adb.c revision 1.16.2.1
1 1.16.2.1 thorpej /* $NetBSD: adb.c,v 1.16.2.1 1997/08/23 07:09:50 thorpej Exp $ */ 2 1.1 briggs 3 1.1 briggs /*- 4 1.1 briggs * Copyright (C) 1994 Bradley A. Grantham 5 1.1 briggs * All rights reserved. 6 1.1 briggs * 7 1.1 briggs * Redistribution and use in source and binary forms, with or without 8 1.1 briggs * modification, are permitted provided that the following conditions 9 1.1 briggs * are met: 10 1.1 briggs * 1. Redistributions of source code must retain the above copyright 11 1.1 briggs * notice, this list of conditions and the following disclaimer. 12 1.1 briggs * 2. Redistributions in binary form must reproduce the above copyright 13 1.2 briggs e* notice, this list of conditions and the following disclaimer in the 14 1.1 briggs * documentation and/or other materials provided with the distribution. 15 1.1 briggs * 3. All advertising materials mentioning features or use of this software 16 1.1 briggs * must display the following acknowledgement: 17 1.1 briggs * This product includes software developed by Bradley A. Grantham. 18 1.1 briggs * 4. The name of the author may not be used to endorse or promote products 19 1.1 briggs * derived from this software without specific prior written permission. 20 1.1 briggs * 21 1.1 briggs * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 22 1.1 briggs * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 23 1.1 briggs * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 24 1.1 briggs * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 25 1.1 briggs * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 26 1.1 briggs * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 27 1.1 briggs * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 28 1.1 briggs * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 29 1.1 briggs * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 30 1.1 briggs * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 31 1.1 briggs */ 32 1.1 briggs 33 1.1 briggs #include <sys/param.h> 34 1.1 briggs #include <sys/device.h> 35 1.1 briggs #include <sys/fcntl.h> 36 1.10 scottr #include <sys/poll.h> 37 1.1 briggs #include <sys/select.h> 38 1.1 briggs #include <sys/proc.h> 39 1.7 briggs #include <sys/signalvar.h> 40 1.1 briggs #include <sys/systm.h> 41 1.2 briggs 42 1.7 briggs #include <machine/autoconf.h> 43 1.2 briggs #include <machine/keyboard.h> 44 1.2 briggs 45 1.16.2.1 thorpej #include <mac68k/mac68k/macrom.h> 46 1.16.2.1 thorpej #include <mac68k/dev/adbvar.h> 47 1.16.2.1 thorpej #include <mac68k/dev/itevar.h> 48 1.1 briggs 49 1.1 briggs /* 50 1.2 briggs * Function declarations. 51 1.1 briggs */ 52 1.13 scottr static int adbmatch __P((struct device *, struct cfdata *, void *)); 53 1.7 briggs static void adbattach __P((struct device *, struct device *, void *)); 54 1.1 briggs 55 1.2 briggs /* 56 1.2 briggs * Global variables. 57 1.2 briggs */ 58 1.2 briggs int adb_polling = 0; /* Are we polling? (Debugger mode) */ 59 1.1 briggs 60 1.1 briggs /* 61 1.2 briggs * Local variables. 