io/vmm/vmm.c

bf21cd93STycho Nightingale/*-
32640292SAndy Fiddaman * SPDX-License-Identifier: BSD-2-Clause
4c87aefeSPatrick Mooney *
bf21cd93STycho Nightingale * Copyright (c) 2011 NetApp, Inc.
bf21cd93STycho Nightingale * All rights reserved.
bf21cd93STycho Nightingale *
bf21cd93STycho Nightingale * Redistribution and use in source and binary forms, with or without
bf21cd93STycho Nightingale * modification, are permitted provided that the following conditions
bf21cd93STycho Nightingale * are met:
bf21cd93STycho Nightingale * 1. Redistributions of source code must retain the above copyright
bf21cd93STycho Nightingale *    notice, this list of conditions and the following disclaimer.
bf21cd93STycho Nightingale * 2. Redistributions in binary form must reproduce the above copyright
bf21cd93STycho Nightingale *    notice, this list of conditions and the following disclaimer in the
bf21cd93STycho Nightingale *    documentation and/or other materials provided with the distribution.
bf21cd93STycho Nightingale *
bf21cd93STycho Nightingale * THIS SOFTWARE IS PROVIDED BY NETAPP, INC ``AS IS'' AND
bf21cd93STycho Nightingale * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
bf21cd93STycho Nightingale * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
bf21cd93STycho Nightingale * ARE DISCLAIMED.  IN NO EVENT SHALL NETAPP, INC OR CONTRIBUTORS BE LIABLE
bf21cd93STycho Nightingale * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
bf21cd93STycho Nightingale * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
bf21cd93STycho Nightingale * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
bf21cd93STycho Nightingale * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
bf21cd93STycho Nightingale * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
bf21cd93STycho Nightingale * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
bf21cd93STycho Nightingale * SUCH DAMAGE.
bf21cd93STycho Nightingale */
bf21cd93STycho Nightingale/*
bf21cd93STycho Nightingale * This file and its contents are supplied under the terms of the
bf21cd93STycho Nightingale * Common Development and Distribution License ("CDDL"), version 1.0.
bf21cd93STycho Nightingale * You may only use this file in accordance with the terms of version
bf21cd93STycho Nightingale * 1.0 of the CDDL.
bf21cd93STycho Nightingale *
bf21cd93STycho Nightingale * A full copy of the text of the CDDL should have accompanied this
bf21cd93STycho Nightingale * source.  A copy of the CDDL is also available via the Internet at
bf21cd93STycho Nightingale * http://www.illumos.org/license/CDDL.
bf21cd93STycho Nightingale *
bf21cd93STycho Nightingale * Copyright 2015 Pluribus Networks Inc.
4c87aefeSPatrick Mooney * Copyright 2018 Joyent, Inc.
*4bd36be4SPatrick Mooney * Copyright 2024 Oxide Computer Company
2282d3b0SAndy Fiddaman * Copyright 2021 OmniOS Community Edition (OmniOSce) Association.
bf21cd93STycho Nightingale */
bf21cd93STycho Nightingale
717646f7SJordan Paige Hendricks
bf21cd93STycho Nightingale#include <sys/cdefs.h>
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale#include <sys/param.h>
bf21cd93STycho Nightingale#include <sys/systm.h>
bf21cd93STycho Nightingale#include <sys/kernel.h>
bf21cd93STycho Nightingale#include <sys/module.h>
bf21cd93STycho Nightingale#include <sys/sysctl.h>
8130f8e1SPatrick Mooney#include <sys/kmem.h>
bf21cd93STycho Nightingale#include <sys/pcpu.h>
bf21cd93STycho Nightingale#include <sys/mutex.h>
bf21cd93STycho Nightingale#include <sys/proc.h>
4c87aefeSPatrick Mooney#include <sys/rwlock.h>
bf21cd93STycho Nightingale#include <sys/sched.h>
bf21cd93STycho Nightingale#include <sys/systm.h>
b57f5d3eSPatrick Mooney#include <sys/sunddi.h>
957246c9SPatrick Mooney#include <sys/hma.h>
717646f7SJordan Paige Hendricks#include <sys/archsystm.h>
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney#include <machine/md_var.h>
4c87aefeSPatrick Mooney#include <x86/psl.h>
bf21cd93STycho Nightingale#include <x86/apicreg.h>
bf21cd93STycho Nightingale
cf409e3fSDan Cross#include <machine/specialreg.h>
bf21cd93STycho Nightingale#include <machine/vmm.h>
bf21cd93STycho Nightingale#include <machine/vmm_dev.h>
cf409e3fSDan Cross#include <machine/vmparam.h>
e0c0d44eSPatrick Mooney#include <sys/vmm_instruction_emul.h>
cf409e3fSDan Cross#include <sys/vmm_vm.h>
0153d828SPatrick Mooney#include <sys/vmm_gpt.h>
d515dd77SPatrick Mooney#include <sys/vmm_data.h>
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale#include "vmm_ioport.h"
bf21cd93STycho Nightingale#include "vmm_host.h"
bf21cd93STycho Nightingale#include "vmm_util.h"
bf21cd93STycho Nightingale#include "vatpic.h"
bf21cd93STycho Nightingale#include "vatpit.h"
bf21cd93STycho Nightingale#include "vhpet.h"
bf21cd93STycho Nightingale#include "vioapic.h"
bf21cd93STycho Nightingale#include "vlapic.h"
4c87aefeSPatrick Mooney#include "vpmtmr.h"
4c87aefeSPatrick Mooney#include "vrtc.h"
bf21cd93STycho Nightingale#include "vmm_stat.h"
bf21cd93STycho Nightingale#include "vmm_lapic.h"
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale#include "io/ppt.h"
bf21cd93STycho Nightingale#include "io/iommu.h"
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestruct vlapic;
bf21cd93STycho Nightingale
5a469116SPatrick Mooney/* Flags for vtc_status */
5a469116SPatrick Mooney#define	VTCS_FPU_RESTORED	1 /* guest FPU restored, host FPU saved */
5a469116SPatrick Mooney#define	VTCS_FPU_CTX_CRITICAL	2 /* in ctx where FPU restore cannot be lazy */
5a469116SPatrick Mooney
5a469116SPatrick Mooneytypedef struct vm_thread_ctx {
5a469116SPatrick Mooney	struct vm	*vtc_vm;
5a469116SPatrick Mooney	int		vtc_vcpuid;
5a469116SPatrick Mooney	uint_t		vtc_status;
5a469116SPatrick Mooney	enum vcpu_ustate vtc_ustate;
5a469116SPatrick Mooney} vm_thread_ctx_t;
5a469116SPatrick Mooney
d7b72f7bSAndy Fiddaman#define	VMM_MTRR_VAR_MAX 10
d7b72f7bSAndy Fiddaman#define	VMM_MTRR_DEF_MASK \
d7b72f7bSAndy Fiddaman	(MTRR_DEF_ENABLE | MTRR_DEF_FIXED_ENABLE | MTRR_DEF_TYPE)
d7b72f7bSAndy Fiddaman#define	VMM_MTRR_PHYSBASE_MASK (MTRR_PHYSBASE_PHYSBASE | MTRR_PHYSBASE_TYPE)
d7b72f7bSAndy Fiddaman#define	VMM_MTRR_PHYSMASK_MASK (MTRR_PHYSMASK_PHYSMASK | MTRR_PHYSMASK_VALID)
d7b72f7bSAndy Fiddamanstruct vm_mtrr {
d7b72f7bSAndy Fiddaman	uint64_t def_type;
d7b72f7bSAndy Fiddaman	uint64_t fixed4k[8];
d7b72f7bSAndy Fiddaman	uint64_t fixed16k[2];
d7b72f7bSAndy Fiddaman	uint64_t fixed64k;
d7b72f7bSAndy Fiddaman	struct {
d7b72f7bSAndy Fiddaman		uint64_t base;
d7b72f7bSAndy Fiddaman		uint64_t mask;
d7b72f7bSAndy Fiddaman	} var[VMM_MTRR_VAR_MAX];
d7b72f7bSAndy Fiddaman};
d7b72f7bSAndy Fiddaman
4c87aefeSPatrick Mooney/*
4c87aefeSPatrick Mooney * Initialization:
4c87aefeSPatrick Mooney * (a) allocated when vcpu is created
4c87aefeSPatrick Mooney * (i) initialized when vcpu is created and when it is reinitialized
4c87aefeSPatrick Mooney * (o) initialized the first time the vcpu is created
4c87aefeSPatrick Mooney * (x) initialized before use
4c87aefeSPatrick Mooney */
bf21cd93STycho Nightingalestruct vcpu {
2606939dSPatrick Mooney	/* (o) protects state, run_state, hostcpu, sipi_vector */
fb29dee0SPatrick Mooney	kmutex_t	lock;
2606939dSPatrick Mooney
4c87aefeSPatrick Mooney	enum vcpu_state	state;		/* (o) vcpu state */
2606939dSPatrick Mooney	enum vcpu_run_state run_state;	/* (i) vcpu init/sipi/run state */
4c87aefeSPatrick Mooney	kcondvar_t	vcpu_cv;	/* (o) cpu waiter cv */
4c87aefeSPatrick Mooney	kcondvar_t	state_cv;	/* (o) IDLE-transition cv */
4c87aefeSPatrick Mooney	int		hostcpu;	/* (o) vcpu's current host cpu */
4c87aefeSPatrick Mooney	int		lastloccpu;	/* (o) last host cpu localized to */
72473353SPatrick Mooney	bool		reqidle;	/* (i) request vcpu to idle */
23d9a8faSPatrick Mooney	bool		reqconsist;	/* (i) req. vcpu exit when consistent */
72473353SPatrick Mooney	bool		reqbarrier;	/* (i) request vcpu exit barrier */
4c87aefeSPatrick Mooney	struct vlapic	*vlapic;	/* (i) APIC device model */
4c87aefeSPatrick Mooney	enum x2apic_state x2apic_state;	/* (i) APIC mode */
3d097f7dSPatrick Mooney	uint64_t	exit_intinfo;	/* (i) events pending at VM exit */
3d097f7dSPatrick Mooney	uint64_t	exc_pending;	/* (i) exception pending */
3d097f7dSPatrick Mooney	bool		nmi_pending;	/* (i) NMI pending */
3d097f7dSPatrick Mooney	bool		extint_pending;	/* (i) INTR pending */
3d097f7dSPatrick Mooney
2606939dSPatrick Mooney	uint8_t		sipi_vector;	/* (i) SIPI vector */
957246c9SPatrick Mooney	hma_fpu_t	*guestfpu;	/* (a,i) guest fpu state */
4c87aefeSPatrick Mooney	uint64_t	guest_xcr0;	/* (i) guest %xcr0 register */
4c87aefeSPatrick Mooney	void		*stats;		/* (a,i) statistics */
4c87aefeSPatrick Mooney	struct vm_exit	exitinfo;	/* (x) exit reason and collateral */
bf21cd93STycho Nightingale	uint64_t	nextrip;	/* (x) next instruction to execute */
e0c0d44eSPatrick Mooney	struct vie	*vie_ctx;	/* (x) instruction emulation context */
0153d828SPatrick Mooney	vm_client_t	*vmclient;	/* (a) VM-system client */
717646f7SJordan Paige Hendricks	uint64_t	tsc_offset;	/* (x) vCPU TSC offset */
d7b72f7bSAndy Fiddaman	struct vm_mtrr	mtrr;		/* (i) vcpu's MTRR */
578d9a56SPatrick Mooney	vcpu_cpuid_config_t cpuid_cfg;	/* (x) cpuid configuration */
59460b49SPatrick Mooney
59460b49SPatrick Mooney	enum vcpu_ustate ustate;	/* (i) microstate for the vcpu */
59460b49SPatrick Mooney	hrtime_t	ustate_when;	/* (i) time of last ustate change */
59460b49SPatrick Mooney	uint64_t ustate_total[VU_MAX];	/* (o) total time spent in ustates */
5a469116SPatrick Mooney	vm_thread_ctx_t	vtc;		/* (o) thread state for ctxops */
5a469116SPatrick Mooney	struct ctxop	*ctxop;		/* (o) ctxop storage for vcpu */
bf21cd93STycho Nightingale};
bf21cd93STycho Nightingale
fb29dee0SPatrick Mooney#define	vcpu_lock(v)		mutex_enter(&((v)->lock))
fb29dee0SPatrick Mooney#define	vcpu_unlock(v)		mutex_exit(&((v)->lock))
fb29dee0SPatrick Mooney#define	vcpu_assert_locked(v)	ASSERT(MUTEX_HELD(&((v)->lock)))
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneystruct mem_seg {
4c87aefeSPatrick Mooney	size_t	len;
4c87aefeSPatrick Mooney	bool	sysmem;
0153d828SPatrick Mooney	vm_object_t *object;
4c87aefeSPatrick Mooney};
d7b72f7bSAndy Fiddaman#define	VM_MAX_MEMSEGS	5
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneystruct mem_map {
4c87aefeSPatrick Mooney	vm_paddr_t	gpa;
4c87aefeSPatrick Mooney	size_t		len;
4c87aefeSPatrick Mooney	vm_ooffset_t	segoff;
4c87aefeSPatrick Mooney	int		segid;
4c87aefeSPatrick Mooney	int		prot;
4c87aefeSPatrick Mooney	int		flags;
4c87aefeSPatrick Mooney};
154972afSPatrick Mooney#define	VM_MAX_MEMMAPS	8
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney/*
4c87aefeSPatrick Mooney * Initialization:
4c87aefeSPatrick Mooney * (o) initialized the first time the VM is created
4c87aefeSPatrick Mooney * (i) initialized when VM is created and when it is reinitialized
4c87aefeSPatrick Mooney * (x) initialized before use
4c87aefeSPatrick Mooney */
4c87aefeSPatrick Mooneystruct vm {
4c87aefeSPatrick Mooney	void		*cookie;		/* (i) cpu-specific data */
4c87aefeSPatrick Mooney	void		*iommu;			/* (x) iommu-specific data */
4c87aefeSPatrick Mooney	struct vhpet	*vhpet;			/* (i) virtual HPET */
4c87aefeSPatrick Mooney	struct vioapic	*vioapic;		/* (i) virtual ioapic */
4c87aefeSPatrick Mooney	struct vatpic	*vatpic;		/* (i) virtual atpic */
4c87aefeSPatrick Mooney	struct vatpit	*vatpit;		/* (i) virtual atpit */
4c87aefeSPatrick Mooney	struct vpmtmr	*vpmtmr;		/* (i) virtual ACPI PM timer */
4c87aefeSPatrick Mooney	struct vrtc	*vrtc;			/* (o) virtual RTC */
4c87aefeSPatrick Mooney	volatile cpuset_t active_cpus;		/* (i) active vcpus */
2699b94cSPatrick Mooney	volatile cpuset_t debug_cpus;		/* (i) vcpus stopped for dbg */
4c87aefeSPatrick Mooney	volatile cpuset_t halted_cpus;		/* (x) cpus in a hard halt */
72473353SPatrick Mooney	int		suspend_how;		/* (i) stop VM execution */
72473353SPatrick Mooney	int		suspend_source;		/* (i) src vcpuid of suspend */
72473353SPatrick Mooney	hrtime_t	suspend_when;		/* (i) time suspend asserted */
4c87aefeSPatrick Mooney	struct mem_map	mem_maps[VM_MAX_MEMMAPS]; /* (i) guest address space */
4c87aefeSPatrick Mooney	struct mem_seg	mem_segs[VM_MAX_MEMSEGS]; /* (o) guest memory regions */
4c87aefeSPatrick Mooney	struct vmspace	*vmspace;		/* (o) guest's address space */
4c87aefeSPatrick Mooney	struct vcpu	vcpu[VM_MAXCPU];	/* (i) guest vcpus */
4c87aefeSPatrick Mooney	/* The following describe the vm cpu topology */
4c87aefeSPatrick Mooney	uint16_t	sockets;		/* (o) num of sockets */
4c87aefeSPatrick Mooney	uint16_t	cores;			/* (o) num of cores/socket */
4c87aefeSPatrick Mooney	uint16_t	threads;		/* (o) num of threads/core */
4c87aefeSPatrick Mooney	uint16_t	maxcpus;		/* (o) max pluggable cpus */
d515dd77SPatrick Mooney
d515dd77SPatrick Mooney	hrtime_t	boot_hrtime;		/* (i) hrtime at VM boot */
0e1453c3SPatrick Mooney
717646f7SJordan Paige Hendricks	/* TSC and TSC scaling related values */
717646f7SJordan Paige Hendricks	uint64_t	tsc_offset;		/* (i) VM-wide TSC offset */
717646f7SJordan Paige Hendricks	uint64_t	guest_freq;		/* (i) guest TSC Frequency */
717646f7SJordan Paige Hendricks	uint64_t	freq_multiplier;	/* (i) guest/host TSC Ratio */
717646f7SJordan Paige Hendricks
0e1453c3SPatrick Mooney	struct ioport_config ioports;		/* (o) ioport handling */
b57f5d3eSPatrick Mooney
b57f5d3eSPatrick Mooney	bool		mem_transient;		/* (o) alloc transient memory */
2cac0506SPatrick Mooney	bool		is_paused;		/* (i) instance is paused */
bf21cd93STycho Nightingale};
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic int vmm_initialized;
717646f7SJordan Paige Hendricksstatic uint64_t vmm_host_freq;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale
b38fc3edSPatrick Mooneystatic void
b38fc3edSPatrick Mooneynullop_panic(void)
b38fc3edSPatrick Mooney{
b38fc3edSPatrick Mooney	panic("null vmm operation call");
b38fc3edSPatrick Mooney}
b38fc3edSPatrick Mooney
b38fc3edSPatrick Mooney/* Do not allow use of an un-set `ops` to do anything but panic */
b38fc3edSPatrick Mooneystatic struct vmm_ops vmm_ops_null = {
b38fc3edSPatrick Mooney	.init		= (vmm_init_func_t)nullop_panic,
b38fc3edSPatrick Mooney	.cleanup	= (vmm_cleanup_func_t)nullop_panic,
b38fc3edSPatrick Mooney	.resume		= (vmm_resume_func_t)nullop_panic,
b38fc3edSPatrick Mooney	.vminit		= (vmi_init_func_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmrun		= (vmi_run_func_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmcleanup	= (vmi_cleanup_func_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmgetreg	= (vmi_get_register_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmsetreg	= (vmi_set_register_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmgetdesc	= (vmi_get_desc_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmsetdesc	= (vmi_set_desc_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmgetcap	= (vmi_get_cap_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmsetcap	= (vmi_set_cap_t)nullop_panic,
b38fc3edSPatrick Mooney	.vlapic_init	= (vmi_vlapic_init)nullop_panic,
b38fc3edSPatrick Mooney	.vlapic_cleanup	= (vmi_vlapic_cleanup)nullop_panic,
ad4335f7SPatrick Mooney	.vmpause	= (vmi_pause_t)nullop_panic,
b38fc3edSPatrick Mooney	.vmsavectx	= (vmi_savectx)nullop_panic,
b38fc3edSPatrick Mooney	.vmrestorectx	= (vmi_restorectx)nullop_panic,
54cf5b63SPatrick Mooney	.vmgetmsr	= (vmi_get_msr_t)nullop_panic,
54cf5b63SPatrick Mooney	.vmsetmsr	= (vmi_set_msr_t)nullop_panic,
717646f7SJordan Paige Hendricks	.vmfreqratio	= (vmi_freqratio_t)nullop_panic,
717646f7SJordan Paige Hendricks	.fr_fracsize	= 0,
717646f7SJordan Paige Hendricks	.fr_intsize	= 0,
b38fc3edSPatrick Mooney};
b38fc3edSPatrick Mooney
b38fc3edSPatrick Mooneystatic struct vmm_ops *ops = &vmm_ops_null;
0153d828SPatrick Mooneystatic vmm_pte_ops_t *pte_ops = NULL;
b38fc3edSPatrick Mooney
0153d828SPatrick Mooney#define	VMM_INIT()			((*ops->init)())
b38fc3edSPatrick Mooney#define	VMM_CLEANUP()			((*ops->cleanup)())
b38fc3edSPatrick Mooney#define	VMM_RESUME()			((*ops->resume)())
b38fc3edSPatrick Mooney
0153d828SPatrick Mooney#define	VMINIT(vm)		((*ops->vminit)(vm))
0153d828SPatrick Mooney#define	VMRUN(vmi, vcpu, rip)	((*ops->vmrun)(vmi, vcpu, rip))
2699b94cSPatrick Mooney#define	VMCLEANUP(vmi)			((*ops->vmcleanup)(vmi))
b38fc3edSPatrick Mooney
b38fc3edSPatrick Mooney#define	VMGETREG(vmi, vcpu, num, rv)	((*ops->vmgetreg)(vmi, vcpu, num, rv))
b38fc3edSPatrick Mooney#define	VMSETREG(vmi, vcpu, num, val)	((*ops->vmsetreg)(vmi, vcpu, num, val))
b38fc3edSPatrick Mooney#define	VMGETDESC(vmi, vcpu, num, dsc)	((*ops->vmgetdesc)(vmi, vcpu, num, dsc))
b38fc3edSPatrick Mooney#define	VMSETDESC(vmi, vcpu, num, dsc)	((*ops->vmsetdesc)(vmi, vcpu, num, dsc))
b38fc3edSPatrick Mooney#define	VMGETCAP(vmi, vcpu, num, rv)	((*ops->vmgetcap)(vmi, vcpu, num, rv))
b38fc3edSPatrick Mooney#define	VMSETCAP(vmi, vcpu, num, val)	((*ops->vmsetcap)(vmi, vcpu, num, val))
b38fc3edSPatrick Mooney#define	VLAPIC_INIT(vmi, vcpu)		((*ops->vlapic_init)(vmi, vcpu))
b38fc3edSPatrick Mooney#define	VLAPIC_CLEANUP(vmi, vlapic)	((*ops->vlapic_cleanup)(vmi, vlapic))
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale#define	fpu_start_emulating()	load_cr0(rcr0() | CR0_TS)
bf21cd93STycho Nightingale#define	fpu_stop_emulating()	clts()
bf21cd93STycho Nightingale
4c87aefeSPatrick MooneySDT_PROVIDER_DEFINE(vmm);
4c87aefeSPatrick Mooney
154972afSPatrick MooneySYSCTL_NODE(_hw, OID_AUTO, vmm, CTLFLAG_RW | CTLFLAG_MPSAFE, NULL,
154972afSPatrick Mooney    NULL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney/*
4c87aefeSPatrick Mooney * Halt the guest if all vcpus are executing a HLT instruction with
4c87aefeSPatrick Mooney * interrupts disabled.
