1 /* 2 * Copyright 2009 Sun Microsystems, Inc. All rights reserved. 3 * Use is subject to license terms. 4 */ 5 6 /* 7 * Copyright (c) 2007, 2008 8 * Damien Bergamini <damien.bergamini@free.fr> 9 * 10 * Permission to use, copy, modify, and distribute this software for any 11 * purpose with or without fee is hereby granted, provided that the above 12 * copyright notice and this permission notice appear in all copies. 13 * 14 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 15 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 16 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 17 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 18 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 19 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 20 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 21 */ 22 23 /* 24 * Ralink Technology RT2860 chipset driver 25 * http://www.ralinktech.com/ 26 */ 27 28 #include <sys/types.h> 29 #include <sys/byteorder.h> 30 #include <sys/conf.h> 31 #include <sys/cmn_err.h> 32 #include <sys/stat.h> 33 #include <sys/ddi.h> 34 #include <sys/sunddi.h> 35 #include <sys/strsubr.h> 36 #include <inet/common.h> 37 #include <sys/note.h> 38 #include <sys/stream.h> 39 #include <sys/strsun.h> 40 #include <sys/modctl.h> 41 #include <sys/devops.h> 42 #include <sys/mac_provider.h> 43 #include <sys/mac_wifi.h> 44 #include <sys/net80211.h> 45 #include <sys/net80211_proto.h> 46 #include <sys/varargs.h> 47 #include <sys/pci.h> 48 #include <sys/crypto/common.h> 49 #include <sys/crypto/api.h> 50 #include <inet/wifi_ioctl.h> 51 52 #include "rt2860_reg.h" 53 #include "rt2860_var.h" 54 55 #define RT2860_DBG_80211 (1 << 0) 56 #define RT2860_DBG_DMA (1 << 1) 57 #define RT2860_DBG_EEPROM (1 << 2) 58 #define RT2860_DBG_FW (1 << 3) 59 #define RT2860_DBG_HW (1 << 4) 60 #define RT2860_DBG_INTR (1 << 5) 61 #define RT2860_DBG_RX (1 << 6) 62 #define RT2860_DBG_SCAN (1 << 7) 63 #define RT2860_DBG_TX (1 << 8) 64 #define RT2860_DBG_RADIO (1 << 9) 65 #define RT2860_DBG_RESUME (1 << 10) 66 #define RT2860_DBG_MSG (1 << 11) 67 68 uint32_t rt2860_dbg_flags = 0x0; 69 70 #ifdef DEBUG 71 #define RWN_DEBUG \ 72 rt2860_debug 73 #else 74 #define RWN_DEBUG 75 #endif 76 77 static void *rt2860_soft_state_p = NULL; 78 static uint8_t rt2860_fw_bin [] = { 79 #include "fw-rt2860/rt2860.ucode" 80 }; 81 82 static const struct ieee80211_rateset rt2860_rateset_11b = 83 { 4, { 2, 4, 11, 22 } }; 84 85 static const struct ieee80211_rateset rt2860_rateset_11g = 86 { 12, { 2, 4, 11, 22, 12, 18, 24, 36, 48, 72, 96, 108 } }; 87 88 static const struct { 89 uint32_t reg; 90 uint32_t val; 91 } rt2860_def_mac[] = { 92 RT2860_DEF_MAC 93 }; 94 95 static const struct { 96 uint8_t reg; 97 uint8_t val; 98 } rt2860_def_bbp[] = { 99 RT2860_DEF_BBP 100 }; 101 102 static const struct rfprog { 103 uint8_t chan; 104 uint32_t r1, r2, r3, r4; 105 } rt2860_rf2850[] = { 106 RT2860_RF2850 107 }; 108 109 /* 110 * PIO access attributes for registers 111 */ 112 static ddi_device_acc_attr_t rwn_csr_accattr = { 113 DDI_DEVICE_ATTR_V0, 114 DDI_STRUCTURE_LE_ACC, 115 DDI_STRICTORDER_ACC 116 }; 117 118 /* 119 * DMA access attributes for descriptors: NOT to be byte swapped. 120 */ 121 static ddi_device_acc_attr_t rt2860_desc_accattr = { 122 DDI_DEVICE_ATTR_V0, 123 DDI_STRUCTURE_LE_ACC, 124 DDI_STRICTORDER_ACC 125 }; 126 127 static ddi_device_acc_attr_t rt2860_buf_accattr = { 128 DDI_DEVICE_ATTR_V0, 129 DDI_NEVERSWAP_ACC, 130 DDI_STRICTORDER_ACC, 131 DDI_DEFAULT_ACC 132 }; 133 134 /* 135 * Describes the chip's DMA engine 136 */ 137 static ddi_dma_attr_t rt2860_dma_attr = { 138 DMA_ATTR_V0, /* dma_attr version */ 139 0x0, /* dma_attr_addr_lo */ 140 0xffffffffU, /* dma_attr_addr_hi */ 141 0xffffffffU, /* dma_attr_count_max */ 142 16, /* dma_attr_align */ 143 0x00000fff, /* dma_attr_burstsizes */ 144 1, /* dma_attr_minxfer */ 145 0xffffffffU, /* dma_attr_maxxfer */ 146 0xffffffffU, /* dma_attr_seg */ 147 1, /* dma_attr_sgllen */ 148 1, /* dma_attr_granular */ 149 0 /* dma_attr_flags */ 150 }; 151 152 static uint16_t rt2860_eeprom_read(struct rt2860_softc *, uint8_t); 153 static int rt2860_read_eeprom(struct rt2860_softc *); 154 const char *rt2860_get_rf(uint8_t); 155 static int rt2860_alloc_dma_mem(dev_info_t *, ddi_dma_attr_t *, size_t, 156 ddi_device_acc_attr_t *, uint_t, uint_t, struct dma_area *); 157 static void rt2860_free_dma_mem(struct dma_area *); 158 static int rt2860_alloc_tx_ring(struct rt2860_softc *, 159 struct rt2860_tx_ring *); 160 static void rt2860_free_tx_ring(struct rt2860_softc *, 161 struct rt2860_tx_ring *); 162 static int rt2860_alloc_rx_ring(struct rt2860_softc *, 163 struct rt2860_rx_ring *); 164 static void rt2860_free_rx_ring(struct rt2860_softc *, 165 struct rt2860_rx_ring *); 166 static int rt2860_alloc_tx_pool(struct rt2860_softc *); 167 static void rt2860_free_tx_pool(struct rt2860_softc *); 168 static uint16_t rt2860_txtime(int, int, uint32_t); 169 static int rt2860_ack_rate(struct ieee80211com *, int); 170 static int rt2860_send(ieee80211com_t *, mblk_t *, uint8_t); 171 static uint8_t rt2860_maxrssi_chain(struct rt2860_softc *, 172 const struct rt2860_rxwi *); 173 static void rt2860_drain_stats_fifo(struct rt2860_softc *); 174 static void rt2860_tx_intr(struct rt2860_softc *, int); 175 static void rt2860_rx_intr(struct rt2860_softc *); 176 static uint_t rt2860_softintr(caddr_t); 177 static uint_t rt2860_intr(caddr_t); 178 static void rt2860_set_region_4(struct rt2860_softc *, 179 uint32_t, uint32_t, int); 180 static int rt2860_load_microcode(struct rt2860_softc *); 181 static void rt2860_set_macaddr(struct rt2860_softc *, const uint8_t *); 182 static int rt2860_bbp_init(struct rt2860_softc *); 183 static uint8_t rt2860_mcu_bbp_read(struct rt2860_softc *, uint8_t); 184 static void rt2860_mcu_bbp_write(struct rt2860_softc *, uint8_t, uint8_t); 185 static int rt2860_mcu_cmd(struct rt2860_softc *, uint8_t, uint16_t); 186 static void rt2860_rf_write(struct rt2860_softc *, uint8_t, uint32_t); 187 static void rt2860_select_chan_group(struct rt2860_softc *, int); 188 static void rt2860_set_chan(struct rt2860_softc *, 189 struct ieee80211_channel *); 190 static void rt2860_updateprot(struct ieee80211com *); 191 static void rt2860_set_leds(struct rt2860_softc *, uint16_t); 192 static void rt2860_next_scan(void *); 193 static void rt2860_iter_func(void *, struct ieee80211_node *); 194 static void rt2860_updateslot(struct rt2860_softc *); 195 static uint8_t rt2860_rate2mcs(uint8_t); 196 static void rt2860_enable_mrr(struct rt2860_softc *); 197 static void rt2860_set_txpreamble(struct rt2860_softc *); 198 static void rt2860_set_basicrates(struct rt2860_softc *); 199 static void rt2860_set_bssid(struct rt2860_softc *, const uint8_t *); 200 static void rt2860_amrr_node_init(const struct rt2860_amrr *, 201 struct rt2860_amrr_node *); 202 static void rt2860_amrr_choose(struct rt2860_amrr *, 203 struct ieee80211_node *, struct rt2860_amrr_node *); 204 static void rt2860_newassoc(struct ieee80211com *, struct ieee80211_node *, 205 int); 206 static void rt2860_enable_tsf_sync(struct rt2860_softc *); 207 static int rt2860_newstate(struct ieee80211com *, 208 enum ieee80211_state, int); 209 static int rt2860_init(struct rt2860_softc *); 210 static void rt2860_stop(struct rt2860_softc *); 211 static int rt2860_quiesce(dev_info_t *t); 212 213 /* 214 * device operations 215 */ 216 static int rt2860_attach(dev_info_t *, ddi_attach_cmd_t); 217 static int rt2860_detach(dev_info_t *, ddi_detach_cmd_t); 218 219 /* 220 * Module Loading Data & Entry Points 221 */ 222 DDI_DEFINE_STREAM_OPS(rwn_dev_ops, nulldev, nulldev, rt2860_attach, 223 rt2860_detach, nodev, NULL, D_MP, NULL, rt2860_quiesce); 224 225 static struct modldrv rwn_modldrv = { 226 &mod_driverops, /* Type of module. This one is a driver */ 227 "Ralink RT2700/2800 driver v1.2", /* short description */ 228 &rwn_dev_ops /* driver specific ops */ 229 }; 230 231 static struct modlinkage modlinkage = { 232 MODREV_1, 233 (void *)&rwn_modldrv, 234 NULL 235 }; 236 237 static int rt2860_m_stat(void *, uint_t, uint64_t *); 238 static int rt2860_m_start(void *); 239 static void rt2860_m_stop(void *); 240 static int rt2860_m_promisc(void *, boolean_t); 241 static int rt2860_m_multicst(void *, boolean_t, const uint8_t *); 242 static int rt2860_m_unicst(void *, const uint8_t *); 243 static mblk_t *rt2860_m_tx(void *, mblk_t *); 244 static void rt2860_m_ioctl(void *, queue_t *, mblk_t *); 245 static int rt2860_m_setprop(void *arg, const char *pr_name, 246 mac_prop_id_t wldp_pr_num, 247 uint_t wldp_length, const void *wldp_buf); 248 static int rt2860_m_getprop(void *arg, const char *pr_name, 249 mac_prop_id_t wldp_pr_num, uint_t pr_flags, 250 uint_t wldp_length, void *wldp_buf, uint_t *); 251 252 static mac_callbacks_t rt2860_m_callbacks = { 253 MC_IOCTL | MC_SETPROP | MC_GETPROP, 254 rt2860_m_stat, 255 rt2860_m_start, 256 rt2860_m_stop, 257 rt2860_m_promisc, 258 rt2860_m_multicst, 259 rt2860_m_unicst, 260 rt2860_m_tx, 261 rt2860_m_ioctl, 262 NULL, 263 NULL, 264 NULL, 265 rt2860_m_setprop, 266 rt2860_m_getprop 267 }; 268 269 #ifdef DEBUG 270 void 271 rt2860_debug(uint32_t dbg_flags, const int8_t *fmt, ...) 272 { 273 va_list args; 274 275 if (dbg_flags & rt2860_dbg_flags) { 276 va_start(args, fmt); 277 vcmn_err(CE_CONT, fmt, args); 278 va_end(args); 279 } 280 } 281 #endif 282 283 const char * 284 rt2860_get_rf(uint8_t rev) 285 { 286 switch (rev) { 287 case RT2860_RF_2820: return "RT2820"; 288 case RT2860_RF_2850: return "RT2850"; 289 case RT2860_RF_2720: return "RT2720"; 290 case RT2860_RF_2750: return "RT2750"; 291 default: return "unknown"; 292 } 293 } 294 295 /* 296 * Read 16 bits at address 'addr' from the serial EEPROM (either 93C46, 297 * 93C66 or 93C86). 298 */ 299 static uint16_t 300 rt2860_eeprom_read(struct rt2860_softc *sc, uint8_t addr) 301 { 302 int n; 303 uint16_t val; 304 uint32_t tmp; 305 306 /* clock C once before the first command */ 307 RT2860_EEPROM_CTL(sc, 0); 308 309 RT2860_EEPROM_CTL(sc, RT2860_S); 310 RT2860_EEPROM_CTL(sc, RT2860_S | RT2860_C); 311 RT2860_EEPROM_CTL(sc, RT2860_S); 312 313 /* write start bit (1) */ 314 RT2860_EEPROM_CTL(sc, RT2860_S | RT2860_D); 315 RT2860_EEPROM_CTL(sc, RT2860_S | RT2860_D | RT2860_C); 316 317 /* write READ opcode (10) */ 318 RT2860_EEPROM_CTL(sc, RT2860_S | RT2860_D); 319 RT2860_EEPROM_CTL(sc, RT2860_S | RT2860_D | RT2860_C); 320 RT2860_EEPROM_CTL(sc, RT2860_S); 321 RT2860_EEPROM_CTL(sc, RT2860_S | RT2860_C); 322 323 /* write address (A5-A0 or A7-A0) */ 324 n = ((RT2860_READ(sc, RT2860_PCI_EECTRL) & 0x30) == 0) ? 5 : 7; 325 for (; n >= 0; n--) { 326 RT2860_EEPROM_CTL(sc, RT2860_S | 327 (((addr >> n) & 1) << RT2860_SHIFT_D)); 328 RT2860_EEPROM_CTL(sc, RT2860_S | 329 (((addr >> n) & 1) << RT2860_SHIFT_D) | RT2860_C); 330 } 331 332 RT2860_EEPROM_CTL(sc, RT2860_S); 333 334 /* read data Q15-Q0 */ 335 val = 0; 336 for (n = 15; n >= 0; n--) { 337 RT2860_EEPROM_CTL(sc, RT2860_S | RT2860_C); 338 tmp = RT2860_READ(sc, RT2860_PCI_EECTRL); 339 val |= ((tmp & RT2860_Q) >> RT2860_SHIFT_Q) << n; 340 RT2860_EEPROM_CTL(sc, RT2860_S); 341 } 342 343 RT2860_EEPROM_CTL(sc, 0); 344 345 /* clear Chip Select and clock C */ 346 RT2860_EEPROM_CTL(sc, RT2860_S); 347 RT2860_EEPROM_CTL(sc, 0); 348 RT2860_EEPROM_CTL(sc, RT2860_C); 349 350 return (val); 351 } 352 353 /* 354 * Add `delta' (signed) to each 4-bit sub-word of a 32-bit word. 355 * Used to adjust per-rate Tx power registers. 