1 /* 2 * Copyright (c) 1982, 1990 The Regents of the University of California. 3 * All rights reserved. 4 * 5 * %sccs.include.redist.c% 6 * 7 * @(#)if_apx.c 7.9 (Berkeley) 03/31/92 8 */ 9 10 /* 11 * Driver for SGS-THOMSON MK5025 based Link level controller. 12 * The chip will do LAPB in hardware, although this driver only 13 * attempts to use it for HDLC framing. 14 * 15 * Driver written by Keith Sklower, based on lance AMD7990 16 * driver by Van Jacobsen, and information graciously supplied 17 * by the ADAX corporation of Berkeley, CA. 18 */ 19 20 #include "apx.h" 21 #if NAPX > 0 22 23 #include "param.h" 24 #include "mbuf.h" 25 #include "socket.h" 26 #include "ioctl.h" 27 #include "errno.h" 28 #include "syslog.h" 29 30 #include "net/if.h" 31 #include "net/netisr.h" 32 #include "net/if_types.h" 33 #ifdef CCITT 34 #include "netccitt/x25.h" 35 int x25_rtrequest(), x25_ifoutput(); 36 #endif 37 38 #include "if_apxreg.h" 39 40 int apxprobe(), apxattach(), apxstart(), apx_uprim(), apx_meminit(); 41 int apxinit(), apxoutput(), apxioctl(), apxreset(), apxdebug = 0; 42 void apx_ifattach(), apxtest(), apxinput(), apxintr(), apxtint(), apxrint(); 43 44 struct apx_softc { 45 struct ifnet apx_if; 46 caddr_t apx_device; /* e.g. isa_device, vme_device, etc. */ 47 struct apc_reg *apx_reg; /* control regs for both subunits */ 48 struct apc_mem *apx_hmem; /* Host addr for shared memory */ 49 struct apc_mem *apx_dmem; /* Device (chip) addr for shared mem */ 50 struct sgcp *apx_sgcp; /* IO control port for this subunit */ 51 int apx_flags; /* Flags specific to this driver */ 52 #define APXF_CHIPHERE 0x01 /* mk5025 present */ 53 int apx_rxnum; /* Last receiver dx we looked at */ 54 int apx_txnum; /* Last tranmistter dx we stomped on */ 55 int apx_txcnt; /* Number of packets queued for tx*/ 56 u_int apx_msize; 57 struct sgae apx_csr23; /* 24 bit init addr, as seen by chip */ 58 u_short apx_csr4; /* byte gender, set in mach dep code */ 59 struct apc_modes apx_modes; /* Parameters, as amended by ioctls */ 60 } apx_softc[2 * NAPX]; 61 62 struct apxstat { 63 int rxnull; /* no rx bufs ready this interrupt */ 64 int rxnrdy; /* expected rx buf not ready */ 65 int rx2big; /* expected rx buf not ready */ 66 int txnull; 67 int pint; /* new primitive available interrupt */ 68 int rint; /* receive interrupts */ 69 int tint; /* transmit interrupts */ 70 int anyint; /* note all interrupts */ 71 int queued; /* got through apxinput */ 72 int nxpctd; /* received while if was down */ 73 int rstfld; /* reset didn't work */ 74 } apxstat; 75 76 /* default operating paramters for devices */ 77 struct apc_modes apx_default_modes = { 78 { 1, /* apm_sgob.lsaddr; */ 79 3, /* apm_sgob.rsaddr; */ 