Tests the 3 possible options to UseDefaultEccGroup behave as
expected:
- When not provided use the "auto" behavior.
- When false, always use higher order groups
- When true, always use default group
The SAE test made some assumptions on certain conditions due to
there being no way of checking if those conditions were met
Mainly the use of H2E/hunt-and-peck.
We assumed that when we told hostapd to use H2E or hunt/peck it
would but in reality it was not. Hostapd is apparently not very
good at swapping between the two with a simple "reload" command.
Once H2E is enabled it appears that it cannot be undone.
Similarly the vendor elements seem to carry over from test to
test, and sometimes not which causes unintended behavior.
To fix this create separate APs for the specific scenario being
tested:
- Hunt and peck
- H2E
- Special vendor_element simulating buggy APs
Another issue found was that if password identifies are used
hostapd automatically chooses H2E which was not intented, at
least based on the test names (in reality it wasn't causing any
problems).
The tests have also been improved to use hostapds "sta_status"
command which contains the group number used when authenticating,
so now that at least can be verified.
In order to complete the learned default group behavior station needs
to be aware of when an SAE/OWE connection retried. This is all
handled within netdev/sae so add a new netdev event so station can
set the appropriate network flags to prevent trying the non-default
group again.
If either the settings specify it, or the scan_bss is flagged, set
the use_default_ecc_group flag in the handshake.
This also renames the flag to cover both OWE and SAE
There is special handling for buggy OWE APs which set a network flag
to use the default OWE group. Utilize the more persistent setting
within known-networks as well as the network object (in case there
is no profile).
This also renames the get/set APIs to be generic to ECC groups rather
than only OWE.
This adds the option [Settings].UseDefaultEccGroup which allows a
network profile to specify the behavior when using an ECC-based
protocol. If unset (default) IWD will learn the behavior of the
network for the lifetime of its process.
Many APs do not support group 20 which IWD tries first by default.
This leads to an initial failure followed by a retry using group 19.
This option will allow the user to configure IWD to use group 19
first or learn the network capabilities, if the authentication fails
with group 20 IWD will always use group 19 for the process lifetime.
The information specific to auth/assoc/connect timeouts isn't
communicated to station so emit the notice events within netdev.
We could communicate this to station by adding separate netdev
events, but this does not seem worth it for this use case as
these notice events aren't strictly limited to station.
For anyone debugging or trying to identify network infrastructure
problems the IWD DBus API isn't all that useful and ultimately
requires going through debug logs to figure out exactly what
happened. Having a concise set of debug logs containing only
relavent information would be very useful. In addition, having
some kind of syntax for these logs to be parsed by tooling could
automate these tasks.
This is being done, starting with station, by using iwd_notice
which internally uses l_notice. The use of the notice log level
(5) in IWD will be strictly for the type of messages described
above.
iwd_notice is being added so modules can communicate internal
state or event information via the NOTICE log level. This log
level will be reserved in IWD for only these type of messages.
The iwd_notice macro aims to help enforce some formatting
requirements for these type of log messages. The messages
should be one or more comma-separated "key: value" pairs starting
with "event: <name>" and followed by any additional info that
pertains to that event.
iwd_notice only enforces the initial event key/value format and
additional arguments are left to the caller to be formatted
correctly.
The --logger,-l flag can now be used to specify the logger type.
Unset (default) will set log output to stderr as it is today. The
other valid options are "syslog" and "journal".
basename use is considered harmful. There are two versions of
basename (see man 3 basename for details). The more intuitive version,
which is currently being used inside wiphy.c, is not supported by musl
libc implementation. Use of the libgen version is not preferred, so
drop use of basename entirely. Since wiphy.c is the only call site of
basename() inside iwd, open code the required logic.
ELL now has a setting to limit the number of DHCP attempts. This
will now be set in IWD and if reached will result in a failure
event, and in turn a disconnect.
IWD will set a maximum of 4 retries which should keep the maximum
DHCP time to ~60 seconds roughly.