356 */ 357 static inline uint32_t 358 b4inc(uint32_t b32, int8_t delta) 359 { 360 int8_t i, b4; 361 362 for (i = 0; i < 8; i++) { 363 b4 = b32 & 0xf; 364 b4 += delta; 365 if (b4 < 0) 366 b4 = 0; 367 else if (b4 > 0xf) 368 b4 = 0xf; 369 b32 = b32 >> 4 | b4 << 28; 370 } 371 return (b32); 372 } 373 374 static int 375 rt2860_read_eeprom(struct rt2860_softc *sc) 376 { 377 struct ieee80211com *ic = &sc->sc_ic; 378 int ridx, ant, i; 379 int8_t delta_2ghz, delta_5ghz; 380 uint16_t val; 381 382 /* read EEPROM version */ 383 val = rt2860_eeprom_read(sc, RT2860_EEPROM_VERSION); 384 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 385 "EEPROM rev=%d, FAE=%d\n", 386 val & 0xff, val >> 8); 387 388 /* read MAC address */ 389 val = rt2860_eeprom_read(sc, RT2860_EEPROM_MAC01); 390 ic->ic_macaddr[0] = val & 0xff; 391 ic->ic_macaddr[1] = val >> 8; 392 val = rt2860_eeprom_read(sc, RT2860_EEPROM_MAC23); 393 ic->ic_macaddr[2] = val & 0xff; 394 ic->ic_macaddr[3] = val >> 8; 395 val = rt2860_eeprom_read(sc, RT2860_EEPROM_MAC45); 396 ic->ic_macaddr[4] = val & 0xff; 397 ic->ic_macaddr[5] = val >> 8; 398 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 399 "MAC address is: %x:%x:%x:%x:%x:%x\n", 400 ic->ic_macaddr[0], ic->ic_macaddr[1], 401 ic->ic_macaddr[2], ic->ic_macaddr[3], 402 ic->ic_macaddr[4], ic->ic_macaddr[5]); 403 404 /* read country code */ 405 val = rt2860_eeprom_read(sc, RT2860_EEPROM_COUNTRY); 406 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 407 "EEPROM region code=0x%04x\n", val); 408 409 /* read default BBP settings */ 410 for (i = 0; i < 8; i++) { 411 val = rt2860_eeprom_read(sc, RT2860_EEPROM_BBP_BASE + i); 412 sc->bbp[i].val = val & 0xff; 413 sc->bbp[i].reg = val >> 8; 414 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 415 "BBP%d=0x%02x\n", 416 sc->bbp[i].reg, sc->bbp[i].val); 417 } 418 419 /* read RF frequency offset from EEPROM */ 420 val = rt2860_eeprom_read(sc, RT2860_EEPROM_FREQ_LEDS); 421 sc->freq = ((val & 0xff) != 0xff) ? val & 0xff : 0; 422 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 423 "EEPROM freq offset %d\n", sc->freq & 0xff); 424 425 if ((sc->leds = val >> 8) != 0xff) { 426 /* read LEDs operating mode */ 427 sc->led[0] = rt2860_eeprom_read(sc, RT2860_EEPROM_LED1); 428 sc->led[1] = rt2860_eeprom_read(sc, RT2860_EEPROM_LED2); 429 sc->led[2] = rt2860_eeprom_read(sc, RT2860_EEPROM_LED3); 430 } else { 431 /* broken EEPROM, use default settings */ 432 sc->leds = 0x01; 433 sc->led[0] = 0x5555; 434 sc->led[1] = 0x2221; 435 sc->led[2] = 0xa9f8; 436 } 437 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 438 "EEPROM LED mode=0x%02x, LEDs=0x%04x/0x%04x/0x%04x\n", 439 sc->leds, sc->led[0], sc->led[1], sc->led[2]); 440 441 /* read RF information */ 442 val = rt2860_eeprom_read(sc, RT2860_EEPROM_ANTENNA); 443 if (val == 0xffff) { 444 /* broken EEPROM, default to RF2820 1T2R */ 445 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 446 "invalid EEPROM antenna info, using default\n"); 447 sc->rf_rev = RT2860_RF_2820; 448 sc->ntxchains = 1; 449 sc->nrxchains = 2; 450 } else { 451 sc->rf_rev = (val >> 8) & 0xf; 452 sc->ntxchains = (val >> 4) & 0xf; 453 sc->nrxchains = val & 0xf; 454 } 455 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 456 "EEPROM RF rev=0x%02x chains=%dT%dR\n", 457 sc->rf_rev, sc->ntxchains, sc->nrxchains); 458 459 /* check if RF supports automatic Tx access gain control */ 460 val = rt2860_eeprom_read(sc, RT2860_EEPROM_CONFIG); 461 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 462 "EEPROM CFG 0x%04x\n", val); 463 if ((val & 0xff) != 0xff) 464 sc->calib_2ghz = sc->calib_5ghz = 0; /* XXX (val >> 1) & 1 */; 465 466 if (sc->sc_flags & RT2860_ADVANCED_PS) { 467 /* read PCIe power save level */ 468 val = rt2860_eeprom_read(sc, RT2860_EEPROM_PCIE_PSLEVEL); 469 if ((val & 0xff) != 0xff) { 470 sc->pslevel = val & 0x3; 471 val = rt2860_eeprom_read(sc, RT2860_EEPROM_REV); 472 if (val >> 8 != 0x92 || !(val & 0x80)) 473 sc->pslevel = MIN(sc->pslevel, 1); 474 RWN_DEBUG(RT2860_DBG_EEPROM, 475 "rwn: rt2860_read_eeprom(): " 476 "EEPROM PCIe PS Level=%d\n", 477 sc->pslevel); 478 } 479 } 480 /* read power settings for 2GHz channels */ 481 for (i = 0; i < 14; i += 2) { 482 val = rt2860_eeprom_read(sc, 483 RT2860_EEPROM_PWR2GHZ_BASE1 + i / 2); 484 sc->txpow1[i + 0] = (int8_t)(val & 0xff); 485 sc->txpow1[i + 1] = (int8_t)(val >> 8); 486 487 val = rt2860_eeprom_read(sc, 488 RT2860_EEPROM_PWR2GHZ_BASE2 + i / 2); 489 sc->txpow2[i + 0] = (int8_t)(val & 0xff); 490 sc->txpow2[i + 1] = (int8_t)(val >> 8); 491 } 492 /* fix broken Tx power entries */ 493 for (i = 0; i < 14; i++) { 494 if (sc->txpow1[i] < 0 || sc->txpow1[i] > 31) 495 sc->txpow1[i] = 5; 496 if (sc->txpow2[i] < 0 || sc->txpow2[i] > 31) 497 sc->txpow2[i] = 5; 498 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 499 "chan %d: power1=%d, power2=%d\n", 500 rt2860_rf2850[i].chan, sc->txpow1[i], sc->txpow2[i]); 501 } 502 /* read power settings for 5GHz channels */ 503 for (i = 0; i < 36; i += 2) { 504 val = rt2860_eeprom_read(sc, 505 RT2860_EEPROM_PWR5GHZ_BASE1 + i / 2); 506 sc->txpow1[i + 14] = (int8_t)(val & 0xff); 507 sc->txpow1[i + 15] = (int8_t)(val >> 8); 508 509 val = rt2860_eeprom_read(sc, 510 RT2860_EEPROM_PWR5GHZ_BASE2 + i / 2); 511 sc->txpow2[i + 14] = (int8_t)(val & 0xff); 512 sc->txpow2[i + 15] = (int8_t)(val >> 8); 513 } 514 /* fix broken Tx power entries */ 515 for (i = 0; i < 36; i++) { 516 if (sc->txpow1[14 + i] < -7 || sc->txpow1[14 + i] > 15) 517 sc->txpow1[14 + i] = 5; 518 if (sc->txpow2[14 + i] < -7 || sc->txpow2[14 + i] > 15) 519 sc->txpow2[14 + i] = 5; 520 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 521 "chan %d: power1=%d, power2=%d\n", 522 rt2860_rf2850[14 + i].chan, sc->txpow1[14 + i], 523 sc->txpow2[14 + i]); 524 } 525 526 /* read Tx power compensation for each Tx rate */ 527 val = rt2860_eeprom_read(sc, RT2860_EEPROM_DELTAPWR); 528 delta_2ghz = delta_5ghz = 0; 529 if ((val & 0xff) != 0xff && (val & 0x80)) { 530 delta_2ghz = val & 0xf; 531 if (!(val & 0x40)) /* negative number */ 532 delta_2ghz = -delta_2ghz; 533 } 534 val >>= 8; 535 if ((val & 0xff) != 0xff && (val & 0x80)) { 536 delta_5ghz = val & 0xf; 537 if (!(val & 0x40)) /* negative number */ 538 delta_5ghz = -delta_5ghz; 539 } 540 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 541 "power compensation=%d (2GHz), %d (5GHz) \n", 542 delta_2ghz, delta_5ghz); 543 544 for (ridx = 0; ridx < 5; ridx++) { 545 uint32_t reg; 546 547 val = rt2860_eeprom_read(sc, RT2860_EEPROM_RPWR + ridx); 548 reg = (uint32_t)val << 16; 549 val = rt2860_eeprom_read(sc, RT2860_EEPROM_RPWR + ridx + 1); 550 reg |= val; 551 552 sc->txpow20mhz[ridx] = reg; 553 sc->txpow40mhz_2ghz[ridx] = b4inc(reg, delta_2ghz); 554 sc->txpow40mhz_5ghz[ridx] = b4inc(reg, delta_5ghz); 555 556 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 557 "ridx %d: power 20MHz=0x%08x, 40MHz/2GHz=0x%08x, " 558 "40MHz/5GHz=0x%08x\n", ridx, sc->txpow20mhz[ridx], 559 sc->txpow40mhz_2ghz[ridx], sc->txpow40mhz_5ghz[ridx]); 560 } 561 562 /* read factory-calibrated samples for temperature compensation */ 563 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI1_2GHZ); 564 sc->tssi_2ghz[0] = val & 0xff; /* [-4] */ 565 sc->tssi_2ghz[1] = val >> 8; /* [-3] */ 566 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI2_2GHZ); 567 sc->tssi_2ghz[2] = val & 0xff; /* [-2] */ 568 sc->tssi_2ghz[3] = val >> 8; /* [-1] */ 569 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI3_2GHZ); 570 sc->tssi_2ghz[4] = val & 0xff; /* [+0] */ 571 sc->tssi_2ghz[5] = val >> 8; /* [+1] */ 572 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI4_2GHZ); 573 sc->tssi_2ghz[6] = val & 0xff; /* [+2] */ 574 sc->tssi_2ghz[7] = val >> 8; /* [+3] */ 575 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI5_2GHZ); 576 sc->tssi_2ghz[8] = val & 0xff; /* [+4] */ 577 sc->step_2ghz = val >> 8; 578 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 579 "TSSI 2GHz: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x " 580 "0x%02x 0x%02x step=%d\n", sc->tssi_2ghz[0], sc->tssi_2ghz[1], 581 sc->tssi_2ghz[2], sc->tssi_2ghz[3], sc->tssi_2ghz[4], 582 sc->tssi_2ghz[5], sc->tssi_2ghz[6], sc->tssi_2ghz[7], 583 sc->tssi_2ghz[8], sc->step_2ghz); 584 /* check that ref value is correct, otherwise disable calibration */ 585 if (sc->tssi_2ghz[4] == 0xff) 586 sc->calib_2ghz = 0; 587 588 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI1_5GHZ); 589 sc->tssi_5ghz[0] = val & 0xff; /* [-4] */ 590 sc->tssi_5ghz[1] = val >> 8; /* [-3] */ 591 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI2_5GHZ); 592 sc->tssi_5ghz[2] = val & 0xff; /* [-2] */ 593 sc->tssi_5ghz[3] = val >> 8; /* [-1] */ 594 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI3_5GHZ); 595 sc->tssi_5ghz[4] = val & 0xff; /* [+0] */ 596 sc->tssi_5ghz[5] = val >> 8; /* [+1] */ 597 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI4_5GHZ); 598 sc->tssi_5ghz[6] = val & 0xff; /* [+2] */ 599 sc->tssi_5ghz[7] = val >> 8; /* [+3] */ 600 val = rt2860_eeprom_read(sc, RT2860_EEPROM_TSSI5_5GHZ); 601 sc->tssi_5ghz[8] = val & 0xff; /* [+4] */ 602 sc->step_5ghz = val >> 8; 603 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 604 "TSSI 5GHz: 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x " 605 "0x%02x 0x%02x step=%d\n", sc->tssi_5ghz[0], sc->tssi_5ghz[1], 606 sc->tssi_5ghz[2], sc->tssi_5ghz[3], sc->tssi_5ghz[4], 607 sc->tssi_5ghz[5], sc->tssi_5ghz[6], sc->tssi_5ghz[7], 608 sc->tssi_5ghz[8], sc->step_5ghz); 609 /* check that ref value is correct, otherwise disable calibration */ 610 if (sc->tssi_5ghz[4] == 0xff) 611 sc->calib_5ghz = 0; 612 613 /* read RSSI offsets and LNA gains from EEPROM */ 614 val = rt2860_eeprom_read(sc, RT2860_EEPROM_RSSI1_2GHZ); 615 sc->rssi_2ghz[0] = val & 0xff; /* Ant A */ 616 sc->rssi_2ghz[1] = val >> 8; /* Ant B */ 617 val = rt2860_eeprom_read(sc, RT2860_EEPROM_RSSI2_2GHZ); 618 sc->rssi_2ghz[2] = val & 0xff; /* Ant C */ 619 sc->lna[2] = val >> 8; /* channel group 2 */ 620 621 val = rt2860_eeprom_read(sc, RT2860_EEPROM_RSSI1_5GHZ); 622 sc->rssi_5ghz[0] = val & 0xff; /* Ant A */ 623 sc->rssi_5ghz[1] = val >> 8; /* Ant B */ 624 val = rt2860_eeprom_read(sc, RT2860_EEPROM_RSSI2_5GHZ); 625 sc->rssi_5ghz[2] = val & 0xff; /* Ant C */ 626 sc->lna[3] = val >> 8; /* channel group 3 */ 627 628 val = rt2860_eeprom_read(sc, RT2860_EEPROM_LNA); 629 sc->lna[0] = val & 0xff; /* channel group 0 */ 630 sc->lna[1] = val >> 8; /* channel group 1 */ 631 632 /* fix broken 5GHz LNA entries */ 633 if (sc->lna[2] == 0 || sc->lna[2] == 0xff) { 634 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 635 "invalid LNA for channel group %d\n", 2); 636 sc->lna[2] = sc->lna[1]; 637 } 638 if (sc->lna[3] == 0 || sc->lna[3] == 0xff) { 639 RWN_DEBUG(RT2860_DBG_EEPROM, "rwn: rt2860_read_eeprom(): " 640 "invalid LNA for channel group %d\n", 3); 641 sc->lna[3] = sc->lna[1]; 642 } 643 644 /* fix broken RSSI offset entries */ 645 for (ant = 0; ant < 3; ant++) { 646 if (sc->rssi_2ghz[ant] < -10 || sc->rssi_2ghz[ant] > 10) { 647 RWN_DEBUG(RT2860_DBG_EEPROM, 648 "rwn: rt2860_read_eeprom(): " 649 "invalid RSSI%d offset: %d (2GHz)\n", 650 ant + 1, sc->rssi_2ghz[ant]); 651 sc->rssi_2ghz[ant] = 0; 652 } 653 if (sc->rssi_5ghz[ant] < -10 || sc->rssi_5ghz[ant] > 10) { 654 RWN_DEBUG(RT2860_DBG_EEPROM, 655 "rwn: rt2860_read_eeprom(): " 656 "invalid RSSI%d offset: %d (2GHz)\n", 657 ant + 1, sc->rssi_5ghz[ant]); 658 sc->rssi_5ghz[ant] = 0; 659 } 660 } 661 662 return (RT2860_SUCCESS); 663 } 664 665 /* 666 * Allocate an DMA memory and a DMA handle for accessing it 667 */ 668 static int 669 rt2860_alloc_dma_mem(dev_info_t *devinfo, ddi_dma_attr_t *dma_attr, 670 size_t memsize, ddi_device_acc_attr_t *attr_p, uint_t alloc_flags, 671 uint_t bind_flags, struct dma_area *dma_p) 672 { 673 int err; 674 675 /* 676 * Allocate handle 677 */ 678 err = ddi_dma_alloc_handle(devinfo, dma_attr, 679 DDI_DMA_SLEEP, NULL, &dma_p->dma_hdl); 680 if (err != DDI_SUCCESS) { 681 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rwn_allo_dma_mem(): " 682 "failed to alloc handle\n"); 683 goto fail1; 684 } 685 686 /* 687 * Allocate memory 688 */ 689 err = ddi_dma_mem_alloc(dma_p->dma_hdl, memsize, attr_p, 690 alloc_flags, DDI_DMA_SLEEP, NULL, &dma_p->mem_va, 691 &dma_p->alength, &dma_p->acc_hdl); 692 if (err != DDI_SUCCESS) { 693 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rwn_alloc_dma_mem(): " 694 "failed to alloc mem\n"); 695 goto fail2; 