We no longer add these. If you use Emacs, configure it yourself.
Also, due to our "smart-tab" usage the editor anyway does a subpar
job handling our tabs. However, on the upside every user can choose
whatever tab-width he/she prefers. If "smart-tabs" are used properly
(like we do), every tab-width will work.
No manual changes, just ran commands:
F=($(git grep -l -e '-\*-'))
sed '1 { /\/\* *-\*- *[mM]ode.*\*\/$/d }' -i "${F[@]}"
sed '1,4 { /^\(#\|--\|dnl\) *-\*- [mM]ode/d }' -i "${F[@]}"
Check remaining lines with:
git grep -e '-\*-'
The ultimate purpose of this is to cleanup our files and eventually use
SPDX license identifiers. For that, first get rid of the boilerplate lines.
For the most part, we only have one main .gitignore file.
There were a few nested files, merge them into the main file.
I find it better to have only one gitignore file, otherwise the
list of ignored files is spread out through the working directory.
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)
Just in case anyone uses this file as-is; I believe that these drivers
don't need to be in a blacklist. There's a good chance they either work
or we can detect failure to change a MAC address on runtime and act
accordingly.
Blacklisting the driver gives the driver maintainers no chance to fix
the behavior and we are not able to log a warning on failure.
This is an API break since 1.16-rc1.
The functions like _nm_utils_wireguard_decode_key() are internal API
and not accessible to a libnm user. Maybe this should be public API,
but for now it is not.
That makes it cumbersome for a client to validate the setting. The client
could only reimplement the validation (bad) or go ahead and set invalid
value.
When setting an invalid value, the user can afterwards detect it via
nm_wireguard_peer_is_valid(), but at that point, it's not clear which
exact property is invalid.
First I wanted to keep the API conservative and not promissing too much.
For example, not promising to do any validation when setting the key.
However, libnm indeed validates the key at the time of setting it
instead of doing lazy validation later. This makes sense, so we can
keep this promise and just expose the validation result to the caller.
Another downside of this is that the API just got more complicated.
But it not provides a validation API, that we previously did not have.
(cherry picked from commit d7bc1750c1)
When setting any secrets via D-Bus' Update2 call, then
it assumes that all settings are reset. That means, when
we modify any secrets in the client, we need to first load
them all.
Anyway, load always all secrets, then we can also print them
in the get output.
Honor WG_HIDE_KEYS like `wg` does.
(cherry picked from commit 6aa9e52bd8)
Use the script to test how GObject introspection with libnm's WireGuard
support works.
Also, since support for WireGuard peers is not yet implemented in nmcli
(or other clients), this script is rather useful.
Correct the spelling across the *entire* tree, including translations,
comments, etc. It's easier that way.
Even the places where it's not exposed to the user, such as tests, so
that we learn how is it spelled correctly.
Don't call the 'if{up,down}-routes' scripts because in next Fedora
versions network scripts will be deprecated and will not be present in
the default installation.
Instead, just copy and adapt the code from those scripts.
https://bugzilla.redhat.com/show_bug.cgi?id=1618419
We commonly don't use the glib typedefs for char/short/int/long,
but their C types directly.
$ git grep '\<g\(char\|short\|int\|long\|float\|double\)\>' | wc -l
587
$ git grep '\<\(char\|short\|int\|long\|float\|double\)\>' | wc -l
21114
One could argue that using the glib typedefs is preferable in
public API (of our glib based libnm library) or where it clearly
is related to glib, like during
g_object_set (obj, PROPERTY, (gint) value, NULL);
However, that argument does not seem strong, because in practice we don't
follow that argument today, and seldomly use the glib typedefs.
Also, the style guide for this would be hard to formalize, because
"using them where clearly related to a glib" is a very loose suggestion.
Also note that glib typedefs will always just be typedefs of the
underlying C types. There is no danger of glib changing the meaning
of these typedefs (because that would be a major API break of glib).
A simple style guide is instead: don't use these typedefs.
No manual actions, I only ran the bash script:
FILES=($(git ls-files '*.[hc]'))
sed -i \
-e 's/\<g\(char\|short\|int\|long\|float\|double\)\>\( [^ ]\)/\1\2/g' \
-e 's/\<g\(char\|short\|int\|long\|float\|double\)\> /\1 /g' \
-e 's/\<g\(char\|short\|int\|long\|float\|double\)\>/\1/g' \
"${FILES[@]}"
This breaks client tests on avery old kernel (2.6.32, RHEL 6).