4c87aefeSPatrick Mooney */
4f3f3e9aSAndy Fiddamanint halt_detection_enabled = 1;
4c87aefeSPatrick Mooney
2699b94cSPatrick Mooney/* Trap into hypervisor on all guest exceptions and reflect them back */
4f3f3e9aSAndy Fiddamanint trace_guest_exceptions;
4f3f3e9aSAndy Fiddaman
4f3f3e9aSAndy Fiddaman/* Trap WBINVD and ignore it */
4f3f3e9aSAndy Fiddamanint trap_wbinvd = 1;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystatic void vm_free_memmap(struct vm *vm, int ident);
4c87aefeSPatrick Mooneystatic bool sysmem_mapping(struct vm *vm, struct mem_map *mm);
c74a40a5SPatrick Mooneystatic void vcpu_notify_event_locked(struct vcpu *vcpu, vcpu_notify_t);
2606939dSPatrick Mooneystatic bool vcpu_sleep_bailout_checks(struct vm *vm, int vcpuid);
2606939dSPatrick Mooneystatic int vcpu_vector_sipi(struct vm *vm, int vcpuid, uint8_t vector);
72473353SPatrick Mooneystatic bool vm_is_suspended(struct vm *, struct vm_exit *);
4c87aefeSPatrick Mooney
5a469116SPatrick Mooneystatic void vmm_savectx(void *);
5a469116SPatrick Mooneystatic void vmm_restorectx(void *);
5a469116SPatrick Mooneystatic const struct ctxop_template vmm_ctxop_tpl = {
5a469116SPatrick Mooney	.ct_rev		= CTXOP_TPL_REV,
5a469116SPatrick Mooney	.ct_save	= vmm_savectx,
5a469116SPatrick Mooney	.ct_restore	= vmm_restorectx,
5a469116SPatrick Mooney};
4c87aefeSPatrick Mooney
717646f7SJordan Paige Hendricksstatic uint64_t calc_tsc_offset(uint64_t base_host_tsc, uint64_t base_guest_tsc,
717646f7SJordan Paige Hendricks    uint64_t mult);
717646f7SJordan Paige Hendricksstatic uint64_t calc_guest_tsc(uint64_t host_tsc, uint64_t mult,
717646f7SJordan Paige Hendricks    uint64_t offset);
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/* functions implemented in vmm_time_support.S */
717646f7SJordan Paige Hendricksuint64_t calc_freq_multiplier(uint64_t guest_hz, uint64_t host_hz,
717646f7SJordan Paige Hendricks    uint32_t frac_size);
717646f7SJordan Paige Hendricksuint64_t scale_tsc(uint64_t tsc, uint64_t multiplier, uint32_t frac_size);
717646f7SJordan Paige Hendricks
4c87aefeSPatrick Mooney#ifdef KTR
4c87aefeSPatrick Mooneystatic const char *
4c87aefeSPatrick Mooneyvcpu_state2str(enum vcpu_state state)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	switch (state) {
4c87aefeSPatrick Mooney	case VCPU_IDLE:
4c87aefeSPatrick Mooney		return ("idle");
4c87aefeSPatrick Mooney	case VCPU_FROZEN:
4c87aefeSPatrick Mooney		return ("frozen");
4c87aefeSPatrick Mooney	case VCPU_RUNNING:
4c87aefeSPatrick Mooney		return ("running");
4c87aefeSPatrick Mooney	case VCPU_SLEEPING:
4c87aefeSPatrick Mooney		return ("sleeping");
4c87aefeSPatrick Mooney	default:
4c87aefeSPatrick Mooney		return ("unknown");
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney#endif
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingalestatic void
4c87aefeSPatrick Mooneyvcpu_cleanup(struct vm *vm, int i, bool destroy)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu = &vm->vcpu[i];
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	VLAPIC_CLEANUP(vm->cookie, vcpu->vlapic);
4c87aefeSPatrick Mooney	if (destroy) {
4c87aefeSPatrick Mooney		vmm_stat_free(vcpu->stats);
fb29dee0SPatrick Mooney
578d9a56SPatrick Mooney		vcpu_cpuid_cleanup(&vcpu->cpuid_cfg);
578d9a56SPatrick Mooney
957246c9SPatrick Mooney		hma_fpu_free(vcpu->guestfpu);
957246c9SPatrick Mooney		vcpu->guestfpu = NULL;
fb29dee0SPatrick Mooney
e0c0d44eSPatrick Mooney		vie_free(vcpu->vie_ctx);
e0c0d44eSPatrick Mooney		vcpu->vie_ctx = NULL;
fb29dee0SPatrick Mooney
0153d828SPatrick Mooney		vmc_destroy(vcpu->vmclient);
0153d828SPatrick Mooney		vcpu->vmclient = NULL;
fb29dee0SPatrick Mooney
5a469116SPatrick Mooney		ctxop_free(vcpu->ctxop);
fb29dee0SPatrick Mooney		mutex_destroy(&vcpu->lock);
4c87aefeSPatrick Mooney	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic void
4c87aefeSPatrick Mooneyvcpu_init(struct vm *vm, int vcpu_id, bool create)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	KASSERT(vcpu_id >= 0 && vcpu_id < vm->maxcpus,
4c87aefeSPatrick Mooney	    ("vcpu_init: invalid vcpu %d", vcpu_id));
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpu_id];
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (create) {
fb29dee0SPatrick Mooney		mutex_init(&vcpu->lock, NULL, MUTEX_ADAPTIVE, NULL);
fb29dee0SPatrick Mooney
4c87aefeSPatrick Mooney		vcpu->state = VCPU_IDLE;
4c87aefeSPatrick Mooney		vcpu->hostcpu = NOCPU;
4c87aefeSPatrick Mooney		vcpu->lastloccpu = NOCPU;
957246c9SPatrick Mooney		vcpu->guestfpu = hma_fpu_alloc(KM_SLEEP);
4c87aefeSPatrick Mooney		vcpu->stats = vmm_stat_alloc();
e0c0d44eSPatrick Mooney		vcpu->vie_ctx = vie_alloc();
578d9a56SPatrick Mooney		vcpu_cpuid_init(&vcpu->cpuid_cfg);
59460b49SPatrick Mooney
59460b49SPatrick Mooney		vcpu->ustate = VU_INIT;
59460b49SPatrick Mooney		vcpu->ustate_when = gethrtime();
5a469116SPatrick Mooney
5a469116SPatrick Mooney		vcpu->vtc.vtc_vm = vm;
5a469116SPatrick Mooney		vcpu->vtc.vtc_vcpuid = vcpu_id;
5a469116SPatrick Mooney		vcpu->ctxop = ctxop_allocate(&vmm_ctxop_tpl, &vcpu->vtc);
e0c0d44eSPatrick Mooney	} else {
e0c0d44eSPatrick Mooney		vie_reset(vcpu->vie_ctx);
e0c0d44eSPatrick Mooney		bzero(&vcpu->exitinfo, sizeof (vcpu->exitinfo));
72473353SPatrick Mooney		vcpu_ustate_change(vm, vcpu_id, VU_INIT);
d7b72f7bSAndy Fiddaman		bzero(&vcpu->mtrr, sizeof (vcpu->mtrr));
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
2606939dSPatrick Mooney	vcpu->run_state = VRS_HALT;
bf21cd93STycho Nightingale	vcpu->vlapic = VLAPIC_INIT(vm->cookie, vcpu_id);
e0994bd2SPatrick Mooney	(void) vm_set_x2apic_state(vm, vcpu_id, X2APIC_DISABLED);
72473353SPatrick Mooney	vcpu->reqidle = false;
72473353SPatrick Mooney	vcpu->reqconsist = false;
72473353SPatrick Mooney	vcpu->reqbarrier = false;
3d097f7dSPatrick Mooney	vcpu->exit_intinfo = 0;
3d097f7dSPatrick Mooney	vcpu->nmi_pending = false;
3d097f7dSPatrick Mooney	vcpu->extint_pending = false;
3d097f7dSPatrick Mooney	vcpu->exc_pending = 0;
4c87aefeSPatrick Mooney	vcpu->guest_xcr0 = XFEATURE_ENABLED_X87;
e0994bd2SPatrick Mooney	(void) hma_fpu_init(vcpu->guestfpu);
4c87aefeSPatrick Mooney	vmm_stat_init(vcpu->stats);
9250eb13SPatrick Mooney	vcpu->tsc_offset = 0;
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneyint
4c87aefeSPatrick Mooneyvcpu_trace_exceptions(struct vm *vm, int vcpuid)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	return (trace_guest_exceptions);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4f3f3e9aSAndy Fiddamanint
4f3f3e9aSAndy Fiddamanvcpu_trap_wbinvd(struct vm *vm, int vcpuid)
4f3f3e9aSAndy Fiddaman{
4f3f3e9aSAndy Fiddaman	return (trap_wbinvd);
4f3f3e9aSAndy Fiddaman}
4f3f3e9aSAndy Fiddaman
bf21cd93STycho Nightingalestruct vm_exit *
bf21cd93STycho Nightingalevm_exitinfo(struct vm *vm, int cpuid)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (cpuid < 0 || cpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		panic("vm_exitinfo: invalid cpuid %d", cpuid);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[cpuid];
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (&vcpu->exitinfo);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
e0c0d44eSPatrick Mooneystruct vie *
e0c0d44eSPatrick Mooneyvm_vie_ctx(struct vm *vm, int cpuid)
e0c0d44eSPatrick Mooney{
e0c0d44eSPatrick Mooney	if (cpuid < 0 || cpuid >= vm->maxcpus)
e0c0d44eSPatrick Mooney		panic("vm_vie_ctx: invalid cpuid %d", cpuid);
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	return (vm->vcpu[cpuid].vie_ctx);
e0c0d44eSPatrick Mooney}
e0c0d44eSPatrick Mooney
bf21cd93STycho Nightingalestatic int
bf21cd93STycho Nightingalevmm_init(void)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	vmm_host_state_init();
717646f7SJordan Paige Hendricks	vmm_host_freq = unscalehrtime(NANOSEC);
4c87aefeSPatrick Mooney
0153d828SPatrick Mooney	if (vmm_is_intel()) {
bf21cd93STycho Nightingale		ops = &vmm_ops_intel;
0153d828SPatrick Mooney		pte_ops = &ept_pte_ops;
0153d828SPatrick Mooney	} else if (vmm_is_svm()) {
bf21cd93STycho Nightingale		ops = &vmm_ops_amd;
0153d828SPatrick Mooney		pte_ops = &rvi_pte_ops;
0153d828SPatrick Mooney	} else {
bf21cd93STycho Nightingale		return (ENXIO);
0153d828SPatrick Mooney	}
bf21cd93STycho Nightingale
0153d828SPatrick Mooney	return (VMM_INIT());
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevmm_mod_load()
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	int	error;
bf21cd93STycho Nightingale
b38fc3edSPatrick Mooney	VERIFY(vmm_initialized == 0);
b38fc3edSPatrick Mooney
bf21cd93STycho Nightingale	error = vmm_init();
bf21cd93STycho Nightingale	if (error == 0)
bf21cd93STycho Nightingale		vmm_initialized = 1;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (error);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevmm_mod_unload()
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	int	error;
bf21cd93STycho Nightingale
b38fc3edSPatrick Mooney	VERIFY(vmm_initialized == 1);
b38fc3edSPatrick Mooney
bf21cd93STycho Nightingale	error = VMM_CLEANUP();
bf21cd93STycho Nightingale	if (error)
bf21cd93STycho Nightingale		return (error);
bf21cd93STycho Nightingale	vmm_initialized = 0;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
4c87aefeSPatrick Mooney
e760f150SPatrick Mooney/*
e760f150SPatrick Mooney * Create a test IOMMU domain to see if the host system has necessary hardware
e760f150SPatrick Mooney * and drivers to do so.
e760f150SPatrick Mooney */
e760f150SPatrick Mooneybool
e760f150SPatrick Mooneyvmm_check_iommu(void)
e760f150SPatrick Mooney{
e760f150SPatrick Mooney	void *domain;
e760f150SPatrick Mooney	const size_t arb_test_sz = (1UL << 32);
e760f150SPatrick Mooney
e760f150SPatrick Mooney	domain = iommu_create_domain(arb_test_sz);
e760f150SPatrick Mooney	if (domain == NULL) {
e760f150SPatrick Mooney		return (false);
e760f150SPatrick Mooney	}
e760f150SPatrick Mooney	iommu_destroy_domain(domain);
e760f150SPatrick Mooney	return (true);
e760f150SPatrick Mooney}
e760f150SPatrick Mooney
4c87aefeSPatrick Mooneystatic void
4c87aefeSPatrick Mooneyvm_init(struct vm *vm, bool create)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	int i;
bf21cd93STycho Nightingale
0153d828SPatrick Mooney	vm->cookie = VMINIT(vm);
4c87aefeSPatrick Mooney	vm->iommu = NULL;
4c87aefeSPatrick Mooney	vm->vioapic = vioapic_init(vm);
4c87aefeSPatrick Mooney	vm->vhpet = vhpet_init(vm);
4c87aefeSPatrick Mooney	vm->vatpic = vatpic_init(vm);
4c87aefeSPatrick Mooney	vm->vatpit = vatpit_init(vm);
4c87aefeSPatrick Mooney	vm->vpmtmr = vpmtmr_init(vm);
4c87aefeSPatrick Mooney	if (create)
4c87aefeSPatrick Mooney		vm->vrtc = vrtc_init(vm);
0e1453c3SPatrick Mooney
509a605dSPatrick Mooney	vm_inout_init(vm, &vm->ioports);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	CPU_ZERO(&vm->active_cpus);
4c87aefeSPatrick Mooney	CPU_ZERO(&vm->debug_cpus);
4c87aefeSPatrick Mooney
72473353SPatrick Mooney	vm->suspend_how = 0;
72473353SPatrick Mooney	vm->suspend_source = 0;
72473353SPatrick Mooney	vm->suspend_when = 0;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	for (i = 0; i < vm->maxcpus; i++)
4c87aefeSPatrick Mooney		vcpu_init(vm, i, create);
4c87aefeSPatrick Mooney
9250eb13SPatrick Mooney	/*
717646f7SJordan Paige Hendricks	 * Configure VM time-related data, including:
717646f7SJordan Paige Hendricks	 * - VM-wide TSC offset
717646f7SJordan Paige Hendricks	 * - boot_hrtime
717646f7SJordan Paige Hendricks	 * - guest_freq (same as host at boot time)
717646f7SJordan Paige Hendricks	 * - freq_multiplier (used for scaling)
9250eb13SPatrick Mooney	 *
717646f7SJordan Paige Hendricks	 * This data is configured such that the call to vm_init() represents
717646f7SJordan Paige Hendricks	 * the boot time (when the TSC(s) read 0).  Each vCPU will have its own
717646f7SJordan Paige Hendricks	 * offset from this, which is altered if/when the guest writes to
717646f7SJordan Paige Hendricks	 * MSR_TSC.
717646f7SJordan Paige Hendricks	 *
717646f7SJordan Paige Hendricks	 * Further changes to this data may occur if userspace writes to the
717646f7SJordan Paige Hendricks	 * time data.
9250eb13SPatrick Mooney	 */
d515dd77SPatrick Mooney	const uint64_t boot_tsc = rdtsc_offset();
d515dd77SPatrick Mooney
d515dd77SPatrick Mooney	/* Convert the boot TSC reading to hrtime */
d515dd77SPatrick Mooney	vm->boot_hrtime = (hrtime_t)boot_tsc;
d515dd77SPatrick Mooney	scalehrtime(&vm->boot_hrtime);
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/* Guest frequency is the same as the host at boot time */
717646f7SJordan Paige Hendricks	vm->guest_freq = vmm_host_freq;
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/* no scaling needed if guest_freq == host_freq */
717646f7SJordan Paige Hendricks	vm->freq_multiplier = VM_TSCM_NOSCALE;
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/* configure VM-wide offset: initial guest TSC is 0 at boot */
717646f7SJordan Paige Hendricks	vm->tsc_offset = calc_tsc_offset(boot_tsc, 0, vm->freq_multiplier);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney/*
4c87aefeSPatrick Mooney * The default CPU topology is a single thread per package.
4c87aefeSPatrick Mooney */
2699b94cSPatrick Mooneyuint_t cores_per_package = 1;
2699b94cSPatrick Mooneyuint_t threads_per_core = 1;
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingaleint
d4f59ae5SPatrick Mooneyvm_create(uint64_t flags, struct vm **retvm)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vm *vm;
4c87aefeSPatrick Mooney	struct vmspace *vmspace;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	/*
bf21cd93STycho Nightingale	 * If vmm.ko could not be successfully initialized then don't attempt
bf21cd93STycho Nightingale	 * to create the virtual machine.
bf21cd93STycho Nightingale	 */
bf21cd93STycho Nightingale	if (!vmm_initialized)
bf21cd93STycho Nightingale		return (ENXIO);
bf21cd93STycho Nightingale
4ac713daSLuqman Aden	bool track_dirty = (flags & VCF_TRACK_DIRTY) != 0;
4ac713daSLuqman Aden	if (track_dirty && !pte_ops->vpeo_hw_ad_supported())
4ac713daSLuqman Aden		return (ENOTSUP);
4ac713daSLuqman Aden
4ac713daSLuqman Aden	vmspace = vmspace_alloc(VM_MAXUSER_ADDRESS, pte_ops, track_dirty);
4c87aefeSPatrick Mooney	if (vmspace == NULL)
4c87aefeSPatrick Mooney		return (ENOMEM);
4c87aefeSPatrick Mooney
8130f8e1SPatrick Mooney	vm = kmem_zalloc(sizeof (struct vm), KM_SLEEP);
0153d828SPatrick Mooney
4c87aefeSPatrick Mooney	vm->vmspace = vmspace;
b57f5d3eSPatrick Mooney	vm->mem_transient = (flags & VCF_RESERVOIR_MEM) == 0;
0153d828SPatrick Mooney	for (uint_t i = 0; i < VM_MAXCPU; i++) {
0153d828SPatrick Mooney		vm->vcpu[i].vmclient = vmspace_client_alloc(vmspace);
0153d828SPatrick Mooney	}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	vm->sockets = 1;
4c87aefeSPatrick Mooney	vm->cores = cores_per_package;	/* XXX backwards compatibility */
4c87aefeSPatrick Mooney	vm->threads = threads_per_core;	/* XXX backwards compatibility */
4c87aefeSPatrick Mooney	vm->maxcpus = VM_MAXCPU;	/* XXX temp to keep code working */
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	vm_init(vm, true);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	*retvm = vm;
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneyvoid
4c87aefeSPatrick Mooneyvm_get_topology(struct vm *vm, uint16_t *sockets, uint16_t *cores,
4c87aefeSPatrick Mooney    uint16_t *threads, uint16_t *maxcpus)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	*sockets = vm->sockets;
4c87aefeSPatrick Mooney	*cores = vm->cores;
4c87aefeSPatrick Mooney	*threads = vm->threads;
4c87aefeSPatrick Mooney	*maxcpus = vm->maxcpus;
4c87aefeSPatrick Mooney}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneyuint16_t
4c87aefeSPatrick Mooneyvm_get_maxcpus(struct vm *vm)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	return (vm->maxcpus);
4c87aefeSPatrick Mooney}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneyint
4c87aefeSPatrick Mooneyvm_set_topology(struct vm *vm, uint16_t sockets, uint16_t cores,
4c87aefeSPatrick Mooney    uint16_t threads, uint16_t maxcpus)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	if (maxcpus != 0)
4c87aefeSPatrick Mooney		return (EINVAL);	/* XXX remove when supported */
4c87aefeSPatrick Mooney	if ((sockets * cores * threads) > vm->maxcpus)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney	/* XXX need to check sockets * cores * threads == vCPU, how? */
4c87aefeSPatrick Mooney	vm->sockets = sockets;
4c87aefeSPatrick Mooney	vm->cores = cores;
4c87aefeSPatrick Mooney	vm->threads = threads;
4c87aefeSPatrick Mooney	vm->maxcpus = VM_MAXCPU;	/* XXX temp to keep code working */
2699b94cSPatrick Mooney	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneystatic void
4c87aefeSPatrick Mooneyvm_cleanup(struct vm *vm, bool destroy)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	struct mem_map *mm;
bf21cd93STycho Nightingale	int i;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	ppt_unassign_all(vm);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vm->iommu != NULL)
4c87aefeSPatrick Mooney		iommu_destroy_domain(vm->iommu);
bf21cd93STycho Nightingale
509a605dSPatrick Mooney	/*
509a605dSPatrick Mooney	 * Devices which attach their own ioport hooks should be cleaned up
509a605dSPatrick Mooney	 * first so they can tear down those registrations.
509a605dSPatrick Mooney	 */
509a605dSPatrick Mooney	vpmtmr_cleanup(vm->vpmtmr);
509a605dSPatrick Mooney
509a605dSPatrick Mooney	vm_inout_cleanup(vm, &vm->ioports);
0e1453c3SPatrick Mooney
4c87aefeSPatrick Mooney	if (destroy)
4c87aefeSPatrick Mooney		vrtc_cleanup(vm->vrtc);
4c87aefeSPatrick Mooney	else
4c87aefeSPatrick Mooney		vrtc_reset(vm->vrtc);
509a605dSPatrick Mooney
bf21cd93STycho Nightingale	vatpit_cleanup(vm->vatpit);
bf21cd93STycho Nightingale	vhpet_cleanup(vm->vhpet);
bf21cd93STycho Nightingale	vatpic_cleanup(vm->vatpic);
bf21cd93STycho Nightingale	vioapic_cleanup(vm->vioapic);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	for (i = 0; i < vm->maxcpus; i++)
4c87aefeSPatrick Mooney		vcpu_cleanup(vm, i, destroy);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	VMCLEANUP(vm->cookie);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * System memory is removed from the guest address space only when
4c87aefeSPatrick Mooney	 * the VM is destroyed. This is because the mapping remains the same
4c87aefeSPatrick Mooney	 * across VM reset.
4c87aefeSPatrick Mooney	 *
4c87aefeSPatrick Mooney	 * Device memory can be relocated by the guest (e.g. using PCI BARs)
4c87aefeSPatrick Mooney	 * so those mappings are removed on a VM reset.
4c87aefeSPatrick Mooney	 */
4c87aefeSPatrick Mooney	for (i = 0; i < VM_MAX_MEMMAPS; i++) {
4c87aefeSPatrick Mooney		mm = &vm->mem_maps[i];
f703164bSPatrick Mooney		if (destroy || !sysmem_mapping(vm, mm)) {
4c87aefeSPatrick Mooney			vm_free_memmap(vm, i);
f703164bSPatrick Mooney		} else {
4c87aefeSPatrick Mooney			/*
4c87aefeSPatrick Mooney			 * We need to reset the IOMMU flag so this mapping can
4c87aefeSPatrick Mooney			 * be reused when a VM is rebooted. Since the IOMMU
4c87aefeSPatrick Mooney			 * domain has already been destroyed we can just reset
4c87aefeSPatrick Mooney			 * the flag here.
4c87aefeSPatrick Mooney			 */
4c87aefeSPatrick Mooney			mm->flags &= ~VM_MEMMAP_F_IOMMU;
4c87aefeSPatrick Mooney		}
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (destroy) {
4c87aefeSPatrick Mooney		for (i = 0; i < VM_MAX_MEMSEGS; i++)
4c87aefeSPatrick Mooney			vm_free_memseg(vm, i);
4c87aefeSPatrick Mooney
0153d828SPatrick Mooney		vmspace_destroy(vm->vmspace);
4c87aefeSPatrick Mooney		vm->vmspace = NULL;
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneyvoid
4c87aefeSPatrick Mooneyvm_destroy(struct vm *vm)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	vm_cleanup(vm, true);
8130f8e1SPatrick Mooney	kmem_free(vm, sizeof (*vm));
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneyint
52fac30eSPatrick Mooneyvm_reinit(struct vm *vm, uint64_t flags)
4c87aefeSPatrick Mooney{
52fac30eSPatrick Mooney	vm_cleanup(vm, false);
52fac30eSPatrick Mooney	vm_init(vm, false);
52fac30eSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
2cac0506SPatrick Mooneybool
2cac0506SPatrick Mooneyvm_is_paused(struct vm *vm)
2cac0506SPatrick Mooney{
2cac0506SPatrick Mooney	return (vm->is_paused);
2cac0506SPatrick Mooney}
2cac0506SPatrick Mooney
2cac0506SPatrick Mooneyint
2cac0506SPatrick Mooneyvm_pause_instance(struct vm *vm)
2cac0506SPatrick Mooney{
2cac0506SPatrick Mooney	if (vm->is_paused) {
2cac0506SPatrick Mooney		return (EALREADY);
2cac0506SPatrick Mooney	}
2cac0506SPatrick Mooney	vm->is_paused = true;
2cac0506SPatrick Mooney
2cac0506SPatrick Mooney	for (uint_t i = 0; i < vm->maxcpus; i++) {
2cac0506SPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[i];
2cac0506SPatrick Mooney
2cac0506SPatrick Mooney		if (!CPU_ISSET(i, &vm->active_cpus)) {
2cac0506SPatrick Mooney			continue;
2cac0506SPatrick Mooney		}
2cac0506SPatrick Mooney		vlapic_pause(vcpu->vlapic);
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney		/*
ad4335f7SPatrick Mooney		 * vCPU-specific pause logic includes stashing any
ad4335f7SPatrick Mooney		 * to-be-injected events in exit_intinfo where it can be
ad4335f7SPatrick Mooney		 * accessed in a manner generic to the backend.
ad4335f7SPatrick Mooney		 */
ad4335f7SPatrick Mooney		ops->vmpause(vm->cookie, i);
2cac0506SPatrick Mooney	}
2cac0506SPatrick Mooney	vhpet_pause(vm->vhpet);
2cac0506SPatrick Mooney	vatpit_pause(vm->vatpit);
2cac0506SPatrick Mooney	vrtc_pause(vm->vrtc);
2cac0506SPatrick Mooney
2cac0506SPatrick Mooney	return (0);
2cac0506SPatrick Mooney}
2cac0506SPatrick Mooney
2cac0506SPatrick Mooneyint
2cac0506SPatrick Mooneyvm_resume_instance(struct vm *vm)
2cac0506SPatrick Mooney{
2cac0506SPatrick Mooney	if (!vm->is_paused) {
2cac0506SPatrick Mooney		return (EALREADY);
2cac0506SPatrick Mooney	}
2cac0506SPatrick Mooney	vm->is_paused = false;
2cac0506SPatrick Mooney
2cac0506SPatrick Mooney	vrtc_resume(vm->vrtc);
2cac0506SPatrick Mooney	vatpit_resume(vm->vatpit);
2cac0506SPatrick Mooney	vhpet_resume(vm->vhpet);
2cac0506SPatrick Mooney	for (uint_t i = 0; i < vm->maxcpus; i++) {
2cac0506SPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[i];
2cac0506SPatrick Mooney
2cac0506SPatrick Mooney		if (!CPU_ISSET(i, &vm->active_cpus)) {
2cac0506SPatrick Mooney			continue;
2cac0506SPatrick Mooney		}
2cac0506SPatrick Mooney		vlapic_resume(vcpu->vlapic);
2cac0506SPatrick Mooney	}
2cac0506SPatrick Mooney
2cac0506SPatrick Mooney	return (0);
2cac0506SPatrick Mooney}
2cac0506SPatrick Mooney
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_map_mmio(struct vm *vm, vm_paddr_t gpa, size_t len, vm_paddr_t hpa)
bf21cd93STycho Nightingale{
0153d828SPatrick Mooney	vm_object_t *obj;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if ((obj = vmm_mmio_alloc(vm->vmspace, gpa, len, hpa)) == NULL)
4c87aefeSPatrick Mooney		return (ENOMEM);
4c87aefeSPatrick Mooney	else
4c87aefeSPatrick Mooney		return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_unmap_mmio(struct vm *vm, vm_paddr_t gpa, size_t len)
bf21cd93STycho Nightingale{
3a0fa64cSPatrick Mooney	return (vmspace_unmap(vm->vmspace, gpa, len));
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale/*
4c87aefeSPatrick Mooney * Return 'true' if 'gpa' is allocated in the guest address space.
4c87aefeSPatrick Mooney *
4c87aefeSPatrick Mooney * This function is called in the context of a running vcpu which acts as
4c87aefeSPatrick Mooney * an implicit lock on 'vm->mem_maps[]'.
