ite.c revision 1.38
1 1.38 chs /* $NetBSD: ite.c,v 1.38 2005/01/18 07:12:15 chs Exp $ */ 2 1.1 oki 3 1.1 oki /* 4 1.1 oki * Copyright (c) 1990 The Regents of the University of California. 5 1.1 oki * All rights reserved. 6 1.1 oki * 7 1.1 oki * This code is derived from software contributed to Berkeley by 8 1.1 oki * the Systems Programming Group of the University of Utah Computer 9 1.1 oki * Science Department. 10 1.1 oki * 11 1.1 oki * Redistribution and use in source and binary forms, with or without 12 1.1 oki * modification, are permitted provided that the following conditions 13 1.1 oki * are met: 14 1.1 oki * 1. Redistributions of source code must retain the above copyright 15 1.1 oki * notice, this list of conditions and the following disclaimer. 16 1.1 oki * 2. Redistributions in binary form must reproduce the above copyright 17 1.1 oki * notice, this list of conditions and the following disclaimer in the 18 1.1 oki * documentation and/or other materials provided with the distribution. 19 1.35 agc * 3. Neither the name of the University nor the names of its contributors 20 1.35 agc * may be used to endorse or promote products derived from this software 21 1.35 agc * without specific prior written permission. 22 1.35 agc * 23 1.35 agc * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 24 1.35 agc * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 25 1.35 agc * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 26 1.35 agc * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 27 1.35 agc * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 28 1.35 agc * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 29 1.35 agc * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 30 1.35 agc * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 31 1.35 agc * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 32 1.35 agc * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 33 1.35 agc * SUCH DAMAGE. 34 1.35 agc * 35 1.35 agc * from: Utah $Hdr: ite.c 1.1 90/07/09$ 36 1.35 agc * 37 1.35 agc * @(#)ite.c 7.6 (Berkeley) 5/16/91 38 1.35 agc */ 39 1.35 agc /* 40 1.35 agc * Copyright (c) 1988 University of Utah. 41 1.35 agc * 42 1.35 agc * This code is derived from software contributed to Berkeley by 43 1.35 agc * the Systems Programming Group of the University of Utah Computer 44 1.35 agc * Science Department. 45 1.35 agc * 46 1.35 agc * Redistribution and use in source and binary forms, with or without 47 1.35 agc * modification, are permitted provided that the following conditions 48 1.35 agc * are met: 49 1.35 agc * 1. Redistributions of source code must retain the above copyright 50 1.35 agc * notice, this list of conditions and the following disclaimer. 51 1.35 agc * 2. Redistributions in binary form must reproduce the above copyright 52 1.35 agc * notice, this list of conditions and the following disclaimer in the 53 1.35 agc * documentation and/or other materials provided with the distribution. 54 1.1 oki * 3. All advertising materials mentioning features or use of this software 55 1.1 oki * must display the following acknowledgement: 56 1.1 oki * This product includes software developed by the University of 57 1.1 oki * California, Berkeley and its contributors. 58 1.1 oki * 4. Neither the name of the University nor the names of its contributors 59 1.1 oki * may be used to endorse or promote products derived from this software 60 1.1 oki * without specific prior written permission. 61 1.1 oki * 62 1.1 oki * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 63 1.1 oki * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 64 1.1 oki * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 65 1.1 oki * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 66 1.1 oki * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 67 1.1 oki * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 68 1.1 oki * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 69 1.1 oki * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 70 1.1 oki * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 71 1.1 oki * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 72 1.1 oki * SUCH DAMAGE. 73 1.1 oki * 74 1.1 oki * from: Utah $Hdr: ite.c 1.1 90/07/09$ 75 1.1 oki * 76 1.1 oki * @(#)ite.c 7.6 (Berkeley) 5/16/91 77 1.1 oki */ 78 1.1 oki 79 1.1 oki /* 80 1.1 oki * ite - bitmaped terminal. 81 1.1 oki * Supports VT200, a few terminal features will be unavailable until 82 1.1 oki * the system actually probes the device (i.e. not after consinit()) 83 1.1 oki */ 84 1.34 lukem 85 1.34 lukem #include <sys/cdefs.h> 86 1.38 chs __KERNEL_RCSID(0, "$NetBSD: ite.c,v 1.38 2005/01/18 07:12:15 chs Exp $"); 87 1.1 oki 88 1.1 oki #include "ite.h" 89 1.1 oki #if NITE > 0 90 1.1 oki 91 1.1 oki #include "bell.h" 92 1.14 minoura #include "kbd.h" 93 1.17 minoura 94 1.17 minoura #include "opt_ite.h" 95 1.1 oki 96 1.1 oki #include <sys/param.h> 97 1.1 oki #include <sys/conf.h> 98 1.1 oki #include <sys/proc.h> 99 1.1 oki #include <sys/ioctl.h> 100 1.1 oki #include <sys/tty.h> 101 1.1 oki #include <sys/systm.h> 102 1.1 oki #include <sys/device.h> 103 1.1 oki #include <sys/malloc.h> 104 1.14 minoura 105 1.16 minoura #include <machine/cpu.h> 106 1.1 oki #include <machine/kbio.h> 107 1.14 minoura #include <machine/bus.h> 108 1.14 minoura #include <machine/grfioctl.h> 109 1.13 minoura #include <machine/iteioctl.h> 110 1.1 oki 111 1.14 minoura #include <arch/x68k/dev/grfvar.h> 112 1.14 minoura #include <arch/x68k/dev/itevar.h> 113 1.14 minoura #include <arch/x68k/dev/kbdmap.h> 114 1.14 minoura #include <arch/x68k/dev/mfp.h> 115 1.16 minoura #if NBELL > 0 116 1.38 chs void opm_bell(void); 117 1.16 minoura #endif 118 1.1 oki 119 1.1 oki #define SUBR_CNPROBE(min) itesw[min].ite_cnprobe(min) 120 1.1 oki #define SUBR_INIT(ip) ip->isw->ite_init(ip) 121 1.1 oki #define SUBR_DEINIT(ip) ip->isw->ite_deinit(ip) 122 1.1 oki #define SUBR_PUTC(ip,c,dy,dx,m) ip->isw->ite_putc(ip,c,dy,dx,m) 123 1.1 oki #define SUBR_CURSOR(ip,flg) ip->isw->ite_cursor(ip,flg) 124 1.1 oki #define SUBR_CLEAR(ip,sy,sx,h,w) ip->isw->ite_clear(ip,sy,sx,h,w) 125 1.1 oki #define SUBR_SCROLL(ip,sy,sx,count,dir) \ 126 1.1 oki ip->isw->ite_scroll(ip,sy,sx,count,dir) 127 1.1 oki 128 1.1 oki struct consdev; 129 1.1 oki 130 1.38 chs __inline static void itesendch(int); 131 1.38 chs __inline static void alignment_display(struct ite_softc *); 132 1.38 chs __inline static void snap_cury(struct ite_softc *); 133 1.38 chs __inline static void ite_dnchar(struct ite_softc *, int); 134 1.38 chs static void ite_inchar(struct ite_softc *, int); 135 1.38 chs __inline static void ite_clrtoeol(struct ite_softc *); 136 1.38 chs __inline static void ite_clrtobol(struct ite_softc *); 137 1.38 chs __inline static void ite_clrline(struct ite_softc *); 138 1.38 chs __inline static void ite_clrtoeos(struct ite_softc *); 139 1.38 chs __inline static void ite_clrtobos(struct ite_softc *); 140 1.38 chs __inline static void ite_clrscreen(struct ite_softc *); 141 1.38 chs __inline static void ite_dnline(struct ite_softc *, int); 142 1.38 chs __inline static void ite_inline(struct ite_softc *, int); 143 1.38 chs __inline static void ite_index(struct ite_softc *); 144 1.38 chs __inline static void ite_lf(struct ite_softc *); 145 1.38 chs __inline static void ite_crlf(struct ite_softc *); 146 1.38 chs __inline static void ite_cr(struct ite_softc *); 147 1.38 chs __inline static void ite_rlf(struct ite_softc *); 148 1.38 chs static void iteprecheckwrap(struct ite_softc *); 149 1.38 chs static void itecheckwrap(struct ite_softc *); 150 1.38 chs static int ite_argnum(struct ite_softc *); 151 1.38 chs static int ite_zargnum(struct ite_softc *); 152 1.38 chs static void ite_sendstr(struct ite_softc *, char *); 153 1.38 chs __inline static int atoi(const char *); 154 1.38 chs void ite_reset(struct ite_softc *); 155 1.38 chs struct ite_softc *getitesp(dev_t); 156 1.38 chs int iteon(dev_t, int); 157 1.38 chs void iteoff(dev_t, int); 158 1.1 oki 159 1.1 oki struct itesw itesw[] = { 160 1.16 minoura {0, tv_init, tv_deinit, 0, 161 1.16 minoura 0, 0, 0} 162 1.1 oki }; 163 1.1 oki int nitesw = sizeof(itesw) / sizeof(itesw[0]); 164 1.1 oki 165 1.1 oki /* 166 1.1 oki * # of chars are output in a single itestart() call. 167 1.1 oki * If this is too big, user processes will be blocked out for 168 1.1 oki * long periods of time while we are emptying the queue in itestart(). 169 1.1 oki * If it is too small, console output will be very ragged. 170 1.1 oki */ 171 1.1 oki #define ITEBURST 64 172 1.1 oki 173 1.1 oki int nite = NITE; 174 1.1 oki struct tty *ite_tty[NITE]; 175 1.1 oki struct ite_softc *kbd_ite = NULL; 176 1.1 oki struct ite_softc con_itesoftc; 177 1.1 oki 178 1.1 oki struct tty *kbd_tty = NULL; 179 1.1 oki 180 1.1 oki int start_repeat_timeo = 20; /* /100: initial timeout till pressed key repeats */ 181 1.1 oki int next_repeat_timeo = 3; /* /100: timeout when repeating for next char */ 182 1.1 oki 183 1.1 oki u_char cons_tabs[MAX_TABS]; 184 1.1 oki 185 1.38 chs void itestart(struct tty *); 186 1.1 oki 187 1.38 chs void iteputchar(int, struct ite_softc *); 188 1.38 chs void ite_putstr(const u_char *, int, dev_t); 189 1.1 oki 190 1.38 chs void iteattach(struct device *, struct device *, void *); 191 1.38 chs int itematch(struct device *, struct cfdata *, void *); 192 1.1 oki 193 1.31 thorpej CFATTACH_DECL(ite, sizeof(struct ite_softc), 194 1.32 thorpej itematch, iteattach, NULL, NULL); 195 1.1 oki 196 1.9 thorpej extern struct cfdriver ite_cd; 197 1.1 oki 198 1.29 gehenna dev_type_open(iteopen); 199 1.29 gehenna dev_type_close(iteclose); 200 1.29 gehenna dev_type_read(iteread); 201 1.29 gehenna dev_type_write(itewrite); 202 1.29 gehenna dev_type_ioctl(iteioctl); 203 1.29 gehenna dev_type_tty(itetty); 204 1.29 gehenna dev_type_poll(itepoll); 205 1.29 gehenna 206 1.29 gehenna const struct cdevsw ite_cdevsw = { 207 1.29 gehenna iteopen, iteclose, iteread, itewrite, iteioctl, 208 1.33 jdolecek nostop, itetty, itepoll, nommap, ttykqfilter, D_TTY 209 1.29 gehenna }; 210 1.29 gehenna 211 1.38 chs int 212 1.38 chs itematch(struct device *pdp, struct cfdata *cdp, void *auxp) 213 1.1 oki { 214 1.1 oki struct grf_softc *gp; 215 1.16 minoura #if 0 216 1.1 oki int maj; 217 1.16 minoura #endif 218 1.1 oki 219 1.1 oki gp = auxp; 220 1.1 oki 221 1.1 oki /* ite0 should be at grf0 XXX */ 222 1.1 oki if(cdp->cf_unit != gp->g_device.dv_unit) 223 1.1 oki return(0); 224 1.1 oki 225 1.1 oki #if 0 226 1.1 oki /* 227 1.1 oki * all that our mask allows (more than enough no one 228 1.1 oki * has > 32 monitors for text consoles on one machine) 229 1.1 oki */ 230 1.1 oki if (cdp->cf_unit >= sizeof(ite_confunits) * NBBY) 231 1.1 oki return(0); 232 1.1 oki /* 233 1.1 oki * XXX 234 1.1 oki * normally this would be done in attach, however 235 1.1 oki * during early init we do not have a device pointer 236 1.1 oki * and thus no unit number. 