wiphy_get_allowed_freqs was only being used to see if 6GHz was disabled
or not. This is expensive and requires several allocations when there
already exists wiphy_is_band_disabled(). The prior patch modified
wiphy_is_band_disabled() to return -ENOTSUP which allows scan.c to
completely remove the need for wiphy_get_allowed_freqs.
scan_wiphy_watch was also slightly re-ordered to avoid allocating
freqs_6ghz if the scan request was being completed.
The function wiphy_band_is_disabled() return was a bit misleading
because if the band was not supported it would return true which
could be misunderstood as the band is supported, but disabled.
There was only one call site and because of this behavior
wiphy_band_is_disabled needed to be paired with checking if the
band was supported.
To be more descriptive to the caller, wiphy_band_is_disabled() now
returns an int and if the band isn't supported -ENOTSUP will be
returned, otherwise 1 is returned if the band is disabled and 0
otherwise.
This adds support to allow users to disable entire bands, preventing
scanning and connecting on those frequencies. If the
[Rank].BandModifier* options are set to 0.0 it will imply those
bands should not be used for scanning, connecting or roaming. This
now applies to autoconnect, quick, hidden, roam, and dbus scans.
This is a station only feature meaning other modules like RRM, DPP,
WSC or P2P may still utilize those bands. Trying to limit bands in
those modules may sometimes conflict with the spec which is why it
was not added there. In addition modules like DPP/WSC are only used
in limited capacity for connecting so there is little benefit gained
to disallowing those bands.
To support user-disabled bands periodic scans need to specify a
frequency list filtered by any bands that are disabled. This was
needed in scan.c since periodic scans don't provide a frequency
list in the scan request.
If no bands are disabled the allowed freqs API should still
result in the same scan behavior as if a frequency list is left
out i.e. IWD just filters the frequencies as opposed to the kernel.
Currently the only way a scan can be split is if the request does
not specify any frequencies, implying the request should scan the
entire spectrum. This allows the scan logic to issue an extra
request if 6GHz becomes available during the 2.4 or 5GHz scans.
This restriction was somewhat arbitrary and done to let periodic
scans pick up 6GHz APs through a single scan request.
But now with the addition of allowing user-disabled bands
periodic scans will need to specify a frequency list in case a
given band has been disabled. This will break the scan splitting
code which is why this prep work is being done.
The main difference now is the original scan frequencies are
tracked with the scan request. The reason for this is so if a
request comes in with a limited set of 6GHz frequences IWD won't
end up scanning the full 6GHz spectrum later on.
This is more or less copied from scan_get_allowed_freqs but is
going to be needed by station (basically just saves the need for
station to do the same clone/constrain sequence itself).
One slight alteration is now a band mask can be passed in which
provides more flexibility for additional filtering.
This exposes the [Rank].BandModifier* settings so other modules
can use then. Doing this will allow user-disabling of certain
bands by setting these modifier values to 0.0.
The loop iterating the frequency attributes list was not including
the entire channel set since it was stopping at i < band->freqs_len.
The freq_attrs array is allocated to include the last channel:
band->freq_attrs = l_new(struct band_freq_attrs, num_channels + 1);
band->freqs_len = num_channels;
So instead the for loop should use i <= band->freqs_len. (I also
changed this to start the loop at 1 since channel zero is invalid).
The auth/action status is now tracked in ft.c. If an AP rejects the
FT attempt with "Invalid PMKID" we can now assume this AP is either
mis-configured for FT or is lagging behind getting the proper keys
from neighboring APs (e.g. was just rebooted).
If we see this condition IWD can now fall back to reassociation in
an attempt to still roam to the best candidate. The fallback decision
is still rank based: if a BSS fails FT it is marked as such, its
ranking is reset removing the FT factor and it is inserted back
into the queue.
The motivation behind this isn't necessarily to always force a roam,
but instead to handle two cases where IWD can either make a bad roam
decision or get 'stuck' and never roam:
1. If there is one good roam candidate and other bad ones. For
example say BSS A is experiencing this FT key pull issue:
Current BSS: -85dbm
BSS A: -55dbm
BSS B: -80dbm
The current logic would fail A, and roam to B. In this case
reassociation would have likely succeeded so it makes more sense
to reassociate to A as a fallback.