bf21cd93STycho Nightingale */
4c87aefeSPatrick Mooneybool
4c87aefeSPatrick Mooneyvm_mem_allocated(struct vm *vm, int vcpuid, vm_paddr_t gpa)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	struct mem_map *mm;
bf21cd93STycho Nightingale	int i;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney#ifdef INVARIANTS
4c87aefeSPatrick Mooney	int hostcpu, state;
4c87aefeSPatrick Mooney	state = vcpu_get_state(vm, vcpuid, &hostcpu);
4c87aefeSPatrick Mooney	KASSERT(state == VCPU_RUNNING && hostcpu == curcpu,
4c87aefeSPatrick Mooney	    ("%s: invalid vcpu state %d/%d", __func__, state, hostcpu));
4c87aefeSPatrick Mooney#endif
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	for (i = 0; i < VM_MAX_MEMMAPS; i++) {
4c87aefeSPatrick Mooney		mm = &vm->mem_maps[i];
4c87aefeSPatrick Mooney		if (mm->len != 0 && gpa >= mm->gpa && gpa < mm->gpa + mm->len)
4c87aefeSPatrick Mooney			return (true);		/* 'gpa' is sysmem or devmem */
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (ppt_is_mmio(vm, gpa))
4c87aefeSPatrick Mooney		return (true);			/* 'gpa' is pci passthru mmio */
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	return (false);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
4c87aefeSPatrick Mooneyvm_alloc_memseg(struct vm *vm, int ident, size_t len, bool sysmem)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	struct mem_seg *seg;
0153d828SPatrick Mooney	vm_object_t *obj;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (ident < 0 || ident >= VM_MAX_MEMSEGS)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (len == 0 || (len & PAGE_MASK))
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	seg = &vm->mem_segs[ident];
4c87aefeSPatrick Mooney	if (seg->object != NULL) {
4c87aefeSPatrick Mooney		if (seg->len == len && seg->sysmem == sysmem)
4c87aefeSPatrick Mooney			return (EEXIST);
4c87aefeSPatrick Mooney		else
4c87aefeSPatrick Mooney			return (EINVAL);
4c87aefeSPatrick Mooney	}
bf21cd93STycho Nightingale
0153d828SPatrick Mooney	obj = vm_object_mem_allocate(len, vm->mem_transient);
4c87aefeSPatrick Mooney	if (obj == NULL)
4c87aefeSPatrick Mooney		return (ENOMEM);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	seg->len = len;
4c87aefeSPatrick Mooney	seg->object = obj;
4c87aefeSPatrick Mooney	seg->sysmem = sysmem;
4c87aefeSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneyint
4c87aefeSPatrick Mooneyvm_get_memseg(struct vm *vm, int ident, size_t *len, bool *sysmem,
0153d828SPatrick Mooney    vm_object_t **objptr)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	struct mem_seg *seg;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (ident < 0 || ident >= VM_MAX_MEMSEGS)
4c87aefeSPatrick Mooney		return (EINVAL);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	seg = &vm->mem_segs[ident];
4c87aefeSPatrick Mooney	if (len)
4c87aefeSPatrick Mooney		*len = seg->len;
4c87aefeSPatrick Mooney	if (sysmem)
4c87aefeSPatrick Mooney		*sysmem = seg->sysmem;
4c87aefeSPatrick Mooney	if (objptr)
4c87aefeSPatrick Mooney		*objptr = seg->object;
4c87aefeSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneyvoid
4c87aefeSPatrick Mooneyvm_free_memseg(struct vm *vm, int ident)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	struct mem_seg *seg;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	KASSERT(ident >= 0 && ident < VM_MAX_MEMSEGS,
4c87aefeSPatrick Mooney	    ("%s: invalid memseg ident %d", __func__, ident));
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	seg = &vm->mem_segs[ident];
4c87aefeSPatrick Mooney	if (seg->object != NULL) {
0153d828SPatrick Mooney		vm_object_release(seg->object);
2699b94cSPatrick Mooney		bzero(seg, sizeof (struct mem_seg));
4c87aefeSPatrick Mooney	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneyint
4c87aefeSPatrick Mooneyvm_mmap_memseg(struct vm *vm, vm_paddr_t gpa, int segid, vm_ooffset_t first,
4c87aefeSPatrick Mooney    size_t len, int prot, int flags)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	struct mem_seg *seg;
4c87aefeSPatrick Mooney	struct mem_map *m, *map;
4c87aefeSPatrick Mooney	vm_ooffset_t last;
4c87aefeSPatrick Mooney	int i, error;
bf21cd93STycho Nightingale
cf409e3fSDan Cross	if (prot == 0 || (prot & ~(PROT_ALL)) != 0)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (flags & ~VM_MEMMAP_F_WIRED)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (segid < 0 || segid >= VM_MAX_MEMSEGS)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	seg = &vm->mem_segs[segid];
4c87aefeSPatrick Mooney	if (seg->object == NULL)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	last = first + len;
4c87aefeSPatrick Mooney	if (first < 0 || first >= last || last > seg->len)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if ((gpa | first | last) & PAGE_MASK)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	map = NULL;
4c87aefeSPatrick Mooney	for (i = 0; i < VM_MAX_MEMMAPS; i++) {
4c87aefeSPatrick Mooney		m = &vm->mem_maps[i];
4c87aefeSPatrick Mooney		if (m->len == 0) {
4c87aefeSPatrick Mooney			map = m;
4c87aefeSPatrick Mooney			break;
4c87aefeSPatrick Mooney		}
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (map == NULL)
4c87aefeSPatrick Mooney		return (ENOSPC);
4c87aefeSPatrick Mooney
0153d828SPatrick Mooney	error = vmspace_map(vm->vmspace, seg->object, first, gpa, len, prot);
cf409e3fSDan Cross	if (error != 0)
4c87aefeSPatrick Mooney		return (EFAULT);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	vm_object_reference(seg->object);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if ((flags & VM_MEMMAP_F_WIRED) != 0) {
3a0fa64cSPatrick Mooney		error = vmspace_populate(vm->vmspace, gpa, len);
cf409e3fSDan Cross		if (error != 0) {
3a0fa64cSPatrick Mooney			VERIFY0(vmspace_unmap(vm->vmspace, gpa, len));
cf409e3fSDan Cross			return (EFAULT);
4c87aefeSPatrick Mooney		}
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	map->gpa = gpa;
4c87aefeSPatrick Mooney	map->len = len;
4c87aefeSPatrick Mooney	map->segoff = first;
4c87aefeSPatrick Mooney	map->segid = segid;
4c87aefeSPatrick Mooney	map->prot = prot;
4c87aefeSPatrick Mooney	map->flags = flags;
4c87aefeSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
2b948146SAndy Fiddamanint
2b948146SAndy Fiddamanvm_munmap_memseg(struct vm *vm, vm_paddr_t gpa, size_t len)
2b948146SAndy Fiddaman{
2b948146SAndy Fiddaman	struct mem_map *m;
2b948146SAndy Fiddaman	int i;
2b948146SAndy Fiddaman
2b948146SAndy Fiddaman	for (i = 0; i < VM_MAX_MEMMAPS; i++) {
2b948146SAndy Fiddaman		m = &vm->mem_maps[i];
2b948146SAndy Fiddaman		if (m->gpa == gpa && m->len == len &&
2b948146SAndy Fiddaman		    (m->flags & VM_MEMMAP_F_IOMMU) == 0) {
2b948146SAndy Fiddaman			vm_free_memmap(vm, i);
2b948146SAndy Fiddaman			return (0);
2b948146SAndy Fiddaman		}
2b948146SAndy Fiddaman	}
2b948146SAndy Fiddaman
2b948146SAndy Fiddaman	return (EINVAL);
2b948146SAndy Fiddaman}
2b948146SAndy Fiddaman
4c87aefeSPatrick Mooneyint
4c87aefeSPatrick Mooneyvm_mmap_getnext(struct vm *vm, vm_paddr_t *gpa, int *segid,
4c87aefeSPatrick Mooney    vm_ooffset_t *segoff, size_t *len, int *prot, int *flags)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	struct mem_map *mm, *mmnext;
4c87aefeSPatrick Mooney	int i;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	mmnext = NULL;
4c87aefeSPatrick Mooney	for (i = 0; i < VM_MAX_MEMMAPS; i++) {
4c87aefeSPatrick Mooney		mm = &vm->mem_maps[i];
4c87aefeSPatrick Mooney		if (mm->len == 0 || mm->gpa < *gpa)
4c87aefeSPatrick Mooney			continue;
4c87aefeSPatrick Mooney		if (mmnext == NULL || mm->gpa < mmnext->gpa)
4c87aefeSPatrick Mooney			mmnext = mm;
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (mmnext != NULL) {
4c87aefeSPatrick Mooney		*gpa = mmnext->gpa;
4c87aefeSPatrick Mooney		if (segid)
4c87aefeSPatrick Mooney			*segid = mmnext->segid;
4c87aefeSPatrick Mooney		if (segoff)
4c87aefeSPatrick Mooney			*segoff = mmnext->segoff;
4c87aefeSPatrick Mooney		if (len)
4c87aefeSPatrick Mooney			*len = mmnext->len;
4c87aefeSPatrick Mooney		if (prot)
4c87aefeSPatrick Mooney			*prot = mmnext->prot;
4c87aefeSPatrick Mooney		if (flags)
4c87aefeSPatrick Mooney			*flags = mmnext->flags;
4c87aefeSPatrick Mooney		return (0);
4c87aefeSPatrick Mooney	} else {
4c87aefeSPatrick Mooney		return (ENOENT);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystatic void
4c87aefeSPatrick Mooneyvm_free_memmap(struct vm *vm, int ident)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	struct mem_map *mm;
4c87aefeSPatrick Mooney	int error;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	mm = &vm->mem_maps[ident];
4c87aefeSPatrick Mooney	if (mm->len) {
3a0fa64cSPatrick Mooney		error = vmspace_unmap(vm->vmspace, mm->gpa, mm->len);
3a0fa64cSPatrick Mooney		VERIFY0(error);
2699b94cSPatrick Mooney		bzero(mm, sizeof (struct mem_map));
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystatic __inline bool
4c87aefeSPatrick Mooneysysmem_mapping(struct vm *vm, struct mem_map *mm)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (mm->len != 0 && vm->mem_segs[mm->segid].sysmem)
4c87aefeSPatrick Mooney		return (true);
4c87aefeSPatrick Mooney	else
4c87aefeSPatrick Mooney		return (false);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneyvm_paddr_t
4c87aefeSPatrick Mooneyvmm_sysmem_maxaddr(struct vm *vm)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	struct mem_map *mm;
4c87aefeSPatrick Mooney	vm_paddr_t maxaddr;
4c87aefeSPatrick Mooney	int i;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	maxaddr = 0;
4c87aefeSPatrick Mooney	for (i = 0; i < VM_MAX_MEMMAPS; i++) {
4c87aefeSPatrick Mooney		mm = &vm->mem_maps[i];
4c87aefeSPatrick Mooney		if (sysmem_mapping(vm, mm)) {
4c87aefeSPatrick Mooney			if (maxaddr < mm->gpa + mm->len)
4c87aefeSPatrick Mooney				maxaddr = mm->gpa + mm->len;
4c87aefeSPatrick Mooney		}
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney	return (maxaddr);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystatic void
84659b24SMichael Zellervm_iommu_modify(struct vm *vm, bool map)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	int i, sz;
4c87aefeSPatrick Mooney	vm_paddr_t gpa, hpa;
4c87aefeSPatrick Mooney	struct mem_map *mm;
0153d828SPatrick Mooney	vm_client_t *vmc;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	sz = PAGE_SIZE;
0153d828SPatrick Mooney	vmc = vmspace_client_alloc(vm->vmspace);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	for (i = 0; i < VM_MAX_MEMMAPS; i++) {
4c87aefeSPatrick Mooney		mm = &vm->mem_maps[i];
4c87aefeSPatrick Mooney		if (!sysmem_mapping(vm, mm))
4c87aefeSPatrick Mooney			continue;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney		if (map) {
4c87aefeSPatrick Mooney			KASSERT((mm->flags & VM_MEMMAP_F_IOMMU) == 0,
9dc804b9SPatrick Mooney			    ("iommu map found invalid memmap %lx/%lx/%x",
4c87aefeSPatrick Mooney			    mm->gpa, mm->len, mm->flags));
4c87aefeSPatrick Mooney			if ((mm->flags & VM_MEMMAP_F_WIRED) == 0)
4c87aefeSPatrick Mooney				continue;
4c87aefeSPatrick Mooney			mm->flags |= VM_MEMMAP_F_IOMMU;
4c87aefeSPatrick Mooney		} else {
4c87aefeSPatrick Mooney			if ((mm->flags & VM_MEMMAP_F_IOMMU) == 0)
4c87aefeSPatrick Mooney				continue;
4c87aefeSPatrick Mooney			mm->flags &= ~VM_MEMMAP_F_IOMMU;
4c87aefeSPatrick Mooney			KASSERT((mm->flags & VM_MEMMAP_F_WIRED) != 0,
9dc804b9SPatrick Mooney			    ("iommu unmap found invalid memmap %lx/%lx/%x",
4c87aefeSPatrick Mooney			    mm->gpa, mm->len, mm->flags));
4c87aefeSPatrick Mooney		}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney		gpa = mm->gpa;
4c87aefeSPatrick Mooney		while (gpa < mm->gpa + mm->len) {
0153d828SPatrick Mooney			vm_page_t *vmp;
4c87aefeSPatrick Mooney
0153d828SPatrick Mooney			vmp = vmc_hold(vmc, gpa, PROT_WRITE);
0153d828SPatrick Mooney			ASSERT(vmp != NULL);
0153d828SPatrick Mooney			hpa = ((uintptr_t)vmp_get_pfn(vmp) << PAGESHIFT);
e0994bd2SPatrick Mooney			(void) vmp_release(vmp);
4c87aefeSPatrick Mooney
e760f150SPatrick Mooney			/*
e760f150SPatrick Mooney			 * When originally ported from FreeBSD, the logic for
e760f150SPatrick Mooney			 * adding memory to the guest domain would
e760f150SPatrick Mooney			 * simultaneously remove it from the host domain.  The
e760f150SPatrick Mooney			 * justification for that is not clear, and FreeBSD has
e760f150SPatrick Mooney			 * subsequently changed the behavior to not remove the
e760f150SPatrick Mooney			 * memory from the host domain.
e760f150SPatrick Mooney			 *
e760f150SPatrick Mooney			 * Leaving the guest memory in the host domain for the
e760f150SPatrick Mooney			 * life of the VM is necessary to make it available for
e760f150SPatrick Mooney			 * DMA, such as through viona in the TX path.
e760f150SPatrick Mooney			 */
4c87aefeSPatrick Mooney			if (map) {
4c87aefeSPatrick Mooney				iommu_create_mapping(vm->iommu, gpa, hpa, sz);
4c87aefeSPatrick Mooney			} else {
4c87aefeSPatrick Mooney				iommu_remove_mapping(vm->iommu, gpa, sz);
4c87aefeSPatrick Mooney			}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney			gpa += PAGE_SIZE;
4c87aefeSPatrick Mooney		}
4c87aefeSPatrick Mooney	}
0153d828SPatrick Mooney	vmc_destroy(vmc);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * Invalidate the cached translations associated with the domain
4c87aefeSPatrick Mooney	 * from which pages were removed.
4c87aefeSPatrick Mooney	 */
eb9a1df2SHans Rosenfeld	iommu_invalidate_tlb(vm->iommu);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
eb9a1df2SHans Rosenfeldint
eb9a1df2SHans Rosenfeldvm_unassign_pptdev(struct vm *vm, int pptfd)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	int error;
4c87aefeSPatrick Mooney
eb9a1df2SHans Rosenfeld	error = ppt_unassign_device(vm, pptfd);
4c87aefeSPatrick Mooney	if (error)
4c87aefeSPatrick Mooney		return (error);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (ppt_assigned_devices(vm) == 0)
0153d828SPatrick Mooney		vm_iommu_modify(vm, false);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
eb9a1df2SHans Rosenfeldint
eb9a1df2SHans Rosenfeldvm_assign_pptdev(struct vm *vm, int pptfd)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	int error;
4c87aefeSPatrick Mooney	vm_paddr_t maxaddr;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	/* Set up the IOMMU to do the 'gpa' to 'hpa' translation */
4c87aefeSPatrick Mooney	if (ppt_assigned_devices(vm) == 0) {
4c87aefeSPatrick Mooney		KASSERT(vm->iommu == NULL,
4c87aefeSPatrick Mooney		    ("vm_assign_pptdev: iommu must be NULL"));
4c87aefeSPatrick Mooney		maxaddr = vmm_sysmem_maxaddr(vm);
4c87aefeSPatrick Mooney		vm->iommu = iommu_create_domain(maxaddr);
4c87aefeSPatrick Mooney		if (vm->iommu == NULL)
4c87aefeSPatrick Mooney			return (ENXIO);
0153d828SPatrick Mooney		vm_iommu_modify(vm, true);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
eb9a1df2SHans Rosenfeld	error = ppt_assign_device(vm, pptfd);
4c87aefeSPatrick Mooney	return (error);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingaleint
54cf5b63SPatrick Mooneyvm_get_register(struct vm *vm, int vcpuid, int reg, uint64_t *retval)
bf21cd93STycho Nightingale{
54cf5b63SPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (reg >= VM_REG_LAST)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
54cf5b63SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
54cf5b63SPatrick Mooney	switch (reg) {
54cf5b63SPatrick Mooney	case VM_REG_GUEST_XCR0:
54cf5b63SPatrick Mooney		*retval = vcpu->guest_xcr0;
54cf5b63SPatrick Mooney		return (0);
54cf5b63SPatrick Mooney	default:
54cf5b63SPatrick Mooney		return (VMGETREG(vm->cookie, vcpuid, reg, retval));
54cf5b63SPatrick Mooney	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_set_register(struct vm *vm, int vcpuid, int reg, uint64_t val)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (reg >= VM_REG_LAST)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
54cf5b63SPatrick Mooney	int error;
54cf5b63SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
54cf5b63SPatrick Mooney	switch (reg) {
54cf5b63SPatrick Mooney	case VM_REG_GUEST_RIP:
54cf5b63SPatrick Mooney		error = VMSETREG(vm->cookie, vcpuid, reg, val);
54cf5b63SPatrick Mooney		if (error == 0) {
54cf5b63SPatrick Mooney			vcpu->nextrip = val;
54cf5b63SPatrick Mooney		}
bf21cd93STycho Nightingale		return (error);
54cf5b63SPatrick Mooney	case VM_REG_GUEST_XCR0:
54cf5b63SPatrick Mooney		if (!validate_guest_xcr0(val, vmm_get_host_xcr0())) {
54cf5b63SPatrick Mooney			return (EINVAL);
54cf5b63SPatrick Mooney		}
54cf5b63SPatrick Mooney		vcpu->guest_xcr0 = val;
54cf5b63SPatrick Mooney		return (0);
54cf5b63SPatrick Mooney	default:
54cf5b63SPatrick Mooney		return (VMSETREG(vm->cookie, vcpuid, reg, val));
54cf5b63SPatrick Mooney	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
84659b24SMichael Zellerstatic bool
bf21cd93STycho Nightingaleis_descriptor_table(int reg)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	switch (reg) {
bf21cd93STycho Nightingale	case VM_REG_GUEST_IDTR:
bf21cd93STycho Nightingale	case VM_REG_GUEST_GDTR:
84659b24SMichael Zeller		return (true);
bf21cd93STycho Nightingale	default:
84659b24SMichael Zeller		return (false);
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
84659b24SMichael Zellerstatic bool
bf21cd93STycho Nightingaleis_segment_register(int reg)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	switch (reg) {
bf21cd93STycho Nightingale	case VM_REG_GUEST_ES:
bf21cd93STycho Nightingale	case VM_REG_GUEST_CS:
bf21cd93STycho Nightingale	case VM_REG_GUEST_SS:
bf21cd93STycho Nightingale	case VM_REG_GUEST_DS:
bf21cd93STycho Nightingale	case VM_REG_GUEST_FS:
bf21cd93STycho Nightingale	case VM_REG_GUEST_GS:
bf21cd93STycho Nightingale	case VM_REG_GUEST_TR:
bf21cd93STycho Nightingale	case VM_REG_GUEST_LDTR:
84659b24SMichael Zeller		return (true);
bf21cd93STycho Nightingale	default:
84659b24SMichael Zeller		return (false);
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
2699b94cSPatrick Mooneyvm_get_seg_desc(struct vm *vm, int vcpu, int reg, struct seg_desc *desc)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpu < 0 || vcpu >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (!is_segment_register(reg) && !is_descriptor_table(reg))
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (VMGETDESC(vm->cookie, vcpu, reg, desc));
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
2606939dSPatrick Mooneyvm_set_seg_desc(struct vm *vm, int vcpu, int reg, const struct seg_desc *desc)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	if (vcpu < 0 || vcpu >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (!is_segment_register(reg) && !is_descriptor_table(reg))
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (VMSETDESC(vm->cookie, vcpu, reg, desc));
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
957246c9SPatrick Mooneystatic int
957246c9SPatrick Mooneytranslate_hma_xsave_result(hma_fpu_xsave_result_t res)
957246c9SPatrick Mooney{
957246c9SPatrick Mooney	switch (res) {
957246c9SPatrick Mooney	case HFXR_OK:
957246c9SPatrick Mooney		return (0);
957246c9SPatrick Mooney	case HFXR_NO_SPACE:
957246c9SPatrick Mooney		return (ENOSPC);
957246c9SPatrick Mooney	case HFXR_BAD_ALIGN:
957246c9SPatrick Mooney	case HFXR_UNSUP_FMT:
957246c9SPatrick Mooney	case HFXR_UNSUP_FEAT:
957246c9SPatrick Mooney	case HFXR_INVALID_DATA:
957246c9SPatrick Mooney		return (EINVAL);
957246c9SPatrick Mooney	default:
957246c9SPatrick Mooney		panic("unexpected xsave result");
957246c9SPatrick Mooney	}
957246c9SPatrick Mooney}
957246c9SPatrick Mooney
957246c9SPatrick Mooneyint
957246c9SPatrick Mooneyvm_get_fpu(struct vm *vm, int vcpuid, void *buf, size_t len)
957246c9SPatrick Mooney{
957246c9SPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
957246c9SPatrick Mooney		return (EINVAL);
957246c9SPatrick Mooney
957246c9SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
957246c9SPatrick Mooney	hma_fpu_xsave_result_t res;
957246c9SPatrick Mooney
957246c9SPatrick Mooney	res = hma_fpu_get_xsave_state(vcpu->guestfpu, buf, len);
957246c9SPatrick Mooney	return (translate_hma_xsave_result(res));
957246c9SPatrick Mooney}
957246c9SPatrick Mooney
957246c9SPatrick Mooneyint
957246c9SPatrick Mooneyvm_set_fpu(struct vm *vm, int vcpuid, void *buf, size_t len)
957246c9SPatrick Mooney{
957246c9SPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
957246c9SPatrick Mooney		return (EINVAL);
957246c9SPatrick Mooney
957246c9SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
957246c9SPatrick Mooney	hma_fpu_xsave_result_t res;
957246c9SPatrick Mooney
957246c9SPatrick Mooney	res = hma_fpu_set_xsave_state(vcpu->guestfpu, buf, len);
957246c9SPatrick Mooney	return (translate_hma_xsave_result(res));
957246c9SPatrick Mooney}
957246c9SPatrick Mooney
2606939dSPatrick Mooneyint
2606939dSPatrick Mooneyvm_get_run_state(struct vm *vm, int vcpuid, uint32_t *state, uint8_t *sipi_vec)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct vcpu *vcpu;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus) {
2606939dSPatrick Mooney		return (EINVAL);
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney
2606939dSPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
2606939dSPatrick Mooney
2606939dSPatrick Mooney	vcpu_lock(vcpu);
2606939dSPatrick Mooney	*state = vcpu->run_state;
2606939dSPatrick Mooney	*sipi_vec = vcpu->sipi_vector;
2606939dSPatrick Mooney	vcpu_unlock(vcpu);
2606939dSPatrick Mooney
2606939dSPatrick Mooney	return (0);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
2606939dSPatrick Mooneyint
2606939dSPatrick Mooneyvm_set_run_state(struct vm *vm, int vcpuid, uint32_t state, uint8_t sipi_vec)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct vcpu *vcpu;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus) {
2606939dSPatrick Mooney		return (EINVAL);
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney	if (!VRS_IS_VALID(state)) {
2606939dSPatrick Mooney		return (EINVAL);
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney
2606939dSPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
2606939dSPatrick Mooney
2606939dSPatrick Mooney	vcpu_lock(vcpu);
2606939dSPatrick Mooney	vcpu->run_state = state;
2606939dSPatrick Mooney	vcpu->sipi_vector = sipi_vec;
2606939dSPatrick Mooney	vcpu_notify_event_locked(vcpu, VCPU_NOTIFY_EXIT);
2606939dSPatrick Mooney	vcpu_unlock(vcpu);
2606939dSPatrick Mooney
2606939dSPatrick Mooney	return (0);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
4ac713daSLuqman Adenint
8779b448SDan Crossvm_track_dirty_pages(struct vm *vm, uint64_t gpa, size_t len, uint8_t *bitmap)
8779b448SDan Cross{
b9b43e84SPatrick Mooney	ASSERT0(gpa & PAGEOFFSET);
b9b43e84SPatrick Mooney	ASSERT0(len & PAGEOFFSET);
b9b43e84SPatrick Mooney
b9b43e84SPatrick Mooney	/*
b9b43e84SPatrick Mooney	 * The only difference in expectations between this legacy interface and
b9b43e84SPatrick Mooney	 * an equivalent call to vm_npt_do_operation() is the check for
b9b43e84SPatrick Mooney	 * dirty-page-tracking being enabled on the vmspace.
b9b43e84SPatrick Mooney	 */
b9b43e84SPatrick Mooney	if (!vmspace_get_tracking(vm->vmspace)) {
b9b43e84SPatrick Mooney		return (EPERM);
b9b43e84SPatrick Mooney	}
b9b43e84SPatrick Mooney
b9b43e84SPatrick Mooney	vmspace_bits_operate(vm->vmspace, gpa, len,
b9b43e84SPatrick Mooney	    VBO_RESET_DIRTY | VBO_FLAG_BITMAP_OUT, bitmap);
b9b43e84SPatrick Mooney	return (0);
b9b43e84SPatrick Mooney}
b9b43e84SPatrick Mooney
b9b43e84SPatrick Mooneyint
b9b43e84SPatrick Mooneyvm_npt_do_operation(struct vm *vm, uint64_t gpa, size_t len, uint32_t oper,
b9b43e84SPatrick Mooney    uint8_t *bitmap, int *rvalp)
b9b43e84SPatrick Mooney{
b9b43e84SPatrick Mooney	ASSERT0(gpa & PAGEOFFSET);
b9b43e84SPatrick Mooney	ASSERT0(len & PAGEOFFSET);
b9b43e84SPatrick Mooney
b9b43e84SPatrick Mooney	/*
b9b43e84SPatrick Mooney	 * For now, the bits defined in vmm_dev.h are meant to match up 1:1 with
b9b43e84SPatrick Mooney	 * those in vmm_vm.h
b9b43e84SPatrick Mooney	 */
b9b43e84SPatrick Mooney	CTASSERT(VNO_OP_RESET_DIRTY == VBO_RESET_DIRTY);
b9b43e84SPatrick Mooney	CTASSERT(VNO_OP_SET_DIRTY == VBO_SET_DIRTY);
b9b43e84SPatrick Mooney	CTASSERT(VNO_OP_GET_DIRTY == VBO_GET_DIRTY);
b9b43e84SPatrick Mooney	CTASSERT(VNO_FLAG_BITMAP_IN == VBO_FLAG_BITMAP_IN);
b9b43e84SPatrick Mooney	CTASSERT(VNO_FLAG_BITMAP_OUT == VBO_FLAG_BITMAP_OUT);
b9b43e84SPatrick Mooney
b9b43e84SPatrick Mooney	const uint32_t oper_only =
b9b43e84SPatrick Mooney	    oper & ~(VNO_FLAG_BITMAP_IN | VNO_FLAG_BITMAP_OUT);
b9b43e84SPatrick Mooney	switch (oper_only) {
b9b43e84SPatrick Mooney	case VNO_OP_RESET_DIRTY:
b9b43e84SPatrick Mooney	case VNO_OP_SET_DIRTY:
b9b43e84SPatrick Mooney	case VNO_OP_GET_DIRTY:
b9b43e84SPatrick Mooney		if (len == 0) {
b9b43e84SPatrick Mooney			break;
b9b43e84SPatrick Mooney		}
b9b43e84SPatrick Mooney		vmspace_bits_operate(vm->vmspace, gpa, len, oper, bitmap);
b9b43e84SPatrick Mooney		break;
b9b43e84SPatrick Mooney	case VNO_OP_GET_TRACK_DIRTY:
b9b43e84SPatrick Mooney		ASSERT3P(rvalp, !=, NULL);
b9b43e84SPatrick Mooney		*rvalp = vmspace_get_tracking(vm->vmspace) ? 1 : 0;
b9b43e84SPatrick Mooney		break;
b9b43e84SPatrick Mooney	case VNO_OP_EN_TRACK_DIRTY:
b9b43e84SPatrick Mooney		return (vmspace_set_tracking(vm->vmspace, true));
b9b43e84SPatrick Mooney	case VNO_OP_DIS_TRACK_DIRTY:
b9b43e84SPatrick Mooney		return (vmspace_set_tracking(vm->vmspace, false));
b9b43e84SPatrick Mooney	default:
b9b43e84SPatrick Mooney		return (EINVAL);
b9b43e84SPatrick Mooney	}
b9b43e84SPatrick Mooney	return (0);
8779b448SDan Cross}
2606939dSPatrick Mooney
bf21cd93STycho Nightingalestatic void
bf21cd93STycho Nightingalerestore_guest_fpustate(struct vcpu *vcpu)
bf21cd93STycho Nightingale{
957246c9SPatrick Mooney	/* Save host FPU and restore guest FPU */
bf21cd93STycho Nightingale	fpu_stop_emulating();
957246c9SPatrick Mooney	hma_fpu_start_guest(vcpu->guestfpu);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	/* restore guest XCR0 if XSAVE is enabled in the host */
4c87aefeSPatrick Mooney	if (rcr4() & CR4_XSAVE)
4c87aefeSPatrick Mooney		load_xcr(0, vcpu->guest_xcr0);
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingale	/*
bf21cd93STycho Nightingale	 * The FPU is now "dirty" with the guest's state so turn on emulation
bf21cd93STycho Nightingale	 * to trap any access to the FPU by the host.
bf21cd93STycho Nightingale	 */
bf21cd93STycho Nightingale	fpu_start_emulating();
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic void
bf21cd93STycho Nightingalesave_guest_fpustate(struct vcpu *vcpu)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if ((rcr0() & CR0_TS) == 0)
bf21cd93STycho Nightingale		panic("fpu emulation not enabled in host!");
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	/* save guest XCR0 and restore host XCR0 */
4c87aefeSPatrick Mooney	if (rcr4() & CR4_XSAVE) {
4c87aefeSPatrick Mooney		vcpu->guest_xcr0 = rxcr(0);
4c87aefeSPatrick Mooney		load_xcr(0, vmm_get_host_xcr0());
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
957246c9SPatrick Mooney	/* save guest FPU and restore host FPU */
bf21cd93STycho Nightingale	fpu_stop_emulating();
957246c9SPatrick Mooney	hma_fpu_stop_guest(vcpu->guestfpu);
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * When the host state has been restored, we should not re-enable
4c87aefeSPatrick Mooney	 * CR0.TS on illumos for eager FPU.
