dev/acpi/acpi_cpu_pstate.c

1.8  jruoho /* $NetBSD: acpi_cpu_pstate.c,v 1.8 2010/08/11 10:44:07 jruoho Exp $ */
1.1  jruoho
1.1  jruoho /*-
1.1  jruoho  * Copyright (c) 2010 Jukka Ruohonen <jruohonen (at) iki.fi>
1.1  jruoho  * All rights reserved.
1.1  jruoho  *
1.1  jruoho  * Redistribution and use in source and binary forms, with or without
1.1  jruoho  * modification, are permitted provided that the following conditions
1.1  jruoho  * are met:
1.1  jruoho  *
1.1  jruoho  * 1. Redistributions of source code must retain the above copyright
1.1  jruoho  *    notice, this list of conditions and the following disclaimer.
1.1  jruoho  * 2. Redistributions in binary form must reproduce the above copyright
1.1  jruoho  *    notice, this list of conditions and the following disclaimer in the
1.1  jruoho  *    documentation and/or other materials provided with the distribution.
1.1  jruoho  *
1.1  jruoho  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
1.1  jruoho  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.1  jruoho  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.1  jruoho  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
1.1  jruoho  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.1  jruoho  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.1  jruoho  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.1  jruoho  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.1  jruoho  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.1  jruoho  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.1  jruoho  * SUCH DAMAGE.
1.1  jruoho  */
1.1  jruoho #include <sys/cdefs.h>
1.8  jruoho __KERNEL_RCSID(0, "$NetBSD: acpi_cpu_pstate.c,v 1.8 2010/08/11 10:44:07 jruoho Exp $");
1.1  jruoho
1.1  jruoho #include <sys/param.h>
1.7  jruoho #include <sys/evcnt.h>
1.1  jruoho #include <sys/kmem.h>
1.1  jruoho #include <sys/once.h>
1.1  jruoho
1.1  jruoho #include <dev/acpi/acpireg.h>
1.1  jruoho #include <dev/acpi/acpivar.h>
1.1  jruoho #include <dev/acpi/acpi_cpu.h>
1.1  jruoho
1.1  jruoho #define _COMPONENT	 ACPI_BUS_COMPONENT
1.1  jruoho ACPI_MODULE_NAME	 ("acpi_cpu_pstate")
1.1  jruoho
1.1  jruoho static void		 acpicpu_pstate_attach_print(struct acpicpu_softc *);
1.7  jruoho static void		 acpicpu_pstate_attach_evcnt(struct acpicpu_softc *);
1.7  jruoho static void		 acpicpu_pstate_detach_evcnt(struct acpicpu_softc *);
1.1  jruoho static ACPI_STATUS	 acpicpu_pstate_pss(struct acpicpu_softc *sc);
1.1  jruoho static ACPI_STATUS	 acpicpu_pstate_pss_add(struct acpicpu_pstate *,
1.1  jruoho 						ACPI_OBJECT *);
1.1  jruoho static ACPI_STATUS	 acpicpu_pstate_pct(struct acpicpu_softc *);
1.1  jruoho static int		 acpicpu_pstate_max(struct acpicpu_softc *);
1.1  jruoho static void		 acpicpu_pstate_change(struct acpicpu_softc *);
1.1  jruoho static void		 acpicpu_pstate_bios(void);
1.1  jruoho
1.1  jruoho void
