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download PDF document: run.4.pdf

RUN(4) FreeBSD Kernel Interfaces Manual RUN(4)
NAME run - Ralink Technology USB IEEE 802.11a/g/n wireless network device
SYNOPSIS To compile this driver into the kernel, place the following lines in your kernel configuration file:
device ehci device uhci device ohci device usb device run device wlan device wlan_amrr
Firmware is also needed, and provided by:
device runfw
Alternatively, to load the driver as a module at boot time, place the following lines in loader.conf(5):
if_run_load="YES" runfw_load="YES"
DESCRIPTION The run driver supports USB 2.0 wireless adapters based on the Ralink RT2700U, RT2800U, RT3000U and RT3900E chipsets.
The RT2700U chipset consists of two integrated chips, an RT2770 MAC/BBP and an RT2720 (1T2R) or RT2750 (dual-band 1T2R) radio transceiver.
The RT2800U chipset consists of two integrated chips, an RT2870 MAC/BBP and an RT2820 (2T3R) or RT2850 (dual-band 2T3R) radio transceiver.
The RT3000U is a single-chip solution based on an RT3070 MAC/BBP and an RT3020 (1T1R), RT3021 (1T2R) or RT3022 (2T2R) single-band radio transceiver.
The RT3900E is a single-chip USB 2.0 802.11n solution. The MAC/Baseband Processor can be an RT3593, RT5390, RT5392 or an RT5592. The radio can be an RT3053, RT5370, RT5372 or an RT5572. The RT3053 chip operates in the 2GHz and 5GHz spectra and supports up to 3 transmit paths and 3 receiver paths (3T3R). The RT5370 chip operates in the 2GHz spectrum and supports 1 transmit path and 1 receiver path (1T1R). The RT5372 chip operates in the 2GHz spectrum and supports up to 2 transmit paths and 2 receiver paths (2T2R). The RT5572 chip operates in the 2GHz and 5GHz spectra and supports up to 2 transmit paths and 2 receiver paths (2T2R).
These are the modes the run driver can operate in:
BSS mode Also known as infrastructure mode, this is used when associating with an access point, through which all traffic passes. This mode is the default.
Host AP mode In this mode the driver acts as an access point (base station) for other cards.
The run driver can be configured to use Wired Equivalent Privacy (WEP) or Wi-Fi Protected Access (WPA-PSK and WPA2-PSK). WPA is the de facto encryption standard for wireless networks. It is strongly recommended that WEP not be used as the sole mechanism to secure wireless communication, due to serious weaknesses in it. The run driver offloads both encryption and decryption of data frames to the hardware for the WEP40, WEP104, TKIP(+MIC) and CCMP ciphers.
The run driver can be configured at runtime with ifconfig(8).
HARDWARE The run driver supports the following wireless adapters:
Airlink101 AWLL6090 ASUS USB-N11 ASUS USB-N13 ver. A1 ASUS USB-N14 ASUS USB-N66 ASUS WL-160N Belkin F5D8051 ver 3000 Belkin F5D8053 Belkin F5D8055 Belkin F6D4050 ver 1 Belkin F9L1103 Buffalo WLI-UC-AG300N Buffalo WLI-UC-G300HP Buffalo WLI-UC-G300N Buffalo WLI-UC-G301N Buffalo WLI-UC-GN Buffalo WLI-UC-GNM Buffalo WLI-UC-GNM2 Corega CG-WLUSB2GNL Corega CG-WLUSB2GNR Corega CG-WLUSB300AGN Corega CG-WLUSB300GNM D-Link DWA-130 rev B1 D-Link DWA-130 rev F1 D-Link DWA-140 rev B1, B2, B3, D1 D-Link DWA-160 rev B2 D-Link DWA-162 DrayTek Vigor N61 Edimax EW-7711UAn Edimax EW-7711UTn Edimax EW-7717Un Edimax EW-7718Un Edimax EW-7733UnD Gigabyte GN-WB30N Gigabyte GN-WB31N Gigabyte GN-WB32L Hawking HWDN1 Hawking HWUN1 Hawking HWUN2 Hercules HWNU-300 Linksys WUSB54GC v3 Linksys WUSB600N Logitec LAN-W150N/U2 Mvix Nubbin MS-811N Panda Wireless PAU06 Planex GW-USMicroN Sweex LW303 Sweex LW313 TP-LINK TL-WDN3200 TP-LINK TL-WN321G v4 TP-LINK TL-WN727N v3 Unex DNUR-81 Unex DNUR-82 ZyXEL NWD2705 ZyXEL NWD210N ZyXEL NWD270N
EXAMPLES Join an existing BSS network (i.e., connect to an access point):
ifconfig wlan create wlandev run0 inet 192.168.0.20 \ netmask 0xffffff00
Join a specific BSS network with network name "my_net":
ifconfig wlan create wlandev run0 ssid my_net up
Join a specific BSS network with 64-bit WEP encryption:
ifconfig wlan create wlandev run0 ssid my_net \ wepmode on wepkey 0x1234567890 weptxkey 1 up
Join a specific BSS network with 128-bit WEP encryption:
ifconfig wlan create wlandev run0 wlanmode adhoc ssid my_net \ wepmode on wepkey 0x01020304050607080910111213 weptxkey 1
DIAGNOSTICS run%d: failed load firmware of file runfw For some reason, the driver was unable to read the microcode file from the filesystem. The file might be missing or corrupted.
run%d: could not load 8051 microcode An error occurred while attempting to upload the microcode to the onboard 8051 microcontroller unit.
run%d: device timeout A frame dispatched to the hardware for transmission did not complete in time. The driver will reset the hardware. This should not happen.
SEE ALSO intro(4), netintro(4), runfw(4), usb(4), wlan(4), wlan_amrr(4), wlan_ccmp(4), wlan_tkip(4), wlan_wep(4), wlan_xauth(4), hostapd(8), ifconfig(8), wpa_supplicant(8)
HISTORY The run driver first appeared in OpenBSD 4.5.
AUTHORS The run driver was written by Damien Bergamini <damien@openbsd.org>.
CAVEATS The run driver supports some of the 11n capabilities found in the RT2800, RT3000 and RT3900 chipsets.
FreeBSD 14.0-RELEASE-p11 May 23, 2021 FreeBSD 14.0-RELEASE-p11