After adding prefix matching the rule structure contained allocated
memory which was not being cleaned up on exit if rules still
remained in the list (removing the rule via DBus was done correctly)
The following commit:
80db8fd86c ("build: Use -Wvariadic-macros warning")
added a warning about variadic-macros. But it isn't quite clear why
since variadic macros are used throghout iwd. GCC doesn't honor this
option, but clang does. Since there's no real reason to stop using
variadic macros at this time, drop this warning.
The HT40+/- flags were reversed when checking against the 802.11
behavior flags.
HT40+ means the secondary channel is above (+) the primary channel
therefore corresponds to the PRIMARY_CHANNEL_LOWER behavior. And
the opposite for HT40-.
Reported-By: Alagu Sankar <alagusankar@gmail.com>
Use a more appropriate printf conversion string in order to avoid
unnecessary implicit conversion which can lead to a buffer overflow.
Reasons similar to commit:
98b758f893 ("knownnetworks: fix printing SSID in hex")
In the case that the FT target is on the same channel as we're currently
operating on, use ft_authenticate_onchannel instead of ft_authenticate.
Going offchannel in this case can confuse some drivers.
Currently when we try FT-over-Air, the Authenticate frame is always
sent via offchannel infrastructure We request the driver to go
offchannel, then send the Authenticate frame. This works fine as long
as the target AP is on a different channel. On some networks some (or
all) APs might actually be located on the same channel. In this case
going offchannel will result in some drivers not actually sending the
Authenticate frame until after the offchannel operation completes.
Work around this by introducing a new ft_authenticate variant that will
not request an offchannel operation first.
Force conversion to unsigned char before printing to avoid sign
extension when printing SSID in hex. For example, if there are CJK
characters in SSID, it will generate a very long string like
/net/connman/iwd/ffffffe8ffffffaeffffffa1.
If a very long ssid was used (e.g. CJK characters in SSID), it might do
out of bounds write to static variable for lack of checking the position
before the last snprintf() call.
Seeing that some authenticators can't handle TLS session caching
properly, allow the EAP-TLS-based methods session caching support to be
disabled per-network using a method specific FastReauthentication setting.
Defaults to true.
With the previous commit, authentication should succeed at least every
other attempt. I'd also expect that EAP-TLS is not usually affected
because there's no phase2, unlike with EAP-PEAP/EAP-TTLS.
If we have a TLS session cached from this attempt or a previous
successful connection attempt but the overall EAP method fails, forget
the session to improve the chances that authentication succeeds on the
next attempt considering that some authenticators strangely allow
resumption but can't handle it all the way to EAP method success.
Logically the session resumption in the TLS layers on the server should
be transparent to the EAP layers so I guess those may be failed
attempts to further optimise phase 2 when the server thinks it can
already trust the client.
The extra IE length for the WMM IE was being set to 26 which is
the HT IE length, not WMM. Fix this and use the proper size for
the WMM IE of 50 bytes.
This shouldn't have caused any problems prior as the tail length
is always allocated with 256 or 512 extra bytes of headroom.
Since channels numbers are used as indexes into the array, and given
that channel numbers start at '1' instead of 0, make sure to allocate a
buffer large enough to not overflow when the max channel number for a
given band is accessed.