696 } 697 698 /* 699 * Bind the two together 700 */ 701 err = ddi_dma_addr_bind_handle(dma_p->dma_hdl, NULL, 702 dma_p->mem_va, dma_p->alength, bind_flags, 703 DDI_DMA_SLEEP, NULL, &dma_p->cookie, &dma_p->ncookies); 704 if (err != DDI_DMA_MAPPED) { 705 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rwn_alloc_dma_mem(): " 706 "failed to bind handle\n"); 707 goto fail3; 708 } 709 710 if (dma_p->ncookies != 1) { 711 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rwn_alloc_dma_mem(): " 712 "failed to alloc cookies\n"); 713 goto fail4; 714 } 715 716 dma_p->nslots = ~0U; 717 dma_p->size = ~0U; 718 dma_p->token = ~0U; 719 dma_p->offset = 0; 720 return (DDI_SUCCESS); 721 722 fail4: 723 (void) ddi_dma_unbind_handle(dma_p->dma_hdl); 724 fail3: 725 ddi_dma_mem_free(&dma_p->acc_hdl); 726 fail2: 727 ddi_dma_free_handle(&dma_p->dma_hdl); 728 fail1: 729 return (err); 730 } 731 732 static void 733 rt2860_free_dma_mem(struct dma_area *dma_p) 734 { 735 if (dma_p->dma_hdl != NULL) { 736 (void) ddi_dma_unbind_handle(dma_p->dma_hdl); 737 if (dma_p->acc_hdl != NULL) { 738 ddi_dma_mem_free(&dma_p->acc_hdl); 739 dma_p->acc_hdl = NULL; 740 } 741 ddi_dma_free_handle(&dma_p->dma_hdl); 742 dma_p->ncookies = 0; 743 dma_p->dma_hdl = NULL; 744 } 745 } 746 747 /*ARGSUSED*/ 748 static int 749 rt2860_alloc_tx_ring(struct rt2860_softc *sc, struct rt2860_tx_ring *ring) 750 { 751 int size, err; 752 753 size = RT2860_TX_RING_COUNT * sizeof (struct rt2860_txd); 754 755 err = rt2860_alloc_dma_mem(sc->sc_dev, &rt2860_dma_attr, size, 756 &rt2860_desc_accattr, DDI_DMA_CONSISTENT, 757 DDI_DMA_RDWR | DDI_DMA_CONSISTENT, 758 &ring->txdesc_dma); 759 if (err != DDI_SUCCESS) { 760 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rt2860_alloc_tx_ring(): " 761 "failed to alloc dma mem\n"); 762 goto fail1; 763 } 764 765 ring->txd = (struct rt2860_txd *)ring->txdesc_dma.mem_va; 766 ring->paddr = ring->txdesc_dma.cookie.dmac_address; 767 768 ring->cur = 0; 769 ring->next = 0; 770 ring->queued = 0; 771 772 (void) bzero(ring->txd, size); 773 RT2860_DMA_SYNC(ring->txdesc_dma, DDI_DMA_SYNC_FORDEV); 774 return (DDI_SUCCESS); 775 fail1: 776 return (err); 777 } 778 779 void 780 rt2860_reset_tx_ring(struct rt2860_softc *sc, struct rt2860_tx_ring *ring) 781 { 782 struct rt2860_tx_data *data; 783 int i; 784 785 for (i = 0; i < RT2860_TX_RING_COUNT; i++) { 786 ring->txd[i].sdl0 &= ~LE_16(RT2860_TX_DDONE); 787 788 if ((data = ring->data[i]) == NULL) 789 continue; /* nothing mapped in this slot */ 790 791 /* by pass if it's quiesced */ 792 if (!(sc->sc_flags & RT2860_F_QUIESCE)) 793 RT2860_DMA_SYNC(data->txbuf_dma, DDI_DMA_SYNC_FORDEV); 794 795 if (data->ni != NULL) { 796 ieee80211_free_node(data->ni); 797 data->ni = NULL; /* node already freed */ 798 } 799 800 SLIST_INSERT_HEAD(&sc->data_pool, data, next); 801 ring->data[i] = NULL; 802 } 803 804 /* by pass if it's quiesced */ 805 if (!(sc->sc_flags & RT2860_F_QUIESCE)) 806 RT2860_DMA_SYNC(ring->txdesc_dma, DDI_DMA_SYNC_FORDEV); 807 808 ring->queued = 0; 809 ring->cur = ring->next = 0; 810 } 811 812 /*ARGSUSED*/ 813 static void 814 rt2860_free_tx_ring(struct rt2860_softc *sc, struct rt2860_tx_ring *ring) 815 { 816 if (ring->txd != NULL) { 817 rt2860_free_dma_mem(&ring->txdesc_dma); 818 } 819 } 820 821 static int 822 rt2860_alloc_rx_ring(struct rt2860_softc *sc, struct rt2860_rx_ring *ring) 823 { 824 struct rt2860_rx_data *data; 825 struct rt2860_rxd *rxd; 826 int i, err, size, datalen; 827 828 size = RT2860_RX_RING_COUNT * sizeof (struct rt2860_rxd); 829 830 err = rt2860_alloc_dma_mem(sc->sc_dev, &rt2860_dma_attr, size, 831 &rt2860_desc_accattr, DDI_DMA_CONSISTENT, 832 DDI_DMA_RDWR | DDI_DMA_CONSISTENT, 833 &ring->rxdesc_dma); 834 if (err != DDI_SUCCESS) { 835 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rt2860_alloc_rx_ring(): " 836 "failed to alloc dma mem\n"); 837 goto fail1; 838 } 839 840 ring->rxd = (struct rt2860_rxd *)ring->rxdesc_dma.mem_va; 841 ring->paddr = ring->rxdesc_dma.cookie.dmac_address; 842 bzero(ring->rxd, size); 843 844 /* 845 * Pre-allocate Rx buffers and populate Rx ring. 846 */ 847 datalen = RT2860_RX_RING_COUNT * sizeof (struct rt2860_rx_data); 848 bzero(ring->data, datalen); 849 for (i = 0; i < RT2860_RX_RING_COUNT; i++) { 850 rxd = &ring->rxd[i]; 851 data = &ring->data[i]; 852 /* alloc DMA memory */ 853 (void) rt2860_alloc_dma_mem(sc->sc_dev, &rt2860_dma_attr, 854 sc->sc_dmabuf_size, 855 &rt2860_buf_accattr, 856 DDI_DMA_STREAMING, 857 DDI_DMA_READ | DDI_DMA_STREAMING, 858 &data->rxbuf_dma); 859 rxd->sdp0 = LE_32(data->rxbuf_dma.cookie.dmac_address); 860 rxd->sdl0 = LE_16(sc->sc_dmabuf_size); 861 } 862 863 ring->cur = 0; 864 865 RT2860_DMA_SYNC(ring->rxdesc_dma, DDI_DMA_SYNC_FORDEV); 866 return (DDI_SUCCESS); 867 fail2: 868 rt2860_free_dma_mem(&ring->rxdesc_dma); 869 fail1: 870 return (err); 871 } 872 873 /*ARGSUSED*/ 874 void 875 rt2860_reset_rx_ring(struct rt2860_softc *sc, struct rt2860_rx_ring *ring) 876 { 877 int i; 878 879 for (i = 0; i < RT2860_RX_RING_COUNT; i++) 880 ring->rxd[i].sdl0 &= ~LE_16(RT2860_RX_DDONE); 881 882 RT2860_DMA_SYNC(ring->rxdesc_dma, DDI_DMA_SYNC_FORDEV); 883 884 ring->cur = 0; 885 } 886 887 /*ARGSUSED*/ 888 static void 889 rt2860_free_rx_ring(struct rt2860_softc *sc, struct rt2860_rx_ring *ring) 890 { 891 struct rt2860_rx_data *data; 892 int i, count; 893 894 if (ring->rxd != NULL) 895 rt2860_free_dma_mem(&ring->rxdesc_dma); 896 897 count = RT2860_RX_RING_COUNT; 898 if (ring->data != NULL) { 899 for (i = 0; i < count; i++) { 900 data = &ring->data[i]; 901 rt2860_free_dma_mem(&data->rxbuf_dma); 902 } 903 } 904 } 905 906 static int 907 rt2860_alloc_tx_pool(struct rt2860_softc *sc) 908 { 909 struct rt2860_tx_data *data; 910 int i, err, size; 911 912 size = RT2860_TX_POOL_COUNT * sizeof (struct rt2860_txwi); 913 914 /* init data_pool early in case of failure.. */ 915 SLIST_INIT(&sc->data_pool); 916 917 err = rt2860_alloc_dma_mem(sc->sc_dev, &rt2860_dma_attr, size, 918 &rt2860_desc_accattr, DDI_DMA_CONSISTENT, 919 DDI_DMA_RDWR | DDI_DMA_CONSISTENT, 920 &sc->txpool_dma); 921 if (err != DDI_SUCCESS) { 922 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rt2860_alloc_tx_pool(): " 923 "failed to alloc dma mem\n"); 924 goto fail1; 925 } 926 927 sc->txwi = (struct rt2860_txwi *)sc->txpool_dma.mem_va; 928 (void) bzero(sc->txwi, size); 929 RT2860_DMA_SYNC(sc->txpool_dma, DDI_DMA_SYNC_FORDEV); 930 931 for (i = 0; i < RT2860_TX_POOL_COUNT; i++) { 932 data = &sc->data[i]; 933 934 err = rt2860_alloc_dma_mem(sc->sc_dev, &rt2860_dma_attr, 935 sc->sc_dmabuf_size, 936 &rt2860_buf_accattr, DDI_DMA_CONSISTENT, 937 DDI_DMA_RDWR | DDI_DMA_CONSISTENT, 938 &data->txbuf_dma); 939 if (err != DDI_SUCCESS) { 940 RWN_DEBUG(RT2860_DBG_DMA, 941 "rwn: rt2860_alloc_tx_pool(): " 942 "failed to alloc dma mem\n"); 943 goto fail2; 944 } 945 data->txwi = &sc->txwi[i]; 946 data->paddr = sc->txpool_dma.cookie.dmac_address + 947 i * sizeof (struct rt2860_txwi); 948 949 SLIST_INSERT_HEAD(&sc->data_pool, data, next); 950 } 951 return (DDI_SUCCESS); 952 fail2: 953 rt2860_free_dma_mem(&sc->txpool_dma); 954 fail1: 955 return (err); 956 } 957 958 static void 959 rt2860_free_tx_pool(struct rt2860_softc *sc) 960 { 961 struct rt2860_tx_data *data; 962 int i; 963 964 if (sc->txwi != NULL) { 965 rt2860_free_dma_mem(&sc->txpool_dma); 966 } 967 968 for (i = 0; i < RT2860_TX_POOL_COUNT; i++) { 969 data = &sc->data[i]; 970 rt2860_free_dma_mem(&data->txbuf_dma); 971 } 972 } 973 974 /* quickly determine if a given rate is CCK or OFDM */ 975 #define RT2860_RATE_IS_OFDM(rate) ((rate) >= 12 && (rate) != 22) 976 977 #define RT2860_ACK_SIZE 14 /* 10 + 4(FCS) */ 978 #define RT2860_SIFS_TIME 10 979 980 static uint8_t 981 rt2860_rate2mcs(uint8_t rate) 982 { 983 switch (rate) { 984 /* CCK rates */ 985 case 2: 986 return (0); 987 case 4: 988 return (1); 989 case 11: 990 return (2); 991 case 22: 992 return (3); 993 /* OFDM rates */ 994 case 12: 995 return (0); 996 case 18: 997 return (1); 998 case 24: 999 return (2); 1000 case 36: 1001 return (3); 1002 case 48: 1003 return (4); 1004 case 72: 1005 return (5); 1006 case 96: 1007 return (6); 1008 case 108: 1009 return (7); 1010 } 1011 1012 return (0); /* shouldn't get there */ 1013 } 1014 1015 /* 1016 * Return the expected ack rate for a frame transmitted at rate `rate'. 1017 */ 1018 static int 1019 rt2860_ack_rate(struct ieee80211com *ic, int rate) 1020 { 1021 switch (rate) { 1022 /* CCK rates */ 1023 case 2: 1024 return (2); 1025 case 4: 1026 case 11: 1027 case 22: 1028 return ((ic->ic_curmode == IEEE80211_MODE_11B) ? 4 : rate); 1029 1030 /* OFDM rates */ 1031 case 12: 1032 case 18: 1033 return (12); 1034 case 24: 1035 case 36: 1036 return (24); 1037 case 48: 1038 case 72: 1039 case 96: 1040 case 108: 1041 return (48); 1042 } 1043 1044 /* default to 1Mbps */ 1045 return (2); 1046 } 1047 1048 1049 /* 1050 * Compute the duration (in us) needed to transmit `len' bytes at rate `rate'. 1051 * The function automatically determines the operating mode depending on the 1052 * given rate. `flags' indicates whether short preamble is in use or not. 1053 */ 1054 static uint16_t 1055 rt2860_txtime(int len, int rate, uint32_t flags) 1056 { 1057 uint16_t txtime; 1058 1059 if (RT2860_RATE_IS_OFDM(rate)) { 1060 /* IEEE Std 802.11g-2003, pp. 44 */ 1061 txtime = (8 + 4 * len + 3 + rate - 1) / rate; 1062 txtime = 16 + 4 + 4 * txtime + 6; 1063 } else { 1064 /* IEEE Std 802.11b-1999, pp. 28 */ 1065 txtime = (16 * len + rate - 1) / rate; 1066 if (rate != 2 && (flags & IEEE80211_F_SHPREAMBLE)) 1067 txtime += 72 + 24; 1068 else 1069 txtime += 144 + 48; 1070 } 1071 return (txtime); 1072 } 1073 1074 static int 1075 rt2860_send(ieee80211com_t *ic, mblk_t *mp, uint8_t type) 1076 { 1077 struct rt2860_softc *sc = (struct rt2860_softc *)ic; 1078 struct rt2860_tx_ring *ring; 1079 struct rt2860_tx_data *data; 1080 struct rt2860_txd *txd; 1081 struct rt2860_txwi *txwi; 1082 struct ieee80211_frame *wh; 1083 struct ieee80211_node *ni; 1084 int qid, off, rate, err; 1085 int mblen, pktlen; 1086 uint_t hdrlen; 1087 uint8_t mcs, pid, qsel; 1088 uint16_t dur; 1089 mblk_t *m, *m0; 1090 1091 err = DDI_SUCCESS; 1092 1093 mutex_enter(&sc->sc_txlock); 1094 if (RT2860_IS_SUSPEND(sc)) { 1095 err = ENXIO; 1096 goto fail1; 1097 } 1098 1099 if ((type & IEEE80211_FC0_TYPE_MASK) != 1100 IEEE80211_FC0_TYPE_DATA) 1101 qid = sc->mgtqid; 1102 else 1103 qid = EDCA_AC_BE; 1104 ring = &sc->txq[qid]; 1105 1106 if (SLIST_EMPTY(&sc->data_pool) || (ring->queued > 15)) { 1107 sc->sc_need_sched = 1; 1108 sc->sc_tx_nobuf++; 1109 err = ENOMEM; 1110 goto fail1; 1111 } 1112 1113 /* the data pool contains at least one element, pick the first */ 1114 data = SLIST_FIRST(&sc->data_pool); 1115 1116 m = allocb(msgdsize(mp) + 32, BPRI_MED); 1117 if (m == NULL) { 1118 RWN_DEBUG(RT2860_DBG_TX, "rwn: rt2860_send():" 1119 "rt2860_mgmt_send: can't alloc mblk.\n"); 1120 err = DDI_FAILURE; 1121 goto fail1; 1122 } 1123 1124 for (off = 0, m0 = mp; m0 != NULL; m0 = m0->b_cont) { 1125 mblen = MBLKL(m0); 1126 (void) bcopy(m0->b_rptr, m->b_rptr + off, mblen); 1127 off += mblen; 1128 } 1129 m->b_wptr += off; 1130 1131 wh = (struct ieee80211_frame *)m->b_rptr; 1132 ni = ieee80211_find_txnode(ic, wh->i_addr1); 1133 if (ni == NULL) { 1134 err = DDI_FAILURE; 1135 sc->sc_tx_err++; 1136 goto fail2; 1137 } 1138 1139 if ((type & IEEE80211_FC0_TYPE_MASK) == 1140 IEEE80211_FC0_TYPE_DATA) 1141 (void) ieee80211_encap(ic, m, ni); 1142 1143 if (wh->i_fc[1] & IEEE80211_FC1_WEP) { 1144 struct ieee80211_key *k; 1145 k = ieee80211_crypto_encap(ic, m); 1146 if (k == NULL) { 1147 sc->sc_tx_err++; 1148 err = DDI_FAILURE; 1149 goto fail3; 1150 } 1151 /* packet header may have moved, reset our local pointer */ 1152 wh = (struct ieee80211_frame *)m->b_rptr; 1153 } 1154 pktlen = msgdsize(m); 1155 hdrlen = sizeof (*wh); 1156 1157 /* pickup a rate */ 1158 if (IEEE80211_IS_MULTICAST(wh->i_addr1) || 1159 ((type & IEEE80211_FC0_TYPE_MASK) != 1160 IEEE80211_FC0_TYPE_DATA)) 1161 rate = ni->in_rates.ir_rates[0]; 1162 else { 1163 if (ic->ic_fixed_rate != IEEE80211_FIXED_RATE_NONE) 1164 rate = ic->ic_fixed_rate; 1165 else 1166 rate = ni->in_rates.ir_rates[ni->in_txrate]; 1167 } 1168 rate &= IEEE80211_RATE_VAL; 1169 1170 /* get MCS code from rate */ 1171 mcs = rt2860_rate2mcs(rate); 1172 1173 /* setup TX Wireless Information */ 1174 txwi = data->txwi; 1175 (void) bzero(txwi, sizeof (struct rt2860_txwi)); 1176 txwi->wcid = (type == IEEE80211_FC0_TYPE_DATA) ? 