FT-over-DS cannot use OCV due to how the kernel works. This means
we could connect initially with OCVC set, but a FT-over-DS attempt
needs to unset OCVC. Set OCVC false when rebuilding the RSNE for
reassociation.
The FT-over-DS action stage builds an FT-Request which contains an
RSNE. Since FT-over-DS will not support OCV add a boolean to
ft_build_authenticate_ies so the OCVC bit can be disabled rather
than relying on the handshake setting.
This modifies the FT logic to fist call get_oci() before
reassociation. This allows the OCI to be included in reassociation
and in the 4-way handshake later on.
The code path for getting the OCI had to be slightly changed to
handle an OCI that is already set. First the handshake chandef is
NULL'ed out for any new connection. This prevents a stale OCI from
being used. Then some checks were added for this case in
netdev_connect_event and if chandef is already set, start the 4-way
handshake.
netconfig_load_settings is called when establishing a new initial
association to a network. This function tries to update dhcp/dhcpv6
clients with the MAC address of the netdev being used. However, it is
too early to update the MAC here since netdev might need to powercycle
the underlying network device in order to update the MAC (i.e. when
AddressRandomization="network" is used).
If the MAC is set incorrectly, DHCP clients are unable to obtain the
lease properly and station is stuck in "connecting" mode indefinitely.
Fix this by delaying MAC address update until netconfig_configure() is
invoked.
Fixes: ad228461ab ("netconfig: Move loading settings to new method, refactor")
If the AP advertises FT-over-DS support it likely wants us to use
it. Additionally signal_low is probably going to be true since IWD
has started a roam attempt.
When netdev goes down so does station, but prior to netdev calling
the neighbor report callback. The way the logic was written station
is dereferenced prior to checking for any errors, causing a use
after free.
Since -ENODEV is used in this case check for that early before
accessing station.
After namespaces were added, the dbus address was customized to
be /tmp/dbus{0..N}. This prevented any dbus applications started
in the shell from working properly.
Set DBUS_SYSTEM_BUS_ADDRESS to the environment prior to entering
the shell.
This adds a utility to convert a chandef obtained from the kernel into a
3 byte OCI element format containing the operating class, primary
channel and secondary channel center frequency index.
This changes scan_bss from using separate members for each
OWE transition element data type (ssid, ssid_len, and bssid)
to a structure that holds them all.
This is being done because OWE transition has option operating
class and channel bytes which will soon be parsed. This would
end up needing 5 separate members in scan_bss which is a bit
much for a single IE that needs to be parsed.
This makes checking the presense of the IE more convenient
as well since it can be done with a simple NULL pointer check
rather than having to l_memeqzero the BSSID.
These members are currently stored in scan_bss but with the
addition of operating class/band info this will become 5
separate members. This is a bit excessive to store in scan_bss
separately so instead this structure can hold everything related
to the OWE transition IE.
Add a utility for setting the OCI obtained from the hardware (prior to
handshake starting) as well as a utility to validate the OCI obtained
from the peer.
This adds a utility that can convert an operating class + channel
combination to a frequency. Operating class is assumed to be a global
operating class from 802.11 Appendix E4.
This information can be found in Operating Channel Information (OCI) IEs,
as well as OWE Transition Mode IEs.
Calling handshake_state_setup_own_ciphers from within
handshate_state_set_authenticator_ie was misleading. In all cases the
supplicant chooses the AKM. This worked since our AP code only ever
advertises a single AKM, but would not work in the general case.
Similarly, the supplicant would choose which authentication type to use
by either sending the WPA1 or WPA2 IE (or OSEN). Thus the setting of
the related variables in handshake_state_set_authenticator_ie was also
incorrect. In iwd, the supplicant_ie would be set after the
authenticator_ie, so these settings would be overwritten in most cases.
Refactor these two setters so that the supplicant's chosen rsn_info
would be used to drive the handshake.