237 1.1 oki */ 238 1.29 gehenna maj = cdevsw_lookup_major(&ite_cdevsw); 239 1.1 oki gp->g_itedev = makedev(maj, cdp->cf_unit); 240 1.1 oki #endif 241 1.1 oki return(1); 242 1.1 oki } 243 1.1 oki 244 1.1 oki /* 245 1.1 oki * iteinit() is the standard entry point for initialization of 246 1.1 oki * an ite device, it is also called from ite_cninit(). 247 1.1 oki */ 248 1.38 chs void 249 1.38 chs iteattach(struct device *pdp, struct device *dp, void *auxp) 250 1.1 oki { 251 1.1 oki struct ite_softc *ip; 252 1.1 oki struct grf_softc *gp; 253 1.1 oki 254 1.1 oki gp = (struct grf_softc *)auxp; 255 1.1 oki if (dp) { 256 1.1 oki ip = (struct ite_softc *)dp; 257 1.1 oki if(con_itesoftc.grf != NULL 258 1.1 oki /*&& con_itesoftc.grf->g_unit == gp->g_unit*/) { 259 1.1 oki /* 260 1.1 oki * console reinit copy params over. 261 1.1 oki * and console always gets keyboard 262 1.1 oki */ 263 1.27 wiz memcpy(&ip->grf, &con_itesoftc.grf, 264 1.1 oki (char *)&ip[1] - (char *)&ip->grf); 265 1.1 oki con_itesoftc.grf = NULL; 266 1.1 oki kbd_ite = ip; 267 1.1 oki } 268 1.1 oki ip->grf = gp; 269 1.1 oki iteinit(ip->device.dv_unit); /* XXX */ 270 1.6 christos printf(": rows %d cols %d", ip->rows, ip->cols); 271 1.1 oki if (kbd_ite == NULL) 272 1.1 oki kbd_ite = ip; 273 1.6 christos printf("\n"); 274 1.1 oki } else { 275 1.1 oki if (con_itesoftc.grf != NULL) 276 1.1 oki return; 277 1.1 oki con_itesoftc.grf = gp; 278 1.1 oki con_itesoftc.tabs = cons_tabs; 279 1.1 oki } 280 1.1 oki } 281 1.1 oki 282 1.1 oki struct ite_softc * 283 1.38 chs getitesp(dev_t dev) 284 1.1 oki { 285 1.1 oki extern int x68k_realconfig; 286 1.1 oki 287 1.1 oki if (x68k_realconfig && con_itesoftc.grf == NULL) 288 1.1 oki return(ite_cd.cd_devs[UNIT(dev)]); 289 1.1 oki 290 1.1 oki if (con_itesoftc.grf == NULL) 291 1.1 oki panic("no ite_softc for console"); 292 1.1 oki return(&con_itesoftc); 293 1.1 oki } 294 1.1 oki 295 1.38 chs void 296 1.38 chs iteinit(dev_t dev) 297 1.1 oki { 298 1.1 oki struct ite_softc *ip; 299 1.1 oki 300 1.1 oki ip = getitesp(dev); 301 1.1 oki 302 1.1 oki if (ip->flags & ITE_INITED) 303 1.1 oki return; 304 1.27 wiz memcpy(&kbdmap, &ascii_kbdmap, sizeof(struct kbdmap)); 305 1.1 oki 306 1.1 oki ip->curx = 0; 307 1.1 oki ip->cury = 0; 308 1.1 oki ip->cursorx = 0; 309 1.1 oki ip->cursory = 0; 310 1.1 oki 311 1.1 oki ip->isw = &itesw[ip->device.dv_unit]; /* XXX */ 312 1.1 oki SUBR_INIT(ip); 313 1.1 oki SUBR_CURSOR(ip, DRAW_CURSOR); 314 1.1 oki if (!ip->tabs) 315 1.1 oki ip->tabs = malloc(MAX_TABS*sizeof(u_char), M_DEVBUF, M_WAITOK); 316 1.1 oki ite_reset(ip); 317 1.1 oki ip->flags |= ITE_INITED; 318 1.1 oki } 319 1.1 oki 320 1.1 oki /* 321 1.1 oki * Perform functions necessary to setup device as a terminal emulator. 322 1.1 oki */ 323 1.38 chs int 324 1.38 chs iteon(dev_t dev, int flag) 325 1.1 oki { 326 1.1 oki int unit = UNIT(dev); 327 1.12 minoura struct ite_softc *ip; 328 1.1 oki 329 1.12 minoura if (unit < 0 || unit >= ite_cd.cd_ndevs || 330 1.12 minoura (ip = getitesp(unit)) == NULL || (ip->flags&ITE_ALIVE) == 0) 331 1.1 oki return(ENXIO); 332 1.1 oki /* force ite active, overriding graphics mode */ 333 1.1 oki if (flag & 1) { 334 1.1 oki ip->flags |= ITE_ACTIVE; 335 1.1 oki ip->flags &= ~(ITE_INGRF|ITE_INITED); 336 1.1 oki } 337 1.1 oki /* leave graphics mode */ 338 1.1 oki if (flag & 2) { 339 1.1 oki ip->flags &= ~ITE_INGRF; 340 1.1 oki if ((ip->flags & ITE_ACTIVE) == 0) 341 1.1 oki return(0); 342 1.1 oki } 343 1.1 oki ip->flags |= ITE_ACTIVE; 344 1.1 oki if (ip->flags & ITE_INGRF) 345 1.1 oki return(0); 346 1.1 oki iteinit(dev); 347 1.20 minoura if (flag & 2) 348 1.20 minoura ite_reset(ip); 349 1.14 minoura #if NKBD > 0 350 1.14 minoura mfp_send_usart (0x49); /* XXX */ 351 1.14 minoura #endif 352 1.1 oki return(0); 353 1.1 oki } 354 1.1 oki 355 1.1 oki /* 356 1.1 oki * "Shut down" device as terminal emulator. 357 1.1 oki * Note that we do not deinit the console device unless forced. 358 1.1 oki * Deinit'ing the console every time leads to a very active 359 1.1 oki * screen when processing /etc/rc. 360 1.1 oki */ 361 1.38 chs void 362 1.38 chs iteoff(dev_t dev, int flag) 363 1.1 oki { 364 1.4 oki int unit = UNIT(dev); 365 1.38 chs struct ite_softc *ip; 366 1.1 oki 367 1.4 oki /* XXX check whether when call from grf.c */ 368 1.12 minoura if (unit < 0 || unit >= ite_cd.cd_ndevs || 369 1.12 minoura (ip = getitesp(unit)) == NULL || (ip->flags&ITE_ALIVE) == 0) 370 1.4 oki return; 371 1.1 oki if (flag & 2) 372 1.1 oki ip->flags |= ITE_INGRF; 373 1.1 oki 374 1.1 oki if ((ip->flags & ITE_ACTIVE) == 0) 375 1.1 oki return; 376 1.1 oki if ((flag & 1) || 377 1.1 oki (ip->flags & (ITE_INGRF|ITE_ISCONS|ITE_INITED)) == ITE_INITED) 378 1.1 oki SUBR_DEINIT(ip); 379 1.1 oki 380 1.1 oki /* 381 1.1 oki * XXX When the system is rebooted with "reboot", init(8) 382 1.1 oki * kills the last process to have the console open. 383 1.37 simonb * If we don't revent the ITE_ACTIVE bit from being 384 1.1 oki * cleared, we will never see messages printed during 385 1.1 oki * the process of rebooting. 386 1.1 oki */ 387 1.14 minoura if ((flag & 2) == 0 && (ip->flags & ITE_ISCONS) == 0) { 388 1.1 oki ip->flags &= ~ITE_ACTIVE; 389 1.14 minoura #if NKBD > 0 390 1.14 minoura mfp_send_usart (0x48); /* XXX */ 391 1.14 minoura #endif 392 1.14 minoura } 393 1.1 oki } 394 1.1 oki 395 1.1 oki /* 396 1.1 oki * standard entry points to the device. 397 1.1 oki */ 398 1.1 oki 399 1.1 oki /* ARGSUSED */ 400 1.38 chs int 401 1.38 chs iteopen(dev_t dev, int mode, int devtype, struct proc *p) 402 1.1 oki { 403 1.1 oki int unit = UNIT(dev); 404 1.38 chs struct tty *tp; 405 1.38 chs struct ite_softc *ip; 406 1.38 chs int error; 407 1.1 oki int first = 0; 408 1.1 oki 409 1.15 minoura if (unit >= ite_cd.cd_ndevs || (ip = getitesp(dev)) == NULL) 410 1.15 minoura return (ENXIO); 411 1.3 oki if (!ite_tty[unit]) { 412 1.1 oki tp = ite_tty[unit] = ttymalloc(); 413 1.3 oki tty_attach(tp); 414 1.3 oki } else 415 1.1 oki tp = ite_tty[unit]; 416 1.1 oki if ((tp->t_state&(TS_ISOPEN|TS_XCLUDE)) == (TS_ISOPEN|TS_XCLUDE) 417 1.1 oki && p->p_ucred->cr_uid != 0) 418 1.1 oki return (EBUSY); 419 1.1 oki if ((ip->flags & ITE_ACTIVE) == 0) { 420 1.1 oki error = iteon(dev, 0); 421 1.1 oki if (error) 422 1.1 oki return (error); 423 1.1 oki first = 1; 424 1.1 oki } 425 1.1 oki tp->t_oproc = itestart; 426 1.1 oki tp->t_param = NULL; 427 1.1 oki tp->t_dev = dev; 428 1.1 oki if ((tp->t_state&TS_ISOPEN) == 0) { 429 1.1 oki ttychars(tp); 430 1.1 oki tp->t_iflag = TTYDEF_IFLAG; 431 1.1 oki tp->t_oflag = TTYDEF_OFLAG; 432 1.1 oki tp->t_cflag = TTYDEF_CFLAG; 433 1.1 oki tp->t_lflag = TTYDEF_LFLAG; 434 1.1 oki tp->t_ispeed = tp->t_ospeed = TTYDEF_SPEED; 435 1.1 oki tp->t_state = TS_ISOPEN|TS_CARR_ON; 436 1.1 oki ttsetwater(tp); 437 1.1 oki } 438 1.23 eeh error = (*tp->t_linesw->l_open)(dev, tp); 439 1.1 oki if (error == 0) { 440 1.1 oki tp->t_winsize.ws_row = ip->rows; 441 1.1 oki tp->t_winsize.ws_col = ip->cols; 442 1.1 oki } else if (first) 443 1.1 oki iteoff(dev, 0); 444 1.1 oki return (error); 445 1.1 oki } 446 1.1 oki 447 1.1 oki /*ARGSUSED*/ 448 1.38 chs int 449 1.38 chs iteclose(dev_t dev, int flag, int mode, struct proc *p) 450 1.1 oki { 451 1.38 chs struct tty *tp = ite_tty[UNIT(dev)]; 452 1.1 oki 453 1.23 eeh (*tp->t_linesw->l_close)(tp, flag); 454 1.1 oki ttyclose(tp); 455 1.1 oki iteoff(dev, 0); 456 1.1 oki #if 0 457 1.1 oki ttyfree(tp); 458 1.1 oki ite_tty[UNIT(dev)] = (struct tty *)0; 459 1.1 oki #endif 460 1.1 oki return(0); 461 1.1 oki } 462 1.1 oki 463 1.38 chs int 464 1.38 chs iteread(dev_t dev, struct uio *uio, int flag) 465 1.1 oki { 466 1.38 chs struct tty *tp = ite_tty[UNIT(dev)]; 467 1.1 oki 468 1.23 eeh return ((*tp->t_linesw->l_read)(tp, uio, flag)); 469 1.1 oki } 470 1.1 oki 471 1.38 chs int 472 1.38 chs itewrite(dev_t dev, struct uio *uio, int flag) 473 1.1 oki { 474 1.38 chs struct tty *tp = ite_tty[UNIT(dev)]; 475 1.1 oki 476 1.23 eeh return ((*tp->t_linesw->l_write)(tp, uio, flag)); 477 1.25 scw } 478 1.25 scw 479 1.38 chs int 480 1.38 chs itepoll(dev_t dev, int events, struct proc *p) 481 1.25 scw { 482 1.38 chs struct tty *tp = ite_tty[UNIT(dev)]; 483 1.25 scw 484 1.25 scw return ((*tp->t_linesw->l_poll)(tp, events, p)); 485 1.1 oki } 486 1.1 oki 487 1.1 oki struct tty * 488 1.38 chs itetty(dev_t dev) 489 1.1 oki { 490 1.1 oki 491 1.1 oki return (ite_tty[UNIT(dev)]); 492 1.1 oki } 493 1.1 oki 494 1.38 chs int 495 1.38 chs iteioctl(dev_t dev, u_long cmd, caddr_t addr, int flag, struct proc *p) 496 1.1 oki { 497 1.1 oki struct iterepeat *irp; 498 1.38 chs struct tty *tp = ite_tty[UNIT(dev)]; 499 1.1 oki int error; 500 1.1 oki 501 1.23 eeh error = (*tp->t_linesw->l_ioctl)(tp, cmd, addr, flag, p); 502 1.28 atatat if (error != EPASSTHROUGH) 503 1.1 oki return (error); 504 1.28 atatat 505 1.1 oki error = ttioctl(tp, cmd, addr, flag, p); 506 1.28 atatat if (error != EPASSTHROUGH) 507 1.1 oki return (error); 