vrled.c revision 1.2
1 1.2 sato /* $NetBSD: vrled.c,v 1.2 2000/12/27 12:08:03 sato Exp $ */ 2 1.1 sato 3 1.1 sato /* 4 1.1 sato * Copyright (c) 2000 SATO Kazumi. All rights reserved. 5 1.1 sato * 6 1.1 sato * Redistribution and use in source and binary forms, with or without 7 1.1 sato * modification, are permitted provided that the following conditions 8 1.1 sato * are met: 9 1.1 sato * 1. Redistributions of source code must retain the above copyright 10 1.1 sato * notice, this list of conditions and the following disclaimer. 11 1.1 sato * 2. Redistributions in binary form must reproduce the above copyright 12 1.1 sato * notice, this list of conditions and the following disclaimer in the 13 1.1 sato * documentation and/or other materials provided with the distribution. 14 1.1 sato * 15 1.1 sato * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 16 1.1 sato * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 17 1.1 sato * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 18 1.1 sato * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 19 1.1 sato * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 20 1.1 sato * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 21 1.1 sato * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 22 1.1 sato * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 23 1.1 sato * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 24 1.1 sato * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 25 1.1 sato * SUCH DAMAGE. 26 1.1 sato */ 27 1.1 sato 28 1.1 sato #include <sys/param.h> 29 1.1 sato #include <sys/systm.h> 30 1.1 sato #include <sys/device.h> 31 1.1 sato #include <sys/reboot.h> 32 1.1 sato 33 1.1 sato #include <machine/bus.h> 34 1.1 sato #include <machine/config_hook.h> 35 1.1 sato 36 1.1 sato #include <hpcmips/vr/vripvar.h> 37 1.1 sato #include <hpcmips/vr/vrledvar.h> 38 1.1 sato #include <hpcmips/vr/vrledreg.h> 39 1.1 sato 40 1.1 sato 41 1.1 sato #ifdef VRLEDDEBUG 42 1.1 sato #ifndef VRLEDDEBUG_CONF 43 1.1 sato #define VRLEDDEBUG_CONF 0 44 1.1 sato #endif /* VRLEDDEBUG_CONF */ 45 1.1 sato int vrleddebug = VRLEDDEBUG_CONF; 46 1.1 sato #define DPRINTF(arg) if (vrleddebug) printf arg; 47 1.1 sato #define VPRINTF(arg) if (bootverbose||vrleddebug) printf arg; 48 1.1 sato #else /* VRLEDDEBUG */ 49 1.1 sato #define DPRINTF(arg) 50 1.1 sato #define VPRINTF(arg) if (bootverbose) printf arg; 51 1.1 sato #endif /* VRLEDDEBUG */ 52 1.1 sato 53 1.1 sato static int vrledmatch __P((struct device *, struct cfdata *, void *)); 54 1.1 sato static void vrledattach __P((struct device *, struct device *, void *)); 55 1.1 sato 56 1.1 sato static void vrled_write __P((struct