dhu.c revision 1.24.4.1
1 1.24.4.1 fvdl /* $NetBSD: dhu.c,v 1.24.4.1 2001/10/10 11:56:58 fvdl Exp $ */ 2 1.1 ragge /* 3 1.1 ragge * Copyright (c) 1996 Ken C. Wellsch. All rights reserved. 4 1.1 ragge * Copyright (c) 1992, 1993 5 1.1 ragge * The Regents of the University of California. All rights reserved. 6 1.1 ragge * 7 1.1 ragge * This code is derived from software contributed to Berkeley by 8 1.1 ragge * Ralph Campbell and Rick Macklem. 9 1.1 ragge * 10 1.1 ragge * Redistribution and use in source and binary forms, with or without 11 1.1 ragge * modification, are permitted provided that the following conditions 12 1.1 ragge * are met: 13 1.1 ragge * 1. Redistributions of source code must retain the above copyright 14 1.1 ragge * notice, this list of conditions and the following disclaimer. 15 1.1 ragge * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 ragge * notice, this list of conditions and the following disclaimer in the 17 1.1 ragge * documentation and/or other materials provided with the distribution. 18 1.1 ragge * 3. All advertising materials mentioning features or use of this software 19 1.1 ragge * must display the following acknowledgement: 20 1.1 ragge * This product includes software developed by the University of 21 1.1 ragge * California, Berkeley and its contributors. 22 1.1 ragge * 4. Neither the name of the University nor the names of its contributors 23 1.1 ragge * may be used to endorse or promote products derived from this software 24 1.1 ragge * without specific prior written permission. 25 1.1 ragge * 26 1.1 ragge * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 27 1.1 ragge * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 28 1.1 ragge * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 29 1.1 ragge * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 30 1.1 ragge * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 31 1.1 ragge * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 32 1.1 ragge * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 33 1.1 ragge * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 34 1.1 ragge * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 35 1.1 ragge * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 36 1.1 ragge * SUCH DAMAGE. 37 1.1 ragge */ 38 1.1 ragge 39 1.1 ragge #include <sys/param.h> 40 1.1 ragge #include <sys/systm.h> 41 1.1 ragge #include <sys/ioctl.h> 42 1.1 ragge #include <sys/tty.h> 43 1.1 ragge #include <sys/proc.h> 44 1.1 ragge #include <sys/map.h> 45 1.1 ragge #include <sys/buf.h> 46 1.1 ragge #include <sys/conf.h> 47 1.1 ragge #include <sys/file.h> 48 1.1 ragge #include <sys/uio.h> 49 1.1 ragge #include <sys/kernel.h> 50 1.1 ragge #include <sys/syslog.h> 51 1.1 ragge #include <sys/device.h> 52 1.24.4.1 fvdl #include <sys/vnode.h> 53 1.1 ragge 54 1.15 ragge #include <machine/bus.h> 55 1.13 ragge #include <machine/scb.h> 56 1.1 ragge 57 1.15 ragge #include <dev/qbus/ubavar.h> 58 1.15 ragge 59 1.15 ragge #include <dev/qbus/dhureg.h> 60 1.15 ragge 61 1.15 ragge #include "ioconf.h" 62 1.1 ragge 63 1.5 ragge /* A DHU-11 has 16 ports while a DHV-11 has only 8. We use 16 by default */ 64 1.1 ragge 65 1.5 ragge #define NDHULINE 16 66 1.2 ragge 67 1.5 ragge #define DHU_M2U(c) ((c)>>4) /* convert minor(dev) to unit # */ 68 1.5 ragge #define DHU_LINE(u) ((u)&0xF) /* extract line # from minor(dev) */ 69 1.2 ragge 70 1.5 ragge struct dhu_softc { 71 1.5 ragge struct device sc_dev; /* Device struct used by config */ 72 1.19 matt struct evcnt sc_rintrcnt; /* Interrupt statistics */ 73 1.19 matt struct evcnt sc_tintrcnt; /* Interrupt statistics */ 74 1.5 ragge int sc_type; /* controller type, DHU or DHV */ 75 1.15 ragge bus_space_tag_t sc_iot; 76 1.15 ragge bus_space_handle_t sc_ioh; 77 1.16 ragge bus_dma_tag_t sc_dmat; 78 1.5 ragge struct { 79 1.5 ragge struct tty *dhu_tty; /* what we work on */ 80 1.16 ragge bus_dmamap_t dhu_dmah; 81 1.5 ragge int dhu_state; /* to manage TX output status */ 82 1.5 ragge short dhu_cc; /* character count on TX */ 83 1.5 ragge short dhu_modem; /* modem bits state */ 84 1.5 ragge } sc_dhu[NDHULINE]; 85 1.1 ragge }; 86 1.1 ragge 87 1.5 ragge #define IS_DHU 16 /* Unibus DHU-11 board linecount */ 88 1.5 ragge #define IS_DHV 8 /* Q-bus DHV-11 or DHQ-11 */ 89 1.2 ragge 90 1.2 ragge #define STATE_IDLE 000 /* no current output in progress */ 91 1.2 ragge #define STATE_DMA_RUNNING 001 /* DMA TX in progress */ 92 1.2 ragge #define STATE_DMA_STOPPED 002 /* DMA TX was aborted */ 93 1.2 ragge #define STATE_TX_ONE_CHAR 004 /* did a single char directly */ 94 1.2 ragge 95 1.2 ragge /* Flags used to monitor modem bits, make them understood outside driver */ 96 1.2 ragge 97 1.2 ragge #define DML_DTR TIOCM_DTR 98 1.2 ragge #define DML_RTS TIOCM_RTS 99 1.2 ragge #define DML_CTS TIOCM_CTS 100 1.2 ragge #define DML_DCD TIOCM_CD 101 1.2 ragge #define DML_RI TIOCM_RI 102 1.2 ragge #define DML_DSR TIOCM_DSR 103 1.2 ragge #define DML_BRK 0100000 /* no equivalent, we will mask */ 104 1.2 ragge 105 1.15 ragge #define DHU_READ_WORD(reg) \ 106 1.15 ragge bus_space_read_2(sc->sc_iot, sc->sc_ioh, reg) 107 1.15 ragge #define DHU_WRITE_WORD(reg, val) \ 108 1.15 ragge bus_space_write_2(sc->sc_iot, sc->sc_ioh, reg, val) 109 1.15 ragge #define DHU_READ_BYTE(reg) \ 110 1.15 ragge bus_space_read_1(sc->sc_iot, sc->sc_ioh, reg) 111 1.15 ragge #define DHU_WRITE_BYTE(reg, val) \ 112 1.15 ragge bus_space_write_1(sc->sc_iot, sc->sc_ioh, reg, val) 113 1.15 ragge 114 1.15 ragge 115 1.1 ragge /* On a stock DHV, channel pairs (0/1, 2/3, etc.) must use */ 116 1.1 ragge /* a baud rate from the same group. So limiting to B is likely */ 117 1.1 ragge /* best, although clone boards like the ABLE QHV allow all settings. */ 118 1.1 ragge 119 1.5 ragge static struct speedtab dhuspeedtab[] = { 120 1.1 ragge { 0, 0 }, /* Groups */ 121 1.1 ragge { 50, DHU_LPR_B50 }, /* A */ 122 1.1 ragge { 75, DHU_LPR_B75 }, /* B */ 123 1.1 ragge { 110, DHU_LPR_B110 }, /* A and B */ 124 1.1 ragge { 134, DHU_LPR_B134 }, /* A and B */ 125 1.1 ragge { 150, DHU_LPR_B150 }, /* B */ 126 1.1 ragge { 300, DHU_LPR_B300 }, /* A and B */ 127 1.1 ragge { 600, DHU_LPR_B600 }, /* A and B */ 128 1.1 ragge { 1200, DHU_LPR_B1200 }, /* A and B */ 129 1.1 ragge { 1800, DHU_LPR_B1800 }, /* B */ 130 1.1 ragge { 2000, DHU_LPR_B2000 }, /* B */ 131 1.1 ragge { 2400, DHU_LPR_B2400 }, /* A and B */ 132 1.1 ragge { 4800, DHU_LPR_B4800 }, /* A and B */ 133 1.1 ragge { 7200, DHU_LPR_B7200 }, /* A */ 134 1.1 ragge { 9600, DHU_LPR_B9600 }, /* A and B */ 135 1.1 ragge { 19200, DHU_LPR_B19200 }, /* B */ 136 1.1 ragge { 38400, DHU_LPR_B38400 }, /* A */ 137 1.1 ragge { -1, -1 } 138 1.1 ragge }; 139 1.1 ragge 140 1.11 ragge static int dhu_match __P((struct device *, struct cfdata *, void *)); 141 1.1 ragge static void dhu_attach __P((struct device *, struct device *, void *)); 142 1.17 matt static void dhurint __P((void *)); 143 1.17 matt static void dhuxint __P((void *)); 144 1.2 ragge static void dhustart __P((struct tty *)); 145 1.2 ragge static int dhuparam __P((struct tty *, struct termios *)); 146 1.2 ragge static int dhuiflow __P((struct tty *, int)); 147 1.5 ragge static unsigned dhumctl __P((struct dhu_softc *,int, int, int)); 148 1.24 ragge 149 1.24 ragge cdev_decl(dhu); 150 1.1 ragge 151 1.5 ragge struct cfattach dhu_ca = { 152 1.5 ragge sizeof(struct dhu_softc), dhu_match, dhu_attach 153 1.5 ragge }; 154 1.10 thorpej 155 1.1 ragge /* Autoconfig handles: setup the controller to interrupt, */ 156 1.1 ragge /* then complete the housecleaning for full operation */ 157 1.1 ragge 158 1.1 ragge static int 159 1.11 ragge dhu_match(parent, cf, aux) 160 1.1 ragge struct device *parent; 161 1.11 ragge struct cfdata *cf; 162 1.11 ragge void *aux; 163 1.1 ragge { 164 1.1 ragge struct uba_attach_args *ua = aux; 165 1.18 augustss int n; 166 1.1 ragge 167 1.2 ragge /* Reset controller to initialize, enable TX/RX interrupts */ 168 1.1 ragge /* to catch