rtwvar.h revision 1.1
1 1.1 dyoung /* $NetBSD: rtwvar.h,v 1.1 2004/09/26 02:29:15 dyoung Exp $ */ 2 1.1 dyoung /*- 3 1.1 dyoung * Copyright (c) 2004, 2005 David Young. All rights reserved. 4 1.1 dyoung * 5 1.1 dyoung * Driver for the Realtek RTL8180 802.11 MAC/BBP by David Young. 6 1.1 dyoung * 7 1.1 dyoung * Redistribution and use in source and binary forms, with or without 8 1.1 dyoung * modification, are permitted provided that the following conditions 9 1.1 dyoung * are met: 10 1.1 dyoung * 1. Redistributions of source code must retain the above copyright 11 1.1 dyoung * notice, this list of conditions and the following disclaimer. 12 1.1 dyoung * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 dyoung * notice, this list of conditions and the following disclaimer in the 14 1.1 dyoung * documentation and/or other materials provided with the distribution. 15 1.1 dyoung * 3. The name of David Young may not be used to endorse or promote 16 1.1 dyoung * products derived from this software without specific prior 17 1.1 dyoung * written permission. 18 1.1 dyoung * 19 1.1 dyoung * THIS SOFTWARE IS PROVIDED BY David Young ``AS IS'' AND ANY 20 1.1 dyoung * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, 21 1.1 dyoung * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A 22 1.1 dyoung * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL David 23 1.1 dyoung * Young BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, 24 1.1 dyoung * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED 25 1.1 dyoung * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 26 1.1 dyoung * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND 27 1.1 dyoung * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 28 1.1 dyoung * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 29 1.1 dyoung * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY 30 1.1 dyoung * OF SUCH DAMAGE. 31 1.1 dyoung */ 32 1.1 dyoung 33 1.1 dyoung #ifndef _DEV_IC_RTWVAR_H_ 34 1.1 dyoung #define _DEV_IC_RTWVAR_H_ 35 1.1 dyoung 36 1.1 dyoung #include <sys/queue.h> 37 1.1 dyoung #include <sys/callout.h> 38 1.1 dyoung 39 1.1 dyoung #ifdef RTW_DEBUG 40 1.1 dyoung extern int rtw_debug; 41 1.1 dyoung #define RTW_DPRINTF(x) if (rtw_debug > 0) printf x 42 1.1 dyoung #define RTW_DPRINTF2(x) if (rtw_debug > 1) printf x 43 1.1 dyoung #define RTW_DPRINTF3(x) if (rtw_debug > 2) printf x 44 1.1 dyoung #define DPRINTF(sc, x) if ((sc)->sc_ic.ic_if.if_flags & IFF_DEBUG) printf x 45 1.1 dyoung #define DPRINTF2(sc, x) if ((sc)->sc_ic.ic_if.if_flags & IFF_DEBUG) RTW_DPRINTF2(x) 46 1.1 dyoung #define DPRINTF3(sc, x) if ((sc)->sc_ic.ic_if.if_flags & IFF_DEBUG) RTW_DPRINTF3(x) 47 1.1 dyoung #else /* RTW_DEBUG */ 48 1.1 dyoung #define RTW_DPRINTF(x) 49 1.1 dyoung #define RTW_DPRINTF2(x) 50 1.1 dyoung #define RTW_DPRINTF3(x) 51 1.1 dyoung #define DPRINTF(sc, x) 52 1.1 dyoung #define DPRINTF2(sc, x) 53 1.1 dyoung #define DPRINTF3(sc, x) 54 1.1 dyoung #endif /* RTW_DEBUG */ 55 1.1 dyoung 56 1.1 dyoung #if 0 57 1.1 dyoung enum rtw_rftype { 58 1.1 dyoung RTW_RFTYPE_INTERSIL = 0, 59 1.1 dyoung RTW_RFTYPE_RFMD, 60 1.1 dyoung RTW_RFTYPE_PHILIPS, 61 1.1 dyoung RTW_RFTYPE_MAXIM 62 1.1 dyoung }; 63 1.1 dyoung #endif 64 1.1 dyoung 65 1.1 dyoung enum rtw_locale { 66 1.1 dyoung RTW_LOCALE_USA = 0, 67 1.1 dyoung RTW_LOCALE_EUROPE, 68 1.1 dyoung RTW_LOCALE_JAPAN, 69 1.1 dyoung RTW_LOCALE_UNKNOWN 70 1.1 dyoung }; 71 1.1 dyoung 72 1.1 dyoung enum rtw_rfchipid { 73 1.1 dyoung RTW_RFCHIPID_RESERVED = 0, 74 1.1 dyoung RTW_RFCHIPID_INTERSIL = 1, 75 1.1 dyoung RTW_RFCHIPID_RFMD = 2, 76 1.1 dyoung RTW_RFCHIPID_PHILIPS = 3, 77 1.1 dyoung RTW_RFCHIPID_MAXIM = 4, 78 1.1 dyoung RTW_RFCHIPID_GCT = 5 79 1.1 dyoung }; 80 1.1 dyoung 81 1.1 dyoung /* sc_flags */ 82 1.1 dyoung #define RTW_F_ENABLED 0x00000001 /* chip is enabled */ 83 1.1 dyoung #define RTW_F_DIGPHY 0x00000002 /* digital PHY */ 84 1.1 dyoung #define RTW_F_DFLANTB 0x00000004 /* B antenna is default */ 85 1.1 dyoung #define RTW_F_ANTDIV 0x00000010 /* h/w antenna diversity */ 86 1.1 dyoung #define RTW_F_9356SROM 0x00000020 /* 93c56 SROM */ 87 1.1 dyoung #define RTW_F_SLEEP 0x00000040 /* chip is enabled */ 88 1.1 dyoung /* all PHY flags */ 89 1.1 dyoung #define RTW_F_ALLPHY (RTW_F_DIGPHY|RTW_F_DFLANTB|RTW_F_ANTDIV) 90 1.1 dyoung 91 1.1 dyoung struct rtw_regs { 92 1.1 dyoung bus_space_tag_t r_bt; 93 1.1 dyoung bus_space_handle_t r_bh; 94 1.1 dyoung }; 95 1.1 dyoung 96 1.1 dyoung #define RTW_SR_GET(sr, ofs) \ 97 1.1 dyoung (((sr)->sr_content[(ofs)/2] >> (((ofs) % 2 == 0) ? 0 : 8)) & 0xff) 98 1.1 dyoung 99 1.1 dyoung #define RTW_SR_GET16(sr, ofs) \ 100 1.1 dyoung (RTW_SR_GET((sr), (ofs)) | (RTW_SR_GET((sr), (ofs) + 1) << 8)) 101 1.1 dyoung 102 1.1 dyoung struct rtw_srom { 103 1.1 dyoung u_int16_t *sr_content; 104 1.1 dyoung u_int16_t sr_size; 105 1.1 dyoung }; 106 1.1 dyoung 107 1.1 dyoung struct rtw_rxctl { 108 1.1 dyoung struct mbuf *srx_mbuf; 109 1.1 dyoung bus_dmamap_t srx_dmamap; 110 1.1 dyoung }; 111 1.1 dyoung 112 1.1 dyoung struct rtw_txctl { 113 1.1 dyoung SIMPLEQ_ENTRY(rtw_txctl) stx_q; 114 1.1 dyoung struct mbuf *stx_mbuf; 115 1.1 dyoung bus_dmamap_t stx_dmamap; 116 1.1 dyoung struct ieee80211_node *stx_ni; /* destination node */ 117 1.1 dyoung