When the entire NMSettingWired setting is missing, it should be treated
exactly the same as each property having the default/unset value.
Otherwise, adding a NMSettingWired setting only to set (say) MTU,
would result in different behavior. Although effectively the
"cloned-mac-address" shall be in both cases the same.
Software devices must report the NM_DEVICE_CAP_IS_SOFTWARE capability
in order to be properly activated. Add the flag to NMDeviceTun and
NMDeviceVxlan.
https://bugzilla.gnome.org/show_bug.cgi?id=767846
Instead of accessing the singleton getter nm_settings_get(), obtain
the settings instance from the device instance itself via
nm_device_get_settings().
Don't rely on what's already on the device. It could be that the MAC address
set on the device is not meaningful -- the NM crashed while two devices were
teamed together and now they have the same hardware address and now it's
impossible to bond them with mode=5.
- All internal source files (except "examples", which are not internal)
should include "config.h" first. As also all internal source
files should include "nm-default.h", let "config.h" be included
by "nm-default.h" and include "nm-default.h" as first in every
source file.
We already wanted to include "nm-default.h" before other headers
because it might contains some fixes (like "nm-glib.h" compatibility)
that is required first.
- After including "nm-default.h", we optinally allow for including the
corresponding header file for the source file at hand. The idea
is to ensure that each header file is self contained.
- Don't include "config.h" or "nm-default.h" in any header file
(except "nm-sd-adapt.h"). Public headers anyway must not include
these headers, and internal headers are never included after
"nm-default.h", as of the first previous point.
- Include all internal headers with quotes instead of angle brackets.
In practice it doesn't matter, because in our public headers we must
include other headers with angle brackets. As we use our public
headers also to compile our interal source files, effectively the
result must be the same. Still do it for consistency.
- Except for <config.h> itself. Include it with angle brackets as suggested by
https://www.gnu.org/software/autoconf/manual/autoconf.html#Configuration-Headers
When we decide to add a new link, we alredy checked that no such link exists
(ignoring race conditions).
It is wrong to accept a EXITS failure when adding the link. There is no guarantee
that the existing link has all the same properties as the one we intend to add.
More importantly, this link was added externally outside of NetworkManager and it
should not be taken over.
Just treat EXISTS as a failure as any other.
The virtual function NMDevice:realize() is only called by
nm_device_realize() and immediately followed by nm_device_setup_start().
Devices already overwrite setup_start_notify() to update their properties.
No need to duplicate that in realize().
All implementations of NMDevice:setup_start() in derived classes
invoke the parent implementation first. Enforce that by moving
NMDevice:setup_start() to realize_start_setup() and only notify
derived classes afterwards via NMDevice:realize_start_notify().
Let the link-add functions return the internal pointer to the platform
link object. Similar to link-get, which doesn't copy the link either.
Also adjust the sole users of the add-functions (create-and-realize)
to take the pointer.
Eventually we still copy the returned data, because accessing platform can
invalidate the returned pointer. Thus we don't actually safe any copying
by this (at least every use of the function currently leads to the data
being copied).
Still change it, because I think the API of NMPlatform should look like that.
NMPlatformLink is a plain struct (not a GObject, for which we usually
don't use const). We certainly don't want the functions to modify the
passed-in data.
Ensure the platform link with the same interface name as the
NMDevice is actually compatible with it before using the link
for initialization of device properties. If not, remove the
NMDevice and create a new one since there are kernel resources
with a different type.
Unrealized devices aren't backed by kernel resources and so won't know
all of their attributes. That means three things:
1) they must update their attributes when they become realized
2) they must clear those attributes when unrealized
3) they must be looser in checking compatible connections until
they are realized
This requires that the setup() function be split into two parts, start & finish,
because finish must be run after add_device()
Also, we can simplify whether to pay attention to 'recheck-assume', which
is now dependent on priv->is_nm_owned, because the only case where NM should
*not* listen for the 'recheck-assume' signal is when the device is a
software device created by NM itself. That logic was previously spread
across the callers of add_device() but is now consolidated into
nm-manager.c::device_realized() and nm-device.c::nm_device_create_and_realize().
