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28 .\" From: @(#)ifconfig.8 8.3 (Berkeley) 1/5/94
29 .\" $FreeBSD: src/sbin/ifconfig/ifconfig.8,v 1.124 2006/10/10 09:44:08 ru Exp $
36 .Nd configure network interface parameters
77 utility is used to assign an address
78 to a network interface and/or configure
79 network interface parameters.
82 utility must be used at boot time to define the network address
83 of each interface present on a machine; it may also be used at
84 a later time to redefine an interface's address
85 or other operating parameters.
87 The following options are available:
88 .Bl -tag -width indent
91 .Tn DARPA Ns -Internet
93 the address is either a host name present in the host name data
98 Internet address expressed in the Internet standard
101 It is also possible to use the CIDR notation (also known as the
102 slash notation) to include the netmask.
103 That is, one can specify an address like
108 family, it is also possible to specify the prefix length using the slash
113 parameter below for more information.
114 .\" For the Xerox Network Systems(tm) family,
116 .\" .Ar net:a.b.c.d.e.f ,
119 .\" is the assigned network number (in decimal),
120 .\" and each of the six bytes of the host number,
124 .\" are specified in hexadecimal.
125 .\" The host number may be omitted on IEEE 802 protocol
126 .\" (Ethernet, FDDI, and Token Ring) interfaces,
127 .\" which use the hardware physical address,
128 .\" and on interfaces other than the first.
131 .\" family, addresses are specified as a long hexadecimal string,
132 .\" as in the Xerox family.
133 .\" However, two consecutive dots imply a zero
134 .\" byte, and the dots are optional, if the user wishes to (carefully)
135 .\" count out long strings of digits in network byte order.
140 is specified as a series of colon-separated hex digits.
142 e.g.\& set a new MAC address on an ethernet interface, though the
143 mechanism used is not ethernet-specific.
144 If the interface is already
145 up when this option is used, it will be briefly brought down and
146 then brought back up again in order to ensure that the receive
147 filter in the underlying ethernet hardware is properly reprogrammed.
148 .It Ar address_family
151 which affects interpretation of the remaining parameters.
152 Since an interface can receive transmissions in differing protocols
153 with different naming schemes, specifying the address family is recommended.
154 The address or protocol families currently
169 Specify the address of the correspondent on the other end
170 of a point to point link.
173 parameter is a string of the form
179 The following parameters may be set with
181 .Bl -tag -width indent
186 Introduced for compatibility
190 Establish an additional network address for this interface.
191 This is sometimes useful when changing network numbers, and
192 one wishes to accept packets addressed to the old interface.
193 If the address is on the same subnet as the first network address
194 for this interface, a non-conflicting netmask must be given.
199 Remove the network address specified.
200 This would be used if you incorrectly specified an alias, or it
201 was no longer needed.
202 If you have incorrectly set an NS address having the side effect
203 of specifying the host portion, removing all NS addresses will
204 allow you to respecify the host portion.
207 Specify that the address configured is an anycast address.
208 Based on the current specification,
209 only routers may configure anycast addresses.
210 Anycast address will not be used as source address of any of outgoing
213 Enable the use of the Address Resolution Protocol
216 between network level addresses and link level addresses (default).
217 This is currently implemented for mapping between
222 802 48-bit MAC addresses (Ethernet, FDDI, and Token Ring addresses).
224 Disable the use of the Address Resolution Protocol
227 If the Address Resolution Protocol is enabled,
228 the host will only reply to requests for its addresses,
229 and will never send any requests.
231 If the Address Resolution Protocol is enabled,
232 the host will perform normally,
233 sending out requests and listening for replies.
236 Specify the address to use to represent broadcasts to the
238 The default broadcast address is the address with a host part of all 1's.
240 Enable driver dependent debugging code; usually, this turns on
241 extra console error logging.
243 Disable driver dependent debugging code.
245 Put interface into permanently promiscuous mode.
247 Disable permanently promiscuous mode.
255 When an interface is marked
257 the system will not attempt to
258 transmit messages through that interface.
259 If possible, the interface will be reset to disable reception as well.
260 This action does not automatically disable routes using the interface.
264 (lowermost 64bit of an IPv6 address)
267 If the driver supports the media selection system, set the media type
270 Some interfaces support the mutually exclusive use of one of several
271 different physical media connectors.
272 For example, a 10Mbit/s Ethernet
273 interface might support the use of either
275 or twisted pair connectors.
276 Setting the media type to
278 would change the currently active connector to the AUI port.
281 would activate twisted pair.
282 Refer to the interfaces' driver
283 specific documentation or man page for a complete list of the
285 .It Cm mediaopt Ar opts
286 If the driver supports the media selection system, set the specified
287 media options on the interface.
291 is a comma delimited list of options to apply to the interface.
292 Refer to the interfaces' driver specific man page for a complete
293 list of available options.
294 .It Fl mediaopt Ar opts
295 If the driver supports the media selection system, disable the
296 specified media options on the interface.
298 If the driver supports the media selection system, set the specified
299 operating mode on the interface to
301 For IEEE 802.11 wireless interfaces that support multiple operating modes
302 this directive is used to select between 802.11a
310 Set the interface name to
313 If the driver supports receive side scaling,
314 enable receive side scaling on the interface.
316 If the driver supports receive side scaling,
317 disable receive side scaling on the interface.
318 .It Cm rxcsum , txcsum
319 If the driver supports user-configurable checksum offloading,
320 enable receive (or transmit) checksum offloading on the interface.
321 Some drivers may not be able to enable these flags independently
322 of each other, so setting one may also set the other.
323 The driver will offload as much checksum work as it can reliably
324 support, the exact level of offloading varies between drivers.
325 .It Fl rxcsum , txcsum
326 If the driver supports user-configurable checksum offloading,
327 disable receive (or transmit) checksum offloading on the interface.
328 These settings may not always be independent of each other.
330 If the driver supports TCP segmentation offloading,
331 enable TCP segmentation offloading on the interface.
333 If the driver supports TCP segmentation offloading,
334 disable TCP segmentation offloading on the interface.
335 .It Cm vlanmtu , vlanhwtag
336 If the driver offers user-configurable VLAN support, enable
337 reception of extended frames or tag processing in hardware,
339 Note that this must be issued on a physical interface associated with
344 .It Fl vlanmtu , vlanhwtag
345 If the driver offers user-configurable VLAN support, disable
346 reception of extended frames or tag processing in hardware,
348 .It Cm pollcpu Ar cpu
349 Deprecated, use polling or npolling instead.
350 .It Cm polling , npolling
353 feature and disable interrupts on the interface, if the driver supports
355 .It Fl polling , npolling
358 feature and enable interrupt mode on the interface.
360 Create the specified network pseudo-device.
361 If the interface is given without a unit number, try to create a new
362 device with an arbitrary unit number.
363 If creation of an arbitrary device is successful, the new device name is
364 printed to standard output unless the interface is renamed or destroyed
369 Destroy the specified network pseudo-device.
385 Set the routing metric of the interface to
388 The routing metric is used by the routing protocol
390 Higher metrics have the effect of making a route
391 less favorable; metrics are counted as additional hops
392 to the destination network or host.
394 Set the maximum transmission unit of the interface to
396 default is interface specific.
397 The MTU is used to limit the size of packets that are transmitted on an
399 Not all interfaces support setting the MTU, and some interfaces have
402 Set the maximum amount of data
403 that TCP segmentation offloading is allowed to aggregate to
405 the default value is interface specific.
406 This setting only takes effect on interfaces
407 that support TCP segmentation offloading.
