Similar to 06aa84cca set the operstate when AdHoc is started and
stopped as it is no longer always set by netdev (only for station/p2p
interface types)
Previously resp was a simple array of bytes allocated on the stack.
This was changed to a dynamically allocated array, but the sizeof(resp)
argument to ap_build_beacon_pr_head() was never changed appropriately.
Fix this by introducing a new resp_len variable that holds the number of
bytes allocated for resp. Also, move the allocation after the basic
sanity checks have been performed to avoid allocating/freeing memory
unnecessarily.
Fixes: 18a63f91fd ("ap: Write extra frame IEs from the user")
Commit 1fe5070 added a workaround for drivers which may send the
connect event prior to the connect callback/ack. This caused IWD
to fail to start eapol if reassociation was used due to
netdev_reassociate never setting netdev->connected = false.
netdev_reassociate uses the same code path as normal connections,
but when the connect callback came in connected was already set
to true which then prevents eapol from being registered. Then,
once the connect event comes in, there is no frame watch for
eapol and IWD doesn't respond to any handshake frames.
Prior to this, an error sending the FT Reassociation was treated
as fatal, which is correct for FT-over-Air but not for FT-over-DS.
If the actual l_genl_family_send call fails for FT-over-DS the
existing connection can be maintained and there is no need to
call netdev_connect_failed.
Adding a return to the tx_associate function works for both FT
types. In the FT-over-Air case this return will ultimately get
sent back up to auth_proto_rx_authenticate in which case will
call netdev_connect_failed. For FT-over-DS tx_associate is
actually called from the 'start' operation which can fail and
still maintain the existing connection.
FT-over-DS was refactored to separate the FT action frame and
reassociation. From stations standpoint IWD needs to call
netdev_fast_transition_over_ds_action prior to actually roaming.
For now these two stages are being combined and the action
roam happens immediately after the action response callback.
FT-over-DS followed the same pattern as FT-over-Air which worked,
but really limited how the protocol could be used. FT-over-DS is
unique in that we can authenticate to many APs by sending out
FT action frames and parsing the results. Once parsed IWD can
immediately Reassociate, or do so at a later time.
To take advantage of this IWD need to separate FT-over-DS into
two stages: action frame and reassociation.
The initial action frame stage is started by netdev. The target
BSS is sent an FT action frame and a new cache entry is created
in ft.c. Once the response is received the entry is updated
with all the needed data to Reassociate. To limit the record
keeping on netdev each FT-over-DS entry holds a userdata pointer
so netdev doesn't need to maintain its own list of data for
callbacks.
Once the action response is parsed netdev will call back signalling
the action frame sequence was completed (either successfully or not).
At this point the 'normal' FT procedure can start using the
FT-over-DS auth-proto.
FT-over-DS is being separated into two independent stages. The
first of which is the processing of the action frame response.
This new class will hold all the parsed information from the action
frame and allowing it to be retrieved at a later time when IWD
needs to roam.
Initial info class should be created when the action frame is
being sent out. Once a response is received it can be parsed
with ft_over_ds_parse_action_response. This verifies the frame
and updates the ft_ds_info class with the parsed data.
ft_over_ds_prepare_handshake is the final step prior to
Reassociation. This sets all the stored IEs, anonce, and KH IDs
into the handshake and derives the new PTK.
This adds the RSNE verification to ft_parse_ies which will
be common between over-Air and over-DS. The MDE check was
also factored out into its own minimal function as to
retain the spec comment but allow reuse elsewhere.
Prior to this the diagnostic interface was taken down when station
transitioned to DISCONNECTED. This worked but once station is in
a DISCONNECTING state it then calls netdev_disconnect(). Trying to
get any diagnostic data during this time may not work as its
unknown what state exactly the kernel is in. To be safe take the
interface down when station is DISCONNECTING.
The building of the FT IEs for Action/Authenticate
frames will need to be shared between ft and netdev
once FT-over-DS is refactored.
The building was refactored to work off the callers
buffer rather than internal stack buffers. An argument
'new_snonce' was included as FT-over-DS will generate
a new snonce for the initial action frame, hence the
handshakes snonce cannot be used.
Break up the rather large code block which parses out IEs,
verifies, and sets into the handshake. FT-over-DS needs these
steps broken up in order to parse the action frame response
without modifying the handshake.
Under very rare circumstances the roaming scan triggered might not be
canceled properly. This is because we issue the roam scan recursively
from within a scan callback and re-use the id of the scan for the
subsequent request. The destroy callback is invoked right after the
callback and resets the id. This leads to the scan not being canceled
properly in roam_state_clear().
src/netdev.c:netdev_mlme_notify() MLME notification Notify CQM(64)
src/station.c:station_roam_trigger_cb() 37
src/station.c:station_roam_scan() ifindex: 37
src/station.c:station_roam_trigger_cb() Using cached neighbor report for roam
...
src/scan.c:get_scan_done() get_scan_done
src/station.c:station_roam_failed() 37
src/station.c:station_roam_scan() ifindex: 37
src/scan.c:scan_request_triggered() Active scan triggered for wdev 22
^CTerminate
src/netdev.c:netdev_free() Freeing netdev wlan0[37]
src/device.c:device_free()
src/station.c:station_free()
...