1.1  jruoho acpicpu_pstate_attach(device_t self)
1.1  jruoho {
1.1  jruoho 	struct acpicpu_softc *sc = device_private(self);
1.3  jruoho 	const char *str;
1.1  jruoho 	ACPI_STATUS rv;
1.1  jruoho
1.1  jruoho 	rv = acpicpu_pstate_pss(sc);
1.1  jruoho
1.3  jruoho 	if (ACPI_FAILURE(rv)) {
1.3  jruoho 		str = "_PSS";
1.3  jruoho 		goto fail;
1.3  jruoho 	}
1.1  jruoho
1.1  jruoho 	rv = acpicpu_pstate_pct(sc);
1.1  jruoho
1.3  jruoho 	if (rv == AE_SUPPORT) {
1.3  jruoho 		aprint_error_dev(sc->sc_dev, "CPU not supported\n");
1.1  jruoho 		return;
1.3  jruoho 	}
1.3  jruoho
1.3  jruoho 	if (ACPI_FAILURE(rv)) {
1.3  jruoho 		str = "_PCT";
1.3  jruoho 		goto fail;
1.3  jruoho 	}
1.1  jruoho
1.1  jruoho 	rv = acpicpu_pstate_max(sc);
1.1  jruoho
1.1  jruoho 	if (rv == 0)
1.1  jruoho 		sc->sc_flags |= ACPICPU_FLAG_P_PPC;
1.1  jruoho
1.1  jruoho 	sc->sc_flags |= ACPICPU_FLAG_P;
1.6  jruoho 	sc->sc_pstate_current = sc->sc_pstate[0].ps_freq;
1.1  jruoho
1.1  jruoho 	acpicpu_pstate_bios();
1.7  jruoho 	acpicpu_pstate_attach_evcnt(sc);
1.1  jruoho 	acpicpu_pstate_attach_print(sc);
1.3  jruoho
1.3  jruoho 	return;
1.3  jruoho
1.3  jruoho fail:
1.3  jruoho 	aprint_error_dev(sc->sc_dev, "failed to evaluate "
1.3  jruoho 	    "%s: %s\n", str, AcpiFormatException(rv));
1.1  jruoho }
1.1  jruoho
1.1  jruoho static void
1.1  jruoho acpicpu_pstate_attach_print(struct acpicpu_softc *sc)
1.1  jruoho {
1.1  jruoho 	const uint8_t method = sc->sc_pstate_control.reg_spaceid;
1.1  jruoho 	struct acpicpu_pstate *ps;
1.1  jruoho 	const char *str;
1.1  jruoho 	uint32_t i;
1.1  jruoho
1.8  jruoho 	str = (method != ACPI_ADR_SPACE_SYSTEM_IO) ? "FFH" : "I/O";
1.1  jruoho
1.1  jruoho 	for (i = 0; i < sc->sc_pstate_count; i++) {
1.1  jruoho
1.1  jruoho 		ps = &sc->sc_pstate[i];
1.1  jruoho
1.1  jruoho 		if (ps->ps_freq == 0)
1.1  jruoho 			continue;
1.1  jruoho
1.8  jruoho 		aprint_debug_dev(sc->sc_dev, "P%d: %3s, "
1.1  jruoho 		    "lat %3u us, pow %5u mW, %4u MHz\n",
1.1  jruoho 		    i, str, ps->ps_latency, ps->ps_power, ps->ps_freq);
1.1  jruoho 	}
1.1  jruoho }
1.1  jruoho
1.7  jruoho static void
1.7  jruoho acpicpu_pstate_attach_evcnt(struct acpicpu_softc *sc)
1.7  jruoho {
1.7  jruoho 	struct acpicpu_pstate *ps;
1.7  jruoho 	uint32_t i;
1.7  jruoho
1.7  jruoho 	for (i = 0; i < sc->sc_pstate_count; i++) {
1.7  jruoho
1.7  jruoho 		ps = &sc->sc_pstate[i];
1.7  jruoho
1.7  jruoho 		if (ps->ps_freq == 0)
1.7  jruoho 			continue;
1.7  jruoho
1.7  jruoho 		(void)snprintf(ps->ps_name, sizeof(ps->ps_name),
1.7  jruoho 		    "P%u (%u MHz)", i, ps->ps_freq);
1.7  jruoho
1.7  jruoho 		evcnt_attach_dynamic(&ps->ps_evcnt, EVCNT_TYPE_MISC,
1.7  jruoho 		    NULL, device_xname(sc->sc_dev), ps->ps_name);
1.7  jruoho 	}
1.7  jruoho }
1.7  jruoho
1.1  jruoho int
1.1  jruoho acpicpu_pstate_detach(device_t self)
1.1  jruoho {
1.1  jruoho 	struct acpicpu_softc *sc = device_private(self);
1.1  jruoho 	static ONCE_DECL(once_detach);
