wsdisplay_compat_usl.c revision 1.15.2.1
1 1.15.2.1 nathanw /* $NetBSD: wsdisplay_compat_usl.c,v 1.15.2.1 2001/03/05 22:49:37 nathanw Exp $ */ 2 1.1 drochner 3 1.1 drochner /* 4 1.1 drochner * Copyright (c) 1998 5 1.1 drochner * Matthias Drochner. All rights reserved. 6 1.1 drochner * 7 1.1 drochner * Redistribution and use in source and binary forms, with or without 8 1.1 drochner * modification, are permitted provided that the following conditions 9 1.1 drochner * are met: 10 1.1 drochner * 1. Redistributions of source code must retain the above copyright 11 1.1 drochner * notice, this list of conditions and the following disclaimer. 12 1.1 drochner * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 drochner * notice, this list of conditions and the following disclaimer in the 14 1.1 drochner * documentation and/or other materials provided with the distribution. 15 1.1 drochner * 3. All advertising materials mentioning features or use of this software 16 1.1 drochner * must display the following acknowledgement: 17 1.1 drochner * This product includes software developed for the NetBSD Project 18 1.1 drochner * by Matthias Drochner. 19 1.1 drochner * 4. The name of the author may not be used to endorse or promote products 20 1.1 drochner * derived from this software without specific prior written permission. 21 1.1 drochner * 22 1.1 drochner * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 drochner * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 drochner * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 drochner * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 drochner * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 drochner * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 drochner * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 drochner * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 drochner * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 drochner * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.1 drochner * 33 1.1 drochner */ 34 1.4 thorpej 35 1.4 thorpej #include "opt_compat_freebsd.h" 36 1.5 jonathan #include "opt_compat_netbsd.h" 37 1.1 drochner 38 1.1 drochner #include <sys/param.h> 39 1.1 drochner #include <sys/systm.h> 40 1.12 thorpej #include <sys/callout.h> 41 1.1 drochner #include <sys/ioctl.h> 42 1.1 drochner #include <sys/kernel.h> 43 1.15.2.1 nathanw #include <sys/lwp.h> 44 1.1 drochner #include <sys/proc.h> 45 1.1 drochner #include <sys/signalvar.h> 46 1.1 drochner #include <sys/malloc.h> 47 1.1 drochner #include <sys/errno.h> 48 1.1 drochner 49 1.1 drochner #include <dev/wscons/wsconsio.h> 50 1.1 drochner #include <dev/wscons/wsdisplayvar.h> 51 1.1 drochner #include <dev/wscons/wscons_callbacks.h> 52 1.1 drochner #include <dev/wscons/wsdisplay_usl_io.h> 53 1.1 drochner 54 1.1 drochner #include "opt_wsdisplay_compat.h" 55 1.1 drochner 56 1.1 drochner struct usl_syncdata { 57 1.1 drochner struct wsscreen *s_scr; 58 1.1 drochner struct proc *s_proc; 59 1.1 drochner pid_t s_pid; 60 1.1 drochner