cce6344402
My initial rate control code was .. suboptimal. I wanted to at least get MCS rates sent, but it didn't do anywhere near enough to handle low signal level links or remotely keep accurate statistics. So, 8 years later, here's what I should've done back then. * Firstly, I wasn't at all tracking packet sizes other than the two buckets (250 and 1600 bytes.) So, extend it to include 4096, 8192, 16384, 32768 and 65536. I may go add 2048 at some point if I find it's useful. This is important for a few reasons. First, when forming A-MPDU or AMSDU aggregates the frame sizes are larger, and thus the TX time calculation is woefully, increasingly wrong. Secondly, the behaviour of 802.11 channels isn't some fixed thing, both due to channel conditions and radios themselves. Notably, there was some observations done a few years ago on 11n chipsets which noticed longer aggregates showed an increase in failed A-MPDU sub-frame reception as you got further along in the transmit time. It could be due to a variety of things - transmitter linearity, channel conditions changing, frequency/phase drift, etc - but the observation was to potentially form shorter aggregates to improve BER. * .. and then modify the ath TX path to report the length of the aggregate sent, so as the statistics kept would line up with the correct bucket. * Then on the rate control look-up side - i was also only using the first frame length for an A-MPDU rate control lookup which isn't good enough here. So, add a new method that walks the TID software queue for that node to find out what the likely length of data available is. It isn't ALL of the data in the queue because we'll only ever send enough data to fit inside the block-ack window, so limit how many bytes we return to roughly what ath_tx_form_aggr() would do. * .. and cache that in the first ath_buf in the aggregate so it and the eventual AMPDU length can be returned to the rate control code. * THEN, modify the rate control code to look at them both when deciding which bucket to attribute the sent frame on. I'm erring on the side of caution and using the size bucket that the lookup is based on. Ok, so now the rate lookups and statistics are "more correct". However, MCS rates are not the same as 11abg rates in that they're not a monotonically incrementing set of faster rates and you can't assume that just because a given MCS rate fails, the next higher one wouldn't work better or be a lower average tx time. So, I had to do a bunch of surgery to the best rate and sample rate math. This is the bit that's a WIP. * First, simplify the statistics updates (update_stats()) to do a single pass on all rates. * Next, make sure that each rate average tx time is updated based on /its/ failure/success. Eg if you sent a frame with { MCS15, MCS12, MCS8 } and MCS8 succeeded, MCS15 and MCS 12 would have their average tx time updated for /their/ part of the transmission, not the whole transmission. * Next, EWMA wasn't being fully calculated based on the /failures/ in each of the rate attempts. So, if MCS15, MCS12 failed above but MCS8 didn't, then ensure that the statistics noted that /all/ subframes failed at those rates, rather than the eventual set of transmitted/sent frames. This ensures the EWMA /and/ average TX time are updated correctly. * When picking a sample rate and initial rate, probe rates aroud the current MCS but limit it to MCS0..7 /for all spatial streams/, rather than doing crazy things like hitting MCS7 and then probing MCS8 - MCS8 is basically MCS0 but two spatial streams. It's a /lot/ slower than MCS7. Also, the reverse is true - if we're at MCS8 then don't probe MCS7 as part of it, it's not likely to succeed. * Fix bugs in pick_best_rate() where I was /immediately/ choosing the highest MCS rate if there weren't any frames yet transmitted. I was defaulting to 25% EWMA and .. then each comparison would accept the higher rate. Just skip those; sampling will fill in the details. So, this seems to work a lot better. It's not perfect; I'm still seeing a lot of instability around higher MCS rates because there are bursts of loss/retransmissions that aren't /too/ bad. But i'll keep iterating over this and tidying up my hacks. Ok, so why this still something I'm poking at? rather than porting minstrel_ht? ath_rate_sample tries to minimise airtime, not maximise throughput. I have extended it with an EWMA based on sub-frame success/failures - high MCS rates that have partially successful receptions still show super short average frame times, but a /lot/ of retransmits have to happen for that to work. So for MCS rates I also track this EWMA and ensure that the rates I'm choosing don't have super crappy packet failures. I don't mind not getting lower peak throughput versus minstrel_ht; instead I want to see if I can make "minimise airtime" work well. Tested: * AR9380, STA mode * AR9344, STA mode * AR9580, STA/AP mode
1542 lines
59 KiB
C
1542 lines
59 KiB
C
/*-
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* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
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*
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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 <machine/atomic.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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#ifdef ATH_DEBUG_ALQ
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#include <dev/ath/if_ath_alq.h>
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#endif
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#define ATH_TIMEOUT 1000
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/*
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* There is a separate TX ath_buf pool for management frames.
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* This ensures that management frames such as probe responses
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* and BAR frames can be transmitted during periods of high
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* TX activity.
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*/
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#define ATH_MGMT_TXBUF 32
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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 following bits can be set during the PCI (and perhaps non-PCI
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* later) device probe path.
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*
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* It controls some of the driver and HAL behaviour.
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*/
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#define ATH_PCI_CUS198 0x0001
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#define ATH_PCI_CUS230 0x0002
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#define ATH_PCI_CUS217 0x0004
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#define ATH_PCI_CUS252 0x0008
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#define ATH_PCI_WOW 0x0010
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#define ATH_PCI_BT_ANT_DIV 0x0020
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#define ATH_PCI_D3_L1_WAR 0x0040
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#define ATH_PCI_AR9565_1ANT 0x0080
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#define ATH_PCI_AR9565_2ANT 0x0100
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#define ATH_PCI_NO_PLL_PWRSAVE 0x0200
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#define ATH_PCI_KILLER 0x0400
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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) tid_q; /* pending buffers */
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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 traffic */
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int hwq_depth; /* how many buffers are on HW */
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u_int axq_depth; /* SW queue depth */
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struct {
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TAILQ_HEAD(,ath_buf) tid_q; /* filtered queue */
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u_int axq_depth; /* SW queue depth */
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} filtq;
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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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* These are flags - perhaps later collapse
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* down to a single uint32_t ?
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*/
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int addba_tx_pending; /* TX ADDBA pending */
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int bar_wait; /* waiting for BAR */
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int bar_tx; /* BAR TXed */
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int isfiltered; /* is this node currently filtered */
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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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uint32_t an_is_powersave; /* node is sleeping */
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uint32_t an_stack_psq; /* net80211 psq isn't empty */
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uint32_t an_tim_set; /* TIM has been set */
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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 rate control state */
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uint32_t an_swq_depth; /* how many SWQ packets for this
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node */
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int clrdmask; /* has clrdmask been set */
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uint32_t an_leak_count; /* How many frames to leak during pause */
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HAL_NODE_STATS an_node_stats; /* HAL node stats for this node */
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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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typedef enum {
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ATH_BUFTYPE_NORMAL = 0,
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ATH_BUFTYPE_MGMT = 1,
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} ath_buf_type_t;
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struct ath_buf {
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TAILQ_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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HAL_STATUS bf_rxstatus;
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uint16_t bf_flags; /* status flags (below) */
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uint16_t bf_descid; /* 16 bit descriptor ID */
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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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uint32_t bf_nextfraglen; /* length of next fragment */
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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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uint16_t bfs_seqno; /* sequence number of this packet */
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uint16_t bfs_ndelim; /* number of delims for padding */
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uint8_t bfs_retries; /* retry count */
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uint8_t bfs_tid; /* packet TID (or TID_MAX for no QoS) */
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uint8_t bfs_nframes; /* number of frames in aggregate */
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uint8_t bfs_pri; /* packet AC priority */
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uint8_t bfs_tx_queue; /* destination hardware TX queue */
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u_int32_t bfs_aggr:1, /* part of aggregate? */
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bfs_aggrburst:1, /* part of aggregate burst? */
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bfs_isretried:1, /* retried frame? */
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bfs_dobaw:1, /* actually check against BAW? */
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bfs_addedbaw:1, /* has been added to the BAW */
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bfs_shpream:1, /* use short preamble */
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bfs_istxfrag:1, /* is fragmented */
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bfs_ismrr:1, /* do multi-rate TX retry */
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bfs_doprot:1, /* do RTS/CTS based protection */
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bfs_doratelookup:1; /* do rate lookup before each TX */
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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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/* Make this an 8 bit value? */
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HAL_PKT_TYPE bfs_atype; /* packet type */
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uint32_t bfs_pktlen; /* length of this packet */
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uint16_t bfs_hdrlen; /* length of this packet header */
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uint16_t bfs_al; /* length of aggregate */
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uint16_t bfs_txflags; /* HAL (tx) descriptor flags */
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uint8_t bfs_txrate0; /* first TX rate */
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uint8_t bfs_try0; /* first try count */
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uint16_t bfs_txpower; /* tx power */
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uint8_t bfs_ctsrate0; /* Non-zero - use this as ctsrate */
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uint8_t bfs_ctsrate; /* CTS rate */
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/* 16 bit? */
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int32_t bfs_keyix; /* crypto key index */
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int32_t bfs_txantenna; /* TX antenna config */
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/* Make this an 8 bit value? */
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enum ieee80211_protmode bfs_protmode;
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/* 16 bit? */
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uint32_t bfs_ctsduration; /* CTS duration (pre-11n NICs) */
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int32_t bfs_rc_maxpktlen; /* max packet length/bucket from ratectrl or -1 */
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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 TAILQ_HEAD(ath_bufhead_s, ath_buf) ath_bufhead;
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#define ATH_BUF_MGMT 0x00000001 /* (tx) desc is a mgmt desc */
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#define ATH_BUF_BUSY 0x00000002 /* (tx) desc owned by h/w */
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#define ATH_BUF_FIFOEND 0x00000004
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#define ATH_BUF_FIFOPTR 0x00000008
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#define ATH_BUF_TOA_PROBE 0x00000010 /* ToD/ToA exchange probe */
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#define ATH_BUF_FLAGS_CLONE (ATH_BUF_MGMT | ATH_BUF_TOA_PROBE)
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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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int dd_descsize; /* size of single descriptor */
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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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#define ATH_TXQ_PUTRUNNING 0x0002 /* ath_hal_puttxbuf has been called */
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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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TAILQ_HEAD(axq_q_s, ath_buf) axq_q; /* transmit queue */
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struct mtx axq_lock; /* lock on q and link */
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/*
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* This is the FIFO staging buffer when doing EDMA.
