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.)
Add an argument @full_sync to the sync method of NMRouteManager.
@full_sync was what we did up to now, meaning, we removed every
route on the interface that was no on our internal list of known
routes.
Now with !@full_sync, only remove routes that were tracked previously.
This means, we will only remove routes that were added by us previously.
Don't make use of the new option yet. So there is no change of behavior
yet.
When adding an IPv4 address, kernel will also add a device-route.
We don't want that route because it has the wrong metric. Instead,
we add our own route (with a different metric) and remove the
kernel-added one.
This could be avoided if kernel would support an IPv4 address flag
IFA_F_NOPREFIXROUTE like it does for IPv6 (see related bug rh#1221311).
One important thing is, that we want don't want to manage the
device-route on assumed devices. Note that this is correct behavior
if "assumed" means "do-not-touch".
If "assumed" means "seamlessly-takeover", then this is wrong.
Imagine we get a new DHCP address. In this case, we would not manage
the device-route on the assumed device. This cannot be fixed without
splitting unmanaged/assumed with related bug bgo 746440.
This is no regression as we would also not manage device-routes
for assumed devices previously.
We also don't want to remove the device-route if the user added
it externally. Note that here we behave wrongly too, because we
don't record externally added kernel routes in update_ip_config().
This still needs fixing.
Let IPv4 device-routes also be managed by NMRouteManager. NMRouteManager
has a list of all routes and can properly add, remove, and restore
the device route as needed.
One problem is, that the device-route does not get added immediately
with the address. It only appears some time later. This is solved
by NMRouteManager watching platform and if a matchin device-route shows up
within a short time after configuring addresses, remove it.
If the route appears after the short timeout, assume they were added for
other reasons (e.g. by the user) and don't remove them.
https://bugzilla.gnome.org/show_bug.cgi?id=751264https://bugzilla.redhat.com/show_bug.cgi?id=1211287
The previous version causes an unsigned integer underflow. That
is not wrong, but still change it.
Also use g_array_remove_index_fast() because the list of routes
is unsorted anyway.
ip[46]_config_merge_and_apply() do assume the settings that are merged later in
override the previously set ones and not the other way around. Otherwise e.g. a
gateway address from DHCP could override what's set in the connection.
Some DHCP servers send specific options to give a hint that clients
should avoid unneeded data usage.
Add a metered flag to NMIP4Config to keep track of this information.
When generating a connection to assume it, also record the route-metric.
Do that by looking at the metric of the (best) default-route.
This is especially important since d51975ed92.
Now NM would also manage the default-route for assumed connections.
So the generated assumed connection would have a route metric based on
the device type, which might differ from the external configuration.
This caused NM to replace the externally configured default-route.
https://bugzilla.gnome.org/show_bug.cgi?id=750405
"nm-utils-private.h" should not be used outside of libnm-core/.
core/ should only use public API or "nm-core-internal.h".
Also, "nm-setting-ip-config.h" is a public header and should
not contain internal defines. Move them to "nm-core-internal.h"
too.
Fixes: 019943bb5d
Otherwise it stays zero and hits an assertion when the route is applied:
NetworkManager:ERROR:nm-route-manager.c:179:nm_route_manager_ip4_route_sync:
assertion failed: (known_route->ifindex)
https://bugzilla.gnome.org/show_bug.cgi?id=745844
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".
No functional change, a cosmetic thing for now.
We want it set before any routes are added and ensure routes have a valid
ifindex before we pass it to the platform.
In a future NMRouteManager will need to look up the route for a device in
its cache thus we'll need to make sure routes passed to the it have an
appropriate ifindex set.
Create a NMRouteManager singleton.
Refactor, no functional changes apart from change of log domain from
LOGD_PLATFORM to LOGD_CORE.
Subsequent commit will keep track of the conflicting routes, avoid overwriting
older ones with newer ones and apply the new ones when the old ones go away.
For IPv4 addresses, the kernel automatically adds a route when
configuring an IP address. Unfortunately, there is no way to control
this behavior or to set the route metric.
Fix this, by adding our own route and removing the kernel provided
one.
Note that this adds a major change in that we no longer call
nm_ip4_config_commit() for assumed devices.
https://bugzilla.gnome.org/show_bug.cgi?id=723178
Signed-off-by: Thomas Haller <thaller@redhat.com>
NMIPRoute is used by NMSettingIPConfig, but also
NMIPConfig. In the former case, default routes are (still)
disallowed. But in the NMIPConfig use-case, it can make sense
to expose default routes as NMIPRoute instances.
Relax the restriction on the NMIPRoute API to allow this
future change.
No code actually supports having NMIPRoute instances with
prefix length zero (default routes). Up to now, all such uses
would be a bug.
https://bugzilla.gnome.org/show_bug.cgi?id=739969
Signed-off-by: Thomas Haller <thaller@redhat.com>
NMIP4Config/NMIP6Config have their own NMIPRoute->D-Bus conversion
code since the code in libnm-core is gdbus-specific. But they were
doing it wrong, resulting in clients seeing a next hop of 0.0.0.0/::
for all routes.
Left over from a previous version of the iface helper patches and was
never removed when NM_IFACE_HELPER was removed. Since NM_IFACE_HELPER
wasn't defined, this code was already always compiled.
config.h should be included from every .c file, and it should be
included before any other include. Fix that.
