1ff66a890SHiten Pandya.\" 205ac2d0dSSascha Wildner.\" Copyright (c) 2009 Sam Leffler, Errno Consulting 3ff66a890SHiten Pandya.\" All rights reserved. 4ff66a890SHiten Pandya.\" 5ff66a890SHiten Pandya.\" Redistribution and use in source and binary forms, with or without 6ff66a890SHiten Pandya.\" modification, are permitted provided that the following conditions 7ff66a890SHiten Pandya.\" are met: 8ff66a890SHiten Pandya.\" 1. Redistributions of source code must retain the above copyright 9ff66a890SHiten Pandya.\" notice, this list of conditions and the following disclaimer. 10ff66a890SHiten Pandya.\" 2. Redistributions in binary form must reproduce the above copyright 11ff66a890SHiten Pandya.\" notice, this list of conditions and the following disclaimer in the 12ff66a890SHiten Pandya.\" documentation and/or other materials provided with the distribution. 13ff66a890SHiten Pandya.\" 14ff66a890SHiten Pandya.\" THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 15ff66a890SHiten Pandya.\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16ff66a890SHiten Pandya.\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17ff66a890SHiten Pandya.\" ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 18ff66a890SHiten Pandya.\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19ff66a890SHiten Pandya.\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 20ff66a890SHiten Pandya.\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 21ff66a890SHiten Pandya.\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 22ff66a890SHiten Pandya.\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23ff66a890SHiten Pandya.\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24ff66a890SHiten Pandya.\" SUCH DAMAGE. 25ff66a890SHiten Pandya.\" 26e4c06619SSascha Wildner.\" $FreeBSD: head/share/man/man9/ieee80211.9 233648 2012-03-29 05:02:12Z eadler $ 27ff66a890SHiten Pandya.\" 28*ae75c143SSascha Wildner.Dd July 3, 2021 29527b7288SSascha Wildner.Dt IEEE80211 9 30ff66a890SHiten Pandya.Os 31ff66a890SHiten Pandya.Sh NAME 324c8dbfb4SSascha Wildner.Nm ieee80211 3305ac2d0dSSascha Wildner.Nd 802.11 network layer 34ff66a890SHiten Pandya.Sh SYNOPSIS 357d9c9280SSascha Wildner.In net/if.h 367d9c9280SSascha Wildner.In net/if_media.h 3744cb301eSSascha Wildner.In netproto/802_11/ieee80211_var.h 38ff66a890SHiten Pandya.Ft void 3917338d27SSascha Wildner.Fn ieee80211_ifattach "struct ieee80211com *ic" 40ff66a890SHiten Pandya.Ft void 411102a27eSSascha Wildner.Fn ieee80211_ifdetach "struct ieee80211com *ic" 42ff66a890SHiten Pandya.Sh DESCRIPTION 4305ac2d0dSSascha WildnerIEEE 802.11 device drivers are written to use the infrastructure provided 4405ac2d0dSSascha Wildnerby the 4505ac2d0dSSascha Wildner.Nm 4605ac2d0dSSascha Wildnersoftware layer. 4705ac2d0dSSascha WildnerThis software provides a support framework for drivers that includes 4805ac2d0dSSascha Wildnerifnet cloning, state management, and a user management API by which 4905ac2d0dSSascha Wildnerapplications interact with 802.11 devices. 5005ac2d0dSSascha WildnerMost drivers depend on the 5105ac2d0dSSascha Wildner.Nm 5205ac2d0dSSascha Wildnerlayer for protocol services but devices that off-load functionality 53*ae75c143SSascha Wildnermay bypass the layer to connect directly to the device. 54ff66a890SHiten Pandya.Pp 5505ac2d0dSSascha WildnerA 5605ac2d0dSSascha Wildner.Nm 5705ac2d0dSSascha Wildnerdevice driver implements a virtual radio API that is exported to 5805ac2d0dSSascha Wildnerusers through network interfaces (aka vaps) that are cloned from the 5905ac2d0dSSascha Wildnerunderlying device. 6005ac2d0dSSascha WildnerThese interfaces have an operating mode 6105ac2d0dSSascha Wildner(station, adhoc, hostap, wds, monitor, etc.) 6205ac2d0dSSascha Wildnerthat is fixed for the lifetime of the interface. 6305ac2d0dSSascha WildnerDevices that can support multiple concurrent interfaces allow 6405ac2d0dSSascha Wildnermultiple vaps to be cloned. 6505ac2d0dSSascha WildnerThis enables construction of interesting applications such as 6605ac2d0dSSascha Wildneran AP vap and one or more WDS vaps 6705ac2d0dSSascha Wildneror multiple AP vaps, each with a different security model. 