1.1  jruoho 	size_t size;
1.1  jruoho 	int rv;
1.1  jruoho
1.1  jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_P) == 0)
1.1  jruoho 		return 0;
1.1  jruoho
1.1  jruoho 	rv = RUN_ONCE(&once_detach, acpicpu_md_pstate_stop);
1.1  jruoho
1.1  jruoho 	if (rv != 0)
1.1  jruoho 		return rv;
1.1  jruoho
1.1  jruoho 	size = sc->sc_pstate_count * sizeof(*sc->sc_pstate);
1.1  jruoho
1.1  jruoho 	if (sc->sc_pstate != NULL)
1.1  jruoho 		kmem_free(sc->sc_pstate, size);
1.1  jruoho
1.1  jruoho 	sc->sc_flags &= ~ACPICPU_FLAG_P;
1.7  jruoho 	acpicpu_pstate_detach_evcnt(sc);
1.1  jruoho
1.1  jruoho 	return 0;
1.1  jruoho }
1.1  jruoho
1.7  jruoho static void
1.7  jruoho acpicpu_pstate_detach_evcnt(struct acpicpu_softc *sc)
1.7  jruoho {
1.7  jruoho 	struct acpicpu_pstate *ps;
1.7  jruoho 	uint32_t i;
1.7  jruoho
1.7  jruoho 	for (i = 0; i < sc->sc_pstate_count; i++) {
1.7  jruoho
1.7  jruoho 		ps = &sc->sc_pstate[i];
1.7  jruoho
1.7  jruoho 		if (ps->ps_freq != 0)
1.7  jruoho 			evcnt_detach(&ps->ps_evcnt);
1.7  jruoho 	}
1.7  jruoho }
1.7  jruoho
1.1  jruoho int
1.1  jruoho acpicpu_pstate_start(device_t self)
1.1  jruoho {
1.1  jruoho 	struct acpicpu_softc *sc = device_private(self);
1.1  jruoho 	static ONCE_DECL(once_start);
1.1  jruoho
1.1  jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_P) == 0)
1.1  jruoho 		return 0;
1.1  jruoho
1.1  jruoho 	return RUN_ONCE(&once_start, acpicpu_md_pstate_start);
1.1  jruoho }
1.1  jruoho
1.1  jruoho bool
1.1  jruoho acpicpu_pstate_suspend(device_t self)
1.1  jruoho {
1.1  jruoho
1.1  jruoho 	return true;
1.1  jruoho }
1.1  jruoho
1.1  jruoho bool
1.1  jruoho acpicpu_pstate_resume(device_t self)
1.1  jruoho {
1.1  jruoho 	static const ACPI_OSD_EXEC_CALLBACK func = acpicpu_pstate_callback;
1.1  jruoho 	struct acpicpu_softc *sc = device_private(self);
1.1  jruoho
1.1  jruoho 	KASSERT((sc->sc_flags & ACPICPU_FLAG_P) != 0);
1.1  jruoho
1.1  jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_P_PPC) != 0)
1.1  jruoho 		(void)AcpiOsExecute(OSL_NOTIFY_HANDLER, func, sc->sc_dev);
1.1  jruoho
1.1  jruoho 	return true;
1.1  jruoho }
1.1  jruoho
1.1  jruoho void
1.1  jruoho acpicpu_pstate_callback(void *aux)
1.1  jruoho {
1.1  jruoho 	struct acpicpu_softc *sc;
1.1  jruoho 	device_t self = aux;
1.1  jruoho 	uint32_t old, new;
1.1  jruoho
1.1  jruoho 	sc = device_private(self);
1.1  jruoho
1.1  jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_P_PPC) == 0)
1.1  jruoho 		return;
1.1  jruoho
1.1  jruoho 	mutex_enter(&sc->sc_mtx);
1.1  jruoho
1.1  jruoho 	old = sc->sc_pstate_max;
1.1  jruoho 	acpicpu_pstate_change(sc);
1.1  jruoho 	new = sc->sc_pstate_max;
1.1  jruoho
1.1  jruoho 	mutex_exit(&sc->sc_mtx);
1.1  jruoho
1.1  jruoho #if 0
1.1  jruoho 	if (old != new) {
1.1  jruoho
1.1  jruoho 		/*
1.1  jruoho 		 * If the maximum changed, proactively
1.1  jruoho 		 * raise or lower the target frequency.
