3dd85b265f
* Add a PCU lock, which isn't currently used but will eventually be used to serialise some of the driver access. * Add in all the software TX aggregation state, that's kept per-node and per-TID. * Add in the software and aggregation state to ath_buf. * Add in hooks to ath_softc for aggregation state and the (upcoming) aggregation TX state calls. * Add / fix the HAL access macros. Obtained from: Linux, ath9k Sponsored by: Hobnob, Inc.
943 lines
39 KiB
C
943 lines
39 KiB
C
/*-
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* Copyright (c) 2002-2009 Sam Leffler, Errno Consulting
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer,
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* without modification.
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* 2. Redistributions in binary form must reproduce at minimum a disclaimer
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* similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any
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* redistribution must be conditioned upon including a substantially
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* similar Disclaimer requirement for further binary redistribution.
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*
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* NO WARRANTY
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY
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* AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
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* THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY,
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* OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
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* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER
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* IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
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* THE POSSIBILITY OF SUCH DAMAGES.
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*
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* $FreeBSD$
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*/
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/*
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* Defintions for the Atheros Wireless LAN controller driver.
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*/
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#ifndef _DEV_ATH_ATHVAR_H
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#define _DEV_ATH_ATHVAR_H
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#include <dev/ath/ath_hal/ah.h>
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#include <dev/ath/ath_hal/ah_desc.h>
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#include <net80211/ieee80211_radiotap.h>
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#include <dev/ath/if_athioctl.h>
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#include <dev/ath/if_athrate.h>
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#define ATH_TIMEOUT 1000
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/*
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* 802.11n requires more TX and RX buffers to do AMPDU.
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*/
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#ifdef ATH_ENABLE_11N
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#define ATH_TXBUF 512
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#define ATH_RXBUF 512
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#endif
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#ifndef ATH_RXBUF
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#define ATH_RXBUF 40 /* number of RX buffers */
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#endif
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#ifndef ATH_TXBUF
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#define ATH_TXBUF 200 /* number of TX buffers */
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#endif
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#define ATH_BCBUF 4 /* number of beacon buffers */
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#define ATH_TXDESC 10 /* number of descriptors per buffer */
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#define ATH_TXMAXTRY 11 /* max number of transmit attempts */
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#define ATH_TXMGTTRY 4 /* xmit attempts for mgt/ctl frames */
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#define ATH_TXINTR_PERIOD 5 /* max number of batched tx descriptors */
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#define ATH_BEACON_AIFS_DEFAULT 1 /* default aifs for ap beacon q */
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#define ATH_BEACON_CWMIN_DEFAULT 0 /* default cwmin for ap beacon q */
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#define ATH_BEACON_CWMAX_DEFAULT 0 /* default cwmax for ap beacon q */
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/*
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* The key cache is used for h/w cipher state and also for
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* tracking station state such as the current tx antenna.
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* We also setup a mapping table between key cache slot indices
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* and station state to short-circuit node lookups on rx.
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* Different parts have different size key caches. We handle
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* up to ATH_KEYMAX entries (could dynamically allocate state).
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*/
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#define ATH_KEYMAX 128 /* max key cache size we handle */
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#define ATH_KEYBYTES (ATH_KEYMAX/NBBY) /* storage space in bytes */
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struct taskqueue;
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struct kthread;
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struct ath_buf;
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#define ATH_TID_MAX_BUFS (2 * IEEE80211_AGGR_BAWMAX)
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/*
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* Per-TID state
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*
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* Note that TID 16 (WME_NUM_TID+1) is for handling non-QoS frames.
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*/
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struct ath_tid {
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TAILQ_HEAD(,ath_buf) axq_q; /* pending buffers */
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u_int axq_depth; /* SW queue depth */
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char axq_name[48]; /* lock name */
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struct ath_node *an; /* pointer to parent */
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int tid; /* tid */
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int ac; /* which AC gets this trafic */
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int hwq_depth; /* how many buffers are on HW */
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/*
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* Entry on the ath_txq; when there's traffic
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* to send
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*/
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TAILQ_ENTRY(ath_tid) axq_qelem;
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int sched;
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int paused; /* >0 if the TID has been paused */
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/*
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* Is the TID being cleaned up after a transition
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* from aggregation to non-aggregation?
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* When this is set to 1, this TID will be paused
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* and no further traffic will be queued until all
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* the hardware packets pending for this TID have been
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* TXed/completed; at which point (non-aggregation)
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* traffic will resume being TXed.
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*/
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int cleanup_inprogress;
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/*
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* How many hardware-queued packets are
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* waiting to be cleaned up.
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* This is only valid if cleanup_inprogress is 1.
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*/
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int incomp;
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/*
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* The following implements a ring representing
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* the frames in the current BAW.
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* To avoid copying the array content each time
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* the BAW is moved, the baw_head/baw_tail point
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* to the current BAW begin/end; when the BAW is
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* shifted the head/tail of the array are also
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* appropriately shifted.
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*/
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/* active tx buffers, beginning at current BAW */
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struct ath_buf *tx_buf[ATH_TID_MAX_BUFS];
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/* where the baw head is in the array */
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int baw_head;
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/* where the BAW tail is in the array */
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int baw_tail;
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};
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/* driver-specific node state */
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struct ath_node {
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struct ieee80211_node an_node; /* base class */
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u_int8_t an_mgmtrix; /* min h/w rate index */
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u_int8_t an_mcastrix; /* mcast h/w rate index */
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struct ath_buf *an_ff_buf[WME_NUM_AC]; /* ff staging area */
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struct ath_tid an_tid[IEEE80211_TID_SIZE]; /* per-TID state */
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char an_name[32]; /* eg "wlan0_a1" */
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struct mtx an_mtx; /* protecting the ath_node state */
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/* variable-length rate control state follows */
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};
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#define ATH_NODE(ni) ((struct ath_node *)(ni))
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#define ATH_NODE_CONST(ni) ((const struct ath_node *)(ni))
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#define ATH_RSSI_LPF_LEN 10
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#define ATH_RSSI_DUMMY_MARKER 0x127
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#define ATH_EP_MUL(x, mul) ((x) * (mul))
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#define ATH_RSSI_IN(x) (ATH_EP_MUL((x), HAL_RSSI_EP_MULTIPLIER))
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#define ATH_LPF_RSSI(x, y, len) \
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((x != ATH_RSSI_DUMMY_MARKER) ? (((x) * ((len) - 1) + (y)) / (len)) : (y))
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#define ATH_RSSI_LPF(x, y) do { \
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if ((y) >= -20) \
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x = ATH_LPF_RSSI((x), ATH_RSSI_IN((y)), ATH_RSSI_LPF_LEN); \
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} while (0)
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#define ATH_EP_RND(x,mul) \
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((((x)%(mul)) >= ((mul)/2)) ? ((x) + ((mul) - 1)) / (mul) : (x)/(mul))
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#define ATH_RSSI(x) ATH_EP_RND(x, HAL_RSSI_EP_MULTIPLIER)
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struct ath_buf {
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STAILQ_ENTRY(ath_buf) bf_list;
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struct ath_buf * bf_next; /* next buffer in the aggregate */
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int bf_nseg;
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uint16_t bf_txflags; /* tx descriptor flags */
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uint16_t bf_flags; /* status flags (below) */
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struct ath_desc *bf_desc; /* virtual addr of desc */
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struct ath_desc_status bf_status; /* tx/rx status */
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bus_addr_t bf_daddr; /* physical addr of desc */
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bus_dmamap_t bf_dmamap; /* DMA map for mbuf chain */
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struct mbuf *bf_m; /* mbuf for buf */
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struct ieee80211_node *bf_node; /* pointer to the node */
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struct ath_desc *bf_lastds; /* last descriptor for comp status */
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struct ath_buf *bf_last; /* last buffer in aggregate, or self for non-aggregate */
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bus_size_t bf_mapsize;
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#define ATH_MAX_SCATTER ATH_TXDESC /* max(tx,rx,beacon) desc's */
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bus_dma_segment_t bf_segs[ATH_MAX_SCATTER];
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/* Completion function to call on TX complete (fail or not) */
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/*
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* "fail" here is set to 1 if the queue entries were removed
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* through a call to ath_tx_draintxq().
