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/*- * APM (Advanced Power Management) BIOS Device Driver * * Copyright (c) 1994 UKAI, Fumitoshi. * Copyright (c) 1994-1995 by HOSOKAWA, Tatsumi <hosokawa@jp.FreeBSD.org> * Copyright (c) 1996 Nate Williams <nate@FreeBSD.org> * Copyright (c) 1997 Poul-Henning Kamp <phk@FreeBSD.org> * * This software may be used, modified, copied, and distributed, in * both source and binary form provided that the above copyright and * these terms are retained. Under no circumstances is the author * responsible for the proper functioning of this software, nor does * the author assume any responsibility for damages incurred with its * use. * * Sep, 1994 Implemented on FreeBSD 1.1.5.1R (Toshiba AVS001WD) */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/i386/bios/apm.c 220844 2011-04-19 16:30:17Z jkim $"); #include <sys/param.h> #include <sys/systm.h> #include <sys/bus.h> #include <sys/conf.h> #include <sys/condvar.h> #include <sys/eventhandler.h> #include <sys/fcntl.h> #include <sys/kernel.h> #include <sys/kthread.h> #include <sys/lock.h> #include <sys/module.h> #include <sys/mutex.h> #include <sys/poll.h> #include <sys/power.h> #include <sys/reboot.h> #include <sys/selinfo.h> #include <sys/signalvar.h> #include <sys/sysctl.h> #include <sys/syslog.h> #include <sys/time.h> #include <sys/uio.h> #include <machine/apm_bios.h> #include <machine/clock.h> #include <machine/endian.h> #include <machine/pc/bios.h> #include <machine/cpufunc.h> #include <machine/segments.h> #include <machine/stdarg.h> #include <machine/vm86.h> #include <machine/bus.h> #include <machine/resource.h> #include <sys/rman.h> #include <vm/vm.h> #include <vm/pmap.h> #include <vm/vm_param.h> #include <i386/bios/apm.h> #include <isa/rtc.h> /* Used by the apm_saver screen saver module */ int apm_display(int newstate); struct apm_softc apm_softc; static void apm_resume(void); static int apm_bioscall(void); static int apm_check_function_supported(u_int version, u_int func); static int apm_pm_func(u_long, void*, ...); static u_long apm_version; int apm_evindex; #define SCFLAG_ONORMAL 0x0000001 #define SCFLAG_OCTL 0x0000002 #define SCFLAG_OPEN (SCFLAG_ONORMAL|SCFLAG_OCTL) #define APMDEV_NORMAL 0 #define APMDEV_CTL 1 #ifdef PC98 extern int bios32_apm98(struct bios_regs *, u_int, u_short); /* PC98's SMM definition */ #define APM_NECSMM_PORT 0x6b8e #define APM_NECSMM_PORTSZ 1 #define APM_NECSMM_EN 0x10 static __inline void apm_enable_smm(struct apm_softc *); static __inline void apm_disable_smm(struct apm_softc *); int apm_necsmm_addr; u_int32_t apm_necsmm_mask; #endif static struct apmhook *hook[NAPM_HOOK]; /* XXX */ #define is_enabled(foo) ((foo) ? "enabled" : "disabled") /* Map version number to integer (keeps ordering of version numbers) */ #define INTVERSION(major, minor) ((major)*100 + (minor)) static d_open_t apmopen; static d_close_t apmclose; static d_write_t apmwrite; static d_ioctl_t apmioctl; static d_poll_t apmpoll; static struct cdevsw apm_cdevsw = { .d_version = D_VERSION, .d_flags = D_NEEDGIANT, .d_open = apmopen, .d_close = apmclose, .d_write = apmwrite, .d_ioctl = apmioctl, .d_poll = apmpoll, .d_name = "apm", }; static int apm_suspend_delay = 1; static int apm_standby_delay = 1; static int apm_swab_batt_minutes = 0; static int apm_debug = 0; #define APM_DPRINT(args...) do { \ if (apm_debug) { \ printf(args); \ } \ } while (0) SYSCTL_INT(_machdep, OID_AUTO, apm_suspend_delay, CTLFLAG_RW, &apm_suspend_delay, 1, ""); SYSCTL_INT(_machdep, OID_AUTO, apm_standby_delay, CTLFLAG_RW, &apm_standby_delay, 1, ""); SYSCTL_INT(_debug, OID_AUTO, apm_debug, CTLFLAG_RW, &apm_debug, 0, ""); TUNABLE_INT("machdep.apm_swab_batt_minutes", &apm_swab_batt_minutes); SYSCTL_INT(_machdep, OID_AUTO, apm_swab_batt_minutes, CTLFLAG_RW, &apm_swab_batt_minutes, 0, "Byte swap battery time value."); #ifdef PC98 static __inline void apm_enable_smm(sc) struct apm_softc *sc; { bus_space_tag_t iot = sc->sc_iot; bus_space_handle_t ioh = sc->sc_ioh; if (apm_necsmm_addr != 0) bus_space_write_1(iot, ioh, 0, (bus_space_read_1(iot, ioh, 0) | ~apm_necsmm_mask)); } static __inline void apm_disable_smm(sc) struct apm_softc *sc; { bus_space_tag_t iot = sc->sc_iot; bus_space_handle_t ioh = sc->sc_ioh; if (apm_necsmm_addr != 0) bus_space_write_1(iot, ioh, 0, (bus_space_read_1(iot, ioh, 0) & apm_necsmm_mask)); } #endif /* * return 0 if the function successfull, * return 1 if the function unsuccessfull, * return -1 if the function unsupported. */ static int apm_bioscall(void) { struct apm_softc *sc = &apm_softc; int errno = 0; u_int apm_func = sc->bios.r.eax & 0xff; if (!apm_check_function_supported(sc->intversion, apm_func)) { APM_DPRINT("apm_bioscall: function 0x%x is not supported in v%d.