akbd.c revision 1.4.2.1
1 1.4.2.1 bouyer /* $NetBSD: akbd.c,v 1.4.2.1 2000/11/20 20:12:15 bouyer Exp $ */ 2 1.1 ender 3 1.1 ender /* 4 1.1 ender * Copyright (C) 1998 Colin Wood 5 1.1 ender * All rights reserved. 6 1.1 ender * 7 1.1 ender * Redistribution and use in source and binary forms, with or without 8 1.1 ender * modification, are permitted provided that the following conditions 9 1.1 ender * are met: 10 1.1 ender * 1. Redistributions of source code must retain the above copyright 11 1.1 ender * notice, this list of conditions and the following disclaimer. 12 1.1 ender * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 ender * notice, this list of conditions and the following disclaimer in the 14 1.1 ender * documentation and/or other materials provided with the distribution. 15 1.1 ender * 3. All advertising materials mentioning features or use of this software 16 1.1 ender * must display the following acknowledgement: 17 1.1 ender * This product includes software developed by Colin Wood. 18 1.1 ender * 4. The name of the author may not be used to endorse or promote products 19 1.1 ender * derived from this software without specific prior written permission. 20 1.1 ender * 21 1.1 ender * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 22 1.1 ender * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 23 1.1 ender * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 24 1.1 ender * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 25 1.1 ender * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 26 1.1 ender * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 27 1.1 ender * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 28 1.1 ender * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 29 1.1 ender * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 30 1.1 ender * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 31 1.1 ender */ 32 1.1 ender 33 1.4.2.1 bouyer #include "opt_adb.h" 34 1.4.2.1 bouyer 35 1.1 ender #include <sys/param.h> 36 1.1 ender #include <sys/device.h> 37 1.1 ender #include <sys/fcntl.h> 38 1.1 ender #include <sys/poll.h> 39 1.1 ender #include <sys/select.h> 40 1.1 ender #include <sys/proc.h> 41 1.1 ender #include <sys/signalvar.h> 42 1.1 ender #include <sys/systm.h> 43 1.1 ender 44 1.4.2.1 bouyer #include "aed.h" 45 1.4.2.1 bouyer #include "wskbd.h" 46 1.4.2.1 bouyer 47 1.4.2.1 bouyer #include <dev/wscons/wsconsio.h> 48 1.4.2.1 bouyer #include <dev/wscons/wskbdvar.h> 49 1.4.2.1 bouyer #include <dev/wscons/wsksymdef.h> 50 1.4.2.1 bouyer #include <dev/wscons/wsksymvar.h> 51 1.4.2.1 bouyer 52 1.1 ender #include <machine/autoconf.h> 53 1.4.2.1 bouyer #include <machine/cpu.h> 54 1.4.2.1 bouyer #define