80 -SGMTU, /* apm_sgob.n1; */ 81 ((-10)<<8), /* apm_sgob.n2_scale; */ 82 -1250, /* apm_sgob.t1; */ 83 -10000, /* apm_sgob.t3; */ 84 -80, /* apm_sgob.tp; */ 85 }, 86 2, /* apm_txwin; */ 87 1, /* apm_apxmode: RS_232 connector and modem clock; */ 88 0, /* apm_apxaltmode: enable dtr, disable X.21 connector; */ 89 IFT_X25, /* apm_iftype; */ 90 }; 91 92 /* Begin bus & endian dependence */ 93 94 #include "isa_device.h" 95 96 struct isa_driver apxdriver = { 97 apxprobe, apxattach, "apx", 98 }; 99 100 #define SG_RCSR(apx, csrnum) \ 101 (outw(&(apx->apx_sgcp->sgcp_rap), csrnum << 1), \ 102 inw(&(apx->apx_sgcp->sgcp_rdp))) 103 104 #define SG_WCSR(apx, csrnum, data) \ 105 (outw(&(apx->apx_sgcp->sgcp_rap), csrnum << 1), \ 106 outw(&(apx->apx_sgcp->sgcp_rdp), data)) 107 108 #define APX_RCSR(apx, csrname) inb(&(apx->apx_reg->csrname)) 109 #define APX_WCSR(apx, csrname, data) outb(&(apx->apx_reg->csrname), data) 110 111 #define TIMO 10000 /* used in apx_uprim */ 112 113 apxprobe(id) 114 register struct isa_device *id; 115 { 116 int moffset = 0, subunit, unit = id->id_unit << 1; 117 struct apc_reg *reg = (struct apc_reg *)id->id_iobase; 118 register struct apx_softc *apx = apx_softc + unit; 119 120 for (subunit = 0; subunit < 2; subunit++) { 121 apx->apx_msize = id->id_msize >> 1; 122 apx->apx_hmem = (struct apc_mem *) (id->id_maddr + moffset); 123 apx->apx_dmem = (struct apc_mem *) moffset; 124 apx->apx_device = (caddr_t) id; 125 apx->apx_reg = reg; 126 apx->apx_sgcp = reg->axr_sgcp + subunit; 127 apx->apx_csr4 = 0x0210; /* no byte swapping for PC-AT */ 128 apx->apx_modes = apx_default_modes; 129 apx->apx_if.if_unit = unit++; 130 moffset = apx->apx_msize; 131 apxtest(apx++); 132 } 133 return 1; 134 } 135 136 apxattach(id) 137 struct isa_device *id; 138 { 139 register struct apx_softc *apx = apx_softc + (id->id_unit << 1); 140 141 apx_ifattach(&((apx++)->apx_if)); 142 apx_ifattach(&(apx->apx_if)); 143 return 0; 144 } 145 /* End bus & endian dependence */ 146 147 /* 148 * Interface exists: make available by filling in network interface 149 * record. System will initialize the interface when it is ready 150 * to accept packets. 151 */ 152 void 153 apx_ifattach(ifp) 154 register struct ifnet *ifp; 155 { 156 /* 157 * Initialize ifnet structure 158 */ 159 ifp->if_name = "apc"; 160 ifp->if_mtu = SGMTU; 161 ifp->if_init = apxinit; 162 ifp->if_output = apxoutput; 163 ifp->if_start = apxstart; 164 ifp->if_ioctl = apxioctl; 165 ifp->if_reset = apxreset; 166 ifp->if_type = apx_default_modes.apm_iftype; 167 ifp->if_hdrlen = 5; 168 ifp->if_addrlen = 8; 169 if_attach(ifp); 170 } 171 /* 172 * Initialization of interface 173 */ 174 apxinit(unit) 175 int unit; 176 { 177 struct ifnet *ifp = &apx_softc[unit].apx_if; 178 int s = splimp(); 179 180 ifp->if_flags &= ~(IFF_RUNNING|IFF_OACTIVE); 181 if (apxreset(unit) && (ifp->if_flags & IFF_UP)) { 182 ifp->if_flags |= IFF_RUNNING; 183 (void)apxstart(ifp); 184 } 185 splx(s); 186 return 0; 187 } 188 189 apxctr(apx) 190 register struct apx_softc *apx; 191 { 192 APX_WCSR(apx, axr_ccr, 0xB0); /* select ctr 2, write lsb+msb, mode 0 */ 193 APX_WCSR(apx, axr_cnt2, 0x1); 194 APX_WCSR(apx, axr_cnt2, 0x0); 195 DELAY(50); 196 APX_WCSR(apx, axr_ccr, 0xE8); /* latch status, ctr 2; */ 197 return (APX_RCSR(apx, axr_cnt2)); 198 } 199 200 void 201 apxtest(apx) 202 register struct apx_softc *apx; 203 { 204 int i = 0; 205 206 if ((apx->apx_if.if_unit & 1) == 0 && (i = apxctr(apx)) == 0) 207 apxerror(apx, "no response from timer chip", 0); 208 if (SG_RCSR(apx, 1) & 0x8000) 209 SG_WCSR(apx, 1, 0x8040); 210 SG_WCSR(apx, 4, apx->apx_csr4); 211 SG_WCSR(apx, 5, 0x08); /* Set DTR mode in SGS thompson chip */ 212 if (((i = SG_RCSR(apx, 5)) & 0xff08) != 0x08) 213 apxerror(apx, "no mk5025, csr5 high bits are", i); 214 else 215 apx->apx_flags |= APXF_CHIPHERE; 216 (void) apx_uprim(apx, SG_STOP, "stop after probing"); 217 } 218 219 apxreset(unit) 220 int unit; 221 { 222 register struct apx_softc *apx = &apx_softc[unit ^ 1]; 223 u_char apm_apxmode = 0, apm_apxaltmode = 0; 224 #define MODE(m) (m |= apx->apx_modes.m << ((apx->apx_if.if_unit & 1) ? 1 : 0)) 225 226 MODE(apm_apxmode); 227 MODE(apm_apxaltmode); 228 apx = apx_softc + unit; 229 MODE(apm_apxmode); 230 MODE(apm_apxaltmode); 231 APX_WCSR(apx, axr_mode, apm_apxmode); 232 APX_WCSR(apx, axr_altmode, apm_apxaltmode); 233 (void) apxctr(apx); 234 (void) apx_uprim(apx, SG_STOP, "stop to reset"); 235 if ((apx->apx_if.if_flags & IFF_UP) == 0) 236 return 0; 237 apx_meminit(apx->apx_hmem, apx); 238 SG_WCSR(apx, 4, apx->apx_csr4); 239 SG_WCSR(apx, 2, apx->apx_csr23.f_hi); 240 SG_WCSR(apx, 3, apx->apx_csr23.lo); 241 if (apx_uprim(apx, SG_INIT, "init request") || 242 apx_uprim(apx, SG_STAT, "status request") || 243 apx_uprim(apx, SG_TRANS, "transparent mode")) 244 return 0; 245 SG_WCSR(apx, 0, SG_INEA); 246 return 1; 247 } 248 249 apx_uprim(apx, request, ident) 250 register struct apx_softc *apx; 251 char *ident; 252 { 253 register int timo = 0; 254 int reply; 255 256 if ((apx->apx_flags & APXF_CHIPHERE) == 0) 257 return 1; /* maybe even should panic . . . */ 258 if ((reply = SG_RCSR(apx, 1)) & 0x8040) 259 SG_WCSR(apx, 1, 0x8040); /* Magic! */ 260 if (request == SG_STOP && (SG_RCSR(apx, 0) & SG_STOPPED)) 261 return 0; 262 SG_WCSR(apx, 1, request | SG_UAV); 263 do { 264 reply = SG_RCSR(apx, 1); 265 if (timo++ >= TIMO || (reply & 0x8000)) { 266 apxerror(apx, ident, reply); 