dev/acpi/acpi_tz.c

1.63    jruoho /* $NetBSD: acpi_tz.c,v 1.63 2010/03/17 20:29:32 jruoho Exp $ */
 1.1  jmcneill
 1.1  jmcneill /*
 1.1  jmcneill  * Copyright (c) 2003 Jared D. McNeill <jmcneill (at) invisible.ca>
 1.1  jmcneill  * All rights reserved.
 1.1  jmcneill  *
 1.1  jmcneill  * Redistribution and use in source and binary forms, with or without
 1.1  jmcneill  * modification, are permitted provided that the following conditions
 1.1  jmcneill  * are met:
 1.1  jmcneill  * 1. Redistributions of source code must retain the above copyright
 1.1  jmcneill  *    notice, this list of conditions and the following disclaimer.
 1.1  jmcneill  * 2. The name of the author may not be used to endorse or promote products
 1.1  jmcneill  *    derived from this software without specific prior written permission.
 1.1  jmcneill  *
 1.1  jmcneill  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 1.1  jmcneill  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 1.1  jmcneill  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1  jmcneill  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 1.1  jmcneill  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
 1.1  jmcneill  * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 1.1  jmcneill  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
 1.1  jmcneill  * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 1.1  jmcneill  * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1  jmcneill  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1  jmcneill  * SUCH DAMAGE.
 1.1  jmcneill  */
 1.1  jmcneill
 1.1  jmcneill /*
 1.1  jmcneill  * ACPI Thermal Zone driver
 1.1  jmcneill  */
 1.1  jmcneill
 1.1  jmcneill #include <sys/cdefs.h>
1.63    jruoho __KERNEL_RCSID(0, "$NetBSD: acpi_tz.c,v 1.63 2010/03/17 20:29:32 jruoho Exp $");
 1.1  jmcneill
 1.1  jmcneill #include <sys/param.h>
 1.1  jmcneill #include <sys/device.h>
 1.1  jmcneill #include <sys/callout.h>
1.61    jruoho #include <sys/kernel.h>
1.61    jruoho #include <sys/systm.h>
 1.1  jmcneill
 1.1  jmcneill #include <dev/acpi/acpireg.h>
 1.1  jmcneill #include <dev/acpi/acpivar.h>
 1.1  jmcneill
1.47   mlelstv #define _COMPONENT          ACPI_TZ_COMPONENT
1.47   mlelstv ACPI_MODULE_NAME            ("acpi_tz")
1.47   mlelstv
 1.1  jmcneill /* flags */
 1.1  jmcneill #define ATZ_F_VERBOSE		0x01	/* show events to console */
1.13     kochi #define ATZ_F_CRITICAL		0x02	/* zone critical */
1.13     kochi #define ATZ_F_HOT		0x04	/* zone hot */
1.13     kochi #define ATZ_F_PASSIVE		0x08	/* zone passive cooling */
1.13     kochi #define ATZ_F_PASSIVEONLY	0x10	/* zone is passive cooling only */
1.13     kochi
1.13     kochi /* no active cooling level */
1.13     kochi #define ATZ_ACTIVE_NONE -1
 1.1  jmcneill
 1.1  jmcneill /* constants */
 1.1  jmcneill #define ATZ_TZP_RATE	300	/* default if no _TZP CM present (30 secs) */
 1.1  jmcneill #define ATZ_NLEVELS	10	/* number of cooling levels, from ACPI spec */
1.60  pgoyette #define ATZ_ZEROC	2732	/* 0C, measured in 0.1 Kelvin */
1.13     kochi #define ATZ_TMP_INVALID	0xffffffff	/* invalid temperature */
1.13     kochi #define ATZ_ZONE_EXPIRE	9000	/* zone info refetch interval (15min) */
 1.1  jmcneill
 1.1  jmcneill /* sensor indexes */
 1.1  jmcneill #define ATZ_SENSOR_TEMP	0	/* thermal zone temperature */
 1.1  jmcneill
1.33   xtraeme static int	acpitz_match(device_t, cfdata_t, void *);
1.33   xtraeme static void	acpitz_attach(device_t, device_t, void *);
 1.1  jmcneill
 1.1  jmcneill /*
 1.1  jmcneill  * ACPI Temperature Zone information. Note all temperatures are reported
1.60  pgoyette  * in 0.1 Kelvin, and that the ACPI specification assumes that
1.60  pgoyette  * K = C + 273.2 rather than the nominal 273.15 used by envsys(4).
1.45  pgoyette  * So define an appropriate conversion.