%d\n", apm_func, sc->majorversion, sc->minorversion); return (-1); } sc->bios_busy = 1; #ifdef PC98 set_bios_selectors(&sc->bios.seg, BIOSCODE_FLAG | BIOSDATA_FLAG); if (bios32_apm98(&sc->bios.r, sc->bios.entry, GSEL(GBIOSCODE32_SEL, SEL_KPL)) != 0) return 1; #else if (sc->connectmode == APM_PROT32CONNECT) { set_bios_selectors(&sc->bios.seg, BIOSCODE_FLAG | BIOSDATA_FLAG); errno = bios32(&sc->bios.r, sc->bios.entry, GSEL(GBIOSCODE32_SEL, SEL_KPL)); } else { errno = bios16(&sc->bios, NULL); } #endif sc->bios_busy = 0; return (errno); } /* check whether APM function is supported (1) or not (0). */ static int apm_check_function_supported(u_int version, u_int func) { /* except driver version */ if (func == APM_DRVVERSION) { return (1); } #ifdef PC98 if (func == APM_GETPWSTATUS) { return (1); } #endif switch (version) { case INTVERSION(1, 0): if (func > APM_GETPMEVENT) { return (0); /* not supported */ } break; case INTVERSION(1, 1): if (func > APM_ENGAGEDISENGAGEPM && func < APM_OEMFUNC) { return (0); /* not supported */ } break; case INTVERSION(1, 2): break; } return (1); /* supported */ } /* enable/disable power management */ static int apm_enable_disable_pm(int enable) { struct apm_softc *sc = &apm_softc; sc->bios.r.eax = (APM_BIOS << 8) | APM_ENABLEDISABLEPM; if (sc->intversion >= INTVERSION(1, 1)) sc->bios.r.ebx = PMDV_ALLDEV; else sc->bios.r.ebx = 0xffff; /* APM version 1.0 only */ sc->bios.r.ecx = enable; sc->bios.r.edx = 0; return (apm_bioscall()); } /* register driver version (APM 1.1 or later) */ static int apm_driver_version(int version) { struct apm_softc *sc = &apm_softc; sc->bios.r.eax = (APM_BIOS << 8) | APM_DRVVERSION; sc->bios.r.ebx = 0x0; sc->bios.r.ecx = version; sc->bios.r.edx = 0; if (apm_bioscall() == 0 && sc->bios.r.eax == version) return (0); /* Some old BIOSes don't return the connection version in %ax. */ if (sc->bios.r.eax == ((APM_BIOS << 8) | APM_DRVVERSION)) return (0); return (1); } /* engage/disengage power management (APM 1.1 or later) */ static int apm_engage_disengage_pm(int engage) { struct apm_softc *sc = &apm_softc; sc->bios.r.eax = (APM_BIOS << 8) | APM_ENGAGEDISENGAGEPM; sc->bios.r.ebx = PMDV_ALLDEV; sc->bios.r.ecx = engage; sc->bios.r.edx = 0; return (apm_bioscall()); } /* get PM event */ static u_int apm_getevent(void) { struct apm_softc *sc = &apm_softc; sc->bios.r.eax = (APM_BIOS << 8) | APM_GETPMEVENT; sc->bios.r.ebx = 0; sc->bios.r.ecx = 0; sc->bios.r.edx = 0; if (apm_bioscall()) return (PMEV_NOEVENT); return (sc->bios.r.ebx & 0xffff); } /* suspend entire system */ static int apm_suspend_system(int state) { struct apm_softc *sc = &apm_softc; sc->bios.r.eax = (APM_BIOS << 8) | APM_SETPWSTATE; sc->bios.r.ebx = PMDV_ALLDEV; sc->bios.r.ecx = state; sc->bios.r.edx = 0; #ifdef PC98 apm_disable_smm(sc); #endif if (apm_bioscall()) { printf("Entire system suspend failure: errcode = %d\n", 0xff & (sc->bios.r.eax >> 8)); return 1; } #ifdef PC98 apm_enable_smm(sc); #endif return 0; } /* Display control */ /* * Experimental implementation: My laptop machine can't handle this function * If your laptop can control the display via APM, please inform me. * HOSOKAWA, Tatsumi <hosokawa@jp.FreeBSD.org> */ int apm_display(int newstate) { struct apm_softc *sc = &apm_softc; sc->bios.r.eax = (APM_BIOS << 8) | APM_SETPWSTATE; sc->bios.r.ebx = PMDV_DISP0; sc->bios.r.ecx = newstate ? PMST_APMENABLED:PMST_SUSPEND; sc->bios.r.edx = 0; if (apm_bioscall() == 0) { return 0; } /* If failed, then try to blank all display devices instead. */ sc->bios.r.eax = (APM_BIOS << 8) | APM_SETPWSTATE; sc->bios.r.ebx = PMDV_DISPALL; /* all display devices */ sc->bios.r.ecx = newstate ? PMST_APMENABLED:PMST_SUSPEND; sc->bios.r.edx = 0; if (apm_bioscall() == 0) { return 0; } printf("Display off failure: errcode = %d\n", 0xff & (sc->bios.r.eax >> 8)); return 1; } /* * Turn off the entire system. */ static void apm_power_off(void *junk, int howto) { struct apm_softc *sc = &apm_softc; /* Not halting powering off, or not active */ if (!