This does not have any behaviour changes but is cleaner. The mutex is
only unlocked now after all operations on the context are done and right
before freeing the mutex and the context itself.
Instead of destroying sources directly while freeing the context, and
potentially freeing them if this was the last reference to them, collect
new references of all sources in a separate list before and at the same
time invalidate their context so that they can't access it anymore. Only
once all sources have their context invalidated, destroy them while
still keeping a reference to them. Once all sources are destroyed we get
rid of the additional references and free them if nothing else keeps a
reference to them anymore.
This fixes a regression introduced by 26056558be in 2012.
The previous code that invalidated the context of each source and then
destroyed it before going to the next source without keeping an
additional reference caused memory leaks or memory corruption depending
on the order of the sources in the sources lists.
If a source was destroyed it might happen that this was the last
reference to this source, and it would then be freed. This would cause
the finalize function to be called, which might destroy and unref
another source and potentially free it. This other source would then
either
- go through the normal free logic and change the intern linked list
between the sources, while other sources that are unreffed as part of
the main context freeing would not. As such the list would be in an
inconsistent state and we might dereference freed memory.
- go through the normal destroy and free logic but because the context
pointer was already invalidated it would simply mark the source as
destroyed without actually removing it from the context. This would
then cause a memory leak because the reference owned by the context is
not freed.
Fixes https://github.com/gtk-rs/glib/issues/583 while still keeping
https://bugzilla.gnome.org/show_bug.cgi?id=661767 fixes.
We first have to ref the next source and then unref the previous one.
This might be the last reference to the previous source, and freeing the
previous source might unref and free the next one which would then leave
use with a dangling pointer here.
Fixes https://gitlab.gnome.org/GNOME/glib/issues/2031
The loops should continue iterating if the timeout is non-zero and we're
still waiting for the updated value. Otherwise, if things break, we'll
be waiting until we receive a value that never arrives.
If podman is used, as is usually the case on a Fedora Workstation
installation, make sure not to use "sudo" as that's not needed.
Also ask podman's backend (buildah) to create Docker compatible images
through an environment variable rather than a command-line argument.
See https://gitlab.gnome.org/GNOME/glib/merge_requests/1255
"gio info" output doesn't contain any information about mount points, but
that information can be useful when debugging issues in facilities that
depend on knowing about mount points, such as the trash API.
Signed-off-by: Simon McVittie <smcv@collabora.com>
Co-authored-by: Ondrej Holy <oholy@redhat.com>
Documentation says that g_file_peek_path() returns exactly the same
what g_file_get_path(), but this is not true. Apart from that the code
segfaults for some uris (e.g. for "trash:///"), it returns target-uri
for trash and recent schemes. This is unexpected and can lead to various
issues among others because the target-uri paths are not automatically
translated back to GDaemonFile as it is done with gvfsd-fuse paths.
g_file_get_path() returns NULL for trash and recent schemes, because
fuse paths are not provided for those schemes. So g_file_peek_path()
should return NULL as well. It is up to the concrete application to
use target-uri when appropriate.
This change was made as a part of commit 4808a957, however, neither
the commit message, neither the corresponding bug doesn't mention this
crucial change and doesn't give any clear reasoning. So let's revert
this.
The GMemoryMonitor interface uses G_DECLARE_INTERFACE, which provides a
typedef for the interface dummy type. We declare the same type inside
the global giotypes.h header, which leads to typedef redeclaration
warnings on toolchains that do not support—intentionally or not—the C11
feature of typedef redefinition.
While we do have a toolchain requirement for C11 typedef redefinitions
listed on our wiki, we also suspended it temporarily to allow users of
non-C11 compilers to work on newer versions of GLib; so, let's keep them
working a while longer.