x86/acpi/acpi_cpu_md.c

1.21  jruoho /* $NetBSD: acpi_cpu_md.c,v 1.21 2010/08/21 02:47:37 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>
1.21  jruoho __KERNEL_RCSID(0, "$NetBSD: acpi_cpu_md.c,v 1.21 2010/08/21 02:47:37 jruoho Exp $");
 1.1  jruoho
 1.1  jruoho #include <sys/param.h>
 1.1  jruoho #include <sys/bus.h>
 1.1  jruoho #include <sys/kcore.h>
 1.5  jruoho #include <sys/sysctl.h>
 1.4  jruoho #include <sys/xcall.h>
 1.1  jruoho
 1.1  jruoho #include <x86/cpu.h>
 1.5  jruoho #include <x86/cpufunc.h>
 1.5  jruoho #include <x86/cputypes.h>
 1.1  jruoho #include <x86/cpuvar.h>
 1.5  jruoho #include <x86/cpu_msr.h>
 1.1  jruoho #include <x86/machdep.h>
 1.1  jruoho
 1.1  jruoho #include <dev/acpi/acpica.h>
 1.1  jruoho #include <dev/acpi/acpi_cpu.h>
 1.1  jruoho
1.12  jruoho #include <dev/pci/pcivar.h>
1.12  jruoho #include <dev/pci/pcidevs.h>
1.12  jruoho
1.17  jruoho #define MSR_0FH_CONTROL		0xc0010041 /* Family 0Fh (and K7).  */
1.17  jruoho #define MSR_0FH_STATUS		0xc0010042
1.17  jruoho
1.17  jruoho #define MSR_10H_LIMIT		0xc0010061 /* Families 10h and 11h. */
1.17  jruoho #define MSR_10H_CONTROL		0xc0010062
1.17  jruoho #define MSR_10H_STATUS		0xc0010063
1.17  jruoho #define MSR_10H_CONFIG		0xc0010064
1.17  jruoho
 1.5  jruoho static char	  native_idle_text[16];
 1.5  jruoho void		(*native_idle)(void) = NULL;
 1.1  jruoho
1.12  jruoho static int	 acpicpu_md_quirks_piix4(struct pci_attach_args *);
1.19  jruoho static void	 acpicpu_md_pstate_status(void *, void *);
1.19  jruoho static void	 acpicpu_md_tstate_status(void *, void *);
1.19  jruoho static int	 acpicpu_md_pstate_sysctl_init(void);
 1.5  jruoho static int	 acpicpu_md_pstate_sysctl_get(SYSCTLFN_PROTO);
 1.5  jruoho static int	 acpicpu_md_pstate_sysctl_set(SYSCTLFN_PROTO);
 1.5  jruoho static int	 acpicpu_md_pstate_sysctl_all(SYSCTLFN_PROTO);
 1.5  jruoho
 1.5  jruoho extern uint32_t cpus_running;
 1.5  jruoho extern struct acpicpu_softc **acpicpu_sc;
1.19  jruoho static struct sysctllog *acpicpu_log = NULL;
 1.1  jruoho
 1.1  jruoho uint32_t
 1.1  jruoho acpicpu_md_cap(void)
 1.1  jruoho {
 1.1  jruoho 	struct cpu_info *ci = curcpu();
 1.1  jruoho 	uint32_t val = 0;
 1.1  jruoho
1.17  jruoho 	if (cpu_vendor != CPUVENDOR_IDT &&
1.17  jruoho 	    cpu_vendor != CPUVENDOR_INTEL)
 1.1  jruoho 		return val;
 1.1  jruoho
 1.1  jruoho 	/*
 1.1  jruoho 	 * Basic SMP C-states (required for _CST).
 1.1  jruoho 	 */
 1.1  jruoho 	val |= ACPICPU_PDC_C_C1PT | ACPICPU_PDC_C_C2C3;
 1.1  jruoho
 1.1  jruoho         /*
 1.1  jruoho 	 * If MONITOR/MWAIT is available, announce
 1.1  jruoho 	 * support for native instructions in all C-states.
 1.1  jruoho 	 */
 1.1  jruoho         if ((ci->ci_feat_val[1] & CPUID2_MONITOR) != 0)
 1.1  jruoho 		val |= ACPICPU_PDC_C_C1_FFH | ACPICPU_PDC_C_C2C3_FFH;
 1.1  jruoho
 1.5  jruoho 	/*
1.10  jruoho 	 * Set native P- and T-states, if available.
