ser.c revision 1.49
1 1.48 is /* $NetBSD: ser.c,v 1.49 1998/07/22 19:13:02 is Exp $ */ 2 1.23 cgd 3 1.1 mw /* 4 1.1 mw * Copyright (c) 1982, 1986, 1990 The Regents of the University of California. 5 1.1 mw * All rights reserved. 6 1.1 mw * 7 1.1 mw * Redistribution and use in source and binary forms, with or without 8 1.1 mw * modification, are permitted provided that the following conditions 9 1.1 mw * are met: 10 1.1 mw * 1. Redistributions of source code must retain the above copyright 11 1.1 mw * notice, this list of conditions and the following disclaimer. 12 1.1 mw * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 mw * notice, this list of conditions and the following disclaimer in the 14 1.1 mw * documentation and/or other materials provided with the distribution. 15 1.1 mw * 3. All advertising materials mentioning features or use of this software 16 1.1 mw * must display the following acknowledgement: 17 1.1 mw * This product includes software developed by the University of 18 1.1 mw * California, Berkeley and its contributors. 19 1.1 mw * 4. Neither the name of the University nor the names of its contributors 20 1.1 mw * may be used to endorse or promote products derived from this software 21 1.1 mw * without specific prior written permission. 22 1.1 mw * 23 1.1 mw * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 24 1.1 mw * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 25 1.1 mw * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 26 1.1 mw * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 27 1.1 mw * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 28 1.1 mw * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 29 1.1 mw * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 30 1.1 mw * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 31 1.1 mw * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 32 1.1 mw * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 33 1.1 mw * SUCH DAMAGE. 34 1.1 mw * 35 1.4 mw * @(#)ser.c 7.12 (Berkeley) 6/27/91 36 1.15 chopps */ 37 1.15 chopps /* 38 1.32 is * XXX This file needs major cleanup it will never service more than one 39 1.15 chopps * XXX unit. 40 1.1 mw */ 41 1.1 mw 42 1.10 chopps #include <sys/param.h> 43 1.10 chopps #include <sys/systm.h> 44 1.10 chopps #include <sys/ioctl.h> 45 1.15 chopps #include <sys/device.h> 46 1.10 chopps #include <sys/tty.h> 47 1.10 chopps #include <sys/proc.h> 48 1.10 chopps #include <sys/file.h> 49 1.10 chopps #include <sys/malloc.h> 50 1.10 chopps #include <sys/uio.h> 51 1.10 chopps #include <sys/kernel.h> 52 1.10 chopps #include <sys/syslog.h> 53 1.13 chopps #include <sys/queue.h> 54 1.15 chopps #include <machine/cpu.h> 55 1.15 chopps #include <amiga/amiga/device.h> 56 1.10 chopps #include <amiga/dev/serreg.h> 57 1.10 chopps #include <amiga/amiga/custom.h> 58 1.10 chopps #include <amiga/amiga/cia.h> 59 1.10 chopps #include <amiga/amiga/cc.h> 60 1.1 mw 61 1.14 chopps #include <dev/cons.h> 62 1.14 chopps 63 1.31 veego #include <sys/conf.h> 64 1.31 veego #include <machine/conf.h> 65 1.31 veego 66 1.15 chopps #include "ser.h" 67 1.15 chopps #if NSER > 0 68 1.14 chopps 69 1.15 chopps void serattach __P((struct device *, struct device *, void *)); 70 1.39 veego int sermatch __P((struct device *, struct cfdata *, void *)); 71 1.15 chopps 72 1.28 jtc struct ser_softc { 73 1.28 jtc struct device dev; 74 1.28 jtc struct tty *ser_tty; 75 1.28 jtc }; 76 1.28 jtc 77 1.29 thorpej struct cfattach ser_ca = { 78 1.30 mhitch sizeof(struct ser_softc), sermatch, serattach 79 1.29 thorpej }; 80 1.29 thorpej 81 1.43 thorpej extern struct cfdriver ser_cd; 82 1.15 chopps 83 1.26 chopps #ifndef SEROBUF_SIZE 84 1.15 chopps #define SEROBUF_SIZE 32 85 1.26 chopps #endif 86 1.26 chopps #ifndef SERIBUF_SIZE 87 1.15 chopps #define SERIBUF_SIZE 512 88 1.26 chopps #endif 89 1.26 chopps 90 1.26 chopps #define splser() spl5() 91 1.1 mw 92 1.31 veego void serstart __P((struct tty *)); 93 1.44 is void ser_shutdown __P((struct ser_softc *)); 94 1.31 veego int serparam __P((struct tty *, struct termios *)); 95 1.44 is void serintr __P((void)); 96 1.31 veego int serhwiflow __P((struct tty *, int)); 97 1.31 veego int sermctl __P((dev_t dev, int, int)); 98 1.31 veego void ser_fastint __P((void)); 99 1.44 is void sereint __P((int)); 100 1.31 veego static void ser_putchar __P((struct tty *, u_short)); 101 1.31 veego void ser_outintr __P((void)); 102 1.31 veego void sercnprobe __P((struct consdev *)); 103 1.31 veego void sercninit __P((struct consdev *)); 104 1.44 is void serinit __P((int)); 105 1.31 veego int sercngetc __P((dev_t dev)); 106 1.31 veego void sercnputc __P((dev_t, int)); 107 1.31 veego void sercnpollc __P((dev_t, int)); 108 1.31 veego 109 1.1 mw int nser = NSER; 110 1.1 mw #ifdef SERCONSOLE 111 1.1 mw int serconsole = SERCONSOLE; 112 1.1 mw #else 113 1.1 mw int serconsole = -1; 114 1.1 mw #endif 115 1.1 mw int serconsinit; 116 1.1 mw int serdefaultrate = TTYDEF_SPEED; 117 1.1 mw int sermajor; 118 1.14 chopps int serswflags; 119 1.14 chopps 120 1.44 is struct vbl_node ser_vbl_node; 121 1.1 mw struct tty ser_cons; 122 1.44 is struct tty *ser_tty; 123 1.44 is 124 1.44 is static u_short serbuf[SERIBUF_SIZE]; 125 1.44 is static u_short *sbrpt = serbuf; 126 1.44 is static u_short *sbwpt = serbuf; 127 1.44 is static u_short sbcnt; 128 1.44 is static u_short sbovfl; 129 1.44 is static u_char serdcd; 130 1.1 mw 131 1.14 chopps /* 132 1.14 chopps * Since this UART is not particularly bright (to put it nicely), we'll 133 1.14 chopps * have to do parity stuff on our own. This table contains the 8th bit 134 1.14 chopps * in 7bit character mode, for even parity. If you want odd parity, 135 1.14 chopps * flip the bit. (for generation of the table, see genpar.c) 136 1.14 chopps */ 137 1.14 chopps 138 1.14 chopps u_char even_parity[] = { 139 1.14 chopps 0, 1, 1, 0, 1, 0, 0, 1, 1, 0, 0, 1, 0, 1, 1, 0, 140 1.14 chopps 1, 0, 0, 1, 0, 1, 1, 0, 0, 1, 1, 0, 1, 0, 0, 1, 141 1.14 chopps 1, 0, 0, 1, 0, 1, 1, 0, 0, 1, 1, 0, 1, 0, 0, 1, 142 1.14 chopps 0, 1, 1, 0, 1, 0, 0, 1, 1, 0, 0, 1, 0, 1, 1, 0, 143 1.14 chopps 1, 0, 0, 1, 0, 1, 1, 0, 0, 1, 1, 0, 1, 0, 0, 1, 144 1.14 chopps 0, 1, 1, 0, 1, 0, 0, 1, 1, 0, 0, 1, 0, 1, 1, 0, 145 1.14 chopps 0, 1, 1, 0, 1, 0, 0, 1, 1, 0, 0, 1, 0, 1, 1, 0, 146 1.14 chopps 1, 0, 0, 1, 0, 1, 1, 0, 0, 1, 1, 0, 1, 0, 0, 1, 147 1.1 mw }; 148 1.1 mw 149 1.14 chopps /* 150 1.14 chopps * Since we don't get interrupts for changes on the modem control line, 151 1.14 chopps * we'll have to fake them by comparing current settings to the settings 152 1.14 chopps * we remembered on last invocation. 153 1.14 chopps */ 154 1.14 chopps 155 1.14 chopps u_char last_ciab_pra; 156 1.14 chopps 157 1.14 chopps extern struct tty *constty; 158 1.1 mw 159 1.42 mhitch extern int ser_open_speed; /* current speed of open serial device */ 160 1.42 mhitch 161 1.1 mw #ifdef KGDB 162 1.10 chopps #include <machine/remote-sl.h> 163 1.1 mw 164 1.1 mw extern dev_t kgdb_dev; 165 1.1 mw extern int kgdb_rate; 166 1.1 mw extern int kgdb_debug_init; 167 1.1 mw #endif 168 1.1 mw 169 1.1 mw #ifdef DEBUG 170 1.1 mw long fifoin[17]; 171 1.1 mw long fifoout[17]; 172 1.1 mw long serintrcount[16]; 173 1.1 mw long sermintcount[16]; 174 1.1 mw #endif 175 1.1 mw 176 1.14 chopps void sermint __P((register int unit)); 177 1.5 mw 178 1.5 mw int 179 1.39 veego sermatch(pdp, cfp, auxp) 180 1.15 chopps struct device *pdp; 181 1.39 veego struct cfdata *cfp; 182 1.39 veego void *auxp; 183 1.15 chopps { 184 1.29 thorpej 185 1.15 chopps if (matchname("ser", (char *)auxp) == 0 || cfp->cf_unit != 0) 186 1.15 chopps return(0); 187 1.15 chopps if (serconsole != 0 && amiga_realconfig == 0) 188 1.15 chopps return(0); 189 1.15 chopps return(1); 190 1.15 chopps } 191 1.15 chopps 192 1.15 chopps 193 1.15 chopps void 194 1.15 chopps serattach(pdp, dp, auxp) 195 1.15 chopps struct device *pdp, *dp; 196 1.15 chopps void *auxp; 197 1.1 mw { 198 1.44 is struct ser_softc *sc; 199 1.44 is struct tty *tp; 200 1.15 chopps u_short ir; 201 1.14 chopps 202 1.44 is sc = (struct ser_softc *)dp; 203 1.44 is 204 1.14 chopps ir = custom.intenar; 205 1.15 chopps if (serconsole == 0) 206 1.14 chopps DELAY(100000); 207 1.14 chopps 208 1.44 is ser_vbl_node.function = (void (*) (void *)) sermint; 209 1.44 is add_vbl_function(&ser_vbl_node, SER_VBL_PRIORITY, (void *) 0); 210 1.1 mw #ifdef KGDB 211 1.15 chopps if (kgdb_dev == makedev(sermajor, 0)) { 212 1.15 chopps if (serconsole == 0) 213 1.14 chopps kgdb_dev = NODEV; /* can't debug over console port */ 214 1.14 chopps else { 215 1.44 is (void) serinit(kgdb_rate); 216 1.14 chopps serconsinit = 1; /* don't re-init in serputc */ 217 1.14 chopps if (kgdb_debug_init == 0) 218 1.38 christos printf(" kgdb enabled\n"); 219 1.14 chopps else { 220 1.14 chopps /* 221 1.14 chopps * Print prefix of device name, 222 1.14 chopps * let kgdb_connect print the rest. 223 1.14 chopps */ 224 1.38 christos printf("ser0: "); 225 1.14 chopps kgdb_connect(1); 226 1.14 chopps } 227 1.14 chopps } 228 1.14 chopps } 229 1.5 mw #endif 230 1.14 chopps /* 231 1.14 chopps * Need to reset baud rate, etc. of next print so reset serconsinit. 