Paths to sysctls don't use ifindex and device names can be reused. If someone
removes a device and quickly creates a device with the same name, chances are
we're cleaning up the device that was just added.
Sadly, it seems there's no better API than sysctl-- neither netlink nor procfs
symlinks with ifindex or anything like that.
It would subtract the configuration from device confguration that's not yet
applied. This a the race where the loose the address while activating a
connection that has both IPv6 and IPv4 configuration.
Fixes: 557667df12https://bugzilla.gnome.org/show_bug.cgi?id=746066
These functions will sometimes get called on updates to the device's IP
config due to external changes, or when addresses get flushed from the
device when activating it. If the device is a slave device, then at
this point its NMConnection won't have an IP settings. Suppress the
warning that gets printed when s_ip == NULL, because it's expected.
Just a refactoring, doesn't make any actual difference. It is consistent with
IPv4 and will make it easier to implement a policy to recover from incorrect
MTUs settings.
The statement
g_return_val_if_reached (NM_MODEM_IP_TYPE_UNKNOWN);
was wrong, because the return type is 'const char *'.
But just refactor nm_modem_ip_type_to_string() to get rid of
the static table and make it a switch statement.
Fixes: 85d9132464
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.
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.
When ipv4=auto and ipv6=auto, we'll first try with the IPv4v6 PDP type, and if
that fails (e.g. if either the modem or the operator doesn't support it), we'll
fallback to trying with IPv4 or IPv6 PDP types (only if may-fail configuration
allows it).
Patch based on a previous implementation by Dan Williams <dcbw@redhat.com>
https://bugzilla.gnome.org/show_bug.cgi?id=733696
It's always user requested -- auto activation never happens on already active
devices. nm_device_release_one_slave() rightly asserts teardown with
(un)configuration does not happen for no reason at all.
https://bugzilla.gnome.org/show_bug.cgi?id=744812
It was confusing to understand the difference between calling nm_device_connection_is_available()
and check_connection_available(), they behaved similar, but not really
the same. Especially nm_device_connection_is_available() would look
first into @available_connetions, and might call check_connection_available()
itself. Whereas @available_connetions was also populated by testing
check_connection_available(). This interrelation makes it hard to
understand when nm_device_connection_is_available() returned true.
Rename nm_device_connection_is_available() to nm_device_check_connection_available()
and remove all direct calls of check_connection_available() in favor of
the wrapper nm_device_check_connection_available().
Now we only call nm_device_check_connection_available() with different
parameters (@flags and @specific_object). We also have the additional
guarantee that specifying more @flags will widen the result and making
a connection "more" available, while specifying a @specific_object will
restrict it.
This also changes behavior in several cases. For example before
nm_device_connection_is_available() for user-requests would always
declare matching connections available on Wi-Fi devices (only)
regardless of the device state. Now the device state gets consistently
considered.
For default-unmanaged devices it also changes behavior in complicated
ways, because before we would put connections into @available_connetions
for every device-state, but nm_device_connection_is_available() had a
special over-ride only for unmanaged-state.
This also fixes a bug, that user can activate an unavailable Wi-Fi
device:
nmcli radio wifi off
nmcli connection up wlan0
Having logging statements in a simple getter (or is_*()) means
you cannot call these functions without cluttering the log.
Another approach would be to add an @out_reason argument, and
callers who actually care log the reason. For now, just get rid
of the messages.
The argument name should express what the caller wants
(he wants to know, whether the connection can be activated
for an internal or external activation request).
Whether that involves checking device-specific overrides, is
not the point -- nm_device_check_connection_compatible() is
also a virtual function with device-specific overrides.
Extend nm_match_spec_*() to support an "except:" prefix to negate
the result of a match. "except:" only works when followed by
an exact match type, for example "except:interface-name:vboxnet0",
but not "except:vboxnet0".
A matching "except:" spec always wins, regardless of other positive
matchings.
NMTestDevice does not invoke dispose(), hence it leaks memory which causes
false warnings in testing.
Some minor refactring to let dispose() clear the fields, but free it
later in finalize(). This avoids memleaks in the NMTestDevice stub.
NMDevice rechecks available connections when the device moves to the
DISCONNECTED state, but connections are not available if the modem is
PIN locked at that time. Available connections were never re-checked
when the modem was then unlocked while in the DISCONNECTED state.
When the modem device is abruptly disconnected,
nm_modem_device_state_changed() calls deactivate_cleanup() with a NULL
device argument and that's perfectly fine.
We should only check the instance type if we know the device is non-NULL.
(NetworkManager:9166): NetworkManager-wwan-CRITICAL **: deactivate_cleanup: assertion 'NM_IS_DEVICE ( failed
With this change, NMConfig is really immutable and all
modifyable parts migrated to NMConfigData.
Another advantage is that components can now subscribe to
NMConfig changes to pickup changes to no-auto-default.
During queued_ip_config_change(), we eventually call update_ip_config()
and ip4_config_merge_and_apply(). These functions read the IP configuration
from platform and setup the private ip4_config instance.
Trigger this initialization after constructing the device to setup
the IP configuration.
Before, for unmanaged devices we would not call ip4_config_merge_and_apply()
until the first platform change event.
Note that in the worst case we do some unnecessary work due to this,
because queued_ip_config_change() must already be robust to be called
at any time.
We trigger a new solicitation upon seeing the new token. Kernel triggers one
too, but that one is of no use to us, since the advertisement might arrive sooner
than we learn about the token change.
Even more eagerly pickup external default routes from the device.
For assumed devices we already picked up the default route.
(a) For assumed devices we already did not enforce the default route at all.
Instead it was always picked up by from the actualy system
configuration. Note that this is the case for assumed-generated
connections and for assuming existing connections.
That means that when NM assumes a connection at startup, it will never
actively manage the default route on that interface. It will only react
on what is present.
(b) For managed devices that have by configuration no default route, still pick up
the default route. That means, that even a device that is managed and
never-default=yes, can have the default route -- if configured externally.
(c) Only during a commit phase (i.e. when we have new configuraiton to be
applied), we enforce the default route or its absence.
(d) During any IP change event from platform, we again pickup whatever
is present. That means if you remove the default route from a managed
interface, NM will not re-add it until anything triggers (c).
This also means, that during the commit phase, we add default routes as
'synced' to the default-route-manager, but the following event from platform,
will change the route entry immediately to 'non-synced'. That is
expected and correct.
When receiving IP changes via platform event, remove all missing
addresses and routes from our internal configurations (such as
wwan, vpn, dhcp).
The effect is that on the next commit, those addresses and routes will
not be re-added as they were explicitly removed by the user.
However on a new DHCP lease or similar events, the addresses will
be added anew.
Another important improvement is that the NMIPxConfig of the active
device reflects when addresses or routes get removed externally. Before
we would continue to expose those entires although they were not
actually configured on the device.
https://bugzilla.gnome.org/show_bug.cgi?id=740443
