dev/acpi/acpi_cpu_cstate.c

1.58.2.1      yamt /* $NetBSD: acpi_cpu_cstate.c,v 1.58.2.1 2012/04/17 00:07:27 yamt Exp $ */
     1.1    jruoho
     1.1    jruoho /*-
    1.45    jruoho  * Copyright (c) 2010, 2011 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>
1.58.2.1      yamt __KERNEL_RCSID(0, "$NetBSD: acpi_cpu_cstate.c,v 1.58.2.1 2012/04/17 00:07:27 yamt Exp $");
     1.1    jruoho
     1.1    jruoho #include <sys/param.h>
     1.1    jruoho #include <sys/cpu.h>
     1.1    jruoho #include <sys/device.h>
     1.1    jruoho #include <sys/kernel.h>
    1.12    jruoho #include <sys/mutex.h>
     1.1    jruoho #include <sys/timetc.h>
     1.1    jruoho
     1.4    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 #include <dev/acpi/acpi_timer.h>
     1.1    jruoho
     1.1    jruoho #include <machine/acpi_machdep.h>
     1.1    jruoho
     1.4    jruoho #define _COMPONENT	 ACPI_BUS_COMPONENT
     1.4    jruoho ACPI_MODULE_NAME	 ("acpi_cpu_cstate")
     1.4    jruoho
     1.1    jruoho static ACPI_STATUS	 acpicpu_cstate_cst(struct acpicpu_softc *);
     1.1    jruoho static ACPI_STATUS	 acpicpu_cstate_cst_add(struct acpicpu_softc *,
    1.55  jmcneill 						ACPI_OBJECT *);
     1.1    jruoho static void		 acpicpu_cstate_cst_bios(void);
    1.19    jruoho static void		 acpicpu_cstate_memset(struct acpicpu_softc *);
    1.46    jruoho static ACPI_STATUS	 acpicpu_cstate_dep(struct acpicpu_softc *);
     1.1    jruoho static void		 acpicpu_cstate_fadt(struct acpicpu_softc *);
     1.1    jruoho static void		 acpicpu_cstate_quirks(struct acpicpu_softc *);
     1.1    jruoho static int		 acpicpu_cstate_latency(struct acpicpu_softc *);
     1.1    jruoho static bool		 acpicpu_cstate_bm_check(void);
     1.1    jruoho static void		 acpicpu_cstate_idle_enter(struct acpicpu_softc *,int);
     1.1    jruoho
     1.1    jruoho extern struct acpicpu_softc **acpicpu_sc;
     1.1    jruoho
    1.10    jruoho /*
    1.17    jruoho  * XXX:	The local APIC timer (as well as TSC) is typically stopped in C3.
    1.17    jruoho  *	For now, we cannot but disable C3. But there appears to be timer-
    1.17    jruoho  *	related interrupt issues also in C2. The only entirely safe option
    1.17    jruoho  *	at the moment is to use C1.
    1.10    jruoho  */
    1.10    jruoho #ifdef ACPICPU_ENABLE_C3
    1.10    jruoho static int cs_state_max = ACPI_STATE_C3;
    1.10    jruoho #else
    1.17    jruoho static int cs_state_max = ACPI_STATE_C1;
    1.10    jruoho #endif
    1.10    jruoho
     1.1    jruoho void
     1.1    jruoho acpicpu_cstate_attach(device_t self)
     1.1    jruoho {
     1.1    jruoho 	struct acpicpu_softc *sc = device_private(self);
     1.1    jruoho 	ACPI_STATUS rv;
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * Either use the preferred _CST or resort to FADT.
     1.1    jruoho 	 */
     1.1    jruoho 	rv = acpicpu_cstate_cst(sc);
     1.1    jruoho
     1.1    jruoho 	switch (rv) {
     1.1    jruoho
     1.1    jruoho 	case AE_OK:
     1.1    jruoho 		acpicpu_cstate_cst_bios();
     1.1    jruoho 		break;
     1.1    jruoho
     1.1    jruoho 	default:
     1.6    jruoho 		sc->sc_flags |= ACPICPU_FLAG_C_FADT;
     1.1    jruoho 		acpicpu_cstate_fadt(sc);
     1.1    jruoho 		break;
     1.1    jruoho 	}
     1.1    jruoho
    1.46    jruoho 	/*
    1.46    jruoho 	 * Query the optional _CSD.
