lemac.c revision 1.41
1 1.41 chs /* $NetBSD: lemac.c,v 1.41 2012/10/27 17:18:21 chs Exp $ */ 2 1.1 matt 3 1.1 matt /*- 4 1.1 matt * Copyright (c) 1994, 1995, 1997 Matt Thomas <matt (at) 3am-software.com> 5 1.1 matt * All rights reserved. 6 1.1 matt * 7 1.1 matt * Redistribution and use in source and binary forms, with or without 8 1.1 matt * modification, are permitted provided that the following conditions 9 1.1 matt * are met: 10 1.1 matt * 1. Redistributions of source code must retain the above copyright 11 1.1 matt * notice, this list of conditions and the following disclaimer. 12 1.1 matt * 2. The name of the author may not be used to endorse or promote products 13 1.20 wiz * derived from this software without specific prior written permission 14 1.1 matt * 15 1.1 matt * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 16 1.1 matt * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 17 1.1 matt * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 18 1.1 matt * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 19 1.1 matt * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 20 1.1 matt * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 21 1.1 matt * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 22 1.1 matt * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 23 1.1 matt * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 24 1.1 matt * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 25 1.1 matt */ 26 1.1 matt 27 1.1 matt /* 28 1.1 matt * DEC EtherWORKS 3 Ethernet Controllers 29 1.1 matt * 30 1.1 matt * Written by Matt Thomas 31 1.1 matt * BPF support code stolen directly from if_ec.c 32 1.1 matt * 33 1.1 matt * This driver supports the LEMAC DE203/204/205 cards. 34 1.1 matt */ 35 1.23 lukem 36 1.23 lukem #include <sys/cdefs.h> 37 1.41 chs __KERNEL_RCSID(0, "$NetBSD: lemac.c,v 1.41 2012/10/27 17:18:21 chs Exp $"); 38 1.1 matt 39 1.9 jonathan #include "opt_inet.h" 40 1.2 explorer 41 1.1 matt #include <sys/param.h> 42 1.1 matt #include <sys/systm.h> 43 1.1 matt #include <sys/mbuf.h> 44 1.1 matt #include <sys/protosw.h> 45 1.1 matt #include <sys/socket.h> 46 1.1 matt #include <sys/sockio.h> 47 1.1 matt #include <sys/errno.h> 48 1.1 matt #include <sys/malloc.h> 49 1.1 matt #include <sys/device.h> 50 1.2 explorer #include <sys/rnd.h> 51 1.1 matt 52 1.1 matt #include <net/if.h> 53 1.1 matt #include <net/if_types.h> 54 1.1 matt #include <net/if_dl.h> 55 1.1 matt #include <net/route.h> 56 1.1 matt #include <net/if_ether.h> 57 1.1 matt #include <net/if_media.h> 58 1.1 matt 59 1.1 matt #ifdef INET 60 1.1 matt #include <netinet/in.h> 61 1.1 matt #include <netinet/in_systm.h> 62 1.1 matt #include <netinet/in_var.h> 63 1.1 matt #include <netinet/ip.h> 64 1.1 matt #include <netinet/if_inarp.h> 65 1.1 matt #endif 66 1.1 matt 67 1.1 matt 68 1.34 ad #include <sys/bus.h> 69 1.1 matt 70 1.1 matt #include <dev/ic/lemacreg.h> 71 1.1 matt #include <dev/ic/lemacvar.h> 72 1.1 matt #if 0 73 1.1 matt #include <i386/isa/decether.h> 74 1.1 matt #endif 75 1.1 matt 76 1.1 matt #include <net/bpf.h> 77 1.1 matt 78 1.1 matt static void lemac_init(lemac_softc_t *sc); 79 1.1 matt static void lemac_ifstart(struct ifnet *ifp); 80 1.1 matt static void lemac_reset(lemac_softc_t *sc); 81 1.1 matt static void lemac_rne_intr(lemac_softc_t *sc); 82 1.1 matt static void lemac_tne_intr(lemac_softc_t *sc); 83 1.1 matt static void lemac_txd_intr(lemac_softc_t *sc, unsigned cs_value); 84 1.1 matt static void lemac_rxd_intr(lemac_softc_t *sc, unsigned cs_value); 85 1.1 matt static int lemac_read_eeprom(lemac_softc_t *sc); 86 1.1 matt static void lemac_init_adapmem(lemac_softc_t *sc); 87 1.1 matt 88 1.24 itojun static const u_int16_t lemac_allmulti_mctbl[LEMAC_MCTBL_SIZE/sizeof(u_int16_t)] = { 89 1.24 itojun 0xFFFFU, 0xFFFFU, 0xFFFFU, 0xFFFFU, 90 1.24 itojun 0xFFFFU, 0xFFFFU, 0xFFFFU, 0xFFFFU, 91 1.24 itojun 0xFFFFU, 0xFFFFU, 0xFFFFU, 0xFFFFU, 92 1.24 itojun 0xFFFFU, 0xFFFFU, 0xFFFFU, 0xFFFFU, 93 1.1 matt 0xFFFFU, 0xFFFFU, 0xFFFFU, 0xFFFFU, 94 1.1 matt 0xFFFFU, 0xFFFFU, 0xFFFFU, 0xFFFFU, 95 1.1 matt 0xFFFFU, 0xFFFFU, 0xFFFFU, 0xFFFFU, 96 1.1 matt 0xFFFFU, 0xFFFFU, 0xFFFFU, 0xFFFFU, 97 1.1 matt }; 98 1.1 matt 99 1.1 matt /* 100 1.1 matt * Some tuning/monitoring variables. 101 1.1 matt */ 102 1.1 matt unsigned lemac_txmax = 16; 103 1.1 matt 104 1.1 matt static void 106 1.1 matt lemac_rxd_intr( 107 1.1 matt lemac_softc_t *sc, 108 1.1 matt unsigned cs_value) 109 1.1 matt { 110 1.1 matt /* 111 1.1 matt * Handle CS_RXD (Receiver disabled) here. 112 1.1 matt * 113 1.1 matt * Check Free Memory Queue Count. If not equal to zero 114 1.1 matt * then just turn Receiver back on. If it is equal to 115 1.1 matt * zero then check to see if transmitter is disabled. 