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*/
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void(* bf_comp) (struct ath_softc *sc, struct ath_buf *bf, int fail);
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/* This state is kept to support software retries and aggregation */
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struct {
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int bfs_seqno; /* sequence number of this packet */
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int bfs_retries; /* retry count */
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uint16_t bfs_tid; /* packet TID (or TID_MAX for no QoS) */
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uint16_t bfs_pri; /* packet AC priority */
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struct ath_txq *bfs_txq; /* eventual dest hardware TXQ */
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uint16_t bfs_pktdur; /* packet duration (at current rate?) */
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uint16_t bfs_nframes; /* number of frames in aggregate */
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uint16_t bfs_ndelim; /* number of delims for padding */
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int bfs_aggr:1; /* part of aggregate? */
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int bfs_aggrburst:1; /* part of aggregate burst? */
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int bfs_isretried:1; /* retried frame? */
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int bfs_dobaw:1; /* actually check against BAW? */
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int bfs_addedbaw:1; /* has been added to the BAW */
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int bfs_shpream:1; /* use short preamble */
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int bfs_istxfrag:1; /* is fragmented */
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int bfs_ismrr:1; /* do multi-rate TX retry */
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int bfs_doprot:1; /* do RTS/CTS based protection */
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int bfs_doratelookup:1; /* do rate lookup before each TX */
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int bfs_nfl; /* next fragment length */
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/*
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* These fields are passed into the
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* descriptor setup functions.
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*/
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HAL_PKT_TYPE bfs_atype; /* packet type */
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int bfs_pktlen; /* length of this packet */
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int bfs_hdrlen; /* length of this packet header */
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uint16_t bfs_al; /* length of aggregate */
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int bfs_flags; /* HAL descriptor flags */
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int bfs_txrate0; /* first TX rate */
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int bfs_try0; /* first try count */
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uint8_t bfs_ctsrate0; /* Non-zero - use this as ctsrate */
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int bfs_keyix; /* crypto key index */
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int bfs_txpower; /* tx power */
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int bfs_txantenna; /* TX antenna config */
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enum ieee80211_protmode bfs_protmode;
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HAL_11N_RATE_SERIES bfs_rc11n[ATH_RC_NUM]; /* 11n TX series */
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int bfs_ctsrate; /* CTS rate */
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int bfs_ctsduration; /* CTS duration (pre-11n NICs) */
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struct ath_rc_series bfs_rc[ATH_RC_NUM]; /* non-11n TX series */
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} bf_state;
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};
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typedef STAILQ_HEAD(, ath_buf) ath_bufhead;
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#define ATH_BUF_BUSY 0x00000002 /* (tx) desc owned by h/w */
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/*
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* DMA state for tx/rx descriptors.
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*/
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struct ath_descdma {
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const char* dd_name;
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struct ath_desc *dd_desc; /* descriptors */
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bus_addr_t dd_desc_paddr; /* physical addr of dd_desc */
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bus_size_t dd_desc_len; /* size of dd_desc */
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bus_dma_segment_t dd_dseg;
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bus_dma_tag_t dd_dmat; /* bus DMA tag */
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bus_dmamap_t dd_dmamap; /* DMA map for descriptors */
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struct ath_buf *dd_bufptr; /* associated buffers */
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};
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/*
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* Data transmit queue state. One of these exists for each
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* hardware transmit queue. Packets sent to us from above
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* are assigned to queues based on their priority. Not all
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* devices support a complete set of hardware transmit queues.
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* For those devices the array sc_ac2q will map multiple
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* priorities to fewer hardware queues (typically all to one
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* hardware queue).
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*/
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struct ath_txq {
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struct ath_softc *axq_softc; /* Needed for scheduling */
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u_int axq_qnum; /* hardware q number */
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#define ATH_TXQ_SWQ (HAL_NUM_TX_QUEUES+1) /* qnum for s/w only queue */
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u_int axq_ac; /* WME AC */
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u_int axq_flags;
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#define ATH_TXQ_PUTPENDING 0x0001 /* ath_hal_puttxbuf pending */
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u_int axq_depth; /* queue depth (stat only) */
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u_int axq_aggr_depth; /* how many aggregates are queued */
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u_int axq_intrcnt; /* interrupt count */
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u_int32_t *axq_link; /* link ptr in last TX desc */
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STAILQ_HEAD(, ath_buf) axq_q; /* transmit queue */
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struct mtx axq_lock; /* lock on q and link */
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char axq_name[12]; /* e.g. "ath0_txq4" */
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/* Per-TID traffic queue for software -> hardware TX */
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TAILQ_HEAD(axq_t_s,ath_tid) axq_tidq;
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};
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#define ATH_NODE_LOCK(_an) mtx_lock(&(_an)->an_mtx)
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#define ATH_NODE_UNLOCK(_an) mtx_unlock(&(_an)->an_mtx)
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#define ATH_NODE_LOCK_ASSERT(_an) mtx_assert(&(_an)->an_mtx, MA_OWNED)
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#define ATH_TXQ_LOCK_INIT(_sc, _tq) do { \
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snprintf((_tq)->axq_name, sizeof((_tq)->axq_name), "%s_txq%u", \
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device_get_nameunit((_sc)->sc_dev), (_tq)->axq_qnum); \
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mtx_init(&(_tq)->axq_lock, (_tq)->axq_name, NULL, MTX_DEF); \
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} while (0)
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#define ATH_TXQ_LOCK_DESTROY(_tq) mtx_destroy(&(_tq)->axq_lock)
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#define ATH_TXQ_LOCK(_tq) mtx_lock(&(_tq)->axq_lock)
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#define ATH_TXQ_UNLOCK(_tq) mtx_unlock(&(_tq)->axq_lock)
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#define ATH_TXQ_LOCK_ASSERT(_tq) mtx_assert(&(_tq)->axq_lock, MA_OWNED)
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#define ATH_TXQ_IS_LOCKED(_tq) mtx_owned(&(_tq)->axq_lock)
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#define ATH_TXQ_INSERT_TAIL(_tq, _elm, _field) do { \
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STAILQ_INSERT_TAIL(&(_tq)->axq_q, (_elm), _field); \
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(_tq)->axq_depth++; \
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} while (0)
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#define ATH_TXQ_REMOVE_HEAD(_tq, _field) do { \
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STAILQ_REMOVE_HEAD(&(_tq)->axq_q, _field); \
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(_tq)->axq_depth--; \
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} while (0)
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/* NB: this does not do the "head empty check" that STAILQ_LAST does */
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#define ATH_TXQ_LAST(_tq) \
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((struct ath_buf *)(void *) \
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((char *)((_tq)->axq_q.stqh_last) - __offsetof(struct ath_buf, bf_list)))
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struct ath_vap {
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struct ieee80211vap av_vap; /* base class */
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int av_bslot; /* beacon slot index */
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struct ath_buf *av_bcbuf; /* beacon buffer */
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struct ieee80211_beacon_offsets av_boff;/* dynamic update state */
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struct ath_txq av_mcastq; /* buffered mcast s/w queue */
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void (*av_recv_mgmt)(struct ieee80211_node *,
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struct mbuf *, int, int, int);
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int (*av_newstate)(struct ieee80211vap *,
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enum ieee80211_state, int);
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void (*av_bmiss)(struct ieee80211vap *);
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};
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#define ATH_VAP(vap) ((struct ath_vap *)(vap))
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struct taskqueue;
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struct ath_tx99;
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/*
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* Whether to reset the TX/RX queue with or without
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* a queue flush.