KEYBOARD_ARRAY 55 1.4.2.1 bouyer #include <machine/keyboard.h> 56 1.4.2.1 bouyer #include <machine/viareg.h> 57 1.1 ender 58 1.1 ender #include <mac68k/mac68k/macrom.h> 59 1.1 ender #include <mac68k/dev/adbvar.h> 60 1.1 ender #include <mac68k/dev/aedvar.h> 61 1.4.2.1 bouyer #include <mac68k/dev/akbdmap.h> 62 1.4.2.1 bouyer #include <mac68k/dev/akbdvar.h> 63 1.4.2.1 bouyer #include <mac68k/dev/amsvar.h> 64 1.1 ender 65 1.1 ender /* 66 1.1 ender * Function declarations. 67 1.1 ender */ 68 1.4.2.1 bouyer static int akbdmatch __P((struct device *, struct cfdata *, void *)); 69 1.4.2.1 bouyer static void akbdattach __P((struct device *, struct device *, void *)); 70 1.1 ender void kbd_adbcomplete __P((caddr_t buffer, caddr_t data_area, int adb_command)); 71 1.4.2.1 bouyer static void kbd_processevent __P((adb_event_t *event, struct akbd_softc *)); 72 1.1 ender #ifdef notyet 73 1.1 ender static u_char getleds __P((int)); 74 1.4.2.1 bouyer static int setleds __P((struct akbd_softc *, u_char)); 75 1.4.2.1 bouyer static void blinkleds __P((struct akbd_softc *)); 76 1.1 ender #endif 77 1.1 ender 78 1.1 ender /* 79 1.1 ender * Local variables. 80 1.1 ender */ 81 1.1 ender 82 1.1 ender /* Driver definition. */ 83 1.4.2.1 bouyer struct cfattach akbd_ca = { 84 1.4.2.1 bouyer sizeof(struct akbd_softc), akbdmatch, akbdattach 85 1.4.2.1 bouyer }; 86 1.4.2.1 bouyer 87 1.4.2.1 bouyer extern struct cfdriver akbd_cd; 88 1.4.2.1 bouyer 89 1.4.2.1 bouyer int kbd_intr __P((adb_event_t *event, struct akbd_softc *)); 90 1.4.2.1 bouyer int akbd_enable __P((void *, int)); 91 1.4.2.1 bouyer void akbd_set_leds __P((void *, int)); 92 1.4.2.1 bouyer int akbd_ioctl __P((void *, u_long, caddr_t, int, struct proc *)); 93 1.4.2.1 bouyer 94 1.4.2.1 bouyer struct wskbd_accessops akbd_accessops = { 95 1.4.2.1 bouyer akbd_enable, 96 1.4.2.1 bouyer akbd_set_leds, 97 1.4.2.1 bouyer akbd_ioctl, 98 1.4.2.1 bouyer }; 99 1.4.2.1 bouyer 100 1.4.2.1 bouyer void akbd_cngetc __P((void *, u_int *, int *)); 101 1.4.2.1 bouyer void akbd_cnpollc __P((void *, int)); 102 1.4.2.1 bouyer int akbd_cnattach __P((void)); 103 1.4.2.1 bouyer 104 1.4.2.1 bouyer struct wskbd_consops akbd_consops = { 105 1.4.2.1 bouyer akbd_cngetc, 106 1.4.2.1 bouyer akbd_cnpollc, 107 1.4.2.1 bouyer }; 108 1.4.2.1 bouyer 109 1.4.2.1 bouyer struct wskbd_mapdata akbd_keymapdata = { 110 1.4.2.1 bouyer akbd_keydesctab, 111 1.4.2.1 bouyer KB_US, 112 1.1 ender }; 113 1.1 ender 114 1.4.2.1 bouyer static int akbd_is_console __P((void)); 115 1.1 ender 116 1.1 ender static int 117 1.4.2.1 bouyer akbdmatch(parent, cf, aux) 118 1.1 ender struct device *parent; 119 1.1 ender struct cfdata *cf; 120 1.1 ender void *aux; 121 1.1 ender { 122 1.1 ender struct