68ff66a890SHiten PandyaThe 6905ac2d0dSSascha Wildner.Nm 7005ac2d0dSSascha Wildnerlayer virtualizes most 802.11 state 7105ac2d0dSSascha Wildnerand coordinates vap state changes including scheduling multiple vaps. 7205ac2d0dSSascha WildnerState that is not virtualized includes the current channel and 7305ac2d0dSSascha WildnerWME/WMM parameters. 7405ac2d0dSSascha WildnerProtocol processing is typically handled entirely in the 7505ac2d0dSSascha Wildner.Nm 7605ac2d0dSSascha Wildnerlayer with drivers responsible purely for moving data between the host 7705ac2d0dSSascha Wildnerand device. 7805ac2d0dSSascha WildnerSimilarly, 7905ac2d0dSSascha Wildner.Nm 8005ac2d0dSSascha Wildnerhandles most 8105ac2d0dSSascha Wildner.Xr ioctl 2 8205ac2d0dSSascha Wildnerrequests without entering the driver; 8305ac2d0dSSascha Wildnerinstead drivers are notified of state changes that 8405ac2d0dSSascha Wildnerrequire their involvement. 8505ac2d0dSSascha Wildner.Pp 8605ac2d0dSSascha WildnerThe virtual radio interface defined by the 8705ac2d0dSSascha Wildner.Nm 8805ac2d0dSSascha Wildnerlayer means that drivers must be structured to follow specific rules. 8905ac2d0dSSascha WildnerDrivers that support only a single interface at any time must still 9005ac2d0dSSascha Wildnerfollow these rules. 9105ac2d0dSSascha Wildner.Sh DATA STRUCTURES 9205ac2d0dSSascha WildnerThe virtual radio architecture splits state between a single per-device 9305ac2d0dSSascha Wildner.Vt ieee80211com 9405ac2d0dSSascha Wildnerstructure and one or more 9505ac2d0dSSascha Wildner.Vt ieee80211vap 9605ac2d0dSSascha Wildnerstructures. 9705ac2d0dSSascha WildnerDrivers are expected to setup various shared state in these structures 9805ac2d0dSSascha Wildnerat device attach and during vap creation but otherwise should treat them 9905ac2d0dSSascha Wildneras read-only. 10005ac2d0dSSascha WildnerThe 10105ac2d0dSSascha Wildner.Vt ieee80211com 10205ac2d0dSSascha Wildnerstructure is allocated by the 10305ac2d0dSSascha Wildner.Nm 10405ac2d0dSSascha Wildnerlayer as adjunct data to a device's 10505ac2d0dSSascha Wildner.Vt ifnet ; 10605ac2d0dSSascha Wildnerit is accessed through the 10705ac2d0dSSascha Wildner.Vt if_l2com 10805ac2d0dSSascha Wildnerstructure member. 10905ac2d0dSSascha WildnerThe 11005ac2d0dSSascha Wildner.Vt ieee80211vap 11105ac2d0dSSascha Wildnerstructure is allocated by the driver in the 11205ac2d0dSSascha Wildner.Dq vap create 11305ac2d0dSSascha Wildnermethod 11405ac2d0dSSascha Wildnerand should be extended with any driver-private state. 11505ac2d0dSSascha WildnerThis technique of giving the driver control to allocate data structures 11605ac2d0dSSascha Wildneris used for other 11705ac2d0dSSascha Wildner.Nm 11805ac2d0dSSascha Wildnerdata structures and should be exploited to maintain driver-private state 11905ac2d0dSSascha Wildnertogether with public 12005ac2d0dSSascha Wildner.Nm 12105ac2d0dSSascha Wildnerstate. 12205ac2d0dSSascha Wildner.Pp 12305ac2d0dSSascha WildnerThe other main data structures are the station, or node, table 12405ac2d0dSSascha Wildnerthat tracks peers in the local BSS, and the channel table that defines 12505ac2d0dSSascha Wildnerthe current set of available radio channels. 12605ac2d0dSSascha WildnerBoth tables are bound to the 12705ac2d0dSSascha Wildner.Vt ieee80211com 12805ac2d0dSSascha Wildnerstructure and shared by all vaps. 12905ac2d0dSSascha WildnerLong-lasting references to a node are counted to guard against 13005ac2d0dSSascha Wildnerpremature reclamation. 13105ac2d0dSSascha WildnerIn particular every packet sent/received holds a node reference 13205ac2d0dSSascha Wildner(either explicitly for transmit or implicitly on receive). 13305ac2d0dSSascha Wildner.Pp 13405ac2d0dSSascha WildnerThe 13505ac2d0dSSascha Wildner.Vt ieee80211com 136ff66a890SHiten Pandyaand 13705ac2d0dSSascha Wildner.Vt ieee80211vap 13805ac2d0dSSascha Wildnerstructures also hold a collection of method pointers that drivers 13905ac2d0dSSascha Wildnerfill-in and/or override to take control of certain operations. 14005ac2d0dSSascha WildnerThese methods are the primary way drivers are bound to the 14105ac2d0dSSascha Wildner.Nm 14205ac2d0dSSascha Wildnerlayer and are described below. 14305ac2d0dSSascha Wildner.Sh DRIVER ATTACH/DETACH 14405ac2d0dSSascha WildnerDrivers attach to the 14505ac2d0dSSascha Wildner.Nm 14605ac2d0dSSascha Wildnerlayer with the 14705ac2d0dSSascha Wildner.Fn ieee80211_ifattach 14805ac2d0dSSascha Wildnerfunction. 