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*/
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typedef enum {
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ATH_RESET_DEFAULT = 0,
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ATH_RESET_NOLOSS = 1,
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ATH_RESET_FULL = 2,
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} ATH_RESET_TYPE;
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struct ath_softc {
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struct ifnet *sc_ifp; /* interface common */
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struct ath_stats sc_stats; /* interface statistics */
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struct ath_tx_aggr_stats sc_aggr_stats;
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int sc_debug;
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int sc_nvaps; /* # vaps */
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int sc_nstavaps; /* # station vaps */
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int sc_nmeshvaps; /* # mbss vaps */
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u_int8_t sc_hwbssidmask[IEEE80211_ADDR_LEN];
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u_int8_t sc_nbssid0; /* # vap's using base mac */
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uint32_t sc_bssidmask; /* bssid mask */
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void (*sc_node_cleanup)(struct ieee80211_node *);
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void (*sc_node_free)(struct ieee80211_node *);
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device_t sc_dev;
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HAL_BUS_TAG sc_st; /* bus space tag */
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HAL_BUS_HANDLE sc_sh; /* bus space handle */
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bus_dma_tag_t sc_dmat; /* bus DMA tag */
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struct mtx sc_mtx; /* master lock (recursive) */
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struct mtx sc_pcu_mtx; /* PCU access mutex */
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char sc_pcu_mtx_name[32];
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struct taskqueue *sc_tq; /* private task queue */
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struct ath_hal *sc_ah; /* Atheros HAL */
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struct ath_ratectrl *sc_rc; /* tx rate control support */
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struct ath_tx99 *sc_tx99; /* tx99 adjunct state */
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void (*sc_setdefantenna)(struct ath_softc *, u_int);
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unsigned int sc_invalid : 1,/* disable hardware accesses */
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sc_mrretry : 1,/* multi-rate retry support */
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sc_softled : 1,/* enable LED gpio status */
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sc_splitmic : 1,/* split TKIP MIC keys */
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sc_needmib : 1,/* enable MIB stats intr */
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sc_diversity: 1,/* enable rx diversity */
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sc_hasveol : 1,/* tx VEOL support */
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sc_ledstate : 1,/* LED on/off state */
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sc_blinking : 1,/* LED blink operation active */
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sc_mcastkey : 1,/* mcast key cache search */
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sc_scanning : 1,/* scanning active */
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sc_syncbeacon:1,/* sync/resync beacon timers */
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sc_hasclrkey: 1,/* CLR key supported */
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sc_xchanmode: 1,/* extended channel mode */
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sc_outdoor : 1,/* outdoor operation */
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sc_dturbo : 1,/* dynamic turbo in use */
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sc_hasbmask : 1,/* bssid mask support */
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sc_hasbmatch: 1,/* bssid match disable support*/
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sc_hastsfadd: 1,/* tsf adjust support */
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sc_beacons : 1,/* beacons running */
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sc_swbmiss : 1,/* sta mode using sw bmiss */
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sc_stagbeacons:1,/* use staggered beacons */
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sc_wmetkipmic:1,/* can do WME+TKIP MIC */
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sc_resume_up: 1,/* on resume, start all vaps */
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sc_tdma : 1,/* TDMA in use */
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sc_setcca : 1,/* set/clr CCA with TDMA */
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sc_resetcal : 1,/* reset cal state next trip */
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sc_rxslink : 1,/* do self-linked final descriptor */
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sc_kickpcu : 1,/* kick PCU RX on next RX proc */
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sc_rxtsf32 : 1;/* RX dec TSF is 32 bits */
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uint32_t sc_eerd; /* regdomain from EEPROM */
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uint32_t sc_eecc; /* country code from EEPROM */
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/* rate tables */
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const HAL_RATE_TABLE *sc_rates[IEEE80211_MODE_MAX];
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const HAL_RATE_TABLE *sc_currates; /* current rate table */
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enum ieee80211_phymode sc_curmode; /* current phy mode */
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HAL_OPMODE sc_opmode; /* current operating mode */
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u_int16_t sc_curtxpow; /* current tx power limit */
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u_int16_t sc_curaid; /* current association id */
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struct ieee80211_channel *sc_curchan; /* current installed channel */
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u_int8_t sc_curbssid[IEEE80211_ADDR_LEN];
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u_int8_t sc_rixmap[256]; /* IEEE to h/w rate table ix */
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struct {
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u_int8_t ieeerate; /* IEEE rate */
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u_int8_t rxflags; /* radiotap rx flags */
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u_int8_t txflags; /* radiotap tx flags */
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u_int16_t ledon; /* softled on time */
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u_int16_t ledoff; /* softled off time */
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} sc_hwmap[32]; /* h/w rate ix mappings */
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u_int8_t sc_protrix; /* protection rate index */
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u_int8_t sc_lastdatarix; /* last data frame rate index */
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u_int sc_mcastrate; /* ieee rate for mcastrateix */
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u_int sc_fftxqmin; /* min frames before staging */
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u_int sc_fftxqmax; /* max frames before drop */
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u_int sc_txantenna; /* tx antenna (fixed or auto) */
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HAL_INT sc_imask; /* interrupt mask copy */
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u_int sc_keymax; /* size of key cache */
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u_int8_t sc_keymap[ATH_KEYBYTES];/* key use bit map */
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u_int sc_ledpin; /* GPIO pin for driving LED */
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u_int sc_ledon; /* pin setting for LED on */
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u_int sc_ledidle; /* idle polling interval */
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int sc_ledevent; /* time of last LED event */
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u_int8_t sc_txrix; /* current tx rate for LED */
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u_int16_t sc_ledoff; /* off time for current blink */
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struct callout sc_ledtimer; /* led off timer */
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u_int sc_rfsilentpin; /* GPIO pin for rfkill int */
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u_int sc_rfsilentpol; /* pin setting for rfkill on */
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struct ath_descdma sc_rxdma; /* RX descriptors */
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ath_bufhead sc_rxbuf; /* receive buffer */
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struct mbuf *sc_rxpending; /* pending receive data */
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u_int32_t *sc_rxlink; /* link ptr in last RX desc */
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struct task sc_rxtask; /* rx int processing */
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u_int8_t sc_defant; /* current default antenna */
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u_int8_t sc_rxotherant; /* rx's on non-default antenna*/
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u_int64_t sc_lastrx; /* tsf at last rx'd frame */