The known frequency list is now a sorted list and the roam scan
results were not complying with this new requirement. The fix is
easy though since the iteration order of the scan results does
not matter (the roam candidates are inserted by rank). To fix
the known frequencies order we can simply reverse the scan results
list before iterating it.
When operating as an AP, drop message 4 of the 4-way handshake if the AP
has not yet received message 2. Otherwise an attacker can skip message 2
and immediately send message 4 to bypass authentication (the AP would be
using an all-zero ptk to verify the authenticity of message 4).
Modify the existing frequency test to check that the ordering
lines up with the ranking of the BSS.
Add a test to check that quick scans limit the number of known
frequencies.
In very large network deployments there could be a vast amount of APs
which could create a large known frequency list after some time once
all the APs are seen in scan results. This then increases the quick
scan time significantly, in the very worst case (but unlikely) just
as long as a full scan.
To help with this support in knownnetworks was added to limit the
number of frequencies per network. Station will now only get 5
recent frequencies per network making the maximum frequencies 25
in the worst case (~2.5s scan).
The magic values are now defines, and the recent roam frequencies
was also changed to use this define as well.
In order to support an ordered list of known frequencies the list
should be in order of last seen BSS frequencies with the highest
ranked ones first. To accomplish this without adding a lot of
complexity the frequencies can be pushed into the list as long as
they are pushed in reverse rank order (lowest rank first, highest
last). This ensures that very high ranked BSS's will always get
superseded by subsequent scans if not seen.
This adds a new network API to update the known frequency list
based on the current newtork->bss_list. This assumes that station
always wipes the BSS list on scans and populates with only fresh
BSS entries. After the scan this API can be called and it will
reverse the list, then add each frequency.
I've had connections to a WPA3-Personal only network fail with no log
message from iwd, and eventually figured out to was because the driver
would've required using CMD_EXTERNAL_AUTH. With the added log messages
the reason becomes obvious.
Additionally the fallback may happen even if the user explicitly
configured WPA3 in NetworkManager, I believe a warning is appropriate
there.
There was an unhandled corner case if netconfig was running and
multiple roam conditions happened in sequence, all before netconfig
had completed. A single roam before netconfig was already handled
(23f0f5717c) but this did not take into account any additional roam
conditions.
If IWD is in this state, having started netconfig, then roamed, and
again restarted netconfig it is still in a roaming state which will
prevent any further roams. IWD will remain "stuck" on the current
BSS until netconfig completes or gets disconnected.
In addition the general state logic is wrong here. If IWD roams
prior to netconfig it should stay in a connecting state (from the
perspective of DBus).
To fix this a new internal station state was added (no changes to
the DBus API) to distinguish between a purely WiFi connecting state
(STATION_STATE_CONNECTING/AUTO) and netconfig
(STATION_STATE_NETCONFIG). This allows IWD roam as needed if
netconfig is still running. Also, some special handling was added so
the station state property remains in a "connected" state until
netconfig actually completes, regardless of roams.
For some background this scenario happens if the DHCP server goes
down for an extended period, e.g. if its being upgraded/serviced.
This fixes a build break on some systems, specifically the
raspberry Pi 3 (ARM):
monitor/main.c: In function ‘open_packet’:
monitor/main.c:176:3: error: implicit declaration of function ‘close’; did you mean ‘pclose’? [-Werror=implicit-function-declaration]
176 | close(fd);
| ^~~~~
| pclose
This was caused by the unused hostapd instance running after being
re-enabled by mistake. This cause an additional scan result with the
same rank to be seen which would then be connected to by luck of the
draw.
This really needs to be done to many more autotests but since this
one seems to have random failures ensure that all the tests still
run if one fails. In addition add better cleanup for hwsim rules.
This gives the tests a lot more fine-tune control to wait for
specific state transitions rather than only what is exposed over
DBus.
The additional events for "ft-roam" and "reassoc-roam" were removed
since these are now covered by the more generic state change events
("ft-roaming" and "roaming" respectively).