There is some bug somewhere where the geometry ends up being correct.
Mutter didn't handle this gracefully, and is to be changed to simply
respect the protocol and error out the client that sends bogus data.
Prepare for this by instead of sending bogus data, complain loudly if it
would happen dropping the invalid geometry on the floor instead of
sending it.
Related: https://gitlab.gnome.org/GNOME/mutter/-/issues/1527
Additionally to gtk_primary_selection, the gtk-private predecessor,
support the upstream unstable protocol.
This allows the primary selection to work on Kwin and potentially
other compositors, as well as dropping the private version eventually.
Closes https://gitlab.gnome.org/GNOME/gtk/-/issues/2591
When a fixed size is active (e.g. the window is maximized),
gtk_window_resize() shouldn't take immediate effect, so the request was
dropped. This made GTK unhappy if this happened, it will freeze updating
the window until it received the new size it demanded.
Handle this by being nice and emitting a dummy GDK_CONFIGURE event with
the old size where we previously ignored it. It won't resize the window
immediately, so it shouldn't have a visible effect, and the size GTK
requested is still saved away for when the window is unmaximized, but
emitting the event will make GTK receive the event it expects.
We still drop the request on the floor, e.g. if we still haven't seen
the initial configuration, just as we do when actually doing the resize.
Closes: https://gitlab.gnome.org/GNOME/gtk/-/issues/2907
When using the gdk_display_close(), the handle to the Wayland compositor was not released.
This could cause the consumption of all available handles, preventing other processes from accessing the display.
Fixing this by calling wl_display_disconnect() when releasing the GdkWaylandDisplay object.
Signed-off-by: Julien Ropé <jrope@redhat.com>
Handle both these settings, and the older settings-daemon ones for
backwards compatibility. The keys are already checked for existence
in the schema, so it will just use the existing ones.
Prefer this location, but also look for the old location in
settings-daemon for backwards compatibility. This applies to both
direct settings lookups and via the settings portal.
When a window receives a resize request, it might ignore this new size and
use the compositor's size hints instead to restore to floating mode.
This commit changes that behaviour in that a window will always prefer
the manually resized dimensions over the compositor's hint.
The included fribidi header is not used in gdkkeys-wayland.c and already
included in gdk.c which causes linker issues due to the header defining
a global variable.
If the tablet gets removed/freed while there are pad events in flight,
we leave a dangling pointer from the pad to the tablet, which may
lead to invalid reads/writes when handling the pad event(s).
Fixes: https://gitlab.gnome.org/GNOME/gtk/-/issues/2748
This means it'll always be as up to date GdkWindow::width/height. We
still skip the resize for non-configured windows though, to avoid
mapping with the wrong size.
The commit f06ee688fe also accidentally
removed the unconfigured size setting completely, so this essentially
adds it back, but always sets it.
Closes: https://gitlab.gnome.org/GNOME/gtk/-/issues/2582
So now we essentially only inhibit the premature resize for toplevel
windows, where it is most crucial. For popups, this didn't work for two
reasons: we relied on the owner of the popup (application) to resize
according to the configured size. For custom popup operators like
Epiphany and LibreOffice, this didn't work out well, since they simply
didn't.
Making gdk do it for them in case they didn't themself did make the
popups show up properly, but there were still some weirdness in
LibreOffice where tooltips didn't still didn't get the right size. So,
even though the size set by application may be different from the one
later configured by the display server, let the applications have their
way and see their resize result immediately. It's fairly likely to be
what they eventually get anyway.
Closes: https://gitlab.gnome.org/GNOME/gtk/-/issues/2583
Who knows who might use this for something, so lets make the
unconfigured size slightly more predictable. This doesn't fix anything
known to be broken though.
With the fixes from !1638, it shouldn't be possible for this to happen
any more. However, non-positive sizes make no sense regardless, so if
this does somehow happen, let's make sure *something* reasonable happens.
The practical result of this assertion being hit is that we emit a
critical warning and then behave the same as if !1634 had been merged,
which is known to solve the issue for the submitter.
Signed-off-by: Simon McVittie <smcv@debian.org>
We get the unconfigured size request either with or without the shadow
margin already configured, so to get some consistency with the 'saved
size', cut away any potential shadow margin from the size before
storing.
Then when using, add it back, so we always create a configure event with
the correct size.
Closes: https://gitlab.gnome.org/GNOME/gtk/-/issues/2576
There is no way for custom Wayland surfaces to get configure events, so an
initial configure event should not be required to resize a custom surface.
Fixes#2578.
When we `Alt+Tab` away from a GTK application, it loses keyboard focus.
If we don't clear the modifiers, events from other devices that we
receive while unfocused will assume `Alt` is still pressed. This results
in e.g. Firefox navigating through the history instead of scrolling the
page when using the mouse wheel on it.
We don't get any information about modifiers while we are missing
keyboard focus, so assuming no modifiers are active is the best we can
do.
The shell sends us a modifier update immediately before we regain
keyboard focus, so the state shouldn't get out of sync.
Fixes https://gitlab.gnome.org/GNOME/gtk/-/issues/2112
We're normally going from a fixed size to a floating state when we're
using the saved size, meaning we're practically always going towards a
state where the shadow margin will non-empty. However, if we don't
include any margin when creating a new configure request, we'll end up
resizing to a slightly smaller size as gtk will cut off the margin from
the configure request when changing the window widget size.