62 1.1 briggs */ 63 1.2 briggs 64 1.2 briggs /* External keyboard translation matrix */ 65 1.2 briggs extern unsigned char keyboard[128][3]; 66 1.2 briggs 67 1.2 briggs /* Event queue definitions */ 68 1.1 briggs #if !defined(ADB_MAX_EVENTS) 69 1.1 briggs #define ADB_MAX_EVENTS 200 /* Maximum events to be kept in queue */ 70 1.2 briggs /* maybe should be higher for slower macs? */ 71 1.2 briggs #endif /* !defined(ADB_MAX_EVENTS) */ 72 1.1 briggs static adb_event_t adb_evq[ADB_MAX_EVENTS]; /* ADB event queue */ 73 1.2 briggs static int adb_evq_tail = 0; /* event queue tail */ 74 1.2 briggs static int adb_evq_len = 0; /* event queue length */ 75 1.1 briggs 76 1.2 briggs /* ADB device state information */ 77 1.1 briggs static int adb_isopen = 0; /* Are we queuing events for adb_read? */ 78 1.1 briggs static struct selinfo adb_selinfo; /* select() info */ 79 1.1 briggs static struct proc *adb_ioproc = NULL; /* process to wakeup */ 80 1.1 briggs 81 1.2 briggs /* Key repeat parameters */ 82 1.2 briggs static int adb_rptdelay = 20; /* ticks before auto-repeat */ 83 1.2 briggs static int adb_rptinterval = 6; /* ticks between auto-repeat */ 84 1.2 briggs static int adb_repeating = -1; /* key that is auto-repeating */ 85 1.2 briggs static adb_event_t adb_rptevent;/* event to auto-repeat */ 86 1.1 briggs 87 1.7 briggs /* Driver definition. -- This should probably be a bus... */ 88 1.6 thorpej struct cfattach adb_ca = { 89 1.7 briggs sizeof(struct device), adbmatch, adbattach 90 1.6 thorpej }; 91 1.6 thorpej 92 1.6 thorpej struct cfdriver adb_cd = { 93 1.6 thorpej NULL, "adb", DV_DULL 94 1.2 briggs }; 95 1.7 briggs 96 1.7 briggs static int 97 1.13 scottr adbmatch(parent, cf, aux) 98 1.13 scottr struct device *parent; 99 1.13 scottr struct cfdata *cf; 100 1.13 scottr void *aux; 101 1.7 briggs { 102 1.7 briggs return 1; 103 1.7 briggs } 104 1.1 briggs 105 1.1 briggs static void 106 1.1 briggs adbattach(parent, dev, aux) 107 1.2 briggs struct device *parent, *dev; 108 1.2 briggs void *aux; 109 1.1 briggs { 110 1.12 christos printf(" (ADB event device)\n"); 111 1.1 briggs } 112 1.1 briggs 113 1.2 briggs void 114 1.2 briggs adb_enqevent(event) 115 1.2 briggs adb_event_t *event; 116 1.1 briggs { 117 1.2 briggs int s; 118 1.1 briggs 119 1.10 scottr s = spladb(); 120 1.10 scottr 121 1.10 scottr #ifdef DIAGNOSTIC 122 1.2 briggs if (adb_evq_tail < 0 || adb_evq_tail >= ADB_MAX_EVENTS) 123 1.1 briggs panic("adb: event queue tail is out of bounds"); 124 1.1 briggs 125 1.2 briggs if (adb_evq_len < 0 || adb_evq_len > ADB_MAX_EVENTS) 126 1.1 briggs panic("adb: event queue len is out of bounds"); 127 1.10 scottr #endif 128 1.1 briggs 129 1.2 briggs if (adb_evq_len == ADB_MAX_EVENTS) { 130 1.1 briggs splx(s); 131 1.2 briggs return; /* Oh, well... */ 132 1.1 briggs } 133 1.1 briggs adb_evq[(adb_evq_len + adb_evq_tail) % ADB_MAX_EVENTS] = 134 1.2 briggs *event; 135 1.1 briggs adb_evq_len++; 136 1.1 briggs 137 1.1 briggs selwakeup(&adb_selinfo); 138 1.2 briggs if (adb_ioproc) 139 1.1 briggs psignal(adb_ioproc, SIGIO); 140 1.1 briggs 141 1.1 briggs splx(s); 142 1.1 briggs } 143 1.1 briggs 144 1.2 briggs void 145 1.2 briggs adb_handoff(event) 146 1.2 briggs adb_event_t *event; 147 1.1 briggs { 148 1.2 