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struct ath_rx_status *sc_lastrs; /* h/w status of last rx */
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struct ath_rx_radiotap_header sc_rx_th;
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int sc_rx_th_len;
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u_int sc_monpass; /* frames to pass in mon.mode */
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struct ath_descdma sc_txdma; /* TX descriptors */
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ath_bufhead sc_txbuf; /* transmit buffer */
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struct mtx sc_txbuflock; /* txbuf lock */
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char sc_txname[12]; /* e.g. "ath0_buf" */
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u_int sc_txqsetup; /* h/w queues setup */
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u_int sc_txintrperiod;/* tx interrupt batching */
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struct ath_txq sc_txq[HAL_NUM_TX_QUEUES];
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struct ath_txq *sc_ac2q[5]; /* WME AC -> h/w q map */
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struct task sc_txtask; /* tx int processing */
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int sc_wd_timer; /* count down for wd timer */
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struct callout sc_wd_ch; /* tx watchdog timer */
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struct ath_tx_radiotap_header sc_tx_th;
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int sc_tx_th_len;
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struct ath_descdma sc_bdma; /* beacon descriptors */
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ath_bufhead sc_bbuf; /* beacon buffers */
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u_int sc_bhalq; /* HAL q for outgoing beacons */
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u_int sc_bmisscount; /* missed beacon transmits */
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u_int32_t sc_ant_tx[8]; /* recent tx frames/antenna */
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struct ath_txq *sc_cabq; /* tx q for cab frames */
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struct task sc_bmisstask; /* bmiss int processing */
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struct task sc_bstucktask; /* stuck beacon processing */
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enum {
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OK, /* no change needed */
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UPDATE, /* update pending */
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COMMIT /* beacon sent, commit change */
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} sc_updateslot; /* slot time update fsm */
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int sc_slotupdate; /* slot to advance fsm */
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struct ieee80211vap *sc_bslot[ATH_BCBUF];
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int sc_nbcnvaps; /* # vaps with beacons */
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struct callout sc_cal_ch; /* callout handle for cals */
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int sc_lastlongcal; /* last long cal completed */
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int sc_lastcalreset;/* last cal reset done */
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int sc_lastani; /* last ANI poll */
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int sc_lastshortcal; /* last short calibration */
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HAL_BOOL sc_doresetcal; /* Yes, we're doing a reset cal atm */
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HAL_NODE_STATS sc_halstats; /* station-mode rssi stats */
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u_int sc_tdmadbaprep; /* TDMA DBA prep time */
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u_int sc_tdmaswbaprep;/* TDMA SWBA prep time */
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u_int sc_tdmaswba; /* TDMA SWBA counter */
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u_int32_t sc_tdmabintval; /* TDMA beacon interval (TU) */
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u_int32_t sc_tdmaguard; /* TDMA guard time (usec) */
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u_int sc_tdmaslotlen; /* TDMA slot length (usec) */
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u_int32_t sc_avgtsfdeltap;/* TDMA slot adjust (+) */
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u_int32_t sc_avgtsfdeltam;/* TDMA slot adjust (-) */
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uint16_t *sc_eepromdata; /* Local eeprom data, if AR9100 */
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int sc_txchainmask; /* currently configured TX chainmask */
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int sc_rxchainmask; /* currently configured RX chainmask */
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/*
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* Aggregation twiddles
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*
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* hwq_limit: how busy to keep the hardware queue - don't schedule
|
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* further packets to the hardware, regardless of the TID
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* tid_hwq_lo: how low the per-TID hwq count has to be before the
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* TID will be scheduled again
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* tid_hwq_hi: how many frames to queue to the HWQ before the TID
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* stops being scheduled.
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*/
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int sc_hwq_limit;
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int sc_tid_hwq_lo;
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int sc_tid_hwq_hi;
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/* DFS related state */
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void *sc_dfs; /* Used by an optional DFS module */
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int sc_dodfs; /* Whether to enable DFS rx filter bits */
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struct task sc_dfstask; /* DFS processing task */
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/* TX AMPDU handling */
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int (*sc_addba_request)(struct ieee80211_node *,
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struct ieee80211_tx_ampdu *, int, int, int);
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int (*sc_addba_response)(struct ieee80211_node *,
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struct ieee80211_tx_ampdu *, int, int, int);
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void (*sc_addba_stop)(struct ieee80211_node *,
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struct ieee80211_tx_ampdu *);
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void (*sc_addba_response_timeout)
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(struct ieee80211_node *,
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struct ieee80211_tx_ampdu *);
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void (*sc_bar_response)(struct ieee80211_node *ni,
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struct ieee80211_tx_ampdu *tap,
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int status);
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};
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#define ATH_LOCK_INIT(_sc) \
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mtx_init(&(_sc)->sc_mtx, device_get_nameunit((_sc)->sc_dev), \
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NULL, MTX_DEF | MTX_RECURSE)
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#define ATH_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_mtx)
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#define ATH_LOCK(_sc) mtx_lock(&(_sc)->sc_mtx)
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#define ATH_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_mtx)
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#define ATH_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_mtx, MA_OWNED)
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/*
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* The PCU lock is non-recursive and should be treated as a spinlock.
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* Although currently the interrupt code is run in netisr context and
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* doesn't require this, this may change in the future.
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* Please keep this in mind when protecting certain code paths
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* with the PCU lock.
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*
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* The PCU lock is used to serialise access to the PCU so things such
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* as TX, RX, state change (eg channel change), channel reset and updates
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* from interrupt context (eg kickpcu, txqactive bits) do not clash.
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*
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* Although the current single-thread taskqueue mechanism protects the
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* majority of these situations by simply serialising them, there are
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* a few others which occur at the same time. These include the TX path
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* (which only acquires ATH_LOCK when recycling buffers to the free list),
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* ath_set_channel, the channel scanning API and perhaps quite a bit more.
