A user reported that IWD was failing to FT in some cases and this was
due to the AP setting the Retry bit in the frame type. This was
unexpected by IWD since it directly checks the frame type against
0x00b0 which does not account for any B8-B15 bits being set.
IWD doesn't need to verify the frame type field for a few reasons:
First mpdu_validate checks the management frame type, Second the kernel
checks prior to forwarding the event. Because of this the check was
removed completely.
Reported-By: Michael Johnson <mjohnson459@gmail.com>
station_signal_agent_notify() has been refactored so that its usage is
simpler. station_rssi_level_changed() has been replaced by an inlined
call to station_signal_agent_notify().
The call to netdev_rssi_level_init() in netdev_connect_common() is
currently a no-op, because netdev->connected has not yet been set at
this stage of the connection attempt. Because netdev_rssi_level_init()
is only used twice, it's been replaced by two inlined calls to
netdev_set_rssi_level_idx().
The SignalLevelAgent API is currently broken by the system bus's
security policy, which blocks iwd's outgoing method call messages. This
patch punches a hole for method calls on the
net.connman.iwd.SignalLevelAgent interface.
There may be situations where DNS information should not be set (for
example in auto-tests where the resolver daemon is not running) or if a
user wishes to ignore DNS information obtained.
Allows granularly specifying the DHCP logging level. This allows the
user to tailor the output to what they need. By default, always display
info, errors and warnings to match the rest of iwd.
Setting `IWD_DHCP_DEBUG` to "debug", "info", "warn", "error" will limit
the logging to that level or higher allowing the default logging
verbosity to be reduced.
Setting `IWD_DHCP_DEBUG` to "1" as per the current behavior will
continue to enable debug level logging.
After the initial handshake, once the TK has been installed, all frames
coming to the AP should be encrypted. However, it seems that some
kernel/driver combinations allow unencrypted EAPoL frames to be received
and forwarded to userspace. This can lead to various attacks.
Some drivers can report whether the EAPoL frame has been received
unencrypted. Use this information to drop unencrypted EAPoL frames
received after the initial handshake has been completed.
After the initial handshake, once the TK has been installed, all frames
coming from the AP should be encrypted. However, it seems that some
kernel/driver combinations allow unencrypted EAPoL frames to be received
and forwarded to userspace. This can lead to a denial-of-service attack
where receipt of an invalid, unencrypted EAP-Failure frame generated by
an adversary results in iwd terminating an ongoing connection.
Some drivers can report whether the EAPoL frame has been received
unencrypted. Use this information to drop unencrypted EAP frames
received after the initial handshake has been completed.
Reported-by: Domien Schepers <schepers.d@northeastern.edu>
After the initial handshake, once the TK has been installed, all frames
coming from the AP should be encrypted. However, it seems that some
kernel/driver combinations allow unencrypted EAPoL frames to be received
and forwarded to userspace. This can lead to a denial-of-service attack
where receipt of an invalid, unencrypted EAPoL 1/4 frame generated by an
adversary results in iwd terminating an ongoing connection.
Some drivers can report whether the EAPoL frame has been received
unencrypted. Use this information to drop unencrypted PTK 1/4 frames
received after the initial handshake has been completed.
Reported-by: Domien Schepers <schepers.d@northeastern.edu>
Do not fail an ongoing handshake when an invalid EAPoL frame is
received. Instead, follow the intent of 802.11-2020 section 12.7.2:
"EAPOL-Key frames containing invalid field values shall be silently
discarded."
This prevents a denial-of-service attack where receipt of an invalid,
unencrypted EAPoL 1/4 frame generated by an adversary results in iwd
terminating an ongoing connection.
Reported-by: Domien Schepers <schepers.d@northeastern.edu>
Periodic scan requests are meant to be performed with a lower priority
than normal scan requests. They're thus given a different priority when
inserting them into the wiphy work queue. Unfortunately, the priority
is not taken into account when they are inserted into the
sr->requests queue. This can result in the scanning code being confused
since it assumes the top of the queue is always the next scheduled or
currently ongoing scan. As a result any further wiphy_work might never be
started properly.