232 1.14 chopps */ 233 1.15 chopps if (0 == serconsole) 234 1.14 chopps serconsinit = 0; 235 1.44 is 236 1.44 is tp = ttymalloc(); 237 1.44 is tp->t_oproc = (void (*) (struct tty *)) serstart; 238 1.44 is tp->t_param = serparam; 239 1.44 is tp->t_hwiflow = serhwiflow; 240 1.44 is tty_attach(tp); 241 1.44 is sc->ser_tty = ser_tty = tp; 242 1.44 is 243 1.15 chopps if (dp) 244 1.38 christos printf(": input fifo %d output fifo %d\n", SERIBUF_SIZE, 245 1.15 chopps SEROBUF_SIZE); 246 1.1 mw } 247 1.1 mw 248 1.14 chopps 249 1.1 mw /* ARGSUSED */ 250 1.5 mw int 251 1.1 mw seropen(dev, flag, mode, p) 252 1.14 chopps dev_t dev; 253 1.14 chopps int flag, mode; 254 1.14 chopps struct proc *p; 255 1.1 mw { 256 1.44 is struct ser_softc *sc; 257 1.14 chopps struct tty *tp; 258 1.44 is int unit, error, s, s2; 259 1.14 chopps 260 1.14 chopps error = 0; 261 1.14 chopps unit = SERUNIT(dev); 262 1.14 chopps 263 1.44 is if (unit >= ser_cd.cd_ndevs) 264 1.44 is return (ENXIO); 265 1.44 is 266 1.44 is sc = ser_cd.cd_devs[unit]; 267 1.44 is if (sc == 0) 268 1.14 chopps return (ENXIO); 269 1.14 chopps 270 1.44 is /* XXX com.c: insert KGDB check here */ 271 1.44 is 272 1.44 is /* XXX ser.c had: s = spltty(); */ 273 1.44 is 274 1.44 is tp = sc->ser_tty; 275 1.44 is 276 1.44 is if ((tp->t_state & TS_ISOPEN) && 277 1.44 is (tp->t_state & TS_XCLUDE) && 278 1.44 is p->p_ucred->cr_uid != 0) 279 1.44 is return (EBUSY); 280 1.44 is 281 1.14 chopps s = spltty(); 282 1.14 chopps 283 1.44 is /* 284 1.44 is * If this is a first open... 285 1.44 is */ 286 1.44 is 287 1.44 is if ((tp->t_state & TS_ISOPEN) == 0 && tp->t_wopen == 0) { 288 1.44 is struct termios t; 289 1.14 chopps 290 1.44 is tp->t_dev = dev; 291 1.14 chopps 292 1.44 is s2 = splser(); 293 1.14 chopps /* 294 1.44 is * XXX here: hw enable, 295 1.14 chopps */ 296 1.46 is last_ciab_pra = ciab.pra; 297 1.44 is 298 1.44 is splx(s2); 299 1.44 is t.c_ispeed = 0; 300 1.44 is 301 1.44 is /* XXX serconsolerate? */ 302 1.44 is t.c_ospeed = TTYDEF_SPEED; 303 1.44 is t.c_cflag = TTYDEF_CFLAG; 304 1.44 is 305 1.14 chopps if (serswflags & TIOCFLAG_CLOCAL) 306 1.44 is t.c_cflag |= CLOCAL; 307 1.14 chopps if (serswflags & TIOCFLAG_CRTSCTS) 308 1.44 is t.c_cflag |= CRTSCTS; 309 1.14 chopps if (serswflags & TIOCFLAG_MDMBUF) 310 1.44 is t.c_cflag |= MDMBUF; 311 1.44 is 312 1.44 is /* Make sure serparam() will do something. */ 313 1.44 is tp->t_ospeed = 0; 314 1.44 is serparam(tp, &t); 315 1.44 is tp->t_iflag = TTYDEF_IFLAG; 316 1.44 is tp->t_oflag = TTYDEF_OFLAG; 317 1.44 is tp->t_lflag = TTYDEF_LFLAG; 318 1.44 is ttychars(tp); 319 1.14 chopps ttsetwater(tp); 320 1.44 is 321 1.44 is s2 = splser(); 322 1.45 is (void)sermctl(dev, TIOCM_DTR, DMSET); 323 1.44 is /* clear input ring */ 324 1.44 is sbrpt = sbwpt = serbuf; 325 1.44 is sbcnt = 0; 326 1.44 is splx(s2); 327 1.14 chopps } 328 1.14 chopps 329 1.44 is splx(s); 330 1.44 is 331 1.44 is error = ttyopen(tp, DIALOUT(dev), flag & O_NONBLOCK); 332 1.44 is if (error) 333 1.44 is goto bad; 334 1.44 is 335 1.44 is error = (*linesw[tp->t_line].l_open)(dev, tp); 336 1.44 is if (error) 337 1.44 is goto bad; 338 1.44 is 339 1.44 is return (0); 340 1.14 chopps 341 1.44 is bad: 342 1.44 is if (!(tp->t_state & TS_ISOPEN) && tp->t_wopen == 0) { 343 1.44 is ser_shutdown(sc); 344 1.22 chopps } 345 1.22 chopps 346 1.44 is return (error); 347 1.1 mw } 348 1.14 chopps 349 1.1 mw /*ARGSUSED*/ 350 1.5 mw int 351 1.1 mw serclose(dev, flag, mode, p) 352 1.14 chopps dev_t dev; 353 1.14 chopps int flag, mode; 354 1.14 chopps struct proc *p; 355 1.14 chopps { 356 1.44 is struct ser_softc *sc; 357 1.14 chopps struct tty *tp; 358 1.14 chopps 359 1.44 is sc = ser_cd.cd_devs[0]; 360 1.44 is tp = ser_tty; 361 1.44 is 362 1.44 is /* XXX This is for cons.c, according to com.c */ 363 1.44 is if (!(tp->t_state & TS_ISOPEN)) 364 1.44 is return (0); 365 1.14 chopps 366 1.14 chopps (*linesw[tp->t_line].l_close)(tp, flag); 367 1.44 is ttyclose(tp); 368 1.44 is 369 1.44 is if (!(tp->t_state & TS_ISOPEN) && tp->t_wopen == 0) { 370 1.44 is ser_shutdown(sc); 371 1.44 is } 372 1.44 is return (0); 373 1.44 is } 374 1.44 is 375 1.44 is void 376 1.44 is ser_shutdown(sc) 377 1.44 is struct ser_softc *sc; 378 1.44 is { 379 1.44 is struct tty *tp = sc->ser_tty; 380 1.44 is int s; 381 1.44 is 382 1.44 is s = splser(); 383 1.44 is 384 1.14 chopps custom.adkcon = ADKCONF_UARTBRK; /* clear break */ 385 1.44 is #if 0 /* XXX fix: #ifdef KGDB */ 386 1.14 chopps /* 387 1.14 chopps * do not disable interrupts if debugging 388 1.14 chopps */ 389 1.14 chopps if (dev != kgdb_dev) 390 1.1 mw #endif 391 1.44 is custom.intena = INTF_RBF | INTF_TBE; /* disable interrupts */ 392 1.14 chopps custom.intreq = INTF_RBF | INTF_TBE; /* clear intr request */ 393 1.14 chopps 394 1.14 chopps /* 395 1.41 is * If HUPCL is not set, leave DTR unchanged. 396 1.14 chopps */ 397 1.44 is if (tp->t_cflag & HUPCL) { 398 1.44 is (void)sermctl(tp->t_dev, TIOCM_DTR, DMBIC); 399 1.44 is /* 400 1.44 is * Idea from dev/ic/com.c: 401 1.44 is * sleep a bit so that other side will notice, even if we 402 1.44 is * reopen immediately. 