mutter/src/backends/native/meta-monitor-manager-kms.c

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/* -*- mode: C; c-file-style: "gnu"; indent-tabs-mode: nil; -*- */
2014-05-02 09:34:02 -04:00
/*
* Copyright (C) 2013 Red Hat Inc.
* Copyright (C) 2018 DisplayLink (UK) Ltd.
2014-05-02 09:34:02 -04:00
*
* 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.
2014-05-02 09:34:02 -04:00
*
* 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.
*
* Author: Giovanni Campagna <gcampagn@redhat.com>
*/
2018-10-19 03:15:54 -04:00
/**
* SECTION:meta-monitor-manager-kms
* @title: MetaMonitorManagerKms
* @short_description: A subclass of #MetaMonitorManager using Linux DRM
*
* #MetaMonitorManagerKms is a subclass of #MetaMonitorManager which
* implements its functionality "natively": it uses the appropriate
* functions of the Linux DRM kernel module and using a udev client.
*
* See also #MetaMonitorManagerXrandr for an implementation using XRandR.
*/
#include "config.h"
#include "backends/native/meta-monitor-manager-kms.h"
#include <drm.h>
#include <errno.h>
#include <gudev/gudev.h>
#include <stdlib.h>
#include <string.h>
#include <sys/ioctl.h>
#include <sys/mman.h>
#include <unistd.h>
#include "backends/meta-backend-private.h"
#include "backends/meta-crtc.h"
#include "backends/meta-monitor-config-manager.h"
#include "backends/meta-output.h"
#include "backends/native/meta-backend-native.h"
#include "backends/native/meta-crtc-kms.h"
#include "backends/native/meta-gpu-kms.h"
#include "backends/native/meta-launcher.h"
#include "backends/native/meta-output-kms.h"
#include "backends/native/meta-renderer-native.h"
#include "clutter/clutter.h"
#include "meta/main.h"
#include "meta/meta-x11-errors.h"
#define DRM_CARD_UDEV_DEVICE_TYPE "drm_minor"
enum
{
GPU_ADDED,
LAST_SIGNAL
};
static guint signals[LAST_SIGNAL] = { 0 };
typedef struct
{
GSource source;
gpointer fd_tag;
MetaMonitorManagerKms *manager_kms;
} MetaKmsSource;
struct _MetaMonitorManagerKms
{
MetaMonitorManager parent_instance;
GUdevClient *udev;
guint uevent_handler_id;
};
struct _MetaMonitorManagerKmsClass
{
MetaMonitorManagerClass parent_class;
};
static void
initable_iface_init (GInitableIface *initable_iface);
G_DEFINE_TYPE_WITH_CODE (MetaMonitorManagerKms, meta_monitor_manager_kms,
META_TYPE_MONITOR_MANAGER,
G_IMPLEMENT_INTERFACE (G_TYPE_INITABLE,
initable_iface_init))
static GBytes *
meta_monitor_manager_kms_read_edid (MetaMonitorManager *manager,
MetaOutput *output)
{
return meta_output_kms_read_edid (output);
}
static void
meta_monitor_manager_kms_set_power_save_mode (MetaMonitorManager *manager,
MetaPowerSave mode)
{
uint64_t state;
GList *l;
switch (mode) {
case META_POWER_SAVE_ON:
state = DRM_MODE_DPMS_ON;
break;
case META_POWER_SAVE_STANDBY:
state = DRM_MODE_DPMS_STANDBY;
break;
case META_POWER_SAVE_SUSPEND:
state = DRM_MODE_DPMS_SUSPEND;
break;
case META_POWER_SAVE_OFF:
state = DRM_MODE_DPMS_OFF;
break;
default:
return;
}
for (l = manager->gpus; l; l = l->next)
{
MetaGpuKms *gpu_kms = l->data;
meta_gpu_kms_set_power_save_mode (gpu_kms, state);
}
}
static void
meta_monitor_manager_kms_ensure_initial_config (MetaMonitorManager *manager)
