[Fli4l_dev] [rc130.wlan] ERR: No wlan devices found, skipping initialization of wlan subsystem.
Helmut Pohl
helmut_pohl at arcor.de
Sa Mai 16 00:14:04 CEST 2026
Moin Harvey
Am 15.05.2026 um 13:03 schrieb Harvey:
> Helmut,
>
> ich würde dich bitten, mit der heute veröffentlichten Version noch
> einmal zu testen und erneut die logs zu posten. Es hat signifikante
> Änderungen an base, firmware und wlan gegeben, die uns hier bei der
> Eingrenzung des Fehlers helfen könnten. Ich hab so die Vermutung, dass
> deine Karte nicht mehr für iwconfig geeignet ist und eher nach iw verlangt.
getestet, Ergebnis leider wie gestern.
>
> Zudem würde ich dich bitten, mal deine wlan.txt zu zeigen, natürlich
> anonymisiert. Dein Log zeigt, das du als RegDomain China nutzt, setzt Du
> da in der config nichts anderes? Es hat nämlich auch Karten gegeben, wo
> die RegDomain 'hart' encodiert war.
Ja, die Regdomain lässt sich nicht umflashen. Es gab mal eine Anleitung
für die pci-Version des Modems. Aber die funktioniert nicht bei der
usb-Version. Ich habe da auch nicht mehr weiter geforscht, denn das
Modem funktionierte auch mit der CN - Kennung.
> Auch die Ausgabe von "iw list wlan0" wäre hilfreich. Vielleicht alles
> mal irgendwo pasten.
>
> Gruß
> Harvey
Hier die Logs:
########################################################################################
Test -> rc130.wlan (neue Version vom 15.05.2026)
/bootmsg.txt :
Fri May 15 2026 23:25:38 [rc130.wlan]
Fri May 15 2026 23:25:39 configuring wlan on wlan0 ...
Fri May 15 2026 23:25:39 Error for wireless request "Set Nickname"
(8B1C) :
Fri May 15 2026 23:25:39 SET failed on device wlan0 ; Operation not
supported.
Fri May 15 2026 23:25:39 Error for wireless request "Set Bit Rate"
(8B20) :
Fri May 15 2026 23:25:39 SET failed on device wlan0 ; Network is down.
Fri May 15 2026 23:25:39 wpa_supplicant: cannot find suitable driver for
Fri May 15 2026 23:25:41
grüne LED am usb-wlanmodem leuchtet.
########################################################################################
kern.log :
May 15 23:25:54 apu2c4 kern.info kernel: usb 1-1: ath9k_htc: Firmware
ath9k_htc/htc_7010-1.4.0.fw requested
May 15 23:25:54 apu2c4 kern.info kernel: usbcore: registered new
interface driver ath9k_htc
May 15 23:25:54 apu2c4 kern.info kernel: usb 1-1: ath9k_htc: Transferred
FW: ath9k_htc/htc_7010-1.4.0.fw, size: 72812
May 15 23:25:54 apu2c4 kern.info kernel: ath9k_htc 1-1:1.0: ath9k_htc:
HTC initialized with 45 credits
May 15 23:25:54 apu2c4 kern.info kernel: ath9k_htc 1-1:1.0: ath9k_htc:
FW Version: 1.4
May 15 23:25:54 apu2c4 kern.info kernel: ath9k_htc 1-1:1.0: FW RMW
support: On
May 15 23:25:54 apu2c4 kern.debug kernel: ath: EEPROM regdomain: 0x809c
May 15 23:25:54 apu2c4 kern.debug kernel: ath: EEPROM indicates we
should expect a country code
May 15 23:25:54 apu2c4 kern.debug kernel: ath: doing EEPROM
country->regdmn map search
May 15 23:25:54 apu2c4 kern.debug kernel: ath: country maps to regdmn
code: 0x52
May 15 23:25:54 apu2c4 kern.debug kernel: ath: Country alpha2 being used: CN
May 15 23:25:54 apu2c4 kern.debug kernel: ath: Regpair used: 0x52
