Introduce a new DBus interface for display configuration

This new interface will be used by the control center and possibly
the settings daemon to configure the screens. It is designed to
resemble a simplified XRandR, while still exposing all the quirks
of the hardware, so that the panel can limit the user choices
appropriately.

To do so, MetaMonitorMode needs to track CRTCs, outputs and modes,
so the low level objects have been decoupled from the high-level
MetaMonitorInfo, which is used by core and API and offers a simplified
view of HW, that hides away the details of what is cloned and how.
This is still not efficient as it should be, because on every
HW change we drop all data structures and rebuild them from scratch
(which is not expensive because there aren't many of them, but
at least in the XRandR path it involves a few sync X calls)

https://bugzilla.gnome.org/show_bug.cgi?id=705670
This commit is contained in:
Giovanni Campagna 2013-07-19 14:39:28 +02:00 committed by Giovanni Campagna
parent 214f31257b
commit 3bb33d384f
6 changed files with 730 additions and 108 deletions

View File

@ -30,6 +30,7 @@ INCLUDES= \
-DGETTEXT_PACKAGE=\"$(GETTEXT_PACKAGE)\"
mutter_built_sources = \
$(dbus_xrandr_built_sources) \
mutter-enum-types.h \
mutter-enum-types.c
@ -325,3 +326,12 @@ mutter-enum-types.c: stamp-mutter-enum-types.h mutter-enum-types.c.in
$(libmutterinclude_base_headers) ) >> xgen-tetc && \
cp xgen-tetc mutter-enum-types.c && \
rm -f xgen-tetc
dbus_xrandr_built_sources = meta-dbus-xrandr.c meta-dbus-xrandr.h
$(dbus_xrandr_built_sources) : Makefile.am xrandr.xml
$(AM_V_GEN)gdbus-codegen \
--interface-prefix org.gnome.Mutter \
--c-namespace MetaDBus \
--generate-c-code meta-dbus-xrandr \
xrandr.xml

View File

@ -37,35 +37,99 @@
#ifndef META_MONITOR_PRIVATE_H
#define META_MONITOR_PRIVATE_H
#include <cogl/cogl.h>
#include "display-private.h"
#include <meta/screen.h>
#include "stack-tracker.h"
#include "ui.h"
#include <cogl/cogl.h>
typedef struct _MetaOutput MetaOutput;
typedef struct _MetaCRTC MetaCRTC;
typedef struct _MetaMonitorMode MetaMonitorMode;
typedef struct _MetaMonitorInfo MetaMonitorInfo;
struct _MetaOutput
{
MetaMonitorInfo *monitor;
/* The CRTC driving this output, NULL if the output is not enabled */
MetaCRTC *crtc;
/* The low-level ID of this output, used to apply back configuration */
glong output_id;
char *name;
char *vendor;
char *product;
char *serial;
int width_mm;
int height_mm;
CoglSubpixelOrder subpixel_order;
MetaMonitorMode *preferred_mode;
MetaMonitorMode **modes;
unsigned int n_modes;
MetaCRTC **possible_crtcs;
unsigned int n_possible_crtcs;
/* The low-level bits used to build the high-level info
in MetaMonitorInfo
XXX: flags maybe?
There is a lot of code that uses MonitorInfo->is_primary,
but nobody uses MetaOutput yet
*/
gboolean is_primary;
gboolean is_presentation;
};
struct _MetaCRTC
{
glong crtc_id;
MetaRectangle rect;
MetaMonitorMode *current_mode;
/* Only used to build the logical configuration
from the HW one
*/
MetaMonitorInfo *logical_monitor;
};
struct _MetaMonitorMode
{
/* The low-level ID of this mode, used to apply back configuration */
glong mode_id;
int width;
int height;
float refresh_rate;
};
/**
* MetaMonitorInfo:
*
* A structure with high-level information about monitors.
* This corresponds to a subset of the compositor coordinate space.
* Clones are only reported once, irrespective of the way
* they're implemented (two CRTCs configured for the same
* coordinates or one CRTCs driving two outputs). Inactive CRTCs
* are ignored, and so are disabled outputs.
*/
struct _MetaMonitorInfo
{
int number;
int xinerama_index;
MetaRectangle rect;
gboolean is_primary;
gboolean is_presentation; /* XXX: not yet used */
gboolean in_fullscreen;
float refresh_rate;
/* The primary or first output for this crtc, 0 if we can't figure out. */
/* The primary or first output for this monitor, 0 if we can't figure out.
It can be matched to an output_id of a MetaOutput.
This is used as an opaque token on reconfiguration when switching from
clone to extened, to decide on what output the windows should go next
(it's an attempt to keep windows on the same monitor, and preferably on
the primary one).
*/
glong output_id;
};