408 .It Cm netmask Ar mask
411 Specify how much of the address to reserve for subdividing
412 networks into sub-networks.
413 The mask includes the network part of the local address
414 and the subnet part, which is taken from the host field of the address.
415 The mask can be specified as a single hexadecimal number
418 with a dot-notation Internet address,
419 or with a pseudo-network name listed in the network table
421 The mask contains 1's for the bit positions in the 32-bit address
422 which are to be used for the network and subnet parts,
423 and 0's for the host part.
424 The mask should contain at least the standard network portion,
425 and the subnet field should be contiguous with the network
428 The netmask can also be specified in CIDR notation after the address.
431 option above for more information.
434 Enable autoconfiguration.
436 Disable autoconfiguration.
439 Set preferred lifetime for the address.
442 Set valid lifetime for the address.
443 .It Cm prefixlen Ar len
447 bits are reserved for subdividing networks into sub-networks.
450 must be integer, and for syntactical reason it must be between 0 to 128.
451 It is almost always 64 under the current IPv6 assignment rule.
452 If the parameter is omitted, 64 is used.
454 The prefix can also be specified using the slash notation after the address.
457 option above for more information.
460 Set the IPv6 deprecated address bit.
463 Clear the IPv6 deprecated address bit.
466 Set the IPv6 tentative address bit.
469 Clear the IPv6 tentative address bit.
472 .\" .It Cm nsellength Ar n
475 .\" This specifies a trailing number of bytes for a received
477 .\" used for local identification, the remaining leading part of which is
480 .\" (Network Entity Title).
481 .\" The default value is 1, which is conformant to US
483 .\" When an ISO address is set in an ifconfig command,
486 .\" which is being specified.
489 .\" 20 hex digits should be
492 .\" to be assigned to the interface.
493 .\" There is some evidence that a number different from 1 may be useful
496 .\" 37 type addresses.
497 .It Cm range Ar netrange
498 Under appletalk, set the interface to respond to a
501 .Ar startnet Ns - Ns Ar endnet .
502 Appletalk uses this scheme instead of
505 implements it internally as a set of netmasks.
510 Introduced for compatibility
514 The argument following this specifies the version (phase) of the
515 Appletalk network attached to the interface.
516 Values of 1 or 2 are permitted.
518 .It Cm link Op Cm 0 No - Cm 2
520 Enable special processing of the link level of the interface.
521 These three options are interface specific in actual effect, however,
522 they are in general used to select special modes of operation.
524 of this is to enable SLIP compression, or to select the connector type
525 for some Ethernet cards.
526 Refer to the man page for the specific driver
527 for more information.
529 .It Fl link Op Cm 0 No - Cm 2
531 Disable special processing at the link level with the specified interface.
545 Put the interface in monitor mode.
546 No packets are transmitted, and received packets are discarded after
550 Take the interface out of monitor mode.
554 This may be used to enable an interface after an
556 It happens automatically when setting the first address on an interface.
557 If the interface was reset when previously marked down,
558 the hardware will be re-initialized.
561 The following parameters are specific to cloning
562 IEEE 802.11 wireless interfaces with the
565 .Bl -tag -width indent
566 .It Cm wlandev Ar device
569 as the parent for the cloned device.
570 .It Cm wlanmode Ar mode
571 Specify the operating mode for this cloned device.
589 The operating mode of a cloned interface cannot be changed.
592 mode is actually implemented as an
594 interface with special properties.
595 .It Cm wlanbssid Ar bssid
596 The 802.11 mac address to use for the bssid.
597 This must be specified at create time for a legacy
600 .It Cm wlanaddr Ar address
601 The local mac address.
602 If this is not specified then a mac address will automatically be assigned
603 to the cloned device.
604 Typically this address is the same as the address of the parent device
607 parameter is specified then the driver will craft a unique address for
608 the device (if supported).
612 device as operating in ``legacy mode''.
615 devices have a fixed peer relationship and do not, for example, roam
616 if their peer stops communicating.
617 For completeness a Dynamic WDS (DWDS) interface may marked as
620 Request a unique local mac address for the cloned device.
621 This is only possible if the device supports multiple mac addresses.
622 To force use of the parent's mac address use
625 Mark the cloned interface as depending on hardware support to
626 track received beacons.
627 To have beacons tracked in software use
633 can also be used to indicate no beacons should
634 be transmitted; this can be useful when creating a WDS configuration but
636 interfaces can only be created as companions to an access point.
639 The following parameters are specific to IEEE 802.11 wireless interfaces
643 .Bl -tag -width indent
645 Enable sending and receiving AMPDU frames when using 802.11n (default).
646 The 802.11n specification states a compliant station must be capable
647 of receiving AMPDU frames but transmission is optional.
650 to disable all use of AMPDU with 802.11n.
651 For testing and/or to work around interoperability problems one can use
655 to control use of AMPDU in one direction.
656 .It Cm ampdudensity Ar density
657 Set the AMPDU density parameter used when operating with 802.11n.
658 This parameter controls the inter-packet gap for AMPDU frames.
659 The sending device normally controls this setting but a receiving station
660 may request wider gaps.
663 are 0, .25, .5, 1, 2, 4, 8, and 16 (microseconds).
666 is treated the same as 0.
667 .It Cm ampdulimit Ar limit
668 Set the limit on packet size for receiving AMPDU frames when operating
672 are 8192, 16384, 32768, and 65536 but one can also specify
673 just the unique prefix: 8, 16, 32, 64.
674 Note the sender may limit the size of AMPDU frames to be less
675 than the maximum specified by the receiving station.
677 Enable sending and receiving AMSDU frames when using 802.11n.
678 By default AMSDU is received but not transmitted.
681 to disable all use of AMSDU with 802.11n.
682 For testing and/or to work around interoperability problems one can use
686 to control use of AMSDU in one direction.
687 .It Cm amsdulimit Ar limit
688 Set the limit on packet size for sending and receiving AMSDU frames
689 when operating with 802.11n.
692 are 7935 and 3839 (bytes).
693 Note the sender may limit the size of AMSDU frames to be less
694 than the maximum specified by the receiving station.
695 Note also that devices are not required to support the 7935 limit,
696 only 3839 is required by the specification and the larger value
697 may require more memory to be dedicated to support functionality
700 When operating as an access point, pass packets between
701 wireless clients directly (default).
702 To instead let them pass up through the
703 system and be forwarded using some other mechanism, use
705 Disabling the internal bridging
706 is useful when traffic is to be processed with
708 .It Cm authmode Ar mode
709 Set the desired authentication mode in infrastructure mode.
710 Not all adapters support all modes.
713 .Cm none , open , shared
719 (IEEE WPA/WPA2/802.11i).
724 modes are only useful when using an authentication service
725 (a supplicant for client operation or an authenticator when
726 operating as an access point).
727 Modes are case insensitive.
729 Enable background scanning when operating as a station.
730 Background scanning is a technique whereby a station associated to
731 an access point will temporarily leave the channel to scan for
732 neighboring stations.
733 This allows a station to maintain a cache of nearby access points
734 so that roaming between access points can be done without
735 a lengthy scan operation.
736 Background scanning is done only when a station is not busy and
737 any outbound traffic will cancel a scan operation.
738 Background scanning should never cause packets to be lost though
739 there may be some small latency if outbound traffic interrupts a
741 By default background scanning is enabled if the device is capable.
742 To disable background scanning, use
744 Background scanning is controlled by the
749 Background scanning must be enabled for roaming; this is an artifact
750 of the current implementation and may not be required in the future.