vrled_softc *, int, unsigned short)); 57 1.1 sato static unsigned short vrled_read __P((struct vrled_softc *, int)); 58 1.1 sato 59 1.1 sato static void vrled_stop __P((struct vrled_softc *)); 60 1.1 sato static void vrled_on __P((struct vrled_softc *)); 61 1.1 sato static void vrled_blink __P((struct vrled_softc *)); 62 1.1 sato static void vrled_flash __P((struct vrled_softc *)); 63 1.1 sato static void vrled_change_state __P((struct vrled_softc *)); 64 1.1 sato static int vrled_event __P((void *, int, long, void *)); 65 1.1 sato 66 1.1 sato int vrled_intr __P((void *)); 67 1.1 sato 68 1.1 sato struct cfattach vrled_ca = { 69 1.1 sato sizeof(struct vrled_softc), vrledmatch, vrledattach 70 1.1 sato }; 71 1.1 sato 72 1.1 sato struct vrled_softc *this_led; 73 1.1 sato 74 1.1 sato static inline void 75 1.1 sato vrled_write(sc, port, val) 76 1.1 sato struct vrled_softc *sc; 77 1.1 sato int port; 78 1.1 sato unsigned short val; 79 1.1 sato { 80 1.1 sato bus_space_write_2(sc->sc_iot, sc->sc_ioh, port, val); 81 1.1 sato } 82 1.1 sato 83 1.1 sato static inline unsigned short 84 1.1 sato vrled_read(sc, port) 85 1.1 sato struct vrled_softc *sc; 86 1.1 sato int port; 87 1.1 sato { 88 1.1 sato return bus_space_read_2(sc->sc_iot, sc->sc_ioh, port); 89 1.1 sato } 90 1.1 sato 91 1.1 sato static int 92 1.1 sato vrledmatch(parent, cf, aux) 93 1.1 sato struct device *parent; 94 1.1 sato struct cfdata *cf; 95 1.1 sato void *aux; 96 1.1 sato { 97 1.1 sato return 1; 98 1.1 sato } 99 1.1 sato 100 1.1 sato static void 101 1.1 sato vrledattach(parent, self, aux) 102 1.1 sato struct device *parent; 103 1.1 sato struct device *self; 104 1.1 sato void *aux; 105 1.1 sato { 106 1.1 sato struct vrled_softc *sc = (struct vrled_softc *)self; 107 1.1 sato struct vrip_attach_args *va = aux; 108 1.1 sato 109 1.1 sato bus_space_tag_t iot = va->va_iot; 110 1.1 sato bus_space_handle_t ioh; 111 1.1 sato 112 1.1 sato if (bus_space_map(iot, va->va_addr, 1, 0, &ioh)) { 113 1.1 sato printf(": can't map bus space\n"); 114 1.1 sato return; 115 1.1 sato } 116 1.1 sato 117 1.1 sato sc->sc_iot = iot; 118 1.1 sato sc->sc_ioh = ioh; 119 1.1 sato 120 1.1 sato if (!(sc->sc_handler = 121 1.1 sato vrip_intr_establish(va->va_vc, va->va_intr, IPL_TTY, 122 1.1 sato vrled_intr, sc))) { 123 1.1 sato printf (": can't map interrupt line.