14905ac2d0dSSascha WildnerThe driver is expected to allocate and setup any device-private 15005ac2d0dSSascha Wildnerdata structures before passing control. 151ff66a890SHiten PandyaThe 15205ac2d0dSSascha Wildner.Vt ieee80211com 15305ac2d0dSSascha Wildnerstructure must be pre-initialized with state required to setup the 15405ac2d0dSSascha Wildner.Nm 15505ac2d0dSSascha Wildnerlayer: 15605ac2d0dSSascha Wildner.Bl -tag -width ic_channels 15705ac2d0dSSascha Wildner.It Dv ic_ifp 15805ac2d0dSSascha WildnerBackpointer to the physical device's ifnet. 15905ac2d0dSSascha Wildner.It Dv ic_caps 16005ac2d0dSSascha WildnerDevice/driver capabilities; see below for a complete description. 16105ac2d0dSSascha Wildner.It Dv ic_channels 16205ac2d0dSSascha WildnerTable of channels the device is capable of operating on. 16305ac2d0dSSascha WildnerThis is initially provided by the driver but may be changed 16405ac2d0dSSascha Wildnerthrough calls that change the regulatory state. 16505ac2d0dSSascha Wildner.It Dv ic_nchan 16605ac2d0dSSascha WildnerNumber of entries in 16705ac2d0dSSascha Wildner.Dv ic_channels . 16805ac2d0dSSascha Wildner.El 16905ac2d0dSSascha Wildner.Pp 17005ac2d0dSSascha WildnerOn return from 17105ac2d0dSSascha Wildner.Fn ieee80211_ifattach 17205ac2d0dSSascha Wildnerthe driver is expected to override default callback functions in the 17305ac2d0dSSascha Wildner.Vt ieee80211com 174a42bad2dSSascha Wildnerstructure to register its private routines. 17505ac2d0dSSascha WildnerMethods marked with a 17605ac2d0dSSascha Wildner.Dq * 17705ac2d0dSSascha Wildnermust be provided by the driver. 17805ac2d0dSSascha Wildner.Bl -tag -width ic_channels 17905ac2d0dSSascha Wildner.It Dv ic_vap_create* 18005ac2d0dSSascha WildnerCreate a vap instance of the specified type (operating mode). 18105ac2d0dSSascha WildnerAny fixed BSSID and/or MAC address is provided. 18205ac2d0dSSascha WildnerDrivers that support multi-bssid operation may honor the requested BSSID 18305ac2d0dSSascha Wildneror assign their own. 18405ac2d0dSSascha Wildner.It Dv ic_vap_delete* 18505ac2d0dSSascha WildnerDestroy a vap instance created with 18605ac2d0dSSascha Wildner.Dv ic_vap_create . 18705ac2d0dSSascha Wildner.It Dv ic_getradiocaps 18805ac2d0dSSascha WildnerReturn the list of calibrated channels for the radio. 18905ac2d0dSSascha WildnerThe default method returns the current list of channels 19005ac2d0dSSascha Wildner(space permitting). 19105ac2d0dSSascha Wildner.It Dv ic_setregdomain 19205ac2d0dSSascha WildnerProcess a request to change regulatory state. 19305ac2d0dSSascha WildnerThe routine may reject a request or constrain changes (e.g. reduce 19405ac2d0dSSascha Wildnertransmit power caps). 19505ac2d0dSSascha WildnerThe default method accepts all proposed changes. 19605ac2d0dSSascha Wildner.It Dv ic_send_mgmt 19705ac2d0dSSascha WildnerSend an 802.11 management frame. 19805ac2d0dSSascha WildnerThe default method fabricates the frame using 19905ac2d0dSSascha Wildner.Nm 20005ac2d0dSSascha Wildnerstate and passes it to the driver through the 20105ac2d0dSSascha Wildner.Dv ic_raw_xmit 20205ac2d0dSSascha Wildnermethod. 20305ac2d0dSSascha Wildner.It Dv ic_raw_xmit 20405ac2d0dSSascha WildnerTransmit a raw 802.11 frame. 20505ac2d0dSSascha WildnerThe default method drops the frame and generates a message on the console. 20605ac2d0dSSascha Wildner.It Dv ic_updateslot 207e4c06619SSascha WildnerUpdate hardware state after an 802.11 IFS slot time change. 20805ac2d0dSSascha WildnerThere is no default method; the pointer may be NULL in which case 20905ac2d0dSSascha Wildnerit will not be used. 21005ac2d0dSSascha Wildner.It Dv ic_update_mcast 211e4c06619SSascha WildnerUpdate hardware for a change in the multicast packet filter. 21205ac2d0dSSascha WildnerThe default method prints a console message. 21305ac2d0dSSascha Wildner.It Dv ic_update_promisc 21405ac2d0dSSascha WildnerUpdate hardware for a change in the promiscuous mode setting. 21505ac2d0dSSascha WildnerThe default method prints a console message. 21605ac2d0dSSascha Wildner.It Dv ic_newassoc 21705ac2d0dSSascha WildnerUpdate driver/device state for association to a new AP (in station mode) 21805ac2d0dSSascha Wildneror when a new station associates (e.g. in AP mode). 