The info struct is on the stack which leads to the potential
for uninitialized data access. Zero out the info struct prior
to calling the get station callback:
==141137== Conditional jump or move depends on uninitialised value(s)
==141137== at 0x458A6F: diagnostic_info_to_dict (diagnostic.c:109)
==141137== by 0x41200B: station_get_diagnostic_cb (station.c:3620)
==141137== by 0x405BE1: netdev_get_station_cb (netdev.c:4783)
==141137== by 0x4722F9: process_unicast (genl.c:994)
==141137== by 0x4722F9: received_data (genl.c:1102)
==141137== by 0x46F28B: io_callback (io.c:120)
==141137== by 0x46E5AC: l_main_iterate (main.c:478)
==141137== by 0x46E65B: l_main_run (main.c:525)
==141137== by 0x46E65B: l_main_run (main.c:507)
==141137== by 0x46E86B: l_main_run_with_signal (main.c:647)
==141137== by 0x403EA8: main (main.c:490)
It isn't safe to return a NULL from diagnostic_akm_suite_to_security()
since the value is used directly. Also, if the AKM suite is 0, this
implies that the network is an Open network and not some unknown AKM.
==17982== Invalid read of size 1
==17982== at 0x483BC92: strlen (vg_replace_strmem.c:459)
==17982== by 0x47DE60: _dbus1_builder_append_basic (dbus-util.c:981)
==17982== by 0x41ACB2: dbus_append_dict_basic (dbus.c:197)
==17982== by 0x412050: station_get_diagnostic_cb (station.c:3614)
==17982== by 0x405B19: netdev_get_station_cb (netdev.c:4801)
==17982== by 0x47436E: process_unicast (genl.c:994)
==17982== by 0x47436E: received_data (genl.c:1102)
==17982== by 0x470FBB: io_callback (io.c:120)
==17982== by 0x4701DC: l_main_iterate (main.c:478)
==17982== by 0x4702AB: l_main_run (main.c:525)
==17982== by 0x4702AB: l_main_run (main.c:507)
==17982== by 0x4704BB: l_main_run_with_signal (main.c:647)
==17982== by 0x403EDB: main (main.c:490)
==17982== Address 0x0 is not stack'd, malloc'd or (recently) free'd
==17982==
Aborting (signal 11) [/home/denkenz/iwd/src/iwd]
++++++++ backtrace ++++++++
0 0x488a550 in /lib64/libc.so.6
1 0x483bc92 in /usr/lib64/valgrind/vgpreload_memcheck-amd64-linux.so
2 0x47de61 in _dbus1_builder_append_basic() at ell/dbus-util.c:983
3 0x41acb3 in dbus_append_dict_basic() at src/dbus.c:197
4 0x412051 in station_get_diagnostic_cb() at src/station.c:3618
5 0x405b1a in netdev_get_station_cb() at src/netdev.c:4801
It is possible for the RTNL command callback to come after
netconfig_reset or netconfig_destroy has been called. Make sure that
any outstanding commands that might access the netconfig object are
canceled.
src/netconfig.c:netconfig_ipv4_dhcp_event_handler() DHCPv4 event 0
src/netconfig.c:netconfig_ifaddr_added() wlan0: ifaddr 192.168.1.55/24 broadcast 192.168.1.255
^CTerminate
src/netdev.c:netdev_free() Freeing netdev wlan0[15]
src/device.c:device_free()
src/station.c:station_free()
src/netconfig.c:netconfig_destroy()
src/netconfig.c:netconfig_reset()
src/netconfig.c:netconfig_reset_v4() 16
src/netconfig.c:netconfig_reset_v4() Stopping client
Removing scan context for wdev c
src/scan.c:scan_context_free() sc: 0x4a3cc10
==12792== Invalid read of size 8
==12792== at 0x43BF5A: netconfig_route_add_cmd_cb (netconfig.c:600)
==12792== by 0x4727FA: process_message (netlink.c:181)
==12792== by 0x4727FA: can_read_data (netlink.c:289)
==12792== by 0x470F4B: io_callback (io.c:120)
==12792== by 0x47016C: l_main_iterate (main.c:478)
==12792== by 0x47023B: l_main_run (main.c:525)
==12792== by 0x47023B: l_main_run (main.c:507)
==12792== by 0x47044B: l_main_run_with_signal (main.c:647)
==12792== by 0x403EDB: main (main.c:490)
In case the netdev is brought down while we're trying to connect, try to
detect this and fail early instead of trying to send additional
commands.