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*
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* For legacy chips, we just push the head pointer to
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* the hardware and we ignore this list.
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*
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* For EDMA, the staging buffer is treated as normal;
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* when it's time to push a list of frames to the hardware
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* we move that list here and we stamp buffers with
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* flags to identify the beginning/end of that particular
|
|
* FIFO entry.
|
|
*/
|
|
struct {
|
|
TAILQ_HEAD(axq_q_f_s, ath_buf) axq_q;
|
|
u_int axq_depth; /* how many frames (1 per legacy, 1 per A-MPDU list) are in the FIFO queue */
|
|
} fifo;
|
|
u_int axq_fifo_depth; /* how many FIFO slots are active */
|
|
|
|
/*
|
|
* XXX the holdingbf field is protected by the TXBUF lock
|
|
* for now, NOT the TXQ lock.
|
|
*
|
|
* Architecturally, it would likely be better to move
|
|
* the holdingbf field to a separate array in ath_softc
|
|
* just to highlight that it's not protected by the normal
|
|
* TX path lock.
|
|
*/
|
|
struct ath_buf *axq_holdingbf; /* holding TX buffer */
|
|
char axq_name[12]; /* e.g. "ath0_txq4" */
|
|
|
|
/* Per-TID traffic queue for software -> hardware TX */
|
|
/*
|
|
* This is protected by the general TX path lock, not (for now)
|
|
* by the TXQ lock.
|
|
*/
|
|
TAILQ_HEAD(axq_t_s,ath_tid) axq_tidq;
|
|
};
|
|
|
|
#define ATH_TXQ_LOCK_INIT(_sc, _tq) do { \
|
|
snprintf((_tq)->axq_name, sizeof((_tq)->axq_name), "%s_txq%u", \
|
|
device_get_nameunit((_sc)->sc_dev), (_tq)->axq_qnum); \
|
|
mtx_init(&(_tq)->axq_lock, (_tq)->axq_name, NULL, MTX_DEF); \
|
|
} while (0)
|
|
#define ATH_TXQ_LOCK_DESTROY(_tq) mtx_destroy(&(_tq)->axq_lock)
|
|
#define ATH_TXQ_LOCK(_tq) mtx_lock(&(_tq)->axq_lock)
|
|
#define ATH_TXQ_UNLOCK(_tq) mtx_unlock(&(_tq)->axq_lock)
|
|
#define ATH_TXQ_LOCK_ASSERT(_tq) mtx_assert(&(_tq)->axq_lock, MA_OWNED)
|
|
#define ATH_TXQ_UNLOCK_ASSERT(_tq) mtx_assert(&(_tq)->axq_lock, \
|
|
MA_NOTOWNED)
|
|
|
|
|
|
#define ATH_NODE_LOCK(_an) mtx_lock(&(_an)->an_mtx)
|
|
#define ATH_NODE_UNLOCK(_an) mtx_unlock(&(_an)->an_mtx)
|
|
#define ATH_NODE_LOCK_ASSERT(_an) mtx_assert(&(_an)->an_mtx, MA_OWNED)
|
|
#define ATH_NODE_UNLOCK_ASSERT(_an) mtx_assert(&(_an)->an_mtx, \
|
|
MA_NOTOWNED)
|
|
|
|
/*
|
|
* These are for the hardware queue.
|
|
*/
|
|
#define ATH_TXQ_INSERT_HEAD(_tq, _elm, _field) do { \
|
|
TAILQ_INSERT_HEAD(&(_tq)->axq_q, (_elm), _field); \
|
|
(_tq)->axq_depth++; \
|
|
} while (0)
|
|
#define ATH_TXQ_INSERT_TAIL(_tq, _elm, _field) do { \
|
|
TAILQ_INSERT_TAIL(&(_tq)->axq_q, (_elm), _field); \
|
|
(_tq)->axq_depth++; \
|
|
} while (0)
|
|
#define ATH_TXQ_REMOVE(_tq, _elm, _field) do { \
|
|
TAILQ_REMOVE(&(_tq)->axq_q, _elm, _field); \
|
|
(_tq)->axq_depth--; \
|
|
} while (0)
|
|
#define ATH_TXQ_FIRST(_tq) TAILQ_FIRST(&(_tq)->axq_q)
|
|
#define ATH_TXQ_LAST(_tq, _field) TAILQ_LAST(&(_tq)->axq_q, _field)
|
|
|
|
/*
|
|
* These are for the TID software queue.
|
|
*/
|
|
#define ATH_TID_INSERT_HEAD(_tq, _elm, _field) do { \
|
|
TAILQ_INSERT_HEAD(&(_tq)->tid_q, (_elm), _field); \
|
|
(_tq)->axq_depth++; \
|
|
(_tq)->an->an_swq_depth++; \
|
|
} while (0)
|
|
#define ATH_TID_INSERT_TAIL(_tq, _elm, _field) do { \
|
|
TAILQ_INSERT_TAIL(&(_tq)->tid_q, (_elm), _field); \
|
|
(_tq)->axq_depth++; \
|
|
(_tq)->an->an_swq_depth++; \
|
|
} while (0)
|
|
#define ATH_TID_REMOVE(_tq, _elm, _field) do { \
|
|
TAILQ_REMOVE(&(_tq)->tid_q, _elm, _field); \
|
|
(_tq)->axq_depth--; \
|
|
(_tq)->an->an_swq_depth--; \
|
|
} while (0)
|
|
#define ATH_TID_FIRST(_tq) TAILQ_FIRST(&(_tq)->tid_q)
|
|
#define ATH_TID_LAST(_tq, _field) TAILQ_LAST(&(_tq)->tid_q, _field)
|
|
|
|
/*
|
|
* These are for the TID filtered frame queue
|
|
*/
|
|
#define ATH_TID_FILT_INSERT_HEAD(_tq, _elm, _field) do { \
|
|
TAILQ_INSERT_HEAD(&(_tq)->filtq.tid_q, (_elm), _field); \
|
|
(_tq)->axq_depth++; \
|
|
(_tq)->an->an_swq_depth++; \
|
|
} while (0)
|
|
#define ATH_TID_FILT_INSERT_TAIL(_tq, _elm, _field) do { \
|
|
TAILQ_INSERT_TAIL(&(_tq)->filtq.tid_q, (_elm), _field); \
|
|
(_tq)->axq_depth++; \
|
|
(_tq)->an->an_swq_depth++; \
|
|
} while (0)
|
|
#define ATH_TID_FILT_REMOVE(_tq, _elm, _field) do { \
|
|
TAILQ_REMOVE(&(_tq)->filtq.tid_q, _elm, _field); \
|
|
(_tq)->axq_depth--; \
|
|
(_tq)->an->an_swq_depth--; \
|
|
} while (0)
|
|
#define ATH_TID_FILT_FIRST(_tq) TAILQ_FIRST(&(_tq)->filtq.tid_q)
|
|
#define ATH_TID_FILT_LAST(_tq, _field) TAILQ_LAST(&(_tq)->filtq.tid_q,_field)
|
|
|
|
struct ath_vap {
|
|
struct ieee80211vap av_vap; /* base class */
|
|
int av_bslot; /* beacon slot index */
|
|
struct ath_buf *av_bcbuf; /* beacon buffer */
|
|
struct ath_txq av_mcastq; /* buffered mcast s/w queue */
|
|
|
|
void (*av_recv_mgmt)(struct ieee80211_node *,
|
|
struct mbuf *, int,
|
|
const struct ieee80211_rx_stats *, int, int);
|
|
int (*av_newstate)(struct ieee80211vap *,
|
|
enum ieee80211_state, int);
|
|
void (*av_bmiss)(struct ieee80211vap *);
|
|
void (*av_node_ps)(struct ieee80211_node *, int);
|
|
int (*av_set_tim)(struct ieee80211_node *, int);
|
|
void (*av_recv_pspoll)(struct ieee80211_node *,
|
|
struct mbuf *);
|
|
struct ieee80211_quiet_ie quiet_ie;
|
|
};
|
|
#define ATH_VAP(vap) ((struct ath_vap *)(vap))
|
|
|
|
struct taskqueue;
|
|
struct ath_tx99;
|
|
|
|
/*
|
|
* Whether to reset the TX/RX queue with or without
|
|
* a queue flush.
|
|
*/
|
|
typedef enum {
|
|
ATH_RESET_DEFAULT = 0,
|
|
ATH_RESET_NOLOSS = 1,
|
|
ATH_RESET_FULL = 2,
|
|
} ATH_RESET_TYPE;
|
|
|
|
struct ath_rx_methods {
|
|
void (*recv_sched_queue)(struct ath_softc *sc,
|
|
HAL_RX_QUEUE q, int dosched);
|
|
void (*recv_sched)(struct ath_softc *sc, int dosched);
|
|
void (*recv_stop)(struct ath_softc *sc, int dodelay);
|
|
int (*recv_start)(struct ath_softc *sc);
|
|
void (*recv_flush)(struct ath_softc *sc);
|
|
void (*recv_tasklet)(void *arg, int npending);
|
|
int (*recv_rxbuf_init)(struct ath_softc *sc,
|
|
struct ath_buf *bf);
|
|
int (*recv_setup)(struct ath_softc *sc);
|
|
int (*recv_teardown)(struct ath_softc *sc);
|
|
};
|
|
|
|
/*
|
|
* Represent the current state of the RX FIFO.