 1.5  jruoho 	 */
 1.5  jruoho         if ((ci->ci_feat_val[1] & CPUID2_EST) != 0)
 1.5  jruoho 		val |= ACPICPU_PDC_P_FFH;
 1.5  jruoho
1.10  jruoho 	if ((ci->ci_feat_val[0] & CPUID_ACPI) != 0)
1.10  jruoho 		val |= ACPICPU_PDC_T_FFH;
1.10  jruoho
 1.1  jruoho 	return val;
 1.1  jruoho }
 1.1  jruoho
 1.1  jruoho uint32_t
 1.1  jruoho acpicpu_md_quirks(void)
 1.1  jruoho {
 1.1  jruoho 	struct cpu_info *ci = curcpu();
1.12  jruoho 	struct pci_attach_args pa;
1.18  jruoho 	uint32_t family, val = 0;
1.21  jruoho 	uint32_t regs[4];
 1.1  jruoho
 1.1  jruoho 	if (acpicpu_md_cpus_running() == 1)
 1.1  jruoho 		val |= ACPICPU_FLAG_C_BM;
 1.1  jruoho
 1.1  jruoho 	if ((ci->ci_feat_val[1] & CPUID2_MONITOR) != 0)
 1.5  jruoho 		val |= ACPICPU_FLAG_C_FFH;
 1.1  jruoho
 1.1  jruoho 	switch (cpu_vendor) {
 1.1  jruoho
1.17  jruoho 	case CPUVENDOR_IDT:
 1.1  jruoho 	case CPUVENDOR_INTEL:
1.17  jruoho
 1.5  jruoho 		if ((ci->ci_feat_val[1] & CPUID2_EST) != 0)
 1.5  jruoho 			val |= ACPICPU_FLAG_P_FFH;
 1.5  jruoho
1.10  jruoho 		if ((ci->ci_feat_val[0] & CPUID_ACPI) != 0)
1.10  jruoho 			val |= ACPICPU_FLAG_T_FFH;
1.10  jruoho
1.12  jruoho 		val |= ACPICPU_FLAG_C_BM | ACPICPU_FLAG_C_ARB;
1.17  jruoho 		break;
1.12  jruoho
1.17  jruoho 	case CPUVENDOR_AMD:
1.17  jruoho
1.18  jruoho 		family = CPUID2FAMILY(ci->ci_signature);
1.18  jruoho
1.18  jruoho 		if (family == 0xf)
1.18  jruoho 			family += CPUID2EXTFAMILY(ci->ci_signature);
1.18  jruoho
1.18  jruoho 		switch (family) {
 1.1  jruoho
1.17  jruoho 		case 0x10:
1.17  jruoho 		case 0x11:
 1.1  jruoho
1.21  jruoho 			x86_cpuid(0x80000007, regs);
1.21  jruoho
1.21  jruoho 			if ((regs[3] & CPUID_APM_HWP) != 0)
1.17  jruoho 				val |= ACPICPU_FLAG_P_FFH;
1.21  jruoho
1.21  jruoho 			if ((regs[3] & CPUID_APM_CPB) != 0)
1.21  jruoho 				val |= ACPICPU_FLAG_P_TURBO;
1.17  jruoho 		}
 1.1  jruoho
 1.1  jruoho 		break;
 1.1  jruoho 	}
 1.1  jruoho
1.12  jruoho 	/*
1.12  jruoho 	 * There are several erratums for PIIX4.
1.12  jruoho 	 */
1.12  jruoho 	if (pci_find_device(&pa, acpicpu_md_quirks_piix4) != 0)
1.12  jruoho 		val |= ACPICPU_FLAG_PIIX4;
1.12  jruoho
 1.1  jruoho 	return val;
 1.1  jruoho }
 1.1  jruoho
1.12  jruoho static int
1.12  jruoho acpicpu_md_quirks_piix4(struct pci_attach_args *pa)
1.12  jruoho {
1.12  jruoho
1.12  jruoho 	/*
1.12  jruoho 	 * XXX: The pci_find_device(9) function only
1.12  jruoho 	 *	deals with attached devices. Change this
1.12  jruoho 	 *	to use something like pci_device_foreach().