int s_flags; 61 1.1 drochner #define SF_DETACHPENDING 1 62 1.1 drochner #define SF_ATTACHPENDING 2 63 1.1 drochner int s_acqsig, s_relsig; 64 1.1 drochner int s_frsig; /* unused */ 65 1.6 drochner void (*s_callback) __P((void *, int, int)); 66 1.1 drochner void *s_cbarg; 67 1.12 thorpej struct callout s_attach_ch; 68 1.12 thorpej struct callout s_detach_ch; 69 1.1 drochner }; 70 1.1 drochner 71 1.3 drochner static int usl_sync_init __P((struct wsscreen *, struct usl_syncdata **, 72 1.3 drochner struct proc *, int, int, int)); 73 1.1 drochner static void usl_sync_done __P((struct usl_syncdata *)); 74 1.1 drochner static int usl_sync_check __P((struct usl_syncdata *)); 75 1.1 drochner static struct usl_syncdata *usl_sync_get __P((struct wsscreen *)); 76 1.1 drochner 77 1.6 drochner static int usl_detachproc __P((void *, int, 78 1.6 drochner void (*)(void *, int, int), void *)); 79 1.1 drochner static int usl_detachack __P((struct usl_syncdata *, int)); 80 1.1 drochner static void usl_detachtimeout __P((void *)); 81 1.6 drochner static int usl_attachproc __P((void *, int, 82 1.6 drochner void (*)(void *, int, int), void *)); 83 1.1 drochner static int usl_attachack __P((struct usl_syncdata *, int)); 84 1.1 drochner static void usl_attachtimeout __P((void *)); 85 1.1 drochner 86 1.1 drochner static const struct wscons_syncops usl_syncops = { 87 1.1 drochner usl_detachproc, 88 1.1 drochner usl_attachproc, 89 1.1 drochner #define _usl_sync_check ((int (*) __P((void *)))usl_sync_check) 90 1.1 drochner _usl_sync_check, 91 1.1 drochner #define _usl_sync_destroy ((void (*) __P((void *)))usl_sync_done) 92 1.1 drochner _usl_sync_destroy 93 1.1 drochner }; 94 1.1 drochner 95 1.7 drochner #ifndef WSCOMPAT_USL_SYNCTIMEOUT 96 1.7 drochner #define WSCOMPAT_USL_SYNCTIMEOUT 5 /* seconds */ 97 1.7 drochner #endif 98 1.7 drochner static int wscompat_usl_synctimeout = WSCOMPAT_USL_SYNCTIMEOUT; 99 1.7 drochner 100 1.1 drochner static int 101 1.3 drochner usl_sync_init(scr, sdp, p, acqsig, relsig, frsig) 102 1.1 drochner struct wsscreen *scr; 103 1.1 drochner struct usl_syncdata **sdp; 104 1.3 drochner struct proc *p; 105 1.3 drochner int acqsig, relsig, frsig; 106 1.1 drochner { 107 1.1 drochner struct usl_syncdata *sd; 108 1.1 drochner int res; 109 1.1 drochner 110 1.1 drochner sd = malloc(sizeof(struct usl_syncdata), M_DEVBUF, M_WAITOK); 111 1.1 drochner if (!sd) 112 1.1 drochner return (ENOMEM); 113 1.1 drochner sd->s_scr = scr; 114 1.3 drochner sd->s_proc = p; 115 1.3 drochner sd->s_pid = p->p_pid; 116 1.2 drochner sd->s_flags = 0; 117 1.3 drochner sd->s_acqsig = acqsig; 118 1.3 drochner sd->s_relsig = relsig; 119 1.3 drochner sd->s_frsig = frsig; 120 1.12 thorpej callout_init(&sd->s_attach_ch); 121 1.12 thorpej callout_init(&sd->s_detach_ch); 122 1.1 drochner res = wsscreen_attach_sync(scr, &usl_syncops, sd); 123 1.1 drochner if (res) { 124 1.1 drochner free(sd, M_DEVBUF); 125 1.1 drochner return (res); 126 1.1 drochner } 127 1.1 drochner *sdp = sd; 128 1.1 drochner return (0); 129 1.1 