View File

@ -27,33 +27,56 @@
#include "config.h"
#include <string.h>
#include <math.h>
#include <clutter/clutter.h>
#ifdef HAVE_RANDR
#include <X11/extensions/Xrandr.h>
#endif
#include <meta/main.h>
#include <meta/util.h>
#include "monitor-private.h"
#include "meta-dbus-xrandr.h"
struct _MetaMonitorManager
{
GObject parent_instance;
/* Outputs refers to physical screens,
while monitor_infos refer to logical ones (aka CRTC)
They can be different if two outputs are
in clone mode
/* XXX: this structure is very badly
packed, but I like the logical organization
of fields */
unsigned int serial;
/* Outputs refer to physical screens,
CRTCs refer to stuff that can drive outputs
(like encoders, but less tied to the HW),
while monitor_infos refer to logical ones.
See also the comment in monitor-private.h
*/
MetaOutput *outputs;
int primary_monitor_index;
int n_outputs;
unsigned int n_outputs;
MetaMonitorMode *modes;
unsigned int n_modes;
MetaCRTC *crtcs;
unsigned int n_crtcs;
MetaMonitorInfo *monitor_infos;
int n_monitor_infos;
unsigned int n_monitor_infos;
int primary_monitor_index;
#ifdef HAVE_RANDR
Display *xdisplay;
#endif
int dbus_name_id;
MetaDBusDisplayConfig *skeleton;
};
struct _MetaMonitorManagerClass
@ -73,144 +96,193 @@ G_DEFINE_TYPE (MetaMonitorManager, meta_monitor_manager, G_TYPE_OBJECT);
static void
make_dummy_monitor_config (MetaMonitorManager *manager)
{
manager->monitor_infos = g_new0 (MetaMonitorInfo, 1);
manager->n_monitor_infos = 1;
manager->modes = g_new0 (MetaMonitorMode, 1);
manager->n_modes = 1;
manager->monitor_infos[0].number = 0;
manager->monitor_infos[0].xinerama_index = 0;
manager->monitor_infos[0].rect.x = 0;
manager->monitor_infos[0].rect.y = 0;
manager->modes[0].mode_id = 1;
if (manager->xdisplay)
{
Screen *screen = ScreenOfDisplay (manager->xdisplay,
DefaultScreen (manager->xdisplay));
manager->monitor_infos[0].rect.width = WidthOfScreen (screen);
manager->monitor_infos[0].rect.height = HeightOfScreen (screen);
manager->modes[0].width = WidthOfScreen (screen);
manager->modes[0].height = HeightOfScreen (screen);
}
else
{
manager->monitor_infos[0].rect.width = 1024;
manager->monitor_infos[0].rect.height = 768;
manager->modes[0].width = 1024;
manager->modes[0].height = 768;
}
manager->monitor_infos[0].refresh_rate = 60.0f;
manager->monitor_infos[0].is_primary = TRUE;
manager->monitor_infos[0].in_fullscreen = -1;
manager->monitor_infos[0].output_id = 1;
manager->modes[0].refresh_rate = 60.0;
manager->crtcs = g_new0 (MetaCRTC, 1);
manager->n_crtcs = 1;
manager->crtcs[0].crtc_id = 2;
manager->crtcs[0].rect.x = 0;
manager->crtcs[0].rect.y = 0;
manager->crtcs[0].rect.width = manager->modes[0].width;
manager->crtcs[0].rect.height = manager->modes[0].height;
manager->crtcs[0].current_mode = &manager->modes[0];
manager->outputs = g_new0 (MetaOutput, 1);
manager->n_outputs = 1;
manager->outputs[0].monitor = &manager->monitor_infos[0];
manager->outputs[0].crtc = &manager->crtcs[0];
manager->outputs[0].output_id = 3;
manager->outputs[0].name = g_strdup ("LVDS");
manager->outputs[0].vendor = g_strdup ("unknown");
manager->outputs[0].product = g_strdup ("unknown");
manager->outputs[0].serial = g_strdup ("");
manager->outputs[0].width_mm = 222;
manager->outputs[0].height_mm = 125;
manager->outputs[0].subpixel_order = COGL_SUBPIXEL_ORDER_UNKNOWN;