403 1.44 is */ 404 1.44 is (void) tsleep(tp, TTIPRI, ttclos, hz); 405 1.44 is } 406 1.41 is 407 1.14 chopps #if not_yet 408 1.14 chopps if (tp != &ser_cons) { 409 1.44 is remove_vbl_function(&ser_vbl_node); 410 1.14 chopps ttyfree(tp); 411 1.44 is ser_tty = (struct tty *) NULL; 412 1.14 chopps } 413 1.3 mw #endif 414 1.42 mhitch ser_open_speed = tp->t_ispeed; 415 1.44 is return; 416 1.1 mw } 417 1.14 chopps 418 1.5 mw int 419 1.1 mw serread(dev, uio, flag) 420 1.14 chopps dev_t dev; 421 1.14 chopps struct uio *uio; 422 1.14 chopps int flag; 423 1.1 mw { 424 1.44 is /* ARGSUSED */ 425 1.44 is 426 1.44 is return((*linesw[ser_tty->t_line].l_read)(ser_tty, uio, flag)); 427 1.14 chopps } 428 1.1 mw 429 1.5 mw int 430 1.1 mw serwrite(dev, uio, flag) 431 1.14 chopps dev_t dev; 432 1.14 chopps struct uio *uio; 433 1.14 chopps int flag; 434 1.1 mw { 435 1.44 is /* ARGSUSED */ 436 1.14 chopps 437 1.44 is return((*linesw[ser_tty->t_line].l_write)(ser_tty, uio, flag)); 438 1.1 mw } 439 1.3 mw 440 1.27 chopps struct tty * 441 1.27 chopps sertty(dev) 442 1.27 chopps dev_t dev; 443 1.27 chopps { 444 1.44 is /* ARGSUSED */ 445 1.44 is 446 1.44 is return (ser_tty); 447 1.27 chopps } 448 1.3 mw 449 1.14 chopps /* 450 1.14 chopps * We don't do any processing of data here, so we store the raw code 451 1.14 chopps * obtained from the uart register. In theory, 110kBaud gives you 452 1.14 chopps * 11kcps, so 16k buffer should be more than enough, interrupt 453 1.14 chopps * latency of 1s should never happen, or something is seriously 454 1.14 chopps * wrong.. 455 1.44 is * buffers moved to above seropen() -is 456 1.14 chopps */ 457 1.14 chopps 458 1.14 chopps /* 459 1.14 chopps * This is a replacement for the lack of a hardware fifo. 32k should be 460 1.14 chopps * enough (there's only one unit anyway, so this is not going to 461 1.14 chopps * accumulate). 462 1.14 chopps */ 463 1.3 mw void 464 1.14 chopps ser_fastint() 465 1.3 mw { 466 1.14 chopps /* 467 1.14 chopps * We're at RBE-level, which is higher than VBL-level which is used 468 1.14 chopps * to periodically transmit contents of this buffer up one layer, 469 1.14 chopps * so no spl-raising is necessary. 470 1.14 chopps */ 471 1.47 is u_short code; 472 1.14 chopps 473 1.47 is /* 474 1.47 is * This register contains both data and status bits! 475 1.47 is */ 476 1.47 is code = custom.serdatr; 477 1.14 chopps 478 1.40 mhitch /* 479 1.47 is * Use SERDATF_RBF instead of INTF_RBF; they're equivalent, but 480 1.47 is * we save one (slow) custom chip access. 481 1.40 mhitch */ 482 1.47 is if ((code & SERDATRF_RBF) == 0) 483 1.47 is return; 484 1.40 mhitch 485 1.14 chopps /* 486 1.14 chopps * clear interrupt 487 1.14 chopps */ 488 1.44 is custom.intreq = INTF_RBF; 489 1.14 chopps 490 1.14 chopps /* 491 1.14 chopps * check for buffer overflow. 492 1.14 chopps */ 493 1.22 chopps if (sbcnt == SERIBUF_SIZE) { 494 1.18 chopps ++sbovfl; 495 1.14 chopps return; 496 1.14 chopps } 497 1.14 chopps /* 498 1.14 chopps * store in buffer 499 1.14 chopps */ 500 1.14 chopps *sbwpt++ = code; 501 1.14 chopps if (sbwpt == serbuf + SERIBUF_SIZE) 502 1.14 chopps sbwpt = serbuf; 503 1.22 chopps ++sbcnt; 504 1.26 chopps if (sbcnt > SERIBUF_SIZE - 20) 505 1.22 chopps CLRRTS(ciab.pra); /* drop RTS if buffer almost full */ 506 1.3 mw } 507 1.3 mw 508 1.3 mw 509 1.31 veego void 510 1.44 is serintr() 511 1.1 mw { 512 1.18 chopps int s1, s2, ovfl; 513 1.44 is struct tty *tp = ser_tty; 514 1.1 mw 515 1.14 chopps /* 516 1.14 chopps * Make sure we're not interrupted by another 517 1.14 chopps * vbl, but allow level5 ints 518 1.14 chopps */ 519 1.14 chopps s1 = spltty(); 520 1.1 mw 521 1.14 chopps /* 522 1.14 chopps * pass along any acumulated information 523 1.14 chopps */ 524 1.22 chopps while (sbcnt > 0 && (tp->t_state & TS_TBLOCK) == 0) { 525 1.14 chopps /* 526 1.14 chopps * no collision with ser_fastint() 527 1.14 chopps */ 528 1.44 is sereint(*sbrpt++); 529 1.14 chopps 530 1.18 chopps ovfl = 0; 531 1.14 chopps /* lock against ser_fastint() */ 532 1.26 chopps s2 = splser(); 533 1.22 chopps sbcnt--; 534 1.14 chopps if (sbrpt == serbuf + SERIBUF_SIZE) 535 1.14 chopps sbrpt = serbuf; 536 1.18 chopps if (sbovfl != 0) { 537 1.18 chopps ovfl = sbovfl; 538 1.18 chopps sbovfl = 0; 539 1.18 chopps } 540 1.14 chopps splx(s2); 541 1.18 chopps if (ovfl != 0) 542 1.21 chopps log(LOG_WARNING, "ser0: %d ring buffer overflows.