|
|
*/
|
|
struct ath_rx_edma {
|
|
struct ath_buf **m_fifo;
|
|
int m_fifolen;
|
|
int m_fifo_head;
|
|
int m_fifo_tail;
|
|
int m_fifo_depth;
|
|
struct mbuf *m_rxpending;
|
|
struct ath_buf *m_holdbf;
|
|
};
|
|
|
|
struct ath_tx_edma_fifo {
|
|
struct ath_buf **m_fifo;
|
|
int m_fifolen;
|
|
int m_fifo_head;
|
|
int m_fifo_tail;
|
|
int m_fifo_depth;
|
|
};
|
|
|
|
struct ath_tx_methods {
|
|
int (*xmit_setup)(struct ath_softc *sc);
|
|
int (*xmit_teardown)(struct ath_softc *sc);
|
|
void (*xmit_attach_comp_func)(struct ath_softc *sc);
|
|
|
|
void (*xmit_dma_restart)(struct ath_softc *sc,
|
|
struct ath_txq *txq);
|
|
void (*xmit_handoff)(struct ath_softc *sc,
|
|
struct ath_txq *txq, struct ath_buf *bf);
|
|
void (*xmit_drain)(struct ath_softc *sc,
|
|
ATH_RESET_TYPE reset_type);
|
|
};
|
|
|
|
struct ath_softc {
|
|
struct ieee80211com sc_ic;
|
|
struct ath_stats sc_stats; /* device statistics */
|
|
struct ath_tx_aggr_stats sc_aggr_stats;
|
|
struct ath_intr_stats sc_intr_stats;
|
|
uint64_t sc_debug;
|
|
uint64_t sc_ktrdebug;
|
|
int sc_nvaps; /* # vaps */
|
|
int sc_nstavaps; /* # station vaps */
|
|
int sc_nmeshvaps; /* # mbss vaps */
|
|
u_int8_t sc_hwbssidmask[IEEE80211_ADDR_LEN];
|
|
u_int8_t sc_nbssid0; /* # vap's using base mac */
|
|
uint32_t sc_bssidmask; /* bssid mask */
|
|
|
|
struct ath_rx_methods sc_rx;
|
|
struct ath_rx_edma sc_rxedma[HAL_NUM_RX_QUEUES]; /* HP/LP queues */
|
|
ath_bufhead sc_rx_rxlist[HAL_NUM_RX_QUEUES]; /* deferred RX completion */
|
|
struct ath_tx_methods sc_tx;
|
|
struct ath_tx_edma_fifo sc_txedma[HAL_NUM_TX_QUEUES];
|
|
|
|
/*
|
|
* This is (currently) protected by the TX queue lock;
|
|
* it should migrate to a separate lock later
|
|
* so as to minimise contention.
|
|
*/
|
|
ath_bufhead sc_txbuf_list;
|
|
|
|
int sc_rx_statuslen;
|
|
int sc_tx_desclen;
|
|
int sc_tx_statuslen;
|
|
int sc_tx_nmaps; /* Number of TX maps */
|
|
int sc_edma_bufsize;
|
|
int sc_rx_stopped; /* XXX only for EDMA */
|
|
int sc_rx_resetted; /* XXX only for EDMA */
|
|
|
|
void (*sc_node_cleanup)(struct ieee80211_node *);
|
|
void (*sc_node_free)(struct ieee80211_node *);
|
|
device_t sc_dev;
|
|
HAL_BUS_TAG sc_st; /* bus space tag */
|
|
HAL_BUS_HANDLE sc_sh; /* bus space handle */
|
|
bus_dma_tag_t sc_dmat; /* bus DMA tag */
|
|
struct mtx sc_mtx; /* master lock (recursive) */
|
|
struct mtx sc_pcu_mtx; /* PCU access mutex */
|
|
char sc_pcu_mtx_name[32];
|
|
struct mtx sc_rx_mtx; /* RX access mutex */
|
|
char sc_rx_mtx_name[32];
|
|
struct mtx sc_tx_mtx; /* TX handling/comp mutex */
|
|
char sc_tx_mtx_name[32];
|
|
struct mtx sc_tx_ic_mtx; /* TX queue mutex */
|
|
char sc_tx_ic_mtx_name[32];
|
|
struct taskqueue *sc_tq; /* private task queue */
|
|
struct ath_hal *sc_ah; /* Atheros HAL */
|
|
struct ath_ratectrl *sc_rc; /* tx rate control support */
|
|
struct ath_tx99 *sc_tx99; /* tx99 adjunct state */
|
|
void (*sc_setdefantenna)(struct ath_softc *, u_int);
|
|
|
|
/*
|
|
* First set of flags.
|
|
*/
|
|
uint32_t sc_invalid : 1,/* disable hardware accesses */
|
|
sc_mrretry : 1,/* multi-rate retry support */
|
|
sc_mrrprot : 1,/* MRR + protection support */
|
|
sc_softled : 1,/* enable LED gpio status */
|
|
sc_hardled : 1,/* enable MAC LED status */
|
|
sc_splitmic : 1,/* split TKIP MIC keys */
|
|
sc_needmib : 1,/* enable MIB stats intr */
|
|
sc_diversity: 1,/* enable rx diversity */
|
|
sc_hasveol : 1,/* tx VEOL support */
|
|
sc_ledstate : 1,/* LED on/off state */
|
|
sc_blinking : 1,/* LED blink operation active */
|
|
sc_mcastkey : 1,/* mcast key cache search */
|
|
sc_scanning : 1,/* scanning active */
|
|
sc_syncbeacon:1,/* sync/resync beacon timers */
|
|
sc_hasclrkey: 1,/* CLR key supported */
|
|
sc_xchanmode: 1,/* extended channel mode */
|
|
sc_outdoor : 1,/* outdoor operation */
|
|
sc_dturbo : 1,/* dynamic turbo in use */
|
|
sc_hasbmask : 1,/* bssid mask support */
|
|
sc_hasbmatch: 1,/* bssid match disable support*/
|
|
sc_hastsfadd: 1,/* tsf adjust support */
|
|
sc_beacons : 1,/* beacons running */
|
|
sc_swbmiss : 1,/* sta mode using sw bmiss */
|
|
sc_stagbeacons:1,/* use staggered beacons */
|
|
sc_wmetkipmic:1,/* can do WME+TKIP MIC */
|
|
sc_resume_up: 1,/* on resume, start all vaps */
|
|
sc_tdma : 1,/* TDMA in use */
|
|
sc_setcca : 1,/* set/clr CCA with TDMA */
|
|
sc_resetcal : 1,/* reset cal state next trip */
|
|
sc_rxslink : 1,/* do self-linked final descriptor */
|
|
sc_rxtsf32 : 1,/* RX dec TSF is 32 bits */
|
|
sc_isedma : 1,/* supports EDMA */
|
|
sc_do_mybeacon : 1; /* supports mybeacon */
|
|
|
|
/*
|
|
* Second set of flags.
|
|
*/
|
|
u_int32_t sc_running : 1, /* initialized */
|
|
sc_use_ent : 1,
|
|
sc_rx_stbc : 1,
|
|
sc_tx_stbc : 1,
|
|
sc_has_ldpc : 1,
|
|
sc_hasenforcetxop : 1, /* support enforce TxOP */
|
|
sc_hasdivcomb : 1, /* RX diversity combining */
|
|
sc_rx_lnamixer : 1, /* RX using LNA mixing */
|
|
sc_btcoex_mci : 1; /* MCI bluetooth coex */
|
|
|
|
int sc_cabq_enable; /* Enable cabq transmission */
|
|
|
|
/*
|
|
* Enterprise mode configuration for AR9380 and later chipsets.
|
|
*/
|
|
uint32_t sc_ent_cfg;
|
|
|
|
uint32_t sc_eerd; /* regdomain from EEPROM */
|
|
uint32_t sc_eecc; /* country code from EEPROM */
|
|
/* rate tables */
|
|
const HAL_RATE_TABLE *sc_rates[IEEE80211_MODE_MAX];
|
|
const HAL_RATE_TABLE *sc_currates; /* current rate table */
|
|
enum ieee80211_phymode sc_curmode; /* current phy mode */
|
|
HAL_OPMODE sc_opmode; /* current operating mode */
|
|
u_int16_t sc_curtxpow; /* current tx power limit */
|
|
u_int16_t sc_curaid; /* current association id */
|
|
struct ieee80211_channel *sc_curchan; /* current installed channel */
|
|
u_int8_t sc_curbssid[IEEE80211_ADDR_LEN];
|
|
u_int8_t sc_rixmap[256]; /* IEEE to h/w rate table ix */
|
|
struct {
|
|
u_int8_t ieeerate; /* IEEE rate */
|
|
u_int8_t rxflags; /* radiotap rx flags */
|
|
u_int8_t txflags; /* radiotap tx flags */
|
|
u_int16_t ledon; /* softled on time */
|
|
u_int16_t ledoff; /* softled off time */
|
|
} sc_hwmap[32]; /* h/w rate ix mappings */
|
|
u_int8_t sc_protrix; /* protection rate index */
|
|
u_int8_t sc_lastdatarix; /* last data frame rate index */
|
|
u_int sc_mcastrate; /* ieee rate for mcastrateix */
|
|
u_int sc_fftxqmin; /* min frames before staging */
|
|
u_int sc_fftxqmax; /* max frames before drop */
|
|
u_int sc_txantenna; /* tx antenna (fixed or auto) */
|
|
|
|
HAL_INT sc_imask; /* interrupt mask copy */
|
|
|
|
/*
|
|
* These are modified in the interrupt handler as well as
|
|
* the task queues and other contexts. Thus these must be
|
|
* protected by a mutex, or they could clash.