src/manager.c:manager_wiphy_dump_callback() New wiphy phy1 added (1)
==22290== Invalid write of size 2
==22290== at 0x4624B2: nl80211_parse_supported_frequencies (nl80211util.c:570)
==22290== by 0x417CA5: parse_supported_bands (wiphy.c:1636)
==22290== by 0x418594: wiphy_parse_attributes (wiphy.c:1805)
==22290== by 0x418E20: wiphy_update_from_genl (wiphy.c:1991)
==22290== by 0x464589: manager_wiphy_dump_callback (manager.c:564)
==22290== by 0x4CBDDA: process_unicast (genl.c:944)
==22290== by 0x4CC19C: received_data (genl.c:1056)
==22290== by 0x4C7140: io_callback (io.c:120)
==22290== by 0x4C5A97: l_main_iterate (main.c:476)
==22290== by 0x4C5BDC: l_main_run (main.c:523)
==22290== by 0x4C5F0F: l_main_run_with_signal (main.c:645)
==22290== by 0x40503B: main (main.c:600)
==22290== Address 0x4aa76ec is 0 bytes after a block of size 28 alloc'd
==22290== at 0x48417B5: malloc (vg_replace_malloc.c:393)
==22290== by 0x4BC4D1: l_malloc (util.c:62)
==22290== by 0x417BE4: parse_supported_bands (wiphy.c:1619)
==22290== by 0x418594: wiphy_parse_attributes (wiphy.c:1805)
==22290== by 0x418E20: wiphy_update_from_genl (wiphy.c:1991)
==22290== by 0x464589: manager_wiphy_dump_callback (manager.c:564)
==22290== by 0x4CBDDA: process_unicast (genl.c:944)
==22290== by 0x4CC19C: received_data (genl.c:1056)
==22290== by 0x4C7140: io_callback (io.c:120)
==22290== by 0x4C5A97: l_main_iterate (main.c:476)
==22290== by 0x4C5BDC: l_main_run (main.c:523)
==22290== by 0x4C5F0F: l_main_run_with_signal (main.c:645)
==22290==
This adds support for rekeys to AP mode. A single timer is used and
reset to the next station needing a rekey. A default rekey timer of
600 seconds is used unless the profile sets a timeout.
The only changes required was to set the secure bit for message 1,
reset the frame retry counter, and change the 2/4 verifier to use
the rekey flag rather than ptk_complete. This is because we must
set ptk_complete false in order to detect retransmissions of the
4/4 frame.
Initiating a rekey can now be done by simply calling eapol_start().
If IWD ends up dumping wiphy's twice (because of NEW_WIPHY event
soon after initial dump) it will also try and dump interfaces
twice leading to multiple DEL_INTERFACE calls. The second attempt
will fail with -ENODEV (since the interface was already deleted).
Just silently fail with this case and let the other DEL_INTERFACE
path handle the re-creation.
With really badly timed events a wiphy can be registered twice. This
happens when IWD starts and requests a wiphy dump. Immediately after
a NEW_WIPHY event comes in (presumably when the driver loads) which
starts another dump. The NEW_WIPHY event can't simply be ignored
since it could be a hotplug (e.g. USB card) so to fix this we can
instead just prevent it from being registered.
This does mean both dumps will happen but the information will just
be added to the same wiphy object.
Past commits should address any potential problems of the timer
firing during FT, but its still good practice to cancel the timer
once it is no longer needed, i.e. once FT has started.
If station has already started FT ensure station_cannot_roam takes
that into account. Since the state has not yet changed it must also
check if the FT work ID is set.
Under the following conditions IWD can accidentally trigger a second
roam scan while one is already in progress:
- A low RSSI condition is met. This starts the roam rearm timer.
- A packet loss condition is met, which triggers a roam scan.
- The roam rearm timer fires and starts another roam scan while
also overwriting the first roam scan ID.
- Then, if IWD gets disconnected the overwritten roam scan gets
canceled, and the roam state is cleared which NULL's
station->connected_network.
- The initial roam scan results then come in with the assumption
that IWD is still connected which results in a crash trying to
reference station->connected_network.
This can be fixed by adding a station_cannot_roam check in the rearm
timer. If IWD is already doing a roam scan station->preparing_roam
should be set which will cause it to return true and stop any further
action.
