504 lines
14 KiB
C
504 lines
14 KiB
C
/* $NetBSD: rtwvar.h,v 1.22 2005/03/02 05:20:43 dyoung Exp $ */
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/*-
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* Copyright (c) 2004, 2005 David Young. All rights reserved.
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*
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* Driver for the Realtek RTL8180 802.11 MAC/BBP by David Young.
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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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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. The name of David Young may not be used to endorse or promote
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* products derived from this software without specific prior
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* written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY David Young ``AS IS'' AND ANY
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* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
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* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
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* PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL David
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* Young BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
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* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
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* TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
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* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
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* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
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* OF SUCH DAMAGE.
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*/
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#ifndef _DEV_IC_RTWVAR_H_
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#define _DEV_IC_RTWVAR_H_
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#include <sys/queue.h>
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#include <sys/callout.h>
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#ifdef RTW_DEBUG
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#define RTW_DEBUG_TUNE 0x000001
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#define RTW_DEBUG_PKTFILT 0x000002
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#define RTW_DEBUG_XMIT 0x000004
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#define RTW_DEBUG_XMIT_DESC 0x000008
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#define RTW_DEBUG_NODE 0x000010
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#define RTW_DEBUG_PWR 0x000020
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#define RTW_DEBUG_ATTACH 0x000040
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#define RTW_DEBUG_REGDUMP 0x000080
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#define RTW_DEBUG_ACCESS 0x000100
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#define RTW_DEBUG_RESET 0x000200
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#define RTW_DEBUG_INIT 0x000400
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#define RTW_DEBUG_IOSTATE 0x000800
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#define RTW_DEBUG_RECV 0x001000
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#define RTW_DEBUG_RECV_DESC 0x002000
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#define RTW_DEBUG_IO_KICK 0x004000
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#define RTW_DEBUG_INTR 0x008000
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#define RTW_DEBUG_PHY 0x010000
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#define RTW_DEBUG_PHYIO 0x020000
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#define RTW_DEBUG_PHYBITIO 0x040000
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#define RTW_DEBUG_TIMEOUT 0x080000
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#define RTW_DEBUG_BUGS 0x100000
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#define RTW_DEBUG_BEACON 0x200000
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#define RTW_DEBUG_LED 0x400000
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#define RTW_DEBUG_MAX 0x7fffff
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extern int rtw_debug;
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#define RTW_DPRINTF(__flags, __x) \
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if ((rtw_debug & (__flags)) != 0) printf __x
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#define DPRINTF(__sc, __flags, __x) \
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if (((__sc)->sc_ic.ic_if.if_flags & IFF_DEBUG) != 0) \
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RTW_DPRINTF(__flags, __x)
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#define RTW_PRINT_REGS(__regs, __dvname, __where) \
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rtw_print_regs((__regs), (__dvname), (__where))
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#else /* RTW_DEBUG */
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#define RTW_DPRINTF(__flags, __x)
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#define DPRINTF(__sc, __flags, __x)
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#define RTW_PRINT_REGS(__regs, __dvname, __where)
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#endif /* RTW_DEBUG */
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enum rtw_locale {
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RTW_LOCALE_USA = 0,
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RTW_LOCALE_EUROPE,
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RTW_LOCALE_JAPAN,
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RTW_LOCALE_UNKNOWN
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};
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enum rtw_rfchipid {
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RTW_RFCHIPID_RESERVED = 0,
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RTW_RFCHIPID_INTERSIL = 1,
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RTW_RFCHIPID_RFMD = 2,
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RTW_RFCHIPID_PHILIPS = 3,
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RTW_RFCHIPID_MAXIM = 4,
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RTW_RFCHIPID_GCT = 5
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};
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/* sc_flags */
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#define RTW_F_ENABLED 0x00000001 /* chip is enabled */