1.1  jruoho 		 */
1.1  jruoho 		acpicpu_pstate_set(sc, sc->sc_pstate[new].ps_freq);
1.1  jruoho
1.1  jruoho 		ACPI_DEBUG_PRINT((ACPI_DB_INFO, "frequency changed from "
1.1  jruoho 			"%u MHz to %u MHz\n", sc->sc_pstate[old].ps_freq,
1.1  jruoho 			sc->sc_pstate[sc->sc_pstate_max].ps_freq));
1.1  jruoho 	}
1.1  jruoho #endif
1.1  jruoho }
1.1  jruoho
1.1  jruoho ACPI_STATUS
1.1  jruoho acpicpu_pstate_pss(struct acpicpu_softc *sc)
1.1  jruoho {
1.1  jruoho 	struct acpicpu_pstate *ps;
1.1  jruoho 	ACPI_OBJECT *obj;
1.1  jruoho 	ACPI_BUFFER buf;
1.1  jruoho 	ACPI_STATUS rv;
1.1  jruoho 	uint32_t count;
1.1  jruoho 	uint32_t i, j;
1.1  jruoho
1.1  jruoho 	rv = acpi_eval_struct(sc->sc_node->ad_handle, "_PSS", &buf);
1.1  jruoho
1.1  jruoho 	if (ACPI_FAILURE(rv))
1.1  jruoho 		return rv;
1.1  jruoho
1.1  jruoho 	obj = buf.Pointer;
1.1  jruoho
1.1  jruoho 	if (obj->Type != ACPI_TYPE_PACKAGE) {
1.1  jruoho 		rv = AE_TYPE;
1.1  jruoho 		goto out;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	sc->sc_pstate_count = obj->Package.Count;
1.1  jruoho
1.1  jruoho 	if (sc->sc_pstate_count == 0) {
1.1  jruoho 		rv = AE_NOT_EXIST;
1.1  jruoho 		goto out;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	if (sc->sc_pstate_count > 0xFF) {
1.1  jruoho 		rv = AE_LIMIT;
1.1  jruoho 		goto out;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	sc->sc_pstate = kmem_zalloc(sc->sc_pstate_count *
1.1  jruoho 	    sizeof(struct acpicpu_pstate), KM_SLEEP);
1.1  jruoho
1.1  jruoho 	if (sc->sc_pstate == NULL) {
1.1  jruoho 		rv = AE_NO_MEMORY;
1.1  jruoho 		goto out;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	for (count = i = 0; i < sc->sc_pstate_count; i++) {
1.1  jruoho
1.1  jruoho 		ps = &sc->sc_pstate[i];
1.1  jruoho 		rv = acpicpu_pstate_pss_add(ps, &obj->Package.Elements[i]);
1.1  jruoho
1.1  jruoho 		if (ACPI_FAILURE(rv))
1.1  jruoho 			continue;
1.1  jruoho
1.1  jruoho 		for (j = 0; j < i; j++) {
1.1  jruoho
1.1  jruoho 			if (ps->ps_freq >= sc->sc_pstate[j].ps_freq) {
1.1  jruoho 				ps->ps_freq = 0;
1.1  jruoho 				break;
1.1  jruoho 			}
1.1  jruoho 		}
1.1  jruoho
1.1  jruoho 		if (ps->ps_freq != 0)
1.1  jruoho 			count++;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	rv = (count != 0) ? AE_OK : AE_NOT_EXIST;
1.1  jruoho
1.1  jruoho out:
1.1  jruoho 	if (buf.Pointer != NULL)
1.1  jruoho 		ACPI_FREE(buf.Pointer);
1.1  jruoho
1.1  jruoho 	return rv;
1.1  jruoho }
1.1  jruoho
1.1  jruoho static ACPI_STATUS
1.1  jruoho acpicpu_pstate_pss_add(struct acpicpu_pstate *ps, ACPI_OBJECT *obj)
1.1  jruoho {
1.1  jruoho 	ACPI_OBJECT *elm;
1.1  jruoho 	uint32_t val[6];
1.1  jruoho 	uint32_t *p;
1.1  jruoho 	int i;
1.1  jruoho
1.1  jruoho 	if (obj->Type != ACPI_TYPE_PACKAGE)