1177 RT2860_AID2WCID(ni->in_associd) : 0xff; 1178 txwi->len = LE_16(pktlen); 1179 if (!RT2860_RATE_IS_OFDM(rate)) { 1180 txwi->phy = LE_16(RT2860_PHY_CCK); 1181 if (rate != 2 && (ic->ic_flags & IEEE80211_F_SHPREAMBLE)) 1182 mcs |= RT2860_PHY_SHPRE; 1183 } else 1184 txwi->phy = LE_16(RT2860_PHY_OFDM); 1185 txwi->phy |= LE_16(mcs); 1186 1187 /* 1188 * We store the MCS code into the driver-private PacketID field. 1189 * The PacketID is latched into TX_STAT_FIFO when Tx completes so 1190 * that we know at which initial rate the frame was transmitted. 1191 * We add 1 to the MCS code because setting the PacketID field to 1192 * 0 means that we don't want feedback in TX_STAT_FIFO. 1193 */ 1194 pid = (mcs + 1) & 0xf; 1195 txwi->len |= LE_16(pid << RT2860_TX_PID_SHIFT); 1196 1197 /* check if RTS/CTS or CTS-to-self protection is required */ 1198 if (!IEEE80211_IS_MULTICAST(wh->i_addr1) && 1199 (pktlen + IEEE80211_CRC_LEN > ic->ic_rtsthreshold || 1200 ((ic->ic_flags & 1201 IEEE80211_F_USEPROT) && RT2860_RATE_IS_OFDM(rate)))) 1202 txwi->txop = RT2860_TX_TXOP_HT; 1203 else 1204 txwi->txop = RT2860_TX_TXOP_BACKOFF; 1205 1206 if (!IEEE80211_IS_MULTICAST(wh->i_addr1)) { 1207 txwi->xflags |= RT2860_TX_ACK; 1208 1209 dur = rt2860_txtime(RT2860_ACK_SIZE, rt2860_ack_rate(ic, rate), 1210 ic->ic_flags) + sc->sifs; 1211 *(uint16_t *)wh->i_dur = LE_16(dur); 1212 } 1213 1214 /* copy and trim 802.11 header */ 1215 bcopy(wh, &txwi->wh, hdrlen); 1216 m->b_rptr += hdrlen; 1217 bcopy(m->b_rptr, data->txbuf_dma.mem_va, pktlen - hdrlen); 1218 1219 qsel = (qid < EDCA_NUM_AC) ? RT2860_TX_QSEL_EDCA : RT2860_TX_QSEL_MGMT; 1220 1221 /* first segment is TXWI + 802.11 header */ 1222 txd = &ring->txd[ring->cur]; 1223 txd->sdp0 = LE_32(data->paddr); 1224 txd->sdl0 = LE_16(16 + hdrlen); 1225 txd->flags = qsel; 1226 1227 /* finalize last segment */ 1228 txd->sdp1 = LE_32(data->txbuf_dma.cookie.dmac_address); 1229 txd->sdl1 = LE_16(pktlen - hdrlen | RT2860_TX_LS1); 1230 1231 /* remove from the free pool and link it into the SW Tx slot */ 1232 SLIST_REMOVE_HEAD(&sc->data_pool, next); 1233 data->ni = ieee80211_ref_node(ni); 1234 ring->data[ring->cur] = data; 1235 1236 (void) ddi_dma_sync(sc->txpool_dma.dma_hdl, 1237 _PTRDIFF(txwi, sc->txwi), 1238 (hdrlen + 16 + 2), 1239 DDI_DMA_SYNC_FORDEV); 1240 RT2860_DMA_SYNC(data->txbuf_dma, DDI_DMA_SYNC_FORDEV); 1241 RT2860_DMA_SYNC(ring->txdesc_dma, DDI_DMA_SYNC_FORDEV); 1242 1243 RWN_DEBUG(RT2860_DBG_TX, "rwn: rt2860_send():" 1244 "sending frame qid=%d wcid=%d rate=%d cur = %x\n", 1245 qid, txwi->wcid, rate, ring->cur); 1246 1247 ring->queued++; 1248 ring->cur = (ring->cur + 1) % RT2860_TX_RING_COUNT; 1249 1250 /* kick Tx */ 1251 RT2860_WRITE(sc, RT2860_TX_CTX_IDX(qid), ring->cur); 1252 1253 sc->sc_tx_timer = 5; 1254 1255 ic->ic_stats.is_tx_frags++; 1256 ic->ic_stats.is_tx_bytes += pktlen; 1257 1258 fail3: 1259 ieee80211_free_node(ni); 1260 fail2: 1261 freemsg(m); 1262 fail1: 1263 if ((type & IEEE80211_FC0_TYPE_MASK) != IEEE80211_FC0_TYPE_DATA || 1264 err == DDI_SUCCESS) 1265 freemsg(mp); 1266 mutex_exit(&sc->sc_txlock); 1267 return (err); 1268 } 1269 1270 /* 1271 * This function is called periodically (every 200ms) during scanning to 1272 * switch from one channel to another. 1273 */ 1274 static void 1275 rt2860_next_scan(void *arg) 1276 { 1277 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 1278 struct ieee80211com *ic = &sc->sc_ic; 1279 1280 if (ic->ic_state == IEEE80211_S_SCAN) 1281 (void) ieee80211_next_scan(ic); 1282 } 1283 1284 static void 1285 rt2860_updateslot(struct rt2860_softc *sc) 1286 { 1287 struct ieee80211com *ic = &sc->sc_ic; 1288 uint32_t tmp; 1289 1290 tmp = RT2860_READ(sc, RT2860_BKOFF_SLOT_CFG); 1291 tmp &= ~0xff; 1292 tmp |= (ic->ic_flags & IEEE80211_F_SHSLOT) ? 9 : 20; 1293 RT2860_WRITE(sc, RT2860_BKOFF_SLOT_CFG, tmp); 1294 } 1295 1296 static void 1297 rt2860_iter_func(void *arg, struct ieee80211_node *ni) 1298 { 1299 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 1300 uint8_t wcid; 1301 1302 wcid = RT2860_AID2WCID(ni->in_associd); 1303 rt2860_amrr_choose(&sc->amrr, ni, &sc->amn[wcid]); 1304 } 1305 1306 static void 1307 rt2860_updatestats(void *arg) 1308 { 1309 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 1310 struct ieee80211com *ic = &sc->sc_ic; 1311 1312 if (ic->ic_opmode == IEEE80211_M_STA) 1313 rt2860_iter_func(sc, ic->ic_bss); 1314 else 1315 ieee80211_iterate_nodes(&ic->ic_sta, rt2860_iter_func, arg); 1316 1317 sc->sc_rssadapt_id = timeout(rt2860_updatestats, (void *)sc, 1318 drv_usectohz(500 * 1000)); 1319 } 1320 1321 static void 1322 rt2860_enable_mrr(struct rt2860_softc *sc) 1323 { 1324 #define CCK(mcs) (mcs) 1325 #define OFDM(mcs) ((uint32_t)1 << 3 | (mcs)) 1326 RT2860_WRITE(sc, RT2860_LG_FBK_CFG0, 1327 OFDM(6) << 28 | /* 54->48 */ 1328 OFDM(5) << 24 | /* 48->36 */ 1329 OFDM(4) << 20 | /* 36->24 */ 1330 OFDM(3) << 16 | /* 24->18 */ 1331 OFDM(2) << 12 | /* 18->12 */ 1332 OFDM(1) << 8 | /* 12-> 9 */ 1333 OFDM(0) << 4 | /* 9-> 6 */ 1334 OFDM(0)); /* 6-> 6 */ 1335 1336 RT2860_WRITE(sc, RT2860_LG_FBK_CFG1, 1337 CCK(2) << 12 | /* 11->5.5 */ 1338 CCK(1) << 8 | /* 5.5-> 2 */ 1339 CCK(0) << 4 | /* 2-> 1 */ 1340 CCK(0)); /* 1-> 1 */ 1341 #undef OFDM 1342 #undef CCK 1343 } 1344 1345 static void 1346 rt2860_set_txpreamble(struct rt2860_softc *sc) 1347 { 1348 uint32_t tmp; 1349 1350 tmp = RT2860_READ(sc, RT2860_AUTO_RSP_CFG); 1351 tmp &= ~RT2860_CCK_SHORT_EN; 1352 if (sc->sc_ic.ic_flags & IEEE80211_F_SHPREAMBLE) 1353 tmp |= RT2860_CCK_SHORT_EN; 1354 RT2860_WRITE(sc, RT2860_AUTO_RSP_CFG, tmp); 1355 } 1356 1357 static void 1358 rt2860_set_bssid(struct rt2860_softc *sc, const uint8_t *bssid) 1359 { 1360 RT2860_WRITE(sc, RT2860_MAC_BSSID_DW0, 1361 bssid[0] | bssid[1] << 8 | bssid[2] << 16 | bssid[3] << 24); 1362 RT2860_WRITE(sc, RT2860_MAC_BSSID_DW1, 1363 bssid[4] | bssid[5] << 8); 1364 } 1365 1366 static void 1367 rt2860_set_basicrates(struct rt2860_softc *sc) 1368 { 1369 struct ieee80211com *ic = &sc->sc_ic; 1370 1371 /* set basic rates mask */ 1372 if (ic->ic_curmode == IEEE80211_MODE_11B) 1373 RT2860_WRITE(sc, RT2860_LEGACY_BASIC_RATE, 0x003); 1374 else if (ic->ic_curmode == IEEE80211_MODE_11A) 1375 RT2860_WRITE(sc, RT2860_LEGACY_BASIC_RATE, 0x150); 1376 else /* 11g */ 1377 RT2860_WRITE(sc, RT2860_LEGACY_BASIC_RATE, 0x15f); 1378 } 1379 1380 static void 1381 rt2860_amrr_node_init(const struct rt2860_amrr *amrr, 1382 struct rt2860_amrr_node *amn) 1383 { 1384 amn->amn_success = 0; 1385 amn->amn_recovery = 0; 1386 amn->amn_txcnt = amn->amn_retrycnt = 0; 1387 amn->amn_success_threshold = amrr->amrr_min_success_threshold; 1388 } 1389 1390 static void 1391 rt2860_amrr_choose(struct rt2860_amrr *amrr, struct ieee80211_node *ni, 1392 struct rt2860_amrr_node *amn) 1393 { 1394 #define RV(rate) ((rate) & IEEE80211_RATE_VAL) 1395 #define is_success(amn) \ 1396 ((amn)->amn_retrycnt < (amn)->amn_txcnt / 10) 1397 #define is_failure(amn) \ 1398 ((amn)->amn_retrycnt > (amn)->amn_txcnt / 3) 1399 #define is_enough(amn) \ 1400 ((amn)->amn_txcnt > 10) 1401 #define is_min_rate(ni) \ 1402 ((ni)->in_txrate == 0) 1403 #define is_max_rate(ni) \ 1404 ((ni)->in_txrate == (ni)->in_rates.ir_nrates - 1) 1405 #define increase_rate(ni) \ 1406 ((ni)->in_txrate++) 1407 #define decrease_rate(ni) \ 1408 ((ni)->in_txrate--) 1409 #define reset_cnt(amn) \ 1410 { (amn)->amn_txcnt = (amn)->amn_retrycnt = 0; } 1411 1412 int need_change = 0; 1413 1414 if (is_success(amn) && is_enough(amn)) { 1415 amn->amn_success++; 1416 if (amn->amn_success >= amn->amn_success_threshold && 1417 !is_max_rate(ni)) { 1418 amn->amn_recovery = 1; 1419 amn->amn_success = 0; 1420 increase_rate(ni); 1421 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_amrr_choose(): " 1422 "increase rate = %d, #tx = %d, #retries = %d\n", 1423 RV(ni->in_rates.ir_rates[ni->in_txrate]), 1424 amn->amn_txcnt, amn->amn_retrycnt); 1425 need_change = 1; 1426 } else { 1427 amn->amn_recovery = 0; 1428 } 1429 } else if (is_failure(amn)) { 1430 amn->amn_success = 0; 1431 if (!is_min_rate(ni)) { 1432 if (amn->amn_recovery) { 1433 amn->amn_success_threshold *= 2; 1434 if (amn->amn_success_threshold > 1435 amrr->amrr_max_success_threshold) 1436 amn->amn_success_threshold = 1437 amrr->amrr_max_success_threshold; 1438 } else { 1439 amn->amn_success_threshold = 1440 amrr->amrr_min_success_threshold; 1441 } 1442 decrease_rate(ni); 1443 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_amrr_choose(): " 1444 "decrease rate = %d, #tx = %d, #retries = %d\n", 1445 RV(ni->in_rates.ir_rates[ni->in_txrate]), 1446 amn->amn_txcnt, amn->amn_retrycnt); 1447 need_change = 1; 1448 } 1449 amn->amn_recovery = 0; 1450 } 1451 1452 if (is_enough(amn) || need_change) 1453 reset_cnt(amn); 1454 #undef RV 1455 } 1456 1457 static void 1458 rt2860_newassoc(struct ieee80211com *ic, struct ieee80211_node *in, int isnew) 1459 { 1460 struct rt2860_softc *sc = (struct rt2860_softc *)ic; 1461 uint32_t off; 1462 uint8_t *fptr, wcid = 0; 1463 int i; 1464 1465 if (isnew && in->in_associd != 0) { 1466 /* only interested in true associations */ 1467 wcid = RT2860_AID2WCID(in->in_associd); 1468 1469 /* init WCID table entry */ 1470 off = RT2860_WCID_ENTRY(wcid); 1471 fptr = in->in_macaddr; 1472 for (i = 0; i < IEEE80211_ADDR_LEN; i++) 1473 rt2860_mem_write1(sc, off++, *fptr++); 1474 } 1475 rt2860_amrr_node_init(&sc->amrr, &sc->amn[wcid]); 1476 1477 /* set rate to some reasonable initial value */ 1478 i = in->in_rates.ir_nrates - 1; 1479 for (; i > 0 && (in->in_rates.ir_rates[i] & IEEE80211_RATE_VAL) > 72; ) 1480 i--; 1481 in->in_txrate = i; 1482 1483 RWN_DEBUG(RT2860_DBG_80211, "rwn: rt2860_newassoc(): " 1484 "new assoc isnew=%d WCID=%d, initial rate=%d\n", 1485 isnew, wcid, 1486 in->in_rates.ir_rates[i] & IEEE80211_RATE_VAL); 1487 RWN_DEBUG(RT2860_DBG_80211, "rwn: rt2860_newassoc(): " 1488 "addr=%x:%x:%x:%x:%x:%x\n", 1489 in->in_macaddr[0], in->in_macaddr[1], in->in_macaddr[2], 1490 in->in_macaddr[3], in->in_macaddr[4], in->in_macaddr[5]); 1491 } 1492 1493 void 1494 rt2860_enable_tsf_sync(struct rt2860_softc *sc) 1495 { 1496 struct ieee80211com *ic = &sc->sc_ic; 1497 uint32_t tmp; 1498 1499 tmp = RT2860_READ(sc, RT2860_BCN_TIME_CFG); 1500 1501 tmp &= ~0x1fffff; 1502 tmp |= ic->ic_bss->in_intval * 16; 1503 tmp |= RT2860_TSF_TIMER_EN | RT2860_TBTT_TIMER_EN; 1504 if (ic->ic_opmode == IEEE80211_M_STA) { 1505 /* 1506 * Local TSF is always updated with remote TSF on beacon 1507 * reception. 1508 */ 1509 tmp |= 1 << RT2860_TSF_SYNC_MODE_SHIFT; 1510 } 1511 1512 RT2860_WRITE(sc, RT2860_BCN_TIME_CFG, tmp); 1513 } 1514 1515 static int 1516 rt2860_newstate(struct ieee80211com *ic, enum ieee80211_state nstate, int arg) 1517 { 1518 struct rt2860_softc *sc = (struct rt2860_softc *)ic; 1519 enum ieee80211_state ostate; 1520 int err; 1521 uint32_t tmp; 1522 1523 ostate = ic->ic_state; 1524 RWN_DEBUG(RT2860_DBG_80211, "rwn: rt2860_newstate(): " 1525 "%x -> %x!