manager->outputs[0].preferred_mode = &manager->modes[0];
manager->outputs[0].n_modes = 1;
manager->outputs[0].modes = g_new0 (MetaMonitorMode *, 1);
manager->outputs[0].modes[0] = &manager->modes[0];
manager->outputs[0].n_possible_crtcs = 1;
manager->outputs[0].possible_crtcs = g_new0 (MetaCRTC *, 1);
manager->outputs[0].possible_crtcs[0] = &manager->crtcs[0];
}
#ifdef HAVE_RANDR
/* In the case of multiple outputs of a single crtc (mirroring), we consider one of the
* outputs the "main". This is the one we consider "owning" the windows, so if
* the mirroring is changed to a dual monitor setup then the windows are moved to the
* crtc that now has that main output. If one of the outputs is the primary that is
* always the main, otherwise we just use the first.
*/
static void
find_main_output_for_crtc (MetaMonitorManager *manager,
XRRScreenResources *resources,
XRRCrtcInfo *crtc,
MetaMonitorInfo *info,
GArray *outputs)
{
XRROutputInfo *output;
RROutput primary_output;
int i;
primary_output = XRRGetOutputPrimary (manager->xdisplay,
DefaultRootWindow (manager->xdisplay));
for (i = 0; i < crtc->noutput; i++)
{
output = XRRGetOutputInfo (manager->xdisplay, resources, crtc->outputs[i]);
if (output->connection != RR_Disconnected)
{
MetaOutput meta_output;
meta_output.name = g_strdup (output->name);
meta_output.width_mm = output->mm_width;
meta_output.height_mm = output->mm_height;
meta_output.subpixel_order = COGL_SUBPIXEL_ORDER_UNKNOWN;
g_array_append_val (outputs, meta_output);
if (crtc->outputs[i] == primary_output)
{
info->output_id = crtc->outputs[i];
info->is_primary = TRUE;
manager->primary_monitor_index = info->number;
}
else if (info->output_id == 0)
{
info->output_id = crtc->outputs[i];
}
}
XRRFreeOutputInfo (output);
}
}
static void
read_monitor_infos_from_xrandr (MetaMonitorManager *manager)
{
XRRScreenResources *resources;
GArray *outputs;
int i, j;
RROutput primary_output;
unsigned int i, j, k;
unsigned int n_actual_outputs;
resources = XRRGetScreenResourcesCurrent (manager->xdisplay,
DefaultRootWindow (manager->xdisplay));
if (!resources)
return make_dummy_monitor_config (manager);
outputs = g_array_new (FALSE, TRUE, sizeof (MetaOutput));
manager->n_outputs = resources->noutput;
manager->n_crtcs = resources->ncrtc;
manager->n_modes = resources->nmode;
manager->outputs = g_new0 (MetaOutput, manager->n_outputs);
manager->modes = g_new0 (MetaMonitorMode, manager->n_modes);
manager->crtcs = g_new0 (MetaCRTC, manager->n_crtcs);
manager->n_outputs = 0;
manager->n_monitor_infos = resources->ncrtc;
for (i = 0; i < (unsigned)resources->nmode; i++)
{
XRRModeInfo *xmode = &resources->modes[i];
MetaMonitorMode *mode;
manager->monitor_infos = g_new0 (MetaMonitorInfo, manager->n_monitor_infos);
mode = &manager->modes[i];
for (i = 0; i < resources->ncrtc; i++)
mode->mode_id = xmode->id;
mode->width = xmode->width;
mode->height = xmode->height;
mode->refresh_rate = (xmode->dotClock /
((float)xmode->hTotal * xmode->vTotal));
}
for (i = 0; i < (unsigned)resources->ncrtc; i++)
{
XRRCrtcInfo *crtc;
MetaMonitorInfo *info;
MetaCRTC *meta_crtc;
crtc = XRRGetCrtcInfo (manager->xdisplay, resources, resources->crtcs[i]);
info = &manager->monitor_infos[i];
meta_crtc = &manager->crtcs[i];
info->number = i;
info->rect.x = crtc->x;
info->rect.y = crtc->y;