21905ac2d0dSSascha WildnerThere is no default method; the pointer may be NULL in which case 22005ac2d0dSSascha Wildnerit will not be used. 22105ac2d0dSSascha Wildner.It Dv ic_node_alloc 22205ac2d0dSSascha WildnerAllocate and initialize a 22305ac2d0dSSascha Wildner.Vt ieee80211_node 22405ac2d0dSSascha Wildnerstructure. 22505ac2d0dSSascha WildnerThis method cannot sleep. 22605ac2d0dSSascha WildnerThe default method allocates zero'd memory using 227ce943574SSascha Wildner.Xr kmalloc 9 . 22805ac2d0dSSascha WildnerDrivers should override this method to allocate extended storage 22905ac2d0dSSascha Wildnerfor their own needs. 23005ac2d0dSSascha WildnerMemory allocated by the driver must be tagged with 23105ac2d0dSSascha Wildner.Dv M_80211_NODE 23205ac2d0dSSascha Wildnerto balance the memory allocation statistics. 23305ac2d0dSSascha Wildner.It Dv ic_node_free 23405ac2d0dSSascha WildnerReclaim storage of a node allocated by 23505ac2d0dSSascha Wildner.Dv ic_node_alloc . 23605ac2d0dSSascha WildnerDrivers are expected to 23705ac2d0dSSascha Wildner.Em interpose 23805ac2d0dSSascha Wildnertheir own method to cleanup private state but must call through 23905ac2d0dSSascha Wildnerthis method to allow 24005ac2d0dSSascha Wildner.Nm 241a42bad2dSSascha Wildnerto reclaim its private state. 24205ac2d0dSSascha Wildner.It Dv ic_node_cleanup 24305ac2d0dSSascha WildnerCleanup state in a 24405ac2d0dSSascha Wildner.Vt ieee80211_node 24505ac2d0dSSascha Wildnercreated by 24605ac2d0dSSascha Wildner.Dv ic_node_alloc . 24705ac2d0dSSascha WildnerThis operation is distinguished from 24805ac2d0dSSascha Wildner.Dv ic_node_free 24905ac2d0dSSascha Wildnerin that it may be called long before the node is actually reclaimed 25005ac2d0dSSascha Wildnerto cleanup adjunct state. 25105ac2d0dSSascha WildnerThis can happen, for example, when a node must not be reclaimed 25205ac2d0dSSascha Wildnerdue to references held by packets in the transmit queue. 25305ac2d0dSSascha WildnerDrivers typically interpose 25405ac2d0dSSascha Wildner.Dv ic_node_cleanup 25505ac2d0dSSascha Wildnerinstead of 25605ac2d0dSSascha Wildner.Dv ic_node_free . 25705ac2d0dSSascha Wildner.It Dv ic_node_age 25805ac2d0dSSascha WildnerAge, and potentially reclaim, resources associated with a node. 25905ac2d0dSSascha WildnerThe default method ages frames on the power-save queue (in AP mode) 26005ac2d0dSSascha Wildnerand pending frames in the receive reorder queues (for stations using A-MPDU). 26105ac2d0dSSascha Wildner.It Dv ic_node_drain 26205ac2d0dSSascha WildnerReclaim all optional resources associated with a node. 263e4c06619SSascha WildnerThis call is used to free up resources when they are in short supply. 26405ac2d0dSSascha Wildner.It Dv ic_node_getrssi 26505ac2d0dSSascha WildnerReturn the Receive Signal Strength Indication (RSSI) in .5 dBm units for 26605ac2d0dSSascha Wildnerthe specified node. 26705ac2d0dSSascha WildnerThis interface returns a subset of the information 26805ac2d0dSSascha Wildnerreturned by 269e4c06619SSascha Wildner.Dv ic_node_getsignal . 27005ac2d0dSSascha WildnerThe default method calculates a filtered average over the last ten 27105ac2d0dSSascha Wildnersamples passed in to 27205ac2d0dSSascha Wildner.Xr ieee80211_input 9 27305ac2d0dSSascha Wildneror 27405ac2d0dSSascha Wildner.Xr ieee80211_input_all 9 . 27505ac2d0dSSascha Wildner.It Dv ic_node_getsignal 27605ac2d0dSSascha WildnerReturn the RSSI and noise floor (in .5 dBm units) for a station. 27705ac2d0dSSascha WildnerThe default method calculates RSSI as described above; 27805ac2d0dSSascha Wildnerthe noise floor returned is the last value supplied to 27905ac2d0dSSascha Wildner.Xr ieee80211_input 9 28005ac2d0dSSascha Wildneror 28105ac2d0dSSascha Wildner.Xr ieee80211_input_all 9 . 28205ac2d0dSSascha Wildner.It Dv ic_node_getmimoinfo 28305ac2d0dSSascha WildnerReturn MIMO radio state for a station in support of the 28405ac2d0dSSascha Wildner.Dv IEEE80211_IOC_STA_INFO 28505ac2d0dSSascha Wildnerioctl request. 28605ac2d0dSSascha WildnerThe default method returns nothing. 28705ac2d0dSSascha Wildner.It Dv ic_scan_start* 28805ac2d0dSSascha WildnerPrepare driver/hardware state for scanning. 28905ac2d0dSSascha WildnerThis callback is done in a sleepable context. 29005ac2d0dSSascha Wildner.It Dv ic_scan_end* 29105ac2d0dSSascha WildnerRestore driver/hardware state after scanning completes. 