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IEEE80211_PROTO(9)	 BSD Kernel Developer's Manual	    IEEE80211_PROTO(9)

     ieee80211_proto — 802.11 state machine support

     #include <net80211/ieee80211_var.h>

     ieee80211_start_all(struct ieee80211com *);

     ieee80211_stop_all(struct ieee80211com *);

     ieee80211_suspend_all(struct ieee80211com *);

     ieee80211_resume_all(struct ieee80211com *);

     enum ieee80211_state;

     ieee80211_new_state(struct ieee80211vap *, enum ieee80211_state, int);

     ieee80211_wait_for_parent(struct ieee80211com *);

     The net80211 layer that supports 802.11 device drivers uses a state
     machine to control operation of vaps.  These state machines vary accord‐
     ing to the vap operating mode.  Station mode state machines follow the
     802.11 MLME states in the protocol specification.	Other state machines
     are simpler and reflect operational work such as scanning for a BSS or
     automatically selecting a channel to operate on.  When multiple vaps are
     operational the state machines are used to coordinate operation such as
     choosing a channel.  The state machine mechanism also serves to bind the
     net80211 layer to a driver; this is described more below.

     The following states are defined for state machines:

     IEEE80211_S_INIT	Default/initial state.	A vap in this state should not
			hold any dynamic state (e.g. entries for associated
			stations in the node table).  The driver must quiesce
			the hardware; e.g. there should be no interrupts fir‐

     IEEE80211_S_SCAN	Scanning for a BSS or choosing a channel to operate
			on.  Note that scanning can also take place in other
			states (e.g. when background scanning is active); this
			state is entered when initially bringing a vap to an
			operational state or after an event such as a beacon
			miss (in station mode).

     IEEE80211_S_AUTH	Authenticating to an access point (in station mode).
			This state is normally reached from IEEE80211_S_SCAN
			after selecting a BSS, but may also be reached from
			IEEE80211_S_ASSOC or IEEE80211_S_RUN if the authenti‐
			cation handshake fails.

     IEEE80211_S_ASSOC	Associating to an access point (in station mode).
			This state is reached from IEEE80211_S_AUTH after suc‐
			cessfully authenticating or from IEEE80211_S_RUN if a
			DisAssoc frame is received.

     IEEE80211_S_CAC	Doing Channel Availability Check (CAC).	 This state is
			entered only when DFS is enabled and the channel
			selected for operation requires CAC.

     IEEE80211_S_RUN	Operational.  In this state a vap can transmit data
			frames, accept requests for stations associating, etc.
			Beware that data traffic is also gated by whether the
			associated “port” is authorized.  When
			WPA/802.11i/802.1x is operational authorization may
			happen separately; e.g. in station mode
			wpa_supplicant(8) must complete the handshakes and
			plumb the necessary keys before a port is authorized.
			In this state a BSS is operational and associated
			state is valid and may be used; e.g.  ic_bss and
			ic_bsschan are guaranteed to be usable.

     IEEE80211_S_CSA	Channel Switch Announcement (CSA) is pending.  This
			state is reached only from IEEE80211_S_RUN when either
			a CSA is received from an access point (in station
			mode) or the local station is preparing to change
			channel.  In this state traffic may be muted depending
			on the Mute setting in the CSA.

     IEEE80211_S_SLEEP	Asleep to save power (in station mode).	 This state is
			reached only from IEEE80211_S_RUN when power save
			operation is enabled and the local station is deemed
			sufficiently idle to enter low power mode.

     Note that states are ordered (as shown above); e.g. a vap must be in the
     IEEE80211_S_RUN or “greater” before it can transmit frames.  Certain
     net80211 data are valid only in certain states; e.g. the iv_bsschan that
     specifies the channel for the operating BSS should never be used except
     in IEEE80211_S_RUN or greater.

     State machine changes are typically handled internal to the net80211
     layer in response to ioctl(2) requests, received frames, or external
     events such as a beacon miss.  The ieee80211_new_state() function is used
     to initiate a state machine change on a vap.  The new state and an
     optional argument are supplied.  The request is initially processed to
     handle coordination of multiple vaps.  For example, only one vap at a
     time can be scanning, if multiple vaps request a change to
     IEEE80211_S_SCAN the first will be permitted to run and the others will
     be deferred until the scan operation completes at which time the selected
     channel will be adopted.  Similarly net80211 handles coordination of com‐
     binations of vaps such as an AP and station vap where the station may
     need to roam to follow the AP it is associated to (dragging along the AP
     vap to the new channel).  Another important coordination is the handling
     of IEEE80211_S_CAC and IEEE80211_S_CSA.  No more than one vap can ever be
     actively changing state at a time.	 In fact net80211 single-threads the
     state machine logic in a dedicated taskqueue(9) thread that is also used
     to synchronize work such as scanning and beacon miss handling.

     After multi-vap scheduling/coordination is done the per-vap iv_newstate
     method is called to carry out the state change work.  Drivers use this
     entry to setup private state and then dispatch the call to the net80211
     layer using the previously defined method pointer (in OOP-parlance they
     call the “super method” ).

     net80211 handles two state changes specially.  On transition to
     IEEE80211_S_RUN the IFF_DRV_OACTIVE bit on the vap's transmit queue is
     cleared so traffic can flow.  On transition to IEEE80211_S_INIT any state
     in the scan cache associated with the vap is flushed and any frames pend‐
     ing on the transmit queue are flushed.

     Drivers are expected to override the iv_newstate method to interpose
     their own code and handle setup work required by state changes.  Other‐
     wise drivers must call ieee80211_start_all() in response to being marked
     up through an SIOCSIFFLAGS ioctl request and they should use
     ieee80211_suspend_all() and ieee80211_resume_all() to implement sus‐
     pend/resume support.

     There is also an ieee80211_stop_all() call to force all vaps to an
     IEEE80211_S_INIT state but this should not be needed by a driver; control
     is usually handled by net80211 or, in the case of card eject or vap
     destroy, work will be initiated outside the driver.

     ioctl(2), wpa_supplicant(8), ieee80211(9), ifnet(9), taskqueue(9)

     The state machine concept was part of the original ieee80211 code base
     that first appeared in NetBSD 1.5,

BSD				August 4, 2009				   BSD

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