We have code in "shared/nm-utils" which are general purpose
helpers, independent of "libnm", "libnm-core", "clients" and "src".
We have shared code like "shared/nm-ethtool-utils.h" and
"shared/nm-meta-setting.h", which is statically linked, shared
code that contains libnm related helpers. But these helpers already
have a specific use (e.g. they are related to ethtool or NMSetting
metadata).
Add a general purpose helper that:
- depends (and extends) libnm-core
- contains unrelated helpers
- can be shared (meaning it will be statically linked).
- this code can be used by any library user of "libnm.so"
(nmcli, nm-applet) and by "libnm-core" itself. Thus, "src/"
and "libnm/" may also use this code indirectly, via "libnm-core/".
For now only add the core settings, no peers' data.
To support peers and the allowed-ips of the peers is more complicated
and will be done later. It's more complicated because these are nested
lists (allowed-ips) inside a list (peers). That is quite unusual and to
conveniently support that in D-Bus API, in keyfile format, in libnm,
and nmcli, is a effort.
Also, it's further complicated by the fact that each peer has a secret (the
preshared-key). Thus we probably need secret flags for each peer, which
is a novelty as well (until now we require a fixed set of secrets per
profile that is well known).
Like also done for autotools, create and use intermediate libraries
from "shared/nm-utils/".
Also, replace "shared_dep" by "shared_nm_utils_base_dep". We don't
need super fine-grained selection of what we link. We can always
link in "shared/libnm-utils-base.a", and let the linker throw away
unsed parts.
We named the types inconsistently:
- "p2p-wireless" ("libnm-core/nm-setting-p2p-wireless.h")
- "p2p" ("libnm/nm-p2p-peer.h")
- "p2p-wifi" ("src/devices/wifi/nm-device-p2p-wifi.h")
It seems to me, "libnm/nm-p2p-peer.h" should be qualified with a "Wi-Fi"
specific name. It's not just peer-to-peer, it's Wi-Fi P2P.
Yes, there is an inconsistency now, because there is already
"libnm/nm-access-point.h".
It seems to me (from looking at the internet), that the name "Wi-Fi P2P"
is more common than "P2P Wi-Fi" -- although both are used. There is also
the name "Wi-Fi Direct". But it's not clear which name should be
preferred here, so stick to "Wi-Fi P2P".
In this first commit only rename the files. The following commit will
rename the content.
It's not yet used, but it will be. We will need nm_sd_utils_unbase64mem()
to strictly validate WireGuard settings, which contain keys in base64 encoding.
Note that we also need a stub implementation for logging. This will do
nothing for all logging from "libnm-systemd-shared.a". This makes
sense because "libnm.so" as a library should not log directly. Also,
"libnm.so" will only use a small portion of "libnm-systemd-shared.a" which
doesn't log anything. Thus this code is unused and dropped by the linker
with "--gc-sections".
If the library is available, let's at least compile both
crypto backends.
That is helpful when developing on crypto backends, so that
one does not have to configure the build twice.
With autotools, the build is only run during `make check`.
Not for meson, but that is generally the case with our meson
setup, that it also builds tests during the regular build step.
Add a new 'match' setting containing properties to match a connection
to devices. At the moment only the interface-name property is present
and, contrary to connection.interface-name, it allows the use of
wildcards.
Note that in NetworkManager API (D-Bus, libnm, and nmcli),
the features are called "feature-xyz". The "feature-" prefix
is used, because NMSettingEthtool possibly will gain support
for options that are not only -K|--offload|--features, for
example -C|--coalesce.
The "xzy" suffix is either how ethtool utility calls the feature
("tso", "rx"). Or, if ethtool utility specifies no alias for that
feature, it's the name from kernel's ETH_SS_FEATURES ("tx-tcp6-segmentation").
If possible, we prefer ethtool utility's naming.
Also note, how the features "feature-sg", "feature-tso", and
"feature-tx" actually refer to multiple underlying kernel features
at once. This too follows what ethtool utility does.
The functionality is not yet implemented server-side.
1) the command line gets shorter. I frequently run `make V=1` to see
the command line arguments for the compiler, and there is a lot
of noise.
2) define each of these variables at one place. This makes it easy
to verify that for all compilation units, a particular
define has the same value. Previously that was not obvious or
even not the case (see commit e5d1a71396
and commit d63cf1ef2f).