 1.1  jmcneill  */
1.45  pgoyette
1.45  pgoyette #define	ATZ2UKELVIN(t) ((t) * 100000 - 50000)
1.45  pgoyette
 1.1  jmcneill struct acpitz_zone {
 1.1  jmcneill 	/* Active cooling temperature threshold */
 1.1  jmcneill 	UINT32 ac[ATZ_NLEVELS];
 1.1  jmcneill 	/* Package of references to all active cooling devices for a level */
 1.1  jmcneill 	ACPI_BUFFER al[ATZ_NLEVELS];
 1.1  jmcneill 	/* Critical temperature threshold for system shutdown */
 1.1  jmcneill 	UINT32 crt;
 1.1  jmcneill 	/* Critical temperature threshold for S4 sleep */
 1.1  jmcneill 	UINT32 hot;
 1.1  jmcneill 	/* Package of references to processor objects for passive cooling */
 1.1  jmcneill 	ACPI_BUFFER psl;
1.48    cegger 	/* Conveys if temperatures are absolute or relative values. */
1.48    cegger 	UINT32 rtv;
 1.1  jmcneill 	/* Passive cooling temperature threshold */
 1.1  jmcneill 	UINT32 psv;
 1.1  jmcneill 	/* Thermal constants for use in passive cooling formulas */
 1.1  jmcneill 	UINT32 tc1, tc2;
 1.1  jmcneill 	/* Current temperature of the thermal zone */
1.49    cegger 	UINT32 prevtmp, tmp;
 1.1  jmcneill 	/* Thermal sampling period for passive cooling, in tenths of seconds */
 1.1  jmcneill 	UINT32 tsp;
 1.1  jmcneill 	/* Package of references to devices in this TZ (optional) */
 1.1  jmcneill 	ACPI_BUFFER tzd;
 1.1  jmcneill 	/* Recommended TZ polling frequency, in tenths of seconds */
 1.1  jmcneill 	UINT32 tzp;
1.49    cegger 	/* Thermal zone name */
1.49    cegger 	char *name;
1.49    cegger 	/* FAN min, max, current rpms */
1.49    cegger 	UINT32 fanmin, fanmax, fancurrent;
 1.1  jmcneill };
 1.1  jmcneill
 1.1  jmcneill struct acpitz_softc {
 1.1  jmcneill 	struct acpi_devnode *sc_devnode;
 1.1  jmcneill 	struct acpitz_zone sc_zone;
 1.1  jmcneill 	struct callout sc_callout;
1.27   xtraeme 	struct sysmon_envsys *sc_sme;
1.49    cegger 	envsys_data_t sc_temp_sensor;
1.49    cegger 	envsys_data_t sc_fan_sensor;
1.13     kochi 	int sc_active;		/* active cooling level */
 1.1  jmcneill 	int sc_flags;
 1.1  jmcneill 	int sc_rate;		/* tz poll rate */
1.13     kochi 	int sc_zone_expire;
1.29  jmcneill
1.29  jmcneill 	int sc_first;
1.49    cegger 	int sc_have_fan;	/* FAN sensor is optional */
 1.1  jmcneill };
 1.1  jmcneill
1.11     kochi static void	acpitz_get_status(void *);
1.14    martin static void	acpitz_get_zone(void *, int);
1.14    martin static void	acpitz_get_zone_quiet(void *);
1.33   xtraeme static char	*acpitz_celcius_string(int);
1.33   xtraeme static void	acpitz_print_status(device_t);
1.13     kochi static void	acpitz_power_off(struct acpitz_softc *);
1.13     kochi static void	acpitz_power_zone(struct acpitz_softc *, int, int);
1.13     kochi static void	acpitz_sane_temp(UINT32 *tmp);
1.13     kochi static ACPI_STATUS
1.13     kochi 		acpitz_switch_cooler(ACPI_OBJECT *, void *);
1.11     kochi static void	acpitz_notify_handler(ACPI_HANDLE, UINT32, void *);
1.33   xtraeme static int	acpitz_get_integer(device_t, const char *, UINT32 *);
 1.1  jmcneill static void	acpitz_tick(void *);
1.33   xtraeme static void	acpitz_init_envsys(device_t);
1.42  pgoyette static void	acpitz_get_limits(struct sysmon_envsys *, envsys_data_t *,
1.58  pgoyette 				  sysmon_envsys_lim_t *, uint32_t *);
1.49    cegger static int	acpitz_get_fanspeed(device_t, UINT32 *, UINT32 *, UINT32 *);
1.49    cegger #ifdef notyet
1.49    cegger static ACPI_STATUS
1.49    cegger 		acpitz_set_fanspeed(device_t, UINT32);
1.49    cegger #endif
 1.1  jmcneill
1.33   xtraeme CFATTACH_DECL_NEW(acpitz, sizeof(struct acpitz_softc), acpitz_match,
 1.1  jmcneill     acpitz_attach, NULL, NULL);
 1.1  jmcneill
 1.1  jmcneill /*
 1.1  jmcneill  * acpitz_match: autoconf(9) match routine
 1.1  jmcneill  */
1.11     kochi static int
1.33   xtraeme acpitz_match(device_t parent, cfdata_t match, void *aux)
 1.1  jmcneill {
 1.1  jmcneill 	struct acpi_attach_args *aa = aux;
 1.1  jmcneill
 1.1  jmcneill 	if (aa->aa_node->ad_type != ACPI_TYPE_THERMAL)
 1.1  jmcneill 		return 0;
 1.1  jmcneill
 1.1  jmcneill 	return 1;
 1.1  jmcneill }
 1.1  jmcneill
 1.1  jmcneill /*
 1.1  jmcneill  * acpitz_attach: autoconf(9) attach routine
 1.1  jmcneill  */
1.11     kochi static void