751 .It Cm bgscanidle Ar idletime
752 Set the minimum time a station must be idle (not transmitting or
753 receiving frames) before a background scan is initiated.
756 parameter is specified in milliseconds.
757 By default a station must be idle at least 250 milliseconds before
758 a background scan is initiated.
759 The idle time may not be set to less than 100 milliseconds.
760 .It Cm bgscanintvl Ar interval
761 Set the interval at which background scanning is attempted.
764 parameter is specified in seconds.
765 By default a background scan is considered every 300 seconds (5 minutes).
768 may not be set to less than 15 seconds.
769 .It Cm bintval Ar interval
770 Set the interval at which beacon frames are sent when operating in
774 parameter is specified in TU's (1024 usecs).
775 By default beacon frames are transmitted every 100 TU's.
776 .It Cm bmissthreshold Ar count
777 Set the number of consecutive missed beacons at which the station
778 will attempt to roam (i.e., search for a new access point).
781 parameter must be in the range 1 to 255; though the
782 upper bound may be reduced according to device capabilities.
783 The default threshold is 7 consecutive missed beacons; but
784 this may be overridden by the device driver.
789 .It Cm bssid Ar address
790 Specify the MAC address of the access point to use when operating
791 as a station in a BSS network.
792 This overrides any automatic selection done by the system.
793 To disable a previously selected access point, supply
798 This option is useful when more than one access point uses the same SSID.
804 Enable packet bursting.
805 Packet bursting is a transmission technique whereby the wireless
806 medium is acquired once to send multiple frames and the interframe
808 This technique can significantly increase throughput by reducing
809 transmission overhead.
810 Packet bursting is supported by the 802.11e QoS specification
811 and some devices that do not support QoS may still be capable.
812 By default packet bursting is enabled if a device is capable
814 To disable packet bursting, use
816 .It Cm chanlist Ar channels
817 Set the desired channels to use when scanning for access
818 points, neighbors in an IBSS network, or looking for unoccupied
819 channels when operating as an access point.
820 The set of channels is specified as a comma-separated list with
821 each element in the list representing either a single channel number or a range
824 Channel numbers must be in the range 1 to 255 and be permissible
825 according to the operating characteristics of the device.
826 .It Cm channel Ar number
827 Set a single desired channel.
828 Channels range from 1 to 255, but the exact selection available
829 depends on the region your adaptor was manufactured for.
835 will clear any desired channel and, if the device is marked up,
836 force a scan for a channel to operate on.
837 Alternatively the frequency, in megahertz, may be specified
838 instead of the channel number.
840 When there are several ways to use a channel the channel
841 number/frequency may be appended with attributes to clarify.
842 For example, if a device is capable of operating on channel 6
843 with 802.11n and 802.11g then one can specify that g-only use
844 should be used by specifying ``6:g''.
845 Similarly the channel width can be specified by appending it
846 with ``/''; e.g. ``6/40'' specifies a 40MHz wide channel,
847 These attributes can be combined as in: ``6:ht/40''.
848 The full set of flags specified following a `:'' are:
854 (Atheros Dynamic Turbo mode),
862 (Atheros Static Turbo mode),
865 (Atheros Dynamic Turbo mode, or appended to ``st'' and ``dt'').
866 The full set of channel widths following a '/' are:
868 (5MHz aka quarter-rate channel),
870 (10MHz aka half-rate channel),
872 (20MHz mostly for use in specifying ht20),
875 (40MHz mostly for use in specifying ht40),
877 a 40MHz HT channel specification may include the location
878 of the extension channel by appending ``+'' or ``-'' for above and below,
879 respectively; e.g. ``2437:ht/40+'' specifies 40MHz wide HT operation
880 with the center channel at frequency 2437 and the extension channel above.
881 .It Cm country Ar name
882 Set the country code to use in calculating the regulatory constraints
884 In particular the set of available channels, how the wireless device
885 will operation on the channels, and the maximum transmit power that
886 can be used on a channel are defined by this setting.
887 Country/Region codes are specified as a 2-character abbreviation
888 defined by ISO 3166 or using a longer, but possibly ambiguous, spelling;
889 e.g. "ES" and "Spain".
890 The set of country codes are taken from /etc/regdomain.xml and can also
891 be viewed with the ``list countries'' request.
892 Note that not all devices support changing the country code from a default
893 setting; typically stored in EEPROM.
901 Enable Dynamic Frequency Selection (DFS) as specified in 802.11h.
902 DFS embodies several facilities including detection of overlapping
903 radar signals, dynamic transmit power control, and channel selection
904 according to a least-congested criteria.
905 DFS support is mandatory for some 5Ghz frequencies in certain
907 By default DFS is enabled according to the regulatory definitions
908 specified in /etc/regdomain.xml and the curent country code, regdomain,
910 Note the underlying device (and driver) must support radar detection
911 for full DFS support to work.
912 To be fully compliant with the local regulatory agency frequencies that
913 require DFS should not be used unless it is fully supported.
916 to disable this functionality for testing.
918 Enable support for the 802.11d specification (default).
919 When this support is enabled in station mode, beacon frames that advertise
920 a country code different than the currently configured country code will
921 cause an event to be dispatched to user applications.
922 This event can be used by the station to adopt that country code and
923 operate according to the associated regulatory constraints.
924 When operating as an access point with 802.11d enabled the beacon and
925 probe response frames transmitted will advertise the current regulatory
927 To disable 802.11d use
930 Enable 802.11h support including spectrum management.
931 When 802.11h is enabled beacon and probe response frames will have
932 the SpectrumMgt bit set in the capabilities field and
933 country and power constraint information elements will be present.
934 802.11h support also includes handling Channel Switch Announcements (CSA)
935 which are a mechanism to coordinate channel changes by an access point.
936 By default 802.11h is enabled if the device is capable.
937 To disable 802.11h use
939 .It Cm deftxkey Ar index
940 Set the default key to use for transmission.
941 Typically this is only set when using WEP encryption.
942 Note that you must set a default transmit key
943 for the system to know which key to use in encrypting outbound traffic.
946 is an alias for this request; it is provided for backwards compatibility.
947 .It Cm dtimperiod Ar period
950 period for transmitting buffered multicast data frames when
951 operating in ap mode.
954 specifies the number of beacon intervals between DTIM
955 and must be in the range 1 to 15.
956 By default DTIM is 1 (i.e., DTIM occurs at each beacon).
958 Enable the use of Atheros Dynamic Turbo mode when communicating with
959 another Dynamic Turbo-capable station.
960 Dynamic Turbo mode is an Atheros-specific mechanism by which
961 stations switch between normal 802.11 operation and a ``boosted''
962 mode in which a 40MHz wide channel is used for communication.
963 Stations using Dynamic Turbo mode operate boosted only when the
964 channel is free of non-dturbo stations; when a non-dturbo station
965 is identified on the channel all stations will automatically drop
966 back to normal operation.
967 By default, Dynamic Turbo mode is not enabled, even if the device is capable.
968 Note that turbo mode (dynamic or static) is only allowed on some
969 channels depending on the regulatory constraints; use the
971 command to identify the channels where turbo mode may be used.
972 To disable Dynamic Turbo mode use
975 Enable Dynamic WDS (DWDS) support.
976 DWDS is a facility by which 4-address traffic can be carried between
977 stations operating in infrastructure mode.
978 A station first associates to an access point and authenticates using
979 normal procedures (e.g. WPA).
980 Then 4-address frames are passed to carry traffic for stations
981 operating on either side of the wireless link.