This wasn't visible when e.g. going from maximized to floating, as we'd
add the shadow margin at a later point, which would effectively "grow"
the widnow size, but when we're going from tiled to floating, we both
start and end with a non-empty shadow margin, meaning we'd shrink ever
so slightly every time going between tiled and floating.
We should never save a size when we're tiled, just as we shouldn't when
we're maximized. This fixes returning to the correct floating size after
having been tiled or maximized.
If a window is configured with a fixed size (it's tiled, maximized, or
fullscreen), ignore any resize call that doesn't respect this. The set
size will instead be saved, when appropriate, so that the new size is
used when e.g. unmaximizing.
This makes it possible to call 'gtk_window_resize()' while the window is
maximized, without the window actually changing size until it's
unmaximized. Changing size to a non-maximized size is a violation of the
xdg-shell protocol.
An application may want to set a fallback size of a window while still
mapping maximized. This is done by calling gtk_window_resize() before
gtk_window_maximize() and before gtk_window_show(). When the window is
mapped, it should have a maximized size, and if it eventually is
unmaximized, it should fall back to the size from the earlier
gtk_window_resize() call.
What happens before this commit is that the initial window size ends up
respecting the first gtk_window_resize() dimensions, and not the window
dimension configured by the Wayland display server (i.e. maximized
dimensions).
Fix this by postponing any configure events until we received our
configuration from the display server. If we got one with a fixed size
(e.g. we're maximized, tiled etc), we use that, otherwise we look at the
one that was previously configured by gtk which corresponds to the
"preferred" size when not being maximized.
This fixes Firefox being started in a maximized state when using the
Wayland backend.
Closes: https://gitlab.gnome.org/GNOME/gtk/-/issues/2538
If NULL is returned, probably the client shouldn't advertise the
mimetype. Make it sure we forget entirely about the attempt to
cache this mimetype, as it'll be mistaken as pending otherwise.
Dropping this cached selection will in consequence close the fd
of all pending readers, which seems appropriate for NULL content.
https://gitlab.gnome.org/GNOME/gtk/issues/2456
The only way to have G_IO_ERROR_CANCELLED in the write callback
goes through having the array of pending writers already cleared.
It should not access the invalid AsyncWriteData and StoredSelection
in that case.
Cache separately the selection contents for each given window/selection/atom
combination, and keep the requestors separate for each of those.
This allows us to incrementally request multiple mimetypes, and dispatch
the requestors as soon as the data is up. This stored selection content is
cached until the selection owner changes, at which point all pending readers
could get their transfers cancelled, and the stored content for the selection
forgotten.
On Wayland, opening and closing a `GdkDisplay` generates a coupe of
warnings at runtime:
```
GLib-GObject-WARNING **:
invalid cast from 'GdkWindowImplWayland' to 'GdkWindow'
GLib-GObject-WARNING **:
invalid cast from 'GdkWaylandWindow' to 'GdkWindowImplWayland'
```
This is from `gdk_window_impl_wayland_finalize()` which tries to cast
the given GObject to a `GdkWindow` while it's a `GdkWindowImplWayland`.
Use the correct type casting of objects to avoid the warnings.
The sed -i flag is non-standard, and may not be available in all
implementations.
The meson build already requires wayland >= 1.14.91 and uses
private-code, so just do that in the autotools build as well.
We are interested in changing the owner window, so the upper bits know
that it is not this client who owns the selection. We are still not
interested in unsetting the selection desktop-wide though, so only avoid
emitting the relevant events then.
The same reasonings than in commit 7a891eeb6d apply otherwise.
This should just be called by the upper layers (and result in
wl_data_device.set_selection, etc). We should not trigger this within
the backend otherwise.
Related: https://gitlab.gnome.org/GNOME/mutter/issues/878
This should only be explicitly unset (face to the windowing) on
gdk_selection_owner_set() with a NULL window. Other circumstances
(eg. selection being taken over by another client) should just
trigger the SelectionClear event in GDK internally.
Related: https://gitlab.gnome.org/GNOME/mutter/issues/878
The event may end up freed after delivery, ensure to keep the data we need
in order to emit the matching emulated crossed event matching a proximity
event.
Closes: https://gitlab.gnome.org/GNOME/gtk/issues/2157
The code managing this accounting mixed seat and tablet output lists,
can't bode well. Fixes invalid reads on list elements, as there are
dangling pointers.
Closes: https://gitlab.gnome.org/GNOME/gtk/issues/2157
This reverts commit 6d545b6d03.
Reverting as this broke multi DPI systems, where a client is expected to
render at scale = 1 if it is only visible on a scale = 1 monitor.
Fixes: https://gitlab.gnome.org/GNOME/gtk/issues/2129
The xdg_output.done event is deprecated in xdg-output v3, so clients
need to rely on the wl_output.done event instead.
However, applying the changes on the fist wl_output.event when using
xdg-output v3 may lead to an incomplete change, as following xdg-output
updates may follow.
Make sure we apply xdg-output events on wl_output.done events with
xdg-output v3.
https://gitlab.gnome.org/GNOME/gtk/issues/2128