|
|
*
|
|
* For now, access to these is behind the ATH_LOCK,
|
|
* just to save time.
|
|
*/
|
|
uint32_t sc_txq_active; /* bitmap of active TXQs */
|
|
uint32_t sc_kickpcu; /* whether to kick the PCU */
|
|
uint32_t sc_rxproc_cnt; /* In RX processing */
|
|
uint32_t sc_txproc_cnt; /* In TX processing */
|
|
uint32_t sc_txstart_cnt; /* In TX output (raw/start) */
|
|
uint32_t sc_inreset_cnt; /* In active reset/chanchange */
|
|
uint32_t sc_txrx_cnt; /* refcount on stop/start'ing TX */
|
|
uint32_t sc_intr_cnt; /* refcount on interrupt handling */
|
|
|
|
u_int sc_keymax; /* size of key cache */
|
|
u_int8_t sc_keymap[ATH_KEYBYTES];/* key use bit map */
|
|
|
|
/*
|
|
* Software based LED blinking
|
|
*/
|
|
u_int sc_ledpin; /* GPIO pin for driving LED */
|
|
u_int sc_ledon; /* pin setting for LED on */
|
|
u_int sc_ledidle; /* idle polling interval */
|
|
int sc_ledevent; /* time of last LED event */
|
|
u_int8_t sc_txrix; /* current tx rate for LED */
|
|
u_int16_t sc_ledoff; /* off time for current blink */
|
|
struct callout sc_ledtimer; /* led off timer */
|
|
|
|
/*
|
|
* Hardware based LED blinking
|
|
*/
|
|
int sc_led_pwr_pin; /* MAC power LED GPIO pin */
|
|
int sc_led_net_pin; /* MAC network LED GPIO pin */
|
|
|
|
u_int sc_rfsilentpin; /* GPIO pin for rfkill int */
|
|
u_int sc_rfsilentpol; /* pin setting for rfkill on */
|
|
|
|
struct ath_descdma sc_rxdma; /* RX descriptors */
|
|
ath_bufhead sc_rxbuf; /* receive buffer */
|
|
u_int32_t *sc_rxlink; /* link ptr in last RX desc */
|
|
struct task sc_rxtask; /* rx int processing */
|
|
u_int8_t sc_defant; /* current default antenna */
|
|
u_int8_t sc_rxotherant; /* rx's on non-default antenna*/
|
|
u_int64_t sc_lastrx; /* tsf at last rx'd frame */
|
|
struct ath_rx_status *sc_lastrs; /* h/w status of last rx */
|
|
struct ath_rx_radiotap_header sc_rx_th;
|
|
int sc_rx_th_len;
|
|
u_int sc_monpass; /* frames to pass in mon.mode */
|
|
|
|
struct ath_descdma sc_txdma; /* TX descriptors */
|
|
uint16_t sc_txbuf_descid;
|
|
ath_bufhead sc_txbuf; /* transmit buffer */
|
|
int sc_txbuf_cnt; /* how many buffers avail */
|
|
struct ath_descdma sc_txdma_mgmt; /* mgmt TX descriptors */
|
|
ath_bufhead sc_txbuf_mgmt; /* mgmt transmit buffer */
|
|
struct ath_descdma sc_txsdma; /* EDMA TX status desc's */
|
|
struct mtx sc_txbuflock; /* txbuf lock */
|
|
char sc_txname[12]; /* e.g. "ath0_buf" */
|
|
u_int sc_txqsetup; /* h/w queues setup */
|
|
u_int sc_txintrperiod;/* tx interrupt batching */
|
|
struct ath_txq sc_txq[HAL_NUM_TX_QUEUES];
|
|
struct ath_txq *sc_ac2q[5]; /* WME AC -> h/w q map */
|
|
struct task sc_txtask; /* tx int processing */
|
|
struct task sc_txqtask; /* tx proc processing */
|
|
|
|
struct ath_descdma sc_txcompdma; /* TX EDMA completion */
|
|
struct mtx sc_txcomplock; /* TX EDMA completion lock */
|
|
char sc_txcompname[12]; /* eg ath0_txcomp */
|
|
|
|
int sc_wd_timer; /* count down for wd timer */
|
|
struct callout sc_wd_ch; /* tx watchdog timer */
|
|
struct ath_tx_radiotap_header sc_tx_th;
|
|
int sc_tx_th_len;
|
|
|
|
struct ath_descdma sc_bdma; /* beacon descriptors */
|
|
ath_bufhead sc_bbuf; /* beacon buffers */
|
|
u_int sc_bhalq; /* HAL q for outgoing beacons */
|
|
u_int sc_bmisscount; /* missed beacon transmits */
|
|
u_int32_t sc_ant_tx[8]; /* recent tx frames/antenna */
|
|
struct ath_txq *sc_cabq; /* tx q for cab frames */
|
|
struct task sc_bmisstask; /* bmiss int processing */
|
|
struct task sc_bstucktask; /* stuck beacon processing */
|
|
struct task sc_resettask; /* interface reset task */
|
|
struct task sc_fataltask; /* fatal task */
|
|
enum {
|
|
OK, /* no change needed */
|
|
UPDATE, /* update pending */
|
|
COMMIT /* beacon sent, commit change */
|
|
} sc_updateslot; /* slot time update fsm */
|
|
int sc_slotupdate; /* slot to advance fsm */
|
|
struct ieee80211vap *sc_bslot[ATH_BCBUF];
|
|
int sc_nbcnvaps; /* # vaps with beacons */
|
|
|
|
struct callout sc_cal_ch; /* callout handle for cals */
|
|
int sc_lastlongcal; /* last long cal completed */
|
|
int sc_lastcalreset;/* last cal reset done */
|
|
int sc_lastani; /* last ANI poll */
|
|
int sc_lastshortcal; /* last short calibration */
|
|
HAL_BOOL sc_doresetcal; /* Yes, we're doing a reset cal atm */
|
|
HAL_NODE_STATS sc_halstats; /* station-mode rssi stats */
|
|
u_int sc_tdmadbaprep; /* TDMA DBA prep time */
|
|
u_int sc_tdmaswbaprep;/* TDMA SWBA prep time */
|
|
u_int sc_tdmaswba; /* TDMA SWBA counter */
|
|
u_int32_t sc_tdmabintval; /* TDMA beacon interval (TU) */
|
|
u_int32_t sc_tdmaguard; /* TDMA guard time (usec) */
|
|
u_int sc_tdmaslotlen; /* TDMA slot length (usec) */
|
|
u_int32_t sc_avgtsfdeltap;/* TDMA slot adjust (+) */
|
|
u_int32_t sc_avgtsfdeltam;/* TDMA slot adjust (-) */
|
|
uint16_t *sc_eepromdata; /* Local eeprom data, if AR9100 */
|
|
uint32_t sc_txchainmask; /* hardware TX chainmask */
|
|
uint32_t sc_rxchainmask; /* hardware RX chainmask */
|
|
uint32_t sc_cur_txchainmask; /* currently configured TX chainmask */
|
|
uint32_t sc_cur_rxchainmask; /* currently configured RX chainmask */
|
|
uint32_t sc_rts_aggr_limit; /* TX limit on RTS aggregates */
|
|
int sc_aggr_limit; /* TX limit on all aggregates */
|
|
int sc_delim_min_pad; /* Minimum delimiter count */
|
|
|
|
/* Queue limits */
|
|
|
|
/*
|
|
* To avoid queue starvation in congested conditions,
|
|
* these parameters tune the maximum number of frames
|
|
* queued to the data/mcastq before they're dropped.
|
|
*
|
|
* This is to prevent:
|
|
* + a single destination overwhelming everything, including
|
|
* management/multicast frames;
|
|
* + multicast frames overwhelming everything (when the
|
|
* air is sufficiently busy that cabq can't drain.)
|
|
* + A node in powersave shouldn't be allowed to exhaust
|
|
* all available mbufs;
|
|
*
|
|
* These implement:
|
|
* + data_minfree is the maximum number of free buffers
|
|
* overall to successfully allow a data frame.
|
|
*
|
|
* + mcastq_maxdepth is the maximum depth allowed of the cabq.
|
|
*/
|
|
int sc_txq_node_maxdepth;
|
|
int sc_txq_data_minfree;
|
|
int sc_txq_mcastq_maxdepth;
|
|
int sc_txq_node_psq_maxdepth;
|
|
|
|
/*
|
|
* Software queue twiddles
|
|
*
|
|
* hwq_limit_nonaggr:
|
|
* when to begin limiting non-aggregate frames to the
|
|
* hardware queue, regardless of the TID.
|
|
* hwq_limit_aggr:
|
|
* when to begin limiting A-MPDU frames to the
|
|
* hardware queue, regardless of the TID.
|
|
* tid_hwq_lo: how low the per-TID hwq count has to be before the
|
|
* TID will be scheduled again
|
|
* tid_hwq_hi: how many frames to queue to the HWQ before the TID
|
|
* stops being scheduled.