982 DWDS extends the normal WDS mechanism by leveraging existing security
983 protocols and eliminating static binding.
985 When DWDS is enabled on an access point 4-address frames received from
986 an authorized station will generate a ``DWDS discovery'' event to user
988 This event should be used to create a WDS interface that is bound
989 to the remote station (and usually plumbed into a bridge).
990 Once the WDS interface is up and running 4-address traffic then logically
991 flows through that interface.
993 When DWDS is enabled on a station, traffic with a destination address
994 different from the peer station are encapsulated in a 4-address frame
995 and transmitted to the peer.
996 All 4-address traffic uses the security information of the stations
997 (e.g. cryptographic keys).
998 A station is associated using 802.11n facilities may transport
999 4-address traffic using these same mechanisms; this depends on available
1000 resources and capabilities of the device.
1001 The DWDS implementation guards against layer 2 routing loops of
1004 Enable the use of Atheros Fast Frames when communicating with
1005 another Fast Frames-capable station.
1006 Fast Frames are an encapsulation technique by which two 802.3
1007 frames are transmitted in a single 802.11 frame.
1008 This can noticeably improve throughput but requires that the
1009 receiving station understand how to decapsulate the frame.
1010 Fast frame use is negotiated using the Atheros 802.11 vendor-specific
1011 protocol extension so enabling use is safe when communicating with
1012 non-Atheros devices.
1013 By default, use of fast frames is enabled if the device is capable.
1014 To explicitly disable fast frames, use
1016 .It Cm fragthreshold Ar length
1017 Set the threshold for which transmitted frames are broken into fragments.
1020 argument is the frame size in bytes and must be in the range 256 to 2346.
1028 disables transmit fragmentation.
1029 Not all adapters honor the fragmentation threshold.
1031 When operating as an access point, do not broadcast the SSID
1032 in beacon frames or respond to probe request frames unless
1033 they are directed to the ap (i.e., they include the ap's SSID).
1034 By default, the SSID is included in beacon frames and
1035 undirected probe request frames are answered.
1036 To re-enable the broadcast of the SSID etc., use
1039 Enable use of High Throughput (HT) when using 802.11n (default).
1040 The 802.11n specification includes mechanisms for operation
1041 on 20MHz and 40MHz wide channels using different signalling mechanisms
1042 than specified in 802.11b, 802.11g, and 802.11a.
1043 Stations negotiate use of these facilities, termed HT20 and HT40,
1044 when they associate.
1045 To disable all use of 802.11n use
1047 To disable use of HT20 (e.g. to force only HT40 use) use
1049 To disable use of HT40 use
1052 HT configuration is used to ``auto promote'' operation
1053 when several choices are available.
1054 For example, if a station associates to an 11n-capable access point
1055 it controls whether the station uses legacy operation, HT20, or HT40.
1056 When an 11n-capable device is setup as an access point and
1057 Auto Channel Selection is used to locate a channel to operate on,
1058 HT configuration controls whether legacy, HT20, or HT40 operation is setup
1059 on the selected channel.
1060 If a fixed channel is specified for a station then HT configuration can
1061 be given as part of the channel specification; e.g. 6:ht/20 to setup
1062 HT20 operation on channel 6.
1064 Enable use of compatibility support for pre-802.11n devices (default).
1065 The 802.11n protocol specification went through several incompatible iterations.
1066 Some vendors implemented 11n support to older specifications that
1067 will not interoperate with a purely 11n-compliant station.
1068 In particular the information elements included in management frames
1069 for old devices are different.
1070 When compatibility support is enabled both standard and compatible data
1072 Stations that associate using the compatibility mechanisms are flagged
1074 To disable compatibility support use
1076 .It Cm htprotmode Ar technique
1077 For interfaces operating in 802.11n, use the specified
1079 for protecting HT frames in a mixed legacy/HT network.
1080 The set of valid techniques is
1085 Technique names are case insensitive.
1087 Enable inactivity processing for stations associated to an
1088 access point (default).
1089 When operating as an access point the 802.11 layer monitors
1090 the activity of each associated station.
1091 When a station is inactive for 5 minutes it will send several
1092 ``probe frames'' to see if the station is still present.
1093 If no response is received then the station is deauthenticated.
1094 Applications that prefer to handle this work can disable this
1098 Set the location to use in calculating regulatory constraints.
1099 The location is also advertised in beacon and probe response frames
1100 when 802.11d is enabled with
1109 Display the list of channels available for use taking into account
1110 any restrictions set with the
1113 See the description of
1115 for more information.
1117 Display the adaptor's capabilities, including the operating
1120 Display the list of channels available for use.
1121 Channels are shown with their IEEE channel number, equivalent
1122 frequency, and usage modes.
1123 Channels identified as
1128 Channels identified as
1130 may be used only for Atheros' Static Turbo mode
1132 .Cm mediaopt turbo ) .
1133 Channels marked with a
1135 have a regulatory constraint that they be passively scanned.
1136 This means a station is not permitted to transmit on the channel until
1137 it identifies the channel is being used for 802.11 communication;
1138 typically by hearing a beacon frame from an access point operating
1141 is another way of requesting this information.
1142 By default a compacted list of channels is displayed; if the
1144 option is specified then all channels are shown.
1145 .It Cm list countries
1146 Display the set of country codes and regulatory domains that can be
1147 used in regulatory configuration.
1149 Display the current MAC Access Control List state.
1150 Each address is prefixed with a character that indicates the
1151 current policy applied to it:
1153 indicates the address is allowed access,
1155 indicates the address is denied access,
1157 indicates the address is present but the current policy open
1158 (so the ACL is not consulted).
1160 Displays the mesh routing table, used for forwarding packets on a mesh
1162 .It Cm list regdomain
1163 Display the current regulatory settings including the available channels
1164 and transmit power caps.
1166 Display the parameters that govern roaming operation.
1168 Display the parameters that govern transmit operation.
1170 Display the transmit power caps for each channel.
1172 Display the access points and/or ad-hoc neighbors
1173 located in the vicinity.
1174 This information may be updated automatically by the adapter
1177 request or through background scanning.
1178 Depending on the capabilities of the stations the following
1179 flags can be included in the output:
1183 Indicates that the station is permitted to send/receive data frames.
1185 Extended Rate Phy (ERP).
1186 Indicates that the station is operating in an 802.11g network
1187 using extended transmit rates.
1189 High Throughput (HT).
1190 Indicates that the station is using HT transmit rates.
1191 If a `+' follows immediately after then the station associated
1192 using deprecated mechanisms supported only when
1197 Indicates that the station is operating in power save mode.
1199 Quality of Service (QoS).
1200 Indicates that the station is using QoS encapsulation for
1202 QoS encapsulation is enabled only when WME mode is enabled.
1204 Transitional Security Network (TSN).
1205 Indicates that the station associated using TSN; see also
1209 Wi-Fi Protected Setup (WPS).
1210 Indicates that the station associated using WPS.
1213 By default interesting information elements captured from the neighboring
1214 stations are displayed at the end of each row.
1215 Possible elements include:
1217 (station supports WME),
1219 (station supports WPA),
1221 (station supports WPS),
1223 (station supports 802.11i/RSN),
1225 (station supports 802.11n/HT communication),
1227 (station supports Atheros protocol extensions),
1229 (station supports unknown vendor-specific extensions).
1232 flag is used all the information elements and their
1233 contents will be shown.
1236 flag also enables display of long SSIDs.
1239 command is another way of requesting this information.
1241 When operating as an access point display the stations that are
1242 currently associated.