116 1.1 matt * Process transmit TXD loop once more. If all else 117 1.1 matt * fails then do software init (0xC0 to EEPROM Init) 118 1.1 matt * and rebuild Free Memory Queue. 119 1.1 matt */ 120 1.1 matt 121 1.1 matt sc->sc_cntrs.cntr_rxd_intrs++; 122 1.1 matt 123 1.1 matt /* 124 1.1 matt * Re-enable Receiver. 125 1.1 matt */ 126 1.1 matt 127 1.1 matt cs_value &= ~LEMAC_CS_RXD; 128 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CS, cs_value); 129 1.1 matt 130 1.1 matt if (LEMAC_INB(sc, LEMAC_REG_FMC) > 0) 131 1.1 matt return; 132 1.1 matt 133 1.1 matt if (cs_value & LEMAC_CS_TXD) 134 1.1 matt lemac_txd_intr(sc, cs_value); 135 1.1 matt 136 1.1 matt if ((LEMAC_INB(sc, LEMAC_REG_CS) & LEMAC_CS_RXD) == 0) 137 1.1 matt return; 138 1.1 matt 139 1.1 matt printf("%s: fatal RXD error, attempting recovery\n", sc->sc_if.if_xname); 140 1.1 matt 141 1.1 matt lemac_reset(sc); 142 1.1 matt if (sc->sc_if.if_flags & IFF_UP) { 143 1.1 matt lemac_init(sc); 144 1.1 matt return; 145 1.1 matt } 146 1.1 matt 147 1.25 wiz /* 148 1.1 matt * Error during initialization. Mark card as disabled. 149 1.1 matt */ 150 1.1 matt printf("%s: recovery failed -- board disabled\n", sc->sc_if.if_xname); 151 1.1 matt } 152 1.1 matt 153 1.1 matt static void 155 1.1 matt lemac_tne_intr( 156 1.1 matt lemac_softc_t *sc) 157 1.1 matt { 158 1.1 matt unsigned txcount = LEMAC_INB(sc, LEMAC_REG_TDC); 159 1.1 matt 160 1.1 matt sc->sc_cntrs.cntr_tne_intrs++; 161 1.1 matt while (txcount-- > 0) { 162 1.1 matt unsigned txsts = LEMAC_INB(sc, LEMAC_REG_TDQ); 163 1.1 matt sc->sc_if.if_opackets++; /* another one done */ 164 1.1 matt if ((txsts & (LEMAC_TDQ_LCL|LEMAC_TDQ_NCL)) 165 1.1 matt || (txsts & LEMAC_TDQ_COL) == LEMAC_TDQ_EXCCOL) { 166 1.1 matt if (txsts & LEMAC_TDQ_NCL) 167 1.1 matt sc->sc_flags &= ~LEMAC_LINKUP; 168 1.1 matt sc->sc_if.if_oerrors++; 169 1.1 matt } else { 170 1.1 matt sc->sc_flags |= LEMAC_LINKUP; 171 1.1 matt if ((txsts & LEMAC_TDQ_COL) != LEMAC_TDQ_NOCOL) 172 1.1 matt sc->sc_if.if_collisions++; 173 1.1 matt } 174 1.1 matt } 175 1.1 matt sc->sc_if.if_flags &= ~IFF_OACTIVE; 176 1.1 matt lemac_ifstart(&sc->sc_if); 177 1.1 matt } 178 1.1 matt 179 1.1 matt static void 180 1.1 matt lemac_txd_intr( 181 1.1 matt lemac_softc_t *sc, 182 1.1 matt unsigned cs_value) 183 1.1 matt { 184 1.1 matt /* 185 1.1 matt * Read transmit status, remove transmit buffer from 186 1.1 matt * transmit queue and place on free memory queue, 187 1.1 matt * then reset transmitter. 188 1.1 matt * Increment appropriate counters. 189 1.1 matt */ 190 1.1 matt 191 1.1 matt sc->sc_cntrs.cntr_txd_intrs++; 192 1.1 matt if (sc->sc_txctl & LEMAC_TX_STP) { 193 1.1 matt sc->sc_if.if_oerrors++; 194 1.1 matt /* return page to free queue */ 195 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_FMQ, LEMAC_INB(sc, LEMAC_REG_TDQ)); 196 1.1 matt } 197 1.1 matt 198 1.1 matt /* Turn back on transmitter if disabled */ 199 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CS, cs_value & ~LEMAC_CS_TXD); 200 1.1 matt sc->sc_if.if_flags &= ~IFF_OACTIVE; 201 1.1 matt } 202 1.1 matt 203 1.1 matt static int 205 1.1 matt lemac_read_eeprom( 206 1.1 matt lemac_softc_t *sc) 207 1.1 matt { 208 1.1 matt int word_off, cksum; 209 1.1 matt 210 1.1 matt u_char *ep; 211 1.1 matt 212 1.1 matt cksum = 0; 213 1.1 matt ep = sc->sc_eeprom; 214 1.1 matt for (word_off = 0; word_off < LEMAC_EEP_SIZE / 2; word_off++) { 215 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PI1, word_off); 216 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_IOP, LEMAC_IOP_EEREAD); 217 1.1 matt 218 1.1 matt DELAY(LEMAC_EEP_DELAY); 219 1.1 matt 220 1.1 matt *ep = LEMAC_INB(sc, LEMAC_REG_EE1); cksum += *ep++; 221 1.1 matt *ep = LEMAC_INB(sc, LEMAC_REG_EE2); cksum += *ep++; 222 1.1 matt } 223 1.1 matt 224 1.1 matt /* 225 1.1 matt * Set up Transmit Control Byte for use later during transmit. 226 1.1 matt */ 227 1.1 matt 228 1.1 matt sc->sc_txctl |= LEMAC_TX_FLAGS; 229 1.1 matt 230 1.1 matt if ((sc->sc_eeprom[LEMAC_EEP_SWFLAGS] & LEMAC_EEP_SW_SQE) == 0) 231 1.1 matt sc->sc_txctl &= ~LEMAC_TX_SQE; 232 1.1 matt 233 1.21 thorpej if (sc->sc_eeprom[LEMAC_EEP_SWFLAGS] & LEMAC_EEP_SW_LAB) 234 1.1 matt sc->sc_txctl |= LEMAC_TX_LAB; 235 1.1 matt 236 1.1 matt memcpy(sc->sc_prodname, &sc->sc_eeprom[LEMAC_EEP_PRDNM], LEMAC_EEP_PRDNMSZ); 237 1.1 matt sc->sc_prodname[LEMAC_EEP_PRDNMSZ] = '\0'; 238 1.1 matt 239 1.1 matt return cksum % 256; 240 1.1 matt } 241 1.1 matt 242 1.1 matt static void 244 1.1 matt lemac_init_adapmem( 245 1.1 matt lemac_softc_t *sc) 246 1.1 matt { 247 1.1 matt int pg, conf; 248 1.1 matt 249 