    1.46    jruoho 	 */
    1.46    jruoho 	rv = acpicpu_cstate_dep(sc);
    1.46    jruoho
    1.46    jruoho 	if (ACPI_SUCCESS(rv))
    1.46    jruoho 		sc->sc_flags |= ACPICPU_FLAG_C_DEP;
    1.46    jruoho
    1.29    jruoho 	sc->sc_flags |= ACPICPU_FLAG_C;
    1.29    jruoho
     1.1    jruoho 	acpicpu_cstate_quirks(sc);
    1.19    jruoho }
    1.19    jruoho
    1.53    jruoho void
     1.1    jruoho acpicpu_cstate_detach(device_t self)
     1.1    jruoho {
    1.12    jruoho 	struct acpicpu_softc *sc = device_private(self);
    1.12    jruoho
    1.53    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_C) == 0)
    1.53    jruoho 		return;
    1.12    jruoho
    1.53    jruoho 	(void)acpicpu_md_cstate_stop();
    1.12    jruoho
    1.12    jruoho 	sc->sc_flags &= ~ACPICPU_FLAG_C;
     1.1    jruoho }
     1.1    jruoho
    1.29    jruoho void
     1.1    jruoho acpicpu_cstate_start(device_t self)
     1.1    jruoho {
    1.33    jruoho 	struct acpicpu_softc *sc = device_private(self);
     1.6    jruoho
    1.45    jruoho 	(void)acpicpu_md_cstate_start(sc);
     1.1    jruoho }
     1.1    jruoho
    1.52    jruoho void
    1.52    jruoho acpicpu_cstate_suspend(void *aux)
     1.1    jruoho {
    1.52    jruoho 	/* Nothing. */
     1.1    jruoho }
     1.1    jruoho
    1.52    jruoho void
    1.52    jruoho acpicpu_cstate_resume(void *aux)
     1.1    jruoho {
    1.52    jruoho 	acpicpu_cstate_callback(aux);
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho void
     1.1    jruoho acpicpu_cstate_callback(void *aux)
     1.1    jruoho {
     1.1    jruoho 	struct acpicpu_softc *sc;
     1.1    jruoho 	device_t self = aux;
     1.1    jruoho
     1.1    jruoho 	sc = device_private(self);
     1.1    jruoho
    1.24    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_C_FADT) != 0)
     1.1    jruoho 		return;
     1.1    jruoho
    1.13    jruoho 	mutex_enter(&sc->sc_mtx);
     1.1    jruoho 	(void)acpicpu_cstate_cst(sc);
    1.13    jruoho 	mutex_exit(&sc->sc_mtx);
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho static ACPI_STATUS
     1.1    jruoho acpicpu_cstate_cst(struct acpicpu_softc *sc)
     1.1    jruoho {
    1.55  jmcneill 	struct acpicpu_cstate *cs = sc->sc_cstate;
     1.1    jruoho 	ACPI_OBJECT *elm, *obj;
     1.1    jruoho 	ACPI_BUFFER buf;
     1.1    jruoho 	ACPI_STATUS rv;
     1.1    jruoho 	uint32_t i, n;
     1.1    jruoho 	uint8_t count;
     1.1    jruoho
     1.1    jruoho 	rv = acpi_eval_struct(sc->sc_node->ad_handle, "_CST", &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 	elm = obj->Package.Elements;
     1.1    jruoho
     1.1    jruoho 	if (elm[0].Type != ACPI_TYPE_INTEGER) {
     1.1    jruoho 		rv = AE_TYPE;
     1.1    jruoho 		goto out;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	n = elm[0].Integer.Value;
     1.1    jruoho
     1.1    jruoho 	if (n != obj->Package.Count - 1) {
     1.1    jruoho 		rv = AE_BAD_VALUE;
     1.1    jruoho 		goto out;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	if (n > ACPI_C_STATES_MAX) {
     1.1    jruoho 		rv = AE_LIMIT;
     1.1    jruoho 		goto out;
     1.1    jruoho 	}
     1.1    jruoho
    1.19    jruoho 	acpicpu_cstate_memset(sc);
     1.1    jruoho
    1.55  jmcneill 	/*
    1.55  jmcneill 	 * All x86 processors should support C1 (a.k.a. HALT).