src/station.c:station_enter_state() Old State: disconnected, new state: connecting
src/station.c:station_netdev_event() Associating
src/netdev.c:netdev_mlme_notify() MLME notification Connect(46)
src/netdev.c:netdev_connect_event()
src/netdev.c:netdev_link_notify() event 16 on ifindex 4
src/eapol.c:eapol_handle_ptk_1_of_4() ifindex=4
src/netdev.c:netdev_link_notify() event 16 on ifindex 4
src/eapol.c:eapol_handle_ptk_3_of_4() ifindex=4
src/netdev.c:netdev_set_gtk() 4
src/station.c:station_handshake_event() Setting keys
src/netdev.c:netdev_set_tk() 4
src/netdev.c:netdev_set_rekey_offload() 4
New Key for Group Key failed for ifindex: 4:Network is down
src/netdev.c:netdev_link_notify() event 16 on ifindex 4
src/station.c:station_free()
src/netdev.c:netdev_mlme_notify() MLME notification Disconnect(48)
src/netdev.c:netdev_disconnect_event()
src/wiphy.c:wiphy_reg_notify() Notification of command Reg Change(36)
src/wiphy.c:wiphy_update_reg_domain() New reg domain country code for (global) is XX
src/netdev.c:netdev_link_notify() event 16 on ifindex 4
src/wiphy.c:wiphy_reg_notify() Notification of command Reg Change(36)
src/wiphy.c:wiphy_update_reg_domain() New reg domain country code for (global) is DE
src/wiphy.c:wiphy_radio_work_done() Work item 14 done
src/station.c:station_connect_cb() 4, result: 4
Segmentation fault
A prior commit refactored the AKM selection in wiphy.c. This
ended up breaking FILS tests due to the hard coding of a
false fils_hint in wiphy_select_akm. Since our FILS tests
only advertise FILS AKMs wiphy_can_connect would return false
for these networks.
Similar to wiphy_select_akm, add a fils hint parameter to
wiphy_can_connect and pass that down directly to wiphy_select_akm.
If PreSharedKey is set, the current logic does not validate the
Passphrase beyond its existence. This can lead to strange situations
where an invalid WPA3-PSK passphrase might get used. This can of course
only happen if the user (as root) or NetworkManager-iwd-backend writes
such a file incorrectly.
Move the WSC Primary Device Type parsing from p2p.c and eap-wsc.c to a
common function in wscutil.c supporting both formats so that it can be
used in ap.c too.
Logically this frame watch belongs in station. It was kept in device.c
for the purported reason that the station object was removed with
ifdown/ifup changes and hence the frame watch might need to be removed
and re-added unnecessarily. Since the kernel does not actually allow to
unregister a frame watch (only when the netdev is removed or its iftype
changes), re-adding a frame watch might trigger a -EALREADY or similar
error.
Avoid this by registering the frame watch when a new netdev is detected
in STATION mode, or when the interface type changes to STATION.
If a netdev iftype is changed, all frame registrations are removed.
Make sure to re-register for the appropriate frame notifications in case
our iftype is switched back to 'station'. In any other iftype, no frame
watches are registered and rrm_state object is effectively dormant.
Right now, RRM is created when a new netdev is detected and its iftype
is of type station. That means that any devices that start their life
as any other iftype cannot be changed to a station and have RRM function
properly. Fix that by always creating the RRM state regardless of the
initial iftype.
In the case that a netdev is powered down, or an interface type change
occurs, the station object will be removed and any watches will be
freed.
Since rrm is created when the netdev is created and persists across
iftype and power up/down changes, it should provide a destroy callback
to station_add_state_watch so that it can be notified when the watch is
removed.
If the iftype changes, kernel silently wipes out any frame registrations
we may have registered. Right now, frame registrations are only done when
the interface is created. This can result in frame watches not being
added if the interface type is changed between station mode to ap mode
and then back to station mode, e.g.:
device wlan0 set-property Mode ap
device wlan0 set-property Mode station
Make sure to re-add frame registrations according to the mode if the
interface type is changed.
Since netdev now keeps track of iftype changes, let it call
frame_watch_wdev_remove on netdevs that it manages to clear frame
registrations that should be cleared due to an iftype change.
Note that P2P_DEVICE wdevs are not managed by any netdev object, but
since their iftype cannot be changed, they should not be affected
by this change.