1243 When operating in ad-hoc mode display stations identified as
1244 neighbors in the IBSS.
1245 When operating in mesh mode display stations identified as
1246 neighbors in the MBSS.
1247 When operating in station mode display the access point.
1248 Capabilities advertised by the stations are described under
1252 Depending on the capabilities of the stations the following
1253 flags can be included in the output:
1257 Indicates that the station is permitted to send/receive data frames.
1259 Extended Rate Phy (ERP).
1260 Indicates that the station is operating in an 802.11g network
1261 using extended transmit rates.
1263 High Throughput (HT).
1264 Indicates that the station is using HT transmit rates.
1265 If a `+' follows immediately after then the station associated
1266 using deprecated mechanisms supported only when
1271 Indicates that the station is operating in power save mode.
1273 Quality of Service (QoS).
1274 Indicates that the station is using QoS encapsulation for
1276 QoS encapsulation is enabled only when WME mode is enabled.
1278 Transitional Security Network (TSN).
1279 Indicates that the station associated using TSN; see also
1283 Wi-Fi Protected Setup (WPS).
1284 Indicates that the station associated using WPS.
1287 By default information elements received from associated stations
1288 are displayed in a short form; the
1290 flag causes this information to be displayed symbolically.
1292 Display the current channel parameters to use when operating in WME mode.
1295 option is specified then both channel and BSS parameters are displayed
1296 for each AC (first channel, then BSS).
1297 When WME mode is enabled for an adaptor this information will be
1298 displayed with the regular status; this command is mostly useful
1299 for examining parameters when WME mode is disabled.
1300 See the description of the
1302 directive for information on the various parameters.
1303 .It Cm maxretry Ar count
1304 Set the maximum number of tries to use in sending unicast frames.
1305 The default setting is 6 but drivers may override this with a value
1307 .It Cm mcastrate Ar rate
1308 Set the rate for transmitting multicast/broadcast frames.
1309 Rates are specified as megabits/second in decimal; e.g.\& 5.5 for 5.5 Mb/s.
1310 This rate should be valid for the current operating conditions;
1311 if an invalid rate is specified drivers are free to chose an
1313 .It Cm mgtrate Ar rate
1314 Set the rate for transmitting management and/or control frames.
1315 Rates are specified as megabits/second in decimal; e.g.\& 5.5 for 5.5 Mb/s.
1317 Set the location to use in calculating regulatory constraints.
1318 The location is also advertised in beacon and probe response frames
1319 when 802.11d is enabled with
1328 Enable powersave operation.
1329 When operating as a client, the station will conserve power by
1330 periodically turning off the radio and listening for
1331 messages from the access point telling it there are packets waiting.
1332 The station must then retrieve the packets.
1333 Not all devices support power save operation as a client.
1334 The 802.11 specification requires that all access points support
1335 power save but some drivers do not.
1338 to disable powersave operation when operating as a client.
1339 .It Cm powersavemode Ar mode
1341 The set of valid modes is
1352 .It Cm powersavesleep Ar sleep
1353 Set the desired max powersave sleep time in TU's (1024 usecs).
1354 By default the max powersave sleep time is 100 TU's.
1355 .It Cm protmode Ar technique
1356 For interfaces operating in 802.11g, use the specified
1358 for protecting OFDM frames in a mixed 11b/11g network.
1359 The set of valid techniques is
1365 Technique names are case insensitive.
1366 Not all devices support
1368 as a protection technique.
1370 When operating as an access point in 802.11g mode allow only
1371 11g-capable stations to associate (11b-only stations are not
1372 permitted to associate).
1373 To allow both 11g and 11b-only stations to associate, use
1376 When operating as an access point in 802.11n mode allow only
1377 HT-capable stations to associate (legacy stations are not
1378 permitted to associate).
1379 To allow both HT and legacy stations to associate, use
1381 .It Cm regdomain Ar sku
1382 Set the regulatory domain to use in calculating the regulatory constraints
1384 In particular the set of available channels, how the wireless device
1385 will operation on the channels, and the maximum transmit power that
1386 can be used on a channel are defined by this setting.
1387 Regdomain codes (SKU's) are taken from /etc/regdomain.xml and can also
1388 be viewed with the ``list countries'' request.
1389 Note that not all devices support changing the regdomain from a default
1390 setting; typically stored in EEPROM.
1398 Enable use of Reduced InterFrame Spacing (RIFS) when operating in 802.11n
1400 Note that RIFS must be supported by both the station and access point
1404 .It Cm roam:rate Ar rate
1405 Set the threshold for controlling roaming when operating in a BSS.
1408 parameter specifies the transmit rate in megabits
1409 at which roaming should be considered.
1410 If the current transmit rate drops below this setting and background scanning
1411 is enabled, then the system will check if a more desirable access point is
1412 available and switch over to it.
1413 The current scan cache contents are used if they are considered
1414 valid according to the
1416 parameter; otherwise a background scan operation is triggered before
1417 any selection occurs.
1418 Each channel type has a separate rate threshold; the default values are:
1419 12 Mb/s (11a), 2 Mb/s (11b), 2 Mb/s (11g), MCS 1 (11na, 11ng).
1420 .It Cm roam:rssi Ar rssi
1421 Set the threshold for controlling roaming when operating in a BSS.
1424 parameter specifies the receive signal strength in dBm units
1425 at which roaming should be considered.
1426 If the current rssi drops below this setting and background scanning
1427 is enabled, then the system will check if a more desirable access point is
1428 available and switch over to it.
1429 The current scan cache contents are used if they are considered
1430 valid according to the
1432 parameter; otherwise a background scan operation is triggered before
1433 any selection occurs.
1434 Each channel type has a separate rssi threshold; the default values are
1436 .It Cm roaming Ar mode
1437 When operating as a station, control how the system will
1438 behave when communication with the current access point
1442 argument may be one of
1444 (leave it to the hardware device to decide),
1446 (handle either in the device or the operating system\[em]as appropriate),
1448 (do nothing until explicitly instructed).
1449 By default, the device is left to handle this if it is
1450 capable; otherwise, the operating system will automatically
1451 attempt to reestablish communication.
1452 Manual mode is used by applications such as
1453 .Xr wpa_supplicant 8
1454 that want to control the selection of an access point.
1455 .It Cm rtsthreshold Ar length
1456 Set the threshold for which
1457 transmitted frames are preceded by transmission of an
1463 is the frame size in bytes and must be in the range 1 to 2346.
1471 disables transmission of RTS frames.
1472 Not all adapters support setting the RTS threshold.
1474 Initiate a scan of neighboring stations, wait for it to complete, and
1475 display all stations found.
1476 Only the super-user can initiate a scan.
1479 for information on the display.
1480 By default a background scan is done; otherwise a foreground
1481 scan is done and the station may roam to a different access point.
1484 request can be used to show recent scan results without
1485 initiating a new scan.
1486 .It Cm scanvalid Ar threshold
1487 Set the maximum time the scan cache contents are considered valid;
1488 i.e. will be used without first triggering a scan operation to
1492 parameter is specified in seconds and defaults to 60 seconds.
1493 The minimum setting for
1496 One should take care setting this threshold; if it is set too low
1497 then attempts to roam to another access point may trigger unnecessary
1498 background scan operations.
1500 Enable use of Short Guard Interval when operating in 802.11n
1502 NB: this currently enables Short GI on both HT40 and HT20 channels.
1503 To disable Short GI use
1506 Enable use of Static Spatial Multiplexing Power Save (SMPS)
1507 when operating in 802.11n.
1508 A station operating with Static SMPS maintains only a single
1509 receive chain active (this can significantly reduce power consumption).