508 1.1 oki 509 1.1 oki switch (cmd) { 510 1.1 oki case ITEIOCSKMAP: 511 1.1 oki if (addr == 0) 512 1.1 oki return(EFAULT); 513 1.27 wiz memcpy(&kbdmap, addr, sizeof(struct kbdmap)); 514 1.1 oki return(0); 515 1.1 oki 516 1.1 oki case ITEIOCGKMAP: 517 1.1 oki if (addr == NULL) 518 1.1 oki return(EFAULT); 519 1.27 wiz memcpy(addr, &kbdmap, sizeof(struct kbdmap)); 520 1.1 oki return(0); 521 1.1 oki 522 1.1 oki case ITEIOCGREPT: 523 1.1 oki irp = (struct iterepeat *)addr; 524 1.1 oki irp->start = start_repeat_timeo; 525 1.1 oki irp->next = next_repeat_timeo; 526 1.1 oki 527 1.1 oki case ITEIOCSREPT: 528 1.1 oki irp = (struct iterepeat *)addr; 529 1.1 oki if (irp->start < ITEMINREPEAT && irp->next < ITEMINREPEAT) 530 1.1 oki return(EINVAL); 531 1.1 oki start_repeat_timeo = irp->start; 532 1.1 oki next_repeat_timeo = irp->next; 533 1.1 oki #if x68k 534 1.1 oki case ITELOADFONT: 535 1.1 oki if (addr) { 536 1.27 wiz memcpy(kern_font, addr, 4096 /*sizeof (kernel_font)*/); 537 1.26 isaki ite_set_glyph(); 538 1.1 oki return 0; 539 1.1 oki } else 540 1.1 oki return EFAULT; 541 1.1 oki 542 1.1 oki case ITETVCTRL: 543 1.14 minoura if (addr && *(u_int8_t *)addr < 0x40) { 544 1.14 minoura return mfp_send_usart (* (u_int8_t *)addr); 545 1.14 minoura } else { 546 1.1 oki return EFAULT; 547 1.14 minoura } 548 1.1 oki #endif 549 1.1 oki } 550 1.28 atatat return (EPASSTHROUGH); 551 1.1 oki } 552 1.1 oki 553 1.38 chs void 554 1.38 chs itestart(struct tty *tp) 555 1.1 oki { 556 1.1 oki struct clist *rbp; 557 1.1 oki struct ite_softc *ip; 558 1.1 oki u_char buf[ITEBURST]; 559 1.16 minoura int s, len; 560 1.1 oki 561 1.1 oki ip = getitesp(tp->t_dev); 562 1.1 oki /* 563 1.1 oki * (Potentially) lower priority. We only need to protect ourselves 564 1.1 oki * from keyboard interrupts since that is all that can affect the 565 1.6 christos * state of our tty (kernel printf doesn't go through this routine). 566 1.1 oki */ 567 1.1 oki s = spltty(); 568 1.1 oki if (tp->t_state & (TS_TIMEOUT | TS_BUSY | TS_TTSTOP)) 569 1.1 oki goto out; 570 1.1 oki tp->t_state |= TS_BUSY; 571 1.1 oki rbp = &tp->t_outq; 572 1.1 oki len = q_to_b(rbp, buf, ITEBURST); 573 1.1 oki /*splx(s);*/ 574 1.1 oki 575 1.1 oki /* Here is a really good place to implement pre/jumpscroll() */ 576 1.1 oki ite_putstr(buf, len, tp->t_dev); 577 1.1 oki 578 1.1 oki /*s = spltty();*/ 579 1.1 oki tp->t_state &= ~TS_BUSY; 580 1.1 oki /* we have characters remaining. */ 581 1.1 oki if (rbp->c_cc) { 582 1.1 oki tp->t_state |= TS_TIMEOUT; 583 1.21 thorpej callout_reset(&tp->t_rstrt_ch, 1, ttrstrt, tp); 584 1.1 oki } 585 1.1 oki /* wakeup we are below */ 586 1.1 oki if (rbp->c_cc <= tp->t_lowat) { 587 1.1 oki if (tp->t_state & TS_ASLEEP) { 588 1.1 oki tp->t_state &= ~TS_ASLEEP; 589 1.1 oki wakeup((caddr_t)rbp); 590 1.1 oki } 591 1.1 oki selwakeup(&tp->t_wsel); 592 1.1 oki } 593 1.1 oki out: 594 1.1 oki splx(s); 595 1.1 oki } 596 1.1 oki 597 1.1 oki /* XXX called after changes made in underlying grf layer. */ 598 1.1 oki /* I want to nuke this */ 599 1.38 chs void 600 1.38 chs ite_reinit(dev_t dev) 601 1.1 oki { 602 1.1 oki struct ite_softc *ip; 603 1.4 oki int unit = UNIT(dev); 604 1.4 oki 605 1.4 oki /* XXX check whether when call from grf.c */ 606 1.12 minoura if (unit < 0 || unit >= ite_cd.cd_ndevs || 607 1.12 minoura (ip = getitesp(unit)) == NULL) 608 1.4 oki return; 609 1.1 oki 610 1.1 oki ip->flags &= ~ITE_INITED; 611 1.1 oki iteinit(dev); 612 1.1 oki } 613 1.1 oki 614 1.38 chs void 615 1.38 chs ite_reset(struct ite_softc *ip) 616 1.1 oki { 617 1.1 oki int i; 618 1.1 oki 619 1.1 oki ip->curx = 0; 620 1.1 oki ip->cury = 0; 621 1.1 oki ip->attribute = 0; 622 1.1 oki ip->save_curx = 0; 623 1.1 oki ip->save_cury = 0; 624 1.1 oki ip->save_attribute = 0; 625 1.1 oki ip->ap = ip->argbuf; 626 1.1 oki ip->emul_level = EMUL_VT300_8; 627 1.1 oki ip->eightbit_C1 = 0; 628 1.1 oki ip->top_margin = 0; 629 1.1 oki ip->bottom_margin = ip->rows - 1; 630 1.1 oki ip->inside_margins = 0; /* origin mode == absolute */ 631 1.1 oki ip->linefeed_newline = 0; 632 1.1 oki ip->auto_wrap = 1; 633 1.1 oki ip->cursor_appmode = 0; 634 1.1 oki ip->keypad_appmode = 0; 635 1.1 oki ip->imode = 0; 636 1.1 oki ip->key_repeat = 1; 637 1.1 oki ip->G0 = CSET_ASCII; 638 1.1 oki ip->G1 = CSET_JIS1983; 639 1.1 oki ip->G2 = CSET_JISKANA; 640 1.1 oki ip->G3 = CSET_JIS1990; 641 1.1 oki ip->GL = &ip->G0; 642 1.1 oki ip->GR = &ip->G1; 643 1.1 oki ip->save_GL = 0; 644 1.1 oki ip->save_char = 0; 645 1.1 oki ip->fgcolor = 7; 646 1.1 oki ip->bgcolor = 0; 647 1.1 oki for (i = 0; i < ip->cols; i++) 648 1.1 oki ip->tabs[i] = ((i & 7) == 0); 649 1.1 oki /* XXX clear screen */ 650 1.1 oki SUBR_CLEAR(ip, 0, 0, ip->rows, ip->cols); 651 1.1 oki attrclr(ip, 0, 0, ip->rows, ip->cols); 652 1.1 oki } 653 1.1 oki 654 1.1 oki /* Used in console at startup only */ 655 1.1 oki int 656 1.16 minoura ite_cnfilter(c) 657 1.1 oki u_char c; 658 1.1 oki { 659 1.1 oki static u_char mod = 0; 660 1.1 oki struct key key; 661 1.1 oki u_char code, up, mask; 662 1.16 minoura int s; 663 1.1 oki 664 1.1 oki up = c & 0x80 ? 1 : 0; 665 1.1 oki c &= 0x7f; 666 1.1 oki code = 0; 667 1.1 oki 668 1.1 oki s = spltty(); 669 1.1 oki 670 1.1 oki mask = 0; 671 1.1 oki if (c >= KBD_LEFT_ALT && !(c >= 0x63 && c <= 0x6c)) { /* 0x63: F1, 0x6c:F10 */ 672 1.1 oki switch (c) { 673 1.1 oki case KBD_LEFT_SHIFT: 674 1.1 oki mask = KBD_MOD_SHIFT; 675 1.1 oki break; 676 1.1 oki 677 1.1 oki case KBD_LEFT_ALT: 678 1.1 oki mask = KBD_MOD_LALT; 679 1.1 oki break; 680 1.1 oki 681 1.1 oki case KBD_RIGHT_ALT: 682 1.1 oki mask = KBD_MOD_RALT; 683 1.1 oki break; 684 1.1 oki 685 1.1 oki case KBD_LEFT_META: 686 1.1 oki mask = KBD_MOD_LMETA; 687 1.1 oki break; 688 1.1 oki 689 1.1 oki case KBD_RIGHT_META: 690 1.1 oki mask = KBD_MOD_RMETA; 691 1.1 oki break; 692 1.1 oki 693 1.1 oki case KBD_CAPS_LOCK: 694 1.1 oki /* 695 1.1 oki * capslock already behaves `right', don't need to 696 1.1 oki * keep track of the state in here. 697 1.1 oki */ 698 1.1 oki mask = KBD_MOD_CAPS; 699 1.1 oki break; 700 1.1 oki 701 1.1 oki case KBD_CTRL: 702 1.1 oki mask = KBD_MOD_CTRL; 703 1.1 oki break; 704 1.1 oki 705 1.1 oki case KBD_RECONNECT: 706 1.1 oki /* ite got 0xff */ 707 1.1 oki if (up) 708 1.1 oki kbd_setLED(); 709 1.1 oki break; 710 1.1 oki } 711 1.1 oki if (mask & KBD_MOD_CAPS) { 712 1.1 oki if (!up) { 713 1.1 oki mod ^= KBD_MOD_CAPS; 714 1.1 oki kbdled ^= LED_CAPS_LOCK; 715 1.1 oki kbd_setLED(); 716 1.1 oki } 717 1.1 oki } else if (up) 718 1.1 oki mod &= ~mask; 719 1.1 oki else mod |= mask; 720 1.1 oki splx (s); 721 1.1 oki return -1; 722 1.1 oki } 723 1.1 oki 724 1.1 oki if (up) { 725 1.1 oki splx(s); 726 1.1 oki return -1; 727 1.1 oki } 728 1.1 oki 729 1.1 oki /* translate modifiers */ 730 1.1 oki if (mod & KBD_MOD_SHIFT) { 731 1.1 oki if (mod & KBD_MOD_ALT) 732 1.1 oki key = kbdmap.alt_shift_keys[c]; 733 1.1 oki else 734 1.1 oki key = kbdmap.shift_keys[c]; 735 1.1 oki } else if (mod & KBD_MOD_ALT) 736 1.1 oki key = kbdmap.alt_keys[c]; 737 1.1 oki else { 738 1.1 oki key = kbdmap.keys[c]; 739 1.1 oki /* if CAPS and key is CAPable (no pun intended) */ 740 1.1 oki if ((mod & KBD_MOD_CAPS) && (key.mode & KBD_MODE_CAPS)) 741 1.1 oki key = kbdmap.shift_keys[c]; 742 1.1 oki } 743 1.1 oki code = key.code; 744 1.1 oki 745 1.1 oki /* if string return */ 746 1.1 oki if (key.mode & (KBD_MODE_STRING | KBD_MODE_KPAD)) { 747 1.1 oki splx(s); 748 1.1 oki return -1; 749 1.1 oki } 750 1.1 oki /* handle dead keys */ 751 1.1 oki if (key.mode & KBD_MODE_DEAD) { 752 1.1 oki splx(s); 753 1.1 oki return -1; 754 1.1 oki } 755 1.1 oki if (mod & KBD_MOD_CTRL) 756 1.1 oki code &= 0x1f; 757 1.1 oki if (mod & KBD_MOD_META) 758 1.1 oki code |= 0x80; 759 1.1 oki 760 1.1 oki /* do console mapping. */ 761 1.1 oki code = code == '\r' ? '\n' : code; 762 1.1 oki 763 1.1 oki splx(s); 764 1.1 oki return (code); 765 1.1 oki } 766 1.1 oki 767 1.1 oki /* And now the old stuff. */ 768 1.38 chs __inline static void 769 1.38 chs itesendch(int ch) 770 1.1 oki { 771 1.24 minoura (*kbd_tty->t_linesw->l_rint)(ch, kbd_tty); 772 1.1 oki } 773 1.1 oki 774 1.1 oki 775 1.1 oki void 776 1.16 minoura ite_filter(c) 777 1.1 oki u_char c; 778 1.1 oki { 779 1.1 oki static u_short mod = 0; 780 1.38 chs unsigned char code, *str; 781 1.1 oki u_short up, mask; 782 1.1 oki struct key key; 783 1.1 oki int s, i; 784 1.1 oki 785 1.22 itohy if (!kbd_ite || !(kbd_tty = ite_tty[kbd_ite->device.dv_unit])) 786 1.1 oki return; 787 1.1 oki 788 1.1 oki /* have to make sure we're at spltty in here */ 789 1.1 oki s = spltty (); 790 1.1 oki 791 1.1 oki up = c & 0x80 ? 1 : 0; 792 1.1 oki c &= 0x7f; 793 1.1 oki code = 0; 794 1.1 oki 795 1.1 oki mask = 0; 796 1.1 oki if (c >= KBD_LEFT_ALT && 797 1.1 oki !(c >= 0x63 && c <= 0x6c)) { /* 0x63: F1, 0x6c:F10 */ 798 1.1 oki switch (c) { 799 1.1 oki case KBD_LEFT_SHIFT: 800 1.1 oki mask = KBD_MOD_SHIFT; 801 1.1 oki break; 802 1.1 oki 803 1.1 oki case KBD_LEFT_ALT: 804 1.1 oki mask = KBD_MOD_LALT; 805 1.1 oki break; 806 1.1 oki 807 1.1 oki case KBD_RIGHT_ALT: 808 1.1 oki mask = KBD_MOD_RALT; 809 1.1 oki break; 810 1.1 oki 811 1.1 oki case KBD_LEFT_META: 812 1.1 oki mask = KBD_MOD_LMETA; 813 1.1 oki break; 814 1.1 oki 815 1.1 oki case KBD_RIGHT_META: 816 1.1 oki mask = KBD_MOD_RMETA; 817 1.1 oki break; 818 1.1 oki 819 1.1 oki case KBD_CAPS_LOCK: 820 1.1 oki /* 821 1.1 oki * capslock already behaves `right', don't need to keep 822 1.1 oki * track of the state in here. 823 1.1 oki */ 824 1.1 oki mask = KBD_MOD_CAPS; 825 1.1 oki break; 826 1.1 oki 827 1.1 oki case KBD_CTRL: 828 1.1 oki mask = KBD_MOD_CTRL; 829 1.1 oki break; 830 1.1 oki 831 1.1 oki case KBD_OPT1: 832 1.1 oki mask = KBD_MOD_OPT1; 833 1.1 oki break; 834 1.1 oki 835 1.1 oki case KBD_OPT2: 836 1.1 oki mask = KBD_MOD_OPT2; 837 1.1 oki break; 838 1.1 oki 839 1.1 oki case KBD_RECONNECT: 840 1.1 oki if (up) { /* ite got 0xff */ 841 1.1 oki kbd_setLED(); 842 1.1 oki } 843 1.1 oki break; 844 1.1 oki } 845 1.1 oki 846 1.1 oki if (mask & KBD_MOD_CAPS) { 847 1.1 oki if (!up) { 848 1.1 oki mod ^= KBD_MOD_CAPS; 849 1.1 oki kbdled ^= LED_CAPS_LOCK; 850 1.1 oki kbd_setLED(); 851 1.1 oki } 852 1.1 oki } else if (up) { 853 1.1 oki mod &= ~mask; 854 1.1 oki } else mod |= mask; 855 1.1 oki 856 1.1 oki /* 857 1.1 oki * return even if it wasn't a modifier key, the other 858 1.1 oki * codes up here are either special (like reset warning), 859 1.1 oki * or not yet defined 860 1.1 oki */ 861 1.1 oki splx (s); 862 1.1 oki return; 863 1.1 oki } 864 1.1 oki 865 1.1 oki if (up) { 866 1.1 oki splx (s); 867 1.1 oki return; 868 1.1 oki } 869 1.1 oki 870 1.1 oki /* 871 1.1 oki * intercept LAlt-LMeta-F1 here to switch back to original ascii-keymap. 