\n", ostate, nstate); 1526 1527 RT2860_GLOCK(sc); 1528 if (sc->sc_scan_id != 0) { 1529 (void) untimeout(sc->sc_scan_id); 1530 sc->sc_scan_id = 0; 1531 } 1532 if (sc->sc_rssadapt_id != 0) { 1533 (void) untimeout(sc->sc_rssadapt_id); 1534 sc->sc_rssadapt_id = 0; 1535 } 1536 if (ostate == IEEE80211_S_RUN) { 1537 /* turn link LED off */ 1538 rt2860_set_leds(sc, RT2860_LED_RADIO); 1539 } 1540 1541 switch (nstate) { 1542 case IEEE80211_S_INIT: 1543 if (ostate == IEEE80211_S_RUN) { 1544 /* abort TSF synchronization */ 1545 tmp = RT2860_READ(sc, RT2860_BCN_TIME_CFG); 1546 RT2860_WRITE(sc, RT2860_BCN_TIME_CFG, 1547 tmp & ~(RT2860_BCN_TX_EN | RT2860_TSF_TIMER_EN | 1548 RT2860_TBTT_TIMER_EN)); 1549 } 1550 break; 1551 1552 case IEEE80211_S_SCAN: 1553 rt2860_set_chan(sc, ic->ic_curchan); 1554 sc->sc_scan_id = timeout(rt2860_next_scan, (void *)sc, 1555 drv_usectohz(200000)); 1556 break; 1557 1558 case IEEE80211_S_AUTH: 1559 case IEEE80211_S_ASSOC: 1560 rt2860_set_chan(sc, ic->ic_curchan); 1561 break; 1562 1563 case IEEE80211_S_RUN: 1564 rt2860_set_chan(sc, ic->ic_curchan); 1565 1566 if (ic->ic_opmode != IEEE80211_M_MONITOR) { 1567 rt2860_updateslot(sc); 1568 rt2860_enable_mrr(sc); 1569 rt2860_set_txpreamble(sc); 1570 rt2860_set_basicrates(sc); 1571 rt2860_set_bssid(sc, ic->ic_bss->in_bssid); 1572 } 1573 if (ic->ic_opmode == IEEE80211_M_STA) { 1574 /* fake a join to init the tx rate */ 1575 rt2860_newassoc(ic, ic->ic_bss, 1); 1576 } 1577 1578 if (ic->ic_opmode != IEEE80211_M_MONITOR) { 1579 rt2860_enable_tsf_sync(sc); 1580 sc->sc_rssadapt_id = timeout(rt2860_updatestats, 1581 (void *)sc, drv_usectohz(500 * 1000)); 1582 } 1583 1584 /* turn link LED on */ 1585 rt2860_set_leds(sc, RT2860_LED_RADIO | 1586 (IEEE80211_IS_CHAN_2GHZ(ic->ic_curchan) ? 1587 RT2860_LED_LINK_2GHZ : RT2860_LED_LINK_5GHZ)); 1588 break; 1589 } 1590 1591 RT2860_GUNLOCK(sc); 1592 1593 err = sc->sc_newstate(ic, nstate, arg); 1594 1595 return (err); 1596 } 1597 1598 /* 1599 * Return the Rx chain with the highest RSSI for a given frame. 1600 */ 1601 static uint8_t 1602 rt2860_maxrssi_chain(struct rt2860_softc *sc, const struct rt2860_rxwi *rxwi) 1603 { 1604 uint8_t rxchain = 0; 1605 1606 if (sc->nrxchains > 1) 1607 if (rxwi->rssi[1] > rxwi->rssi[rxchain]) 1608 rxchain = 1; 1609 if (sc->nrxchains > 2) 1610 if (rxwi->rssi[2] > rxwi->rssi[rxchain]) 1611 rxchain = 2; 1612 1613 return (rxchain); 1614 } 1615 1616 static void 1617 rt2860_drain_stats_fifo(struct rt2860_softc *sc) 1618 { 1619 struct rt2860_amrr_node *amn; 1620 uint32_t stat; 1621 uint8_t wcid, mcs, pid; 1622 1623 /* drain Tx status FIFO (maxsize = 16) */ 1624 while ((stat = RT2860_READ(sc, RT2860_TX_STAT_FIFO)) & RT2860_TXQ_VLD) { 1625 RWN_DEBUG(RT2860_DBG_TX, "rwn: rt2860_drain_stats_fifo(): " 1626 "tx stat 0x%08\n", stat); 1627 1628 wcid = (stat >> 8) & 0xff; 1629 1630 /* if no ACK was requested, no feedback is available */ 1631 if (!(stat & RT2860_TXQ_ACKREQ) || wcid == 0xff) 1632 continue; 1633 /* update per-STA AMRR stats */ 1634 amn = &sc->amn[wcid]; 1635 amn->amn_txcnt++; 1636 if (stat & RT2860_TXQ_OK) { 1637 /* 1638 * Check if there were retries, ie if the Tx success 1639 * rate is different from the requested rate. Note 1640 * that it works only because we do not allow rate 1641 * fallback from OFDM to CCK. 1642 */ 1643 mcs = (stat >> RT2860_TXQ_MCS_SHIFT) & 0x7f; 1644 pid = (stat >> RT2860_TXQ_PID_SHIFT) & 0xf; 1645 if (mcs + 1 != pid) 1646 amn->amn_retrycnt++; 1647 } else 1648 amn->amn_retrycnt++; 1649 } 1650 } 1651 1652 /*ARGSUSED*/ 1653 static void 1654 rt2860_tx_intr(struct rt2860_softc *sc, int qid) 1655 { 1656 struct rt2860_tx_ring *ring = &sc->txq[qid]; 1657 struct ieee80211com *ic = &sc->sc_ic; 1658 uint32_t hw; 1659 1660 rt2860_drain_stats_fifo(sc); 1661 1662 mutex_enter(&sc->sc_txlock); 1663 hw = RT2860_READ(sc, RT2860_TX_DTX_IDX(qid)); 1664 RWN_DEBUG(RT2860_DBG_TX, "rwn: rwn_tx_intr():" 1665 "hw = %x, ring->next = %x, queued = %d\n", 1666 hw, ring->next, ring->queued); 1667 while (ring->next != hw) { 1668 struct rt2860_txd *txd = &ring->txd[ring->next]; 1669 struct rt2860_tx_data *data = ring->data[ring->next]; 1670 1671 if (data != NULL) { 1672 RT2860_DMA_SYNC(data->txbuf_dma, DDI_DMA_SYNC_FORDEV); 1673 if (data->ni != NULL) { 1674 ieee80211_free_node(data->ni); 1675 data->ni = NULL; 1676 } 1677 SLIST_INSERT_HEAD(&sc->data_pool, data, next); 1678 ring->data[ring->next] = NULL; 1679 } 1680 1681 txd->sdl0 &= ~LE_16(RT2860_TX_DDONE); 1682 1683 (void) ddi_dma_sync(ring->txdesc_dma.dma_hdl, 1684 ring->next * sizeof (struct rt2860_txd), 1685 sizeof (struct rt2860_txd), 1686 DDI_DMA_SYNC_FORDEV); 1687 1688 ring->queued--; 1689 ring->next = (ring->next + 1) % RT2860_TX_RING_COUNT; 1690 1691 if (sc->sc_need_sched && 1692 (ring->queued < RT2860_TX_RING_COUNT)) { 1693 sc->sc_need_sched = 0; 1694 mac_tx_update(ic->ic_mach); 1695 } 1696 } 1697 sc->sc_tx_timer = 0; 1698 mutex_exit(&sc->sc_txlock); 1699 } 1700 1701 static void 1702 rt2860_rx_intr(struct rt2860_softc *sc) 1703 { 1704 struct ieee80211com *ic = &sc->sc_ic; 1705 struct ieee80211_node *ni; 1706 struct ieee80211_frame *wh; 1707 int pktlen; 1708 uint8_t ant, rssi, *rxbuf; 1709 mblk_t *mp0; 1710 1711 mutex_enter(&sc->sc_rxlock); 1712 for (;;) { 1713 struct rt2860_rx_data *data = &sc->rxq.data[sc->rxq.cur]; 1714 struct rt2860_rxd *rxd = &sc->rxq.rxd[sc->rxq.cur]; 1715 struct rt2860_rxwi *rxwi; 1716 1717 (void) ddi_dma_sync(sc->rxq.rxdesc_dma.dma_hdl, 1718 sc->rxq.cur * sizeof (struct rt2860_rxd), 1719 sizeof (struct rt2860_rxd), 1720 DDI_DMA_SYNC_FORKERNEL); 1721 1722 if (!(rxd->sdl0 & LE_16(RT2860_RX_DDONE))) { 1723 RWN_DEBUG(RT2860_DBG_RX, "rwn: rt2860_rx_intr(): " 1724 "rx done!\n"); 1725 break; 1726 } 1727 1728 if (rxd->flags & 1729 LE_32(RT2860_RX_CRCERR | RT2860_RX_ICVERR)) { 1730 RWN_DEBUG(RT2860_DBG_RX, "rwn: rt2860_rx_intr(): " 1731 "rx crc error & rx icv error!\n"); 1732 sc->sc_rx_err++; 1733 goto skip; 1734 } 1735 1736 if (rxd->flags & LE_32(RT2860_RX_MICERR)) { 1737 RWN_DEBUG(RT2860_DBG_RX, "rwn: rt2860_rx_intr(): " 1738 "rx mic error!\n"); 1739 sc->sc_rx_err++; 1740 goto skip; 1741 } 1742 1743 (void) ddi_dma_sync(data->rxbuf_dma.dma_hdl, 1744 data->rxbuf_dma.offset, 1745 data->rxbuf_dma.alength, 1746 DDI_DMA_SYNC_FORCPU); 1747 1748 rxbuf = (uint8_t *)data->rxbuf_dma.mem_va; 1749 rxd->sdp0 = LE_32(data->rxbuf_dma.cookie.dmac_address); 1750 rxwi = (struct rt2860_rxwi *)rxbuf; 1751 rxbuf = (uint8_t *)(rxwi + 1); 1752 pktlen = LE_16(rxwi->len) & 0xfff; 1753 1754 mp0 = allocb(sc->sc_dmabuf_size, BPRI_MED); 1755 if (mp0 == NULL) { 1756 RWN_DEBUG(RT2860_DBG_RX, "rwn: rt2860_rx_intr():" 1757 "alloc mblk error\n"); 1758 sc->sc_rx_nobuf++; 1759 goto skip; 1760 } 1761 bcopy(rxbuf, mp0->b_rptr, pktlen); 1762 mp0->b_wptr += pktlen; 1763 1764 wh = (struct ieee80211_frame *)mp0->b_rptr; 1765 1766 /* HW may insert 2 padding bytes after 802.11 header */ 1767 if (rxd->flags & LE_32(RT2860_RX_L2PAD)) { 1768 RWN_DEBUG(RT2860_DBG_RX, "rwn: rt2860_rx_intr():" 1769 "2 padding bytes after 80211 header!\n"); 1770 } 1771 1772 ant = rt2860_maxrssi_chain(sc, rxwi); 1773 rssi = RT2860_RSSI_OFFSET - rxwi->rssi[ant]; 1774 /* grab a reference to the source node */ 1775 ni = ieee80211_find_rxnode(ic, wh); 1776 1777 (void) ieee80211_input(ic, mp0, ni, rssi, 0); 1778 1779 /* node is no longer needed */ 1780 ieee80211_free_node(ni); 1781 skip: 1782 rxd->sdl0 &= ~LE_16(RT2860_RX_DDONE); 1783 1784 (void) ddi_dma_sync(sc->rxq.rxdesc_dma.dma_hdl, 1785 sc->rxq.cur * sizeof (struct rt2860_rxd), 1786 sizeof (struct rt2860_rxd), 1787 DDI_DMA_SYNC_FORDEV); 1788 1789 sc->rxq.cur = (sc->rxq.cur + 1) % RT2860_RX_RING_COUNT; 1790 } 1791 mutex_exit(&sc->sc_rxlock); 1792 1793 /* tell HW what we have processed */ 1794 RT2860_WRITE(sc, RT2860_RX_CALC_IDX, 1795 (sc->rxq.cur - 1) % RT2860_RX_RING_COUNT); 1796 } 1797 1798 static uint_t 1799 rt2860_softintr(caddr_t data) 1800 { 1801 struct rt2860_softc *sc = (struct rt2860_softc *)data; 1802 1803 /* 1804 * Check if the soft interrupt is triggered by another 1805 * driver at the same level. 1806 */ 1807 RT2860_GLOCK(sc); 1808 if (sc->sc_rx_pend) { 1809 sc->sc_rx_pend = 0; 1810 RT2860_GUNLOCK(sc); 1811 rt2860_rx_intr(sc); 1812 return (DDI_INTR_CLAIMED); 1813 } 1814 RT2860_GUNLOCK(sc); 1815 1816 return (DDI_INTR_UNCLAIMED); 1817 } 1818 1819 static uint_t 1820 rt2860_intr(caddr_t arg) 1821 { 1822 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 1823 uint32_t r; 1824 1825 RT2860_GLOCK(sc); 1826 1827 if ((!RT2860_IS_RUNNING(sc)) || RT2860_IS_SUSPEND(sc)) { 1828 /* 1829 * The hardware is not ready/present, don't touch anything. 1830 * Note this can happen early on if the IRQ is shared. 1831 */ 1832 RT2860_GUNLOCK(sc); 1833 return (DDI_INTR_UNCLAIMED); 1834 } 1835 1836 r = RT2860_READ(sc, RT2860_INT_STATUS); 1837 if (r == 0xffffffff) { 1838 RT2860_GUNLOCK(sc); 1839 return (DDI_INTR_UNCLAIMED); 1840 } 1841 if (r == 0) { 1842 RT2860_GUNLOCK(sc); 1843 return (DDI_INTR_UNCLAIMED); 1844 } 1845 1846 /* acknowledge interrupts */ 1847 RT2860_WRITE(sc, RT2860_INT_STATUS, r); 1848 1849 if (r & RT2860_TX_COHERENT) 1850 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr()" 1851 "RT2860_TX_COHERENT\n"); 1852 1853 if (r & RT2860_RX_COHERENT) 1854 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr()" 1855 "RT2860_RX_COHERENT\n"); 1856 1857 if (r & RT2860_MAC_INT_2) { 1858 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1859 "RT2860_MAC_INT_2\n"); 1860 rt2860_drain_stats_fifo(sc); 1861 } 1862 1863 if (r & RT2860_TX_DONE_INT5) { 1864 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1865 "RT2860_TX_DONE_INT5\n"); 1866 rt2860_tx_intr(sc, 5); 1867 } 1868 1869 if (r & RT2860_RX_DONE_INT) { 1870 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr()" 1871 "RT2860_RX_INT\n"); 1872 sc->sc_rx_pend = 1; 1873 ddi_trigger_softintr(sc->sc_softintr_hdl); 1874 } 1875 1876 if (r & RT2860_TX_DONE_INT4) { 1877 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1878 "RT2860_TX_DONE_INT4\n"); 1879 rt2860_tx_intr(sc, 4); 1880 } 1881 1882 if (r & RT2860_TX_DONE_INT3) { 1883 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1884 "RT2860_TX_DONE_INT3\n"); 1885 rt2860_tx_intr(sc, 3); 1886 } 1887 1888 if (r & RT2860_TX_DONE_INT2) { 1889 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1890 "RT2860_TX_DONE_INT2\n"); 1891 rt2860_tx_intr(sc, 2); 1892 } 1893 1894 if (r & RT2860_TX_DONE_INT1) { 1895 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1896 "RT2860_TX_DONE_INT1\n"); 1897 rt2860_tx_intr(sc, 1); 1898 } 1899 1900 if (r & RT2860_TX_DONE_INT0) { 1901 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1902 "RT2860_TX_DONE_INT0\n"); 1903 rt2860_tx_intr(sc, 0); 1904 } 1905 1906 if (r & RT2860_MAC_INT_0) { 1907 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1908 "RT2860_MAC_INT_0\n"); 1909 struct ieee80211com *ic = &sc->sc_ic; 1910 /* check if protection mode has changed */ 1911 if ((sc->sc_ic_flags ^ ic->ic_flags) & IEEE80211_F_USEPROT) { 1912 rt2860_updateprot(ic); 1913 sc->sc_ic_flags = ic->ic_flags; 1914 } 1915 } 1916 1917 if (r & RT2860_MAC_INT_3) 1918 RWN_DEBUG(RT2860_DBG_INTR, "rwn: rt2860_intr(): " 1919 "RT2860_MAC_INT_3\n"); 1920 1921 RT2860_GUNLOCK(sc); 1922 1923 return (DDI_INTR_CLAIMED); 1924 } 1925 1926 static void 1927 rt2860_set_region_4(struct rt2860_softc *sc, 1928 uint32_t addr, uint32_t data, int size) 1929 { 1930 for (; size > 0; size--, data++, addr += 4) 1931 ddi_put32((sc)->sc_io_handle, 1932 (uint32_t *)((uintptr_t)(sc)->sc_io_base + addr), data); 1933 } 1934 1935 static int 1936 rt2860_load_microcode(struct rt2860_softc *sc) 1937 { 1938 int ntries; 1939 size_t size; 1940 uint8_t *ucode, *fptr; 1941 uint32_t off, i; 1942 1943 ucode = rt2860_fw_bin; 1944 size = sizeof (rt2860_fw_bin); 1945 RWN_DEBUG(RT2860_DBG_FW, "rwn: rt2860_load_microcode(): " 1946 "The size of ucode is: %x\n", size); 1947 1948 /* set "host program ram write selection" bit */ 1949 RT2860_WRITE(sc, RT2860_SYS_CTRL, RT2860_HST_PM_SEL); 1950 /* write microcode image */ 1951 fptr = ucode; 1952 off = RT2860_FW_BASE; 1953 for (i = 0; i < size; i++) { 1954 rt2860_mem_write1(sc, off++, *fptr++); 1955 } 1956 /* kick microcontroller unit */ 1957 RT2860_WRITE(sc, RT2860_SYS_CTRL, 0); 1958 RT2860_WRITE(sc, RT2860_SYS_CTRL, RT2860_MCU_RESET); 1959 1960 RT2860_WRITE(sc, RT2860_H2M_BBPAGENT, 0); 1961 RT2860_WRITE(sc, RT2860_H2M_MAILBOX, 0); 1962 1963 /* wait until microcontroller is ready */ 1964 for (ntries = 0; ntries < 1000; ntries++) { 1965 if (RT2860_READ(sc, RT2860_SYS_CTRL) & RT2860_MCU_READY) 1966 break; 1967 DELAY(1000); 1968 } 1969 if (ntries == 1000) { 1970 RWN_DEBUG(RT2860_DBG_FW, "rwn: rt2860_load_microcode(): " 1971 "timeout waiting for MCU to initialie\n"); 1972 return (ETIMEDOUT); 1973 } 1974 1975 return (0); 1976 } 1977 1978 static void 1979 rt2860_set_macaddr(struct rt2860_softc *sc, const uint8_t *addr) 1980 { 1981 RT2860_WRITE(sc, RT2860_MAC_ADDR_DW0, 1982 addr[0] | addr[1] << 8 | addr[2] << 16 | addr[3] << 24); 1983 RT2860_WRITE(sc, RT2860_MAC_ADDR_DW1, 1984 addr[4] | addr[5] << 8); 1985 } 1986 1987 /* 1988 * Send a command to the 8051 microcontroller unit. 1989 */ 1990 static int 1991 rt2860_mcu_cmd(struct rt2860_softc *sc, uint8_t cmd, uint16_t arg) 1992 { 1993 int ntries; 1994 1995 for (ntries = 0; ntries < 100; ntries++) { 1996 if (!