{
MetaMonitorsConfig *config;
config = meta_monitor_manager_ensure_configured (manager);
meta_monitor_manager_update_logical_state (manager, config);
}
static void
apply_crtc_assignments (MetaMonitorManager *manager,
MetaCrtcInfo **crtcs,
unsigned int n_crtcs,
MetaOutputInfo **outputs,
unsigned int n_outputs)
{
unsigned i;
GList *l;
for (i = 0; i < n_crtcs; i++)
{
MetaCrtcInfo *crtc_info = crtcs[i];
MetaCrtc *crtc = crtc_info->crtc;
crtc->is_dirty = TRUE;
if (crtc_info->mode == NULL)
{
crtc->rect.x = 0;
crtc->rect.y = 0;
crtc->rect.width = 0;
crtc->rect.height = 0;
crtc->current_mode = NULL;
}
else
{
MetaCrtcMode *mode;
unsigned int j;
int width, height;
mode = crtc_info->mode;
if (meta_monitor_transform_is_rotated (crtc_info->transform))
{
width = mode->height;
height = mode->width;
}
else
{
width = mode->width;
height = mode->height;
}
crtc->rect.x = crtc_info->x;
crtc->rect.y = crtc_info->y;
crtc->rect.width = width;
crtc->rect.height = height;
crtc->current_mode = mode;
crtc->transform = crtc_info->transform;
for (j = 0; j < crtc_info->outputs->len; j++)
{
MetaOutput *output = g_ptr_array_index (crtc_info->outputs, j);
output->is_dirty = TRUE;
meta_output_assign_crtc (output, crtc);
}
}
meta_crtc_kms_apply_transform (crtc);
}
/* Disable CRTCs not mentioned in the list (they have is_dirty == FALSE,
because they weren't seen in the first loop) */
for (l = manager->gpus; l; l = l->next)
{
MetaGpu *gpu = l->data;
GList *k;
for (k = meta_gpu_get_crtcs (gpu); k; k = k->next)
{
MetaCrtc *crtc = k->data;
crtc->logical_monitor = NULL;
if (crtc->is_dirty)
{
crtc->is_dirty = FALSE;
continue;
}
crtc->rect.x = 0;
crtc->rect.y = 0;
crtc->rect.width = 0;
crtc->rect.height = 0;
crtc->current_mode = NULL;
}
}
for (i = 0; i < n_outputs; i++)
{
MetaOutputInfo *output_info = outputs[i];
MetaOutput *output = output_info->output;
output->is_primary = output_info->is_primary;
output->is_presentation = output_info->is_presentation;
output->is_underscanning = output_info->is_underscanning;
meta_output_kms_set_underscan (output);
}
/* Disable outputs not mentioned in the list */
for (l = manager->gpus; l; l = l->next)
{
MetaGpu *gpu = l->data;
GList *k;
for (k = meta_gpu_get_outputs (gpu); k; k = k->next)
{
MetaOutput *output = k->data;
if (output->is_dirty)
{
output->is_dirty = FALSE;
continue;
}
meta_output_unassign_crtc (output);
output->is_primary = FALSE;
}
}
}
static void
update_screen_size (MetaMonitorManager *manager,
MetaMonitorsConfig *config)
{
GList *l;
int screen_width = 0;
int screen_height = 0;
for (l = config->logical_monitor_configs; l; l = l->next)
{
MetaLogicalMonitorConfig *logical_monitor_config = l->data;
int right_edge;
int bottom_edge;
right_edge = (logical_monitor_config->layout.width +
logical_monitor_config->layout.x);
if (right_edge > screen_width)
screen_width = right_edge;
bottom_edge = (logical_monitor_config->layout.height +
logical_monitor_config->layout.y);
if (bottom_edge > screen_height)
screen_height = bottom_edge;
}
manager->screen_width = screen_width;
manager->screen_height = screen_height;
}
static gboolean
meta_monitor_manager_kms_apply_monitors_config (MetaMonitorManager *manager,