May 15 23:25:54 apu2c4 kern.info kernel: ieee80211 phy0: Atheros AR9287
Rev:2
May 15 23:25:54 apu2c4 kern.warn kernel: warning: `iwconfig' uses
wireless extensions which will stop working for Wi-Fi 7 hardware; use
nl80211
########################################################################################
Probleme:
[rc130.wlan] ERR: wpa_supplicant: cannot find suitable driver for
########################################################################################
wlan.txt:
#
# package 'wlan'
#
OPT_WLAN='yes'
WLAN_1_ACL_MAC_N='0'
WLAN_1_ACL_POLICY='open'
WLAN_1_CHANNEL='0'
WLAN_1_DIVERSITY='no'
WLAN_1_DIVERSITY_RX='0'
WLAN_1_DIVERSITY_TX='0'
WLAN_1_ENC_N='0'
WLAN_1_ESSID='wlan'
WLAN_1_MAC='64:70:02:0e:49:de'
WLAN_1_MODE='managed'
WLAN_1_RATE='auto'
WLAN_1_WPA_DEBUG='no'
WLAN_1_WPA_ENCRYPTION='CCMP'
WLAN_1_WPA_KEY_MGMT='WPA-PSK'
WLAN_1_WPA_PSK='geheim'
WLAN_1_WPA_TYPE='2'
WLAN_N='1'
WLAN_REGDOMAIN='DE'
WLAN_WEBGUI='yes'
########################################################################################
iw list wlan0:
apu2c4 4.1.0--2026-05-15 # iw list wlan0
Usage: iw [options] command
Options:
--debug enable netlink debugging
--version show version (6.17)
Commands:
dev <devname> ap stop
Stop AP functionality
dev <devname> ap start <SSID> <SSID> <freq>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
<beacon interval in TU> <DTIM period> [hidden-ssid|zeroed-ssid] head
<beacon head in hexadecimal> [tail <beacon tail in hexadecimal>]
[inactivity-time <inactivity time in seconds>] [key0:abcde d:1:6162636465]
dev <devname> ap start <SSID> <control freq>
[5|10|20|40|80|80+80|160|320] [<center1_freq> [<center2_freq>]] [punct
<bitmap>] <beacon interval in TU> <DTIM period>
[hidden-ssid|zeroed-ssid] head <beacon head in hexadecimal> [tail
<beacon tail in hexadecimal>] [inactivity-time <inactivity time in
seconds>] [key0:abcde d:1:6162636465]
Start an AP. Note that this usually requires hostapd or
similar.
phy <phyname> coalesce show
Show coalesce status.
phy <phyname> coalesce disable
Disable coalesce.
phy <phyname> coalesce enable <config-file>
Enable coalesce with given configuration.
The configuration file contains coalesce rules:
delay=<delay>
condition=<condition>
patterns=<[offset1+]<pattern1>,<[offset2+]<pattern2>,...>
delay=<delay>
condition=<condition>
patterns=<[offset1+]<pattern1>,<[offset2+]<pattern2>,...>
...
delay: maximum coalescing delay in msec.
condition: 1/0 i.e. 'not match'/'match' the patterns
patterns: each pattern is given as a bytestring with '-' in
places where any byte may be present, e.g.
00:11:22:-:44 will
match 00:11:22:33:44 and 00:11:22:33:ff:44 etc. Offset and
pattern should be separated by '+', e.g. 18+43:34:00:12
will
match '43:34:00:12' after 18 bytes of offset in Rx packet.
dev <devname> auth <SSID> <bssid> <type:open|shared> <freq in
MHz> [key 0:abcde d:1:6162636465]
Authenticate with the given network.
dev <devname> connect [-w] <SSID> [<freq in MHz>] [<bssid>]
[auth open|shared] [key 0:abcde d:1:6162636465] [mfp:req/opt/no]
Join the network with the given SSID (and frequency,
BSSID).