1.1 matt conf = LEMAC_INB(sc, LEMAC_REG_CNF); 250 1.1 matt 251 1.1 matt if ((sc->sc_eeprom[LEMAC_EEP_SETUP] & LEMAC_EEP_ST_DRAM) == 0) { 252 1.1 matt sc->sc_lastpage = 63; 253 1.1 matt conf &= ~LEMAC_CNF_DRAM; 254 1.1 matt } else { 255 1.1 matt sc->sc_lastpage = 127; 256 1.1 matt conf |= LEMAC_CNF_DRAM; 257 1.1 matt } 258 1.1 matt 259 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CNF, conf); 260 1.1 matt 261 1.1 matt for (pg = 1; pg <= sc->sc_lastpage; pg++) 262 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_FMQ, pg); 263 1.1 matt } 264 1.1 matt 265 1.1 matt static void 267 1.1 matt lemac_input( 268 1.1 matt lemac_softc_t *sc, 269 1.1 matt bus_addr_t offset, 270 1.1 matt size_t length) 271 1.1 matt { 272 1.1 matt struct ether_header eh; 273 1.1 matt struct mbuf *m; 274 1.1 matt 275 1.1 matt if (length - sizeof(eh) > ETHERMTU 276 1.1 matt || length - sizeof(eh) < ETHERMIN) { 277 1.1 matt sc->sc_if.if_ierrors++; 278 1.1 matt return; 279 1.1 matt } 280 1.1 matt if (LEMAC_USE_PIO_MODE(sc)) { 281 1.1 matt LEMAC_INSB(sc, LEMAC_REG_DAT, sizeof(eh), (void *) &eh); 282 1.1 matt } else { 283 1.1 matt LEMAC_GETBUF16(sc, offset, sizeof(eh) / 2, (void *) &eh); 284 1.1 matt } 285 1.1 matt 286 1.1 matt MGETHDR(m, M_DONTWAIT, MT_DATA); 287 1.1 matt if (m == NULL) { 288 1.1 matt sc->sc_if.if_ierrors++; 289 1.1 matt return; 290 1.1 matt } 291 1.1 matt if (length + 2 > MHLEN) { 292 1.1 matt MCLGET(m, M_DONTWAIT); 293 1.1 matt if ((m->m_flags & M_EXT) == 0) { 294 1.1 matt m_free(m); 295 1.31 christos sc->sc_if.if_ierrors++; 296 1.1 matt return; 297 1.1 matt } 298 1.31 christos } 299 1.1 matt m->m_data += 2; 300 1.1 matt memcpy(m->m_data, (void *)&eh, sizeof(eh)); 301 1.32 yamt if (LEMAC_USE_PIO_MODE(sc)) { 302 1.1 matt LEMAC_INSB(sc, LEMAC_REG_DAT, length - sizeof(eh), 303 1.1 matt mtod(m, char *) + sizeof(eh)); 304 1.1 matt } else { 305 1.1 matt LEMAC_GETBUF16(sc, offset + sizeof(eh), (length - sizeof(eh)) / 2, 306 1.1 matt (void *)(mtod(m, char *) + sizeof(eh))); 307 1.38 joerg if (length & 1) 308 1.1 matt m->m_data[length - 1] = LEMAC_GET8(sc, offset + length - 1); 309 1.1 matt } 310 1.1 matt if (sc->sc_if.if_bpf != NULL) { 311 1.1 matt m->m_pkthdr.len = m->m_len = length; 312 1.1 matt bpf_mtap(&sc->sc_if, m); 313 1.1 matt } 314 1.8 matt /* 315 1.1 matt * If this is single cast but not to us 316 1.1 matt * drop it! 317 1.1 matt */ 318 1.12 thorpej if ((eh.ether_dhost[0] & 1) == 0 319 1.1 matt && !LEMAC_ADDREQUAL(eh.ether_dhost, sc->sc_enaddr)) { 320 1.12 thorpej m_freem(m); 321 1.1 matt return; 322 1.1 matt } 323 1.1 matt m->m_pkthdr.len = m->m_len = length; 324 1.1 matt m->m_pkthdr.rcvif = &sc->sc_if; 325 1.1 matt (*sc->sc_if.if_input)(&sc->sc_if, m); 326 1.1 matt } 327 1.1 matt 328 1.1 matt static void 330 1.1 matt lemac_rne_intr( 331 1.1 matt lemac_softc_t *sc) 332 1.1 matt { 333 1.1 matt int rxcount; 334 1.27 perry 335 1.1 matt sc->sc_cntrs.cntr_rne_intrs++; 336 1.1 matt rxcount = LEMAC_INB(sc, LEMAC_REG_RQC); 337 1.1 matt while (rxcount--) { 338 1.1 matt unsigned rxpg = LEMAC_INB(sc, LEMAC_REG_RQ); 339 1.1 matt u_int32_t rxlen; 340 1.1 matt 341 1.1 matt sc->sc_if.if_ipackets++; 342 1.1 matt if (LEMAC_USE_PIO_MODE(sc)) { 343 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_IOP, rxpg); 344 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PI1, 0); 345 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PI2, 0); 346 1.1 matt LEMAC_INSB(sc, LEMAC_REG_DAT, sizeof(rxlen), (void *) &rxlen); 347 1.1 matt } else { 348 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_MPN, rxpg); 349 1.1 matt rxlen = LEMAC_GET32(sc, 0); 350 1.1 matt } 351 1.1 matt if (rxlen & LEMAC_RX_OK) { 352 1.1 matt sc->sc_flags |= LEMAC_LINKUP; 353 1.1 matt /* 354 1.1 matt * Get receive length - subtract out checksum. 355 1.1 matt */ 356 1.1 matt rxlen = ((rxlen >> 8) & 0x7FF) - 4; 357 1.27 perry lemac_input(sc, sizeof(rxlen), rxlen); 358 1.1 matt } else { 359 1.1 matt sc->sc_if.if_ierrors++; 360 1.1 matt } 361 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_FMQ, rxpg); /* Return this page to Free Memory Queue */ 362 1.1 matt } /* end while (recv_count--) */ 363 1.1 matt 364 1.1 matt return; 365 1.1 matt } 366 1.1 matt 367 1.1 matt /* 369 1.1 matt * This is the standard method of reading the DEC Address ROMS. 370 1.1 matt * I don't understand it but it does work. 371 1.1 matt */ 372 1.1 matt static int 373 1.1 matt lemac_read_macaddr( 374 1.1 matt unsigned char *hwaddr, 375 1.27 perry const bus_space_tag_t iot, 376 1.1 matt const bus_space_handle_t ioh, 377 1.1 matt const bus_addr_t ioreg, 378 1.1 matt int skippat) 379 1.1 matt { 380 1.27 perry int cksum, rom_cksum; 381 1.1 matt