magma.c revision 1.60
1 1.60 riastrad /* $NetBSD: magma.c,v 1.60 2018/09/03 16:29:33 riastradh Exp $ */ 2 1.48 plunky 3 1.48 plunky /*- 4 1.1 pk * Copyright (c) 1998 Iain Hibbert 5 1.1 pk * All rights reserved. 6 1.1 pk * 7 1.1 pk * Redistribution and use in source and binary forms, with or without 8 1.1 pk * modification, are permitted provided that the following conditions 9 1.1 pk * are met: 10 1.1 pk * 1. Redistributions of source code must retain the above copyright 11 1.1 pk * notice, this list of conditions and the following disclaimer. 12 1.1 pk * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 pk * notice, this list of conditions and the following disclaimer in the 14 1.1 pk * documentation and/or other materials provided with the distribution. 15 1.1 pk * 16 1.1 pk * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 1.1 pk * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 1.1 pk * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 1.1 pk * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 1.1 pk * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 21 1.1 pk * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22 1.1 pk * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23 1.1 pk * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24 1.1 pk * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 25 1.1 pk * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 1.2 pk */ 27 1.1 pk 28 1.1 pk /* 29 1.1 pk * Driver for Magma SBus Serial/Parallel cards using the Cirrus Logic 30 1.1 pk * CD1400 & CD1190 chips 31 1.1 pk */ 32 1.12 lukem 33 1.12 lukem #include <sys/cdefs.h> 34 1.60 riastrad __KERNEL_RCSID(0, "$NetBSD: magma.c,v 1.60 2018/09/03 16:29:33 riastradh Exp $"); 35 1.12 lukem 36 1.12 lukem #if 0 37 1.12 lukem #define MAGMA_DEBUG 38 1.12 lukem #endif 39 1.1 pk 40 1.1 pk #include "magma.h" 41 1.1 pk #if NMAGMA > 0 42 1.1 pk 43 1.1 pk #include <sys/param.h> 44 1.1 pk #include <sys/systm.h> 45 1.1 pk #include <sys/proc.h> 46 1.1 pk #include <sys/device.h> 47 1.1 pk #include <sys/file.h> 48 1.1 pk #include <sys/ioctl.h> 49 1.1 pk #include <sys/malloc.h> 50 1.1 pk #include <sys/tty.h> 51 1.1 pk #include <sys/time.h> 52 1.1 pk #include <sys/kernel.h> 53 1.1 pk #include <sys/syslog.h> 54 1.1 pk #include <sys/conf.h> 55 1.1 pk #include <sys/errno.h> 56 1.34 yamt #include <sys/kauth.h> 57 1.43 ad #include <sys/intr.h> 58 1.1 pk 59 1.44 ad #include <sys/bus.h> 60 1.4 pk #include <machine/autoconf.h> 61 1.8 pk 62 1.4 pk #include <dev/sbus/sbusvar.h> 63 1.1 pk 64 1.1 pk #include <dev/ic/cd1400reg.h> 65 1.1 pk #include <dev/ic/cd1190reg.h> 66 1.1 pk 67 1.4 pk #include <dev/sbus/mbppio.h> 68 1.4 pk #include <dev/sbus/magmareg.h> 69 1.1 pk 70 1.54 tsutsui #include "ioconf.h" 71 1.54 tsutsui 72 1.1 pk /* supported cards 73 1.1 pk * 74 1.1 pk * The table below lists the cards that this driver is likely to 75 1.1 pk * be able to support. 76 1.1 pk * 77 1.1 pk * Cards with parallel ports: except for the LC2+1Sp, they all use 78 1.1 pk * the CD1190 chip which I know nothing about. I've tried to leave 79 1.1 pk * hooks for it so it shouldn't be too hard to add support later. 80 1.1 pk * (I think somebody is working on this separately) 81 1.1 pk * 82 1.1 pk * Thanks to Bruce at Magma for telling me the hardware offsets. 83 1.1 pk */ 84 1.1 pk static struct magma_board_info supported_cards[] = { 85 1.1 pk { 86 1.13 pk "MAGMA_Sp", "MAGMA,4_Sp", "Magma 4 Sp", 4, 0, 87 1.1 pk 1, 0xa000, 0xc000, 0xe000, { 0x8000, 0, 0, 0 }, 88 1.1 pk 0, { 0, 0 } 89 1.1 pk }, 90 1.1 pk { 91 1.13 pk "MAGMA_Sp", "MAGMA,8_Sp", "Magma 8 Sp", 8, 0, 92 1.1 pk 2, 0xa000, 0xc000, 0xe000, { 0x4000, 0x6000, 0, 0 }, 93 1.1 pk 0, { 0, 0 } 94 1.1 pk }, 95 1.1 pk { 96 1.13 pk "MAGMA_Sp", "MAGMA,_8HS_Sp", "Magma Fast 8 Sp", 8, 0, 97 1.1 pk 2, 0x2000, 0x4000, 0x6000, { 0x8000, 0xa000, 0, 0 }, 98 1.1 pk 0, { 0, 0 } 99 1.1 pk }, 100 1.1 pk { 101 1.13 pk "MAGMA_Sp", "MAGMA,_8SP_422", "Magma 8 Sp - 422", 8, 0, 102 1.1 pk 2, 0x2000, 0x4000, 0x6000, { 0x8000, 0xa000, 0, 0 }, 103 1.1 pk 0, { 0, 0 } 104 1.1 pk }, 105 1.1 pk { 106 1.13 pk "MAGMA_Sp", "MAGMA,12_Sp", "Magma 12 Sp", 12, 0, 107 1.1 pk 3, 0xa000, 0xc000, 0xe000, { 0x2000, 0x4000, 0x6000, 0 }, 108 1.1 pk 0, { 0, 0 } 109 1.1 pk }, 110 1.1 pk { 111 1.13 pk "MAGMA_Sp", "MAGMA,16_Sp", "Magma 16 Sp", 16, 0, 112 1.1 pk 4, 0xd000, 0xe000, 0xf000, { 0x8000, 0x9000, 0xa000, 0xb000 }, 113 1.1 pk 0, { 0, 0 } 114 1.1 pk }, 115 1.1 pk { 116 1.13 pk "MAGMA_Sp", "MAGMA,16_Sp_2", "Magma 16 Sp", 16, 0, 117 1.1 pk 4, 0x2000, 0x4000, 0x6000, { 0x8000, 0xa000, 0xc000, 0xe000 }, 118 1.1 pk 0, { 0, 0 } 119 1.1 pk }, 120 1.1 pk { 121 1.13 pk "MAGMA_Sp", "MAGMA,16HS_Sp", "Magma Fast 16 Sp", 16, 0, 122 1.1 pk 4, 0x2000, 0x4000, 0x6000, { 0x8000, 0xa000, 0xc000, 0xe000 }, 123 1.1 pk 0, { 0, 0 } 124 1.1 pk }, 125 1.1 pk { 126 1.13 pk "MAGMA_Sp", "MAGMA,21_Sp", "Magma LC 2+1 Sp", 2, 1, 127 1.1 pk 1, 0xa000, 0xc000, 0xe000, { 0x8000, 0, 0, 0 }, 128 1.1 pk 0, { 0, 0 } 129 1.1 pk }, 130 1.1 pk { 131 1.13 pk "MAGMA_Sp", "MAGMA,21HS_Sp", "Magma 2+1 Sp", 2, 1, 132 1.1 pk 1, 0xa000, 0xc000, 0xe000, { 0x4000, 0, 0, 0 }, 133 1.1 pk 1, { 0x6000, 0 } 134 1.1 pk }, 135 1.1 pk { 136 1.13 pk "MAGMA_Sp", "MAGMA,41_Sp", "Magma 4+1 Sp", 4, 1, 137 1.1 pk 1, 0xa000, 0xc000, 0xe000, { 0x4000, 0, 0, 0 }, 138 1.1 pk 1, { 0x6000, 0 } 139 1.1 pk }, 140 1.1 pk { 141 1.13 pk "MAGMA_Sp", "MAGMA,82_Sp", "Magma 8+2 Sp", 8, 2, 142 1.1 pk 2, 0xd000, 0xe000, 0xf000, { 0x8000, 0x9000, 0, 0 }, 143 1.1 pk 2, { 0xa000, 0xb000 } 144 1.1 pk }, 145 1.1 pk { 146 1.13 pk "MAGMA_Sp", "MAGMA,P1_Sp", "Magma P1 Sp", 0, 1, 147 1.1 pk 0, 0, 0, 0, { 0, 0, 0, 0 }, 148 1.1 pk 1, { 0x8000, 0 } 149 1.1 pk }, 150 1.1 pk { 151 1.13 pk "MAGMA_Sp", "MAGMA,P2_Sp", "Magma P2 Sp", 0, 2, 152 1.1 pk 0, 0, 0, 0, { 0, 0, 0, 0 }, 153 1.1 pk 2, { 0x4000, 0x8000 } 154 1.1 pk }, 155 1.1 pk { 156 1.13 pk "MAGMA 2+1HS Sp", "", "Magma 2+1HS Sp", 2, 0, 157 1.13 pk 1, 0xa000, 0xc000, 0xe000, { 0x4000, 0, 0, 0 }, 158 1.13 pk 1, { 0x8000, 0 } 159 1.13 pk }, 160 1.13 pk { 161 1.13 pk NULL, NULL, NULL, 0, 0, 162 1.1 pk 0, 0, 0, 0, { 0, 0, 0, 0 }, 163 1.1 pk 0, { 0, 0 } 164 1.1 pk } 165 1.1 pk }; 166 1.1 pk 167 1.1 pk /************************************************************************ 168 1.1 pk * 169 1.1 pk * Autoconfig Stuff 170 1.1 pk */ 171 1.1 pk 172 1.56 chs CFATTACH_DECL_NEW(magma, sizeof(struct magma_softc), 173 1.20 thorpej magma_match, magma_attach, NULL, NULL); 174 1.1 pk 175 1.56 chs CFATTACH_DECL_NEW(mtty, sizeof(struct mtty_softc), 176 1.20 thorpej mtty_match, mtty_attach, NULL, NULL); 177 1.1 pk 178 1.56 chs CFATTACH_DECL_NEW(mbpp, sizeof(struct mbpp_softc), 179 1.20 thorpej mbpp_match, mbpp_attach, NULL, NULL); 180 1.1 pk 181 1.17 gehenna dev_type_open(mttyopen); 182 1.17 gehenna dev_type_close(mttyclose); 183 1.17 gehenna dev_type_read(mttyread); 184 1.17 gehenna dev_type_write(mttywrite); 185 1.17 gehenna dev_type_ioctl(mttyioctl); 186 1.17 gehenna dev_type_stop(mttystop); 187 1.17 gehenna dev_type_tty(mttytty); 188 1.17 gehenna dev_type_poll(mttypoll); 189 1.17 gehenna 190 1.17 gehenna const struct cdevsw mtty_cdevsw = { 191 1.58 dholland .d_open = mttyopen, 192 1.58 dholland .d_close = mttyclose, 193 1.58 dholland .d_read = mttyread, 194 1.58 dholland .d_write = mttywrite, 195 1.58 dholland .d_ioctl = mttyioctl, 196 1.58 dholland .d_stop = mttystop, 197 1.58 dholland .d_tty = mttytty, 198 1.58 dholland .d_poll = mttypoll, 199 1.58 dholland .d_mmap = nommap, 200 1.58 dholland .d_kqfilter = ttykqfilter, 201 1.59 dholland .d_discard = nodiscard, 202 1.58 dholland .d_flag = D_TTY 203 1.17 gehenna }; 204 1.17 gehenna 205 1.17 gehenna dev_type_open(mbppopen); 206 1.17 gehenna