Future patches will create devices long before they are backed by
kernel resources, so we need to split NMDevice object creation from
actual setup based on the backing resources.
This patch combines the NMDeviceFactory's new_link() and
create_virtual_device_for_connection() class methods into a single
create_device() method that simply creates an unrealized NMDevice
object; this method is not expected to fail unless the device is
supposed to be ignored. This also means that the NMDevice
'platform-device' property is removed, because a platform link
object may not be available at NMDevice object creation time.
After the device is created, it is then "realized" at some later
time from a platform link (for existing/hardware devices via the
realize() method) or from an NMConnection (for newly created software
devices via the create_and_realize() NMDeviceClass methods).
https://bugzilla.gnome.org/show_bug.cgi?id=737458
Move D-Bus export/unexport handling into NMExportedObject and remove
type-specific export/get_path methods (export paths are now specified
at the class level, and NMExportedObject handles the counters for all
exported types automatically).
Since all exportable objects now use the same get_path() method, we
can also add some helper methods to simplify get_property()
implementations for object-path and object-path-array properties.
Add NMExportedObject, make it the base class of all D-Bus-exported
types, and move the nm-properties-changed-signal logic into it. (Also,
make NMSettings use the same properties-changed code as everything
else, which it was not previously doing, presumably for historical
reasons).
(This is mostly just shuffling code around at this point, but
NMExportedObject will be more important in the gdbus port, since
gdbus-codegen doesn't do a very good job of supporting objects that
export multiple interfaces [as each NMDevice subclass does, for
example], so we will need more glue/helper code in NMExportedObject
then.)
Instead of hacky stuff in the Manager, let plugins themselves indicate
which links should be ignored (because they are really child links that
are controlled by a different device that the plugin handles).
Instead of looping over all plugins and asking each plugin whether it
can handle a link or a connection, have them advertise the link and
connection types they support, and use that when creating new devices.
Most nm_platform_*() functions operate on the platform
singleton nm_platform_get(). That made sense because the
NMPlatform instance was mainly to hook fake platform for
testing.
While the implicit argument saved some typing, I think explicit is
better. Especially, because NMPlatform could become a more usable
object then just a hook for testing.
With this change, NMPlatform instances can be used individually, not
only as a singleton instance.
Before this change, the constructor of NMLinuxPlatform could not
call any nm_platform_*() functions because the singleton was not
yet initialized. We could only instantiate an incomplete instance,
register it via nm_platform_setup(), and then complete initialization
via singleton->setup().
With this change, we can create and fully initialize NMPlatform instances
before/without setting them up them as singleton.
Also, currently there is no clear distinction between functions
that operate on the NMPlatform instance, and functions that can
be used stand-alone (e.g. nm_platform_ip4_address_to_string()).
The latter can not be mocked for testing. With this change, the
distinction becomes obvious. That is also useful because it becomes
clearer which functions make use of the platform cache and which not.
Inside nm-linux-platform.c, continue the pattern that the
self instance is named @platform. That makes sense because
its type is NMPlatform, and not NMLinuxPlatform what we
would expect from a paramter named @self.
This is a major diff that causes some pain when rebasing. Try
to rebase to the parent commit of this commit as a first step.
Then rebase on top of this commit using merge-strategy "ours".
Remove all remaining GParamSpec name and blurb strings (and fix
indentation while we're there), and add G_PARAM_STATIC_STRINGS to all
paramspecs that were lacking it.
Since vxlan is new-ish, and vxlan IPv6 support in particular has only
been in the kernel since 3.11, we include our own copy of the vxlan
netlink constants rather than depending on the installed headers.
This requires a very recent kernel to even compile, and the kernel
code is still rapidly changing (eg, adding IPv6 support). So take it
out for now, until it stabilizes.
This reverts commit 7f0f04d106.