29205ac2d0dSSascha WildnerThis callback is done in a sleepable context. 29305ac2d0dSSascha Wildner.It Dv ic_set_channel* 29405ac2d0dSSascha WildnerSet the current radio channel using 29505ac2d0dSSascha Wildner.Vt ic_curchan . 29605ac2d0dSSascha WildnerThis callback is done in a sleepable context. 29705ac2d0dSSascha Wildner.It Dv ic_scan_curchan 29805ac2d0dSSascha WildnerStart scanning on a channel. 29905ac2d0dSSascha WildnerThis method is called immediately after each channel change 30005ac2d0dSSascha Wildnerand must initiate the work to scan a channel and schedule a timer 30105ac2d0dSSascha Wildnerto advance to the next channel in the scan list. 30205ac2d0dSSascha WildnerThis callback is done in a sleepable context. 30305ac2d0dSSascha WildnerThe default method handles active scan work (e.g. sending ProbeRequest 30405ac2d0dSSascha Wildnerframes), and schedules a call to 30505ac2d0dSSascha Wildner.Xr ieee80211_scan_next 9 30605ac2d0dSSascha Wildneraccording to the maximum dwell time for the channel. 30705ac2d0dSSascha WildnerDrivers that off-load scan work to firmware typically use this method 30805ac2d0dSSascha Wildnerto trigger per-channel scan activity. 30905ac2d0dSSascha Wildner.It Dv ic_scan_mindwell 31005ac2d0dSSascha WildnerHandle reaching the minimum dwell time on a channel when scanning. 31105ac2d0dSSascha WildnerThis event is triggered when one or more stations have been found on 31205ac2d0dSSascha Wildnera channel and the minimum dwell time has been reached. 31305ac2d0dSSascha WildnerThis callback is done in a sleepable context. 31405ac2d0dSSascha WildnerThe default method signals the scan machinery to advance 31505ac2d0dSSascha Wildnerto the next channel as soon as possible. 31605ac2d0dSSascha WildnerDrivers can use this method to preempt further work (e.g. if scanning 31705ac2d0dSSascha Wildneris handled by firmware) or ignore the request to force maximum dwell time 31805ac2d0dSSascha Wildneron a channel. 31905ac2d0dSSascha Wildner.It Dv ic_recv_action 32005ac2d0dSSascha WildnerProcess a received Action frame. 32105ac2d0dSSascha WildnerThe default method points to 32225d47b28SSascha Wildner.Fn ieee80211_recv_action 32305ac2d0dSSascha Wildnerwhich provides a mechanism for setting up handlers for each Action frame class. 32405ac2d0dSSascha Wildner.It Dv ic_send_action 32505ac2d0dSSascha WildnerTransmit an Action frame. 32605ac2d0dSSascha WildnerThe default method points to 32725d47b28SSascha Wildner.Fn ieee80211_send_action 32805ac2d0dSSascha Wildnerwhich provides a mechanism for setting up handlers for each Action frame class. 32905ac2d0dSSascha Wildner.It Dv ic_ampdu_enable 33005ac2d0dSSascha WildnerCheck if transmit A-MPDU should be enabled for the specified station and AC. 33105ac2d0dSSascha WildnerThe default method checks a per-AC traffic rate against a per-vap 33205ac2d0dSSascha Wildnerthreshold to decide if A-MPDU should be enabled. 33305ac2d0dSSascha WildnerThis method also rate-limits ADDBA requests so that requests are not 33405ac2d0dSSascha Wildnermade too frequently when a receiver has limited resources. 33505ac2d0dSSascha Wildner.It Dv ic_addba_request 33605ac2d0dSSascha WildnerRequest A-MPDU transmit aggregation. 33705ac2d0dSSascha WildnerThe default method sets up local state and issues an 33805ac2d0dSSascha WildnerADDBA Request Action frame. 33905ac2d0dSSascha WildnerDrivers may interpose this method if they need to setup private state 34005ac2d0dSSascha Wildnerfor handling transmit A-MPDU. 34105ac2d0dSSascha Wildner.It Dv ic_addb_response 34205ac2d0dSSascha WildnerProcess a received ADDBA Response Action frame and setup resources as 343e4c06619SSascha Wildnerneeded for doing transmit A-MPDU. 34405ac2d0dSSascha Wildner.It Dv ic_addb_stop 34505ac2d0dSSascha WildnerShutdown an A-MPDU transmit stream for the specified station and AC. 34605ac2d0dSSascha WildnerThe default method reclaims local state after sending a DelBA Action frame. 34705ac2d0dSSascha Wildner.It Dv ic_bar_response 34805ac2d0dSSascha WildnerProcess a response to a transmitted BAR control frame. 