1.12  jruoho 	 */
1.12  jruoho 	if (PCI_VENDOR(pa->pa_id) != PCI_VENDOR_INTEL)
1.12  jruoho 		return 0;
1.12  jruoho
1.12  jruoho 	if (PCI_PRODUCT(pa->pa_id) == PCI_PRODUCT_INTEL_82371AB_ISA ||
1.12  jruoho 	    PCI_PRODUCT(pa->pa_id) == PCI_PRODUCT_INTEL_82440MX_PMC)
1.12  jruoho 		return 1;
1.12  jruoho
1.12  jruoho 	return 0;
1.12  jruoho }
1.12  jruoho
 1.1  jruoho uint32_t
 1.1  jruoho acpicpu_md_cpus_running(void)
 1.1  jruoho {
 1.1  jruoho
 1.1  jruoho 	return popcount32(cpus_running);
 1.1  jruoho }
 1.1  jruoho
 1.1  jruoho int
 1.8  jruoho acpicpu_md_idle_start(void)
 1.1  jruoho {
 1.1  jruoho 	const size_t size = sizeof(native_idle_text);
 1.1  jruoho
 1.1  jruoho 	x86_disable_intr();
 1.1  jruoho 	x86_cpu_idle_get(&native_idle, native_idle_text, size);
 1.1  jruoho 	x86_cpu_idle_set(acpicpu_cstate_idle, "acpi");
 1.1  jruoho 	x86_enable_intr();
 1.1  jruoho
 1.1  jruoho 	return 0;
 1.1  jruoho }
 1.1  jruoho
 1.1  jruoho int
 1.1  jruoho acpicpu_md_idle_stop(void)
 1.1  jruoho {
 1.4  jruoho 	uint64_t xc;
 1.1  jruoho
 1.1  jruoho 	x86_disable_intr();
 1.1  jruoho 	x86_cpu_idle_set(native_idle, native_idle_text);
 1.1  jruoho 	x86_enable_intr();
 1.1  jruoho
 1.4  jruoho 	/*
 1.4  jruoho 	 * Run a cross-call to ensure that all CPUs are
 1.4  jruoho 	 * out from the ACPI idle-loop before detachment.
 1.4  jruoho 	 */
 1.4  jruoho 	xc = xc_broadcast(0, (xcfunc_t)nullop, NULL, NULL);
 1.4  jruoho 	xc_wait(xc);
 1.1  jruoho
 1.1  jruoho 	return 0;
 1.1  jruoho }
 1.1  jruoho
 1.3  jruoho /*
 1.3  jruoho  * The MD idle loop. Called with interrupts disabled.
 1.3  jruoho  */
 1.1  jruoho void
 1.1  jruoho acpicpu_md_idle_enter(int method, int state)
 1.1  jruoho {
 1.3  jruoho 	struct cpu_info *ci = curcpu();
 1.1  jruoho
 1.1  jruoho 	switch (method) {
 1.1  jruoho
 1.1  jruoho 	case ACPICPU_C_STATE_FFH:
 1.3  jruoho
 1.3  jruoho 		x86_enable_intr();
 1.3  jruoho 		x86_monitor(&ci->ci_want_resched, 0, 0);
 1.3  jruoho
 1.3  jruoho 		if (__predict_false(ci->ci_want_resched) != 0)
 1.3  jruoho 			return;
 1.3  jruoho
 1.1  jruoho 		x86_mwait((state - 1) << 4, 0);
 1.1  jruoho 		break;
 1.1  jruoho
 1.1  jruoho 	case ACPICPU_C_STATE_HALT:
 1.3  jruoho
 1.3  jruoho 		if (__predict_false(ci->ci_want_resched) != 0) {
 1.3  jruoho 			x86_enable_intr();
 1.3  jruoho 			return;
 1.3  jruoho 		}
 1.3  jruoho
 1.1  jruoho 		x86_stihlt();
 1.1  jruoho 		break;
 1.1  jruoho 	}
 1.1  jruoho }
 1.5  jruoho
 1.5  jruoho int
 1.5  jruoho acpicpu_md_pstate_start(void)
 1.5  jruoho {
1.20  jruoho 	const uint64_t est = __BIT(16);
1.20  jruoho 	uint64_t val;
1.20  jruoho