|
|
*/
|
|
int sc_hwq_limit_nonaggr;
|
|
int sc_hwq_limit_aggr;
|
|
int sc_tid_hwq_lo;
|
|
int sc_tid_hwq_hi;
|
|
|
|
/* DFS related state */
|
|
void *sc_dfs; /* Used by an optional DFS module */
|
|
int sc_dodfs; /* Whether to enable DFS rx filter bits */
|
|
struct task sc_dfstask; /* DFS processing task */
|
|
|
|
/* Spectral related state */
|
|
void *sc_spectral;
|
|
int sc_dospectral;
|
|
|
|
/* LNA diversity related state */
|
|
void *sc_lna_div;
|
|
int sc_dolnadiv;
|
|
|
|
/* ALQ */
|
|
#ifdef ATH_DEBUG_ALQ
|
|
struct if_ath_alq sc_alq;
|
|
#endif
|
|
|
|
/* TX AMPDU handling */
|
|
int (*sc_addba_request)(struct ieee80211_node *,
|
|
struct ieee80211_tx_ampdu *, int, int, int);
|
|
int (*sc_addba_response)(struct ieee80211_node *,
|
|
struct ieee80211_tx_ampdu *, int, int, int);
|
|
void (*sc_addba_stop)(struct ieee80211_node *,
|
|
struct ieee80211_tx_ampdu *);
|
|
void (*sc_addba_response_timeout)
|
|
(struct ieee80211_node *,
|
|
struct ieee80211_tx_ampdu *);
|
|
void (*sc_bar_response)(struct ieee80211_node *ni,
|
|
struct ieee80211_tx_ampdu *tap,
|
|
int status);
|
|
|
|
/*
|
|
* Powersave state tracking.
|
|
*
|
|
* target/cur powerstate is the chip power state.
|
|
* target selfgen state is the self-generated frames
|
|
* state. The chip can be awake but transmitted frames
|
|
* can have the PWRMGT bit set to 1 so the destination
|
|
* thinks the node is asleep.
|
|
*/
|
|
HAL_POWER_MODE sc_target_powerstate;
|
|
HAL_POWER_MODE sc_target_selfgen_state;
|
|
|
|
HAL_POWER_MODE sc_cur_powerstate;
|
|
|
|
int sc_powersave_refcnt;
|
|
|
|
/* ATH_PCI_* flags */
|
|
uint32_t sc_pci_devinfo;
|
|
|
|
/* BT coex */
|
|
struct {
|
|
struct ath_descdma buf;
|
|
|
|
/* gpm/sched buffer, saved pointers */
|
|
char *sched_buf;
|
|
bus_addr_t sched_paddr;
|
|
char *gpm_buf;
|
|
bus_addr_t gpm_paddr;
|
|
|
|
uint32_t wlan_channels[4];
|
|
} sc_btcoex;
|
|
};
|
|
|
|
#define ATH_LOCK_INIT(_sc) \
|
|
mtx_init(&(_sc)->sc_mtx, device_get_nameunit((_sc)->sc_dev), \
|
|
NULL, MTX_DEF | MTX_RECURSE)
|
|
#define ATH_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_mtx)
|
|
#define ATH_LOCK(_sc) mtx_lock(&(_sc)->sc_mtx)
|
|
#define ATH_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_mtx)
|
|
#define ATH_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_mtx, MA_OWNED)
|
|
#define ATH_UNLOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_mtx, MA_NOTOWNED)
|
|
|
|
/*
|
|
* The TX lock is non-reentrant and serialises the TX frame send
|
|
* and completion operations.
|
|
*/
|
|
#define ATH_TX_LOCK_INIT(_sc) do {\
|
|
snprintf((_sc)->sc_tx_mtx_name, \
|
|
sizeof((_sc)->sc_tx_mtx_name), \
|
|
"%s TX lock", \
|
|
device_get_nameunit((_sc)->sc_dev)); \
|
|
mtx_init(&(_sc)->sc_tx_mtx, (_sc)->sc_tx_mtx_name, \
|
|
NULL, MTX_DEF); \
|
|
} while (0)
|
|
#define ATH_TX_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_tx_mtx)
|
|
#define ATH_TX_LOCK(_sc) mtx_lock(&(_sc)->sc_tx_mtx)
|
|
#define ATH_TX_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_tx_mtx)
|
|
#define ATH_TX_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_tx_mtx, \
|
|
MA_OWNED)
|
|
#define ATH_TX_UNLOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_tx_mtx, \
|
|
MA_NOTOWNED)
|
|
#define ATH_TX_TRYLOCK(_sc) (mtx_owned(&(_sc)->sc_tx_mtx) != 0 && \
|
|
mtx_trylock(&(_sc)->sc_tx_mtx))
|
|
|
|
/*
|
|
* The PCU lock is non-recursive and should be treated as a spinlock.
|
|
* Although currently the interrupt code is run in netisr context and
|
|
* doesn't require this, this may change in the future.
|
|
* Please keep this in mind when protecting certain code paths
|
|
* with the PCU lock.
|
|
*
|
|
* The PCU lock is used to serialise access to the PCU so things such
|
|
* as TX, RX, state change (eg channel change), channel reset and updates
|
|
* from interrupt context (eg kickpcu, txqactive bits) do not clash.
|
|
*
|
|
* Although the current single-thread taskqueue mechanism protects the
|
|
* majority of these situations by simply serialising them, there are
|
|
* a few others which occur at the same time. These include the TX path
|
|
* (which only acquires ATH_LOCK when recycling buffers to the free list),
|
|
* ath_set_channel, the channel scanning API and perhaps quite a bit more.
|
|
*/
|
|
#define ATH_PCU_LOCK_INIT(_sc) do {\
|
|
snprintf((_sc)->sc_pcu_mtx_name, \
|
|
sizeof((_sc)->sc_pcu_mtx_name), \
|
|
"%s PCU lock", \
|
|
device_get_nameunit((_sc)->sc_dev)); \
|
|
mtx_init(&(_sc)->sc_pcu_mtx, (_sc)->sc_pcu_mtx_name, \
|
|
NULL, MTX_DEF); \
|
|
} while (0)
|
|
#define ATH_PCU_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_pcu_mtx)
|
|
#define ATH_PCU_LOCK(_sc) mtx_lock(&(_sc)->sc_pcu_mtx)
|
|
#define ATH_PCU_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_pcu_mtx)
|
|
#define ATH_PCU_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_pcu_mtx, \
|
|
MA_OWNED)
|
|
#define ATH_PCU_UNLOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_pcu_mtx, \
|
|
MA_NOTOWNED)
|
|
|
|
/*
|
|
* The RX lock is primarily a(nother) workaround to ensure that the
|
|
* RX FIFO/list isn't modified by various execution paths.
|
|
* Even though RX occurs in a single context (the ath taskqueue), the
|
|
* RX path can be executed via various reset/channel change paths.
|
|
*/
|
|
#define ATH_RX_LOCK_INIT(_sc) do {\
|
|
snprintf((_sc)->sc_rx_mtx_name, \
|
|
sizeof((_sc)->sc_rx_mtx_name), \
|
|
"%s RX lock", \
|
|
device_get_nameunit((_sc)->sc_dev)); \
|
|
mtx_init(&(_sc)->sc_rx_mtx, (_sc)->sc_rx_mtx_name, \
|
|
NULL, MTX_DEF); \
|
|
} while (0)
|
|
#define ATH_RX_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_rx_mtx)
|
|
#define ATH_RX_LOCK(_sc) mtx_lock(&(_sc)->sc_rx_mtx)
|
|
#define ATH_RX_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_rx_mtx)
|
|
#define ATH_RX_LOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_rx_mtx, \
|
|
MA_OWNED)
|
|
#define ATH_RX_UNLOCK_ASSERT(_sc) mtx_assert(&(_sc)->sc_rx_mtx, \
|
|
MA_NOTOWNED)
|
|
|
|
#define ATH_TXQ_SETUP(sc, i) ((sc)->sc_txqsetup & (1<<i))
|
|
|
|
#define ATH_TXBUF_LOCK_INIT(_sc) do { \
|
|
snprintf((_sc)->sc_txname, sizeof((_sc)->sc_txname), "%s_buf", \
|
|
device_get_nameunit((_sc)->sc_dev)); \
|
|
mtx_init(&(_sc)->sc_txbuflock, (_sc)->sc_txname, NULL, MTX_DEF); \
|
|
} while (0)
|
|
#define ATH_TXBUF_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_txbuflock)
|
|
#define ATH_TXBUF_LOCK(_sc) mtx_lock(&(_sc)->sc_txbuflock)
|
|
#define ATH_TXBUF_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_txbuflock)
|
|
#define ATH_TXBUF_LOCK_ASSERT(_sc) \
|
|
mtx_assert(&(_sc)->sc_txbuflock, MA_OWNED)
|
|
#define ATH_TXBUF_UNLOCK_ASSERT(_sc) \
|
|
mtx_assert(&(_sc)->sc_txbuflock, MA_NOTOWNED)
|
|
|
|
#define ATH_TXSTATUS_LOCK_INIT(_sc) do { \
|
|
snprintf((_sc)->sc_txcompname, sizeof((_sc)->sc_txcompname), \
|
|
"%s_buf", \
|
|
device_get_nameunit((_sc)->sc_dev)); \
|
|
mtx_init(&(_sc)->sc_txcomplock, (_sc)->sc_txcompname, NULL, \
|
|
MTX_DEF); \
|
|
} while (0)
|
|
#define ATH_TXSTATUS_LOCK_DESTROY(_sc) mtx_destroy(&(_sc)->sc_txcomplock)
|
|
#define ATH_TXSTATUS_LOCK(_sc) mtx_lock(&(_sc)->sc_txcomplock)
|
|
#define ATH_TXSTATUS_UNLOCK(_sc) mtx_unlock(&(_sc)->sc_txcomplock)
|
|
#define ATH_TXSTATUS_LOCK_ASSERT(_sc) \
|
|
mtx_assert(&(_sc)->sc_txcomplock, MA_OWNED)
|
|
|
|
int ath_attach(u_int16_t, struct ath_softc *);
|
|
int ath_detach(struct ath_softc *);
|
|
void ath_resume(struct ath_softc *);
|
|
void ath_suspend(struct ath_softc *);
|
|
void ath_shutdown(struct ath_softc *);
|
|
void ath_intr(void *);
|
|
|
|
/*
|
|
* HAL definitions to comply with local coding convention.