1.33   xtraeme acpitz_attach(device_t parent, device_t self, void *aux)
 1.1  jmcneill {
1.33   xtraeme 	struct acpitz_softc *sc = device_private(self);
 1.1  jmcneill 	struct acpi_attach_args *aa = aux;
 1.1  jmcneill 	ACPI_STATUS rv;
 1.9    martin 	ACPI_INTEGER v;
 1.1  jmcneill
 1.1  jmcneill #if 0
 1.1  jmcneill 	sc->sc_flags = ATZ_F_VERBOSE;
 1.1  jmcneill #endif
 1.1  jmcneill 	sc->sc_devnode = aa->aa_node;
 1.1  jmcneill
1.29  jmcneill 	aprint_naive("\n");
1.63    jruoho 	aprint_normal(": ACPI Thermal Zone\n");
 1.1  jmcneill
 1.9    martin 	rv = acpi_eval_integer(sc->sc_devnode->ad_handle, "_TZP", &v);
1.31  jmcneill 	if (ACPI_FAILURE(rv))
 1.1  jmcneill 		sc->sc_zone.tzp = ATZ_TZP_RATE;
1.31  jmcneill 	else
 1.9    martin 		sc->sc_zone.tzp = v;
1.31  jmcneill
1.63    jruoho 	aprint_debug_dev(self, "sample rate %d.%ds\n",
1.31  jmcneill 	    sc->sc_zone.tzp / 10, sc->sc_zone.tzp % 10);
 1.3   mycroft
 1.1  jmcneill 	/* XXX a value of 0 means "polling is not necessary" */
 1.1  jmcneill 	if (sc->sc_zone.tzp == 0)
 1.1  jmcneill 		sc->sc_zone.tzp = ATZ_TZP_RATE;
1.10     kochi
1.13     kochi 	sc->sc_zone_expire = ATZ_ZONE_EXPIRE / sc->sc_zone.tzp;
1.29  jmcneill 	sc->sc_first = 1;
1.49    cegger 	sc->sc_have_fan = 0;
1.49    cegger 	if (acpitz_get_fanspeed(self,
1.49    cegger 	    &sc->sc_zone.fanmin, &sc->sc_zone.fanmax, &sc->sc_zone.fancurrent)
1.49    cegger 	    == 0)
1.49    cegger 		sc->sc_have_fan = 1;
1.13     kochi
1.49    cegger 	rv = acpi_eval_string(sc->sc_devnode->ad_handle,
1.49    cegger 	    "REGN", &sc->sc_zone.name);
1.49    cegger 	if (ACPI_FAILURE(rv))
1.49    cegger 		sc->sc_zone.name = __UNCONST("temperature");
1.63    jruoho
1.33   xtraeme 	acpitz_get_zone(self, 1);
1.33   xtraeme 	acpitz_get_status(self);
 1.1  jmcneill
 1.1  jmcneill 	rv = AcpiInstallNotifyHandler(sc->sc_devnode->ad_handle,
1.57    jruoho 	    ACPI_DEVICE_NOTIFY, acpitz_notify_handler, self);
1.57    jruoho
1.57    jruoho 	if (ACPI_FAILURE(rv))
 1.1  jmcneill 		return;
 1.1  jmcneill
1.33   xtraeme 	callout_init(&sc->sc_callout, CALLOUT_MPSAFE);
1.33   xtraeme 	callout_setfunc(&sc->sc_callout, acpitz_tick, self);
 1.1  jmcneill
1.33   xtraeme 	acpitz_init_envsys(self);
1.25     joerg
1.32  jmcneill 	if (!pmf_device_register(self, NULL, NULL))
1.32  jmcneill 		aprint_error(": couldn't establish power handler\n");
1.32  jmcneill
1.25     joerg 	callout_schedule(&sc->sc_callout, sc->sc_zone.tzp * hz / 10);
 1.1  jmcneill }
 1.1  jmcneill
1.11     kochi static void
1.14    martin acpitz_get_zone_quiet(void *opaque)
1.14    martin {
1.14    martin 	acpitz_get_zone(opaque, 0);
1.14    martin }
1.14    martin
1.14    martin static void
 1.1  jmcneill acpitz_get_status(void *opaque)
 1.1  jmcneill {
1.33   xtraeme 	device_t dv = opaque;
1.33   xtraeme 	struct acpitz_softc *sc = device_private(dv);
1.13     kochi 	UINT32 tmp, active;
1.13     kochi 	int i, flags;
1.49    cegger 	UINT32 fmin, fmax, fcurrent;
1.13     kochi
1.13     kochi 	sc->sc_zone_expire--;
1.13     kochi 	if (sc->sc_zone_expire <= 0) {
1.13     kochi 		sc->sc_zone_expire = ATZ_ZONE_EXPIRE / sc->sc_zone.tzp;
1.13     kochi 		if (sc->sc_flags & ATZ_F_VERBOSE)
1.33   xtraeme 			printf("%s: force refetch zone\n", device_xname(dv));
1.34   xtraeme 		acpitz_get_zone(dv, 0);
1.13     kochi 	}
 1.3   mycroft
1.63    jruoho 	if (acpitz_get_integer(dv, "_TMP", &tmp) != 0)
 1.3   mycroft 		return;
1.49    cegger
1.49    cegger 	sc->sc_zone.prevtmp = sc->sc_zone.tmp;
1.13     kochi 	sc->sc_zone.tmp = tmp;
1.49    cegger 	if (sc->sc_first)
1.49    cegger 		sc->sc_zone.prevtmp = tmp;
1.13     kochi 	/* XXX sanity check for tmp here? */
 1.1  jmcneill
1.49    cegger 	if (acpitz_get_fanspeed(dv, &fmin, &fmax, &fcurrent) == 0) {
1.49    cegger 		if (fcurrent != ATZ_TMP_INVALID)
1.49    cegger 			sc->sc_zone.fancurrent = fcurrent;
1.49    cegger 	}
1.49    cegger
 1.7     soren 	/*
1.13     kochi 	 * The temperature unit for envsys(4) is microKelvin, so convert to
 1.7     soren 	 * that from ACPI's microKelvin. Also, the ACPI specification assumes
1.13     kochi 	 * that K = C + 273.2 rather than the nominal 273.15 used by envsys(4),
 1.7     soren 	 * so we correct for that too.
