apm.c revision 1.22.14.1
1 1.22.14.1 matt /* $NetBSD: apm.c,v 1.22.14.1 2010/04/21 00:27:34 matt Exp $ */ 2 1.1 takemura 3 1.1 takemura /*- 4 1.1 takemura * Copyright (c) 1996, 1997 The NetBSD Foundation, Inc. 5 1.1 takemura * All rights reserved. 6 1.1 takemura * 7 1.1 takemura * This code is derived from software contributed to The NetBSD Foundation 8 1.1 takemura * by John Kohl and Christopher G. Demetriou. 9 1.1 takemura * 10 1.1 takemura * Redistribution and use in source and binary forms, with or without 11 1.1 takemura * modification, are permitted provided that the following conditions 12 1.1 takemura * are met: 13 1.1 takemura * 1. Redistributions of source code must retain the above copyright 14 1.1 takemura * notice, this list of conditions and the following disclaimer. 15 1.1 takemura * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 takemura * notice, this list of conditions and the following disclaimer in the 17 1.1 takemura * documentation and/or other materials provided with the distribution. 18 1.1 takemura * 19 1.1 takemura * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 20 1.1 takemura * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 21 1.1 takemura * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 22 1.1 takemura * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 23 1.1 takemura * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 24 1.1 takemura * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 25 1.1 takemura * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 26 1.1 takemura * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 27 1.1 takemura * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 28 1.1 takemura * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 29 1.1 takemura * POSSIBILITY OF SUCH DAMAGE. 30 1.1 takemura */ 31 1.1 takemura /* 32 1.1 takemura * from: sys/arch/i386/i386/apm.c,v 1.49 2000/05/08 33 1.1 takemura */ 34 1.1 takemura 35 1.3 christos #include <sys/cdefs.h> 36 1.22.14.1 matt __KERNEL_RCSID(0, "$NetBSD: apm.c,v 1.22.14.1 2010/04/21 00:27:34 matt Exp $"); 37 1.3 christos 38 1.1 takemura #include "opt_apm.h" 39 1.1 takemura 40 1.1 takemura #ifdef APM_NOIDLE 41 1.1 takemura #error APM_NOIDLE option deprecated; use APM_NO_IDLE instead 42 1.1 takemura #endif 43 1.1 takemura 44 1.1 takemura #if defined(DEBUG) && !defined(APMDEBUG) 45 1.1 takemura #define APMDEBUG 46 1.1 takemura #endif 47 1.1 takemura 48 1.1 takemura #include <sys/param.h> 49 1.1 takemura #include <sys/systm.h> 50 1.1 takemura #include <sys/signalvar.h> 51 1.1 takemura #include <sys/kernel.h> 52 1.1 takemura #include <sys/proc.h> 53 1.1 takemura #include <sys/kthread.h> 54 1.1 takemura #include <sys/user.h> 55 1.1 takemura #include <sys/malloc.h> 56 1.1 takemura #include <sys/device.h> 57 1.1 takemura #include <sys/fcntl.h> 58 1.1 takemura #include <sys/ioctl.h> 59 1.1 takemura #include <sys/select.h> 60 1.1 takemura #include <sys/poll.h> 61 1.1 takemura #include <sys/conf.h> 62 1.1 takemura 63 1.1 takemura #include <dev/apm/apmvar.h> 64 1.1 takemura 65 1.1 takemura #include <machine/stdarg.h> 66 1.1 takemura 67 1.3 christos #ifdef APMDEBUG 68 1.3 christos #define DPRINTF(f, x) do { if (apmdebug & (f)) printf x; } while (0) 69 1.1 takemura 70 1.1 takemura 71 1.1 takemura #ifdef APMDEBUG_VALUE 72 1.1 takemura int apmdebug = APMDEBUG_VALUE; 73 1.1 takemura #else 74 1.1 takemura int apmdebug = 0; 75 1.3 christos #endif /* APMDEBUG_VALUE */ 76 1.3 christos 77 1.1 takemura #else 78 1.1 takemura #define DPRINTF(f, x) /**/ 79 1.3 christos #endif /* APMDEBUG */ 80 1.1 takemura 81 1.1 takemura #define SCFLAG_OREAD 0x0000001 82 1.1 takemura #define SCFLAG_OWRITE 0x0000002 83 1.1 takemura #define SCFLAG_OPEN (SCFLAG_OREAD|SCFLAG_OWRITE) 84 1.1 takemura 85 1.1 takemura #define APMUNIT(dev) (minor(dev)&0xf0) 86 1.3 christos #define APM(dev) (minor(dev)&0x0f) 87 1.3 christos #define APM_NORMAL 0 88 1.3 christos #define APM_CTL 8 89 1.1 takemura 90 1.1 takemura /* 91 1.1 takemura * A brief note on the locking protocol: it's very simple; we 92 1.1 takemura * assert an exclusive lock any time thread context enters the 93 1.1 takemura * APM module. This is both the APM thread itself, as well as 94 1.1 takemura * user context. 95 1.1 takemura */ 96 1.3 christos #define APM_LOCK(apmsc) \ 97 1.14 ad (void) mutex_enter(&(apmsc)->sc_lock) 98 1.1 takemura #define APM_UNLOCK(apmsc) \ 99 1.14 ad (void) mutex_exit(&(apmsc)->sc_lock) 100 1.1 takemura 101 1.3 christos static void apm_event_handle(struct apm_softc *, u_int, u_int); 102 1.3 christos static void apm_periodic_check(struct apm_softc *); 103 1.3 christos static void apm_thread(void *); 104 1.3 christos static void apm_perror(const char *, int, ...) 