NAME
wi
—
WaveLAN/IEEE, PRISM 2-3, and Spectrum24
IEEE 802.11b wireless network device
SYNOPSIS
# all architectures
wi* at pci?
wi* at pcmcia? function ?
wi* at uhub? port ?
# macppc extra attachment
wi* at macobio?
DESCRIPTION
The wi
driver provides support for
wireless network adapters based around the Lucent Hermes, Intersil PRISM-2,
Intersil PRISM-2.5, Intersil PRISM-3, and Symbol Spectrum24 chipsets. All
five chipsets provide a similar interface to the driver.
The wi
driver encapsulates all IP and ARP
traffic as 802.11 frames, though it can receive either 802.11 or 802.3
frames. Transmit speed is selectable between 1Mbps fixed, 2Mbps fixed, 2Mbps
with auto fallback, 5.5Mbps, 8Mbps, or 11Mbps, depending on hardware.
These are the modes the wi
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.
- IBSS mode
- Also known as IEEE ad-hoc mode or peer-to-peer mode. This is the standardized method of operating without an access point. Stations associate with a service set. However, actual connections between stations are peer-to-peer as in ad-hoc mode. Cards with very old firmware revisions do not support this mode.
- IBSS master
- Also know as Host IBSS mode. In this mode the station takes on part of the role of an access point, though traffic does not pass through it to reach the other stations. When a group of stations are operating in IBSS mode, one of them must be the master, specifying the network name of the service set.
- Host AP
- In this mode the driver acts as an access point (base station) for other cards. Only cards based on the Intersil chipsets support this mode. Furthermore, this mode is not supported on USB devices.
- ad-hoc mode
- More accurately known as ad-hoc demo mode. This mode does not require an access point; the adapter communicates with other ad-hoc stations within range on a peer-to-peer basis. This mode is not specified by the IEEE 802.11 standard and there may be problems interoperating with adapters manufactured by different vendors.
The wi
driver can be configured to use
both software and hardware Wired Equivalent Privacy (WEP). It is strongly
recommended that WEP not be used as the sole mechanism to secure wireless
communication, due to serious weaknesses in it.
The Lucent WaveLAN/IEEE Silver and Gold cards as well as the Intersil and Symbol cards have support for WEP encryption. The WaveLAN Gold as well as newer Intersil and Symbol cards support 104-bit keys, the others only accept 40-bit keys. The Lucent WaveLAN/IEEE Bronze cards do not support WEP at all. See also CAVEATS below.
The wi
driver can be configured at runtime
with ifconfig(8) or on boot with
hostname.if(5).
HARDWARE
Cards supported by the wi
driver come in a
variety of packages, though the most common are of the PCMCIA type. In many
cases, the PCI version of a wireless card is simply a PCMCIA card bundled
with a PCI adapter. The PCI adapters come in two flavors: true PCMCIA
bridges and dumb PCMCIA bridges. A true PCMCIA bridge (such as those sold by
Lucent) will attach as a real PCMCIA controller. The wireless card will then
attach to the PCMCIA bus. Wireless cards in PCMCIA slots may be inserted and
ejected on the fly. A dumb bridge, on the other hand, does not show up as a
true PCMCIA bus. The wireless card will simply appear to the host as a
normal PCI device and will not require any PCMCIA support. Cards in this
type of adapter should only be removed when the machine is powered down.