1513 Enable use of Dynamic Spatial Multiplexing Power Save (SMPS)
1514 when operating in 802.11n.
1515 A station operating with Dynamic SMPS maintains only a single
1516 receive chain active but switches to multiple receive chains when it
1517 receives an RTS frame (this can significantly reduce power consumption).
1518 Note that stations cannot distinguish between RTS/CTS intended to
1519 enable multiple receive chains and those used for other purposes.
1523 Set the desired Service Set Identifier (aka network name).
1524 The SSID is a string up to 32 characters
1525 in length and may be specified as either a normal string or in
1526 hexadecimal when preceded by
1528 Additionally, the SSID may be cleared by setting it to
1530 .It Cm tdmaslot Ar slot
1531 When operating with TDMA, use the specified
1536 is a number between 0 and the maximum number of slots in the BSS.
1537 Note that a station configured as slot 0 is a master and
1538 will broadcast beacon frames advertising the BSS;
1539 stations configured to use other slots will always
1540 scan to locate a master before they ever transmit.
1544 .It Cm tdmaslotcnt Ar cnt
1545 When operating with TDMA, setup a BSS with
1548 The slot count may be at most 8.
1549 The current implementation is only tested with two stations
1550 (i.e. point to point applications).
1551 This setting is only meaningful when a station is configured as slot 0;
1552 other stations adopt this setting from the BSS they join.
1556 .It Cm tdmaslotlen Ar len
1557 When operating with TDMA, setup a BSS such that each station has a slot
1560 The slot length must be at least 150 microseconds (1/8 TU)
1561 and no more than 65 milliseconds.
1562 Note that setting too small a slot length may result in poor channel
1563 bandwidth utilization due to factors such as timer granularity and
1565 This setting is only meaningful when a station is configured as slot 0;
1566 other stations adopt this setting from the BSS they join.
1569 is set to 10 milliseconds.
1570 .It Cm tdmabintval Ar intval
1571 When operating with TDMA, setup a BSS such that beacons are transmitted every
1573 superframes to synchronize the TDMA slot timing.
1574 A superframe is defined as the number of slots times the slot length; e.g.
1575 a BSS with two slots of 10 milliseconds has a 20 millisecond superframe.
1576 The beacon interval may not be zero.
1579 causes the timers to be resynchronized more often; this can be help if
1580 significant timer drift is observed.
1585 When operating as an access point with WPA/802.11i allow legacy
1586 stations to associate using static key WEP and open authentication.
1587 To disallow legacy station use of WEP, use
1589 .It Cm txpower Ar power
1590 Set the power used to transmit frames.
1593 argument is specified in .5 dBm units.
1594 Out of range values are truncated.
1595 Typically only a few discreet power settings are available and
1596 the driver will use the setting closest to the specified value.
1597 Not all adapters support changing the transmit power.
1598 .It Cm ucastrate Ar rate
1599 Set a fixed rate for transmitting unicast frames.
1600 Rates are specified as megabits/second in decimal; e.g.\& 5.5 for 5.5 Mb/s.
1601 This rate should be valid for the current operating conditions;
1602 if an invalid rate is specified drivers are free to chose an
1604 .It Cm wepmode Ar mode
1605 Set the desired WEP mode.
1606 Not all adapters support all modes.
1607 The set of valid modes is
1613 mode explicitly tells the adaptor to allow association with access
1614 points which allow both encrypted and unencrypted traffic.
1617 means that the access point must only allow encrypted connections.
1620 is generally another name for
1622 Modes are case insensitive.
1623 .It Cm weptxkey Ar index
1624 Set the WEP key to be used for transmission.
1625 This is the same as setting the default transmission key with
1627 .It Cm wepkey Ar key Ns | Ns Ar index : Ns Ar key
1628 Set the selected WEP key.
1631 is not given, key 1 is set.
1632 A WEP key will be either 5 or 13
1633 characters (40 or 104 bits) depending of the local network and the
1634 capabilities of the adaptor.
1635 It may be specified either as a plain
1636 string or as a string of hexadecimal digits preceded by
1638 For maximum portability, hex keys are recommended;
1639 the mapping of text keys to WEP encryption is usually driver-specific.
1642 drivers do this mapping differently to
1644 A key may be cleared by setting it to
1646 If WEP is supported then there are at least four keys.
1647 Some adapters support more than four keys.
1648 If that is the case, then the first four keys
1649 (1-4) will be the standard temporary keys and any others will be adaptor
1650 specific keys such as permanent keys stored in NVRAM.
1652 Note that you must set a default transmit key with
1654 for the system to know which key to use in encrypting outbound traffic.
1656 Enable Wireless Multimedia Extensions (WME) support, if available,
1657 for the specified interface.
1658 WME is a subset of the IEEE 802.11e standard to support the
1659 efficient communication of realtime and multimedia data.
1660 To disable WME support, use
1662 Another name for this parameter is
1665 The following parameters are meaningful only when WME support is in use.
1666 Parameters are specified per-AC (Access Category) and
1667 split into those that are used by a station when acting
1668 as an access point and those for client stations in the BSS.
1669 The latter are received from the access point and may not be changed
1671 The following Access Categories are recognized:
1673 .Bl -tag -width ".Cm AC_BK" -compact
1677 best effort delivery,
1692 AC parameters are case-insensitive.
1693 Traffic classification is done in the operating system using the
1694 vlan priority associated with data frames or the
1695 ToS (Type of Service) indication in IP-encapsulated frames.
1696 If neither information is present, traffic is assigned to the
1697 Best Effort (BE) category.
1698 .Bl -tag -width indent
1700 Set the ACK policy for QoS transmissions by the local station;
1701 this controls whether or not data frames transmitted by a station
1702 require an ACK response from the receiving station.
1703 To disable waiting for an ACK use
1705 This parameter is applied only to the local station.
1707 Enable the Admission Control Mandatory (ACM) mechanism
1708 for transmissions by the local station.
1709 To disable the ACM use
1711 On stations in a BSS this parameter is read-only and indicates
1712 the setting received from the access point.
1713 NB: ACM is not supported right now.
1714 .It Cm aifs Ar ac Ar count
1715 Set the Arbitration Inter Frame Spacing (AIFS)
1716 channel access parameter to use for transmissions
1717 by the local station.
1718 On stations in a BSS this parameter is read-only and indicates
1719 the setting received from the access point.
1720 .It Cm cwmin Ar ac Ar count
1721 Set the CWmin channel access parameter to use for transmissions
1722 by the local station.
1723 On stations in a BSS this parameter is read-only and indicates
1724 the setting received from the access point.
1725 .It Cm cwmax Ar ac Ar count
1726 Set the CWmax channel access parameter to use for transmissions
1727 by the local station.
1728 On stations in a BSS this parameter is read-only and indicates
1729 the setting received from the access point.
1730 .It Cm txoplimit Ar ac Ar limit
1731 Set the Transmission Opportunity Limit channel access parameter
1732 to use for transmissions by the local station.
1733 This parameter defines an interval of time when a WME station
1734 has the right to initiate transmissions onto the wireless medium.
1735 On stations in a BSS this parameter is read-only and indicates
1736 the setting received from the access point.