1.20  jruoho 	switch (cpu_vendor) {
1.20  jruoho
1.20  jruoho 	case CPUVENDOR_IDT:
1.20  jruoho 	case CPUVENDOR_INTEL:
1.20  jruoho
1.20  jruoho 		val = rdmsr(MSR_MISC_ENABLE);
1.20  jruoho
1.20  jruoho 		if ((val & est) == 0) {
1.20  jruoho
1.20  jruoho 			val |= est;
1.20  jruoho
1.20  jruoho 			wrmsr(MSR_MISC_ENABLE, val);
1.20  jruoho 			val = rdmsr(MSR_MISC_ENABLE);
1.20  jruoho
1.20  jruoho 			if ((val & est) == 0)
1.20  jruoho 				return ENOTTY;
1.20  jruoho 		}
1.20  jruoho 	}
 1.9  jruoho
1.19  jruoho 	return acpicpu_md_pstate_sysctl_init();
 1.5  jruoho }
 1.5  jruoho
 1.5  jruoho int
 1.5  jruoho acpicpu_md_pstate_stop(void)
 1.5  jruoho {
 1.5  jruoho
1.19  jruoho 	if (acpicpu_log != NULL)
1.19  jruoho 		sysctl_teardown(&acpicpu_log);
 1.5  jruoho
 1.5  jruoho 	return 0;
 1.5  jruoho }
 1.5  jruoho
 1.5  jruoho int
1.15  jruoho acpicpu_md_pstate_pss(struct acpicpu_softc *sc)
 1.5  jruoho {
1.15  jruoho 	struct acpicpu_pstate *ps, msr;
1.17  jruoho 	struct cpu_info *ci = curcpu();
1.18  jruoho 	uint32_t family, i = 0;
1.13  jruoho
1.15  jruoho 	(void)memset(&msr, 0, sizeof(struct acpicpu_pstate));
1.13  jruoho
 1.5  jruoho 	switch (cpu_vendor) {
 1.5  jruoho
1.17  jruoho 	case CPUVENDOR_IDT:
 1.5  jruoho 	case CPUVENDOR_INTEL:
1.15  jruoho 		msr.ps_control_addr = MSR_PERF_CTL;
1.15  jruoho 		msr.ps_control_mask = __BITS(0, 15);
1.15  jruoho
1.15  jruoho 		msr.ps_status_addr  = MSR_PERF_STATUS;
1.15  jruoho 		msr.ps_status_mask  = __BITS(0, 15);
1.13  jruoho 		break;
1.13  jruoho
1.13  jruoho 	case CPUVENDOR_AMD:
1.13  jruoho
1.18  jruoho 		family = CPUID2FAMILY(ci->ci_signature);
1.18  jruoho
1.18  jruoho 		if (family == 0xf)
1.18  jruoho 			family += CPUID2EXTFAMILY(ci->ci_signature);
1.18  jruoho
1.18  jruoho 		switch (family) {
1.17  jruoho
1.17  jruoho 		case 0x10:
1.17  jruoho 		case 0x11:
1.17  jruoho 			msr.ps_control_addr = MSR_10H_CONTROL;
1.17  jruoho 			msr.ps_control_mask = __BITS(0, 2);
1.17  jruoho
1.17  jruoho 			msr.ps_status_addr  = MSR_10H_STATUS;
1.17  jruoho 			msr.ps_status_mask  = __BITS(0, 2);
1.17  jruoho 			break;
1.17  jruoho
1.17  jruoho 		default:
1.17  jruoho
1.17  jruoho 			if ((sc->sc_flags & ACPICPU_FLAG_P_XPSS) == 0)
1.17  jruoho 				return EOPNOTSUPP;
1.17  jruoho 		}
1.13  jruoho
1.13  jruoho 		break;
1.13  jruoho
1.13  jruoho 	default:
1.13  jruoho 		return ENODEV;
1.13  jruoho 	}
 1.5  jruoho
1.15  jruoho 	while (i < sc->sc_pstate_count) {
1.15  jruoho
1.15  jruoho 		ps = &sc->sc_pstate[i];
1.15  jruoho
1.15  jruoho 		if (ps->ps_status_addr == 0)
1.15  jruoho 			ps->ps_status_addr = msr.ps_status_addr;
1.15  jruoho
1.15  jruoho 		if (ps->ps_status_mask == 0)
