPE_PREFERRED)
output_info->preferred_mode = output_info->modes[i];
}
if (connector_state->has_scaling)
{
meta_topic (META_DEBUG_KMS, "Adding common modes to connector %u on %s",
meta_kms_connector_get_id (kms_connector),
meta_gpu_kms_get_file_path (gpu_kms));
add_common_modes (output_info, gpu_kms);
}
if (!output_info->modes)
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_FAILED,
"No modes available");
return FALSE;
}
qsort (output_info->modes, output_info->n_modes,
sizeof (MetaCrtcMode *), compare_modes);
if (!output_info->preferred_mode)
output_info->preferred_mode = output_info->modes[0];
return TRUE;
}
static MetaConnectorType
meta_kms_connector_type_from_drm (uint32_t drm_connector_type)
{
g_warn_if_fail (drm_connector_type < META_CONNECTOR_TYPE_META);
return (MetaConnectorType) drm_connector_type;
}
MetaOutputKms *
meta_output_kms_new (MetaGpuKms *gpu_kms,
MetaKmsConnector *kms_connector,
MetaOutput *old_output,
GError **error)
{
MetaGpu *gpu = META_GPU (gpu_kms);
uint32_t connector_id;
uint32_t gpu_id;
g_autoptr (MetaOutputInfo) output_info = NULL;
MetaOutput *output;
MetaOutputKms *output_kms;
uint32_t drm_connector_type;
const MetaKmsConnectorState *connector_state;
GArray *crtcs;
GList *l;
gpu_id = meta_gpu_kms_get_id (gpu_kms);
connector_id = meta_kms_connector_get_id (kms_connector);
output_info = meta_output_info_new ();
output_info->name = g_strdup (meta_kms_connector_get_name (kms_connector));
connector_state = meta_kms_connector_get_current_state (kms_connector);
output_info->panel_orientation_transform =
connector_state->panel_orientation_transform;
if (meta_monitor_transform_is_rotated (output_info->panel_orientation_transform))
{
output_info->width_mm = connector_state->height_mm;
output_info->height_mm = connector_state->width_mm;
}
else
{
output_info->width_mm = connector_state->width_mm;
output_info->height_mm = connector_state->height_mm;
}
if (!init_output_modes (output_info, gpu_kms, kms_connector, error))
return NULL;
crtcs = g_array_new (FALSE, FALSE, sizeof (MetaCrtc *));
for (l = meta_gpu_get_crtcs (gpu); l; l = l->next)
{
MetaCrtcKms *crtc_kms = META_CRTC_KMS (l->data);
MetaKmsCrtc *kms_crtc = meta_crtc_kms_get_kms_crtc (crtc_kms);
uint32_t crtc_idx;
crtc_idx = meta_kms_crtc_get_idx (kms_crtc);
if (connector_state->common_possible_crtcs & (1 << crtc_idx))
g_array_append_val (crtcs, crtc_kms);
}
output_info->n_possible_crtcs = crtcs->len;
output_info->possible_crtcs = (MetaCrtc **) g_array_free (crtcs, FALSE);
output_info->suggested_x = connector_state->suggested_x;
output_info->suggested_y = connector_state->suggested_y;
output_info->hotplug_mode_update = connector_state->hotplug_mode_update;
output_info->supports_underscanning =
meta_kms_connector_is_underscanning_supported (kms_connector);
meta_output_info_parse_edid (output_info, connector_state->edid_data);
drm_connector_type = meta_kms_connector_get_connector_type (kms_connector);
output_info->connector_type =
meta_kms_connector_type_from_drm (drm_connector_type);
output_info->tile_info = connector_state->tile_info;
output = g_object_new (META_TYPE_OUTPUT_KMS,
"id", ((uint64_t) gpu_id << 32) | connector_id,
"gpu", gpu,
"info", output_info,
NULL);
output_kms = META_OUTPUT_KMS (output);
output_kms->kms_connector = kms_connector;
if (connector_state->current_crtc_id)
{
for (l = meta_gpu_get_crtcs (gpu); l; l = l->next)
{
MetaCrtc *crtc = l->data;
if (meta_crtc_get_id (crtc) == connector_state->current_crtc_id)
{
MetaOutputAssignment output_assignment;
if (old_output)
{
output_assignment = (MetaOutputAssignment) {
.is_primary = meta_output_is_primary (old_output),
.is_presentation = meta_output_is_presentation (old_output),
};
}
else
{
output_assignment = (MetaOutputAssignment) {
.is_primary = FALSE,
.is_presentation = FALSE,
};
}
meta_output_assign_crtc (output, crtc, &output_assignment);
break;
}
}
}
else
{
meta_output_unassign_crtc (output);
}
return output_kms;
}
static void
meta_output_kms_init (MetaOutputKms *output_kms)
{
}
static void
meta_output_kms_class_init (MetaOutputKmsClass *klass)
{
MetaOutputNativeClass *output_native_class = META_OUTPUT_NATIVE_CLASS (klass);
MetaOutputClass *output_class = META_OUTPUT_CLASS (klass);
output_class->get_privacy_screen_state =
meta_output_kms_get_privacy_screen_state;
output_class->set_privacy_screen_enabled =
meta_output_kms_set_privacy_screen_enabled;
output_native_class->read_edid = meta_output_kms_read_edid;
}
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