dev_type_close(mbppclose); 207 1.17 gehenna dev_type_read(mbpp_rw); 208 1.17 gehenna dev_type_ioctl(mbppioctl); 209 1.17 gehenna 210 1.17 gehenna const struct cdevsw mbpp_cdevsw = { 211 1.58 dholland .d_open = mbppopen, 212 1.58 dholland .d_close = mbppclose, 213 1.58 dholland .d_read = mbpp_rw, 214 1.58 dholland .d_write = mbpp_rw, 215 1.58 dholland .d_ioctl = mbppioctl, 216 1.58 dholland .d_stop = nostop, 217 1.58 dholland .d_tty = notty, 218 1.58 dholland .d_poll = nopoll, 219 1.58 dholland .d_mmap = nommap, 220 1.58 dholland .d_kqfilter = nokqfilter, 221 1.59 dholland .d_discard = nodiscard, 222 1.58 dholland .d_flag = D_OTHER 223 1.17 gehenna }; 224 1.17 gehenna 225 1.1 pk /************************************************************************ 226 1.1 pk * 227 1.1 pk * CD1400 Routines 228 1.1 pk * 229 1.1 pk * cd1400_compute_baud calculate COR/BPR register values 230 1.1 pk * cd1400_write_ccr write a value to CD1400 ccr 231 1.1 pk * cd1400_read_reg read from a CD1400 register 232 1.1 pk * cd1400_write_reg write to a CD1400 register 233 1.1 pk * cd1400_enable_transmitter enable transmitting on CD1400 channel 234 1.1 pk */ 235 1.1 pk 236 1.1 pk /* 237 1.1 pk * compute the bpr/cor pair for any baud rate 238 1.1 pk * returns 0 for success, 1 for failure 239 1.1 pk */ 240 1.1 pk int 241 1.50 dsl cd1400_compute_baud(speed_t speed, int clock, int *cor, int *bpr) 242 1.1 pk { 243 1.1 pk int c, co, br; 244 1.1 pk 245 1.1 pk if( speed < 50 || speed > 150000 ) 246 1.1 pk return(1); 247 1.1 pk 248 1.1 pk for( c = 0, co = 8 ; co <= 2048 ; co <<= 2, c++ ) { 249 1.1 pk br = ((clock * 1000000) + (co * speed) / 2) / (co * speed); 250 1.1 pk if( br < 0x100 ) { 251 1.1 pk *bpr = br; 252 1.1 pk *cor = c; 253 1.1 pk return(0); 254 1.1 pk } 255 1.1 pk } 256 1.1 pk 257 1.1 pk return(1); 258 1.1 pk } 259 1.1 pk 260 1.1 pk /* 261 1.1 pk * Write a CD1400 channel command, should have a timeout? 262 1.1 pk */ 263 1.32 perry inline void 264 1.49 dsl cd1400_write_ccr(struct cd1400 *cd, u_char cmd) 265 1.1 pk { 266 1.1 pk while( cd1400_read_reg(cd, CD1400_CCR) ) 267 1.1 pk ; 268 1.1 pk 269 1.1 pk cd1400_write_reg(cd, CD1400_CCR, cmd); 270 1.1 pk } 271 1.1 pk 272 1.1 pk /* 273 1.1 pk * read a value from a cd1400 register 274 1.1 pk */ 275 1.32 perry inline u_char 276 1.49 dsl cd1400_read_reg(struct cd1400 *cd, int reg) 277 1.1 pk { 278 1.1 pk return(cd->cd_reg[reg]); 279 1.1 pk } 280 1.1 pk 281 1.1 pk /* 282 1.1 pk * write a value to a cd1400 register 283 1.1 pk */ 284 1.32 perry inline void 285 1.49 dsl cd1400_write_reg(struct cd1400 *cd, int reg, u_char value) 286 1.1 pk { 287 1.1 pk cd->cd_reg[reg] = value; 288 1.1 pk } 289 1.1 pk 290 1.1 pk /* 291 1.1 pk * enable transmit service requests for cd1400 channel 292 1.1 pk */ 293 1.1 pk void 294 1.49 dsl cd1400_enable_transmitter(struct cd1400 *cd, int channel) 295 1.1 pk { 296 1.1 pk int s, srer; 297 1.1 pk 298 1.1 pk s = spltty(); 299 1.1 pk cd1400_write_reg(cd, CD1400_CAR, channel); 300 1.1 pk srer = cd1400_read_reg(cd, CD1400_SRER); 301 1.1 pk SET(srer, CD1400_SRER_TXRDY); 302 1.1 pk cd1400_write_reg(cd, CD1400_SRER, srer); 303 1.1 pk splx(s); 304 1.1 pk } 305 1.1 pk 306 1.1 pk /************************************************************************ 307 1.1 pk * 308 1.1 pk * CD1190 Routines 309 1.1 pk */ 310 1.1 pk 311 1.1 pk /* well, there are none yet */ 312 1.1 pk 313 1.1 pk /************************************************************************ 314 1.1 pk * 315 1.1 pk * Magma Routines 316 1.1 pk * 317 1.1 pk * magma_match reports if we have a magma board available 318 1.1 pk * magma_attach attaches magma boards to the sbus 319 1.1 pk * magma_hard hardware level interrupt routine 320 1.1 pk * magma_soft software level interrupt routine 321 1.1 pk */ 322 1.1 pk 323 1.1 pk int 324 1.52 cegger magma_match(device_t parent, cfdata_t cf, void *aux) 325 1.1 pk { 326 1.1 pk struct sbus_attach_args *sa = aux; 327 1.13 pk struct magma_board_info *card; 328 1.1 pk 329 1.13 pk /* See if we support this device */ 330 1.13 pk for (card = supported_cards; ; card++) { 331 1.13 pk if (card->mb_sbusname == NULL) 332 1.13 pk /* End of table: no match */ 333 1.13 pk return (0); 334 1.13 pk if (strcmp(sa->sa_name, card->mb_sbusname) == 0) 335 1.13 pk break; 336 1.13 pk } 337 1.1 pk 338 1.3 pk dprintf(("magma: matched `%s'\n", sa->sa_name)); 339 1.3 pk dprintf(("magma: magma_prom `%s'\n", 340 1.28 pk prom_getpropstring(sa->sa_node, "magma_prom"))); 341 1.3 pk dprintf(("magma: intlevels `%s'\n", 342 1.28 pk prom_getpropstring(sa->sa_node, "intlevels"))); 343 1.3 pk dprintf(("magma: chiprev `%s'\n", 344 1.28 pk prom_getpropstring(sa->sa_node, "chiprev"))); 345 1.3 pk dprintf(("magma: clock `%s'\n", 346 1.28 pk prom_getpropstring(sa->sa_node, "clock"))); 347 1.1 pk 348 1.1 pk return (1); 349 1.1 pk } 350 1.1 pk 351 1.1 pk void 352 1.52 cegger magma_attach(device_t parent, device_t self, void *aux) 353 1.1 pk { 354 1.1 pk struct sbus_attach_args *sa = aux; 355 1.47 drochner struct magma_softc *sc = device_private(self); 356 1.13 pk struct magma_board_info *card; 357 1.1 pk bus_space_handle_t bh; 358 1.13 pk char *magma_prom, *clockstr; 359 1.13 pk int cd_clock; 360 1.1 pk int node, chip; 361 1.1 pk 362 1.56 chs sc->ms_dev = self; 363 1.1 pk node = sa->sa_node; 364 1.13 pk 365 1.13 pk /* 366 1.13 pk * Find the card model. 367 1.13 pk * Older models all have sbus node name `MAGMA_Sp' (see 368 1.13 pk * `supported_cards[]' above), and must be distinguished 369 1.13 pk * by the `magma_prom' property. 370 1.13 pk */ 371 1.28 pk magma_prom = prom_getpropstring(node, "magma_prom"); 372 1.1 pk 373 1.13 pk for (card = supported_cards; card->mb_name != NULL; card++) { 374 1.13 pk if (strcmp(sa->sa_name, card->mb_sbusname) != 0) 375 1.13 pk /* Sbus node name doesn't match */ 376 1.13 pk continue; 377 1.13 pk if (strcmp(magma_prom, card->mb_name) == 0) 378 1.13 pk /* Model name match */ 379 1.13 pk break; 380 1.13 pk } 381 1.1 pk 382 1.1 pk if( card->mb_name == NULL ) { 383 1.13 pk printf(": %s (unsupported)\n", magma_prom); 384 1.1 pk return; 385 1.1 pk } 386 1.1 pk 387 1.13 pk dprintf((" addr %p", sc)); 388 1.22 pk printf(": %s\n", card->mb_realname); 389 1.1 pk 390 1.1 pk sc->ms_board = card; 391 1.1 pk sc->ms_ncd1400 = card->mb_ncd1400; 392 1.1 pk sc->ms_ncd1190 = card->mb_ncd1190; 393 1.1 pk 394 1.1 pk if (sbus_bus_map(sa->sa_bustag, 395 1.14 pk sa->sa_slot, sa->sa_offset, sa->sa_size, 396 1.14 pk BUS_SPACE_MAP_LINEAR, &bh) != 0) { 397 1.46 cegger aprint_error("%s @ sbus: cannot map registers\n", 398 1.46 cegger device_xname(self)); 399 1.1 pk return; 400 1.1 pk } 401 1.1 pk 402 1.1 pk /* the SVCACK* lines are daisychained */ 403 1.40 mrg sc->ms_svcackr = (char *)bus_space_vaddr(sa->sa_bustag, bh) 404 1.16 eeh + card->mb_svcackr; 405 1.40 mrg sc->ms_svcackt = (char *)bus_space_vaddr(sa->sa_bustag, bh) 406 1.16 eeh + card->mb_svcackt; 407 1.40 mrg sc->ms_svcackm = (char *)bus_space_vaddr(sa->sa_bustag, bh) 408 1.16 eeh + card->mb_svcackm; 409 1.1 pk 410 1.13 pk /* 411 1.13 pk * Find the clock speed; it's the same for all CD1400 chips 412 1.13 pk * on the board. 