floating vector info elsewhere when completed */ 169 1.1 ragge 170 1.15 ragge bus_space_write_2(ua->ua_iot, ua->ua_ioh, DHU_UBA_CSR, 171 1.15 ragge DHU_CSR_MASTER_RESET | DHU_CSR_RXIE | DHU_CSR_TXIE); 172 1.1 ragge 173 1.1 ragge /* Now wait up to 3 seconds for self-test to complete. */ 174 1.1 ragge 175 1.1 ragge for (n = 0; n < 300; n++) { 176 1.1 ragge DELAY(10000); 177 1.15 ragge if ((bus_space_read_2(ua->ua_iot, ua->ua_ioh, DHU_UBA_CSR) & 178 1.15 ragge DHU_CSR_MASTER_RESET) == 0) 179 1.1 ragge break; 180 1.1 ragge } 181 1.1 ragge 182 1.1 ragge /* If the RESET did not clear after 3 seconds, */ 183 1.1 ragge /* the controller must be broken. */ 184 1.1 ragge 185 1.2 ragge if (n >= 300) 186 1.1 ragge return 0; 187 1.1 ragge 188 1.1 ragge /* Check whether diagnostic run has signalled a failure. */ 189 1.1 ragge 190 1.15 ragge if ((bus_space_read_2(ua->ua_iot, ua->ua_ioh, DHU_UBA_CSR) & 191 1.15 ragge DHU_CSR_DIAG_FAIL) != 0) 192 1.1 ragge return 0; 193 1.1 ragge 194 1.1 ragge return 1; 195 1.1 ragge } 196 1.1 ragge 197 1.1 ragge static void 198 1.5 ragge dhu_attach(parent, self, aux) 199 1.1 ragge struct device *parent, *self; 200 1.1 ragge void *aux; 201 1.1 ragge { 202 1.18 augustss struct dhu_softc *sc = (void *)self; 203 1.18 augustss struct uba_attach_args *ua = aux; 204 1.18 augustss unsigned c; 205 1.18 augustss int n, i; 206 1.1 ragge 207 1.15 ragge sc->sc_iot = ua->ua_iot; 208 1.15 ragge sc->sc_ioh = ua->ua_ioh; 209 1.16 ragge sc->sc_dmat = ua->ua_dmat; 210 1.1 ragge /* Process the 8 bytes of diagnostic info put into */ 211 1.1 ragge /* the FIFO following the master reset operation. */ 212 1.1 ragge 213 1.8 christos printf("\n%s:", self->dv_xname); 214 1.1 ragge for (n = 0; n < 8; n++) { 215 1.15 ragge c = DHU_READ_WORD(DHU_UBA_RBUF); 216 1.1 ragge 217 1.2 ragge if ((c&DHU_DIAG_CODE) == DHU_DIAG_CODE) { 218 1.2 ragge if ((c&0200) == 0000) 219 1.8 christos printf(" rom(%d) version %d", 220 1.1 ragge ((c>>1)&01), ((c>>2)&037)); 221 1.2 ragge else if (((c>>2)&07) != 0) 222 1.8 christos printf(" diag-error(proc%d)=%x", 223 1.1 ragge ((c>>1)&01), ((c>>2)&07)); 224 1.1 ragge } 225 1.1 ragge } 226 1.1 ragge 227 1.15 ragge c = DHU_READ_WORD(DHU_UBA_STAT); 228 1.2 ragge 229 1.5 ragge sc->sc_type = (c & DHU_STAT_DHU)? IS_DHU: IS_DHV; 230 1.15 ragge printf("\n%s: DH%s-11\n", self->dv_xname, (c & DHU_STAT_DHU)?"U":"V"); 231 1.1 ragge 232 1.16 ragge for (i = 0; i < sc->sc_type; i++) { 233 1.16 ragge struct tty *tp; 234 1.16 ragge tp = sc->sc_dhu[i].dhu_tty = ttymalloc(); 235 1.16 ragge sc->sc_dhu[i].dhu_state = STATE_IDLE; 236 1.16 ragge bus_dmamap_create(sc->sc_dmat, tp->t_outq.c_cn, 1, 237 1.16 ragge tp->t_outq.c_cn, 0, BUS_DMA_ALLOCNOW|BUS_DMA_NOWAIT, 238 1.16 ragge &sc->sc_dhu[i].dhu_dmah); 239 1.16 ragge bus_dmamap_load(sc->sc_dmat, sc->sc_dhu[i].dhu_dmah, 240 1.16 ragge tp->t_outq.c_cs, tp->t_outq.c_cn, 0, BUS_DMA_NOWAIT); 241 1.16 ragge 242 1.16 ragge } 243 1.16 ragge 244 1.17 matt /* Now establish RX & TX interrupt handlers */ 245 1.17 matt 246 1.19 matt uba_intr_establish(ua->ua_icookie, ua->ua_cvec, 247 1.19 matt dhurint, sc, &sc->sc_rintrcnt); 248 1.19 matt uba_intr_establish(ua->ua_icookie, ua->ua_cvec + 4, 249 1.19 matt dhuxint, sc, &sc->sc_tintrcnt); 250 1.20 matt evcnt_attach_dynamic(&sc->sc_rintrcnt, EVCNT_TYPE_INTR, ua->ua_evcnt, 251 1.20 matt sc->sc_dev.dv_xname, "rintr"); 252 1.20 matt evcnt_attach_dynamic(&sc->sc_tintrcnt, EVCNT_TYPE_INTR, ua->ua_evcnt, 253 1.20 matt sc->sc_dev.dv_xname, "tintr"); 254 1.1 ragge } 255 1.1 ragge 256 1.2 ragge /* Receiver Interrupt */ 257 1.2 ragge 258 1.1 ragge static void 259 1.17 matt dhurint(arg) 260 1.17 matt void *arg; 261 1.1 ragge { 262 1.17 matt struct dhu_softc *sc = arg; 263 1.18 augustss struct tty *tp; 264 1.18 augustss int cc, line; 265 1.18 augustss unsigned c, delta; 266 1.1 ragge int overrun = 0; 267 1.2 ragge 268 1.15 ragge while ((c = DHU_READ_WORD(DHU_UBA_RBUF)) & DHU_RBUF_DATA_VALID) { 269 1.1 ragge 270 1.1 ragge /* Ignore diagnostic FIFO entries. */ 271 1.1 ragge 272 1.5 ragge if ((c & DHU_DIAG_CODE) == DHU_DIAG_CODE) 273 1.1 ragge continue; 274 1.1 ragge 275 1.5 ragge cc = c & 0xFF; 276 1.5 ragge line = DHU_LINE(c>>8); 277 1.5 ragge tp = sc->sc_dhu[line].dhu_tty; 278 1.1 ragge 279 1.1 ragge /* LINK.TYPE is set so we get modem control FIFO entries */ 280 1.1 ragge 281 1.1 ragge if ((c & DHU_DIAG_CODE) == DHU_MODEM_CODE) { 282 1.2 ragge c = (c << 8); 283 1.1 ragge /* Do MDMBUF flow control, wakeup sleeping opens */ 284 1.1 ragge if (c & DHU_STAT_DCD) { 285 1.1 ragge if (!