105 1.3 christos __attribute__((__format__(__printf__,1,3))); 106 1.1 takemura #ifdef APM_POWER_PRINT 107 1.3 christos static void apm_power_print(struct apm_softc *, struct apm_power_info *); 108 1.1 takemura #endif 109 1.3 christos static int apm_record_event(struct apm_softc *, u_int); 110 1.3 christos static void apm_set_ver(struct apm_softc *); 111 1.3 christos static void apm_standby(struct apm_softc *); 112 1.3 christos static void apm_suspend(struct apm_softc *); 113 1.3 christos static void apm_resume(struct apm_softc *, u_int, u_int); 114 1.1 takemura 115 1.3 christos extern struct cfdriver apm_cd; 116 1.1 takemura 117 1.3 christos dev_type_open(apmopen); 118 1.3 christos dev_type_close(apmclose); 119 1.3 christos dev_type_ioctl(apmioctl); 120 1.3 christos dev_type_poll(apmpoll); 121 1.3 christos dev_type_kqfilter(apmkqfilter); 122 1.3 christos 123 1.3 christos const struct cdevsw apm_cdevsw = { 124 1.3 christos apmopen, apmclose, noread, nowrite, apmioctl, 125 1.6 dogcow nostop, notty, apmpoll, nommap, apmkqfilter, D_OTHER, 126 1.1 takemura }; 127 1.1 takemura 128 1.1 takemura /* configurable variables */ 129 1.1 takemura int apm_bogus_bios = 0; 130 1.1 takemura #ifdef APM_DISABLE 131 1.1 takemura int apm_enabled = 0; 132 1.1 takemura #else 133 1.1 takemura int apm_enabled = 1; 134 1.1 takemura #endif 135 1.1 takemura #ifdef APM_NO_IDLE 136 1.1 takemura int apm_do_idle = 0; 137 1.1 takemura #else 138 1.1 takemura int apm_do_idle = 1; 139 1.1 takemura #endif 140 1.1 takemura #ifdef APM_NO_STANDBY 141 1.1 takemura int apm_do_standby = 0; 142 1.1 takemura #else 143 1.1 takemura int apm_do_standby = 1; 144 1.1 takemura #endif 145 1.1 takemura #ifdef APM_V10_ONLY 146 1.1 takemura int apm_v11_enabled = 0; 147 1.1 takemura #else 148 1.1 takemura int apm_v11_enabled = 1; 149 1.1 takemura #endif 150 1.1 takemura #ifdef APM_NO_V12 151 1.1 takemura int apm_v12_enabled = 0; 152 1.1 takemura #else 153 1.1 takemura int apm_v12_enabled = 1; 154 1.1 takemura #endif 155 1.3 christos #ifdef APM_FORCE_64K_SEGMENTS 156 1.3 christos int apm_force_64k_segments = 1; 157 1.3 christos #else 158 1.3 christos int apm_force_64k_segments = 0; 159 1.3 christos #endif 160 1.3 christos #ifdef APM_ALLOW_BOGUS_SEGMENTS 161 1.3 christos int apm_allow_bogus_segments = 1; 162 1.3 christos #else 163 1.3 christos int apm_allow_bogus_segments = 0; 164 1.3 christos #endif 165 1.1 takemura 166 1.1 takemura /* variables used during operation (XXX cgd) */ 167 1.1 takemura u_char apm_majver, apm_minver; 168 1.1 takemura int apm_inited; 169 1.1 takemura int apm_standbys, apm_userstandbys, apm_suspends, apm_battlow; 170 1.1 takemura int apm_damn_fool_bios, apm_op_inprog; 171 1.1 takemura int apm_evindex; 172 1.1 takemura 173 1.3 christos static int apm_spl; /* saved spl while suspended */ 174 1.3 christos 175 1.3 christos const char * 176 1.3 christos apm_strerror(int code) 177 1.1 takemura { 178 1.1 takemura switch (code) { 179 1.1 takemura case APM_ERR_PM_DISABLED: 180 1.1 takemura return ("power management disabled"); 181 1.1 takemura case APM_ERR_REALALREADY: 182 1.1 takemura return ("real mode interface already connected"); 183 1.1 takemura case APM_ERR_NOTCONN: 184 1.1 takemura return ("interface not connected"); 185 1.1 takemura case APM_ERR_16ALREADY: 186 1.1 takemura return ("16-bit interface already connected"); 187 1.1 takemura case APM_ERR_16NOTSUPP: 188 1.1 takemura return ("16-bit interface not supported"); 189 1.1 takemura case APM_ERR_32ALREADY: 190 1.1 takemura return ("32-bit interface already connected"); 191 1.1 takemura case APM_ERR_32NOTSUPP: 192 1.1 takemura return ("32-bit interface not supported"); 193 1.1 takemura case APM_ERR_UNRECOG_DEV: 194 1.1 takemura return ("unrecognized device ID"); 195 1.1 takemura case APM_ERR_ERANGE: 196 1.1 takemura return ("parameter out of range"); 197 1.1 takemura case APM_ERR_NOTENGAGED: 198 1.1 takemura return ("interface not engaged"); 199 1.1 takemura case APM_ERR_UNABLE: 200 1.1 takemura return ("unable to enter requested state"); 201 1.1 takemura case APM_ERR_NOEVENTS: 202 1.1 takemura return ("no pending events"); 203 1.1 takemura case APM_ERR_NOT_PRESENT: 204 1.1 takemura return ("no APM present"); 205 1.1 takemura default: 206 1.1 takemura return ("unknown error code"); 207 1.1 takemura } 208 1.1 takemura } 209 1.1 takemura 210 1.1 takemura static void 211 1.1 takemura apm_perror(const char *str, int errinfo, ...) /* XXX cgd */ 212 1.1 takemura { 213 1.1 takemura