(RT2860_READ(sc, RT2860_H2M_MAILBOX) & RT2860_H2M_BUSY)) 1997 break; 1998 DELAY(2); 1999 } 2000 if (ntries == 100) 2001 return (EIO); 2002 2003 RT2860_WRITE(sc, RT2860_H2M_MAILBOX, 2004 RT2860_H2M_BUSY | RT2860_TOKEN_NO_INTR << 16 | arg); 2005 RT2860_WRITE(sc, RT2860_HOST_CMD, cmd); 2006 2007 return (RT2860_SUCCESS); 2008 } 2009 2010 /* 2011 * Reading and writing from/to the BBP is different from RT2560 and RT2661. 2012 * We access the BBP through the 8051 microcontroller unit which means that 2013 * the microcode must be loaded first. 2014 */ 2015 static uint8_t 2016 rt2860_mcu_bbp_read(struct rt2860_softc *sc, uint8_t reg) 2017 { 2018 uint32_t val; 2019 int ntries; 2020 2021 for (ntries = 0; ntries < 100; ntries++) { 2022 if (!(RT2860_READ(sc, 2023 RT2860_H2M_BBPAGENT) & RT2860_BBP_CSR_KICK)) 2024 break; 2025 DELAY(1); 2026 } 2027 if (ntries == 100) { 2028 RWN_DEBUG(RT2860_DBG_FW, "rwn: rt2860_mcu_bbp_read():" 2029 "could not read from BBP through MCU\n"); 2030 return (0); 2031 } 2032 2033 RT2860_WRITE(sc, RT2860_H2M_BBPAGENT, RT2860_BBP_RW_PARALLEL | 2034 RT2860_BBP_CSR_KICK | RT2860_BBP_CSR_READ | reg << 8); 2035 2036 (void) rt2860_mcu_cmd(sc, RT2860_MCU_CMD_BBP, 0); 2037 DELAY(1000); 2038 2039 for (ntries = 0; ntries < 100; ntries++) { 2040 val = RT2860_READ(sc, RT2860_H2M_BBPAGENT); 2041 if (!(val & RT2860_BBP_CSR_KICK)) 2042 return (val & 0xff); 2043 DELAY(1); 2044 } 2045 RWN_DEBUG(RT2860_DBG_FW, "rwn: rt2860_mcu_bbp_read():" 2046 "could not read from BBP through MCU\n"); 2047 2048 return (0); 2049 } 2050 2051 static void 2052 rt2860_mcu_bbp_write(struct rt2860_softc *sc, uint8_t reg, uint8_t val) 2053 { 2054 int ntries; 2055 2056 for (ntries = 0; ntries < 100; ntries++) { 2057 if (!(RT2860_READ(sc, 2058 RT2860_H2M_BBPAGENT) & RT2860_BBP_CSR_KICK)) 2059 break; 2060 DELAY(1); 2061 } 2062 if (ntries == 100) { 2063 RWN_DEBUG(RT2860_DBG_FW, "rwn: rt2860_mcu_bbp_write():" 2064 "could not write to BBP through MCU\n"); 2065 return; 2066 } 2067 2068 RT2860_WRITE(sc, RT2860_H2M_BBPAGENT, RT2860_BBP_RW_PARALLEL | 2069 RT2860_BBP_CSR_KICK | reg << 8 | val); 2070 2071 (void) rt2860_mcu_cmd(sc, RT2860_MCU_CMD_BBP, 0); 2072 DELAY(1000); 2073 } 2074 2075 static int 2076 rt2860_bbp_init(struct rt2860_softc *sc) 2077 { 2078 int i, ntries; 2079 2080 /* wait for BBP to wake up */ 2081 for (ntries = 0; ntries < 20; ntries++) { 2082 uint8_t bbp0 = rt2860_mcu_bbp_read(sc, 0); 2083 if (bbp0 != 0 && bbp0 != 0xff) 2084 break; 2085 } 2086 if (ntries == 20) { 2087 RWN_DEBUG(RT2860_DBG_FW, "rwn: rt2860_bbp_init():" 2088 "timeout waiting for BBP to wake up\n"); 2089 return (ETIMEDOUT); 2090 } 2091 2092 /* initialize BBP registers to default values */ 2093 for (i = 0; i < 12; i++) { 2094 rt2860_mcu_bbp_write(sc, rt2860_def_bbp[i].reg, 2095 rt2860_def_bbp[i].val); 2096 } 2097 2098 /* fix BBP69 and BBP73 for RT2860C */ 2099 if (sc->mac_rev == 0x28600100) { 2100 rt2860_mcu_bbp_write(sc, 69, 0x16); 2101 rt2860_mcu_bbp_write(sc, 73, 0x12); 2102 } 2103 2104 return (0); 2105 } 2106 2107 static void 2108 rt2860_rf_write(struct rt2860_softc *sc, uint8_t reg, uint32_t val) 2109 { 2110 uint32_t tmp; 2111 int ntries; 2112 2113 for (ntries = 0; ntries < 100; ntries++) { 2114 if (!(RT2860_READ(sc, RT2860_RF_CSR_CFG0) & RT2860_RF_REG_CTRL)) 2115 break; 2116 DELAY(1); 2117 } 2118 if (ntries == 100) { 2119 RWN_DEBUG(RT2860_DBG_FW, "rwn: rwn_init()" 2120 "could not write to RF\n"); 2121 return; 2122 } 2123 2124 /* RF registers are 24-bit on the RT2860 */ 2125 tmp = RT2860_RF_REG_CTRL | 24 << RT2860_RF_REG_WIDTH_SHIFT | 2126 (val & 0x3fffff) << 2 | (reg & 3); 2127 RT2860_WRITE(sc, RT2860_RF_CSR_CFG0, tmp); 2128 } 2129 2130 static void 2131 rt2860_select_chan_group(struct rt2860_softc *sc, int group) 2132 { 2133 uint32_t tmp; 2134 2135 rt2860_mcu_bbp_write(sc, 62, 0x37 - sc->lna[group]); 2136 rt2860_mcu_bbp_write(sc, 63, 0x37 - sc->lna[group]); 2137 rt2860_mcu_bbp_write(sc, 64, 0x37 - sc->lna[group]); 2138 rt2860_mcu_bbp_write(sc, 82, (group == 0) ? 0x62 : 0xf2); 2139 2140 tmp = RT2860_READ(sc, RT2860_TX_BAND_CFG); 2141 tmp &= ~(RT2860_5G_BAND_SEL_N | RT2860_5G_BAND_SEL_P); 2142 tmp |= (group == 0) ? RT2860_5G_BAND_SEL_N : RT2860_5G_BAND_SEL_P; 2143 RT2860_WRITE(sc, RT2860_TX_BAND_CFG, tmp); 2144 2145 /* enable appropriate Power Amplifiers and Low Noise Amplifiers */ 2146 tmp = RT2860_RFTR_EN | RT2860_TRSW_EN; 2147 if (group == 0) { /* 2GHz */ 2148 tmp |= RT2860_PA_PE_G0_EN | RT2860_LNA_PE_G0_EN; 2149 if (sc->ntxchains > 1) 2150 tmp |= RT2860_PA_PE_G1_EN; 2151 if (sc->nrxchains > 1) 2152 tmp |= RT2860_LNA_PE_G1_EN; 2153 } else { /* 5GHz */ 2154 tmp |= RT2860_PA_PE_A0_EN | RT2860_LNA_PE_A0_EN; 2155 if (sc->ntxchains > 1) 2156 tmp |= RT2860_PA_PE_A1_EN; 2157 if (sc->nrxchains > 1) 2158 tmp |= RT2860_LNA_PE_A1_EN; 2159 } 2160 RT2860_WRITE(sc, RT2860_TX_PIN_CFG, tmp); 2161 2162 rt2860_mcu_bbp_write(sc, 66, 0x2e + sc->lna[group]); 2163 } 2164 static void 2165 rt2860_set_chan(struct rt2860_softc *sc, struct ieee80211_channel *c) 2166 { 2167 struct ieee80211com *ic = &sc->sc_ic; 2168 const struct rfprog *rfprog = rt2860_rf2850; 2169 uint_t i, chan, group; 2170 uint8_t txpow1, txpow2; 2171 uint32_t r2, r3, r4; 2172 2173 chan = ieee80211_chan2ieee(ic, c); 2174 if (chan == 0 || chan == IEEE80211_CHAN_ANY) { 2175 RWN_DEBUG(RT2860_DBG_FW, "Unkonwn channel!\n"); 2176 return; 2177 } 2178 2179 /* find the settings for this channel (we know it exists) */ 2180 for (i = 0; rfprog[i].chan != chan; ) 2181 i++; 2182 2183 r2 = rfprog[i].r2; 2184 if (sc->ntxchains == 1) 2185 r2 |= 1 << 12; /* 1T: disable Tx chain 2 */ 2186 if (sc->nrxchains == 1) 2187 r2 |= 1 << 15 | 1 << 4; /* 1R: disable Rx chains 2 & 3 */ 2188 else if (sc->nrxchains == 2) 2189 r2 |= 1 << 4; /* 2R: disable Rx chain 3 */ 2190 2191 /* use Tx power values from EEPROM */ 2192 txpow1 = sc->txpow1[i]; 2193 txpow2 = sc->txpow2[i]; 2194 if (IEEE80211_IS_CHAN_5GHZ(c)) { 2195 txpow1 = txpow1 << 1 | 1; 2196 txpow2 = txpow2 << 1 | 1; 2197 } 2198 r3 = rfprog[i].r3 | txpow1 << 7; 2199 r4 = rfprog[i].r4 | sc->freq << 13 | txpow2 << 4; 2200 2201 rt2860_rf_write(sc, RAL_RF1, rfprog[i].r1); 2202 rt2860_rf_write(sc, RAL_RF2, r2); 2203 rt2860_rf_write(sc, RAL_RF3, r3); 2204 rt2860_rf_write(sc, RAL_RF4, r4); 2205 2206 DELAY(200); 2207 2208 rt2860_rf_write(sc, RAL_RF1, rfprog[i].r1); 2209 rt2860_rf_write(sc, RAL_RF2, r2); 2210 rt2860_rf_write(sc, RAL_RF3, r3 | 1); 2211 rt2860_rf_write(sc, RAL_RF4, r4); 2212 2213 DELAY(200); 2214 2215 rt2860_rf_write(sc, RAL_RF1, rfprog[i].r1); 2216 rt2860_rf_write(sc, RAL_RF2, r2); 2217 rt2860_rf_write(sc, RAL_RF3, r3); 2218 rt2860_rf_write(sc, RAL_RF4, r4); 2219 2220 /* 802.11a uses a 16 microseconds short interframe space */ 2221 sc->sifs = IEEE80211_IS_CHAN_5GHZ(c) ? 16 : 10; 2222 2223 /* determine channel group */ 2224 if (chan <= 14) 2225 group = 0; 2226 else if (chan <= 64) 2227 group = 1; 2228 else if (chan <= 128) 2229 group = 2; 2230 else 2231 group = 3; 2232 2233 /* XXX necessary only when group has changed! */ 2234 rt2860_select_chan_group(sc, group); 2235 2236 DELAY(1000); 2237 } 2238 2239 static void 2240 rt2860_updateprot(struct ieee80211com *ic) 2241 { 2242 struct rt2860_softc *sc = (struct rt2860_softc *)ic; 2243 uint32_t tmp; 2244 2245 tmp = RT2860_RTSTH_EN | RT2860_PROT_NAV_SHORT | RT2860_TXOP_ALLOW_ALL; 2246 /* setup protection frame rate (MCS code) */ 2247 tmp |= (ic->ic_curmode == IEEE80211_MODE_11A) ? 0 : 3; 2248 2249 /* CCK frames don't require protection */ 2250 RT2860_WRITE(sc, RT2860_CCK_PROT_CFG, tmp); 2251 2252 if (ic->ic_flags & IEEE80211_F_USEPROT) { 2253 if (ic->ic_protmode == IEEE80211_PROT_RTSCTS) 2254 tmp |= RT2860_PROT_CTRL_RTS_CTS; 2255 else if (ic->ic_protmode == IEEE80211_PROT_CTSONLY) 2256 tmp |= RT2860_PROT_CTRL_CTS; 2257 } 2258 RT2860_WRITE(sc, RT2860_OFDM_PROT_CFG, tmp); 2259 } 2260 2261 static void 2262 rt2860_set_leds(struct rt2860_softc *sc, uint16_t which) 2263 { 2264 (void) rt2860_mcu_cmd(sc, RT2860_MCU_CMD_LEDS, 2265 which | (sc->leds & 0x7f)); 2266 } 2267 2268 static int 2269 rt2860_init(struct rt2860_softc *sc) 2270 { 2271 #define N(a) (sizeof (a) / sizeof ((a)[0])) 2272 struct ieee80211com *ic; 2273 int i, err, qid, ridx, ntries; 2274 uint8_t bbp1, bbp3; 2275 uint32_t tmp; 2276 2277 ic = &sc->sc_ic; 2278 2279 rt2860_stop(sc); 2280 tmp = RT2860_READ(sc, RT2860_WPDMA_GLO_CFG); 2281 tmp &= 0xff0; 2282 RT2860_WRITE(sc, RT2860_WPDMA_GLO_CFG, tmp | RT2860_TX_WB_DDONE); 2283 2284 RT2860_WRITE(sc, RT2860_WPDMA_RST_IDX, 0xffffffff); 2285 2286 /* PBF hardware reset */ 2287 RT2860_WRITE(sc, RT2860_SYS_CTRL, 0xe1f); 2288 RT2860_WRITE(sc, RT2860_SYS_CTRL, 0xe00); 2289 2290 if (!(sc->sc_flags & RT2860_FWLOADED)) { 2291 if ((err = rt2860_load_microcode(sc)) != 0) { 2292 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_init(): " 2293 "could not load 8051 microcode\n"); 2294 rt2860_stop(sc); 2295 return (err); 2296 } 2297 RT2860_GLOCK(sc); 2298 sc->sc_flags |= RT2860_FWLOADED; 2299 RT2860_GUNLOCK(sc); 2300 } 2301 2302 rt2860_set_macaddr(sc, ic->ic_macaddr); 2303 2304 /* init Tx power for all Tx rates (from EEPROM) */ 2305 for (ridx = 0; ridx < 5; ridx++) { 2306 if (sc->txpow20mhz[ridx] == 0xffffffff) 2307 continue; 2308 RT2860_WRITE(sc, RT2860_TX_PWR_CFG(ridx), sc->txpow20mhz[ridx]); 2309 } 2310 2311 for (ntries = 0; ntries < 100; ntries++) { 2312 tmp = RT2860_READ(sc, RT2860_WPDMA_GLO_CFG); 2313 if ((tmp & (RT2860_TX_DMA_BUSY | RT2860_RX_DMA_BUSY)) == 0) 2314 break; 2315 DELAY(1000); 2316 } 2317 if (ntries == 100) { 2318 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rt2860_init():" 2319 "timeout waiting for DMA engine\n"); 2320 rt2860_stop(sc); 2321 return (ETIMEDOUT); 2322 } 2323 tmp &= 0xff0; 2324 RT2860_WRITE(sc, RT2860_WPDMA_GLO_CFG, tmp | RT2860_TX_WB_DDONE); 2325 2326 /* reset Rx ring and all 6 Tx rings */ 2327 RT2860_WRITE(sc, RT2860_WPDMA_RST_IDX, 0x1003f); 2328 2329 /* PBF hardware reset */ 2330 RT2860_WRITE(sc, RT2860_SYS_CTRL, 0xe1f); 2331 RT2860_WRITE(sc, RT2860_SYS_CTRL, 0xe00); 2332 2333 RT2860_WRITE(sc, RT2860_MAC_SYS_CTRL, 2334 RT2860_BBP_HRST | RT2860_MAC_SRST); 2335 RT2860_WRITE(sc, RT2860_MAC_SYS_CTRL, 0); 2336 2337 for (i = 0; i < N(rt2860_def_mac); i++) 2338 RT2860_WRITE(sc, rt2860_def_mac[i].reg, rt2860_def_mac[i].val); 2339 2340 /* wait while MAC is busy */ 2341 for (ntries = 0; ntries < 100; ntries++) { 2342 if (!