info->rect.width = crtc->width;
info->rect.height = crtc->height;
info->in_fullscreen = -1;
meta_crtc->crtc_id = resources->crtcs[i];
meta_crtc->rect.x = crtc->x;
meta_crtc->rect.y = crtc->y;
meta_crtc->rect.width = crtc->width;
meta_crtc->rect.height = crtc->height;
for (j = 0; j < resources->nmode; j++)
for (j = 0; j < (unsigned)resources->nmode; j++)
{
if (resources->modes[j].id == crtc->mode)
info->refresh_rate = (resources->modes[j].dotClock /
((float)resources->modes[j].hTotal *
resources->modes[j].vTotal));
{
meta_crtc->current_mode = &manager->modes[j];
break;
}
}
find_main_output_for_crtc (manager, resources, crtc, info, outputs);
XRRFreeCrtcInfo (crtc);
}
manager->n_outputs = outputs->len;
manager->outputs = (void*)g_array_free (outputs, FALSE);
primary_output = XRRGetOutputPrimary (manager->xdisplay,
DefaultRootWindow (manager->xdisplay));
n_actual_outputs = 0;
for (i = 0; i < (unsigned)resources->noutput; i++)
{
XRROutputInfo *output;
MetaOutput *meta_output;
output = XRRGetOutputInfo (manager->xdisplay, resources, resources->outputs[i]);
meta_output = &manager->outputs[n_actual_outputs];
if (output->connection != RR_Disconnected)
{
meta_output->output_id = resources->outputs[i];
meta_output->name = g_strdup (output->name);
/* FIXME: to fill useful values for these we need an EDID parser */
meta_output->vendor = g_strdup ("unknown");
meta_output->product = g_strdup ("unknown");
meta_output->serial = g_strdup ("");
meta_output->width_mm = output->mm_width;
meta_output->height_mm = output->mm_height;
meta_output->subpixel_order = COGL_SUBPIXEL_ORDER_UNKNOWN;
meta_output->n_modes = output->nmode;
meta_output->modes = g_new0 (MetaMonitorMode *, meta_output->n_modes);
for (j = 0; j < meta_output->n_modes; j++)
{
for (k = 0; k < manager->n_modes; k++)
{
if (output->modes[j] == (XID)manager->modes[k].mode_id)
{
meta_output->modes[j] = &manager->modes[k];
break;
}
}
}
meta_output->preferred_mode = meta_output->modes[0];
meta_output->n_possible_crtcs = output->ncrtc;
meta_output->possible_crtcs = g_new0 (MetaCRTC *, meta_output->n_possible_crtcs);
for (j = 0; j < (unsigned)output->ncrtc; j++)
{
for (k = 0; k < manager->n_crtcs; k++)
{
if ((XID)manager->crtcs[k].crtc_id == output->crtcs[j])
{
meta_output->possible_crtcs[j] = &manager->crtcs[k];
break;
}
}
}
meta_output->crtc = NULL;
for (j = 0; j < manager->n_crtcs; j++)
{
if ((XID)manager->crtcs[j].crtc_id == output->crtc)
{
meta_output->crtc = &manager->crtcs[j];
break;
}
}
meta_output->is_primary = ((XID)meta_output->output_id == primary_output);
meta_output->is_presentation = FALSE;
n_actual_outputs++;
}
XRRFreeOutputInfo (output);
}
manager->n_outputs = n_actual_outputs;
XRRFreeScreenResources (resources);
}
@ -234,9 +306,32 @@ meta_monitor_manager_init (MetaMonitorManager *manager)
{
}
static gboolean
make_debug_config (MetaMonitorManager *manager)
{
const char *env;
env = g_getenv ("META_DEBUG_MULTIMONITOR");
if (env == NULL)
return FALSE;
#ifdef HAVE_RANDR
if (strcmp (env, "xrandr") == 0)
read_monitor_infos_from_xrandr (manager);
else
#endif
make_dummy_monitor_config (manager);
return TRUE;
}
static void
read_current_config (MetaMonitorManager *manager)
{
if (make_debug_config (manager))
return;
if (has_dummy_output ())
return make_dummy_monitor_config (manager);