unsigned char addrbuf[6]; 382 1.1 matt 383 1.27 perry if (!skippat) { 384 1.1 matt int idx, idx2, found, octet; 385 1.1 matt static u_char testpat[] = { 0xFF, 0, 0x55, 0xAA, 0xFF, 0, 0x55, 0xAA }; 386 1.1 matt idx2 = found = 0; 387 1.1 matt 388 1.1 matt for (idx = 0; idx < 32; idx++) { 389 1.1 matt octet = bus_space_read_1(iot, ioh, ioreg); 390 1.1 matt 391 1.1 matt if (octet == testpat[idx2]) { 392 1.1 matt if (++idx2 == sizeof(testpat)) { 393 1.27 perry ++found; 394 1.1 matt break; 395 1.1 matt } 396 1.1 matt } else { 397 1.1 matt idx2 = 0; 398 1.1 matt } 399 1.1 matt } 400 1.1 matt 401 1.1 matt if (!found) 402 1.1 matt return -1; 403 1.1 matt } 404 1.1 matt 405 1.25 wiz if (hwaddr == NULL) 406 1.1 matt hwaddr = addrbuf; 407 1.1 matt 408 1.1 matt cksum = 0; 409 1.1 matt hwaddr[0] = bus_space_read_1(iot, ioh, ioreg); 410 1.1 matt hwaddr[1] = bus_space_read_1(iot, ioh, ioreg); 411 1.1 matt 412 1.1 matt /* hardware address can't be multicast */ 413 1.1 matt if (hwaddr[0] & 1) 414 1.1 matt return -1; 415 1.1 matt 416 1.1 matt cksum = *(u_short *) &hwaddr[0]; 417 1.1 matt 418 1.1 matt hwaddr[2] = bus_space_read_1(iot, ioh, ioreg); 419 1.1 matt hwaddr[3] = bus_space_read_1(iot, ioh, ioreg); 420 1.1 matt cksum *= 2; 421 1.1 matt if (cksum > 65535) cksum -= 65535; 422 1.1 matt cksum += *(u_short *) &hwaddr[2]; 423 1.1 matt if (cksum > 65535) cksum -= 65535; 424 1.1 matt 425 1.1 matt hwaddr[4] = bus_space_read_1(iot, ioh, ioreg); 426 1.1 matt hwaddr[5] = bus_space_read_1(iot, ioh, ioreg); 427 1.1 matt cksum *= 2; 428 1.1 matt if (cksum > 65535) cksum -= 65535; 429 1.1 matt cksum += *(u_short *) &hwaddr[4]; 430 1.1 matt if (cksum >= 65535) cksum -= 65535; 431 1.27 perry 432 1.1 matt /* 00-00-00 is an illegal OUI */ 433 1.1 matt if (hwaddr[0] == 0 && hwaddr[1] == 0 && hwaddr[2] == 0) 434 1.1 matt return -1; 435 1.1 matt 436 1.1 matt rom_cksum = bus_space_read_1(iot, ioh, ioreg); 437 1.1 matt rom_cksum |= bus_space_read_1(iot, ioh, ioreg) << 8; 438 1.1 matt 439 1.1 matt if (cksum != rom_cksum) 440 1.1 matt return -1; 441 1.1 matt return 0; 442 1.1 matt } 443 1.14 thorpej 444 1.14 thorpej static void 446 1.14 thorpej lemac_multicast_op( 447 1.1 matt u_int16_t *mctbl, 448 1.1 matt const u_char *mca, 449 1.27 perry int enable) 450 1.1 matt { 451 1.1 matt u_int idx, bit, crc; 452 1.1 matt 453 1.1 matt crc = ether_crc32_le(mca, ETHER_ADDR_LEN); 454 1.1 matt 455 1.1 matt /* 456 1.1 matt * The following two lines convert the N bit index into a longword index 457 1.1 matt * and a longword mask. 458 1.1 matt */ 459 1.1 matt #if LEMAC_MCTBL_BITS < 0 460 1.1 matt crc >>= (32 + LEMAC_MCTBL_BITS); 461 1.1 matt crc &= (1 << -LEMAC_MCTBL_BITS) - 1; 462 1.1 matt #else 463 1.1 matt crc &= (1 << LEMAC_MCTBL_BITS) - 1; 464 1.1 matt #endif 465 1.1 matt bit = 1 << (crc & 0x0F); 466 1.1 matt idx = crc >> 4; 467 1.1 matt 468 1.1 matt /* 469 1.1 matt * Set or clear hash filter bit in our table. 470 1.1 matt */ 471 1.1 matt if (enable) { 472 1.1 matt mctbl[idx] |= bit; /* Set Bit */ 473 1.1 matt } else { 474 1.1 matt mctbl[idx] &= ~bit; /* Clear Bit */ 475 1.1 matt } 476 1.1 matt } 477 1.22 thorpej 478 1.1 matt static void 480 1.1 matt lemac_multicast_filter( 481 1.1 matt lemac_softc_t *sc) 482 1.1 matt { 483 1.1 matt struct ether_multistep step; 484 1.1 matt struct ether_multi *enm; 485 1.1 matt 486 1.1 matt memset(sc->sc_mctbl, 0, LEMAC_MCTBL_BITS / 8); 487 1.1 matt 488 1.1 matt lemac_multicast_op(sc->sc_mctbl, etherbroadcastaddr, TRUE); 489 1.1 matt 490 1.1 matt ETHER_FIRST_MULTI(step, &sc->sc_ec, enm); 491 1.1 matt while (enm != NULL) { 492 1.1 matt if (!LEMAC_ADDREQUAL(enm->enm_addrlo, enm->enm_addrhi)) { 493 1.1 matt sc->sc_flags |= LEMAC_ALLMULTI; 494 1.1 matt sc->sc_if.if_flags |= IFF_ALLMULTI; 495 1.27 perry return; 496 1.1 matt } 497 1.1 matt lemac_multicast_op(sc->sc_mctbl, enm->enm_addrlo, TRUE); 498 1.1 matt ETHER_NEXT_MULTI(step, enm); 499 1.1 matt } 500 1.1 matt sc->sc_flags &= ~LEMAC_ALLMULTI; 501 1.1 matt sc->sc_if.if_flags &= ~IFF_ALLMULTI; 502 1.1 matt } 503 1.1 matt 504 1.1 matt /* 506 1.1 matt * Do a hard reset of the board; 507 1.1 matt */ 508 1.1 matt static void 509 1.1 matt lemac_reset( 510 1.1 matt lemac_softc_t * const sc) 511 1.1 matt { 512 1.1 matt unsigned data; 513 1.1 matt 514 1.1 matt /* 515 1.1 matt * Initialize board.. 516 1.1 matt */ 517 1.1 matt sc->sc_flags &= ~LEMAC_LINKUP; 518 1.1 matt sc->sc_if.if_flags &= ~IFF_OACTIVE; 519 1.27 perry LEMAC_INTR_DISABLE(sc); 520 1.1 matt 521 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_IOP, LEMAC_IOP_EEINIT); 522 1.1 matt DELAY(LEMAC_EEP_DELAY); 523 1.1 matt 524 1.1 matt /* 525 1.1 matt * Read EEPROM information. NOTE - the placement of this function 526 1.1 matt * is important because functions hereafter may rely on information 527 1.1 matt * read from the EEPROM. 