1.15  jruoho 			ps->ps_status_mask = msr.ps_status_mask;
1.15  jruoho
1.15  jruoho 		if (ps->ps_control_addr == 0)
1.15  jruoho 			ps->ps_control_addr = msr.ps_control_addr;
1.15  jruoho
1.15  jruoho 		if (ps->ps_control_mask == 0)
1.15  jruoho 			ps->ps_control_mask = msr.ps_control_mask;
1.15  jruoho
1.15  jruoho 		i++;
1.15  jruoho 	}
1.15  jruoho
1.15  jruoho 	return 0;
1.15  jruoho }
1.15  jruoho
1.15  jruoho int
1.15  jruoho acpicpu_md_pstate_get(struct acpicpu_softc *sc, uint32_t *freq)
1.15  jruoho {
1.15  jruoho 	struct acpicpu_pstate *ps = NULL;
1.15  jruoho 	uint64_t val;
1.15  jruoho 	uint32_t i;
1.15  jruoho
1.15  jruoho 	for (i = 0; i < sc->sc_pstate_count; i++) {
1.15  jruoho
1.15  jruoho 		ps = &sc->sc_pstate[i];
1.15  jruoho
1.15  jruoho 		if (ps->ps_freq != 0)
1.15  jruoho 			break;
1.15  jruoho 	}
1.15  jruoho
1.15  jruoho 	if (__predict_false(ps == NULL))
1.17  jruoho 		return ENODEV;
1.15  jruoho
1.13  jruoho 	if (ps->ps_status_addr == 0)
1.13  jruoho 		return EINVAL;
 1.5  jruoho
1.13  jruoho 	val = rdmsr(ps->ps_status_addr);
 1.5  jruoho
1.13  jruoho 	if (ps->ps_status_mask != 0)
1.13  jruoho 		val = val & ps->ps_status_mask;
 1.5  jruoho
1.13  jruoho 	for (i = 0; i < sc->sc_pstate_count; i++) {
 1.5  jruoho
1.13  jruoho 		ps = &sc->sc_pstate[i];
 1.5  jruoho
1.13  jruoho 		if (ps->ps_freq == 0)
1.13  jruoho 			continue;
 1.5  jruoho
1.13  jruoho 		if (val == ps->ps_status) {
1.13  jruoho 			*freq = ps->ps_freq;
1.13  jruoho 			return 0;
1.13  jruoho 		}
 1.5  jruoho 	}
 1.5  jruoho
1.13  jruoho 	return EIO;
 1.5  jruoho }
 1.5  jruoho
 1.5  jruoho int
 1.5  jruoho acpicpu_md_pstate_set(struct acpicpu_pstate *ps)
 1.5  jruoho {
 1.5  jruoho 	struct msr_rw_info msr;
1.14  jruoho 	uint64_t xc;
1.14  jruoho 	int rv = 0;
 1.5  jruoho
1.13  jruoho 	msr.msr_read  = false;
1.13  jruoho 	msr.msr_type  = ps->ps_control_addr;
1.13  jruoho 	msr.msr_value = ps->ps_control;
1.13  jruoho
1.13  jruoho 	if (ps->ps_control_mask != 0) {
1.13  jruoho 		msr.msr_mask = ps->ps_control_mask;
1.13  jruoho 		msr.msr_read = true;
1.13  jruoho 	}
1.13  jruoho
 1.5  jruoho 	xc = xc_broadcast(0, (xcfunc_t)x86_msr_xcall, &msr, NULL);
 1.5  jruoho 	xc_wait(xc);
 1.5  jruoho
1.13  jruoho 	if (ps->ps_status_addr == 0)
1.13  jruoho 		return 0;
1.13  jruoho
1.14  jruoho 	xc = xc_broadcast(0, (xcfunc_t)acpicpu_md_pstate_status, ps, &rv);
1.14  jruoho 	xc_wait(xc);
1.14  jruoho
1.14  jruoho 	return rv;
1.14  jruoho }
1.14  jruoho
1.14  jruoho static void
1.14  jruoho acpicpu_md_pstate_status(void *arg1, void *arg2)
1.14  jruoho {
1.14  jruoho 	struct acpicpu_pstate *ps = arg1;