With -w, wait for the connect to finish or fail.
dev <devname> disconnect
Disconnect from the current network.
dev <devname> cqm rssi <threshold|off> [<hysteresis>]
Set connection quality monitor RSSI threshold.
event [-t|-T|-r] [-f]
Monitor events from the kernel.
-t - print timestamp
-T - print absolute, human-readable timestamp
-r - print relative timestamp
-f - print full frame for auth/assoc etc.
dev <devname> ftm start_responder [lci=<lci buffer in hex>]
[civic=<civic buffer in hex>]
Start an FTM responder. Needs a running ap interface
dev <devname> ftm get_stats
Get FTM responder statistics.
phy <phyname> hwsim wakequeues
phy <phyname> hwsim stopqueues
phy <phyname> hwsim setps <value>
phy <phyname> hwsim getps
dev <devname> ibss join <SSID> <freq in MHz>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz] [fixed-freq] [<fixed bssid>]
[beacon-interval <TU>] [basic-rates <rate in Mbps,rate2,...>]
[mcast-rate <rate in Mbps>] [key d:0:abcde]
Join the IBSS cell with the given SSID, if it doesn't
exist create
it on the given frequency. When fixed frequency is
requested, don't
join/create a cell on a different frequency. When a
fixed BSSID is
requested use that BSSID and do not adopt another
cell's BSSID even
if it has higher TSF and the same SSID. If an IBSS is
created, create
it with the specified basic-rates, multicast-rate and
beacon-interval.
dev <devname> ibss leave
Leave the current IBSS cell.
features
commands
list all known commands and their decimal & hex value
phy
list
List all wireless devices and their capabilities.
phy <phyname> info
Show capabilities for the specified wireless device.
dev <devname> switch channel <channel>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz] [beacons <count>] [block-tx]
dev <devname> switch freq <freq>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz] [beacons <count>] [block-tx]
dev <devname> switch freq <control freq>
[5|10|20|40|80|80+80|160] [<center1_freq> [<center2_freq>]] [beacons
<count>] [block-tx]
Switch the operating channel by sending a channel
switch announcement (CSA).
dev
List all network interfaces for wireless hardware.
dev <devname> info
Show information for this interface.
dev <devname> del
Remove this virtual interface
dev <devname> interface add <name> type <type> [mesh_id
<meshid>] [4addr on|off] [flags <flag>*] [addr <mac-addr>]
phy <phyname> interface add <name> type <type> [mesh_id
<meshid>] [4addr on|off] [flags <flag>*] [addr <mac-addr>]
Add a new virtual interface with the given configuration.
Valid interface types are: managed, ibss, monitor,
mesh, wds.
The flags are only used for monitor interfaces, valid
flags are:
none: no special flags
fcsfail: show frames with FCS errors
control: show control frames
otherbss: show frames from other BSSes
cook: use cooked mode
active: use active mode (ACK incoming unicast packets)
mumimo-groupid <GROUP_ID>: use MUMIMO according to a
group id
mumimo-follow-mac <MAC_ADDRESS>: use MUMIMO according
to a MAC address
The mesh_id is used only for mesh mode.
help [command]
Print usage for all or a specific command, e.g.
"help wowlan" or "help wowlan enable".
dev <devname> key get <key index> <MAC address>
Retrieve a key and key sequence.
dev <devname> link
Print information about the current connection, if any.
dev <devname> measurement ftm_request <config-file>
[timeout=<seconds>] [randomise[=<addr>/<mask>]]
Send an FTM request to the targets supplied in the
config file.
Each line in the file represents a target, with the
following format:
<addr> bw=<[20|40|80|80+80|160]> cf=<center_freq>
[cf1=<center_freq1>] [cf2=<center_freq2>] [ftms_per_burst=<samples per
burst>] [ap-tsf] [asap] [bursts_exp=<num of bursts exponent>]
[burst_period=<burst period>] [retries=<num of retries>]
[burst_duration=<burst duration>] [preamble=<legacy,ht,vht,dmg>] [lci]
[civic] [tb] [non_tb]
dev <devname> mesh_param dump
List all supported mesh parameters
dev <devname> mesh leave
Leave a mesh.