drochner } 130 1.1 drochner 131 1.1 drochner static void 132 1.1 drochner usl_sync_done(sd) 133 1.1 drochner struct usl_syncdata *sd; 134 1.1 drochner { 135 1.2 drochner if (sd->s_flags & SF_DETACHPENDING) { 136 1.12 thorpej callout_stop(&sd->s_detach_ch); 137 1.6 drochner (*sd->s_callback)(sd->s_cbarg, 0, 0); 138 1.2 drochner } 139 1.6 drochner if (sd->s_flags & SF_ATTACHPENDING) { 140 1.12 thorpej callout_stop(&sd->s_attach_ch); 141 1.6 drochner (*sd->s_callback)(sd->s_cbarg, ENXIO, 0); 142 1.6 drochner } 143 1.1 drochner wsscreen_detach_sync(sd->s_scr); 144 1.1 drochner free(sd, M_DEVBUF); 145 1.1 drochner } 146 1.1 drochner 147 1.1 drochner static int 148 1.1 drochner usl_sync_check(sd) 149 1.1 drochner struct usl_syncdata *sd; 150 1.1 drochner { 151 1.1 drochner if (sd->s_proc == pfind(sd->s_pid)) 152 1.1 drochner return (1); 153 1.1 drochner printf("usl_sync_check: process %d died\n", sd->s_pid); 154 1.1 drochner usl_sync_done(sd); 155 1.1 drochner return (0); 156 1.1 drochner } 157 1.1 drochner 158 1.1 drochner static struct usl_syncdata * 159 1.1 drochner usl_sync_get(scr) 160 1.1 drochner struct wsscreen *scr; 161 1.1 drochner { 162 1.1 drochner struct usl_syncdata *sd; 163 1.1 drochner 164 1.1 drochner if (wsscreen_lookup_sync(scr, &usl_syncops, (void **)&sd)) 165 1.1 drochner return (0); 166 1.1 drochner return (sd); 167 1.1 drochner } 168 1.1 drochner 169 1.1 drochner static int 170 1.1 drochner usl_detachproc(cookie, waitok, callback, cbarg) 171 1.1 drochner void *cookie; 172 1.1 drochner int waitok; 173 1.6 drochner void (*callback) __P((void *, int, int)); 174 1.1 drochner void *cbarg; 175 1.1 drochner { 176 1.1 drochner struct usl_syncdata *sd = cookie; 177 1.1 drochner 178 1.1 drochner if (!usl_sync_check(sd)) 179 1.1 drochner return (0); 180 1.1 drochner 181 1.11 drochner /* we really need a callback */ 182 1.11 drochner if (!callback) 183 1.11 drochner return (EINVAL); 184 1.11 drochner 185 1.1 drochner /* 186 1.1 drochner * Normally, this is called from the controlling process. 187 1.1 drochner * Is is supposed to reply with a VT_RELDISP ioctl(), so 188 1.1 drochner * it is not useful to tsleep() here. 189 1.1 drochner */ 190 1.1 drochner sd->s_callback = callback; 191 1.1 drochner sd->s_cbarg = cbarg; 192 1.1 drochner sd->s_flags |= SF_DETACHPENDING; 193 1.1 drochner psignal(sd->s_proc, sd->s_relsig); 194 1.12 thorpej callout_reset(&sd->s_detach_ch, wscompat_usl_synctimeout * hz, 195 1.12 thorpej usl_detachtimeout, sd); 196 1.1 drochner 197 1.1 drochner return (EAGAIN); 198 1.1 drochner } 199 1.1 drochner 200 1.1 drochner static int 201 1.1 drochner usl_detachack(sd, ack) 202 1.1 drochner struct usl_syncdata *sd; 203 1.1 drochner int ack; 204 1.1 drochner { 205 1.1 drochner if (!(sd->s_flags & SF_DETACHPENDING)) { 206 1.1 drochner printf("usl_detachack: not detaching\n"); 207 1.1 drochner return (EINVAL); 208 1.1 drochner } 209 1.1 drochner 210 1.12 thorpej callout_stop(&sd->s_detach_ch); 211 1.1 drochner sd->s_flags &= ~SF_DETACHPENDING; 212 1.1 drochner 213 1.6 drochner if (sd->s_callback) 214 1.6 drochner (*sd->s_callback)(sd->s_cbarg, (ack ? 