adb_attach_args *aa_args = (struct adb_attach_args *)aux; 123 1.1 ender 124 1.1 ender if (aa_args->origaddr == ADBADDR_KBD) 125 1.1 ender return 1; 126 1.1 ender else 127 1.1 ender return 0; 128 1.1 ender } 129 1.1 ender 130 1.1 ender static void 131 1.4.2.1 bouyer akbdattach(parent, self, aux) 132 1.1 ender struct device *parent, *self; 133 1.1 ender void *aux; 134 1.1 ender { 135 1.1 ender ADBSetInfoBlock adbinfo; 136 1.4.2.1 bouyer struct akbd_softc *sc = (struct akbd_softc *)self; 137 1.1 ender struct adb_attach_args *aa_args = (struct adb_attach_args *)aux; 138 1.4.2.1 bouyer int error, kbd_done; 139 1.1 ender short cmd; 140 1.1 ender u_char buffer[9]; 141 1.4.2.1 bouyer #if NWSKBD > 0 142 1.4.2.1 bouyer struct wskbddev_attach_args a; 143 1.4.2.1 bouyer static int akbd_console_initted = 0; 144 1.4.2.1 bouyer int wskbd_eligible; 145 1.4.2.1 bouyer 146 1.4.2.1 bouyer wskbd_eligible = 1; 147 1.4.2.1 bouyer #endif 148 1.1 ender 149 1.1 ender sc->origaddr = aa_args->origaddr; 150 1.1 ender sc->adbaddr = aa_args->adbaddr; 151 1.1 ender sc->handler_id = aa_args->handler_id; 152 1.1 ender 153 1.1 ender sc->sc_leds = (u_int8_t)0x00; /* initially off */ 154 1.1 ender 155 1.1 ender adbinfo.siServiceRtPtr = (Ptr)adb_kbd_asmcomplete; 156 1.1 ender adbinfo.siDataAreaAddr = (caddr_t)sc; 157 1.1 ender 158 1.1 ender switch (sc->handler_id) { 159 1.1 ender case ADB_STDKBD: 160 1.1 ender printf("standard keyboard\n"); 161 1.1 ender break; 162 1.1 ender case ADB_ISOKBD: 163 1.1 ender printf("standard keyboard (ISO layout)\n"); 164 1.1 ender break; 165 1.1 ender case ADB_EXTKBD: 166 1.4.2.1 bouyer cmd = ADBTALK(sc->adbaddr, 1); 167 1.4.2.1 bouyer kbd_done = 168 1.4.2.1 bouyer (adb_op_sync((Ptr)buffer, (Ptr)0, (Ptr)0, cmd) == 0); 169 1.1 ender 170 1.1 ender /* Ignore Logitech MouseMan/Trackman pseudo keyboard */ 171 1.1 ender if (kbd_done && buffer[1] == 0x9a && buffer[2] == 0x20) { 172 1.1 ender printf("Mouseman (non-EMP) pseudo keyboard\n"); 173 1.1 ender adbinfo.siServiceRtPtr = (Ptr)0; 174 1.1 ender adbinfo.siDataAreaAddr = (Ptr)0; 175 1.4.2.1 bouyer #if NWSKBD > 0 176 1.4.2.1 bouyer wskbd_eligible = 0; 177 1.4.2.1 bouyer #endif /* NWSKBD > 0 */ 178 1.1 ender } else if (kbd_done && buffer[1] == 0x9a && buffer[2] == 0x21) { 179 1.1 ender printf("Trackman (non-EMP) pseudo keyboard\n"); 180 1.1 ender adbinfo.siServiceRtPtr = (Ptr)0; 181 1.1 ender adbinfo.siDataAreaAddr = (Ptr)0; 182 1.4.2.1 bouyer #if NWSKBD > 0 183 1.4.2.1 bouyer wskbd_eligible = 0; 184 1.4.2.1 bouyer #endif /* NWSKBD > 0 */ 185 1.1 ender } else { 186 1.1 ender printf("extended keyboard\n"); 187 1.1 ender #ifdef notyet 188 1.1 ender blinkleds(sc); 189 1.1 ender #endif 190 1.1 ender } 191 1.1 ender break; 192 