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*/
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#define ATH_PCU_LOCK_INIT(_sc) do {\
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snprintf((_sc)->sc_pcu_mtx_name, \
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sizeof((_sc)->sc_pcu_mtx_name), \
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"%s PCU lock", \
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device_get_nameunit((_sc)->sc_dev)); \
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mtx_init(&(_sc)->sc_pcu_mtx, (_sc)->sc_pcu_mtx_name, \
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NULL, MTX_DEF); \
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} while (0)
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#define ATH_PCU_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_pcu_mtx)
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#define ATH_PCU_LOCK(_sc) mtx_lock(&(_sc)->sc_pcu_mtx)
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#define ATH_PCU_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_pcu_mtx)
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#define ATH_PCU_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_pcu_mtx, \
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MA_OWNED)
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#define ATH_TXQ_SETUP(sc, i) ((sc)->sc_txqsetup & (1<<i))
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#define ATH_TXBUF_LOCK_INIT(_sc) do { \
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snprintf((_sc)->sc_txname, sizeof((_sc)->sc_txname), "%s_buf", \
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device_get_nameunit((_sc)->sc_dev)); \
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mtx_init(&(_sc)->sc_txbuflock, (_sc)->sc_txname, NULL, MTX_DEF); \
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} while (0)
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#define ATH_TXBUF_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_txbuflock)
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#define ATH_TXBUF_LOCK(_sc) mtx_lock(&(_sc)->sc_txbuflock)
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#define ATH_TXBUF_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_txbuflock)
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#define ATH_TXBUF_LOCK_ASSERT(_sc) \
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mtx_assert(&(_sc)->sc_txbuflock, MA_OWNED)
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int ath_attach(u_int16_t, struct ath_softc *);
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int ath_detach(struct ath_softc *);
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void ath_resume(struct ath_softc *);
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void ath_suspend(struct ath_softc *);
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void ath_shutdown(struct ath_softc *);
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void ath_intr(void *);
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/*
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* HAL definitions to comply with local coding convention.
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*/
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#define ath_hal_detach(_ah) \
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((*(_ah)->ah_detach)((_ah)))
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#define ath_hal_reset(_ah, _opmode, _chan, _outdoor, _pstatus) \
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((*(_ah)->ah_reset)((_ah), (_opmode), (_chan), (_outdoor), (_pstatus)))
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#define ath_hal_macversion(_ah) \
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(((_ah)->ah_macVersion << 4) | ((_ah)->ah_macRev))
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#define ath_hal_getratetable(_ah, _mode) \
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((*(_ah)->ah_getRateTable)((_ah), (_mode)))
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#define ath_hal_getmac(_ah, _mac) \
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((*(_ah)->ah_getMacAddress)((_ah), (_mac)))
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#define ath_hal_setmac(_ah, _mac) \
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((*(_ah)->ah_setMacAddress)((_ah), (_mac)))
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#define ath_hal_getbssidmask(_ah, _mask) \
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((*(_ah)->ah_getBssIdMask)((_ah), (_mask)))
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#define ath_hal_setbssidmask(_ah, _mask) \
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((*(_ah)->ah_setBssIdMask)((_ah), (_mask)))
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#define ath_hal_intrset(_ah, _mask) \
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((*(_ah)->ah_setInterrupts)((_ah), (_mask)))
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#define ath_hal_intrget(_ah) \
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((*(_ah)->ah_getInterrupts)((_ah)))
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#define ath_hal_intrpend(_ah) \
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((*(_ah)->ah_isInterruptPending)((_ah)))
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#define ath_hal_getisr(_ah, _pmask) \
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((*(_ah)->ah_getPendingInterrupts)((_ah), (_pmask)))
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#define ath_hal_updatetxtriglevel(_ah, _inc) \
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((*(_ah)->ah_updateTxTrigLevel)((_ah), (_inc)))
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#define ath_hal_setpower(_ah, _mode) \
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((*(_ah)->ah_setPowerMode)((_ah), (_mode), AH_TRUE))
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#define ath_hal_keycachesize(_ah) \
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((*(_ah)->ah_getKeyCacheSize)((_ah)))
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#define ath_hal_keyreset(_ah, _ix) \
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((*(_ah)->ah_resetKeyCacheEntry)((_ah), (_ix)))
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#define ath_hal_keyset(_ah, _ix, _pk, _mac) \
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((*(_ah)->ah_setKeyCacheEntry)((_ah), (_ix), (_pk), (_mac), AH_FALSE))
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#define ath_hal_keyisvalid(_ah, _ix) \
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(((*(_ah)->ah_isKeyCacheEntryValid)((_ah), (_ix))))
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#define ath_hal_keysetmac(_ah, _ix, _mac) \
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((*(_ah)->ah_setKeyCacheEntryMac)((_ah), (_ix), (_mac)))
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#define ath_hal_getrxfilter(_ah) \
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((*(_ah)->ah_getRxFilter)((_ah)))
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#define ath_hal_setrxfilter(_ah, _filter) \
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((*(_ah)->ah_setRxFilter)((_ah), (_filter)))
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#define ath_hal_setmcastfilter(_ah, _mfilt0, _mfilt1) \
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((*(_ah)->ah_setMulticastFilter)((_ah), (_mfilt0), (_mfilt1)))
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#define ath_hal_waitforbeacon(_ah, _bf) \
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((*(_ah)->ah_waitForBeaconDone)((_ah), (_bf)->bf_daddr))