briggs if (adb_isopen && !adb_polling) { 149 1.1 briggs adb_enqevent(event); 150 1.2 briggs } else { 151 1.2 briggs if (event->def_addr == 2) 152 1.1 briggs ite_intr(event); 153 1.1 briggs } 154 1.1 briggs } 155 1.1 briggs 156 1.1 briggs 157 1.2 briggs void 158 1.2 briggs adb_autorepeat(keyp) 159 1.2 briggs void *keyp; 160 1.1 briggs { 161 1.2 briggs int key = (int) keyp; 162 1.1 briggs 163 1.1 briggs adb_rptevent.bytes[0] |= 0x80; 164 1.1 briggs microtime(&adb_rptevent.timestamp); 165 1.1 briggs adb_handoff(&adb_rptevent); /* do key up */ 166 1.1 briggs 167 1.1 briggs adb_rptevent.bytes[0] &= 0x7f; 168 1.1 briggs microtime(&adb_rptevent.timestamp); 169 1.1 briggs adb_handoff(&adb_rptevent); /* do key down */ 170 1.2 briggs 171 1.2 briggs if (adb_repeating == key) { 172 1.1 briggs timeout(adb_autorepeat, keyp, adb_rptinterval); 173 1.1 briggs } 174 1.1 briggs } 175 1.1 briggs 176 1.1 briggs 177 1.2 briggs void 178 1.2 briggs adb_dokeyupdown(event) 179 1.2 briggs adb_event_t *event; 180 1.1 briggs { 181 1.2 briggs int adb_key; 182 1.1 briggs 183 1.2 briggs if (event->def_addr == 2) { 184 1.1 briggs adb_key = event->u.k.key & 0x7f; 185 1.2 briggs if (!(event->u.k.key & 0x80) && 186 1.2 briggs keyboard[event->u.k.key & 0x7f][0] != 0) { 187 1.1 briggs /* ignore shift & control */ 188 1.2 briggs if (adb_repeating != -1) { 189 1.1 briggs untimeout(adb_autorepeat, 190 1.2 briggs (void *) adb_rptevent.u.k.key); 191 1.1 briggs } 192 1.1 briggs adb_rptevent = *event; 193 1.1 briggs adb_repeating = adb_key; 194 1.1 briggs timeout(adb_autorepeat, 195 1.2 briggs (void *) adb_key, adb_rptdelay); 196 1.2 briggs } else { 197 1.2 briggs if (adb_repeating != -1) { 198 1.1 briggs adb_repeating = -1; 199 1.1 briggs untimeout(adb_autorepeat, 200 1.2 briggs (void *) adb_rptevent.u.k.key); 201 1.1 briggs } 202 1.1 briggs adb_rptevent = *event; 203 1.1 briggs } 204 1.1 briggs } 205 1.1 briggs adb_handoff(event); 206 1.1 briggs } 207 1.1 briggs 208 1.2 briggs static adb_ms_buttons = 0; 209 1.1 briggs 210 1.2 briggs void 211 1.2 briggs adb_keymaybemouse(event) 212 1.2 briggs adb_event_t *event; 213 1.1 briggs { 214 1.2 briggs static int optionkey_down = 0; 215 1.1 briggs adb_event_t new_event; 216 1.2 briggs 217 1.2 briggs if (event->u.k.key == ADBK_KEYDOWN(ADBK_OPTION)) { 218 1.1 briggs optionkey_down = 1; 219 1.2 briggs } else if (event->u.k.key == ADBK_KEYUP(ADBK_OPTION)) { 220 1.2 briggs /* key up */ 221 1.1 briggs optionkey_down = 0; 222 1.2 briggs if (adb_ms_buttons & 0xfe) { 223 1.1 briggs adb_ms_buttons &= 1; 224 1.1 briggs new_event.def_addr = ADBADDR_MS; 225 1.1 briggs new_event.u.m.buttons = adb_ms_buttons; 226 1.1 briggs new_event.u.m.dx = new_event.u.m.dy = 0; 227 1.1 briggs microtime(&new_event.timestamp); 228 1.1 briggs adb_dokeyupdown(&new_event); 229 1.1 briggs } 230 1.2 briggs } else if (optionkey_down) { 231 1.16 scottr if (event->u.k.key == ADBK_KEYDOWN(ADBK_1)) { 232 1.16 scottr adb_ms_buttons |= 1; /* left down */ 233 1.16 scottr new_event.def_addr = ADBADDR_MS; 234 1.16 scottr new_event.u.m.buttons = adb_ms_buttons; 235 1.16 scottr new_event.u.m.dx = new_event.u.m.dy = 0; 236 1.16 