413 1.13 pk */ 414 1.28 pk clockstr = prom_getpropstring(node, "clock"); 415 1.13 pk if (*clockstr == '\0') 416 1.13 pk /* Default to 25MHz */ 417 1.13 pk cd_clock = 25; 418 1.13 pk else { 419 1.13 pk cd_clock = 0; 420 1.13 pk while (*clockstr != '\0') 421 1.13 pk cd_clock = (cd_clock * 10) + (*clockstr++ - '0'); 422 1.13 pk } 423 1.13 pk 424 1.1 pk /* init the cd1400 chips */ 425 1.1 pk for( chip = 0 ; chip < card->mb_ncd1400 ; chip++ ) { 426 1.1 pk struct cd1400 *cd = &sc->ms_cd1400[chip]; 427 1.1 pk 428 1.13 pk cd->cd_clock = cd_clock; 429 1.42 macallan cd->cd_reg = (char *)bus_space_vaddr(sa->sa_bustag, bh) + 430 1.42 macallan card->mb_cd1400[chip]; 431 1.1 pk 432 1.28 pk /* prom_getpropstring(node, "chiprev"); */ 433 1.1 pk /* seemingly the Magma drivers just ignore the propstring */ 434 1.1 pk cd->cd_chiprev = cd1400_read_reg(cd, CD1400_GFRCR); 435 1.1 pk 436 1.25 tsutsui dprintf(("%s attach CD1400 %d addr %p rev %x clock %dMHz\n", 437 1.56 chs device_xname(sc->ms_dev), chip, 438 1.1 pk cd->cd_reg, cd->cd_chiprev, cd->cd_clock)); 439 1.1 pk 440 1.1 pk /* clear GFRCR */ 441 1.1 pk cd1400_write_reg(cd, CD1400_GFRCR, 0x00); 442 1.1 pk 443 1.1 pk /* reset whole chip */ 444 1.1 pk cd1400_write_ccr(cd, CD1400_CCR_CMDRESET | CD1400_CCR_FULLRESET); 445 1.1 pk 446 1.1 pk /* wait for revision code to be restored */ 447 1.1 pk while( cd1400_read_reg(cd, CD1400_GFRCR) != cd->cd_chiprev ) 448 1.1 pk ; 449 1.1 pk 450 1.1 pk /* set the Prescaler Period Register to tick at 1ms */ 451 1.1 pk cd1400_write_reg(cd, CD1400_PPR, 452 1.1 pk ((cd->cd_clock * 1000000 / CD1400_PPR_PRESCALER + 500) / 1000)); 453 1.1 pk 454 1.1 pk /* The LC2+1Sp card is the only card that doesn't have 455 1.1 pk * a CD1190 for the parallel port, but uses channel 0 of 456 1.1 pk * the CD1400, so we make a note of it for later and set up 457 1.1 pk * the CD1400 for parallel mode operation. 458 1.1 pk */ 459 1.1 pk if( card->mb_npar && card->mb_ncd1190 == 0 ) { 460 1.1 pk cd1400_write_reg(cd, CD1400_GCR, CD1400_GCR_PARALLEL); 461 1.1 pk cd->cd_parmode = 1; 462 1.1 pk } 463 1.1 pk } 464 1.1 pk 465 1.1 pk /* init the cd1190 chips */ 466 1.1 pk for( chip = 0 ; chip < card->mb_ncd1190 ; chip++ ) { 467 1.1 pk struct cd1190 *cd = &sc->ms_cd1190[chip]; 468 1.1 pk 469 1.42 macallan cd->cd_reg = (char *)bus_space_vaddr(sa->sa_bustag, bh) + 470 1.42 macallan card->mb_cd1190[chip]; 471 1.13 pk 472 1.1 pk /* XXX don't know anything about these chips yet */ 473 1.13 pk printf("%s: CD1190 %d addr %p (unsupported)\n", 474 1.46 cegger device_xname(self), chip, cd->cd_reg); 475 1.1 pk } 476 1.1 pk 477 1.1 pk /* configure the children */ 478 1.1 pk (void)config_found(self, mtty_match, NULL); 479 1.1 pk (void)config_found(self, mbpp_match, NULL); 480 1.1 pk 481 1.1 pk /* 482 1.1 pk * Establish the interrupt handlers. 483 1.1 pk */ 484 1.5 pk if (sa->sa_nintr == 0) 485 1.5 pk return; /* No interrupts to service!? */ 486 1.5 pk 487 1.24 pk (void)bus_intr_establish(sa->sa_bustag, sa->sa_pri, IPL_SERIAL, 488 1.23 pk magma_hard, sc); 489 1.43 ad sc->ms_sicookie = softint_establish(SOFTINT_SERIAL, magma_soft, sc); 490 1.22 pk if (sc->ms_sicookie == NULL) { 491 1.46 cegger aprint_normal("\n"); 492 1.56 chs aprint_error_dev(sc->ms_dev, "cannot establish soft int handler\n"); 493 1.22 pk return; 494 1.22 pk } 495 1.7 cgd evcnt_attach_dynamic(&sc->ms_intrcnt, EVCNT_TYPE_INTR, NULL, 496 1.56 chs device_xname(sc->ms_dev), "intr"); 497 1.1 pk } 498 1.1 pk 499 1.1 pk /* 500 1.1 pk * hard interrupt routine 501 1.1 pk * 502 1.1 pk * returns 1 if it handled it, otherwise 0 503 1.1 pk * 504 1.36 jmcneill * runs at IPL_SERIAL 505 1.1 pk */ 506 1.1 pk int 507 1.49 dsl magma_hard(void *arg) 508 1.1 pk { 509 1.1 pk struct magma_softc *sc = arg; 510 1.1 pk struct cd1400 *cd; 511 1.1 pk int chip, status = 0; 512 1.1 pk int serviced = 0; 513 1.1 pk int needsoftint = 0; 514 1.1 pk 515 1.1 pk /* 516 1.1 pk * check status of all the CD1400 chips 517 1.1 pk */ 518 1.1 pk for( chip = 0 ; chip < sc->ms_ncd1400 ; chip++ ) 519 1.1 pk status |= cd1400_read_reg(&sc->ms_cd1400[chip], CD1400_SVRR); 520 1.1 pk 521 1.1 pk if( ISSET(status, CD1400_SVRR_RXRDY) ) { 522 1.1 pk u_char rivr = *sc->ms_svcackr; /* enter rx service context */ 523 1.1 pk int port = rivr >> 4; 524 1.1 pk 525 1.1 pk if( rivr & (1<<3) ) { /* parallel port */ 526 1.3 pk struct mbpp_port *mbpp; 527 1.3 pk int n_chars; 528 1.1 pk 529 1.3 pk mbpp = &sc->ms_mbpp->ms_port[port]; 530 1.1 pk cd = mbpp->mp_cd1400; 531 1.29 perry 532 1.3 pk /* don't think we have to handle exceptions */ 533 1.3 pk n_chars = cd1400_read_reg(cd, CD1400_RDCR); 534 1.3 pk while (n_chars--) { 535 1.3 pk if( mbpp->mp_cnt == 0 ) { 536 1.3 pk SET(mbpp->mp_flags, MBPPF_WAKEUP); 537 1.3 pk needsoftint = 1; 538 1.3 pk break; 539 1.3 pk } 540 1.3 pk *mbpp->mp_ptr = cd1400_read_reg(cd,CD1400_RDSR); 541 1.3 pk mbpp->mp_ptr++; 542 1.3 pk mbpp->mp_cnt--; 543 1.3 pk } 544 1.1 pk } else { /* serial port */ 545 1.1 pk struct mtty_port *mtty; 546 1.1 pk u_char *ptr, n_chars, line_stat; 547 1.1 pk 548 1.1 pk mtty = &sc->ms_mtty->ms_port[port]; 549 1.1 pk cd = mtty->mp_cd1400; 550 1.1 pk 551 1.1 pk if( ISSET(rivr, CD1400_RIVR_EXCEPTION) ) { 552 1.1 pk line_stat = cd1400_read_reg(cd, CD1400_RDSR); 553 1.1 pk n_chars = 1; 554 1.1 pk } else { /* no exception, received data OK */ 555 1.1 pk line_stat = 0; 556 1.1 pk n_chars = cd1400_read_reg(cd, CD1400_RDCR); 557 1.1 pk } 558 1.1 pk 559 1.1 pk ptr = mtty->mp_rput; 560 1.1 pk while( n_chars-- ) { 561 1.1 pk *ptr++ = line_stat; 562 1.1 pk *ptr++ = cd1400_read_reg(cd, CD1400_RDSR); 563 1.1 pk if( ptr == mtty->mp_rend ) ptr = mtty->mp_rbuf; 564 1.1 pk if( ptr == mtty->mp_rget ) { 565 1.1 pk if( ptr == mtty->mp_rbuf ) 566 1.1 pk ptr = mtty->mp_rend; 567 1.1 pk ptr -= 2; 568 1.1 pk SET(mtty->mp_flags, MTTYF_RING_OVERFLOW); 569 1.1 pk break; 570 1.1 pk } 571 1.1 pk } 572 1.1 pk mtty->mp_rput = ptr; 573 1.1 pk 574 1.1 pk needsoftint = 1; 575 1.1 pk } 576 1.1 pk 577 1.1 pk cd1400_write_reg(cd, CD1400_EOSRR, 0); /* end service context */ 578 1.1 pk serviced = 1; 579 1.1 pk } /* if(rx_service...) */ 580 1.1 pk 581 1.1 pk if( ISSET(status, CD1400_SVRR_MDMCH) ) { 582 1.1 pk u_char mivr = *sc->ms_svcackm; /* enter mdm service context */ 583 1.1 pk int port = mivr >> 4; 584 1.1 pk struct mtty_port *mtty; 585 1.1 pk int carrier; 586 1.1 pk u_char msvr; 587 1.1 pk 588 1.1 pk /* 589 1.1 pk * Handle CD (LC2+1Sp = DSR) changes. 590 1.1 pk */ 591 1.1 pk mtty = &sc->ms_mtty->ms_port[port]; 592 1.1 pk cd = mtty->mp_cd1400; 593 1.1 pk msvr = cd1400_read_reg(cd, CD1400_MSVR2); 594 1.1 pk carrier = ISSET(msvr, cd->cd_parmode ? CD1400_MSVR2_DSR : CD1400_MSVR2_CD); 595 1.1 pk 596 1.1 pk if( mtty->mp_carrier != carrier ) { 597 1.1 pk SET(mtty->mp_flags, MTTYF_CARRIER_CHANGED); 598 1.1 pk mtty->mp_carrier = carrier; 599 1.1 pk needsoftint = 1; 600 1.1 pk } 601 1.1 pk 602 1.1 pk cd1400_write_reg(cd, CD1400_EOSRR, 0); /* end service context */ 603 1.1 pk serviced = 1; 604 1.1 pk } /* if(mdm_service...) */ 605 1.1 pk 606 1.1 pk if( ISSET(status, CD1400_SVRR_TXRDY) ) { 607 1.2 pk u_char tivr = *sc->ms_svcackt; /* enter tx service context */ 608 1.1 pk int port = tivr >> 4; 609 1.1 pk 610 1.1 pk if( tivr & (1<<3) ) { /* parallel port */ 611 1.1 pk struct mbpp_port *mbpp; 612 1.1 pk 613 1.1 pk mbpp = &sc->ms_mbpp->ms_port[port]; 614 1.1 pk cd = mbpp->mp_cd1400; 615 1.1 pk 616 1.3 pk if( mbpp->mp_cnt ) { 617 1.1 pk int count = 0; 618 1.1 pk 619 1.3 pk /* fill the fifo */ 620 1.3 pk while (mbpp->mp_cnt && 621 1.3 pk count++ < CD1400_PAR_FIFO_SIZE) { 622 1.3 pk cd1400_write_reg(cd, CD1400_TDR, 623 1.3 pk *mbpp->mp_ptr); 624 1.3 pk mbpp->mp_ptr++; 625 1.3 pk mbpp->mp_cnt--; 626 1.1 pk } 627 1.1 pk } else { 628 1.3 pk /* 629 1.3 pk * fifo is empty and we got no more data 630 1.3 pk * to send, so shut off interrupts and 631 1.3 pk * signal for a wakeup, which can't be 632 1.3 pk * done here in case we beat mbpp_send to 633 1.3 pk * the tsleep call (we are running at >spltty) 634 1.3 pk */ 635 1.3 pk cd1400_write_reg(cd, CD1400_SRER, 0); 636 1.3 pk SET(mbpp->mp_flags, MBPPF_WAKEUP); 637 1.1 pk needsoftint = 1; 638 1.1 pk } 639 1.1 pk } else { /* serial port */ 640 1.1 pk struct mtty_port *mtty; 641 1.1 pk 642 1.1 pk mtty = &sc->ms_mtty->ms_port[port]; 643 1.1 pk cd = mtty->mp_cd1400; 644 1.1 pk 645 1.1 pk if( !ISSET(mtty->mp_flags, MTTYF_STOP) ) { 646 1.1 pk int count = 0; 647 1.1 pk 648 1.1 pk /* check if we should start/stop a break */ 649 1.1 pk if( ISSET(mtty->mp_flags, MTTYF_SET_BREAK) ) { 650 1.1 pk cd1400_write_reg(cd, CD1400_TDR, 0); 651 1.1 pk cd1400_write_reg(cd, CD1400_TDR, 0x81); 652 1.1 pk /* should we delay too? */ 653 1.1 pk CLR(mtty->mp_flags, MTTYF_SET_BREAK); 654 1.1 pk count += 2; 655 1.1 pk } 656 1.1 pk 657 1.1 pk if( ISSET(mtty->mp_flags, MTTYF_CLR_BREAK) ) { 658 1.1 pk cd1400_write_reg(cd, CD1400_TDR, 0); 659 1.1 pk cd1400_write_reg(cd, CD1400_TDR, 0x83); 660 1.1 pk CLR(mtty->mp_flags, MTTYF_CLR_BREAK); 661 1.1 pk count += 2; 662 1.1 pk } 663 1.1 pk 664 1.1 pk /* I don't quite fill the fifo in case the last one is a 665 1.1 pk * NULL which I have to double up because its the escape 666 1.1 pk * code for embedded transmit characters. 