u_int stx_first; /* 1st hw descriptor */ 118 1.1 dyoung u_int stx_last; /* last hw descriptor */ 119 1.1 dyoung }; 120 1.1 dyoung 121 1.1 dyoung #define RTW_NTXPRI 4 /* number of Tx priorities */ 122 1.1 dyoung #define RTW_TXPRILO 0 123 1.1 dyoung #define RTW_TXPRIMD 1 124 1.1 dyoung #define RTW_TXPRIHI 2 125 1.1 dyoung #define RTW_TXPRIBCN 3 /* beacon priority */ 126 1.1 dyoung 127 1.1 dyoung #define RTW_MAXPKTSEGS 32 /* max 32 segments per Tx packet */ 128 1.1 dyoung 129 1.1 dyoung #define CASSERT(cond, complaint) complaint[(cond) ? 0 : -1] = complaint[(cond) ? 0 : -1] 130 1.1 dyoung 131 1.1 dyoung #define RTW_NTXDESC_ROUNDUP(n) \ 132 1.1 dyoung roundup(n, RTW_DESC_ALIGNMENT / sizeof(struct rtw_txdesc)) 133 1.1 dyoung 134 1.1 dyoung #define RTW_TXQLEN_ROUNDUP(n) \ 135 1.1 dyoung (RTW_NTXDESC_ROUNDUP(n * RTW_MAXPKTSEGS) / RTW_MAXPKTSEGS) 136 1.1 dyoung 137 1.1 dyoung #define RTW_RXQLEN_ROUNDUP(n) \ 138 1.1 dyoung roundup(n, RTW_DESC_ALIGNMENT / sizeof(struct rtw_rxctl)) 139 1.1 dyoung 140 1.1 dyoung /* The descriptor rings must begin on RTW_DESC_ALIGNMENT boundaries. 141 1.1 dyoung * I allocate them consecutively from one buffer, so just round up. 142 1.1 dyoung */ 143 1.1 dyoung #define RTW_TXQLENLO RTW_TXQLEN_ROUNDUP(64) /* high-priority queue length */ 144 1.1 dyoung #define RTW_TXQLENMD RTW_TXQLEN_ROUNDUP(32) /* medium-priority */ 145 1.1 dyoung #define RTW_TXQLENHI RTW_TXQLEN_ROUNDUP(16) /* high-priority */ 146 1.1 dyoung #define RTW_TXQLENBCN 1 /* beacon */ 147 1.1 dyoung 148 1.1 dyoung #define RTW_NTXDESCLO (RTW_TXQLENLO * RTW_MAXPKTSEGS) 149 1.1 dyoung #define RTW_NTXDESCMD (RTW_TXQLENMD * RTW_MAXPKTSEGS) 150 1.1 dyoung #define RTW_NTXDESCHI (RTW_TXQLENHI * RTW_MAXPKTSEGS) 151 1.1 dyoung #define RTW_NTXDESCBCN (RTW_TXQLENBCN * RTW_MAXPKTSEGS) 152 1.1 dyoung 153 1.1 dyoung #define RTW_NTXDESCTOTAL (RTW_NTXDESCLO + RTW_NTXDESCMD + \ 154 1.1 dyoung RTW_NTXDESCHI + RTW_NTXDESCBCN) 155 1.1 dyoung 156 1.1 dyoung #define RTW_RXQLEN RTW_RXQLEN_ROUNDUP(32) 157 1.1 dyoung #define RTW_NRXDESC RTW_RXQLEN 158 1.1 dyoung 159 1.1 dyoung struct rtw_txdesc_blk { 160 1.1 dyoung u_int htc_ndesc; 161 1.1 dyoung u_int htc_next; 162 1.1 dyoung u_int htc_nfree; 163 1.1 dyoung bus_addr_t htc_physbase; 164 1.1 dyoung bus_addr_t htc_ofs; 165 1.1 dyoung struct rtw_txdesc *htc_desc; 166 1.1 dyoung }; 167 1.1 dyoung 168 1.1 dyoung #define RTW_NEXT_DESC(htc, idx) \ 169 1.1 dyoung (htc->htc_physbase + \ 170 1.1 dyoung sizeof(struct rtw_txdesc) * ((idx + 1) % htc->htc_ndesc)) 171 1.1 dyoung 172 1.1 dyoung SIMPLEQ_HEAD(rtw_txq, rtw_txctl); 173 1.1 dyoung 174 1.1 dyoung struct rtw_txctl_blk { 175 1.1 dyoung /* dirty/free s/w descriptors */ 176 1.1 dyoung struct rtw_txq stc_dirtyq; 177 1.1 dyoung struct rtw_txq stc_freeq; 178 1.1 dyoung u_int stc_ndesc; 179 1.1 dyoung struct rtw_txctl *stc_desc; 180 1.1 dyoung }; 181 1.1 dyoung 182 1.1 dyoung struct rtw_descs { 183 1.1 dyoung struct rtw_txdesc hd_txlo[RTW_NTXDESCLO]; 184 1.1 dyoung struct rtw_txdesc hd_txmd[RTW_NTXDESCMD]; 185 1.1 dyoung struct rtw_txdesc hd_txhi[RTW_NTXDESCMD]; 186 1.1 dyoung struct rtw_rxdesc hd_rx[RTW_NRXDESC]; 187 1.1 dyoung struct rtw_txdesc hd_bcn[RTW_NTXDESCBCN]; 188 1.1 dyoung }; 189 1.1 dyoung #define RTW_DESC_OFFSET(ring, i) offsetof(struct rtw_descs, ring[i]) 190 1.1 dyoung #define RTW_RING_OFFSET(ring) RTW_DESC_OFFSET(ring, 0) 191 1.1 dyoung #define RTW_RING_BASE(sc, ring) ((sc)->sc_desc_physaddr + \ 192 1.1 dyoung RTW_RING_OFFSET(ring)) 193 1.1 dyoung 194 1.1 dyoung /* Radio capture format for RTL8180. */ 195 1.1 dyoung 196 1.1 dyoung #define RTW_RX_RADIOTAP_PRESENT \ 197 1.1 dyoung ((1 << IEEE80211_RADIOTAP_FLAGS) | (1 << IEEE80211_RADIOTAP_RATE) | \ 198 1.1 dyoung (1 << IEEE80211_RADIOTAP_CHANNEL) | \ 199 1.1 dyoung (1 << IEEE80211_RADIOTAP_DB_ANTSIGNAL)) 200 1.1 dyoung 201 1.1 dyoung struct rtw_rx_radiotap_header { 202 1.1 dyoung struct ieee80211_radiotap_header rr_ihdr; 203 1.1 dyoung u_int8_t rr_flags; 204 1.1 dyoung u_int8_t rr_rate; 205 1.1 dyoung u_int16_t rr_chan_freq; 206 1.1 dyoung u_int16_t rr_chan_flags; 207 1.1 dyoung u_int8_t rr_antsignal; 208 1.1 dyoung } __attribute__((__packed__)); 209 1.1 dyoung 210 1.1 dyoung #define RTW_TX_RADIOTAP_PRESENT ((1 << IEEE80211_RADIOTAP_FLAGS) | \ 211 1.1 dyoung (1 << IEEE80211_RADIOTAP_RATE) | \ 212 1.1 dyoung (1 << IEEE80211_RADIOTAP_CHANNEL)) 213 1.1 dyoung 214 1.1 dyoung struct rtw_tx_radiotap_header { 215 1.1 dyoung struct ieee80211_radiotap_header rt_ihdr; 216 1.1 dyoung u_int8_t rt_flags; 217 1.1 dyoung u_int8_t rt_rate; 218 1.1 dyoung u_int16_t rt_chan_freq; 219 1.1 dyoung u_int16_t rt_chan_flags; 220 1.1 dyoung } __attribute__((__packed__)); 221 1.1 dyoung 222 1.1 dyoung enum rtw_attach_state {FINISHED, FINISH_DESCMAP_LOAD, FINISH_DESCMAP_CREATE, 223 1.1 dyoung FINISH_DESC_MAP, FINISH_DESC_ALLOC, FINISH_RXMAPS_CREATE, 224 1.1 dyoung FINISH_TXMAPS_CREATE, FINISH_RESET, FINISH_READ_SROM, FINISH_PARSE_SROM, 225 1.1 dyoung FINISH_RF_ATTACH, FINISH_ID_STA, FINISH_TXDESCBLK_SETUP, 226 1.1 dyoung FINISH_TXCTLBLK_SETUP, DETACHED}; 227 1.1 dyoung 228 1.1 dyoung struct rtw_hooks { 229 1.1 dyoung void *rh_shutdown; /* shutdown hook */ 230 1.1 dyoung void *rh_power; /* power management hook */ 231 1.1 dyoung }; 232 1.1 dyoung 