dev <devname> mesh join <mesh ID> [[freq <freq in MHz>
<NOHT|HT20|HT40+|HT40-|80MHz>] [basic-rates <rate in Mbps,rate2,...>]],
[mcast-rate <rate in Mbps>] [beacon-interval <time in TUs>] [dtim-period
<value>] [vendor_sync on|off] [<param>=<value>]*
Join a mesh with the given mesh ID with frequency,
basic-rates,
mcast-rate and mesh parameters. Basic-rates are applied
only if
frequency is provided.
dev <devname> mgmt dump frame <type as hex ab> <pattern as hex
ab:cd:..> [frame <type> <pattern>]* [count <frames>]
Register for receiving certain mgmt frames and print them.
Frames are selected by their type and pattern containing
the first several bytes of the frame that should match.
Example: iw dev wlan0 mgmt dump frame 40 00 frame 40
01:02 count 10
dev <devname> mpath dump
List known mesh paths.
dev <devname> mpath set <destination MAC address> next_hop
<next hop MAC address>
Set an existing mesh path's next hop.
dev <devname> mpath new <destination MAC address> next_hop
<next hop MAC address>
Create a new mesh path (instead of relying on automatic
discovery).
dev <devname> mpath del <MAC address>
Remove the mesh path to the given node.
dev <devname> mpath get <MAC address>
Get information on mesh path to the given node.
dev <devname> mpath probe <destination MAC address> frame <frame>
Inject ethernet frame to given peer overriding the next hop
lookup from mpath table.
.Example: iw dev wlan0 mpath probe xx:xx:xx:xx:xx:xx
frame 01:xx:xx:00
dev <devname> mpp dump
List known mesh proxy paths.
dev <devname> mpp get <MAC address>
Get information on mesh proxy path to the given node.
wdev <idx> nan add_func type <publish|subscribe|followup>
[active] [solicited] [unsolicited] [bcast] [close_range] name <name>
[info <info>] [flw_up_id <id> flw_up_req_id <id> flw_up_dest <mac>] [ttl
<ttl>] [srf <include|exclude> <bf|list> [bf_idx] [bf_len]
<mac1;mac2...>] [rx_filter <str1:str2...>] [tx_filter <str1:str2...>]
wdev <idx> nan rm_func cookie <cookie>
wdev <idx> nan config [pref <pref>] [bands [2GHz] [5GHz]]
wdev <idx> nan stop
wdev <idx> nan start pref <pref> [bands [2GHz] [5GHz]]
dev <devname> ocb leave
Leave the OCB mode network.
dev <devname> ocb join <freq in MHz> <5MHz|10MHz>
Join the OCB mode network.
dev <devname> offchannel <freq> <duration>
Leave operating channel and go to the given channel for
a while.
wdev <idx> p2p stop
wdev <idx> p2p start
dev <devname> cac channel <channel>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
dev <devname> cac freq <freq>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
dev <devname> cac freq <control freq>
[5|10|20|40|80|80+80|160|320] [<center1_freq> [<center2_freq>]] [punct
<bitmap>]
dev <devname> cac background channel <channel>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
dev <devname> cac background freq <freq>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
dev <devname> cac background freq <control freq>
[5|10|20|40|80|80+80|160|320] [<center1_freq> [<center2_freq>]] [punct
<bitmap>]
Start background channel availability check (CAC)
looking to look for
radars on the given channel.
dev <devname> cac trigger channel <channel>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
dev <devname> cac trigger freq <freq>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
dev <devname> cac trigger freq <control freq>
[5|10|20|40|80|80+80|160|320] [<center1_freq> [<center2_freq>]] [punct
<bitmap>]
Start or trigger a channel availability check (CAC)
looking to look for
radars on the given channel.
phy <phyname> channels
Show available channels.
reg reload
Reload the kernel's regulatory database.
phy <phyname> reg get
Print out the devices' current regulatory domain
information.
reg get
Print out the kernel's current regulatory domain
information.
reg set <ISO/IEC 3166-1 alpha2>
Notify the kernel about the current regulatory domain.
dev <devname> roc start <freq> <time in ms>
dev <devname> scan [-u] [freq <freq>*] [duration <dur>] [ies
<hex as 00:11:..>] [meshid <meshid>]
[lowpri,flush,ap-force,duration-mandatory] [randomise[=<addr>/<mask>]]
[ssid <ssid>*|passive]
Scan on the given frequencies and probe for the given SSIDs
(or wildcard if not given) unless passive scanning is
requested.