1737 .It Cm bss:aifs Ar ac Ar count
1738 Set the AIFS channel access parameter to send to stations in a BSS.
1739 This parameter is meaningful only when operating in ap mode.
1740 .It Cm bss:cwmin Ar ac Ar count
1741 Set the CWmin channel access parameter to send to stations in a BSS.
1742 This parameter is meaningful only when operating in ap mode.
1743 .It Cm bss:cwmax Ar ac Ar count
1744 Set the CWmax channel access parameter to send to stations in a BSS.
1745 This parameter is meaningful only when operating in ap mode.
1746 .It Cm bss:txoplimit Ar ac Ar limit
1747 Set the TxOpLimit channel access parameter to send to stations in a BSS.
1748 This parameter is meaningful only when operating in ap mode.
1751 Enable Wireless Privacy Subscriber support.
1752 Note that WPS support requires a WPS-capable supplicant.
1753 To disable this function use
1757 The following parameters support an optional access control list
1758 feature available with some adapters when operating in ap mode; see
1760 This facility allows an access point to accept/deny association
1761 requests based on the MAC address of the station.
1762 Note that this feature does not significantly enhance security
1763 as MAC address spoofing is easy to do.
1764 .Bl -tag -width indent
1765 .It Cm mac:add Ar address
1766 Add the specified MAC address to the database.
1767 Depending on the policy setting association requests from the
1768 specified station will be allowed or denied.
1770 Set the ACL policy to permit association only by
1771 stations registered in the database.
1772 .It Cm mac:del Ar address
1773 Delete the specified MAC address from the database.
1775 Set the ACL policy to deny association only by
1776 stations registered in the database.
1777 .It Cm mac:kick Ar address
1778 Force the specified station to be deauthenticated.
1779 This typically is done to block a station after updating the
1782 Set the ACL policy to allow all stations to associate.
1784 Delete all entries in the database.
1786 Set the ACL policy to permit association only by
1787 stations approved by a RADIUS server.
1788 Note that this feature requires the
1790 program be configured to do the right thing
1791 as it handles the RADIUS processing
1792 (and marks stations as authorized).
1795 The following parameters are related to a wireless interface operating in mesh
1797 .Bl -tag -width indent
1798 .It Cm meshid Ar meshid
1799 Set the desired Mesh Identifier.
1800 The Mesh ID is a string up to 32 characters in length.
1801 A mesh interface must have a Mesh Identifier specified
1802 to reach an operational state.
1803 .It Cm meshttl Ar ttl
1804 Set the desired ``time to live'' for mesh forwarded packets;
1805 this is the number of hops a packet may be forwarded before
1807 The default setting for
1811 Enable or disable peering with neighbor mesh stations.
1812 Stations must peer before any data packets can be exchanged.
1817 Enable or disable forwarding packets by a mesh interface.
1821 .It Cm meshmetric Ar protocol
1824 as the link metric protocol used on a mesh network.
1825 The default protocol is called
1827 The mesh interface will restart after changing this setting.
1828 .It Cm meshpath Ar protocol
1831 as the path selection protocol used on a mesh network.
1832 The only available protocol at the moment is called
1834 (Hybrid Wireless Mesh Protocol).
1835 The mesh interface will restart after changing this setting.
1836 .It Cm hwmprootmode Ar mode
1837 Stations on a mesh network can operate as ``root nodes.''
1838 Root nodes try to find paths to all mesh nodes and advertise themselves
1840 When there is a root mesh node on a network, other mesh nodes can setup
1841 paths between themselves faster because they can use the root node
1842 to find the destination.
1843 This path may not be the best, but on-demand
1844 routing will eventually find the best path.
1845 The following modes are recognized:
1847 .Bl -tag -width ".Cm PROACTIVE" -compact
1851 Send broadcast path requests every two seconds.
1852 Nodes on the mesh without a path to this root mesh station with try to
1853 discover a path to us.
1855 Send broadcast path requests every two seconds and every node must reply
1856 with a path reply even if it already has a path to this root mesh station,
1858 Send broadcast root announcement (RANN) frames.
1859 Nodes on the mesh without a path to this root mesh station with try to
1860 discover a path to us.
1866 .It Cm hwmpmaxhops Ar cnt
1867 Set the maximum number of hops allowed in an HMWP path to
1869 The default setting for
1874 The following parameters are for compatibility with other systems:
1875 .Bl -tag -width indent
1877 Another name for the
1883 .It Cm stationname Ar name
1884 Set the name of this station.
1885 The station name is not part of the IEEE 802.11
1886 protocol though some interfaces support it.
1888 seems to be meaningful to identical or virtually identical equipment.
1889 Setting the station name is identical in syntax to setting the SSID.
1896 Another way of saying
1902 Another way of saying
1908 Another way of saying:
1909 .Dq Li "wepmode on weptxkey 1 wepkey 1:key wepkey 2:- wepkey 3:- wepkey 4:-" .
1915 .Ar n : k1 , k2 , k3 , k4
1918 Another way of saying
1919 .Dq Li "wepmode on weptxkey n wepkey 1:k1 wepkey 2:k2 wepkey 3:k3 wepkey 4:k4" .
1924 Another way of saying
1931 The following parameters are specific to bridge interfaces:
1932 .Bl -tag -width indent
1933 .It Cm addm Ar interface
1934 Add the interface named by
1936 as a member of the bridge.
1937 The interface is put into promiscuous mode
1938 so that it can receive every packet sent on the network.
1939 .It Cm deletem Ar interface
1940 Remove the interface named by
1943 Promiscuous mode is disabled on the interface when
1944 it is removed from the bridge.
1945 .It Cm maxaddr Ar size
1946 Set the size of the bridge address cache to
1948 The default is 100 entries.
1949 .It Cm timeout Ar seconds
1950 Set the timeout of address cache entries to
1955 is zero, then address cache entries will not be expired.
1956 The default is 1200 seconds.
1958 Display the addresses that have been learned by the bridge.
1959 .It Cm static Ar interface-name Ar address
1960 Add a static entry into the address cache pointing to
1961 .Ar interface-name .
1962 Static entries are never aged out of the cache or re-placed, even if the
1963 address is seen on a different interface.
1964 .It Cm deladdr Ar address
1967 from the address cache.
1969 Delete all dynamically-learned addresses from the address cache.
1971 Delete all addresses, including static addresses, from the address cache.
1972 .It Cm discover Ar interface
1973 Mark an interface as a
1976 When the bridge has no address cache entry
1977 (either dynamic or static)
1978 for the destination address of a packet,
1979 the bridge will forward the packet to all
1980 member interfaces marked as
1982 This is the default for all interfaces added to a bridge.
1983 .It Fl discover Ar interface
1986 attribute on a member interface.
1987 For packets without the
1989 attribute, the only packets forwarded on the interface are broadcast
1990 or multicast packets and packets for which the destination address
1991 is known to be on the interface's segment.
1992 .It Cm learn Ar interface
1993 Mark an interface as a
1996 When a packet arrives on such an interface, the source
1997 address of the packet is entered into the address cache as being a
1998 destination address on the interface's segment.
1999 This is the default for all interfaces added to a bridge.
2000 .It Fl learn Ar interface
2003 attribute on a member interface.
2004 .It Cm span Ar interface
2005 Add the interface named by
2007 as a span port on the bridge.
2008 Span ports transmit a copy of every frame received by the bridge.
2009 This is most useful for snooping a bridged network passively on
2010 another host connected to one of the span ports of the bridge.
2011 .It Fl span Ar interface
2012 Delete the interface named by
2014 from the list of span ports of the bridge.
2015 .It Cm stp Ar interface
2016 Enable Spanning Tree protocol on
2020 driver has support for the IEEE 802.1D Spanning Tree protocol (STP).