The following cards are among those supported by the
wi
driver:
Card | Chip | Bus |
3Com AirConnect 3CRWE737A | Spectrum24 | PCMCIA |
3Com AirConnect 3CRWE777A | Prism-2 | PCI |
Acer Warplink USB-400 | Prism-3 | USB |
Actiontec HWC01170 | Prism-2.5 | PCMCIA |
Actiontec HWU01170 | Prism-3 | USB |
Adaptec AWN-8030 | Prism-2.5 | PCMCIA |
Addtron AWA-100 | Prism-2 | PCI |
Addtron AWP-100 | Prism-2 | PCMCIA |
Agere ORiNOCO | Hermes | PCMCIA |
AirVast WM168b | Prism-3 | USB |
AmbiCom WL1100C-CF | Prism-3 | CF |
Ambit WLAN | Prism-3 | USB |
Apacer Wireless Steno MB112 | Prism-3 | USB |
Apple Airport | Hermes | macobio |
ARtem Onair | Hermes | PCMCIA |
ASUS SpaceLink WL-100 | Prism-2.5 | PCMCIA |
ASUS SpaceLink WL-110 | Prism-2.5 | CF |
ASUS WL-140 | Prism-3 | USB |
Belkin F5D6020 (version 1 only) | Prism-2 | PCMCIA |
Belkin F5D6001 (version 1 only) | Prism-2 | PCI |
Belkin F5D6060 (version 1 only) | Prism-2.5 | CF |
Buffalo AirStation | Prism-2 | PCMCIA |
Buffalo AirStation | Prism-2 | CF |
Cabletron RoamAbout | Hermes | PCMCIA |
Compaq Agency NC5004 | Prism-2 | PCMCIA |
Compaq W100 | Prism-3 | USB |
Contec FLEXLAN/FX-DS110-PCC | Prism-2 | PCMCIA |
Corega PCC-11 | Prism-2 | PCMCIA |
Corega PCCA-11 | Prism-2 | PCMCIA |
Corega PCCB-11 | Prism-2 | PCMCIA |
Corega CGWLPCIA11 | Prism-2 | PCI |
Corega WLUSB-11 | Prism-3 | USB |
Corega WLUSB-11 Key | Prism-3 | USB |
D-Link DCF-660W | Prism-2 | CF |
D-Link DWL-120 (rev F) | Prism-3 | USB |
D-Link DWL-122 | Prism-3 | USB |
D-Link DWL-520 (rev A and B only) | Prism-2.5 | PCI |
D-Link DWL-650 (rev A1-J3 only) | Prism-2.5 | PCMCIA |
ELSA XI300 | Prism-2 | PCMCIA |
ELSA XI325 | Prism-2.5 | PCMCIA |
ELSA XI325H | Prism-2.5 | PCMCIA |
ELSA XI800 | Prism-2 | CF |
EMTAC A2424i | Prism-2 | PCMCIA |
Ericsson Wireless LAN CARD C11 | Spectrum24 | PCMCIA |
Gemtek WL-311 | Prism-2.5 | PCMCIA |
Hawking Technology WE110P | Prism-2.5 | PCMCIA |
I-O DATA WN-B11/PCM | Prism-2 | PCMCIA |
I-O DATA WN-B11/USB | Prism-3 | USB |
Intel PRO/Wireless 2011 | Spectrum24 | PCMCIA |
Intel PRO/Wireless 2011B | Prism-3 | USB |
Intersil Prism II | Prism-2 | PCMCIA |
Intersil Mini PCI | Prism-2.5 | PCI |
Intersil ISL3872 | Prism-3 | PCI |
Intersil Prism 2X | Prism-3 | USB |
JVC MP-XP7250 | Prism-3 | USB |
Linksys WCF12 | Prism-3 | CF |
Linksys Instant Wireless WPC11 | Prism-2 | PCMCIA |
Linksys Instant Wireless WPC11 2.5 | Prism-2.5 | PCMCIA |
Linksys Instant Wireless WPC11 3.0 | Prism-3 | PCMCIA |
Linksys WUSB11 v3.0 | Prism-3 | USB |
Linksys WUSB12 | Prism-3 | USB |
Longshine 8301 | Prism-2 | PCI |
Lucent WaveLAN | Hermes | PCMCIA |
Melco WLI-USB-KB11 | Prism-3 | USB |
Melco WLI-USB-KS11G | Prism-3 | USB |
Melco WLI-USB-S11 | Prism-3 | USB |
Microsoft MN510 | Prism-3 | USB |
Microsoft MN520 | Prism-2.5 | PCMCIA |
NANOSPEED ROOT-RZ2000 | Prism-2 | PCMCIA |
NDC/Sohoware NCP130 | Prism-2 | PCI |
NEC CMZ-RT-WP | Prism-2 | PCMCIA |
Netgear MA111 (version 1 only) | Prism-3 | USB |
Netgear MA311 | Prism-2.5 | PCI |
Netgear MA401 | Prism-2 | PCMCIA |
Netgear MA401RA | Prism-2.5 | PCMCIA |
Netgear MA701 | Prism-2.5 | CF |
Nokia C020 Wireless LAN | Prism-I | PCMCIA |
Nokia C110/C111 Wireless LAN | Prism-2 | PCMCIA |
Nortel E-mobility 211818-A | Spectrum24 | PCI |
NTT-ME 11Mbps Wireless LAN | Prism-2 | PCMCIA |
Pheenet WL-503IA | Prism-3 | USB |
Planex GW-NS11H | Prism-3 | PCMCIA |
Planex GW-US11H | Prism-3 | USB |
Pretec Compact WLAN OC-WLBXX-A | Prism-2.5 | CF |
Proxim Harmony | Prism-2 | PCMCIA |
Proxim RangeLAN-DS | Prism-2 | PCMCIA |
Samsung MagicLAN SWL-2000N | Prism-2 | PCMCIA |
Samsung MagicLAN SWL-2210P | Prism-2 | PCI |
Senao NL-2511CF | Prism-3 | CF |
Senao NL-2511MP | Prism-2.5 | PCI |
Siemens SpeedStream SS1021 | Prism-2 | PCMCIA |