1.1 ender case ADB_EXTISOKBD: 193 1.1 ender printf("extended keyboard (ISO layout)\n"); 194 1.1 ender #ifdef notyet 195 1.1 ender blinkleds(sc); 196 1.1 ender #endif 197 1.1 ender break; 198 1.1 ender case ADB_KBDII: 199 1.1 ender printf("keyboard II\n"); 200 1.1 ender break; 201 1.1 ender case ADB_ISOKBDII: 202 1.1 ender printf("keyboard II (ISO layout)\n"); 203 1.1 ender break; 204 1.1 ender case ADB_PBKBD: 205 1.1 ender printf("PowerBook keyboard\n"); 206 1.1 ender break; 207 1.1 ender case ADB_PBISOKBD: 208 1.1 ender printf("PowerBook keyboard (ISO layout)\n"); 209 1.1 ender break; 210 1.1 ender case ADB_ADJKPD: 211 1.1 ender printf("adjustable keypad\n"); 212 1.4.2.1 bouyer #if NWSKBD > 0 213 1.4.2.1 bouyer wskbd_eligible = 0; 214 1.4.2.1 bouyer #endif /* NWSKBD > 0 */ 215 1.1 ender break; 216 1.1 ender case ADB_ADJKBD: 217 1.1 ender printf("adjustable keyboard\n"); 218 1.1 ender break; 219 1.1 ender case ADB_ADJISOKBD: 220 1.1 ender printf("adjustable keyboard (ISO layout)\n"); 221 1.1 ender break; 222 1.1 ender case ADB_ADJJAPKBD: 223 1.1 ender printf("adjustable keyboard (Japanese layout)\n"); 224 1.1 ender break; 225 1.1 ender case ADB_PBEXTISOKBD: 226 1.1 ender printf("PowerBook extended keyboard (ISO layout)\n"); 227 1.1 ender break; 228 1.1 ender case ADB_PBEXTJAPKBD: 229 1.1 ender printf("PowerBook extended keyboard (Japanese layout)\n"); 230 1.1 ender break; 231 1.4.2.1 bouyer case ADB_JPKBDII: 232 1.4.2.1 bouyer printf("keyboard II (Japanese layout)\n"); 233 1.4.2.1 bouyer break; 234 1.1 ender case ADB_PBEXTKBD: 235 1.1 ender printf("PowerBook extended keyboard\n"); 236 1.1 ender break; 237 1.1 ender case ADB_DESIGNKBD: 238 1.1 ender printf("extended keyboard\n"); 239 1.1 ender #ifdef notyet 240 1.1 ender blinkleds(sc); 241 1.1 ender #endif 242 1.1 ender break; 243 1.4.2.1 bouyer case ADB_PBJPKBD: 244 1.4.2.1 bouyer printf("PowerBook keyboard (Japanese layout)\n"); 245 1.4.2.1 bouyer break; 246 1.1 ender default: 247 1.1 ender printf("mapped device (%d)\n", sc->handler_id); 248 1.4.2.1 bouyer #if NWSKBD > 0 249 1.4.2.1 bouyer wskbd_eligible = 0; 250 1.4.2.1 bouyer #endif /* NWSKBD > 0 */ 251 1.1 ender break; 252 1.1 ender } 253 1.1 ender error = SetADBInfo(&adbinfo, sc->adbaddr); 254 1.1 ender #ifdef ADB_DEBUG 255 1.1 ender if (adb_debug) 256 1.4.2.1 bouyer printf("akbd: returned %d from SetADBInfo\n", error); 257 1.1 ender #endif 258 1.1 ender 259 1.4.2.1 bouyer #if NWSKBD > 0 260 1.4.2.1 bouyer if (akbd_is_console() && wskbd_eligible) 261 1.4.2.1 bouyer a.console = (++akbd_console_initted == 1); 262 1.4.2.1 bouyer else 263 1.4.2.1 bouyer a.console = 0; 264 1.4.2.1 bouyer a.keymap = &akbd_keymapdata; 265 1.4.2.1 bouyer a.accessops = &akbd_accessops; 266 1.4.2.1 bouyer a.accesscookie = sc; 267 1.4.2.1 bouyer 268 1.4.2.1 bouyer sc->sc_wskbddev = config_found(self, &a, wskbddevprint); 269 1.4.2.1 bouyer #endif 270 1.1 ender } 271 1.1 ender 272 1.1 ender 273 1.1 ender /* 274 1.1 ender * Handle putting the keyboard data received from the ADB into 275 1.1 ender * an ADB event record. 