    1.55  jmcneill 	 */
    1.55  jmcneill 	cs[ACPI_STATE_C1].cs_method = ACPICPU_C_STATE_HALT;
    1.55  jmcneill
     1.3    jruoho 	CTASSERT(ACPI_STATE_C0 == 0 && ACPI_STATE_C1 == 1);
     1.3    jruoho 	CTASSERT(ACPI_STATE_C2 == 2 && ACPI_STATE_C3 == 3);
     1.3    jruoho
     1.1    jruoho 	for (count = 0, i = 1; i <= n; i++) {
     1.1    jruoho
     1.1    jruoho 		elm = &obj->Package.Elements[i];
    1.55  jmcneill 		rv = acpicpu_cstate_cst_add(sc, elm);
     1.1    jruoho
     1.1    jruoho 		if (ACPI_SUCCESS(rv))
     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
    1.55  jmcneill acpicpu_cstate_cst_add(struct acpicpu_softc *sc, ACPI_OBJECT *elm)
     1.1    jruoho {
     1.1    jruoho 	struct acpicpu_cstate *cs = sc->sc_cstate;
     1.1    jruoho 	struct acpicpu_cstate state;
     1.1    jruoho 	struct acpicpu_reg *reg;
     1.1    jruoho 	ACPI_STATUS rv = AE_OK;
     1.1    jruoho 	ACPI_OBJECT *obj;
     1.1    jruoho 	uint32_t type;
     1.1    jruoho
     1.1    jruoho 	(void)memset(&state, 0, sizeof(*cs));
     1.1    jruoho
     1.1    jruoho 	if (elm->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 (elm->Package.Count != 4) {
     1.1    jruoho 		rv = AE_LIMIT;
     1.1    jruoho 		goto out;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * Type.
     1.1    jruoho 	 */
     1.1    jruoho 	obj = &elm->Package.Elements[1];
     1.1    jruoho
     1.1    jruoho 	if (obj->Type != ACPI_TYPE_INTEGER) {
     1.1    jruoho 		rv = AE_TYPE;
     1.1    jruoho 		goto out;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	type = obj->Integer.Value;
     1.1    jruoho
     1.3    jruoho 	if (type < ACPI_STATE_C1 || type > ACPI_STATE_C3) {
     1.3    jruoho 		rv = AE_TYPE;
     1.3    jruoho 		goto out;
     1.3    jruoho 	}
     1.3    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * Latency.
     1.1    jruoho 	 */
     1.1    jruoho 	obj = &elm->Package.Elements[2];
     1.1    jruoho
     1.1    jruoho 	if (obj->Type != ACPI_TYPE_INTEGER) {
     1.1    jruoho 		rv = AE_TYPE;
     1.1    jruoho 		goto out;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	state.cs_latency = obj->Integer.Value;
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * Power.
     1.1    jruoho 	 */
     1.1    jruoho 	obj = &elm->Package.Elements[3];
     1.1    jruoho
     1.1    jruoho 	if (obj->Type != ACPI_TYPE_INTEGER) {
     1.1    jruoho 		rv = AE_TYPE;
     1.1    jruoho 		goto out;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	state.cs_power = obj->Integer.Value;
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * Register.
     1.1    jruoho 	 */
     1.1    jruoho 	obj = &elm->Package.Elements[0];
     1.1    jruoho
     1.1    jruoho 	if (obj->Type != ACPI_TYPE_BUFFER) {
     1.1    jruoho 		rv = AE_TYPE;
     1.1    jruoho 		goto out;
     1.1    jruoho 	}
     1.1    jruoho
    1.11    jruoho 	CTASSERT(sizeof(struct acpicpu_reg) == 15);
    1.11    jruoho
    1.11    jruoho 	if (obj->Buffer.Length < sizeof(struct acpicpu_reg)) {
    1.11    jruoho 		rv = AE_LIMIT;
    1.11    jruoho 		goto out;
    1.11    jruoho 	}
    1.11    jruoho
     1.1    jruoho 	reg = (struct acpicpu_reg *)obj->Buffer.Pointer;
     1.1    jruoho
     1.1    jruoho 	switch (reg->reg_spaceid) {
     1.1    jruoho
     1.1    jruoho 	case ACPI_ADR_SPACE_SYSTEM_IO:
     1.1    jruoho 		state.cs_method = ACPICPU_C_STATE_SYSIO;
     1.1    jruoho
     1.1    jruoho 		if (reg->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 		if (reg->reg_bitwidth != 8) {
     1.1    jruoho 			rv = AE_AML_BAD_RESOURCE_LENGTH;
     1.1    jruoho 			goto out;
     1.1    jruoho 		}
     1.1    jruoho
     1.3    jruoho 		state.cs_addr = reg->reg_addr;
     1.1    jruoho 		break;
     1.1    jruoho
     1.1    jruoho 	case ACPI_ADR_SPACE_FIXED_HARDWARE:
     1.1    jruoho 		state.cs_method = ACPICPU_C_STATE_FFH;
     1.1    jruoho
     1.1    jruoho 		switch (type) {
     1.1    jruoho
     1.1    jruoho 		case ACPI_STATE_C1:
     1.1    jruoho
    1.51    jruoho 			/*
    1.51    jruoho 			 * If ACPI wants native access (FFH), but the
    1.51    jruoho 			 * MD code does not support MONITOR/MWAIT, use
    1.51    jruoho 			 * HLT for C1 and error out for higher C-states.