1.1  jruoho 		return AE_TYPE;
1.1  jruoho
1.1  jruoho 	if (obj->Package.Count != 6)
1.1  jruoho 		return AE_BAD_DATA;
1.1  jruoho
1.1  jruoho 	elm = obj->Package.Elements;
1.1  jruoho
1.1  jruoho 	for (i = 0; i < 6; i++) {
1.1  jruoho
1.1  jruoho 		if (elm[i].Type != ACPI_TYPE_INTEGER)
1.1  jruoho 			return AE_TYPE;
1.1  jruoho
1.1  jruoho 		if (elm[i].Integer.Value > UINT32_MAX)
1.1  jruoho 			return AE_AML_NUMERIC_OVERFLOW;
1.1  jruoho
1.1  jruoho 		val[i] = elm[i].Integer.Value;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	if (val[0] == 0 || val[0] >= 0xFFFF)
1.1  jruoho 		return AE_BAD_DECIMAL_CONSTANT;
1.1  jruoho
1.1  jruoho 	CTASSERT(sizeof(val) == sizeof(struct acpicpu_pstate) -
1.1  jruoho 	         offsetof(struct acpicpu_pstate, ps_freq));
1.1  jruoho
1.1  jruoho 	p = &ps->ps_freq;
1.1  jruoho
1.1  jruoho 	for (i = 0; i < 6; i++, p++)
1.1  jruoho 		*p = val[i];
1.1  jruoho
1.1  jruoho 	/*
1.1  jruoho 	 * The latency is typically around 10 usec
1.1  jruoho 	 * on Intel CPUs. Use that as the minimum.
1.1  jruoho 	 */
1.1  jruoho 	if (ps->ps_latency < 10)
1.1  jruoho 		ps->ps_latency = 10;
1.1  jruoho
1.1  jruoho 	return AE_OK;
1.1  jruoho }
1.1  jruoho
1.1  jruoho ACPI_STATUS
1.1  jruoho acpicpu_pstate_pct(struct acpicpu_softc *sc)
1.1  jruoho {
1.1  jruoho 	static const size_t size = sizeof(struct acpicpu_reg);
1.1  jruoho 	struct acpicpu_reg *reg[2];
1.1  jruoho 	ACPI_OBJECT *elm, *obj;
1.1  jruoho 	ACPI_BUFFER buf;
1.1  jruoho 	ACPI_STATUS rv;
1.1  jruoho 	uint8_t width;
1.1  jruoho 	int i;
1.1  jruoho
1.1  jruoho 	rv = acpi_eval_struct(sc->sc_node->ad_handle, "_PCT", &buf);
1.1  jruoho
1.1  jruoho 	if (ACPI_FAILURE(rv))
1.1  jruoho 		return rv;
1.1  jruoho
1.1  jruoho 	obj = buf.Pointer;
1.1  jruoho
1.1  jruoho 	if (obj->Type != ACPI_TYPE_PACKAGE) {
1.1  jruoho 		rv = AE_TYPE;
1.1  jruoho 		goto out;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	if (obj->Package.Count != 2) {
1.1  jruoho 		rv = AE_LIMIT;
1.1  jruoho 		goto out;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	for (i = 0; i < 2; i++) {
1.1  jruoho
1.1  jruoho 		elm = &obj->Package.Elements[i];
1.1  jruoho
1.1  jruoho 		if (elm->Type != ACPI_TYPE_BUFFER) {
1.1  jruoho 			rv = AE_TYPE;
1.1  jruoho 			goto out;
1.1  jruoho 		}
1.1  jruoho
1.1  jruoho 		if (size > elm->Buffer.Length) {
1.1  jruoho 			rv = AE_AML_BAD_RESOURCE_LENGTH;
1.1  jruoho 			goto out;
1.1  jruoho 		}
1.1  jruoho
1.1  jruoho 		reg[i] = (struct acpicpu_reg *)elm->Buffer.Pointer;
1.1  jruoho
1.1  jruoho 		switch (reg[i]->reg_spaceid) {
1.1  jruoho
1.1  jruoho 		case ACPI_ADR_SPACE_SYSTEM_IO:
1.1  jruoho
1.1  jruoho 			if (reg[i]->reg_addr == 0) {
1.1  jruoho 				rv = AE_AML_ILLEGAL_ADDRESS;
1.1  jruoho 				goto out;
1.1  jruoho 			}