276 1.1 ender */ 277 1.1 ender void 278 1.1 ender kbd_adbcomplete(buffer, data_area, adb_command) 279 1.1 ender caddr_t buffer; 280 1.1 ender caddr_t data_area; 281 1.1 ender int adb_command; 282 1.1 ender { 283 1.1 ender adb_event_t event; 284 1.4.2.1 bouyer struct akbd_softc *ksc; 285 1.1 ender int adbaddr; 286 1.1 ender #ifdef ADB_DEBUG 287 1.1 ender int i; 288 1.1 ender 289 1.1 ender if (adb_debug) 290 1.1 ender printf("adb: transaction completion\n"); 291 1.1 ender #endif 292 1.1 ender 293 1.4.2.1 bouyer adbaddr = ADB_CMDADDR(adb_command); 294 1.4.2.1 bouyer ksc = (struct akbd_softc *)data_area; 295 1.1 ender 296 1.1 ender event.addr = adbaddr; 297 1.1 ender event.hand_id = ksc->handler_id; 298 1.1 ender event.def_addr = ksc->origaddr; 299 1.1 ender event.byte_count = buffer[0]; 300 1.1 ender memcpy(event.bytes, buffer + 1, event.byte_count); 301 1.1 ender 302 1.1 ender #ifdef ADB_DEBUG 303 1.1 ender if (adb_debug) { 304 1.4.2.1 bouyer printf("akbd: from %d at %d (org %d) %d:", event.addr, 305 1.1 ender event.hand_id, event.def_addr, buffer[0]); 306 1.1 ender for (i = 1; i <= buffer[0]; i++) 307 1.1 ender printf(" %x", buffer[i]); 308 1.1 ender printf("\n"); 309 1.1 ender } 310 1.1 ender #endif 311 1.1 ender 312 1.1 ender microtime(&event.timestamp); 313 1.1 ender 314 1.1 ender kbd_processevent(&event, ksc); 315 1.1 ender } 316 1.1 ender 317 1.1 ender /* 318 1.1 ender * Given a keyboard ADB event, record the keycodes and call the key 319 1.1 ender * repeat handler, optionally passing the event through the mouse 320 1.1 ender * button emulation handler first. 321 1.1 ender */ 322 1.1 ender static void 323 1.1 ender kbd_processevent(event, ksc) 324 1.1 ender adb_event_t *event; 325 1.4.2.1 bouyer struct akbd_softc *ksc; 326 1.1 ender { 327 1.1 ender adb_event_t new_event; 328 1.1 ender 329 1.1 ender new_event = *event; 330 1.1 ender new_event.u.k.key = event->bytes[0]; 331 1.1 ender new_event.bytes[1] = 0xff; 332 1.4.2.1 bouyer #if NAED > 0 333 1.4.2.1 bouyer if (adb_polling || !aed_input(&new_event)) 334 1.4.2.1 bouyer #endif 335 1.4.2.1 bouyer #if NWSKBD > 0 336 1.4.2.1 bouyer if (ksc->sc_wskbddev != NULL) /* wskbd is attached? */ 337 1.4.2.1 bouyer kbd_intr(&new_event, ksc); 338 1.4.2.1 bouyer #else 339 1.4.2.1 bouyer /* do nothing */ ; 340 1.4.2.1 bouyer #endif 341 1.1 ender if (event->bytes[1] != 0xff) { 342 1.1 