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#define ath_hal_putrxbuf(_ah, _bufaddr) \
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((*(_ah)->ah_setRxDP)((_ah), (_bufaddr)))
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/* NB: common across all chips */
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#define AR_TSF_L32 0x804c /* MAC local clock lower 32 bits */
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#define ath_hal_gettsf32(_ah) \
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OS_REG_READ(_ah, AR_TSF_L32)
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#define ath_hal_gettsf64(_ah) \
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((*(_ah)->ah_getTsf64)((_ah)))
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#define ath_hal_resettsf(_ah) \
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((*(_ah)->ah_resetTsf)((_ah)))
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#define ath_hal_rxena(_ah) \
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((*(_ah)->ah_enableReceive)((_ah)))
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#define ath_hal_puttxbuf(_ah, _q, _bufaddr) \
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((*(_ah)->ah_setTxDP)((_ah), (_q), (_bufaddr)))
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#define ath_hal_gettxbuf(_ah, _q) \
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((*(_ah)->ah_getTxDP)((_ah), (_q)))
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#define ath_hal_numtxpending(_ah, _q) \
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((*(_ah)->ah_numTxPending)((_ah), (_q)))
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#define ath_hal_getrxbuf(_ah) \
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((*(_ah)->ah_getRxDP)((_ah)))
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#define ath_hal_txstart(_ah, _q) \
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((*(_ah)->ah_startTxDma)((_ah), (_q)))
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#define ath_hal_setchannel(_ah, _chan) \
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((*(_ah)->ah_setChannel)((_ah), (_chan)))
|
|
#define ath_hal_calibrate(_ah, _chan, _iqcal) \
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((*(_ah)->ah_perCalibration)((_ah), (_chan), (_iqcal)))
|
|
#define ath_hal_calibrateN(_ah, _chan, _lcal, _isdone) \
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((*(_ah)->ah_perCalibrationN)((_ah), (_chan), 0x1, (_lcal), (_isdone)))
|
|
#define ath_hal_calreset(_ah, _chan) \
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((*(_ah)->ah_resetCalValid)((_ah), (_chan)))
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|
#define ath_hal_setledstate(_ah, _state) \
|
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((*(_ah)->ah_setLedState)((_ah), (_state)))
|
|
#define ath_hal_beaconinit(_ah, _nextb, _bperiod) \
|
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((*(_ah)->ah_beaconInit)((_ah), (_nextb), (_bperiod)))
|
|
#define ath_hal_beaconreset(_ah) \
|
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((*(_ah)->ah_resetStationBeaconTimers)((_ah)))
|
|
#define ath_hal_beaconsettimers(_ah, _bt) \
|
|
((*(_ah)->ah_setBeaconTimers)((_ah), (_bt)))
|
|
#define ath_hal_beacontimers(_ah, _bs) \
|
|
((*(_ah)->ah_setStationBeaconTimers)((_ah), (_bs)))
|
|
#define ath_hal_getnexttbtt(_ah) \
|
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((*(_ah)->ah_getNextTBTT)((_ah)))
|
|
#define ath_hal_setassocid(_ah, _bss, _associd) \
|
|
((*(_ah)->ah_writeAssocid)((_ah), (_bss), (_associd)))
|
|
#define ath_hal_phydisable(_ah) \
|
|
((*(_ah)->ah_phyDisable)((_ah)))
|
|
#define ath_hal_setopmode(_ah) \
|
|
((*(_ah)->ah_setPCUConfig)((_ah)))
|
|
#define ath_hal_stoptxdma(_ah, _qnum) \
|
|
((*(_ah)->ah_stopTxDma)((_ah), (_qnum)))
|
|
#define ath_hal_stoppcurecv(_ah) \
|
|
((*(_ah)->ah_stopPcuReceive)((_ah)))
|
|
#define ath_hal_startpcurecv(_ah) \
|
|
((*(_ah)->ah_startPcuReceive)((_ah)))
|
|
#define ath_hal_stopdmarecv(_ah) \
|
|
((*(_ah)->ah_stopDmaReceive)((_ah)))
|
|
#define ath_hal_getdiagstate(_ah, _id, _indata, _insize, _outdata, _outsize) \
|
|
((*(_ah)->ah_getDiagState)((_ah), (_id), \
|
|
(_indata), (_insize), (_outdata), (_outsize)))
|
|
#define ath_hal_getfatalstate(_ah, _outdata, _outsize) \
|
|
ath_hal_getdiagstate(_ah, 29, NULL, 0, (_outdata), _outsize)
|
|
#define ath_hal_setuptxqueue(_ah, _type, _irq) \
|
|
((*(_ah)->ah_setupTxQueue)((_ah), (_type), (_irq)))
|
|
#define ath_hal_resettxqueue(_ah, _q) \
|
|
((*(_ah)->ah_resetTxQueue)((_ah), (_q)))
|
|
#define ath_hal_releasetxqueue(_ah, _q) \
|
|
((*(_ah)->ah_releaseTxQueue)((_ah), (_q)))
|
|
#define ath_hal_gettxqueueprops(_ah, _q, _qi) \
|
|
((*(_ah)->ah_getTxQueueProps)((_ah), (_q), (_qi)))
|
|
#define ath_hal_settxqueueprops(_ah, _q, _qi) \
|
|
((*(_ah)->ah_setTxQueueProps)((_ah), (_q), (_qi)))
|
|
/* NB: common across all chips */
|
|
#define AR_Q_TXE 0x0840 /* MAC Transmit Queue enable */
|
|
#define ath_hal_txqenabled(_ah, _qnum) \
|
|
(OS_REG_READ(_ah, AR_Q_TXE) & (1<<(_qnum)))
|
|
#define ath_hal_getrfgain(_ah) \
|
|
((*(_ah)->ah_getRfGain)((_ah)))
|
|
#define ath_hal_getdefantenna(_ah) \
|
|
((*(_ah)->ah_getDefAntenna)((_ah)))
|
|
#define ath_hal_setdefantenna(_ah, _ant) \
|
|
((*(_ah)->ah_setDefAntenna)((_ah), (_ant)))
|
|
#define ath_hal_rxmonitor(_ah, _arg, _chan) \
|
|
((*(_ah)->ah_rxMonitor)((_ah), (_arg), (_chan)))
|
|
#define ath_hal_ani_poll(_ah, _chan) \
|
|
((*(_ah)->ah_aniPoll)((_ah), (_chan)))
|
|
#define ath_hal_mibevent(_ah, _stats) \
|
|
((*(_ah)->ah_procMibEvent)((_ah), (_stats)))
|
|
#define ath_hal_setslottime(_ah, _us) \
|
|
((*(_ah)->ah_setSlotTime)((_ah), (_us)))
|
|
#define ath_hal_getslottime(_ah) \
|
|
((*(_ah)->ah_getSlotTime)((_ah)))
|
|
#define ath_hal_setacktimeout(_ah, _us) \
|
|
((*(_ah)->ah_setAckTimeout)((_ah), (_us)))
|
|
#define ath_hal_getacktimeout(_ah) \
|
|
((*(_ah)->ah_getAckTimeout)((_ah)))
|
|
#define ath_hal_setctstimeout(_ah, _us) \
|
|
((*(_ah)->ah_setCTSTimeout)((_ah), (_us)))
|
|
#define ath_hal_getctstimeout(_ah) \
|
|
((*(_ah)->ah_getCTSTimeout)((_ah)))
|
|
#define ath_hal_getcapability(_ah, _cap, _param, _result) \
|
|
((*(_ah)->ah_getCapability)((_ah), (_cap), (_param), (_result)))
|
|
#define ath_hal_setcapability(_ah, _cap, _param, _v, _status) \
|
|
((*(_ah)->ah_setCapability)((_ah), (_cap), (_param), (_v), (_status)))
|
|
#define ath_hal_ciphersupported(_ah, _cipher) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_CIPHER, _cipher, NULL) == HAL_OK)
|
|
#define ath_hal_getregdomain(_ah, _prd) \
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(ath_hal_getcapability(_ah, HAL_CAP_REG_DMN, 0, (_prd)) == HAL_OK)
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#define ath_hal_setregdomain(_ah, _rd) \
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ath_hal_setcapability(_ah, HAL_CAP_REG_DMN, 0, _rd, NULL)
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#define ath_hal_getcountrycode(_ah, _pcc) \
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(*(_pcc) = (_ah)->ah_countryCode)
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#define ath_hal_gettkipmic(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_TKIP_MIC, 1, NULL) == HAL_OK)
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#define ath_hal_settkipmic(_ah, _v) \
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ath_hal_setcapability(_ah, HAL_CAP_TKIP_MIC, 1, _v, NULL)
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#define ath_hal_hastkipsplit(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_TKIP_SPLIT, 0, NULL) == HAL_OK)