(As a side effect of how I did this, this also changes us to
consistently use "config.h" rather than <config.h>. To the extent that
it matters [which is not much], quotes are more correct anyway, since
we're talking about a file in our own build tree, not a system
include.)
When quitting, the Manager asks each device to spawn the interface helper,
which persists and manages dynamic address on the interface after NetworkManager
is gone. If the dynamic address cannot be maintaned, the helper quits and
the interface's address may be removed when their lifetime runs out.
To keep the helper as simple as possible, NetworkManager passes most of the
configuration on the command-line, including some properties of the device's
current state, which are necessary for the helper to maintain DHCP leases
or IPv6 SLAAC addresses.
Up to now, NMPolicy would iterate over all devices to find the "best"
device and assign the default route to that device.
A better approach is to add a default route to *all* devices that
are never-default=no. The relative priority is choosen according to
the route metrics.
If two devices receive the same metric, we want to prefer the device
that activates first. That way, the default route sticks to the same
device until a better device activates or the device deactivates.
Hence, the order of activation is imporant in this case (as it is
already now).
Also, if several devices have identical metrics, increment their
metrics so that every metric is unique.
This makes the routing deterministic according to what we choose as best
device.
A special case is assumed devices. In this case we cannot adjust the metric
in face of equal metrics.
Add a new singleton class NMDefaultRouteManager that has a list of all
devices and their default routes. The manager will order the devices by
their priority and configure the routes using platform.
Also update the metric for VPN connections. Later we will track VPN
routes also via NMDefaultRouteManager. For now, fix the VPN metric because
otherwise VPNs would always get metric 1024 (which is usually much larger then the
device metrics).
https://bugzilla.gnome.org/show_bug.cgi?id=735512
Signed-off-by: Thomas Haller <thaller@redhat.com>
These lines are part of NM for a very long time.
I think they are wrong, because the default route is not
added to the NMIP4Config/NMIP6Config objects.
Signed-off-by: Thomas Haller <thaller@redhat.com>
Add a new enum NMPlatformGetRouteMode. This extends the existing
functions nm_platform_ip4_route_get_all() and nm_platform_ip6_route_get_all()
to return default routes only.
Signed-off-by: Thomas Haller <thaller@redhat.com>
Kernel, netlink an NMPlatformRoute treat route metrics as
uint32. Fix several places to use the exact type.
Signed-off-by: Thomas Haller <thaller@redhat.com>
As we use NMLinkType in NetworkManagerUtils.h, we cannot use
the utils header without nm-platform.h. That is clearly wrong.
Apparently NMLinkType has a wider use outside of platform (and
its name is not prefixed with 'platform' either).
Move the enum definition to nm-types.h.
Signed-off-by: Thomas Haller <thaller@redhat.com>
Add AddressData and RouteData properties to NMSettingIPConfig and
NMIP[46]Config. These are like the existing "addresses" and "routes"
properties, but using strings and containing additional attributes,
like NMIPAddress and NMIPRoute.
This only affects the D-Bus representations; there are no API changes
to NMSettingIP{,4,6}Config or NMIP{4,6}Config as a result of this; the
additional information is just added to the existing 'addresses' and
'routes' properties.
NMSettingIP4Config and NMSettingIP6Config now always generate both
old-style data ('addresses', 'address-labels', 'routes') and new-style
data ('address-data', 'gateway', 'route-data') when serializing to
D-Bus, for backward compatibility. When deserializing, they will fill
in the 'addresses' and 'routes' properties from the new-style data if
it is present (ignoring the old-style data), or from the old-style
data if the new-style isn't present.
The daemon-side NMIP4Config and NMIP6Config always emit changes for
both 'Addresses'/'Routes' and 'AddressData'/'RouteData'. The
libnm-side classes initially listen for changes on both properties,
but start ignoring the 'Addresses' and 'Routes' properties once they
know the daemon is also providing 'AddressData' and 'RouteData'.
The gateway is a global property of the IPv4/IPv6 configuration, not
an attribute of any particular address. So represent it as such in the
API; remove the gateway from NMIPAddress, and add it to
NMSettingIPConfig.
Behind the scenes, the gateway is still serialized along with the
first address in NMSettingIPConfig:addresses, and is deserialized from
that if the settings dictionary doesn't contain a 'gateway' key.
Adjust nmcli's interactive mode to prompt for IP addresses and gateway
separately. (Patch partly from Jirka Klimeš.)
NMSettingIP[46]Config let you associate a gateway with each address,
and the writable settings backends record that information. But it
never actually gets used: NMIP4Config and NMIP6Config only ever use
the first gateway, and completely ignore any others. (And in the
common usage of the term, an interface can only have one gateway
anyway.)
So, stop pretending that multiple gateways are meaningful; don't
serialize or deserialize gateways other than the first in the
'addresses' properties, and don't read or write multiple gateway
values either.
Split a base NMSettingIPConfig class out of NMSettingIP4Config and
NMSettingIP6Config, and update things accordingly.
Further simplifications of now-redundant IPv4-vs-IPv6 code are
possible, and should happen in the future.
Add key-value attributes to NMIPAddress and NMIPRoute, and use them to
store IPv4 address labels. Demote NMSettingIP4Config:address-labels to
a D-Bus-only property, and arrange for :addresses setter to read the
labels out of that property when creating the addresses.