528 1.1 matt */ 529 1.1 matt if ((data = lemac_read_eeprom(sc)) != LEMAC_EEP_CKSUM) { 530 1.1 matt printf("%s: reset: EEPROM checksum failed (0x%x)\n", 531 1.1 matt sc->sc_if.if_xname, data); 532 1.1 matt return; 533 1.1 matt } 534 1.1 matt 535 1.1 matt /* 536 1.1 matt * Update the control register to reflect the media choice 537 1.1 matt */ 538 1.1 matt data = LEMAC_INB(sc, LEMAC_REG_CTL); 539 1.1 matt if ((data & (LEMAC_CTL_APD|LEMAC_CTL_PSL)) != sc->sc_ctlmode) { 540 1.1 matt data &= ~(LEMAC_CTL_APD|LEMAC_CTL_PSL); 541 1.1 matt data |= sc->sc_ctlmode; 542 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CTL, data); 543 1.1 matt } 544 1.1 matt 545 1.1 matt /* 546 1.1 matt * Force to 2K mode if not already configured. 547 1.1 matt */ 548 1.1 matt 549 1.1 matt data = LEMAC_INB(sc, LEMAC_REG_MBR); 550 1.1 matt if (LEMAC_IS_2K_MODE(data)) { 551 1.1 matt sc->sc_flags |= LEMAC_2K_MODE; 552 1.1 matt } else if (LEMAC_IS_64K_MODE(data)) { 553 1.1 matt data = (((data * 2) & 0xF) << 4); 554 1.1 matt sc->sc_flags |= LEMAC_WAS_64K_MODE; 555 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_MBR, data); 556 1.1 matt } else if (LEMAC_IS_32K_MODE(data)) { 557 1.1 matt data = ((data & 0xF) << 4); 558 1.1 matt sc->sc_flags |= LEMAC_WAS_32K_MODE; 559 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_MBR, data); 560 1.1 matt } else { 561 1.1 matt sc->sc_flags |= LEMAC_PIO_MODE; 562 1.1 matt /* PIO mode */ 563 1.1 matt } 564 1.1 matt 565 1.1 matt /* 566 1.1 matt * Initialize Free Memory Queue, Init mcast table with broadcast. 567 1.1 matt */ 568 1.1 matt 569 1.1 matt lemac_init_adapmem(sc); 570 1.1 matt sc->sc_flags |= LEMAC_ALIVE; 571 1.1 matt } 572 1.1 matt 573 1.1 matt static void 575 1.1 matt lemac_init( 576 1.8 matt lemac_softc_t * const sc) 577 1.8 matt { 578 1.8 matt if ((sc->sc_flags & LEMAC_ALIVE) == 0) 579 1.8 matt return; 580 1.8 matt 581 1.8 matt /* 582 1.1 matt * If the interface has the up flag 583 1.1 matt */ 584 1.1 matt if (sc->sc_if.if_flags & IFF_UP) { 585 1.1 matt int saved_cs = LEMAC_INB(sc, LEMAC_REG_CS); 586 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CS, saved_cs | (LEMAC_CS_TXD | LEMAC_CS_RXD)); 587 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PA0, sc->sc_enaddr[0]); 588 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PA1, sc->sc_enaddr[1]); 589 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PA2, sc->sc_enaddr[2]); 590 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PA3, sc->sc_enaddr[3]); 591 1.21 thorpej LEMAC_OUTB(sc, LEMAC_REG_PA4, sc->sc_enaddr[4]); 592 1.21 thorpej LEMAC_OUTB(sc, LEMAC_REG_PA5, sc->sc_enaddr[5]); 593 1.1 matt 594 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_IC, LEMAC_INB(sc, LEMAC_REG_IC) | LEMAC_IC_IE); 595 1.1 matt 596 1.1 matt if (sc->sc_if.if_flags & IFF_PROMISC) { 597 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CS, LEMAC_CS_MCE | LEMAC_CS_PME); 598 1.1 matt } else { 599 1.1 matt LEMAC_INTR_DISABLE(sc); 600 1.1 matt lemac_multicast_filter(sc); 601 1.1 matt if (sc->sc_flags & LEMAC_ALLMULTI) 602 1.1 matt memcpy(sc->sc_mctbl, lemac_allmulti_mctbl, 603 1.1 matt sizeof(sc->sc_mctbl)); 604 1.1 matt if (LEMAC_USE_PIO_MODE(sc)) { 605 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_IOP, 0); 606 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PI1, LEMAC_MCTBL_OFF & 0xFF); 607 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PI2, LEMAC_MCTBL_OFF >> 8); 608 1.1 matt LEMAC_OUTSB(sc, LEMAC_REG_DAT, sizeof(sc->sc_mctbl), (void *) sc->sc_mctbl); 609 1.1 matt } else { 610 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_MPN, 0); 611 1.1 matt LEMAC_PUTBUF8(sc, LEMAC_MCTBL_OFF, sizeof(sc->sc_mctbl), (void *) sc->sc_mctbl); 612 1.1 matt } 613 1.1 matt 614 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CS, LEMAC_CS_MCE); 615 1.1 matt } 616 1.1 matt 617 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CTL, LEMAC_INB(sc, LEMAC_REG_CTL) ^ LEMAC_CTL_LED); 618 1.1 matt 619 1.27 perry LEMAC_INTR_ENABLE(sc); 620 1.1 matt sc->sc_if.if_flags |= IFF_RUNNING; 621 1.1 matt lemac_ifstart(&sc->sc_if); 622 1.1 matt } else { 623 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CS, LEMAC_CS_RXD|LEMAC_CS_TXD); 624 1.1 matt 625 1.1 matt LEMAC_INTR_DISABLE(sc); 626 1.1 matt sc->sc_if.if_flags &= ~IFF_RUNNING; 627 1.1 matt } 628 1.1 matt } 629 1.1 matt 630 1.18 thorpej static void 632 1.1 matt lemac_ifstart( 633 1.1 matt struct ifnet *ifp) 634 1.1 matt { 635 1.18 thorpej lemac_softc_t * const sc = LEMAC_IFP_TO_SOFTC(ifp); 