667 1.1 pk */ 668 1.1 pk while( mtty->mp_txc > 0 && count < CD1400_TX_FIFO_SIZE - 1 ) { 669 1.2 pk u_char ch; 670 1.1 pk 671 1.1 pk ch = *mtty->mp_txp; 672 1.1 pk 673 1.1 pk mtty->mp_txc--; 674 1.1 pk mtty->mp_txp++; 675 1.1 pk 676 1.1 pk if( ch == 0 ) { 677 1.1 pk cd1400_write_reg(cd, CD1400_TDR, ch); 678 1.1 pk count++; 679 1.1 pk } 680 1.1 pk 681 1.1 pk cd1400_write_reg(cd, CD1400_TDR, ch); 682 1.1 pk count++; 683 1.1 pk } 684 1.1 pk } 685 1.1 pk 686 1.1 pk /* if we ran out of work or are requested to STOP then 687 1.1 pk * shut off the txrdy interrupts and signal DONE to flush 688 1.1 pk * out the chars we have sent. 689 1.1 pk */ 690 1.1 pk if( mtty->mp_txc == 0 || ISSET(mtty->mp_flags, MTTYF_STOP) ) { 691 1.2 pk register int srer; 692 1.1 pk 693 1.1 pk srer = cd1400_read_reg(cd, CD1400_SRER); 694 1.1 pk CLR(srer, CD1400_SRER_TXRDY); 695 1.1 pk cd1400_write_reg(cd, CD1400_SRER, srer); 696 1.1 pk CLR(mtty->mp_flags, MTTYF_STOP); 697 1.1 pk 698 1.1 pk SET(mtty->mp_flags, MTTYF_DONE); 699 1.1 pk needsoftint = 1; 700 1.1 pk } 701 1.1 pk } 702 1.1 pk 703 1.1 pk cd1400_write_reg(cd, CD1400_EOSRR, 0); /* end service context */ 704 1.1 pk serviced = 1; 705 1.1 pk } /* if(tx_service...) */ 706 1.1 pk 707 1.1 pk /* XXX service CD1190 interrupts too 708 1.1 pk for( chip = 0 ; chip < sc->ms_ncd1190 ; chip++ ) { 709 1.1 pk } 710 1.1 pk */ 711 1.1 pk 712 1.22 pk if (needsoftint) 713 1.22 pk /* trigger the soft interrupt */ 714 1.43 ad softint_schedule(sc->ms_sicookie); 715 1.1 pk 716 1.1 pk return(serviced); 717 1.1 pk } 718 1.1 pk 719 1.1 pk /* 720 1.1 pk * magma soft interrupt handler 721 1.1 pk * 722 1.36 jmcneill * runs at IPL_SOFTSERIAL 723 1.1 pk */ 724 1.22 pk void 725 1.49 dsl magma_soft(void *arg) 726 1.1 pk { 727 1.1 pk struct magma_softc *sc = arg; 728 1.1 pk struct mtty_softc *mtty = sc->ms_mtty; 729 1.1 pk struct mbpp_softc *mbpp = sc->ms_mbpp; 730 1.1 pk int port; 731 1.1 pk int s, flags; 732 1.1 pk 733 1.2 pk if (mtty == NULL) 734 1.2 pk goto chkbpp; 735 1.2 pk 736 1.1 pk /* 737 1.1 pk * check the tty ports to see what needs doing 738 1.1 pk */ 739 1.1 pk for( port = 0 ; port < mtty->ms_nports ; port++ ) { 740 1.2 pk struct mtty_port *mp = &mtty->ms_port[port]; 741 1.2 pk struct tty *tp = mp->mp_tty; 742 1.1 pk 743 1.2 pk if( !ISSET(tp->t_state, TS_ISOPEN) ) 744 1.2 pk continue; 745 1.1 pk 746 1.1 pk /* 747 1.1 pk * handle any received data 748 1.1 pk */ 749 1.1 pk while( mp->mp_rget != mp->mp_rput ) { 750 1.2 pk u_char stat; 751 1.2 pk int data; 752 1.1 pk 753 1.1 pk stat = mp->mp_rget[0]; 754 1.1 pk data = mp->mp_rget[1]; 755 1.2 pk mp->mp_rget = ((mp->mp_rget + 2) == mp->mp_rend) 756 1.2 pk ? mp->mp_rbuf : (mp->mp_rget + 2); 757 1.1 pk 758 1.1 pk if( stat & (CD1400_RDSR_BREAK | CD1400_RDSR_FE) ) 759 1.1 pk data |= TTY_FE; 760 1.1 pk if( stat & CD1400_RDSR_PE ) 761 1.1 pk data |= TTY_PE; 762 1.1 pk 763 1.1 pk if( stat & CD1400_RDSR_OE ) 764 1.2 pk log(LOG_WARNING, "%s%x: fifo overflow\n", 765 1.56 chs device_xname(mtty->ms_dev), port); 766 1.1 pk 767 1.9 eeh (*tp->t_linesw->l_rint)(data, tp); 768 1.1 pk } 769 1.1 pk 770 1.36 jmcneill s = splserial(); /* block out hard interrupt routine */ 771 1.1 pk flags = mp->mp_flags; 772 1.1 pk CLR(mp->mp_flags, MTTYF_DONE | MTTYF_CARRIER_CHANGED | MTTYF_RING_OVERFLOW); 773 1.1 pk splx(s); /* ok */ 774 1.1 pk 775 1.1 pk if( ISSET(flags, MTTYF_CARRIER_CHANGED) ) { 776 1.56 chs dprintf(("%s%x: cd %s\n", device_xname(mtty->ms_dev), 777 1.3 pk port, mp->mp_carrier ? "on" : "off")); 778 1.9 eeh (*tp->t_linesw->l_modem)(tp, mp->mp_carrier); 779 1.1 pk } 780 1.1 pk 781 1.1 pk if( ISSET(flags, MTTYF_RING_OVERFLOW) ) { 782 1.3 pk log(LOG_WARNING, "%s%x: ring buffer overflow\n", 783 1.56 chs device_xname(mtty->ms_dev), port); 784 1.1 pk } 785 1.1 pk 786 1.1 pk if( ISSET(flags, MTTYF_DONE) ) { 787 1.1 pk ndflush(&tp->t_outq, mp->mp_txp - tp->t_outq.c_cf); 788 1.1 pk CLR(tp->t_state, TS_BUSY); 789 1.9 eeh (*tp->t_linesw->l_start)(tp); /* might be some more */ 790 1.1 pk } 791 1.1 pk } /* for(each mtty...) */ 792 1.1 pk 793 1.2 pk 794 1.2 pk chkbpp: 795 1.1 pk /* 796 1.2 pk * Check the bpp ports (if any) to see what needs doing 797 1.1 pk */ 798 1.2 pk if (mbpp == NULL) 799 1.22 pk return; 800 1.2 pk 801 1.1 pk for( port = 0 ; port < mbpp->ms_nports ; port++ ) { 802 1.2 pk struct mbpp_port *mp = &mbpp->ms_port[port]; 803 1.1 pk 804 1.2 pk if( !ISSET(mp->mp_flags, MBPPF_OPEN) ) 805 1.2 pk continue; 806 1.1 pk 807 1.36 jmcneill s = splserial(); 808 1.1 pk flags = mp->mp_flags; 809 1.3 pk CLR(mp->mp_flags, MBPPF_WAKEUP); 810 1.1 pk splx(s); 811 1.1 pk 812 1.3 pk if( ISSET(flags, MBPPF_WAKEUP) ) { 813 1.1 pk wakeup(mp); 814 1.1 pk } 815 1.1 pk 816 1.1 pk } /* for(each mbpp...) */ 817 1.1 pk } 818 1.1 pk 819 1.1 pk /************************************************************************ 820 1.1 pk * 821 1.1 pk * MTTY Routines 822 1.1 pk * 823 1.1 pk * mtty_match match one mtty device 824 1.1 pk * mtty_attach attach mtty devices 825 1.1 pk * mttyopen open mtty device 826 1.1 pk * mttyclose close mtty device 827 1.1 pk * mttyread read from mtty 828 1.1 pk * mttywrite write to mtty 829 1.1 pk * mttyioctl do ioctl on mtty 830 1.1 pk * mttytty return tty pointer for mtty 831 1.1 pk * mttystop stop mtty device 832 1.1 pk * mtty_start start mtty device 833 1.1 pk * mtty_param set mtty parameters 834 1.1 pk * mtty_modem_control set modem control lines 835 1.1 pk */ 836 1.1 pk 837 1.1 pk int 838 1.52 cegger mtty_match(device_t parent, cfdata_t cf, void *args) 839 1.1 pk { 840 1.47 drochner struct magma_softc *sc = device_private(parent); 841 1.1 pk 842 1.1 pk return( args == mtty_match && sc->ms_board->mb_nser && sc->ms_mtty == NULL ); 843 1.1 pk } 844 1.1 pk 845 1.1 pk void 846 1.56 chs mtty_attach(device_t parent, device_t self, void *args) 847 1.1 pk { 848 1.47 drochner struct magma_softc *sc = device_private(parent); 849 1.56 chs struct mtty_softc *ms = device_private(self); 850 1.1 pk int port, chip, chan; 851 1.1 pk 852 1.56 chs sc->ms_dev = self; 853 1.1 pk sc->ms_mtty = ms; 854 1.2 pk dprintf((" addr %p", ms)); 855 1.1 pk 856 1.1 pk for( port = 0, chip = 0, chan = 0 ; port < sc->ms_board->mb_nser ; port++ ) { 857 1.2 pk struct mtty_port *mp = &ms->ms_port[port]; 858 1.2 pk struct tty *tp; 859 1.1 pk 860 1.1 pk mp->mp_cd1400 = &sc->ms_cd1400[chip]; 861 1.13 pk if (mp->mp_cd1400->cd_parmode && chan == 0) 862 1.2 pk chan = 1; /* skip channel 0 if parmode */ 863 1.1 pk mp->mp_channel = chan; 864 1.1 pk 865 1.55 rmind tp = tty_alloc(); 866 1.55 rmind if (tp == NULL) { 867 1.55 rmind break; 868 1.55 rmind } 869 1.1 pk tty_attach(tp); 870 1.1 pk tp->t_oproc = mtty_start; 871 1.1 pk tp->t_param = mtty_param; 872 1.1 pk 873 1.1 pk mp->mp_tty = tp; 874 1.1 pk 875 1.1 pk mp->mp_rbuf = malloc(MTTY_RBUF_SIZE, M_DEVBUF, M_NOWAIT); 876 1.13 