 1.7     soren 	 */
1.49    cegger 	sc->sc_temp_sensor.value_cur = ATZ2UKELVIN(sc->sc_zone.tmp);
1.49    cegger 	sc->sc_temp_sensor.state = ENVSYS_SVALID;
1.49    cegger
1.49    cegger 	sc->sc_fan_sensor.value_cur = sc->sc_zone.fancurrent;
1.49    cegger 	sc->sc_fan_sensor.state = ENVSYS_SVALID;
 1.1  jmcneill
 1.1  jmcneill 	if (sc->sc_flags & ATZ_F_VERBOSE)
1.33   xtraeme 		acpitz_print_status(dv);
 1.1  jmcneill
1.13     kochi 	if (sc->sc_flags & ATZ_F_PASSIVEONLY) {
1.13     kochi 		/* Passive Cooling: XXX not yet */
1.13     kochi
1.13     kochi 	} else {
1.13     kochi 		/* Active Cooling */
1.13     kochi
1.13     kochi 		/* temperature threshold: _AC0 > ... > _AC9 */
1.13     kochi 		active = ATZ_ACTIVE_NONE;
1.13     kochi 		for (i = ATZ_NLEVELS - 1; i >= 0; i--) {
1.13     kochi 			if (sc->sc_zone.ac[i] == ATZ_TMP_INVALID)
1.13     kochi 				continue;
1.13     kochi
1.13     kochi 			/* we want to keep highest cooling mode in 'active' */
1.13     kochi 			if (sc->sc_zone.ac[i] <= tmp)
1.13     kochi 				active = i;
1.13     kochi 		}
1.13     kochi
1.33   xtraeme 		flags = sc->sc_flags &
1.33   xtraeme 		    ~(ATZ_F_CRITICAL|ATZ_F_HOT|ATZ_F_PASSIVE);
1.13     kochi 		if (sc->sc_zone.psv != ATZ_TMP_INVALID &&
1.13     kochi 		    tmp >= sc->sc_zone.psv)
1.13     kochi 			flags |= ATZ_F_PASSIVE;
1.13     kochi 		if (sc->sc_zone.hot != ATZ_TMP_INVALID &&
1.13     kochi 		    tmp >= sc->sc_zone.hot)
1.13     kochi 			flags |= ATZ_F_HOT;
1.13     kochi 		if (sc->sc_zone.crt != ATZ_TMP_INVALID &&
1.13     kochi 		    tmp >= sc->sc_zone.crt)
1.13     kochi 			flags |= ATZ_F_CRITICAL;
1.13     kochi
1.13     kochi 		if (flags != sc->sc_flags) {
1.13     kochi 			int changed = (sc->sc_flags ^ flags) & flags;
1.13     kochi 			sc->sc_flags = flags;
1.22   xtraeme 			if (changed & ATZ_F_CRITICAL) {
1.49    cegger 				sc->sc_temp_sensor.state = ENVSYS_SCRITOVER;
1.39  pgoyette 				aprint_debug_dev(dv,
1.33   xtraeme 				    "zone went critical at temp %sC\n",
1.13     kochi 				    acpitz_celcius_string(tmp));
1.22   xtraeme 			} else if (changed & ATZ_F_HOT) {
1.49    cegger 				sc->sc_temp_sensor.state = ENVSYS_SCRITOVER;
1.39  pgoyette 				aprint_debug_dev(dv,
1.33   xtraeme 				    "zone went hot at temp %sC\n",
1.13     kochi 				    acpitz_celcius_string(tmp));
1.22   xtraeme 			}
1.13     kochi 		}
1.13     kochi
1.13     kochi 		/* power on fans */
1.13     kochi 		if (sc->sc_active != active) {
1.13     kochi 			if (sc->sc_active != ATZ_ACTIVE_NONE)
1.13     kochi 				acpitz_power_zone(sc, sc->sc_active, 0);
1.13     kochi
1.13     kochi 			if (active != ATZ_ACTIVE_NONE) {
1.13     kochi 				if (sc->sc_flags & ATZ_F_VERBOSE)
1.13     kochi 					printf("%s: active cooling level %u\n",
1.33   xtraeme 					    device_xname(dv), active);
1.13     kochi 				acpitz_power_zone(sc, active, 1);
1.52  pgoyette 			} else if (sc->sc_flags & ATZ_F_VERBOSE)
1.52  pgoyette 				printf("%s: no active cooling level\n",
1.52  pgoyette 				    device_xname(dv));
1.13     kochi
1.13     kochi 			sc->sc_active = active;
1.13     kochi 		}
1.13     kochi 	}
1.13     kochi
 1.1  jmcneill 	return;
 1.1  jmcneill }
 1.1  jmcneill
1.13     kochi static char *
1.13     kochi acpitz_celcius_string(int dk)
1.13     kochi {
1.13     kochi 	static char buf[10];
1.59  pgoyette 	int dc;
1.13     kochi
1.59  pgoyette 	dc = abs(dk - ATZ_ZEROC);
1.59  pgoyette 	snprintf(buf, sizeof(buf), "%s%d.%d", (dk >= ATZ_ZEROC)?"":"-",
1.59  pgoyette 		dc / 10, dc % 10);
1.13     kochi
1.13     kochi 	return buf;
1.13     kochi }
1.13     kochi
 1.1  jmcneill static void
1.33   xtraeme acpitz_print_status(device_t dv)
 1.1  jmcneill {
1.33   xtraeme 	struct acpitz_softc *sc = device_private(dv);
 1.1  jmcneill