2021 Spanning Tree is used to detect and remove loops in a network topology.
2022 .It Fl stp Ar interface
2023 Disable Spanning Tree protocol on
2025 This is the default for all interfaces added to a bridge.
2026 .It Cm maxage Ar seconds
2027 Set the time that a Spanning Tree protocol configuration is valid.
2028 The default is 20 seconds.
2029 The minimum is 1 second and the maximum is 255 seconds.
2030 .It Cm fwddelay Ar seconds
2031 Set the time that must pass before an interface begins forwarding
2032 packets when Spanning Tree is enabled.
2033 The default is 15 seconds.
2034 The minimum is 1 second and the maximum is 255 seconds.
2035 .It Cm hellotime Ar seconds
2036 Set the time between broadcasting of Spanning Tree protocol
2037 configuration messages.
2038 The default is 2 seconds.
2039 The minimum is 1 second and the maximum is 255 seconds.
2040 .It Cm priority Ar value
2041 Set the bridge priority for Spanning Tree.
2042 The default is 32768.
2043 The minimum is 0 and the maximum is 65536.
2044 .It Cm ifpriority Ar interface Ar value
2045 Set the Spanning Tree priority of
2050 The minimum is 0 and the maximum is 255.
2052 The priority is used to select which interface out of all
2053 forwarding and bonded interfaces with the same MAC
2054 to output a packet on whe
2056 mode is not being used.
2057 Note that interfaces in the 'blocking' state do not participate
2058 in the priority selection.
2059 If the priorities are the same on a non-bonded member, the
2060 designated member will be used.
2061 .It Cm ifpathcost Ar interface Ar value
2062 Set the Spanning Tree path cost of
2067 The minimum is 0 and the maximum is 65535.
2069 The path cost is added to both incoming and outgoing packets on the
2070 member, lower values will make the member more valuable.
2071 .It Cm ifbondweight Ar interface Ar value
2072 Set the number of packets to output on a bonded member before
2073 round-robining to the next member.
2075 Larger values or different values for each member can be used
2076 if bursting would be beneficial or if the outgoing bandwidth
2077 on each of the members is asymmetric.
2078 For example, one specify a value of 6 on tap0 and 4 on tap1
2080 Remember that this also controls packet bursting.
2082 The link0 option enables transparent bridging mode.
2083 The bridge will make every effort to retain the ethernet header
2084 when forwarding packets between interfaces, making the bridging
2085 function work more like a hardware bridge device.
2087 The link1 option enables keepalive transmission and automatically
2088 places a member into a special blocked mode if no keepalive reception
2090 If either sides of the link uses this option then both sides must use
2092 This option is impemented by sending CFG updates on the hello interval
2094 The link is considered lost after 10 intervals (typically 20 seconds).
2096 The link2 option enables channel bonding (see also ifbondweight).
2097 All member interfaces with the same mac address are considered to
2098 be in a bonding group.
2101 is used, you can manually control or copy the mac to create bonding groups.
2102 When interface bonding is enabled normally blocked interfaces belonging
2103 to the same bonding group as an active forwarding interface will be
2104 changed to the bonding state.
2105 Both sides of link the member represents must operate in bonding mode
2106 for this to work, otherwise the remote end may decide to throw away
2110 The following parameters are specific to IP tunnel interfaces,
2112 .Bl -tag -width indent
2113 .It Cm tunnel Ar src_addr dest_addr
2114 Configure the physical source and destination address for IP tunnel
2120 are interpreted as the outer source/destination for the encapsulating
2123 Unconfigure the physical source and destination address for IP tunnel
2124 interfaces previously configured with
2127 Another name for the
2132 The following parameters are specific to
2135 .Bl -tag -width indent
2136 .It Cm vlan Ar vlan_tag
2137 Set the VLAN tag value to
2139 This value is a 16-bit number which is used to create an 802.1Q
2140 VLAN header for packets sent from the
2147 must both be set at the same time.
2148 .It Cm vlandev Ar iface
2149 Associate the physical interface
2154 Packets transmitted through the
2157 diverted to the specified physical interface
2159 with 802.1Q VLAN encapsulation.
2160 Packets with 802.1Q encapsulation received
2161 by the parent interface with the correct VLAN tag will be diverted to
2167 interface is assigned a
2168 copy of the parent interface's flags and the parent's ethernet address.
2173 must both be set at the same time.
2176 interface already has
2177 a physical interface associated with it, this command will fail.
2179 change the association to another physical interface, the existing
2180 association must be cleared first.
2182 Note: if the hardware tagging capability
2183 is set on the parent interface, the
2186 interface's behavior changes:
2189 interface recognizes that the
2190 parent interface supports insertion and extraction of VLAN tags on its
2191 own (usually in firmware) and that it should pass packets to and from
2192 the parent unaltered.
2193 .It Fl vlandev Op Ar iface
2196 pseudo device, disassociate the parent interface from it.
2197 This breaks the link between the
2199 interface and its parent,
2200 clears its VLAN tag, flags and its link address and shuts the interface down.
2203 argument is useless and hence deprecated.
2206 The following parameters are specific to
2209 .Bl -tag -width indent
2210 .It Cm advbase Ar seconds
2211 Specifies the base of the advertisement interval in seconds.
2212 The acceptable values are 1 to 255.
2213 The default value is 1.
2214 .\" The default value is
2215 .\" .Dv CARP_DFLTINTV .
2216 .It Cm advskew Ar interval
2217 Specifies the skew to add to the base advertisement interval to
2218 make one host advertise slower than another host.
2219 It is specified in 1/256 of seconds.
2220 The acceptable values are 1 to 254.
2221 The default value is 0.
2222 .It Cm pass Ar phrase
2223 Set the authentication key to
2226 Set the virtual host ID.
2227 This is a required setting.
2228 Acceptable values are 1 to 255.
2233 utility displays the current configuration for a network interface
2234 when no optional parameters are supplied.
2235 If a protocol family is specified,
2237 will report only the details specific to that protocol family.
2241 flag is passed before an interface name,
2243 will display the capability list,
2244 the maximum amount of data
2245 that TCP segmentation offloading is allowed to aggregate and
2246 all of the supported media for the specified interface.
2249 flag is supplied, address lifetime is displayed for IPv6 addresses,
2250 as time offset string.
2254 flag may be used instead of an interface name.
2257 to display information about all interfaces in the system.
2260 flag limits this to interfaces that are down, and
2262 limits this to interfaces that are up.
2263 When no arguments are given,
2269 flag may be used to list all available interfaces on the system, with
2270 no other additional information.
2271 Use of this flag is mutually exclusive
2272 with all other flags and commands, except for
2274 (only list interfaces that are down)
2277 (only list interfaces that are up).
2281 flag may be used to get more verbose status for an interface.
2285 flag may be used to list all of the interface cloners available on
2286 the system, with no additional information.
2287 Use of this flag is mutually exclusive with all other flags and commands.
2291 flag causes keying information for the interface, if available, to be
2293 For example, the values of 802.11 WEP keys will be printed, if accessible to
2295 This information is not printed by default, as it may be considered
2298 Only the super-user may modify the configuration of a network interface.
2300 Messages indicating the specified interface does not exist, the
2301 requested address is unknown, or the user is not privileged and
2302 tried to alter an interface's configuration.
2320 Basic IPv6 node operation requires a link-local address on each
2321 interface configured for IPv6.
2322 Normally, such an address is automatically configured by the
2323 kernel on each interface added to the system; this behaviour may
2324 be disabled by setting the sysctl MIB variable
2325 .Va net.inet6.ip6.auto_linklocal
2328 If you delete such an address using
2330 the kernel may act very odd.
2331 Do this at your own risk.