MetaMonitorsConfig *config,
MetaMonitorsConfigMethod method,
GError **error)
{
GPtrArray *crtc_infos;
GPtrArray *output_infos;
if (!config)
{
manager->screen_width = META_MONITOR_MANAGER_MIN_SCREEN_WIDTH;
manager->screen_height = META_MONITOR_MANAGER_MIN_SCREEN_HEIGHT;
meta_monitor_manager_rebuild (manager, NULL);
return TRUE;
}
if (!meta_monitor_config_manager_assign (manager, config,
&crtc_infos, &output_infos,
error))
return FALSE;
if (method == META_MONITORS_CONFIG_METHOD_VERIFY)
{
g_ptr_array_free (crtc_infos, TRUE);
g_ptr_array_free (output_infos, TRUE);
return TRUE;
}
apply_crtc_assignments (manager,
(MetaCrtcInfo **) crtc_infos->pdata,
crtc_infos->len,
(MetaOutputInfo **) output_infos->pdata,
output_infos->len);
g_ptr_array_free (crtc_infos, TRUE);
g_ptr_array_free (output_infos, TRUE);
update_screen_size (manager, config);
meta_monitor_manager_rebuild (manager, config);
return TRUE;
}
static void
meta_monitor_manager_kms_get_crtc_gamma (MetaMonitorManager *manager,
MetaCrtc *crtc,
gsize *size,
unsigned short **red,
unsigned short **green,
unsigned short **blue)
{
MetaGpu *gpu = meta_crtc_get_gpu (crtc);
int kms_fd = meta_gpu_kms_get_fd (META_GPU_KMS (gpu));
drmModeCrtc *kms_crtc;
kms_crtc = drmModeGetCrtc (kms_fd, crtc->crtc_id);
*size = kms_crtc->gamma_size;
*red = g_new (unsigned short, *size);
*green = g_new (unsigned short, *size);
*blue = g_new (unsigned short, *size);
drmModeCrtcGetGamma (kms_fd, crtc->crtc_id, *size, *red, *green, *blue);
drmModeFreeCrtc (kms_crtc);
}
static void
meta_monitor_manager_kms_set_crtc_gamma (MetaMonitorManager *manager,
MetaCrtc *crtc,
gsize size,
unsigned short *red,
unsigned short *green,
unsigned short *blue)
{
MetaGpu *gpu = meta_crtc_get_gpu (crtc);
int kms_fd = meta_gpu_kms_get_fd (META_GPU_KMS (gpu));
drmModeCrtcSetGamma (kms_fd, crtc->crtc_id, size, red, green, blue);
}
static void
handle_hotplug_event (MetaMonitorManager *manager)
{
meta_monitor_manager_read_current_state (manager);
meta_monitor_manager_on_hotplug (manager);
}
static void
handle_gpu_hotplug (MetaMonitorManagerKms *manager_kms,
GUdevDevice *device)
{
MetaMonitorManager *manager = META_MONITOR_MANAGER (manager_kms);
g_autoptr (GError) error = NULL;
const char *gpu_path;
MetaGpuKms *gpu_kms;
GList *gpus, *l;
gpu_path = g_udev_device_get_device_file (device);
gpus = meta_monitor_manager_get_gpus (manager);
for (l = gpus; l; l = l->next)
{
MetaGpuKms *gpu_kms = l->data;
if (!g_strcmp0 (gpu_path, meta_gpu_kms_get_file_path (gpu_kms)))
{
g_warning ("Failed to hotplug secondary gpu '%s': %s",
gpu_path, "device already present");
return;
}
}
gpu_kms = meta_gpu_kms_new (manager_kms, gpu_path,
META_GPU_KMS_FLAG_NONE, &error);
if (!gpu_kms)
{
g_warning ("Failed to hotplug secondary gpu '%s': %s",
gpu_path, error->message);
return;
}
meta_monitor_manager_add_gpu (manager, META_GPU (gpu_kms));
g_signal_emit (manager_kms, signals[GPU_ADDED], 0, gpu_kms);
}
static void
on_uevent (GUdevClient *client,
const char *action,
GUdevDevice *device,
gpointer user_data)
{
MetaMonitorManagerKms *manager_kms = META_MONITOR_MANAGER_KMS (user_data);
MetaMonitorManager *manager = META_MONITOR_MANAGER (manager_kms);