4c87aefeSPatrick Mooney	 */
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic int
4c87aefeSPatrick Mooneyvcpu_set_state_locked(struct vm *vm, int vcpuid, enum vcpu_state newstate,
bf21cd93STycho Nightingale    bool from_idle)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	struct vcpu *vcpu;
bf21cd93STycho Nightingale	int error;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale	vcpu_assert_locked(vcpu);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	/*
bf21cd93STycho Nightingale	 * State transitions from the vmmdev_ioctl() must always begin from
bf21cd93STycho Nightingale	 * the VCPU_IDLE state. This guarantees that there is only a single
bf21cd93STycho Nightingale	 * ioctl() operating on a vcpu at any point.
bf21cd93STycho Nightingale	 */
bf21cd93STycho Nightingale	if (from_idle) {
4c87aefeSPatrick Mooney		while (vcpu->state != VCPU_IDLE) {
72473353SPatrick Mooney			vcpu->reqidle = true;
c74a40a5SPatrick Mooney			vcpu_notify_event_locked(vcpu, VCPU_NOTIFY_EXIT);
fb29dee0SPatrick Mooney			cv_wait(&vcpu->state_cv, &vcpu->lock);
72473353SPatrick Mooney			vcpu->reqidle = false;
4c87aefeSPatrick Mooney		}
bf21cd93STycho Nightingale	} else {
bf21cd93STycho Nightingale		KASSERT(vcpu->state != VCPU_IDLE, ("invalid transition from "
bf21cd93STycho Nightingale		    "vcpu idle state"));
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (vcpu->state == VCPU_RUNNING) {
bf21cd93STycho Nightingale		KASSERT(vcpu->hostcpu == curcpu, ("curcpu %d and hostcpu %d "
bf21cd93STycho Nightingale		    "mismatch for running vcpu", curcpu, vcpu->hostcpu));
bf21cd93STycho Nightingale	} else {
bf21cd93STycho Nightingale		KASSERT(vcpu->hostcpu == NOCPU, ("Invalid hostcpu %d for a "
bf21cd93STycho Nightingale		    "vcpu that is not running", vcpu->hostcpu));
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	/*
bf21cd93STycho Nightingale	 * The following state transitions are allowed:
bf21cd93STycho Nightingale	 * IDLE -> FROZEN -> IDLE
bf21cd93STycho Nightingale	 * FROZEN -> RUNNING -> FROZEN
bf21cd93STycho Nightingale	 * FROZEN -> SLEEPING -> FROZEN
bf21cd93STycho Nightingale	 */
bf21cd93STycho Nightingale	switch (vcpu->state) {
bf21cd93STycho Nightingale	case VCPU_IDLE:
bf21cd93STycho Nightingale	case VCPU_RUNNING:
bf21cd93STycho Nightingale	case VCPU_SLEEPING:
bf21cd93STycho Nightingale		error = (newstate != VCPU_FROZEN);
bf21cd93STycho Nightingale		break;
bf21cd93STycho Nightingale	case VCPU_FROZEN:
bf21cd93STycho Nightingale		error = (newstate == VCPU_FROZEN);
bf21cd93STycho Nightingale		break;
bf21cd93STycho Nightingale	default:
bf21cd93STycho Nightingale		error = 1;
bf21cd93STycho Nightingale		break;
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (error)
bf21cd93STycho Nightingale		return (EBUSY);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu->state = newstate;
bf21cd93STycho Nightingale	if (newstate == VCPU_RUNNING)
bf21cd93STycho Nightingale		vcpu->hostcpu = curcpu;
bf21cd93STycho Nightingale	else
bf21cd93STycho Nightingale		vcpu->hostcpu = NOCPU;
bf21cd93STycho Nightingale
2606939dSPatrick Mooney	if (newstate == VCPU_IDLE) {
4c87aefeSPatrick Mooney		cv_broadcast(&vcpu->state_cv);
4c87aefeSPatrick Mooney	}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic void
bf21cd93STycho Nightingalevcpu_require_state(struct vm *vm, int vcpuid, enum vcpu_state newstate)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	int error;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if ((error = vcpu_set_state(vm, vcpuid, newstate, false)) != 0)
bf21cd93STycho Nightingale		panic("Error %d setting state to %d\n", error, newstate);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic void
4c87aefeSPatrick Mooneyvcpu_require_state_locked(struct vm *vm, int vcpuid, enum vcpu_state newstate)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	int error;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if ((error = vcpu_set_state_locked(vm, vcpuid, newstate, false)) != 0)
bf21cd93STycho Nightingale		panic("Error %d setting state to %d", error, newstate);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale/*
bf21cd93STycho Nightingale * Emulate a guest 'hlt' by sleeping until the vcpu is ready to run.
bf21cd93STycho Nightingale */
bf21cd93STycho Nightingalestatic int
3e1c5f3aSPatrick Mooneyvm_handle_hlt(struct vm *vm, int vcpuid, bool intr_disabled)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu;
59460b49SPatrick Mooney	int vcpu_halted, vm_halted;
2606939dSPatrick Mooney	bool userspace_exit = false;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	KASSERT(!CPU_ISSET(vcpuid, &vm->halted_cpus), ("vcpu already halted"));
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
4c87aefeSPatrick Mooney	vcpu_halted = 0;
4c87aefeSPatrick Mooney	vm_halted = 0;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu_lock(vcpu);
4c87aefeSPatrick Mooney	while (1) {
4c87aefeSPatrick Mooney		/*
2606939dSPatrick Mooney		 * Do a final check for pending interrupts (including NMI and
2606939dSPatrick Mooney		 * INIT) before putting this thread to sleep.
4c87aefeSPatrick Mooney		 */
4c87aefeSPatrick Mooney		if (vm_nmi_pending(vm, vcpuid))
4c87aefeSPatrick Mooney			break;
2606939dSPatrick Mooney		if (vcpu_run_state_pending(vm, vcpuid))
2606939dSPatrick Mooney			break;
4c87aefeSPatrick Mooney		if (!intr_disabled) {
4c87aefeSPatrick Mooney			if (vm_extint_pending(vm, vcpuid) ||
4c87aefeSPatrick Mooney			    vlapic_pending_intr(vcpu->vlapic, NULL)) {
4c87aefeSPatrick Mooney				break;
4c87aefeSPatrick Mooney			}
4c87aefeSPatrick Mooney		}
bf21cd93STycho Nightingale
2606939dSPatrick Mooney		/*
2606939dSPatrick Mooney		 * Also check for software events which would cause a wake-up.
2606939dSPatrick Mooney		 * This will set the appropriate exitcode directly, rather than
2606939dSPatrick Mooney		 * requiring a trip through VM_RUN().
2606939dSPatrick Mooney		 */
2606939dSPatrick Mooney		if (vcpu_sleep_bailout_checks(vm, vcpuid)) {
2606939dSPatrick Mooney			userspace_exit = true;
4c87aefeSPatrick Mooney			break;
2606939dSPatrick Mooney		}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney		/*
4c87aefeSPatrick Mooney		 * Some Linux guests implement "halt" by having all vcpus
4c87aefeSPatrick Mooney		 * execute HLT with interrupts disabled. 'halted_cpus' keeps
4c87aefeSPatrick Mooney		 * track of the vcpus that have entered this state. When all
4c87aefeSPatrick Mooney		 * vcpus enter the halted state the virtual machine is halted.
4c87aefeSPatrick Mooney		 */
4c87aefeSPatrick Mooney		if (intr_disabled) {
4c87aefeSPatrick Mooney			if (!vcpu_halted && halt_detection_enabled) {
4c87aefeSPatrick Mooney				vcpu_halted = 1;
4c87aefeSPatrick Mooney				CPU_SET_ATOMIC(vcpuid, &vm->halted_cpus);
4c87aefeSPatrick Mooney			}
4c87aefeSPatrick Mooney			if (CPU_CMP(&vm->halted_cpus, &vm->active_cpus) == 0) {
4c87aefeSPatrick Mooney				vm_halted = 1;
4c87aefeSPatrick Mooney				break;
4c87aefeSPatrick Mooney			}
bf21cd93STycho Nightingale		}
4c87aefeSPatrick Mooney
59460b49SPatrick Mooney		vcpu_ustate_change(vm, vcpuid, VU_IDLE);
4c87aefeSPatrick Mooney		vcpu_require_state_locked(vm, vcpuid, VCPU_SLEEPING);
fb29dee0SPatrick Mooney		(void) cv_wait_sig(&vcpu->vcpu_cv, &vcpu->lock);
4c87aefeSPatrick Mooney		vcpu_require_state_locked(vm, vcpuid, VCPU_FROZEN);
59460b49SPatrick Mooney		vcpu_ustate_change(vm, vcpuid, VU_EMU_KERN);
bf21cd93STycho Nightingale	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (vcpu_halted)
4c87aefeSPatrick Mooney		CPU_CLR_ATOMIC(vcpuid, &vm->halted_cpus);
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingale	vcpu_unlock(vcpu);
bf21cd93STycho Nightingale
e0994bd2SPatrick Mooney	if (vm_halted) {
72473353SPatrick Mooney		(void) vm_suspend(vm, VM_SUSPEND_HALT, -1);
e0994bd2SPatrick Mooney	}
4c87aefeSPatrick Mooney
2606939dSPatrick Mooney	return (userspace_exit ? -1 : 0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystatic int
3e1c5f3aSPatrick Mooneyvm_handle_paging(struct vm *vm, int vcpuid)
4c87aefeSPatrick Mooney{
0153d828SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
0153d828SPatrick Mooney	vm_client_t *vmc = vcpu->vmclient;
0153d828SPatrick Mooney	struct vm_exit *vme = &vcpu->exitinfo;
3f6fd99dSPatrick Mooney	const int ftype = vme->u.paging.fault_type;
4c87aefeSPatrick Mooney
3f6fd99dSPatrick Mooney	ASSERT0(vme->inst_length);
3f6fd99dSPatrick Mooney	ASSERT(ftype == PROT_READ || ftype == PROT_WRITE || ftype == PROT_EXEC);
4c87aefeSPatrick Mooney
3f6fd99dSPatrick Mooney	if (vmc_fault(vmc, vme->u.paging.gpa, ftype) != 0) {
3f6fd99dSPatrick Mooney		/*
3f6fd99dSPatrick Mooney		 * If the fault cannot be serviced, kick it out to userspace for
3f6fd99dSPatrick Mooney		 * handling (or more likely, halting the instance).
3f6fd99dSPatrick Mooney		 */
3f6fd99dSPatrick Mooney		return (-1);
3f6fd99dSPatrick Mooney	}
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
e0c0d44eSPatrick Mooneyint
e0c0d44eSPatrick Mooneyvm_service_mmio_read(struct vm *vm, int cpuid, uint64_t gpa, uint64_t *rval,
e0c0d44eSPatrick Mooney    int rsize)
e0c0d44eSPatrick Mooney{
e0c0d44eSPatrick Mooney	int err = ESRCH;
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	if (gpa >= DEFAULT_APIC_BASE && gpa < DEFAULT_APIC_BASE + PAGE_SIZE) {
d2f938fdSPatrick Mooney		struct vlapic *vlapic = vm_lapic(vm, cpuid);
d2f938fdSPatrick Mooney
d2f938fdSPatrick Mooney		err = vlapic_mmio_read(vlapic, gpa, rval, rsize);
e0c0d44eSPatrick Mooney	} else if (gpa >= VIOAPIC_BASE && gpa < VIOAPIC_BASE + VIOAPIC_SIZE) {
3e1c5f3aSPatrick Mooney		err = vioapic_mmio_read(vm, cpuid, gpa, rval, rsize);
e0c0d44eSPatrick Mooney	} else if (gpa >= VHPET_BASE && gpa < VHPET_BASE + VHPET_SIZE) {
3e1c5f3aSPatrick Mooney		err = vhpet_mmio_read(vm, cpuid, gpa, rval, rsize);
e0c0d44eSPatrick Mooney	}
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	return (err);
e0c0d44eSPatrick Mooney}
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooneyint
e0c0d44eSPatrick Mooneyvm_service_mmio_write(struct vm *vm, int cpuid, uint64_t gpa, uint64_t wval,
e0c0d44eSPatrick Mooney    int wsize)
e0c0d44eSPatrick Mooney{
e0c0d44eSPatrick Mooney	int err = ESRCH;
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	if (gpa >= DEFAULT_APIC_BASE && gpa < DEFAULT_APIC_BASE + PAGE_SIZE) {
d2f938fdSPatrick Mooney		struct vlapic *vlapic = vm_lapic(vm, cpuid);
d2f938fdSPatrick Mooney
d2f938fdSPatrick Mooney		err = vlapic_mmio_write(vlapic, gpa, wval, wsize);
e0c0d44eSPatrick Mooney	} else if (gpa >= VIOAPIC_BASE && gpa < VIOAPIC_BASE + VIOAPIC_SIZE) {
3e1c5f3aSPatrick Mooney		err = vioapic_mmio_write(vm, cpuid, gpa, wval, wsize);
e0c0d44eSPatrick Mooney	} else if (gpa >= VHPET_BASE && gpa < VHPET_BASE + VHPET_SIZE) {
3e1c5f3aSPatrick Mooney		err = vhpet_mmio_write(vm, cpuid, gpa, wval, wsize);
e0c0d44eSPatrick Mooney	}
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	return (err);
e0c0d44eSPatrick Mooney}
e0c0d44eSPatrick Mooney
bf21cd93STycho Nightingalestatic int
3e1c5f3aSPatrick Mooneyvm_handle_mmio_emul(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vie *vie;
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale	struct vm_exit *vme;
e0c0d44eSPatrick Mooney	uint64_t inst_addr;
e0c0d44eSPatrick Mooney	int error, fault, cs_d;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale	vme = &vcpu->exitinfo;
e0c0d44eSPatrick Mooney	vie = vcpu->vie_ctx;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	KASSERT(vme->inst_length == 0, ("%s: invalid inst_length %d",
4c87aefeSPatrick Mooney	    __func__, vme->inst_length));
4c87aefeSPatrick Mooney
e0c0d44eSPatrick Mooney	inst_addr = vme->rip + vme->u.mmio_emul.cs_base;
e0c0d44eSPatrick Mooney	cs_d = vme->u.mmio_emul.cs_d;
bf21cd93STycho Nightingale
e0c0d44eSPatrick Mooney	/* Fetch the faulting instruction */
e0c0d44eSPatrick Mooney	if (vie_needs_fetch(vie)) {
e0c0d44eSPatrick Mooney		error = vie_fetch_instruction(vie, vm, vcpuid, inst_addr,
e0c0d44eSPatrick Mooney		    &fault);
e0c0d44eSPatrick Mooney		if (error != 0) {
e0c0d44eSPatrick Mooney			return (error);
e0c0d44eSPatrick Mooney		} else if (fault) {
e0c0d44eSPatrick Mooney			/*
7db0d193SPatrick Mooney			 * If a fault during instruction fetch was encountered,
7db0d193SPatrick Mooney			 * it will have asserted that the appropriate exception
7db0d193SPatrick Mooney			 * be injected at next entry.
7db0d193SPatrick Mooney			 * No further work is required.
e0c0d44eSPatrick Mooney			 */
e0c0d44eSPatrick Mooney			return (0);
e0c0d44eSPatrick Mooney		}
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
e0c0d44eSPatrick Mooney	if (vie_decode_instruction(vie, vm, vcpuid, cs_d) != 0) {
e0c0d44eSPatrick Mooney		/* Dump (unrecognized) instruction bytes in userspace */
e0c0d44eSPatrick Mooney		vie_fallback_exitinfo(vie, vme);
3e1c5f3aSPatrick Mooney		return (-1);
4c87aefeSPatrick Mooney	}
e0c0d44eSPatrick Mooney	if (vme->u.mmio_emul.gla != VIE_INVALID_GLA &&
e0c0d44eSPatrick Mooney	    vie_verify_gla(vie, vm, vcpuid, vme->u.mmio_emul.gla) != 0) {
e0c0d44eSPatrick Mooney		/* Decoded GLA does not match GLA from VM exit state */
e0c0d44eSPatrick Mooney		vie_fallback_exitinfo(vie, vme);
3e1c5f3aSPatrick Mooney		return (-1);
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
e0c0d44eSPatrick Mooneyrepeat:
e0c0d44eSPatrick Mooney	error = vie_emulate_mmio(vie, vm, vcpuid);
e0c0d44eSPatrick Mooney	if (error < 0) {
e0c0d44eSPatrick Mooney		/*
e0c0d44eSPatrick Mooney		 * MMIO not handled by any of the in-kernel-emulated devices, so
e0c0d44eSPatrick Mooney		 * make a trip out to userspace for it.
e0c0d44eSPatrick Mooney		 */
e0c0d44eSPatrick Mooney		vie_exitinfo(vie, vme);
e0c0d44eSPatrick Mooney	} else if (error == EAGAIN) {
e0c0d44eSPatrick Mooney		/*
e0c0d44eSPatrick Mooney		 * Continue emulating the rep-prefixed instruction, which has
e0c0d44eSPatrick Mooney		 * not completed its iterations.
e0c0d44eSPatrick Mooney		 *
e0c0d44eSPatrick Mooney		 * In case this can be emulated in-kernel and has a high
e0c0d44eSPatrick Mooney		 * repetition count (causing a tight spin), it should be
e0c0d44eSPatrick Mooney		 * deferential to yield conditions.
e0c0d44eSPatrick Mooney		 */
e0c0d44eSPatrick Mooney		if (!vcpu_should_yield(vm, vcpuid)) {
e0c0d44eSPatrick Mooney			goto repeat;
e0c0d44eSPatrick Mooney		} else {
e0c0d44eSPatrick Mooney			/*
e0c0d44eSPatrick Mooney			 * Defer to the contending load by making a trip to
e0c0d44eSPatrick Mooney			 * userspace with a no-op (BOGUS) exit reason.
e0c0d44eSPatrick Mooney			 */
e0c0d44eSPatrick Mooney			vie_reset(vie);
e0c0d44eSPatrick Mooney			vme->exitcode = VM_EXITCODE_BOGUS;
3e1c5f3aSPatrick Mooney			return (-1);
e0c0d44eSPatrick Mooney		}
e0c0d44eSPatrick Mooney	} else if (error == 0) {
e0c0d44eSPatrick Mooney		/* Update %rip now that instruction has been emulated */
e0c0d44eSPatrick Mooney		vie_advance_pc(vie, &vcpu->nextrip);
e0c0d44eSPatrick Mooney	}
bf21cd93STycho Nightingale	return (error);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
e0c0d44eSPatrick Mooneystatic int
3e1c5f3aSPatrick Mooneyvm_handle_inout(struct vm *vm, int vcpuid, struct vm_exit *vme)
e0c0d44eSPatrick Mooney{
e0c0d44eSPatrick Mooney	struct vcpu *vcpu;
e0c0d44eSPatrick Mooney	struct vie *vie;
e0c0d44eSPatrick Mooney	int err;
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
e0c0d44eSPatrick Mooney	vie = vcpu->vie_ctx;
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooneyrepeat:
e0c0d44eSPatrick Mooney	err = vie_emulate_inout(vie, vm, vcpuid);
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	if (err < 0) {
e0c0d44eSPatrick Mooney		/*
e0c0d44eSPatrick Mooney		 * In/out not handled by any of the in-kernel-emulated devices,
e0c0d44eSPatrick Mooney		 * so make a trip out to userspace for it.
e0c0d44eSPatrick Mooney		 */
e0c0d44eSPatrick Mooney		vie_exitinfo(vie, vme);
3e1c5f3aSPatrick Mooney		return (err);
e0c0d44eSPatrick Mooney	} else if (err == EAGAIN) {
e0c0d44eSPatrick Mooney		/*
e0c0d44eSPatrick Mooney		 * Continue emulating the rep-prefixed ins/outs, which has not
e0c0d44eSPatrick Mooney		 * completed its iterations.
e0c0d44eSPatrick Mooney		 *
e0c0d44eSPatrick Mooney		 * In case this can be emulated in-kernel and has a high
e0c0d44eSPatrick Mooney		 * repetition count (causing a tight spin), it should be
e0c0d44eSPatrick Mooney		 * deferential to yield conditions.
e0c0d44eSPatrick Mooney		 */
e0c0d44eSPatrick Mooney		if (!vcpu_should_yield(vm, vcpuid)) {
e0c0d44eSPatrick Mooney			goto repeat;
e0c0d44eSPatrick Mooney		} else {
e0c0d44eSPatrick Mooney			/*
e0c0d44eSPatrick Mooney			 * Defer to the contending load by making a trip to
e0c0d44eSPatrick Mooney			 * userspace with a no-op (BOGUS) exit reason.
e0c0d44eSPatrick Mooney			 */
e0c0d44eSPatrick Mooney			vie_reset(vie);
e0c0d44eSPatrick Mooney			vme->exitcode = VM_EXITCODE_BOGUS;
3e1c5f3aSPatrick Mooney			return (-1);
e0c0d44eSPatrick Mooney		}
e0c0d44eSPatrick Mooney	} else if (err != 0) {
e0c0d44eSPatrick Mooney		/* Emulation failure.  Bail all the way out to userspace. */
e0c0d44eSPatrick Mooney		vme->exitcode = VM_EXITCODE_INST_EMUL;
e0c0d44eSPatrick Mooney		bzero(&vme->u.inst_emul, sizeof (vme->u.inst_emul));
3e1c5f3aSPatrick Mooney		return (-1);
e0c0d44eSPatrick Mooney	}
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	vie_advance_pc(vie, &vcpu->nextrip);
e0c0d44eSPatrick Mooney	return (0);
e0c0d44eSPatrick Mooney}
e0c0d44eSPatrick Mooney
7db0d193SPatrick Mooneystatic int
7db0d193SPatrick Mooneyvm_handle_inst_emul(struct vm *vm, int vcpuid)
7db0d193SPatrick Mooney{
7db0d193SPatrick Mooney	struct vie *vie;
7db0d193SPatrick Mooney	struct vcpu *vcpu;
7db0d193SPatrick Mooney	struct vm_exit *vme;
7db0d193SPatrick Mooney	uint64_t cs_base;
7db0d193SPatrick Mooney	int error, fault, cs_d;
7db0d193SPatrick Mooney
7db0d193SPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
7db0d193SPatrick Mooney	vme = &vcpu->exitinfo;
7db0d193SPatrick Mooney	vie = vcpu->vie_ctx;
7db0d193SPatrick Mooney
7db0d193SPatrick Mooney	vie_cs_info(vie, vm, vcpuid, &cs_base, &cs_d);
7db0d193SPatrick Mooney
7db0d193SPatrick Mooney	/* Fetch the faulting instruction */
7db0d193SPatrick Mooney	ASSERT(vie_needs_fetch(vie));
7db0d193SPatrick Mooney	error = vie_fetch_instruction(vie, vm, vcpuid, vme->rip + cs_base,
7db0d193SPatrick Mooney	    &fault);
7db0d193SPatrick Mooney	if (error != 0) {
7db0d193SPatrick Mooney		return (error);
7db0d193SPatrick Mooney	} else if (fault) {
7db0d193SPatrick Mooney		/*
7db0d193SPatrick Mooney		 * If a fault during instruction fetch was encounted, it will
7db0d193SPatrick Mooney		 * have asserted that the appropriate exception be injected at
7db0d193SPatrick Mooney		 * next entry.  No further work is required.
7db0d193SPatrick Mooney		 */
7db0d193SPatrick Mooney		return (0);
7db0d193SPatrick Mooney	}
7db0d193SPatrick Mooney
7db0d193SPatrick Mooney	if (vie_decode_instruction(vie, vm, vcpuid, cs_d) != 0) {
7db0d193SPatrick Mooney		/* Dump (unrecognized) instruction bytes in userspace */
7db0d193SPatrick Mooney		vie_fallback_exitinfo(vie, vme);
7db0d193SPatrick Mooney		return (-1);
7db0d193SPatrick Mooney	}
7db0d193SPatrick Mooney
7db0d193SPatrick Mooney	error = vie_emulate_other(vie, vm, vcpuid);
7db0d193SPatrick Mooney	if (error != 0) {
7db0d193SPatrick Mooney		/*
7db0d193SPatrick Mooney		 * Instruction emulation was unable to complete successfully, so
7db0d193SPatrick Mooney		 * kick it out to userspace for handling.
7db0d193SPatrick Mooney		 */
7db0d193SPatrick Mooney		vie_fallback_exitinfo(vie, vme);
7db0d193SPatrick Mooney	} else {
7db0d193SPatrick Mooney		/* Update %rip now that instruction has been emulated */
7db0d193SPatrick Mooney		vie_advance_pc(vie, &vcpu->nextrip);
7db0d193SPatrick Mooney	}
7db0d193SPatrick Mooney	return (error);
7db0d193SPatrick Mooney}
7db0d193SPatrick Mooney
2606939dSPatrick Mooneystatic int
2606939dSPatrick Mooneyvm_handle_run_state(struct vm *vm, int vcpuid)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
2606939dSPatrick Mooney	bool handled = false;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	vcpu_lock(vcpu);
2606939dSPatrick Mooney	while (1) {
2606939dSPatrick Mooney		if ((vcpu->run_state & VRS_PEND_INIT) != 0) {
2606939dSPatrick Mooney			vcpu_unlock(vcpu);
2606939dSPatrick Mooney			VERIFY0(vcpu_arch_reset(vm, vcpuid, true));
2606939dSPatrick Mooney			vcpu_lock(vcpu);
2606939dSPatrick Mooney
2606939dSPatrick Mooney			vcpu->run_state &= ~(VRS_RUN | VRS_PEND_INIT);
2606939dSPatrick Mooney			vcpu->run_state |= VRS_INIT;
2606939dSPatrick Mooney		}
2606939dSPatrick Mooney
2606939dSPatrick Mooney		if ((vcpu->run_state & (VRS_INIT | VRS_RUN | VRS_PEND_SIPI)) ==
2606939dSPatrick Mooney		    (VRS_INIT | VRS_PEND_SIPI)) {
2606939dSPatrick Mooney			const uint8_t vector = vcpu->sipi_vector;
2606939dSPatrick Mooney
2606939dSPatrick Mooney			vcpu_unlock(vcpu);
2606939dSPatrick Mooney			VERIFY0(vcpu_vector_sipi(vm, vcpuid, vector));
2606939dSPatrick Mooney			vcpu_lock(vcpu);
2606939dSPatrick Mooney
2606939dSPatrick Mooney			vcpu->run_state &= ~VRS_PEND_SIPI;
2606939dSPatrick Mooney			vcpu->run_state |= VRS_RUN;
2606939dSPatrick Mooney		}
2606939dSPatrick Mooney
2606939dSPatrick Mooney		/*
2606939dSPatrick Mooney		 * If the vCPU is now in the running state, there is no need to
2606939dSPatrick Mooney		 * wait for anything prior to re-entry.
2606939dSPatrick Mooney		 */
2606939dSPatrick Mooney		if ((vcpu->run_state & VRS_RUN) != 0) {
2606939dSPatrick Mooney			handled = true;
2606939dSPatrick Mooney			break;
2606939dSPatrick Mooney		}
2606939dSPatrick Mooney
2606939dSPatrick Mooney		/*
2606939dSPatrick Mooney		 * Also check for software events which would cause a wake-up.