pk if (mp->mp_rbuf == NULL) break; 877 1.1 pk 878 1.1 pk mp->mp_rend = mp->mp_rbuf + MTTY_RBUF_SIZE; 879 1.1 pk 880 1.1 pk chan = (chan + 1) % CD1400_NO_OF_CHANNELS; 881 1.13 pk if (chan == 0) 882 1.13 pk chip++; 883 1.1 pk } 884 1.1 pk 885 1.1 pk ms->ms_nports = port; 886 1.1 pk printf(": %d tty%s\n", port, port == 1 ? "" : "s"); 887 1.1 pk } 888 1.1 pk 889 1.1 pk /* 890 1.1 pk * open routine. returns zero if successful, else error code 891 1.1 pk */ 892 1.1 pk int 893 1.49 dsl mttyopen(dev_t dev, int flags, int mode, struct lwp *l) 894 1.1 pk { 895 1.1 pk int card = MAGMA_CARD(dev); 896 1.1 pk int port = MAGMA_PORT(dev); 897 1.1 pk struct mtty_softc *ms; 898 1.1 pk struct mtty_port *mp; 899 1.1 pk struct tty *tp; 900 1.1 pk struct cd1400 *cd; 901 1.1 pk int error, s; 902 1.1 pk 903 1.47 drochner if ((ms = device_lookup_private(&mtty_cd, card)) == NULL 904 1.47 drochner || port >= ms->ms_nports ) 905 1.1 pk return(ENXIO); /* device not configured */ 906 1.1 pk 907 1.1 pk mp = &ms->ms_port[port]; 908 1.1 pk tp = mp->mp_tty; 909 1.1 pk tp->t_dev = dev; 910 1.1 pk 911 1.37 elad if (kauth_authorize_device_tty(l->l_cred, KAUTH_DEVICE_TTY_OPEN, tp)) 912 1.1 pk return (EBUSY); 913 1.1 pk 914 1.1 pk s = spltty(); 915 1.1 pk 916 1.1 pk if( !ISSET(tp->t_state, TS_ISOPEN) && tp->t_wopen == 0) { 917 1.1 pk 918 1.1 pk /* set defaults */ 919 1.1 pk ttychars(tp); 920 1.1 pk tp->t_iflag = TTYDEF_IFLAG; 921 1.1 pk tp->t_oflag = TTYDEF_OFLAG; 922 1.1 pk tp->t_cflag = TTYDEF_CFLAG; 923 1.1 pk if( ISSET(mp->mp_openflags, TIOCFLAG_CLOCAL) ) 924 1.1 pk SET(tp->t_cflag, CLOCAL); 925 1.1 pk if( ISSET(mp->mp_openflags, TIOCFLAG_CRTSCTS) ) 926 1.1 pk SET(tp->t_cflag, CRTSCTS); 927 1.1 pk if( ISSET(mp->mp_openflags, TIOCFLAG_MDMBUF) ) 928 1.1 pk SET(tp->t_cflag, MDMBUF); 929 1.1 pk tp->t_lflag = TTYDEF_LFLAG; 930 1.1 pk tp->t_ispeed = tp->t_ospeed = TTYDEF_SPEED; 931 1.1 pk 932 1.1 pk /* init ring buffer */ 933 1.1 pk mp->mp_rput = mp->mp_rget = mp->mp_rbuf; 934 1.1 pk 935 1.1 pk /* reset CD1400 channel */ 936 1.1 pk cd = mp->mp_cd1400; 937 1.1 pk cd1400_write_reg(cd, CD1400_CAR, mp->mp_channel); 938 1.1 pk cd1400_write_ccr(cd, CD1400_CCR_CMDRESET); 939 1.1 pk 940 1.1 pk /* encode the port number in top half of LIVR */ 941 1.1 pk cd1400_write_reg(cd, CD1400_LIVR, port << 4 ); 942 1.1 pk 943 1.1 pk /* sets parameters and raises DTR */ 944 1.1 pk (void)mtty_param(tp, &tp->t_termios); 945 1.1 pk 946 1.1 pk /* set tty watermarks */ 947 1.1 pk ttsetwater(tp); 948 1.1 pk 949 1.1 pk /* enable service requests */ 950 1.1 pk cd1400_write_reg(cd, CD1400_SRER, 951 1.1 pk CD1400_SRER_RXDATA | CD1400_SRER_MDMCH); 952 1.1 pk 953 1.1 pk /* tell the tty about the carrier status */ 954 1.1 pk if( ISSET(mp->mp_openflags, TIOCFLAG_SOFTCAR) || 955 1.1 pk mp->mp_carrier ) 956 1.1 pk SET(tp->t_state, TS_CARR_ON); 957 1.1 pk else 958 1.1 pk CLR(tp->t_state, TS_CARR_ON); 959 1.1 pk } 960 1.1 pk splx(s); 961 1.1 pk 962 1.1 pk error = ttyopen(tp, MTTY_DIALOUT(dev), ISSET(flags, O_NONBLOCK)); 963 1.1 pk if (error != 0) 964 1.1 pk goto bad; 965 1.1 pk 966 1.9 eeh error = (*tp->t_linesw->l_open)(dev, tp); 967 1.1 pk if (error != 0) 968 1.1 pk goto bad; 969 1.1 pk 970 1.1 pk bad: 971 1.1 pk if (!ISSET(tp->t_state, TS_ISOPEN) && tp->t_wopen == 0) { 972 1.1 pk /* 973 1.1 pk * We failed to open the device, and nobody else had it opened. 974 1.1 pk * Clean up the state as appropriate. 975 1.1 pk */ 976 1.1 pk /* XXX - do that here */ 977 1.1 pk } 978 1.1 pk 979 1.1 pk return (error); 980 1.1 pk } 981 1.1 pk 982 1.1 pk /* 983 1.1 pk * close routine. returns zero if successful, else error code 984 1.1 pk */ 985 1.1 pk int 986 1.49 dsl mttyclose(dev_t dev, int flag, int mode, struct lwp *l) 987 1.1 pk { 988 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 989 1.47 drochner MAGMA_CARD(dev)); 990 1.1 pk struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(dev)]; 991 1.1 pk struct tty *tp = mp->mp_tty; 992 1.1 pk int s; 993 1.1 pk 994 1.9 eeh (*tp->t_linesw->l_close)(tp, flag); 995 1.1 pk ttyclose(tp); 996 1.1 pk 997 1.1 pk s = spltty(); 998 1.1 pk 999 1.1 pk /* if HUPCL is set, and the tty is no longer open 1000 1.1 pk * shut down the port 1001 1.1 pk */ 1002 1.1 pk if( ISSET(tp->t_cflag, HUPCL) || !ISSET(tp->t_state, TS_ISOPEN) ) { 1003 1.1 pk /* XXX wait until FIFO is empty before turning off the channel 1004 1.1 pk struct cd1400 *cd = mp->mp_cd1400; 1005 1.1 pk */ 1006 1.1 pk 1007 1.1 pk /* drop DTR and RTS */ 1008 1.1 pk (void)mtty_modem_control(mp, 0, DMSET); 1009 1.1 pk 1010 1.1 pk /* turn off the channel 1011 1.1 pk cd1400_write_reg(cd, CD1400_CAR, mp->mp_channel); 1012 1.1 pk cd1400_write_ccr(cd, CD1400_CCR_CMDRESET); 1013 1.1 pk */ 1014 1.1 pk } 1015 1.1 pk 1016 1.1 pk splx(s); 1017 1.1 pk 1018 1.1 pk return(0); 1019 1.1 pk } 1020 1.1 pk 1021 1.1 pk /* 1022 1.1 pk * Read routine 1023 1.1 pk */ 1024 1.1 pk int 1025 1.49 dsl mttyread(dev_t dev, struct uio *uio, int flags) 1026 1.1 pk { 1027 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 1028 1.47 drochner MAGMA_CARD(dev)); 1029 1.1 pk struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(dev)]; 1030 1.1 pk struct tty *tp = mp->mp_tty; 1031 1.1 pk 1032 1.9 eeh return( (*tp->t_linesw->l_read)(tp, uio, flags) ); 1033 1.1 pk } 1034 1.1 pk 1035 1.1 pk /* 1036 1.1 pk * Write routine 1037 1.1 pk */ 1038 1.1 pk int 1039 1.49 dsl mttywrite(dev_t dev, struct uio *uio, int flags) 1040 1.1 pk { 1041 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 1042 1.47 drochner MAGMA_CARD(dev)); 1043 1.1 pk struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(dev)]; 1044 1.1 pk struct tty *tp = mp->mp_tty; 1045 1.1 pk 1046 1.9 eeh return( (*tp->t_linesw->l_write)(tp, uio, flags) ); 1047 1.10 scw } 1048 1.10 scw 1049 1.10 scw /* 1050 1.10 scw * Poll routine 1051 1.10 scw */ 1052 1.10 scw int 1053 1.49 dsl mttypoll(dev_t dev, int events, struct lwp *l) 1054 1.10 scw { 1055 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 1056 1.47 drochner MAGMA_CARD(dev)); 1057 1.10 scw struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(dev)]; 1058 1.10 scw struct tty *tp = mp->mp_tty; 1059 1.29 perry 1060 1.31 christos return ((*tp->t_linesw->l_poll)(tp, events, l)); 1061 1.1 pk } 1062 1.1 pk 1063 1.1 pk /* 1064 1.1 pk * return tty pointer 1065 1.1 pk */ 1066 1.1 pk struct tty * 1067 1.49 dsl mttytty(dev_t dev) 1068 1.1 pk { 1069 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 1070 1.47 drochner MAGMA_CARD(dev)); 1071 1.1 pk struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(dev)]; 1072 1.1 pk 1073 1.1 pk return(mp->mp_tty); 1074 1.1 pk } 1075 1.1 pk 1076 1.1 pk /* 1077 1.1 pk * ioctl routine 1078 1.1 pk */ 1079 1.1 pk int 1080 1.49 dsl mttyioctl(dev_t dev, u_long cmd, void *data, int flags, struct lwp *l) 1081 1.1 pk { 1082 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 1083 1.47 drochner MAGMA_CARD(dev)); 1084 1.1 pk struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(dev)]; 1085 1.1 pk struct tty *tp = mp->mp_tty; 1086 1.1 pk int error; 1087 1.1 pk 1088 1.31 christos error = (*tp->t_linesw->l_ioctl)(tp, cmd, data, flags, l); 1089 1.15 atatat if( error != EPASSTHROUGH ) return(error); 1090 1.1 pk 1091 1.31 christos error = ttioctl(tp, cmd, data, flags, l); 1092 1.15 atatat if( error != EPASSTHROUGH ) return(error); 1093 1.1 pk 1094 1.1 pk error = 0; 1095 1.1 pk 1096 1.1 pk switch(cmd) { 1097 1.1 pk case TIOCSBRK: /* set break */ 1098 1.1 pk SET(mp->mp_flags, MTTYF_SET_BREAK); 1099 1.1 pk cd1400_enable_transmitter(mp->mp_cd1400, mp->mp_channel); 1100 1.1 pk break; 1101 1.1 pk 1102 1.1 pk case TIOCCBRK: /* clear break */ 1103 1.1 pk SET(mp->mp_flags, MTTYF_CLR_BREAK); 1104 1.1 pk