636 1.18 thorpej 637 1.18 thorpej if ((ifp->if_flags & IFF_RUNNING) == 0) 638 1.18 thorpej return; 639 1.1 matt 640 1.1 matt LEMAC_INTR_DISABLE(sc); 641 1.1 matt 642 1.1 matt for (;;) { 643 1.1 matt struct mbuf *m; 644 1.1 matt struct mbuf *m0; 645 1.1 matt int tx_pg; 646 1.1 matt 647 1.1 matt IFQ_POLL(&ifp->if_snd, m); 648 1.1 matt if (m == NULL) 649 1.1 matt break; 650 1.1 matt 651 1.1 matt if ((sc->sc_csr.csr_tqc = LEMAC_INB(sc, LEMAC_REG_TQC)) >= lemac_txmax) { 652 1.1 matt sc->sc_cntrs.cntr_txfull++; 653 1.1 matt ifp->if_flags |= IFF_OACTIVE; 654 1.1 matt break; 655 1.1 matt } 656 1.1 matt 657 1.1 matt /* 658 1.18 thorpej * get free memory page 659 1.1 matt */ 660 1.1 matt tx_pg = sc->sc_csr.csr_fmq = LEMAC_INB(sc, LEMAC_REG_FMQ); 661 1.1 matt /* 662 1.1 matt * Check for good transmit page. 663 1.19 lukem */ 664 1.1 matt if (tx_pg == 0 || tx_pg > sc->sc_lastpage) { 665 1.1 matt sc->sc_cntrs.cntr_txnospc++; 666 1.1 matt ifp->if_flags |= IFF_OACTIVE; 667 1.1 matt break; 668 1.1 matt } 669 1.1 matt 670 1.1 matt IFQ_DEQUEUE(&ifp->if_snd, m); 671 1.1 matt 672 1.1 matt /* 673 1.1 matt * The first four bytes of each transmit buffer are for 674 1.1 matt * control information. The first byte is the control 675 1.1 matt * byte, then the length (why not word aligned?), then 676 1.1 matt * the offset to the buffer. 677 1.1 matt */ 678 1.1 matt 679 1.1 matt if (LEMAC_USE_PIO_MODE(sc)) { 680 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_IOP, tx_pg); /* Shift 2K window. */ 681 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PI1, 0); 682 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_PI2, 0); 683 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_DAT, sc->sc_txctl); 684 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_DAT, (m->m_pkthdr.len >> 0) & 0xFF); 685 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_DAT, (m->m_pkthdr.len >> 8) & 0xFF); 686 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_DAT, LEMAC_TX_HDRSZ); 687 1.1 matt for (m0 = m; m0 != NULL; m0 = m0->m_next) 688 1.1 matt LEMAC_OUTSB(sc, LEMAC_REG_DAT, m0->m_len, m0->m_data); 689 1.1 matt } else { 690 1.1 matt bus_size_t txoff = /* (mtod(m, u_int32_t) & (sizeof(u_int32_t) - 1)) + */ LEMAC_TX_HDRSZ; 691 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_MPN, tx_pg); /* Shift 2K window. */ 692 1.1 matt LEMAC_PUT8(sc, 0, sc->sc_txctl); 693 1.1 matt LEMAC_PUT8(sc, 1, (m->m_pkthdr.len >> 0) & 0xFF); 694 1.1 matt LEMAC_PUT8(sc, 2, (m->m_pkthdr.len >> 8) & 0xFF); 695 1.1 matt LEMAC_PUT8(sc, 3, txoff); 696 1.1 matt 697 1.1 matt /* 698 1.1 matt * Copy the packet to the board 699 1.1 matt */ 700 1.1 matt for (m0 = m; m0 != NULL; m0 = m0->m_next) { 701 1.1 matt #if 0 702 1.1 matt LEMAC_PUTBUF8(sc, txoff, m0->m_len, m0->m_data); 703 1.1 matt txoff += m0->m_len; 704 1.1 matt #else 705 1.1 matt const u_int8_t *cp = m0->m_data; 706 1.1 matt int len = m0->m_len; 707 1.1 matt #if 0 708 1.1 matt if ((txoff & 3) == (((long)cp) & 3) && len >= 4) { 709 1.1 matt if (txoff & 3) { 710 1.1 matt int alen = (~txoff & 3); 711 1.1 matt LEMAC_PUTBUF8(sc, txoff, alen, cp); 712 1.1 matt cp += alen; txoff += alen; len -= alen; 713 1.1 matt } 714 1.1 matt if (len >= 4) { 715 1.28 christos LEMAC_PUTBUF32(sc, txoff, len / 4, cp); 716 1.1 matt cp += len & ~3; txoff += len & ~3; len &= 3; 717 1.1 matt } 718 1.1 matt } 719 1.1 matt #endif 720 1.1 matt if ((txoff & 1) == (((long)cp) & 1) && len >= 2) { 721 1.1 matt if (txoff & 1) { 722 1.1 matt int alen = (~txoff & 1); 723 1.1 matt LEMAC_PUTBUF8(sc, txoff, alen, cp); 724 1.1 matt cp += alen; txoff += alen; len -= alen; 725 1.1 matt } 726 1.1 matt if (len >= 2) { 727 1.1 matt LEMAC_PUTBUF16(sc, txoff, len / 2, (const void *) cp); 728 1.38 joerg cp += len & ~1; txoff += len & ~1; len &= 1; 729 1.1 matt } 730 1.1 matt } 731 1.1 matt if (len > 0) { 732 1.1 matt LEMAC_PUTBUF8(sc, txoff, len, cp); 733 1.1 matt txoff += len; 734 1.1 matt } 735 1.1 matt #endif 736 1.1 matt } 737 1.1 matt } 738 1.31 christos 739 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_TQ, tx_pg); /* tell chip to transmit this packet */ 740 1.1 matt bpf_mtap(&sc->sc_if, m); 741 1.1 matt m_freem(m); /* free the mbuf */ 742 1.1 matt } 743 1.1 matt LEMAC_INTR_ENABLE(sc); 744 1.1 matt } 745 1.1 matt 746 1.1 matt static int 748 1.1 matt lemac_ifioctl( 749 1.1 matt struct ifnet *ifp, 750 1.1 matt u_long cmd, 751 1.1 matt void *data) 752 1.1 matt { 753 1.1 matt lemac_softc_t * const sc = LEMAC_IFP_TO_SOFTC(ifp); 754 1.1 matt int s; 755 1.1 matt int error = 0; 756 1.1 matt 757 1.1 matt s = splnet(); 758 1.1 matt 759 1.1 matt switch (cmd) { 760 1.1 matt case SIOCINITIFADDR: { 761 1.1 matt