(RT2860_READ(sc, RT2860_MAC_STATUS_REG) & 2343 (RT2860_RX_STATUS_BUSY | RT2860_TX_STATUS_BUSY))) 2344 break; 2345 DELAY(1000); 2346 } 2347 if (ntries == 100) { 2348 RWN_DEBUG(RT2860_DBG_FW, "rwn: rt2860_init():" 2349 "timeout waiting for MAC\n"); 2350 rt2860_stop(sc); 2351 return (ETIMEDOUT); 2352 } 2353 2354 /* clear Host to MCU mailbox */ 2355 RT2860_WRITE(sc, RT2860_H2M_BBPAGENT, 0); 2356 RT2860_WRITE(sc, RT2860_H2M_MAILBOX, 0); 2357 2358 if ((err = rt2860_bbp_init(sc)) != 0) { 2359 rt2860_stop(sc); 2360 return (err); 2361 } 2362 2363 /* init Tx rings (4 EDCAs + HCCA + Mgt) */ 2364 for (qid = 0; qid < 6; qid++) { 2365 RT2860_WRITE(sc, RT2860_TX_BASE_PTR(qid), sc->txq[qid].paddr); 2366 RT2860_WRITE(sc, RT2860_TX_MAX_CNT(qid), RT2860_TX_RING_COUNT); 2367 RT2860_WRITE(sc, RT2860_TX_CTX_IDX(qid), 0); 2368 } 2369 2370 /* init Rx ring */ 2371 RT2860_WRITE(sc, RT2860_RX_BASE_PTR, sc->rxq.paddr); 2372 RT2860_WRITE(sc, RT2860_RX_MAX_CNT, RT2860_RX_RING_COUNT); 2373 RT2860_WRITE(sc, RT2860_RX_CALC_IDX, RT2860_RX_RING_COUNT - 1); 2374 2375 /* setup maximum buffer sizes */ 2376 RT2860_WRITE(sc, RT2860_MAX_LEN_CFG, 1 << 12 | 2377 (sc->sc_dmabuf_size - sizeof (struct rt2860_rxwi) - 2)); 2378 2379 for (ntries = 0; ntries < 100; ntries++) { 2380 tmp = RT2860_READ(sc, RT2860_WPDMA_GLO_CFG); 2381 if ((tmp & (RT2860_TX_DMA_BUSY | RT2860_RX_DMA_BUSY)) == 0) 2382 break; 2383 DELAY(1000); 2384 } 2385 if (ntries == 100) { 2386 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rt2860_init():" 2387 "timeout waiting for DMA engine\n"); 2388 rt2860_stop(sc); 2389 return (ETIMEDOUT); 2390 } 2391 tmp &= 0xff0; 2392 RT2860_WRITE(sc, RT2860_WPDMA_GLO_CFG, tmp | RT2860_TX_WB_DDONE); 2393 2394 /* disable interrupts mitigation */ 2395 RT2860_WRITE(sc, RT2860_DELAY_INT_CFG, 0); 2396 2397 /* write vendor-specific BBP values (from EEPROM) */ 2398 for (i = 0; i < 8; i++) { 2399 if (sc->bbp[i].reg == 0 || sc->bbp[i].reg == 0xff) 2400 continue; 2401 rt2860_mcu_bbp_write(sc, sc->bbp[i].reg, sc->bbp[i].val); 2402 } 2403 2404 /* send LEDs operating mode to microcontroller */ 2405 (void) rt2860_mcu_cmd(sc, RT2860_MCU_CMD_LED1, sc->led[0]); 2406 (void) rt2860_mcu_cmd(sc, RT2860_MCU_CMD_LED2, sc->led[1]); 2407 (void) rt2860_mcu_cmd(sc, RT2860_MCU_CMD_LED3, sc->led[2]); 2408 2409 /* disable non-existing Rx chains */ 2410 bbp3 = rt2860_mcu_bbp_read(sc, 3); 2411 bbp3 &= ~(1 << 3 | 1 << 4); 2412 if (sc->nrxchains == 2) 2413 bbp3 |= 1 << 3; 2414 else if (sc->nrxchains == 3) 2415 bbp3 |= 1 << 4; 2416 rt2860_mcu_bbp_write(sc, 3, bbp3); 2417 2418 /* disable non-existing Tx chains */ 2419 bbp1 = rt2860_mcu_bbp_read(sc, 1); 2420 if (sc->ntxchains == 1) 2421 bbp1 &= ~(1 << 3 | 1 << 4); 2422 rt2860_mcu_bbp_write(sc, 1, bbp1); 2423 2424 /* select default channel */ 2425 rt2860_set_chan(sc, ic->ic_curchan); 2426 2427 /* XXX not clear what the following 8051 command does.. */ 2428 (void) rt2860_mcu_cmd(sc, RT2860_MCU_CMD_BOOT, 0); 2429 2430 /* set RTS threshold */ 2431 tmp = RT2860_READ(sc, RT2860_TX_RTS_CFG); 2432 tmp &= ~0xffff00; 2433 tmp |= ic->ic_rtsthreshold << 8; 2434 2435 /* setup initial protection mode */ 2436 sc->sc_ic_flags = ic->ic_flags; 2437 rt2860_updateprot(ic); 2438 2439 /* enable Tx/Rx DMA engine */ 2440 RT2860_WRITE(sc, RT2860_MAC_SYS_CTRL, RT2860_MAC_TX_EN); 2441 for (ntries = 0; ntries < 200; ntries++) { 2442 tmp = RT2860_READ(sc, RT2860_WPDMA_GLO_CFG); 2443 if ((tmp & (RT2860_TX_DMA_BUSY | RT2860_RX_DMA_BUSY)) == 0) 2444 break; 2445 DELAY(1000); 2446 } 2447 if (ntries == 200) { 2448 RWN_DEBUG(RT2860_DBG_DMA, "rwn: rt2860_int():" 2449 "timeout waiting for DMA engine\n"); 2450 rt2860_stop(sc); 2451 return (ETIMEDOUT); 2452 } 2453 2454 DELAY(50); 2455 2456 tmp |= RT2860_TX_WB_DDONE | RT2860_RX_DMA_EN | RT2860_TX_DMA_EN | 2457 RT2860_WPDMA_BT_SIZE64 << RT2860_WPDMA_BT_SIZE_SHIFT; 2458 RT2860_WRITE(sc, RT2860_WPDMA_GLO_CFG, tmp); 2459 2460 /* turn radio LED on */ 2461 rt2860_set_leds(sc, RT2860_LED_RADIO); 2462 2463 /* set Rx filter */ 2464 tmp = RT2860_DROP_CRC_ERR | RT2860_DROP_PHY_ERR; 2465 if (ic->ic_opmode != IEEE80211_M_MONITOR) { 2466 tmp |= RT2860_DROP_UC_NOME | RT2860_DROP_DUPL | 2467 RT2860_DROP_CTS | RT2860_DROP_BA | RT2860_DROP_ACK | 2468 RT2860_DROP_VER_ERR | RT2860_DROP_CTRL_RSV | 2469 RT2860_DROP_CFACK | RT2860_DROP_CFEND; 2470 if (ic->ic_opmode == IEEE80211_M_STA) 2471 tmp |= RT2860_DROP_RTS | RT2860_DROP_PSPOLL; 2472 } 2473 RT2860_WRITE(sc, RT2860_RX_FILTR_CFG, tmp); 2474 2475 RT2860_WRITE(sc, RT2860_MAC_SYS_CTRL, 2476 RT2860_MAC_RX_EN | RT2860_MAC_TX_EN); 2477 2478 /* clear pending interrupts */ 2479 RT2860_WRITE(sc, RT2860_INT_STATUS, 0xffffffff); 2480 /* enable interrupts */ 2481 RT2860_WRITE(sc, RT2860_INT_MASK, 0x3fffc); 2482 2483 if (sc->sc_flags & RT2860_ADVANCED_PS) 2484 (void) rt2860_mcu_cmd(sc, RT2860_MCU_CMD_PSLEVEL, sc->pslevel); 2485 2486 return (DDI_SUCCESS); 2487 } 2488 2489 static int 2490 rt2860_quiesce(dev_info_t *dip) 2491 { 2492 struct rt2860_softc *sc; 2493 2494 sc = ddi_get_soft_state(rt2860_soft_state_p, ddi_get_instance(dip)); 2495 if (sc == NULL) 2496 return (DDI_FAILURE); 2497 2498 #ifdef DEBUG 2499 rt2860_dbg_flags = 0; 2500 #endif 2501 2502 /* 2503 * No more blocking is allowed while we are in quiesce(9E) entry point 2504 */ 2505 sc->sc_flags |= RT2860_F_QUIESCE; 2506 2507 /* 2508 * Disable and mask all interrupts 2509 */ 2510 rt2860_stop(sc); 2511 return (DDI_SUCCESS); 2512 } 2513 2514 static void 2515 rt2860_stop(struct rt2860_softc *sc) 2516 { 2517 int qid; 2518 uint32_t tmp; 2519 2520 /* by pass if it's quiesced */ 2521 if (!(sc->sc_flags & RT2860_F_QUIESCE)) 2522 RT2860_GLOCK(sc); 2523 if (sc->sc_flags == RT2860_F_RUNNING) 2524 rt2860_set_leds(sc, 0); /* turn all LEDs off */ 2525 sc->sc_tx_timer = 0; 2526 /* by pass if it's quiesced */ 2527 if (!(sc->sc_flags & RT2860_F_QUIESCE)) 2528 RT2860_GUNLOCK(sc); 2529 2530 /* clear RX WCID search table */ 2531 rt2860_set_region_4(sc, RT2860_WCID_ENTRY(0), 0, 512); 2532 /* clear pairwise key table */ 2533 rt2860_set_region_4(sc, RT2860_PKEY(0), 0, 2048); 2534 /* clear IV/EIV table */ 2535 rt2860_set_region_4(sc, RT2860_IVEIV(0), 0, 512); 2536 /* clear WCID attribute table */ 2537 rt2860_set_region_4(sc, RT2860_WCID_ATTR(0), 0, 256); 2538 /* clear shared key table */ 2539 rt2860_set_region_4(sc, RT2860_SKEY(0, 0), 0, 8 * 32); 2540 /* clear shared key mode */ 2541 rt2860_set_region_4(sc, RT2860_SKEY_MODE_0_7, 0, 4); 2542 2543 /* disable interrupts */ 2544 RT2860_WRITE(sc, RT2860_INT_MASK, 0); 2545 2546 /* disable Rx */ 2547 tmp = RT2860_READ(sc, RT2860_MAC_SYS_CTRL); 2548 tmp &= ~(RT2860_MAC_RX_EN | RT2860_MAC_TX_EN); 2549 RT2860_WRITE(sc, RT2860_MAC_SYS_CTRL, tmp); 2550 2551 /* reset adapter */ 2552 RT2860_WRITE(sc, RT2860_MAC_SYS_CTRL, 2553 RT2860_BBP_HRST | RT2860_MAC_SRST); 2554 RT2860_WRITE(sc, RT2860_MAC_SYS_CTRL, 0); 2555 2556 /* reset Tx and Rx rings (and reclaim TXWIs) */ 2557 for (qid = 0; qid < 6; qid++) 2558 rt2860_reset_tx_ring(sc, &sc->txq[qid]); 2559 rt2860_reset_rx_ring(sc, &sc->rxq); 2560 2561 /* by pass if it's quiesced */ 2562 if (!(sc->sc_flags & RT2860_F_QUIESCE)) 2563 RT2860_GLOCK(sc); 2564 sc->sc_flags &= ~RT2860_UPD_BEACON; 2565 /* by pass if it's quiesced */ 2566 if (!(sc->sc_flags & RT2860_F_QUIESCE)) 2567 RT2860_GUNLOCK(sc); 2568 } 2569 2570 static int 2571 rt2860_m_start(void *arg) 2572 { 2573 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 2574 struct ieee80211com *ic = &sc->sc_ic; 2575 int err; 2576 2577 err = rt2860_init(sc); 2578 if (err != DDI_SUCCESS) { 2579 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_m_start():" 2580 "Hardware initialization failed\n"); 2581 goto fail1; 2582 } 2583 2584 ieee80211_new_state(ic, IEEE80211_S_INIT, -1); 2585 2586 RT2860_GLOCK(sc); 2587 sc->sc_flags |= RT2860_F_RUNNING; 2588 RT2860_GUNLOCK(sc); 2589 2590 return (err); 2591 fail1: 2592 rt2860_stop(sc); 2593 return (err); 2594 } 2595 2596 static void 2597 rt2860_m_stop(void *arg) 2598 { 2599 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 2600 2601 (void) rt2860_stop(sc); 2602 2603 ieee80211_new_state(&sc->sc_ic, IEEE80211_S_INIT, -1); 2604 2605 RT2860_GLOCK(sc); 2606 sc->sc_flags &= ~RT2860_F_RUNNING; 2607 RT2860_GUNLOCK(sc); 2608 } 2609 2610 static void 2611 rt2860_m_ioctl(void* arg, queue_t *wq, mblk_t *mp) 2612 { 2613 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 2614 struct ieee80211com *ic = &sc->sc_ic; 2615 int err; 2616 2617 err = ieee80211_ioctl(ic, wq, mp); 2618 RT2860_GLOCK(sc); 2619 if (err == ENETRESET) { 2620 if (ic->ic_des_esslen) { 2621 if (RT2860_IS_RUNNING(sc)) { 2622 RT2860_GUNLOCK(sc); 2623 (void) rt2860_init(sc); 2624 (void) ieee80211_new_state(ic, 2625 IEEE80211_S_SCAN, -1); 2626 RT2860_GLOCK(sc); 2627 } 2628 } 2629 } 2630 RT2860_GUNLOCK(sc); 2631 } 2632 2633 /* 2634 * Call back function for get/set proporty 2635 */ 2636 static int 2637 rt2860_m_getprop(void *arg, const char *pr_name, mac_prop_id_t wldp_pr_num, 2638 uint_t pr_flags, uint_t wldp_length, void *wldp_buf, uint_t *perm) 2639 { 2640 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 2641 int err = 0; 2642 2643 err = ieee80211_getprop(&sc->sc_ic, pr_name, wldp_pr_num, 2644 pr_flags, wldp_length, wldp_buf, perm); 2645 2646 return (err); 2647 } 2648 2649 static int 2650 rt2860_m_setprop(void *arg, const char *pr_name, mac_prop_id_t wldp_pr_num, 2651 uint_t wldp_length, const void *wldp_buf) 2652 { 2653 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 2654 ieee80211com_t *ic = &sc->sc_ic; 2655 int err; 2656 2657 err = ieee80211_setprop(ic, pr_name, wldp_pr_num, wldp_length, 2658 wldp_buf); 2659 RT2860_GLOCK(sc); 2660 if (err == ENETRESET) { 2661 if (ic->ic_des_esslen) { 2662 if (RT2860_IS_RUNNING(sc)) { 2663 RT2860_GUNLOCK(sc); 2664 (void) rt2860_init(sc); 2665 (void) ieee80211_new_state(ic, 2666 IEEE80211_S_SCAN, -1); 2667 RT2860_GLOCK(sc); 2668 } 2669 } 2670 err = 0; 2671 } 2672 RT2860_GUNLOCK(sc); 2673 return (err); 2674 } 2675 2676 static mblk_t * 2677 rt2860_m_tx(void *arg, mblk_t *mp) 2678 { 2679 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 2680 struct ieee80211com *ic = &sc->sc_ic; 2681 mblk_t *next; 2682 2683 if (RT2860_IS_SUSPEND(sc)) { 2684 freemsgchain(mp); 2685 return (NULL); 2686 } 2687 2688 /* 2689 * No data frames go out unless we're associated; this 2690 * should not happen as the 802.11 layer does not enable 2691 * the xmit queue until we enter the RUN state. 2692 */ 2693 if (ic->ic_state != IEEE80211_S_RUN) { 2694 RWN_DEBUG(RT2860_DBG_TX, "rwn: rt2860_tx_data(): " 2695 "discard, state %u\n", ic->ic_state); 2696 freemsgchain(mp); 2697 return (NULL); 2698 } 2699 2700 while (mp != NULL) { 2701 next = mp->b_next; 2702 mp->b_next = NULL; 2703 if (rt2860_send(ic, mp, IEEE80211_FC0_TYPE_DATA) != 2704 DDI_SUCCESS) { 2705 mp->b_next = next; 2706 break; 2707 } 2708 mp = next; 2709 } 2710 return (mp); 2711 } 2712 2713 /*ARGSUSED*/ 2714 static int 2715 rt2860_m_unicst(void *arg, const uint8_t *macaddr) 2716 { 2717 return (ENOTSUP); 2718 } 2719 2720 /*ARGSUSED*/ 2721 static int 2722 rt2860_m_multicst(void *arg, boolean_t add, const uint8_t *mca) 2723 { 2724 return (ENOTSUP); 2725 } 2726 2727 /*ARGSUSED*/ 2728 static int 2729 rt2860_m_promisc(void *arg, boolean_t on) 2730 { 2731 return (0); 2732 } 2733 2734 static int 2735 rt2860_m_stat(void *arg, uint_t stat, uint64_t *val) 2736 { 2737 struct rt2860_softc *sc = (struct rt2860_softc *)arg; 2738 ieee80211com_t *ic = &sc->sc_ic; 2739 ieee80211_node_t *ni = ic->ic_bss; 2740 struct ieee80211_rateset *rs = &ni->in_rates; 2741 2742 RT2860_GLOCK(sc); 2743 switch (stat) { 2744 case MAC_STAT_IFSPEED: 2745 *val = ((ic->ic_fixed_rate == IEEE80211_FIXED_RATE_NONE) ? 