1.33   xtraeme 	printf("%s: zone temperature is now %sC\n", device_xname(dv),
1.13     kochi 	    acpitz_celcius_string(sc->sc_zone.tmp));
1.49    cegger 	if (sc->sc_have_fan) {
1.49    cegger 		printf("%s: fan rpm %u\n", device_xname(dv),
1.49    cegger 		    sc->sc_zone.fancurrent);
1.49    cegger 	}
 1.1  jmcneill
 1.1  jmcneill 	return;
 1.1  jmcneill }
 1.1  jmcneill
1.13     kochi static ACPI_STATUS
1.13     kochi acpitz_switch_cooler(ACPI_OBJECT *obj, void *arg)
1.13     kochi {
1.13     kochi 	ACPI_HANDLE cooler;
1.13     kochi 	ACPI_STATUS rv;
1.13     kochi 	int pwr_state, flag;
1.13     kochi
1.13     kochi 	flag = *(int *)arg;
1.13     kochi
1.13     kochi 	if (flag)
1.13     kochi 		pwr_state = ACPI_STATE_D0;
1.13     kochi 	else
1.13     kochi 		pwr_state = ACPI_STATE_D3;
1.13     kochi
1.56    jruoho 	rv = acpi_eval_reference_handle(obj, &cooler);
1.56    jruoho 	if (ACPI_FAILURE(rv)) {
1.56    jruoho 		aprint_error("%s: failed to get handle\n", __func__);
1.56    jruoho 		return rv;
1.13     kochi 	}
1.13     kochi
1.13     kochi 	rv = acpi_pwr_switch_consumer(cooler, pwr_state);
1.55    jruoho 	if (rv != AE_BAD_PARAMETER && ACPI_FAILURE(rv))
1.55    jruoho 		aprint_error("%s: failed to change state for %s: %s\n",
1.55    jruoho 		    __func__, acpi_name(cooler), AcpiFormatException(rv));
1.13     kochi
1.13     kochi 	return AE_OK;
1.13     kochi }
1.13     kochi
1.13     kochi /*
1.13     kochi  * acpitz_power_zone:
1.13     kochi  *	power on or off the i:th part of the zone zone
1.13     kochi  */
1.13     kochi static void
1.13     kochi acpitz_power_zone(struct acpitz_softc *sc, int i, int on)
1.13     kochi {
1.13     kochi 	KASSERT(i >= 0 && i < ATZ_NLEVELS);
1.13     kochi
1.13     kochi 	acpi_foreach_package_object(sc->sc_zone.al[i].Pointer,
1.13     kochi 	    acpitz_switch_cooler, &on);
1.13     kochi }
1.13     kochi
1.13     kochi
1.13     kochi /*
1.13     kochi  * acpitz_power_off:
1.13     kochi  *	power off parts of the zone
1.13     kochi  */
1.13     kochi static void
1.13     kochi acpitz_power_off(struct acpitz_softc *sc)
1.13     kochi {
1.13     kochi 	int i;
1.13     kochi
1.13     kochi 	for (i = 0 ; i < ATZ_NLEVELS; i++) {
1.13     kochi 		if (sc->sc_zone.al[i].Pointer == NULL)
1.13     kochi 			continue;
1.13     kochi 		acpitz_power_zone(sc, i, 0);
1.13     kochi 	}
1.13     kochi 	sc->sc_active = ATZ_ACTIVE_NONE;
1.13     kochi 	sc->sc_flags &= ~(ATZ_F_CRITICAL|ATZ_F_HOT|ATZ_F_PASSIVE);
1.13     kochi }
1.13     kochi
1.13     kochi static void
1.14    martin acpitz_get_zone(void *opaque, int verbose)
1.13     kochi {
1.33   xtraeme 	device_t dv = opaque;
1.33   xtraeme 	struct acpitz_softc *sc = device_private(dv);
1.13     kochi 	ACPI_STATUS rv;
1.13     kochi 	char buf[8];
1.13     kochi 	int i, valid_levels;
1.13     kochi
1.29  jmcneill 	if (!sc->sc_first) {
1.13     kochi 		acpitz_power_off(sc);
1.13     kochi
1.13     kochi 		for (i = 0; i < ATZ_NLEVELS; i++) {
1.13     kochi 			if (sc->sc_zone.al[i].Pointer != NULL)
1.47   mlelstv 				ACPI_FREE(sc->sc_zone.al[i].Pointer);
1.13     kochi 			sc->sc_zone.al[i].Pointer = NULL;
1.13     kochi 		}
1.63    jruoho 	}
1.13     kochi
1.13     kochi 	valid_levels = 0;
1.13     kochi
1.13     kochi 	for (i = 0; i < ATZ_NLEVELS; i++) {
1.13     kochi 		ACPI_OBJECT *obj;
1.13     kochi
1.13     kochi 		snprintf(buf, sizeof(buf), "_AC%d", i);
1.33   xtraeme 		if (acpitz_get_integer(dv, buf, &sc->sc_zone.ac[i]))
1.13     kochi 			continue;
1.13     kochi
1.13     kochi 		snprintf(buf, sizeof(buf), "_AL%d", i);
1.13     kochi 		rv = acpi_eval_struct(sc->sc_devnode->ad_handle, buf,
1.13     kochi 		    &sc->sc_zone.al[i]);
1.13     kochi 		if (ACPI_FAILURE(rv)) {