If -u is specified print unknown data in the scan results.
Specified (vendor) IEs must be well-formed.
dev <devname> scan sched_stop
Stop an ongoing scheduled scan.
dev <devname> scan sched_start [interval <in_msecs> |
scan_plans [<interval_secs:iterations>*] <interval_secs>] [delay
<in_secs>] [freqs <freq>+] [matches [ssid <ssid>]+]] [active [ssid
<ssid>]+|passive] [randomise[=<addr>/<mask>]] [coloc] [flush]
Start a scheduled scan at the specified interval on the
given frequencies
with probing for the given SSIDs (or wildcard if not
given) unless passive
scanning is requested. If matches are specified, only
matching results
will be returned.
dev <devname> scan abort
Abort ongoing scan
dev <devname> scan trigger [freq <freq>*] [duration <dur>] [ies
<hex as 00:11:..>] [meshid <meshid>]
[lowpri,flush,ap-force,duration-mandatory,coloc]
[randomise[=<addr>/<mask>]] [ssid <ssid>*|passive]
Trigger a scan on the given frequencies with probing
for the given
SSIDs (or wildcard if not given) unless passive
scanning is requested.
Duration(in TUs), if specified, will be used to set
dwell times.
dev <devname> scan dump [-u]
Dump the current scan results. If -u is specified,
print unknown
data in scan results.
dev <devname> set bitrates [legacy-<2.4|5> <legacy rate in
Mbps>*] [ht-mcs-<2.4|5> <MCS index>*] [vht-mcs-<2.4|5> [he-mcs-<2.4|5|6>
<NSS:MCSx,MCSy... | NSS:MCSx-MCSy>*] [sgi-2.4|lgi-2.4] [sgi-5|lgi-5]
[he-gi-<2.4|5|6> <0.8|1.6|3.2>] [he-ltf-<2.4|5|6> <1|2|4>]
Sets up the specified rate masks.
Not passing any arguments would clear the existing mask
(if any).
dev <devname> set epcs <enable|disable>
Enable/Disable EPCS support
dev <devname> set tidconf [peer <MAC address>] tids <mask>
[override] [sretry <num>] [lretry <num>] [ampdu [on|off]] [amsdu
[on|off]] [noack [on|off]] [rtscts [on|off]][bitrates <type
[auto|fixed|limit]> [legacy-<2.4|5> <legacy rate in Mbps>*]
[ht-mcs-<2.4|5> <MCS index>*] [vht-mcs-<2.4|5> <NSS:MCSx,MCSy... |
NSS:MCSx-MCSy>*] [sgi-2.4|lgi-2.4] [sgi-5|lgi-5]]
Setup per-node TID specific configuration for TIDs
selected by bitmask.
If MAC address is not specified, then supplied TID
configuration
applied to all the peers.
Examples:
$ iw dev wlan0 set tidconf tids 0x1 ampdu off
$ iw dev wlan0 set tidconf tids 0x5 ampdu off amsdu
off rtscts on
$ iw dev wlan0 set tidconf tids 0x3 override ampdu on
noack on rtscts on
$ iw dev wlan0 set tidconf peer xx:xx:xx:xx:xx:xx
tids 0x1 ampdu off tids 0x3 amsdu off rtscts on
$ iw dev wlan0 set tidconf peer xx:xx:xx:xx:xx:xx
tids 0x2 bitrates auto
$ iw dev wlan0 set tidconf peer xx:xx:xx:xx:xx:xx
tids 0x2 bitrates limit vht-mcs-5 4:9
dev <devname> set mcast_rate <rate in Mbps>
Set the multicast bitrate.
dev <devname> set peer <MAC address>
Set interface WDS peer.
dev <devname> set noack_map <map>
Set the NoAck map for the TIDs. (0x0009 = BE, 0x0006 =
BK, 0x0030 = VI, 0x00C0 = VO)
dev <devname> set 4addr <on|off>
Set interface 4addr (WDS) mode.
dev <devname> set type <type>
Set interface type/mode.