\n", 543 1.21 chopps ovfl); 544 1.14 chopps } 545 1.33 is s2 = splser(); 546 1.22 chopps if (sbcnt == 0 && (tp->t_state & TS_TBLOCK) == 0) 547 1.22 chopps SETRTS(ciab.pra); /* start accepting data again */ 548 1.33 is splx(s2); 549 1.14 chopps splx(s1); 550 1.1 mw } 551 1.1 mw 552 1.31 veego void 553 1.44 is sereint(stat) 554 1.44 is int stat; 555 1.1 mw { 556 1.14 chopps struct tty *tp; 557 1.14 chopps u_char ch; 558 1.14 chopps int c; 559 1.14 chopps 560 1.44 is tp = ser_tty; 561 1.49 is ch = stat & 0xff; 562 1.14 chopps c = ch; 563 1.14 chopps 564 1.14 chopps if ((tp->t_state & TS_ISOPEN) == 0) { 565 1.1 mw #ifdef KGDB 566 1.14 chopps /* we don't care about parity errors */ 567 1.44 is if (kgdb_dev == makedev(sermajor, 0) && c == FRAME_END) 568 1.14 chopps kgdb_connect(0); /* trap into kgdb */ 569 1.1 mw #endif 570 1.14 chopps return; 571 1.14 chopps } 572 1.14 chopps 573 1.14 chopps /* 574 1.14 chopps * Check for break and (if enabled) parity error. 575 1.14 chopps */ 576 1.14 chopps if ((stat & 0x1ff) == 0) 577 1.14 chopps c |= TTY_FE; 578 1.49 is else if ((tp->t_cflag & PARENB) && 579 1.49 is (((ch >> 7) + even_parity[ch & 0x7f] 580 1.49 is + !!(tp->t_cflag & PARODD)) & 1)) 581 1.14 chopps c |= TTY_PE; 582 1.14 chopps 583 1.14 chopps if (stat & SERDATRF_OVRUN) 584 1.15 chopps log(LOG_WARNING, "ser0: silo overflow\n"); 585 1.1 mw 586 1.14 chopps (*linesw[tp->t_line].l_rint)(c, tp); 587 1.14 chopps } 588 1.14 chopps 589 1.14 chopps /* 590 1.14 chopps * This interrupt is periodically invoked in the vertical blank 591 1.14 chopps * interrupt. It's used to keep track of the modem control lines 592 1.14 chopps * and (new with the fast_int code) to move accumulated data 593 1.14 chopps * up into the tty layer. 594 1.14 chopps */ 595 1.3 mw void 596 1.14 chopps sermint(unit) 597 1.14 chopps int unit; 598 1.1 mw { 599 1.14 chopps struct tty *tp; 600 1.14 chopps u_char stat, last, istat; 601 1.14 chopps 602 1.44 is tp = ser_tty; 603 1.14 chopps if (!tp) 604 1.14 chopps return; 605 1.14 chopps 606 1.44 is /* 607 1.44 is if ((tp->t_state & TS_ISOPEN) == 0 || tp->t_wopen == 0) { 608 1.14 chopps sbrpt = sbwpt = serbuf; 609 1.14 chopps return; 610 1.14 chopps } 611 1.44 is */ 612 1.14 chopps /* 613 1.14 chopps * empty buffer 614 1.14 chopps */ 615 1.44 is serintr(); 616 1.14 chopps 617 1.14 chopps stat = ciab.pra; 618 1.14 chopps last = last_ciab_pra; 619 1.14 chopps last_ciab_pra = stat; 620 1.14 chopps 621 1.14 chopps /* 622 1.14 chopps * check whether any interesting signal changed state 623 1.14 chopps */ 624 1.14 chopps istat = stat ^ last; 625 1.1 mw 626 1.44 is if (istat & serdcd) { 627 1.44 is (*linesw[tp->t_line].l_modem)(tp, ISDCD(stat)); 628 1.14 chopps } 629 1.44 is 630 1.14 chopps if ((istat & CIAB_PRA_CTS) && (tp->t_state & TS_ISOPEN) && 631 1.14 chopps (tp->t_cflag & CRTSCTS)) { 632 1.5 mw #if 0 633 1.14 chopps /* the line is up and we want to do rts/cts flow control */ 634 1.14 chopps if (ISCTS(stat)) { 635 1.14 chopps tp->t_state &= ~TS_TTSTOP; 636 1.14 chopps ttstart(tp); 637 1.14 chopps /* cause tbe-int if we were stuck there */ 638 1.14 chopps custom.intreq = INTF_SETCLR | INTF_TBE; 639 1.14 chopps } else 640 1.14 chopps tp->t_state |= TS_TTSTOP; 641 1.5 mw #else 642 1.14 chopps /* do this on hardware level, not with tty driver */ 643 1.14 chopps if (ISCTS(stat)) { 644 1.14 chopps tp->t_state &= ~TS_TTSTOP; 645 1.14 chopps /* cause TBE interrupt */ 646 1.14 chopps custom.intreq = INTF_SETCLR | INTF_TBE; 647 1.14 chopps } 648 1.14 chopps #endif 649 1.5 mw } 650 1.1 mw } 651 1.1 mw 652 1.5 mw int 653 1.8 chopps serioctl(dev, cmd, data, flag, p) 654 1.24 chopps dev_t dev; 655 1.24 chopps u_long cmd; 656 1.8 chopps caddr_t data; 657 1.24 chopps int flag; 658 1.8 chopps struct proc *p; 659 1.1 mw { 660 1.14 chopps register struct tty *tp; 661 1.14 chopps register int error; 662 1.14 chopps 663 1.44 is tp = ser_tty; 664 1.14 chopps if (!tp) 665 1.14 chopps return ENXIO; 666 1.14 chopps 667 1.14 chopps error = (*linesw[tp->t_line].l_ioctl)(tp, cmd, data, flag, p); 668 1.14 chopps if (error >= 0) 669 1.14 chopps return(error); 670 1.14 chopps 671 1.14 chopps error = ttioctl(tp, cmd, data, flag, p); 672 1.14 chopps if (error >= 0) 673 1.14 chopps return(error); 674 1.14 chopps 675 1.14 chopps switch (cmd) { 676 1.14 chopps case TIOCSBRK: 677 1.14 chopps custom.adkcon = ADKCONF_SETCLR | ADKCONF_UARTBRK; 678 1.14 chopps break; 679 1.14 chopps 680 1.14 chopps case TIOCCBRK: 681 1.14 chopps custom.adkcon = ADKCONF_UARTBRK; 682 1.14 chopps break; 683 1.14 chopps 684 1.14 chopps case TIOCSDTR: 685 1.44 is (void) sermctl(dev, TIOCM_DTR, DMBIS); 686 1.14 chopps break; 687 1.14 chopps 688 1.14 chopps case TIOCCDTR: 689 1.44 is (void) sermctl(dev, TIOCM_DTR, DMBIC); 690 1.14 chopps break; 691 1.14 chopps 692 1.14 chopps case TIOCMSET: 693 1.14 chopps (void) sermctl(dev, *(int *) data, DMSET); 694 1.14 chopps break; 695 1.14 chopps 696 1.14 chopps case TIOCMBIS: 697 1.14 chopps (void) sermctl(dev, *(int *) data, DMBIS); 698 1.14 chopps break; 699 1.14 chopps 700 1.14 chopps case