    1.51    jruoho 			 */
    1.15    jruoho 			if ((sc->sc_flags & ACPICPU_FLAG_C_FFH) == 0)
     1.1    jruoho 				state.cs_method = ACPICPU_C_STATE_HALT;
     1.1    jruoho
     1.1    jruoho 			break;
     1.1    jruoho
1.58.2.1      yamt 		case ACPI_STATE_C3: /* FALLTHROUGH */
1.58.2.1      yamt 			state.cs_flags = ACPICPU_FLAG_C_BM_STS;
1.58.2.1      yamt
     1.1    jruoho 		default:
     1.1    jruoho
    1.15    jruoho 			if ((sc->sc_flags & ACPICPU_FLAG_C_FFH) == 0) {
    1.16    jruoho 				rv = AE_SUPPORT;
     1.1    jruoho 				goto out;
     1.1    jruoho 			}
     1.1    jruoho 		}
     1.1    jruoho
     1.7    jruoho 		if (sc->sc_cap != 0) {
     1.7    jruoho
     1.7    jruoho 			/*
     1.7    jruoho 			 * The _CST FFH GAS encoding may contain
     1.7    jruoho 			 * additional hints on Intel processors.
    1.10    jruoho 			 * Use these to determine whether we can
    1.10    jruoho 			 * avoid the bus master activity check.
     1.7    jruoho 			 */
     1.7    jruoho 			if ((reg->reg_accesssize & ACPICPU_PDC_GAS_BM) == 0)
     1.7    jruoho 				state.cs_flags &= ~ACPICPU_FLAG_C_BM_STS;
     1.7    jruoho 		}
     1.7    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
    1.55  jmcneill 	cs[type].cs_addr = state.cs_addr;
    1.55  jmcneill 	cs[type].cs_power = state.cs_power;
    1.55  jmcneill 	cs[type].cs_flags = state.cs_flags;
    1.55  jmcneill 	cs[type].cs_method = state.cs_method;
    1.55  jmcneill 	cs[type].cs_latency = state.cs_latency;
     1.1    jruoho
     1.1    jruoho out:
     1.1    jruoho 	if (ACPI_FAILURE(rv))
    1.37    jruoho 		aprint_error_dev(sc->sc_dev, "failed to add "
    1.37    jruoho 		    "C-state: %s\n", AcpiFormatException(rv));
     1.1    jruoho
     1.1    jruoho 	return rv;
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho static void
     1.1    jruoho acpicpu_cstate_cst_bios(void)
     1.1    jruoho {
     1.1    jruoho 	const uint8_t val = AcpiGbl_FADT.CstControl;
     1.1    jruoho 	const uint32_t addr = AcpiGbl_FADT.SmiCommand;
     1.1    jruoho
    1.27    jruoho 	if (addr == 0 || val == 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 static void
    1.19    jruoho acpicpu_cstate_memset(struct acpicpu_softc *sc)
    1.19    jruoho {
    1.48    jruoho 	uint8_t i = 0;
    1.19    jruoho
    1.48    jruoho 	while (i < __arraycount(sc->sc_cstate)) {
    1.19    jruoho
    1.19    jruoho 		sc->sc_cstate[i].cs_addr = 0;
    1.19    jruoho 		sc->sc_cstate[i].cs_power = 0;
    1.19    jruoho 		sc->sc_cstate[i].cs_flags = 0;
    1.19    jruoho 		sc->sc_cstate[i].cs_method = 0;
    1.19    jruoho 		sc->sc_cstate[i].cs_latency = 0;
    1.19    jruoho
    1.19    jruoho 		i++;
    1.19    jruoho 	}
    1.19    jruoho }
    1.19    jruoho
    1.46    jruoho static ACPI_STATUS
    1.46    jruoho acpicpu_cstate_dep(struct acpicpu_softc *sc)
    1.46    jruoho {
    1.46    jruoho 	ACPI_OBJECT *elm, *obj;
    1.46    jruoho 	ACPI_BUFFER buf;
    1.46    jruoho 	ACPI_STATUS rv;
    1.46    jruoho 	uint32_t val;
    1.46    jruoho 	uint8_t i, n;
    1.46    jruoho
    1.46    jruoho 	rv = acpi_eval_struct(sc->sc_node->ad_handle, "_CSD", &buf);
    1.46    jruoho