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#define RTW_F_DIGPHY 0x00000002 /* digital PHY */
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#define RTW_F_DFLANTB 0x00000004 /* B antenna is default */
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#define RTW_F_ANTDIV 0x00000010 /* h/w antenna diversity */
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#define RTW_F_9356SROM 0x00000020 /* 93c56 SROM */
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#define RTW_F_SLEEP 0x00000040 /* chip is asleep */
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#define RTW_F_INVALID 0x00000080 /* chip is absent */
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/* all PHY flags */
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#define RTW_F_ALLPHY (RTW_F_DIGPHY|RTW_F_DFLANTB|RTW_F_ANTDIV)
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enum rtw_access {RTW_ACCESS_NONE = 0,
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RTW_ACCESS_CONFIG = 1,
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RTW_ACCESS_ANAPARM = 2};
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struct rtw_regs {
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bus_space_tag_t r_bt;
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bus_space_handle_t r_bh;
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enum rtw_access r_access;
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};
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#define RTW_SR_GET(sr, ofs) \
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(((sr)->sr_content[(ofs)/2] >> (((ofs) % 2 == 0) ? 0 : 8)) & 0xff)
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#define RTW_SR_GET16(sr, ofs) \
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(RTW_SR_GET((sr), (ofs)) | (RTW_SR_GET((sr), (ofs) + 1) << 8))
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struct rtw_srom {
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uint16_t *sr_content;
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uint16_t sr_size;
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};
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struct rtw_rxsoft {
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struct mbuf *rs_mbuf;
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bus_dmamap_t rs_dmamap;
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};
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struct rtw_txsoft {
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SIMPLEQ_ENTRY(rtw_txsoft) ts_q;
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struct mbuf *ts_mbuf;
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bus_dmamap_t ts_dmamap;
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struct ieee80211_node *ts_ni; /* destination node */
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u_int ts_first; /* 1st hw descriptor */
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u_int ts_last; /* last hw descriptor */
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struct ieee80211_duration ts_d0;
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struct ieee80211_duration ts_dn;
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};
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#define RTW_NTXPRI 4 /* number of Tx priorities */
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#define RTW_TXPRILO 0
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#define RTW_TXPRIMD 1
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#define RTW_TXPRIHI 2
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#define RTW_TXPRIBCN 3 /* beacon priority */
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#define RTW_MAXPKTSEGS 64 /* Max 64 segments per Tx packet */
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#define CASSERT(cond, complaint) complaint[(cond) ? 0 : -1] = complaint[(cond) ? 0 : -1]
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/* Note well: the descriptor rings must begin on RTW_DESC_ALIGNMENT
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* boundaries. I allocate them consecutively from one buffer, so
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* just round up.
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*/
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#define RTW_TXQLENLO 64 /* low-priority queue length */
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#define RTW_TXQLENMD 64 /* medium-priority */
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#define RTW_TXQLENHI 64 /* high-priority */
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#define RTW_TXQLENBCN 2 /* beacon */
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#define RTW_NTXDESCLO RTW_TXQLENLO
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#define RTW_NTXDESCMD RTW_TXQLENMD
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#define RTW_NTXDESCHI RTW_TXQLENHI
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#define RTW_NTXDESCBCN RTW_TXQLENBCN
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#define RTW_NTXDESCTOTAL (RTW_NTXDESCLO + RTW_NTXDESCMD + \
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RTW_NTXDESCHI + RTW_NTXDESCBCN)
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#define RTW_RXQLEN 64
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struct rtw_rxdesc_blk {
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struct rtw_rxdesc *rdb_desc;
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u_int rdb_next;
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u_int rdb_ndesc;
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bus_dma_tag_t rdb_dmat;
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bus_dmamap_t rdb_dmamap;
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};
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struct rtw_txdesc_blk {
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u_int tdb_ndesc;
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u_int tdb_next;
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u_int tdb_nfree;
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bus_dma_tag_t tdb_dmat;
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bus_dmamap_t tdb_dmamap;
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bus_addr_t tdb_physbase;
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bus_addr_t tdb_ofs;
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struct rtw_txdesc *tdb_desc;
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};
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#define RTW_NEXT_IDX(__htc, __idx) (((__idx) + 1) % (__htc)->tdb_ndesc)
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#define RTW_NEXT_DESC(__htc, __idx) \
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((__htc)->tdb_physbase + \
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sizeof(struct rtw_txdesc) * RTW_NEXT_IDX((__htc), (__idx)))