TIOCMBIC: 701 1.14 chopps (void) sermctl(dev, *(int *) data, DMBIC); 702 1.14 chopps break; 703 1.14 chopps 704 1.14 chopps case TIOCMGET: 705 1.14 chopps *(int *)data = sermctl(dev, 0, DMGET); 706 1.14 chopps break; 707 1.14 chopps case TIOCGFLAGS: 708 1.44 is *(int *)data = serswflags; 709 1.14 chopps break; 710 1.14 chopps case TIOCSFLAGS: 711 1.14 chopps error = suser(p->p_ucred, &p->p_acflag); 712 1.14 chopps if (error != 0) 713 1.14 chopps return(EPERM); 714 1.14 chopps 715 1.14 chopps serswflags = *(int *)data; 716 1.14 chopps serswflags &= /* only allow valid flags */ 717 1.14 chopps (TIOCFLAG_SOFTCAR | TIOCFLAG_CLOCAL | TIOCFLAG_CRTSCTS); 718 1.14 chopps break; 719 1.14 chopps default: 720 1.14 chopps return(ENOTTY); 721 1.14 chopps } 722 1.1 mw 723 1.14 chopps return(0); 724 1.1 mw } 725 1.1 mw 726 1.5 mw int 727 1.1 mw serparam(tp, t) 728 1.14 chopps struct tty *tp; 729 1.14 chopps struct termios *t; 730 1.1 mw { 731 1.44 is int cflag, ospeed = 0; 732 1.14 chopps 733 1.32 is if (t->c_ospeed > 0) { 734 1.32 is if (t->c_ospeed < 110) 735 1.32 is return(EINVAL); 736 1.32 is ospeed = SERBRD(t->c_ospeed); 737 1.32 is } 738 1.32 is 739 1.32 is if (t->c_ispeed && t->c_ispeed != t->c_ospeed) 740 1.14 chopps return(EINVAL); 741 1.14 chopps 742 1.44 is /* XXX missing here: console test */ 743 1.44 is if (serswflags & TIOCFLAG_SOFTCAR) { 744 1.44 is t->c_cflag = (t->c_cflag & ~HUPCL) | CLOCAL; 745 1.44 is } 746 1.44 is 747 1.44 is /* if no changes, dont do anything. com.c explains why. */ 748 1.44 is if (tp->t_ospeed == t->c_ospeed && 749 1.44 is tp->t_cflag == t->c_cflag) 750 1.44 is return (0); 751 1.44 is 752 1.44 is cflag = t->c_cflag; 753 1.44 is 754 1.44 is if (cflag & (CLOCAL | MDMBUF)) 755 1.44 is serdcd = 0; 756 1.44 is else 757 1.44 is serdcd = CIAB_PRA_CD; 758 1.44 is 759 1.44 is /* TODO: support multiple flow control protocols like com.c */ 760 1.44 is 761 1.14 chopps /* 762 1.14 chopps * copy to tty 763 1.14 chopps */ 764 1.14 chopps tp->t_ispeed = t->c_ispeed; 765 1.14 chopps tp->t_ospeed = t->c_ospeed; 766 1.14 chopps tp->t_cflag = cflag; 767 1.42 mhitch ser_open_speed = tp->t_ispeed; 768 1.14 chopps 769 1.14 chopps /* 770 1.14 chopps * enable interrupts 771 1.14 chopps */ 772 1.14 chopps custom.intena = INTF_SETCLR | INTF_RBF | INTF_TBE; 773 1.14 chopps last_ciab_pra = ciab.pra; 774 1.14 chopps 775 1.32 is if (t->c_ospeed == 0) 776 1.14 chopps (void)sermctl(tp->t_dev, 0, DMSET); /* hang up line */ 777 1.14 chopps else { 778 1.14 chopps /* 779 1.14 chopps * (re)enable DTR 780 1.14 chopps * and set baud rate. (8 bit mode) 781 1.14 chopps */ 782 1.45 is (void)sermctl(tp->t_dev, TIOCM_DTR, DMSET); 783 1.14 chopps custom.serper = (0 << 15) | ospeed; 784 1.14 chopps } 785 1.45 is (void)(*linesw[tp->t_line].l_modem)(tp, ISDCD(last_ciab_pra)); 786 1.45 is 787 1.14 chopps return(0); 788 1.1 mw } 789 1.3 mw 790 1.22 chopps int serhwiflow(tp, flag) 791 1.22 chopps struct tty *tp; 792 1.22 chopps int flag; 793 1.22 chopps { 794 1.22 chopps #if 0 795 1.38 christos printf ("serhwiflow %d\n", flag); 796 1.22 chopps #endif 797 1.22 chopps if (flag) 798 1.22 chopps CLRRTS(ciab.pra); 799 1.22 chopps else 800 1.22 chopps SETRTS(ciab.pra); 801 1.22 chopps return 1; 802 1.22 chopps } 803 1.3 mw 804 1.3 mw static void 805 1.14 chopps ser_putchar(tp, c) 806 1.14 chopps struct tty *tp; 807 1.14 chopps u_short c; 808 1.14 chopps { 809 1.49 is if ((tp->t_cflag & CSIZE) == CS7 || (tp->t_cflag & PARENB)) 810 1.49 is c &= 0x7f; 811 1.14 chopps 812 1.14 chopps /* 813 1.14 chopps * handle parity if necessary 814 1.14 chopps */ 815 1.49 is if (tp->t_cflag & PARENB) { 816 1.14 chopps if (even_parity[c]) 817 1.49 is c |= 0x80; 818 1.49 is if (tp->t_cflag & PARODD) 819 1.49 is c ^= 0x80; 820 1.14 chopps } 821 1.14 chopps /* 822 1.14 chopps * add stop bit(s) 823 1.14 chopps */ 824 1.49 is if (tp->t_cflag & CSTOPB) 825 1.49 is c |= 0x300; 826 1.49 is else 827 1.49 is c |= 0x100; 828 1.14 chopps 829 1.14 chopps custom.serdat = c; 830 1.3 mw } 831 1.3 mw 832 1.3 mw 833 1.3 mw static u_char ser_outbuf[SEROBUF_SIZE]; 834 1.14 chopps static u_char *sob_ptr = ser_outbuf, *sob_end = ser_outbuf; 835 1.14 chopps 836 1.3 mw void 837 1.14 chopps ser_outintr() 838 1.3 mw { 839 1.44 is struct tty *tp; 840 1.14 chopps int s; 841 1.14 chopps 842 1.44 is tp = ser_tty; 843 1.14 chopps s = spltty(); 844 1.14 chopps 845 1.14 chopps if (tp == 0) 846 1.14 chopps goto out; 847 1.14 chopps 848 1.14 chopps if ((custom.intreqr & INTF_TBE) == 0) 849 1.14 chopps goto out; 850 1.14 chopps 851 1.14 chopps /* 852 1.14 chopps * clear interrupt 853 1.14 chopps */ 854 1.14 chopps custom.intreq = INTF_TBE; 855 1.14 chopps 856 1.14 chopps if (sob_ptr == sob_end) { 857 1.14 chopps tp->t_state &= ~(TS_BUSY | TS_FLUSH); 858 1.14 chopps if (tp->t_line) 859 1.14 chopps (*linesw[tp->t_line].l_start)(tp); 860 1.14 chopps else 861 1.14 chopps serstart(tp); 862 1.14 chopps goto out; 863 1.14 chopps } 864 1.14 chopps 865 1.14 chopps /* 866 1.14 chopps * Do hardware flow control here. if the CTS line goes down, don't 867 1.14 chopps * transmit anything. That way, we'll be restarted by the periodic 868 1.14 chopps * interrupt when CTS comes back up. 869 1.14 chopps */ 870 1.14 chopps if (ISCTS(ciab.pra)) 871 1.14 chopps ser_putchar(tp, *sob_ptr++); 872 1.22 chopps else 873 1.22 chopps CLRCTS(last_ciab_pra); /* Remember that CTS is off */ 874 1.5 mw out: 875 1.14 chopps splx(s); 876 1.3 mw } 877 1.14 chopps 878 1.31 veego void 879 1.1 mw serstart(tp) 880 1.14 chopps struct tty *tp; 881 1.1 mw { 882 1.44 is int cc, s, hiwat; 883 1.44 is #ifdef DIAGNOSTIC 884 1.44 is int unit; 885 1.44 is #endif 886 1.14 chopps 887 1.14 chopps hiwat = 0; 888 1.14 chopps 889 1.14 chopps if ((tp->t_state & TS_ISOPEN) == 0) 890 1.14 chopps return; 891 1.14 chopps 892 1.44 is #ifdef DIAGNOSTIC 893 1.14 chopps unit = SERUNIT(tp->t_dev); 894 1.44 is if (unit) 895 1.44 is panic("serstart: unit is %d\n", unit); 896 1.44 is #endif 897 1.1 mw 898 1.14 chopps s = spltty(); 899 1.14 chopps if (tp->t_state & (TS_TIMEOUT | TS_TTSTOP)) 900 1.14 chopps goto out; 901 1.14 chopps 902 1.14 chopps cc = tp->t_outq.c_cc; 903 1.14 chopps if (cc <= tp->t_lowat) { 904 1.14 chopps if (tp->t_state & TS_ASLEEP) { 905 1.14 chopps tp->t_state &= ~TS_ASLEEP; 906 1.14 chopps wakeup((caddr_t) & tp->t_outq); 907 1.14 chopps } 908 1.14 chopps selwakeup(&tp->t_wsel); 909 1.14 chopps } 910 1.14 chopps if (cc == 0 || (tp->t_state & TS_BUSY)) 911 1.14 chopps goto out; 912 1.14 chopps 913 1.14 chopps /* 914 1.14 chopps * We only do bulk transfers if using CTSRTS flow control, not for 915 1.14 chopps * (probably sloooow) ixon/ixoff devices. 916 1.14 chopps */ 917 1.14 chopps if ((tp->t_cflag & CRTSCTS) == 0) 918 1.14 chopps cc = 1; 919 1.14 chopps 920 1.14 chopps /* 921 1.14 chopps * Limit the amount of output we do in one burst 922 1.14 chopps * to prevent hogging the CPU. 923 1.14 chopps */ 924 1.14 chopps if (cc > SEROBUF_SIZE) { 925 1.14 chopps hiwat++; 926 1.14 chopps cc = SEROBUF_SIZE; 927 1.14 chopps } 928 1.14 chopps cc = q_to_b(&tp->t_outq, ser_outbuf, cc); 929 1.14 chopps if (cc > 0) { 930 1.14 chopps tp->t_state |= TS_BUSY; 931 1.14 chopps 932 1.14 chopps sob_ptr = ser_outbuf; 933 1.14 chopps sob_end = ser_outbuf + cc; 934 1.14 chopps 935 1.14 chopps /* 936 1.14 chopps * Get first character out, then have TBE-interrupts blow out 937 1.14 chopps * further characters, until buffer is empty, and TS_BUSY gets 938 1.14 chopps * cleared. 939 1.14 chopps */ 940 1.14 chopps ser_putchar(tp, *sob_ptr++); 941 1.14 chopps } 942 1.14 chopps out: 943 1.14 chopps splx(s); 944 1.1 mw } 945 1.14 chopps 946 1.1 mw /* 947 1.1 mw * Stop output on a line. 948 1.1 mw */ 949 1.1 mw /*ARGSUSED*/ 950 1.36 mycroft void 951 1.1 mw serstop(tp, flag) 952 1.14 chopps struct tty *tp; 953 1.31 veego int flag; 954 1.1 mw { 955 1.14 chopps int s; 956 1.1 mw 957 1.14 chopps s = spltty(); 958 1.14 chopps if (tp->t_state & TS_BUSY) { 959 1.14 chopps if ((tp->t_state & TS_TTSTOP) == 0) 960 1.14 chopps tp->t_state |= TS_FLUSH; 961 1.14 chopps } 962 1.14 chopps splx(s); 963 1.1 mw } 964 1.14 chopps 965 1.5 mw int 966 1.1 mw sermctl(dev, bits, how) 967 1.14 chopps dev_t dev; 968 1.14 chopps int bits, how; 969 1.1 mw { 970 1.44 is int s; 971 1.31 veego u_char ub = 0; 972 1.14 chopps 973 1.14 chopps /* 974 1.14 chopps * convert TIOCM* mask into CIA mask 975 1.14 chopps * which is active low 976 1.14 chopps */ 977 1.14 chopps if (how != DMGET) { 978 1.14 chopps ub = 0; 979 1.14 chopps if (bits & TIOCM_DTR) 980 1.14 chopps ub |= CIAB_PRA_DTR; 981 1.14 chopps if (bits & TIOCM_RTS) 982 1.14 chopps ub |= CIAB_PRA_RTS; 983 1.14 chopps if (bits & TIOCM_CTS) 984 1.14 chopps ub |= CIAB_PRA_CTS; 985 1.14 chopps if (bits & TIOCM_CD) 986 1.14 chopps ub |= CIAB_PRA_CD; 987 1.14 chopps if (bits & TIOCM_RI) 988 1.14 chopps ub |= CIAB_PRA_SEL; /* collision with /dev/par ! */ 989 1.14 chopps if (bits & TIOCM_DSR) 990 1.14 chopps ub |= CIAB_PRA_DSR; 991 1.14 chopps } 992 1.14 chopps s = spltty(); 993 1.14 chopps switch (how) { 994 1.14 chopps case DMSET: 995 1.14 chopps /* invert and set */ 996 1.14 chopps ciab.pra = ~ub; 997 1.14 chopps break; 998 1.14 chopps 999 1.14 chopps case DMBIC: 1000 1.14 chopps ciab.pra |= ub; 1001 1.14 chopps ub = ~ciab.pra; 1002 1.14 chopps break; 1003 1.14 chopps 1004 1.14 chopps case DMBIS: 1005 1.14 chopps ciab.pra &= ~ub; 1006 1.14 chopps ub = ~ciab.pra; 1007 1.14 chopps break; 1008 1.14 chopps 1009 1.14 chopps case DMGET: 1010 1.14 