@ -245,6 +340,101 @@ read_current_config (MetaMonitorManager *manager)
#endif
}
/*
* make_logical_config:
*
* Turn outputs and CRTCs into logical MetaMonitorInfo,
* that will be used by the core and API layer (MetaScreen
* and friends)
*/
static void
make_logical_config (MetaMonitorManager *manager)
{
GArray *monitor_infos;
unsigned int i, j;
monitor_infos = g_array_sized_new (FALSE, TRUE, sizeof (MetaMonitorInfo),
manager->n_outputs);
/* Walk the list of MetaCRTCs, and build a MetaMonitorInfo
for each of them, unless they reference a rectangle that
is already there.
*/
for (i = 0; i < manager->n_crtcs; i++)
{
MetaCRTC *crtc = &manager->crtcs[i];
/* Ignore CRTCs not in use */
if (crtc->current_mode == NULL)
continue;
for (j = 0; j < monitor_infos->len; j++)
{
MetaMonitorInfo *info = &g_array_index (monitor_infos, MetaMonitorInfo, i);
if (meta_rectangle_equal (&crtc->rect,
&info->rect))
{
crtc->logical_monitor = info;
break;
}
}
if (crtc->logical_monitor == NULL)
{
MetaMonitorInfo info;
info.number = monitor_infos->len;
info.rect = crtc->rect;
info.is_primary = FALSE;
/* This starts true because we want
is_presentation only if all outputs are
marked as such (while for primary it's enough
that any is marked)
*/
info.is_presentation = TRUE;
info.in_fullscreen = -1;
info.output_id = 0;
g_array_append_val (monitor_infos, info);
crtc->logical_monitor = &g_array_index (monitor_infos, MetaMonitorInfo,
info.number);
}
}
/* Now walk the list of outputs applying extended properties (primary
and presentation)
*/
for (i = 0; i < manager->n_outputs; i++)
{
MetaOutput *output;
MetaMonitorInfo *info;
output = &manager->outputs[i];
/* Ignore outputs that are not active */
if (output->crtc == NULL)
continue;
/* We must have a logical monitor on every CRTC at this point */
g_assert (output->crtc->logical_monitor != NULL);
info = output->crtc->logical_monitor;
info->is_primary = info->is_primary || output->is_primary;
info->is_presentation = info->is_presentation && output->is_presentation;
if (output->is_primary || info->output_id == 0)
info->output_id = output->output_id;
if (info->is_primary)
manager->primary_monitor_index = info->number;
}
manager->n_monitor_infos = monitor_infos->len;
manager->monitor_infos = (void*)g_array_free (monitor_infos, FALSE);
}
static MetaMonitorManager *
meta_monitor_manager_new (Display *display)
{
@ -255,6 +445,7 @@ meta_monitor_manager_new (Display *display)
manager->xdisplay = display;
read_current_config (manager);
make_logical_config (manager);
return manager;
}
@ -265,7 +456,15 @@ free_output_array (MetaOutput *old_outputs,
int i;
for (i = 0; i < n_old_outputs; i++)
g_free (old_outputs[i].name);
{
g_free (old_outputs[i].name);
g_free (old_outputs[i].vendor);
g_free (old_outputs[i].product);
g_free (old_outputs[i].serial);
g_free (old_outputs[i].modes);
g_free (old_outputs[i].possible_crtcs);
}
g_free (old_outputs);
}
@ -276,15 +475,34 @@ meta_monitor_manager_finalize (GObject *object)
free_output_array (manager->outputs, manager->n_outputs);
g_free (manager->monitor_infos);
g_free (manager->modes);
g_free (manager->crtcs);
G_OBJECT_CLASS (meta_monitor_manager_parent_class)->finalize (object);
}
static void
meta_monitor_manager_dispose (GObject *object)
{
MetaMonitorManager *manager = META_MONITOR_MANAGER (object);
if (manager->dbus_name_id != 0)
{