Removing scan context for wdev 22
src/scan.c:scan_context_free() sc: 0x4a362a0
src/wiphy.c:wiphy_radio_work_done() Work item 14 done
==19542== Invalid write of size 4
==19542== at 0x411500: station_roam_scan_destroy (station.c:2010)
==19542== by 0x420B5B: scan_request_free (scan.c:156)
==19542== by 0x410BAC: destroy_work (wiphy.c:294)
==19542== by 0x410BAC: wiphy_radio_work_done (wiphy.c:1613)
==19542== by 0x46C66E: l_queue_clear (queue.c:107)
==19542== by 0x46C6B8: l_queue_destroy (queue.c:82)
==19542== by 0x420BAE: scan_context_free (scan.c:205)
==19542== by 0x424135: scan_wdev_remove (scan.c:2272)
==19542== by 0x408754: netdev_free (netdev.c:847)
==19542== by 0x40E18C: netdev_shutdown (netdev.c:5773)
==19542== by 0x404756: iwd_shutdown (main.c:78)
==19542== by 0x404756: iwd_shutdown (main.c:65)
==19542== by 0x470E21: handle_callback (signal.c:78)
==19542== by 0x470E21: signalfd_read_cb (signal.c:104)
==19542== by 0x47166B: io_callback (io.c:120)
==19542== Address 0x4d81f98 is 200 bytes inside a block of size 288 free'd
==19542== at 0x48399CB: free (vg_replace_malloc.c:538)
==19542== by 0x47F3E5: interface_instance_free (dbus-service.c:510)
==19542== by 0x481DEA: _dbus_object_tree_remove_interface (dbus-service.c:1694)
==19542== by 0x481F1C: _dbus_object_tree_object_destroy (dbus-service.c:795)
==19542== by 0x40894F: netdev_free (netdev.c:844)
==19542== by 0x40E18C: netdev_shutdown (netdev.c:5773)
==19542== by 0x404756: iwd_shutdown (main.c:78)
==19542== by 0x404756: iwd_shutdown (main.c:65)
==19542== by 0x470E21: handle_callback (signal.c:78)
==19542== by 0x470E21: signalfd_read_cb (signal.c:104)
==19542== by 0x47166B: io_callback (io.c:120)
==19542== by 0x47088C: l_main_iterate (main.c:478)
==19542== by 0x47095B: l_main_run (main.c:525)
==19542== by 0x47095B: l_main_run (main.c:507)
==19542== by 0x470B6B: l_main_run_with_signal (main.c:647)
==19542== Block was alloc'd at
==19542== at 0x483879F: malloc (vg_replace_malloc.c:307)
==19542== by 0x46AB2D: l_malloc (util.c:62)
==19542== by 0x416599: station_create (station.c:3448)
==19542== by 0x406D55: netdev_newlink_notify (netdev.c:5324)
==19542== by 0x46D4BC: l_hashmap_foreach (hashmap.c:612)
==19542== by 0x472F46: process_broadcast (netlink.c:158)
==19542== by 0x472F46: can_read_data (netlink.c:279)
==19542== by 0x47166B: io_callback (io.c:120)
==19542== by 0x47088C: l_main_iterate (main.c:478)
==19542== by 0x47095B: l_main_run (main.c:525)
==19542== by 0x47095B: l_main_run (main.c:507)
==19542== by 0x470B6B: l_main_run_with_signal (main.c:647)
==19542== by 0x403EDB: main (main.c:490)
==19542==
Prior to this netdev_connect_ok set setting this which really
only applies to station mode. In addition this happens for each
new station that connects to the AP. Instead set the operstate /
link mode when AP starts and stops.
Change ap_start to load all of the AP configuration from a struct
l_settings, moving the 6 or so parameters from struct ap_config members
to the l_settings groups and keys. This extends the ap profile concept
used for the DHCP settings. ap_start callers create the l_settings
object and fill the values in it or read the settings in from a file.
Since ap_setup_dhcp and ap_load_profile_and_dhcp no longer do the
settings file loading, they needed to be refactored and some issues were
fixed in their logic, e.g. l_dhcp_server_set_ip_address() was never
called when the "IP pool" was used. Also the IP pool was previously only
used if the ap->config->profile was NULL and this didn't match what the
docs said:
"If [IPv4].Address is not provided and no IP address is set on the
interface prior to calling StartProfile the IP pool will be used."
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.