    1.46    jruoho 	if (ACPI_FAILURE(rv))
    1.46    jruoho 		goto out;
    1.46    jruoho
    1.46    jruoho 	obj = buf.Pointer;
    1.46    jruoho
    1.46    jruoho 	if (obj->Type != ACPI_TYPE_PACKAGE) {
    1.46    jruoho 		rv = AE_TYPE;
    1.46    jruoho 		goto out;
    1.46    jruoho 	}
    1.46    jruoho
    1.46    jruoho 	if (obj->Package.Count != 1) {
    1.46    jruoho 		rv = AE_LIMIT;
    1.46    jruoho 		goto out;
    1.46    jruoho 	}
    1.46    jruoho
    1.46    jruoho 	elm = &obj->Package.Elements[0];
    1.46    jruoho
    1.46    jruoho 	if (obj->Type != ACPI_TYPE_PACKAGE) {
    1.46    jruoho 		rv = AE_TYPE;
    1.46    jruoho 		goto out;
    1.46    jruoho 	}
    1.46    jruoho
    1.46    jruoho 	n = elm->Package.Count;
    1.46    jruoho
    1.46    jruoho 	if (n != 6) {
    1.46    jruoho 		rv = AE_LIMIT;
    1.46    jruoho 		goto out;
    1.46    jruoho 	}
    1.46    jruoho
    1.46    jruoho 	elm = elm->Package.Elements;
    1.46    jruoho
    1.46    jruoho 	for (i = 0; i < n; i++) {
    1.46    jruoho
    1.46    jruoho 		if (elm[i].Type != ACPI_TYPE_INTEGER) {
    1.46    jruoho 			rv = AE_TYPE;
    1.46    jruoho 			goto out;
    1.46    jruoho 		}
    1.46    jruoho
    1.46    jruoho 		if (elm[i].Integer.Value > UINT32_MAX) {
    1.46    jruoho 			rv = AE_AML_NUMERIC_OVERFLOW;
    1.46    jruoho 			goto out;
    1.46    jruoho 		}
    1.46    jruoho 	}
    1.46    jruoho
    1.46    jruoho 	val = elm[1].Integer.Value;
    1.46    jruoho
    1.46    jruoho 	if (val != 0)
    1.46    jruoho 		aprint_debug_dev(sc->sc_dev, "invalid revision in _CSD\n");
    1.46    jruoho
    1.46    jruoho 	val = elm[3].Integer.Value;
    1.46    jruoho
    1.46    jruoho 	if (val < ACPICPU_DEP_SW_ALL || val > ACPICPU_DEP_HW_ALL) {
    1.46    jruoho 		rv = AE_AML_BAD_RESOURCE_VALUE;
    1.46    jruoho 		goto out;
    1.46    jruoho 	}
    1.46    jruoho
    1.46    jruoho 	val = elm[4].Integer.Value;
    1.46    jruoho
    1.46    jruoho 	if (val > sc->sc_ncpus) {
    1.46    jruoho 		rv = AE_BAD_VALUE;
    1.46    jruoho 		goto out;
    1.46    jruoho 	}
    1.46    jruoho
    1.46    jruoho 	sc->sc_cstate_dep.dep_domain = elm[2].Integer.Value;
    1.46    jruoho 	sc->sc_cstate_dep.dep_type   = elm[3].Integer.Value;
    1.46    jruoho 	sc->sc_cstate_dep.dep_ncpus  = elm[4].Integer.Value;
    1.46    jruoho 	sc->sc_cstate_dep.dep_index  = elm[5].Integer.Value;
    1.46    jruoho
    1.46    jruoho out:
    1.46    jruoho 	if (ACPI_FAILURE(rv) && rv != AE_NOT_FOUND)
    1.46    jruoho 		aprint_debug_dev(sc->sc_dev, "failed to evaluate "
    1.46    jruoho 		    "_CSD: %s\n", AcpiFormatException(rv));
    1.46    jruoho
    1.46    jruoho 	if (buf.Pointer != NULL)
    1.46    jruoho 		ACPI_FREE(buf.Pointer);
    1.46    jruoho
    1.46    jruoho 	return rv;
    1.46    jruoho }
    1.46    jruoho
    1.19    jruoho static void
     1.1    jruoho acpicpu_cstate_fadt(struct acpicpu_softc *sc)
     1.1    jruoho {
     1.1    jruoho 	struct acpicpu_cstate *cs = sc->sc_cstate;
     1.1    jruoho
    1.19    jruoho 	acpicpu_cstate_memset(sc);
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * All x86 processors should support C1 (a.k.a. HALT).