1.13     kochi 			sc->sc_zone.al[i].Pointer = NULL;
1.13     kochi 			continue;
1.13     kochi 		}
1.13     kochi
1.13     kochi 		obj = sc->sc_zone.al[i].Pointer;
1.13     kochi 		if (obj != NULL) {
1.13     kochi 			if (obj->Type != ACPI_TYPE_PACKAGE) {
1.29  jmcneill 				aprint_error("%d not package\n", i);
1.47   mlelstv 				ACPI_FREE(obj);
1.13     kochi 				sc->sc_zone.al[i].Pointer = NULL;
1.13     kochi 				continue;
1.13     kochi 			}
1.13     kochi 		}
1.13     kochi
1.29  jmcneill 		if (sc->sc_first)
1.29  jmcneill 			aprint_normal(" active cooling level %d: %sC", i,
1.13     kochi 			    acpitz_celcius_string(sc->sc_zone.ac[i]));
1.13     kochi
1.13     kochi 		valid_levels++;
1.13     kochi 	}
1.13     kochi
1.33   xtraeme 	acpitz_get_integer(dv, "_TMP", &sc->sc_zone.tmp);
1.33   xtraeme 	acpitz_get_integer(dv, "_CRT", &sc->sc_zone.crt);
1.33   xtraeme 	acpitz_get_integer(dv, "_HOT", &sc->sc_zone.hot);
1.54    jruoho 	acpitz_get_integer(dv, "_PSV", &sc->sc_zone.psv);
1.54    jruoho 	acpitz_get_integer(dv, "_TC1", &sc->sc_zone.tc1);
1.54    jruoho 	acpitz_get_integer(dv, "_TC2", &sc->sc_zone.tc2);
1.54    jruoho
1.54    jruoho #if 0
1.47   mlelstv 	sc->sc_zone.psl.Length = ACPI_ALLOCATE_LOCAL_BUFFER;
1.13     kochi 	sc->sc_zone.psl.Pointer = NULL;
1.49    cegger 	AcpiEvaluateObject(sc->sc_devnode->ad_handle,
1.49    cegger 	    "_PSL", NULL, &sc->sc_zone.psl);
1.54    jruoho #endif
1.13     kochi
1.48    cegger 	/* ACPI spec: If _RTV is not present or present and zero,
1.48    cegger 	 * values are absolute. */
1.48    cegger 	acpitz_get_integer(dv, "_RTV", &sc->sc_zone.rtv);
1.48    cegger 	if (sc->sc_zone.rtv == ATZ_TMP_INVALID)
1.48    cegger 		sc->sc_zone.rtv = 0;
1.48    cegger
1.48    cegger
1.13     kochi 	acpitz_sane_temp(&sc->sc_zone.tmp);
1.13     kochi 	acpitz_sane_temp(&sc->sc_zone.crt);
1.13     kochi 	acpitz_sane_temp(&sc->sc_zone.hot);
1.13     kochi 	acpitz_sane_temp(&sc->sc_zone.psv);
1.13     kochi
1.63    jruoho 	if (verbose != 0) {
1.63    jruoho 		aprint_verbose_dev(dv, "");
1.63    jruoho
1.14    martin 		if (sc->sc_zone.crt != ATZ_TMP_INVALID)
1.63    jruoho 			aprint_verbose("critical %s C",
1.14    martin 			    acpitz_celcius_string(sc->sc_zone.crt));
1.63    jruoho
1.14    martin 		if (sc->sc_zone.hot != ATZ_TMP_INVALID)
1.63    jruoho 			aprint_verbose(" hot %s C",
1.14    martin 			    acpitz_celcius_string(sc->sc_zone.hot));
1.63    jruoho
1.14    martin 		if (sc->sc_zone.psv != ATZ_TMP_INVALID)
1.63    jruoho 			aprint_normal(" passive %s C",
1.59  pgoyette 			    acpitz_celcius_string(sc->sc_zone.psv));
1.29  jmcneill 	}
1.29  jmcneill
1.29  jmcneill 	if (valid_levels == 0) {
1.29  jmcneill 		sc->sc_flags |= ATZ_F_PASSIVEONLY;
1.63    jruoho
1.29  jmcneill 		if (sc->sc_first)
1.63    jruoho 			aprint_verbose(", passive cooling");
1.29  jmcneill 	}
1.63    jruoho
1.63    jruoho 	if (verbose != 0)
1.63    jruoho 		aprint_verbose("\n");
1.13     kochi
1.13     kochi 	for (i = 0; i < ATZ_NLEVELS; i++)
1.13     kochi 		acpitz_sane_temp(&sc->sc_zone.ac[i]);
1.13     kochi
1.13     kochi 	acpitz_power_off(sc);
1.29  jmcneill 	sc->sc_first = 0;
1.13     kochi }
1.13     kochi
1.11     kochi static void
1.20  christos acpitz_notify_handler(ACPI_HANDLE hdl, UINT32 notify, void *opaque)
 1.1  jmcneill {
1.33   xtraeme 	device_t dv = opaque;
1.15     kochi 	ACPI_OSD_EXEC_CALLBACK func = NULL;
1.13     kochi 	const char *name;
1.46  jmcneill 	ACPI_STATUS rv;
 1.1  jmcneill
 1.1  jmcneill 	switch (notify) {
 1.1  jmcneill 	case ACPI_NOTIFY_ThermalZoneStatusChanged:
1.13     kochi 		func = acpitz_get_status;
1.13     kochi 		name = "status check";
1.13     kochi 		break;
 1.1  jmcneill 	case ACPI_NOTIFY_ThermalZoneTripPointsChanged:
