This commit changes a comment in _g_dbus_worker_do_read_cb() to be
slightly more useful. At least in my experience debugging an
intermittent unit test failure in another project, this failure
condition occurred because although g_test_dbus_down() ensures that the
session GDBusConnection has exit-on-close set to FALSE before killing
its dbus-daemon, there was still a GDBusConnection on the system bus
which hit this failed read code path, because we had
DBUS_SYSTEM_BUS_ADDRESS set to the address of the #GTestDBus daemon, to
appease libudisks.
Also, make a few other minor improvements to the docs.
The two test scripts actually assumed some *NIX paradigms, so we need
to adapt them so that they can work on Windows as well, the changes are
namely:
-Call the glib-mkenums and glib-genmarshal Python scripts with the
Python interpreter, not just relying on shebang lines, on Windows.
This is because the native Windows console (cmd.exe) does not support
shebang lines, for subprocess.run().
-Use NamedTemporaryFile with delete=False, otherwise Windows cannot find
the temp files we need when running the tests.
-Use universal_newlines=True for subprocess.run() so that we do not need
to worry out line ending differences on different systems.
-Make sure we are not in the temp directories we create, where the tests
are being run, upon cleanup. Windows does not like deleting
directories that we are currently in.
On Windows and possibly other platforms the '%p' printf modifier does
not prefix printed values with '0x', so do not expect the warning
message to contain the '0x' prefix for the handler pointer value.
It is unclear that why the size of the buffer was chosen to be 100
because the commit introduced the code didn't mention the reason.
POSIX defines _POSIX_HOST_NAME_MAX to be 255 and provides a way to
determine the suitable value with sysconf, so we should use it instead
of hard-coding a small value.
The g_creat() call was done in *nix style in regards to the mode parameter,
which the Windows CRT isn't going to understand (nor like, on newer CRTs).
Update the program such that it will pass, by using Windows-style
permission mode parameters for g_creat(), on Windows.
On Windows, everything is assumed as UTF-8 in g_get_filename_charsets(),
so setting G_FILENAME_ENCODING envvar has no effect, so we can just skip
the test on g_get_filename_charsets() where we try to influence it by
setting the G_FILENAME_ENCODING envvar.
This makes use of the string we now have from glib-private.h in the
last commit so that setlocale() sets the default system locale
correctly and therefore show the translated messages properly.
Fixes issue #1169.
On Windows, in particular the CRTs on and after Visual Studio 2012, it
is not enough just to do setlocale (LC_ALL, "") to set the default
system locale, which results in the tools that use the translated
messages to show unreadable messages when running the commmand line
tools.
This adds an entry in glib-private.h.in which denotes the appropriate
string to use for setlocale() to set the default system locale by
setting it to ".ACP" if we are building on Windows and "" for
other systems (as we are doing now).
The tools in gio/ will be updated in the next commit to make use of this
entry so that the translated messages can be shown correctly.
From grefcount.h, in order to disable warnings when G_DISABLE_CHECKS is
defined, we need to make use of the GCC-isque-only __extension__ for it
to work. This means that in the saturation tests, we can only expect no
warnings to show if we are building on GCC-isque compilers with
G_DISABLE_CHECKS defined.
This will fix the refcount-macro test on Visual Studio builds at least.
Using the generic marshaller has drawbacks beyond performance. One such
drawback is that it breaks the stack unwinding from the Linux kernel due
to having unsufficient data to walk past ffi_call_unixt64. That means that
performance profiling by application developers looks grouped among
seemingly unrelated code paths.
While we can't fix the kernel unwinding here, we can provide proper
c_marshallers and va_marshallers for objects within Gio so that
performance profiling of applications is more reliable.
Related to GNOME/Initiatives#10
If c_marshaller is provided during g_signal_new() registration, the
automatic va_marshaller will not be set. If we leave the c_marshaller as
NULL in the simple cases, both a c_marshaller and va_marshaller will be
set for us.
This is particularly helpful when dealing with stack traces from Linux
perf, which often cannot unwind the stack beyond the ffi_call_unix64
stack-frame on x86_64.
Related to GNOME/Initiatives#10
Using the generic marshaller has drawbacks beyond performance. One such
drawback is that it breaks the stack unwinding from the Linux kernel due
to having unsufficient data to walk past ffi_call_unixt64. That means that
performance profiling by application developers looks grouped among
seemingly unrelated code paths.
Related to GNOME/Initiatives#10
If we specify a c_marshaller, g_signal_newv() will never assign an
va_marshaller automatically. So either use NULL (for simple cases), or
specify both to avoid the generic performance penalty.
This ensures that D-Bus connections established with unix:dir and
unix:path addresses actually work properly. Previously, we only tested
unix:tmpdir and TCP addresses.