g_bus_unown_name (manager->dbus_name_id);
manager->dbus_name_id = 0;
}
g_clear_object (&manager->skeleton);
G_OBJECT_CLASS (meta_monitor_manager_parent_class)->dispose (object);
}
static void
meta_monitor_manager_class_init (MetaMonitorManagerClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
object_class->dispose = meta_monitor_manager_dispose;
object_class->finalize = meta_monitor_manager_finalize;
signals[MONITORS_CHANGED] =
@ -296,20 +514,208 @@ meta_monitor_manager_class_init (MetaMonitorManagerClass *klass)
G_TYPE_NONE, 0);
}
static MetaMonitorManager *global_manager;
static const double known_diagonals[] = {
12.1,
13.3,
15.6
};
static char *
diagonal_to_str (double d)
{
unsigned int i;
for (i = 0; i < G_N_ELEMENTS (known_diagonals); i++)
{
double delta;
delta = fabs(known_diagonals[i] - d);
if (delta < 0.1)
return g_strdup_printf ("%0.1lf\"", known_diagonals[i]);
}
return g_strdup_printf ("%d\"", (int) (d + 0.5));
}
static char *
make_display_name (MetaOutput *output)
{
if (output->width_mm != -1 && output->height_mm != -1)
{
double d = sqrt (output->width_mm * output->width_mm +
output->height_mm * output->height_mm);
char *inches = diagonal_to_str (d / 25.4);
char *ret;
ret = g_strdup_printf ("%s %s", output->vendor, inches);
g_free (inches);
return ret;
}
else
{
return g_strdup (output->vendor);
}
}
static gboolean
handle_get_resources (MetaDBusDisplayConfig *skeleton,
GDBusMethodInvocation *invocation,
MetaMonitorManager *manager)
{
GVariantBuilder crtc_builder, output_builder, mode_builder;
unsigned int i, j;
g_variant_builder_init (&crtc_builder, G_VARIANT_TYPE ("a(uxiiiiiuaua{sv})"));
g_variant_builder_init (&output_builder, G_VARIANT_TYPE ("a(uxiausaua{sv})"));
g_variant_builder_init (&mode_builder, G_VARIANT_TYPE ("a(uxuud)"));
for (i = 0; i < manager->n_crtcs; i++)
{
MetaCRTC *crtc = &manager->crtcs[i];
GVariantBuilder transforms;
g_variant_builder_init (&transforms, G_VARIANT_TYPE ("au"));
g_variant_builder_add (&transforms, "u", 0); /* 0 = WL_OUTPUT_TRANSFORM_NORMAL */
g_variant_builder_add (&crtc_builder, "(uxiiiiiuaua{sv})",
i, /* ID */
crtc->crtc_id,
(int)crtc->rect.x,
(int)crtc->rect.y,
(int)crtc->rect.width,
(int)crtc->rect.height,
(int)(crtc->current_mode ? crtc->current_mode - manager->modes : -1),
0, /* 0 = WL_OUTPUT_TRANSFORM_NORMAL */
&transforms,
NULL /* properties */);
}
for (i = 0; i < manager->n_outputs; i++)
{
MetaOutput *output = &manager->outputs[i];
GVariantBuilder crtcs, modes, properties;
g_variant_builder_init (&crtcs, G_VARIANT_TYPE ("au"));
for (j = 0; j < output->n_possible_crtcs; j++)
g_variant_builder_add (&crtcs, "u",
(unsigned)(output->possible_crtcs[j] - manager->crtcs));
g_variant_builder_init (&modes, G_VARIANT_TYPE ("au"));
for (j = 0; j < output->n_modes; j++)
g_variant_builder_add (&modes, "u",
(unsigned)(output->modes[j] - manager->modes));
g_variant_builder_init (&properties, G_VARIANT_TYPE ("a{sv}"));
g_variant_builder_add (&properties, "{sv}", "vendor",
g_variant_new_string (output->vendor));
g_variant_builder_add (&properties, "{sv}", "product",
g_variant_new_string (output->product));
g_variant_builder_add (&properties, "{sv}", "serial",
g_variant_new_string (output->serial));
g_variant_builder_add (&properties, "{sv}", "display-name",
g_variant_new_take_string (make_display_name (output)));