233 1.1 dyoung struct rtw_mtbl { 234 1.1 dyoung int (*mt_newstate)(struct ieee80211com *, 235 1.1 dyoung enum ieee80211_state, int); 236 1.1 dyoung void (*mt_recv_mgmt)(struct ieee80211com *, 237 1.1 dyoung struct mbuf *, struct ieee80211_node *, 238 1.1 dyoung int, int, u_int32_t); 239 1.1 dyoung struct ieee80211_node *(*mt_node_alloc)(struct ieee80211com *); 240 1.1 dyoung void (*mt_node_free)(struct ieee80211com *, 241 1.1 dyoung struct ieee80211_node *); 242 1.1 dyoung }; 243 1.1 dyoung 244 1.1 dyoung enum rtw_pwrstate { RTW_OFF = 0, RTW_SLEEP, RTW_ON }; 245 1.1 dyoung 246 1.1 dyoung typedef void (*rtw_continuous_tx_cb_t)(void *arg, int); 247 1.1 dyoung 248 1.1 dyoung struct rtw_phy { 249 1.1 dyoung struct rtw_rf *p_rf; 250 1.1 dyoung struct rtw_regs *p_regs; 251 1.1 dyoung }; 252 1.1 dyoung 253 1.1 dyoung struct rtw_bbpset { 254 1.1 dyoung u_int bb_antatten; 255 1.1 dyoung u_int bb_chestlim; 256 1.1 dyoung u_int bb_chsqlim; 257 1.1 dyoung u_int bb_ifagcdet; 258 1.1 dyoung u_int bb_ifagcini; 259 1.1 dyoung u_int bb_ifagclimit; 260 1.1 dyoung u_int bb_lnadet; 261 1.1 dyoung u_int bb_sys1; 262 1.1 dyoung u_int bb_sys2; 263 1.1 dyoung u_int bb_sys3; 264 1.1 dyoung u_int bb_trl; 265 1.1 dyoung u_int bb_txagc; 266 1.1 dyoung }; 267 1.1 dyoung 268 1.1 dyoung struct rtw_rf { 269 1.1 dyoung void (*rf_destroy)(struct rtw_rf *); 270 1.1 dyoung /* args: frequency, txpower, power state */ 271 1.1 dyoung int (*rf_init)(struct rtw_rf *, u_int, u_int8_t, 272 1.1 dyoung enum rtw_pwrstate); 273 1.1 dyoung /* arg: power state */ 274 1.1 dyoung int (*rf_pwrstate)(struct rtw_rf *, enum rtw_pwrstate); 275 1.1 dyoung /* arg: frequency */ 276 1.1 dyoung int (*rf_tune)(struct rtw_rf *, u_int); 277 1.1 dyoung /* arg: txpower */ 278 1.1 dyoung int (*rf_txpower)(struct rtw_rf *, u_int8_t); 279 1.1 dyoung rtw_continuous_tx_cb_t rf_continuous_tx_cb; 280 1.1 dyoung void *rf_continuous_tx_arg; 281 1.1 dyoung struct rtw_bbpset rf_bbpset; 282 1.1 dyoung }; 283 1.1 dyoung 284 1.1 dyoung static __inline void 285 1.1 dyoung rtw_rf_destroy(struct rtw_rf *rf) 286 1.1 dyoung { 287 1.1 dyoung (*rf->rf_destroy)(rf); 288 1.1 dyoung } 289 1.1 dyoung 290 1.1 dyoung static __inline int 291 1.1 dyoung rtw_rf_init(struct rtw_rf *rf, u_int freq, u_int8_t opaque_txpower, 292 1.1 dyoung enum rtw_pwrstate power) 293 1.1 dyoung { 294 1.1 dyoung return (*rf->rf_init)(rf, freq, opaque_txpower, power); 295 1.1 dyoung } 296 1.1 dyoung 297 1.1 dyoung static __inline int 298 1.1 dyoung rtw_rf_pwrstate(struct rtw_rf *rf, enum rtw_pwrstate power) 299 1.1 dyoung { 300 1.1 dyoung return (*rf->rf_pwrstate)(rf, power); 301 