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WICONTROL(8)            FreeBSD System Manager's Manual           WICONTROL(8)

     wicontrol -- configure WaveLAN/IEEE devices

     wicontrol [-i] iface [-o]
     wicontrol [-i] iface -t tx_rate
     wicontrol [-i] iface -n network_name
     wicontrol [-i] iface -s station_name
     wicontrol [-i] iface -c 0 | 1
     wicontrol [-i] iface -q SSID
     wicontrol [-i] iface -p port_type
     wicontrol [-i] iface -a access_point_density
     wicontrol [-i] iface -m mac_address
     wicontrol [-i] iface -d max_data_length
     wicontrol [-i] iface -e 0 | 1
     wicontrol [-i] iface -k key [-v 1 | 2 | 3 | 4]
     wicontrol [-i] iface -T 1 | 2 | 3 | 4
     wicontrol [-i] iface -r RTS_threshold
     wicontrol [-i] iface -f frequency
     wicontrol [-i] iface -P 0 | 1
     wicontrol [-i] iface -S max_sleep_duration
     wicontrol [-i] iface -Z (zero signal cache)
     wicontrol [-i] iface -C (display signal cache)
     wicontrol [-i] iface -L (list avail access points)
     wicontrol [-i] iface -l (dump associated stations)

     The wicontrol utility controls the operation of WaveLAN/IEEE wireless
     networking devices via the wi(4) driver.  Most of the parameters that can
     be changed relate to the IEEE 802.11 protocol which the WaveLAN imple-
     ments.  This includes the station name, whether the station is operating
     in ad-hoc (point to point) or BSS (service set) mode, and the network
     name of a service set to join (IBSS) if BSS mode is enabled.  The
     wicontrol utility can also be used to view the current settings of these
     parameters and to dump out the values of the card's statistics counters.

     The iface argument given to wicontrol should be the logical interface
     name associated with the WaveLAN/IEEE device (wi0, wi1, etc.).  If none
     is specified then ``wi0'' is used as default.

     The options are as follows:

     [-i] iface [-o]
             Display the current settings of the specified WaveLAN/IEEE inter-
             face.  This retrieves the current card settings from the driver
             and prints them out.  Using the additional -o flag will cause
             wicontrol to print out the statistics counters instead of the
             card settings.  Encryption keys are only displayed if wicontrol
             is run as root.

     [-i] iface -t tx_rate
             Set the transmit rate of the specified interface.  The legal val-
             ues for the transmit rate vary depending on whether the interface
             is a standard WaveLAN/IEEE or a WaveLAN/IEEE Turbo adapter.  The
             standard NICs support a maximum transmit rate of 2Mbps while the
             turbo NICs support a maximum speed of 6Mbps.  The following table
             shows the legal transmit rate settings and the corresponding
             transmit speeds:

                   TX rate    NIC speed
                   1          Fixed Low (1Mbps)
                   2          Fixed Standard (2Mbps)
                   3          Auto Rate Select (High)
                   4          Fixed Medium (4Mbps)
                   5          Fixed High (6Mbps)
                   6          Auto Rate Select (Standard)
                   7          Auto Rate Select (Medium)

             The standard NICs support only settings 1 through 3.  Turbo NICs
             support all the above listed speed settings.  The default driver
             setting is 3 (auto rate select).

     [-i] iface -n network_name
             Set the name of the service set (IBSS) that this station wishes
             to join.  The network_name can be any text string up to 30 char-
             acters in length.  The default name is the string ``ANY'' which
             should allow the station to connect to the first available access
             point.  The interface should be set for BSS mode using the -p
             flag in order for this to work.

             Note: the WaveLAN manual indicates that an empty string will
             allow the host to connect to any access point, however I have
             also seen a reference in another driver which indicates that the
             ``ANY'' string works as well.

     [-i] iface -s station_name
             Sets the station name for the specified interface.  The
             station_name is used for diagnostic purposes.  The Lucent
             WaveMANAGER software can poll the names of remote hosts.

     [-i] iface -c 0 | 1
             Allow the station to create a service set (IBSS).  Permitted val-
             ues are 0 (don't create IBSS) and 1 (enable creation of IBSS).
             The default is 0.

             Note: this option is provided for experimental purposes only:
             enabling the creation of an IBSS on a host system doesn't appear
             to actually work.

     [-i] iface -q SSID
             Specify the name of an IBSS (SSID) to create on a given inter-
             face.  The SSID can be any text string up to 30 characters long.

             Note: this option is provided for experimental purposes only:
             enabling the creation of an IBSS on a host system doesn't appear
             to actually work.

     [-i] iface -p port_type
             Set the port type for a specified interface.  The legal values
             for port_type are 1 (BSS mode) and 3 (ad-hoc) mode.  In ad-hoc
             mode, the station can communicate directly with any other sta-
             tions within direct radio range (provided that they are also
             operating in ad-hoc mode).  In BSS mode, hosts must associate
             with a service set controlled by an access point, which relays
             traffic between end stations.  The default setting is 3 (ad-hoc

     [-i] iface -a access_point_density
             Specify the access point density for a given interface.  Legal
             values are 1 (low), 2 (medium) and 3 (high).  This setting influ-
             ences some of the radio modem threshold settings.

     [-i] iface -m mac_address
             Set the station address for the specified interface.  The
             mac_address is specified as a series of six hexadecimal values
             separated by colons, e.g., ``00:60:1d:12:34:56''.  This programs
             the new address into the card and updates the interface as well.

     [-i] iface -d max_data_length
             Set the maximum receive and transmit frame size for a specified
             interface.  The max_data_length can be any number from 350 to
             2304.  The default is 2304.