cd1400_enable_transmitter(mp->mp_cd1400, mp->mp_channel); 1105 1.1 pk break; 1106 1.1 pk 1107 1.1 pk case TIOCSDTR: /* set DTR */ 1108 1.1 pk mtty_modem_control(mp, TIOCM_DTR, DMBIS); 1109 1.1 pk break; 1110 1.1 pk 1111 1.1 pk case TIOCCDTR: /* clear DTR */ 1112 1.1 pk mtty_modem_control(mp, TIOCM_DTR, DMBIC); 1113 1.1 pk break; 1114 1.1 pk 1115 1.1 pk case TIOCMSET: /* set modem lines */ 1116 1.1 pk mtty_modem_control(mp, *((int *)data), DMSET); 1117 1.1 pk break; 1118 1.1 pk 1119 1.1 pk case TIOCMBIS: /* bit set modem lines */ 1120 1.1 pk mtty_modem_control(mp, *((int *)data), DMBIS); 1121 1.1 pk break; 1122 1.1 pk 1123 1.1 pk case TIOCMBIC: /* bit clear modem lines */ 1124 1.1 pk mtty_modem_control(mp, *((int *)data), DMBIC); 1125 1.1 pk break; 1126 1.1 pk 1127 1.1 pk case TIOCMGET: /* get modem lines */ 1128 1.1 pk *((int *)data) = mtty_modem_control(mp, 0, DMGET); 1129 1.1 pk break; 1130 1.1 pk 1131 1.1 pk case TIOCGFLAGS: 1132 1.1 pk *((int *)data) = mp->mp_openflags; 1133 1.1 pk break; 1134 1.1 pk 1135 1.1 pk case TIOCSFLAGS: 1136 1.38 elad if (kauth_authorize_device_tty(l->l_cred, 1137 1.38 elad KAUTH_DEVICE_TTY_PRIVSET, tp)) 1138 1.1 pk error = EPERM; 1139 1.1 pk else 1140 1.1 pk mp->mp_openflags = *((int *)data) & 1141 1.1 pk (TIOCFLAG_SOFTCAR | TIOCFLAG_CLOCAL | 1142 1.1 pk TIOCFLAG_CRTSCTS | TIOCFLAG_MDMBUF); 1143 1.1 pk break; 1144 1.1 pk 1145 1.1 pk default: 1146 1.15 atatat error = EPASSTHROUGH; 1147 1.1 pk } 1148 1.1 pk 1149 1.1 pk return(error); 1150 1.1 pk } 1151 1.1 pk 1152 1.1 pk /* 1153 1.1 pk * Stop output, e.g., for ^S or output flush. 1154 1.1 pk */ 1155 1.1 pk void 1156 1.49 dsl mttystop(struct tty *tp, int flags) 1157 1.1 pk { 1158 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 1159 1.47 drochner MAGMA_CARD(tp->t_dev)); 1160 1.1 pk struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(tp->t_dev)]; 1161 1.1 pk int s; 1162 1.1 pk 1163 1.1 pk s = spltty(); 1164 1.1 pk 1165 1.1 pk if( ISSET(tp->t_state, TS_BUSY) ) { 1166 1.1 pk if( !ISSET(tp->t_state, TS_TTSTOP) ) 1167 1.1 pk SET(tp->t_state, TS_FLUSH); 1168 1.1 pk 1169 1.1 pk /* 1170 1.1 pk * the transmit interrupt routine will disable transmit when it 1171 1.1 pk * notices that MTTYF_STOP has been set. 1172 1.1 pk */ 1173 1.1 pk SET(mp->mp_flags, MTTYF_STOP); 1174 1.1 pk } 1175 1.1 pk 1176 1.1 pk splx(s); 1177 1.1 pk } 1178 1.1 pk 1179 1.1 pk /* 1180 1.1 pk * Start output, after a stop. 1181 1.1 pk */ 1182 1.1 pk void 1183 1.49 dsl mtty_start(struct tty *tp) 1184 1.1 pk { 1185 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 1186 1.47 drochner MAGMA_CARD(tp->t_dev)); 1187 1.1 pk struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(tp->t_dev)]; 1188 1.1 pk int s; 1189 1.1 pk 1190 1.1 pk s = spltty(); 1191 1.1 pk 1192 1.1 pk /* we only need to do something if we are not already busy 1193 1.1 pk * or delaying or stopped 1194 1.1 pk */ 1195 1.1 pk if( !ISSET(tp->t_state, TS_TTSTOP | TS_TIMEOUT | TS_BUSY) ) { 1196 1.45 ad if (ttypull(tp)) { 1197 1.1 pk mp->mp_txc = ndqb(&tp->t_outq, 0); 1198 1.1 pk mp->mp_txp = tp->t_outq.c_cf; 1199 1.1 pk SET(tp->t_state, TS_BUSY); 1200 1.1 pk cd1400_enable_transmitter(mp->mp_cd1400, mp->mp_channel); 1201 1.1 pk } 1202 1.1 pk } 1203 1.1 pk 1204 1.1 pk splx(s); 1205 1.1 pk } 1206 1.1 pk 1207 1.1 pk /* 1208 1.1 pk * set/get modem line status 1209 1.1 pk * 1210 1.1 pk * bits can be: TIOCM_DTR, TIOCM_RTS, TIOCM_CTS, TIOCM_CD, TIOCM_RI, TIOCM_DSR 1211 1.1 pk * 1212 1.1 pk * note that DTR and RTS lines are exchanged, and that DSR is 1213 1.1 pk * not available on the LC2+1Sp card (used as CD) 1214 1.1 pk * 1215 1.1 pk * only let them fiddle with RTS if CRTSCTS is not enabled 1216 1.1 pk */ 1217 1.1 pk int 1218 1.49 dsl mtty_modem_control(struct mtty_port *mp, int bits, int howto) 1219 1.1 pk { 1220 1.1 pk struct cd1400 *cd = mp->mp_cd1400; 1221 1.1 pk struct tty *tp = mp->mp_tty; 1222 1.1 pk int s, msvr; 1223 1.1 pk 1224 1.1 pk s = spltty(); 1225 1.1 pk 1226 1.1 pk cd1400_write_reg(cd, CD1400_CAR, mp->mp_channel); 1227 1.1 pk 1228 1.1 pk switch(howto) { 1229 1.1 pk case DMGET: /* get bits */ 1230 1.1 pk bits = 0; 1231 1.1 pk 1232 1.1 pk bits |= TIOCM_LE; 1233 1.1 pk 1234 1.1 pk msvr = cd1400_read_reg(cd, CD1400_MSVR1); 1235 1.1 pk if( msvr & CD1400_MSVR1_RTS ) bits |= TIOCM_DTR; 1236 1.1 pk 1237 1.1 pk msvr = cd1400_read_reg(cd, CD1400_MSVR2); 1238 1.1 pk if( msvr & CD1400_MSVR2_DTR ) bits |= TIOCM_RTS; 1239 1.1 pk if( msvr & CD1400_MSVR2_CTS ) bits |= TIOCM_CTS; 1240 1.1 pk if( msvr & CD1400_MSVR2_RI ) bits |= TIOCM_RI; 1241 1.1 pk if( msvr & CD1400_MSVR2_DSR ) bits |= (cd->cd_parmode ? TIOCM_CD : TIOCM_DSR); 1242 1.1 pk if( msvr & CD1400_MSVR2_CD ) bits |= (cd->cd_parmode ? 0 : TIOCM_CD); 1243 1.1 pk 1244 1.1 pk break; 1245 1.1 pk 1246 1.1 pk case DMSET: /* reset bits */ 1247 1.1 pk if( !ISSET(tp->t_cflag, CRTSCTS) ) 1248 1.1 pk cd1400_write_reg(cd, CD1400_MSVR2, ((bits & TIOCM_RTS) ? CD1400_MSVR2_DTR : 0)); 1249 1.1 pk 1250 1.1 pk cd1400_write_reg(cd, CD1400_MSVR1, ((bits & TIOCM_DTR) ? CD1400_MSVR1_RTS : 0)); 1251 1.1 pk 1252 1.1 pk break; 1253 1.1 pk 1254 1.1 pk case DMBIS: /* set bits */ 1255 1.1 pk if( (bits & TIOCM_RTS) && !ISSET(tp->t_cflag, CRTSCTS) ) 1256 1.1 pk cd1400_write_reg(cd, CD1400_MSVR2, CD1400_MSVR2_DTR); 1257 1.1 pk 1258 1.1 pk if( bits & TIOCM_DTR ) 1259 1.1 pk cd1400_write_reg(cd, CD1400_MSVR1, CD1400_MSVR1_RTS); 1260 1.1 pk 1261 1.1 pk break; 1262 1.1 pk 1263 1.1 pk case DMBIC: /* clear bits */ 1264 1.1 pk if( (bits & TIOCM_RTS) && !ISSET(tp->t_cflag, CRTSCTS) ) 1265 1.1 pk cd1400_write_reg(cd, CD1400_MSVR2, 0); 1266 1.1 pk 1267 1.1 pk if( bits & TIOCM_DTR ) 1268 1.1 pk cd1400_write_reg(cd, CD1400_MSVR1, 0); 1269 1.1 pk 1270 1.1 pk break; 1271 1.1 pk } 1272 1.1 pk 1273 1.1 pk splx(s); 1274 1.1 pk return(bits); 1275 1.1 pk } 1276 1.1 pk 1277 1.1 pk /* 1278 1.1 pk * Set tty parameters, returns error or 0 on success 1279 1.1 pk */ 1280 1.1 pk int 1281 1.49 dsl mtty_param(struct tty *tp, struct termios *t) 1282 1.1 pk { 1283 1.47 drochner struct mtty_softc *ms = device_lookup_private(&mtty_cd, 1284 1.47 drochner MAGMA_CARD(tp->t_dev)); 1285 1.1 pk struct mtty_port *mp = &ms->ms_port[MAGMA_PORT(tp->t_dev)]; 1286 1.1 pk struct cd1400 *cd = mp->mp_cd1400; 1287 1.1 pk int rbpr, tbpr, rcor, tcor; 1288 1.1 pk u_char mcor1 = 0, mcor2 = 0; 1289 1.1 pk int s, opt; 1290 1.1 pk 1291 1.1 pk if( t->c_ospeed && cd1400_compute_baud(t->c_ospeed, cd->cd_clock, &tcor, &tbpr) ) 1292 1.1 pk return(EINVAL); 1293 1.1 pk 1294 1.1 pk if( t->c_ispeed && cd1400_compute_baud(t->c_ispeed, cd->cd_clock, &rcor, &rbpr) ) 1295 1.1 pk return(EINVAL); 1296 1.1 pk 1297 1.1 pk s = spltty(); 1298 1.1 pk 1299 1.1 pk /* hang up the line if ospeed is zero, else raise DTR */ 1300 1.1 pk (void)mtty_modem_control(mp, TIOCM_DTR, (t->c_ospeed == 0 ? DMBIC : DMBIS)); 1301 1.1 pk 1302 1.1 pk /* select channel, done in mtty_modem_control() */ 1303 1.1 pk /* cd1400_write_reg(cd, CD1400_CAR, mp->mp_channel); */ 1304 1.1 pk 1305 1.1 pk /* set transmit speed */ 1306 1.1 pk if( t->c_ospeed ) { 1307 1.1 pk cd1400_write_reg(cd, CD1400_TCOR, tcor); 1308 1.1 pk cd1400_write_reg(cd, CD1400_TBPR, tbpr); 1309 1.1 pk } 1310 1.1 pk 1311 1.1 pk /* set receive speed */ 1312 1.1 pk if( t->c_ispeed ) { 1313 1.1 pk cd1400_write_reg(cd, CD1400_RCOR, rcor); 1314 1.1 pk cd1400_write_reg(cd, CD1400_RBPR, rbpr); 1315 1.1 pk } 1316 1.1 pk 1317 1.1 pk /* enable transmitting and receiving on this channel */ 1318 1.1 pk opt = CD1400_CCR_CMDCHANCTL | CD1400_CCR_XMTEN | CD1400_CCR_RCVEN; 1319 1.1 pk cd1400_write_ccr(cd, opt); 1320 1.1 pk 1321 1.1 pk /* set parity, data and stop bits */ 1322 1.1 pk opt = 0; 1323 1.1 pk if( ISSET(t->c_cflag, PARENB) ) 1324 1.1 pk opt |= (ISSET(t->c_cflag, PARODD) ? CD1400_COR1_PARODD : CD1400_COR1_PARNORMAL); 1325 1.1 pk 1326 1.1 pk if( !ISSET(t->c_iflag, INPCK) ) 1327 1.1 pk opt |= CD1400_COR1_NOINPCK; /* no parity checking */ 1328 1.1 pk 1329 1.1 pk if( ISSET(t->c_cflag, CSTOPB) ) 1330 1.1 pk opt |= CD1400_COR1_STOP2; 1331 1.1 pk 1332 1.1 pk switch( t->c_cflag & CSIZE ) { 1333 1.1 pk case CS5: 1334 1.1 pk opt |= CD1400_COR1_CS5; 1335 1.1 pk break; 1336 1.1 pk 1337 1.1 pk case CS6: 1338 1.1 pk opt |= CD1400_COR1_CS6; 1339 1.1 pk break; 1340 1.1 pk 1341 1.1 pk case CS7: 1342 1.1 pk opt |= CD1400_COR1_CS7; 1343 1.1 pk break; 1344 1.1 pk 1345 1.1 pk default: 1346 1.1 pk opt |= CD1400_COR1_CS8; 1347 1.1 pk break; 1348 1.1 pk } 1349 1.1 pk 1350 1.1 pk cd1400_write_reg(cd, CD1400_COR1, opt); 1351 1.1 pk 1352 1.1 pk /* 1353 1.1 pk * enable Embedded Transmit Commands (for breaks) 1354 1.1 pk * use the CD1400 automatic CTS flow control if CRTSCTS is set 1355 1.1 pk */ 1356 1.1 pk opt = CD1400_COR2_ETC; 1357 1.1 pk if( ISSET(t->c_cflag, CRTSCTS) ) opt |= CD1400_COR2_CCTS_OFLOW; 1358 1.1 pk cd1400_write_reg(cd, CD1400_COR2, opt); 1359 1.1 pk 1360 1.1 pk cd1400_write_reg(cd, CD1400_COR3, MTTY_RX_FIFO_THRESHOLD); 1361 1.1 pk 1362 1.1 pk cd1400_write_ccr(cd, CD1400_CCR_CMDCORCHG | CD1400_CCR_COR1 | CD1400_CCR_COR2 | CD1400_CCR_COR3); 1363 1.1 pk 1364 1.1 pk cd1400_write_reg(cd, CD1400_COR4, CD1400_COR4_PFO_EXCEPTION); 1365 1.1 pk cd1400_write_reg(cd, CD1400_COR5, 0); 1366 1.1 pk 1367 1.1 pk /* 1368 1.1 pk * if automatic RTS handshaking enabled, set DTR threshold 1369 1.1 pk * (RTS and DTR lines are switched, CD1400 thinks its DTR) 1370 1.1 pk */ 1371 1.1 pk if( ISSET(t->c_cflag, CRTSCTS) ) 1372 1.1 pk mcor1 = MTTY_RX_DTR_THRESHOLD; 1373 1.1 pk 1374 1.1 pk /* set up `carrier detect' interrupts */ 1375 1.1 pk if( cd->cd_parmode ) { 1376 1.1 pk SET(mcor1, CD1400_MCOR1_DSRzd); 1377 1.1 pk SET(mcor2, CD1400_MCOR2_DSRod); 1378 1.1 pk } else { 1379 1.1 pk SET(mcor1, CD1400_MCOR1_CDzd); 1380 1.1 pk SET(mcor2, CD1400_MCOR2_CDod); 1381 1.1 pk } 1382 1.1 pk 1383 1.1 pk cd1400_write_reg(cd, CD1400_MCOR1, mcor1); 1384 1.1 pk cd1400_write_reg(cd, CD1400_MCOR2, mcor2); 1385 1.1 pk 1386 1.1 pk /* receive timeout 2ms */ 1387 1.1 pk cd1400_write_reg(cd, CD1400_RTPR, 2); 1388 1.1 pk 1389 1.1 pk splx(s); 1390 1.1 pk return(0); 1391 1.1 pk } 1392 1.1 pk 1393 1.1 pk /************************************************************************ 1394 1.1 pk * 1395 1.1 pk * MBPP Routines 1396 1.1 pk * 1397 1.1 pk * mbpp_match match one mbpp device 1398 1.1 pk * mbpp_attach attach mbpp devices 1399 1.1 pk * mbppopen open mbpp device 1400 1.1 pk * mbppclose close mbpp device 1401 1.1 pk * mbppioctl do ioctl on mbpp 1402 1.3 pk * mbpp_rw general rw routine 1403 1.3 pk * mbpp_timeout rw timeout 1404 1.3 pk * mbpp_start rw start after delay 1405 1.3 pk * mbpp_send send data 1406 1.3 pk * mbpp_recv recv data 1407 1.1 pk */ 1408 1.1 pk 1409 1.1 pk int 1410 1.52 cegger mbpp_match(device_t parent, cfdata_t cf, void *args) 1411 1.1 pk { 1412 1.47 drochner struct magma_softc *sc = device_private(parent); 1413 1.1 pk 1414 1.1 pk return( args == mbpp_match && sc->ms_board->mb_npar && sc->ms_mbpp == NULL ); 1415 1.1 pk } 1416 1.1 pk 1417 1.1 pk void 1418 1.52 cegger mbpp_attach(device_t parent, device_t dev, void *args) 1419 1.1 pk { 1420 1.47 drochner struct magma_softc *sc = device_private(parent); 1421 1.47 drochner struct mbpp_softc *ms = device_private(dev); 1422 1.1 pk struct mbpp_port *mp; 1423 1.3 pk int port; 1424 1.1 pk 1425 1.1 pk sc->ms_mbpp = ms; 1426 1.2 pk dprintf((" addr %p", ms)); 1427 1.1 pk 1428 1.1 pk for( port = 0 ; port < sc->ms_board->mb_npar ; port++ ) { 1429 1.1 pk mp = &ms->ms_port[port]; 1430 1.1 pk 1431 1.41 ad callout_init(&mp->mp_timeout_ch, 0); 1432 1.41 ad callout_init(&mp->mp_start_ch, 0); 1433 1.6 thorpej 1434 1.1 pk if( sc->ms_ncd1190 ) 1435 1.1 pk mp->mp_cd1190 = &sc->ms_cd1190[port]; 1436 1.1 pk else 1437 1.1 pk mp->mp_cd1400 = &sc->ms_cd1400[0]; 1438 1.1 pk } 1439 1.1 pk 1440 1.1 pk ms->ms_nports = port; 1441 1.1 pk printf(": %d port%s\n", port, port == 1 ? "" : "s"); 1442 1.1 pk } 1443 1.1 pk 1444 1.1 pk /* 1445 1.1 pk * open routine. returns zero if successful, else error code 1446 1.1 pk */ 1447 1.1 pk int 1448 1.49 dsl mbppopen(dev_t dev, int flags, int mode, struct lwp *l) 1449 1.1 pk { 1450 1.1 pk int card = MAGMA_CARD(dev); 1451 1.1 pk int port = MAGMA_PORT(dev); 1452 1.1 pk struct mbpp_softc *ms; 1453 1.1 pk struct mbpp_port *mp; 1454 1.3 pk int s; 1455 1.1 pk 1456 1.47 drochner if ((ms = device_lookup_private(&mbpp_cd, card)) == NULL 1457 1.47 drochner || port >= ms->ms_nports ) 1458 1.1 pk return(ENXIO); 1459 1.1 pk 1460 1.1 pk mp = &ms->ms_port[port]; 1461 1.1 pk 1462 1.1 pk s = spltty(); 1463 1.1 pk if( ISSET(mp->mp_flags, MBPPF_OPEN) ) { 1464 1.1 pk splx(s); 1465 1.1 pk return(EBUSY); 1466 1.1 pk } 1467 1.1 pk SET(mp->mp_flags, MBPPF_OPEN); 1468 1.1 pk splx(s); 1469 1.1 pk 1470 1.3 pk /* set defaults */ 1471 1.3 pk mp->mp_burst = MBPP_BURST; 1472 1.3 pk mp->mp_timeout = mbpp_mstohz(MBPP_TIMEOUT); 1473 1.3 pk mp->mp_delay = mbpp_mstohz(MBPP_DELAY); 1474 1.3 pk 1475 1.3 pk /* init chips */ 1476 1.3 pk if( mp->mp_cd1400 ) { /* CD1400 */ 1477 1.2 pk struct cd1400 *cd = mp->mp_cd1400; 1478 1.1 pk 1479 1.1 pk /* set up CD1400 channel */ 1480 1.1 pk s = spltty(); 1481 1.1 pk cd1400_write_reg(cd, CD1400_CAR, 0); 1482 1.1 pk cd1400_write_ccr(cd, CD1400_CCR_CMDRESET); 1483 1.1 pk cd1400_write_reg(cd, CD1400_LIVR, (1<<3)); 1484 1.1 pk splx(s); 1485 1.3 pk } else { /* CD1190 */ 1486 1.3 pk mp->mp_flags = 0; 1487 1.3 pk return (ENXIO); 1488 1.1 pk } 1489 1.1 pk 1490 1.3 pk return (0); 1491 1.1 pk } 1492 1.1 pk 1493 1.1 pk /* 1494 1.1 pk * close routine. returns zero if successful, else error code 1495 1.1 pk */ 1496 1.1 pk int 1497 1.49 dsl mbppclose(dev_t dev, int flag, int mode, struct lwp *l) 1498 1.1 pk { 1499 1.47 drochner struct mbpp_softc *ms = device_lookup_private(&mbpp_cd, 1500 1.47 drochner MAGMA_CARD(dev)); 1501 1.1 pk struct mbpp_port *mp = &ms->ms_port[MAGMA_PORT(dev)]; 1502 1.1 pk 1503 1.1 pk mp->mp_flags = 0; 1504 1.1 pk return(0); 1505 1.1 pk } 1506 1.1 pk 1507 1.1 pk /* 1508 1.1 pk * ioctl routine 1509 1.1 pk */ 1510 1.1 pk int 1511 1.49 dsl mbppioctl(dev_t dev, u_long cmd, void *data, int flags, struct lwp *l) 1512 1.1 pk { 1513 1.47 drochner struct mbpp_softc *ms = device_lookup_private(&mbpp_cd, 1514 1.47 drochner MAGMA_CARD(dev)); 1515 1.3 pk struct mbpp_port *mp = &ms->ms_port[MAGMA_PORT(dev)]; 1516 1.3 pk struct mbpp_param *bp; 1517 1.3 pk int error = 0; 1518 1.3 pk int s; 1519 1.3 pk 1520 1.3 pk switch(cmd) { 1521 1.3 pk case MBPPIOCSPARAM: 1522 1.3 pk bp = (struct mbpp_param *)data; 1523 1.3 pk if( bp->bp_burst < MBPP_BURST_MIN || bp->bp_burst > MBPP_BURST_MAX || 1524 1.3 pk bp->bp_delay < MBPP_DELAY_MIN || bp->bp_delay > MBPP_DELAY_MIN ) { 1525 1.3 pk error = EINVAL; 1526 1.3 pk } else { 1527 1.3 pk mp->mp_burst = bp->bp_burst; 1528 1.3 pk mp->mp_timeout = mbpp_mstohz(bp->bp_timeout); 1529 1.3 pk mp->mp_delay = mbpp_mstohz(bp->bp_delay); 1530 1.3 pk } 1531 1.3 pk break; 1532 1.3 pk case MBPPIOCGPARAM: 1533 1.3 pk bp = (struct mbpp_param *)data; 1534 1.3 pk bp->bp_burst = mp->mp_burst; 1535 1.3 pk bp->bp_timeout = mbpp_hztoms(mp->mp_timeout); 1536 1.3 pk bp->bp_delay = mbpp_hztoms(mp->mp_delay); 1537 1.3 pk break; 1538 1.3 pk case MBPPIOCGSTAT: 1539 1.3 pk /* XXX make this more generic */ 1540 1.3 pk s = spltty(); 1541 1.3 pk cd1400_write_reg(mp->mp_cd1400, CD1400_CAR, 0); 1542 1.3 pk *(int *)data = cd1400_read_reg(mp->mp_cd1400, CD1400_PSVR); 1543 1.3 pk splx(s); 1544 1.3 pk break; 1545 1.3 pk default: 1546 1.3 pk error = ENOTTY; 1547 1.3 pk } 1548 1.3 pk 1549 1.3 pk return(error); 