g_variant_builder_add (&properties, "{sv}", "primary",
g_variant_new_boolean (output->is_primary));
g_variant_builder_add (&properties, "{sv}", "presentation",
g_variant_new_boolean (output->is_presentation));
g_variant_builder_add (&output_builder, "(uxiausaua{sv})",
i, /* ID */
output->output_id,
(int)(output->crtc ? output->crtc - manager->crtcs : -1),
&crtcs,
output->name,
&modes,
&properties);
}
for (i = 0; i < manager->n_modes; i++)
{
MetaMonitorMode *mode = &manager->modes[i];
g_variant_builder_add (&mode_builder, "(uxuud)",
i, /* ID */
mode->mode_id,
mode->width,
mode->height,
(double)mode->refresh_rate);
}
meta_dbus_display_config_complete_get_resources (skeleton,
invocation,
manager->serial,
g_variant_builder_end (&crtc_builder),
g_variant_builder_end (&output_builder),
g_variant_builder_end (&mode_builder));
return FALSE;
}
static void
on_bus_acquired (GDBusConnection *connection,
const char *name,
gpointer user_data)
{
MetaMonitorManager *manager = user_data;
manager->skeleton = META_DBUS_DISPLAY_CONFIG (meta_dbus_display_config_skeleton_new ());
g_signal_connect_object (manager->skeleton, "handle-get-resources",
G_CALLBACK (handle_get_resources), manager, 0);
g_dbus_interface_skeleton_export (G_DBUS_INTERFACE_SKELETON (manager->skeleton),
connection,
"/org/gnome/Mutter/DisplayConfig",
NULL);
}
static void
on_name_acquired (GDBusConnection *connection,
const char *name,
gpointer user_data)
{
meta_topic (META_DEBUG_DBUS, "Acquired name %s\n", name);
}
static void
on_name_lost (GDBusConnection *connection,
const char *name,
gpointer user_data)
{
meta_topic (META_DEBUG_DBUS, "Lost or failed to acquire name %s\n", name);
}
static void
initialize_dbus_interface (MetaMonitorManager *manager)
{
manager->dbus_name_id = g_bus_own_name (G_BUS_TYPE_SESSION,
"org.gnome.Mutter.DisplayConfig",
G_BUS_NAME_OWNER_FLAGS_ALLOW_REPLACEMENT |
(meta_get_replace_current_wm () ?
G_BUS_NAME_OWNER_FLAGS_REPLACE : 0),
on_bus_acquired,
on_name_acquired,
on_name_lost,
g_object_ref (manager),
g_object_unref);
}
static MetaMonitorManager *global_monitor_manager;
void
meta_monitor_manager_initialize (Display *display)
{
global_manager = meta_monitor_manager_new (display);
global_monitor_manager = meta_monitor_manager_new (display);
initialize_dbus_interface (global_monitor_manager);
}
MetaMonitorManager *
meta_monitor_manager_get (void)
{
g_assert (global_manager != NULL);
g_assert (global_monitor_manager != NULL);
return global_manager;
return global_monitor_manager;
}
MetaMonitorInfo *
@ -338,19 +744,27 @@ void
meta_monitor_manager_invalidate (MetaMonitorManager *manager)
{
MetaOutput *old_outputs;
MetaCRTC *old_crtcs;
MetaMonitorInfo *old_monitor_infos;
MetaMonitorMode *old_modes;
int n_old_outputs;
/* Save the old monitor infos, so they stay valid during the update */
/* Save the old structures, so they stay valid during the update */
old_outputs = manager->outputs;
n_old_outputs = manager->n_outputs;
old_monitor_infos = manager->monitor_infos;
old_modes = manager->modes;
old_crtcs = manager->crtcs;
manager->serial ++;
read_current_config (manager);
make_logical_config (manager);
g_signal_emit (manager, signals[MONITORS_CHANGED], 0);
g_free (old_monitor_infos);
free_output_array (old_outputs, n_old_outputs);
g_free (old_modes);
g_free (old_crtcs);
}