|
|
*/
|
|
#define ath_hal_detach(_ah) \
|
|
((*(_ah)->ah_detach)((_ah)))
|
|
#define ath_hal_reset(_ah, _opmode, _chan, _fullreset, _resettype, _pstatus) \
|
|
((*(_ah)->ah_reset)((_ah), (_opmode), (_chan), (_fullreset), \
|
|
(_resettype), (_pstatus)))
|
|
#define ath_hal_macversion(_ah) \
|
|
(((_ah)->ah_macVersion << 4) | ((_ah)->ah_macRev))
|
|
#define ath_hal_getratetable(_ah, _mode) \
|
|
((*(_ah)->ah_getRateTable)((_ah), (_mode)))
|
|
#define ath_hal_getmac(_ah, _mac) \
|
|
((*(_ah)->ah_getMacAddress)((_ah), (_mac)))
|
|
#define ath_hal_setmac(_ah, _mac) \
|
|
((*(_ah)->ah_setMacAddress)((_ah), (_mac)))
|
|
#define ath_hal_getbssidmask(_ah, _mask) \
|
|
((*(_ah)->ah_getBssIdMask)((_ah), (_mask)))
|
|
#define ath_hal_setbssidmask(_ah, _mask) \
|
|
((*(_ah)->ah_setBssIdMask)((_ah), (_mask)))
|
|
#define ath_hal_intrset(_ah, _mask) \
|
|
((*(_ah)->ah_setInterrupts)((_ah), (_mask)))
|
|
#define ath_hal_intrget(_ah) \
|
|
((*(_ah)->ah_getInterrupts)((_ah)))
|
|
#define ath_hal_intrpend(_ah) \
|
|
((*(_ah)->ah_isInterruptPending)((_ah)))
|
|
#define ath_hal_getisr(_ah, _pmask) \
|
|
((*(_ah)->ah_getPendingInterrupts)((_ah), (_pmask)))
|
|
#define ath_hal_updatetxtriglevel(_ah, _inc) \
|
|
((*(_ah)->ah_updateTxTrigLevel)((_ah), (_inc)))
|
|
#define ath_hal_setpower(_ah, _mode) \
|
|
((*(_ah)->ah_setPowerMode)((_ah), (_mode), AH_TRUE))
|
|
#define ath_hal_setselfgenpower(_ah, _mode) \
|
|
((*(_ah)->ah_setPowerMode)((_ah), (_mode), AH_FALSE))
|
|
#define ath_hal_keycachesize(_ah) \
|
|
((*(_ah)->ah_getKeyCacheSize)((_ah)))
|
|
#define ath_hal_keyreset(_ah, _ix) \
|
|
((*(_ah)->ah_resetKeyCacheEntry)((_ah), (_ix)))
|
|
#define ath_hal_keyset(_ah, _ix, _pk, _mac) \
|
|
((*(_ah)->ah_setKeyCacheEntry)((_ah), (_ix), (_pk), (_mac), AH_FALSE))
|
|
#define ath_hal_keyisvalid(_ah, _ix) \
|
|
(((*(_ah)->ah_isKeyCacheEntryValid)((_ah), (_ix))))
|
|
#define ath_hal_keysetmac(_ah, _ix, _mac) \
|
|
((*(_ah)->ah_setKeyCacheEntryMac)((_ah), (_ix), (_mac)))
|
|
#define ath_hal_getrxfilter(_ah) \
|
|
((*(_ah)->ah_getRxFilter)((_ah)))
|
|
#define ath_hal_setrxfilter(_ah, _filter) \
|
|
((*(_ah)->ah_setRxFilter)((_ah), (_filter)))
|
|
#define ath_hal_setmcastfilter(_ah, _mfilt0, _mfilt1) \
|
|
((*(_ah)->ah_setMulticastFilter)((_ah), (_mfilt0), (_mfilt1)))
|
|
#define ath_hal_waitforbeacon(_ah, _bf) \
|
|
((*(_ah)->ah_waitForBeaconDone)((_ah), (_bf)->bf_daddr))
|
|
#define ath_hal_putrxbuf(_ah, _bufaddr, _rxq) \
|
|
((*(_ah)->ah_setRxDP)((_ah), (_bufaddr), (_rxq)))
|
|
/* NB: common across all chips */
|
|
#define AR_TSF_L32 0x804c /* MAC local clock lower 32 bits */
|
|
#define ath_hal_gettsf32(_ah) \
|
|
OS_REG_READ(_ah, AR_TSF_L32)
|
|
#define ath_hal_gettsf64(_ah) \
|
|
((*(_ah)->ah_getTsf64)((_ah)))
|
|
#define ath_hal_settsf64(_ah, _val) \
|
|
((*(_ah)->ah_setTsf64)((_ah), (_val)))
|
|
#define ath_hal_resettsf(_ah) \
|
|
((*(_ah)->ah_resetTsf)((_ah)))
|
|
#define ath_hal_rxena(_ah) \
|
|
((*(_ah)->ah_enableReceive)((_ah)))
|
|
#define ath_hal_puttxbuf(_ah, _q, _bufaddr) \
|
|
((*(_ah)->ah_setTxDP)((_ah), (_q), (_bufaddr)))
|
|
#define ath_hal_gettxbuf(_ah, _q) \
|
|
((*(_ah)->ah_getTxDP)((_ah), (_q)))
|
|
#define ath_hal_numtxpending(_ah, _q) \
|
|
((*(_ah)->ah_numTxPending)((_ah), (_q)))
|
|
#define ath_hal_getrxbuf(_ah, _rxq) \
|
|
((*(_ah)->ah_getRxDP)((_ah), (_rxq)))
|
|
#define ath_hal_txstart(_ah, _q) \
|
|
((*(_ah)->ah_startTxDma)((_ah), (_q)))
|
|
#define ath_hal_setchannel(_ah, _chan) \
|
|
((*(_ah)->ah_setChannel)((_ah), (_chan)))
|
|
#define ath_hal_calibrate(_ah, _chan, _iqcal) \
|
|
((*(_ah)->ah_perCalibration)((_ah), (_chan), (_iqcal)))
|
|
#define ath_hal_calibrateN(_ah, _chan, _lcal, _isdone) \
|
|
((*(_ah)->ah_perCalibrationN)((_ah), (_chan), 0x1, (_lcal), (_isdone)))
|
|
#define ath_hal_calreset(_ah, _chan) \
|
|
((*(_ah)->ah_resetCalValid)((_ah), (_chan)))
|
|
#define ath_hal_setledstate(_ah, _state) \
|
|
((*(_ah)->ah_setLedState)((_ah), (_state)))
|
|
#define ath_hal_beaconinit(_ah, _nextb, _bperiod) \
|
|
((*(_ah)->ah_beaconInit)((_ah), (_nextb), (_bperiod)))
|
|
#define ath_hal_beaconreset(_ah) \
|
|
((*(_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) \
|
|
((*(_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, _is_scanning) \
|
|
((*(_ah)->ah_startPcuReceive)((_ah), (_is_scanning)))
|
|
#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) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_REG_DMN, 0, (_prd)) == HAL_OK)
|
|
#define ath_hal_setregdomain(_ah, _rd) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_REG_DMN, 0, _rd, NULL)
|
|
#define ath_hal_getcountrycode(_ah, _pcc) \
|
|
(*(_pcc) = (_ah)->ah_countryCode)
|
|
#define ath_hal_gettkipmic(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TKIP_MIC, 1, NULL) == HAL_OK)
|
|
#define ath_hal_settkipmic(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_TKIP_MIC, 1, _v, NULL)
|
|
#define ath_hal_hastkipsplit(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TKIP_SPLIT, 0, NULL) == HAL_OK)
|
|
#define ath_hal_gettkipsplit(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TKIP_SPLIT, 1, NULL) == HAL_OK)
|
|
#define ath_hal_settkipsplit(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_TKIP_SPLIT, 1, _v, NULL)
|
|
#define ath_hal_haswmetkipmic(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_WME_TKIPMIC, 0, NULL) == HAL_OK)
|
|
#define ath_hal_hwphycounters(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_PHYCOUNTERS, 0, NULL) == HAL_OK)
|
|
#define ath_hal_hasdiversity(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_DIVERSITY, 0, NULL) == HAL_OK)
|
|
#define ath_hal_getdiversity(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_DIVERSITY, 1, NULL) == HAL_OK)
|
|
#define ath_hal_setdiversity(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_DIVERSITY, 1, _v, NULL)
|
|
#define ath_hal_getantennaswitch(_ah) \
|
|
((*(_ah)->ah_getAntennaSwitch)((_ah)))
|
|
#define ath_hal_setantennaswitch(_ah, _v) \
|
|
((*(_ah)->ah_setAntennaSwitch)((_ah), (_v)))
|
|
#define ath_hal_getdiag(_ah, _pv) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_DIAG, 0, _pv) == HAL_OK)
|
|
#define ath_hal_setdiag(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_DIAG, 0, _v, NULL)
|
|
#define ath_hal_getnumtxqueues(_ah, _pv) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_NUM_TXQUEUES, 0, _pv) == HAL_OK)
|
|
#define ath_hal_hasveol(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_VEOL, 0, NULL) == HAL_OK)
|
|
#define ath_hal_hastxpowlimit(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TXPOW, 0, NULL) == HAL_OK)
|
|
#define ath_hal_settxpowlimit(_ah, _pow) \
|
|
((*(_ah)->ah_setTxPowerLimit)((_ah), (_pow)))
|
|
#define ath_hal_gettxpowlimit(_ah, _ppow) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TXPOW, 1, _ppow) == HAL_OK)
|
|
#define ath_hal_getmaxtxpow(_ah, _ppow) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TXPOW, 2, _ppow) == HAL_OK)
|
|
#define ath_hal_gettpscale(_ah, _scale) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TXPOW, 3, _scale) == HAL_OK)
|
|
#define ath_hal_settpscale(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_TXPOW, 3, _v, NULL)
|
|
#define ath_hal_hastpc(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TPC, 0, NULL) == HAL_OK)
|
|
#define ath_hal_gettpc(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TPC, 1, NULL) == HAL_OK)
|
|
#define ath_hal_settpc(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_TPC, 1, _v, NULL)
|
|
#define ath_hal_hasbursting(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_BURST, 0, NULL) == HAL_OK)
|
|
#define ath_hal_setmcastkeysearch(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_MCAST_KEYSRCH, 0, _v, NULL)
|
|
#define ath_hal_hasmcastkeysearch(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_MCAST_KEYSRCH, 0, NULL) == HAL_OK)
|
|
#define ath_hal_getmcastkeysearch(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_MCAST_KEYSRCH, 1, NULL) == HAL_OK)