if (g_str_equal (action, "add") &&
g_udev_device_get_device_file (device) != NULL)
{
MetaBackend *backend = meta_monitor_manager_get_backend (manager);
MetaBackendNative *backend_native = META_BACKEND_NATIVE (backend);
MetaLauncher *launcher = meta_backend_native_get_launcher (backend_native);
const char *device_seat;
const char *seat_id;
device_seat = g_udev_device_get_property (device, "ID_SEAT");
seat_id = meta_launcher_get_seat_id (launcher);
if (!device_seat)
device_seat = "seat0";
if (!g_strcmp0 (seat_id, device_seat))
handle_gpu_hotplug (manager_kms, device);
}
if (!g_udev_device_get_property_as_boolean (device, "HOTPLUG"))
return;
handle_hotplug_event (manager);
}
static void
meta_monitor_manager_kms_connect_uevent_handler (MetaMonitorManagerKms *manager_kms)
{
manager_kms->uevent_handler_id = g_signal_connect (manager_kms->udev,
"uevent",
G_CALLBACK (on_uevent),
manager_kms);
}
static void
meta_monitor_manager_kms_disconnect_uevent_handler (MetaMonitorManagerKms *manager_kms)
{
g_signal_handler_disconnect (manager_kms->udev,
manager_kms->uevent_handler_id);
manager_kms->uevent_handler_id = 0;
}
void
meta_monitor_manager_kms_pause (MetaMonitorManagerKms *manager_kms)
{
meta_monitor_manager_kms_disconnect_uevent_handler (manager_kms);
}
void
meta_monitor_manager_kms_resume (MetaMonitorManagerKms *manager_kms)
{
MetaMonitorManager *manager = META_MONITOR_MANAGER (manager_kms);
meta_monitor_manager_kms_connect_uevent_handler (manager_kms);
handle_hotplug_event (manager);
}
static gboolean
meta_monitor_manager_kms_is_transform_handled (MetaMonitorManager *manager,
MetaCrtc *crtc,
MetaMonitorTransform transform)
{
return meta_crtc_kms_is_transform_handled (crtc, transform);
}
static float
meta_monitor_manager_kms_calculate_monitor_mode_scale (MetaMonitorManager *manager,
MetaMonitor *monitor,
MetaMonitorMode *monitor_mode)
{
return meta_monitor_calculate_mode_scale (monitor, monitor_mode);
}
static float *
meta_monitor_manager_kms_calculate_supported_scales (MetaMonitorManager *manager,
MetaLogicalMonitorLayoutMode layout_mode,
MetaMonitor *monitor,
MetaMonitorMode *monitor_mode,
int *n_supported_scales)
{
MetaMonitorScalesConstraint constraints =
META_MONITOR_SCALES_CONSTRAINT_NONE;
switch (layout_mode)
{
case META_LOGICAL_MONITOR_LAYOUT_MODE_LOGICAL:
break;
case META_LOGICAL_MONITOR_LAYOUT_MODE_PHYSICAL:
constraints |= META_MONITOR_SCALES_CONSTRAINT_NO_FRAC;
break;
}
return meta_monitor_calculate_supported_scales (monitor, monitor_mode,
constraints,
n_supported_scales);
}
static MetaMonitorManagerCapability
meta_monitor_manager_kms_get_capabilities (MetaMonitorManager *manager)
{
MetaBackend *backend = meta_monitor_manager_get_backend (manager);
MetaSettings *settings = meta_backend_get_settings (backend);
MetaRenderer *renderer = meta_backend_get_renderer (backend);
MetaRendererNative *renderer_native = META_RENDERER_NATIVE (renderer);
MetaMonitorManagerCapability capabilities =
META_MONITOR_MANAGER_CAPABILITY_NONE;
if (meta_settings_is_experimental_feature_enabled (
settings,
META_EXPERIMENTAL_FEATURE_SCALE_MONITOR_FRAMEBUFFER))
capabilities |= META_MONITOR_MANAGER_CAPABILITY_LAYOUT_MODE;