     1.1    jruoho 	 */
    1.39    jruoho 	cs[ACPI_STATE_C1].cs_method = ACPICPU_C_STATE_HALT;
    1.39    jruoho
    1.39    jruoho 	if ((AcpiGbl_FADT.Flags & ACPI_FADT_C1_SUPPORTED) == 0)
    1.39    jruoho 		aprint_debug_dev(sc->sc_dev, "HALT not supported?\n");
     1.1    jruoho
    1.24    jruoho 	if (sc->sc_object.ao_pblkaddr == 0)
     1.1    jruoho 		return;
     1.1    jruoho
    1.46    jruoho 	if (sc->sc_ncpus > 1) {
    1.24    jruoho
    1.24    jruoho 		if ((AcpiGbl_FADT.Flags & ACPI_FADT_C2_MP_SUPPORTED) == 0)
    1.24    jruoho 			return;
    1.24    jruoho 	}
    1.24    jruoho
     1.1    jruoho 	cs[ACPI_STATE_C2].cs_method = ACPICPU_C_STATE_SYSIO;
     1.1    jruoho 	cs[ACPI_STATE_C3].cs_method = ACPICPU_C_STATE_SYSIO;
     1.1    jruoho
     1.1    jruoho 	cs[ACPI_STATE_C2].cs_latency = AcpiGbl_FADT.C2Latency;
     1.1    jruoho 	cs[ACPI_STATE_C3].cs_latency = AcpiGbl_FADT.C3Latency;
     1.1    jruoho
     1.1    jruoho 	cs[ACPI_STATE_C2].cs_addr = sc->sc_object.ao_pblkaddr + 4;
     1.1    jruoho 	cs[ACPI_STATE_C3].cs_addr = sc->sc_object.ao_pblkaddr + 5;
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * The P_BLK length should always be 6. If it
     1.1    jruoho 	 * is not, reduce functionality accordingly.
     1.1    jruoho 	 */
     1.1    jruoho 	if (sc->sc_object.ao_pblklen < 5)
     1.1    jruoho 		cs[ACPI_STATE_C2].cs_method = 0;
     1.1    jruoho
     1.1    jruoho 	if (sc->sc_object.ao_pblklen < 6)
     1.1    jruoho 		cs[ACPI_STATE_C3].cs_method = 0;
     1.1    jruoho
    1.28    jruoho 	/*
    1.57    jruoho 	 * Sanity check the latency levels in FADT. Values above
    1.57    jruoho 	 * the thresholds may be used to inform that C2 and C3 are
    1.57    jruoho 	 * not supported -- AMD family 11h is an example;
    1.57    jruoho 	 *
    1.57    jruoho 	 *	Advanced Micro Devices: BIOS and Kernel Developer's
    1.57    jruoho 	 *	Guide (BKDG) for AMD Family 11h Processors. Section
    1.57    jruoho 	 *	2.4.3, Revision 3.00, July, 2008.
    1.28    jruoho 	 */
     1.3    jruoho 	CTASSERT(ACPICPU_C_C2_LATENCY_MAX == 100);
     1.3    jruoho 	CTASSERT(ACPICPU_C_C3_LATENCY_MAX == 1000);
     1.3    jruoho
     1.1    jruoho 	if (AcpiGbl_FADT.C2Latency > ACPICPU_C_C2_LATENCY_MAX)
     1.1    jruoho 		cs[ACPI_STATE_C2].cs_method = 0;
     1.1    jruoho
     1.1    jruoho 	if (AcpiGbl_FADT.C3Latency > ACPICPU_C_C3_LATENCY_MAX)
     1.1    jruoho 		cs[ACPI_STATE_C3].cs_method = 0;
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho static void
     1.1    jruoho acpicpu_cstate_quirks(struct acpicpu_softc *sc)
     1.1    jruoho {
     1.1    jruoho 	const uint32_t reg = AcpiGbl_FADT.Pm2ControlBlock;
     1.1    jruoho 	const uint32_t len = AcpiGbl_FADT.Pm2ControlLength;
    1.25    jruoho
    1.25    jruoho 	/*
    1.25    jruoho 	 * Disable C3 for PIIX4.
    1.25    jruoho 	 */
    1.25    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_PIIX4) != 0) {
    1.25    jruoho 		sc->sc_cstate[ACPI_STATE_C3].cs_method = 0;
    1.25    jruoho 		return;
    1.25    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	/*
    1.10    jruoho 	 * Check bus master arbitration. If ARB_DIS
    1.10    jruoho 	 * is not available, processor caches must be
    1.10    jruoho 	 * flushed before C3 (ACPI 4.0, section 8.2).
     1.1    jruoho 	 */
    1.25    jruoho 	if (reg != 0 && len != 0) {
     1.1    jruoho 		sc->sc_flags |= ACPICPU_FLAG_C_ARB;
    1.25    jruoho 		return;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	/*
    1.25    jruoho 	 * Disable C3 entirely if WBINVD is not present.
