If we register the main EAPOL frame listener as late as the associate
event, it may not observe ptk_1_of_4. This defeats handling for early
messages in eapol_rx_packet, which only sees messages once it has been
registered.
If we move registration to the authenticate event, then the EAPOL
frame listeners should observe all messages, without any possible
races. Note that the messages are not actually processed until
eapol_start() is called, and we haven't moved that call site. All
that's changing here is how early EAPOL messages can be observed.
netdev_disconnect() was unconditionally sending CMD_DISCONNECT which
is not the right behavior when IWD has not associated. This means
that if a connection was started then immediately canceled with
the Disconnect() method the kernel would continue to authenticate.
Instead if IWD has not yet associated it should send a deauth
command which causes the kernel to correctly cleanup its state and
stop trying to authenticate.
Below are logs showing the behavior. Autoconnect is started followed
immediately by a DBus Disconnect call, yet the kernel continues
sending authenticate events.
event: state, old: autoconnect_quick, new: connecting (auto)
src/scan.c:scan_cancel() Trying to cancel scan id 1 for wdev 7d
src/wiphy.c:wiphy_radio_work_done() Work item 1 done
src/wiphy.c:wiphy_radio_work_next() Starting work item 2
src/netdev.c:netdev_mlme_notify() MLME notification New Station(19)
src/station.c:station_dbus_disconnect()
src/station.c:station_reset_connection_state() 85
src/station.c:station_roam_state_clear() 85
event: state, old: connecting (auto), new: disconnecting
src/wiphy.c:wiphy_radio_work_done() Work item 2 done
src/station.c:station_connect_cb() 85, result: 5
src/station.c:station_disconnect_cb() 85, success: 1
event: state, old: disconnecting, new: disconnected
src/netdev.c:netdev_mlme_notify() MLME notification Authenticate(37)
src/netdev.c:netdev_authenticate_event()
Unexpected connection related event -- is another supplicant running?
src/netdev.c:netdev_mlme_notify() MLME notification Authenticate(37)
src/netdev.c:netdev_authenticate_event()
Unexpected connection related event -- is another supplicant running?
src/netdev.c:netdev_mlme_notify() MLME notification Authenticate(37)
src/netdev.c:netdev_authenticate_event()
Unexpected connection related event -- is another supplicant running?
src/netdev.c:netdev_mlme_notify() MLME notification Del Station(20)
src/netdev.c:netdev_mlme_notify() MLME notification Authenticate(37)
src/netdev.c:netdev_authenticate_event()
Unexpected connection related event -- is another supplicant running?
In most cases any failure here is likely just due to the AP not
supporting the feature, whether its HE/VHT/HE. This should result
in the estimation returning -ENOTSUP in which case we move down
the list. Any other non-zero return we will now warn to make it
clear the IEs did exist, but were not properly formatted.
All length check failures were changed to continue instead of
fail. This will now treat invalid lengths as if the IE did not
exist.
In addition HE specifically has an extra validation function which,
if failed, was bailing out of the estimation function entirely.
Instead this is now treated as if there was no HE capabilities and
the logic can move down to VHT, HT, or basic rates.
This was changed from too large of a mask (0xff) in an earlier
commit but was masking 5 bits instead of 6.
Fixes: 121c2c5653 ("monitor: properly mask HE capabilities bitfield")
Caught by static analysis, the dev->conn_peer pointer was being
dereferenced very early on without a NULL check, but further it
was being NULL checked. If there is a possibility of it being NULL
the check should be done much earlier.
If the test needs to do something very specific it may be useful to
prevent IWD from managing all the radios. This can now be done
by setting a "reserve" option in the radio settings. The value of
this should be something other than iwd, hostapd, or wpa_supplicant.
For example:
[rad1]
reserve=false
Caught by static analysis, if ATTR_MAC was not in the message there
would be a memcpy with uninitialized bytes. In addition there is no
reason to memcpy twice. Instead 'mac' can be a const pointer which
both verifies it exists and removes the need for a second memcpy.
Static analysis complains that 'last' could be NULL which is true.
This really could only happen if every frequency was disabled which
likely is impossible but in any case, check before dereferencing
the pointer.
Since these are all stack variables they are not zero initialized.
If parsing fails there may be invalid pointers within the structures
which can get dereferenced by p2p_clear_*
The input queue pointer was being initialized unconditionally so if
parsing fails the out pointer is still set after the queue is
destroyed. This causes a crash during cleanup.
Instead use a temporary pointer while parsing and only after parsing
has finished do we set the out pointer.
Reported-By: Alex Radocea <alex@supernetworks.org>
When HUP is received the IO read callback was never completing which
caused it to block indefinitely until waited for. This didn't matter
for most transient processes but for IWD, hostapd, wpa_supplicant
it would cause test-runner to hang if the process crashed.
Detecting a crash is somewhat hacky because we have no process
management like systemd and the return code isn't reliable as some
processes return non-zero under normal circumstances. So to detect
a crash the process output is being checked for the string:
"++++++++ backtrace ++++++++". This isn't 100% reliable obviously
since its dependent on how the binary is compiled, but even if the
crash itself isn't detected any test should still fail if written
correctly.
Doing this allows auto-tests to handle IWD crashes gracefully by
failing the test, printing the exception (event without debugging)
and continue with other tests.
The slaac_test was one that would occationally fail, but very rarely,
due to the resolvconf log values appearing in an unexpected order.
This appears to be related to a typo in netconfig-commit which would
not set netconfig-domains and instead set dns_list. This was fixed
with a pending patch:
https://lore.kernel.org/iwd/20240227204242.1509980-1-denkenz@gmail.com/T/#u
But applying this now leads to testNetconfig failing slaac_test
100% of the time.
I'm not familiar enough with resolveconf to know if this test change
is ok, but based on the test behavior the expected log and disk logs
are the same, just in the incorrect order. I'm not sure if this the
log order is deterministic so instead the check now iterates the
expected log and verifies each value appears once in the resolvconf
log.
Here is an example of the expected vs disk logs after running the
test:
Expected:
-a wlan1.dns
nameserver 192.168.1.2
nameserver 3ffe:501:ffff💯:10
nameserver 3ffe:501:ffff💯:50
-a wlan1.domain
search test1
search test2
Resolvconf log:
-a wlan1.domain
search test1
search test2
-a wlan1.dns
nameserver 192.168.1.2
nameserver 3ffe:501:ffff💯:10
nameserver 3ffe:501:ffff💯:50
static analysis complains that authenticator is used uninitialized.
This isn't strictly true as memory region is reserved for the
authenticator using the contents of the passed in structure. This
region is then overwritten once the authenticator is actually computed
by authenticator_put(). Silence this warning by explicitly setting
authenticator bytes to 0.
Reviewed-by: Paul Menzel <pmenzel@molgen.mpg.de>
This shouldn't be possible in theory since the roam_bss_list being
iterated is a subset of entire scan_bss list station/network has
but to be safe, and catch any issues due to future changes warn on
this condition.
For some encrypt operations DPP passes no AD iovecs (both are
NULL/0). But since the iovec itself is on the stack 'ad' is a
valid pointer from within aes_siv_encrypt. This causes memcpy
to be called which coverity complains about. Since the copy
length is zero it was effectively a no-op, but check num_ad to
prevent the call.
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.