34905ac2d0dSSascha Wildner.It Dv ic_ampdu_rx_start 35005ac2d0dSSascha WildnerPrepare to receive A-MPDU data from the specified station for the TID. 35105ac2d0dSSascha Wildner.It Dv ic_ampdu_rx_stop 35205ac2d0dSSascha WildnerTerminate receipt of A-MPDU data from the specified station for the TID. 35305ac2d0dSSascha Wildner.El 35405ac2d0dSSascha Wildner.Pp 35505ac2d0dSSascha WildnerOnce the 35605ac2d0dSSascha Wildner.Nm 35705ac2d0dSSascha Wildnerlayer is attached to a driver there are two more steps typically done 35805ac2d0dSSascha Wildnerto complete the work: 35905ac2d0dSSascha Wildner.Bl -enum 36005ac2d0dSSascha Wildner.It 36105ac2d0dSSascha WildnerSetup 36205ac2d0dSSascha Wildner.Dq radiotap support 36305ac2d0dSSascha Wildnerfor capturing raw 802.11 packets that pass through the device. 36405ac2d0dSSascha WildnerThis is done with a call to 36505ac2d0dSSascha Wildner.Xr ieee80211_radiotap_attach 9 . 36605ac2d0dSSascha Wildner.It 36705ac2d0dSSascha WildnerDo any final device setup like enabling interrupts. 36805ac2d0dSSascha Wildner.El 36905ac2d0dSSascha Wildner.Pp 37005ac2d0dSSascha WildnerState is torn down and reclaimed with a call to 37105ac2d0dSSascha Wildner.Fn ieee80211_ifdetach . 37205ac2d0dSSascha WildnerNote this call may result in multiple callbacks into the driver 37305ac2d0dSSascha Wildnerso it should be done before any critical driver state is reclaimed. 37405ac2d0dSSascha WildnerOn return from 375ff66a890SHiten Pandya.Fn ieee80211_ifdetach 37605ac2d0dSSascha Wildnerall associated vaps and ifnet structures are reclaimed or inaccessible 37705ac2d0dSSascha Wildnerto user applications so it is safe to teardown driver state without 37805ac2d0dSSascha Wildnerworry about being re-entered. 37905ac2d0dSSascha WildnerThe driver is responsible for calling 38025d47b28SSascha Wildner.Fn if_free 38105ac2d0dSSascha Wildneron the ifnet it allocated for the physical device. 38205ac2d0dSSascha Wildner.Sh DRIVER CAPABILITIES 38305ac2d0dSSascha WildnerDriver/device capabilities are specified using several sets of flags 38405ac2d0dSSascha Wildnerin the 38505ac2d0dSSascha Wildner.Vt ieee80211com 38605ac2d0dSSascha Wildnerstructure. 38705ac2d0dSSascha WildnerGeneral capabilities are specified by 38805ac2d0dSSascha Wildner.Vt ic_caps . 38905ac2d0dSSascha WildnerHardware cryptographic capabilities are specified by 39005ac2d0dSSascha Wildner.Vt ic_cryptocaps . 39105ac2d0dSSascha Wildner802.11n capabilities, if any, are specified by 39205ac2d0dSSascha Wildner.Vt ic_htcaps . 393ff66a890SHiten PandyaThe 39405ac2d0dSSascha Wildner.Nm 39505ac2d0dSSascha Wildnerlayer propagates a subset of these capabilities to each vap through 39605ac2d0dSSascha Wildnerthe equivalent fields: 39705ac2d0dSSascha Wildner.Vt iv_caps , 39805ac2d0dSSascha Wildner.Vt iv_cryptocaps , 399ff66a890SHiten Pandyaand 40005ac2d0dSSascha Wildner.Vt iv_htcaps . 40105ac2d0dSSascha WildnerThe following general capabilities are defined: 40205ac2d0dSSascha Wildner.Bl -tag -width IEEE80211_C_8023ENCAP 40305ac2d0dSSascha Wildner.It Dv IEEE80211_C_STA 40405ac2d0dSSascha WildnerDevice is capable of operating in station (aka Infrastructure) mode. 40505ac2d0dSSascha Wildner.It Dv IEEE80211_C_8023ENCAP 40605ac2d0dSSascha WildnerDevice requires 802.3-encapsulated frames be passed for transmit. 40705ac2d0dSSascha WildnerBy default 40805ac2d0dSSascha Wildner.Nm 40905ac2d0dSSascha Wildnerwill encapsulate all outbound frames as 802.11 frames (without a PLCP header). 41005ac2d0dSSascha Wildner.It Dv IEEE80211_C_FF 41105ac2d0dSSascha WildnerDevice supports Atheros Fast-Frames. 41205ac2d0dSSascha Wildner.It Dv IEEE80211_C_TURBOP 41305ac2d0dSSascha WildnerDevice supports Atheros Dynamic Turbo mode. 41405ac2d0dSSascha Wildner.It Dv IEEE80211_C_IBSS 41505ac2d0dSSascha WildnerDevice is capable of operating in adhoc/IBSS mode. 41605ac2d0dSSascha Wildner.It Dv IEEE80211_C_PMGT 41705ac2d0dSSascha WildnerDevice supports dynamic power-management (aka power save) in station mode. 41805ac2d0dSSascha Wildner.It Dv IEEE80211_C_HOSTAP 41905ac2d0dSSascha WildnerDevice is capable of operating as an Access Point in Infrastructure mode. 42005ac2d0dSSascha Wildner.It Dv IEEE80211_C_AHDEMO 42105ac2d0dSSascha WildnerDevice is capable of operating in Adhoc Demo mode. 42205ac2d0dSSascha WildnerIn this mode the device is used purely to send/receive raw 802.11 frames. 42305ac2d0dSSascha Wildner.It Dv IEEE80211_C_SWRETRY 42405ac2d0dSSascha WildnerDevice supports software retry of transmitted frames. 