267 return 1; 268 } 269 } while (reply & SG_UAV); 270 return 0; 271 } 272 273 apx_meminit(apc, apx) 274 register struct apc_mem *apc; 275 struct apx_softc *apx; 276 { 277 register struct apc_mem *apcbase = apx->apx_dmem; 278 register int i; 279 #define LOWADDR(e) (((u_long)&(apcbase->e)) & 0xffff) 280 #define HIADDR(e) ((((u_long)&(apcbase->e)) >> 16) & 0xff) 281 #define SET_SGAE(d, f, a) {(d).lo = LOWADDR(a); (d).f_hi = (f) | HIADDR(a);} 282 #define SET_SGDX(d, f, a, b) \ 283 {SET_SGAE((d).sgdx_ae, f, a); (d).sgdx_mcnt = (d).sgdx_bcnt = (b);} 284 285 apx->apx_txnum = apx->apx_rxnum = apx->apx_txcnt = 0; 286 bzero((caddr_t)apc, ((caddr_t)(&apc->apc_rxmd[0])) - (caddr_t)apc); 287 apc->apc_mode = 0x0108; /* 2 flag spacing, leave addr & ctl, do CRC16 */ 288 apc->apc_sgop = apx->apx_modes.apm_sgop; 289 SET_SGAE(apx->apx_csr23, SG_UIE | SG_PROM, apc_mode); 290 SET_SGAE(apc->apc_rxdd, SG_RLEN, apc_rxmd[0]); 291 i = SG_TLEN | ((apx->apx_modes.apm_txwin)<< 8); 292 SET_SGAE(apc->apc_txdd, i, apc_txmd[0]); 293 SET_SGAE(apc->apc_stdd, 0, apc_sgsb); 294 SET_SGDX(apc->apc_rxtid, SG_OWN, apc_rxidbuf[0], -SGMTU); 295 SET_SGDX(apc->apc_txtid, 0, apc_txidbuf[0], 0); 296 for (i = 0; i < SGRBUF; i++) 297 SET_SGDX(apc->apc_rxmd[i], SG_OWN, apc_rbuf[i][0], -SGMTU) 298 for (i = 0; i < SGTBUF; i++) 299 SET_SGDX(apc->apc_txmd[i], 0, apc_tbuf[i][0], 0) 300 } 301 302 /* 303 * Start output on interface. Get another datagram to send 304 * off of the interface queue, and copy it to the interface 305 * before starting the output. 306 */ 307 apxstart(ifp) 308 struct ifnet *ifp; 309 { 310 register struct apx_softc *apx = &apx_softc[ifp->if_unit]; 311 register struct sgdx *dx; 312 struct apc_mem *apc = apx->apx_hmem; 313 struct mbuf *m; 314 int len; 315 316 if ((ifp->if_flags & IFF_RUNNING) == 0) 317 return (0); 318 do { 319 dx = apc->apc_txmd + apx->apx_txnum; 320 if (dx->sgdx_flags & SG_OWN) 321 return (0); 322 IF_DEQUEUE(&ifp->if_snd, m); 323 if (m == 0) 324 return (0); 325 len = min(m->m_pkthdr.len, SGMTU); 326 m_copydata(m, 0, len, apc->apc_tbuf[apx->apx_txnum]); 327 dx->sgdx_mcnt = -len; 328 dx->sgdx_flags = (SG_OWN|SG_TUI|SG_SLF|SG_ELF) | 329 (0xff & dx->sgdx_flags); 330 SG_WCSR(apx, 0, SG_INEA | SG_TDMD); 331 DELAY(20); 332 if (++apx->apx_txnum >= SGTBUF) 333 apx->apx_txnum = 0; 334 } while (++apx->apx_txcnt < SGTBUF); 335 apx->apx_txcnt = SGTBUF; /* in case txcnt > SGTBUF by mistake */ 336 ifp->if_flags |= IFF_OACTIVE; 337 return (0); 338 } 339 340 void 341 apxintr() 342 { 343 register struct apx_softc *apx; 344 int reply; 345 346 apxstat.anyint++; 347 for (apx = apx_softc + NAPX + NAPX; --apx >= apx_softc;) { 348 if (apx->apx_flags & APXF_CHIPHERE) 349 /* Try to turn