0 : EIO), 1); 215 1.1 drochner 216 1.1 drochner return (0); 217 1.1 drochner } 218 1.1 drochner 219 1.1 drochner static void 220 1.1 drochner usl_detachtimeout(arg) 221 1.1 drochner void *arg; 222 1.1 drochner { 223 1.1 drochner struct usl_syncdata *sd = arg; 224 1.1 drochner 225 1.1 drochner printf("usl_detachtimeout\n"); 226 1.1 drochner 227 1.1 drochner if (!(sd->s_flags & SF_DETACHPENDING)) { 228 1.1 drochner printf("usl_detachtimeout: not detaching\n"); 229 1.1 drochner return; 230 1.1 drochner } 231 1.1 drochner 232 1.1 drochner sd->s_flags &= ~SF_DETACHPENDING; 233 1.6 drochner 234 1.6 drochner if (sd->s_callback) 235 1.6 drochner (*sd->s_callback)(sd->s_cbarg, EIO, 0); 236 1.6 drochner 237 1.1 drochner (void) usl_sync_check(sd); 238 1.1 drochner } 239 1.1 drochner 240 1.1 drochner static int 241 1.6 drochner usl_attachproc(cookie, waitok, callback, cbarg) 242 1.1 drochner void *cookie; 243 1.1 drochner int waitok; 244 1.6 drochner void (*callback) __P((void *, int, int)); 245 1.6 drochner void *cbarg; 246 1.1 drochner { 247 1.1 drochner struct usl_syncdata *sd = cookie; 248 1.1 drochner 249 1.1 drochner if (!usl_sync_check(sd)) 250 1.1 drochner return (0); 251 1.11 drochner 252 1.11 drochner /* we really need a callback */ 253 1.11 drochner if (!callback) 254 1.11 drochner return (EINVAL); 255 1.1 drochner 256 1.6 drochner sd->s_callback = callback; 257 1.6 drochner sd->s_cbarg = cbarg; 258 1.1 drochner sd->s_flags |= SF_ATTACHPENDING; 259 1.1 drochner psignal(sd->s_proc, sd->s_acqsig); 260 1.12 thorpej callout_reset(&sd->s_attach_ch, wscompat_usl_synctimeout * hz, 261 1.12 thorpej usl_attachtimeout, sd); 262 1.1 drochner 263 1.1 drochner return (EAGAIN); 264 1.1 drochner } 265 1.1 drochner 266 1.1 drochner static int 267 1.1 drochner usl_attachack(sd, ack) 268 1.1 drochner struct usl_syncdata *sd; 269 1.1 drochner int ack; 270 1.1 drochner { 271 1.1 drochner if (!(sd->s_flags & SF_ATTACHPENDING)) { 272 1.1 drochner printf("usl_attachack: not attaching\n"); 273 1.1 drochner return (EINVAL); 274 1.1 drochner } 275 1.1 drochner 276 1.12 thorpej callout_stop(&sd->s_attach_ch); 277 1.1 drochner sd->s_flags &= ~SF_ATTACHPENDING; 278 1.6 drochner 279 1.6 drochner if (sd->s_callback) 280 1.6 drochner (*sd->s_callback)(sd->s_cbarg, (ack ? 0 : EIO), 1); 281 1.6 drochner 282 1.1 drochner return (0); 283 1.1 drochner } 284 1.1 drochner 285 1.1 drochner static void 286 1.1 drochner usl_attachtimeout(arg) 287 1.1 drochner void *arg; 288 1.1 drochner { 289 1.1 drochner struct usl_syncdata *sd = arg; 290 1.1 drochner 291 1.1 drochner printf("usl_attachtimeout\n"); 292 1.1 drochner 293 1.1 drochner if (!