872 1.1 oki * this should probably be configurable.. 873 1.1 oki */ 874 1.16 minoura if (mod == (KBD_MOD_LALT|KBD_MOD_LMETA) && c == 0x63) { 875 1.27 wiz memcpy(&kbdmap, &ascii_kbdmap, sizeof(struct kbdmap)); 876 1.1 oki splx (s); 877 1.1 oki return; 878 1.1 oki } 879 1.1 oki 880 1.1 oki /* translate modifiers */ 881 1.1 oki if (mod & KBD_MOD_SHIFT) { 882 1.1 oki if (mod & KBD_MOD_ALT) 883 1.1 oki key = kbdmap.alt_shift_keys[c]; 884 1.1 oki else 885 1.1 oki key = kbdmap.shift_keys[c]; 886 1.1 oki } else if (mod & KBD_MOD_ALT) 887 1.1 oki key = kbdmap.alt_keys[c]; 888 1.1 oki else { 889 1.1 oki key = kbdmap.keys[c]; 890 1.1 oki /* if CAPS and key is CAPable (no pun intended) */ 891 1.1 oki if ((mod & KBD_MOD_CAPS) && (key.mode & KBD_MODE_CAPS)) 892 1.1 oki key = kbdmap.shift_keys[c]; 893 1.1 oki else if ((mod & KBD_MOD_OPT2) && (key.mode & KBD_MODE_KPAD)) 894 1.1 oki key = kbdmap.shift_keys[c]; 895 1.1 oki } 896 1.1 oki code = key.code; 897 1.1 oki 898 1.1 oki /* handle dead keys */ 899 1.1 oki if (key.mode & KBD_MODE_DEAD) { 900 1.1 oki splx (s); 901 1.1 oki return; 902 1.1 oki } 903 1.1 oki /* if not string, apply META and CTRL modifiers */ 904 1.1 oki if (! (key.mode & KBD_MODE_STRING) 905 1.1 oki && (!(key.mode & KBD_MODE_KPAD) || 906 1.1 oki (kbd_ite && !kbd_ite->keypad_appmode))) { 907 1.1 oki if ((mod & KBD_MOD_CTRL) && 908 1.1 oki (code == ' ' || (code >= '@' && code <= 'z'))) 909 1.1 oki code &= 0x1f; 910 1.1 oki if (mod & KBD_MOD_META) 911 1.1 oki code |= 0x80; 912 1.1 oki } else if ((key.mode & KBD_MODE_KPAD) && 913 1.1 oki (kbd_ite && kbd_ite->keypad_appmode)) { 914 1.36 jdolecek static const char * const in = "0123456789-+.\r()/*"; 915 1.36 jdolecek static const char * const out = "pqrstuvwxymlnMPQRS"; 916 1.36 jdolecek char *cp = strchr(in, code); 917 1.1 oki 918 1.1 oki /* 919 1.1 oki * keypad-appmode sends SS3 followed by the above 920 1.1 oki * translated character 921 1.1 oki */ 922 1.24 minoura (*kbd_tty->t_linesw->l_rint) (27, kbd_tty); 923 1.24 minoura (*kbd_tty->t_linesw->l_rint) ('O', kbd_tty); 924 1.24 minoura (*kbd_tty->t_linesw->l_rint) (out[cp - in], kbd_tty); 925 1.1 oki splx(s); 926 1.1 oki return; 927 1.1 oki } else { 928 1.1 oki /* *NO* I don't like this.... */ 929 1.1 oki static u_char app_cursor[] = 930 1.1 oki { 931 1.1 oki 3, 27, 'O', 'A', 932 1.1 oki 3, 27, 'O', 'B', 933 1.1 oki 3, 27, 'O', 'C', 934 1.1 oki 3, 27, 'O', 'D'}; 935 1.1 oki 936 1.1 oki str = kbdmap.strings + code; 937 1.1 oki /* 938 1.1 oki * if this is a cursor key, AND it has the default 939 1.1 oki * keymap setting, AND we're in app-cursor mode, switch 940 1.1 oki * to the above table. This is *nasty* ! 941 1.1 oki */ 942 1.1 oki if (c >= 0x3b && c <= 0x3e && kbd_ite->cursor_appmode 943 1.27 wiz && !memcmp(str, "\x03\x1b[", 3) && 944 1.36 jdolecek strchr("ABCD", str[3])) 945 1.1 oki str = app_cursor + 4 * (str[3] - 'A'); 946 1.1 oki 947 1.1 oki /* 948 1.1 oki * using a length-byte instead of 0-termination allows 949 1.1 oki * to embed \0 into strings, although this is not used 950 1.1 oki * in the default keymap 951 1.1 oki */ 952 1.1 oki for (i = *str++; i; i--) 953 1.24 minoura (*kbd_tty->t_linesw->l_rint) (*str++, kbd_tty); 954 1.1 oki splx(s); 955 1.1 oki return; 956 1.1 oki } 957 1.24 minoura (*kbd_tty->t_linesw->l_rint)(code, kbd_tty); 958 1.1 oki 959 1.1 oki splx(s); 960 1.1 oki return; 961 1.1 oki } 962 1.1 oki 963 1.1 oki /* helper functions, makes the code below more readable */ 964 1.38 chs __inline static void 965 1.38 chs ite_sendstr(struct ite_softc *ip, char *str) 966 1.1 oki { 967 1.1 oki while (*str) 968 1.1 oki itesendch (*str++); 969 1.1 oki } 970 1.1 oki 971 1.38 chs __inline static void 972 1.38 chs alignment_display(struct ite_softc *ip) 973 1.1 oki { 974 1.1 oki int i, j; 975 1.1 oki 976 1.1 oki for (j = 0; j < ip->rows; j++) 977 1.1 oki for (i = 0; i < ip->cols; i++) 978 1.1 oki SUBR_PUTC(ip, 'E', j, i, ATTR_NOR); 979 1.1 oki attrclr(ip, 0, 0, ip->rows, ip->cols); 980 1.1 oki } 981 1.1 oki 982 1.38 chs __inline static void 983 1.38 chs snap_cury(struct ite_softc *ip) 984 1.1 oki { 985 1.1 oki if (ip->inside_margins) { 986 1.1 oki if (ip->cury < ip->top_margin) 987 1.1 oki ip->cury = ip->top_margin; 988 1.1 oki if (ip->cury > ip->bottom_margin) 989 1.1 oki ip->cury = ip->bottom_margin; 990 1.1 oki } 991 1.1 oki } 992 1.1 oki 993 1.38 chs __inline static void 994 1.38 chs ite_dnchar(struct ite_softc *ip, int n) 995 1.1 oki { 996 1.1 oki n = min(n, ip->cols - ip->curx); 997 1.1 oki if (n < ip->cols - ip->curx) { 998 1.1 oki SUBR_SCROLL(ip, ip->cury, ip->curx + n, n, SCROLL_LEFT); 999 1.1 oki attrmov(ip, ip->cury, ip->curx + n, ip->cury, ip->curx, 1000 1.1 oki 1, ip->cols - ip->curx - n); 1001 1.1 oki attrclr(ip, ip->cury, ip->cols - n, 1, n); 1002 1.1 oki } 1003 1.1 oki while (n-- > 0) 1004 1.1 oki SUBR_PUTC(ip, ' ', ip->cury, ip->cols - n - 1, ATTR_NOR); 1005 1.1 oki } 1006 1.1 oki 1007 1.38 chs static void 1008 1.38 chs ite_inchar(struct ite_softc *ip, int n) 1009 1.1 oki { 1010 1.1 oki int c = ip->save_char; 1011 1.1 oki ip->save_char = 0; 1012 1.1 oki n = min(n, ip->cols - ip->curx); 1013 1.1 oki if (n < ip->cols - ip->curx) { 1014 1.1 oki SUBR_SCROLL(ip, ip->cury, ip->curx, n, SCROLL_RIGHT); 1015 1.1 oki attrmov(ip, ip->cury, ip->curx, ip->cury, ip->curx + n, 1016 1.1 oki 1, ip->cols - ip->curx - n); 1017 1.1 oki attrclr(ip, ip->cury, ip->curx, 1, n); 1018 1.1 oki } 1019 1.1 oki while (n--) 1020 1.1 oki SUBR_PUTC(ip, ' ', ip->cury, ip->curx + n, ATTR_NOR); 1021 1.1 oki ip->save_char = c; 1022 1.1 oki } 1023 1.1 oki 1024 1.38 chs __inline static void 1025 1.38 chs ite_clrtoeol(struct ite_softc *ip) 1026 1.1 oki { 1027 1.1 oki int y = ip->cury, x = ip->curx; 1028 1.1 oki if (ip->cols - x > 0) { 1029 1.1 oki SUBR_CLEAR(ip, y, x, 1, ip->cols - x); 1030 1.1 oki attrclr(ip, y, x, 1, ip->cols - x); 1031 1.1 oki } 1032 1.1 oki } 1033 1.1 oki 1034 1.38 chs __inline static void 1035 1.38 chs ite_clrtobol(struct ite_softc *ip) 1036 1.1 oki { 1037 1.1 oki int y = ip->cury, x = min(ip->curx + 1, ip->cols); 1038 1.1 oki SUBR_CLEAR(ip, y, 0, 1, x); 1039 1.1 oki attrclr(ip, y, 0, 1, x); 1040 1.1 oki } 1041 1.1 oki 1042 1.38 chs __inline static void 1043 1.38 chs ite_clrline(struct ite_softc *ip) 1044 1.1 oki { 1045 1.1 oki int y = ip->cury; 1046 1.1 oki SUBR_CLEAR(ip, y, 0, 1, ip->cols); 1047 1.1 oki attrclr(ip, y, 0, 1, ip->cols); 1048 1.1 oki } 1049 1.1 oki 1050 1.38 chs __inline static void 1051 1.38 chs ite_clrtoeos(struct ite_softc *ip) 1052 1.1 oki { 1053 1.1 oki ite_clrtoeol(ip); 1054 1.1 oki if (ip->cury < ip->rows - 1) { 1055 1.1 oki SUBR_CLEAR(ip, ip->cury + 1, 0, ip->rows - 1 - ip->cury, ip->cols); 1056 1.1 oki attrclr(ip, ip->cury, 0, ip->rows - ip->cury, ip->cols); 1057 1.1 oki } 1058 1.1 oki } 1059 1.1 oki 1060 1.38 chs __inline static void 1061 1.38 chs ite_clrtobos(struct ite_softc *ip) 1062 1.1 oki { 1063 1.1 oki ite_clrtobol(ip); 1064 1.1 oki if (ip->cury > 0) { 1065 1.1 oki SUBR_CLEAR(ip, 0, 0, ip->cury, ip->cols); 1066 1.1 oki attrclr(ip, 0, 0, ip->cury, ip->cols); 1067 1.1 oki } 1068 1.1 oki } 1069 1.1 oki 1070 1.38 chs __inline static void 1071 1.38 chs ite_clrscreen(struct ite_softc *ip) 1072 1.1 oki { 1073 1.1 oki SUBR_CLEAR(ip, 0, 0, ip->rows, ip->cols); 1074 1.1 oki attrclr(ip, 0, 0, ip->rows, ip->cols); 1075 1.1 oki } 1076 1.1 oki 1077 1.1 oki 1078 1.1 oki 1079 1.38 chs __inline static void 1080 1.38 chs ite_dnline(struct ite_softc *ip, int n) 1081 1.1 oki { 1082 1.1 oki /* 1083 1.1 oki * interesting.. if the cursor is outside the scrolling 1084 1.1 oki * region, this command is simply ignored.. 1085 1.1 oki */ 1086 1.1 oki if (ip->cury < ip->top_margin || ip->cury > ip->bottom_margin) 1087 1.1 oki return; 1088 1.1 oki 1089 1.1 oki n = min(n, ip->bottom_margin + 1 - ip->cury); 1090 1.1 oki if (n <= ip->bottom_margin - ip->cury) { 1091 1.1 oki SUBR_SCROLL(ip, ip->cury + n, 0, n, SCROLL_UP); 1092 1.1 oki attrmov(ip, ip->cury + n, 0, ip->cury, 0, 1093 1.1 oki ip->bottom_margin + 1 - ip->cury - n, ip->cols); 1094 1.1 oki } 1095 1.1 oki SUBR_CLEAR(ip, ip->bottom_margin - n + 1, 0, n, ip->cols); 1096 1.1 oki attrclr(ip, ip->bottom_margin - n + 1, 0, n, ip->cols); 1097 1.1 oki } 1098 1.1 oki 1099 1.38 chs __inline static void 1100 1.38 chs ite_inline(struct ite_softc *ip, int n) 1101 1.1 oki { 1102 1.1 oki /* 1103 1.1 oki * interesting.. if the cursor is outside the scrolling 1104 1.1 oki * region, this command is simply ignored.. 