(tp->t_state & TS_CARR_ON)) 286 1.21 eeh (void)(*tp->t_linesw->l_modem)(tp, 1); 287 1.1 ragge } 288 1.1 ragge else if ((tp->t_state & TS_CARR_ON) && 289 1.21 eeh (*tp->t_linesw->l_modem)(tp, 0) == 0) 290 1.5 ragge (void) dhumctl(sc, line, 0, DMSET); 291 1.2 ragge 292 1.2 ragge /* Do CRTSCTS flow control */ 293 1.5 ragge delta = c ^ sc->sc_dhu[line].dhu_modem; 294 1.5 ragge sc->sc_dhu[line].dhu_modem = c; 295 1.2 ragge if ((delta & DHU_STAT_CTS) && 296 1.2 ragge (tp->t_state & TS_ISOPEN) && 297 1.2 ragge (tp->t_cflag & CRTSCTS)) { 298 1.2 ragge if (c & DHU_STAT_CTS) { 299 1.2 ragge tp->t_state &= ~TS_TTSTOP; 300 1.5 ragge ttstart(tp); 301 1.2 ragge } else { 302 1.2 ragge tp->t_state |= TS_TTSTOP; 303 1.5 ragge dhustop(tp, 0); 304 1.2 ragge } 305 1.2 ragge } 306 1.2 ragge continue; 307 1.1 ragge } 308 1.1 ragge 309 1.5 ragge if (!(tp->t_state & TS_ISOPEN)) { 310 1.5 ragge wakeup((caddr_t)&tp->t_rawq); 311 1.5 ragge continue; 312 1.5 ragge } 313 1.5 ragge 314 1.1 ragge if ((c & DHU_RBUF_OVERRUN_ERR) && overrun == 0) { 315 1.5 ragge log(LOG_WARNING, "%s: silo overflow, line %d\n", 316 1.5 ragge sc->sc_dev.dv_xname, line); 317 1.1 ragge overrun = 1; 318 1.1 ragge } 319 1.1 ragge /* A BREAK key will appear as a NULL with a framing error */ 320 1.1 ragge if (c & DHU_RBUF_FRAMING_ERR) 321 1.1 ragge cc |= TTY_FE; 322 1.1 ragge if (c & DHU_RBUF_PARITY_ERR) 323 1.1 ragge cc |= TTY_PE; 324 1.1 ragge 325 1.21 eeh (*tp->t_linesw->l_rint)(cc, tp); 326 1.1 ragge } 327 1.1 ragge } 328 1.1 ragge 329 1.1 ragge /* Transmitter Interrupt */ 330 1.1 ragge 331 1.1 ragge static void 332 1.17 matt dhuxint(arg) 333 1.17 matt void *arg; 334 1.1 ragge { 335 1.18 augustss struct dhu_softc *sc = arg; 336 1.18 augustss struct tty *tp; 337 1.18 augustss int line; 338 1.2 ragge 339 1.15 ragge line = DHU_LINE(DHU_READ_BYTE(DHU_UBA_CSR_HI)); 340 1.1 ragge 341 1.5 ragge tp = sc->sc_dhu[line].dhu_tty; 342 1.2 ragge 343 1.1 ragge tp->t_state &= ~TS_BUSY; 344 1.1 ragge if (tp->t_state & TS_FLUSH) 345 1.1 ragge tp->t_state &= ~TS_FLUSH; 346 1.1 ragge else { 347 1.5 ragge if (sc->sc_dhu[line].dhu_state == STATE_DMA_STOPPED) 348 1.15 ragge sc->sc_dhu[line].dhu_cc -= 349 1.15 ragge DHU_READ_WORD(DHU_UBA_TBUFCNT); 350 1.5 ragge ndflush(&tp->t_outq, sc->sc_dhu[line].dhu_cc); 351 1.5 ragge sc->sc_dhu[line].dhu_cc = 0; 352 1.1 ragge } 353 1.1 ragge 354 1.5 ragge sc->sc_dhu[line].dhu_state = STATE_IDLE; 355 1.2 ragge 356 1.22 enami (*tp->t_linesw->l_start)(tp); 357 1.1 ragge } 358 1.1 ragge 359 1.1 ragge int 360 1.24.4.1 fvdl dhuopen(devvp, flag, mode, p) 361 1.24.4.1 fvdl struct vnode *devvp; 362 1.1 ragge int flag, mode; 363 1.1 ragge struct proc *p; 364 1.1 ragge { 365 1.18 augustss struct tty *tp; 366 1.18 augustss int unit, line; 367 1.5 ragge struct dhu_softc *sc; 368 1.1 ragge int s, error = 0; 369 1.24.4.1 fvdl dev_t dev; 370 1.1 ragge 371 1.24.4.1 fvdl dev = vdev_rdev(devvp); 372 1.5 ragge unit = DHU_M2U(minor(dev)); 373 1.5 ragge line = DHU_LINE(minor(dev)); 374 1.5 ragge 375 1.5 ragge if (unit >= dhu_cd.cd_ndevs || dhu_cd.cd_devs[unit] == NULL) 376 1.1 ragge return (ENXIO); 377 1.5 ragge 378 1.5 ragge sc = dhu_cd.cd_devs[unit]; 379 1.5 ragge 380 1.5 ragge if (line >= sc->sc_type) 381 1.5 ragge return ENXIO; 382 1.5 ragge 383 1.16 ragge s = spltty(); 384 1.16 ragge DHU_WRITE_BYTE(DHU_UBA_CSR, DHU_CSR_RXIE | line); 385 1.16 ragge sc->sc_dhu[line].dhu_modem = DHU_READ_WORD(DHU_UBA_STAT); 