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#define ath_hal_gettkipsplit(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_TKIP_SPLIT, 1, NULL) == HAL_OK)
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#define ath_hal_settkipsplit(_ah, _v) \
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ath_hal_setcapability(_ah, HAL_CAP_TKIP_SPLIT, 1, _v, NULL)
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#define ath_hal_haswmetkipmic(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_WME_TKIPMIC, 0, NULL) == HAL_OK)
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#define ath_hal_hwphycounters(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_PHYCOUNTERS, 0, NULL) == HAL_OK)
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#define ath_hal_hasdiversity(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_DIVERSITY, 0, NULL) == HAL_OK)
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#define ath_hal_getdiversity(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_DIVERSITY, 1, NULL) == HAL_OK)
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#define ath_hal_setdiversity(_ah, _v) \
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ath_hal_setcapability(_ah, HAL_CAP_DIVERSITY, 1, _v, NULL)
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#define ath_hal_getantennaswitch(_ah) \
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((*(_ah)->ah_getAntennaSwitch)((_ah)))
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#define ath_hal_setantennaswitch(_ah, _v) \
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((*(_ah)->ah_setAntennaSwitch)((_ah), (_v)))
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#define ath_hal_getdiag(_ah, _pv) \
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(ath_hal_getcapability(_ah, HAL_CAP_DIAG, 0, _pv) == HAL_OK)
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#define ath_hal_setdiag(_ah, _v) \
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ath_hal_setcapability(_ah, HAL_CAP_DIAG, 0, _v, NULL)
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#define ath_hal_getnumtxqueues(_ah, _pv) \
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(ath_hal_getcapability(_ah, HAL_CAP_NUM_TXQUEUES, 0, _pv) == HAL_OK)
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#define ath_hal_hasveol(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_VEOL, 0, NULL) == HAL_OK)
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#define ath_hal_hastxpowlimit(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_TXPOW, 0, NULL) == HAL_OK)
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#define ath_hal_settxpowlimit(_ah, _pow) \
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((*(_ah)->ah_setTxPowerLimit)((_ah), (_pow)))
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#define ath_hal_gettxpowlimit(_ah, _ppow) \
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(ath_hal_getcapability(_ah, HAL_CAP_TXPOW, 1, _ppow) == HAL_OK)
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#define ath_hal_getmaxtxpow(_ah, _ppow) \
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(ath_hal_getcapability(_ah, HAL_CAP_TXPOW, 2, _ppow) == HAL_OK)
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#define ath_hal_gettpscale(_ah, _scale) \
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(ath_hal_getcapability(_ah, HAL_CAP_TXPOW, 3, _scale) == HAL_OK)
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#define ath_hal_settpscale(_ah, _v) \
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ath_hal_setcapability(_ah, HAL_CAP_TXPOW, 3, _v, NULL)
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#define ath_hal_hastpc(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_TPC, 0, NULL) == HAL_OK)
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#define ath_hal_gettpc(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_TPC, 1, NULL) == HAL_OK)
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#define ath_hal_settpc(_ah, _v) \
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ath_hal_setcapability(_ah, HAL_CAP_TPC, 1, _v, NULL)
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#define ath_hal_hasbursting(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_BURST, 0, NULL) == HAL_OK)
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#define ath_hal_setmcastkeysearch(_ah, _v) \
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ath_hal_setcapability(_ah, HAL_CAP_MCAST_KEYSRCH, 0, _v, NULL)
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#define ath_hal_hasmcastkeysearch(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_MCAST_KEYSRCH, 0, NULL) == HAL_OK)
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#define ath_hal_getmcastkeysearch(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_MCAST_KEYSRCH, 1, NULL) == HAL_OK)
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#define ath_hal_hasfastframes(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_FASTFRAME, 0, NULL) == HAL_OK)
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#define ath_hal_hasbssidmask(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_BSSIDMASK, 0, NULL) == HAL_OK)
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#define ath_hal_hasbssidmatch(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_BSSIDMATCH, 0, NULL) == HAL_OK)
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#define ath_hal_hastsfadjust(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_TSF_ADJUST, 0, NULL) == HAL_OK)
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#define ath_hal_gettsfadjust(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_TSF_ADJUST, 1, NULL) == HAL_OK)
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#define ath_hal_settsfadjust(_ah, _onoff) \
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ath_hal_setcapability(_ah, HAL_CAP_TSF_ADJUST, 1, _onoff, NULL)
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#define ath_hal_hasrfsilent(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_RFSILENT, 0, NULL) == HAL_OK)
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#define ath_hal_getrfkill(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_RFSILENT, 1, NULL) == HAL_OK)
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#define ath_hal_setrfkill(_ah, _onoff) \
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ath_hal_setcapability(_ah, HAL_CAP_RFSILENT, 1, _onoff, NULL)
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#define ath_hal_getrfsilent(_ah, _prfsilent) \
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(ath_hal_getcapability(_ah, HAL_CAP_RFSILENT, 2, _prfsilent) == HAL_OK)
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#define ath_hal_setrfsilent(_ah, _rfsilent) \
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ath_hal_setcapability(_ah, HAL_CAP_RFSILENT, 2, _rfsilent, NULL)
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#define ath_hal_gettpack(_ah, _ptpack) \
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(ath_hal_getcapability(_ah, HAL_CAP_TPC_ACK, 0, _ptpack) == HAL_OK)
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#define ath_hal_settpack(_ah, _tpack) \
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ath_hal_setcapability(_ah, HAL_CAP_TPC_ACK, 0, _tpack, NULL)
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#define ath_hal_gettpcts(_ah, _ptpcts) \
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(ath_hal_getcapability(_ah, HAL_CAP_TPC_CTS, 0, _ptpcts) == HAL_OK)
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#define ath_hal_settpcts(_ah, _tpcts) \
