With the move away from GTK3, and the indirect dependency on GTK4
grown in the GNOME Shell side, we've indirectly gotten a small sneaky
behavioral change: The GTK4 library will, right on dlopen, get
DESKTOP_AUTOSTART_ID for itself and delete it from the environment.
This happens before our own X11 session management code is
initialized, which confuses the hell out of it, into thinking
initialization is actually shutdown, gnome-session does not follow
along with this request, which leaves GNOME Shell into a confused
startup state where it never calls SmcSaveYourselfDone() and grinds
startup to a halt until gnome-session decides to move things forward.
In order to fix this, get the DESKTOP_AUTOSTART_ID before we lend
control to GNOME Shell bits and GTK4 is possibly initialized, and
feed it directly to our X11 session manager bits.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2906>
We might get told to restore the old monitor configuration by the
monitor configuration prompt, in case the user pressed "revert" or
equivalent. This might be in response to a button press, and those
happen during frame clock dispatch. If we would restore an old
configuration during dispatch, it means we would reconfigure the
monitors including their stage views while dispatching, which means we'd
destroy the frame clock while it's dispatching.
Doing that causes problems, as the frame clock isn't expecting to be
destroyed mid-function. Specifically,
We'd enter
clutter_frame_clock_dispatch (clutter-frame-clock.c:811)
frame_clock_source_dispatch (clutter-frame-clock.c:839)
g_main_dispatch (gmain.c:3454)
g_main_context_dispatch (gmain.c:4172)
g_main_context_iterate.constprop.0 (gmain.c:4248)
g_main_loop_run (gmain.c:4448)
meta_context_run_main_loop (meta-context.c:482)
main (main.c:663)
which would first call
_clutter_process_event (clutter-main.c:920)
_clutter_stage_process_queued_events (clutter-stage.c:757)
handle_frame_clock_before_frame (clutter-stage-view.c:1150)
which would emit e.g. a button event all the way to a button press
handler, which would e.g. deny the new configuration:
restore_previous_config (meta-monitor-manager.c:1931)
confirm_configuration (meta-monitor-manager.c:2866)
meta_monitor_manager_confirm_configuration (meta-monitor-manager.c:2880)
meta_plugin_complete_display_change (meta-plugin.c:172)
That would then regenerate the monitor configuration and stage view
layout, which would destroy the old stage view and frame clock.
meta_stage_native_rebuild_views (meta-stage-native.c:68)
meta_backend_native_update_screen_size (meta-backend-native.c:457)
meta_backend_sync_screen_size (meta-backend.c:266)
meta_backend_monitors_changed (meta-backend.c:337)
meta_monitor_manager_notify_monitors_changed (meta-monitor-manager.c:3595)
meta_monitor_manager_rebuild (meta-monitor-manager.c:3683)
meta_monitor_manager_native_apply_monitors_config (meta-monitor-manager-native.c:343)
meta_monitor_manager_apply_monitors_config (meta-monitor-manager.c:704)
After returning back to the original clutter_frame_clock_dispatch()
frame, various state in the frame clock will be gone and we'd crash.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2901>
Commit 7e9d9c7eb9 added new API to replace GTK for accelerator
parsing.
Unfortunately there is another case in gnome-shell, where we have
to get the label from the logical binding name rather than the
modifier+keysym combination.
Add another small method to cover that use case.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2899>
Normally, mutter implicitly allows a window being shown to take
focus. This is normally desired, except it steals input from
GNOME Shell self. Avoid focusing the just shown window in those
situations.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2878>
When a X11 application is started, typically what happens is:
- A startup notification token is created, with a _TIME%d suffix
- The application being spawned receives it through the environment
- (dbus piping, maybe)
- The application replies the startup notification token, and
fetches the timestamp from it
- The application makes a _NET_ACTIVE_WINDOW client message request
with this timestamp
- Mutter handles this client request and activates/focuses the window
Prevent this last step if windows are not interactable (e.g. there is
a compositor grab) and ignore the focus request. This specifically
applies to X11 clients requesting focus themselves, and unlike previous
approaches, doesn't try to prevent focus changes that do come through
interaction with Mutter/GNOME Shell.