386 1.16 ragge (void) splx(s); 387 1.16 ragge 388 1.24.4.1 fvdl vdev_setprivdata(devvp, sc); 389 1.24.4.1 fvdl 390 1.5 ragge tp = sc->sc_dhu[line].dhu_tty; 391 1.5 ragge 392 1.2 ragge tp->t_oproc = dhustart; 393 1.2 ragge tp->t_param = dhuparam; 394 1.2 ragge tp->t_hwiflow = dhuiflow; 395 1.24.4.1 fvdl tp->t_devvp = devvp; 396 1.1 ragge if ((tp->t_state & TS_ISOPEN) == 0) { 397 1.1 ragge ttychars(tp); 398 1.2 ragge if (tp->t_ispeed == 0) { 399 1.2 ragge tp->t_iflag = TTYDEF_IFLAG; 400 1.2 ragge tp->t_oflag = TTYDEF_OFLAG; 401 1.2 ragge tp->t_cflag = TTYDEF_CFLAG; 402 1.2 ragge tp->t_lflag = TTYDEF_LFLAG; 403 1.2 ragge tp->t_ispeed = tp->t_ospeed = TTYDEF_SPEED; 404 1.2 ragge } 405 1.1 ragge (void) dhuparam(tp, &tp->t_termios); 406 1.1 ragge ttsetwater(tp); 407 1.1 ragge } else if ((tp->t_state & TS_XCLUDE) && curproc->p_ucred->cr_uid != 0) 408 1.1 ragge return (EBUSY); 409 1.1 ragge /* Use DMBIS and *not* DMSET or else we clobber incoming bits */ 410 1.5 ragge if (dhumctl(sc, line, DML_DTR|DML_RTS, DMBIS) & DML_DCD) 411 1.1 ragge tp->t_state |= TS_CARR_ON; 412 1.1 ragge s = spltty(); 413 1.1 ragge while (!(flag & O_NONBLOCK) && !(tp->t_cflag & CLOCAL) && 414 1.1 ragge !(tp->t_state & TS_CARR_ON)) { 415 1.12 ragge tp->t_wopen++; 416 1.1 ragge error = ttysleep(tp, (caddr_t)&tp->t_rawq, 417 1.1 ragge TTIPRI | PCATCH, ttopen, 0); 418 1.12 ragge tp->t_wopen--; 419 1.1 ragge if (error) 420 1.1 ragge break; 421 1.1 ragge } 422 1.1 ragge (void) splx(s); 423 1.1 ragge if (error) 424 1.1 ragge return (error); 425 1.24.4.1 fvdl return ((*tp->t_linesw->l_open)(devvp, tp)); 426 1.1 ragge } 427 1.1 ragge 428 1.1 ragge /*ARGSUSED*/ 429 1.1 ragge int 430 1.24.4.1 fvdl dhuclose(devvp, flag, mode, p) 431 1.24.4.1 fvdl struct vnode *devvp; 432 1.1 ragge int flag, mode; 433 1.1 ragge struct proc *p; 434 1.1 ragge { 435 1.18 augustss struct tty *tp; 436 1.24.4.1 fvdl int line; 437 1.5 ragge struct dhu_softc *sc; 438 1.24.4.1 fvdl dev_t dev; 439 1.5 ragge 440 1.24.4.1 fvdl dev = vdev_rdev(devvp); 441 1.5 ragge line = DHU_LINE(minor(dev)); 442 1.1 ragge 443 1.24.4.1 fvdl sc = vdev_privdata(devvp); 444 1.5 ragge 445 1.5 ragge tp = sc->sc_dhu[line].dhu_tty; 446 1.1 ragge 447 1.21 eeh (*tp->t_linesw->l_close)(tp, flag); 448 1.1 ragge 449 1.1 ragge /* Make sure a BREAK state is not left enabled. */ 450 1.1 ragge 451 1.5 ragge (void) dhumctl(sc, line, DML_BRK, DMBIC); 452 1.1 ragge 453 1.1 ragge /* Do a hangup if so required. */ 454 1.1 ragge 455 1.12 ragge if ((tp->t_cflag & HUPCL) || tp->t_wopen || 456 1.1 ragge !(tp->t_state & TS_ISOPEN)) 457 1.5 ragge (void) dhumctl(sc, line, 0, DMSET); 458 1.1 ragge 459 1.1 ragge return (ttyclose(tp)); 460 1.1 ragge } 461 1.1 ragge 462 1.1 ragge int 463 1.24.4.1 fvdl dhuread(devvp, uio, flag) 464 1.24.4.1 fvdl struct vnode *devvp; 465 1.1 ragge struct uio *uio; 466 1.1 ragge { 467 1.18 augustss struct dhu_softc *sc; 468 1.18 augustss struct tty *tp; 469 1.1 ragge 470 1.24.4.1 fvdl sc = vdev_privdata(devvp); 471 1.5 ragge 472 1.24.4.1 fvdl tp = sc->sc_dhu[DHU_LINE(minor(vdev_rdev(devvp)))].dhu_tty; 473 1.21 eeh return ((*tp->t_linesw->l_read)(tp, uio, flag)); 474 1.1 ragge } 475 1.1 ragge 476 1.1 ragge int 477 1.24.4.1 fvdl dhuwrite(devvp, uio, flag) 478 1.24.4.1 fvdl struct vnode *devvp; 479 1.1 ragge struct uio *uio; 480 1.1 ragge { 481 1.18 augustss struct dhu_softc *sc; 482 1.18 augustss struct tty *tp; 483 1.1 ragge 484 1.24.4.1 fvdl sc = vdev_privdata(devvp); 485 1.5 ragge 486 1.24.4.1 fvdl tp = sc->sc_dhu[DHU_LINE(minor(vdev_rdev(devvp)))].dhu_tty; 487 1.21 eeh return ((*tp->t_linesw->l_write)(tp, uio, flag)); 488 1.23 scw } 489 1.23 scw 490 1.23 scw int 491 1.24.4.1 fvdl dhupoll(devvp, events, p) 492 1.24.4.1 fvdl struct vnode *devvp; 493 1.23 scw int events; 494 1.23 scw struct proc *p; 495 1.23 scw { 496 1.23 scw struct dhu_softc *sc; 497 1.23 scw struct tty *tp; 498 1.23 scw 499 1.24.4.1 fvdl sc = vdev_privdata(devvp); 500 1.23 scw 501 1.24.4.1 fvdl tp = sc->sc_dhu[DHU_LINE(minor(vdev_rdev(devvp)))].dhu_tty; 502 1.23 scw return ((*tp->t_linesw->l_poll)(tp, events, p)); 503 1.1 ragge } 504 1.1 ragge 505 1.1 ragge /*ARGSUSED*/ 506 1.1 ragge int 507 1.24.4.1 fvdl dhuioctl(devvp, cmd, data, flag, p) 508 1.24.4.1 fvdl struct vnode *devvp; 509 1.4 ragge u_long cmd; 510 1.1 ragge caddr_t data; 511 1.1 ragge int flag; 512 1.1 ragge struct proc *p; 513 1.1 ragge { 514 1.18 augustss struct dhu_softc *sc; 515 1.18 augustss struct tty *tp; 516 1.24.4.1 fvdl int line; 517 1.1 ragge int error; 518 1.24.4.1 fvdl dev_t dev; 519 1.1 ragge 520 1.24.4.1 fvdl dev = vdev_rdev(devvp); 521 1.5 ragge line = DHU_LINE(minor(dev)); 522 1.24.4.1 fvdl sc = vdev_privdata(devvp); 523 1.5 ragge tp = sc->sc_dhu[line].dhu_tty; 524 1.5 ragge 525 1.21 eeh error = (*tp->t_linesw->l_ioctl)(tp, cmd, data, flag, p); 526 1.1 ragge if (error >= 0) 527 1.1 ragge return (error); 528 1.1 ragge error = ttioctl(tp, cmd, data, flag, p); 529 1.1 ragge if (error >= 0) 530 1.1 ragge return (error); 531 1.1 ragge 532 1.1 ragge switch (cmd) { 533 1.1 ragge 534 1.1 ragge case TIOCSBRK: 535 1.5 ragge (void) dhumctl(sc, line, DML_BRK, DMBIS); 536 1.1 ragge break; 537 1.1 ragge 538 1.1 ragge case TIOCCBRK: 539 1.5 ragge (void) dhumctl(sc, line, DML_BRK, DMBIC); 540 1.1 ragge break; 541 1.1 ragge 542 1.1 ragge case TIOCSDTR: 543 1.5 ragge (void) dhumctl(sc, line, DML_DTR|DML_RTS, DMBIS); 544 1.1 ragge break; 545 1.1 ragge 546 1.1 ragge case TIOCCDTR: 547 1.5 ragge (void) dhumctl(sc, line, DML_DTR|DML_RTS, DMBIC); 548 1.1 ragge break; 549 1.1 ragge 550 1.1 ragge case TIOCMSET: 551 1.5 ragge (void) dhumctl(sc, line, *(int *)data, DMSET); 552 1.1 ragge break; 553 1.1 ragge 554 1.1 ragge case TIOCMBIS: 555 1.5 ragge (void) dhumctl(sc, line, *(int *)data, DMBIS); 556 1.1 ragge break; 557 1.1 ragge 558 1.1 ragge case TIOCMBIC: 559 1.5 ragge (void) dhumctl(sc, line, *(int *)data, DMBIC); 560 1.1 ragge break; 561 1.1 ragge 562 1.1 ragge case TIOCMGET: 563 1.5 ragge *(int *)data = (dhumctl(sc, line, 0, DMGET) & ~DML_BRK); 564 1.1 ragge break; 565 1.1 ragge 566 1.1 ragge default: 567 1.1 ragge return (ENOTTY); 568 1.1 ragge } 569 1.1 ragge return (0); 570 1.1 ragge } 571 1.1 ragge 572 1.2 ragge struct tty * 573 1.24.4.1 fvdl dhutty(devvp) 574 1.24.4.1 fvdl struct vnode *devvp; 575 1.2 ragge { 576 1.24.4.1 fvdl dev_t dev = vdev_rdev(devvp); 577 1.24.4.1 fvdl struct dhu_softc *sc = vdev_privdata(devvp); 578 1.5 ragge struct tty *tp = sc->sc_dhu[DHU_LINE(minor(dev))].dhu_tty; 579 1.24.4.1 fvdl 580 1.2 ragge return (tp); 581 1.2 ragge } 582 1.2 ragge 583 1.1 ragge /*ARGSUSED*/ 584 1.6 mycroft void 585 1.5 ragge dhustop(tp, flag) 586 1.18 augustss struct tty *tp; 587 1.1 ragge { 588 1.18 augustss struct dhu_softc *sc; 589 1.18 augustss int line; 590 1.1 ragge int s; 591 1.24.4.1 fvdl dev_t dev; 592 1.24.4.1 fvdl 593 1.24.4.1 fvdl dev = vdev_rdev(tp->t_devvp); 594 1.1 ragge 595 1.1 ragge s = spltty(); 596 1.1 ragge 597 1.5 ragge if (tp->t_state & TS_BUSY) { 598 1.5 ragge 599 1.24.4.1 fvdl sc = dhu_cd.cd_devs[DHU_M2U(minor(dev))]; 600 1.24.4.1 fvdl line = DHU_LINE(minor(dev)); 601 1.5 ragge 602 1.5 ragge if (sc->sc_dhu[line].dhu_state == STATE_DMA_RUNNING) { 603 1.5 ragge 604 1.5 ragge sc->sc_dhu[line].dhu_state = STATE_DMA_STOPPED; 605 1.2 ragge 606 1.15 ragge DHU_WRITE_BYTE(DHU_UBA_CSR, DHU_CSR_RXIE | line); 607 1.15 ragge DHU_WRITE_WORD(DHU_UBA_LNCTRL, 608 1.15 ragge DHU_READ_WORD(DHU_UBA_LNCTRL) | 609 1.15 ragge DHU_LNCTRL_DMA_ABORT); 610 1.2 ragge } 611 1.1 ragge 612 1.1 ragge if (!