struct ifaddr *ifa = (struct ifaddr *)data; 762 1.1 matt 763 1.1 matt ifp->if_flags |= IFF_UP; 764 1.1 matt lemac_init(sc); 765 1.1 matt switch (ifa->ifa_addr->sa_family) { 766 1.1 matt #ifdef INET 767 1.1 matt case AF_INET: { 768 1.1 matt arp_ifinit(&sc->sc_if, ifa); 769 1.36 dyoung break; 770 1.36 dyoung } 771 1.1 matt #endif /* INET */ 772 1.1 matt 773 1.1 matt 774 1.1 matt default: { 775 1.1 matt break; 776 1.1 matt } 777 1.1 matt } 778 1.1 matt break; 779 1.1 matt } 780 1.33 dyoung 781 1.1 matt case SIOCSIFFLAGS: { 782 1.26 thorpej if ((error = ifioctl_common(ifp, cmd, data)) != 0) 783 1.26 thorpej break; 784 1.1 matt lemac_init(sc); 785 1.1 matt break; 786 1.1 matt } 787 1.1 matt 788 1.1 matt case SIOCADDMULTI: 789 1.1 matt case SIOCDELMULTI: { 790 1.1 matt /* 791 1.1 matt * Update multicast listeners 792 1.1 matt */ 793 1.1 matt if ((error = ether_ioctl(ifp, cmd, data)) == ENETRESET) { 794 1.1 matt /* reset multicast filtering */ 795 1.1 matt if (ifp->if_flags & IFF_RUNNING) 796 1.1 matt lemac_init(sc); 797 1.36 dyoung error = 0; 798 1.1 matt } 799 1.1 matt break; 800 1.1 matt } 801 1.1 matt 802 1.1 matt case SIOCSIFMEDIA: 803 1.1 matt case SIOCGIFMEDIA: { 804 1.1 matt error = ifmedia_ioctl(ifp, (struct ifreq *)data, 805 1.1 matt &sc->sc_ifmedia, cmd); 806 1.1 matt break; 807 1.1 matt } 808 1.1 matt 809 1.1 matt default: { 810 1.1 matt error = ether_ioctl(ifp, cmd, data); 811 1.1 matt break; 812 1.1 matt } 813 1.1 matt } 814 1.1 matt 815 1.1 matt splx(s); 816 1.1 matt return error; 817 1.1 matt } 818 1.1 matt 819 1.1 matt static int 821 1.1 matt lemac_ifmedia_change( 822 1.1 matt struct ifnet * const ifp) 823 1.1 matt { 824 1.1 matt lemac_softc_t * const sc = LEMAC_IFP_TO_SOFTC(ifp); 825 1.1 matt unsigned new_ctl; 826 1.1 matt 827 1.1 matt switch (IFM_SUBTYPE(sc->sc_ifmedia.ifm_media)) { 828 1.1 matt case IFM_10_T: new_ctl = LEMAC_CTL_APD; break; 829 1.1 matt case IFM_10_2: 830 1.1 matt case IFM_10_5: new_ctl = LEMAC_CTL_APD|LEMAC_CTL_PSL; break; 831 1.1 matt case IFM_AUTO: new_ctl = 0; break; 832 1.1 matt default: return EINVAL; 833 1.1 matt } 834 1.1 matt if (sc->sc_ctlmode != new_ctl) { 835 1.1 matt sc->sc_ctlmode = new_ctl; 836 1.1 matt lemac_reset(sc); 837 1.1 matt if (sc->sc_if.if_flags & IFF_UP) 838 1.1 matt lemac_init(sc); 839 1.1 matt } 840 1.1 matt return 0; 841 1.1 matt } 842 1.1 matt 843 1.1 matt /* 844 1.1 matt * Media status callback 845 1.1 matt */ 846 1.1 matt static void 847 1.1 matt lemac_ifmedia_status( 848 1.1 matt struct ifnet * const ifp, 849 1.1 matt struct ifmediareq *req) 850 1.1 matt { 851 1.1 matt lemac_softc_t *sc = LEMAC_IFP_TO_SOFTC(ifp); 852 1.1 matt unsigned data = LEMAC_INB(sc, LEMAC_REG_CNF); 853 1.1 matt 854 1.1 matt req->ifm_status = IFM_AVALID; 855 1.1 matt if (sc->sc_flags & LEMAC_LINKUP) 856 1.1 matt req->ifm_status |= IFM_ACTIVE; 857 1.1 matt 858 1.1 matt if (sc->sc_ctlmode & LEMAC_CTL_APD) { 859 1.1 matt if (sc->sc_ctlmode & LEMAC_CTL_PSL) { 860 1.1 matt req->ifm_active = IFM_10_5; 861 1.1 matt } else { 862 1.1 matt req->ifm_active = IFM_10_T; 863 1.1 matt } 864 1.1 matt } else { 865 1.1 matt /* 866 1.1 matt * The link bit of the configuration register reflects the 867 1.1 matt * current media choice when auto-port is enabled. 868 1.1 matt */ 869 1.1 matt if (data & LEMAC_CNF_NOLINK) { 870 1.1 matt req->ifm_active = IFM_10_5; 871 1.1 matt } else { 872 1.1 matt req->ifm_active = IFM_10_T; 873 1.1 matt } 874 1.1 matt } 875 1.1 matt 876 1.1 matt req->ifm_active |= IFM_ETHER; 877 1.1 matt } 878 1.1 matt 879 1.1 matt int 881 1.1 matt lemac_port_check( 882 1.1 matt const bus_space_tag_t iot, 883 1.1 matt const bus_space_handle_t ioh) 884 1.1 matt { 885 1.1 matt unsigned char hwaddr[6]; 886 1.1 matt 887 1.1 matt if (lemac_read_macaddr(hwaddr, iot, ioh, LEMAC_REG_APD, 0) == 0) 888 1.1 matt return 1; 889 1.1 matt if (lemac_read_macaddr(hwaddr, iot, ioh, LEMAC_REG_APD, 1) == 0) 890 1.1 matt return 1; 891 1.1 matt return 0; 892 1.1 matt } 893 1.1 matt 894 1.1 matt void 896 1.1 matt lemac_info_get( 897 1.1 matt const bus_space_tag_t iot, 898 1.1 matt const bus_space_handle_t ioh, 899 1.1 matt bus_addr_t *maddr_p, 900 1.1 matt bus_size_t *msize_p, 901 1.1 matt int *irq_p) 902 1.1 matt { 903 1.1 matt unsigned data; 904 1.1 matt 905 1.1 matt *irq_p = LEMAC_DECODEIRQ(bus_space_read_1(iot, ioh, LEMAC_REG_IC) & LEMAC_IC_IRQMSK); 906 1.1 matt 907 1.1 matt data = bus_space_read_1(iot, ioh, LEMAC_REG_MBR); 908 1.1 matt if (LEMAC_IS_2K_MODE(data)) { 909 1.1 matt *maddr_p = data * (2 * 1024) + (512 * 1024); 910 1.1 matt *msize_p = 2 * 1024; 911 1.1 matt } else if (LEMAC_IS_64K_MODE(data)) { 912 1.1 matt *maddr_p = data * 64 * 1024; 913 1.1 matt *msize_p = 64 * 1024; 914 1.1 matt } else if (LEMAC_IS_32K_MODE(data)) { 915 1.1 matt *maddr_p = data * 32 * 1024; 916 1.1 matt *msize_p = 32* 1024; 917 1.1 matt } else { 918 1.1 matt *maddr_p = 0; 919 1.1 matt *msize_p = 0; 920 1.1 matt } 921 1.1 matt } 922 1.1 matt 923 1.1 matt /* 925 1.1 matt * What to do upon receipt of an interrupt. 