     1.1    jruoho 	 */
    1.25    jruoho 	if ((AcpiGbl_FADT.Flags & ACPI_FADT_WBINVD) == 0)
     1.1    jruoho 		sc->sc_cstate[ACPI_STATE_C3].cs_method = 0;
    1.25    jruoho 	else {
    1.25    jruoho 		/*
    1.25    jruoho 		 * If WBINVD is present and functioning properly,
    1.25    jruoho 		 * flush all processor caches before entering C3.
    1.25    jruoho 		 */
    1.25    jruoho 		if ((AcpiGbl_FADT.Flags & ACPI_FADT_WBINVD_FLUSH) == 0)
    1.25    jruoho 			sc->sc_flags &= ~ACPICPU_FLAG_C_BM;
    1.25    jruoho 		else
    1.25    jruoho 			sc->sc_cstate[ACPI_STATE_C3].cs_method = 0;
    1.25    jruoho 	}
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho static int
     1.1    jruoho acpicpu_cstate_latency(struct acpicpu_softc *sc)
     1.1    jruoho {
     1.1    jruoho 	static const uint32_t cs_factor = 3;
     1.1    jruoho 	struct acpicpu_cstate *cs;
     1.1    jruoho 	int i;
     1.1    jruoho
    1.54    jruoho 	KASSERT(mutex_owned(&sc->sc_mtx) != 0);
    1.54    jruoho
    1.10    jruoho 	for (i = cs_state_max; i > 0; i--) {
     1.1    jruoho
     1.1    jruoho 		cs = &sc->sc_cstate[i];
     1.1    jruoho
     1.1    jruoho 		if (__predict_false(cs->cs_method == 0))
     1.1    jruoho 			continue;
     1.1    jruoho
     1.1    jruoho 		/*
     1.1    jruoho 		 * Choose a state if we have previously slept
     1.1    jruoho 		 * longer than the worst case latency of the
     1.1    jruoho 		 * state times an arbitrary multiplier.
     1.1    jruoho 		 */
    1.13    jruoho 		if (sc->sc_cstate_sleep > cs->cs_latency * cs_factor)
     1.1    jruoho 			return i;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	return ACPI_STATE_C1;
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho /*
     1.1    jruoho  * The main idle loop.
     1.1    jruoho  */
     1.1    jruoho void
     1.1    jruoho acpicpu_cstate_idle(void)
     1.1    jruoho {
    1.33    jruoho 	struct cpu_info *ci = curcpu();
     1.1    jruoho 	struct acpicpu_softc *sc;
     1.1    jruoho 	int state;
     1.1    jruoho
     1.1    jruoho 	KASSERT(acpicpu_sc != NULL);
    1.14    jruoho 	KASSERT(ci->ci_acpiid < maxcpus);
     1.1    jruoho
    1.14    jruoho 	sc = acpicpu_sc[ci->ci_acpiid];
     1.1    jruoho
    1.12    jruoho 	if (__predict_false(sc == NULL))
    1.54    jruoho 		return;
    1.12    jruoho
    1.31    jruoho 	KASSERT(ci->ci_ilevel == IPL_NONE);
    1.31    jruoho 	KASSERT((sc->sc_flags & ACPICPU_FLAG_C) != 0);
    1.31    jruoho
    1.12    jruoho 	if (__predict_false(sc->sc_cold != false))
    1.54    jruoho 		return;
    1.12    jruoho
    1.13    jruoho 	if (__predict_false(mutex_tryenter(&sc->sc_mtx) == 0))
    1.54    jruoho 		return;
     1.1    jruoho
    1.54    jruoho 	state = acpicpu_cstate_latency(sc);
    1.13    jruoho 	mutex_exit(&sc->sc_mtx);
     1.1    jruoho
     1.1    jruoho 	/*
    1.34    jruoho 	 * Apply AMD C1E quirk.
    1.34    jruoho 	 */
    1.34    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_C_C1E) != 0)
    1.45    jruoho 		acpicpu_md_quirk_c1e();
    1.34    jruoho
    1.34    jruoho 	/*
     1.7    jruoho 	 * Check for bus master activity. Note that particularly usb(4)
     1.7    jruoho 	 * causes high activity, which may prevent the use of C3 states.