1105 1.1 oki */ 1106 1.1 oki if (ip->cury < ip->top_margin || ip->cury > ip->bottom_margin) 1107 1.1 oki return; 1108 1.1 oki 1109 1.1 oki if (n <= 0) 1110 1.1 oki n = 1; 1111 1.1 oki else n = min(n, ip->bottom_margin + 1 - ip->cury); 1112 1.1 oki if (n <= ip->bottom_margin - ip->cury) { 1113 1.1 oki SUBR_SCROLL(ip, ip->cury, 0, n, SCROLL_DOWN); 1114 1.1 oki attrmov(ip, ip->cury, 0, ip->cury + n, 0, 1115 1.1 oki ip->bottom_margin + 1 - ip->cury - n, ip->cols); 1116 1.1 oki } 1117 1.1 oki SUBR_CLEAR(ip, ip->cury, 0, n, ip->cols); 1118 1.1 oki attrclr(ip, ip->cury, 0, n, ip->cols); 1119 1.1 oki ip->curx = 0; 1120 1.1 oki } 1121 1.1 oki 1122 1.38 chs __inline static void 1123 1.38 chs ite_index(struct ite_softc *ip) 1124 1.1 oki { 1125 1.1 oki ++ip->cury; 1126 1.1 oki if ((ip->cury == ip->bottom_margin+1) || (ip->cury == ip->rows)) { 1127 1.1 oki ip->cury--; 1128 1.1 oki SUBR_SCROLL(ip, ip->top_margin + 1, 0, 1, SCROLL_UP); 1129 1.1 oki ite_clrline(ip); 1130 1.1 oki } 1131 1.1 oki /*clr_attr(ip, ATTR_INV);*/ 1132 1.1 oki } 1133 1.1 oki 1134 1.38 chs __inline static void 1135 1.38 chs ite_lf(struct ite_softc *ip) 1136 1.1 oki { 1137 1.1 oki ++ip->cury; 1138 1.1 oki if (ip->cury > ip->bottom_margin) { 1139 1.1 oki ip->cury--; 1140 1.1 oki SUBR_SCROLL(ip, ip->top_margin + 1, 0, 1, SCROLL_UP); 1141 1.1 oki ite_clrline(ip); 1142 1.1 oki } 1143 1.1 oki /* SUBR_CURSOR(ip, MOVE_CURSOR);*/ 1144 1.1 oki /*clr_attr(ip, ATTR_INV);*/ 1145 1.1 oki /* reset character set ... thanks for mohta. */ 1146 1.1 oki ip->G0 = CSET_ASCII; 1147 1.1 oki ip->G1 = CSET_JIS1983; 1148 1.1 oki ip->G2 = CSET_JISKANA; 1149 1.1 oki ip->G3 = CSET_JIS1990; 1150 1.1 oki ip->GL = &ip->G0; 1151 1.1 oki ip->GR = &ip->G1; 1152 1.1 oki ip->save_GL = 0; 1153 1.1 oki ip->save_char = 0; 1154 1.1 oki } 1155 1.1 oki 1156 1.38 chs __inline static void 1157 1.38 chs ite_crlf(struct ite_softc *ip) 1158 1.1 oki { 1159 1.1 oki ip->curx = 0; 1160 1.1 oki ite_lf (ip); 1161 1.1 oki } 1162 1.1 oki 1163 1.38 chs __inline static void 1164 1.38 chs ite_cr(struct ite_softc *ip) 1165 1.1 oki { 1166 1.1 oki if (ip->curx) { 1167 1.1 oki ip->curx = 0; 1168 1.1 oki } 1169 1.1 oki } 1170 1.1 oki 1171 1.38 chs __inline static void 1172 1.38 chs ite_rlf(struct ite_softc *ip) 1173 1.1 oki { 1174 1.1 oki ip->cury--; 1175 1.1 oki if ((ip->cury < 0) || (ip->cury == ip->top_margin - 1)) { 1176 1.1 oki ip->cury++; 1177 1.1 oki SUBR_SCROLL(ip, ip->top_margin, 0, 1, SCROLL_DOWN); 1178 1.1 oki ite_clrline(ip); 1179 1.1 oki } 1180 1.1 oki clr_attr(ip, ATTR_INV); 1181 1.1 oki } 1182 1.1 oki 1183 1.38 chs __inline static int 1184 1.38 chs atoi(const char *cp) 1185 1.1 oki { 1186 1.1 oki int n; 1187 1.1 oki 1188 1.1 oki for (n = 0; *cp && *cp >= '0' && *cp <= '9'; cp++) 1189 1.1 oki n = n * 10 + *cp - '0'; 1190 1.1 oki return n; 1191 1.1 oki } 1192 1.1 oki 1193 1.38 chs __inline static int 1194 1.38 chs ite_argnum(struct ite_softc *ip) 1195 1.1 oki { 1196 1.1 oki char ch; 1197 1.1 oki int n; 1198 1.1 oki 1199 1.1 oki /* convert argument string into number */ 1200 1.1 oki if (ip->ap == ip->argbuf) 1201 1.1 oki return 1; 1202 1.1 oki ch = *ip->ap; 1203 1.1 oki *ip->ap = 0; 1204 1.1 oki n = atoi (ip->argbuf); 1205 1.1 oki *ip->ap = ch; 1206 1.1 oki 1207 1.1 oki return n; 1208 1.1 oki } 1209 1.1 oki 1210 1.38 chs __inline static int 1211 1.38 chs ite_zargnum(struct ite_softc *ip) 1212 1.1 oki { 1213 1.1 oki char ch; 1214 1.1 oki int n; 1215 1.1 oki 1216 1.1 oki /* convert argument string into number */ 1217 1.1 oki if (ip->ap == ip->argbuf) 1218 1.1 oki return 0; 1219 1.1 oki ch = *ip->ap; 1220 1.1 oki *ip->ap = 0; /* terminate string */ 1221 1.1 oki n = atoi (ip->argbuf); 1222 1.1 oki *ip->ap = ch; 1223 1.1 oki 1224 1.1 oki return n; /* don't "n ? n : 1" here, <CSI>0m != <CSI>1m ! */ 1225 1.1 oki } 1226 1.1 oki 1227 1.1 oki void 1228 1.1 oki ite_putstr(s, len, dev) 1229 1.1 oki const u_char *s; 1230 1.1 oki int len; 1231 1.1 oki dev_t dev; 1232 1.1 oki { 1233 1.1 oki struct ite_softc *ip; 1234 1.1 oki int i; 1235 1.1 oki 1236 1.1 oki ip = getitesp(dev); 1237 1.1 oki 1238 1.1 oki /* XXX avoid problems */ 1239 1.1 oki if ((ip->flags & (ITE_ACTIVE|ITE_INGRF)) != ITE_ACTIVE) 1240 1.1 oki return; 1241 1.1 oki 1242 1.1 oki SUBR_CURSOR(ip, START_CURSOROPT); 1243 1.1 oki for (i = 0; i < len; i++) 1244 1.1 oki if (s[i]) 1245 1.1 oki iteputchar(s[i], ip); 1246 1.1 oki SUBR_CURSOR(ip, END_CURSOROPT); 1247 1.1 oki } 1248 1.1 oki 1249 1.38 chs void 1250 1.38 chs iteputchar(int c, struct ite_softc *ip) 1251 1.1 oki { 1252 1.1 oki int n, x, y; 1253 1.1 oki char *cp; 1254 1.1 oki 1255 1.1 oki if (c >= 0x20 && ip->escape) { 1256 1.1 oki switch (ip->escape) { 1257 1.1 oki 1258 1.1 oki case ESC: 1259 1.1 oki switch (c) { 1260 1.1 oki /* first 7bit equivalents for the 8bit control characters */ 1261 1.1 oki 1262 1.1 oki case 'D': 1263 1.1 oki c = IND; 1264 1.1 oki ip->escape = 0; 1265 1.1 oki break; /* and fall into the next switch below (same for all `break') */ 1266 1.1 oki 1267 1.1 oki case 'E': 1268 1.1 oki /* next line */ 1269 1.1 oki c = NEL; 1270 1.1 oki ip->escape = 0; 1271 1.1 oki break; 1272 1.1 oki 1273 1.1 oki case 'H': 1274 1.1 oki /* set TAB at current col */ 1275 1.1 oki c = HTS; 1276 1.1 oki ip->escape = 0; 1277 1.1 oki break; 1278 1.1 oki 1279 1.1 oki case 'M': 1280 1.1 oki /* reverse index */ 1281 1.1 oki c = RI; 1282 1.1 oki ip->escape = 0; 1283 1.1 oki break; 1284 1.1 oki 1285 1.1 oki case 'N': 1286 1.1 oki /* single shift G2 */ 1287 1.1 oki c = SS2; 1288 1.1 oki ip->escape = 0; 1289 1.1 oki break; 1290 1.1 oki 1291 1.1 oki case 'O': 1292 1.1 oki /* single shift G3 */ 1293 1.1 oki c = SS3; 1294 1.1 oki ip->escape = 0; 1295 1.1 oki break; 1296 1.1 oki 1297 1.1 oki case 'P': 1298 1.1 oki /* DCS detected */ 1299 1.1 oki c = DCS; 1300 1.1 oki ip->escape = 0; 1301 1.1 oki break; 1302 1.1 oki 1303 1.1 oki case '[': 1304 1.1 oki c = CSI; 1305 1.1 oki ip->escape = 0; 1306 1.1 oki break; 1307 1.1 oki 1308 1.1 oki case '\\': 1309 1.1 oki /* String Terminator */ 1310 1.1 oki c = ST; 1311 1.1 oki ip->escape = 0; 1312 1.1 oki break; 1313 1.1 oki 1314 1.1 oki case ']': 1315 1.1 oki c = OSC; 1316 1.1 oki ip->escape = 0; 1317 1.1 oki break; 1318 1.1 oki 1319 1.1 oki case '^': 1320 1.1 oki c = PM; 1321 1.1 oki ip->escape = 0; 1322 1.1 oki break; 1323 1.1 oki 1324 1.1 oki case '_': 1325 1.1 oki c = APC; 1326 1.1 oki ip->escape = 0; 1327 1.1 oki break; 1328 1.1 oki 1329 1.1 oki 1330 1.1 oki /* introduces 7/8bit control */ 1331 1.1 oki case ' ': 1332 1.1 oki /* can be followed by either F or G */ 1333 1.1 oki ip->escape = ' '; 1334 1.1 oki break; 1335 1.1 oki 1336 1.1 oki 1337 1.1 oki /* a lot of character set selections, not yet used... 1338 1.1 oki 94-character sets: */ 1339 1.1 oki case '(': /* G0 */ 1340 1.1 oki case ')': /* G1 */ 1341 1.1 oki ip->escape = c; 1342 1.1 oki return; 1343 1.1 oki 1344 1.1 oki case '*': /* G2 */ 1345 1.1 oki case '+': /* G3 */ 1346 1.1 oki case 'B': /* ASCII */ 1347 1.1 oki case 'A': /* ISO latin 1 */ 1348 1.1 oki case '<': /* user preferred suplemental */ 1349 1.1 oki case '0': /* dec special graphics */ 1350 1.1 oki 1351 1.1 oki /* 96-character sets: */ 1352 1.1 oki case '-': /* G1 */ 1353 1.1 oki case '.': /* G2 */ 1354 1.1 oki case '/': /* G3 */ 1355 1.1 oki 1356 1.1 oki /* national character sets: */ 1357 1.1 oki case '4': /* dutch */ 1358 1.1 oki case '5': 1359 1.1 oki case 'C': /* finnish */ 1360 1.1 oki case 'R': /* french */ 1361 1.1 oki case 'Q': /* french canadian */ 1362 1.1 oki case 'K': /* german */ 1363 1.1 oki case 'Y': /* italian */ 1364 1.1 oki case '6': /* norwegian/danish */ 1365 1.1 oki /* note: %5 and %6 are not supported (two chars..) */ 1366 1.1 oki 1367 1.1 oki ip->escape = 0; 1368 1.1 oki /* just ignore for now */ 1369 1.1 oki return; 1370 1.1 oki 1371 1.1 oki /* 94-multibyte character sets designate */ 1372 1.1 oki case '$': 1373 1.1 oki ip->escape = '$'; 1374 1.1 oki return; 1375 1.1 oki 1376 1.1 oki /* locking shift modes */ 1377 1.1 oki case '`': 1378 1.1 oki ip->GR = &ip->G1; 1379 1.1 oki ip->escape = 0; 1380 1.1 oki return; 1381 1.1 oki 1382 1.1 oki case 'n': 1383 1.1 oki ip->GL = &ip->G2; 1384 1.1 oki ip->escape = 0; 1385 1.1 oki return; 1386 1.1 oki 1387 1.1 oki case '}': 1388 1.1 oki ip->GR = &ip->G2; 1389 1.1 oki ip->escape = 0; 1390 1.1 oki return; 1391 1.1 oki 1392 1.1 oki case 'o': 1393 1.1 oki ip->GL = &ip->G3; 1394 1.1 oki ip->escape = 0; 1395 1.1 oki return; 1396 1.1 oki 1397 1.1 oki case '|': 1398 1.1 oki ip->GR = &ip->G3; 1399 1.1 oki ip->escape = 0; 1400 1.1 oki return; 1401 1.1 oki 1402 1.1 oki case '~': 1403 1.1 oki ip->GR = &ip->G1; 1404 1.1 oki ip->escape = 0; 1405 1.1 oki return; 1406 1.1 oki 1407 1.1 oki /* font width/height control */ 1408 1.1 oki case '#': 1409 1.1 oki ip->escape = '#'; 1410 1.1 oki return; 1411 1.1 oki 1412 1.1 oki case 'c': 1413 1.1 oki /* hard terminal reset .. */ 1414 1.1 oki ite_reset (ip); 1415 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1416 1.1 oki ip->escape = 0; 1417 1.1 oki return; 1418 1.1 oki 1419 1.1 oki 1420 1.1 oki case '7': 1421 1.1 oki /* save cursor */ 1422 1.1 oki ip->save_curx = ip->curx; 1423 1.1 oki ip->save_cury = ip->cury; 1424 1.1 oki ip->save_attribute = ip->attribute; 1425 1.1 oki ip->sc_om = ip->inside_margins; 1426 1.1 oki ip->sc_G0 = ip->G0; 1427 1.1 oki ip->sc_G1 = ip->G1; 1428 1.1 oki ip->sc_G2 = ip->G2; 1429 1.1 oki ip->sc_G3 = ip->G3; 1430 1.1 oki ip->sc_GL = ip->GL; 1431 1.1 oki ip->sc_GR = ip->GR; 1432 1.1 oki ip->escape = 0; 1433 1.1 oki return; 1434 1.1 oki 1435 1.1 oki case '8': 1436 1.1 oki /* restore cursor */ 1437 1.1 oki ip->curx = ip->save_curx; 1438 1.1 oki ip->cury = ip->save_cury; 1439 1.1 oki ip->attribute = ip->save_attribute; 1440 1.1 oki ip->inside_margins = ip->sc_om; 1441 1.1 oki ip->G0 = ip->sc_G0; 1442 1.1 oki ip->G1 = ip->sc_G1; 1443 1.1 oki ip->G2 = ip->sc_G2; 1444 1.1 oki ip->G3 = ip->sc_G3; 1445 1.1 oki ip->GL = ip->sc_GL; 1446 1.1 oki ip->GR = ip->sc_GR; 1447 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1448 1.1 oki ip->escape = 0; 1449 1.1 oki return; 1450 1.1 oki 1451 1.1 oki case '=': 1452 1.1 oki /* keypad application mode */ 1453 1.1 oki ip->keypad_appmode = 1; 1454 1.1 oki ip->escape = 0; 1455 1.1 oki return; 1456 1.1 oki 1457 1.1 oki case '>': 1458 1.1 oki /* keypad numeric mode */ 1459 1.1 oki ip->keypad_appmode = 0; 1460 1.1 oki ip->escape = 0; 1461 1.1 oki return; 1462 1.1 oki 1463 1.1 oki case 'Z': /* request ID */ 1464 1.1 oki if (ip->emul_level == EMUL_VT100) 1465 1.1 oki ite_sendstr (ip, "\033[61;0c"); /* XXX not clean */ 1466 1.1 oki else 1467 1.1 oki ite_sendstr (ip, "\033[63;0c"); /* XXX not clean */ 1468 1.1 oki