View File

@ -332,6 +332,8 @@ topic_name (MetaDebugTopic topic)
return "COMPOSITOR";
case META_DEBUG_EDGE_RESISTANCE:
return "EDGE_RESISTANCE";
case META_DEBUG_DBUS:
return "DBUS";
case META_DEBUG_VERBOSE:
return "VERBOSE";
}

View File

@ -100,7 +100,8 @@ typedef enum
META_DEBUG_RESIZING = 1 << 18,
META_DEBUG_SHAPES = 1 << 19,
META_DEBUG_COMPOSITOR = 1 << 20,
META_DEBUG_EDGE_RESISTANCE = 1 << 21
META_DEBUG_EDGE_RESISTANCE = 1 << 21,
META_DEBUG_DBUS = 1 << 22
} MetaDebugTopic;
void meta_topic_real (MetaDebugTopic topic,

131
src/xrandr.xml Normal file
View File

@ -0,0 +1,131 @@
<!DOCTYPE node PUBLIC
'-//freedesktop//DTD D-BUS Object Introspection 1.0//EN'
'http://www.freedesktop.org/standards/dbus/1.0/introspect.dtd'>
<node>
<!--
org.gnome.Mutter.DisplayConfig:
@short_description: display configuration interface
This interface is used by mutter and gnome-settings-daemon
to apply multiple monitor configuration.
-->
<interface name="org.gnome.Mutter.DisplayConfig">
<!--
GetResources:
@serial: configuration serial
@crtcs: available CRTCs
@outputs: available outputs
@modes: available modes
Retrieves the current layout of the hardware.
@serial is an unique identifier representing the current state
of the screen. It must be passed back to ApplyConfiguration()
and will be increased for every configuration change (so that
mutter can detect that the new configuration is based on old
state).
A CRTC (CRT controller) is a logical monitor, ie a portion
of the compositor coordinate space. It might correspond
to multiple monitors, when in clone mode, but not that
it is possible to implement clone mode also by setting different
CRTCs to the same coordinates.
The number of CRTCs represent the maximum number of monitors
that can be set to expand and it is a HW constraint; if more
monitors are connected, then necessarily some will clone. This
is complementary to the concept of the encoder (not exposed in
the API), which groups outputs that necessarily will show the
same image (again a HW constraint).
A CRTC is represented by a DBus structure with the following
layout:
* u ID: the ID in the API of this CRTC
* x winsys_id: the low-level ID of this CRTC (which might
be a XID, a KMS handle or something entirely
different)
* i x, y, width, height: the geometry of this CRTC
(might be invalid if the CRTC is not in
use)
* i current_mode: the current mode of the CRTC, or -1 if this
CRTC is not used
Note: the size of the mode will always correspond
to the width and height of the CRTC
* u current_transform: the current transform (espressed according
to the wayland protocol)
* au transforms: all possible transforms
* a{sv} properties: other high-level properties that affect this
CRTC; they are not necessarily reflected in
the hardware.
No property is specified in this version of the API.
FIXME: gamma?
Note: all geometry information refers to the untransformed
display.
An output represents a physical screen, connected somewhere to
the computer. Floating connectors are not exposed in the API.
An output is a DBus struct with the following fields:
* u ID: the ID in the API
* x winsys_id: the low-level ID of this output (XID or KMS handle)
* i current_crtc: the CRTC that is currently driving this output,
or -1 if the output is disabled
* au possible_crtcs: all CRTCs that can control this output
* s name: the name of the connector to which the output is attached
(like VGA1 or HDMI)
* au modes: valid modes for this output
* a{sv} properties: other high-level properties that affect this
output; they are not necessarily reflected in
the hardware.
Known properties:
- "vendor" (s): (readonly) the human readable name
of the manufacturer
- "product" (s): (readonly) the human readable name
of the display model
- "serial" (s): (readonly) the serial number of this
particular hardware part
- "display-name" (s): (readonly) a human readable name
of this output, to be shown in the UI
- "primary" (b): whether this output is primary
or not
- "presentation" (b): whether this output is
for presentation only
Note: properties might be ignored if not consistenly
applied to all outputs in the same clone group. In
general, it's expected that presentation or primary
outputs will not be cloned.
A mode represents a set of parameters that are applied to
each output, such as resolution and refresh rate. It is a separate
object so that it can be referenced by CRTCs and outputs.
Multiple outputs in the same CRTCs must all have the same mode.
A mode is exposed as:
* u ID: the ID in the API
* x winsys_id: the low-level ID of this mode
* u width, height: the resolution
* d frequency: refresh rate
Output and modes are read-only objects (except for output properties),
they can change only in accordance to HW changes (such as hotplugging
a monitor), while CRTCs can be changed with ApplyConfiguration().
XXX: actually, if you insist enough, you can add new modes
through xrandr command line or the KMS API, overriding what the
kernel driver and the EDID say.
Usually, it only matters with old cards with broken drivers, or
old monitors with broken EDIDs, but it happens more often with
projectors (if for example the kernel driver doesn't add the
640x480 - 800x600 - 1024x768 default modes). Probably something
that we need to handle in mutter anyway.
-->
<method name="GetResources">
<arg name="serial" direction="out" type="u" />
<arg name="crtcs" direction="out" type="a(uxiiiiiuaua{sv})" />
<arg name="outputs" direction="out" type="a(uxiausaua{sv})" />
<arg name="modes" direction="out" type="a(uxuud)" />
</method>
</interface>
</node>