1.1  jruoho
1.1  jruoho 			width = reg[i]->reg_bitwidth;
1.1  jruoho
1.1  jruoho 			if (width != 8 && width != 16 && width != 32) {
1.4  jruoho 				rv = AE_AML_BAD_RESOURCE_VALUE;
1.1  jruoho 				goto out;
1.1  jruoho 			}
1.1  jruoho
1.1  jruoho 			break;
1.1  jruoho
1.1  jruoho 		case ACPI_ADR_SPACE_FIXED_HARDWARE:
1.1  jruoho
1.1  jruoho 			if ((sc->sc_flags & ACPICPU_FLAG_P_FFH) == 0) {
1.4  jruoho 				rv = AE_SUPPORT;
1.1  jruoho 				goto out;
1.1  jruoho 			}
1.1  jruoho
1.1  jruoho 			break;
1.1  jruoho
1.1  jruoho 		default:
1.1  jruoho 			rv = AE_AML_INVALID_SPACE_ID;
1.1  jruoho 			goto out;
1.1  jruoho 		}
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	if (reg[0]->reg_spaceid != reg[1]->reg_spaceid) {
1.1  jruoho 		rv = AE_AML_INVALID_SPACE_ID;
1.1  jruoho 		goto out;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	(void)memcpy(&sc->sc_pstate_control, reg[0], size); /* PERF_CTRL   */
1.1  jruoho 	(void)memcpy(&sc->sc_pstate_status,  reg[1], size); /* PERF_STATUS */
1.1  jruoho
1.1  jruoho out:
1.1  jruoho 	if (buf.Pointer != NULL)
1.1  jruoho 		ACPI_FREE(buf.Pointer);
1.1  jruoho
1.1  jruoho 	return rv;
1.1  jruoho }
1.1  jruoho
1.1  jruoho static int
1.1  jruoho acpicpu_pstate_max(struct acpicpu_softc *sc)
1.1  jruoho {
1.1  jruoho 	ACPI_INTEGER val;
1.1  jruoho 	ACPI_STATUS rv;
1.1  jruoho
1.1  jruoho 	/*
1.1  jruoho 	 * Evaluate the currently highest P-state that can be used.
1.1  jruoho 	 * If available, we can use either this state or any lower
1.1  jruoho 	 * power (i.e. higher numbered) state from the _PSS object.
1.1  jruoho 	 */
1.1  jruoho 	rv = acpi_eval_integer(sc->sc_node->ad_handle, "_PPC", &val);
1.1  jruoho
1.1  jruoho 	sc->sc_pstate_max = 0;
1.1  jruoho
1.1  jruoho 	if (ACPI_FAILURE(rv))
1.1  jruoho 		return 1;
1.1  jruoho
1.1  jruoho 	if (val > (uint64_t)sc->sc_pstate_count)
1.1  jruoho 		return 1;
1.1  jruoho
1.1  jruoho 	if (sc->sc_pstate[val].ps_freq == 0)
1.1  jruoho 		return 1;
1.1  jruoho
1.1  jruoho 	sc->sc_pstate_max = val;		/* XXX: sysctl(8) knob?  */
1.1  jruoho
1.1  jruoho 	return 0;
1.1  jruoho }
1.1  jruoho
1.1  jruoho static void
1.1  jruoho acpicpu_pstate_change(struct acpicpu_softc *sc)
1.1  jruoho {
1.1  jruoho 	ACPI_OBJECT_LIST arg;
1.1  jruoho 	ACPI_OBJECT obj[2];
1.1  jruoho
1.1  jruoho 	arg.Count = 2;
1.1  jruoho 	arg.Pointer = obj;
1.1  jruoho
1.1  jruoho 	obj[0].Type = ACPI_TYPE_INTEGER;
1.1  jruoho 	obj[1].Type = ACPI_TYPE_INTEGER;
1.1  jruoho
1.1  jruoho 	obj[0].Integer.Value = ACPICPU_P_NOTIFY;
1.1  jruoho 	obj[1].Integer.Value = acpicpu_pstate_max(sc);
1.1  jruoho
1.1  jruoho 	(void)AcpiEvaluateObject(sc->sc_node->ad_handle, "_OST", &arg, NULL);
1.1  jruoho }
1.1  jruoho
1.1  jruoho static void
1.1  jruoho acpicpu_pstate_bios(void)