ip->escape = 0; 1469 1.1 oki return; 1470 1.1 oki 1471 1.1 oki /* default catch all for not recognized ESC sequences */ 1472 1.1 oki default: 1473 1.1 oki ip->escape = 0; 1474 1.1 oki return; 1475 1.1 oki } 1476 1.1 oki break; 1477 1.1 oki 1478 1.1 oki 1479 1.1 oki case '(': /* designate G0 */ 1480 1.1 oki switch (c) { 1481 1.1 oki case 'B': /* USASCII */ 1482 1.1 oki ip->G0 = CSET_ASCII; 1483 1.1 oki ip->escape = 0; 1484 1.1 oki return; 1485 1.1 oki case 'I': 1486 1.1 oki ip->G0 = CSET_JISKANA; 1487 1.1 oki ip->escape = 0; 1488 1.1 oki return; 1489 1.1 oki case 'J': 1490 1.1 oki ip->G0 = CSET_JISROMA; 1491 1.1 oki ip->escape = 0; 1492 1.1 oki return; 1493 1.1 oki case 'A': /* British or ISO-Latin-1 */ 1494 1.1 oki case 'H': /* Swedish */ 1495 1.1 oki case 'K': /* German */ 1496 1.1 oki case 'R': /* French */ 1497 1.1 oki case 'Y': /* Italian */ 1498 1.1 oki case 'Z': /* Spanish */ 1499 1.1 oki default: 1500 1.1 oki /* not supported */ 1501 1.1 oki ip->escape = 0; 1502 1.1 oki return; 1503 1.1 oki } 1504 1.1 oki 1505 1.1 oki case ')': /* designate G1 */ 1506 1.1 oki ip->escape = 0; 1507 1.1 oki return; 1508 1.1 oki 1509 1.1 oki case '$': /* 94-multibyte character set */ 1510 1.1 oki switch (c) { 1511 1.1 oki case '@': 1512 1.1 oki ip->G0 = CSET_JIS1978; 1513 1.1 oki ip->escape = 0; 1514 1.1 oki return; 1515 1.1 oki case 'B': 1516 1.1 oki ip->G0 = CSET_JIS1983; 1517 1.1 oki ip->escape = 0; 1518 1.1 oki return; 1519 1.1 oki case 'D': 1520 1.1 oki ip->G0 = CSET_JIS1990; 1521 1.1 oki ip->escape = 0; 1522 1.1 oki return; 1523 1.1 oki default: 1524 1.1 oki /* not supported */ 1525 1.1 oki ip->escape = 0; 1526 1.1 oki return; 1527 1.1 oki } 1528 1.1 oki 1529 1.1 oki case ' ': 1530 1.1 oki switch (c) { 1531 1.1 oki case 'F': 1532 1.1 oki ip->eightbit_C1 = 0; 1533 1.1 oki ip->escape = 0; 1534 1.1 oki return; 1535 1.1 oki 1536 1.1 oki case 'G': 1537 1.1 oki ip->eightbit_C1 = 1; 1538 1.1 oki ip->escape = 0; 1539 1.1 oki return; 1540 1.1 oki 1541 1.1 oki default: 1542 1.1 oki /* not supported */ 1543 1.1 oki ip->escape = 0; 1544 1.1 oki return; 1545 1.1 oki } 1546 1.1 oki break; 1547 1.1 oki 1548 1.1 oki case '#': 1549 1.1 oki switch (c) { 1550 1.1 oki case '5': 1551 1.1 oki /* single height, single width */ 1552 1.1 oki ip->escape = 0; 1553 1.1 oki return; 1554 1.1 oki 1555 1.1 oki case '6': 1556 1.1 oki /* double width, single height */ 1557 1.1 oki ip->escape = 0; 1558 1.1 oki return; 1559 1.1 oki 1560 1.1 oki case '3': 1561 1.1 oki /* top half */ 1562 1.1 oki ip->escape = 0; 1563 1.1 oki return; 1564 1.1 oki 1565 1.1 oki case '4': 1566 1.1 oki /* bottom half */ 1567 1.1 oki ip->escape = 0; 1568 1.1 oki return; 1569 1.1 oki 1570 1.1 oki case '8': 1571 1.1 oki /* screen alignment pattern... */ 1572 1.1 oki alignment_display (ip); 1573 1.1 oki ip->escape = 0; 1574 1.1 oki return; 1575 1.1 oki 1576 1.1 oki default: 1577 1.1 oki ip->escape = 0; 1578 1.1 oki return; 1579 1.1 oki } 1580 1.1 oki break; 1581 1.1 oki 1582 1.1 oki 1583 1.1 oki 1584 1.1 oki case CSI: 1585 1.1 oki /* the biggie... */ 1586 1.1 oki switch (c) { 1587 1.1 oki case '0': case '1': case '2': case '3': case '4': 1588 1.1 oki case '5': case '6': case '7': case '8': case '9': 1589 1.1 oki case ';': case '\"': case '$': case '>': 1590 1.1 oki if (ip->ap < ip->argbuf + MAX_ARGSIZE) 1591 1.1 oki *ip->ap++ = c; 1592 1.1 oki return; 1593 1.1 oki 1594 1.1 oki case 'p': 1595 1.1 oki *ip->ap = 0; 1596 1.1 oki if (!strncmp(ip->argbuf, "61\"", 3)) 1597 1.1 oki ip->emul_level = EMUL_VT100; 1598 1.1 oki else if (!strncmp(ip->argbuf, "63;1\"", 5) 1599 1.1 oki || !strncmp(ip->argbuf, "62;1\"", 5)) 1600 1.1 oki ip->emul_level = EMUL_VT300_7; 1601 1.1 oki else 1602 1.1 oki ip->emul_level = EMUL_VT300_8; 1603 1.1 oki ip->escape = 0; 1604 1.1 oki return; 1605 1.1 oki 1606 1.1 oki 1607 1.1 oki case '?': 1608 1.1 oki *ip->ap = 0; 1609 1.1 oki ip->escape = '?'; 1610 1.1 oki ip->ap = ip->argbuf; 1611 1.1 oki return; 1612 1.1 oki 1613 1.1 oki 1614 1.1 oki case 'c': 1615 1.1 oki /* device attributes */ 1616 1.1 oki *ip->ap = 0; 1617 1.1 oki if (ip->argbuf[0] == '>') { 1618 1.1 oki ite_sendstr (ip, "\033[>24;0;0;0c"); 1619 1.1 oki } else 1620 1.1 oki switch (ite_zargnum(ip)) { 1621 1.1 oki case 0: 1622 1.1 oki /* primary DA request, send primary DA response */ 1623 1.1 oki if (ip->emul_level == EMUL_VT100) 1624 1.1 oki ite_sendstr (ip, "\033[?1;1c"); 1625 1.1 oki else 1626 1.1 oki ite_sendstr (ip, "\033[63;0c"); 1627 1.1 oki break; 1628 1.1 oki } 1629 1.1 oki ip->escape = 0; 1630 1.1 oki return; 1631 1.1 oki 1632 1.1 oki case 'n': 1633 1.1 oki switch (ite_zargnum(ip)) { 1634 1.1 oki case 5: 1635 1.1 oki ite_sendstr (ip, "\033[0n"); /* no malfunction */ 1636 1.1 oki break; 1637 1.1 oki case 6: 1638 1.1 oki /* cursor position report */ 1639 1.6 christos sprintf (ip->argbuf, "\033[%d;%dR", 1640 1.1 oki ip->cury + 1, ip->curx + 1); 1641 1.1 oki ite_sendstr (ip, ip->argbuf); 1642 1.1 oki break; 1643 1.1 oki } 1644 1.1 oki ip->escape = 0; 1645 1.1 oki return; 1646 1.1 oki 1647 1.1 oki 1648 1.1 oki case 'x': 1649 1.1 oki switch (ite_zargnum(ip)) { 1650 1.1 oki case 0: 1651 1.1 oki /* Fake some terminal parameters. */ 1652 1.1 oki ite_sendstr (ip, "\033[2;1;1;112;112;1;0x"); 1653 1.1 oki break; 1654 1.1 oki case 1: 1655 1.1 oki ite_sendstr (ip, "\033[3;1;1;112;112;1;0x"); 1656 1.1 oki break; 1657 1.1 oki } 1658 1.1 oki ip->escape = 0; 1659 1.1 oki return; 1660 1.1 oki 1661 1.1 oki 1662 1.1 oki case 'g': 1663 1.1 oki /* clear tabs */ 1664 1.1 oki switch (ite_zargnum(ip)) { 1665 1.1 oki case 0: 1666 1.1 oki if (ip->curx < ip->cols) 1667 1.1 oki ip->tabs[ip->curx] = 0; 1668 1.1 oki break; 1669 1.1 oki case 3: 1670 1.1 oki for (n = 0; n < ip->cols; n++) 1671 1.1 oki ip->tabs[n] = 0; 1672 1.1 oki break; 1673 1.1 oki 1674 1.1 oki default: 1675 1.1 oki /* ignore */ 1676 1.1 oki break; 1677 1.1 oki } 1678 1.1 oki ip->escape = 0; 1679 1.1 oki return; 1680 1.1 oki 1681 1.1 oki 1682 1.1 oki case 'h': /* set mode */ 1683 1.1 oki case 'l': /* reset mode */ 1684 1.1 oki n = ite_zargnum (ip); 1685 1.1 oki switch (n) { 1686 1.1 oki case 4: 1687 1.1 oki ip->imode = (c == 'h'); /* insert/replace mode */ 1688 1.1 oki break; 1689 1.1 oki case 20: 1690 1.1 oki ip->linefeed_newline = (c == 'h'); 1691 1.1 oki break; 1692 1.1 oki } 1693 1.1 oki ip->escape = 0; 1694 1.1 oki return; 1695 1.1 oki 1696 1.1 oki 1697 1.1 oki case 'M': 1698 1.1 oki /* delete line */ 1699 1.1 oki ite_dnline (ip, ite_argnum (ip)); 1700 1.1 oki ip->escape = 0; 1701 1.1 oki return; 1702 1.1 oki 1703 1.1 oki 1704 1.1 oki case 'L': 1705 1.1 oki /* insert line */ 1706 1.1 oki ite_inline (ip, ite_argnum (ip)); 1707 1.1 oki ip->escape = 0; 1708 1.1 oki return; 1709 1.1 oki 1710 1.1 oki 1711 1.1 oki case 'P': 1712 1.1 oki /* delete char */ 1713 1.1 oki ite_dnchar (ip, ite_argnum (ip)); 1714 1.1 oki ip->escape = 0; 1715 1.1 oki return; 1716 1.1 oki 1717 1.1 oki 1718 1.1 oki case '@': 1719 1.1 oki /* insert char(s) */ 1720 1.1 oki ite_inchar (ip, ite_argnum (ip)); 1721 1.1 oki ip->escape = 0; 1722 1.1 oki return; 1723 1.1 oki 1724 1.1 oki case '!': 1725 1.1 oki /* soft terminal reset */ 1726 1.1 oki ip->escape = 0; /* XXX */ 1727 1.1 oki return; 1728 1.1 oki 1729 1.1 oki case 'G': 1730 1.1 oki /* this one was *not* in my vt320 manual but in 1731 1.1 oki a vt320 termcap entry.. who is right? 1732 1.1 oki It's supposed to set the horizontal cursor position. */ 1733 1.1 oki *ip->ap = 0; 1734 1.1 oki x = atoi (ip->argbuf); 1735 1.1 oki if (x) x--; 1736 1.1 oki ip->curx = min(x, ip->cols - 1); 1737 1.1 oki ip->escape = 0; 1738 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1739 1.1 oki clr_attr (ip, ATTR_INV); 1740 1.1 oki return; 1741 1.1 oki 1742 1.1 oki 1743 1.1 oki case 'd': 1744 1.1 oki /* same thing here, this one's for setting the absolute 1745 1.1 oki vertical cursor position. Not documented... */ 1746 1.1 oki *ip->ap = 0; 1747 1.1 oki y = atoi (ip->argbuf); 1748 1.1 oki if (y) y--; 1749 1.1 oki if (ip->inside_margins) 1750 1.1 oki y += ip->top_margin; 1751 1.1 oki ip->cury = min(y, ip->rows - 1); 1752 1.1 oki ip->escape = 0; 1753 1.1 oki snap_cury(ip); 1754 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1755 1.1 oki clr_attr (ip, ATTR_INV); 1756 1.1 oki return; 1757 1.1 oki 1758 1.1 oki 1759 1.1 oki case 'H': 1760 1.1 oki case 'f': 1761 1.1 oki *ip->ap = 0; 1762 1.1 oki y = atoi (ip->argbuf); 1763 1.1 oki x = 0; 1764 1.36 jdolecek cp = strchr(ip->argbuf, ';'); 1765 1.1 oki if (cp) 1766 1.1 oki x = atoi (cp + 1); 1767 1.1 oki if (x) x--; 1768 1.1 oki if (y) y--; 1769 1.1 oki if (ip->inside_margins) 1770 1.1 oki y += ip->top_margin; 1771 1.1 oki ip->cury = min(y, ip->rows - 1); 1772 1.1 oki ip->curx = min(x, ip->cols - 1); 1773 1.1 oki ip->escape = 0; 1774 1.1 oki snap_cury(ip); 1775 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1776 1.1 oki /*clr_attr (ip, ATTR_INV);*/ 1777 1.1 oki return; 1778 1.1 oki 1779 1.1 oki case 'A': 1780 1.1 oki /* cursor up */ 1781 1.1 oki n = ite_argnum (ip); 1782 1.1 oki n = ip->cury - (n ? n : 1); 1783 1.1 oki if (n < 0) n = 0; 1784 1.1 oki if (ip->inside_margins) 1785 1.1 oki n = max(ip->top_margin, n); 1786 1.1 oki else if (n == ip->top_margin - 1) 1787 1.1 oki /* allow scrolling outside region, but don't scroll out 1788 1.1 oki of active region without explicit CUP */ 1789 1.1 oki n = ip->top_margin; 1790 1.1 oki ip->cury = n; 1791 1.1 oki ip->escape = 0; 1792 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1793 1.1 oki clr_attr (ip, ATTR_INV); 1794 1.1 oki return; 1795 1.1 oki 1796 1.1 oki case 'B': 1797 1.1 oki /* cursor down */ 1798 1.1 oki n = ite_argnum (ip); 1799 1.1 oki n = ip->cury + (n ? n : 1); 1800 1.1 oki n = min(ip->rows - 1, n); 1801 1.1 oki #if 0 1802 1.1 oki if (ip->inside_margins) 1803 1.1 oki #endif 1804 1.1 oki n = min(ip->bottom_margin, n); 1805 1.1 oki #if 0 1806 1.1 oki else if (n == ip->bottom_margin + 1) 1807 1.1 oki /* allow scrolling outside region, but