|
|
#define ath_hal_hasfastframes(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_FASTFRAME, 0, NULL) == HAL_OK)
|
|
#define ath_hal_hasbssidmask(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_BSSIDMASK, 0, NULL) == HAL_OK)
|
|
#define ath_hal_hasbssidmatch(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_BSSIDMATCH, 0, NULL) == HAL_OK)
|
|
#define ath_hal_hastsfadjust(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TSF_ADJUST, 0, NULL) == HAL_OK)
|
|
#define ath_hal_gettsfadjust(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TSF_ADJUST, 1, NULL) == HAL_OK)
|
|
#define ath_hal_settsfadjust(_ah, _onoff) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_TSF_ADJUST, 1, _onoff, NULL)
|
|
#define ath_hal_hasrfsilent(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_RFSILENT, 0, NULL) == HAL_OK)
|
|
#define ath_hal_getrfkill(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_RFSILENT, 1, NULL) == HAL_OK)
|
|
#define ath_hal_setrfkill(_ah, _onoff) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_RFSILENT, 1, _onoff, NULL)
|
|
#define ath_hal_getrfsilent(_ah, _prfsilent) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_RFSILENT, 2, _prfsilent) == HAL_OK)
|
|
#define ath_hal_setrfsilent(_ah, _rfsilent) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_RFSILENT, 2, _rfsilent, NULL)
|
|
#define ath_hal_gettpack(_ah, _ptpack) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TPC_ACK, 0, _ptpack) == HAL_OK)
|
|
#define ath_hal_settpack(_ah, _tpack) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_TPC_ACK, 0, _tpack, NULL)
|
|
#define ath_hal_gettpcts(_ah, _ptpcts) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TPC_CTS, 0, _ptpcts) == HAL_OK)
|
|
#define ath_hal_settpcts(_ah, _tpcts) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_TPC_CTS, 0, _tpcts, NULL)
|
|
#define ath_hal_hasintmit(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_INTMIT, \
|
|
HAL_CAP_INTMIT_PRESENT, NULL) == HAL_OK)
|
|
#define ath_hal_getintmit(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_INTMIT, \
|
|
HAL_CAP_INTMIT_ENABLE, NULL) == HAL_OK)
|
|
#define ath_hal_setintmit(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_INTMIT, \
|
|
HAL_CAP_INTMIT_ENABLE, _v, NULL)
|
|
#define ath_hal_hasmybeacon(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_DO_MYBEACON, 1, NULL) == HAL_OK)
|
|
|
|
#define ath_hal_hasenforcetxop(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_ENFORCE_TXOP, 0, NULL) == HAL_OK)
|
|
#define ath_hal_getenforcetxop(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_ENFORCE_TXOP, 1, NULL) == HAL_OK)
|
|
#define ath_hal_setenforcetxop(_ah, _v) \
|
|
ath_hal_setcapability(_ah, HAL_CAP_ENFORCE_TXOP, 1, _v, NULL)
|
|
|
|
#define ath_hal_hasrxlnamixer(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_RX_LNA_MIXING, 0, NULL) == HAL_OK)
|
|
|
|
#define ath_hal_hasdivantcomb(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_ANT_DIV_COMB, 0, NULL) == HAL_OK)
|
|
#define ath_hal_hasldpc(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_LDPC, 0, NULL) == HAL_OK)
|
|
#define ath_hal_hasldpcwar(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_LDPCWAR, 0, NULL) == HAL_OK)
|
|
|
|
/* EDMA definitions */
|
|
#define ath_hal_hasedma(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_ENHANCED_DMA_SUPPORT, \
|
|
0, NULL) == HAL_OK)
|
|
#define ath_hal_getrxfifodepth(_ah, _qtype, _req) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_RXFIFODEPTH, _qtype, _req) \
|
|
== HAL_OK)
|
|
#define ath_hal_getntxmaps(_ah, _req) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_NUM_TXMAPS, 0, _req) \
|
|
== HAL_OK)
|
|
#define ath_hal_gettxdesclen(_ah, _req) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TXDESCLEN, 0, _req) \
|
|
== HAL_OK)
|
|
#define ath_hal_gettxstatuslen(_ah, _req) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TXSTATUSLEN, 0, _req) \
|
|
== HAL_OK)
|
|
#define ath_hal_getrxstatuslen(_ah, _req) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_RXSTATUSLEN, 0, _req) \
|
|
== HAL_OK)
|
|
#define ath_hal_setrxbufsize(_ah, _req) \
|
|
(ath_hal_setcapability(_ah, HAL_CAP_RXBUFSIZE, 0, _req, NULL) \
|
|
== AH_TRUE)
|
|
|
|
#define ath_hal_getchannoise(_ah, _c) \
|
|
((*(_ah)->ah_getChanNoise)((_ah), (_c)))
|
|
|
|
/* 802.11n HAL methods */
|
|
#define ath_hal_getrxchainmask(_ah, _prxchainmask) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_RX_CHAINMASK, 0, _prxchainmask))
|
|
#define ath_hal_gettxchainmask(_ah, _ptxchainmask) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_TX_CHAINMASK, 0, _ptxchainmask))
|
|
#define ath_hal_setrxchainmask(_ah, _rx) \
|
|
(ath_hal_setcapability(_ah, HAL_CAP_RX_CHAINMASK, 1, _rx, NULL))
|
|
#define ath_hal_settxchainmask(_ah, _tx) \
|
|
(ath_hal_setcapability(_ah, HAL_CAP_TX_CHAINMASK, 1, _tx, NULL))
|
|
#define ath_hal_split4ktrans(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_SPLIT_4KB_TRANS, \
|
|
0, NULL) == HAL_OK)
|
|
#define ath_hal_self_linked_final_rxdesc(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_RXDESC_SELFLINK, \
|
|
0, NULL) == HAL_OK)
|
|
#define ath_hal_gtxto_supported(_ah) \
|
|
(ath_hal_getcapability(_ah, HAL_CAP_GTXTO, 0, NULL) == HAL_OK)
|
|
#define ath_hal_get_rx_tsf_prec(_ah, _pr) \
|
|
(ath_hal_getcapability((_ah), HAL_CAP_RXTSTAMP_PREC, 0, (_pr)) \
|
|
== HAL_OK)
|
|
#define ath_hal_get_tx_tsf_prec(_ah, _pr) \
|
|
(ath_hal_getcapability((_ah), HAL_CAP_TXTSTAMP_PREC, 0, (_pr)) \
|
|
== HAL_OK)
|
|
#define ath_hal_setuprxdesc(_ah, _ds, _size, _intreq) \
|
|
((*(_ah)->ah_setupRxDesc)((_ah), (_ds), (_size), (_intreq)))
|
|
#define ath_hal_rxprocdesc(_ah, _ds, _dspa, _dsnext, _rs) \
|
|
((*(_ah)->ah_procRxDesc)((_ah), (_ds), (_dspa), (_dsnext), 0, (_rs)))
|
|
#define ath_hal_setuptxdesc(_ah, _ds, _plen, _hlen, _atype, _txpow, \
|
|
_txr0, _txtr0, _keyix, _ant, _flags, \
|
|
_rtsrate, _rtsdura) \
|
|
((*(_ah)->ah_setupTxDesc)((_ah), (_ds), (_plen), (_hlen), (_atype), \
|
|
(_txpow), (_txr0), (_txtr0), (_keyix), (_ant), \
|
|
(_flags), (_rtsrate), (_rtsdura), 0, 0, 0))
|
|
#define ath_hal_setupxtxdesc(_ah, _ds, \
|
|
_txr1, _txtr1, _txr2, _txtr2, _txr3, _txtr3) \
|
|
((*(_ah)->ah_setupXTxDesc)((_ah), (_ds), \
|
|
(_txr1), (_txtr1), (_txr2), (_txtr2), (_txr3), (_txtr3)))
|
|
#define ath_hal_filltxdesc(_ah, _ds, _b, _l, _did, _qid, _first, _last, _ds0) \
|
|
((*(_ah)->ah_fillTxDesc)((_ah), (_ds), (_b), (_l), (_did), (_qid), \
|
|
(_first), (_last), (_ds0)))
|
|
#define ath_hal_txprocdesc(_ah, _ds, _ts) \
|
|
((*(_ah)->ah_procTxDesc)((_ah), (_ds), (_ts)))
|
|
#define ath_hal_gettxintrtxqs(_ah, _txqs) \
|
|
((*(_ah)->ah_getTxIntrQueue)((_ah), (_txqs)))
|
|
#define ath_hal_gettxcompletionrates(_ah, _ds, _rates, _tries) \
|
|
((*(_ah)->ah_getTxCompletionRates)((_ah), (_ds), (_rates), (_tries)))
|
|
#define ath_hal_settxdesclink(_ah, _ds, _link) \
|
|
((*(_ah)->ah_setTxDescLink)((_ah), (_ds), (_link)))
|
|
#define ath_hal_gettxdesclink(_ah, _ds, _link) \
|
|
((*(_ah)->ah_getTxDescLink)((_ah), (_ds), (_link)))
|
|
#define ath_hal_gettxdesclinkptr(_ah, _ds, _linkptr) \
|
|
((*(_ah)->ah_getTxDescLinkPtr)((_ah), (_ds), (_linkptr)))
|
|
#define ath_hal_setuptxstatusring(_ah, _tsstart, _tspstart, _size) \
|
|
((*(_ah)->ah_setupTxStatusRing)((_ah), (_tsstart), (_tspstart), \
|
|
(_size)))
|
|
#define ath_hal_gettxrawtxdesc(_ah, _txstatus) \
|
|
((*(_ah)->ah_getTxRawTxDesc)((_ah), (_txstatus)))
|
|
|
|
#define ath_hal_setupfirsttxdesc(_ah, _ds, _aggrlen, _flags, _txpower, \
|
|
_txr0, _txtr0, _antm, _rcr, _rcd) \
|
|
((*(_ah)->ah_setupFirstTxDesc)((_ah), (_ds), (_aggrlen), (_flags), \
|
|
(_txpower), (_txr0), (_txtr0), (_antm), (_rcr), (_rcd)))
|
|
#define ath_hal_chaintxdesc(_ah, _ds, _bl, _sl, _pktlen, _hdrlen, _type, \
|
|
_keyix, _cipher, _delims, _first, _last, _lastaggr) \
|
|