The point is to avoid redundancy.
3) not all compilation units need all defines. In fact, most modules
would only need a few of these defines. We aimed to pass the necessary
minium of defines to each compilation unit, but that was non-obvious
to get right and often we set a define that wasn't used. See for example
"src_settings_plugins_ibft_cppflags" which needlessly had "-DSYSCONFDIR".
This question is now entirely avoided by just defining all variables in
a header. We don't care to find the minimum, because every component
gets anyway all defines from the header.
4) this also avoids the situation, where a module that previously did
not use a particular define gets modified to require it. Previously,
that would have required to identify the missing define, and add
it to the CFLAGS of the complation unit. Since every compilation
now includes "config-extra.h", all defines are available everywhere.
5) the fact that each define is now available in all compilation units
could be perceived as a downside. But it isn't, because these defines
should have a unique name and one specific value. Defining the same
name with different values, or refer to the same value by different
names is a bug, not a desirable feature. Since these defines should
be unique accross the entire tree, there is no problem in providing
them to every compilation unit.
6) the reason why we generate "config-extra.h" this way, instead of using
AC_DEFINE() in configure.ac, is due to the particular handling of
autoconf for directory variables. See [1].
With meson, it would be trivial to put them into "config.h.meson".
While that is not easy with autoconf, the "config-extra.h" workaround
seems still preferable to me.
[1] https://www.gnu.org/software/autoconf/manual/autoconf-2.63/html_node/Installation-Directory-Variables.html
The files in shared/nm-utils are not compiled as one static library,
instead each subproject that needs (parts of) them, re-compiles the
files individually.
The major reason for that is, because we might have different compile
flags, depending on whether we build libnm-core or
libnm-util/libnm-glib. Actually, I think that is not really the case,
and maybe this should be refactored, to indeed build them all as a
static library first.
Anyway, libnm-util, libnm-glib, clients' common lib, they all need a
different set of shared files that they should compile. Refactor
"shared/meson.build" to account for that and handle it like autotools
does.
Another change is, that "shared_c_siphash_dep" no longer advertises
"include_directories: include_directories('c-siphash/src')". We don't
put c-siphash.h into the include search path. Users who need it, should
include it via "#include <c-siphash/src/c-siphash.h>". The only exception
is when building shared_n_acd library, which is not under our control.
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".
This makes package updates more robust, avoiding in-place replaces of
the plugins.
Previously, if an upgrade transaction was terminated, NetworkManager
library could end up being of a different version than the plugins.
If the user was unfortunate enough to connect using a connection that
required a plugin (say, Wi-Fi), he would be left without a network
connection making it somewhat inconvenient to recover from the botched
upgrade.
This makes the whole situation a little bit less sad.
The VPN plugins are kept where they always have been -- the path is not
qualified with a version number.
Splitting keyfile handling in two "reader.c" and "writer.c" files
is not helpful. What is most interesting, is to see how property XYZ
is serialized to keyfile, and to verify that the parser does the
inverse. For that, it's easier if both the write_xzy() and parse_xyz()
function are beside each other, and not split accross files.
The more important reason is, that both reader and writer have their
separate handler arrays, for special handling of certain properties:
@key_parsers and @key_writers. These two should not be separate but will
be merged. Since they reference static functions, these functions must
all be in the same source file (unless, we put them into headers, which
would be unnecessary complex).
No code was changed, only moved.
The strings holding the names used for libraries have also been
moved to different variables. This way they would be less error
as these variables can be reused easily and any typing error
would be quickly detected.
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.
gtkdoc uses some custom generated targets as content files. However,
there are still two problem. The first is that gtkdoc does not
support targets which are not strings. This is being fixed in the
following issue:
https://github.com/mesonbuild/meson/pull/2806
The second issue is that the gtkdoc function produces a target which
is triggered at install time. This makes the dependencies generation
to not be triggered.
This patch uses a workaround for that second issue.
https://mail.gnome.org/archives/networkmanager-list/2017-December/msg00079.html
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
`generate-plugin-docs.pl` script which is used to parse
`nm-setting-c*.c` files depends on autotools. This is because it
parses the `Makefile.am` in order to figure out the setting files
it needs to parse.
This patch makes the script independent of autotools by passing
the necessary setting files by command line instead of parsing the
`Makefile.am` file. It also changes the autotools' and meson's
accordingly.