don't scroll out 1808 1.1 oki of active region without explicit CUP */ 1809 1.1 oki n = ip->bottom_margin; 1810 1.1 oki #endif 1811 1.1 oki ip->cury = n; 1812 1.1 oki ip->escape = 0; 1813 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1814 1.1 oki clr_attr (ip, ATTR_INV); 1815 1.1 oki return; 1816 1.1 oki 1817 1.1 oki case 'C': 1818 1.1 oki /* cursor forward */ 1819 1.1 oki n = ite_argnum (ip); 1820 1.1 oki n = n ? n : 1; 1821 1.1 oki ip->curx = min(ip->curx + n, ip->cols - 1); 1822 1.1 oki ip->escape = 0; 1823 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1824 1.1 oki clr_attr (ip, ATTR_INV); 1825 1.1 oki return; 1826 1.1 oki 1827 1.1 oki case 'D': 1828 1.1 oki /* cursor backward */ 1829 1.1 oki n = ite_argnum (ip); 1830 1.1 oki n = n ? n : 1; 1831 1.1 oki n = ip->curx - n; 1832 1.1 oki ip->curx = n >= 0 ? n : 0; 1833 1.1 oki ip->escape = 0; 1834 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 1835 1.1 oki clr_attr (ip, ATTR_INV); 1836 1.1 oki return; 1837 1.1 oki 1838 1.1 oki 1839 1.1 oki case 'J': 1840 1.1 oki /* erase screen */ 1841 1.1 oki *ip->ap = 0; 1842 1.1 oki n = ite_zargnum (ip); 1843 1.1 oki if (n == 0) 1844 1.1 oki ite_clrtoeos(ip); 1845 1.1 oki else if (n == 1) 1846 1.1 oki ite_clrtobos(ip); 1847 1.1 oki else if (n == 2) 1848 1.1 oki ite_clrscreen(ip); 1849 1.1 oki ip->escape = 0; 1850 1.1 oki return; 1851 1.1 oki 1852 1.1 oki 1853 1.1 oki case 'K': 1854 1.1 oki /* erase line */ 1855 1.1 oki n = ite_zargnum (ip); 1856 1.1 oki if (n == 0) 1857 1.1 oki ite_clrtoeol(ip); 1858 1.1 oki else if (n == 1) 1859 1.1 oki ite_clrtobol(ip); 1860 1.1 oki else if (n == 2) 1861 1.1 oki ite_clrline(ip); 1862 1.1 oki ip->escape = 0; 1863 1.1 oki return; 1864 1.1 oki 1865 1.1 oki case 'S': 1866 1.1 oki /* scroll up */ 1867 1.1 oki n = ite_zargnum (ip); 1868 1.1 oki if (n <= 0) 1869 1.1 oki n = 1; 1870 1.1 oki else if (n > ip->rows-1) 1871 1.1 oki n = ip->rows-1; 1872 1.1 oki SUBR_SCROLL(ip, ip->rows-1, 0, n, SCROLL_UP); 1873 1.1 oki ip->escape = 0; 1874 1.1 oki return; 1875 1.1 oki 1876 1.1 oki case 'T': 1877 1.1 oki /* scroll down */ 1878 1.1 oki n = ite_zargnum (ip); 1879 1.1 oki if (n <= 0) 1880 1.1 oki n = 1; 1881 1.1 oki else if (n > ip->rows-1) 1882 1.1 oki n = ip->rows-1; 1883 1.1 oki SUBR_SCROLL(ip, 0, 0, n, SCROLL_DOWN); 1884 1.1 oki ip->escape = 0; 1885 1.1 oki return; 1886 1.1 oki 1887 1.1 oki case 'X': 1888 1.1 oki /* erase character */ 1889 1.1 oki n = ite_argnum(ip) - 1; 1890 1.1 oki n = min(n, ip->cols - 1 - ip->curx); 1891 1.1 oki for (; n >= 0; n--) { 1892 1.1 oki attrclr(ip, ip->cury, ip->curx + n, 1, 1); 1893 1.1 oki SUBR_PUTC(ip, ' ', ip->cury, ip->curx + n, ATTR_NOR); 1894 1.1 oki } 1895 1.1 oki ip->escape = 0; 1896 1.1 oki return; 1897 1.1 oki 1898 1.1 oki 1899 1.1 oki case '}': case '`': 1900 1.1 oki /* status line control */ 1901 1.1 oki ip->escape = 0; 1902 1.1 oki return; 1903 1.1 oki 1904 1.1 oki case 'r': 1905 1.1 oki /* set scrolling region */ 1906 1.1 oki ip->escape = 0; 1907 1.1 oki *ip->ap = 0; 1908 1.1 oki x = atoi (ip->argbuf); 1909 1.1 oki x = x ? x : 1; 1910 1.1 oki y = ip->rows; 1911 1.36 jdolecek cp = strchr(ip->argbuf, ';'); 1912 1.1 oki if (cp) { 1913 1.1 oki y = atoi (cp + 1); 1914 1.1 oki y = y ? y : ip->rows; 1915 1.1 oki } 1916 1.1 oki if (y <= x) 1917 1.1 oki return; 1918 1.1 oki x--; 1919 1.1 oki y--; 1920 1.1 oki ip->top_margin = min(x, ip->rows - 2); 1921 1.1 oki ip->bottom_margin = min(y, ip->rows - 1); 1922 1.1 oki if (ip->inside_margins) { 1923 1.1 oki ip->cury = ip->top_margin; 1924 1.1 oki } else 1925 1.1 oki ip->cury = 0; 1926 1.1 oki ip->curx = 0; 1927 1.1 oki return; 1928 1.1 oki 1929 1.1 oki 1930 1.1 oki case 'm': 1931 1.1 oki /* big attribute setter/resetter */ 1932 1.1 oki { 1933 1.1 oki char *cp; 1934 1.1 oki *ip->ap = 0; 1935 1.1 oki /* kludge to make CSIm work (== CSI0m) */ 1936 1.1 oki if (ip->ap == ip->argbuf) 1937 1.1 oki ip->ap++; 1938 1.1 oki for (cp = ip->argbuf; cp < ip->ap; ) { 1939 1.1 oki switch (*cp) { 1940 1.1 oki case 0: 1941 1.1 oki case '0': 1942 1.1 oki clr_attr (ip, ATTR_ALL); 1943 1.1 oki ip->fgcolor = 7; 1944 1.1 oki ip->bgcolor = 0; 1945 1.1 oki cp++; 1946 1.1 oki break; 1947 1.1 oki 1948 1.1 oki case '1': 1949 1.1 oki set_attr (ip, ATTR_BOLD); 1950 1.1 oki cp++; 1951 1.1 oki break; 1952 1.1 oki 1953 1.1 oki case '2': 1954 1.1 oki switch (cp[1]) { 1955 1.1 oki case '2': 1956 1.1 oki clr_attr (ip, ATTR_BOLD); 1957 1.1 oki cp += 2; 1958 1.1 oki break; 1959 1.1 oki 1960 1.1 oki case '4': 1961 1.1 oki clr_attr (ip, ATTR_UL); 1962 1.1 oki cp += 2; 1963 1.1 oki break; 1964 1.1 oki 1965 1.1 oki case '5': 1966 1.1 oki clr_attr (ip, ATTR_BLINK); 1967 1.1 oki cp += 2; 1968 1.1 oki break; 1969 1.1 oki 1970 1.1 oki case '7': 1971 1.1 oki clr_attr (ip, ATTR_INV); 1972 1.1 oki cp += 2; 1973 1.1 oki break; 1974 1.1 oki 1975 1.1 oki default: 1976 1.1 oki cp++; 1977 1.1 oki break; 1978 1.1 oki } 1979 1.1 oki break; 1980 1.1 oki 1981 1.1 oki case '3': 1982 1.1 oki switch (cp[1]) { 1983 1.1 oki case '0': case '1': case '2': case '3': 1984 1.1 oki case '4': case '5': case '6': case '7': 1985 1.1 oki /* foreground colors */ 1986 1.1 oki ip->fgcolor = cp[1] - '0'; 1987 1.1 oki cp += 2; 1988 1.1 oki break; 1989 1.1 oki default: 1990 1.1 oki cp++; 1991 1.1 oki break; 1992 1.1 oki } 1993 1.1 oki break; 1994 1.1 oki 1995 1.1 oki case '4': 1996 1.1 oki switch (cp[1]) { 1997 1.1 oki case '0': case '1': case '2': case '3': 1998 1.1 oki case '4': case '5': case '6': case '7': 1999 1.1 oki /* background colors */ 2000 1.1 oki ip->bgcolor = cp[1] - '0'; 2001 1.1 oki cp += 2; 2002 1.1 oki break; 2003 1.1 oki default: 2004 1.1 oki set_attr (ip, ATTR_UL); 2005 1.1 oki cp++; 2006 1.1 oki break; 2007 1.1 oki } 2008 1.1 oki break; 2009 1.1 oki 2010 1.1 oki case '5': 2011 1.1 oki set_attr (ip, ATTR_BLINK); 2012 1.1 oki cp++; 2013 1.1 oki break; 2014 1.1 oki 2015 1.1 oki case '7': 2016 1.1 oki set_attr (ip, ATTR_INV); 2017 1.1 oki cp++; 2018 1.1 oki break; 2019 1.1 oki 2020 1.1 oki default: 2021 1.1 oki cp++; 2022 1.1 oki break; 2023 1.1 oki } 2024 1.1 oki } 2025 1.1 oki 2026 1.1 oki } 2027 1.1 oki ip->escape = 0; 2028 1.1 oki return; 2029 1.1 oki 2030 1.1 oki 2031 1.1 oki case 'u': 2032 1.1 oki /* DECRQTSR */ 2033 1.1 oki ite_sendstr (ip, "\033P\033\\"); 2034 1.1 oki ip->escape = 0; 2035 1.1 oki return; 2036 1.1 oki 2037 1.1 oki default: 2038 1.1 oki ip->escape = 0; 2039 1.1 oki return; 2040 1.1 oki } 2041 1.1 oki break; 2042 1.1 oki 2043 1.1 oki 2044 1.1 oki 2045 1.1 oki case '?': /* CSI ? */ 2046 1.1 oki switch (c) { 2047 1.1 oki case '0': case '1': case '2': case '3': case '4': 2048 1.1 oki case '5': case '6': case '7': case '8': case '9': 2049 1.1 oki case ';': case '\"': case '$': 2050 1.1 oki /* Don't fill the last character; it's needed. */ 2051 1.1 oki /* XXX yeah, where ?? */ 2052 1.1 oki if (ip->ap < ip->argbuf + MAX_ARGSIZE - 1) 2053 1.1 oki *ip->ap++ = c; 2054 1.1 oki return; 2055 1.1 oki 2056 1.1 oki 2057 1.1 oki case 'n': 2058 1.1 oki /* Terminal Reports */ 2059 1.1 oki *ip->ap = 0; 2060 1.1 oki if (ip->ap == &ip->argbuf[2]) { 2061 1.1 oki if (!strncmp(ip->argbuf, "15", 2)) 2062 1.1 oki /* printer status: no printer */ 2063 1.1 oki ite_sendstr (ip, "\033[13n"); 2064 1.1 oki 2065 1.1 oki else if (!strncmp(ip->argbuf, "25", 2)) 2066 1.1 oki /* udk status */ 2067 1.1 oki ite_sendstr (ip, "\033[20n"); 2068 1.1 oki 2069 1.1 oki else if (!strncmp(ip->argbuf, "26", 2)) 2070 1.1 oki /* keyboard dialect: US */ 2071 1.1 oki ite_sendstr (ip, "\033[27;1n"); 2072 1.1 oki } 2073 1.1 oki ip->escape = 0; 2074 1.1 oki return; 2075 1.1 oki 2076 1.1 oki 2077 1.1 oki case 'h': /* set dec private modes */ 2078 1.1 oki case 'l': /* reset dec private modes */ 2079 1.1 oki n = ite_zargnum (ip); 2080 1.1 oki switch (n) { 2081 1.1 oki case 1: 2082 1.1 oki /* CKM - cursor key mode */ 2083 1.1 oki ip->cursor_appmode = (c == 'h'); 2084 1.1 oki break; 2085 1.1 oki 2086 1.1 oki case 3: 2087 1.1 oki /* 132/80 columns (132 == 'h') */ 2088 1.1 oki break; 2089 1.1 oki 2090 1.1 oki case 4: /* smooth scroll */ 2091 1.1 oki break; 2092 1.1 oki 2093 1.1 oki case 5: 2094 1.1 oki /* light background (=='h') /dark background(=='l') */ 2095 1.1 oki break; 2096 1.1 oki 2097 1.1 oki case 6: /* origin mode */ 2098 1.1 oki ip->inside_margins = (c == 'h'); 2099 1.1 oki #if 0 2100 1.1 oki ip->curx = 0; 2101 1.1 oki ip->cury = ip->inside_margins ? ip->top_margin : 0; 2102 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 2103 1.1 oki #endif 2104 1.1 oki break; 2105 1.1 oki 2106 1.1 oki case 7: /* auto wraparound */ 2107 1.1 oki ip->auto_wrap = (c == 'h'); 2108 1.1 oki break; 2109 1.1 oki 2110 1.1 oki case 8: /* keyboard repeat */ 2111 1.1 oki ip->key_repeat = (c == 'h'); 2112 1.1 oki break; 2113 1.1 oki 2114 1.1 oki case 20: /* newline mode */ 2115 1.1 oki ip->linefeed_newline = (c == 'h'); 2116 1.1 oki break; 2117 1.1 oki 2118 1.1 oki case 25: /* cursor on/off */ 2119 1.1 oki SUBR_CURSOR(ip, (c == 'h') ? DRAW_CURSOR : ERASE_CURSOR); 2120 1.1 oki break; 2121 1.1 oki } 2122 1.1 oki ip->escape = 0; 2123 1.1 oki return; 2124 1.1 oki 2125 1.1 oki case 'K': 2126 1.1 oki /* selective erase in line */ 2127 1.1 oki case 'J': 2128 1.1 oki /* selective erase in display */ 2129 1.1 oki 2130 1.1 oki default: 2131 1.1 oki ip->escape = 0; 2132 1.1 oki return; 2133 1.1 oki } 2134 1.1 oki break; 2135 1.1 oki 2136 1.1 oki 2137 1.1 oki default: 2138 1.1 oki ip->escape = 0; 2139 1.1 oki return; 2140 1.1 oki } 2141 1.1 oki } 2142 1.1 oki 2143 1.1 oki switch (c) { 2144 1.1 oki case 0x00: /* NUL */ 2145 1.1 oki case 0x01: /* SOH */ 2146 1.1 oki case 0x02: /* STX */ 2147 1.1 oki case 0x03: /* ETX */ 2148 1.1 oki case 0x04: /* EOT */ 2149 1.1 oki case 0x05: /* ENQ */ 2150 1.1 oki case 0x06: /* ACK */ 2151 1.1 oki break; 2152 1.1 oki 2153 1.1 oki case BEL: 2154 1.1 oki #if NBELL > 0 2155 1.10 msaitoh if (kbd_ite && ite_tty[kbd_ite->device.dv_unit]) 2156 1.1 oki opm_bell(); 2157 1.1 oki #endif 2158 