off interrupt cause */ 350 while ((reply = SG_RCSR(apx, 0)) & 0xff) { 351 SG_WCSR(apx, 0, SG_INEA | 0xfe); 352 if (reply & (SG_MERR|SG_TUR|SG_ROR)) { 353 apxerror(apx, "mem, rx, or tx error", reply); 354 apxinit(apx->apx_if.if_unit); 355 break; 356 } 357 if (reply & SG_RINT) 358 apxrint(apx); 359 if (reply & SG_TINT) 360 apxtint(apx); 361 if (reply & SG_PINT) 362 apxstat.pint++; 363 } 364 } 365 } 366 367 void 368 apxtint(apx) 369 register struct apx_softc *apx; 370 { 371 register struct apc_mem *apc = apx->apx_hmem; 372 int i, loopcount = 0; 373 374 apxstat.tint++; 375 do { 376 if ((i = apx->apx_txnum - apx->apx_txcnt) < 0) 377 i += SGTBUF; 378 if (apc->apc_txmd[i].sgdx_flags & SG_OWN) { 379 if (loopcount) 380 break; 381 apxstat.txnull++; 382 return; 383 } 384 loopcount++; 385 apx->apx_if.if_flags &= ~IFF_OACTIVE; 386 } while (--apx->apx_txcnt > 0); 387 apxstart(&apx->apx_if); 388 } 389 390 void 391 apxrint(apx) 392 register struct apx_softc *apx; 393 { 394 register struct apc_mem *apc = apx->apx_hmem; 395 register struct sgdx *dx = apc->apc_rxmd + apx->apx_rxnum; 396 int i = 0; 397 #define SGNEXTRXMD \ 398 dx = ++apx->apx_rxnum == SGRBUF ? &apc->apc_rxmd[apx->apx_rxnum = 0] : dx + 1; 399 400 apxstat.rint++; 401 /* 402 * Out of sync with hardware, should never happen? 403 */ 404 while (dx->sgdx_flags & SG_OWN) { 405 apxstat.rxnrdy++; 406 if (++i == SGRBUF) { 407 apxstat.rxnull++; 408 return; 409 } 410 SGNEXTRXMD; 411 } 412 /* 413 * Process all buffers with valid data 414 */ 415 while ((dx->sgdx_flags & SG_OWN) == 0) { 416 if ((dx->sgdx_flags & (SG_SLF|SG_ELF)) != (SG_SLF|SG_ELF)) { 417 /* 418 * Find the end of the packet so we synch up. 419 * We throw the data away. 420 */ 421 apxerror(apx, "chained buffer", dx->sgdx_flags); 422 do { 423 apxstat.rx2big++; 424 dx->sgdx_bcnt = 0; 425 dx->sgdx_flags = SG_OWN | (0xff&dx->sgdx_flags); 426 SGNEXTRXMD; 427 } while (!(dx->sgdx_flags & (SG_OWN|SG_SLF|SG_ELF))); 428 /* 429 * If search terminated without successful completion 430 * we reset the hardware (conservative). 431 */ 432 if ((dx->sgdx_flags & (SG_OWN|SG_SLF|SG_ELF)) != 433 SG_ELF) { 434 apxreset(apx->apx_if.if_unit); 435 return; 436 } 437 } else 438 apxinput(&apx->apx_if, apc->apc_rbuf[apx->apx_rxnum], 439 -dx->sgdx_mcnt); 440 dx->sgdx_bcnt = 0; 441 dx->sgdx_flags = SG_OWN | (0xff & dx->sgdx_flags); 442 SGNEXTRXMD; 443 } 444 } 445 446 void 447 apxinput(ifp, buffer, len) 448 register struct ifnet *ifp; 449 caddr_t buffer; 450 { 451 extern struct ifqueue hdintrq, ipintrq; 452 register struct ifqueue *inq; 453 register u_char *cp = (u_char *)buffer; 454 struct mbuf *m, *m_devget(); 455 int isr; 456 457 ifp->if_ipackets++; 458 if ((ifp->if_flags & IFF_UP) == 