\n"); 124 1.1 sato return; 125 1.1 sato } 126 1.1 sato 127 1.1 sato printf("\n"); 128 1.1 sato /* clear interrupt status */ 129 1.1 sato vrled_write(sc, LEDINT_REG_W, LEDINT_ALL); 130 1.1 sato 131 1.1 sato /* basic setup */ 132 1.1 sato sc->sc_state_cnt = 1; 133 1.1 sato vrled_write(sc, LEDASTC_REG_W, 1); /* 1time */ 134 1.1 sato vrled_write(sc, LEDCNT_REG_W, LEDCNT_AUTOSTOP); 135 1.1 sato vrled_stop(sc); 136 1.1 sato 137 1.2 sato sc->sc_hook = config_hook(CONFIG_HOOK_SET, 138 1.2 sato CONFIG_HOOK_LED, 139 1.1 sato CONFIG_HOOK_SHARE, 140 1.1 sato vrled_event, sc); 141 1.1 sato this_led = sc; 142 1.1 sato } 143 1.1 sato 144 1.1 sato 145 1.1 sato /* 146 1.1 sato * LED interrupt handler. 147 1.1 sato * 148 1.1 sato */ 149 1.1 sato int 150 1.1 sato vrled_intr(arg) 151 1.1 sato void *arg; 152 1.1 sato { 153 1.1 sato struct vrled_softc *sc = arg; 154 1.1 sato unsigned int intstat; 155 1.1 sato 156 1.1 sato intstat = vrled_read(sc, LEDINT_REG_W); 157 1.1 sato /* clear interrupt status */ 158 1.1 sato vrled_write(sc, LEDINT_REG_W, intstat); 159 1.1 sato if (intstat&LEDINT_AUTOSTOP) { 160 1.1 sato vrled_change_state(sc); 161 1.1 sato } 162 1.1 sato return 0; 163 1.1 sato } 164 1.1 sato 165 1.1 sato /* 166 1.1 sato * LED turn OFF 167 1.1 sato * 168 1.1 sato */ 169 1.1 sato void 170 1.1 sato vrled_stop(sc) 171 1.1 sato struct vrled_softc *sc; 172 1.1 sato { 173 1.1 sato vrled_write(sc, LEDHTS_REG_W, LEDHTS_DIV16SEC); 174 1.1 sato vrled_write(sc, LEDLTS_REG_W, LEDLTS_4SEC); 175 1.1 sato vrled_write(sc, LEDASTC_REG_W, 2); /* 2time */ 176 1.1 sato vrled_write(sc, LEDCNT_REG_W, LEDCNT_AUTOSTOP); 177 1.1 sato 178 1.1 sato sc->sc_state = LEDOFF; 179 1.1 sato sc->sc_next = LEDOFF; 180 1.1 sato } 181 1.1 sato 182 1.1 sato /* 183 1.1 sato * LED turn ON 184 1.1 sato * 185 1.1 sato */ 186 1.1 sato void 187 1.1 sato vrled_on(sc) 188 1.1 sato struct vrled_softc *sc; 189 1.1 sato { 190 1.1 sato vrled_write(sc, LEDHTS_REG_W, LEDHTS_SEC); 191 1.1 sato vrled_write(sc, LEDLTS_REG_W, LEDLTS_DIV16SEC); 192 1.1 sato vrled_write(sc, LEDASTC_REG_W, 2); /* 2time */ 193 1.1 sato vrled_write(sc, LEDCNT_REG_W, LEDCNT_AUTOSTOP|LEDCNT_BLINK); 194 1.1 sato 195 1.1 sato sc->sc_state = LEDON; 196 1.1 sato sc->sc_next = LEDON; 197 1.1 sato } 198 1.1 sato 199 1.1 sato /* 200 1.1 sato * LED blink 201 1.1 sato * 202 1.1 sato */ 203 1.1 sato void 204 1.1 sato vrled_blink(sc) 205 1.1 sato struct vrled_softc *sc; 206 1.1 sato { 207 1.1 sato int ledhts; 208 1.1 sato int ledlts; 209 1.1 sato 210 1.1 sato switch (sc->sc_next) { 211 1.1 sato case LED1SB: 212 1.1 sato ledhts = LEDHTS_DIV2SEC; 213 1.1 sato ledlts = LEDLTS_DIV2SEC; 214 1.1 sato break; 215 1.1 sato case LED2SB: 216 1.1 sato ledhts = LEDHTS_SEC; 217 1.1 sato ledlts = LEDLTS_SEC; 218 1.1 sato break; 219 1.1 sato default: 220 1.1 sato vrled_stop(sc); 221 1.1 sato return; 222 1.1 sato } 223 1.1 sato 224 1.1 sato vrled_write(sc, LEDHTS_REG_W, ledhts); 225 1.1 sato vrled_write(sc, LEDLTS_REG_W, ledlts); 226 1.1 sato vrled_write(sc, LEDASTC_REG_W, 