ender new_event.u.k.key = event->bytes[1]; 343 1.1 ender new_event.bytes[0] = event->bytes[1]; 344 1.1 ender new_event.bytes[1] = 0xff; 345 1.4.2.1 bouyer #if NAED > 0 346 1.4.2.1 bouyer if (adb_polling || !aed_input(&new_event)) 347 1.4.2.1 bouyer #endif 348 1.4.2.1 bouyer #if NWSKBD > 0 349 1.4.2.1 bouyer if (ksc->sc_wskbddev != NULL) /* wskbd is attached? */ 350 1.4.2.1 bouyer kbd_intr(&new_event, ksc); 351 1.4.2.1 bouyer #else 352 1.4.2.1 bouyer /* do nothing */ ; 353 1.4.2.1 bouyer #endif 354 1.1 ender } 355 1.1 ender 356 1.1 ender } 357 1.1 ender 358 1.1 ender #ifdef notyet 359 1.1 ender /* 360 1.1 ender * Get the actual hardware LED state and convert it to softc format. 361 1.1 ender */ 362 1.1 ender static u_char 363 1.1 ender getleds(addr) 364 1.1 ender int addr; 365 1.1 ender { 366 1.1 ender short cmd; 367 1.1 ender u_char buffer[9], leds; 368 1.1 ender 369 1.1 ender leds = 0x00; /* all off */ 370 1.1 ender buffer[0] = 0; 371 1.1 ender 372 1.4.2.1 bouyer cmd = ADBTALK(addr, 2); 373 1.4.2.1 bouyer if (adb_op_sync((Ptr)buffer, (Ptr)0, (Ptr)0, cmd) == 0 && 374 1.4.2.1 bouyer buffer[0] > 0) 375 1.1 ender leds = ~(buffer[2]) & 0x07; 376 1.1 ender 377 1.1 ender return (leds); 378 1.1 ender } 379 1.1 ender 380 1.1 ender /* 381 1.1 ender * Set the keyboard LED's. 382 1.1 ender * 383 1.1 ender * Automatically translates from ioctl/softc format to the 384 1.1 ender * actual keyboard register format 385 1.1 ender */ 386 1.1 ender static int 387 1.1 ender setleds(ksc, leds) 388 1.4.2.1 bouyer struct akbd_softc *ksc; 389 1.1 ender u_char leds; 390 1.1 ender { 391 1.1 ender int addr; 392 1.1 ender short cmd; 393 1.1 ender u_char buffer[9]; 394 1.1 ender 395 1.1 ender if ((leds & 0x07) == (ksc->sc_leds & 0x07)) 396 1.1 ender return (0); 397 1.1 ender 398 1.2 ender addr = ksc->adbaddr; 399 1.1 ender buffer[0] = 0; 400 1.1 ender 401 1.4.2.1 bouyer cmd = ADBTALK(addr, 2); 402 1.4.2.1 bouyer if (adb_op_sync((Ptr)buffer, (Ptr)0, (Ptr)0, cmd) || buffer[0] == 0) 403 1.1 ender return (EIO); 404 1.1 ender 405 1.1 ender leds = ~leds & 0x07; 406 1.1 ender buffer[2] &= 0xf8; 407 1.1 ender buffer[2] |= leds; 408 1.1 ender 409 1.4.2.1 bouyer cmd = ADBLISTEN(addr, 2); 410 1.4.2.1 bouyer adb_op_sync((Ptr)buffer, (Ptr)0, (Ptr)0, cmd); 411 1.1 ender 412 1.1 ender /* talk R2 */ 413 1.4.2.1 bouyer cmd = ADBTALK(addr, 2); 414 1.4.2.1 bouyer if (adb_op_sync((Ptr)buffer, (Ptr)0, (Ptr)0, cmd) || buffer[0] == 0) 415 1.1 ender return (EIO); 416 1.1 ender 417 1.1 ender ksc->sc_leds = ~((u_int8_t)buffer[2]) & 0x07; 418 1.1 ender 419 1.1 ender if ((buffer[2] & 0xf8) != leds) 420 1.1 ender return (EIO); 421 1.1 ender else 422 1.1 ender return (0); 423 1.1 ender } 424 1.1 ender 425 1.1 ender /* 