1.1 dyoung } 302 1.1 dyoung 303 1.1 dyoung static __inline int 304 1.1 dyoung rtw_rf_tune(struct rtw_rf *rf, u_int freq) 305 1.1 dyoung { 306 1.1 dyoung return (*rf->rf_tune)(rf, freq); 307 1.1 dyoung } 308 1.1 dyoung 309 1.1 dyoung static __inline int 310 1.1 dyoung rtw_rf_txpower(struct rtw_rf *rf, u_int8_t opaque_txpower) 311 1.1 dyoung { 312 1.1 dyoung return (*rf->rf_txpower)(rf, opaque_txpower); 313 1.1 dyoung } 314 1.1 dyoung 315 1.1 dyoung typedef int (*rtw_rf_write_t)(struct rtw_regs *, enum rtw_rfchipid, u_int, 316 1.1 dyoung u_int32_t); 317 1.1 dyoung 318 1.1 dyoung struct rtw_rfbus { 319 1.1 dyoung struct rtw_regs *b_regs; 320 1.1 dyoung rtw_rf_write_t b_write; 321 1.1 dyoung }; 322 1.1 dyoung 323 1.1 dyoung static __inline int 324 1.1 dyoung rtw_rfbus_write(struct rtw_rfbus *bus, enum rtw_rfchipid rfchipid, u_int addr, 325 1.1 dyoung u_int32_t val) 326 1.1 dyoung { 327 1.1 dyoung return (*bus->b_write)(bus->b_regs, rfchipid, addr, val); 328 1.1 dyoung } 329 1.1 dyoung 330 1.1 dyoung struct rtw_max2820 { 331 1.1 dyoung struct rtw_rf mx_rf; 332 1.1 dyoung struct rtw_rfbus mx_bus; 333 1.1 dyoung int mx_is_a; /* 1: MAX2820A/MAX2821A */ 334 1.1 dyoung }; 335 1.1 dyoung 336 1.1 dyoung struct rtw_sa2400 { 337 1.1 dyoung struct rtw_rf sa_rf; 338 1.1 dyoung struct rtw_rfbus sa_bus; 339 1.1 dyoung int sa_digphy; /* 1: digital PHY */ 340 1.1 dyoung }; 341 1.1 dyoung 342 1.1 dyoung typedef void (*rtw_pwrstate_t)(struct rtw_regs *, enum rtw_pwrstate, int); 343 1.1 dyoung 344 1.1 dyoung struct rtw_softc { 345 1.1 dyoung struct device sc_dev; 346 1.1 dyoung struct ieee80211com sc_ic; 347 1.1 dyoung struct rtw_regs sc_regs; 348 1.1 dyoung bus_dma_tag_t sc_dmat; 349 1.1 dyoung u_int32_t sc_flags; 350 1.1 dyoung 351 1.1 dyoung #if 0 352 1.1 dyoung enum rtw_rftype sc_rftype; 353 1.1 dyoung #endif 354 1.1 dyoung enum rtw_attach_state sc_attach_state; 355 1.1 dyoung enum rtw_rfchipid sc_rfchipid; 356 1.1 dyoung enum rtw_locale sc_locale; 357 1.1 dyoung u_int8_t sc_phydelay; 358 1.1 dyoung 359 1.1 dyoung /* s/w Tx/Rx descriptors */ 360 1.1 dyoung struct rtw_txctl_blk sc_txctl_blk[RTW_NTXPRI]; 361 1.1 dyoung struct rtw_rxctl sc_rxctl[RTW_RXQLEN]; 362 1.1 dyoung u_int sc_txq; 363 1.1 dyoung u_int sc_txnext; 364 1.1 dyoung 365 1.1 dyoung struct rtw_txdesc_blk sc_txdesc_blk[RTW_NTXPRI]; 366 1.1 dyoung struct rtw_rxdesc *sc_rxdesc; 367 1.1 dyoung u_int sc_rxnext; 368 1.1 dyoung 369 1.1 dyoung struct rtw_descs *sc_descs; 370 1.1 dyoung 371 1.1 dyoung bus_dma_segment_t sc_desc_segs; 372 1.1 dyoung int sc_desc_nsegs; 373 1.1 dyoung bus_dmamap_t sc_desc_dmamap; 374 1.1 dyoung #define