2. If there is only one candidate, but its failing FT. IWD will
never try anything other than FT and repeatedly fail.
Both of the above have been seen on real network deployments and
result in either poor performance (1) or eventually lead to a full
disconnect due to never roaming (2).
Certain return codes, though failures, can indicate that the AP is
just confused or booting up and treating it as a full failure may
not be the best route.
For example in some production deployments if an AP is rebooted it
may take some time for neighboring APs to exchange keys for
current associations. If a client roams during that time it will
reject saying the PMKID is invalid.
Use the ft_associate call return to communicate the status (if any)
that was in the auth/action response. If there was a parsing error
or no response -ENOENT is still returned.
In many tests the hostapd configuration does not include all the
values that a test uses. Its expected that each individual test
will add the values required. In many cases its required each test
slightly alter the configuration for each change every other test
has to set the value back to either a default or its own setting.
This results in a ton of duplicated code mainly setting things
back to defaults.
To help with this problem the hostapd configuration is read in
initially and stored as the default. Tests can then simply call
.default() to set everything back. This significantly reduces or
completely removes a ton of set_value() calls.
This does require that each hostapd configuration file includes all
values any of the subtests will set, which is a small price for the
convenience.
Removed several debug prints which are very verbose and provide
little to no important information.
The get_scan_{done,callback} prints are pointless since all the
parsed scan results are printed by station anyways.
Printing the BSS load is also not that useful since it doesn't
include the BSSID. If anything the BSS load should be included
when station prints out each individual BSS (along with frequency,
rank, etc).
The advertisement protocol print was just just left in there by
accident when debugging, and also provides basically no useful
information.
Some APs don't include the RSNE in the associate reply during
the OWE exchange. This causes IWD to be incompatible since it has
a hard requirement on the AKM being included.
This relaxes the requirement for the AKM and instead warns if it
is not included.
Below is an example of an association reply without the RSN element
IEEE 802.11 Association Response, Flags: ........
Type/Subtype: Association Response (0x0001)
Frame Control Field: 0x1000
.000 0000 0011 1100 = Duration: 60 microseconds
Receiver address: 64:c4:03:88:ff:26
Destination address: 64:c4:03:88:ff:26
Transmitter address: fc:34:97:2b:1b:48
Source address: fc:34:97:2b:1b:48
BSS Id: fc:34:97:2b:1b:48
.... .... .... 0000 = Fragment number: 0
0001 1100 1000 .... = Sequence number: 456
IEEE 802.11 wireless LAN
Fixed parameters (6 bytes)
Tagged parameters (196 bytes)
Tag: Supported Rates 6(B), 9, 12(B), 18, 24(B), 36, 48, 54, [Mbit/sec]
Tag: RM Enabled Capabilities (5 octets)
Tag: Extended Capabilities (11 octets)
Ext Tag: HE Capabilities (IEEE Std 802.11ax/D3.0)
Ext Tag: HE Operation (IEEE Std 802.11ax/D3.0)
Ext Tag: MU EDCA Parameter Set
Ext Tag: HE 6GHz Band Capabilities
Ext Tag: OWE Diffie-Hellman Parameter
Tag Number: Element ID Extension (255)
Ext Tag length: 51
Ext Tag Number: OWE Diffie-Hellman Parameter (32)
Group: 384-bit random ECP group (20)
Public Key: 14ba9d8abeb2ecd5d95e6c12491b16489d1bcc303e7a7fbd…
Tag: Vendor Specific: Broadcom
Tag: Vendor Specific: Microsoft Corp.: WMM/WME: Parameter Element
Reported-By: Wen Gong <quic_wgong@quicinc.com>
Tested-By: Wen Gong <quic_wgong@quicinc.com>
Handling these events notifies hwsim of address changes for interface
creation/removal outside the initial namespace as well as address
changes due to scanning address randomization.
Interfaces that hwsim already knows about are still handled via
nl80211. But any interfaces not known when ADD/DEL_MAC_ADDR events
come will be treated specially.
For ADD, a dummy interface object will be created and added to the
queue. This lets the frame processing match the destination address
correctly. This can happen both for scan randomization and interface
creation outside of the initial namespace.