1.14  jruoho 	uint64_t val;
1.14  jruoho 	int i;
1.14  jruoho
 1.5  jruoho 	for (i = val = 0; i < ACPICPU_P_STATE_RETRY; i++) {
 1.5  jruoho
1.13  jruoho 		val = rdmsr(ps->ps_status_addr);
1.13  jruoho
1.13  jruoho 		if (ps->ps_status_mask != 0)
1.13  jruoho 			val = val & ps->ps_status_mask;
 1.5  jruoho
 1.5  jruoho 		if (val == ps->ps_status)
1.14  jruoho 			return;
 1.5  jruoho
 1.5  jruoho 		DELAY(ps->ps_latency);
 1.5  jruoho 	}
 1.5  jruoho
1.14  jruoho 	*(uintptr_t *)arg2 = EAGAIN;
 1.5  jruoho }
1.10  jruoho
1.10  jruoho int
1.10  jruoho acpicpu_md_tstate_get(struct acpicpu_softc *sc, uint32_t *percent)
1.10  jruoho {
1.10  jruoho 	struct acpicpu_tstate *ts;
1.14  jruoho 	uint64_t val;
1.10  jruoho 	uint32_t i;
1.10  jruoho
1.14  jruoho 	val = rdmsr(MSR_THERM_CONTROL);
1.10  jruoho
1.10  jruoho 	for (i = 0; i < sc->sc_tstate_count; i++) {
1.10  jruoho
1.10  jruoho 		ts = &sc->sc_tstate[i];
1.10  jruoho
1.10  jruoho 		if (ts->ts_percent == 0)
1.10  jruoho 			continue;
1.10  jruoho
1.10  jruoho 		if (val == ts->ts_control || val == ts->ts_status) {
1.10  jruoho 			*percent = ts->ts_percent;
1.10  jruoho 			return 0;
1.10  jruoho 		}
1.10  jruoho 	}
1.10  jruoho
1.10  jruoho 	return EIO;
1.10  jruoho }
1.10  jruoho
1.10  jruoho int
1.10  jruoho acpicpu_md_tstate_set(struct acpicpu_tstate *ts)
1.10  jruoho {
1.10  jruoho 	struct msr_rw_info msr;
1.14  jruoho 	uint64_t xc;
1.14  jruoho 	int rv = 0;
1.10  jruoho
1.14  jruoho 	msr.msr_read  = true;
1.14  jruoho 	msr.msr_type  = MSR_THERM_CONTROL;
1.14  jruoho 	msr.msr_value = ts->ts_control;
1.14  jruoho 	msr.msr_mask = __BITS(1, 4);
1.10  jruoho
1.10  jruoho 	xc = xc_broadcast(0, (xcfunc_t)x86_msr_xcall, &msr, NULL);
1.10  jruoho 	xc_wait(xc);
1.10  jruoho
1.10  jruoho 	if (ts->ts_status == 0)
1.10  jruoho 		return 0;
1.10  jruoho
1.14  jruoho 	xc = xc_broadcast(0, (xcfunc_t)acpicpu_md_tstate_status, ts, &rv);
1.14  jruoho 	xc_wait(xc);
1.14  jruoho
1.14  jruoho 	return rv;
1.14  jruoho }
1.14  jruoho
1.14  jruoho static void
1.14  jruoho acpicpu_md_tstate_status(void *arg1, void *arg2)
1.14  jruoho {
1.14  jruoho 	struct acpicpu_tstate *ts = arg1;
1.14  jruoho 	uint64_t val;
1.14  jruoho 	int i;
1.14  jruoho
1.10  jruoho 	for (i = val = 0; i < ACPICPU_T_STATE_RETRY; i++) {
1.10  jruoho
1.14  jruoho 		val = rdmsr(MSR_THERM_CONTROL);
1.10  jruoho
1.10  jruoho 		if (val == ts->ts_status)
1.14  jruoho 			return;
1.10  jruoho
1.10  jruoho 		DELAY(ts->ts_latency);
1.10  jruoho 	}
1.10  jruoho
1.14  jruoho 	*(uintptr_t *)arg2 = EAGAIN;
1.10  jruoho }
1.19  jruoho
1.19  jruoho /*
1.19  jruoho  * A kludge for backwards compatibility.