2); /* 2time */ 227 1.1 sato vrled_write(sc, LEDCNT_REG_W, LEDCNT_AUTOSTOP); 228 1.1 sato vrled_write(sc, LEDCNT_REG_W, LEDCNT_AUTOSTOP|LEDCNT_BLINK); 229 1.1 sato 230 1.1 sato sc->sc_state = sc->sc_next; 231 1.1 sato } 232 1.1 sato 233 1.1 sato /* 234 1.1 sato * LED flash once 235 1.1 sato * 236 1.1 sato */ 237 1.1 sato void 238 1.1 sato vrled_flash(sc) 239 1.1 sato struct vrled_softc *sc; 240 1.1 sato { 241 1.1 sato int ledhts; 242 1.1 sato int ledlts; 243 1.1 sato 244 1.1 sato switch (sc->sc_next) { 245 1.1 sato case LED8DIVF: 246 1.1 sato ledhts = LEDHTS_DIV16SEC; 247 1.1 sato ledlts = LEDLTS_DIV16SEC; 248 1.1 sato break; 249 1.1 sato case LED4DIVF: 250 1.1 sato ledhts = LEDHTS_DIV8SEC; 251 1.1 sato ledlts = LEDLTS_DIV8SEC; 252 1.1 sato break; 253 1.1 sato case LED2DIVF: 254 1.1 sato ledhts = LEDHTS_DIV4SEC; 255 1.1 sato ledlts = LEDLTS_DIV4SEC; 256 1.1 sato break; 257 1.1 sato case LED1SF: 258 1.1 sato ledhts = LEDHTS_DIV2SEC; 259 1.1 sato ledlts = LEDLTS_DIV2SEC; 260 1.1 sato break; 261 1.1 sato default: 262 1.1 sato vrled_stop(sc); 263 1.1 sato return; 264 1.1 sato } 265 1.1 sato 266 1.1 sato vrled_write(sc, LEDHTS_REG_W, ledhts); 267 1.1 sato vrled_write(sc, LEDLTS_REG_W, ledlts); 268 1.1 sato vrled_write(sc, LEDASTC_REG_W, 2); /* 2time */ 269 1.1 sato vrled_write(sc, LEDCNT_REG_W, LEDCNT_AUTOSTOP|LEDCNT_BLINK); 270 1.1 sato 271 1.1 sato sc->sc_state = sc->sc_next; 272 1.1 sato sc->sc_next = LEDOFF; 273 1.1 sato sc->sc_state_cnt = 1; 274 1.1 sato } 275 1.1 sato 276 1.1 sato /* 277 1.1 sato * Change LED state 278 1.1 sato * 279 1.1 sato */ 280 1.1 sato void 281 1.1 sato vrled_change_state(sc) 282 1.1 sato struct vrled_softc *sc; 283 1.1 sato { 284 1.1 sato 285 1.1 sato switch (sc->sc_next) { 286 1.1 sato case LEDOFF: 287 1.1 sato vrled_stop(sc); 288 1.1 sato break; 289 1.1 sato case LEDON: 290 1.1 sato vrled_on(sc); 291 1.1 sato break; 292 1.1 sato case LED1SB: 293 1.1 sato case LED2SB: 294 1.1 sato vrled_blink(sc); 295 1.1 sato break; 296 1.1 sato case LED8DIVF: 297 1.1 sato case LED4DIVF: 298 1.1 sato case LED2DIVF: 299 1.1 sato case LED1SF: 300 1.1 sato vrled_flash(sc); 301 1.1 sato break; 302 1.1 sato default: 303 1.1 sato vrled_stop(sc); 304 1.1 sato break; 305 1.1 sato } 306 1.1 sato } 307 1.1 sato 308 1.1 sato /* 309 1.1 sato * Set LED state 310 1.1 sato * 311 1.1 sato */ 312 1.1 sato void 313 1.1 sato vrled_set_state(sc, state) 314 1.1 sato struct vrled_softc *sc; 315 1.1 sato vrled_status state; 316 1.1 sato { 317 1.1 sato 318 1.1 sato int ledstate; 319 1.1 sato 320 1.1 sato ledstate = vrled_read(sc, LEDCNT_REG_W); 321 1.1 sato if (ledstate&LEDCNT_BLINK) { /* currently processing */ 