sc_desc_physaddr sc_desc_dmamap->dm_segs[0].ds_addr 375 1.1 dyoung 376 1.1 dyoung struct rtw_srom sc_srom; 377 1.1 dyoung 378 1.1 dyoung enum rtw_pwrstate sc_pwrstate; 379 1.1 dyoung 380 1.1 dyoung rtw_pwrstate_t sc_pwrstate_cb; 381 1.1 dyoung 382 1.1 dyoung struct rtw_rf *sc_rf; 383 1.1 dyoung 384 1.1 dyoung u_int16_t sc_inten; 385 1.1 dyoung 386 1.1 dyoung /* interrupt acknowledge hook */ 387 1.1 dyoung void (*sc_intr_ack) __P((struct rtw_regs *)); 388 1.1 dyoung 389 1.1 dyoung int (*sc_enable)(struct rtw_softc *); 390 1.1 dyoung void (*sc_disable)(struct rtw_softc *); 391 1.1 dyoung void (*sc_power)(struct rtw_softc *, int); 392 1.1 dyoung struct rtw_mtbl sc_mtbl; 393 1.1 dyoung struct rtw_hooks sc_hooks; 394 1.1 dyoung 395 1.1 dyoung caddr_t sc_radiobpf; 396 1.1 dyoung 397 1.1 dyoung struct callout sc_scan_ch; 398 1.1 dyoung u_int sc_cur_chan; 399 1.1 dyoung 400 1.1 dyoung u_int32_t sc_tsfth; /* most significant TSFT bits */ 401 1.1 dyoung u_int32_t sc_rcr; /* RTW_RCR */ 402 1.1 dyoung u_int8_t sc_csthr; /* carrier-sense threshold */ 403 1.1 dyoung 404 1.1 dyoung int sc_do_tick; /* indicate 1s ticks */ 405 1.1 dyoung struct timeval sc_tick0; /* first tick */ 406 1.1 dyoung 407 1.1 dyoung uint8_t sc_rev; /* PCI/Cardbus revision */ 408 1.1 dyoung 409 1.1 dyoung union { 410 1.1 dyoung struct rtw_rx_radiotap_header tap; 411 1.1 dyoung u_int8_t pad[64]; 412 1.1 dyoung } sc_rxtapu; 413 1.1 dyoung union { 414 1.1 dyoung struct rtw_tx_radiotap_header tap; 415 1.1 dyoung u_int8_t pad[64]; 416 1.1 dyoung } sc_txtapu; 417 1.1 dyoung }; 418 1.1 dyoung 419 1.1 dyoung #define sc_if sc_ic.ic_if 420 1.1 dyoung #define sc_rxtap sc_rxtapu.tap 421 1.1 dyoung #define sc_txtap sc_txtapu.tap 422 1.1 dyoung 423 1.1 dyoung void rtw_txdac_enable(struct rtw_regs *, int); 424 1.1 dyoung void rtw_anaparm_enable(struct rtw_regs *, int); 425 1.1 dyoung void rtw_config0123_enable(struct rtw_regs *, int); 426 1.1 dyoung void rtw_continuous_tx_enable(struct rtw_regs *, int); 427 1.1 dyoung 428 1.1 dyoung void rtw_attach(struct rtw_softc *); 429 1.1 dyoung int rtw_detach(struct rtw_softc *); 430 1.1 dyoung int rtw_intr(void *); 431 1.1 dyoung 432 1.1 dyoung void rtw_disable(struct rtw_softc *); 433 1.1 dyoung int rtw_enable(struct rtw_softc *); 434 1.1 dyoung 435 1.1 dyoung int rtw_activate(struct device *, enum devact); 436 1.1 dyoung void rtw_power(int, void *); 437 1.1 dyoung void rtw_shutdown(void *); 438 1.1 dyoung 439 1.1 dyoung const char *rtw_pwrstate_string(enum rtw_pwrstate); 440 1.1 dyoung 441 1.1 dyoung #endif /* _DEV_IC_RTWVAR_H_ */ 442
Indexes created Thu Sep 25 16:09:42 GMT 2025