1.19  jruoho  */
1.19  jruoho static int
1.19  jruoho acpicpu_md_pstate_sysctl_init(void)
1.19  jruoho {
1.19  jruoho 	const struct sysctlnode	*fnode, *mnode, *rnode;
1.19  jruoho 	const char *str;
1.19  jruoho 	int rv;
1.19  jruoho
1.19  jruoho 	switch (cpu_vendor) {
1.19  jruoho
1.19  jruoho 	case CPUVENDOR_IDT:
1.19  jruoho 	case CPUVENDOR_INTEL:
1.19  jruoho 		str = "est";
1.19  jruoho 		break;
1.19  jruoho
1.19  jruoho 	case CPUVENDOR_AMD:
1.19  jruoho 		str = "powernow";
1.19  jruoho 		break;
1.19  jruoho
1.19  jruoho 	default:
1.19  jruoho 		return ENODEV;
1.19  jruoho 	}
1.19  jruoho
1.19  jruoho
1.19  jruoho 	rv = sysctl_createv(&acpicpu_log, 0, NULL, &rnode,
1.19  jruoho 	    CTLFLAG_PERMANENT, CTLTYPE_NODE, "machdep", NULL,
1.19  jruoho 	    NULL, 0, NULL, 0, CTL_MACHDEP, CTL_EOL);
1.19  jruoho
1.19  jruoho 	if (rv != 0)
1.19  jruoho 		goto fail;
1.19  jruoho
1.19  jruoho 	rv = sysctl_createv(&acpicpu_log, 0, &rnode, &mnode,
1.19  jruoho 	    0, CTLTYPE_NODE, str, NULL,
1.19  jruoho 	    NULL, 0, NULL, 0, CTL_CREATE, CTL_EOL);
1.19  jruoho
1.19  jruoho 	if (rv != 0)
1.19  jruoho 		goto fail;
1.19  jruoho
1.19  jruoho 	rv = sysctl_createv(&acpicpu_log, 0, &mnode, &fnode,
1.19  jruoho 	    0, CTLTYPE_NODE, "frequency", NULL,
1.19  jruoho 	    NULL, 0, NULL, 0, CTL_CREATE, CTL_EOL);
1.19  jruoho
1.19  jruoho 	if (rv != 0)
1.19  jruoho 		goto fail;
1.19  jruoho
1.19  jruoho 	rv = sysctl_createv(&acpicpu_log, 0, &fnode, &rnode,
1.19  jruoho 	    CTLFLAG_READWRITE, CTLTYPE_INT, "target", NULL,
1.19  jruoho 	    acpicpu_md_pstate_sysctl_set, 0, NULL, 0, CTL_CREATE, CTL_EOL);
1.19  jruoho
1.19  jruoho 	if (rv != 0)
1.19  jruoho 		goto fail;
1.19  jruoho
1.19  jruoho 	rv = sysctl_createv(&acpicpu_log, 0, &fnode, &rnode,
1.19  jruoho 	    CTLFLAG_READONLY, CTLTYPE_INT, "current", NULL,
1.19  jruoho 	    acpicpu_md_pstate_sysctl_get, 0, NULL, 0, CTL_CREATE, CTL_EOL);
1.19  jruoho
1.19  jruoho 	if (rv != 0)
1.19  jruoho 		goto fail;
1.19  jruoho
1.19  jruoho 	rv = sysctl_createv(&acpicpu_log, 0, &fnode, &rnode,
1.19  jruoho 	    CTLFLAG_READONLY, CTLTYPE_STRING, "available", NULL,
1.19  jruoho 	    acpicpu_md_pstate_sysctl_all, 0, NULL, 0, CTL_CREATE, CTL_EOL);
1.19  jruoho
1.19  jruoho 	if (rv != 0)
1.19  jruoho 		goto fail;
1.19  jruoho
1.19  jruoho 	return 0;
1.19  jruoho
1.19  jruoho fail:
1.19  jruoho 	if (acpicpu_log != NULL) {
1.19  jruoho 		sysctl_teardown(&acpicpu_log);
1.19  jruoho 		acpicpu_log = NULL;
1.19  jruoho 	}
1.19  jruoho
1.19  jruoho 	return rv;
1.19  jruoho }
1.19  jruoho
1.19  jruoho static int
1.19  jruoho acpicpu_md_pstate_sysctl_get(SYSCTLFN_ARGS)
1.19  jruoho {
1.19  jruoho 	struct cpu_info *ci = curcpu();
1.19  jruoho 	struct acpicpu_softc *sc;
1.19  jruoho 	struct sysctlnode node;
1.19  jruoho 	uint32_t freq;
1.19  jruoho 	int err;
1.19  jruoho