426 1.1 ender * Toggle all of the LED's on and off, just for show. 427 1.1 ender */ 428 1.1 ender static void 429 1.1 ender blinkleds(ksc) 430 1.4.2.1 bouyer struct akbd_softc *ksc; 431 1.1 ender { 432 1.1 ender int addr, i; 433 1.1 ender u_char blinkleds, origleds; 434 1.1 ender 435 1.2 ender addr = ksc->adbaddr; 436 1.1 ender origleds = getleds(addr); 437 1.1 ender blinkleds = LED_NUMLOCK | LED_CAPSLOCK | LED_SCROLL_LOCK; 438 1.1 ender 439 1.1 ender (void)setleds(ksc, blinkleds); 440 1.1 ender 441 1.1 ender for (i = 0; i < 10000; i++) 442 1.1 ender delay(50); 443 1.1 ender 444 1.1 ender /* make sure that we restore the LED settings */ 445 1.1 ender i = 10; 446 1.1 ender do { 447 1.1 ender (void)setleds(ksc, (u_char)0x00); 448 1.1 ender } while (setleds(ksc, (u_char)0x00) && (i-- > 0)); 449 1.1 ender 450 1.1 ender return; 451 1.1 ender } 452 1.1 ender #endif 453 1.1 ender 454 1.1 ender int 455 1.4.2.1 bouyer akbd_is_console() 456 1.4.2.1 bouyer { 457 1.4.2.1 bouyer extern struct mac68k_machine_S mac68k_machine; 458 1.4.2.1 bouyer 459 1.4.2.1 bouyer return ((mac68k_machine.serial_console & 0x03) == 0); 460 1.4.2.1 bouyer } 461 1.4.2.1 bouyer 462 1.4.2.1 bouyer int 463 1.4.2.1 bouyer akbd_enable(v, on) 464 1.4.2.1 bouyer void *v; 465 1.4.2.1 bouyer int on; 466 1.4.2.1 bouyer { 467 1.4.2.1 bouyer return 0; 468 1.4.2.1 bouyer } 469 1.4.2.1 bouyer 470 1.4.2.1 bouyer void 471 1.4.2.1 bouyer akbd_set_leds(v, on) 472 1.4.2.1 bouyer void *v; 473 1.4.2.1 bouyer int on; 474 1.4.2.1 bouyer { 475 1.4.2.1 bouyer } 476 1.4.2.1 bouyer 477 1.4.2.1 bouyer int 478 1.4.2.1 bouyer akbd_ioctl(v, cmd, data, flag, p) 479 1.4.2.1 bouyer void *v; 480 1.4.2.1 bouyer u_long cmd; 481 1.1 ender caddr_t data; 482 1.4.2.1 bouyer int flag; 483 1.1 ender struct proc *p; 484 1.1 ender { 485 1.4.2.1 bouyer switch (cmd) { 486 1.4.2.1 bouyer 487 1.4.2.1 bouyer case WSKBDIO_GTYPE: 488 1.4.2.1 bouyer *(int *)data = 0; /* XXX */ 489 1.4.2.1 bouyer return 0; 490 1.4.2.1 bouyer case WSKBDIO_SETLEDS: 491 1.4.2.1 bouyer return 0; 492 1.4.2.1 bouyer case WSKBDIO_GETLEDS: 493 1.4.2.1 bouyer *(int *)data = 0; 494 1.4.2.1 bouyer return 0; 495 1.4.2.1 bouyer case WSKBDIO_BELL: 496 1.4.2.1 bouyer case WSKBDIO_COMPLEXBELL: 497 1.4.2.1 bouyer #define d ((struct wskbd_bell_data *)data) 498 1.4.2.1 bouyer mac68k_ring_bell(d->pitch, d->period * HZ / 1000, 100); 499 1.4.2.1 bouyer /* comes in as msec, goes out as ticks; volume ignored */ 500 1.4.2.1 bouyer #undef d 501 1.4.2.1 bouyer return (0); 502 1.4.2.1 bouyer } 503 1.4.2.1 bouyer /* kbdioctl(...); */ 504 1.4.2.1 bouyer 505 1.4.2.1 bouyer return -1; 506 1.4.2.1 bouyer } 507 1.4.2.1 bouyer 508 1.4.2.1 bouyer static int polledkey; 509 1.4.2.1 bouyer extern int