Valid interface types are: managed, ibss, monitor,
mesh, wds.
dev <devname> set meshid <meshid>
dev <devname> set monitor <flag>*
Set monitor flags. Valid flags are:
none: no special flags
fcsfail: show frames with FCS errors
control: show control frames
otherbss: show frames from other BSSes
cook: use cooked mode
active: use active mode (ACK incoming unicast packets)
mumimo-groupid <GROUP_ID>: use MUMIMO according to a
group id
mumimo-follow-mac <MAC_ADDRESS>: use MUMIMO according
to a MAC address
dev <devname> set mesh_param <param>=<value> [<param>=<value>]*
Set mesh parameter (run command without any to see
available ones).
phy <phyname> set txq limit <packets> | memory_limit <bytes> |
quantum <bytes>
Set TXQ parameters. The limit and memory_limit are
global queue limits
for the whole phy. The quantum is the DRR scheduler
quantum setting.
Valid values: 1 - 2**32
phy <phyname> set antenna <bitmap> | all | <tx bitmap> <rx bitmap>
Set a bitmap of allowed antennas to use for TX and RX.
The driver may reject antenna configurations it cannot
support.
dev <devname> set txpower <auto|fixed|limit> [<tx power in mBm>]
Specify transmit power level and setting type.
phy <phyname> set txpower <auto|fixed|limit> [<tx power in mBm>]
Specify transmit power level and setting type.
phy <phyname> set distance <auto|distance>
Enable ACK timeout estimation algorithm (dynack) or set
appropriate
coverage class for given link distance in meters.
To disable dynack set valid value for coverage class.
Valid values: 0 - 114750
phy <phyname> set coverage <coverage class>
Set coverage class (1 for every 3 usec of air
propagation time).
Valid values: 0 - 255.
phy <phyname> set netns { <pid> | name <nsname> }
Put this wireless device into a different network
namespace:
<pid> - change network namespace by process id
<nsname> - change network namespace by name from
/var/run/netns
or by absolute path (man ip-netns)
phy <phyname> set retry [short <limit>] [long <limit>]
Set retry limit.
phy <phyname> set rts <rts threshold|off> [radio <radio index>]
Set rts threshold.
phy <phyname> set frag <fragmentation threshold|off>
Set fragmentation threshold.
dev <devname> set channel <channel>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
phy <phyname> set channel <channel>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
dev <devname> set freq_khz <freq in KHz>
[1MHz|2MHz|4MHz|8MHz|16MHz]
dev <devname> set freq_khz <control freq in KHz> [1|2|4|8|16]
[<center1_freq> [<center2_freq>]]
phy <phyname> set freq_khz <freq in KHz>
[1MHz|2MHz|4MHz|8MHz|16MHz]
phy <phyname> set freq_khz <control freq in KHz> [1|2|4|8|16]
[<center1_freq> [<center2_freq>]]
Set frequency in kHz the hardware is using
configuration.
dev <devname> set freq <freq>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
dev <devname> set freq <control freq>
[5|10|20|40|80|80+80|160|320] [<center1_freq> [<center2_freq>]] [punct
<bitmap>]
phy <phyname> set freq <freq>
[NOHT|HT20|HT40+|HT40-|5MHz|10MHz|80MHz|160MHz|320MHz] [punct <bitmap>]
phy <phyname> set freq <control freq>
[5|10|20|40|80|80+80|160|320] [<center1_freq> [<center2_freq>]] [punct
<bitmap>]
Set frequency/channel configuration the hardware is using.