if (meta_renderer_native_supports_mirroring (renderer_native))
capabilities |= META_MONITOR_MANAGER_CAPABILITY_MIRRORING;
return capabilities;
}
static gboolean
meta_monitor_manager_kms_get_max_screen_size (MetaMonitorManager *manager,
int *max_width,
int *max_height)
{
return FALSE;
}
static MetaLogicalMonitorLayoutMode
meta_monitor_manager_kms_get_default_layout_mode (MetaMonitorManager *manager)
{
MetaBackend *backend = meta_monitor_manager_get_backend (manager);
MetaSettings *settings = meta_backend_get_settings (backend);
if (meta_settings_is_experimental_feature_enabled (
settings,
META_EXPERIMENTAL_FEATURE_SCALE_MONITOR_FRAMEBUFFER))
return META_LOGICAL_MONITOR_LAYOUT_MODE_LOGICAL;
else
return META_LOGICAL_MONITOR_LAYOUT_MODE_PHYSICAL;
}
static gboolean
init_gpus (MetaMonitorManagerKms *manager_kms,
GError **error)
{
MetaMonitorManager *manager = META_MONITOR_MANAGER (manager_kms);
MetaBackend *backend = meta_monitor_manager_get_backend (manager);
MetaBackendNative *backend_native = META_BACKEND_NATIVE (backend);
MetaLauncher *launcher = meta_backend_native_get_launcher (backend_native);
g_autoptr (GUdevEnumerator) enumerator = NULL;
const char *seat_id;
GList *devices;
GList *l;
MetaGpuKmsFlag flags = META_GPU_KMS_FLAG_NONE;
enumerator = g_udev_enumerator_new (manager_kms->udev);
g_udev_enumerator_add_match_name (enumerator, "card*");
g_udev_enumerator_add_match_tag (enumerator, "seat");
/*
* We need to explicitly match the subsystem for now.
* https://bugzilla.gnome.org/show_bug.cgi?id=773224
*/
g_udev_enumerator_add_match_subsystem (enumerator, "drm");
devices = g_udev_enumerator_execute (enumerator);
if (!devices)
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_NOT_FOUND,
"No GPUs found with udev");
return FALSE;
}
seat_id = meta_launcher_get_seat_id (launcher);
for (l = devices; l; l = l->next)
{
GUdevDevice *dev = l->data;
MetaGpuKms *gpu_kms;
g_autoptr (GUdevDevice) platform_device = NULL;
g_autoptr (GUdevDevice) pci_device = NULL;
const char *device_path;
const char *device_type;
const char *device_seat;
GError *local_error = NULL;
/* Filter out devices that are not character device, like card0-VGA-1. */
if (g_udev_device_get_device_type (dev) != G_UDEV_DEVICE_TYPE_CHAR)
continue;
device_type = g_udev_device_get_property (dev, "DEVTYPE");
if (g_strcmp0 (device_type, DRM_CARD_UDEV_DEVICE_TYPE) != 0)
continue;
device_path = g_udev_device_get_device_file (dev);
device_seat = g_udev_device_get_property (dev, "ID_SEAT");
if (!device_seat)
{
/* When ID_SEAT is not set, it means seat0. */
device_seat = "seat0";
}
/* Skip devices that do not belong to our seat. */
if (g_strcmp0 (seat_id, device_seat))
continue;
platform_device = g_udev_device_get_parent_with_subsystem (dev,
"platform",
NULL);
if (platform_device != NULL)
flags |= META_GPU_KMS_FLAG_PLATFORM_DEVICE;
pci_device = g_udev_device_get_parent_with_subsystem (dev, "pci", NULL);
if (pci_device != NULL)
{
if (g_udev_device_get_sysfs_attr_as_int (pci_device,
"boot_vga") == 1)
flags |= META_GPU_KMS_FLAG_BOOT_VGA;
}
gpu_kms = meta_gpu_kms_new (manager_kms, device_path, flags,
&local_error);
if (!gpu_kms)