322 1.1 sato if (sc->sc_next == state) 323 1.1 sato sc->sc_state_cnt++; 324 1.1 sato switch (sc->sc_next) { 325 1.1 sato case LEDOFF: 326 1.1 sato case LEDON: 327 1.1 sato sc->sc_next = state; 328 1.1 sato break; 329 1.1 sato case LED8DIVF: 330 1.1 sato case LED4DIVF: 331 1.1 sato case LED2DIVF: 332 1.1 sato case LED1SF: 333 1.1 sato switch (state) { 334 1.1 sato case LEDOFF: 335 1.1 sato case LED8DIVF: 336 1.1 sato case LED4DIVF: 337 1.1 sato case LED2DIVF: 338 1.1 sato case LED1SF: 339 1.1 sato sc->sc_next = state; 340 1.1 sato break; 341 1.1 sato default: 342 1.1 sato break; 343 1.1 sato } 344 1.1 sato break; 345 1.1 sato case LED1SB: 346 1.1 sato case LED2SB: 347 1.1 sato switch (state) { 348 1.1 sato case LEDOFF: 349 1.1 sato case LEDON: 350 1.1 sato case LED1SB: 351 1.1 sato case LED2SB: 352 1.1 sato sc->sc_next = state; 353 1.1 sato break; 354 1.1 sato default: 355 1.1 sato break; 356 1.1 sato } 357 1.1 sato break; 358 1.1 sato default: 359 1.1 sato sc->sc_next = LEDOFF; 360 1.1 sato break; 361 1.1 sato } 362 1.1 sato return; 363 1.1 sato } 364 1.1 sato sc->sc_next = state; 365 1.1 sato vrled_change_state(sc); 366 1.1 sato } 367 1.1 sato 368 1.1 sato /* 369 1.1 sato * LED config hook events 370 1.1 sato * 371 1.1 sato */ 372 1.1 sato int 373 1.1 sato vrled_event(ctx, type, id, msg) 374 1.1 sato void *ctx; 375 1.1 sato int type; 376 1.1 sato long id; 377 1.1 sato void *msg; 378 1.1 sato { 379 1.1 sato struct vrled_softc *sc = (struct vrled_softc *)ctx; 380 1.2 sato int why =*(int *)msg; 381 1.1 sato 382 1.2 sato if (type != CONFIG_HOOK_SET 383 1.2 sato || id != CONFIG_HOOK_LED) 384 1.1 sato return 1; 385 1.2 sato if (msg == NULL) 386 1.2 sato return 1; 387 1.1 sato 388 1.1 sato switch (why) { 389 1.2 sato case CONFIG_HOOK_LED_OFF: 390 1.1 sato vrled_set_state(sc, LEDOFF); 391 1.1 sato break; 392 1.2 sato case CONFIG_HOOK_LED_ON: 393 1.1 sato vrled_set_state(sc, LEDON); 394 1.1 sato break; 395 1.2 sato case CONFIG_HOOK_LED_FLASH: 396 1.1 sato vrled_set_state(sc, LED8DIVF); 397 1.1 sato break; 398 1.2 sato case CONFIG_HOOK_LED_FLASH2: 399 1.1 sato vrled_set_state(sc, LED4DIVF); 400 1.1 sato break; 401 1.2 sato case CONFIG_HOOK_LED_FLASH5: 402 1.1 sato vrled_set_state(sc, LED2DIVF); 403 1.1 sato break; 404 1.2 sato case CONFIG_HOOK_LED_BLINK: 405 1.1 sato vrled_set_state(sc, LED1SB); 406 1.1 sato break; 407 1.2 sato case CONFIG_HOOK_LED_BLINK2: 408 1.1 sato vrled_set_state(sc, LED2SB); 409 1.1 sato break; 410 1.1 sato default: 411 1.1 sato vrled_set_state(sc, LEDOFF); 412 1.1 sato } 413 1.1 sato return (0); 414 1.1 sato } 415 1.1 sato 416 1.1 sato /* end */ 417
Indexes created Fri Sep 26 08:10:20 GMT 2025