This should only break if applications do not observe _NET_ACTIVE_WINDOW
and perform XSetInputFocus on themselves, but in that case the X11
keyboard focus is stolen from our hands already.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2878>
This is the mask that lets us receive among other events the rather
important CreateNotify, that tells us about new winows. This has went by
rather unnoticed except for cases where multiple windows show up very
quickly directly after the frames client spawned, because the drag icon
surface cache eventually already did select that particular mask.
Make things more reliably by explicitly setting the mask for the events
we rely on to function.
This fixes flaky stacking tests that map multiple X11 windows in a row.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2894>
2d8fa26c8e ("core: Pass "frame action" grab operations as an
"unconstrained" grab op") changed the behaviour to treat non-grab
related window moving that has the "user action" flag set to still apply
the "constrain_titlebar_visible" constraint.
The fact that it wasn't applied before was relied upon by some
extensions. While it should arguably exist a better API that for such
extensions to use that have a bit more predictable behavior, until that
is so, restore the old semantics.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2891>
Linear sampling can influence the value of surrounding pixels beyond
the scaled framebuffer extents calculated during stage view rendering,
resulting in flickering graphical artifacts due to unaccounted pixel
changes. This is exhibited in xfreerdp and wlfreerdp at 150% display
scaling.
Fix this by ensuring that all pixels that may be affected by linear
scaling is included in the framebuffer redraw clip by padding the actor
redraw clip.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2771>
We have the drm/InfoFrame encoding and our MetaOutputHdrMetadata
encoding. Check that we can correctly convert between each other by
doing a encode/decode and decode/encode roundtrip and then checking for
equality.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2879>
The existence of the KMS property just means that we can send an
InfoFrame but we also have to make sure the sink actually supports the
metadata type 1 and the selected transfer function.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2879>
Allows to prepare KMS updates to set the color space and HDR Static
Metadata on the output.
For some reason we need ALLOW_MODESET on commits which change the HDR
Static Metadata InfoFrame on AMDGPU. There is no technical reason why
one needs to mode set to send an InfoFrame and the driver should just
manage without ALLOW_MODESET. Until this is resolved in the kernel we
just prepare KMS updates which might mode set.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2879>
The HDR Static Metadata InfoFrame contents are described in CTA-861.3
and the kernel maintains a representation of that in `struct
hdr_metadata_infoframe` in `include/uapi/drm/drm_mode.h`.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2879>
The Colorspace property informs the display about the colorimetry of the
content. Only variants supported by the sink are exposed in the
property. The strings representing the color spaces are undocumented but
can be found in the `hdmi_colorspaces` list in
`drivers/gpu/drm/drm_connector.c` in the Linux kernel (v 6.2).
The HDR_OUTPUT_METADATA property is a blob with the InfoFrame content.
We have to query support for the different values in the struct from the
EDID/DisplayID ourselfs.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2879>
This adds a new 'experimental-hdr' string property to the MonitorManager
which can be changed from looking glass.
Currently when the string equals 'on', HDR (PQ, Rec2020) will be enabled
on all monitors which support it. In the future support for more
transfer functions and color spaces as well as HDR metadata can be
added.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2879>
The color space and HDR metadata are eventually sent as metadata to the
display. The color space informs the display of the colorimetry of the
frames we produce, the HDR metadata informs the display of the transfer
function and additional mastering display colorimetry and luminance to
guide tone and gamut mapping.
The only color spaces we support right now are the default color space
and Rec bt.2020 which is typically used for HDR content. Other supported
color spaces can be added when needed.
The default color space corresponds to whatever colorimetry the display
has when no further changes are made to the calibration of the display.
The colorimetry is communicated to sources via EDID/DisplayID.
Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/2879>