2746 (rs->ir_rates[ni->in_txrate] & IEEE80211_RATE_VAL) 2747 : ic->ic_fixed_rate) / 2 * 1000000; 2748 break; 2749 case MAC_STAT_NOXMTBUF: 2750 *val = sc->sc_tx_nobuf; 2751 break; 2752 case MAC_STAT_NORCVBUF: 2753 *val = sc->sc_rx_nobuf; 2754 break; 2755 case MAC_STAT_IERRORS: 2756 *val = sc->sc_rx_err; 2757 break; 2758 case MAC_STAT_RBYTES: 2759 *val = ic->ic_stats.is_rx_bytes; 2760 break; 2761 case MAC_STAT_IPACKETS: 2762 *val = ic->ic_stats.is_rx_frags; 2763 break; 2764 case MAC_STAT_OBYTES: 2765 *val = ic->ic_stats.is_tx_bytes; 2766 break; 2767 case MAC_STAT_OPACKETS: 2768 *val = ic->ic_stats.is_tx_frags; 2769 break; 2770 case MAC_STAT_OERRORS: 2771 case WIFI_STAT_TX_FAILED: 2772 *val = sc->sc_tx_err; 2773 break; 2774 case WIFI_STAT_TX_RETRANS: 2775 *val = sc->sc_tx_retries; 2776 break; 2777 case WIFI_STAT_FCS_ERRORS: 2778 case WIFI_STAT_WEP_ERRORS: 2779 case WIFI_STAT_TX_FRAGS: 2780 case WIFI_STAT_MCAST_TX: 2781 case WIFI_STAT_RTS_SUCCESS: 2782 case WIFI_STAT_RTS_FAILURE: 2783 case WIFI_STAT_ACK_FAILURE: 2784 case WIFI_STAT_RX_FRAGS: 2785 case WIFI_STAT_MCAST_RX: 2786 case WIFI_STAT_RX_DUPS: 2787 RT2860_GUNLOCK(sc); 2788 return (ieee80211_stat(ic, stat, val)); 2789 default: 2790 RT2860_GUNLOCK(sc); 2791 return (ENOTSUP); 2792 } 2793 RT2860_GUNLOCK(sc); 2794 2795 return (0); 2796 } 2797 2798 static int 2799 rt2860_attach(dev_info_t *devinfo, ddi_attach_cmd_t cmd) 2800 { 2801 struct rt2860_softc *sc; 2802 struct ieee80211com *ic; 2803 int i, err, qid, ntries, instance; 2804 uint8_t cachelsz; 2805 uint16_t command, vendor_id, device_id; 2806 char strbuf[32]; 2807 wifi_data_t wd = { 0 }; 2808 mac_register_t *macp; 2809 2810 switch (cmd) { 2811 case DDI_ATTACH: 2812 break; 2813 case DDI_RESUME: 2814 sc = ddi_get_soft_state(rt2860_soft_state_p, 2815 ddi_get_instance(devinfo)); 2816 ASSERT(sc != NULL); 2817 RT2860_GLOCK(sc); 2818 sc->sc_flags &= ~RT2860_F_SUSPEND; 2819 RT2860_GUNLOCK(sc); 2820 if (RT2860_IS_RUNNING(sc)) 2821 (void) rt2860_init(sc); 2822 RWN_DEBUG(RT2860_DBG_RESUME, "rwn: rt2860_attach(): " 2823 "resume now\n"); 2824 return (DDI_SUCCESS); 2825 default: 2826 return (DDI_FAILURE); 2827 } 2828 2829 instance = ddi_get_instance(devinfo); 2830 2831 err = ddi_soft_state_zalloc(rt2860_soft_state_p, instance); 2832 if (err != DDI_SUCCESS) { 2833 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2834 "unable to alloc soft_state_p\n"); 2835 return (err); 2836 } 2837 2838 sc = ddi_get_soft_state(rt2860_soft_state_p, instance); 2839 ic = (ieee80211com_t *)&sc->sc_ic; 2840 sc->sc_dev = devinfo; 2841 2842 /* pci configuration */ 2843 err = ddi_regs_map_setup(devinfo, 0, &sc->sc_cfg_base, 0, 0, 2844 &rwn_csr_accattr, &sc->sc_cfg_handle); 2845 if (err != DDI_SUCCESS) { 2846 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2847 "ddi_regs_map_setup() failed"); 2848 goto fail1; 2849 } 2850 2851 cachelsz = ddi_get8(sc->sc_cfg_handle, 2852 (uint8_t *)(sc->sc_cfg_base + PCI_CONF_CACHE_LINESZ)); 2853 if (cachelsz == 0) 2854 cachelsz = 0x10; 2855 sc->sc_cachelsz = cachelsz << 2; 2856 sc->sc_dmabuf_size = roundup(IEEE80211_MAX_LEN, sc->sc_cachelsz); 2857 2858 vendor_id = ddi_get16(sc->sc_cfg_handle, 2859 (uint16_t *)((uintptr_t)(sc->sc_cfg_base) + PCI_CONF_VENID)); 2860 device_id = ddi_get16(sc->sc_cfg_handle, 2861 (uint16_t *)((uintptr_t)(sc->sc_cfg_base) + PCI_CONF_DEVID)); 2862 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2863 "vendor 0x%x, device id 0x%x, cache size %d\n", 2864 vendor_id, device_id, cachelsz); 2865 2866 /* 2867 * Enable response to memory space accesses, 2868 * and enabe bus master. 2869 */ 2870 command = PCI_COMM_MAE | PCI_COMM_ME; 2871 ddi_put16(sc->sc_cfg_handle, 2872 (uint16_t *)((uintptr_t)(sc->sc_cfg_base) + PCI_CONF_COMM), 2873 command); 2874 ddi_put8(sc->sc_cfg_handle, 2875 (uint8_t *)(sc->sc_cfg_base + PCI_CONF_LATENCY_TIMER), 0xa8); 2876 ddi_put8(sc->sc_cfg_handle, 2877 (uint8_t *)(sc->sc_cfg_base + PCI_CONF_ILINE), 0x10); 2878 2879 /* pci i/o space */ 2880 err = ddi_regs_map_setup(devinfo, 1, 2881 &sc->sc_io_base, 0, 0, &rwn_csr_accattr, &sc->sc_io_handle); 2882 if (err != DDI_SUCCESS) { 2883 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2884 "ddi_regs_map_setup() failed"); 2885 goto fail2; 2886 } 2887 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2888 "PCI configuration is done successfully\n"); 2889 2890 sc->amrr.amrr_min_success_threshold = 1; 2891 sc->amrr.amrr_max_success_threshold = 15; 2892 2893 /* wait for NIC to initialize */ 2894 for (ntries = 0; ntries < 100; ntries++) { 2895 sc->mac_rev = RT2860_READ(sc, RT2860_ASIC_VER_ID); 2896 if (sc->mac_rev != 0 && sc->mac_rev != 0xffffffff) 2897 break; 2898 DELAY(10); 2899 } 2900 if (ntries == 100) { 2901 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2902 "timeout waiting for NIC initialize\n"); 2903 return (DDI_FAILURE); 2904 } 2905 2906 if ((sc->mac_rev >> 16) != 0x2860 && 2907 (device_id == PRODUCT_RALINK_RT2890 || 2908 device_id == PRODUCT_RALINK_RT2790 || 2909 device_id == PRODUCT_AWT_RT2890)) 2910 sc->sc_flags |= RT2860_ADVANCED_PS; 2911 2912 /* retrieve RF rev. no and various other things from EEPROM */ 2913 (void) rt2860_read_eeprom(sc); 2914 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2915 "MAC/BBP RT%X (rev 0x%04X), RF %s (%dT%dR)\n", 2916 sc->mac_rev >> 16, sc->mac_rev & 0xffff, 2917 rt2860_get_rf(sc->rf_rev), sc->ntxchains, sc->nrxchains); 2918 2919 /* 2920 * Allocate Tx (4 EDCAs + HCCA + Mgt) and Rx rings. 2921 */ 2922 for (qid = 0; qid < 6; qid++) { 2923 if ((err = rt2860_alloc_tx_ring(sc, &sc->txq[qid])) != 0) { 2924 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2925 "could not allocate Tx ring %d\n", qid); 2926 goto fail3; 2927 } 2928 } 2929 2930 if ((err = rt2860_alloc_rx_ring(sc, &sc->rxq)) != 0) { 2931 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2932 "could not allocte Rx ring\n"); 2933 goto fail4; 2934 } 2935 2936 if ((err = rt2860_alloc_tx_pool(sc)) != 0) { 2937 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2938 "could not allocte Tx pool\n"); 2939 goto fail5; 2940 } 2941 2942 mutex_init(&sc->sc_genlock, NULL, MUTEX_DRIVER, NULL); 2943 mutex_init(&sc->sc_txlock, NULL, MUTEX_DRIVER, NULL); 2944 mutex_init(&sc->sc_rxlock, NULL, MUTEX_DRIVER, NULL); 2945 2946 /* mgmt ring is broken on RT2860C, use EDCA AC VO ring instead */ 2947 sc->mgtqid = (sc->mac_rev == 0x28600100) ? EDCA_AC_VO : 5; 2948 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach():" 2949 "mgtqid = %x\n", sc->mgtqid); 2950 2951 ic->ic_phytype = IEEE80211_T_OFDM; /* not only, but not used */ 2952 ic->ic_opmode = IEEE80211_M_STA; /* default to BSS mode */ 2953 ic->ic_state = IEEE80211_S_INIT; 2954 2955 /* set device capabilities */ 2956 ic->ic_caps = 2957 IEEE80211_C_TXPMGT | /* tx power management */ 2958 IEEE80211_C_SHPREAMBLE | /* short preamble supported */ 2959 IEEE80211_C_SHSLOT; /* short slot time supported */ 2960 2961 /* WPA/WPA2 support */ 2962 ic->ic_caps |= IEEE80211_C_WPA; /* Support WPA/WPA2 */ 2963 2964 /* set supported .11b and .11g rates */ 2965 ic->ic_sup_rates[IEEE80211_MODE_11B] = rt2860_rateset_11b; 2966 ic->ic_sup_rates[IEEE80211_MODE_11G] = rt2860_rateset_11g; 2967 2968 /* set supported .11b and .11g channels (1 through 14) */ 2969 for (i = 1; i <= 14; i++) { 2970 ic->ic_sup_channels[i].ich_freq = 2971 ieee80211_ieee2mhz(i, IEEE80211_CHAN_2GHZ); 2972 ic->ic_sup_channels[i].ich_flags = 2973 IEEE80211_CHAN_CCK | IEEE80211_CHAN_OFDM | 2974 IEEE80211_CHAN_DYN | IEEE80211_CHAN_2GHZ; 2975 } 2976 2977 ic->ic_maxrssi = 63; 2978 ic->ic_xmit = rt2860_send; 2979 2980 ieee80211_attach(ic); 2981 2982 /* register WPA door */ 2983 ieee80211_register_door(ic, ddi_driver_name(devinfo), 2984 ddi_get_instance(devinfo)); 2985 2986 /* override state transition machine */ 2987 sc->sc_newstate = ic->ic_newstate; 2988 ic->ic_newstate = rt2860_newstate; 2989 ieee80211_media_init(ic); 2990 ic->ic_def_txkey = 0; 2991 2992 err = ddi_add_softintr(devinfo, DDI_SOFTINT_LOW, 2993 &sc->sc_softintr_hdl, NULL, 0, rt2860_softintr, (caddr_t)sc); 2994 if (err != DDI_SUCCESS) { 2995 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 2996 "ddi_add_softintr() failed"); 2997 goto fail8; 2998 } 2999 3000 err = ddi_get_iblock_cookie(devinfo, 0, &sc->sc_iblock); 3001 if (err != DDI_SUCCESS) { 3002 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 3003 "Can not get iblock cookie for INT\n"); 3004 goto fail7; 3005 } 3006 3007 err = ddi_add_intr(devinfo, 0, NULL, NULL, rt2860_intr, (caddr_t)sc); 3008 if (err != DDI_SUCCESS) { 3009 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 3010 "unable to add device interrupt handler\n"); 3011 goto fail7; 3012 } 3013 3014 /* 3015 * Provide initial settings for the WiFi plugin; whenever this 3016 * information changes, we need to call mac_plugindata_update() 3017 */ 3018 wd.wd_opmode = ic->ic_opmode; 3019 wd.wd_secalloc = WIFI_SEC_NONE; 3020 IEEE80211_ADDR_COPY(wd.wd_bssid, ic->ic_bss->in_bssid); 3021 3022 if ((macp = mac_alloc(MAC_VERSION)) == NULL) { 3023 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 3024 "MAC version mismatch\n"); 3025 goto fail9; 3026 } 3027 3028 macp->m_type_ident = MAC_PLUGIN_IDENT_WIFI; 3029 macp->m_driver = sc; 3030 macp->m_dip = devinfo; 3031 macp->m_src_addr = ic->ic_macaddr; 3032 macp->m_callbacks = &rt2860_m_callbacks; 3033 macp->m_min_sdu = 0; 3034 macp->m_max_sdu = IEEE80211_MTU; 3035 macp->m_pdata = &wd; 3036 macp->m_pdata_size = sizeof (wd); 3037 3038 err = mac_register(macp, &ic->ic_mach); 3039 mac_free(macp); 3040 if (err != 0) { 3041 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach(): " 3042 "mac_register err %x\n", err); 3043 goto fail9; 3044 } 3045 3046 /* 3047 * Create minor node of type DDI_NT_NET_WIFI 3048 */ 3049 (void) snprintf(strbuf, sizeof (strbuf), "%s%d", 3050 "rwn", instance); 3051 err = ddi_create_minor_node(devinfo, strbuf, S_IFCHR, 3052 instance + 1, DDI_NT_NET_WIFI, 0); 3053 3054 /* 3055 * Notify link is down now 3056 */ 3057 mac_link_update(ic->ic_mach, LINK_STATE_DOWN); 3058 3059 sc->sc_flags &= ~RT2860_F_RUNNING; 3060 3061 RWN_DEBUG(RT2860_DBG_MSG, "rwn: rt2860_attach() successfully.\n"); 3062 return (DDI_SUCCESS); 3063 fail9: 3064 ddi_remove_softintr(sc->sc_softintr_hdl); 3065 fail8: 3066 ddi_remove_intr(devinfo, 0, sc->sc_iblock); 3067 fail7: 3068 mutex_destroy(&sc->sc_genlock); 3069 mutex_destroy(&sc->sc_txlock); 3070 mutex_destroy(&sc->sc_rxlock); 3071 fail6: 3072 rt2860_free_tx_pool(sc); 3073 fail5: 3074 rt2860_free_rx_ring(sc, &sc->rxq); 3075 fail4: 3076 while (--qid >= 0) 3077 rt2860_free_tx_ring(sc, &sc->txq[qid]); 3078 fail3: 3079 ddi_regs_map_free(&sc->sc_io_handle); 3080 fail2: 3081 ddi_regs_map_free(&sc->sc_cfg_handle); 3082 fail1: 3083 return (err); 3084 } 3085 3086 static int 3087 rt2860_detach(dev_info_t *devinfo, ddi_detach_cmd_t cmd) 3088 { 3089 struct rt2860_softc *sc; 3090 int qid; 3091 3092 sc = ddi_get_soft_state(rt2860_soft_state_p, ddi_get_instance(devinfo)); 3093 3094 switch (cmd) { 3095 case DDI_DETACH: 3096 break; 3097 case DDI_SUSPEND: 3098 if (RT2860_IS_RUNNING(sc)) 3099 rt2860_stop(sc); 3100 RT2860_GLOCK(sc); 3101 sc->sc_flags &= ~RT2860_FWLOADED; 3102 sc->sc_flags |= RT2860_F_SUSPEND; 3103 RT2860_GUNLOCK(sc); 3104 RWN_DEBUG(RT2860_DBG_RESUME, "rwn: rt2860_detach(): " 3105 "suspend now\n"); 3106 return (DDI_SUCCESS); 3107 default: 3108 return (DDI_FAILURE); 3109 } 3110 3111 if (mac_disable(sc->sc_ic.ic_mach) != 0) 3112 return (DDI_FAILURE); 3113 3114 rt2860_stop(sc); 3115 3116 /* 3117 * Unregister from the MAC layer subsystem 3118 */ 3119 (void) mac_unregister(sc->sc_ic.ic_mach); 3120 3121 ddi_remove_intr(devinfo, 0, sc->sc_iblock); 3122 ddi_remove_softintr(sc->sc_softintr_hdl); 3123 3124 /* 3125 * detach ieee80211 layer 3126 */ 3127 ieee80211_detach(&sc->sc_ic); 3128 3129 rt2860_free_tx_pool(sc); 3130 rt2860_free_rx_ring(sc, &sc->rxq); 3131 for (qid = 0; qid < 6; qid++) 3132 rt2860_free_tx_ring(sc, &sc->txq[qid]); 3133 3134 ddi_regs_map_free(&sc->sc_io_handle); 3135 3136 mutex_destroy(&sc->sc_genlock); 3137 mutex_destroy(&sc->sc_txlock); 3138 mutex_destroy(&sc->sc_rxlock); 3139 3140 ddi_remove_minor_node(devinfo, NULL); 3141 ddi_soft_state_free(rt2860_soft_state_p, ddi_get_instance(devinfo)); 3142 3143 return (DDI_SUCCESS); 3144 } 3145 3146 int 3147 _info(struct modinfo *modinfop) 3148 { 3149 return (mod_info(&modlinkage, modinfop)); 3150 } 3151 3152 int 3153 _init(void) 3154 { 3155 int status; 3156 3157 status = ddi_soft_state_init(&rt2860_soft_state_p, 3158 sizeof (struct rt2860_softc), 1); 3159 if (status != 0) 3160 return (status); 3161 3162 mac_init_ops(&rwn_dev_ops, "rwn"); 3163 status = mod_install(&modlinkage); 3164 if (status != 0) { 3165 mac_fini_ops(&rwn_dev_ops); 3166 ddi_soft_state_fini(&rt2860_soft_state_p); 3167 } 3168 return (status); 3169 } 3170 3171 int 3172 _fini(void) 3173 { 3174 int status; 3175 3176 status = mod_remove(&modlinkage); 3177 if (status == 0) { 3178 mac_fini_ops(&rwn_dev_ops); 3179 ddi_soft_state_fini(&rt2860_soft_state_p); 3180 } 3181 return (status); 3182 } 3183