(howto & RB_POWEROFF) || !apm_softc.active) return; sc->bios.r.eax = (APM_BIOS << 8) | APM_SETPWSTATE; sc->bios.r.ebx = PMDV_ALLDEV; sc->bios.r.ecx = PMST_OFF; sc->bios.r.edx = 0; (void) apm_bioscall(); } /* APM Battery low handler */ static void apm_battery_low(void) { printf("\007\007 * * * BATTERY IS LOW * * * \007\007"); } /* APM hook manager */ static struct apmhook * apm_add_hook(struct apmhook **list, struct apmhook *ah) { int s; struct apmhook *p, *prev; APM_DPRINT("Add hook \"%s\"\n", ah->ah_name); s = splhigh(); if (ah == NULL) panic("illegal apm_hook!"); prev = NULL; for (p = *list; p != NULL; prev = p, p = p->ah_next) if (p->ah_order > ah->ah_order) break; if (prev == NULL) { ah->ah_next = *list; *list = ah; } else { ah->ah_next = prev->ah_next; prev->ah_next = ah; } splx(s); return ah; } static void apm_del_hook(struct apmhook **list, struct apmhook *ah) { int s; struct apmhook *p, *prev; s = splhigh(); prev = NULL; for (p = *list; p != NULL; prev = p, p = p->ah_next) if (p == ah) goto deleteit; panic("Tried to delete unregistered apm_hook."); goto nosuchnode; deleteit: if (prev != NULL) prev->ah_next = p->ah_next; else *list = p->ah_next; nosuchnode: splx(s); } /* APM driver calls some functions automatically */ static void apm_execute_hook(struct apmhook *list) { struct apmhook *p; for (p = list; p != NULL; p = p->ah_next) { APM_DPRINT("Execute APM hook \"%s.\"\n", p->ah_name); if ((*(p->ah_fun))(p->ah_arg)) printf("Warning: APM hook \"%s\" failed", p->ah_name); } } /* establish an apm hook */ struct apmhook * apm_hook_establish(int apmh, struct apmhook *ah) { if (apmh < 0 || apmh >= NAPM_HOOK) return NULL; return apm_add_hook(&hook[apmh], ah); } /* disestablish an apm hook */ void apm_hook_disestablish(int apmh, struct apmhook *ah) { if (apmh < 0 || apmh >= NAPM_HOOK) return; apm_del_hook(&hook[apmh], ah); } static int apm_record_event(struct apm_softc *, u_int); static void apm_processevent(void); static u_int apm_op_inprog = 0; static void apm_do_suspend(void) { struct apm_softc *sc = &apm_softc; int error; if (sc == NULL || sc->initialized == 0) return; apm_op_inprog = 0; sc->suspends = sc->suspend_countdown = 0; EVENTHANDLER_INVOKE(power_suspend); /* * Be sure to hold Giant across DEVICE_SUSPEND/RESUME since * non-MPSAFE drivers need this. */ mtx_lock(&Giant); error = DEVICE_SUSPEND(root_bus); if (error) goto backout; apm_execute_hook(hook[APM_HOOK_SUSPEND]); if (apm_suspend_system(PMST_SUSPEND) == 0) { sc->suspending = 1; apm_processevent(); mtx_unlock(&Giant); return; } /* Failure, 'resume' the system again */ apm_execute_hook(hook[APM_HOOK_RESUME]); DEVICE_RESUME(root_bus); backout: mtx_unlock(&Giant); EVENTHANDLER_INVOKE(power_resume); } static void apm_do_standby(void) { struct apm_softc *sc = &apm_softc; if (sc == NULL || sc->initialized == 0) return; apm_op_inprog = 0; sc->standbys = sc->standby_countdown = 0; /* * As far as standby, we don't need to execute * all of suspend hooks. */ if (apm_suspend_system(PMST_STANDBY) == 0) apm_processevent(); return; } static void apm_lastreq_notify(void) { struct apm_softc *sc = &apm_softc; sc->bios.r.eax = (APM_BIOS << 8) | APM_SETPWSTATE; sc->bios.r.ebx = PMDV_ALLDEV; sc->bios.r.ecx = PMST_LASTREQNOTIFY; sc->bios.r.edx = 0; apm_bioscall(); } static int apm_lastreq_rejected(void) { struct apm_softc *sc = &apm_softc; if (apm_op_inprog == 0) { return 1; /* no operation in progress */ } sc->bios.r.eax = (APM_BIOS << 8) | APM_SETPWSTATE; sc->bios.r.ebx = PMDV_ALLDEV; sc->bios.r.ecx = PMST_LASTREQREJECT; sc->bios.r.edx = 0; if (apm_bioscall()) { APM_DPRINT("apm_lastreq_rejected: failed\n"); return 1; } apm_op_inprog = 0; return 0; } /* * Public interface to the suspend/resume: * * Execute suspend and resume hook before and after sleep, respectively. * */ void apm_suspend(int state) { struct apm_softc *sc = &apm_softc; if (sc == NULL || sc->initialized == 0) return; switch (state) { case PMST_SUSPEND: if (sc->suspends) return; sc->suspends++; sc->suspend_countdown = apm_suspend_delay; break; case PMST_STANDBY: if (sc->standbys) return; sc->standbys++; sc->standby_countdown = apm_standby_delay; break; default: printf("apm_suspend: Unknown Suspend state 0x%x\n", state); return; } apm_op_inprog++; apm_lastreq_notify(); } static void apm_resume(void) { struct apm_softc *sc = &apm_softc; if (sc == NULL || sc->initialized == 0 || sc->suspending == 0) return; sc->suspending = 0; apm_execute_hook(hook[APM_HOOK_RESUME]); mtx_lock(&Giant); DEVICE_RESUME(root_bus); mtx_unlock(&Giant); EVENTHANDLER_INVOKE(power_resume); } /* get power status per battery */ static int apm_get_pwstatus(apm_pwstatus_t app) { struct apm_softc *sc = &apm_softc; if (app->ap_device != PMDV_ALLDEV && (app->ap_device < PMDV_BATT0 || app->ap_device > PMDV_BATT_ALL)) return 1; sc->bios.r.eax = (APM_BIOS << 8) | APM_GETPWSTATUS; sc->bios.r.ebx = app->ap_device; sc->bios.r.ecx = 0; sc->bios.r.edx = 0xffff; /* default to unknown battery time */ if (apm_bioscall()) return 1; app->ap_acline = (sc->bios.r.ebx >> 8) & 0xff; app->ap_batt_stat = sc->bios.r.ebx & 0xff; app->ap_batt_flag = (sc->bios.r.ecx >> 8) & 0xff; app->ap_batt_life = sc->bios.r.ecx & 0xff; sc->bios.r.edx &= 0xffff; if (apm_swab_batt_minutes) sc->bios.r.edx = __bswap16(sc->bios.r.edx) | 0x8000; if (sc->bios.r.edx == 0xffff) /* Time is unknown */ app->ap_batt_time = -1; else if (sc->bios.r.edx & 0x8000) /* Time is in minutes */ app->ap_batt_time = (sc->bios.r.edx & 0x7fff) * 60; else /* Time is in seconds */ app->ap_batt_time = sc->bios.r.edx; return 0; } /* get APM information */ static int apm_get_info(apm_info_t aip) { struct apm_softc *sc = &apm_softc; struct apm_pwstatus aps; bzero(&aps, sizeof(aps)); aps.ap_device = PMDV_ALLDEV; if (apm_get_pwstatus(&aps)) return 1; aip->ai_infoversion = 1; aip->ai_acline = aps.ap_acline; aip->ai_batt_stat = aps.ap_batt_stat; aip->ai_batt_life = aps.ap_batt_life; aip->ai_batt_time = aps.ap_batt_time; aip->ai_major = (u_int)sc->majorversion; aip->ai_minor = (u_int)sc->minorversion; aip->ai_status = (u_int)sc->active; sc->bios.r.eax = (APM_BIOS << 8) | APM_GETCAPABILITIES; sc->bios.r.ebx = 0; sc->bios.r.ecx = 0; sc->bios.r.edx = 0; if (apm_bioscall()) { aip->ai_batteries = 0xffffffff; /* Unknown */ aip->ai_capabilities = 0xff00; /* Unknown, with no bits set */ } else { aip->ai_batteries = sc->bios.r.ebx & 0xff; aip->ai_capabilities = sc->bios.r.ecx & 0xff; } bzero(aip->ai_spare, sizeof aip->ai_spare); return 0; } /* inform APM BIOS that CPU is idle */ void apm_cpu_idle(void) { struct apm_softc *sc = &apm_softc; if (sc->active) { sc->bios.r.eax = (APM_BIOS <<8) | APM_CPUIDLE; sc->bios.r.edx = sc->bios.r.ecx = sc->bios.r.ebx = 0; (void) apm_bioscall(); } /* * Some APM implementation halts CPU in BIOS, whenever * "CPU-idle" function are invoked, but swtch() of * FreeBSD halts CPU, therefore, CPU is halted twice * in the sched loop. It makes the interrupt latency * terribly long and be able to cause a serious problem * in interrupt processing. We prevent it by removing * "hlt" operation from swtch() and managed it under * APM driver. */ if (!sc->active || sc->always_halt_cpu) halt(); /* wait for interrupt */ } /* inform APM BIOS that CPU is busy */ void apm_cpu_busy(void) { struct apm_softc *sc = &apm_softc; /* * The APM specification says this is only necessary if your BIOS * slows down the processor in the idle task, otherwise it's not * necessary. */ if (sc->slow_idle_cpu && sc->active) { sc->bios.r.eax = (APM_BIOS <<8) | APM_CPUBUSY; sc->bios.r.edx = sc->bios.r.ecx = sc->bios.r.ebx = 0; apm_bioscall(); } } /* * APM thread loop. * * This routine wakes up from time to time to deal with delaying the * suspend of the system, or other events. */ static void apm_event_thread(void *arg) { struct apm_softc *sc = &apm_softc; sc->running = 1; while (sc->active) { if (apm_op_inprog) apm_lastreq_notify(); if (sc->standbys && sc->standby_countdown-- <= 0) apm_do_standby(); if (sc->suspends && sc->suspend_countdown-- <= 0) apm_do_suspend(); if (!sc->bios_busy) apm_processevent(); mtx_lock(&sc->mtx); cv_timedwait(&sc->cv, &sc->mtx, 10 * hz / 9); mtx_unlock(&sc->mtx); } sc->running = 0; kproc_exit(0); } /* enable APM BIOS */ static void apm_event_enable(void) { struct apm_softc *sc = &apm_softc; APM_DPRINT("called apm_event_enable()\n"); if (sc == NULL || sc->initialized == 0) return; /* Start the thread */ sc->active = 1; if (kproc_create(apm_event_thread, sc, &sc->event_thread, 