926 1.1 matt */ 927 1.1 matt int 928 1.1 matt lemac_intr( 929 1.1 matt void *arg) 930 1.1 matt { 931 1.1 matt lemac_softc_t * const sc = arg; 932 1.1 matt int cs_value; 933 1.1 matt 934 1.1 matt LEMAC_INTR_DISABLE(sc); /* Mask interrupts */ 935 1.1 matt 936 1.1 matt /* 937 1.1 matt * Determine cause of interrupt. Receive events take 938 1.1 matt * priority over Transmit. 939 1.1 matt */ 940 1.1 matt 941 1.1 matt cs_value = LEMAC_INB(sc, LEMAC_REG_CS); 942 1.1 matt 943 1.1 matt /* 944 1.1 matt * Check for Receive Queue not being empty. 945 1.1 matt * Check for Transmit Done Queue not being empty. 946 1.1 matt */ 947 1.1 matt 948 1.1 matt if (cs_value & LEMAC_CS_RNE) 949 1.1 matt lemac_rne_intr(sc); 950 1.1 matt if (cs_value & LEMAC_CS_TNE) 951 1.1 matt lemac_tne_intr(sc); 952 1.1 matt 953 1.1 matt /* 954 1.2 explorer * Check for Transmitter Disabled. 955 1.2 explorer * Check for Receiver Disabled. 956 1.2 explorer */ 957 1.2 explorer 958 1.1 matt if (cs_value & LEMAC_CS_TXD) 959 1.1 matt lemac_txd_intr(sc, cs_value); 960 1.1 matt if (cs_value & LEMAC_CS_RXD) 961 1.1 matt lemac_rxd_intr(sc, cs_value); 962 1.1 matt 963 1.1 matt /* 964 1.1 matt * Toggle LED and unmask interrupts. 965 1.1 matt */ 966 1.1 matt 967 1.1 matt sc->sc_csr.csr_cs = LEMAC_INB(sc, LEMAC_REG_CS); 968 1.1 matt 969 1.1 matt LEMAC_OUTB(sc, LEMAC_REG_CTL, LEMAC_INB(sc, LEMAC_REG_CTL) ^ LEMAC_CTL_LED); 970 1.1 matt LEMAC_INTR_ENABLE(sc); /* Unmask interrupts */ 971 1.1 matt 972 1.1 matt if (cs_value) 973 1.1 matt rnd_add_uint32(&sc->rnd_source, cs_value); 974 1.1 matt 975 1.1 matt return 1; 976 1.1 matt } 977 1.1 matt 978 1.1 matt void 979 1.1 matt lemac_shutdown( 980 1.1 matt void *arg) 981 1.41 chs { 982 1.1 matt lemac_reset((lemac_softc_t *) arg); 983 1.1 matt } 984 1.1 matt 985 1.1 matt static const char * const lemac_modes[4] = { 987 1.27 perry "PIO mode (internal 2KB window)", 988 1.1 matt "2KB window", 989 1.1 matt "changed 32KB window to 2KB", 990 1.1 matt "changed 64KB window to 2KB", 991 1.1 matt }; 992 1.1 matt 993 1.1 matt void 994 1.1 matt lemac_ifattach( 995 1.1 matt lemac_softc_t *sc) 996 1.1 matt { 997 1.1 matt struct ifnet * const ifp = &sc->sc_if; 998 1.1 matt 999 1.1 matt strlcpy(ifp->if_xname, device_xname(sc->sc_dev), IFNAMSIZ); 1000 1.1 matt 1001 1.1 matt lemac_reset(sc); 1002 1.1 matt 1003 1.1 matt (void) lemac_read_macaddr(sc->sc_enaddr, sc->sc_iot, sc->sc_ioh, 1004 1.1 matt LEMAC_REG_APD, 0); 1005 1.1 matt 1006 1.1 matt printf(": %s\n", sc->sc_prodname); 1007 1.1 matt 1008 1.18 thorpej printf("%s: address %s, %dKB RAM, %s\n", 1009 1.18 thorpej ifp->if_xname, 1010 1.1 matt ether_sprintf(sc->sc_enaddr), 1011 1.1 matt sc->sc_lastpage * 2 + 2, 1012 1.1 matt lemac_modes[sc->sc_flags & LEMAC_MODE_MASK]); 1013 1.2 explorer 1014 1.41 chs ifp->if_softc = (void *) sc; 1015 1.11 explorer ifp->if_start = lemac_ifstart; 1016 1.2 explorer ifp->if_ioctl = lemac_ifioctl; 1017 1.1 matt 1018 1.1 matt ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX 1019 1.1 matt #ifdef IFF_NOTRAILERS 1020 1.1 matt | IFF_NOTRAILERS 1021 1.1 matt #endif 1022 1.1 matt | IFF_MULTICAST; 1023 1.1 matt 1024 1.1 matt if (sc->sc_flags & LEMAC_ALIVE) { 1025 1.1 matt int media; 1026 1.1 matt 1027 1.1 matt IFQ_SET_READY(&ifp->if_snd); 1028 1.1 matt 1029 1.1 matt if_attach(ifp); 1030 1.1 matt ether_ifattach(ifp, sc->sc_enaddr); 1031 1.1 matt 1032 1.1 matt rnd_attach_source(&sc->rnd_source, device_xname(sc->sc_dev), 1033 1.1 matt RND_TYPE_NET, 0); 1034 1.1 matt 1035 1.1 matt ifmedia_init(&sc->sc_ifmedia, 0, 1036 lemac_ifmedia_change, 1037 lemac_ifmedia_status); 1038 if (sc->sc_prodname[4] == '5') /* DE205 is UTP/AUI */ 1039 ifmedia_add(&sc->sc_ifmedia, IFM_ETHER | IFM_AUTO, 0, 0); 1040 if (sc->sc_prodname[4] != '3') /* DE204 & 205 have UTP */ 1041 ifmedia_add(&sc->sc_ifmedia, IFM_ETHER | IFM_10_T, 0, 0); 1042 if (sc->sc_prodname[4] != '4') /* DE203 & 205 have BNC */ 1043 ifmedia_add(&sc->sc_ifmedia, IFM_ETHER | IFM_10_5, 0, 0); 1044 switch (sc->sc_prodname[4]) { 1045 case '3': media = IFM_10_5; break; 1046 case '4': media = IFM_10_T; break; 1047 default: media = IFM_AUTO; break; 1048 } 1049 ifmedia_set(&sc->sc_ifmedia, IFM_ETHER | media); 1050 } else { 1051 printf("%s: disabled due to error\n", ifp->if_xname); 1052 } 1053 } 1054
Indexes created Wed Sep 24 05:09:52 GMT 2025