1.1  jruoho {
1.1  jruoho 	const uint8_t val = AcpiGbl_FADT.PstateControl;
1.1  jruoho 	const uint32_t addr = AcpiGbl_FADT.SmiCommand;
1.1  jruoho
1.1  jruoho 	if (addr == 0)
1.1  jruoho 		return;
1.1  jruoho
1.1  jruoho 	(void)AcpiOsWritePort(addr, val, 8);
1.1  jruoho }
1.1  jruoho
1.1  jruoho int
1.1  jruoho acpicpu_pstate_get(struct acpicpu_softc *sc, uint32_t *freq)
1.1  jruoho {
1.1  jruoho 	const uint8_t method = sc->sc_pstate_control.reg_spaceid;
1.1  jruoho 	struct acpicpu_pstate *ps = NULL;
1.1  jruoho 	uint32_t i, val = 0;
1.1  jruoho 	uint64_t addr;
1.1  jruoho 	uint8_t width;
1.1  jruoho 	int rv;
1.1  jruoho
1.1  jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_P) == 0) {
1.1  jruoho 		rv = ENODEV;
1.1  jruoho 		goto fail;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	if (sc->sc_pstate_current != ACPICPU_P_STATE_UNKNOWN) {
1.1  jruoho 		*freq = sc->sc_pstate_current;
1.1  jruoho 		return 0;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	switch (method) {
1.1  jruoho
1.1  jruoho 	case ACPI_ADR_SPACE_FIXED_HARDWARE:
1.1  jruoho
1.1  jruoho 		rv = acpicpu_md_pstate_get(sc, freq);
1.1  jruoho
1.1  jruoho 		if (rv != 0)
1.1  jruoho 			goto fail;
1.1  jruoho
1.1  jruoho 		break;
1.1  jruoho
1.1  jruoho 	case ACPI_ADR_SPACE_SYSTEM_IO:
1.1  jruoho
1.1  jruoho 		addr  = sc->sc_pstate_status.reg_addr;
1.1  jruoho 		width = sc->sc_pstate_status.reg_bitwidth;
1.1  jruoho
1.1  jruoho 		(void)AcpiOsReadPort(addr, &val, width);
1.1  jruoho
1.1  jruoho 		if (val == 0) {
1.1  jruoho 			rv = EIO;
1.1  jruoho 			goto fail;
1.1  jruoho 		}
1.1  jruoho
1.1  jruoho 		mutex_enter(&sc->sc_mtx);
1.1  jruoho
1.5  jruoho 		for (i = 0; i < sc->sc_pstate_count; i++) {
1.1  jruoho
1.1  jruoho 			if (sc->sc_pstate[i].ps_freq == 0)
1.1  jruoho 				continue;
1.1  jruoho
1.1  jruoho 			if (val == sc->sc_pstate[i].ps_status) {
1.1  jruoho 				ps = &sc->sc_pstate[i];
1.1  jruoho 				break;
1.1  jruoho 			}
1.1  jruoho 		}
1.1  jruoho
1.1  jruoho 		mutex_exit(&sc->sc_mtx);
1.1  jruoho
1.1  jruoho 		if (ps == NULL) {
1.1  jruoho 			rv = EIO;
1.1  jruoho 			goto fail;
1.1  jruoho 		}
1.1  jruoho
1.1  jruoho 		*freq = ps->ps_freq;
1.1  jruoho 		break;
1.1  jruoho
1.1  jruoho 	default:
1.1  jruoho 		rv = ENOTTY;
1.1  jruoho 		goto fail;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	sc->sc_pstate_current = *freq;
1.1  jruoho
1.1  jruoho 	return 0;
1.1  jruoho
1.1  jruoho fail:
1.1  jruoho 	aprint_error_dev(sc->sc_dev, "failed "
1.1  jruoho 	    "to get frequency (err %d)\n", rv);
1.1  jruoho
1.1  jruoho 	*freq = sc->sc_pstate_current = ACPICPU_P_STATE_UNKNOWN;
1.1  jruoho
1.1  jruoho 	return rv;
1.1  jruoho }
1.1  jruoho
1.1  jruoho int