0, 0, "apm worker")) panic("Cannot create apm worker thread"); return; } /* disable APM BIOS */ static void apm_event_disable(void) { struct apm_softc *sc = &apm_softc; APM_DPRINT("called apm_event_disable()\n"); if (sc == NULL || sc->initialized == 0) return; mtx_lock(&sc->mtx); sc->active = 0; while (sc->running) { cv_broadcast(&sc->cv); msleep(sc->event_thread, &sc->mtx, PWAIT, "apmdie", 0); } mtx_unlock(&sc->mtx); sc->event_thread = NULL; return; } /* halt CPU in scheduling loop */ static void apm_halt_cpu(void) { struct apm_softc *sc = &apm_softc; if (sc == NULL || sc->initialized == 0) return; sc->always_halt_cpu = 1; return; } /* don't halt CPU in scheduling loop */ static void apm_not_halt_cpu(void) { struct apm_softc *sc = &apm_softc; if (sc == NULL || sc->initialized == 0) return; sc->always_halt_cpu = 0; return; } /* device driver definitions */ /* * Module event */ static int apm_modevent(struct module *mod, int event, void *junk) { switch (event) { case MOD_LOAD: if (!cold) return (EPERM); break; case MOD_UNLOAD: if (!cold && power_pm_get_type() == POWER_PM_TYPE_APM) return (EBUSY); break; default: break; } return (0); } /* * Create "connection point" */ static void apm_identify(driver_t *driver, device_t parent) { device_t child; if (!cold) { printf("Don't load this driver from userland!!\n"); return; } if (resource_disabled("apm", 0)) return; child = BUS_ADD_CHILD(parent, 0, "apm", 0); if (child == NULL) panic("apm_identify"); } /* * probe for APM BIOS */ static int apm_probe(device_t dev) { #define APM_KERNBASE KERNBASE struct vm86frame vmf; struct apm_softc *sc = &apm_softc; #ifdef PC98 int rid; #endif device_set_desc(dev, "APM BIOS"); if (device_get_unit(dev) > 0) { printf("apm: Only one APM driver supported.\n"); return ENXIO; } if (power_pm_get_type() != POWER_PM_TYPE_NONE && power_pm_get_type() != POWER_PM_TYPE_APM) { printf("apm: Other PM system enabled.\n"); return ENXIO; } bzero(&vmf, sizeof(struct vm86frame)); /* safety */ bzero(&apm_softc, sizeof(apm_softc)); vmf.vmf_ah = APM_BIOS; vmf.vmf_al = APM_INSTCHECK; vmf.vmf_bx = 0; if (vm86_intcall(APM_INT, &vmf)) return ENXIO; /* APM not found */ if (vmf.vmf_bx != 0x504d) { printf("apm: incorrect signature (0x%x)\n", vmf.vmf_bx); return ENXIO; } if ((vmf.vmf_cx & (APM_32BIT_SUPPORT | APM_16BIT_SUPPORT)) == 0) { printf("apm: protected mode connections are not supported\n"); return ENXIO; } apm_version = vmf.vmf_ax; sc->slow_idle_cpu = ((vmf.vmf_cx & APM_CPUIDLE_SLOW) != 0); sc->disabled = ((vmf.vmf_cx & APM_DISABLED) != 0); sc->disengaged = ((vmf.vmf_cx & APM_DISENGAGED) != 0); vmf.vmf_ah = APM_BIOS; vmf.vmf_al = APM_DISCONNECT; vmf.vmf_bx = 0; vm86_intcall(APM_INT, &vmf); /* disconnect, just in case */ #ifdef PC98 /* PC98 have bogos APM 32bit BIOS */ if ((vmf.vmf_cx & APM_32BIT_SUPPORT) == 0) return ENXIO; rid = 0; bus_set_resource(dev, SYS_RES_IOPORT, rid, APM_NECSMM_PORT, APM_NECSMM_PORTSZ); sc->sc_res = bus_alloc_resource(dev, SYS_RES_IOPORT, &rid, APM_NECSMM_PORT, ~0, APM_NECSMM_PORTSZ, RF_ACTIVE); if (sc->sc_res == NULL) { printf("apm: cannot open NEC smm device\n"); return ENXIO; } bus_release_resource(dev, SYS_RES_IOPORT, rid, sc->sc_res); vmf.vmf_ah = APM_BIOS; vmf.vmf_al = APM_PROT32CONNECT; vmf.vmf_bx = 0; if (vm86_intcall(APM_INT, &vmf)) { printf("apm: 32-bit connection error.\n"); return (ENXIO); } sc->bios.seg.code32.base = (vmf.vmf_ax << 4) + APM_KERNBASE; sc->bios.seg.code32.limit = 0xffff; sc->bios.seg.code16.base = (vmf.vmf_cx << 4) + APM_KERNBASE; sc->bios.seg.code16.limit = 0xffff; sc->bios.seg.data.base = (vmf.vmf_dx << 4) + APM_KERNBASE; sc->bios.seg.data.limit = 0xffff; sc->bios.entry = vmf.vmf_ebx; sc->connectmode = APM_PROT32CONNECT; #else if ((vmf.vmf_cx & APM_32BIT_SUPPORT) != 0) { vmf.vmf_ah = APM_BIOS; vmf.vmf_al = APM_PROT32CONNECT; vmf.vmf_bx = 0; if (vm86_intcall(APM_INT, &vmf)) { printf("apm: 32-bit connection error.\n"); return (ENXIO); } sc->bios.seg.code32.base = (vmf.vmf_ax << 4) + APM_KERNBASE; sc->bios.seg.code32.limit = 0xffff; sc->bios.seg.code16.base = (vmf.vmf_cx << 4) + APM_KERNBASE; sc->bios.seg.code16.limit = 0xffff; sc->bios.seg.data.base = (vmf.vmf_dx << 4) + APM_KERNBASE; sc->bios.seg.data.limit = 0xffff; sc->bios.entry = vmf.vmf_ebx; sc->connectmode = APM_PROT32CONNECT; } else { /* use 16-bit connection */ vmf.vmf_ah = APM_BIOS; vmf.vmf_al = APM_PROT16CONNECT; vmf.vmf_bx = 0; if (vm86_intcall(APM_INT, &vmf)) { printf("apm: 16-bit connection error.