scottr microtime(&new_event.timestamp); 237 1.16 scottr adb_dokeyupdown(&new_event); 238 1.16 scottr } else if (event->u.k.key == ADBK_KEYUP(ADBK_1)) { 239 1.16 scottr adb_ms_buttons &= ~1; /* left up */ 240 1.16 scottr new_event.def_addr = ADBADDR_MS; 241 1.16 scottr new_event.u.m.buttons = adb_ms_buttons; 242 1.16 scottr new_event.u.m.dx = new_event.u.m.dy = 0; 243 1.16 scottr microtime(&new_event.timestamp); 244 1.16 scottr adb_dokeyupdown(&new_event); 245 1.16 scottr } else if ((event->u.k.key == ADBK_KEYDOWN(ADBK_LEFT)) || 246 1.16 scottr (event->u.k.key == ADBK_KEYDOWN(ADBK_2))) { 247 1.1 briggs adb_ms_buttons |= 2; /* middle down */ 248 1.1 briggs new_event.def_addr = ADBADDR_MS; 249 1.1 briggs new_event.u.m.buttons = adb_ms_buttons; 250 1.1 briggs new_event.u.m.dx = new_event.u.m.dy = 0; 251 1.1 briggs microtime(&new_event.timestamp); 252 1.1 briggs adb_dokeyupdown(&new_event); 253 1.16 scottr } else if ((event->u.k.key == ADBK_KEYUP(ADBK_LEFT)) || 254 1.16 scottr (event->u.k.key == ADBK_KEYUP(ADBK_2))) { 255 1.1 briggs adb_ms_buttons &= ~2; /* middle up */ 256 1.1 briggs new_event.def_addr = ADBADDR_MS; 257 1.1 briggs new_event.u.m.buttons = adb_ms_buttons; 258 1.1 briggs new_event.u.m.dx = new_event.u.m.dy = 0; 259 1.1 briggs microtime(&new_event.timestamp); 260 1.1 briggs adb_dokeyupdown(&new_event); 261 1.16 scottr } else if ((event->u.k.key == ADBK_KEYDOWN(ADBK_RIGHT)) || 262 1.16 scottr (event->u.k.key == ADBK_KEYDOWN(ADBK_3))) { 263 1.1 briggs adb_ms_buttons |= 4; /* right down */ 264 1.1 briggs new_event.def_addr = ADBADDR_MS; 265 1.1 briggs new_event.u.m.buttons = adb_ms_buttons; 266 1.1 briggs new_event.u.m.dx = new_event.u.m.dy = 0; 267 1.1 briggs microtime(&new_event.timestamp); 268 1.1 briggs adb_dokeyupdown(&new_event); 269 1.16 scottr } else if ((event->u.k.key == ADBK_KEYUP(ADBK_RIGHT)) || 270 1.16 scottr (event->u.k.key == ADBK_KEYUP(ADBK_3))) { 271 1.1 briggs adb_ms_buttons &= ~4; /* right up */ 272 1.1 briggs new_event.def_addr = ADBADDR_MS; 273 1.1 briggs new_event.u.m.buttons = adb_ms_buttons; 274 1.1 briggs new_event.u.m.dx = new_event.u.m.dy = 0; 275 1.1 briggs microtime(&new_event.timestamp); 276 1.1 briggs adb_dokeyupdown(&new_event); 277 1.2 briggs } else if (ADBK_MODIFIER(event->u.k.key)) { 278 1.2 briggs /* ctrl, shift, cmd */ 279 1.1 briggs adb_dokeyupdown(event); 280 1.3 briggs } else if (!(event->u.k.key & 0x80)) { 281 1.2 briggs /* key down */ 282 1.1 briggs new_event = *event; 283 1.1 briggs 284 1.2 briggs /* send option-down */ 285 1.2 briggs new_event.u.k.key = ADBK_KEYDOWN(ADBK_OPTION); 286 1.1 briggs new_event.bytes[0] = new_event.u.k.key; 287 1.1 briggs microtime(&new_event.timestamp); 288 1.1 briggs adb_dokeyupdown(&new_event); 289 1.1 briggs 290 1.2 briggs /* send key-down */ 291 1.2 briggs new_event.u.k.key = event->bytes[0]; 292 1.1 briggs new_event.bytes[0] = new_event.u.k.key; 293 1.1 briggs microtime(&new_event.timestamp); 294 1.1 briggs adb_dokeyupdown(&new_event); 295 1.1 briggs 296 1.2 briggs /* send key-up */ 297 1.3 briggs new_event.u.k.key = 298 1.3 briggs ADBK_KEYUP(ADBK_KEYVAL(event->bytes[0])); 299 1.1 briggs