And set the interface type based on the event rather than the command
callback. This allows us to track interface type changes even if they
come from outside iwd (which shouldn't happen.)
The prepare_ft patch was an intermediate to a full patch
set and was not fully tested stand alone. Its placement
actually broke FT due to handshake->aa getting overwritten
prior to netdev->prev_bssid being copied out. This caused
FT to fail with "transport endpoint not connected (-107)"
The AuthCenter was still not being fully cleaned up in these
tests. It was being stopped but there was still a reference being
held which prevented __del__ from being called.
There was a bug with process output where the last bit of data would
never make it into stdout or log files. This was due to the IO watch
being cleaned up when the process was killed and never allowing it
to finish writing any pending data.
Now the IO watch implementation has been moved out into its own
function (io_process) which is now used to write the final bits of
data out on process exit.
The processes in the list ultimately get removed for each
kill() call. This causes strange behavior since the list is
being iterated and each iteration is removing items. Instead
iterate over a new temporary list so the actual process list
can be cleaned up.
- Make sure to print the cookie information
- Don't print messages for frames we're not interested in. This is
particularly helpful when running auto-tests since frame acks from
hostapd pollute the iwd log.
This file was not included when testNetconfig was introduced
and is required. My system was working fine as it was in my
local tree but has been missing and not passing for others.
IWD_GENL_DEBUG is not generally useful anymore as it just prints a
hexdump of the raw data on the socket. The messages are quite verbose
and spam test-runner logs for little utility.
Fix a regression where connection to an open network results in an
NotSupported error being returned.
Fixes: d79e883e93 ("netdev: Introduce connection types")
This makes conversions simpler. Also fixes a bug where P2P devices were
printed with an incorrect Mode value since dbus_iftype_to_string was
assuming that an iftype as defined in nl80211.h was being passed in,
while netdev was returning an enum value defined in netdev.h.
It was seen that some full mac cards/drivers do not include any
rate information with the NEW_STATION event. This was causing
the NEW_STATION event to be ignored, preventing AP mode from
working on these cards.
Since the full mac path does not even require sta->rates the
parsing can be removed completely.
It was found that if the user cancels/disconnects the agent prior to
entering credentials, IWD would get stuck and could no longer accept
any connect calls with the error "Operation already in progress".
For example exiting iwctl in the Password prompt would cause this:
iwctl
$ station wlan0 connect myssid
$ Password: <Ctrl-C>
This was due to the agent never calling the network callback in the
case of an agent disconnect. Network would wait indefinitely for the
credentials, and disallow any future connect attempts.
To fix this agent_finalize_pending can be called in agent_disconnect
with a NULL reply which behaves the same as if there was an
internal timeout and ultimately allows network to fail the connection
The 8021x offloading procedure still does EAP in userspace which
negotiates the PMK. The kernel then expects to obtain this PMK
from userspace by calling SET_PMK. This then allows the firmware
to begin the 4-way handshake.
Using __eapol_install_set_pmk_func to install netdev_set_pmk,
netdev now gets called into once EAP finishes and can begin
the final userspace actions prior to the firmware starting
the 4-way handshake:
- SET_PMK using PMK negotiated with EAP
- Emit SETTING_KEYS event
- netdev_connect_ok
One thing to note is that the kernel provides no way of knowing if
the 4-way handshake completed. Assuming SET_PMK/SET_STATION come
back with no errors, IWD assumes the PMK was valid. If not, or
due to some other issue in the 4-way, the kernel will send a
disconnect.
This adds a new type for 8021x offload as well as support in
building CMD_CONNECT.
As described in the comment, 8021x offloading is not particularly
similar to PSK as far as the code flow in IWD is concerned. There
still needs to be an eapol_sm due to EAP being done in userspace.
This throws somewhat of a wrench into our 'is_offload' cases. And
as such this connection type is handled specially.
802.1x offloading needs a way to call SET_PMK after EAP finishes.
In the same manner as set_tk/gtk/igtk a new 'install_pmk' function
was added which eapol can call into after EAP completes.
The timeout functionality was removed from the core SAE
implementation as it causes issues with kernel behavior.
Because of this the timeout tests are no longer valid,
nor is a few asserts in the end-to-end test.
The chances were extremely low, but using l_idle_oneshot
could end up causing a invalid memory access if the netdev
went down while waiting for the disconnect idle callback.
Instead netdev can keep track of the idle with l_idle_create
and remove it if the netdev goes down prior to the idle callback.