1.19  jruoho 	sc = acpicpu_sc[ci->ci_acpiid];
1.19  jruoho
1.19  jruoho 	if (sc == NULL)
1.19  jruoho 		return ENXIO;
1.19  jruoho
1.19  jruoho 	err = acpicpu_pstate_get(sc, &freq);
1.19  jruoho
1.19  jruoho 	if (err != 0)
1.19  jruoho 		return err;
1.19  jruoho
1.19  jruoho 	node = *rnode;
1.19  jruoho 	node.sysctl_data = &freq;
1.19  jruoho
1.19  jruoho 	err = sysctl_lookup(SYSCTLFN_CALL(&node));
1.19  jruoho
1.19  jruoho 	if (err != 0 || newp == NULL)
1.19  jruoho 		return err;
1.19  jruoho
1.19  jruoho 	return 0;
1.19  jruoho }
1.19  jruoho
1.19  jruoho static int
1.19  jruoho acpicpu_md_pstate_sysctl_set(SYSCTLFN_ARGS)
1.19  jruoho {
1.19  jruoho 	struct cpu_info *ci = curcpu();
1.19  jruoho 	struct acpicpu_softc *sc;
1.19  jruoho 	struct sysctlnode node;
1.19  jruoho 	uint32_t freq;
1.19  jruoho 	int err;
1.19  jruoho
1.19  jruoho 	sc = acpicpu_sc[ci->ci_acpiid];
1.19  jruoho
1.19  jruoho 	if (sc == NULL)
1.19  jruoho 		return ENXIO;
1.19  jruoho
1.19  jruoho 	err = acpicpu_pstate_get(sc, &freq);
1.19  jruoho
1.19  jruoho 	if (err != 0)
1.19  jruoho 		return err;
1.19  jruoho
1.19  jruoho 	node = *rnode;
1.19  jruoho 	node.sysctl_data = &freq;
1.19  jruoho
1.19  jruoho 	err = sysctl_lookup(SYSCTLFN_CALL(&node));
1.19  jruoho
1.19  jruoho 	if (err != 0 || newp == NULL)
1.19  jruoho 		return err;
1.19  jruoho
1.19  jruoho 	err = acpicpu_pstate_set(sc, freq);
1.19  jruoho
1.19  jruoho 	if (err != 0)
1.19  jruoho 		return err;
1.19  jruoho
1.19  jruoho 	return 0;
1.19  jruoho }
1.19  jruoho
1.19  jruoho static int
1.19  jruoho acpicpu_md_pstate_sysctl_all(SYSCTLFN_ARGS)
1.19  jruoho {
1.19  jruoho 	struct cpu_info *ci = curcpu();
1.19  jruoho 	struct acpicpu_softc *sc;
1.19  jruoho 	struct sysctlnode node;
1.19  jruoho 	char buf[1024];
1.19  jruoho 	size_t len;
1.19  jruoho 	uint32_t i;
1.19  jruoho 	int err;
1.19  jruoho
1.19  jruoho 	sc = acpicpu_sc[ci->ci_acpiid];
1.19  jruoho
1.19  jruoho 	if (sc == NULL)
1.19  jruoho 		return ENXIO;
1.19  jruoho
1.19  jruoho 	(void)memset(&buf, 0, sizeof(buf));
1.19  jruoho
1.19  jruoho 	mutex_enter(&sc->sc_mtx);
1.19  jruoho
1.19  jruoho 	for (len = 0, i = sc->sc_pstate_max; i < sc->sc_pstate_count; i++) {
1.19  jruoho
1.19  jruoho 		if (sc->sc_pstate[i].ps_freq == 0)
1.19  jruoho 			continue;
1.19  jruoho
1.19  jruoho 		len += snprintf(buf + len, sizeof(buf) - len, "%u%s",
1.19  jruoho 		    sc->sc_pstate[i].ps_freq,
1.19  jruoho 		    i < (sc->sc_pstate_count - 1) ? " " : "");
1.19  jruoho 	}
1.19  jruoho
1.19  jruoho 	mutex_exit(&sc->sc_mtx);
1.19  jruoho
1.19  jruoho 	node = *rnode;
1.19  jruoho 	node.sysctl_data = buf;
1.19  jruoho
1.19  jruoho 	err = sysctl_lookup(SYSCTLFN_CALL(&node));
1.19  jruoho
1.19  jruoho 	if (err != 0 || newp == NULL)
1.19  jruoho 		return err;
1.19  jruoho
1.19  jruoho 	return 0;
1.19  jruoho }
1.19  jruoho