0) { 459 apxstat.nxpctd++; 460 return; 461 } 462 if (cp[0] == 0xff && cp[1] == 0x3) { 463 /* This is a UI HDLC Packet, so we'll assume PPP 464 protocol. for now, IP only. */ 465 buffer += 4; 466 len -= 4; 467 inq = &ipintrq; 468 isr = NETISR_IP; 469 } else { 470 #ifdef CCITT 471 inq = &hdintrq; 472 isr = NETISR_CCITT; 473 } 474 if (len <= 0) { 475 #endif 476 return; 477 } 478 m = m_devget(buffer, len, 0, ifp, (void (*)())0); 479 if (m == 0) 480 return; 481 if(IF_QFULL(inq)) { 482 IF_DROP(inq); 483 m_freem(m); 484 } else { 485 apxstat.queued++; 486 IF_ENQUEUE(inq, m); 487 schednetisr(isr); 488 } 489 } 490 491 /* 492 * Process an ioctl request. 493 */ 494 apxioctl(ifp, cmd, data) 495 register struct ifnet *ifp; 496 int cmd; 497 caddr_t data; 498 { 499 register struct ifaddr *ifa = (struct ifaddr *)data; 500 int s = splimp(), error = 0; 501 struct apx_softc *apx = &apx_softc[ifp->if_unit]; 502 503 switch (cmd) { 504 505 case SIOCSIFADDR: 506 #ifdef CCITT 507 ifa->ifa_rtrequest = x25_rtrequest; 508 break; 509 510 case SIOCSIFCONF_X25: 511 ifp->if_output = x25_ifoutput; 512 ifp->if_flags |= IFF_UP; 513 error = hd_ctlinput(PRC_IFUP, ifa->ifa_addr); 514 if (error == 0) 515 apxinit(ifp->if_unit); 516 #endif 517 break; 518 519 case SIOCSIFFLAGS: 520 if (((ifp->if_flags & IFF_UP) == 0 && 521 (ifp->if_flags & IFF_RUNNING)) || 522 (ifp->if_flags & IFF_UP) && 523 (ifp->if_flags & IFF_RUNNING) == 0) 524 apxinit(ifp->if_unit); 525 break; 526 527 case SIOCSIFMODE: 528 if ((ifp->if_flags & IFF_UP) == 0) 529 apx->apx_modes = *(struct apc_modes *)data; 530 else 531 default: 532 error = EINVAL; 533 534 } 535 splx(s); 536 return (error); 537 } 538 539 apxerror(apx, msg, data) 540 register struct apx_softc *apx; 541 char *msg; 542 { 543 log(LOG_WARNING, "apc%d: %s, stat=0x%x\n", 544 apx->apx_if.if_unit, msg, data); 545 } 546 547 /* 548 * For debugging loopback activity. 549 */ 550 apxoutput(ifp, m, dst, rt) 551 register struct ifnet *ifp; 552 register struct mbuf *m; 553 struct sockaddr *dst; 554 struct rtentry *rt; 555 { 556 int s = splimp(), error = 0; 557 static char pppheader[4] = { -1, 3, 0, 0x21 }; 558 /* 559 * Queue message on interface, and start output if interface 560 * not yet active. 561 */ 562 ifp->if_opackets++; 563 M_PREPEND(m, sizeof pppheader, M_DONTWAIT); 564 if (m == 0) { 565 splx(s); 566 return ENOBUFS; 567 } 568 bcopy(pppheader, mtod(m, caddr_t), sizeof pppheader); 569 if (IF_QFULL(&ifp->if_snd)) { 570 IF_DROP(&ifp->if_snd); 571 m_freem(m); 572 error = ENOBUFS; 573 } else { 574 IF_ENQUEUE(&ifp->if_snd, m); 575 if ((ifp->if_flags & IFF_OACTIVE) == 0) 576 (*ifp->if_start)(ifp); 577 } 578 splx(s); 579 return (error); 580 } 581 #endif /* NAPX */ 582