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SIMPLEQ_HEAD(rtw_txq, rtw_txsoft);
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struct rtw_txsoft_blk {
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/* dirty/free s/w descriptors */
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struct rtw_txq tsb_dirtyq;
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struct rtw_txq tsb_freeq;
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u_int tsb_ndesc;
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int tsb_tx_timer;
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struct rtw_txsoft *tsb_desc;
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uint8_t tsb_poll;
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};
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struct rtw_descs {
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struct rtw_txdesc hd_txlo[RTW_NTXDESCLO];
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struct rtw_txdesc hd_txmd[RTW_NTXDESCMD];
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struct rtw_txdesc hd_txhi[RTW_NTXDESCMD];
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struct rtw_rxdesc hd_rx[RTW_RXQLEN];
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struct rtw_txdesc hd_bcn[RTW_NTXDESCBCN];
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};
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#define RTW_DESC_OFFSET(ring, i) offsetof(struct rtw_descs, ring[i])
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#define RTW_RING_OFFSET(ring) RTW_DESC_OFFSET(ring, 0)
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#define RTW_RING_BASE(sc, ring) ((sc)->sc_desc_physaddr + \
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RTW_RING_OFFSET(ring))
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/* Radio capture format for RTL8180. */
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#define RTW_RX_RADIOTAP_PRESENT \
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((1 << IEEE80211_RADIOTAP_TSFT) | \
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(1 << IEEE80211_RADIOTAP_FLAGS) | \
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(1 << IEEE80211_RADIOTAP_RATE) | \
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(1 << IEEE80211_RADIOTAP_CHANNEL) | \
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(1 << IEEE80211_RADIOTAP_LOCK_QUALITY) | \
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(1 << IEEE80211_RADIOTAP_DB_ANTSIGNAL) | \
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0)
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struct rtw_rx_radiotap_header {
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struct ieee80211_radiotap_header rr_ihdr;
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uint64_t rr_tsft;
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uint8_t rr_flags;
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uint8_t rr_rate;
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uint16_t rr_chan_freq;
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uint16_t rr_chan_flags;
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uint16_t rr_barker_lock;
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uint8_t rr_antsignal;
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} __attribute__((__packed__));
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#define RTW_TX_RADIOTAP_PRESENT \
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((1 << IEEE80211_RADIOTAP_FLAGS) | \
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(1 << IEEE80211_RADIOTAP_RATE) | \
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(1 << IEEE80211_RADIOTAP_CHANNEL) | \
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0)
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struct rtw_tx_radiotap_header {
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struct ieee80211_radiotap_header rt_ihdr;
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uint8_t rt_flags;
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uint8_t rt_rate;
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uint16_t rt_chan_freq;
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uint16_t rt_chan_flags;
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} __attribute__((__packed__));
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enum rtw_attach_state {FINISHED, FINISH_DESCMAP_LOAD, FINISH_DESCMAP_CREATE,
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FINISH_DESC_MAP, FINISH_DESC_ALLOC, FINISH_RXMAPS_CREATE,
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FINISH_TXMAPS_CREATE, FINISH_RESET, FINISH_READ_SROM, FINISH_PARSE_SROM,
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FINISH_RF_ATTACH, FINISH_ID_STA, FINISH_TXDESCBLK_SETUP,
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FINISH_TXCTLBLK_SETUP, DETACHED};
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struct rtw_hooks {
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void *rh_shutdown; /* shutdown hook */
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void *rh_power; /* power management hook */
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};
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struct rtw_mtbl {
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int (*mt_newstate)(struct ieee80211com *,
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enum ieee80211_state, int);
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void (*mt_recv_mgmt)(struct ieee80211com *,
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struct mbuf *, struct ieee80211_node *,
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int, int, uint32_t);
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struct ieee80211_node *(*mt_node_alloc)(struct ieee80211com *);
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void (*mt_node_free)(struct ieee80211com *,
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struct ieee80211_node *);
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};
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enum rtw_pwrstate { RTW_OFF = 0, RTW_SLEEP, RTW_ON };
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typedef void (*rtw_continuous_tx_cb_t)(void *arg, int);
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struct rtw_phy {
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struct rtw_rf *p_rf;
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struct rtw_regs *p_regs;
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};
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struct rtw_bbpset {
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u_int bb_antatten;
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u_int bb_chestlim;
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u_int bb_chsqlim;