Siemens SpeedStream SS1022 | Prism-3 | USB |
Sitecom WL-022 | Prism-3 | USB |
SMC 2632 EZ Connect | Prism-2 | PCMCIA |
Symbol Spectrum24 | Spectrum24 | PCMCIA |
Symbol LA4123 | Spectrum24 | PCI |
Syntax USB-400 | Prism-3 | USB |
TDK LAK-CD011WL | Prism-2 | PCMCIA |
US Robotics 1120 | Prism-3 | USB |
US Robotics 2410 | Prism-2 | PCMCIA |
US Robotics 2445 | Prism-2 | PCMCIA |
ViewSonic Airsync | Prism-2.5 | USB |
Z-Com XI-725/726 | Prism-2.5 | USB |
Z-Com XI-735 | Prism-3 | USB |
ZyXEL ZyAIR B-200 | Prism-3 | USB |
Note that some of the PRISM-II adapters only work at 3.3V, hence cardbus(4) support is required for those cards to set VCC correctly, even though they are really 16-bit cards.
USB support is still experimental and the device may stop functioning during normal use. Resetting the device by configuring the interface down and back up again will normally reactivate it.
Several vendors sell PCI adapters built around the PLX Technology 9050 or 9052 chip. The following such adapters are supported or expected to work:
- 3Com AirConnect 3CRWE777A (3.3V)
- Addtron AWA-100
- Belkin F5D6000 (a rebadged WL11000P)
- Eumitcom WL11000P
- Global Sun Technology GL24110P (untested)
- Global Sun Technology GL24110P02
- Linksys WDT11 (a rebadged GL24110P02)
- Longshine 8031
- Netgear MA301
- Siemens/Efficient Networks SpeedStream 1023
- US Robotics 2415 (rebadged WL11000P)
EXAMPLES
The following example scans for available networks:
# ifconfig wi0 scan
The following hostname.if(5) example configures wi0 to join network “mynwid”, using WEP key “mywepkey”, obtaining an IP address using DHCP:
nwid mynwid nwkey mywepkey dhcp
The following hostname.if(5) example creates a host-based access point on boot:
inet 192.168.1.1 255.255.255.0 mediaopt hostap nwid mynwid nwkey mywepkey
DIAGNOSTICS
- wi0: init failed
- The WaveLAN card failed to come ready after an initialization command was issued.
- wi0: failed to allocate N bytes on NIC
- The driver was unable to allocate memory for transmit frames in the NIC's on-board RAM.
- wi0: device timeout
- The WaveLAN failed to generate an interrupt to acknowledge a transmit command.
SEE ALSO
arp(4), ifmedia(4), intro(4), netintro(4), pci(4), pcmcia(4), usb(4), hostname.if(5), ifconfig(8)
HCF Light programming specification.
HISTORY
The wi
device driver first appeared in
FreeBSD 3.0. OpenBSD support
was added in OpenBSD 2.6.
AUTHORS
The wi
driver was written by
Bill Paul
<wpaul@ctr.columbia.edu>
and ported to OpenBSD by Niklas
Hallqvist
<niklas@appli.se>.
CAVEATS
The original Lucent WaveLAN cards usually default to channel 3; newer cards use channel 10 by default. Non-Lucent cards vary, for instance the Addtron cards use channel 11 by default. See ifconfig(8) for information on how to change the channel.
Not all 3.3V wi
PCMCIA cards work.
IBSS creation does not currently work with Symbol cards.
The host-based access point mode on the Intersil PRISM cards has bugs when used with firmware versions prior to 0.8.3 and is completely unusable with firmware versions prior to 0.8.0 and 1.4.0-1.4.2.
Software WEP is currently only supported in Host AP and BSS modes. Furthermore, software WEP is currently incapable of decrypting fragmented frames. Lucent-based cards using firmware 8.10 and above fragment encrypted frames sent at 11Mbps. To work around this, Lucent clients with this firmware revision connecting to a Host AP server should use a 2Mbps connection or upgrade their firmware to version 8.72.
Host AP mode doesn't support WDS.
Support for USB devices is buggy. Host AP mode and AP scanning are not currently supported with USB devices.
This driver does not support powersave mode.