The targets that involve the use of the `NetworkManager` library,
built in the `src` build file have been improved by applying a set
of changes:
- Indentation has been fixed.
- Set of objects used in targets have been grouped together.
- Aritificial dependencies used to group dependencies and custom
compiler flags have been removed and their use replaced with
proper dependencies and compiler flags to avoid any confussion.
The `nm-default.h` header is used widely in the code by many
targets. This header includes different headers and needs different
libraries depending the compilation flags.
A new set of `*nm_default_dep` dependencies have been created to
ease the inclusion of different directorires and libraries.
This allows cleaner build files and avoiding linking unnecessary
libraries so this has been applied allowing the removal of some
dependencies involving the linking of unnecessary libraries.
The library is called "libnm_core". So the dependency should be called
"libnm_core_dep", like in all other cases.
(cherry picked from commit c27ad37c27)
The defaults for test timeouts in meson is 30 seconds. That is not long
enough when running
$ NMTST_USE_VALGRIND=1 ninja -C build test
Note that meson supports --timeout-multiplier, and automatically
increases the timeout when running under valgrind. However, meson
does not understand that we are running tests under valgrind via
NMTST_USE_VALGRIND=1 environment variable.
Timeouts are really not expected to be reached and are a mean of last
resort. Hence, increasing the timeout to a large value is likely to
have no effect or to fix test failures where the timeout was too rigid.
It's unlikely that the test indeed hangs and the increase of timeout
causes a unnecessary increase of waittime before aborting.
For better or worse, we already pull in large parts of systemd sources.
I need a base64 decode implementation (because glib's g_base64_decode()
cannot reject invalid encodings). Instead of coming up with my own or
copy-paste if from somewhere, reuse systemd's unbase64mem().
But for that, make systemd's basic bits an independent static library
first because I will need it in libnm-core.
This doesn't really change anything except making "libnm-systemd-core.la"
an indpendent static library that could be used from "libnm-core". We
shall still be mindful about which internal code of systemd we use, and only
access functionality that is exposed via "systemd/nm-sd-utils-shared.h".
Originally, we used "nm-utils/siphash24.c", which was copied
from systemd's source tree. It was both used by our own NetworkManager
code, and by our internal systemd fork.
Then, we added "shared/c-siphash" as a dependency for n-acd.
Now, drop systemd's implementation and use c-siphash also
for our internal purpose. Also, let systemd code use c-siphash,
by patching "src/systemd/src/basic/siphash24.h".
There are multiple tests with the same in different directories; add a
unique prefix to test names so that it is clear from the output which
one is running.
Some targets are missing dependencies on some generated sources in
the meson port. These makes the build to fail due to missing source
files on a highly parallelized build.
These dependencies have been resolved by taking advantage of meson's
internal dependencies which can be used to pass source files,
include directories, libraries and compiler flags.
One of such internal dependencies called `core_dep` was already in
use. However, in order to avoid any confusion with another new
internal dependency called `nm_core_dep`, which is used to include
directories and source files from the `libnm-core` directory, the
`core_dep` dependency has been renamed to `nm_dep`.
These changes have allowed minimizing the build details which are
inherited by using those dependencies. The parallelized build has
also been improved.
Note that:
- we compile some source files multiple times. Most notably those
under "shared/".
- we include a default header "shared/nm-default.h" in every source
file. This header is supposed to setup a common environment by defining
and including parts that are commonly used. As we always include the
same header, the header must behave differently depending
one whether the compilation is for libnm-core, NetworkManager or
libnm-glib. E.g. it must include <glib/gi18n.h> or <glib/gi18n-lib.h>
depending on whether we compile a library or an application.
For that, the source files need the NETWORKMANAGER_COMPILATION #define
to behave accordingly.
Extend the define to be composed of flags. These flags are all named
NM_NETWORKMANAGER_COMPILATION_WITH_*, they indicate which part of the
build are available. E.g. when building libnm-core.la itself, then
WITH_LIBNM_CORE, WITH_LIBNM_CORE_INTERNAL, and WITH_LIBNM_CORE_PRIVATE
are available. When building NetworkManager, WITH_LIBNM_CORE_PRIVATE
is not available but the internal parts are still accessible. When
building nmcli, only WITH_LIBNM_CORE (the public part) is available.
This granularily controls the build.
Source files for enum types are generated by passing segments of the
source code of the files to the `glib-mkenums` command.
This patch removes those parameters where source code is used from
meson build files by moving those segmeents to template files.
https://mail.gnome.org/archives/networkmanager-list/2017-December/msg00057.html
There are some tests located in different directories which are
using the same name. To avoid any confussion a prefix was used to
name the test and the target.
This patch uses the prefix just for the target, to avoid any
collision that may happen, and uses the `test-` pattern as the
name.
https://mail.gnome.org/archives/networkmanager-list/2017-December/msg00051.html