(sd->s_flags & SF_ATTACHPENDING)) { 294 1.1 drochner printf("usl_attachtimeout: not attaching\n"); 295 1.1 drochner return; 296 1.1 drochner } 297 1.1 drochner 298 1.1 drochner sd->s_flags &= ~SF_ATTACHPENDING; 299 1.6 drochner 300 1.6 drochner if (sd->s_callback) 301 1.6 drochner (*sd->s_callback)(sd->s_cbarg, EIO, 0); 302 1.6 drochner 303 1.1 drochner (void) usl_sync_check(sd); 304 1.1 drochner } 305 1.1 drochner 306 1.1 drochner int 307 1.10 mycroft wsdisplay_usl_ioctl1(sc, cmd, data, flag, p) 308 1.10 mycroft struct wsdisplay_softc *sc; 309 1.10 mycroft u_long cmd; 310 1.10 mycroft caddr_t data; 311 1.10 mycroft int flag; 312 1.10 mycroft struct proc *p; 313 1.10 mycroft { 314 1.10 mycroft int idx, maxidx; 315 1.10 mycroft 316 1.10 mycroft switch (cmd) { 317 1.10 mycroft case VT_OPENQRY: 318 1.10 mycroft maxidx = wsdisplay_maxscreenidx(sc); 319 1.10 mycroft for (idx = 0; idx <= maxidx; idx++) { 320 1.10 mycroft if (wsdisplay_screenstate(sc, idx) == 0) { 321 1.10 mycroft *(int *)data = idx + 1; 322 1.10 mycroft return (0); 323 1.10 mycroft } 324 1.10 mycroft } 325 1.10 mycroft return (ENXIO); 326 1.10 mycroft case VT_GETACTIVE: 327 1.10 mycroft idx = wsdisplay_getactivescreen(sc); 328 1.10 mycroft *(int *)data = idx + 1; 329 1.10 mycroft return (0); 330 1.10 mycroft case VT_ACTIVATE: 331 1.10 mycroft idx = *(int *)data - 1; 332 1.14 takemura if (idx < 0) 333 1.14 takemura return (EINVAL); 334 1.10 mycroft return (wsdisplay_switch((struct device *)sc, idx, 1)); 335 1.10 mycroft case VT_WAITACTIVE: 336 1.10 mycroft idx = *(int *)data - 1; 337 1.14 takemura if (idx < 0) 338 1.14 takemura return (EINVAL); 339 1.10 mycroft return (wsscreen_switchwait(sc, idx)); 340 1.10 mycroft case VT_GETSTATE: 341 1.10 mycroft #define ss ((struct vt_stat *)data) 342 1.10 mycroft idx = wsdisplay_getactivescreen(sc); 343 1.10 mycroft ss->v_active = idx + 1; 344 1.10 mycroft ss->v_state = 0; 345 1.10 mycroft maxidx = wsdisplay_maxscreenidx(sc); 346 1.10 mycroft for (idx = 0; idx <= maxidx; idx++) 347 1.10 mycroft if (wsdisplay_screenstate(sc, idx) == EBUSY) 348 1.10 mycroft ss->v_state |= (1 << (idx + 1)); 349 1.10 mycroft #undef s 350 1.10 mycroft return (0); 351 1.10 mycroft 352 1.10 mycroft #ifdef WSDISPLAY_COMPAT_PCVT 353 1.10 mycroft case VGAPCVTID: 354 1.10 mycroft #define id ((struct pcvtid *)data) 355 1.10 mycroft strcpy(id->name, "pcvt"); 356 1.10 mycroft id->rmajor = 3; 357 1.10 mycroft id->rminor = 32; 358 1.10 mycroft #undef id 359 1.10 mycroft return (0); 360 1.10 mycroft #endif 361 1.10 mycroft #ifdef WSDISPLAY_COMPAT_SYSCONS 362 1.10 mycroft case CONS_GETVERS: 363 1.10 mycroft *(int *)data = 0x200; /* version 2.0 */ 364 1.10 mycroft return (0); 365 1.10 mycroft #endif 366 1.10 mycroft 367 1.10 mycroft default: 368 1.10 mycroft return (-1); 369 1.10 mycroft } 370 1.10 mycroft 371 1.10 mycroft return (0); 372 1.10 mycroft } 373 1.10 mycroft 374 1.10 mycroft int 375 1.10 mycroft wsdisplay_usl_ioctl2(sc, scr, cmd, data, flag, p) 376 1.1 drochner struct wsdisplay_softc *sc; 377 1.1 drochner struct wsscreen *scr; 378 1.1 drochner u_long cmd; 379 1.1 drochner caddr_t data; 380 1.1 drochner int flag; 381 1.1 drochner struct proc *p; 382 1.1 drochner { 383 1.15 simonb int intarg, res; 384 1.13 simonb u_long req; 385 1.15 simonb void *arg; 386 1.1 drochner struct usl_syncdata *sd; 387 1.1 drochner struct wskbd_bell_data bd; 388 1.1 drochner 389 1.1 drochner switch (cmd) { 390 1.1 drochner case VT_SETMODE: 391 1.1 drochner #define newmode ((struct vt_mode *)data) 392 1.1 drochner if (newmode->mode == VT_PROCESS) { 393 1.3 drochner res = usl_sync_init(scr, &sd, p, newmode->acqsig, 394 1.3 drochner newmode->relsig, newmode->frsig); 395 1.1 drochner if (res) 396 1.1 drochner return (res); 397 1.1 drochner } else { 398 1.1 drochner sd = usl_sync_get(scr); 399 1.1 drochner if (sd) 400 1.1 drochner usl_sync_done(sd); 401 1.1 drochner } 402 1.1 drochner #undef newmode 403 1.1 drochner return (0); 404 1.1 drochner case VT_GETMODE: 405 1.1 drochner #define cmode ((struct vt_mode *)data) 406 1.1 drochner sd = usl_sync_get(scr); 407 1.1 drochner if (sd) { 408 1.1 drochner cmode->mode = VT_PROCESS; 409 1.1 drochner cmode->relsig = sd->s_relsig; 410 1.1 drochner cmode->acqsig = sd->s_acqsig; 411 1.1 drochner cmode->frsig = sd->s_frsig; 412 1.1 drochner } else 413 1.1 drochner cmode->mode = VT_AUTO; 414 1.1 drochner #undef cmode 415 1.1 drochner return (0); 416 1.1 drochner case VT_RELDISP: 417 1.1 drochner #define d (*(int *)data) 418 1.1 drochner sd = usl_sync_get(scr); 419 1.1 drochner if (!sd) 420 1.1 drochner return (EINVAL); 421 1.1 drochner switch (d) { 422 1.1 drochner case VT_FALSE: 423 1.1 drochner case VT_TRUE: 424 1.1 drochner return (usl_detachack(sd, (d == VT_TRUE))); 425 1.1 drochner case VT_ACKACQ: 426 1.1 drochner return (usl_attachack(sd, 1)); 427 1.1 drochner default: 428 1.1 drochner return (EINVAL); 429 1.1 drochner } 430 1.1 drochner #undef d 431 1.1 drochner return (0); 432 1.10 mycroft 433 1.1 drochner case KDENABIO: 434 1.1 drochner if (suser(p->p_ucred, &p->p_acflag) || securelevel > 1) 435 1.1 drochner return (EPERM); 436 1.1 drochner /* FALLTHRU */ 437 1.1 drochner case KDDISABIO: 438 1.1 drochner #if defined(__i386__) 439 1.1 drochner #if defined(COMPAT_10) || defined(COMPAT_11) || defined(COMPAT_FREEBSD) 440 1.1 drochner { 441 1.15.2.1 nathanw /* XXX NJWLWP */ 442 1.15.2.1 nathanw struct trapframe *fp = (struct trapframe *)curproc->l_md.md_regs; 443 1.1 drochner if (cmd == KDENABIO) 444 1.1 drochner fp->tf_eflags |= PSL_IOPL; 445 1.1 drochner else 446 1.1 drochner fp->tf_eflags &= ~PSL_IOPL; 447 1.1 drochner } 448 1.1 drochner #endif 449 1.1 drochner #endif 450 1.1 drochner return (0); 451 1.1 drochner case KDSETRAD: 452 1.1 drochner /* XXX ignore for now */ 453 1.1 drochner return (0); 454 1.1 drochner 455 1.1 drochner default: 456 1.1 drochner return (-1); 457 1.1 drochner 458 1.1 drochner /* 459 1.1 drochner * the following are converted to wsdisplay ioctls 460 1.1 drochner */ 461 1.1 drochner case KDSETMODE: 462 1.1 drochner req = WSDISPLAYIO_SMODE; 463 1.1 drochner #define d (*(int *)data) 464 1.1 drochner switch (d) { 465 1.1 drochner case KD_GRAPHICS: 466 1.1 drochner intarg = WSDISPLAYIO_MODE_MAPPED; 467 1.1 drochner break; 468 1.1 drochner case KD_TEXT: 469 1.1 drochner intarg = WSDISPLAYIO_MODE_EMUL; 470 1.1 drochner