42505ac2d0dSSascha Wildner.It Dv IEEE80211_C_TXPMGT 42605ac2d0dSSascha WildnerDevice support dynamic transmit power changes on transmitted frames; 42705ac2d0dSSascha Wildneralso known as Transmit Power Control (TPC). 42805ac2d0dSSascha Wildner.It Dv IEEE80211_C_SHSLOT 42905ac2d0dSSascha WildnerDevice supports short slot time operation (for 802.11g). 43005ac2d0dSSascha Wildner.It Dv IEEE80211_C_SHPREAMBLE 43105ac2d0dSSascha WildnerDevice supports short preamble operation (for 802.11g). 43205ac2d0dSSascha Wildner.It Dv IEEE80211_C_MONITOR 43305ac2d0dSSascha WildnerDevice is capable of operating in monitor mode. 43405ac2d0dSSascha Wildner.It Dv IEEE80211_C_DFS 43505ac2d0dSSascha WildnerDevice supports radar detection and/or DFS. 43605ac2d0dSSascha WildnerDFS protocol support can be handled by 43705ac2d0dSSascha Wildner.Nm 43805ac2d0dSSascha Wildnerbut the device must be capable of detecting radar events. 43905ac2d0dSSascha Wildner.It Dv IEEE80211_C_MBSS 44005ac2d0dSSascha WildnerDevice is capable of operating in MeshBSS (MBSS) mode 44105ac2d0dSSascha Wildner(as defined by 802.11s Draft 3.0). 44205ac2d0dSSascha Wildner.It Dv IEEE80211_C_WPA1 44305ac2d0dSSascha WildnerDevice supports WPA1 operation. 44405ac2d0dSSascha Wildner.It Dv IEEE80211_C_WPA2 44505ac2d0dSSascha WildnerDevice supports WPA2/802.11i operation. 44605ac2d0dSSascha Wildner.It Dv IEEE80211_C_BURST 44705ac2d0dSSascha WildnerDevice supports frame bursting. 44805ac2d0dSSascha Wildner.It Dv IEEE80211_C_WME 44905ac2d0dSSascha WildnerDevice supports WME/WMM operation 45005ac2d0dSSascha Wildner(at the moment this is mostly support for sending and receiving 45105ac2d0dSSascha WildnerQoS frames with EDCF). 45205ac2d0dSSascha Wildner.It Dv IEEE80211_C_WDS 45305ac2d0dSSascha WildnerDevice supports transmit/receive of 4-address frames. 45405ac2d0dSSascha Wildner.It Dv IEEE80211_C_BGSCAN 45505ac2d0dSSascha WildnerDevice supports background scanning. 45605ac2d0dSSascha Wildner.It Dv IEEE80211_C_TXFRAG 45705ac2d0dSSascha WildnerDevice supports transmit of fragmented 802.11 frames. 45805ac2d0dSSascha Wildner.It Dv IEEE80211_C_TDMA 45905ac2d0dSSascha WildnerDevice is capable of operating in TDMA mode. 46005ac2d0dSSascha Wildner.El 461ff66a890SHiten Pandya.Pp 46205ac2d0dSSascha WildnerThe follow general crypto capabilities are defined. 46305ac2d0dSSascha WildnerIn general 46405ac2d0dSSascha Wildner.Nm 46505ac2d0dSSascha Wildnerwill fall-back to software support when a device is not capable 46605ac2d0dSSascha Wildnerof hardware acceleration of a cipher. 46705ac2d0dSSascha WildnerThis can be done on a per-key basis. 46805ac2d0dSSascha Wildner.Nm 46905ac2d0dSSascha Wildnercan also handle software 47005ac2d0dSSascha Wildner.Dv Michael 47105ac2d0dSSascha Wildnercalculation combined with hardware 47205ac2d0dSSascha Wildner.Dv AES 47305ac2d0dSSascha Wildneracceleration. 47405ac2d0dSSascha Wildner.Bl -tag -width IEEE80211_C_8023ENCAP 47505ac2d0dSSascha Wildner.It Dv IEEE80211_CRYPTO_WEP 47605ac2d0dSSascha WildnerDevice supports hardware WEP cipher. 47705ac2d0dSSascha Wildner.It Dv IEEE80211_CRYPTO_TKIP 47805ac2d0dSSascha WildnerDevice supports hardware TKIP cipher. 47905ac2d0dSSascha Wildner.It Dv IEEE80211_CRYPTO_AES_OCB 48005ac2d0dSSascha WildnerDevice supports hardware AES-OCB cipher. 48105ac2d0dSSascha Wildner.It Dv IEEE80211_CRYPTO_AES_CCM 48205ac2d0dSSascha WildnerDevice supports hardware AES-CCM cipher. 48305ac2d0dSSascha Wildner.It Dv IEEE80211_CRYPTO_TKIPMIC 48405ac2d0dSSascha WildnerDevice supports hardware Michael for use with TKIP. 48505ac2d0dSSascha Wildner.It Dv IEEE80211_CRYPTO_CKIP 48605ac2d0dSSascha WildnerDevices supports hardware CKIP cipher. 48705ac2d0dSSascha Wildner.El 488ff66a890SHiten Pandya.Pp 48905ac2d0dSSascha WildnerThe follow general 802.11n capabilities are defined. 49005ac2d0dSSascha WildnerThe first capabilities are defined exactly as they appear in the 49105ac2d0dSSascha Wildner802.11n specification. 492c1f3c069SSascha WildnerCapabilities beginning with IEEE80211_HTC_AMPDU are used solely by the 49305ac2d0dSSascha Wildner.Nm 49405ac2d0dSSascha Wildnerlayer. 49505ac2d0dSSascha Wildner.Bl -tag -width IEEE80211_C_8023ENCAP 49605ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_CHWIDTH40 49705ac2d0dSSascha WildnerDevice supports 20/40 channel width operation. 