For the DEL event we handle similarly and don't touch any interfaces
found via nl80211 (i.e. have a 'name') but need to also be careful
with the dummy interfaces that were created outside the initial
namespace. We want to keep these around but scanning MAC changes can
also delete them. This is why a reference count was added so scanning
doesn't cause a removal.
For example, the following sequence:
ADD_MAC_ADDR (interface creation)
ADD_MAC_ADDR (scanning started)
DEL_MAC_ADDR (scanning done)
Hostapd commit b6d3fd05e3 changed the PMKID derivation in accordance
with 802.11-2020 which then breaks PMKID validation in IWD. This
breaks the FT-8021x AKM in IWD if the AP uses this hostapd version
since the PMKID doesn't validate during EAPoL.
This updates the PMKID derivation to use the correct SHA hash for
this AKM and adds SHA1 based PMKID checking for interoperability
with older hostapd versions.
The PMKID derivation has gotten messy due to the spec
updating/clarifying the hash size for the FT-8021X AKM. This
has led to hostapd updating the derivation which leaves older
hostapd versions using SHA1 and newer versions using SHA256.
To support this the checksum type is being fed to
handshake_state_get_pmkid so the caller can decide what sha to
use. In addition handshake_state_pmkid_matches is being added
which uses get_pmkid() but handles sorting out the hash type
automatically.
This lets preauthentication use handshake_state_get_pmkid where
there is the potential that a new PMKID is derived and eapol
can use handshake_state_pmkid_matches which only derives the
PMKID to compare against the peers.
The existing API was limited to SHA1 or SHA256 and assumed a key
length of 32 bytes. Since other AKMs plan to be added update
this to take the checksum/length directly for better flexibility.
This is consistent with the over-Air path, and makes it clear when
reading the logs if over-DS was used, if there was a response frame,
and if the frame failed to parse in some way.
The parsing code was breaking out of the loop on the first comment
which is incorrect and causes only part of the file to be parsed.
Its odd this hasn't popped up until now but its likely due to
differing dhcpd versions, some which add comments and others that
do not.
FILS rekeys were fixed in hostapd somewhat recently but older
versions will fail this test. Document that so we don't get
confused when running tests against older hostapd versions.
Disable power save if the wiphy indicates its needed. Do this
before issuing GET_LINK so the netdev doesn't signal its up until
power save is disabled.
This allows generating code and test coverage reports using lcov &
genhtml. Useful for understanding how much of the codebase is currently
covered by unit and autotests.
Certain drivers do not handle power save very well resulting in
missed frames, firmware crashes, or other bad behavior. Its easy
enough to disable power save via iw, iwconfig, etc but since IWD
removes and creates the interface on startup it blows away any
previous power save setting. The setting must be done *after* IWD
creates the interface which can be done, but needs to be via some
external daemon monitoring IWD's state. For minimal systems,
e.g. without NetworkManager, it becomes difficult and annoying to
persistently disable power save.
For this reason a new driver flag POWER_SAVE_DISABLE is being
added. This can then be referenced when creating the interfaces
and if set, disable power save.
The driver_infos list in wiphy.c is hard coded and, naturally,
not configurable from a user perspective. As drivers are updated
or added users may be left with their system being broken until the
driver is added, IWD released, and packaged.
This adds the ability to define driver flags inside main.conf under
the "DriverQuirks" group. Keys in this group correspond to values in
enum driver_flag and values are a list of glob matches for specific
drivers:
[DriverQuirks]
DefaultInterface=rtl81*,rtl87*,rtl88*,rtw_*,brcmfmac,bcmsdh_sdmmc
ForcePae=buggy_pae_*
Rather than keep a pointer to the driver_info entry copy the flags
into the wiphy object. This preps for supporting driver flags via
a configuration file, specifically allowing for entries that are a
subset of others. For example:
{ "rtl88*", DEFAULT_IF },
{ "rtl88x2bu", FORCE_PAE },
Before it was not possible to add entires like this since only the
last entry match would get set. Now DEFAULT_IF would get set to all
matches, and FORCE_PAE to only rtl88x2bu. This isn't especially
important for the static list since it could be modified to work
correctly, but will be needed when parsing flags from a
configuration file that may contain duplicates or subsets of the
static list.