(tp->t_state & TS_TTSTOP)) 613 1.1 ragge tp->t_state |= TS_FLUSH; 614 1.1 ragge } 615 1.1 ragge (void) splx(s); 616 1.1 ragge } 617 1.1 ragge 618 1.1 ragge static void 619 1.5 ragge dhustart(tp) 620 1.18 augustss struct tty *tp; 621 1.1 ragge { 622 1.18 augustss struct dhu_softc *sc; 623 1.18 augustss int line, cc; 624 1.18 augustss int addr; 625 1.1 ragge int s; 626 1.24.4.1 fvdl dev_t dev; 627 1.1 ragge 628 1.1 ragge s = spltty(); 629 1.1 ragge if (tp->t_state & (TS_TIMEOUT|TS_BUSY|TS_TTSTOP)) 630 1.1 ragge goto out; 631 1.1 ragge if (tp->t_outq.c_cc <= tp->t_lowat) { 632 1.1 ragge if (tp->t_state & TS_ASLEEP) { 633 1.1 ragge tp->t_state &= ~TS_ASLEEP; 634 1.1 ragge wakeup((caddr_t)&tp->t_outq); 635 1.1 ragge } 636 1.1 ragge selwakeup(&tp->t_wsel); 637 1.1 ragge } 638 1.1 ragge if (tp->t_outq.c_cc == 0) 639 1.1 ragge goto out; 640 1.1 ragge cc = ndqb(&tp->t_outq, 0); 641 1.1 ragge if (cc == 0) 642 1.1 ragge goto out; 643 1.1 ragge 644 1.24.4.1 fvdl dev = vdev_rdev(tp->t_devvp); 645 1.1 ragge tp->t_state |= TS_BUSY; 646 1.1 ragge 647 1.24.4.1 fvdl sc = dhu_cd.cd_devs[DHU_M2U(minor(dev))]; 648 1.5 ragge 649 1.24.4.1 fvdl line = DHU_LINE(minor(dev)); 650 1.1 ragge 651 1.15 ragge DHU_WRITE_BYTE(DHU_UBA_CSR, DHU_CSR_RXIE | line); 652 1.5 ragge 653 1.5 ragge sc->sc_dhu[line].dhu_cc = cc; 654 1.2 ragge 655 1.5 ragge if (cc == 1) { 656 1.2 ragge 657 1.5 ragge sc->sc_dhu[line].dhu_state = STATE_TX_ONE_CHAR; 658 1.15 ragge 659 1.15 ragge DHU_WRITE_WORD(DHU_UBA_TXCHAR, 660 1.15 ragge DHU_TXCHAR_DATA_VALID | *tp->t_outq.c_cf); 661 1.2 ragge 662 1.5 ragge } else { 663 1.5 ragge 664 1.5 ragge sc->sc_dhu[line].dhu_state = STATE_DMA_RUNNING; 665 1.5 ragge 666 1.16 ragge addr = sc->sc_dhu[line].dhu_dmah->dm_segs[0].ds_addr + 667 1.2 ragge (tp->t_outq.c_cf - tp->t_outq.c_cs); 668 1.2 ragge 669 1.15 ragge DHU_WRITE_WORD(DHU_UBA_TBUFCNT, cc); 670 1.15 ragge DHU_WRITE_WORD(DHU_UBA_TBUFAD1, addr & 0xFFFF); 671 1.15 ragge DHU_WRITE_WORD(DHU_UBA_TBUFAD2, ((addr>>16) & 0x3F) | 672 1.15 ragge DHU_TBUFAD2_TX_ENABLE); 673 1.15 ragge DHU_WRITE_WORD(DHU_UBA_LNCTRL, 674 1.15 ragge DHU_READ_WORD(DHU_UBA_LNCTRL) & ~DHU_LNCTRL_DMA_ABORT); 675 1.15 ragge DHU_WRITE_WORD(DHU_UBA_TBUFAD2, 676 1.15 ragge DHU_READ_WORD(DHU_UBA_TBUFAD2) | DHU_TBUFAD2_DMA_START); 677 1.2 ragge } 678 1.1 ragge out: 679 1.1 ragge (void) splx(s); 680 1.1 ragge return; 681 1.1 ragge } 682 1.1 ragge 683 1.1 ragge static int 684 1.5 ragge dhuparam(tp, t) 685 1.18 augustss struct tty *tp; 686 1.18 augustss struct termios *t; 687 1.1 ragge { 688 1.5 ragge struct dhu_softc *sc; 689 1.18 augustss int cflag = t->c_cflag; 690 1.1 ragge int ispeed = ttspeedtab(t->c_ispeed, dhuspeedtab); 691 1.1 ragge int ospeed = ttspeedtab(t->c_ospeed, dhuspeedtab); 692 1.18 augustss unsigned lpr, lnctrl; 693 1.24.4.1 fvdl int line; 694 1.1 ragge int s; 695 1.24.4.1 fvdl dev_t dev; 696 1.1 ragge 697 1.24.4.1 fvdl dev = vdev_rdev(tp->t_devvp); 698 1.24.4.1 fvdl line = DHU_LINE(minor(dev)); 699 1.5 ragge 700 1.24.4.1 fvdl sc = vdev_privdata(tp->t_devvp); 701 1.5 ragge 702 1.1 ragge /* check requested parameters */ 703 1.1 ragge if (ospeed < 0 || ispeed < 0) 704 1.1 ragge return (EINVAL); 705 1.1 ragge 706 1.1 ragge tp->t_ispeed = t->c_ispeed; 707 1.1 ragge tp->t_ospeed = t->c_ospeed; 708 1.1 ragge tp->t_cflag = cflag; 709 1.1 ragge 710 1.1 ragge if (ospeed == 0) { 711 1.5 ragge (void) dhumctl(sc, line, 0, DMSET); /* hang up line */ 712 1.1 ragge return (0); 713 1.1 ragge } 714 1.1 ragge 715 1.1 ragge s = spltty(); 716 1.15 ragge DHU_WRITE_BYTE(DHU_UBA_CSR, DHU_CSR_RXIE | line); 717 1.1 ragge 718 1.1 ragge lpr = ((ispeed&017)<<8) | ((ospeed&017)<<12) ; 719 1.1 ragge 720 1.5 ragge switch (cflag & CSIZE) { 721 1.5 ragge 722 1.5 ragge case CS5: 723 1.1 ragge lpr |= DHU_LPR_5_BIT_CHAR; 724 1.1 ragge break; 725 1.5 ragge 726 1.5 ragge case CS6: 727 1.1 ragge lpr |= DHU_LPR_6_BIT_CHAR; 728 1.1 ragge break; 729 1.5 ragge 730 1.5 ragge case CS7: 731 1.1 ragge lpr |= DHU_LPR_7_BIT_CHAR; 732 1.1 ragge break; 733 1.5 ragge 734 1.5 ragge default: 735 1.1 ragge lpr |= DHU_LPR_8_BIT_CHAR; 736 1.1 ragge break; 737 1.1 ragge } 738 1.5 ragge 739 1.1 ragge if (cflag & PARENB) 740 1.1 ragge lpr |= DHU_LPR_PARENB; 741 1.1 ragge if (!