\n"); return (ENXIO); } sc->bios.seg.code16.base = (vmf.vmf_ax << 4) + APM_KERNBASE; sc->bios.seg.code16.limit = 0xffff; sc->bios.seg.data.base = (vmf.vmf_cx << 4) + APM_KERNBASE; sc->bios.seg.data.limit = 0xffff; sc->bios.entry = vmf.vmf_bx; sc->connectmode = APM_PROT16CONNECT; } #endif return(0); } /* * return 0 if the user will notice and handle the event, * return 1 if the kernel driver should do so. */ static int apm_record_event(struct apm_softc *sc, u_int event_type) { struct apm_event_info *evp; if ((sc->sc_flags & SCFLAG_OPEN) == 0) return 1; /* no user waiting */ if (sc->event_count == APM_NEVENTS) return 1; /* overflow */ if (sc->event_filter[event_type] == 0) return 1; /* not registered */ evp = &sc->event_list[sc->event_ptr]; sc->event_count++; sc->event_ptr++; sc->event_ptr %= APM_NEVENTS; evp->type = event_type; evp->index = ++apm_evindex; selwakeuppri(&sc->sc_rsel, PZERO); return (sc->sc_flags & SCFLAG_OCTL) ? 0 : 1; /* user may handle */ } /* Power profile */ static void apm_power_profile(struct apm_softc *sc) { int state; struct apm_info info; static int apm_acline = 0; if (apm_get_info(&info)) return; if (apm_acline != info.ai_acline) { apm_acline = info.ai_acline; state = apm_acline ? POWER_PROFILE_PERFORMANCE : POWER_PROFILE_ECONOMY; power_profile_set_state(state); } } /* Process APM event */ static void apm_processevent(void) { int apm_event; struct apm_softc *sc = &apm_softc; #define OPMEV_DEBUGMESSAGE(symbol) case symbol: \ APM_DPRINT("Received APM Event: " #symbol "\n"); do { apm_event = apm_getevent(); switch (apm_event) { OPMEV_DEBUGMESSAGE(PMEV_STANDBYREQ); if (apm_op_inprog == 0) { apm_op_inprog++; if (apm_record_event(sc, apm_event)) { apm_suspend(PMST_STANDBY); } } break; OPMEV_DEBUGMESSAGE(PMEV_USERSTANDBYREQ); if (apm_op_inprog == 0) { apm_op_inprog++; if (apm_record_event(sc, apm_event)) { apm_suspend(PMST_STANDBY); } } break; OPMEV_DEBUGMESSAGE(PMEV_SUSPENDREQ); apm_lastreq_notify(); if (apm_op_inprog == 0) { apm_op_inprog++; if (apm_record_event(sc, apm_event)) { apm_do_suspend(); } } return; /* XXX skip the rest */ OPMEV_DEBUGMESSAGE(PMEV_USERSUSPENDREQ); apm_lastreq_notify(); if (apm_op_inprog == 0) { apm_op_inprog++; if (apm_record_event(sc, apm_event)) { apm_do_suspend(); } } return; /* XXX skip the rest */ OPMEV_DEBUGMESSAGE(PMEV_CRITSUSPEND); apm_do_suspend(); break; OPMEV_DEBUGMESSAGE(PMEV_NORMRESUME); apm_record_event(sc, apm_event); apm_resume(); break; OPMEV_DEBUGMESSAGE(PMEV_CRITRESUME); apm_record_event(sc, apm_event); apm_resume(); break; OPMEV_DEBUGMESSAGE(PMEV_STANDBYRESUME); apm_record_event(sc, apm_event); break; OPMEV_DEBUGMESSAGE(PMEV_BATTERYLOW); if (apm_record_event(sc, apm_event)) { apm_battery_low(); apm_suspend(PMST_SUSPEND); } break; OPMEV_DEBUGMESSAGE(PMEV_POWERSTATECHANGE); apm_record_event(sc, apm_event); apm_power_profile(sc); break; OPMEV_DEBUGMESSAGE(PMEV_UPDATETIME); apm_record_event(sc, apm_event); inittodr(0); /* adjust time to RTC */ break; OPMEV_DEBUGMESSAGE(PMEV_CAPABILITIESCHANGE); apm_record_event(sc, apm_event); apm_power_profile(sc); break; case PMEV_NOEVENT: break; default: printf("Unknown Original APM Event 0x%x\n", apm_event); break; } } while (apm_event != PMEV_NOEVENT); #ifdef PC98 apm_disable_smm(sc); #endif } /* * Attach APM: * * Initialize APM driver */ static int apm_attach(device_t dev) { struct apm_softc *sc = &apm_softc; int drv_version; #ifdef PC98 int rid; #endif mtx_init(&sc->mtx, device_get_nameunit(dev), "apm", MTX_DEF); cv_init(&sc->cv, "cbb cv"); #ifndef PC98 if (device_get_flags(dev) & 0x20) atrtcclock_disable = 1; #endif sc->initialized = 0; /* Must be externally enabled */ sc->active = 0; /* Always call HLT in idle loop */ sc->always_halt_cpu = 1; getenv_int("debug.apm_debug", &apm_debug); /* print bootstrap messages */ APM_DPRINT("apm: APM BIOS version %04lx\n", apm_version); APM_DPRINT("apm: Code16 0x%08x, Data 0x%08x\n", sc->bios.seg.code16.base, sc->bios.seg.data.base); APM_DPRINT("apm: Code entry 0x%08x, Idling CPU %s, Management %s\n", sc->bios.entry, is_enabled(sc->slow_idle_cpu), is_enabled(!sc->disabled)); APM_DPRINT("apm: CS_limit=0x%x, DS_limit=0x%x\n", sc->bios.seg.code16.limit, sc->bios.seg.data.limit); #ifdef PC98 rid = 0; sc->sc_res = bus_alloc_resource(dev, SYS_RES_IOPORT, &rid, APM_NECSMM_PORT, ~0, APM_NECSMM_PORTSZ, RF_ACTIVE); if (sc->sc_res == NULL) panic("%s: counldn't map I/O ports", device_get_name(dev)); sc->sc_iot = rman_get_bustag(sc->sc_res); sc->sc_ioh = rman_get_bushandle(sc->sc_res); if (apm_version==0x112 || apm_version==0x111 || apm_version==0x110) apm_necsmm_addr = APM_NECSMM_PORT; else apm_necsmm_addr = 0; apm_necsmm_mask = ~APM_NECSMM_EN; #endif /* PC98 */ /* * In one test, apm bios version was 1.02; an attempt to register * a 1.04 driver resulted in a 1.00 connection! Registering a * 1.02 driver resulted in a 1.02 connection. */ drv_version = apm_version > 0x102 ? 0x102 : apm_version; for (; drv_version > 0x100; drv_version--) if (apm_driver_version(drv_version) == 0) break; sc->minorversion = ((drv_version & 0x00f0) >> 4) * 10 + ((drv_version & 0x000f) >> 0); sc->majorversion = ((drv_version & 0xf000) >> 12) * 10 + ((apm_version & 0x0f00) >> 8); sc->intversion = INTVERSION(sc->majorversion, sc->minorversion); if (sc->intversion >= INTVERSION(1, 1)) APM_DPRINT("apm: Engaged control %s\n", is_enabled(!sc->disengaged)); device_printf(dev, "found APM BIOS v%ld.%ld, connected at v%d.%d\n", ((apm_version & 0xf000) >> 12) * 10 + ((apm_version & 0x0f00) >> 8), ((apm_version & 0x00f0) >> 4) * 10 + ((apm_version & 0x000f) >> 0), sc->majorversion, sc->minorversion); APM_DPRINT("apm: Slow Idling CPU %s\n", is_enabled(sc->slow_idle_cpu)); /* enable power management */ if (sc->disabled) { if (apm_enable_disable_pm(1)) { APM_DPRINT("apm: *Warning* enable function failed! [%x]\n", (sc->bios.r.eax >> 8) & 0xff); } } /* engage power managment (APM 1.1 or later) */ if (sc->intversion >= INTVERSION(1, 1) && sc->disengaged) { if (apm_engage_disengage_pm(1)) { APM_DPRINT("apm: *Warning* engage function failed err=[%x]", (sc->bios.r.eax >> 8) & 0xff); APM_DPRINT(" (Docked or using external power?).\n"); } } /* Power the system off using APM */ EVENTHANDLER_REGISTER(shutdown_final, apm_power_off, NULL, SHUTDOWN_PRI_LAST); /* Register APM again to pass the correct argument of pm_func. */ power_pm_register(POWER_PM_TYPE_APM, apm_pm_func, sc); sc->initialized = 1; sc->suspending = 0; sc->running = 0; make_dev(&apm_cdevsw, APMDEV_NORMAL, UID_ROOT, GID_OPERATOR, 0664, "apm"); make_dev(&apm_cdevsw, APMDEV_CTL, UID_ROOT, GID_OPERATOR, 0660, "apmctl"); return 0; } static int apmopen(struct cdev *dev, int flag, int fmt, struct thread *td) { struct apm_softc *sc = &apm_softc; if (sc == NULL || sc->initialized == 0) return (ENXIO); switch (dev2unit(dev)) { case APMDEV_CTL: if (!(flag & FWRITE)) return EINVAL; if (sc->sc_flags & SCFLAG_OCTL) return EBUSY; sc->sc_flags |= SCFLAG_OCTL; bzero(sc->event_filter, sizeof sc->event_filter); break; case APMDEV_NORMAL: sc->sc_flags |= SCFLAG_ONORMAL; break; } return 0; } static int apmclose(struct cdev *dev, int flag, int fmt, struct thread *td) { struct apm_softc *sc = &apm_softc; switch (dev2unit(dev)) { case APMDEV_CTL: apm_lastreq_rejected(); sc->sc_flags &= ~SCFLAG_OCTL; bzero(sc->event_filter, sizeof sc->event_filter); break; case APMDEV_NORMAL: sc->sc_flags &= ~SCFLAG_ONORMAL; break; } if ((sc->sc_flags & SCFLAG_OPEN) == 0) { sc->event_count = 0; sc->event_ptr = 0; } return 0; } static int apmioctl(struct cdev *dev, u_long cmd, caddr_t addr, int flag, struct thread *td) { struct apm_softc *sc = &apm_softc; struct apm_bios_arg *args; int error = 0; int ret; int newstate; if (sc == NULL || sc->initialized == 0) return (ENXIO); APM_DPRINT("APM ioctl: cmd = 0x%lx\n", cmd); switch (cmd) { case APMIO_SUSPEND: if (!(flag & FWRITE)) return (EPERM); if (sc->active) apm_suspend(PMST_SUSPEND); else error = EINVAL; break; case APMIO_STANDBY: if (!(flag & FWRITE)) return (EPERM); if (sc->active) apm_suspend(PMST_STANDBY); else error = EINVAL; break; case APMIO_GETINFO_OLD: { struct apm_info info; apm_info_old_t aiop; if (apm_get_info(&info)) error = ENXIO; aiop = (apm_info_old_t)addr; aiop->ai_major = info.ai_major; aiop->ai_minor = info.ai_minor; aiop->ai_acline = info.ai_acline; aiop->ai_batt_stat = info.ai_batt_stat; aiop->ai_batt_life = info.ai_batt_life; aiop->ai_status = info.ai_status; } break; case APMIO_GETINFO: if (apm_get_info((apm_info_t)addr)) error = ENXIO; break; case APMIO_GETPWSTATUS: if (apm_get_pwstatus((apm_pwstatus_t)addr)) error = ENXIO; break; case APMIO_ENABLE: if (!