phy <phyname> set name <new name>
Rename this wireless device.
dev <devname> set power_save <on|off>
Set power save state to on or off.
phy <phyname> set sar_specs <sar type> <range index:sar power>*
Set SAR specs corresponding to SAR capa of wiphy.
dev <devname> get mesh_param [<param>]
Retrieve mesh parameter (run command without any to see
available ones).
phy <phyname> get txq
Get TXQ parameters.
dev <devname> get power_save
Retrieve power save state.
dev <devname> station dump [-v]
List all stations known, e.g. the AP on managed interfaces
dev <devname> station set <MAC address> txpwr <auto|limit> [<tx
power dBm>]
Set Tx power for this station.
dev <devname> station set <MAC address> airtime_weight <weight>
Set airtime weight for this station.
dev <devname> station set <MAC address> mesh_power_mode
<active|light|deep>
Set link-specific mesh power mode for this station
dev <devname> station set <MAC address> vlan <ifindex>
Set an AP VLAN for this station.
dev <devname> station set <MAC address> plink_action <open|block>
Set mesh peer link action for this station (peer).
dev <devname> station del <MAC address> [subtype <subtype>]
[reason-code <code>]
Remove the given station entry (use with caution!)
Example subtype values: 0xA (disassociation), 0xC
(deauthentication)
dev <devname> station get <MAC address>
Get information for a specific station.
dev <devname> survey dump [--radio]
List all gathered channel survey data
dev <devname> vendor recvbin <oui> <subcmd> <filename|-|hex data>
dev <devname> vendor recv <oui> <subcmd> <filename|-|hex data>
dev <devname> vendor send <oui> <subcmd> <filename|-|hex data>
phy <phyname> wowlan show
Show WoWLAN status.
phy <phyname> wowlan disable
Disable WoWLAN.
phy <phyname> wowlan enable [any] [disconnect] [magic-packet]
[gtk-rekey-failure] [eap-identity-request] [4way-handshake]
[rfkill-release] [net-detect [interval <in_msecs> | scan_plans
[<interval_secs:iterations>*] <interval_secs>] [delay <in_secs>] [freqs
<freq>+] [matches [ssid <ssid>]+]] [active [ssid <ssid>]+|passive]
[randomise[=<addr>/<mask>]] [coloc] [flush]] [tcp <config-file>]
[patterns [offset1+]<pattern1> ...]
Enable WoWLAN with the given triggers.
Each pattern is given as a bytestring with '-' in
places where any byte
may be present, e.g. 00:11:22:-:44 will match
00:11:22:33:44 and
00:11:22:33:ff:44 etc.
Offset and pattern should be separated by '+', e.g.
18+43:34:00:12 will match '43:34:00:12' after 18 bytes of offset in Rx
packet.
The TCP configuration file contains:
source=ip[:port]
dest=ip:port at mac
data=<hex data packet>
data.interval=seconds
[wake=<hex packet with masked out bytes indicated by
'-'>]
[data.seq=len,offset[,start]]
[data.tok=len,offset,<token stream>]
Net-detect configuration example:
iw phy0 wowlan enable net-detect interval 5000 delay
30 freqs 2412 2422 matches ssid foo ssid bar
Commands that use the netdev ('dev') can also be given the
'wdev' instead to identify the device.
You can omit the 'phy' or 'dev' if the identification is unique,
e.g. "iw wlan0 info" or "iw phy0 info". (Don't when scripting.)
Do NOT screenscrape this tool, we don't consider its output stable.
########################################################################################
apu2c4 4.1.0--2026-05-15 # iw wlan0 info
Interface wlan0
ifindex 5
wdev 0x1
addr 64:70:02:0e:49:de
type managed
wiphy 0
txpower 20.00 dBm
multicast TXQ:
qsz-byt qsz-pkt flows drops marks overlmt hashcol
tx-bytes tx-packets
0 0 0 0 0 0 0
0 0
########################################################################################
Nach dem Test bin ich wieder auf die funktionierende rc130.wlan zurück
gegangen.
Gruß,
Helmut
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