((*(_ah)->ah_chainTxDesc)((_ah), (_ds), (_bl), (_sl), \
|
|
(_pktlen), (_hdrlen), (_type), (_keyix), (_cipher), (_delims), \
|
|
(_first), (_last), (_lastaggr)))
|
|
#define ath_hal_setuplasttxdesc(_ah, _ds, _ds0) \
|
|
((*(_ah)->ah_setupLastTxDesc)((_ah), (_ds), (_ds0)))
|
|
|
|
#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)))
|
|
#define ath_hal_set11n_aggr_middle(_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)))
|
|
#define ath_hal_set11n_virtmorefrag(_ah, _ds, _v) \
|
|
((*(_ah)->ah_set11nVirtMoreFrag)((_ah), (_ds), (_v)))
|
|
|
|
#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)))
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#define ath_hal_gpioget(_ah, _gpio) \
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((*(_ah)->ah_gpioGet)((_ah), (_gpio)))
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#define ath_hal_gpiosetintr(_ah, _gpio, _b) \
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((*(_ah)->ah_gpioSetIntr)((_ah), (_gpio), (_b)))
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/*
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* PCIe suspend/resume/poweron/poweroff related macros
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*/
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#define ath_hal_enablepcie(_ah, _restore, _poweroff) \
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((*(_ah)->ah_configPCIE)((_ah), (_restore), (_poweroff)))
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#define ath_hal_disablepcie(_ah) \
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((*(_ah)->ah_disablePCIE)((_ah)))
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/*
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* This is badly-named; you need to set the correct parameters
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* to begin to receive useful radar events; and even then
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* it doesn't "enable" DFS. See the ath_dfs/null/ module for
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* more information.
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*/
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#define ath_hal_enabledfs(_ah, _param) \
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((*(_ah)->ah_enableDfs)((_ah), (_param)))
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#define ath_hal_getdfsthresh(_ah, _param) \
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((*(_ah)->ah_getDfsThresh)((_ah), (_param)))
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#define ath_hal_getdfsdefaultthresh(_ah, _param) \
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((*(_ah)->ah_getDfsDefaultThresh)((_ah), (_param)))
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#define ath_hal_procradarevent(_ah, _rxs, _fulltsf, _buf, _event) \
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((*(_ah)->ah_procRadarEvent)((_ah), (_rxs), (_fulltsf), \
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(_buf), (_event)))
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#define ath_hal_is_fast_clock_enabled(_ah) \
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((*(_ah)->ah_isFastClockEnabled)((_ah)))
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#define ath_hal_radar_wait(_ah, _chan) \
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((*(_ah)->ah_radarWait)((_ah), (_chan)))
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#define ath_hal_get_mib_cycle_counts(_ah, _sample) \
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((*(_ah)->ah_getMibCycleCounts)((_ah), (_sample)))
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#define ath_hal_get_chan_ext_busy(_ah) \
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((*(_ah)->ah_get11nExtBusy)((_ah)))
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#define ath_hal_setchainmasks(_ah, _txchainmask, _rxchainmask) \
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((*(_ah)->ah_setChainMasks)((_ah), (_txchainmask), (_rxchainmask)))
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#define ath_hal_set_quiet(_ah, _p, _d, _o, _f) \
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((*(_ah)->ah_setQuiet)((_ah), (_p), (_d), (_o), (_f)))
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|
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#define ath_hal_spectral_supported(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_SPECTRAL_SCAN, 0, NULL) == HAL_OK)
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#define ath_hal_spectral_get_config(_ah, _p) \
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((*(_ah)->ah_spectralGetConfig)((_ah), (_p)))
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#define ath_hal_spectral_configure(_ah, _p) \
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((*(_ah)->ah_spectralConfigure)((_ah), (_p)))
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#define ath_hal_spectral_start(_ah) \
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((*(_ah)->ah_spectralStart)((_ah)))
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#define ath_hal_spectral_stop(_ah) \
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((*(_ah)->ah_spectralStop)((_ah)))
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#define ath_hal_btcoex_supported(_ah) \
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(ath_hal_getcapability(_ah, HAL_CAP_BT_COEX, 0, NULL) == HAL_OK)
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#define ath_hal_btcoex_set_info(_ah, _info) \
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((*(_ah)->ah_btCoexSetInfo)((_ah), (_info)))
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#define ath_hal_btcoex_set_config(_ah, _cfg) \
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((*(_ah)->ah_btCoexSetConfig)((_ah), (_cfg)))
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|
#define ath_hal_btcoex_set_qcu_thresh(_ah, _qcuid) \
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|
((*(_ah)->ah_btCoexSetQcuThresh)((_ah), (_qcuid)))
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|
#define ath_hal_btcoex_set_weights(_ah, _weight) \
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|
((*(_ah)->ah_btCoexSetWeights)((_ah), (_weight)))
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|
#define ath_hal_btcoex_set_bmiss_thresh(_ah, _thr) \
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|
((*(_ah)->ah_btCoexSetBmissThresh)((_ah), (_thr)))
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|
#define ath_hal_btcoex_set_parameter(_ah, _attrib, _val) \
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|
((*(_ah)->ah_btCoexSetParameter)((_ah), (_attrib), (_val)))
|
|
#define ath_hal_btcoex_enable(_ah) \
|
|
((*(_ah)->ah_btCoexEnable)((_ah)))
|
|
#define ath_hal_btcoex_disable(_ah) \
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|
((*(_ah)->ah_btCoexDisable)((_ah)))
|
|
|
|
#define ath_hal_btcoex_mci_setup(_ah, _gp, _gb, _gl, _sp) \
|
|
((*(_ah)->ah_btMciSetup)((_ah), (_gp), (_gb), (_gl), (_sp)))
|
|
#define ath_hal_btcoex_mci_send_message(_ah, _h, _f, _p, _l, _wd, _cbt) \
|
|
((*(_ah)->ah_btMciSendMessage)((_ah), (_h), (_f), (_p), (_l), (_wd), (_cbt)))
|
|
#define ath_hal_btcoex_mci_get_interrupt(_ah, _mi, _mm) \
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|
((*(_ah)->ah_btMciGetInterrupt)((_ah), (_mi), (_mm)))
|
|
#define ath_hal_btcoex_mci_state(_ah, _st, _pd) \
|
|
((*(_ah)->ah_btMciState)((_ah), (_st), (_pd)))
|
|
#define ath_hal_btcoex_mci_detach(_ah) \
|
|
((*(_ah)->ah_btMciDetach)((_ah)))
|
|
|
|
#define ath_hal_div_comb_conf_get(_ah, _conf) \
|
|
((*(_ah)->ah_divLnaConfGet)((_ah), (_conf)))
|
|
#define ath_hal_div_comb_conf_set(_ah, _conf) \
|
|
((*(_ah)->ah_divLnaConfSet)((_ah), (_conf)))
|
|
|
|
#endif /* _DEV_ATH_ATHVAR_H */
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