{
g_warning ("Failed to open gpu '%s': %s",
device_path, local_error->message);
g_clear_error (&local_error);
continue;
}
meta_monitor_manager_add_gpu (manager, META_GPU (gpu_kms));
}
g_list_free_full (devices, g_object_unref);
if (!meta_monitor_manager_get_gpus (manager))
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_NOT_FOUND,
"No GPUs found");
return FALSE;
}
return TRUE;
}
static gboolean
meta_monitor_manager_kms_initable_init (GInitable *initable,
GCancellable *cancellable,
GError **error)
{
MetaMonitorManagerKms *manager_kms = META_MONITOR_MANAGER_KMS (initable);
MetaMonitorManager *manager = META_MONITOR_MANAGER (manager_kms);
const char *subsystems[2] = { "drm", NULL };
GList *l;
gboolean can_have_outputs;
manager_kms->udev = g_udev_client_new (subsystems);
meta_monitor_manager_kms_connect_uevent_handler (manager_kms);
if (!init_gpus (manager_kms, error))
{
return FALSE;
}
can_have_outputs = FALSE;
for (l = meta_monitor_manager_get_gpus (manager); l; l = l->next)
{
MetaGpuKms *gpu_kms = l->data;
if (meta_gpu_kms_can_have_outputs (gpu_kms))
{
can_have_outputs = TRUE;
break;
}
}
if (!can_have_outputs)
{
g_set_error (error, G_IO_ERROR, G_IO_ERROR_NOT_FOUND,
"No GPUs with outputs found");
return FALSE;
}
return TRUE;
}
static void
initable_iface_init (GInitableIface *initable_iface)
{
initable_iface->init = meta_monitor_manager_kms_initable_init;
}
static void
meta_monitor_manager_kms_dispose (GObject *object)
{
MetaMonitorManagerKms *manager_kms = META_MONITOR_MANAGER_KMS (object);
g_clear_object (&manager_kms->udev);
G_OBJECT_CLASS (meta_monitor_manager_kms_parent_class)->dispose (object);
}
static void
meta_monitor_manager_kms_init (MetaMonitorManagerKms *manager_kms)
{
}
static void
meta_monitor_manager_kms_class_init (MetaMonitorManagerKmsClass *klass)
{
MetaMonitorManagerClass *manager_class = META_MONITOR_MANAGER_CLASS (klass);
GObjectClass *object_class = G_OBJECT_CLASS (klass);
object_class->dispose = meta_monitor_manager_kms_dispose;
manager_class->read_edid = meta_monitor_manager_kms_read_edid;
manager_class->ensure_initial_config = meta_monitor_manager_kms_ensure_initial_config;
manager_class->apply_monitors_config = meta_monitor_manager_kms_apply_monitors_config;
manager_class->set_power_save_mode = meta_monitor_manager_kms_set_power_save_mode;
manager_class->get_crtc_gamma = meta_monitor_manager_kms_get_crtc_gamma;
manager_class->set_crtc_gamma = meta_monitor_manager_kms_set_crtc_gamma;
manager_class->is_transform_handled = meta_monitor_manager_kms_is_transform_handled;
manager_class->calculate_monitor_mode_scale = meta_monitor_manager_kms_calculate_monitor_mode_scale;
manager_class->calculate_supported_scales = meta_monitor_manager_kms_calculate_supported_scales;
manager_class->get_capabilities = meta_monitor_manager_kms_get_capabilities;
manager_class->get_max_screen_size = meta_monitor_manager_kms_get_max_screen_size;
manager_class->get_default_layout_mode = meta_monitor_manager_kms_get_default_layout_mode;
signals[GPU_ADDED] =
g_signal_new ("gpu-added",
G_TYPE_FROM_CLASS (object_class),
G_SIGNAL_RUN_LAST,
0,
NULL, NULL, NULL,
G_TYPE_NONE, 1, META_TYPE_GPU_KMS);
}