1.1  jruoho acpicpu_pstate_set(struct acpicpu_softc *sc, uint32_t freq)
1.1  jruoho {
1.1  jruoho 	const uint8_t method = sc->sc_pstate_control.reg_spaceid;
1.1  jruoho 	struct acpicpu_pstate *ps = NULL;
1.1  jruoho 	uint32_t i, val;
1.1  jruoho 	uint64_t addr;
1.1  jruoho 	uint8_t width;
1.1  jruoho 	int rv;
1.1  jruoho
1.1  jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_P) == 0) {
1.1  jruoho 		rv = ENODEV;
1.1  jruoho 		goto fail;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	mutex_enter(&sc->sc_mtx);
1.1  jruoho
1.1  jruoho 	for (i = sc->sc_pstate_max; i < sc->sc_pstate_count; i++) {
1.1  jruoho
1.1  jruoho 		if (sc->sc_pstate[i].ps_freq == 0)
1.1  jruoho 			continue;
1.1  jruoho
1.1  jruoho 		if (sc->sc_pstate[i].ps_freq == freq) {
1.1  jruoho 			ps = &sc->sc_pstate[i];
1.1  jruoho 			break;
1.1  jruoho 		}
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	mutex_exit(&sc->sc_mtx);
1.1  jruoho
1.1  jruoho 	if (ps == NULL) {
1.1  jruoho 		rv = EINVAL;
1.1  jruoho 		goto fail;
1.1  jruoho 	}
1.1  jruoho
1.1  jruoho 	switch (method) {
1.1  jruoho
1.1  jruoho 	case ACPI_ADR_SPACE_FIXED_HARDWARE:
1.1  jruoho
1.1  jruoho 		rv = acpicpu_md_pstate_set(ps);
1.1  jruoho
1.1  jruoho 		if (rv != 0)
1.1  jruoho 			goto fail;
1.1  jruoho
1.1  jruoho 		break;
1.1  jruoho
1.1  jruoho 	case ACPI_ADR_SPACE_SYSTEM_IO:
1.1  jruoho
1.1  jruoho 		addr  = sc->sc_pstate_control.reg_addr;
1.1  jruoho 		width = sc->sc_pstate_control.reg_bitwidth;
1.1  jruoho
1.1  jruoho 		(void)AcpiOsWritePort(addr, ps->ps_control, width);
1.1  jruoho
1.1  jruoho 		addr  = sc->sc_pstate_status.reg_addr;
1.1  jruoho 		width = sc->sc_pstate_status.reg_bitwidth;
1.1  jruoho
1.1  jruoho 		/*
1.1  jruoho 		 * Some systems take longer to respond
1.1  jruoho 		 * than the reported worst-case latency.
1.1  jruoho 		 */
1.1  jruoho 		for (i = val = 0; i < ACPICPU_P_STATE_RETRY; i++) {
1.1  jruoho
1.1  jruoho 			(void)AcpiOsReadPort(addr, &val, width);
1.1  jruoho
1.1  jruoho 			if (val == ps->ps_status)
1.1  jruoho 				break;
1.1  jruoho
1.1  jruoho 			DELAY(ps->ps_latency);
1.1  jruoho 		}
1.1  jruoho
1.1  jruoho 		if (i == ACPICPU_P_STATE_RETRY) {
1.1  jruoho 			rv = EAGAIN;
1.1  jruoho 			goto fail;
1.1  jruoho 		}
1.1  jruoho
1.1  jruoho 		break;
1.1  jruoho
1.1  jruoho 	default:
1.1  jruoho 		rv = ENOTTY;
1.1  jruoho 		goto fail;
1.1  jruoho 	}
1.1  jruoho
1.7  jruoho 	ps->ps_evcnt.ev_count++;
1.1  jruoho 	sc->sc_pstate_current = freq;
1.1  jruoho
1.1  jruoho 	return 0;
1.1  jruoho
1.1  jruoho fail:
1.1  jruoho 	aprint_error_dev(sc->sc_dev, "failed to set "
1.1  jruoho 	    "frequency to %u (err %d)\n", freq, rv);
1.1  jruoho
1.1  jruoho 	sc->sc_pstate_current = ACPICPU_P_STATE_UNKNOWN;
1.1  jruoho
1.1  jruoho 	return rv;
1.1  jruoho }