Trying to set a property on a device that does not exist is not something
necessarily wrong. Don't print error/warning messages.
<trace> [1467707267.2887] device[0x55a74adbdaf0] (enp0s25): set-hw-addr: setting MAC address to 'AA:BB:CC:DD:EE:FF' (reset, unmanage)...
<debug> [1467707267.2887] platform: link: setting '(null)' (2) hardware address
<debug> [1467707267.2887] platform-linux: link: change 2: address: 68:F7:28:61:68:F7 (6 bytes)
<debug> [1467707267.2887] platform-linux: do-request-link: 2
<debug> [1467707267.2888] platform-linux: netlink: recvmsg: error message from kernel: No such device (19) for request 226
<debug> [1467707267.2888] platform-linux: netlink: recvmsg: error message from kernel: No such device (19) for request 227
<error> [1467707267.2888] platform-linux: do-change-link[2]: failure changing link: failure 19 (No such device)
<warn> [1467707267.2888] device (enp0s25): set-hw-addr: failed to reset MAC address to 68:F7:28:61:68:F7 (unmanage)
nl_recv() in libnl3 before version 3.2.15 would return dangling pointers
if nl_recv() fails or has nothing to read [1].
Workaround that by explicitly clearing @buf and @creds.
https://bugzilla.gnome.org/show_bug.cgi?id=767986
[1] 69468517d0
We don't need the token set in platform for our address mode generation,
but having it set makes it possible to correctly generate and assume
connections that use tokens.
The only user of platform who accesses this field is NMDevice,
when calling nm_platform_link_get_ipv6_token(). It cares more
about whether the token is all-zero or set to something.
Another use of inet6_token.is_valid was so that when we receive a
netlink message without IFLA_INET6_TOKEN attribute, that we don't
treat the value as zero, although it is just unknown. Fix that
instead in a better way by setting the value from the cache, if
IFLA_AF_SPEC doesn't provide it.
Also, when printing the token in nm_platform_link_to_string()
treat it as an IPv6 address (inet_ntop).
Sometimes the netlink event lacks the IFLA_ADDRESS attribute with
the MAC address of the link. In this case, take the value from
the cached link instance. A missing netlink attribute should have the
meaning of reusing the previous value, not clearing the address.
It's not enough to consider IF_LOWER_UP flag. Instead,
the important flag is actually IF_UP.
Actually, I suspect that IF_LOWER_UP is not needed. But for
now leave it, in order not to break something.
For addresses (NMPlatformIPAddress) the @addr_source field is ignored
on a platform level. That is, all addresses inside the platform cache
have this value set to NM_IP_CONFIG_SOURCE_KERNEL. Maybe, for that reason,
the source should not be a part of the NMPlatformIPAddress structure, but
it is convenient for users to piggy back the source inside the platform
address structure.
For routes, the source is stored in NMPlatformIPRoute's @rt_source
field. When adding a route to kernel, we set the @rtm_protocol of the
route depending on the source. However, we want to map different source
values to the same protocol value.
On the other hand, when kernel sends us a route that gets put inside
the cache, we must preserve the protocol value and must not map
different protocol values to the same source.
The reason is, that a user can add two routes that only differ by
@rtm_protocol. In that sense, the @rtm_protocol fields is part of the
unique ID of a kernel route, and thus different values must map to
different sources.
Fix this, by extending the range of NMIPConfigSource to contain
a range of protocol fields.
We handle cloned routes (that have rtm_flags RTM_F_CLONED) differently.
We used to mark such routes by hacking NMIPConfigSource to have a special
value. No longer do this, because it mixes different concepts.
Note that the rt_cloned filed fits into a hole in the aligment
of NMPlatformIPRoute. Thus there is almost no overhead to this
change.
The "source" field of NMPlatformIPRoute (now "rt_source") maps to the
protocol field of the route. The source of NMPlatformIPAddress (now
"addr_source") has no direct equivalent in the kernel.
As their use is different, they should have different names. Also,
the name "source" is used all over the place. Hence give the fields
a more distinct name.
For some device types, we use the DEVTYPE from sysfs to determine the
link type. However, the way we read from sysfs can race with device
renames and we could miss the chance to read DEVTYPE correctly.
This doesn't completely fix the sysfs race, but cures the boot-time race
with systemd renaming the device while we are initializing the link.
We ideally should use GUDev for all sysfs accesses, but that would need
some more work for this particular case as currently we need the link type
before we have an udev device instance.
https://bugzilla.gnome.org/show_bug.cgi?id=764803
Co-Authored-By: Beniamino Galvani <bgalvani@redhat.com>
wifi_utils_is_wifi() only has one caller, so it's very clear
what the passed in @sysfs_path contains. Instead of accepting
a redundant argument, compute the sysfs path internally based
on @iface alone.
Consider:
unshare -n
ip link add d0 type dummy
ip link add d1 type dummy
ip link set d0 up
ip link set d1 up
ip addr add 192.168.100.5/24 dev d0
ip addr add 192.168.101.5/24 dev d1
ip route add 192.168.200.0/24 via 192.168.100.1
ip monitor &
ip route change 192.168.200.0/24 via 192.168.101.1
#prints 192.168.200.0/24 via 192.168.101.1 dev d1
ip route show
#192.168.100.0/24 dev d0 proto kernel scope link src 192.168.100.5
#192.168.101.0/24 dev d1 proto kernel scope link src 192.168.101.5
#192.168.200.0/24 via 192.168.101.1 dev d1
Note that `ip route change` replaced the exising route. "Replaced" in this
case means: the previous route on device "d0" got removed and a new route
on "d1" was added. However, kernel only sent one RTM_NEWROUTE event, no
RTM_DELROUTE that notifies about this change.
We need to workaround that by re-synching the routes when we receive a
RTM_NEWROUTE notification.
We aim to keep the platform cache up-to-date only via the netlink
events. However, due to kernel shortcomings we often have to resync
by re-requesting the data, which especially for routes and addresses
means a full dump (as you cannot request only specific route/address
information).
Thus it makes sense to avoid expensive dumps whenever we can.
We schedule dumps via "delayed-actions" and that is already smart
so that muliple schedulings are combined. However, before requesting
a new dump, we clear the flag that indicates that a dump is scheduled.
Thus, while processing the result of of a dump, we would re-schedule
anew which can be necessary in some cases.
In certain cases, we don't require a full resync, when we are in the
middle of processing a dump, because that one dump will provide us
with the full picture. Thus, we can avoid scheduling a new dump if
- we already scheduled a delayed action
- we are in the middle or processing a dump.
This can now be checked via delayed_action_refresh_all_in_progress().
The link_stats structure grew between 4.5 and 4.6 and this would cause
the messages to me ignored when compiling with 4.6 headers and running
on 4.5.
https://bugzilla.gnome.org/show_bug.cgi?id=764332