     [-i] iface -e 0 | 1
             Enable or disable WEP encryption.  Permitted values are 0
             (encryption disabled) or 1 (encryption enabled).  Encryption is
             off by default.

             Both 128-bit and 64-bit WEP have been broken.  See the BUGS sec-
             tion for details.

     [-i] iface -k key [-v 1 | 2 | 3 | 4]
             Set WEP encryption keys.  There are four default encryption keys
             that can be programmed.  A specific key can be set using the -v
             flag.  If the -v flag is not specified, the first key will be
             set.  Encryption keys can either be normal text (i.e. ``hello'')
             or a series of hexadecimal digits (i.e. ``0x1234512345'').  For
             WaveLAN Turbo Silver cards, the key is restricted to 40 bits,
             hence the key can be either a 5 character text string or 10 hex
             digits.  For WaveLAN Turbo Gold cards, the key can also be 104
             bits, which means the key can be specified as either a 13 charac-
             ter text string or 26 hex digits in addition to the formats sup-
             ported by the Silver cards.

             Note: Both 128-bit and 64-bit WEP have been broken.  See the BUGS
             section for details.

     [-i] iface -T 1 | 2 | 3 | 4
             Specify which of the four WEP encryption keys will be used to
             encrypt transmitted packets.

             Note: Both 128-bit and 64-bit WEP have been broken.  See the BUGS
             section for details.

     [-i] iface -r RTS_threshold
             Set the RTS/CTS threshold for a given interface.  This controls
             the number of bytes used for the RTS/CTS handshake boundary.  The
             RTS_threshold can be any value between 0 and 2347.  The default
             is 2347.

     [-i] iface -f frequency
             Set the radio frequency of a given interface.  The frequency
             should be specified as a channel ID as shown in the table below.
             The list of available frequencies is dependent on radio regula-
             tions specified by regional authorities.  Recognized regulatory
             authorities include the FCC (United States), ETSI (Europe),
             France and Japan.  Frequencies in the table are specified in MHz.

                   Channel ID   FCC   ETSI   France   Japan
                   1            2412  2412   -        2412
                   2            2417  2417   -        2417
                   3            2422  2422   -        2422
                   4            2427  2427   -        2427
                   5            2432  2432   -        2432
                   6            2437  2437   -        2437
                   7            2442  2442   -        2442
                   8            2447  2447   -        2447
                   9            2452  2452   -        2452
                   10           2457  2457   2457     2457
                   11           2462  2462   2462     2462
                   12           -     2467   2467     2467
                   13           -     2472   2472     2472
                   14           -     -      -        2484

             If an illegal channel is specified, the NIC will revert to its
             default channel.  For NICs sold in the United States and Europe,
             the default channel is 3.  For NICs sold in France, the default
             channel is 11.  For NICs sold in Japan, the default channel is
             14, and it is the only available channel for pre-11Mbps NICs.
             Note that two stations must be set to the same channel in order
             to communicate.

     [-i] iface -P 0 | 1
             Enable or disable power management on a given interface.
             Enabling power management uses an alternating sleep/wake protocol
             to help conserve power on mobile stations, at the cost of some
             increased receive latency.  Power management is off by default.
             Note that power management requires the cooperation of an access
             point in order to function; it is not functional in ad-hoc mode.
             Also, power management is only implemented in Lucent WavePOINT
             firmware version 2.03 or later, and in WaveLAN PCMCIA adapter
             firmware 2.00 or later.  Older revisions will silently ignore the
             power management setting.  Legal values for this parameter are 0
             (off) and 1 (on).

     [-i] iface -S max_sleep_interval
             Specify the sleep interval to use when power management is
             enabled.  The max_sleep_interval is specified in milliseconds.
             The default is 100.

     [-i] iface -Z
             Clear the signal strength cache maintained internally by the
             wi(4) driver.

     [-i] iface -C
             Display the cached signal strength information maintained by the
             wi(4) driver.  The driver retains information about signal
             strength and noise level for packets received from different
             hosts.  The signal strength and noise level values are displayed
             in units of dBms.  The signal quality values is produced by sub-
             tracting the noise level from the signal strength (i.e. less
             noise and better signal yields better signal quality).

     ipsec(4), wi(4), ifconfig(8)

     The WEP encryption method has been broken so that third parties can
     recover the keys in use relatively quickly at distances that are surpris-
     ing to most people.  Do not rely on WEP for anything but the most basic,
     remedial security.  IPSEC will give you a higher level of security and
     should be used whenever possible.  Do not trust access points or wireless
     machines that connect through them as they can provide no assurance that
     the traffic is legitimate.  MAC addresses can easily be forged and should
     therefore not be used as the only access control.

     The attack on WEP is a passive attack, requiring only the ability to
     sniff packets on the network.  The passive attack can be launched at a
     distance larger, up to many miles, than one might otherwise expect given
     a specialized antenna used in point to point applications.  The attacker
     can recover the keys from a 128-bit WEP network with only 5,000,000 to
     6,000,000 packets.  While this may sound like a large number of packets,
     empirical evidence suggests that this amount of traffic is generated in a
     few hours on a partially loaded network.  Once a key has been compro-
     mised, the only remedial action is to discontinue it and use a new key.

     See for details of
     the attack.

     If you must use WEP, you are strongly encouraged to pick keys whose bytes
     are random and not confined to ASCII characters.

     The wicontrol utility first appeared in FreeBSD 3.0.

     The wicontrol utility was written by Bill Paul <>.

FreeBSD 4.10                    April 21, 1999                    FreeBSD 4.10


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