Aborting (signal 11) [/usr/libexec/iwd]
iwd[426]: ++++++++ backtrace ++++++++
iwd[426]: #0 0x7f858d7b2090 in /lib/x86_64-linux-gnu/libc.so.6
iwd[426]: #1 0x443df7 in network_get_security() at ome/locus/workspace/iwd/src/network.c:287
iwd[426]: #2 0x421fbb in station_roam_scan_notify() at ome/locus/workspace/iwd/src/station.c:2516
iwd[426]: #3 0x43ebc1 in scan_finished() at ome/locus/workspace/iwd/src/scan.c:1861
iwd[426]: #4 0x43ecf2 in get_scan_done() at ome/locus/workspace/iwd/src/scan.c:1891
iwd[426]: #5 0x4cbfe9 in destroy_request() at ome/locus/workspace/iwd/ell/genl.c:676
iwd[426]: #6 0x4cc98b in process_unicast() at ome/locus/workspace/iwd/ell/genl.c:954
iwd[426]: #7 0x4ccd28 in received_data() at ome/locus/workspace/iwd/ell/genl.c:1052
iwd[426]: #8 0x4c79c9 in io_callback() at ome/locus/workspace/iwd/ell/io.c:120
iwd[426]: #9 0x4c62e3 in l_main_iterate() at ome/locus/workspace/iwd/ell/main.c:476
iwd[426]: #10 0x4c6426 in l_main_run() at ome/locus/workspace/iwd/ell/main.c:519
iwd[426]: #11 0x4c6752 in l_main_run_with_signal() at ome/locus/workspace/iwd/ell/main.c:645
iwd[426]: #12 0x405987 in main() at ome/locus/workspace/iwd/src/main.c:600
iwd[426]: #13 0x7f858d793083 in /lib/x86_64-linux-gnu/libc.so.6
iwd[426]: +++++++++++++++++++++++++++
If the authenticator has already set an snonce then the packet must
be a retransmit. Handle this by sending 3/4 again but making sure
to not reset the frame counter.
Old wpa_supplicant versions do not set the secure bit on 2/4 during
rekeys which causes IWD to reject the message and eventually time out.
Modern versions do set it correctly but even Android 13 (Pixel 5a)
still uses an ancient version of wpa_supplicant which does not set the
bit.
Relax this check and instead just print a warning but allow the message
to be processed.
In try_handshake_complete() we return early if all the keys had
been installed before (initial associations). For rekeys we can
now emit the REKEY_COMPLETE event which lets AP mode reset the
rekey timer for that station.
When the TK is installed the 'ptk_installed' flag was never set to
zero. For initial associations this was fine (already zero) but for
rekeys the flag needs to be unset so try_handshake_complete knows
if the key was installed. This is consistent with how gtk/igtk keys
work as well.
Rekeys for station mode don't need to know when complete since
there is nothing to do once done. AP mode on the other hand needs
to know if the rekey was successful in order to reset/set the next
rekey timer.
The second handshake message was hard coded with the secure bit as
zero but for rekeys the secure bit should be set to 1. Fix this by
changing the 2/4 builder to take a boolean which will set the bit
properly.
It should be noted that hostapd doesn't check this bit so EAPoL
worked just fine, but IWD's checks are more strict.
The PEAP RFC wants implementations to enforce that Phase2 methods have
been successfully completed prior to accepting a successful result TLV.
However, when TLS session resumption is used, some servers will skip
phase2 methods entirely and simply send a Result TLV with a success
code. This results in iwd (erroneously) rejecting the authentication
attempt.
Fix this by marking phase2 method as successful if session resumption is
being used.
This adds a builder which sets the country IE in probes/beacons.
The IE will use the 'single subband triplet sequence' meaning
dot11OperatingClassesRequired is false. This is much easier to
build and doesn't require knowing an operating class.
The IE itself is variable in length and potentially could grow
large if the hardware has a weird configuration (many different
power levels or segmentation in supported channels) so the
overall builder was changed to take the length of the buffer and
warnings will be printed if any space issues are encountered.
IWD's channel/frequency conversions use simple math to convert and
have very minimal checks to ensure the input is valid. This can
lead to some channels/frequencies being calculated which are not
in IWD's E-4 table, specifically in the 5GHz band.
This is especially noticable using mac80211_hwsim which includes
some obscure high 5ghz frequencies which are not part of the 802.11
spec.
To fix this calculate the frequency or channel then iterate E-4
operating classes to check that the value actually matches a class.