1550 1.1 pk } 1551 1.1 pk 1552 1.3 pk int 1553 1.49 dsl mbpp_rw(dev_t dev, struct uio *uio, int flag) 1554 1.3 pk { 1555 1.3 pk int card = MAGMA_CARD(dev); 1556 1.3 pk int port = MAGMA_PORT(dev); 1557 1.47 drochner struct mbpp_softc *ms = device_lookup_private(&mbpp_cd, card); 1558 1.3 pk struct mbpp_port *mp = &ms->ms_port[port]; 1559 1.40 mrg char *buffer, *ptr; 1560 1.3 pk int buflen, cnt, len; 1561 1.3 pk int s, error = 0; 1562 1.3 pk int gotdata = 0; 1563 1.3 pk 1564 1.3 pk if( uio->uio_resid == 0 ) 1565 1.3 pk return(0); 1566 1.3 pk 1567 1.60 riastrad buflen = uimin(uio->uio_resid, mp->mp_burst); 1568 1.3 pk buffer = malloc(buflen, M_DEVBUF, M_WAITOK); 1569 1.3 pk if( buffer == NULL ) 1570 1.3 pk return(ENOMEM); 1571 1.3 pk 1572 1.3 pk SET(mp->mp_flags, MBPPF_UIO); 1573 1.3 pk 1574 1.3 pk /* 1575 1.3 pk * start timeout, if needed 1576 1.3 pk */ 1577 1.3 pk if( mp->mp_timeout > 0 ) { 1578 1.3 pk SET(mp->mp_flags, MBPPF_TIMEOUT); 1579 1.6 thorpej callout_reset(&mp->mp_timeout_ch, mp->mp_timeout, 1580 1.6 thorpej mbpp_timeout, mp); 1581 1.3 pk } 1582 1.3 pk 1583 1.3 pk len = cnt = 0; 1584 1.3 pk while( uio->uio_resid > 0 ) { 1585 1.60 riastrad len = uimin(buflen, uio->uio_resid); 1586 1.3 pk ptr = buffer; 1587 1.3 pk 1588 1.3 pk if( uio->uio_rw == UIO_WRITE ) { 1589 1.3 pk error = uiomove(ptr, len, uio); 1590 1.3 pk if( error ) break; 1591 1.3 pk } 1592 1.3 pk again: /* goto bad */ 1593 1.3 pk /* timed out? */ 1594 1.3 pk if( !ISSET(mp->mp_flags, MBPPF_UIO) ) 1595 1.3 pk break; 1596 1.3 pk 1597 1.3 pk /* 1598 1.3 pk * perform the operation 1599 1.3 pk */ 1600 1.3 pk if( uio->uio_rw == UIO_WRITE ) { 1601 1.3 pk cnt = mbpp_send(mp, ptr, len); 1602 1.3 pk } else { 1603 1.3 pk cnt = mbpp_recv(mp, ptr, len); 1604 1.3 pk } 1605 1.3 pk 1606 1.3 pk if( uio->uio_rw == UIO_READ ) { 1607 1.3 pk if( cnt ) { 1608 1.3 pk error = uiomove(ptr, cnt, uio); 1609 1.3 pk if( error ) break; 1610 1.3 pk gotdata++; 1611 1.3 pk } 1612 1.3 pk else if( gotdata ) /* consider us done */ 1613 1.3 pk break; 1614 1.3 pk } 1615 1.3 pk 1616 1.3 pk /* timed out? */ 1617 1.3 pk if( !ISSET(mp->mp_flags, MBPPF_UIO) ) 1618 1.3 pk break; 1619 1.3 pk 1620 1.3 pk /* 1621 1.3 pk * poll delay? 1622 1.3 pk */ 1623 1.3 pk if( mp->mp_delay > 0 ) { 1624 1.3 pk s = splsoftclock(); 1625 1.3 pk SET(mp->mp_flags, MBPPF_DELAY); 1626 1.6 thorpej callout_reset(&mp->mp_start_ch, mp->mp_delay, 1627 1.6 thorpej mbpp_start, mp); 1628 1.3 pk error = tsleep(mp, PCATCH | PZERO, "mbppdelay", 0); 1629 1.3 pk splx(s); 1630 1.3 pk if( error ) break; 1631 1.3 pk } 1632 1.3 pk 1633 1.3 pk /* 1634 1.3 pk * don't call uiomove again until we used all the data we grabbed 1635 1.3 pk */ 1636 1.3 pk if( uio->uio_rw == UIO_WRITE && cnt != len ) { 1637 1.3 pk ptr += cnt; 1638 1.3 pk len -= cnt; 1639 1.3 pk cnt = 0; 1640 1.3 pk goto again; 1641 1.3 pk } 1642 1.3 pk } 1643 1.3 pk 1644 1.3 pk /* 1645 1.3 pk * clear timeouts 1646 1.3 pk */ 1647 1.3 pk s = splsoftclock(); 1648 1.3 pk if( ISSET(mp->mp_flags, MBPPF_TIMEOUT) ) { 1649 1.6 thorpej callout_stop(&mp->mp_timeout_ch); 1650 1.3 pk CLR(mp->mp_flags, MBPPF_TIMEOUT); 1651 1.3 pk } 1652 1.3 pk if( ISSET(mp->mp_flags, MBPPF_DELAY) ) { 1653 1.6 thorpej callout_stop(&mp->mp_start_ch); 1654 1.3 pk CLR(mp->mp_flags, MBPPF_DELAY); 1655 1.3 pk } 1656 1.3 pk splx(s); 1657 1.3 pk 1658 1.3 pk /* 1659 1.3 pk * adjust for those chars that we uiomoved but never actually wrote 1660 1.3 pk */ 1661 1.3 pk if( uio->uio_rw == UIO_WRITE && cnt != len ) { 1662 1.3 pk uio->uio_resid += (len - cnt); 1663 1.3 pk } 1664 1.3 pk 1665 1.3 pk free(buffer, M_DEVBUF); 1666 1.3 pk return(error); 1667 1.3 pk } 1668 1.3 pk 1669 1.3 pk void 1670 1.49 dsl mbpp_timeout(void *arg) 1671 1.3 pk { 1672 1.3 pk struct mbpp_port *mp = arg; 1673 1.3 pk 1674 1.3 pk CLR(mp->mp_flags, MBPPF_UIO | MBPPF_TIMEOUT); 1675 1.3 pk wakeup(mp); 1676 1.3 pk } 1677 1.3 pk 1678 1.3 pk void 1679 1.49 dsl mbpp_start(void *arg) 1680 1.3 pk { 1681 1.3 pk struct mbpp_port *mp = arg; 1682 1.3 pk 1683 1.3 pk CLR(mp->mp_flags, MBPPF_DELAY); 1684 1.3 pk wakeup(mp); 1685 1.3 pk } 1686 1.3 pk 1687 1.3 pk int 1688 1.49 dsl mbpp_send(struct mbpp_port *mp, void *ptr, int len) 1689 1.3 pk { 1690 1.3 pk int s; 1691 1.3 pk struct cd1400 *cd = mp->mp_cd1400; 1692 1.3 pk 1693 1.3 pk /* set up io information */ 1694 1.3 pk mp->mp_ptr = ptr; 1695 1.3 pk mp->mp_cnt = len; 1696 1.3 pk 1697 1.3 pk /* start transmitting */ 1698 1.3 pk s = spltty(); 1699 1.3 pk if( cd ) { 1700 1.3 pk cd1400_write_reg(cd, CD1400_CAR, 0); 1701 1.3 pk 1702 1.3 pk /* output strobe width ~1microsecond */ 1703 1.3 pk cd1400_write_reg(cd, CD1400_TBPR, 10); 1704 1.3 pk 1705 1.3 pk /* enable channel */ 1706 1.3 pk cd1400_write_ccr(cd, CD1400_CCR_CMDCHANCTL | CD1400_CCR_XMTEN); 1707 1.3 pk cd1400_write_reg(cd, CD1400_SRER, CD1400_SRER_TXRDY); 1708 1.3 pk } 1709 1.3 pk 1710 1.3 pk /* ZZzzz... */ 1711 1.3 pk tsleep(mp, PCATCH | PZERO, "mbpp_send", 0); 1712 1.3 pk 1713 1.3 pk /* stop transmitting */ 1714 1.3 pk if( cd ) { 1715 1.3 pk cd1400_write_reg(cd, CD1400_CAR, 0); 1716 1.3 pk 1717 1.3 pk /* disable transmitter */ 1718 1.3 pk cd1400_write_reg(cd, CD1400_SRER, 0); 1719 1.3 pk cd1400_write_ccr(cd, CD1400_CCR_CMDCHANCTL | CD1400_CCR_XMTDIS); 1720 1.3 pk 1721 1.3 pk /* flush fifo */ 1722 1.3 pk cd1400_write_ccr(cd, CD1400_CCR_CMDRESET | CD1400_CCR_FTF); 1723 1.3 pk } 1724 1.3 pk splx(s); 1725 1.3 pk 1726 1.3 pk /* return number of chars sent */ 1727 1.3 pk return(len - mp->mp_cnt); 1728 1.3 pk } 1729 1.3 pk 1730 1.3 pk int 1731 1.49 dsl mbpp_recv(struct mbpp_port *mp, void *ptr, int len) 1732 1.3 pk { 1733 1.3 pk int s; 1734 1.3 pk struct cd1400 *cd = mp->mp_cd1400; 1735 1.3 pk 1736 1.3 pk /* set up io information */ 1737 1.3 pk mp->mp_ptr = ptr; 1738 1.3 pk mp->mp_cnt = len; 1739 1.3 pk 1740 1.3 pk /* start receiving */ 1741 1.3 pk s = spltty(); 1742 1.3 pk if( cd ) { 1743 1.3 pk int rcor, rbpr; 1744 1.3 pk 1745 1.3 pk cd1400_write_reg(cd, CD1400_CAR, 0); 1746 1.3 pk 1747 1.3 pk /* input strobe at 100kbaud (10microseconds) */ 1748 1.3 pk cd1400_compute_baud(100000, cd->cd_clock, &rcor, &rbpr); 1749 1.3 pk cd1400_write_reg(cd, CD1400_RCOR, rcor); 1750 1.3 pk cd1400_write_reg(cd, CD1400_RBPR, rbpr); 1751 1.3 pk 1752 1.3 pk /* rx threshold */ 1753 1.3 pk cd1400_write_reg(cd, CD1400_COR3, MBPP_RX_FIFO_THRESHOLD); 1754 1.3 pk cd1400_write_ccr(cd, CD1400_CCR_CMDCORCHG | CD1400_CCR_COR3); 1755 1.3 pk 1756 1.3 pk /* enable channel */ 1757 1.3 pk cd1400_write_ccr(cd, CD1400_CCR_CMDCHANCTL | CD1400_CCR_RCVEN); 1758 1.3 pk cd1400_write_reg(cd, CD1400_SRER, CD1400_SRER_RXDATA); 1759 1.3 pk } 1760 1.3 pk 1761 1.3 pk /* ZZzzz... */ 1762 1.3 pk tsleep(mp, PCATCH | PZERO, "mbpp_recv", 0); 1763 1.3 pk 1764 1.3 pk /* stop receiving */ 1765 1.3 pk if( cd ) { 1766 1.3 pk cd1400_write_reg(cd, CD1400_CAR, 0); 1767 1.3 pk 1768 1.3 pk /* disable receiving */ 1769 1.3 pk cd1400_write_reg(cd, CD1400_SRER, 0); 1770 1.3 pk cd1400_write_ccr(cd, CD1400_CCR_CMDCHANCTL | CD1400_CCR_RCVDIS); 1771 1.3 pk } 1772 1.3 pk splx(s); 1773 1.3 pk 1774 1.3 pk /* return number of chars received */ 1775 1.3 pk return(len - mp->mp_cnt); 1776 1.3 pk } 1777 1.3 pk 1778 1.3 pk int 1779 1.49 dsl mbpp_hztoms(int h) 1780 1.3 pk { 1781 1.3 pk int m = h; 1782 1.3 pk 1783 1.3 pk if( m > 0 ) 1784 1.3 pk m = m * 1000 / hz; 1785 1.3 pk return(m); 1786 1.3 pk } 1787 1.3 pk 1788 1.3 pk int 1789 1.49 dsl mbpp_mstohz(int m) 1790 1.3 pk { 1791 1.3 pk int h = m; 1792 1.3 pk 1793 1.3 pk if( h > 0 ) { 1794 1.3 pk h = h * hz / 1000; 1795 1.3 pk if( h == 0 ) 1796 1.3 pk h = 1000 / hz; 1797 1.3 pk } 1798 1.3 pk return(h); 1799 1.1 pk } 1800 1.1 pk 1801 1.1 pk #endif /* NMAGMA */ 1802
Indexes created Tue Sep 23 14:10:03 GMT 2025