adb_polling; 510 1.4.2.1 bouyer 511 1.4.2.1 bouyer int 512 1.4.2.1 bouyer kbd_intr(event, sc) 513 1.4.2.1 bouyer adb_event_t *event; 514 1.4.2.1 bouyer struct akbd_softc *sc; 515 1.4.2.1 bouyer { 516 1.4.2.1 bouyer int key, press, val; 517 1.4.2.1 bouyer int type; 518 1.1 ender 519 1.4.2.1 bouyer key = event->u.k.key; 520 1.4.2.1 bouyer press = ADBK_PRESS(key); 521 1.4.2.1 bouyer val = ADBK_KEYVAL(key); 522 1.4.2.1 bouyer 523 1.4.2.1 bouyer type = press ? WSCONS_EVENT_KEY_DOWN : WSCONS_EVENT_KEY_UP; 524 1.4.2.1 bouyer 525 1.4.2.1 bouyer if (key == 185) { /* Caps Lock released */ 526 1.4.2.1 bouyer type = WSCONS_EVENT_KEY_DOWN; 527 1.4.2.1 bouyer wskbd_input(sc->sc_wskbddev, type, val); 528 1.4.2.1 bouyer type = WSCONS_EVENT_KEY_UP; 529 1.4.2.1 bouyer } 530 1.1 ender 531 1.4.2.1 bouyer if (adb_polling) 532 1.4.2.1 bouyer polledkey = key; 533 1.4.2.1 bouyer else 534 1.4.2.1 bouyer wskbd_input(sc->sc_wskbddev, type, val); 535 1.4.2.1 bouyer 536 1.4.2.1 bouyer return 0; 537 1.4.2.1 bouyer } 538 1.4.2.1 bouyer 539 1.4.2.1 bouyer int 540 1.4.2.1 bouyer akbd_cnattach() 541 1.4.2.1 bouyer { 542 1.4.2.1 bouyer wskbd_cnattach(&akbd_consops, NULL, &akbd_keymapdata); 543 1.4.2.1 bouyer 544 1.4.2.1 bouyer return 0; 545 1.4.2.1 bouyer } 546 1.4.2.1 bouyer 547 1.4.2.1 bouyer void 548 1.4.2.1 bouyer akbd_cngetc(v, type, data) 549 1.4.2.1 bouyer void *v; 550 1.4.2.1 bouyer u_int *type; 551 1.4.2.1 bouyer int *data; 552 1.4.2.1 bouyer { 553 1.4.2.1 bouyer int intbits, key, press, val; 554 1.4.2.1 bouyer int s; 555 1.4.2.1 bouyer 556 1.4.2.1 bouyer s = splhigh(); 557 1.4.2.1 bouyer 558 1.4.2.1 bouyer polledkey = -1; 559 1.4.2.1 bouyer adb_polling = 1; 560 1.4.2.1 bouyer 561 1.4.2.1 bouyer while (polledkey == -1) { 562 1.4.2.1 bouyer intbits = via_reg(VIA1, vIFR); 563 1.4.2.1 bouyer 564 1.4.2.1 bouyer if (intbits & V1IF_ADBRDY) { 565 1.4.2.1 bouyer mrg_adbintr(); 566 1.4.2.1 bouyer via_reg(VIA1, vIFR) = V1IF_ADBRDY; 567 1.4.2.1 bouyer } 568 1.4.2.1 bouyer if (intbits & 0x10) { 569 1.4.2.1 bouyer mrg_pmintr(); 570 1.4.2.1 bouyer via_reg(VIA1, vIFR) = 0x10; 571 1.4.2.1 bouyer } 572 1.1 ender } 573 1.4.2.1 bouyer 574 1.4.2.1 bouyer adb_polling = 0; 575 1.4.2.1 bouyer splx(s); 576 1.4.2.1 bouyer 577 1.4.2.1 bouyer key = polledkey; 578 1.4.2.1 bouyer press = ADBK_PRESS(key); 579 1.4.2.1 bouyer val = ADBK_KEYVAL(key); 580 1.4.2.1 bouyer 581 1.4.2.1 bouyer *data = val; 582 1.4.2.1 bouyer *type = press ? WSCONS_EVENT_KEY_DOWN : WSCONS_EVENT_KEY_UP; 583 1.4.2.1 bouyer } 584 1.4.2.1 bouyer 585 1.4.2.1 bouyer void 586 1.4.2.1 bouyer akbd_cnpollc(v, on) 587 1.4.2.1 bouyer void *v; 588 1.4.2.1 bouyer int on; 589 1.4.2.1 bouyer { 590 1.1 ender } 591
Indexes created Fri Oct 03 17:10:05 GMT 2025