Apr 27 16:34:40 iwd[5117]: ../iwd-1.26/src/wiphy.c:wiphy_radio_work_insert() Inserting work item 3
Apr 27 16:34:40 iwd[5117]: ../iwd-1.26/src/wiphy.c:wiphy_radio_work_next() Starting work item 3
Apr 27 16:34:40 iwd[5117]: ../iwd-1.26/src/scan.c:scan_periodic_timeout() 1
Apr 27 16:34:40 iwd[5117]: ../iwd-1.26/src/wiphy.c:wiphy_radio_work_insert() Inserting work item 4
Apr 27 16:34:43 iwd[5117]: ../iwd-1.26/src/wiphy.c:wiphy_radio_work_insert() Inserting work item 5
Apr 27 16:34:43 iwd[5117]: ../iwd-1.26/src/wiphy.c:wiphy_radio_work_done() Work item 3 done
Apr 27 16:34:43 iwd[5117]: ../iwd-1.26/src/wiphy.c:wiphy_radio_work_next() Starting work item 5
Apr 27 16:34:43 iwd[5117]: ../iwd-1.26/src/scan.c:scan_notify() Scan notification Trigger Scan(33)
Apr 27 16:34:43 iwd[5117]: ../iwd-1.26/src/scan.c:scan_request_triggered() Passive scan triggered for wdev 1
Apr 27 16:34:43 iwd[5117]: ../iwd-1.26/src/scan.c:scan_periodic_triggered() Periodic scan triggered for wdev 1
In the above log, scan request 5 (triggered by dbus) is started before
scan request 4 (periodic scan). Yet the scanning code thinks scan
request 4 was triggered.
Fix this by using the wiphy_work priority to sort the sr->requests queue
so that the scans are ordered in the same manner.
Reported-by: Alvin Šipraga <ALSI@bang-olufsen.dk>
The upstream code immediately retransmitted any no-ACK frames.
This would work in cases where the peer wasn't actively switching
channels (e.g. the ACK was simply lost) but caused unintended
behavior in the case of a channel switch when the peer was not
listening.
If either IWD or the peer needed to switch channels based on the
authenticate request the response may end up not getting ACKed
because the peer is idle, or in the middle of the hardware changing
channels. IWD would get no-ACK and immediately send the frame again
and most likely the same behavior would result. This would very
quickly increment frame_retry past the maximum and DPP would fail.
Instead when no ACK is received wait 1 second before sending out
the next frame. This can re-use the existing frame_pending buffer
and the same logic for re-transmitting.
There is a potential corner case of an offchannel frame callback
being called after ROC has ended.
This could happen in theory if a received frame is queued right as
the ROC session expires. If the ROC cancel event makes it to user
space before the frame IWD will schedule another ROC then receive
the frame. This doesn't prevent IWD from sending out another
frame since OFFCHANNEL_TX_OK is used, but it will prevent IWD from
receiving a response frame since no dwell duration is used with DPP.
To handle this an roc_started bool was added to the dpp_sm which
tracks the ROC state. If dpp_send_frame is called when roc_started
is false the frame will be saved and sent out once the ROC session
is started again.
ConnectHiddenNetwork creates a temporary network object and initiates a
connection with it. If the connection fails (due to an incorrect
passphrase or other reasons), then this temporary object is destroyed.
Delay its destruction until network_disconnected() since
network_connect_failed is called too early. Also, re-order the sequence
in station_reset_connection_state() in order to avoid using the network
object after it has been freed by network_disconnected().
Fixes: 85d9d6461f ("network: Hide hidden networks on connection error")
station_hide_network will remove and free the network object, so calling
network_close_settings will result in a crash. Make sure this is done
prior to network object's destruction.