va_list ap; 214 1.1 takemura 215 1.1 takemura printf("APM "); 216 1.1 takemura 217 1.1 takemura va_start(ap, errinfo); 218 1.1 takemura vprintf(str, ap); /* XXX cgd */ 219 1.1 takemura va_end(ap); 220 1.1 takemura 221 1.1 takemura printf(": %s\n", apm_strerror(errinfo)); 222 1.1 takemura } 223 1.1 takemura 224 1.1 takemura #ifdef APM_POWER_PRINT 225 1.1 takemura static void 226 1.3 christos apm_power_print(struct apm_softc *sc, struct apm_power_info *pi) 227 1.1 takemura { 228 1.1 takemura 229 1.3 christos if (pi->battery_life != APM_BATT_LIFE_UNKNOWN) { 230 1.19 cube aprint_normal_dev(sc->sc_dev, 231 1.19 cube "battery life expectancy: %d%%\n", 232 1.19 cube pi->battery_life); 233 1.1 takemura } 234 1.19 cube aprint_normal_dev(sc->sc_dev, "A/C state: "); 235 1.1 takemura switch (pi->ac_state) { 236 1.1 takemura case APM_AC_OFF: 237 1.1 takemura printf("off\n"); 238 1.1 takemura break; 239 1.1 takemura case APM_AC_ON: 240 1.1 takemura printf("on\n"); 241 1.1 takemura break; 242 1.1 takemura case APM_AC_BACKUP: 243 1.1 takemura printf("backup power\n"); 244 1.1 takemura break; 245 1.1 takemura default: 246 1.1 takemura case APM_AC_UNKNOWN: 247 1.1 takemura printf("unknown\n"); 248 1.1 takemura break; 249 1.1 takemura } 250 1.19 cube aprint_normal_dev(sc->sc_dev, "battery charge state:"); 251 1.3 christos if (apm_minver == 0) 252 1.3 christos switch (pi->battery_state) { 253 1.3 christos case APM_BATT_HIGH: 254 1.3 christos printf("high\n"); 255 1.3 christos break; 256 1.3 christos case APM_BATT_LOW: 257 1.3 christos printf("low\n"); 258 1.3 christos break; 259 1.3 christos case APM_BATT_CRITICAL: 260 1.3 christos printf("critical\n"); 261 1.3 christos break; 262 1.3 christos case APM_BATT_CHARGING: 263 1.3 christos printf("charging\n"); 264 1.3 christos break; 265 1.3 christos case APM_BATT_UNKNOWN: 266 1.3 christos printf("unknown\n"); 267 1.3 christos break; 268 1.3 christos default: 269 1.3 christos printf("undecoded state %x\n", pi->battery_state); 270 1.3 christos break; 271 1.3 christos } 272 1.3 christos else if (apm_minver >= 1) { 273 1.3 christos if (pi->battery_flags & APM_BATT_FLAG_NO_SYSTEM_BATTERY) 274 1.3 christos printf(" no battery"); 275 1.3 christos else { 276 1.3 christos if (pi->battery_flags & APM_BATT_FLAG_HIGH) 277 1.3 christos printf(" high"); 278 1.3 christos if (pi->battery_flags & APM_BATT_FLAG_LOW) 279 1.3 christos printf(" low"); 280 1.3 christos if (pi->battery_flags & APM_BATT_FLAG_CRITICAL) 281 1.3 christos printf(" critical"); 282 1.3 christos if (pi->battery_flags & APM_BATT_FLAG_CHARGING) 283 1.3 christos printf(" charging"); 284 1.3 christos } 285 1.3 christos printf("\n"); 286 1.4 christos if (pi->minutes_valid) { 287 1.19 cube aprint_normal_dev(sc->sc_dev, "estimated "); 288 1.4 christos if (pi->minutes_left / 60) 289 1.4 christos printf("%dh ", pi->minutes_left / 60); 290 1.4 christos printf("%dm\n", pi->minutes_left % 60); 291 1.3 christos } 292 1.1 takemura } 293 1.1 takemura return; 294 1.1 takemura } 295 1.1 takemura #endif 296 1.1 takemura 297 1.1 takemura static void 298 1.3 christos apm_suspend(struct apm_softc *sc) 299 1.1 takemura { 300 1.3 christos int error; 301 1.1 takemura 302 1.1 takemura if (sc->sc_power_state == PWR_SUSPEND) { 303 1.1 takemura #ifdef APMDEBUG 304 1.19 cube aprint_debug_dev(sc->sc_dev, 305 1.19 cube "apm_suspend: already suspended?\n"); 306 1.1 takemura #endif 307 1.1 takemura return; 308 1.1 takemura } 309 1.1 takemura sc->sc_power_state = PWR_SUSPEND; 310 1.3 christos 311 1.3 christos if (!(sc->sc_hwflags & APM_F_DONT_RUN_HOOKS)) { 312 1.20 dyoung pmf_system_suspend(PMF_F_NONE); 313 1.3 christos apm_spl = splhigh(); 314 1.3 christos } 315 1.1 takemura 316 1.3 christos error = (*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, APM_DEV_ALLDEVS, 317 1.3 christos APM_SYS_SUSPEND); 318 1.3 christos 319 1.3 christos if (error) 320 1.3 christos apm_resume(sc, 0, 0); 321 1.22.14.1 matt else 322 1.22.14.1 matt apm_resume(sc, APM_SYS_STANDBY_RESUME, 0); 323 1.1 takemura } 324 1.1 takemura 325 1.1 takemura static void 326 1.3 christos apm_standby(struct apm_softc *sc) 327 1.1 takemura { 328 1.3 christos int error; 329 1.1 takemura 330 1.1 takemura if (sc->sc_power_state == PWR_STANDBY) { 331 1.1 takemura #ifdef APMDEBUG 332 1.19 cube aprint_debug_dev(sc->sc_dev, 333 1.19 cube "apm_standby: already standing by?\n"); 334 1.1 takemura #endif 335 1.1 takemura return; 336 1.1 takemura } 337 1.1 takemura sc->sc_power_state = PWR_STANDBY; 338 1.1 takemura 339 1.3 christos if (!