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ath_hal_setcapability(_ah, HAL_CAP_TPC_CTS, 0, _tpcts, NULL)
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#define ath_hal_hasintmit(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_INTMIT, HAL_CAP_INTMIT_PRESENT, NULL) == HAL_OK)
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#define ath_hal_getintmit(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_INTMIT, HAL_CAP_INTMIT_ENABLE, NULL) == HAL_OK)
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#define ath_hal_setintmit(_ah, _v) \
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ath_hal_setcapability(_ah, HAL_CAP_INTMIT, HAL_CAP_INTMIT_ENABLE, _v, NULL)
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#define ath_hal_getchannoise(_ah, _c) \
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((*(_ah)->ah_getChanNoise)((_ah), (_c)))
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#define ath_hal_getrxchainmask(_ah, _prxchainmask) \
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(ath_hal_getcapability(_ah, HAL_CAP_RX_CHAINMASK, 0, _prxchainmask))
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#define ath_hal_gettxchainmask(_ah, _ptxchainmask) \
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(ath_hal_getcapability(_ah, HAL_CAP_TX_CHAINMASK, 0, _ptxchainmask))
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#define ath_hal_split4ktrans(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_SPLIT_4KB_TRANS, 0, NULL) == HAL_OK)
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#define ath_hal_self_linked_final_rxdesc(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_RXDESC_SELFLINK, 0, NULL) == HAL_OK)
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#define ath_hal_gtxto_supported(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_GTXTO, 0, NULL) == HAL_OK)
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#define ath_hal_has_long_rxdesc_tsf(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_LONG_RXDESC_TSF, 0, NULL) == HAL_OK)
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|
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#define ath_hal_setuprxdesc(_ah, _ds, _size, _intreq) \
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((*(_ah)->ah_setupRxDesc)((_ah), (_ds), (_size), (_intreq)))
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#define ath_hal_rxprocdesc(_ah, _ds, _dspa, _dsnext, _rs) \
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((*(_ah)->ah_procRxDesc)((_ah), (_ds), (_dspa), (_dsnext), 0, (_rs)))
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#define ath_hal_setuptxdesc(_ah, _ds, _plen, _hlen, _atype, _txpow, \
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_txr0, _txtr0, _keyix, _ant, _flags, \
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_rtsrate, _rtsdura) \
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((*(_ah)->ah_setupTxDesc)((_ah), (_ds), (_plen), (_hlen), (_atype), \
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|
(_txpow), (_txr0), (_txtr0), (_keyix), (_ant), \
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|
(_flags), (_rtsrate), (_rtsdura), 0, 0, 0))
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#define ath_hal_setupxtxdesc(_ah, _ds, \
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|
_txr1, _txtr1, _txr2, _txtr2, _txr3, _txtr3) \
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((*(_ah)->ah_setupXTxDesc)((_ah), (_ds), \
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|
(_txr1), (_txtr1), (_txr2), (_txtr2), (_txr3), (_txtr3)))
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|
#define ath_hal_filltxdesc(_ah, _ds, _l, _first, _last, _ds0) \
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((*(_ah)->ah_fillTxDesc)((_ah), (_ds), (_l), (_first), (_last), (_ds0)))
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|
#define ath_hal_txprocdesc(_ah, _ds, _ts) \
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((*(_ah)->ah_procTxDesc)((_ah), (_ds), (_ts)))
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|
#define ath_hal_gettxintrtxqs(_ah, _txqs) \
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((*(_ah)->ah_getTxIntrQueue)((_ah), (_txqs)))
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|
#define ath_hal_gettxcompletionrates(_ah, _ds, _rates, _tries) \
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((*(_ah)->ah_getTxCompletionRates)((_ah), (_ds), (_rates), (_tries)))
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|
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|
#define ath_hal_setupfirsttxdesc(_ah, _ds, _aggrlen, _flags, _txpower, \
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_txr0, _txtr0, _antm, _rcr, _rcd) \
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|
((*(_ah)->ah_setupFirstTxDesc)((_ah), (_ds), (_aggrlen), (_flags), \
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|
(_txpower), (_txr0), (_txtr0), (_antm), (_rcr), (_rcd)))
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|
#define ath_hal_chaintxdesc(_ah, _ds, _pktlen, _hdrlen, _type, _keyix, \
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|
_cipher, _delims, _seglen, _first, _last) \
|
|
((*(_ah)->ah_chainTxDesc)((_ah), (_ds), (_pktlen), (_hdrlen), \
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|
(_type), (_keyix), (_cipher), (_delims), (_seglen), \
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|
(_first), (_last)))
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|
#define ath_hal_setuplasttxdesc(_ah, _ds, _ds0) \
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|
((*(_ah)->ah_setupLastTxDesc)((_ah), (_ds), (_ds0)))
|
|
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|
#define ath_hal_set11nratescenario(_ah, _ds, _dur, _rt, _series, _ns, _flags) \
|
|
((*(_ah)->ah_set11nRateScenario)((_ah), (_ds), (_dur), (_rt), \
|
|
(_series), (_ns), (_flags)))
|
|
|
|
#define ath_hal_set11n_aggr_first(_ah, _ds, _len, _num) \
|
|
((*(_ah)->ah_set11nAggrFirst)((_ah), (_ds), (_len), (_num)))
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|
#define ath_hal_set11naggrmiddle(_ah, _ds, _num) \
|
|
((*(_ah)->ah_set11nAggrMiddle)((_ah), (_ds), (_num)))
|
|
#define ath_hal_set11n_aggr_last(_ah, _ds) \
|
|
((*(_ah)->ah_set11nAggrLast)((_ah), (_ds)))
|
|
|
|
#define ath_hal_set11nburstduration(_ah, _ds, _dur) \
|
|
((*(_ah)->ah_set11nBurstDuration)((_ah), (_ds), (_dur)))
|
|
#define ath_hal_clr11n_aggr(_ah, _ds) \
|
|
((*(_ah)->ah_clr11nAggr)((_ah), (_ds)))
|
|
|
|
/*
|
|
* This is badly-named; you need to set the correct parameters
|
|
* to begin to receive useful radar events; and even then
|
|
* it doesn't "enable" DFS. See the ath_dfs/null/ module for
|
|
* more information.
|
|
*/
|
|
#define ath_hal_enabledfs(_ah, _param) \
|
|
((*(_ah)->ah_enableDfs)((_ah), (_param)))
|
|
#define ath_hal_getdfsthresh(_ah, _param) \
|
|
((*(_ah)->ah_getDfsThresh)((_ah), (_param)))
|
|
#define ath_hal_procradarevent(_ah, _rxs, _fulltsf, _buf, _event) \
|
|
((*(_ah)->ah_procRadarEvent)((_ah), (_rxs), (_fulltsf), (_buf), (_event)))
|
|
#define ath_hal_is_fast_clock_enabled(_ah) \
|
|
((*(_ah)->ah_isFastClockEnabled)((_ah)))
|
|
|
|
#define ath_hal_gpioCfgOutput(_ah, _gpio, _type) \
|
|
((*(_ah)->ah_gpioCfgOutput)((_ah), (_gpio), (_type)))
|
|
#define ath_hal_gpioset(_ah, _gpio, _b) \
|
|
((*(_ah)->ah_gpioSet)((_ah), (_gpio), (_b)))
|
|
#define ath_hal_gpioget(_ah, _gpio) \
|
|
((*(_ah)->ah_gpioGet)((_ah), (_gpio)))
|
|
#define ath_hal_gpiosetintr(_ah, _gpio, _b) \
|
|
((*(_ah)->ah_gpioSetIntr)((_ah), (_gpio), (_b)))
|
|
|
|
#define ath_hal_radar_wait(_ah, _chan) \
|
|
((*(_ah)->ah_radarWait)((_ah), (_chan)))
|
|
|
|
#endif /* _DEV_ATH_ATHVAR_H */
|