     1.1    jruoho 	 */
     1.7    jruoho 	if ((sc->sc_cstate[state].cs_flags & ACPICPU_FLAG_C_BM_STS) != 0) {
     1.1    jruoho
     1.7    jruoho 		if (acpicpu_cstate_bm_check() != false)
     1.7    jruoho 			state--;
     1.1    jruoho
     1.1    jruoho 		if (__predict_false(sc->sc_cstate[state].cs_method == 0))
     1.1    jruoho 			state = ACPI_STATE_C1;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	KASSERT(state != ACPI_STATE_C0);
     1.1    jruoho
     1.1    jruoho 	if (state != ACPI_STATE_C3) {
     1.1    jruoho 		acpicpu_cstate_idle_enter(sc, state);
     1.1    jruoho 		return;
     1.1    jruoho 	}
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * On all recent (Intel) CPUs caches are shared
     1.1    jruoho 	 * by CPUs and bus master control is required to
     1.1    jruoho 	 * keep these coherent while in C3. Flushing the
     1.1    jruoho 	 * CPU caches is only the last resort.
     1.1    jruoho 	 */
     1.1    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_C_BM) == 0)
     1.1    jruoho 		ACPI_FLUSH_CPU_CACHE();
     1.1    jruoho
     1.1    jruoho 	/*
    1.10    jruoho 	 * Allow the bus master to request that any given
    1.10    jruoho 	 * CPU should return immediately to C0 from C3.
     1.1    jruoho 	 */
     1.1    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_C_BM) != 0)
     1.1    jruoho 		(void)AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_RLD, 1);
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * It may be necessary to disable bus master arbitration
     1.1    jruoho 	 * to ensure that bus master cycles do not occur while
     1.1    jruoho 	 * sleeping in C3 (see ACPI 4.0, section 8.1.4).
     1.1    jruoho 	 */
     1.1    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_C_ARB) != 0)
     1.1    jruoho 		(void)AcpiWriteBitRegister(ACPI_BITREG_ARB_DISABLE, 1);
     1.1    jruoho
     1.1    jruoho 	acpicpu_cstate_idle_enter(sc, state);
     1.1    jruoho
     1.1    jruoho 	/*
     1.1    jruoho 	 * Disable bus master wake and re-enable the arbiter.
     1.1    jruoho 	 */
     1.1    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_C_BM) != 0)
     1.1    jruoho 		(void)AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_RLD, 0);
     1.1    jruoho
     1.1    jruoho 	if ((sc->sc_flags & ACPICPU_FLAG_C_ARB) != 0)
     1.1    jruoho 		(void)AcpiWriteBitRegister(ACPI_BITREG_ARB_DISABLE, 0);
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho static void
     1.1    jruoho acpicpu_cstate_idle_enter(struct acpicpu_softc *sc, int state)
     1.1    jruoho {
     1.1    jruoho 	struct acpicpu_cstate *cs = &sc->sc_cstate[state];
     1.1    jruoho 	uint32_t end, start, val;
     1.1    jruoho
    1.32    jruoho 	start = acpitimer_read_fast(NULL);
     1.1    jruoho
     1.1    jruoho 	switch (cs->cs_method) {
     1.1    jruoho
     1.1    jruoho 	case ACPICPU_C_STATE_FFH:
     1.1    jruoho 	case ACPICPU_C_STATE_HALT:
    1.45    jruoho 		acpicpu_md_cstate_enter(cs->cs_method, state);
     1.1    jruoho 		break;
     1.1    jruoho
     1.1    jruoho 	case ACPICPU_C_STATE_SYSIO:
     1.1    jruoho 		(void)AcpiOsReadPort(cs->cs_addr, &val, 8);
     1.1    jruoho 		break;
    1.33    jruoho 	}
     1.1    jruoho
    1.19    jruoho 	cs->cs_evcnt.ev_count++;
    1.32    jruoho 	end = acpitimer_read_fast(NULL);
    1.13    jruoho 	sc->sc_cstate_sleep = hztoms(acpitimer_delta(end, start)) * 1000;
     1.1    jruoho }
     1.1    jruoho
     1.1    jruoho static bool
     1.1    jruoho acpicpu_cstate_bm_check(void)
     1.1    jruoho {
     1.1    jruoho 	uint32_t val = 0;
     1.1    jruoho 	ACPI_STATUS rv;
     1.1    jruoho
     1.1    jruoho 	rv = AcpiReadBitRegister(ACPI_BITREG_BUS_MASTER_STATUS, &val);
     1.1    jruoho
     1.1    jruoho 	if (ACPI_FAILURE(rv) || val == 0)
     1.1    jruoho 		return false;
     1.1    jruoho
     1.1    jruoho 	(void)AcpiWriteBitRegister(ACPI_BITREG_BUS_MASTER_STATUS, 1);
     1.1    jruoho
     1.1    jruoho 	return true;
     1.1    jruoho }