(sc->sc_hwflags & APM_F_DONT_RUN_HOOKS)) { 340 1.20 dyoung pmf_system_suspend(PMF_F_NONE); 341 1.3 christos apm_spl = splhigh(); 342 1.3 christos } 343 1.3 christos error = (*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, APM_DEV_ALLDEVS, 344 1.3 christos APM_SYS_STANDBY); 345 1.3 christos if (error) 346 1.3 christos apm_resume(sc, 0, 0); 347 1.22.14.1 matt else 348 1.22.14.1 matt apm_resume(sc, APM_SYS_STANDBY_RESUME, 0); 349 1.1 takemura } 350 1.1 takemura 351 1.1 takemura static void 352 1.8 christos apm_resume(struct apm_softc *sc, u_int event_type, u_int event_info) 353 1.1 takemura { 354 1.1 takemura if (sc->sc_power_state == PWR_RESUME) { 355 1.1 takemura #ifdef APMDEBUG 356 1.19 cube aprint_debug_dev(sc->sc_dev, "apm_resume: already running?\n"); 357 1.1 takemura #endif 358 1.1 takemura return; 359 1.1 takemura } 360 1.1 takemura sc->sc_power_state = PWR_RESUME; 361 1.1 takemura 362 1.3 christos #ifdef TIMER_FREQ 363 1.1 takemura /* 364 1.1 takemura * Some system requires its clock to be initialized after hybernation. 365 1.1 takemura */ 366 1.3 christos initrtclock(TIMER_FREQ); 367 1.3 christos #endif 368 1.3 christos 369 1.3 christos inittodr(time_second); 370 1.3 christos if (!(sc->sc_hwflags & APM_F_DONT_RUN_HOOKS)) { 371 1.3 christos splx(apm_spl); 372 1.20 dyoung pmf_system_resume(PMF_F_NONE); 373 1.3 christos } 374 1.1 takemura 375 1.1 takemura apm_record_event(sc, event_type); 376 1.1 takemura } 377 1.1 takemura 378 1.1 takemura /* 379 1.1 takemura * return 0 if the user will notice and handle the event, 380 1.1 takemura * return 1 if the kernel driver should do so. 381 1.1 takemura */ 382 1.1 takemura static int 383 1.3 christos apm_record_event(struct apm_softc *sc, u_int event_type) 384 1.1 takemura { 385 1.1 takemura struct apm_event_info *evp; 386 1.1 takemura 387 1.1 takemura if ((sc->sc_flags & SCFLAG_OPEN) == 0) 388 1.1 takemura return 1; /* no user waiting */ 389 1.3 christos if (sc->sc_event_count == APM_NEVENTS) 390 1.1 takemura return 1; /* overflow */ 391 1.3 christos evp = &sc->sc_event_list[sc->sc_event_ptr]; 392 1.3 christos sc->sc_event_count++; 393 1.3 christos sc->sc_event_ptr++; 394 1.3 christos sc->sc_event_ptr %= APM_NEVENTS; 395 1.1 takemura evp->type = event_type; 396 1.1 takemura evp->index = ++apm_evindex; 397 1.18 rmind selnotify(&sc->sc_rsel, 0, 0); 398 1.1 takemura return (sc->sc_flags & SCFLAG_OWRITE) ? 0 : 1; /* user may handle */ 399 1.1 takemura } 400 1.1 takemura 401 1.1 takemura static void 402 1.3 christos apm_event_handle(struct apm_softc *sc, u_int event_code, u_int event_info) 403 1.1 takemura { 404 1.1 takemura int error; 405 1.3 christos const char *code; 406 1.1 takemura struct apm_power_info pi; 407 1.1 takemura 408 1.1 takemura switch (event_code) { 409 1.1 takemura case APM_USER_STANDBY_REQ: 410 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: user standby request\n")); 411 1.1 takemura if (apm_do_standby) { 412 1.3 christos if (apm_op_inprog == 0 && apm_record_event(sc, event_code)) 413 1.1 takemura apm_userstandbys++; 414 1.1 takemura apm_op_inprog++; 415 1.3 christos (void)(*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, 416 1.3 christos APM_DEV_ALLDEVS, APM_LASTREQ_INPROG); 417 1.1 takemura } else { 418 1.3 christos (void)(*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, 419 1.3 christos APM_DEV_ALLDEVS, APM_LASTREQ_REJECTED); 420 1.1 takemura /* in case BIOS hates being spurned */ 421 1.3 christos (*sc->sc_ops->aa_enable)(sc->sc_cookie, 1); 422 1.1 takemura } 423 1.1 takemura break; 424 1.1 takemura 425 1.1 takemura case APM_STANDBY_REQ: 426 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: system standby request\n")); 427 1.22.14.1 matt if (apm_op_inprog) { 428 1.1 takemura DPRINTF(APMDEBUG_EVENTS | APMDEBUG_ANOM, 429 1.1 takemura ("damn fool BIOS did not wait for answer\n")); 430 1.1 takemura /* just give up the fight */ 431 1.1 takemura apm_damn_fool_bios = 1; 432 1.1 takemura } 433 1.1 takemura if (apm_do_standby) { 434 1.3 christos if (apm_op_inprog == 0 && 435 1.3 christos apm_record_event(sc, event_code)) 436 1.1 takemura apm_standbys++; 437 1.1 takemura apm_op_inprog++; 438 1.3 christos (void)(*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, 439 1.3 christos APM_DEV_ALLDEVS, APM_LASTREQ_INPROG); 440 1.1 takemura } else { 441 1.3 christos (void)(*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, 442 1.3 christos APM_DEV_ALLDEVS, APM_LASTREQ_REJECTED); 443 1.1 takemura /* in case BIOS hates being spurned */ 444 1.3 christos (*sc->sc_ops->aa_enable)(sc->sc_cookie, 1); 445 1.1 takemura } 446 1.1 takemura break; 447 1.1 takemura 448 1.1 takemura case APM_USER_SUSPEND_REQ: 449 