(flag & FWRITE)) return (EPERM); apm_event_enable(); break; case APMIO_DISABLE: if (!(flag & FWRITE)) return (EPERM); apm_event_disable(); break; case APMIO_HALTCPU: if (!(flag & FWRITE)) return (EPERM); apm_halt_cpu(); break; case APMIO_NOTHALTCPU: if (!(flag & FWRITE)) return (EPERM); apm_not_halt_cpu(); break; case APMIO_DISPLAY: if (!(flag & FWRITE)) return (EPERM); newstate = *(int *)addr; if (apm_display(newstate)) error = ENXIO; break; case APMIO_BIOS: if (!(flag & FWRITE)) return (EPERM); /* XXX compatibility with the old interface */ args = (struct apm_bios_arg *)addr; #ifdef PC98 if (((args->eax >> 8) & 0xff) == 0x53) { sc->bios.r.eax = args->eax & ~0xffff; sc->bios.r.eax |= APM_BIOS << 8; switch (args->eax & 0xff) { case 0x0a: sc->bios.r.eax |= APM_GETPWSTATUS; break; case 0x0e: sc->bios.r.eax |= APM_DRVVERSION; break; default: sc->bios.r.eax |= args->eax & 0xff; break; } } else #endif sc->bios.r.eax = args->eax; sc->bios.r.ebx = args->ebx; sc->bios.r.ecx = args->ecx; sc->bios.r.edx = args->edx; sc->bios.r.esi = args->esi; sc->bios.r.edi = args->edi; if ((ret = apm_bioscall())) { /* * Return code 1 means bios call was unsuccessful. * Error code is stored in %ah. * Return code -1 means bios call was unsupported * in the APM BIOS version. */ if (ret == -1) { error = EINVAL; } } else { /* * Return code 0 means bios call was successful. * We need only %al and can discard %ah. */ sc->bios.r.eax &= 0xff; } args->eax = sc->bios.r.eax; args->ebx = sc->bios.r.ebx; args->ecx = sc->bios.r.ecx; args->edx = sc->bios.r.edx; args->esi = sc->bios.r.esi; args->edi = sc->bios.r.edi; break; default: error = EINVAL; break; } /* for /dev/apmctl */ if (dev2unit(dev) == APMDEV_CTL) { struct apm_event_info *evp; int i; error = 0; switch (cmd) { case APMIO_NEXTEVENT: if (!sc->event_count) { error = EAGAIN; } else { evp = (struct apm_event_info *)addr; i = sc->event_ptr + APM_NEVENTS - sc->event_count; i %= APM_NEVENTS; *evp = sc->event_list[i]; sc->event_count--; } break; case APMIO_REJECTLASTREQ: if (apm_lastreq_rejected()) { error = EINVAL; } break; default: error = EINVAL; break; } } return error; } static int apmwrite(struct cdev *dev, struct uio *uio, int ioflag) { struct apm_softc *sc = &apm_softc; u_int event_type; int error; u_char enabled; if (dev2unit(dev) != APMDEV_CTL) return(ENODEV); if (uio->uio_resid != sizeof(u_int)) return(E2BIG); if ((error = uiomove((caddr_t)&event_type, sizeof(u_int), uio))) return(error); if (event_type < 0 || event_type >= APM_NPMEV) return(EINVAL); if (sc->event_filter[event_type] == 0) { enabled = 1; } else { enabled = 0; } sc->event_filter[event_type] = enabled; APM_DPRINT("apmwrite: event 0x%x %s\n", event_type, is_enabled(enabled)); return uio->uio_resid; } static int apmpoll(struct cdev *dev, int events, struct thread *td) { struct apm_softc *sc = &apm_softc; int revents = 0; if (events & (POLLIN | POLLRDNORM)) { if (sc->event_count) { revents |= events & (POLLIN | POLLRDNORM); } else { selrecord(td, &sc->sc_rsel); } } return (revents); } static device_method_t apm_methods[] = { /* Device interface */ DEVMETHOD(device_identify, apm_identify), DEVMETHOD(device_probe, apm_probe), DEVMETHOD(device_attach, apm_attach), { 0, 0 } }; static driver_t apm_driver = { "apm", apm_methods, 1, /* no softc (XXX) */ }; static devclass_t apm_devclass; DRIVER_MODULE(apm, legacy, apm_driver, apm_devclass, apm_modevent, 0); MODULE_VERSION(apm, 1); static int apm_pm_func(u_long cmd, void *arg, ...) { int state, apm_state; int error; va_list ap; error = 0; switch (cmd) { case POWER_CMD_SUSPEND: va_start(ap, arg); state = va_arg(ap, int); va_end(ap); switch (state) { case POWER_SLEEP_STATE_STANDBY: apm_state = PMST_STANDBY; break; case POWER_SLEEP_STATE_SUSPEND: case POWER_SLEEP_STATE_HIBERNATE: apm_state = PMST_SUSPEND; break; default: error = EINVAL; goto out; } apm_suspend(apm_state); break; default: error = EINVAL; goto out; } out: return (error); } static void apm_pm_register(void *arg) { if (!resource_disabled("apm", 0)) power_pm_register(POWER_PM_TYPE_APM, apm_pm_func, NULL); } SYSINIT(power, SI_SUB_KLD, SI_ORDER_ANY, apm_pm_register, 0);