2606939dSPatrick Mooney		 * This will set the appropriate exitcode directly, rather than
2606939dSPatrick Mooney		 * requiring a trip through VM_RUN().
2606939dSPatrick Mooney		 */
2606939dSPatrick Mooney		if (vcpu_sleep_bailout_checks(vm, vcpuid)) {
2606939dSPatrick Mooney			break;
2606939dSPatrick Mooney		}
2606939dSPatrick Mooney
59460b49SPatrick Mooney		vcpu_ustate_change(vm, vcpuid, VU_IDLE);
2606939dSPatrick Mooney		vcpu_require_state_locked(vm, vcpuid, VCPU_SLEEPING);
fb29dee0SPatrick Mooney		(void) cv_wait_sig(&vcpu->vcpu_cv, &vcpu->lock);
2606939dSPatrick Mooney		vcpu_require_state_locked(vm, vcpuid, VCPU_FROZEN);
59460b49SPatrick Mooney		vcpu_ustate_change(vm, vcpuid, VU_EMU_KERN);
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney	vcpu_unlock(vcpu);
2606939dSPatrick Mooney
2606939dSPatrick Mooney	return (handled ? 0 : -1);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
d7b72f7bSAndy Fiddamanstatic int
54cf5b63SPatrick Mooneyvm_rdmtrr(const struct vm_mtrr *mtrr, uint32_t num, uint64_t *val)
d7b72f7bSAndy Fiddaman{
d7b72f7bSAndy Fiddaman	switch (num) {
d7b72f7bSAndy Fiddaman	case MSR_MTRRcap:
d7b72f7bSAndy Fiddaman		*val = MTRR_CAP_WC | MTRR_CAP_FIXED | VMM_MTRR_VAR_MAX;
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRRdefType:
d7b72f7bSAndy Fiddaman		*val = mtrr->def_type;
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRR4kBase ... MSR_MTRR4kBase + 7:
d7b72f7bSAndy Fiddaman		*val = mtrr->fixed4k[num - MSR_MTRR4kBase];
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRR16kBase ... MSR_MTRR16kBase + 1:
d7b72f7bSAndy Fiddaman		*val = mtrr->fixed16k[num - MSR_MTRR16kBase];
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRR64kBase:
d7b72f7bSAndy Fiddaman		*val = mtrr->fixed64k;
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRRVarBase ... MSR_MTRRVarBase + (VMM_MTRR_VAR_MAX * 2) - 1: {
d7b72f7bSAndy Fiddaman		uint_t offset = num - MSR_MTRRVarBase;
d7b72f7bSAndy Fiddaman		if (offset % 2 == 0) {
d7b72f7bSAndy Fiddaman			*val = mtrr->var[offset / 2].base;
d7b72f7bSAndy Fiddaman		} else {
d7b72f7bSAndy Fiddaman			*val = mtrr->var[offset / 2].mask;
d7b72f7bSAndy Fiddaman		}
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	}
d7b72f7bSAndy Fiddaman	default:
ae8179d3SPatrick Mooney		return (EINVAL);
d7b72f7bSAndy Fiddaman	}
d7b72f7bSAndy Fiddaman
d7b72f7bSAndy Fiddaman	return (0);
d7b72f7bSAndy Fiddaman}
d7b72f7bSAndy Fiddaman
d7b72f7bSAndy Fiddamanstatic int
d7b72f7bSAndy Fiddamanvm_wrmtrr(struct vm_mtrr *mtrr, uint32_t num, uint64_t val)
d7b72f7bSAndy Fiddaman{
d7b72f7bSAndy Fiddaman	switch (num) {
d7b72f7bSAndy Fiddaman	case MSR_MTRRcap:
d7b72f7bSAndy Fiddaman		/* MTRRCAP is read only */
ae8179d3SPatrick Mooney		return (EPERM);
d7b72f7bSAndy Fiddaman	case MSR_MTRRdefType:
d7b72f7bSAndy Fiddaman		if (val & ~VMM_MTRR_DEF_MASK) {
d7b72f7bSAndy Fiddaman			/* generate #GP on writes to reserved fields */
ae8179d3SPatrick Mooney			return (EINVAL);
d7b72f7bSAndy Fiddaman		}
d7b72f7bSAndy Fiddaman		mtrr->def_type = val;
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRR4kBase ... MSR_MTRR4kBase + 7:
d7b72f7bSAndy Fiddaman		mtrr->fixed4k[num - MSR_MTRR4kBase] = val;
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRR16kBase ... MSR_MTRR16kBase + 1:
d7b72f7bSAndy Fiddaman		mtrr->fixed16k[num - MSR_MTRR16kBase] = val;
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRR64kBase:
d7b72f7bSAndy Fiddaman		mtrr->fixed64k = val;
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	case MSR_MTRRVarBase ... MSR_MTRRVarBase + (VMM_MTRR_VAR_MAX * 2) - 1: {
d7b72f7bSAndy Fiddaman		uint_t offset = num - MSR_MTRRVarBase;
d7b72f7bSAndy Fiddaman		if (offset % 2 == 0) {
d7b72f7bSAndy Fiddaman			if (val & ~VMM_MTRR_PHYSBASE_MASK) {
d7b72f7bSAndy Fiddaman				/* generate #GP on writes to reserved fields */
ae8179d3SPatrick Mooney				return (EINVAL);
d7b72f7bSAndy Fiddaman			}
d7b72f7bSAndy Fiddaman			mtrr->var[offset / 2].base = val;
d7b72f7bSAndy Fiddaman		} else {
d7b72f7bSAndy Fiddaman			if (val & ~VMM_MTRR_PHYSMASK_MASK) {
d7b72f7bSAndy Fiddaman				/* generate #GP on writes to reserved fields */
ae8179d3SPatrick Mooney				return (EINVAL);
d7b72f7bSAndy Fiddaman			}
d7b72f7bSAndy Fiddaman			mtrr->var[offset / 2].mask = val;
d7b72f7bSAndy Fiddaman		}
d7b72f7bSAndy Fiddaman		break;
d7b72f7bSAndy Fiddaman	}
d7b72f7bSAndy Fiddaman	default:
ae8179d3SPatrick Mooney		return (EINVAL);
d7b72f7bSAndy Fiddaman	}
d7b72f7bSAndy Fiddaman
d7b72f7bSAndy Fiddaman	return (0);
d7b72f7bSAndy Fiddaman}
d7b72f7bSAndy Fiddaman
54cf5b63SPatrick Mooneystatic bool
54cf5b63SPatrick Mooneyis_mtrr_msr(uint32_t msr)
54cf5b63SPatrick Mooney{
54cf5b63SPatrick Mooney	switch (msr) {
54cf5b63SPatrick Mooney	case MSR_MTRRcap:
54cf5b63SPatrick Mooney	case MSR_MTRRdefType:
54cf5b63SPatrick Mooney	case MSR_MTRR4kBase ... MSR_MTRR4kBase + 7:
54cf5b63SPatrick Mooney	case MSR_MTRR16kBase ... MSR_MTRR16kBase + 1:
54cf5b63SPatrick Mooney	case MSR_MTRR64kBase:
54cf5b63SPatrick Mooney	case MSR_MTRRVarBase ... MSR_MTRRVarBase + (VMM_MTRR_VAR_MAX * 2) - 1:
54cf5b63SPatrick Mooney		return (true);
54cf5b63SPatrick Mooney	default:
54cf5b63SPatrick Mooney		return (false);
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney}
54cf5b63SPatrick Mooney
9250eb13SPatrick Mooneystatic int
9250eb13SPatrick Mooneyvm_handle_rdmsr(struct vm *vm, int vcpuid, struct vm_exit *vme)
9250eb13SPatrick Mooney{
d7b72f7bSAndy Fiddaman	struct vcpu *vcpu = &vm->vcpu[vcpuid];
9250eb13SPatrick Mooney	const uint32_t code = vme->u.msr.code;
9250eb13SPatrick Mooney	uint64_t val = 0;
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	switch (code) {
9250eb13SPatrick Mooney	case MSR_MCG_CAP:
9250eb13SPatrick Mooney	case MSR_MCG_STATUS:
9250eb13SPatrick Mooney		val = 0;
9250eb13SPatrick Mooney		break;
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	case MSR_MTRRcap:
9250eb13SPatrick Mooney	case MSR_MTRRdefType:
d7b72f7bSAndy Fiddaman	case MSR_MTRR4kBase ... MSR_MTRR4kBase + 7:
9250eb13SPatrick Mooney	case MSR_MTRR16kBase ... MSR_MTRR16kBase + 1:
9250eb13SPatrick Mooney	case MSR_MTRR64kBase:
d7b72f7bSAndy Fiddaman	case MSR_MTRRVarBase ... MSR_MTRRVarBase + (VMM_MTRR_VAR_MAX * 2) - 1:
d7b72f7bSAndy Fiddaman		if (vm_rdmtrr(&vcpu->mtrr, code, &val) != 0)
d7b72f7bSAndy Fiddaman			vm_inject_gp(vm, vcpuid);
9250eb13SPatrick Mooney		break;
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	case MSR_TSC:
9250eb13SPatrick Mooney		/*
717646f7SJordan Paige Hendricks		 * Get the guest TSC, applying necessary vCPU offsets.
717646f7SJordan Paige Hendricks		 *
9250eb13SPatrick Mooney		 * In all likelihood, this should always be handled in guest
9250eb13SPatrick Mooney		 * context by VMX/SVM rather than taking an exit.  (Both VMX and
9250eb13SPatrick Mooney		 * SVM pass through read-only access to MSR_TSC to the guest.)
9250eb13SPatrick Mooney		 *
717646f7SJordan Paige Hendricks		 * The VM-wide TSC offset and per-vCPU offset are included in
717646f7SJordan Paige Hendricks		 * the calculations of vcpu_tsc_offset(), so this is sufficient
717646f7SJordan Paige Hendricks		 * to use as the offset in our calculations.
717646f7SJordan Paige Hendricks		 *
9250eb13SPatrick Mooney		 * No physical offset is requested of vcpu_tsc_offset() since
9250eb13SPatrick Mooney		 * rdtsc_offset() takes care of that instead.
9250eb13SPatrick Mooney		 */
717646f7SJordan Paige Hendricks		val = calc_guest_tsc(rdtsc_offset(), vm->freq_multiplier,
717646f7SJordan Paige Hendricks		    vcpu_tsc_offset(vm, vcpuid, false));
9250eb13SPatrick Mooney		break;
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	default:
9250eb13SPatrick Mooney		/*
9250eb13SPatrick Mooney		 * Anything not handled at this point will be kicked out to
9250eb13SPatrick Mooney		 * userspace for attempted processing there.
9250eb13SPatrick Mooney		 */
9250eb13SPatrick Mooney		return (-1);
9250eb13SPatrick Mooney	}
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_RAX,
9250eb13SPatrick Mooney	    val & 0xffffffff));
9250eb13SPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_RDX,
9250eb13SPatrick Mooney	    val >> 32));
9250eb13SPatrick Mooney	return (0);
9250eb13SPatrick Mooney}
9250eb13SPatrick Mooney
4c87aefeSPatrick Mooneystatic int
4c87aefeSPatrick Mooneyvm_handle_wrmsr(struct vm *vm, int vcpuid, struct vm_exit *vme)
4c87aefeSPatrick Mooney{
9250eb13SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
4c87aefeSPatrick Mooney	const uint32_t code = vme->u.msr.code;
4c87aefeSPatrick Mooney	const uint64_t val = vme->u.msr.wval;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	switch (code) {
9250eb13SPatrick Mooney	case MSR_MCG_CAP:
9250eb13SPatrick Mooney	case MSR_MCG_STATUS:
9250eb13SPatrick Mooney		/* Ignore writes */
9250eb13SPatrick Mooney		break;
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	case MSR_MTRRcap:
9250eb13SPatrick Mooney	case MSR_MTRRdefType:
d7b72f7bSAndy Fiddaman	case MSR_MTRR4kBase ... MSR_MTRR4kBase + 7:
9250eb13SPatrick Mooney	case MSR_MTRR16kBase ... MSR_MTRR16kBase + 1:
9250eb13SPatrick Mooney	case MSR_MTRR64kBase:
d7b72f7bSAndy Fiddaman	case MSR_MTRRVarBase ... MSR_MTRRVarBase + (VMM_MTRR_VAR_MAX * 2) - 1:
d7b72f7bSAndy Fiddaman		if (vm_wrmtrr(&vcpu->mtrr, code, val) != 0)
d7b72f7bSAndy Fiddaman			vm_inject_gp(vm, vcpuid);
9250eb13SPatrick Mooney		break;
9250eb13SPatrick Mooney
4c87aefeSPatrick Mooney	case MSR_TSC:
9250eb13SPatrick Mooney		/*
9250eb13SPatrick Mooney		 * The effect of writing the TSC MSR is that a subsequent read
9250eb13SPatrick Mooney		 * of the TSC would report that value written (plus any time
717646f7SJordan Paige Hendricks		 * elapsed between the write and the read).
9250eb13SPatrick Mooney		 *
9250eb13SPatrick Mooney		 * To calculate that per-vCPU offset, we can work backwards from
717646f7SJordan Paige Hendricks		 * the guest TSC at the time of write:
9250eb13SPatrick Mooney		 *
717646f7SJordan Paige Hendricks		 * value = current guest TSC + vCPU offset
9250eb13SPatrick Mooney		 *
9250eb13SPatrick Mooney		 * so therefore:
9250eb13SPatrick Mooney		 *
717646f7SJordan Paige Hendricks		 * value - current guest TSC = vCPU offset
9250eb13SPatrick Mooney		 */
717646f7SJordan Paige Hendricks		vcpu->tsc_offset = val - calc_guest_tsc(rdtsc_offset(),
717646f7SJordan Paige Hendricks		    vm->freq_multiplier, vm->tsc_offset);
9250eb13SPatrick Mooney		break;
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	default:
9250eb13SPatrick Mooney		/*
9250eb13SPatrick Mooney		 * Anything not handled at this point will be kicked out to
9250eb13SPatrick Mooney		 * userspace for attempted processing there.
9250eb13SPatrick Mooney		 */
9250eb13SPatrick Mooney		return (-1);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
9250eb13SPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
72473353SPatrick Mooney/*
72473353SPatrick Mooney * Has a suspend event been asserted on the VM?
72473353SPatrick Mooney *
72473353SPatrick Mooney * The reason and (in the case of a triple-fault) source vcpuid are optionally
72473353SPatrick Mooney * returned if such a state is present.
72473353SPatrick Mooney */
72473353SPatrick Mooneystatic bool
72473353SPatrick Mooneyvm_is_suspended(struct vm *vm, struct vm_exit *vme)
72473353SPatrick Mooney{
72473353SPatrick Mooney	const int val = vm->suspend_how;
72473353SPatrick Mooney	if (val == 0) {
72473353SPatrick Mooney		return (false);
72473353SPatrick Mooney	} else {
72473353SPatrick Mooney		if (vme != NULL) {
72473353SPatrick Mooney			vme->exitcode = VM_EXITCODE_SUSPENDED;
72473353SPatrick Mooney			vme->u.suspended.how = val;
72473353SPatrick Mooney			vme->u.suspended.source = vm->suspend_source;
72473353SPatrick Mooney			/*
72473353SPatrick Mooney			 * Normalize suspend event time and, on the off chance
72473353SPatrick Mooney			 * that it was recorded as occuring prior to VM boot,
72473353SPatrick Mooney			 * clamp it to a minimum of 0.
72473353SPatrick Mooney			 */
72473353SPatrick Mooney			vme->u.suspended.when = (uint64_t)
72473353SPatrick Mooney			    MAX(vm_normalize_hrtime(vm, vm->suspend_when), 0);
72473353SPatrick Mooney		}
72473353SPatrick Mooney		return (true);
72473353SPatrick Mooney	}
72473353SPatrick Mooney}
72473353SPatrick Mooney
4c87aefeSPatrick Mooneyint
72473353SPatrick Mooneyvm_suspend(struct vm *vm, enum vm_suspend_how how, int source)
4c87aefeSPatrick Mooney{
72473353SPatrick Mooney	if (how <= VM_SUSPEND_NONE || how >= VM_SUSPEND_LAST) {
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	/*
72473353SPatrick Mooney	 * Although the common case of calling vm_suspend() is via
72473353SPatrick Mooney	 * ioctl(VM_SUSPEND), where all the vCPUs will be held in the frozen
72473353SPatrick Mooney	 * state, it can also be called by a running vCPU to indicate a
72473353SPatrick Mooney	 * triple-fault.  In the latter case, there is no exclusion from a
72473353SPatrick Mooney	 * racing vm_suspend() from a different vCPU, so assertion of the
72473353SPatrick Mooney	 * suspended state must be performed carefully.
72473353SPatrick Mooney	 *
72473353SPatrick Mooney	 * The `suspend_when` is set first via atomic cmpset to pick a "winner"
72473353SPatrick Mooney	 * of the suspension race, followed by population of 'suspend_source'.
72473353SPatrick Mooney	 * Only after those are done, and a membar is emitted will 'suspend_how'
72473353SPatrick Mooney	 * be set, which makes the suspended state visible to any vCPU checking
72473353SPatrick Mooney	 * for it.  That order will prevent an incomplete suspend state (between
72473353SPatrick Mooney	 * 'how', 'source', and 'when') from being observed.
4c87aefeSPatrick Mooney	 */
72473353SPatrick Mooney	const hrtime_t now = gethrtime();
72473353SPatrick Mooney	if (atomic_cmpset_long((ulong_t *)&vm->suspend_when, 0, now) == 0) {
72473353SPatrick Mooney		return (EALREADY);
72473353SPatrick Mooney	}
72473353SPatrick Mooney	vm->suspend_source = source;
72473353SPatrick Mooney	membar_producer();
72473353SPatrick Mooney	vm->suspend_how = how;
72473353SPatrick Mooney
72473353SPatrick Mooney	/* Notify all active vcpus that they are now suspended. */
52fac30eSPatrick Mooney	for (uint_t i = 0; i < vm->maxcpus; i++) {
52fac30eSPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[i];
4c87aefeSPatrick Mooney
52fac30eSPatrick Mooney		vcpu_lock(vcpu);
72473353SPatrick Mooney
72473353SPatrick Mooney		if (!CPU_ISSET(i, &vm->active_cpus)) {
52fac30eSPatrick Mooney			/*
72473353SPatrick Mooney			 * vCPUs not already marked as active can be ignored,
72473353SPatrick Mooney			 * since they cannot become marked as active unless the
72473353SPatrick Mooney			 * VM is reinitialized, clearing the suspended state.
52fac30eSPatrick Mooney			 */
72473353SPatrick Mooney			vcpu_unlock(vcpu);
72473353SPatrick Mooney			continue;
72473353SPatrick Mooney		}
72473353SPatrick Mooney
72473353SPatrick Mooney		switch (vcpu->state) {
72473353SPatrick Mooney		case VCPU_IDLE:
72473353SPatrick Mooney		case VCPU_FROZEN:
72473353SPatrick Mooney			/*
72473353SPatrick Mooney			 * vCPUs not locked by in-kernel activity can be
72473353SPatrick Mooney			 * immediately marked as suspended: The ustate is moved
72473353SPatrick Mooney			 * back to VU_INIT, since no further guest work will
72473353SPatrick Mooney			 * occur while the VM is in this state.
72473353SPatrick Mooney			 *
72473353SPatrick Mooney			 * A FROZEN vCPU may still change its ustate on the way
72473353SPatrick Mooney			 * out of the kernel, but a subsequent check at the end
72473353SPatrick Mooney			 * of vm_run() should be adequate to fix it up.
72473353SPatrick Mooney			 */
72473353SPatrick Mooney			vcpu_ustate_change(vm, i, VU_INIT);
72473353SPatrick Mooney			break;
72473353SPatrick Mooney		default:
52fac30eSPatrick Mooney			/*
72473353SPatrick Mooney			 * Any vCPUs which are running or waiting in-kernel
72473353SPatrick Mooney			 * (such as in HLT) are notified to pick up the newly
72473353SPatrick Mooney			 * suspended state.
52fac30eSPatrick Mooney			 */
52fac30eSPatrick Mooney			vcpu_notify_event_locked(vcpu, VCPU_NOTIFY_EXIT);
72473353SPatrick Mooney			break;
52fac30eSPatrick Mooney		}
52fac30eSPatrick Mooney		vcpu_unlock(vcpu);
52fac30eSPatrick Mooney	}
4c87aefeSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneyvoid
2606939dSPatrick Mooneyvm_exit_run_state(struct vm *vm, int vcpuid, uint64_t rip)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	struct vm_exit *vmexit;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	vmexit = vm_exitinfo(vm, vcpuid);
4c87aefeSPatrick Mooney	vmexit->rip = rip;
4c87aefeSPatrick Mooney	vmexit->inst_length = 0;
2606939dSPatrick Mooney	vmexit->exitcode = VM_EXITCODE_RUN_STATE;
2606939dSPatrick Mooney	vmm_stat_incr(vm, vcpuid, VMEXIT_RUN_STATE, 1);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney/*
4c87aefeSPatrick Mooney * Some vmm resources, such as the lapic, may have CPU-specific resources
4c87aefeSPatrick Mooney * allocated to them which would benefit from migration onto the host CPU which
4c87aefeSPatrick Mooney * is processing the vcpu state.
4c87aefeSPatrick Mooney */
4c87aefeSPatrick Mooneystatic void
4c87aefeSPatrick Mooneyvm_localize_resources(struct vm *vm, struct vcpu *vcpu)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * Localizing cyclic resources requires acquisition of cpu_lock, and
4c87aefeSPatrick Mooney	 * doing so with kpreempt disabled is a recipe for deadlock disaster.
4c87aefeSPatrick Mooney	 */
4c87aefeSPatrick Mooney	VERIFY(curthread->t_preempt == 0);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * Do not bother with localization if this vCPU is about to return to
4c87aefeSPatrick Mooney	 * the host CPU it was last localized to.
4c87aefeSPatrick Mooney	 */
4c87aefeSPatrick Mooney	if (vcpu->lastloccpu == curcpu)
4c87aefeSPatrick Mooney		return;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * Localize system-wide resources to the primary boot vCPU.  While any
4c87aefeSPatrick Mooney	 * of the other vCPUs may access them, it keeps the potential interrupt
4c87aefeSPatrick Mooney	 * footprint constrained to CPUs involved with this instance.
4c87aefeSPatrick Mooney	 */
4c87aefeSPatrick Mooney	if (vcpu == &vm->vcpu[0]) {
4c87aefeSPatrick Mooney		vhpet_localize_resources(vm->vhpet);
4c87aefeSPatrick Mooney		vrtc_localize_resources(vm->vrtc);
4c87aefeSPatrick Mooney		vatpit_localize_resources(vm->vatpit);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	vlapic_localize_resources(vcpu->vlapic);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	vcpu->lastloccpu = curcpu;
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystatic void
4c87aefeSPatrick Mooneyvmm_savectx(void *arg)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	vm_thread_ctx_t *vtc = arg;
4c87aefeSPatrick Mooney	struct vm *vm = vtc->vtc_vm;
4c87aefeSPatrick Mooney	const int vcpuid = vtc->vtc_vcpuid;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (ops->vmsavectx != NULL) {
4c87aefeSPatrick Mooney		ops->vmsavectx(vm->cookie, vcpuid);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
59460b49SPatrick Mooney	/*
59460b49SPatrick Mooney	 * Account for going off-cpu, unless the vCPU is idled, where being
59460b49SPatrick Mooney	 * off-cpu is the explicit point.
59460b49SPatrick Mooney	 */
59460b49SPatrick Mooney	if (vm->vcpu[vcpuid].ustate != VU_IDLE) {
59460b49SPatrick Mooney		vtc->vtc_ustate = vm->vcpu[vcpuid].ustate;
59460b49SPatrick Mooney		vcpu_ustate_change(vm, vcpuid, VU_SCHED);
59460b49SPatrick Mooney	}
59460b49SPatrick Mooney
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * If the CPU holds the restored guest FPU state, save it and restore
4c87aefeSPatrick Mooney	 * the host FPU state before this thread goes off-cpu.
4c87aefeSPatrick Mooney	 */
4c87aefeSPatrick Mooney	if ((vtc->vtc_status & VTCS_FPU_RESTORED) != 0) {
4c87aefeSPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[vcpuid];
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney		save_guest_fpustate(vcpu);
4c87aefeSPatrick Mooney		vtc->vtc_status &= ~VTCS_FPU_RESTORED;
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystatic void
4c87aefeSPatrick Mooneyvmm_restorectx(void *arg)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	vm_thread_ctx_t *vtc = arg;
4c87aefeSPatrick Mooney	struct vm *vm = vtc->vtc_vm;
4c87aefeSPatrick Mooney	const int vcpuid = vtc->vtc_vcpuid;
4c87aefeSPatrick Mooney
59460b49SPatrick Mooney	/* Complete microstate accounting for vCPU being off-cpu */
59460b49SPatrick Mooney	if (vm->vcpu[vcpuid].ustate != VU_IDLE) {
59460b49SPatrick Mooney		vcpu_ustate_change(vm, vcpuid, vtc->vtc_ustate);
59460b49SPatrick Mooney	}
59460b49SPatrick Mooney
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * When coming back on-cpu, only restore the guest FPU status if the
4c87aefeSPatrick Mooney	 * thread is in a context marked as requiring it.  This should be rare,
4c87aefeSPatrick Mooney	 * occurring only when a future logic error results in a voluntary
4c87aefeSPatrick Mooney	 * sleep during the VMRUN critical section.
4c87aefeSPatrick Mooney	 *
4c87aefeSPatrick Mooney	 * The common case will result in elision of the guest FPU state
4c87aefeSPatrick Mooney	 * restoration, deferring that action until it is clearly necessary
4c87aefeSPatrick Mooney	 * during vm_run.