microtime(&new_event.timestamp); 300 1.1 briggs new_event.bytes[0] = new_event.u.k.key; 301 1.3 briggs adb_dokeyupdown(&new_event); 302 1.1 briggs 303 1.2 briggs /* send option-up */ 304 1.3 briggs new_event.u.k.key = ADBK_KEYUP(ADBK_OPTION); 305 1.1 briggs new_event.bytes[0] = new_event.u.k.key; 306 1.1 briggs microtime(&new_event.timestamp); 307 1.1 briggs adb_dokeyupdown(&new_event); 308 1.2 briggs } else { 309 1.2 briggs /* option-keyup -- do nothing. */ 310 1.1 briggs } 311 1.2 briggs } else { 312 1.1 briggs adb_dokeyupdown(event); 313 1.1 briggs } 314 1.1 briggs } 315 1.1 briggs 316 1.1 briggs 317 1.2 briggs void 318 1.2 briggs adb_processevent(event) 319 1.2 briggs adb_event_t *event; 320 1.1 briggs { 321 1.1 briggs adb_event_t new_event; 322 1.5 briggs int i, button_bit, max_byte, mask, buttons; 323 1.1 briggs 324 1.1 briggs new_event = *event; 325 1.5 briggs buttons = 0; 326 1.1 briggs 327 1.2 briggs switch (event->def_addr) { 328 1.2 briggs case ADBADDR_KBD: 329 1.2 briggs new_event.u.k.key = event->bytes[0]; 330 1.2 briggs new_event.bytes[1] = 0xff; 331 1.2 briggs adb_keymaybemouse(&new_event); 332 1.2 briggs if (event->bytes[1] != 0xff) { 333 1.2 briggs new_event.u.k.key = event->bytes[1]; 334 1.2 briggs new_event.bytes[0] = event->bytes[1]; 335 1.1 briggs new_event.bytes[1] = 0xff; 336 1.1 briggs adb_keymaybemouse(&new_event); 337 1.2 briggs } 338 1.2 briggs break; 339 1.2 briggs case ADBADDR_MS: 340 1.4 briggs /* 341 1.4 briggs * This should handle both plain ol' Apple mice and mice 342 1.4 briggs * that claim to support the Extended Apple Mouse Protocol. 343 1.4 briggs */ 344 1.4 briggs max_byte = event->byte_count; 345 1.4 briggs button_bit = 1; 346 1.8 briggs switch (event->hand_id) { 347 1.8 briggs case ADBMS_USPEED: 348 1.8 briggs /* MicroSpeed mouse */ 349 1.8 briggs if (max_byte == 4) 350 1.9 briggs buttons = (~event->bytes[2]) & 0xff; 351 1.15 scottr else 352 1.15 scottr buttons = (event->bytes[0] & 0x80) ? 0 : 1; 353 1.15 scottr break; 354 1.15 scottr case ADBMS_MSA3: 355 1.15 scottr /* Mouse Systems A3 mouse */ 356 1.15 scottr if (max_byte == 3) 357 1.15 scottr buttons = (~event->bytes[2]) & 0x07; 358 1.4 briggs else 359 1.8 briggs buttons = (event->bytes[0] & 0x80) ? 0 : 1; 360 1.8 briggs break; 361 1.8 briggs default: 362 1.8 briggs /* Classic Mouse Protocol (up to 2 buttons) */ 363 1.8 briggs for (i = 0; i < 2; i++, button_bit <<= 1) 364 1.8 briggs /* 0 when button down */ 365 1.8 briggs if (!(event->bytes[i] & 0x80)) 366 1.8 briggs buttons |= button_bit; 367 1.8 briggs else 368 1.8 briggs buttons &= ~button_bit; 369 1.8 briggs /* Extended Protocol (up to 6 more buttons) */ 370 1.8 briggs for (mask = 0x80; i < max_byte; 371 1.8 briggs i += (mask == 0x80), button_bit <<= 1) { 372 1.8 briggs /* 0 when button down */ 373 1.8 briggs if (!(event->bytes[i] & mask)) 374 1.8 briggs buttons |= button_bit; 375 1.8 briggs else 376 1.8 briggs buttons &= ~button_bit; 377 1.8 briggs mask = ((mask >> 4) & 0xf) 378 1.8 briggs | ((mask & 0xf) << 4); 379 1.8 briggs } 380 1.8 briggs break; 381 1.4 briggs } 382 1.5 briggs new_event.u.m.buttons = adb_ms_buttons | buttons; 383 1.2 briggs new_event.u.m.dx = ((signed int) (event->bytes[1] & 0x3f)) - 384 1.2 briggs ((event->bytes[1] & 0x40) ? 