break; 471 1.1 drochner default: 472 1.1 drochner return (EINVAL); 473 1.1 drochner } 474 1.1 drochner #undef d 475 1.1 drochner arg = &intarg; 476 1.1 drochner break; 477 1.1 drochner case KDMKTONE: 478 1.1 drochner req = WSKBDIO_COMPLEXBELL; 479 1.1 drochner #define d (*(int *)data) 480 1.1 drochner if (d) { 481 1.8 christos #define PCVT_SYSBEEPF 1193182 482 1.8 christos if (d >> 16) { 483 1.8 christos bd.which = WSKBD_BELL_DOPERIOD; 484 1.8 christos bd.period = d >> 16; /* ms */ 485 1.8 christos } 486 1.9 christos else 487 1.9 christos bd.which = 0; 488 1.8 christos if (d & 0xffff) { 489 1.8 christos bd.which |= WSKBD_BELL_DOPITCH; 490 1.8 christos bd.pitch = PCVT_SYSBEEPF/(d & 0xffff); /* Hz */ 491 1.8 christos } 492 1.1 drochner } else 493 1.1 drochner bd.which = 0; /* default */ 494 1.1 drochner #undef d 495 1.1 drochner arg = &bd; 496 1.1 drochner break; 497 1.1 drochner case KDSETLED: 498 1.1 drochner req = WSKBDIO_SETLEDS; 499 1.1 drochner intarg = 0; 500 1.1 drochner #define d (*(int *)data) 501 1.1 drochner if (d & LED_CAP) 502 1.1 drochner intarg |= WSKBD_LED_CAPS; 503 1.1 drochner if (d & LED_NUM) 504 1.1 drochner intarg |= WSKBD_LED_NUM; 505 1.1 drochner if (d & LED_SCR) 506 1.1 drochner intarg |= WSKBD_LED_SCROLL; 507 1.1 drochner #undef d 508 1.1 drochner arg = &intarg; 509 1.1 drochner break; 510 1.1 drochner case KDGETLED: 511 1.1 drochner req = WSKBDIO_GETLEDS; 512 1.1 drochner arg = &intarg; 513 1.1 drochner break; 514 1.1 drochner #ifdef WSDISPLAY_COMPAT_RAWKBD 515 1.1 drochner case KDSKBMODE: 516 1.1 drochner req = WSKBDIO_SETMODE; 517 1.1 drochner switch (*(int *)data) { 518 1.1 drochner case K_RAW: 519 1.1 drochner intarg = WSKBD_RAW; 520 1.1 drochner break; 521 1.1 drochner case K_XLATE: 522 1.1 drochner intarg = WSKBD_TRANSLATED; 523 1.1 drochner break; 524 1.1 drochner default: 525 1.1 drochner return (EINVAL); 526 1.1 drochner } 527 1.1 drochner arg = &intarg; 528 1.1 drochner break; 529 1.1 drochner case KDGKBMODE: 530 1.1 drochner req = WSKBDIO_GETMODE; 531 1.1 drochner arg = &intarg; 532 1.1 drochner break; 533 1.1 drochner #endif 534 1.1 drochner } 535 1.1 drochner 536 1.1 drochner res = wsdisplay_internal_ioctl(sc, scr, req, arg, flag, p); 537 1.1 drochner if (res) 538 1.1 drochner return (res); 539 1.1 drochner 540 1.1 drochner switch (cmd) { 541 1.1 drochner case KDGETLED: 542 1.1 drochner #define d (*(int *)data) 543 1.1 drochner d = 0; 544 1.1 drochner if (intarg & WSKBD_LED_CAPS) 545 1.1 drochner d |= LED_CAP; 546 1.1 drochner if (intarg & WSKBD_LED_NUM) 547 1.1 drochner d |= LED_NUM; 548 1.1 drochner if (intarg & WSKBD_LED_SCROLL) 549 1.1 drochner d |= LED_SCR; 550 1.1 drochner #undef d 551 1.1 drochner break; 552 1.1 drochner #ifdef WSDISPLAY_COMPAT_RAWKBD 553 1.1 drochner case KDGKBMODE: 554 1.1 drochner *(int *)data = (intarg == WSKBD_RAW ? K_RAW : K_XLATE); 555 1.1 drochner break; 556 1.1 drochner #endif 557 1.1 drochner } 558 1.1 drochner 559 1.1 drochner return (0); 560 1.1 drochner } 561
Indexes created Wed Oct 22 13:09:56 GMT 2025