4c87aefeSPatrick Mooney	 */
4c87aefeSPatrick Mooney	VERIFY((vtc->vtc_status & VTCS_FPU_RESTORED) == 0);
4c87aefeSPatrick Mooney	if ((vtc->vtc_status & VTCS_FPU_CTX_CRITICAL) != 0) {
4c87aefeSPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[vcpuid];
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney		restore_guest_fpustate(vcpu);
4c87aefeSPatrick Mooney		vtc->vtc_status |= VTCS_FPU_RESTORED;
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (ops->vmrestorectx != NULL) {
4c87aefeSPatrick Mooney		ops->vmrestorectx(vm->cookie, vcpuid);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
23d9a8faSPatrick Mooney/* Convenience defines for parsing vm_entry`cmd values */
23d9a8faSPatrick Mooney#define	VEC_MASK_FLAGS	(VEC_FLAG_EXIT_CONSISTENT)
23d9a8faSPatrick Mooney#define	VEC_MASK_CMD	(~VEC_MASK_FLAGS)
23d9a8faSPatrick Mooney
e0c0d44eSPatrick Mooneystatic int
e0c0d44eSPatrick Mooneyvm_entry_actions(struct vm *vm, int vcpuid, const struct vm_entry *entry,
e0c0d44eSPatrick Mooney    struct vm_exit *vme)
e0c0d44eSPatrick Mooney{
23d9a8faSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
23d9a8faSPatrick Mooney	struct vie *vie = vcpu->vie_ctx;
23d9a8faSPatrick Mooney	int err = 0;
e0c0d44eSPatrick Mooney
23d9a8faSPatrick Mooney	const uint_t cmd = entry->cmd & VEC_MASK_CMD;
23d9a8faSPatrick Mooney	const uint_t flags = entry->cmd & VEC_MASK_FLAGS;
e0c0d44eSPatrick Mooney
23d9a8faSPatrick Mooney	switch (cmd) {
e0c0d44eSPatrick Mooney	case VEC_DEFAULT:
23d9a8faSPatrick Mooney		break;
e0c0d44eSPatrick Mooney	case VEC_DISCARD_INSTR:
e0c0d44eSPatrick Mooney		vie_reset(vie);
23d9a8faSPatrick Mooney		break;
2606939dSPatrick Mooney	case VEC_FULFILL_MMIO:
e0c0d44eSPatrick Mooney		err = vie_fulfill_mmio(vie, &entry->u.mmio);
e0c0d44eSPatrick Mooney		if (err == 0) {
e0c0d44eSPatrick Mooney			err = vie_emulate_mmio(vie, vm, vcpuid);
e0c0d44eSPatrick Mooney			if (err == 0) {
e0c0d44eSPatrick Mooney				vie_advance_pc(vie, &vcpu->nextrip);
e0c0d44eSPatrick Mooney			} else if (err < 0) {
e0c0d44eSPatrick Mooney				vie_exitinfo(vie, vme);
e0c0d44eSPatrick Mooney			} else if (err == EAGAIN) {
e0c0d44eSPatrick Mooney				/*
e0c0d44eSPatrick Mooney				 * Clear the instruction emulation state in
e0c0d44eSPatrick Mooney				 * order to re-enter VM context and continue
e0c0d44eSPatrick Mooney				 * this 'rep <instruction>'
e0c0d44eSPatrick Mooney				 */
e0c0d44eSPatrick Mooney				vie_reset(vie);
e0c0d44eSPatrick Mooney				err = 0;
e0c0d44eSPatrick Mooney			}
e0c0d44eSPatrick Mooney		}
e0c0d44eSPatrick Mooney		break;
2606939dSPatrick Mooney	case VEC_FULFILL_INOUT:
e0c0d44eSPatrick Mooney		err = vie_fulfill_inout(vie, &entry->u.inout);
e0c0d44eSPatrick Mooney		if (err == 0) {
e0c0d44eSPatrick Mooney			err = vie_emulate_inout(vie, vm, vcpuid);
e0c0d44eSPatrick Mooney			if (err == 0) {
e0c0d44eSPatrick Mooney				vie_advance_pc(vie, &vcpu->nextrip);
e0c0d44eSPatrick Mooney			} else if (err < 0) {
e0c0d44eSPatrick Mooney				vie_exitinfo(vie, vme);
e0c0d44eSPatrick Mooney			} else if (err == EAGAIN) {
e0c0d44eSPatrick Mooney				/*
e0c0d44eSPatrick Mooney				 * Clear the instruction emulation state in
e0c0d44eSPatrick Mooney				 * order to re-enter VM context and continue
e0c0d44eSPatrick Mooney				 * this 'rep ins/outs'
e0c0d44eSPatrick Mooney				 */
e0c0d44eSPatrick Mooney				vie_reset(vie);
e0c0d44eSPatrick Mooney				err = 0;
e0c0d44eSPatrick Mooney			}
e0c0d44eSPatrick Mooney		}
e0c0d44eSPatrick Mooney		break;
e0c0d44eSPatrick Mooney	default:
e0c0d44eSPatrick Mooney		return (EINVAL);
e0c0d44eSPatrick Mooney	}
23d9a8faSPatrick Mooney
23d9a8faSPatrick Mooney	/*
23d9a8faSPatrick Mooney	 * Pay heed to requests for exit-when-vCPU-is-consistent requests, at
23d9a8faSPatrick Mooney	 * least when we are not immediately bound for another exit due to
23d9a8faSPatrick Mooney	 * multi-part instruction emulation or related causes.
23d9a8faSPatrick Mooney	 */
23d9a8faSPatrick Mooney	if ((flags & VEC_FLAG_EXIT_CONSISTENT) != 0 && err == 0) {
23d9a8faSPatrick Mooney		vcpu->reqconsist = true;
23d9a8faSPatrick Mooney	}
23d9a8faSPatrick Mooney
e0c0d44eSPatrick Mooney	return (err);
e0c0d44eSPatrick Mooney}
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooneystatic int
e0c0d44eSPatrick Mooneyvm_loop_checks(struct vm *vm, int vcpuid, struct vm_exit *vme)
e0c0d44eSPatrick Mooney{
e0c0d44eSPatrick Mooney	struct vie *vie;
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	vie = vm->vcpu[vcpuid].vie_ctx;
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	if (vie_pending(vie)) {
e0c0d44eSPatrick Mooney		/*
e0c0d44eSPatrick Mooney		 * Userspace has not fulfilled the pending needs of the
e0c0d44eSPatrick Mooney		 * instruction emulation, so bail back out.
e0c0d44eSPatrick Mooney		 */
e0c0d44eSPatrick Mooney		vie_exitinfo(vie, vme);
e0c0d44eSPatrick Mooney		return (-1);
e0c0d44eSPatrick Mooney	}
e0c0d44eSPatrick Mooney
e0c0d44eSPatrick Mooney	return (0);
e0c0d44eSPatrick Mooney}
e0c0d44eSPatrick Mooney
bf21cd93STycho Nightingaleint
e0c0d44eSPatrick Mooneyvm_run(struct vm *vm, int vcpuid, const struct vm_entry *entry)
bf21cd93STycho Nightingale{
e0c0d44eSPatrick Mooney	int error;
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale	struct vm_exit *vme;
3e1c5f3aSPatrick Mooney	bool intr_disabled;
4c87aefeSPatrick Mooney	int affinity_type = CPU_CURRENT;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney	if (!CPU_ISSET(vcpuid, &vm->active_cpus))
4c87aefeSPatrick Mooney		return (EINVAL);
ad4335f7SPatrick Mooney	if (vm->is_paused) {
ad4335f7SPatrick Mooney		return (EBUSY);
ad4335f7SPatrick Mooney	}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale	vme = &vcpu->exitinfo;
4c87aefeSPatrick Mooney
59460b49SPatrick Mooney	vcpu_ustate_change(vm, vcpuid, VU_EMU_KERN);
59460b49SPatrick Mooney
5a469116SPatrick Mooney	vcpu->vtc.vtc_status = 0;
5a469116SPatrick Mooney	ctxop_attach(curthread, vcpu->ctxop);
4c87aefeSPatrick Mooney
e0c0d44eSPatrick Mooney	error = vm_entry_actions(vm, vcpuid, entry, vme);
3e1c5f3aSPatrick Mooney	if (error != 0) {
e0c0d44eSPatrick Mooney		goto exit;
e0c0d44eSPatrick Mooney	}
e0c0d44eSPatrick Mooney
bf21cd93STycho Nightingalerestart:
3e1c5f3aSPatrick Mooney	error = vm_loop_checks(vm, vcpuid, vme);
3e1c5f3aSPatrick Mooney	if (error != 0) {
e0c0d44eSPatrick Mooney		goto exit;
e0c0d44eSPatrick Mooney	}
e0c0d44eSPatrick Mooney
4c87aefeSPatrick Mooney	thread_affinity_set(curthread, affinity_type);
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * Resource localization should happen after the CPU affinity for the
4c87aefeSPatrick Mooney	 * thread has been set to ensure that access from restricted contexts,
4c87aefeSPatrick Mooney	 * such as VMX-accelerated APIC operations, can occur without inducing
4c87aefeSPatrick Mooney	 * cyclic cross-calls.
4c87aefeSPatrick Mooney	 *
4c87aefeSPatrick Mooney	 * This must be done prior to disabling kpreempt via critical_enter().
4c87aefeSPatrick Mooney	 */
4c87aefeSPatrick Mooney	vm_localize_resources(vm, vcpu);
4c87aefeSPatrick Mooney	affinity_type = CPU_CURRENT;
bf21cd93STycho Nightingale	critical_enter();
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	/* Force a trip through update_sregs to reload %fs/%gs and friends */
4c87aefeSPatrick Mooney	PCB_SET_UPDATE_SEGS(&ttolwp(curthread)->lwp_pcb);
bf21cd93STycho Nightingale
5a469116SPatrick Mooney	if ((vcpu->vtc.vtc_status & VTCS_FPU_RESTORED) == 0) {
4c87aefeSPatrick Mooney		restore_guest_fpustate(vcpu);
5a469116SPatrick Mooney		vcpu->vtc.vtc_status |= VTCS_FPU_RESTORED;
4c87aefeSPatrick Mooney	}
5a469116SPatrick Mooney	vcpu->vtc.vtc_status |= VTCS_FPU_CTX_CRITICAL;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu_require_state(vm, vcpuid, VCPU_RUNNING);
0153d828SPatrick Mooney	error = VMRUN(vm->cookie, vcpuid, vcpu->nextrip);
bf21cd93STycho Nightingale	vcpu_require_state(vm, vcpuid, VCPU_FROZEN);
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * Once clear of the delicate contexts comprising the VM_RUN handler,
4c87aefeSPatrick Mooney	 * thread CPU affinity can be loosened while other processing occurs.
4c87aefeSPatrick Mooney	 */
5a469116SPatrick Mooney	vcpu->vtc.vtc_status &= ~VTCS_FPU_CTX_CRITICAL;
4c87aefeSPatrick Mooney	thread_affinity_clear(curthread);
bf21cd93STycho Nightingale	critical_exit();
bf21cd93STycho Nightingale
3e1c5f3aSPatrick Mooney	if (error != 0) {
3e1c5f3aSPatrick Mooney		/* Communicate out any error from VMRUN() above */
3e1c5f3aSPatrick Mooney		goto exit;
3e1c5f3aSPatrick Mooney	}
4c87aefeSPatrick Mooney
3e1c5f3aSPatrick Mooney	vcpu->nextrip = vme->rip + vme->inst_length;
3e1c5f3aSPatrick Mooney	switch (vme->exitcode) {
2606939dSPatrick Mooney	case VM_EXITCODE_RUN_STATE:
2606939dSPatrick Mooney		error = vm_handle_run_state(vm, vcpuid);
2606939dSPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_IOAPIC_EOI:
3e1c5f3aSPatrick Mooney		vioapic_process_eoi(vm, vcpuid,
3e1c5f3aSPatrick Mooney		    vme->u.ioapic_eoi.vector);
3e1c5f3aSPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_HLT:
3e1c5f3aSPatrick Mooney		intr_disabled = ((vme->u.hlt.rflags & PSL_I) == 0);
3e1c5f3aSPatrick Mooney		error = vm_handle_hlt(vm, vcpuid, intr_disabled);
3e1c5f3aSPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_PAGING:
3e1c5f3aSPatrick Mooney		error = vm_handle_paging(vm, vcpuid);
3e1c5f3aSPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_MMIO_EMUL:
3e1c5f3aSPatrick Mooney		error = vm_handle_mmio_emul(vm, vcpuid);
3e1c5f3aSPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_INOUT:
3e1c5f3aSPatrick Mooney		error = vm_handle_inout(vm, vcpuid, vme);
3e1c5f3aSPatrick Mooney		break;
7db0d193SPatrick Mooney	case VM_EXITCODE_INST_EMUL:
7db0d193SPatrick Mooney		error = vm_handle_inst_emul(vm, vcpuid);
7db0d193SPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_MONITOR:
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_MWAIT:
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_VMINSN:
3e1c5f3aSPatrick Mooney		vm_inject_ud(vm, vcpuid);
3e1c5f3aSPatrick Mooney		break;
9250eb13SPatrick Mooney	case VM_EXITCODE_RDMSR:
9250eb13SPatrick Mooney		error = vm_handle_rdmsr(vm, vcpuid, vme);
9250eb13SPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_WRMSR:
9250eb13SPatrick Mooney		error = vm_handle_wrmsr(vm, vcpuid, vme);
3e1c5f3aSPatrick Mooney		break;
f703164bSPatrick Mooney	case VM_EXITCODE_HT:
3e1c5f3aSPatrick Mooney		affinity_type = CPU_BEST;
3e1c5f3aSPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	case VM_EXITCODE_MTRAP:
e0994bd2SPatrick Mooney		VERIFY0(vm_suspend_cpu(vm, vcpuid));
3e1c5f3aSPatrick Mooney		error = -1;
3e1c5f3aSPatrick Mooney		break;
3e1c5f3aSPatrick Mooney	default:
3e1c5f3aSPatrick Mooney		/* handled in userland */
3e1c5f3aSPatrick Mooney		error = -1;
3e1c5f3aSPatrick Mooney		break;
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
3e1c5f3aSPatrick Mooney	if (error == 0) {
3e1c5f3aSPatrick Mooney		/* VM exit conditions handled in-kernel, continue running */
bf21cd93STycho Nightingale		goto restart;
3e1c5f3aSPatrick Mooney	}
4c87aefeSPatrick Mooney
e0c0d44eSPatrick Mooneyexit:
5a469116SPatrick Mooney	kpreempt_disable();
5a469116SPatrick Mooney	ctxop_detach(curthread, vcpu->ctxop);
5a469116SPatrick Mooney	/* Make sure all of the needed vCPU context state is saved */
5a469116SPatrick Mooney	vmm_savectx(&vcpu->vtc);
5a469116SPatrick Mooney	kpreempt_enable();
4c87aefeSPatrick Mooney
72473353SPatrick Mooney	/*
72473353SPatrick Mooney	 * Bill time in userspace against VU_EMU_USER, unless the VM is
72473353SPatrick Mooney	 * suspended, in which case VU_INIT is the choice.
72473353SPatrick Mooney	 */
72473353SPatrick Mooney	vcpu_ustate_change(vm, vcpuid,
72473353SPatrick Mooney	    vm_is_suspended(vm, NULL) ? VU_INIT : VU_EMU_USER);
72473353SPatrick Mooney
bf21cd93STycho Nightingale	return (error);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_restart_instruction(void *arg, int vcpuid)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vm *vm;
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale	enum vcpu_state state;
bf21cd93STycho Nightingale	uint64_t rip;
bf21cd93STycho Nightingale	int error;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vm = arg;
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale	state = vcpu_get_state(vm, vcpuid, NULL);
bf21cd93STycho Nightingale	if (state == VCPU_RUNNING) {
bf21cd93STycho Nightingale		/*
bf21cd93STycho Nightingale		 * When a vcpu is "running" the next instruction is determined
bf21cd93STycho Nightingale		 * by adding 'rip' and 'inst_length' in the vcpu's 'exitinfo'.
bf21cd93STycho Nightingale		 * Thus setting 'inst_length' to zero will cause the current
bf21cd93STycho Nightingale		 * instruction to be restarted.
bf21cd93STycho Nightingale		 */
bf21cd93STycho Nightingale		vcpu->exitinfo.inst_length = 0;
bf21cd93STycho Nightingale	} else if (state == VCPU_FROZEN) {
bf21cd93STycho Nightingale		/*
bf21cd93STycho Nightingale		 * When a vcpu is "frozen" it is outside the critical section
bf21cd93STycho Nightingale		 * around VMRUN() and 'nextrip' points to the next instruction.
bf21cd93STycho Nightingale		 * Thus instruction restart is achieved by setting 'nextrip'
bf21cd93STycho Nightingale		 * to the vcpu's %rip.
bf21cd93STycho Nightingale		 */
bf21cd93STycho Nightingale		error = vm_get_register(vm, vcpuid, VM_REG_GUEST_RIP, &rip);
bf21cd93STycho Nightingale		KASSERT(!error, ("%s: error %d getting rip", __func__, error));
bf21cd93STycho Nightingale		vcpu->nextrip = rip;
bf21cd93STycho Nightingale	} else {
bf21cd93STycho Nightingale		panic("%s: invalid state %d", __func__, state);
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_exit_intinfo(struct vm *vm, int vcpuid, uint64_t info)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	if (VM_INTINFO_PENDING(info)) {
3d097f7dSPatrick Mooney		const uint32_t type = VM_INTINFO_TYPE(info);
3d097f7dSPatrick Mooney		const uint8_t vector = VM_INTINFO_VECTOR(info);
3d097f7dSPatrick Mooney
bf21cd93STycho Nightingale		if (type == VM_INTINFO_NMI && vector != IDT_NMI)
bf21cd93STycho Nightingale			return (EINVAL);
3d097f7dSPatrick Mooney		if (type == VM_INTINFO_HWEXCP && vector >= 32)
bf21cd93STycho Nightingale			return (EINVAL);
3d097f7dSPatrick Mooney		if (info & VM_INTINFO_MASK_RSVD)
bf21cd93STycho Nightingale			return (EINVAL);
bf21cd93STycho Nightingale	} else {
bf21cd93STycho Nightingale		info = 0;
bf21cd93STycho Nightingale	}
3d097f7dSPatrick Mooney	vcpu->exit_intinfo = info;
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleenum exc_class {
bf21cd93STycho Nightingale	EXC_BENIGN,
bf21cd93STycho Nightingale	EXC_CONTRIBUTORY,
bf21cd93STycho Nightingale	EXC_PAGEFAULT
bf21cd93STycho Nightingale};
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale#define	IDT_VE	20	/* Virtualization Exception (Intel specific) */
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic enum exc_class
bf21cd93STycho Nightingaleexception_class(uint64_t info)
bf21cd93STycho Nightingale{
3d097f7dSPatrick Mooney	ASSERT(VM_INTINFO_PENDING(info));
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	/* Table 6-4, "Interrupt and Exception Classes", Intel SDM, Vol 3 */
3d097f7dSPatrick Mooney	switch (VM_INTINFO_TYPE(info)) {
bf21cd93STycho Nightingale	case VM_INTINFO_HWINTR:
bf21cd93STycho Nightingale	case VM_INTINFO_SWINTR:
bf21cd93STycho Nightingale	case VM_INTINFO_NMI:
bf21cd93STycho Nightingale		return (EXC_BENIGN);
bf21cd93STycho Nightingale	default:
bf21cd93STycho Nightingale		/*
bf21cd93STycho Nightingale		 * Hardware exception.
bf21cd93STycho Nightingale		 *
bf21cd93STycho Nightingale		 * SVM and VT-x use identical type values to represent NMI,
bf21cd93STycho Nightingale		 * hardware interrupt and software interrupt.
bf21cd93STycho Nightingale		 *
bf21cd93STycho Nightingale		 * SVM uses type '3' for all exceptions. VT-x uses type '3'
bf21cd93STycho Nightingale		 * for exceptions except #BP and #OF. #BP and #OF use a type
bf21cd93STycho Nightingale		 * value of '5' or '6'. Therefore we don't check for explicit
bf21cd93STycho Nightingale		 * values of 'type' to classify 'intinfo' into a hardware
bf21cd93STycho Nightingale		 * exception.
bf21cd93STycho Nightingale		 */
bf21cd93STycho Nightingale		break;
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	switch (VM_INTINFO_VECTOR(info)) {
bf21cd93STycho Nightingale	case IDT_PF:
bf21cd93STycho Nightingale	case IDT_VE:
bf21cd93STycho Nightingale		return (EXC_PAGEFAULT);
bf21cd93STycho Nightingale	case IDT_DE:
bf21cd93STycho Nightingale	case IDT_TS:
bf21cd93STycho Nightingale	case IDT_NP:
bf21cd93STycho Nightingale	case IDT_SS:
bf21cd93STycho Nightingale	case IDT_GP:
bf21cd93STycho Nightingale		return (EXC_CONTRIBUTORY);
bf21cd93STycho Nightingale	default:
bf21cd93STycho Nightingale		return (EXC_BENIGN);
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney/*
3d097f7dSPatrick Mooney * Fetch event pending injection into the guest, if one exists.
3d097f7dSPatrick Mooney *
3d097f7dSPatrick Mooney * Returns true if an event is to be injected (which is placed in `retinfo`).
3d097f7dSPatrick Mooney */
3d097f7dSPatrick Mooneybool
bf21cd93STycho Nightingalevm_entry_intinfo(struct vm *vm, int vcpuid, uint64_t *retinfo)
bf21cd93STycho Nightingale{
3d097f7dSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
3d097f7dSPatrick Mooney	const uint64_t info1 = vcpu->exit_intinfo;
3d097f7dSPatrick Mooney	vcpu->exit_intinfo = 0;
3d097f7dSPatrick Mooney	const uint64_t info2 = vcpu->exc_pending;
3d097f7dSPatrick Mooney	vcpu->exc_pending = 0;
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	if (VM_INTINFO_PENDING(info1) && VM_INTINFO_PENDING(info2)) {
3d097f7dSPatrick Mooney		/*
3d097f7dSPatrick Mooney		 * If an exception occurs while attempting to call the
3d097f7dSPatrick Mooney		 * double-fault handler the processor enters shutdown mode
3d097f7dSPatrick Mooney		 * (aka triple fault).
3d097f7dSPatrick Mooney		 */
3d097f7dSPatrick Mooney		if (VM_INTINFO_TYPE(info1) == VM_INTINFO_HWEXCP &&
3d097f7dSPatrick Mooney		    VM_INTINFO_VECTOR(info1) == IDT_DF) {
72473353SPatrick Mooney			(void) vm_suspend(vm, VM_SUSPEND_TRIPLEFAULT, vcpuid);
3d097f7dSPatrick Mooney			*retinfo = 0;
3d097f7dSPatrick Mooney			return (false);
3d097f7dSPatrick Mooney		}
3d097f7dSPatrick Mooney		/*
3d097f7dSPatrick Mooney		 * "Conditions for Generating a Double Fault"
3d097f7dSPatrick Mooney		 *  Intel SDM, Vol3, Table 6-5
3d097f7dSPatrick Mooney		 */
3d097f7dSPatrick Mooney		const enum exc_class exc1 = exception_class(info1);
3d097f7dSPatrick Mooney		const enum exc_class exc2 = exception_class(info2);
3d097f7dSPatrick Mooney		if ((exc1 == EXC_CONTRIBUTORY && exc2 == EXC_CONTRIBUTORY) ||
3d097f7dSPatrick Mooney		    (exc1 == EXC_PAGEFAULT && exc2 != EXC_BENIGN)) {
3d097f7dSPatrick Mooney			/* Convert nested fault into a double fault. */
3d097f7dSPatrick Mooney			*retinfo =
3d097f7dSPatrick Mooney			    VM_INTINFO_VALID |
3d097f7dSPatrick Mooney			    VM_INTINFO_DEL_ERRCODE |
3d097f7dSPatrick Mooney			    VM_INTINFO_HWEXCP |
3d097f7dSPatrick Mooney			    IDT_DF;
3d097f7dSPatrick Mooney		} else {
3d097f7dSPatrick Mooney			/* Handle exceptions serially */
3d097f7dSPatrick Mooney			vcpu->exit_intinfo = info1;
3d097f7dSPatrick Mooney			*retinfo = info2;
3d097f7dSPatrick Mooney		}
3d097f7dSPatrick Mooney		return (true);
3d097f7dSPatrick Mooney	} else if (VM_INTINFO_PENDING(info1)) {
bf21cd93STycho Nightingale		*retinfo = info1;
3d097f7dSPatrick Mooney		return (true);
3d097f7dSPatrick Mooney	} else if (VM_INTINFO_PENDING(info2)) {
bf21cd93STycho Nightingale		*retinfo = info2;
3d097f7dSPatrick Mooney		return (true);
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	return (false);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
4c87aefeSPatrick Mooneyvm_get_intinfo(struct vm *vm, int vcpuid, uint64_t *info1, uint64_t *info2)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
3d097f7dSPatrick Mooney	*info1 = vcpu->exit_intinfo;
3d097f7dSPatrick Mooney	*info2 = vcpu->exc_pending;
4c87aefeSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneyint
3d097f7dSPatrick Mooneyvm_inject_exception(struct vm *vm, int vcpuid, uint8_t vector,
3d097f7dSPatrick Mooney    bool errcode_valid, uint32_t errcode, bool restart_instruction)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	struct vcpu *vcpu;
4c87aefeSPatrick Mooney	uint64_t regval;
4c87aefeSPatrick Mooney	int error;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
3d097f7dSPatrick Mooney	if (vector >= 32)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
c74a40a5SPatrick Mooney	/*
3d097f7dSPatrick Mooney	 * NMIs are to be injected via their own specialized path using
3d097f7dSPatrick Mooney	 * vm_inject_nmi().
c74a40a5SPatrick Mooney	 */
3d097f7dSPatrick Mooney	if (vector == IDT_NMI) {
c74a40a5SPatrick Mooney		return (EINVAL);
c74a40a5SPatrick Mooney	}
c74a40a5SPatrick Mooney
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * A double fault exception should never be injected directly into
4c87aefeSPatrick Mooney	 * the guest. It is a derived exception that results from specific
4c87aefeSPatrick Mooney	 * combinations of nested faults.
4c87aefeSPatrick Mooney	 */
3d097f7dSPatrick Mooney	if (vector == IDT_DF) {
bf21cd93STycho Nightingale		return (EINVAL);
3d097f7dSPatrick Mooney	}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	if (VM_INTINFO_PENDING(vcpu->exc_pending)) {
3d097f7dSPatrick Mooney		/* Unable to inject exception due to one already pending */
bf21cd93STycho Nightingale		return (EBUSY);
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (errcode_valid) {
4c87aefeSPatrick Mooney		/*
4c87aefeSPatrick Mooney		 * Exceptions don't deliver an error code in real mode.
4c87aefeSPatrick Mooney		 */
4c87aefeSPatrick Mooney		error = vm_get_register(vm, vcpuid, VM_REG_GUEST_CR0, &regval);
3d097f7dSPatrick Mooney		VERIFY0(error);
3d097f7dSPatrick Mooney		if ((regval & CR0_PE) == 0) {
3d097f7dSPatrick Mooney			errcode_valid = false;
3d097f7dSPatrick Mooney		}
4c87aefeSPatrick Mooney	}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	/*
4c87aefeSPatrick Mooney	 * From section 26.6.1 "Interruptibility State" in Intel SDM:
4c87aefeSPatrick Mooney	 *
4c87aefeSPatrick Mooney	 * Event blocking by "STI" or "MOV SS" is cleared after guest executes
4c87aefeSPatrick Mooney	 * one instruction or incurs an exception.