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u_int bb_ifagcdet;
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u_int bb_ifagcini;
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u_int bb_ifagclimit;
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u_int bb_lnadet;
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u_int bb_sys1;
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u_int bb_sys2;
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u_int bb_sys3;
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u_int bb_trl;
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u_int bb_txagc;
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};
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struct rtw_rf {
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void (*rf_destroy)(struct rtw_rf *);
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/* args: frequency, txpower, power state */
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int (*rf_init)(struct rtw_rf *, u_int, uint8_t,
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enum rtw_pwrstate);
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/* arg: power state */
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int (*rf_pwrstate)(struct rtw_rf *, enum rtw_pwrstate);
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/* arg: frequency */
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int (*rf_tune)(struct rtw_rf *, u_int);
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/* arg: txpower */
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int (*rf_txpower)(struct rtw_rf *, uint8_t);
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rtw_continuous_tx_cb_t rf_continuous_tx_cb;
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void *rf_continuous_tx_arg;
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struct rtw_bbpset rf_bbpset;
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};
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static __inline void
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rtw_rf_destroy(struct rtw_rf *rf)
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{
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(*rf->rf_destroy)(rf);
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}
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static __inline int
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rtw_rf_init(struct rtw_rf *rf, u_int freq, uint8_t opaque_txpower,
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enum rtw_pwrstate power)
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{
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return (*rf->rf_init)(rf, freq, opaque_txpower, power);
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}
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static __inline int
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rtw_rf_pwrstate(struct rtw_rf *rf, enum rtw_pwrstate power)
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{
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return (*rf->rf_pwrstate)(rf, power);
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}
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static __inline int
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rtw_rf_tune(struct rtw_rf *rf, u_int freq)
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{
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return (*rf->rf_tune)(rf, freq);
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}
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static __inline int
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rtw_rf_txpower(struct rtw_rf *rf, uint8_t opaque_txpower)
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{
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return (*rf->rf_txpower)(rf, opaque_txpower);
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}
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typedef int (*rtw_rf_write_t)(struct rtw_regs *, enum rtw_rfchipid, u_int,
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uint32_t);
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struct rtw_rfbus {
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struct rtw_regs *b_regs;
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rtw_rf_write_t b_write;
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};
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static __inline int
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rtw_rfbus_write(struct rtw_rfbus *bus, enum rtw_rfchipid rfchipid, u_int addr,
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uint32_t val)
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{
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return (*bus->b_write)(bus->b_regs, rfchipid, addr, val);
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}
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struct rtw_max2820 {
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struct rtw_rf mx_rf;
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struct rtw_rfbus mx_bus;
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int mx_is_a; /* 1: MAX2820A/MAX2821A */
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};
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struct rtw_sa2400 {
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struct rtw_rf sa_rf;
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struct rtw_rfbus sa_bus;
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int sa_digphy; /* 1: digital PHY */
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};
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typedef void (*rtw_pwrstate_t)(struct rtw_regs *, enum rtw_pwrstate, int, int);
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union rtw_keys {
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uint8_t rk_keys[4][16];
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uint32_t rk_words[16];
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};
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#define RTW_LED_SLOW_TICKS MAX(1, hz/2)
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#define RTW_LED_FAST_TICKS MAX(1, hz/10)
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struct rtw_led_state {
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#define RTW_LED0 0x1
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#define RTW_LED1 0x2
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uint8_t ls_slowblink:2;
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uint8_t ls_actblink:2;
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uint8_t ls_default:2;
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uint8_t ls_state;
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uint8_t ls_event;