chopps ub = ~ciab.pra; 1011 1.14 chopps break; 1012 1.14 chopps } 1013 1.14 chopps (void)splx(s); 1014 1.14 chopps 1015 1.14 chopps bits = 0; 1016 1.14 chopps if (ub & CIAB_PRA_DTR) 1017 1.14 chopps bits |= TIOCM_DTR; 1018 1.14 chopps if (ub & CIAB_PRA_RTS) 1019 1.14 chopps bits |= TIOCM_RTS; 1020 1.14 chopps if (ub & CIAB_PRA_CTS) 1021 1.14 chopps bits |= TIOCM_CTS; 1022 1.14 chopps if (ub & CIAB_PRA_CD) 1023 1.14 chopps bits |= TIOCM_CD; 1024 1.14 chopps if (ub & CIAB_PRA_SEL) 1025 1.14 chopps bits |= TIOCM_RI; 1026 1.14 chopps if (ub & CIAB_PRA_DSR) 1027 1.14 chopps bits |= TIOCM_DSR; 1028 1.14 chopps 1029 1.14 chopps return(bits); 1030 1.1 mw } 1031 1.1 mw 1032 1.1 mw /* 1033 1.1 mw * Following are all routines needed for SER to act as console 1034 1.1 mw */ 1035 1.31 veego void 1036 1.1 mw sercnprobe(cp) 1037 1.1 mw struct consdev *cp; 1038 1.1 mw { 1039 1.44 is int unit; 1040 1.14 chopps 1041 1.14 chopps /* locate the major number */ 1042 1.14 chopps for (sermajor = 0; sermajor < nchrdev; sermajor++) 1043 1.14 chopps if (cdevsw[sermajor].d_open == (void *)seropen) 1044 1.14 chopps break; 1045 1.14 chopps 1046 1.14 chopps 1047 1.14 chopps unit = CONUNIT; /* XXX: ick */ 1048 1.14 chopps 1049 1.14 chopps /* 1050 1.14 chopps * initialize required fields 1051 1.14 chopps */ 1052 1.14 chopps cp->cn_dev = makedev(sermajor, unit); 1053 1.14 chopps if (serconsole == unit) 1054 1.14 chopps cp->cn_pri = CN_REMOTE; 1055 1.14 chopps else 1056 1.14 chopps cp->cn_pri = CN_NORMAL; 1057 1.1 mw #ifdef KGDB 1058 1.14 chopps if (major(kgdb_dev) == 1) /* XXX */ 1059 1.14 chopps kgdb_dev = makedev(sermajor, minor(kgdb_dev)); 1060 1.1 mw #endif 1061 1.1 mw } 1062 1.1 mw 1063 1.31 veego void 1064 1.1 mw sercninit(cp) 1065 1.1 mw struct consdev *cp; 1066 1.1 mw { 1067 1.14 chopps int unit; 1068 1.1 mw 1069 1.14 chopps unit = SERUNIT(cp->cn_dev); 1070 1.14 chopps 1071 1.44 is serinit(serdefaultrate); 1072 1.14 chopps serconsole = unit; 1073 1.14 chopps serconsinit = 1; 1074 1.1 mw } 1075 1.1 mw 1076 1.31 veego void 1077 1.44 is serinit(rate) 1078 1.44 is int rate; 1079 1.1 mw { 1080 1.14 chopps int s; 1081 1.1 mw 1082 1.26 chopps s = splser(); 1083 1.14 chopps /* 1084 1.14 chopps * might want to fiddle with the CIA later ??? 1085 1.14 chopps */ 1086 1.32 is custom.serper = (rate>=110 ? SERBRD(rate) : 0); 1087 1.14 chopps splx(s); 1088 1.1 mw } 1089 1.1 mw 1090 1.31 veego int 1091 1.1 mw sercngetc(dev) 1092 1.31 veego dev_t dev; 1093 1.1 mw { 1094 1.14 chopps u_short stat; 1095 1.14 chopps int c, s; 1096 1.1 mw 1097 1.26 chopps s = splser(); 1098 1.14 chopps /* 1099 1.14 chopps * poll 1100 1.14 chopps */ 1101 1.14 chopps while (((stat = custom.serdatr & 0xffff) & SERDATRF_RBF) == 0) 1102 1.14 chopps ; 1103 1.14 chopps c = stat & 0xff; 1104 1.14 chopps /* 1105 1.14 chopps * clear interrupt 1106 1.14 chopps */ 1107 1.14 chopps custom.intreq = INTF_RBF; 1108 1.14 chopps splx(s); 1109 1.14 chopps return(c); 1110 1.1 mw } 1111 1.1 mw 1112 1.1 mw /* 1113 1.1 mw * Console kernel output character routine. 1114 1.1 mw */ 1115 1.31 veego void 1116 1.1 mw sercnputc(dev, c) 1117 1.14 chopps dev_t dev; 1118 1.14 chopps int c; 1119 1.1 mw { 1120 1.14 chopps register int timo; 1121 1.14 chopps int s; 1122 1.14 chopps 1123 1.14 chopps s = splhigh(); 1124 1.1 mw 1125 1.14 chopps if (serconsinit == 0) { 1126 1.44 is (void)serinit(serdefaultrate); 1127 1.14 chopps serconsinit = 1; 1128 1.14 chopps } 1129 1.14 chopps 1130 1.14 chopps /* 1131 1.14 chopps * wait for any pending transmission to finish 1132 1.14 chopps */ 1133 1.14 chopps timo = 50000; 1134 1.14 chopps while (!(custom.serdatr & SERDATRF_TBE) && --timo); 1135 1.14 chopps 1136 1.14 chopps /* 1137 1.14 chopps * transmit char. 1138 1.14 chopps */ 1139 1.14 chopps custom.serdat = (c & 0xff) | 0x100; 1140 1.14 chopps 1141 1.14 chopps /* 1142 1.14 chopps * wait for this transmission to complete 1143 1.14 chopps */ 1144 1.14 chopps timo = 1500000; 1145 1.14 chopps while (!(custom.serdatr & SERDATRF_TBE) && --timo) 1146 1.14 chopps ; 1147 1.14 chopps 1148 1.14 chopps /* 1149 1.14 chopps * Wait for the device (my vt100..) to process the data, since we 1150 1.14 chopps * don't do flow-control with cnputc 1151 1.14 chopps */ 1152 1.14 chopps for (timo = 0; timo < 30000; timo++) 1153 1.14 chopps ; 1154 1.14 chopps 1155 1.14 chopps /* 1156 1.14 chopps * clear any interrupts generated by this transmission 1157 1.14 chopps */ 1158 1.14 chopps custom.intreq = INTF_TBE; 1159 1.14 chopps splx(s); 1160 1.25 chopps } 1161 1.25 chopps 1162 1.25 chopps void 1163 1.25 chopps sercnpollc(dev, on) 1164 1.25 chopps dev_t dev; 1165 1.25 chopps int on; 1166 1.25 chopps { 1167 1.1 mw } 1168 1.1 mw #endif 1169
Indexes created Mon Sep 22 13:09:51 GMT 2025