4c87aefeSPatrick Mooney	 */
4c87aefeSPatrick Mooney	error = vm_set_register(vm, vcpuid, VM_REG_GUEST_INTR_SHADOW, 0);
3d097f7dSPatrick Mooney	VERIFY0(error);
bf21cd93STycho Nightingale
e0994bd2SPatrick Mooney	if (restart_instruction) {
e0994bd2SPatrick Mooney		VERIFY0(vm_restart_instruction(vm, vcpuid));
e0994bd2SPatrick Mooney	}
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	uint64_t val = VM_INTINFO_VALID | VM_INTINFO_HWEXCP | vector;
3d097f7dSPatrick Mooney	if (errcode_valid) {
3d097f7dSPatrick Mooney		val |= VM_INTINFO_DEL_ERRCODE;
3d097f7dSPatrick Mooney		val |= (uint64_t)errcode << VM_INTINFO_SHIFT_ERRCODE;
3d097f7dSPatrick Mooney	}
3d097f7dSPatrick Mooney	vcpu->exc_pending = val;
4c87aefeSPatrick Mooney	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
b58b977eSPatrick Mooneyvoid
b58b977eSPatrick Mooneyvm_inject_ud(struct vm *vm, int vcpuid)
b58b977eSPatrick Mooney{
3d097f7dSPatrick Mooney	VERIFY0(vm_inject_exception(vm, vcpuid, IDT_UD, false, 0, true));
b58b977eSPatrick Mooney}
b58b977eSPatrick Mooney
b58b977eSPatrick Mooneyvoid
b58b977eSPatrick Mooneyvm_inject_gp(struct vm *vm, int vcpuid)
b58b977eSPatrick Mooney{
3d097f7dSPatrick Mooney	VERIFY0(vm_inject_exception(vm, vcpuid, IDT_GP, true, 0, true));
b58b977eSPatrick Mooney}
b58b977eSPatrick Mooney
b58b977eSPatrick Mooneyvoid
3d097f7dSPatrick Mooneyvm_inject_ac(struct vm *vm, int vcpuid, uint32_t errcode)
b58b977eSPatrick Mooney{
3d097f7dSPatrick Mooney	VERIFY0(vm_inject_exception(vm, vcpuid, IDT_AC, true, errcode, true));
b58b977eSPatrick Mooney}
b58b977eSPatrick Mooney
b58b977eSPatrick Mooneyvoid
3d097f7dSPatrick Mooneyvm_inject_ss(struct vm *vm, int vcpuid, uint32_t errcode)
b58b977eSPatrick Mooney{
3d097f7dSPatrick Mooney	VERIFY0(vm_inject_exception(vm, vcpuid, IDT_SS, true, errcode, true));
b58b977eSPatrick Mooney}
b58b977eSPatrick Mooney
bf21cd93STycho Nightingalevoid
3d097f7dSPatrick Mooneyvm_inject_pf(struct vm *vm, int vcpuid, uint32_t errcode, uint64_t cr2)
bf21cd93STycho Nightingale{
3d097f7dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_CR2, cr2));
3d097f7dSPatrick Mooney	VERIFY0(vm_inject_exception(vm, vcpuid, IDT_PF, true, errcode, true));
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic VMM_STAT(VCPU_NMI_COUNT, "number of NMIs delivered to vcpu");
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_inject_nmi(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	vcpu->nmi_pending = true;
c74a40a5SPatrick Mooney	vcpu_notify_event(vm, vcpuid);
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooneybool
bf21cd93STycho Nightingalevm_nmi_pending(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
3d097f7dSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (vcpu->nmi_pending);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalevoid
bf21cd93STycho Nightingalevm_nmi_clear(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
3d097f7dSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	ASSERT(vcpu->nmi_pending);
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	vcpu->nmi_pending = false;
bf21cd93STycho Nightingale	vmm_stat_incr(vm, vcpuid, VCPU_NMI_COUNT, 1);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestatic VMM_STAT(VCPU_EXTINT_COUNT, "number of ExtINTs delivered to vcpu");
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_inject_extint(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	vcpu->extint_pending = true;
c74a40a5SPatrick Mooney	vcpu_notify_event(vm, vcpuid);
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooneybool
bf21cd93STycho Nightingalevm_extint_pending(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
3d097f7dSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (vcpu->extint_pending);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalevoid
bf21cd93STycho Nightingalevm_extint_clear(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
3d097f7dSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	ASSERT(vcpu->extint_pending);
bf21cd93STycho Nightingale
3d097f7dSPatrick Mooney	vcpu->extint_pending = false;
bf21cd93STycho Nightingale	vmm_stat_incr(vm, vcpuid, VCPU_EXTINT_COUNT, 1);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
2606939dSPatrick Mooneyint
2606939dSPatrick Mooneyvm_inject_init(struct vm *vm, int vcpuid)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct vcpu *vcpu;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
2606939dSPatrick Mooney		return (EINVAL);
2606939dSPatrick Mooney
2606939dSPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
2606939dSPatrick Mooney	vcpu_lock(vcpu);
2606939dSPatrick Mooney	vcpu->run_state |= VRS_PEND_INIT;
867228adSPatrick Mooney	/*
867228adSPatrick Mooney	 * As part of queuing the INIT request, clear any pending SIPI.  It
867228adSPatrick Mooney	 * would not otherwise survive across the reset of the vCPU when it
867228adSPatrick Mooney	 * undergoes the requested INIT.  We would not want it to linger when it
867228adSPatrick Mooney	 * could be mistaken as a subsequent (after the INIT) SIPI request.
867228adSPatrick Mooney	 */
867228adSPatrick Mooney	vcpu->run_state &= ~VRS_PEND_SIPI;
2606939dSPatrick Mooney	vcpu_notify_event_locked(vcpu, VCPU_NOTIFY_EXIT);
867228adSPatrick Mooney
2606939dSPatrick Mooney	vcpu_unlock(vcpu);
2606939dSPatrick Mooney	return (0);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
2606939dSPatrick Mooneyint
2606939dSPatrick Mooneyvm_inject_sipi(struct vm *vm, int vcpuid, uint8_t vector)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct vcpu *vcpu;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
2606939dSPatrick Mooney		return (EINVAL);
2606939dSPatrick Mooney
2606939dSPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
2606939dSPatrick Mooney	vcpu_lock(vcpu);
2606939dSPatrick Mooney	vcpu->run_state |= VRS_PEND_SIPI;
2606939dSPatrick Mooney	vcpu->sipi_vector = vector;
2606939dSPatrick Mooney	/* SIPI is only actionable if the CPU is waiting in INIT state */
2606939dSPatrick Mooney	if ((vcpu->run_state & (VRS_INIT | VRS_RUN)) == VRS_INIT) {
2606939dSPatrick Mooney		vcpu_notify_event_locked(vcpu, VCPU_NOTIFY_EXIT);
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney	vcpu_unlock(vcpu);
2606939dSPatrick Mooney	return (0);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
2606939dSPatrick Mooneybool
2606939dSPatrick Mooneyvcpu_run_state_pending(struct vm *vm, int vcpuid)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct vcpu *vcpu;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	ASSERT(vcpuid >= 0 && vcpuid < vm->maxcpus);
2606939dSPatrick Mooney	vcpu = &vm->vcpu[vcpuid];
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/* Of interest: vCPU not in running state or with pending INIT */
2606939dSPatrick Mooney	return ((vcpu->run_state & (VRS_RUN | VRS_PEND_INIT)) != VRS_RUN);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
2606939dSPatrick Mooneyint
2606939dSPatrick Mooneyvcpu_arch_reset(struct vm *vm, int vcpuid, bool init_only)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct seg_desc desc;
2606939dSPatrick Mooney	const enum vm_reg_name clear_regs[] = {
2606939dSPatrick Mooney		VM_REG_GUEST_CR2,
2606939dSPatrick Mooney		VM_REG_GUEST_CR3,
2606939dSPatrick Mooney		VM_REG_GUEST_CR4,
2606939dSPatrick Mooney		VM_REG_GUEST_RAX,
2606939dSPatrick Mooney		VM_REG_GUEST_RBX,
2606939dSPatrick Mooney		VM_REG_GUEST_RCX,
2606939dSPatrick Mooney		VM_REG_GUEST_RSI,
2606939dSPatrick Mooney		VM_REG_GUEST_RDI,
2606939dSPatrick Mooney		VM_REG_GUEST_RBP,
2606939dSPatrick Mooney		VM_REG_GUEST_RSP,
2606939dSPatrick Mooney		VM_REG_GUEST_R8,
2606939dSPatrick Mooney		VM_REG_GUEST_R9,
2606939dSPatrick Mooney		VM_REG_GUEST_R10,
2606939dSPatrick Mooney		VM_REG_GUEST_R11,
2606939dSPatrick Mooney		VM_REG_GUEST_R12,
2606939dSPatrick Mooney		VM_REG_GUEST_R13,
2606939dSPatrick Mooney		VM_REG_GUEST_R14,
2606939dSPatrick Mooney		VM_REG_GUEST_R15,
2606939dSPatrick Mooney		VM_REG_GUEST_DR0,
2606939dSPatrick Mooney		VM_REG_GUEST_DR1,
2606939dSPatrick Mooney		VM_REG_GUEST_DR2,
2606939dSPatrick Mooney		VM_REG_GUEST_DR3,
2606939dSPatrick Mooney		VM_REG_GUEST_EFER,
2606939dSPatrick Mooney	};
2606939dSPatrick Mooney	const enum vm_reg_name data_segs[] = {
2606939dSPatrick Mooney		VM_REG_GUEST_SS,
2606939dSPatrick Mooney		VM_REG_GUEST_DS,
2606939dSPatrick Mooney		VM_REG_GUEST_ES,
2606939dSPatrick Mooney		VM_REG_GUEST_FS,
2606939dSPatrick Mooney		VM_REG_GUEST_GS,
2606939dSPatrick Mooney	};
2606939dSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
2606939dSPatrick Mooney
2606939dSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
2606939dSPatrick Mooney		return (EINVAL);
2606939dSPatrick Mooney
2606939dSPatrick Mooney	for (uint_t i = 0; i < nitems(clear_regs); i++) {
2606939dSPatrick Mooney		VERIFY0(vm_set_register(vm, vcpuid, clear_regs[i], 0));
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_RFLAGS, 2));
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_RIP, 0xfff0));
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_CR0, 0x60000010));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/*
2606939dSPatrick Mooney	 * The prescribed contents of %rdx differ slightly between the Intel and
2606939dSPatrick Mooney	 * AMD architectural definitions.  The former expects the Extended Model
2606939dSPatrick Mooney	 * in bits 16-19 where the latter expects all the Family, Model, and
2606939dSPatrick Mooney	 * Stepping be there.  Common boot ROMs appear to disregard this
2606939dSPatrick Mooney	 * anyways, so we stick with a compromise value similar to what is
2606939dSPatrick Mooney	 * spelled out in the Intel SDM.
2606939dSPatrick Mooney	 */
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_RDX, 0x600));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_DR6, 0xffff0ff0));
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_DR7, 0x400));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/* CS: Present, R/W, Accessed */
2606939dSPatrick Mooney	desc.access = 0x0093;
2606939dSPatrick Mooney	desc.base = 0xffff0000;
2606939dSPatrick Mooney	desc.limit = 0xffff;
2606939dSPatrick Mooney	VERIFY0(vm_set_seg_desc(vm, vcpuid, VM_REG_GUEST_CS, &desc));
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_CS, 0xf000));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/* SS, DS, ES, FS, GS: Present, R/W, Accessed */
2606939dSPatrick Mooney	desc.access = 0x0093;
2606939dSPatrick Mooney	desc.base = 0;
2606939dSPatrick Mooney	desc.limit = 0xffff;
2606939dSPatrick Mooney	for (uint_t i = 0; i < nitems(data_segs); i++) {
2606939dSPatrick Mooney		VERIFY0(vm_set_seg_desc(vm, vcpuid, data_segs[i], &desc));
2606939dSPatrick Mooney		VERIFY0(vm_set_register(vm, vcpuid, data_segs[i], 0));
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/* GDTR, IDTR */
2606939dSPatrick Mooney	desc.base = 0;
2606939dSPatrick Mooney	desc.limit = 0xffff;
2606939dSPatrick Mooney	VERIFY0(vm_set_seg_desc(vm, vcpuid, VM_REG_GUEST_GDTR, &desc));
2606939dSPatrick Mooney	VERIFY0(vm_set_seg_desc(vm, vcpuid, VM_REG_GUEST_IDTR, &desc));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/* LDTR: Present, LDT */
2606939dSPatrick Mooney	desc.access = 0x0082;
2606939dSPatrick Mooney	desc.base = 0;
2606939dSPatrick Mooney	desc.limit = 0xffff;
2606939dSPatrick Mooney	VERIFY0(vm_set_seg_desc(vm, vcpuid, VM_REG_GUEST_LDTR, &desc));
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_LDTR, 0));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/* TR: Present, 32-bit TSS */
2606939dSPatrick Mooney	desc.access = 0x008b;
2606939dSPatrick Mooney	desc.base = 0;
2606939dSPatrick Mooney	desc.limit = 0xffff;
2606939dSPatrick Mooney	VERIFY0(vm_set_seg_desc(vm, vcpuid, VM_REG_GUEST_TR, &desc));
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_TR, 0));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	vlapic_reset(vm_lapic(vm, vcpuid));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_INTR_SHADOW, 0));
2606939dSPatrick Mooney
3d097f7dSPatrick Mooney	vcpu->exit_intinfo = 0;
3d097f7dSPatrick Mooney	vcpu->exc_pending = 0;
3d097f7dSPatrick Mooney	vcpu->nmi_pending = false;
2606939dSPatrick Mooney	vcpu->extint_pending = 0;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/*
2606939dSPatrick Mooney	 * A CPU reset caused by power-on or system reset clears more state than
2606939dSPatrick Mooney	 * one which is trigged from an INIT IPI.
2606939dSPatrick Mooney	 */
2606939dSPatrick Mooney	if (!init_only) {
2606939dSPatrick Mooney		vcpu->guest_xcr0 = XFEATURE_ENABLED_X87;
e0994bd2SPatrick Mooney		(void) hma_fpu_init(vcpu->guestfpu);
2606939dSPatrick Mooney
2606939dSPatrick Mooney		/* XXX: clear MSRs and other pieces */
d7b72f7bSAndy Fiddaman		bzero(&vcpu->mtrr, sizeof (vcpu->mtrr));
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney
2606939dSPatrick Mooney	return (0);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
2606939dSPatrick Mooneystatic int
2606939dSPatrick Mooneyvcpu_vector_sipi(struct vm *vm, int vcpuid, uint8_t vector)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct seg_desc desc;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
2606939dSPatrick Mooney		return (EINVAL);
2606939dSPatrick Mooney
2606939dSPatrick Mooney	/* CS: Present, R/W, Accessed */
2606939dSPatrick Mooney	desc.access = 0x0093;
2606939dSPatrick Mooney	desc.base = (uint64_t)vector << 12;
2606939dSPatrick Mooney	desc.limit = 0xffff;
2606939dSPatrick Mooney	VERIFY0(vm_set_seg_desc(vm, vcpuid, VM_REG_GUEST_CS, &desc));
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_CS,
2606939dSPatrick Mooney	    (uint64_t)vector << 8));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	VERIFY0(vm_set_register(vm, vcpuid, VM_REG_GUEST_RIP, 0));
2606939dSPatrick Mooney
2606939dSPatrick Mooney	return (0);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_get_capability(struct vm *vm, int vcpu, int type, int *retval)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	if (vcpu < 0 || vcpu >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (type < 0 || type >= VM_CAP_MAX)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (VMGETCAP(vm->cookie, vcpu, type, retval));
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_set_capability(struct vm *vm, int vcpu, int type, int val)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	if (vcpu < 0 || vcpu >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (type < 0 || type >= VM_CAP_MAX)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (VMSETCAP(vm->cookie, vcpu, type, val));
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
578d9a56SPatrick Mooneyvcpu_cpuid_config_t *
578d9a56SPatrick Mooneyvm_cpuid_config(struct vm *vm, int vcpuid)
578d9a56SPatrick Mooney{
578d9a56SPatrick Mooney	ASSERT3S(vcpuid, >=, 0);
578d9a56SPatrick Mooney	ASSERT3S(vcpuid, <, VM_MAXCPU);
578d9a56SPatrick Mooney
578d9a56SPatrick Mooney	return (&vm->vcpu[vcpuid].cpuid_cfg);
578d9a56SPatrick Mooney}
578d9a56SPatrick Mooney
4c87aefeSPatrick Mooneystruct vlapic *
4c87aefeSPatrick Mooneyvm_lapic(struct vm *vm, int cpu)
bf21cd93STycho Nightingale{
d515dd77SPatrick Mooney	ASSERT3S(cpu, >=, 0);
d515dd77SPatrick Mooney	ASSERT3S(cpu, <, VM_MAXCPU);
d515dd77SPatrick Mooney
4c87aefeSPatrick Mooney	return (vm->vcpu[cpu].vlapic);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestruct vioapic *
bf21cd93STycho Nightingalevm_ioapic(struct vm *vm)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingale	return (vm->vioapic);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneystruct vhpet *
4c87aefeSPatrick Mooneyvm_hpet(struct vm *vm)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	return (vm->vhpet);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalevoid *
bf21cd93STycho Nightingalevm_iommu_domain(struct vm *vm)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (vm->iommu);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevcpu_set_state(struct vm *vm, int vcpuid, enum vcpu_state newstate,
bf21cd93STycho Nightingale    bool from_idle)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	int error;
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
2606939dSPatrick Mooney		panic("vcpu_set_state: invalid vcpuid %d", vcpuid);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu_lock(vcpu);
4c87aefeSPatrick Mooney	error = vcpu_set_state_locked(vm, vcpuid, newstate, from_idle);
bf21cd93STycho Nightingale	vcpu_unlock(vcpu);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (error);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleenum vcpu_state
bf21cd93STycho Nightingalevcpu_get_state(struct vm *vm, int vcpuid, int *hostcpu)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	struct vcpu *vcpu;
bf21cd93STycho Nightingale	enum vcpu_state state;
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
2606939dSPatrick Mooney		panic("vcpu_get_state: invalid vcpuid %d", vcpuid);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vcpu_lock(vcpu);
bf21cd93STycho Nightingale	state = vcpu->state;
bf21cd93STycho Nightingale	if (hostcpu != NULL)
bf21cd93STycho Nightingale		*hostcpu = vcpu->hostcpu;
bf21cd93STycho Nightingale	vcpu_unlock(vcpu);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (state);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * Calculate the TSC offset for a vCPU, applying physical CPU adjustments if
717646f7SJordan Paige Hendricks * requested. The offset calculations include the VM-wide TSC offset.
717646f7SJordan Paige Hendricks */
4c87aefeSPatrick Mooneyuint64_t
9250eb13SPatrick Mooneyvcpu_tsc_offset(struct vm *vm, int vcpuid, bool phys_adj)
4c87aefeSPatrick Mooney{
9250eb13SPatrick Mooney	ASSERT(vcpuid >= 0 && vcpuid < vm->maxcpus);
9250eb13SPatrick Mooney
717646f7SJordan Paige Hendricks	uint64_t vcpu_off = vm->tsc_offset + vm->vcpu[vcpuid].tsc_offset;
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	if (phys_adj) {
9250eb13SPatrick Mooney		/* Include any offset for the current physical CPU too */
17b3b9a6SPatrick Mooney		vcpu_off += vmm_host_tsc_delta();
9250eb13SPatrick Mooney	}
9250eb13SPatrick Mooney
9250eb13SPatrick Mooney	return (vcpu_off);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
717646f7SJordan Paige Hendricksuint64_t
717646f7SJordan Paige Hendricksvm_get_freq_multiplier(struct vm *vm)
717646f7SJordan Paige Hendricks{
717646f7SJordan Paige Hendricks	return (vm->freq_multiplier);
717646f7SJordan Paige Hendricks}
717646f7SJordan Paige Hendricks
d515dd77SPatrick Mooney/* Normalize hrtime against the boot time for a VM */
d515dd77SPatrick Mooneyhrtime_t
d515dd77SPatrick Mooneyvm_normalize_hrtime(struct vm *vm, hrtime_t hrt)
d515dd77SPatrick Mooney{
d515dd77SPatrick Mooney	/* To avoid underflow/overflow UB, perform math as unsigned */
d515dd77SPatrick Mooney	return ((hrtime_t)((uint64_t)hrt - (uint64_t)vm->boot_hrtime));
d515dd77SPatrick Mooney}
d515dd77SPatrick Mooney
d515dd77SPatrick Mooney/* Denormalize hrtime against the boot time for a VM */
d515dd77SPatrick Mooneyhrtime_t
d515dd77SPatrick Mooneyvm_denormalize_hrtime(struct vm *vm, hrtime_t hrt)
d515dd77SPatrick Mooney{
d515dd77SPatrick Mooney	/* To avoid underflow/overflow UB, perform math as unsigned */
d515dd77SPatrick Mooney	return ((hrtime_t)((uint64_t)hrt + (uint64_t)vm->boot_hrtime));
d515dd77SPatrick Mooney}
d515dd77SPatrick Mooney
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_activate_cpu(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (CPU_ISSET(vcpuid, &vm->active_cpus))
bf21cd93STycho Nightingale		return (EBUSY);
bf21cd93STycho Nightingale
72473353SPatrick Mooney	if (vm_is_suspended(vm, NULL)) {
52fac30eSPatrick Mooney		return (EBUSY);
52fac30eSPatrick Mooney	}
52fac30eSPatrick Mooney
bf21cd93STycho Nightingale	CPU_SET_ATOMIC(vcpuid, &vm->active_cpus);
52fac30eSPatrick Mooney
52fac30eSPatrick Mooney	/*
52fac30eSPatrick Mooney	 * It is possible that this vCPU was undergoing activation at the same
72473353SPatrick Mooney	 * time that the VM was being suspended.
52fac30eSPatrick Mooney	 */
72473353SPatrick Mooney	if (vm_is_suspended(vm, NULL)) {
72473353SPatrick Mooney		return (EBUSY);
52fac30eSPatrick Mooney	}
52fac30eSPatrick Mooney
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneyint
4c87aefeSPatrick Mooneyvm_suspend_cpu(struct vm *vm, int vcpuid)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	int i;
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (vcpuid < -1 || vcpuid >= vm->maxcpus)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (vcpuid == -1) {
4c87aefeSPatrick Mooney		vm->debug_cpus = vm->active_cpus;
4c87aefeSPatrick Mooney		for (i = 0; i < vm->maxcpus; i++) {
4c87aefeSPatrick Mooney			if (CPU_ISSET(i, &vm->active_cpus))
c74a40a5SPatrick Mooney				vcpu_notify_event(vm, i);
4c87aefeSPatrick Mooney		}
4c87aefeSPatrick Mooney	} else {
4c87aefeSPatrick Mooney		if (!CPU_ISSET(vcpuid, &vm->active_cpus))
4c87aefeSPatrick Mooney			return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney		CPU_SET_ATOMIC(vcpuid, &vm->debug_cpus);
c74a40a5SPatrick Mooney		vcpu_notify_event(vm, vcpuid);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneyint
4c87aefeSPatrick Mooneyvm_resume_cpu(struct vm *vm, int vcpuid)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (vcpuid < -1 || vcpuid >= vm->maxcpus)
4c87aefeSPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	if (vcpuid == -1) {
4c87aefeSPatrick Mooney		CPU_ZERO(&vm->debug_cpus);
4c87aefeSPatrick Mooney	} else {
4c87aefeSPatrick Mooney		if (!CPU_ISSET(vcpuid, &vm->debug_cpus))
4c87aefeSPatrick Mooney			return (EINVAL);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney		CPU_CLR_ATOMIC(vcpuid, &vm->debug_cpus);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney	return (0);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
2606939dSPatrick Mooneystatic bool
72473353SPatrick Mooneyvcpu_bailout_checks(struct vm *vm, int vcpuid)
2606939dSPatrick Mooney{
2606939dSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
2606939dSPatrick Mooney	struct vm_exit *vme = &vcpu->exitinfo;
2606939dSPatrick Mooney
2606939dSPatrick Mooney	ASSERT(vcpuid >= 0 && vcpuid < vm->maxcpus);
2606939dSPatrick Mooney
72473353SPatrick Mooney	/*
72473353SPatrick Mooney	 * Check if VM is suspended, only passing the 'vm_exit *' to be
72473353SPatrick Mooney	 * populated if this check is being performed as part of entry.
72473353SPatrick Mooney	 */
72473353SPatrick Mooney	if (vm_is_suspended(vm, vme)) {
72473353SPatrick Mooney		/* Confirm exit details are as expected */
72473353SPatrick Mooney		VERIFY3S(vme->exitcode, ==, VM_EXITCODE_SUSPENDED);
72473353SPatrick Mooney		VERIFY(vme->u.suspended.how > VM_SUSPEND_NONE &&
72473353SPatrick Mooney		    vme->u.suspended.how < VM_SUSPEND_LAST);
2606939dSPatrick Mooney
72473353SPatrick Mooney		return (true);
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney	if (vcpu->reqidle) {
72473353SPatrick Mooney		/*
72473353SPatrick Mooney		 * Another thread is trying to lock this vCPU and is waiting for
72473353SPatrick Mooney		 * it to enter the VCPU_IDLE state.  Take a lap with a BOGUS
72473353SPatrick Mooney		 * exit to allow other thread(s) access to this vCPU.
72473353SPatrick Mooney		 */
72473353SPatrick Mooney		vme->exitcode = VM_EXITCODE_BOGUS;
2606939dSPatrick Mooney		vmm_stat_incr(vm, vcpuid, VMEXIT_REQIDLE, 1);
72473353SPatrick Mooney		return (true);
72473353SPatrick Mooney	}
72473353SPatrick Mooney	if (vcpu->reqbarrier) {
72473353SPatrick Mooney		/*
72473353SPatrick Mooney		 * Similar to 'reqidle', userspace has requested that this vCPU
72473353SPatrick Mooney		 * be pushed to a barrier by exiting to userspace.  Take that
72473353SPatrick Mooney		 * lap with BOGUS and clear the flag.
72473353SPatrick Mooney		 */
72473353SPatrick Mooney		vme->exitcode = VM_EXITCODE_BOGUS;
72473353SPatrick Mooney		vcpu->reqbarrier = false;
72473353SPatrick Mooney		return (true);
2606939dSPatrick Mooney	}
23d9a8faSPatrick Mooney	if (vcpu->reqconsist) {
23d9a8faSPatrick Mooney		/*
23d9a8faSPatrick Mooney		 * We only expect exit-when-consistent requests to be asserted
23d9a8faSPatrick Mooney		 * during entry, not as an otherwise spontaneous condition.  As
23d9a8faSPatrick Mooney		 * such, we do not count it among the exit statistics, and emit
23d9a8faSPatrick Mooney		 * the expected BOGUS exitcode, while clearing the request.
23d9a8faSPatrick Mooney		 */
23d9a8faSPatrick Mooney		vme->exitcode = VM_EXITCODE_BOGUS;
23d9a8faSPatrick Mooney		vcpu->reqconsist = false;
72473353SPatrick Mooney		return (true);
23d9a8faSPatrick Mooney	}
2606939dSPatrick Mooney	if (vcpu_should_yield(vm, vcpuid)) {
2606939dSPatrick Mooney		vme->exitcode = VM_EXITCODE_BOGUS;
2606939dSPatrick Mooney		vmm_stat_incr(vm, vcpuid, VMEXIT_ASTPENDING, 1);
72473353SPatrick Mooney		return (true);
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney	if (CPU_ISSET(vcpuid, &vm->debug_cpus)) {
2606939dSPatrick Mooney		vme->exitcode = VM_EXITCODE_DEBUG;
72473353SPatrick Mooney		return (true);
2606939dSPatrick Mooney	}
2606939dSPatrick Mooney
72473353SPatrick Mooney	return (false);
2606939dSPatrick Mooney}
2606939dSPatrick Mooney
2606939dSPatrick Mooneystatic bool
2606939dSPatrick Mooneyvcpu_sleep_bailout_checks(struct vm *vm, int vcpuid)
4c87aefeSPatrick Mooney{
72473353SPatrick Mooney	if (vcpu_bailout_checks(vm, vcpuid)) {
72473353SPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[vcpuid];
72473353SPatrick Mooney		struct vm_exit *vme = &vcpu->exitinfo;
72473353SPatrick Mooney
72473353SPatrick Mooney		/*
72473353SPatrick Mooney		 * Bail-out check done prior to sleeping (in vCPU contexts like
72473353SPatrick Mooney		 * HLT or wait-for-SIPI) expect that %rip is already populated
72473353SPatrick Mooney		 * in the vm_exit structure, and we would only modify the
72473353SPatrick Mooney		 * exitcode and clear the inst_length.