Traceback (most recent call last):
File "./clients/tests/test-client.py", line 699, in setUp
self.srv = NMStubServer(self._testMethodName)
File "./clients/tests/test-client.py", line 309, in __init__
start = nmex.nm_boot_time_ns()
File "/builddir/build/BUILD/NetworkManager-1.11.4/examples/python/nmex.py", line 54, in nm_boot_time_ns
return sys_clock_gettime_ns(CLOCK_BOOTTIME)
File "/builddir/build/BUILD/NetworkManager-1.11.4/examples/python/nmex.py", line 50, in sys_clock_gettime_ns
return _sys_clock_gettime_ns(clock_id)
File "/builddir/build/BUILD/NetworkManager-1.11.4/examples/python/nmex.py", line 39, in f
raise OSError(errno_, os.strerror(errno_))
OSError: [Errno 22] Invalid argument
This reverts commit 119e828dbe.
According to the D-Bus API specification we return CLOCK_BOOTTIME only.
We don't support kernels too old to have it -- the fall back to
CLOCK_MONOTONIC is only there to be able to run unit tests on RHEL 6
kernel and will eventually go away.
Coccinelle:
@@
expression a, b;
@@
-a ? a : b
+a ?: b
Applied with:
spatch --sp-file ternary.cocci --in-place --smpl-spacing --dir .
With some manual adjustments on spots that Cocci didn't catch for
reasons unknown.
Thanks to the marvelous effort of the GNU compiler developer we can now
spare a couple of bits that could be used for more important things,
like this commit message. Standards commitees yet have to catch up.
The libnm API fir checkpoints was only introduced with 1.11. It
is not yet stable, so there is still time to adjust it. Note that
this changes API/ABI of the development branch.
Changes:
- we only add async variants of the checkpoint functions. I believe
that synchronous D-Bus methods are fundamentally flawed, because
they mess up the ordering of events.
Rename the async functions by removing the "_async" suffix. This
matches glib style, for which the async form is also not specially
marked.
- for function that refere to a particular checkpoint (rollback and
destroy), accept the D-Bus path as string, instead of an NMCheckpoint
instance. This form is more flexible, because it allows to use
the function without having a NMCheckpoint instance at hand. On the
other hand, if one has a NMCheckpoint instance, he can trivially
obtain the path to make the call.
- make python2 and python3 compatible
- support Checkpoint create flags (requires recent libnm for GI
of flags)
- support adjust-rollback-timeout command
- print elapsed time in show output
We need common operations from the python scripts.
For example, to print the boot-time.
Move such utils to a separate nmex.py file ("ex" for
example). This file should contain helper functions that
are pure python (or, if the have requirements, load them
only on demand, so that examples that need those have
additional dependencies). It should also be simple to extract
individual helpers from nmex, so that the user can take an
example, merge parts of nmex.py in, and modify it to his needs.
Note that this changes API for checkpoint_create_async() in Python
via GIR. Previously it would require an integer argument, now a flags
argument. But this API is still unstable, it will be introduced with
1.12.
We commonly only allow tabs at the beginning of a line, not
afterwards. The reason for this style is so that the code
looks formated right with tabstop=4 and tabstop=8.
It already defaults to the right value. We only need to define
NM_VERSION_MIN_REQUIRED, so that parts of our internal build
can make use of deprecated API.
We don't need to have two version defines "CUR" and "NEXT".
The main purpose of these macros (if not their only), is to
make NM_AVAILABLE_IN_* and NM_DEPRECATED_IN_* macros work.
1) At the precise commit of a release, "CUR" and "NEXT" must be identical,
because whenever the user configures NM_VERSION_MIN_REQUIRED and
NM_VERSION_MAX_ALLOWED, then they both compare against the current
version, at which point "CUR" == "NEXT".
2) Every other commit aside the release, is a development version that leads
up the the next coming release. But as far as versioning is concerned, such
a development version should be treated like that future release. It's unstable
API and it may or may not be close to later API of the release. But
we shall treat it as that version. Hence, also in this case, we want to
set both "NM_VERSION_CUR_STABLE" and again NEXT to the future version.
This makes NM_VERSION_NEXT_STABLE redundant.
Previously, the separation between current and next version would for
example allow that NM_VERSION_CUR_STABLE is the previously release
stable API, and NM_VERSION_NEXT_STABLE is the version of the next upcoming
stable API. So, we could allow "examples" to make use of development
API, but other(?) internal code still restrict to unstable API. But it's
unclear which other code would want to avoid current development.
Also, the points 1) and 2) were badly understood. Note that for our
previousy releases, we usually didn't bump the macros at the stable
release (and if we did, we didn't set them to be the same). While using
two macros might be more powerful, it is hard to grok and easy to
forget to bump the macros a the right time. One macro shall suffice.
All this also means, that *immediately* after making a new release, we shall
bump the version number in `configure.ac` and "NM_VERSION_CUR_STABLE".
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.
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