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: user suspend request\n")); 450 1.3 christos if (apm_op_inprog == 0 && apm_record_event(sc, event_code)) 451 1.1 takemura apm_suspends++; 452 1.1 takemura apm_op_inprog++; 453 1.3 christos (void)(*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, 454 1.3 christos APM_DEV_ALLDEVS, APM_LASTREQ_INPROG); 455 1.1 takemura break; 456 1.1 takemura 457 1.1 takemura case APM_SUSPEND_REQ: 458 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: system suspend request\n")); 459 1.22.14.1 matt if (apm_op_inprog) { 460 1.1 takemura DPRINTF(APMDEBUG_EVENTS | APMDEBUG_ANOM, 461 1.1 takemura ("damn fool BIOS did not wait for answer\n")); 462 1.1 takemura /* just give up the fight */ 463 1.1 takemura apm_damn_fool_bios = 1; 464 1.1 takemura } 465 1.3 christos if (apm_op_inprog == 0 && apm_record_event(sc, event_code)) 466 1.1 takemura apm_suspends++; 467 1.1 takemura apm_op_inprog++; 468 1.3 christos (void)(*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, 469 1.3 christos APM_DEV_ALLDEVS, APM_LASTREQ_INPROG); 470 1.1 takemura break; 471 1.1 takemura 472 1.1 takemura case APM_POWER_CHANGE: 473 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: power status change\n")); 474 1.3 christos error = (*sc->sc_ops->aa_get_powstat)(sc->sc_cookie, 0, &pi); 475 1.1 takemura #ifdef APM_POWER_PRINT 476 1.1 takemura /* only print if nobody is catching events. */ 477 1.1 takemura if (error == 0 && 478 1.1 takemura (sc->sc_flags & (SCFLAG_OREAD|SCFLAG_OWRITE)) == 0) 479 1.1 takemura apm_power_print(sc, &pi); 480 1.1 takemura #endif 481 1.1 takemura apm_record_event(sc, event_code); 482 1.1 takemura break; 483 1.1 takemura 484 1.1 takemura case APM_NORMAL_RESUME: 485 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: resume system\n")); 486 1.1 takemura apm_resume(sc, event_code, event_info); 487 1.1 takemura break; 488 1.1 takemura 489 1.1 takemura case APM_CRIT_RESUME: 490 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: critical resume system")); 491 1.1 takemura apm_resume(sc, event_code, event_info); 492 1.1 takemura break; 493 1.1 takemura 494 1.1 takemura case APM_SYS_STANDBY_RESUME: 495 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: system standby resume\n")); 496 1.1 takemura apm_resume(sc, event_code, event_info); 497 1.1 takemura break; 498 1.1 takemura 499 1.1 takemura case APM_UPDATE_TIME: 500 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: update time\n")); 501 1.1 takemura apm_resume(sc, event_code, event_info); 502 1.1 takemura break; 503 1.1 takemura 504 1.1 takemura case APM_CRIT_SUSPEND_REQ: 505 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: critical system suspend\n")); 506 1.1 takemura apm_record_event(sc, event_code); 507 1.1 takemura apm_suspend(sc); 508 1.1 takemura break; 509 1.1 takemura 510 1.1 takemura case APM_BATTERY_LOW: 511 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: battery low\n")); 512 1.1 takemura apm_battlow++; 513 1.1 takemura apm_record_event(sc, event_code); 514 1.1 takemura break; 515 1.1 takemura 516 1.1 takemura case APM_CAP_CHANGE: 517 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apmev: capability change\n")); 518 1.1 takemura if (apm_minver < 2) { 519 1.1 takemura DPRINTF(APMDEBUG_EVENTS, ("apm: unexpected event\n")); 520 1.1 takemura } else { 521 1.1 takemura u_int numbatts, capflags; 522 1.3 christos (*sc->sc_ops->aa_get_capabilities)(sc->sc_cookie, 523 1.3 christos &numbatts, &capflags); 524 1.3 christos (*sc->sc_ops->aa_get_powstat)(sc->sc_cookie, 0, &pi); 525 1.1 takemura } 526 1.1 takemura break; 527 1.1 takemura 528 1.1 takemura default: 529 1.1 takemura switch (event_code >> 8) { 530 1.1 takemura case 0: 531 1.1 takemura code = "reserved system"; 532 1.1 takemura break; 533 1.1 takemura case 1: 534 1.1 takemura code = "reserved device"; 535 1.1 takemura break; 536 1.1 takemura case 2: 537 1.1 takemura code = "OEM defined"; 538 1.1 takemura break; 539 1.1 takemura default: 540 1.1 takemura code = "reserved"; 541 1.1 takemura break; 542 1.3 christos } 543 1.1 takemura printf("APM: %s event code %x\n", code, event_code); 544 1.1 takemura } 545 1.1 takemura } 546 1.1 takemura 547 1.1 takemura static void 548 1.3 christos apm_periodic_check(struct apm_softc *sc) 549 1.1 takemura { 550 1.1 takemura int error; 551 1.1 takemura u_int event_code, event_info; 552 1.3 christos 553 1.1 takemura 554 1.1 takemura /* 555 1.1 takemura * tell the BIOS we're working on it, if asked to do a 556 1.1 takemura * suspend/standby 557 1.1 takemura */ 558 1.1 takemura if (apm_op_inprog) 559 1.3 christos (*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, APM_DEV_ALLDEVS, 560 1.3 christos APM_LASTREQ_INPROG); 561 1.1 takemura 562 1.3 christos while ((error = (*sc->sc_ops->aa_get_event)(sc->sc_cookie, &event_code, 563 1.3 christos &event_info)) == 0 && !apm_damn_fool_bios) 564 1.1 takemura apm_event_handle(sc, event_code, event_info); 565 1.1 takemura 566 1.1 takemura if (error != APM_ERR_NOEVENTS) 567 1.1 takemura apm_perror("get event", error); 568 1.1 takemura if (apm_suspends) { 569 1.1 takemura apm_op_inprog = 0; 570 1.1 takemura apm_suspend(sc); 571 1.1 takemura } else if (apm_standbys || apm_userstandbys) { 572 1.1 takemura apm_op_inprog = 0; 573 1.1 takemura apm_standby(sc); 574 1.1 takemura } 575 1.1 takemura apm_suspends = apm_standbys = apm_battlow = apm_userstandbys = 0; 576 1.1 takemura apm_damn_fool_bios = 0; 577 1.1 takemura } 578 1.1 takemura 579 1.1 takemura static void 580 1.3 christos apm_set_ver(struct apm_softc *sc) 581 1.1 takemura { 582 1.1 takemura 583 1.1 takemura if (apm_v12_enabled && 584 1.3 christos APM_MAJOR_VERS(sc->sc_vers) == 1 && 585 1.3 christos APM_MINOR_VERS(sc->sc_vers) == 2) { 586 1.1 takemura apm_majver = 1; 587 1.1 takemura apm_minver = 2; 588 1.1 takemura goto ok; 589 1.1 takemura } 590 1.1 takemura 591 1.1 takemura if (apm_v11_enabled && 592 1.3 christos APM_MAJOR_VERS(sc->sc_vers) == 1 && 593 1.3 christos APM_MINOR_VERS(sc->sc_vers) == 1) { 594 1.1 takemura apm_majver = 1; 595 1.1 takemura apm_minver = 1; 596 1.1 takemura } else { 597 1.1 takemura apm_majver = 1; 598 1.1 takemura apm_minver = 0; 599 1.1 takemura } 600 1.1 takemura ok: 601 1.9 uwe aprint_normal("Power Management spec V%d.%d", apm_majver, apm_minver); 602 1.1 takemura apm_inited = 1; 603 1.3 christos if (sc->sc_detail & APM_IDLE_SLOWS) { 604 1.1 takemura #ifdef DIAGNOSTIC 605 1.1 takemura /* not relevant often */ 606 1.9 uwe aprint_normal(" (slowidle)"); 607 1.1 takemura #endif 608 1.1 takemura /* leave apm_do_idle at its user-configured setting */ 609 1.1 takemura } else 610 1.1 takemura apm_do_idle = 0; 611 1.1 takemura #ifdef DIAGNOSTIC 612 1.3 christos if (sc->sc_detail & APM_BIOS_PM_DISABLED) 613 1.9 uwe aprint_normal(" (BIOS mgmt disabled)"); 614 1.3 christos if (sc->sc_detail & APM_BIOS_PM_DISENGAGED) 615 1.9 uwe aprint_normal(" (BIOS managing devices)"); 616 1.1 takemura #endif 617 1.1 takemura } 618 1.1 takemura 619 1.3 christos int 620 1.3 christos apm_match(void) 621 1.1 takemura { 622 1.3 christos static int got; 623 1.3 christos return !got++; 624 1.1 takemura } 625 1.1 takemura 626 1.3 christos void 627 1.3 christos apm_attach(struct apm_softc *sc) 628 1.1 takemura { 629 1.1 takemura u_int numbatts, capflags; 630 1.1 takemura 631 1.9 uwe aprint_normal(": "); 632 1.1 takemura 633 1.3 christos switch ((APM_MAJOR_VERS(sc->sc_vers) << 8) + APM_MINOR_VERS(sc->sc_vers)) { 634 1.1 takemura case 0x0100: 635 1.1 takemura apm_v11_enabled = 0; 636 1.1 takemura apm_v12_enabled = 0; 637 1.1 takemura break; 638 1.1 takemura case 0x0101: 639 1.1 takemura apm_v12_enabled = 0; 640 1.1 takemura /* fall through */ 641 1.1 takemura case 0x0102: 642 1.1 takemura default: 643 1.1 takemura break; 644 1.1 takemura } 645 1.1 takemura 646 1.3 christos apm_set_ver(sc); /* prints version info */ 647 1.9 uwe aprint_normal("\n"); 648 1.1 takemura if (apm_minver >= 2) 649 1.3 christos (*sc->sc_ops->aa_get_capabilities)(sc->sc_cookie, &numbatts, 650 1.3 christos &capflags); 651 1.1 takemura 652 1.1 takemura /* 653 1.1 takemura * enable power management 654 1.1 takemura */ 655 1.3 christos (*sc->sc_ops->aa_enable)(sc->sc_cookie, 1); 656 1.1 takemura 657 1.3 christos if (sc->sc_ops->aa_cpu_busy) 658 1.3 christos (*sc->sc_ops->aa_cpu_busy)(sc->sc_cookie); 659 1.1 takemura 660 1.14 ad mutex_init(&sc->sc_lock, MUTEX_DEFAULT, IPL_NONE); 661 1.1 takemura 662 1.1 takemura /* Initial state is `resumed'. */ 663 1.1 takemura sc->sc_power_state = PWR_RESUME; 664 1.18 rmind selinit(&sc->sc_rsel); 665 1.18 rmind selinit(&sc->sc_xsel); 666 1.1 takemura 667 1.1 takemura /* Do an initial check. */ 668 1.1 takemura apm_periodic_check(sc); 669 1.1 takemura 670 1.1 takemura /* 671 1.1 takemura * Create a kernel thread to periodically check for APM events, 672 1.1 takemura * and notify other subsystems when they occur. 