GUnixSocketAddress has some very strange logic for interpreting its
construct paramters. This logic behaves differently in these two cases:
g_object_new (G_TYPE_UNIX_SOCKET_ADDRESS,
"abstract", FALSE,
"address-type", ...,
NULL);
and
g_object_new (G_TYPE_UNIX_SOCKET_ADDRESS,
"address-type", ...,
NULL);
even though the default value for "abstract" is already FALSE.
Change the way the code works so that it is not sensitive to people
merely setting a property to its default value.
https://bugzilla.gnome.org/show_bug.cgi?id=698686
This reverts commit ddb0ce1421.
Colin's smoke testing has found issues in at least gjs and
gnome-settings-daemon. We'll need to see if we can address those.
GObject has previously allowed installing properties after class_init
has finished running. This means that you could install some of your
own properties on G_TYPE_OBJECT, for example, although they wouldn't
have worked properly.
Prevent this from happening. Require that all properties are installed by
the time class_init has finished.
Complaints go to this bug:
https://bugzilla.gnome.org/show_bug.cgi?id=698614
Classically, a GTypeInstance has had the following layout:
[[[[GTypeInstance] GObject] TypeA] TypeB] [TypeAPrivate] [TypeBPrivate]
where TypeB is a subclass of TypeA which is a GObject. Both TypeA and
TypeB use pivate data.
The main problem with this approach is that the offset between a pointer
to an instance of TypeA and the TypeAPrivate is not constant: it changes
depending on the depth of derivation and the size of the instance
structures of the derived types. For example, changing the size of the
TypeB structure in the above example would push the TypeAPrivate further
along.
This complicates the implementation of g_type_instance_get_private().
In particular, during object construction when the class pointer to the
'complete type' of the object is not yet stored in the header of the
GTypeInstance, we need a lookup table in order to be able to implement
g_type_instance_get_private() accurately.
We can avoid this problem by storing the private data before the
structures, in reverse order, like so:
[TypeBPrivate] [TypeAPrivate] [[[[GTypeInstance] GObject] TypeA] TypeB]
Now the distance between TypeA and TypeAPrivate depends only on the size
of GObject and GTypeInstance, which are static. Even in the case of
TypeB, the distance is not statically known but can be determined at
runtime and is constant (because we will know the size of TypeAPrivate
by the time we initialise TypeB and it won't change).
This approach requires a slighty dirty trick: allocating extra memory
_before_ the pointer we return from g_type_create_instance(). The main
problem with this is that it will cause valgrind to behave very badly,
reporting almost everything as "possibly lost".
We can correct for this by including a few valgrind client requests in
order to inform it that the start of the GTypeInstance should be
considered a block of memory and that pointers to it should mean that
this block is reachable. In order to make the private data reachable,
we also declare it as a block and include an extra pointer from the end
of the primary block pointing back at it. All of this is only done if
we are running under Valgrind.
https://bugzilla.gnome.org/show_bug.cgi?id=698595
All experienced GLib hackers know that G_SLICE=always-malloc is
absolutely essential when valgrinding but many users of GLib don't know
about this and get hit pretty hard when valgrinding their programs.
When initialising gslice, add a check to see if we are running under
valgrind and disable ourselves if we are.
We only do the check in the case that G_SLICE= was not specified in the
environment, so setting it to an empty string will prevent this default
behaviour.
I considered modifying gslice to use the VALGRIND_MALLOCLIKE_BLOCK
client request in all cases in order to just mark the blocks properly
but these calls are not free and gslice is pretty hyper-optimised. It's
easier to just disable gslice completely and this way we only have to do
one check during startup. It's also theoretically possible that someone
might want to use valgrind to debug gslice, in which case the extra
annotations would probably cause quite a lot of difficulty.
https://bugzilla.gnome.org/show_bug.cgi?id=698595
This is a BSD-licenced header file that is designed to be copy-pasted
into programs. It will allow us to detect if we are running under
Valgrind and send "client requests" to it.
We will use this for a couple of reasons in upcoming patches.
https://bugzilla.gnome.org/show_bug.cgi?id=698595
This function takes a GIcon, serialises it and sets the resulting
GVariant as the "icon" attribute on the menu item. We will need to add
a patch to Gtk to actually consume this icon.
Also add G_MENU_ATTRIBUTE_ICON.
https://bugzilla.gnome.org/show_bug.cgi?id=688820
Add support for serialising a GIcon to a GVariant and deserialising the
result back to a GIcon.
This solves a number of problems suffered by the existing to_string()
API, primarily these:
- not forcing the icon to be a utf8 string means that we can
efficiently encode a PNG (ie: just give the array of bytes)
- there is no need to ensure that proper types are loaded before using
the deserialisation interface. 'Foreign' icon types will probably
emit a serialised format the deserialises to a GBytesIcon.
We additionally clearly document what is required for being a consumer
or implementation of #GIcon.
Further patches will be required to GdkPixbuf and GVfsIcon to bring
their implementations in line with the new rules (essentially: introduce
implementations of the new serialize() API).
https://bugzilla.gnome.org/show_bug.cgi?id=688820
GBytesIcon is an icon that has a GBytes inside of it where the GBytes
contains some sort of encoded image in a widely-recognised file format.
Ideally this will be a PNG.
It implements GLoadableIcon, so GTK will already understand how to use
it, but we will add another patch there to make things more efficient.
https://bugzilla.gnome.org/show_bug.cgi?id=688820
Split out the 'simple string format' cases of URIs, file paths and
themed icons to a separate function.
This function will be shared by g_icon_deserialize().
https://bugzilla.gnome.org/show_bug.cgi?id=688820
Lots of people have variously asked for APIs like
g_variant_new_string_printf() in order to avoid having to use
g_strdup_printf(), create a GVariant using g_variant_new_string(), then
free the temporary string.
Instead of supporting that, plus a million other potential cases,
introduce g_variant_new_take_string() as a compromise.
It's not possible to write:
v = g_variant_new_take_string (g_strdup_printf (....));
to get the desired result and avoid the extra copies. In addition, it
works with many other functions.
https://bugzilla.gnome.org/show_bug.cgi?id=698455
In the *_async_thread() functions, call the corresponding synchronous
function instead of calling the interface vfunc, which can be NULL.
In some cases the check for the vfunc == NULL was done, but to be
consistent it is better to always call the synchronous version (and the
code is simpler).
https://bugzilla.gnome.org/show_bug.cgi?id=548353
Parsing wrongly-typed GVariant text format data is a well-defined
operation and it ought to result in a GError. We do that for most
cases, but 'v' and 'ay' were being treated differently. Fix those as
well.
set/endpwent are only required for iterating through passwd entries
using getpwent(). Since we are explicitly requesting a passwd entry
for a uid then the set/endpwent calls are redundant.
Removing these redundant calls is required for building on Android
since their C library doesn't implement these.
https://bugzilla.gnome.org/show_bug.cgi?id=645881
When unreffing a context with sources still attached, it would end up
unlocking an already-unlocked context, causing crashes on platforms
that (unlike Linux) actually check for that.
https://bugzilla.gnome.org/show_bug.cgi?id=697595