49805ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_SMPS_DYNAMIC 49905ac2d0dSSascha WildnerDevice supports dynamic SM power save operation. 50005ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_SMPS_ENA 50105ac2d0dSSascha WildnerDevice supports static SM power save operation. 50205ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_GREENFIELD 50305ac2d0dSSascha WildnerDevice supports Greenfield preamble. 50405ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_SHORTGI20 50505ac2d0dSSascha WildnerDevice supports Short Guard Interval on 20MHz channels. 50605ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_SHORTGI40 50705ac2d0dSSascha WildnerDevice supports Short Guard Interval on 40MHz channels. 50805ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_TXSTBC 50905ac2d0dSSascha WildnerDevice supports Space Time Block Convolution (STBC) for transmit. 51005ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_RXSTBC_1STREAM 51105ac2d0dSSascha WildnerDevice supports 1 spatial stream for STBC receive. 51205ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_RXSTBC_2STREAM 51305ac2d0dSSascha WildnerDevice supports 1-2 spatial streams for STBC receive. 51405ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_RXSTBC_3STREAM 51505ac2d0dSSascha WildnerDevice supports 1-3 spatial streams for STBC receive. 51605ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_MAXAMSDU_7935 51705ac2d0dSSascha WildnerDevice supports A-MSDU frames up to 7935 octets. 51805ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_MAXAMSDU_3839 51905ac2d0dSSascha WildnerDevice supports A-MSDU frames up to 3839 octets. 52005ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_DSSSCCK40 52105ac2d0dSSascha WildnerDevice supports use of DSSS/CCK on 40MHz channels. 52205ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_PSMP 52305ac2d0dSSascha WildnerDevice supports PSMP. 52405ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_40INTOLERANT 52505ac2d0dSSascha WildnerDevice is intolerant of 40MHz wide channel use. 52605ac2d0dSSascha Wildner.It Dv IEEE80211_HTCAP_LSIGTXOPPROT 52705ac2d0dSSascha WildnerDevice supports L-SIG TXOP protection. 52805ac2d0dSSascha Wildner.It Dv IEEE80211_HTC_AMPDU 52905ac2d0dSSascha WildnerDevice supports A-MPDU aggregation. 53005ac2d0dSSascha WildnerNote that any 802.11n compliant device must support A-MPDU receive 53105ac2d0dSSascha Wildnerso this implicitly means support for 53205ac2d0dSSascha Wildner.Em transmit 53305ac2d0dSSascha Wildnerof A-MPDU frames. 53405ac2d0dSSascha Wildner.It Dv IEEE80211_HTC_AMSDU 53505ac2d0dSSascha WildnerDevice supports A-MSDU aggregation. 53605ac2d0dSSascha WildnerNote that any 802.11n compliant device must support A-MSDU receive 53705ac2d0dSSascha Wildnerso this implicitly means support for 53805ac2d0dSSascha Wildner.Em transmit 53905ac2d0dSSascha Wildnerof A-MSDU frames. 54005ac2d0dSSascha Wildner.It Dv IEEE80211_HTC_HT 54105ac2d0dSSascha WildnerDevice supports High Throughput (HT) operation. 54205ac2d0dSSascha WildnerThis capability must be set to enable 802.11n functionality 54305ac2d0dSSascha Wildnerin 54405ac2d0dSSascha Wildner.Nm . 54505ac2d0dSSascha Wildner.It Dv IEEE80211_HTC_SMPS 54605ac2d0dSSascha WildnerDevice supports MIMO Power Save operation. 54705ac2d0dSSascha Wildner.It Dv IEEE80211_HTC_RIFS 54805ac2d0dSSascha WildnerDevice supports Reduced Inter Frame Spacing (RIFS). 54905ac2d0dSSascha Wildner.El 550ff66a890SHiten Pandya.Sh SEE ALSO 55105ac2d0dSSascha Wildner.Xr ioctl 2 , 552e6847b65SSascha Wildner.\".Xr ieee80211_amrr 9 , 55305ac2d0dSSascha Wildner.Xr ieee80211_beacon 9 , 55405ac2d0dSSascha Wildner.Xr ieee80211_bmiss 9 , 555ff66a890SHiten Pandya.Xr ieee80211_crypto 9 , 55605ac2d0dSSascha Wildner.Xr ieee80211_ddb 9 , 557ff66a890SHiten Pandya.Xr ieee80211_input 9 , 558ff66a890SHiten Pandya.Xr ieee80211_node 9 , 559ff66a890SHiten Pandya.Xr ieee80211_output 9 , 560ff66a890SHiten Pandya.Xr ieee80211_proto 9 , 561ff66a890SHiten Pandya.Xr ieee80211_radiotap 9 , 56205ac2d0dSSascha Wildner.Xr ieee80211_regdomain 9 , 56305ac2d0dSSascha Wildner.Xr ieee80211_scan 9 , 56405ac2d0dSSascha Wildner.Xr ieee80211_vap 9 , 56505ac2d0dSSascha Wildner.Xr ifnet 9 , 566ce943574SSascha Wildner.Xr kmalloc 9 567