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#define RTW_LED_S_RX 0x1
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#define RTW_LED_S_TX 0x2
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#define RTW_LED_S_SLOW 0x4
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struct callout ls_slow_ch;
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struct callout ls_fast_ch;
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};
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struct rtw_softc {
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struct device sc_dev;
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struct ieee80211com sc_ic;
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struct rtw_regs sc_regs;
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bus_dma_tag_t sc_dmat;
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uint32_t sc_flags;
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enum rtw_attach_state sc_attach_state;
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enum rtw_rfchipid sc_rfchipid;
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enum rtw_locale sc_locale;
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uint8_t sc_phydelay;
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/* s/w Tx/Rx descriptors */
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struct rtw_txsoft_blk sc_txsoft_blk[RTW_NTXPRI];
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struct rtw_txdesc_blk sc_txdesc_blk[RTW_NTXPRI];
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struct rtw_rxsoft sc_rxsoft[RTW_RXQLEN];
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struct rtw_rxdesc_blk sc_rxdesc_blk;
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struct rtw_descs *sc_descs;
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bus_dma_segment_t sc_desc_segs;
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int sc_desc_nsegs;
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bus_dmamap_t sc_desc_dmamap;
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#define sc_desc_physaddr sc_desc_dmamap->dm_segs[0].ds_addr
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struct rtw_srom sc_srom;
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enum rtw_pwrstate sc_pwrstate;
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rtw_pwrstate_t sc_pwrstate_cb;
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struct rtw_rf *sc_rf;
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uint16_t sc_inten;
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/* interrupt acknowledge hook */
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void (*sc_intr_ack)(struct rtw_regs *);
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int (*sc_enable)(struct rtw_softc *);
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void (*sc_disable)(struct rtw_softc *);
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void (*sc_power)(struct rtw_softc *, int);
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struct rtw_mtbl sc_mtbl;
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struct rtw_hooks sc_hooks;
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caddr_t sc_radiobpf;
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struct callout sc_scan_ch;
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u_int sc_cur_chan;
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uint32_t sc_tsfth; /* most significant TSFT bits */
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uint32_t sc_rcr; /* RTW_RCR */
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uint8_t sc_csthr; /* carrier-sense threshold */
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int sc_do_tick; /* indicate 1s ticks */
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struct timeval sc_tick0; /* first tick */
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uint8_t sc_rev; /* PCI/Cardbus revision */
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uint32_t sc_anaparm; /* register RTW_ANAPARM */
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union {
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struct rtw_rx_radiotap_header tap;
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uint8_t pad[64];
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} sc_rxtapu;
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union {
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struct rtw_tx_radiotap_header tap;
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uint8_t pad[64];
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} sc_txtapu;
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union rtw_keys sc_keys;
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int sc_txkey;
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struct ifqueue sc_beaconq;
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struct rtw_led_state sc_led_state;
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int sc_hwverid;
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};
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#define sc_if sc_ic.ic_if
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#define sc_rxtap sc_rxtapu.tap
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#define sc_txtap sc_txtapu.tap
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extern int rtw_host_rfio;
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void rtw_txdac_enable(struct rtw_softc *, int);
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void rtw_anaparm_enable(struct rtw_regs *, int);
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void rtw_config0123_enable(struct rtw_regs *, int);
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void rtw_continuous_tx_enable(struct rtw_softc *, int);
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void rtw_set_access(struct rtw_regs *, enum rtw_access);
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void rtw_attach(struct rtw_softc *);
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int rtw_detach(struct rtw_softc *);
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int rtw_intr(void *);
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void rtw_disable(struct rtw_softc *);
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int rtw_enable(struct rtw_softc *);
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int rtw_activate(struct device *, enum devact);
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void rtw_power(int, void *);
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void rtw_shutdown(void *);
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const char *rtw_pwrstate_string(enum rtw_pwrstate);
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#endif /* _DEV_IC_RTWVAR_H_ */
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