1.13     kochi 	case ACPI_NOTIFY_DeviceListsChanged:
1.14    martin 		func = acpitz_get_zone_quiet;
1.13     kochi 		name = "get zone";
 1.1  jmcneill 		break;
 1.1  jmcneill 	default:
1.33   xtraeme 		aprint_debug_dev(dv,
1.33   xtraeme 		    "received unhandled notify message 0x%x\n", notify);
1.13     kochi 		return;
 1.1  jmcneill 	}
 1.1  jmcneill
1.13     kochi 	KASSERT(func != NULL);
1.13     kochi
1.33   xtraeme 	rv = AcpiOsExecute(OSL_NOTIFY_HANDLER, func, dv);
1.46  jmcneill 	if (ACPI_FAILURE(rv))
1.33   xtraeme 		aprint_debug_dev(dv, "unable to queue %s\n", name);
 1.1  jmcneill }
 1.1  jmcneill
 1.1  jmcneill static void
1.13     kochi acpitz_sane_temp(UINT32 *tmp)
1.13     kochi {
1.13     kochi 	/* Sane temperatures are beteen 0 and 150 C */
1.13     kochi 	if (*tmp < ATZ_ZEROC || *tmp > ATZ_ZEROC + 1500)
1.13     kochi 		*tmp = ATZ_TMP_INVALID;
1.13     kochi }
1.13     kochi
1.13     kochi static int
1.33   xtraeme acpitz_get_integer(device_t dv, const char *cm, UINT32 *val)
1.13     kochi {
1.33   xtraeme 	struct acpitz_softc *sc = device_private(dv);
1.13     kochi 	ACPI_STATUS rv;
1.13     kochi 	ACPI_INTEGER tmp;
1.13     kochi
1.13     kochi 	rv = acpi_eval_integer(sc->sc_devnode->ad_handle, cm, &tmp);
1.63    jruoho
1.13     kochi 	if (ACPI_FAILURE(rv)) {
1.13     kochi 		*val = ATZ_TMP_INVALID;
1.63    jruoho
1.63    jruoho 		if (rv != AE_NOT_FOUND)
1.63    jruoho 			aprint_debug_dev(dv, "failed to evaluate %s: %s\n",
1.63    jruoho 			    cm, AcpiFormatException(rv));
1.63    jruoho
1.13     kochi 		return 1;
1.13     kochi 	}
1.13     kochi
1.13     kochi 	*val = tmp;
1.13     kochi
1.13     kochi 	return 0;
1.13     kochi }
1.13     kochi
1.49    cegger static int
1.49    cegger acpitz_get_fanspeed(device_t dv,
1.49    cegger     UINT32 *fanmin, UINT32 *fanmax, UINT32 *fancurrent)
1.49    cegger {
1.49    cegger 	struct acpitz_softc *sc = device_private(dv);
1.49    cegger 	ACPI_STATUS rv;
1.49    cegger 	ACPI_HANDLE handle;
1.49    cegger 	ACPI_INTEGER fmin, fmax, fcurr;
1.49    cegger 	int rc = 0;
1.49    cegger
1.49    cegger 	handle = sc->sc_devnode->ad_handle;
1.49    cegger 	rv = acpi_eval_integer(handle, "FMIN", &fmin);
1.49    cegger 	if (ACPI_FAILURE(rv)) {
1.49    cegger 		fmin = ATZ_TMP_INVALID;
1.49    cegger 		rc = 1;
1.49    cegger 	}
1.49    cegger 	rv = acpi_eval_integer(handle, "FMAX", &fmax);
1.49    cegger 	if (ACPI_FAILURE(rv)) {
1.49    cegger 		fmax = ATZ_TMP_INVALID;
1.49    cegger 		rc = 1;
1.49    cegger 	}
1.49    cegger 	rv = acpi_eval_integer(handle, "FRSP", &fcurr);
1.49    cegger 	if (ACPI_FAILURE(rv)) {
1.49    cegger 		fcurr = ATZ_TMP_INVALID;
1.49    cegger 		rc = 1;
1.49    cegger 	}
1.49    cegger
1.49    cegger 	if (fanmin)
1.49    cegger 		*fanmin = fmin;
1.49    cegger 	if (fanmax)
1.49    cegger 		*fanmax = fmax;
1.49    cegger 	if (fancurrent)
1.49    cegger 		*fancurrent = fcurr;
1.49    cegger 	return rc;
1.49    cegger }
1.49    cegger
1.49    cegger #ifdef notyet
1.49    cegger static ACPI_STATUS
1.49    cegger acpitz_set_fanspeed(device_t dv, UINT32 fanspeed)
1.49    cegger {
1.49    cegger 	struct acpitz_softc *sc = device_private(dv);
1.49    cegger 	ACPI_STATUS rv;
1.49    cegger 	ACPI_HANDLE handle;
1.49    cegger 	handle = sc->sc_devnode->ad_handle;
1.49    cegger
1.49    cegger 	rv = acpi_eval_set_integer(handle, "FSSP", fanspeed);
1.49    cegger 	if (ACPI_FAILURE(rv))
1.49    cegger 		aprint_debug_dev(dv, "failed to set fanspeed to %u rpm: %s\n",
1.49    cegger 			fanspeed, AcpiFormatException(rv));
1.49    cegger 	return rv;
1.49    cegger }
1.49    cegger #endif
1.49    cegger
1.13     kochi static void
 1.1  jmcneill acpitz_tick(void *opaque)
 1.1  jmcneill {
1.33   xtraeme 	device_t dv = opaque;