(cflag & PARODD)) 742 1.1 ragge lpr |= DHU_LPR_EPAR; 743 1.1 ragge if (cflag & CSTOPB) 744 1.1 ragge lpr |= DHU_LPR_2_STOP; 745 1.1 ragge 746 1.15 ragge DHU_WRITE_WORD(DHU_UBA_LPR, lpr); 747 1.1 ragge 748 1.15 ragge DHU_WRITE_WORD(DHU_UBA_TBUFAD2, 749 1.15 ragge DHU_READ_WORD(DHU_UBA_TBUFAD2) | DHU_TBUFAD2_TX_ENABLE); 750 1.2 ragge 751 1.15 ragge lnctrl = DHU_READ_WORD(DHU_UBA_LNCTRL); 752 1.2 ragge 753 1.1 ragge /* Setting LINK.TYPE enables modem signal change interrupts. */ 754 1.1 ragge 755 1.2 ragge lnctrl |= (DHU_LNCTRL_RX_ENABLE | DHU_LNCTRL_LINK_TYPE); 756 1.2 ragge 757 1.5 ragge /* Enable the auto XON/XOFF feature on the controller */ 758 1.5 ragge 759 1.2 ragge if (t->c_iflag & IXON) 760 1.2 ragge lnctrl |= DHU_LNCTRL_OAUTO; 761 1.2 ragge else 762 1.2 ragge lnctrl &= ~DHU_LNCTRL_OAUTO; 763 1.2 ragge 764 1.2 ragge if (t->c_iflag & IXOFF) 765 1.2 ragge lnctrl |= DHU_LNCTRL_IAUTO; 766 1.2 ragge else 767 1.2 ragge lnctrl &= ~DHU_LNCTRL_IAUTO; 768 1.2 ragge 769 1.15 ragge DHU_WRITE_WORD(DHU_UBA_LNCTRL, lnctrl); 770 1.2 ragge 771 1.1 ragge (void) splx(s); 772 1.1 ragge return (0); 773 1.1 ragge } 774 1.1 ragge 775 1.1 ragge static int 776 1.5 ragge dhuiflow(tp, flag) 777 1.2 ragge struct tty *tp; 778 1.2 ragge int flag; 779 1.2 ragge { 780 1.18 augustss struct dhu_softc *sc; 781 1.24.4.1 fvdl dev_t dev; 782 1.24.4.1 fvdl int line; 783 1.2 ragge 784 1.24.4.1 fvdl dev = vdev_rdev(tp->t_devvp); 785 1.24.4.1 fvdl line = DHU_LINE(minor(dev)); 786 1.2 ragge if (tp->t_cflag & CRTSCTS) { 787 1.24.4.1 fvdl sc = vdev_privdata(tp->t_devvp); 788 1.5 ragge (void) dhumctl(sc, line, DML_RTS, ((flag)? DMBIC: DMBIS)); 789 1.2 ragge return (1); 790 1.2 ragge } 791 1.2 ragge return (0); 792 1.2 ragge } 793 1.2 ragge 794 1.2 ragge static unsigned 795 1.5 ragge dhumctl(sc, line, bits, how) 796 1.5 ragge struct dhu_softc *sc; 797 1.5 ragge int line, bits, how; 798 1.1 ragge { 799 1.18 augustss unsigned status; 800 1.18 augustss unsigned lnctrl; 801 1.18 augustss unsigned mbits; 802 1.1 ragge int s; 803 1.1 ragge 804 1.1 ragge s = spltty(); 805 1.1 ragge 806 1.15 ragge DHU_WRITE_BYTE(DHU_UBA_CSR, DHU_CSR_RXIE | line); 807 1.1 ragge 808 1.1 ragge mbits = 0; 809 1.1 ragge 810 1.1 ragge /* external signals as seen from the port */ 811 1.1 ragge 812 1.15 ragge status = DHU_READ_WORD(DHU_UBA_STAT); 813 1.1 ragge 814 1.2 ragge if (status & DHU_STAT_CTS) 815 1.1 ragge mbits |= DML_CTS; 816 1.1 ragge 817 1.2 ragge if (status & DHU_STAT_DCD) 818 1.1 ragge mbits |= DML_DCD; 819 1.1 ragge 820 1.2 ragge if (status & DHU_STAT_DSR) 821 1.1 ragge mbits |= DML_DSR; 822 1.1 ragge 823 1.2 ragge if (status & DHU_STAT_RI) 824 1.1 ragge mbits |= DML_RI; 825 1.1 ragge 826 1.1 ragge /* internal signals/state delivered to port */ 827 1.1 ragge 828 1.15 ragge lnctrl = DHU_READ_WORD(DHU_UBA_LNCTRL); 829 1.1 ragge 830 1.2 ragge if (lnctrl & DHU_LNCTRL_RTS) 831 1.1 ragge mbits |= DML_RTS; 832 1.1 ragge 833 1.2 ragge if (lnctrl & DHU_LNCTRL_DTR) 834 1.1 ragge mbits |= DML_DTR; 835 1.1 ragge 836 1.2 ragge if (lnctrl & DHU_LNCTRL_BREAK) 837 1.1 ragge mbits |= DML_BRK; 838 1.1 ragge 839 1.5 ragge switch (how) { 840 1.5 ragge 841 1.5 ragge case DMSET: 842 1.1 ragge mbits = bits; 843 1.1 ragge break; 844 1.1 ragge 845 1.5 ragge case DMBIS: 846 1.1 ragge mbits |= bits; 847 1.1 ragge break; 848 1.1 ragge 849 1.5 ragge case DMBIC: 850 1.1 ragge mbits &= ~bits; 851 1.1 ragge break; 852 1.1 ragge 853 1.5 ragge case DMGET: 854 1.1 ragge (void) splx(s); 855 1.1 ragge return (mbits); 856 1.1 ragge } 857 1.1 ragge 858 1.1 ragge if (mbits & DML_RTS) 859 1.2 ragge lnctrl |= DHU_LNCTRL_RTS; 860 1.1 ragge else 861 1.2 ragge lnctrl &= ~DHU_LNCTRL_RTS; 862 1.1 ragge 863 1.1 ragge if (mbits & DML_DTR) 864 1.2 ragge lnctrl |= DHU_LNCTRL_DTR; 865 1.1 ragge else 866 1.2 ragge lnctrl &= ~DHU_LNCTRL_DTR; 867 1.1 ragge 868 1.1 ragge if (mbits & DML_BRK) 869 1.2 ragge lnctrl |= DHU_LNCTRL_BREAK; 870 1.1 ragge else 871 1.2 ragge lnctrl &= ~DHU_LNCTRL_BREAK; 872 1.2 ragge 873 1.15 ragge DHU_WRITE_WORD(DHU_UBA_LNCTRL, lnctrl); 874 1.1 ragge 875 1.1 ragge (void) splx(s); 876 1.1 ragge return (mbits); 877 1.1 ragge } 878
Indexes created Wed Oct 22 13:09:56 GMT 2025