1.1 oki break; 2159 1.1 oki 2160 1.1 oki case BS: 2161 1.1 oki if (--ip->curx < 0) 2162 1.1 oki ip->curx = 0; 2163 1.1 oki else 2164 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 2165 1.1 oki break; 2166 1.1 oki 2167 1.1 oki case HT: 2168 1.1 oki for (n = ip->curx + 1; n < ip->cols; n++) { 2169 1.1 oki if (ip->tabs[n]) { 2170 1.1 oki ip->curx = n; 2171 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 2172 1.1 oki break; 2173 1.1 oki } 2174 1.1 oki } 2175 1.1 oki break; 2176 1.1 oki 2177 1.1 oki case VT: /* VT is treated like LF */ 2178 1.1 oki case FF: /* so is FF */ 2179 1.1 oki case LF: 2180 1.1 oki /* cr->crlf distinction is done here, on output, 2181 1.1 oki not on input! */ 2182 1.1 oki if (ip->linefeed_newline) 2183 1.1 oki ite_crlf (ip); 2184 1.1 oki else 2185 1.1 oki ite_lf (ip); 2186 1.1 oki break; 2187 1.1 oki 2188 1.1 oki case CR: 2189 1.1 oki ite_cr (ip); 2190 1.1 oki break; 2191 1.1 oki 2192 1.1 oki 2193 1.1 oki case SO: 2194 1.1 oki ip->GL = &ip->G1; 2195 1.1 oki break; 2196 1.1 oki 2197 1.1 oki case SI: 2198 1.1 oki ip->GL = &ip->G0; 2199 1.1 oki break; 2200 1.1 oki 2201 1.1 oki case 0x10: /* DLE */ 2202 1.1 oki case 0x11: /* DC1/XON */ 2203 1.1 oki case 0x12: /* DC2 */ 2204 1.1 oki case 0x13: /* DC3/XOFF */ 2205 1.1 oki case 0x14: /* DC4 */ 2206 1.1 oki case 0x15: /* NAK */ 2207 1.1 oki case 0x16: /* SYN */ 2208 1.1 oki case 0x17: /* ETB */ 2209 1.1 oki break; 2210 1.1 oki 2211 1.1 oki case CAN: 2212 1.1 oki ip->escape = 0; /* cancel any escape sequence in progress */ 2213 1.1 oki break; 2214 1.1 oki 2215 1.1 oki case 0x19: /* EM */ 2216 1.1 oki break; 2217 1.1 oki 2218 1.1 oki case SUB: 2219 1.1 oki ip->escape = 0; /* dito, but see below */ 2220 1.1 oki /* should also display a reverse question mark!! */ 2221 1.1 oki break; 2222 1.1 oki 2223 1.1 oki case ESC: 2224 1.1 oki ip->escape = ESC; 2225 1.1 oki break; 2226 1.1 oki 2227 1.1 oki case 0x1c: /* FS */ 2228 1.1 oki case 0x1d: /* GS */ 2229 1.1 oki case 0x1e: /* RS */ 2230 1.1 oki case 0x1f: /* US */ 2231 1.1 oki break; 2232 1.1 oki 2233 1.1 oki /* now it gets weird.. 8bit control sequences.. */ 2234 1.1 oki case IND: /* index: move cursor down, scroll */ 2235 1.1 oki ite_index (ip); 2236 1.1 oki break; 2237 1.1 oki 2238 1.1 oki case NEL: /* next line. next line, first pos. */ 2239 1.1 oki ite_crlf (ip); 2240 1.1 oki break; 2241 1.1 oki 2242 1.1 oki case HTS: /* set horizontal tab */ 2243 1.1 oki if (ip->curx < ip->cols) 2244 1.1 oki ip->tabs[ip->curx] = 1; 2245 1.1 oki break; 2246 1.1 oki 2247 1.1 oki case RI: /* reverse index */ 2248 1.1 oki ite_rlf (ip); 2249 1.1 oki break; 2250 1.1 oki 2251 1.1 oki case SS2: /* go into G2 for one character */ 2252 1.1 oki ip->save_GL = ip->GR; /* GL XXX EUC */ 2253 1.1 oki ip->GR = &ip->G2; /* GL XXX */ 2254 1.1 oki break; 2255 1.1 oki 2256 1.1 oki case SS3: /* go into G3 for one character */ 2257 1.1 oki ip->save_GL = ip->GR; /* GL XXX EUC */ 2258 1.1 oki ip->GR = &ip->G3; /* GL XXX */ 2259 1.1 oki break; 2260 1.1 oki 2261 1.1 oki case DCS: /* device control string introducer */ 2262 1.1 oki ip->escape = DCS; 2263 1.1 oki ip->ap = ip->argbuf; 2264 1.1 oki break; 2265 1.1 oki 2266 1.1 oki case CSI: /* control sequence introducer */ 2267 1.1 oki ip->escape = CSI; 2268 1.1 oki ip->ap = ip->argbuf; 2269 1.1 oki break; 2270 1.1 oki 2271 1.1 oki case ST: /* string terminator */ 2272 1.1 oki /* ignore, if not used as terminator */ 2273 1.1 oki break; 2274 1.1 oki 2275 1.1 oki case OSC: /* introduces OS command. Ignore everything upto ST */ 2276 1.1 oki ip->escape = OSC; 2277 1.1 oki break; 2278 1.1 oki 2279 1.1 oki case PM: /* privacy message, ignore everything upto ST */ 2280 1.1 oki ip->escape = PM; 2281 1.1 oki break; 2282 1.1 oki 2283 1.1 oki case APC: /* application program command, ignore everything upto ST */ 2284 1.1 oki ip->escape = APC; 2285 1.1 oki break; 2286 1.1 oki 2287 1.1 oki case DEL: 2288 1.1 oki break; 2289 1.1 oki 2290 1.1 oki default: 2291 1.1 oki if (!ip->save_char && (*((c & 0x80) ? ip->GR : ip->GL) & CSET_MULTI)) { 2292 1.1 oki ip->save_char = c; 2293 1.1 oki break; 2294 1.1 oki } 2295 1.1 oki if (ip->imode) 2296 1.1 oki ite_inchar(ip, ip->save_char ? 2 : 1); 2297 1.1 oki iteprecheckwrap(ip); 2298 1.1 oki #ifdef DO_WEIRD_ATTRIBUTES 2299 1.1 oki if ((ip->attribute & ATTR_INV) || attrtest(ip, ATTR_INV)) { 2300 1.1 oki attrset(ip, ATTR_INV); 2301 1.1 oki SUBR_PUTC(ip, c, ip->cury, ip->curx, ATTR_INV); 2302 1.1 oki } 2303 1.1 oki else 2304 1.1 oki SUBR_PUTC(ip, c, ip->cury, ip->curx, ATTR_NOR); 2305 1.1 oki #else 2306 1.1 oki SUBR_PUTC(ip, c, ip->cury, ip->curx, ip->attribute); 2307 1.1 oki #endif 2308 1.1 oki /* SUBR_CURSOR(ip, DRAW_CURSOR);*/ 2309 1.1 oki itecheckwrap(ip); 2310 1.1 oki if (ip->save_char) { 2311 1.1 oki itecheckwrap(ip); 2312 1.1 oki ip->save_char = 0; 2313 1.1 oki } 2314 1.1 oki if (ip->save_GL) { 2315 1.1 oki /* 2316 1.1 oki * reset single shift 2317 1.1 oki */ 2318 1.1 oki ip->GR = ip->save_GL; 2319 1.1 oki ip->save_GL = 0; 2320 1.1 oki } 2321 1.1 oki break; 2322 1.1 oki } 2323 1.1 oki } 2324 1.1 oki 2325 1.38 chs static void 2326 1.38 chs iteprecheckwrap(struct ite_softc *ip) 2327 1.1 oki { 2328 1.1 oki if (ip->auto_wrap && ip->curx + (ip->save_char ? 1 : 0) == ip->cols) { 2329 1.1 oki ip->curx = 0; 2330 1.1 oki clr_attr(ip, ATTR_INV); 2331 1.1 oki if (++ip->cury >= ip->bottom_margin + 1) { 2332 1.1 oki ip->cury = ip->bottom_margin; 2333 1.1 oki /*SUBR_CURSOR(ip, MOVE_CURSOR);*/ 2334 1.1 oki SUBR_SCROLL(ip, ip->top_margin + 1, 0, 1, SCROLL_UP); 2335 1.1 oki ite_clrtoeol(ip); 2336 1.1 oki } /*else 2337 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR);*/ 2338 1.1 oki } 2339 1.1 oki } 2340 1.1 oki 2341 1.38 chs static void 2342 1.38 chs itecheckwrap(struct ite_softc *ip) 2343 1.1 oki { 2344 1.1 oki #if 0 2345 1.1 oki if (++ip->curx == ip->cols) { 2346 1.1 oki if (ip->auto_wrap) { 2347 1.1 oki ip->curx = 0; 2348 1.1 oki clr_attr(ip, ATTR_INV); 2349 1.1 oki if (++ip->cury >= ip->bottom_margin + 1) { 2350 1.1 oki ip->cury = ip->bottom_margin; 2351 1.1 oki SUBR_CURSOR(ip, MOVE_CURSOR); 2352 1.1 oki SUBR_SCROLL(ip, ip->top_margin + 1, 0, 1, SCROLL_UP); 2353 1.1 oki ite_clrtoeol(ip); 2354 1.1 oki return; 2355 1.1 oki } 2356 1.1 oki } else 2357 1.1 oki /* stay there if no autowrap.. */ 2358 1.1 oki ip->curx--; 2359 1.1 oki } 2360 1.1 oki #else 2361 1.1 oki if (ip->curx < ip->cols) { 2362 1.1 oki ip->curx++; 2363 1.1 oki /*SUBR_CURSOR(ip, MOVE_CURSOR);*/ 2364 1.1 oki } 2365 1.1 oki #endif 2366 1.1 oki } 2367 1.1 oki 2368 1.1 oki #endif 2369 1.1 oki 2370 1.14 minoura #if NITE > 0 && NKBD > 0 2371 1.14 minoura 2372 1.1 oki /* 2373 1.1 oki * Console functions 2374 1.1 oki */ 2375 1.1 oki #include <dev/cons.h> 2376 1.38 chs extern void kbdenable(int); 2377 1.38 chs extern int kbdcngetc(void); 2378 1.1 oki 2379 1.1 oki /* 2380 1.1 oki * Return a priority in consdev->cn_pri field highest wins. This function 2381 1.1 oki * is called before any devices have been probed. 2382 1.1 oki */ 2383 1.38 chs void 2384 1.38 chs itecnprobe(struct consdev *cd) 2385 1.1 oki { 2386 1.2 oki int maj; 2387 1.1 oki 2388 1.1 oki /* locate the major number */ 2389 1.29 gehenna maj = cdevsw_lookup_major(&ite_cdevsw); 2390 1.1 oki 2391 1.1 oki /* 2392 1.1 oki * return priority of the best ite (already picked from attach) 2393 1.1 oki * or CN_DEAD. 2394 1.1 oki */ 2395 1.1 oki if (con_itesoftc.grf == NULL) 2396 1.1 oki cd->cn_pri = CN_DEAD; 2397 1.1 oki else { 2398 1.1 oki con_itesoftc.flags = (ITE_ALIVE|ITE_CONSOLE); 2399 1.14 minoura /* 2400 1.14 minoura * hardcode the minor number. 2401 1.14 minoura * currently we support only one ITE, it is enough for now. 2402 1.14 minoura */ 2403 1.14 minoura con_itesoftc.isw = &itesw[0]; 2404 1.1 oki cd->cn_pri = CN_INTERNAL; 2405 1.14 minoura cd->cn_dev = makedev(maj, 0); 2406 1.1 oki } 2407 1.1 oki 2408 1.1 oki } 2409 1.1 oki 2410 1.38 chs void 2411 1.38 chs itecninit(struct consdev *cd) 2412 1.1 oki { 2413 1.1 oki struct ite_softc *ip; 2414 1.1 oki 2415 1.1 oki ip = getitesp(cd->cn_dev); 2416 1.1 oki iteinit(cd->cn_dev); /* init console unit */ 2417 1.1 oki ip->flags |= ITE_ACTIVE | ITE_ISCONS; 2418 1.14 minoura kbdenable(0); 2419 1.14 minoura mfp_send_usart(0x49); 2420 1.1 oki } 2421 1.1 oki 2422 1.1 oki /* 2423 1.1 oki * itecnfinish() is called in ite_init() when the device is 2424 1.1 oki * being probed in the normal fasion, thus we can finish setting 2425 1.1 oki * up this ite now that the system is more functional. 2426 1.1 oki */ 2427 1.38 chs void 2428 1.38 chs itecnfinish(struct ite_softc *ip) 2429 1.1 oki { 2430 1.1 oki static int done; 2431 1.1 oki 2432 1.1 oki if (done) 2433 1.1 oki return; 2434 1.1 oki done = 1; 2435 1.1 oki } 2436 1.1 oki 2437 1.1 oki /*ARGSUSED*/ 2438 1.38 chs int 2439 1.38 chs itecngetc(dev_t dev) 2440 1.1 oki { 2441 1.38 chs int c; 2442 1.1 oki 2443 1.1 oki do { 2444 1.14 minoura c = kbdcngetc(); 2445 1.16 minoura c = ite_cnfilter(c); 2446 1.1 oki } while (c == -1); 2447 1.1 oki return (c); 2448 1.1 oki } 2449 1.1 oki 2450 1.38 chs void 2451 1.38 chs itecnputc(dev_t dev, int c) 2452 1.1 oki { 2453 1.1 oki static int paniced = 0; 2454 1.1 oki struct ite_softc *ip = getitesp(dev); 2455 1.1 oki char ch = c; 2456 1.14 minoura #ifdef ITE_KERNEL_ATTR 2457 1.14 minoura short save_attribute; 2458 1.14 minoura #endif 2459 1.1 oki 2460 1.1 oki if (panicstr && !paniced && 2461 1.1 oki (ip->flags & (ITE_ACTIVE|ITE_INGRF)) != ITE_ACTIVE) { 2462 1.1 oki (void) iteon(dev, 3); 2463 1.1 oki paniced = 1; 2464 1.1 oki } 2465 1.14 minoura #ifdef ITE_KERNEL_ATTR 2466 1.14 minoura save_attribute = ip->attribute; 2467 1.14 minoura ip->attribute = ITE_KERNEL_ATTR; 2468 1.14 minoura #endif 2469 1.1 oki ite_putstr(&ch, 1, dev); 2470 1.14 minoura #ifdef ITE_KERNEL_ATTR 2471 1.14 minoura ip->attribute = save_attribute; 2472 1.14 minoura #endif 2473 1.1 oki } 2474 1.14 minoura #endif 2475
Indexes created Wed Sep 24 05:09:52 GMT 2025