1.33   xtraeme 	struct acpitz_softc *sc = device_private(dv);
 1.1  jmcneill
1.33   xtraeme 	AcpiOsExecute(OSL_NOTIFY_HANDLER, acpitz_get_status, dv);
 1.1  jmcneill
1.25     joerg 	callout_schedule(&sc->sc_callout, sc->sc_zone.tzp * hz / 10);
 1.1  jmcneill }
 1.1  jmcneill
 1.1  jmcneill static void
1.33   xtraeme acpitz_init_envsys(device_t dv)
 1.1  jmcneill {
1.33   xtraeme 	struct acpitz_softc *sc = device_private(dv);
1.33   xtraeme
1.27   xtraeme 	sc->sc_sme = sysmon_envsys_create();
1.42  pgoyette 	sc->sc_sme->sme_get_limits = acpitz_get_limits;
1.42  pgoyette 	sc->sc_sme->sme_cookie = sc;
1.42  pgoyette 	sc->sc_sme->sme_name = device_xname(dv);
1.42  pgoyette 	sc->sc_sme->sme_flags = SME_DISABLE_REFRESH;
1.49    cegger
1.49    cegger 	sc->sc_temp_sensor.flags = ENVSYS_FMONLIMITS | ENVSYS_FMONNOTSUPP;
1.49    cegger 	sc->sc_temp_sensor.units = ENVSYS_STEMP;
1.49    cegger 	strlcpy(sc->sc_temp_sensor.desc,
1.49    cegger 	    sc->sc_zone.name, sizeof(sc->sc_temp_sensor.desc));
1.49    cegger 	if (sysmon_envsys_sensor_attach(sc->sc_sme, &sc->sc_temp_sensor))
1.42  pgoyette 		goto out;
1.42  pgoyette
1.49    cegger 	if (sc->sc_have_fan) {
1.49    cegger 		sc->sc_fan_sensor.flags =
1.49    cegger 		    ENVSYS_FMONLIMITS | ENVSYS_FMONNOTSUPP;
1.49    cegger 		sc->sc_fan_sensor.units = ENVSYS_SFANRPM;
1.49    cegger 		strlcpy(sc->sc_fan_sensor.desc,
1.49    cegger 		    "FAN", sizeof(sc->sc_fan_sensor.desc));
1.49    cegger 		if (sysmon_envsys_sensor_attach(sc->sc_sme, &sc->sc_fan_sensor))
1.49    cegger 			/* ignore error because fan sensor is optional */
1.49    cegger 			aprint_error_dev(dv, "unable to attach fan sensor\n");
1.49    cegger 	}
1.49    cegger
1.42  pgoyette 	/* hook into sysmon */
1.42  pgoyette 	if (sysmon_envsys_register(sc->sc_sme) == 0)
1.27   xtraeme 		return;
1.49    cegger
1.42  pgoyette out:
1.42  pgoyette 	aprint_error_dev(dv, "unable to register with sysmon\n");
1.42  pgoyette 	sysmon_envsys_destroy(sc->sc_sme);
1.42  pgoyette }
1.42  pgoyette
1.42  pgoyette static void
1.42  pgoyette acpitz_get_limits(struct sysmon_envsys *sme, envsys_data_t *edata,
1.58  pgoyette 		  sysmon_envsys_lim_t *limits, uint32_t *props)
1.42  pgoyette {
1.42  pgoyette 	struct acpitz_softc *sc = sme->sme_cookie;
1.42  pgoyette 	int i;
 1.1  jmcneill
1.49    cegger 	switch (edata->units) {
1.49    cegger 	case ENVSYS_STEMP:
1.58  pgoyette 		*props = 0;
1.49    cegger 		if (sc->sc_zone.hot != ATZ_TMP_INVALID) {
1.58  pgoyette 			*props |= PROP_CRITMAX;
1.49    cegger 			limits->sel_critmax = ATZ2UKELVIN(sc->sc_zone.hot);
1.49    cegger 		} else if (sc->sc_zone.crt != ATZ_TMP_INVALID) {
1.58  pgoyette 			*props |= PROP_CRITMAX;
1.49    cegger 			limits->sel_critmax = ATZ2UKELVIN(sc->sc_zone.crt);
1.49    cegger 		}
1.49    cegger 		for (i = 0; i < ATZ_NLEVELS; i++) {
1.49    cegger 			if (sc->sc_zone.ac[i] != ATZ_TMP_INVALID) {
1.51  pgoyette 				limits->sel_warnmax =
1.49    cegger 				    ATZ2UKELVIN(sc->sc_zone.ac[i]);
1.58  pgoyette 				*props |= PROP_WARNMAX;
1.49    cegger 				break;
1.49    cegger 			}
1.49    cegger 		}
1.49    cegger 		break;
1.49    cegger
1.49    cegger 	case ENVSYS_SFANRPM:
1.58  pgoyette 		*props = 0;
1.49    cegger 		if (sc->sc_zone.fanmin != ATZ_TMP_INVALID) {
1.58  pgoyette 			*props |= PROP_WARNMIN;
1.49    cegger 			limits->sel_warnmin = sc->sc_zone.fanmin;
1.49    cegger 			sc->sc_fan_sensor.flags |= ENVSYS_FVALID_MIN;
1.49    cegger 		}
1.49    cegger 		if (sc->sc_zone.fanmax != ATZ_TMP_INVALID) {
1.58  pgoyette 			*props |= PROP_WARNMAX;
1.49    cegger 			limits->sel_warnmax = sc->sc_zone.fanmax;
1.49    cegger 			sc->sc_fan_sensor.flags |= ENVSYS_FVALID_MAX;
1.42  pgoyette 		}
1.49    cegger 		break;
1.49    cegger 	}
 1.1  jmcneill }