673 1.1 takemura */ 674 1.11 ad if (kthread_create(PRI_NONE, 0, NULL, apm_thread, sc, 675 1.19 cube &sc->sc_thread, "%s", device_xname(sc->sc_dev)) != 0) { 676 1.11 ad /* 677 1.11 ad * We were unable to create the APM thread; bail out. 678 1.11 ad */ 679 1.11 ad if (sc->sc_ops->aa_disconnect) 680 1.11 ad (*sc->sc_ops->aa_disconnect)(sc->sc_cookie); 681 1.19 cube aprint_error_dev(sc->sc_dev, "unable to create thread, " 682 1.19 cube "kernel APM support disabled\n"); 683 1.11 ad } 684 1.16 jmcneill 685 1.19 cube if (!pmf_device_register(sc->sc_dev, NULL, NULL)) 686 1.19 cube aprint_error_dev(sc->sc_dev, "couldn't establish power handler\n"); 687 1.1 takemura } 688 1.1 takemura 689 1.1 takemura void 690 1.3 christos apm_thread(void *arg) 691 1.1 takemura { 692 1.1 takemura struct apm_softc *apmsc = arg; 693 1.1 takemura 694 1.1 takemura /* 695 1.1 takemura * Loop forever, doing a periodic check for APM events. 696 1.1 takemura */ 697 1.1 takemura for (;;) { 698 1.1 takemura APM_LOCK(apmsc); 699 1.1 takemura apm_periodic_check(apmsc); 700 1.1 takemura APM_UNLOCK(apmsc); 701 1.1 takemura (void) tsleep(apmsc, PWAIT, "apmev", (8 * hz) / 7); 702 1.1 takemura } 703 1.1 takemura } 704 1.1 takemura 705 1.1 takemura int 706 1.8 christos apmopen(dev_t dev, int flag, int mode, struct lwp *l) 707 1.1 takemura { 708 1.3 christos int ctl = APM(dev); 709 1.1 takemura int error = 0; 710 1.1 takemura struct apm_softc *sc; 711 1.1 takemura 712 1.22 cegger sc = device_lookup_private(&apm_cd, APMUNIT(dev)); 713 1.1 takemura if (!sc) 714 1.1 takemura return ENXIO; 715 1.1 takemura 716 1.1 takemura if (!apm_inited) 717 1.1 takemura return ENXIO; 718 1.3 christos 719 1.1 takemura DPRINTF(APMDEBUG_DEVICE, 720 1.3 christos ("apmopen: pid %d flag %x mode %x\n", l->l_proc->p_pid, flag, mode)); 721 1.1 takemura 722 1.1 takemura APM_LOCK(sc); 723 1.1 takemura switch (ctl) { 724 1.3 christos case APM_CTL: 725 1.1 takemura if (!(flag & FWRITE)) { 726 1.1 takemura error = EINVAL; 727 1.1 takemura break; 728 1.1 takemura } 729 1.1 takemura if (sc->sc_flags & SCFLAG_OWRITE) { 730 1.1 takemura error = EBUSY; 731 1.1 takemura break; 732 1.1 takemura } 733 1.1 takemura sc->sc_flags |= SCFLAG_OWRITE; 734 1.1 takemura break; 735 1.3 christos case APM_NORMAL: 736 1.1 takemura if (!(flag & FREAD) || (flag & FWRITE)) { 737 1.1 takemura error = EINVAL; 738 1.1 takemura break; 739 1.1 takemura } 740 1.1 takemura sc->sc_flags |= SCFLAG_OREAD; 741 1.1 takemura break; 742 1.1 takemura default: 743 1.1 takemura error = ENXIO; 744 1.1 takemura break; 745 1.1 takemura } 746 1.1 takemura APM_UNLOCK(sc); 747 1.1 takemura 748 1.1 takemura return (error); 749 1.1 takemura } 750 1.1 takemura 751 1.1 takemura int 752 1.8 christos apmclose(dev_t dev, int flag, int mode, 753 1.8 christos struct lwp *l) 754 1.1 takemura { 755 1.22 cegger struct apm_softc *sc = device_lookup_private(&apm_cd, APMUNIT(dev)); 756 1.3 christos int ctl = APM(dev); 757 1.1 takemura 758 1.1 takemura DPRINTF(APMDEBUG_DEVICE, 759 1.3 christos ("apmclose: pid %d flag %x mode %x\n", l->l_proc->p_pid, flag, mode)); 760 1.1 takemura 761 1.1 takemura APM_LOCK(sc); 762 1.1 takemura switch (ctl) { 763 1.3 christos case APM_CTL: 764 1.1 takemura sc->sc_flags &= ~SCFLAG_OWRITE; 765 1.1 takemura break; 766 1.3 christos case APM_NORMAL: 767 1.1 takemura sc->sc_flags &= ~SCFLAG_OREAD; 768 1.1 takemura break; 769 1.1 takemura } 770 1.1 takemura if ((sc->sc_flags & SCFLAG_OPEN) == 0) { 771 1.3 christos sc->sc_event_count = 0; 772 1.3 christos sc->sc_event_ptr = 0; 773 1.1 takemura } 774 1.1 takemura APM_UNLOCK(sc); 775 1.1 takemura return 0; 776 1.1 takemura } 777 1.1 takemura 778 1.1 takemura int 779 1.10 christos apmioctl(dev_t dev, u_long cmd, void *data, int flag, 780 1.8 christos struct lwp *l) 781 1.1 takemura { 782 1.22 cegger struct apm_softc *sc = device_lookup_private(&apm_cd, APMUNIT(dev)); 783 1.1 takemura struct apm_power_info *powerp; 784 1.1 takemura struct apm_event_info *evp; 785 1.1 takemura #if 0 786 1.1 takemura struct apm_ctl *actl; 787 1.1 takemura #endif 788 1.1 takemura int i, error = 0; 789 1.3 christos int batt_flags; 790 1.3 christos struct apm_ctl *actl; 791 1.1 takemura 792 1.1 takemura APM_LOCK(sc); 793 1.1 takemura switch (cmd) { 794 1.1 takemura case APM_IOC_STANDBY: 795 1.1 takemura if (!apm_do_standby) { 796 1.1 takemura error = EOPNOTSUPP; 797 1.1 takemura break; 798 1.1 takemura } 799 1.1 takemura 800 1.1 takemura if ((flag & FWRITE) == 0) { 801 1.1 takemura error = EBADF; 802 1.1 takemura break; 803 1.1 takemura } 804 1.1 takemura apm_userstandbys++; 805 1.1 takemura break; 806 1.1 takemura 807 1.3 christos case APM_IOC_DEV_CTL: 808 1.3 christos actl = (struct apm_ctl *)data; 809 1.3 christos if ((flag & FWRITE) == 0) { 810 1.3 christos error = EBADF; 811 1.3 christos break; 812 1.3 christos } 813 1.3 christos #if 0 814 1.3 christos apm_get_powstate(actl->dev); /* XXX */ 815 1.3 christos #endif 816 1.3 