Fixes: 85d9d6461f ("network: Hide hidden networks on connection error")
If a user connection fails on a freshly scanned psk or open hidden
network, during passphrase request or after, it shall be removed from
the network list. Otherwise, it would be possible to directly connect
to that known network, which will appear as not hidden.
p2p_peer_update_existing may be called with a scan_bss struct built from
a Probe Request frame so it can't access bss->p2p_probe_resp_info even
if peer->bss was built from a Probe Response. Check the source frame
type of the scan_bss struct before updating the Device Address.
This fixes one timing issue that would make the autotest fail often.
Since l_malloc is used the frame contents are not zero'ed automatically
which could result in random bytes being present in the frame which were
expected to be zero. This poses a problem when calculating the MIC as the
crypto operations are done on the entire frame with the expectation of
the MIC being zero.
Fixes: 83212f9b23 ("eapol: change eapol_create_common to support FILS")
explicit_bzero is used in src/storage.c since commit
01cd858760 but src/missing.h is not
included, as a result build with uclibc fails on:
/home/buildroot/autobuild/instance-0/output-1/host/lib/gcc/powerpc-buildroot-linux-uclibc/10.3.0/../../../../powerpc-buildroot-linux-uclibc/bin/ld: src/storage.o: in function `storage_init':
storage.c:(.text+0x13a4): undefined reference to `explicit_bzero'
Fixes:
- http://autobuild.buildroot.org/results/2aff8d3d7c33c95e2c57f7c8a71e69939f0580a1
This is used to hold the current BSS frequency which will be
used after IWD receives a presence announcement. Since this was
not being set, the logic was always thinking there was a channel
mismatch (0 != current_freq) and attempting to go offchannel to
'0' which resulted in -EINVAL, and ultimately protocol termination.
The logic here assumed any BSS's in the roam scan were identical to
ones in station's bss_list with the same address. Usually this is true
but, for example, if the BSS changed frequency the one in station's
list is invalid.
Instead when a match is found remove the old BSS and re-insert the new
one.
With the addition of 6GHz '6000' is no longer the maximum frequency
that could be in .known_network.freq. For more robustness
band_freq_to_channel is used to validate the frequency.
Scanning while in AP mode is somewhat of an edge case, but it does
have some usefulness specifically with onboarding new devices, i.e.
a new device starts an AP, a station connects and provides the new
device with network credentials, the new device switches to station
mode and connects to the desired network.
In addition this could be used later for ACS (though this is a bit
overkill for IWD's access point needs).
Since AP performance is basically non-existant while scanning this
feature is meant to be used in a limited scope.
Two DBus API's were added which mirror the station interface: Scan and
GetOrderedNetworks.
Scan is no different than the station variant, and will perform an active
scan on all channels.
GetOrderedNetworks diverges from station and simply returns an array of
dictionaries containing basic information about networks:
{
Name: <ssid>
SignalStrength: <mBm>
Security: <psk, open, or 8021x>
}
Limitations:
- Hidden networks are not supported. This isn't really possible since
the SSID's are unknown from the AP perspective.
- Sharing scan results with station is not supported. This would be a
convenient improvement in the future with respect to onboarding new
devices. The scan could be performed in AP mode, then switch to
station and connect immediately without needing to rescan. A quick
hack could better this situation by not flushing scan results in
station (if the kernel retains these on an iftype change).
This was already implemented in station but with no dependency on
that module at all. AP will need this for a scanning API so its
being moved into scan.c.
The 802.11ax standards adds some restrictions for the 6GHz band. In short
stations must use SAE, OWE, or 8021x on this band and frame protection is
required.
All uses of this macro will work with a bitwise comparison which is
needed for 6GHz checks and somewhat more flexible since it can be
used to compare RSN info, not only single AKM values.
This adds checks if MFP is set to 0 or 1:
0 - Always fail if the frequency is 6GHz
1 - Fail if MFPC=0 and the frequency is 6GHz.
If HW is capable set MFPR=1 for 6GHz