64 : 0); 385 1.2 briggs new_event.u.m.dy = ((signed int) (event->bytes[0] & 0x3f)) - 386 1.2 briggs ((event->bytes[0] & 0x40) ? 64 : 0); 387 1.2 briggs adb_dokeyupdown(&new_event); 388 1.2 briggs break; 389 1.2 briggs default: /* God only knows. */ 390 1.2 briggs adb_dokeyupdown(event); 391 1.1 briggs } 392 1.1 briggs } 393 1.1 briggs 394 1.1 briggs 395 1.2 briggs int 396 1.2 briggs adbopen(dev, flag, mode, p) 397 1.2 briggs dev_t dev; 398 1.2 briggs int flag, mode; 399 1.2 briggs struct proc *p; 400 1.1 briggs { 401 1.1 briggs register int unit; 402 1.1 briggs int error = 0; 403 1.1 briggs int s; 404 1.2 briggs 405 1.1 briggs unit = minor(dev); 406 1.2 briggs if (unit != 0) 407 1.2 briggs return (ENXIO); 408 1.2 briggs 409 1.10 scottr s = spladb(); 410 1.2 briggs if (adb_isopen) { 411 1.1 briggs splx(s); 412 1.2 briggs return (EBUSY); 413 1.1 briggs } 414 1.1 briggs adb_evq_tail = 0; 415 1.1 briggs adb_evq_len = 0; 416 1.1 briggs adb_isopen = 1; 417 1.1 briggs adb_ioproc = p; 418 1.10 scottr splx(s); 419 1.1 briggs 420 1.1 briggs return (error); 421 1.1 briggs } 422 1.1 briggs 423 1.1 briggs 424 1.2 briggs int 425 1.2 briggs adbclose(dev, flag, mode, p) 426 1.2 briggs dev_t dev; 427 1.2 briggs int flag, mode; 428 1.2 briggs struct proc *p; 429 1.1 briggs { 430 1.10 scottr int s = spladb(); 431 1.10 scottr 432 1.1 briggs adb_isopen = 0; 433 1.1 briggs adb_ioproc = NULL; 434 1.10 scottr splx(s); 435 1.10 scottr 436 1.1 briggs return (0); 437 1.1 briggs } 438 1.1 briggs 439 1.1 briggs 440 1.2 briggs int 441 1.2 briggs adbread(dev, uio, flag) 442 1.2 briggs dev_t dev; 443 1.2 briggs struct uio *uio; 444 1.2 briggs int flag; 445 1.1 briggs { 446 1.1 briggs int s, error; 447 1.1 briggs int willfit; 448 1.1 briggs int total; 449 1.1 briggs int firstmove; 450 1.1 briggs int moremove; 451 1.1 briggs 452 1.1 briggs if (uio->uio_resid < sizeof(adb_event_t)) 453 1.1 briggs return (EMSGSIZE); /* close enough. */ 454 1.1 briggs 455 1.10 scottr s = spladb(); 456 1.2 briggs if (adb_evq_len == 0) { 457 1.2 briggs splx(s); 458 1.2 briggs return (0); 459 1.1 briggs } 460 1.1 briggs willfit = howmany(uio->uio_resid, sizeof(adb_event_t)); 461 1.1 briggs total = (adb_evq_len < willfit) ? adb_evq_len : willfit; 462 1.1 briggs 463 1.1 briggs firstmove = (adb_evq_tail + total > ADB_MAX_EVENTS) 464 1.2 briggs ? (ADB_MAX_EVENTS - adb_evq_tail) : total; 465 1.2 briggs 466 1.2 briggs error = uiomove((caddr_t) & adb_evq[adb_evq_tail], 467 1.2 briggs firstmove * sizeof(adb_event_t), uio); 468 1.2 briggs if (error) { 469 1.1 briggs splx(s); 470 1.2 briggs return (error); 471 1.1 briggs } 472 1.1 briggs moremove = total - firstmove; 473 1.1 briggs 474 1.2 briggs if (moremove > 0) { 475 1.2 briggs error = uiomove((caddr_t) & adb_evq[0], 476 1.2 briggs moremove * sizeof(adb_event_t), uio); 477 1.2 briggs if (error) { 478 1.1 briggs splx(s); 479 1.2 briggs return (error); 480 1.1 briggs } 481 1.1 briggs } 482 1.1 briggs adb_evq_tail = (adb_evq_tail + total) % ADB_MAX_EVENTS; 483 1.1 briggs adb_evq_len -= total; 484 1.1 briggs splx(s); 485 1.1 briggs return (0); 486 1.1 briggs } 487 1.1 briggs 488 1.2 briggs 489 1.2 briggs int 490 1.2 briggs adbwrite(dev, uio, flag) 491 1.2 briggs dev_t dev; 492 1.2 briggs struct uio *uio; 493 1.2 briggs int flag; 494 1.1 briggs { 495 1.1 briggs return 0; 496 1.1 briggs } 497 1.1 briggs 498 1.1 briggs 499 1.2 briggs int 500 1.2 briggs adbioctl(dev, cmd, data, flag, p) 501 1.2 briggs dev_t dev; 502 1.2 briggs int cmd; 503 1.2 briggs caddr_t data; 504 1.2 briggs int flag; 505 1.2 briggs struct proc *p; 506 1.2 briggs { 507 1.2 briggs switch (cmd) { 508 1.2 briggs case ADBIOC_DEVSINFO: { 509 1.2 briggs adb_devinfo_t *di; 510 1.2 briggs ADBDataBlock adbdata; 511 1.2 briggs int totaldevs; 512 1.2 briggs int adbaddr; 513 1.2 briggs int i; 514 1.2 briggs 515 1.2 briggs di = (void *) data; 516 1.2 briggs 517 1.2 briggs /* Initialize to no devices */ 518 1.2 briggs for (i = 0; i < 16; i++) 519 1.2 briggs di->dev[i].addr = -1; 520 1.2 briggs 521 1.2 briggs totaldevs = CountADBs(); 522 1.2 briggs for (i = 1; i <= totaldevs; i++) { 523 1.2 briggs adbaddr = GetIndADB(&adbdata, i); 524 1.2 briggs di->dev[adbaddr].addr = adbaddr; 525 1.2 briggs di->dev[adbaddr].default_addr = adbdata.origADBAddr; 526 1.2 briggs di->dev[adbaddr].handler_id = adbdata.devType; 527 1.1 briggs } 528 1.1 briggs 529 1.2 briggs /* Must call ADB Manager to get devices now */ 530 1.2 briggs break; 531 1.2 briggs } 532 1.2 briggs 533 1.2 briggs case ADBIOC_GETREPEAT:{ 534 1.2 briggs adb_rptinfo_t *ri; 535 1.1 briggs 536 1.2 briggs ri = (void *) data; 537 1.2 briggs ri->delay_ticks = adb_rptdelay; 538 1.2 briggs ri->interval_ticks = adb_rptinterval; 539 1.2 briggs break; 540 1.2 briggs } 541 1.1 briggs 542 1.2 briggs case ADBIOC_SETREPEAT:{ 543 1.2 briggs adb_rptinfo_t *ri; 544 1.1 briggs 545 1.2 briggs ri = (void *) data; 546 1.2 briggs adb_rptdelay = ri->delay_ticks; 547 1.2 briggs adb_rptinterval = ri->interval_ticks; 548 1.2 briggs break; 549 1.2 briggs } 550 1.1 briggs 551 1.2 briggs case ADBIOC_RESET: 552 1.2 briggs adb_init(); 553 1.2 briggs break; 554 1.1 briggs 555 1.2 briggs case ADBIOC_LISTENCMD:{ 556 1.2 briggs adb_listencmd_t *lc; 557 1.1 briggs 558 1.2 briggs lc = (void *) data; 559 1.2 briggs } 560 1.1 briggs 561 1.2 briggs default: 562 1.2 briggs return (EINVAL); 563 1.1 briggs } 564 1.2 briggs return (0); 565 1.1 briggs } 566 1.1 briggs 567 1.1 briggs 568 1.2 briggs int 569 1.10 scottr adbpoll(dev, events, p) 570 1.10 scottr dev_t dev; 571 1.10 scottr int events; 572 1.10 scottr struct proc *p; 573 1.10 scottr { 574 1.10 scottr int s, revents; 575 1.10 scottr 576 1.10 scottr revents = events & (POLLOUT | POLLWRNORM); 577 1.10 scottr 578 1.10 scottr if ((events & (POLLIN | POLLRDNORM)) == 0) 579 1.10 scottr return (revents); 580 1.10 scottr 581 1.10 scottr s = spladb(); 582 1.10 scottr if (adb_evq_len > 0) 583 1.10 scottr revents |= events & (POLLIN | POLLRDNORM); 584 1.10 scottr else 585 1.2 briggs selrecord(p, &adb_selinfo); 586 1.10 scottr splx(s); 587 1.2 briggs 588 1.10 scottr return (revents); 589 1.1 briggs } 590
Indexes created Wed Oct 01 19:09:53 GMT 2025