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.
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.
Add a "a{sv}" output argument to "AddAndActivate2" D-Bus API.
"AddAndActivate2" replaces "AddAndActivate" with more options.
It also has a dictionary argument to be forward compatible so that we
hopefully won't need an "AddAndActivate3". However, it lacked a similar
output dictionary. Add it for future extensibility. I think this is
really to workaround a shortcoming of D-Bus, which does provide strong
typing and type information about its API, but does not allow to extend
an existing API in a backward compatible manner. So we either resort to
Method(), Method2(), Method3() variants, or a catch-all variant with a
generic "a{sv}" input/output argument.
In libnm, rename "nm_client_add_and_activate_connection_options()" to
"nm_client_add_and_activate_connection2()". I think libnm API should have
an obvious correspondence with D-Bus API. Or stated differently, if
"AddAndActivateOptions" would be a better name, then the D-Bus API should
be renamed. We should prefer one name over the other, but regardless
of which is preferred, the naming for D-Bus and libnm API should
correspond.
In this case, I do think that AddAndActivate2() is a better name than
AddAndActivateOptions(). Hence I rename the libnm API.
Also, unless necessary, let libnm still call "AddAndActivate" instead of
"AddAndActivate2". Our backward compatibility works the way that libnm
requires a server version at least as new as itself. As such, libnm
theoretically could assume that server version is new enough to support
"AddAndActivate2" and could always use the more powerful variant.
However, we don't need to break compatibility intentionally and for
little gain. Here, it's easy to let libnm also handle old server API, by
continuing to use "AddAndActivate" for nm_client_add_and_activate_connection().
Note that during package update, we don't restart the currently running
NetworkManager instance. In such a scenario, it can easily happen that
nmcli/libnm is newer than the server version. Let's try a bit harder
to not break that.
Changes as discussed in [1].
[1] https://gitlab.freedesktop.org/NetworkManager/NetworkManager/merge_requests/37#note_79876
"bind" specifically binds the lifetime of the activation (NMActiveConnection).
In combination with "persist=volatile", the lifetime of the NMSettingsConnection
is indirectly bound to the NMActiveConnection. But still these concepts make sense
independently.
In the future, it may make sense to also bind the lifetime of the NMSettingsConnection
to the D-Bus client. Hence, rename the option to allow for the distinction.
Also, belatedly fix libnm comment about "bind" only working with
"persist" "volatile".
Fixes: eb883e34a5
Synchronous D-Bus calls seems harmful to me, such API should not be
added to libnm. As such, all API is by default and preferably "_async".
Don't add an "_async" suffix. While we are not consistent in libnm about
this, I think for new code we should.
This adds the new methods nm_client_add_and_activate_connection_options_*
and ports the existing methods to use the new AddAndActivateConnection2
call rather than AddAndActivateConnection, allowing further parameters
to be passed in.
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[@]}"
Add a test which runs nmcli against our stub NetworkManager
service and compares the output.
The output formats of nmcli are complicated and not easily understood.
For example how --mode tabular|multiline interacts with selecting
output-fields (--fields) and output modes ([default]|--terse|--pretty).
Also, there are things like `nmcli connection show --order $FIELD_SPEC`.
We need unit tests to ensure that we don't change the output
accidentally.
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.
This allows to adjust the timeout of an existing checkpoint.
The main usecase of checkpoints, is to have a fail-safe when
configuring the network remotely. By allowing to reset the timeout,
the user can perform a series of actions, and keep bumping the
timeout. That way, the entire series is still guarded by the same
checkpoint, but the user can start with short timeout, and
re-adjust the timeout as he goes along.
The libnm API only implements the async form (at least for now).
Sync methods are fundamentally wrong with D-Bus, and it's probably
not needed. Also, follow glib convenction, where the async form
doesn't have the _async name suffix. Also, accept a D-Bus path
as argument, not a NMCheckpoint instance. The libnm API should
not be more restricted than the underlying D-Bus API. It would
be cumbersome to require the user to lookup the NMCheckpoint
instance first, especially since libnm doesn't provide an efficient
or convenient lookup-by-path method. On the other hand, retrieving
the path from a NMCheckpoint instance is always possible.
If an operation is cancelled through the GCancellable, then the idiom is
that the operation is always cancelled, even if it has finished
successfully. To ensure this is the case, add calls to
g_simple_async_result_set_check_cancellable everywhere.
Without this, e.g. gnome-control-center will crash when switching away
from the power panel quickly, as the NMClient creation finishes
asynchronously and g-c-c assume that G_IO_ERROR_CANCELLED is returned to
ensure it doesn't access the now invalid user_data parameter.
https://bugzilla.gnome.org/show_bug.cgi?id=794088
The new device type represents a PPP interface, and will implement the
activation of new-style PPPoE connections, i.e. the ones that don't
claim the parent device.
Strangely, this breaks
systemctl restart NetworkManager
nmcli connection up "$NAME"
It seems that with this change, libnm misses some events from D-Bus.
It looks like there is something seriously broken. Before fixing it,
revert the previous state.
https://bugzilla.redhat.com/show_bug.cgi?id=1450075
This reverts commit 529d620a59.
The current implementation of GDBusObjectManagerClient implements
GAsyncInitableIface, however it simply runs GInitableIface's
synchronous init on another thread.
I suspect that there are races in the way that is implemented.
For one, we see crashes and warnings (rh#1450075, rh#1457769,
rh#1457223). Also, it seems very wrong to me, how GDBusObjectManagerClient
mixes asynchronous signals (on_control_proxy_g_signal) with
synchronously getting all objects (process_get_all_result,
GetManagedObjects).
I think we should ditch GDBusObjectManager altogether, including the
gdbus-codegen skeletons. They add layers of code, for something that
should be simple to do directly. For now, just don't do asynchronous
initialization on another thread, so we at least avoid this kind of
multithreadding issue.
This may make the initialization of NMClient a bit slower.