christos error = (*sc->sc_ops->aa_set_powstate)(sc->sc_cookie, actl->dev, 817 1.3 christos actl->mode); 818 1.3 christos apm_suspends++; 819 1.3 christos break; 820 1.3 christos 821 1.1 takemura case APM_IOC_SUSPEND: 822 1.1 takemura if ((flag & FWRITE) == 0) { 823 1.1 takemura error = EBADF; 824 1.1 takemura break; 825 1.1 takemura } 826 1.1 takemura apm_suspends++; 827 1.1 takemura break; 828 1.1 takemura 829 1.1 takemura case APM_IOC_NEXTEVENT: 830 1.3 christos if (!sc->sc_event_count) 831 1.1 takemura error = EAGAIN; 832 1.1 takemura else { 833 1.1 takemura evp = (struct apm_event_info *)data; 834 1.3 christos i = sc->sc_event_ptr + APM_NEVENTS - sc->sc_event_count; 835 1.1 takemura i %= APM_NEVENTS; 836 1.3 christos *evp = sc->sc_event_list[i]; 837 1.3 christos sc->sc_event_count--; 838 1.1 takemura } 839 1.1 takemura break; 840 1.1 takemura 841 1.1 takemura case APM_IOC_GETPOWER: 842 1.1 takemura powerp = (struct apm_power_info *)data; 843 1.3 christos if ((error = (*sc->sc_ops->aa_get_powstat)(sc->sc_cookie, 0, 844 1.3 christos powerp)) != 0) { 845 1.1 takemura apm_perror("ioctl get power status", error); 846 1.1 takemura error = EIO; 847 1.3 christos break; 848 1.3 christos } 849 1.3 christos switch (apm_minver) { 850 1.3 christos case 0: 851 1.3 christos break; 852 1.3 christos case 1: 853 1.3 christos default: 854 1.3 christos batt_flags = powerp->battery_flags; 855 1.3 christos powerp->battery_state = APM_BATT_UNKNOWN; 856 1.3 christos if (batt_flags & APM_BATT_FLAG_HIGH) 857 1.3 christos powerp->battery_state = APM_BATT_HIGH; 858 1.3 christos else if (batt_flags & APM_BATT_FLAG_LOW) 859 1.3 christos powerp->battery_state = APM_BATT_LOW; 860 1.3 christos else if (batt_flags & APM_BATT_FLAG_CRITICAL) 861 1.3 christos powerp->battery_state = APM_BATT_CRITICAL; 862 1.3 christos else if (batt_flags & APM_BATT_FLAG_CHARGING) 863 1.3 christos powerp->battery_state = APM_BATT_CHARGING; 864 1.3 christos else if (batt_flags & APM_BATT_FLAG_NO_SYSTEM_BATTERY) 865 1.3 christos powerp->battery_state = APM_BATT_ABSENT; 866 1.3 christos break; 867 1.1 takemura } 868 1.1 takemura break; 869 1.3 christos 870 1.1 takemura default: 871 1.1 takemura error = ENOTTY; 872 1.1 takemura } 873 1.1 takemura APM_UNLOCK(sc); 874 1.1 takemura 875 1.1 takemura return (error); 876 1.1 takemura } 877 1.1 takemura 878 1.1 takemura int 879 1.3 christos apmpoll(dev_t dev, int events, struct lwp *l) 880 1.1 takemura { 881 1.22 cegger struct apm_softc *sc = device_lookup_private(&apm_cd, APMUNIT(dev)); 882 1.1 takemura int revents = 0; 883 1.1 takemura 884 1.1 takemura APM_LOCK(sc); 885 1.1 takemura if (events & (POLLIN | POLLRDNORM)) { 886 1.3 christos if (sc->sc_event_count) 887 1.1 takemura revents |= events & (POLLIN | POLLRDNORM); 888 1.1 takemura else 889 1.3 christos selrecord(l, &sc->sc_rsel); 890 1.1 takemura } 891 1.1 takemura APM_UNLOCK(sc); 892 1.1 takemura 893 1.1 takemura return (revents); 894 1.1 takemura } 895 1.3 christos 896 1.3 christos static void 897 1.3 christos filt_apmrdetach(struct knote *kn) 898 1.3 christos { 899 1.3 christos struct apm_softc *sc = kn->kn_hook; 900 1.3 christos 901 1.3 christos APM_LOCK(sc); 902 1.3 christos SLIST_REMOVE(&sc->sc_rsel.sel_klist, kn, knote, kn_selnext); 903 1.3 christos APM_UNLOCK(sc); 904 1.3 christos } 905 1.3 christos 906 1.3 christos static int 907 1.8 christos filt_apmread(struct knote *kn, long hint) 908 1.3 christos { 909 1.3 christos struct apm_softc *sc = kn->kn_hook; 910 1.3 christos 911 1.3 christos kn->kn_data = sc->sc_event_count; 912 1.3 christos return (kn->kn_data > 0); 913 1.3 christos } 914 1.3 christos 915 1.3 christos static const struct filterops apmread_filtops = 916 1.3 christos { 1, NULL, filt_apmrdetach, filt_apmread }; 917 1.3 christos 918 1.3 christos int 919 1.3 christos apmkqfilter(dev_t dev, struct knote *kn) 920 1.3 christos { 921 1.22 cegger struct apm_softc *sc = device_lookup_private(&apm_cd, APMUNIT(dev)); 922 1.3 christos struct klist *klist; 923 1.3 christos 924 1.3 christos switch (kn->kn_filter) { 925 1.3 christos case EVFILT_READ: 926 1.3 christos klist = &sc->sc_rsel.sel_klist; 927 1.3 christos kn->kn_fop = &apmread_filtops; 928 1.3 christos break; 929 1.3 christos 930 1.3 christos default: 931 1.15 pooka return (EINVAL); 932 1.3 christos } 933 1.3 christos 934 1.3 christos kn->kn_hook = sc; 935 1.3 christos 936 1.3 christos APM_LOCK(sc); 937 1.3 christos SLIST_INSERT_HEAD(klist, kn, kn_selnext); 938 1.3 christos APM_UNLOCK(sc); 939 1.3 christos 940 1.3 christos return (0); 941 1.3 christos } 942
Indexes created Tue Oct 07 21:09:53 GMT 2025