72473353SPatrick Mooney		 */
72473353SPatrick Mooney		vme->inst_length = 0;
72473353SPatrick Mooney		return (true);
72473353SPatrick Mooney	}
72473353SPatrick Mooney	return (false);
2606939dSPatrick Mooney}
4c87aefeSPatrick Mooney
2606939dSPatrick Mooneybool
2606939dSPatrick Mooneyvcpu_entry_bailout_checks(struct vm *vm, int vcpuid, uint64_t rip)
2606939dSPatrick Mooney{
72473353SPatrick Mooney	if (vcpu_bailout_checks(vm, vcpuid)) {
72473353SPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[vcpuid];
72473353SPatrick Mooney		struct vm_exit *vme = &vcpu->exitinfo;
72473353SPatrick Mooney
72473353SPatrick Mooney		/*
72473353SPatrick Mooney		 * Bail-out checks done as part of VM entry require an updated
72473353SPatrick Mooney		 * %rip to populate the vm_exit struct if any of the conditions
72473353SPatrick Mooney		 * of interest are matched in the check.
72473353SPatrick Mooney		 */
72473353SPatrick Mooney		vme->rip = rip;
72473353SPatrick Mooney		vme->inst_length = 0;
72473353SPatrick Mooney		return (true);
72473353SPatrick Mooney	}
72473353SPatrick Mooney	return (false);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
72473353SPatrick Mooneyint
72473353SPatrick Mooneyvm_vcpu_barrier(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
72473353SPatrick Mooney	if (vcpuid >= 0 && vcpuid < vm->maxcpus) {
72473353SPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[vcpuid];
bf21cd93STycho Nightingale
72473353SPatrick Mooney		/* Push specified vCPU to barrier */
72473353SPatrick Mooney		vcpu_lock(vcpu);
72473353SPatrick Mooney		if (CPU_ISSET(vcpuid, &vm->active_cpus)) {
72473353SPatrick Mooney			vcpu->reqbarrier = true;
72473353SPatrick Mooney			vcpu_notify_event_locked(vcpu, VCPU_NOTIFY_EXIT);
72473353SPatrick Mooney		}
72473353SPatrick Mooney		vcpu_unlock(vcpu);
72473353SPatrick Mooney
72473353SPatrick Mooney		return (0);
72473353SPatrick Mooney	} else if (vcpuid == -1) {
72473353SPatrick Mooney		/* Push all (active) vCPUs to barrier */
72473353SPatrick Mooney		for (int i = 0; i < vm->maxcpus; i++) {
72473353SPatrick Mooney			struct vcpu *vcpu = &vm->vcpu[i];
72473353SPatrick Mooney
72473353SPatrick Mooney			vcpu_lock(vcpu);
72473353SPatrick Mooney			if (CPU_ISSET(vcpuid, &vm->active_cpus)) {
72473353SPatrick Mooney				vcpu->reqbarrier = true;
72473353SPatrick Mooney				vcpu_notify_event_locked(vcpu,
72473353SPatrick Mooney				    VCPU_NOTIFY_EXIT);
72473353SPatrick Mooney			}
72473353SPatrick Mooney			vcpu_unlock(vcpu);
72473353SPatrick Mooney		}
72473353SPatrick Mooney
72473353SPatrick Mooney		return (0);
72473353SPatrick Mooney	} else {
72473353SPatrick Mooney		return (EINVAL);
72473353SPatrick Mooney	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneycpuset_t
72473353SPatrick Mooneyvm_active_cpus(struct vm *vm)
4c87aefeSPatrick Mooney{
72473353SPatrick Mooney	return (vm->active_cpus);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneycpuset_t
72473353SPatrick Mooneyvm_debug_cpus(struct vm *vm)
4c87aefeSPatrick Mooney{
72473353SPatrick Mooney	return (vm->debug_cpus);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingalevoid *
bf21cd93STycho Nightingalevcpu_stats(struct vm *vm, int vcpuid)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (vm->vcpu[vcpuid].stats);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_get_x2apic_state(struct vm *vm, int vcpuid, enum x2apic_state *state)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	*state = vm->vcpu[vcpuid].x2apic_state;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_set_x2apic_state(struct vm *vm, int vcpuid, enum x2apic_state state)
bf21cd93STycho Nightingale{
4c87aefeSPatrick Mooney	if (vcpuid < 0 || vcpuid >= vm->maxcpus)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (state >= X2APIC_STATE_LAST)
bf21cd93STycho Nightingale		return (EINVAL);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vm->vcpu[vcpuid].x2apic_state = state;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	vlapic_set_x2apic_state(vm, vcpuid, state);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	return (0);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale/*
bf21cd93STycho Nightingale * This function is called to ensure that a vcpu "sees" a pending event
bf21cd93STycho Nightingale * as soon as possible:
bf21cd93STycho Nightingale * - If the vcpu thread is sleeping then it is woken up.
bf21cd93STycho Nightingale * - If the vcpu is running on a different host_cpu then an IPI will be directed
bf21cd93STycho Nightingale *   to the host_cpu to cause the vcpu to trap into the hypervisor.
bf21cd93STycho Nightingale */
4c87aefeSPatrick Mooneystatic void
c74a40a5SPatrick Mooneyvcpu_notify_event_locked(struct vcpu *vcpu, vcpu_notify_t ntype)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	int hostcpu;
bf21cd93STycho Nightingale
c74a40a5SPatrick Mooney	ASSERT(ntype == VCPU_NOTIFY_APIC || VCPU_NOTIFY_EXIT);
c74a40a5SPatrick Mooney
bf21cd93STycho Nightingale	hostcpu = vcpu->hostcpu;
bf21cd93STycho Nightingale	if (vcpu->state == VCPU_RUNNING) {
bf21cd93STycho Nightingale		KASSERT(hostcpu != NOCPU, ("vcpu running on invalid hostcpu"));
bf21cd93STycho Nightingale		if (hostcpu != curcpu) {
c74a40a5SPatrick Mooney			if (ntype == VCPU_NOTIFY_APIC) {
0153d828SPatrick Mooney				vlapic_post_intr(vcpu->vlapic, hostcpu);
bf21cd93STycho Nightingale			} else {
0153d828SPatrick Mooney				poke_cpu(hostcpu);
bf21cd93STycho Nightingale			}
bf21cd93STycho Nightingale		} else {
bf21cd93STycho Nightingale			/*
bf21cd93STycho Nightingale			 * If the 'vcpu' is running on 'curcpu' then it must
bf21cd93STycho Nightingale			 * be sending a notification to itself (e.g. SELF_IPI).
bf21cd93STycho Nightingale			 * The pending event will be picked up when the vcpu
bf21cd93STycho Nightingale			 * transitions back to guest context.
bf21cd93STycho Nightingale			 */
bf21cd93STycho Nightingale		}
bf21cd93STycho Nightingale	} else {
bf21cd93STycho Nightingale		KASSERT(hostcpu == NOCPU, ("vcpu state %d not consistent "
bf21cd93STycho Nightingale		    "with hostcpu %d", vcpu->state, hostcpu));
4c87aefeSPatrick Mooney		if (vcpu->state == VCPU_SLEEPING) {
4c87aefeSPatrick Mooney			cv_signal(&vcpu->vcpu_cv);
4c87aefeSPatrick Mooney		}
bf21cd93STycho Nightingale	}
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneyvoid
c74a40a5SPatrick Mooneyvcpu_notify_event(struct vm *vm, int vcpuid)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	vcpu_lock(vcpu);
c74a40a5SPatrick Mooney	vcpu_notify_event_locked(vcpu, VCPU_NOTIFY_EXIT);
c74a40a5SPatrick Mooney	vcpu_unlock(vcpu);
c74a40a5SPatrick Mooney}
c74a40a5SPatrick Mooney
c74a40a5SPatrick Mooneyvoid
c74a40a5SPatrick Mooneyvcpu_notify_event_type(struct vm *vm, int vcpuid, vcpu_notify_t ntype)
c74a40a5SPatrick Mooney{
c74a40a5SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
c74a40a5SPatrick Mooney
c74a40a5SPatrick Mooney	if (ntype == VCPU_NOTIFY_NONE) {
c74a40a5SPatrick Mooney		return;
c74a40a5SPatrick Mooney	}
c74a40a5SPatrick Mooney
c74a40a5SPatrick Mooney	vcpu_lock(vcpu);
c74a40a5SPatrick Mooney	vcpu_notify_event_locked(vcpu, ntype);
bf21cd93STycho Nightingale	vcpu_unlock(vcpu);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
59460b49SPatrick Mooneyvoid
59460b49SPatrick Mooneyvcpu_ustate_change(struct vm *vm, int vcpuid, enum vcpu_ustate ustate)
59460b49SPatrick Mooney{
59460b49SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
72473353SPatrick Mooney	const hrtime_t now = gethrtime();
59460b49SPatrick Mooney
59460b49SPatrick Mooney	ASSERT3S(ustate, <, VU_MAX);
59460b49SPatrick Mooney	ASSERT3S(ustate, >=, VU_INIT);
59460b49SPatrick Mooney
72473353SPatrick Mooney	if (ustate == vcpu->ustate) {
72473353SPatrick Mooney		return;
72473353SPatrick Mooney	}
72473353SPatrick Mooney
72473353SPatrick Mooney	const hrtime_t delta = now - vcpu->ustate_when;
59460b49SPatrick Mooney	vcpu->ustate_total[vcpu->ustate] += delta;
59460b49SPatrick Mooney
59460b49SPatrick Mooney	membar_producer();
59460b49SPatrick Mooney
59460b49SPatrick Mooney	vcpu->ustate_when = now;
59460b49SPatrick Mooney	vcpu->ustate = ustate;
59460b49SPatrick Mooney}
59460b49SPatrick Mooney
4c87aefeSPatrick Mooneystruct vmspace *
4c87aefeSPatrick Mooneyvm_get_vmspace(struct vm *vm)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	return (vm->vmspace);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
0153d828SPatrick Mooneystruct vm_client *
0153d828SPatrick Mooneyvm_get_vmclient(struct vm *vm, int vcpuid)
0153d828SPatrick Mooney{
0153d828SPatrick Mooney	return (vm->vcpu[vcpuid].vmclient);
0153d828SPatrick Mooney}
0153d828SPatrick Mooney
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_apicid2vcpuid(struct vm *vm, int apicid)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	/*
bf21cd93STycho Nightingale	 * XXX apic id is assumed to be numerically identical to vcpu id
bf21cd93STycho Nightingale	 */
bf21cd93STycho Nightingale	return (apicid);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestruct vatpic *
bf21cd93STycho Nightingalevm_atpic(struct vm *vm)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	return (vm->vatpic);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalestruct vatpit *
bf21cd93STycho Nightingalevm_atpit(struct vm *vm)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	return (vm->vatpit);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
4c87aefeSPatrick Mooneystruct vpmtmr *
4c87aefeSPatrick Mooneyvm_pmtmr(struct vm *vm)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	return (vm->vpmtmr);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystruct vrtc *
4c87aefeSPatrick Mooneyvm_rtc(struct vm *vm)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney	return (vm->vrtc);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
bf21cd93STycho Nightingaleenum vm_reg_name
bf21cd93STycho Nightingalevm_segment_name(int seg)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	static enum vm_reg_name seg_names[] = {
bf21cd93STycho Nightingale		VM_REG_GUEST_ES,
bf21cd93STycho Nightingale		VM_REG_GUEST_CS,
bf21cd93STycho Nightingale		VM_REG_GUEST_SS,
bf21cd93STycho Nightingale		VM_REG_GUEST_DS,
bf21cd93STycho Nightingale		VM_REG_GUEST_FS,
bf21cd93STycho Nightingale		VM_REG_GUEST_GS
bf21cd93STycho Nightingale	};
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	KASSERT(seg >= 0 && seg < nitems(seg_names),
bf21cd93STycho Nightingale	    ("%s: invalid segment encoding %d", __func__, seg));
bf21cd93STycho Nightingale	return (seg_names[seg]);
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalevoid
bf21cd93STycho Nightingalevm_copy_teardown(struct vm *vm, int vcpuid, struct vm_copyinfo *copyinfo,
0153d828SPatrick Mooney    uint_t num_copyinfo)
bf21cd93STycho Nightingale{
0153d828SPatrick Mooney	for (uint_t idx = 0; idx < num_copyinfo; idx++) {
0153d828SPatrick Mooney		if (copyinfo[idx].cookie != NULL) {
e0994bd2SPatrick Mooney			(void) vmp_release((vm_page_t *)copyinfo[idx].cookie);
0153d828SPatrick Mooney		}
bf21cd93STycho Nightingale	}
2699b94cSPatrick Mooney	bzero(copyinfo, num_copyinfo * sizeof (struct vm_copyinfo));
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingaleint
bf21cd93STycho Nightingalevm_copy_setup(struct vm *vm, int vcpuid, struct vm_guest_paging *paging,
bf21cd93STycho Nightingale    uint64_t gla, size_t len, int prot, struct vm_copyinfo *copyinfo,
0153d828SPatrick Mooney    uint_t num_copyinfo, int *fault)
bf21cd93STycho Nightingale{
0153d828SPatrick Mooney	uint_t idx, nused;
bf21cd93STycho Nightingale	size_t n, off, remaining;
0153d828SPatrick Mooney	vm_client_t *vmc = vm_get_vmclient(vm, vcpuid);
bf21cd93STycho Nightingale
2699b94cSPatrick Mooney	bzero(copyinfo, sizeof (struct vm_copyinfo) * num_copyinfo);
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	nused = 0;
bf21cd93STycho Nightingale	remaining = len;
bf21cd93STycho Nightingale	while (remaining > 0) {
0153d828SPatrick Mooney		uint64_t gpa;
0153d828SPatrick Mooney		int error;
0153d828SPatrick Mooney
bf21cd93STycho Nightingale		KASSERT(nused < num_copyinfo, ("insufficient vm_copyinfo"));
4c87aefeSPatrick Mooney		error = vm_gla2gpa(vm, vcpuid, paging, gla, prot, &gpa, fault);
4c87aefeSPatrick Mooney		if (error || *fault)
bf21cd93STycho Nightingale			return (error);
0153d828SPatrick Mooney		off = gpa & PAGEOFFSET;
0153d828SPatrick Mooney		n = min(remaining, PAGESIZE - off);
bf21cd93STycho Nightingale		copyinfo[nused].gpa = gpa;
bf21cd93STycho Nightingale		copyinfo[nused].len = n;
bf21cd93STycho Nightingale		remaining -= n;
bf21cd93STycho Nightingale		gla += n;
bf21cd93STycho Nightingale		nused++;
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	for (idx = 0; idx < nused; idx++) {
0153d828SPatrick Mooney		vm_page_t *vmp;
0153d828SPatrick Mooney		caddr_t hva;
0153d828SPatrick Mooney
0153d828SPatrick Mooney		vmp = vmc_hold(vmc, copyinfo[idx].gpa & PAGEMASK, prot);
0153d828SPatrick Mooney		if (vmp == NULL) {
bf21cd93STycho Nightingale			break;
0153d828SPatrick Mooney		}
0153d828SPatrick Mooney		if ((prot & PROT_WRITE) != 0) {
0153d828SPatrick Mooney			hva = (caddr_t)vmp_get_writable(vmp);
0153d828SPatrick Mooney		} else {
0153d828SPatrick Mooney			hva = (caddr_t)vmp_get_readable(vmp);
0153d828SPatrick Mooney		}
0153d828SPatrick Mooney		copyinfo[idx].hva = hva + (copyinfo[idx].gpa & PAGEOFFSET);
0153d828SPatrick Mooney		copyinfo[idx].cookie = vmp;
0153d828SPatrick Mooney		copyinfo[idx].prot = prot;
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	if (idx != nused) {
bf21cd93STycho Nightingale		vm_copy_teardown(vm, vcpuid, copyinfo, num_copyinfo);
4c87aefeSPatrick Mooney		return (EFAULT);
bf21cd93STycho Nightingale	} else {
4c87aefeSPatrick Mooney		*fault = 0;
bf21cd93STycho Nightingale		return (0);
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalevoid
bf21cd93STycho Nightingalevm_copyin(struct vm *vm, int vcpuid, struct vm_copyinfo *copyinfo, void *kaddr,
bf21cd93STycho Nightingale    size_t len)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	char *dst;
bf21cd93STycho Nightingale	int idx;
84971882SPatrick Mooney
bf21cd93STycho Nightingale	dst = kaddr;
bf21cd93STycho Nightingale	idx = 0;
bf21cd93STycho Nightingale	while (len > 0) {
0153d828SPatrick Mooney		ASSERT(copyinfo[idx].prot & PROT_READ);
0153d828SPatrick Mooney
bf21cd93STycho Nightingale		bcopy(copyinfo[idx].hva, dst, copyinfo[idx].len);
bf21cd93STycho Nightingale		len -= copyinfo[idx].len;
bf21cd93STycho Nightingale		dst += copyinfo[idx].len;
bf21cd93STycho Nightingale		idx++;
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale}
bf21cd93STycho Nightingale
bf21cd93STycho Nightingalevoid
bf21cd93STycho Nightingalevm_copyout(struct vm *vm, int vcpuid, const void *kaddr,
bf21cd93STycho Nightingale    struct vm_copyinfo *copyinfo, size_t len)
bf21cd93STycho Nightingale{
bf21cd93STycho Nightingale	const char *src;
bf21cd93STycho Nightingale	int idx;
bf21cd93STycho Nightingale
bf21cd93STycho Nightingale	src = kaddr;
bf21cd93STycho Nightingale	idx = 0;
bf21cd93STycho Nightingale	while (len > 0) {
0153d828SPatrick Mooney		ASSERT(copyinfo[idx].prot & PROT_WRITE);
0153d828SPatrick Mooney
bf21cd93STycho Nightingale		bcopy(src, copyinfo[idx].hva, copyinfo[idx].len);
bf21cd93STycho Nightingale		len -= copyinfo[idx].len;
bf21cd93STycho Nightingale		src += copyinfo[idx].len;
bf21cd93STycho Nightingale		idx++;
bf21cd93STycho Nightingale	}
bf21cd93STycho Nightingale}
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooney/*
4c87aefeSPatrick Mooney * Return the amount of in-use and wired memory for the VM. Since
4c87aefeSPatrick Mooney * these are global stats, only return the values with for vCPU 0
4c87aefeSPatrick Mooney */
4c87aefeSPatrick MooneyVMM_STAT_DECLARE(VMM_MEM_RESIDENT);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneystatic void
4c87aefeSPatrick Mooneyvm_get_rescnt(struct vm *vm, int vcpu, struct vmm_stat_type *stat)
4c87aefeSPatrick Mooney{
4c87aefeSPatrick Mooney	if (vcpu == 0) {
4c87aefeSPatrick Mooney		vmm_stat_set(vm, vcpu, VMM_MEM_RESIDENT,
84971882SPatrick Mooney		    PAGE_SIZE * vmspace_resident_count(vm->vmspace));
84971882SPatrick Mooney	}
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
4c87aefeSPatrick MooneyVMM_STAT_FUNC(VMM_MEM_RESIDENT, "Resident memory", vm_get_rescnt);
4c87aefeSPatrick Mooney
4c87aefeSPatrick Mooneyint
0e1453c3SPatrick Mooneyvm_ioport_access(struct vm *vm, int vcpuid, bool in, uint16_t port,
0e1453c3SPatrick Mooney    uint8_t bytes, uint32_t *val)
4c87aefeSPatrick Mooney{
0e1453c3SPatrick Mooney	return (vm_inout_access(&vm->ioports, in, port, bytes, val));
0e1453c3SPatrick Mooney}
4c87aefeSPatrick Mooney
0e1453c3SPatrick Mooney/*
0e1453c3SPatrick Mooney * bhyve-internal interfaces to attach or detach IO port handlers.
0e1453c3SPatrick Mooney * Must be called with VM write lock held for safety.
0e1453c3SPatrick Mooney */
0e1453c3SPatrick Mooneyint
0e1453c3SPatrick Mooneyvm_ioport_attach(struct vm *vm, uint16_t port, ioport_handler_t func, void *arg,
0e1453c3SPatrick Mooney    void **cookie)
0e1453c3SPatrick Mooney{
0e1453c3SPatrick Mooney	int err;
0e1453c3SPatrick Mooney	err = vm_inout_attach(&vm->ioports, port, IOPF_DEFAULT, func, arg);
0e1453c3SPatrick Mooney	if (err == 0) {
0e1453c3SPatrick Mooney		*cookie = (void *)IOP_GEN_COOKIE(func, arg, port);
4c87aefeSPatrick Mooney	}
0e1453c3SPatrick Mooney	return (err);
4c87aefeSPatrick Mooney}
0e1453c3SPatrick Mooneyint
0e1453c3SPatrick Mooneyvm_ioport_detach(struct vm *vm, void **cookie, ioport_handler_t *old_func,
0e1453c3SPatrick Mooney    void **old_arg)
4c87aefeSPatrick Mooney{
0e1453c3SPatrick Mooney	uint16_t port = IOP_PORT_FROM_COOKIE((uintptr_t)*cookie);
0e1453c3SPatrick Mooney	int err;
4c87aefeSPatrick Mooney
0e1453c3SPatrick Mooney	err = vm_inout_detach(&vm->ioports, port, false, old_func, old_arg);
0e1453c3SPatrick Mooney	if (err == 0) {
0e1453c3SPatrick Mooney		*cookie = NULL;
0e1453c3SPatrick Mooney	}
0e1453c3SPatrick Mooney	return (err);
4c87aefeSPatrick Mooney}
4c87aefeSPatrick Mooney
0e1453c3SPatrick Mooney/*
0e1453c3SPatrick Mooney * External driver interfaces to attach or detach IO port handlers.
0e1453c3SPatrick Mooney * Must be called with VM write lock held for safety.
0e1453c3SPatrick Mooney */
4c87aefeSPatrick Mooneyint
0e1453c3SPatrick Mooneyvm_ioport_hook(struct vm *vm, uint16_t port, ioport_handler_t func,
0e1453c3SPatrick Mooney    void *arg, void **cookie)
4c87aefeSPatrick Mooney{
0e1453c3SPatrick Mooney	int err;
4c87aefeSPatrick Mooney
0e1453c3SPatrick Mooney	if (port == 0) {
0e1453c3SPatrick Mooney		return (EINVAL);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney
0e1453c3SPatrick Mooney	err = vm_inout_attach(&vm->ioports, port, IOPF_DRV_HOOK, func, arg);
0e1453c3SPatrick Mooney	if (err == 0) {
0e1453c3SPatrick Mooney		*cookie = (void *)IOP_GEN_COOKIE(func, arg, port);
4c87aefeSPatrick Mooney	}
4c87aefeSPatrick Mooney	return (err);
4c87aefeSPatrick Mooney}
0e1453c3SPatrick Mooneyvoid
0e1453c3SPatrick Mooneyvm_ioport_unhook(struct vm *vm, void **cookie)
0e1453c3SPatrick Mooney{
0e1453c3SPatrick Mooney	uint16_t port = IOP_PORT_FROM_COOKIE((uintptr_t)*cookie);
0e1453c3SPatrick Mooney	ioport_handler_t old_func;
0e1453c3SPatrick Mooney	void *old_arg;
0e1453c3SPatrick Mooney	int err;
4c87aefeSPatrick Mooney
0e1453c3SPatrick Mooney	err = vm_inout_detach(&vm->ioports, port, true, &old_func, &old_arg);
4c87aefeSPatrick Mooney
0e1453c3SPatrick Mooney	/* ioport-hook-using drivers are expected to be well-behaved */
0e1453c3SPatrick Mooney	VERIFY0(err);
0e1453c3SPatrick Mooney	VERIFY(IOP_GEN_COOKIE(old_func, old_arg, port) == (uintptr_t)*cookie);
0e1453c3SPatrick Mooney
0e1453c3SPatrick Mooney	*cookie = NULL;
0e1453c3SPatrick Mooney}
59460b49SPatrick Mooney
59460b49SPatrick Mooneyint
59460b49SPatrick Mooneyvmm_kstat_update_vcpu(struct kstat *ksp, int rw)
59460b49SPatrick Mooney{
59460b49SPatrick Mooney	struct vm *vm = ksp->ks_private;
59460b49SPatrick Mooney	vmm_vcpu_kstats_t *vvk = ksp->ks_data;
59460b49SPatrick Mooney	const int vcpuid = vvk->vvk_vcpu.value.ui32;
59460b49SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
59460b49SPatrick Mooney
59460b49SPatrick Mooney	ASSERT3U(vcpuid, <, VM_MAXCPU);
59460b49SPatrick Mooney
59460b49SPatrick Mooney	vvk->vvk_time_init.value.ui64 = vcpu->ustate_total[VU_INIT];
59460b49SPatrick Mooney	vvk->vvk_time_run.value.ui64 = vcpu->ustate_total[VU_RUN];
59460b49SPatrick Mooney	vvk->vvk_time_idle.value.ui64 = vcpu->ustate_total[VU_IDLE];
59460b49SPatrick Mooney	vvk->vvk_time_emu_kern.value.ui64 = vcpu->ustate_total[VU_EMU_KERN];
59460b49SPatrick Mooney	vvk->vvk_time_emu_user.value.ui64 = vcpu->ustate_total[VU_EMU_USER];
59460b49SPatrick Mooney	vvk->vvk_time_sched.value.ui64 = vcpu->ustate_total[VU_SCHED];
59460b49SPatrick Mooney
59460b49SPatrick Mooney	return (0);
59460b49SPatrick Mooney}
d515dd77SPatrick Mooney
d515dd77SPatrick MooneySET_DECLARE(vmm_data_version_entries, const vmm_data_version_entry_t);
d515dd77SPatrick Mooney
54cf5b63SPatrick Mooneystatic int
*4bd36be4SPatrick Mooneyvmm_data_find(const vmm_data_req_t *req, const vmm_data_version_entry_t **resp)
d515dd77SPatrick Mooney{
d515dd77SPatrick Mooney	const vmm_data_version_entry_t **vdpp, *vdp;
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	ASSERT(resp != NULL);
54cf5b63SPatrick Mooney	ASSERT(req->vdr_result_len != NULL);
54cf5b63SPatrick Mooney
d515dd77SPatrick Mooney	SET_FOREACH(vdpp, vmm_data_version_entries) {
d515dd77SPatrick Mooney		vdp = *vdpp;
2c83e262SPatrick Mooney		if (vdp->vdve_class != req->vdr_class ||
2c83e262SPatrick Mooney		    vdp->vdve_version != req->vdr_version) {
2c83e262SPatrick Mooney			continue;
2c83e262SPatrick Mooney		}
2c83e262SPatrick Mooney
2c83e262SPatrick Mooney		/*
2c83e262SPatrick Mooney		 * Enforce any data length expectation expressed by the provider
2c83e262SPatrick Mooney		 * for this data.
2c83e262SPatrick Mooney		 */
2c83e262SPatrick Mooney		if (vdp->vdve_len_expect != 0 &&
2c83e262SPatrick Mooney		    vdp->vdve_len_expect > req->vdr_len) {
2c83e262SPatrick Mooney			*req->vdr_result_len = vdp->vdve_len_expect;
2c83e262SPatrick Mooney			return (ENOSPC);
2c83e262SPatrick Mooney		}
2c83e262SPatrick Mooney
2c83e262SPatrick Mooney		/*
2c83e262SPatrick Mooney		 * Make sure that the provided vcpuid is acceptable for the
2c83e262SPatrick Mooney		 * backend handler.
2c83e262SPatrick Mooney		 */
2c83e262SPatrick Mooney		if (vdp->vdve_readf != NULL || vdp->vdve_writef != NULL) {
d515dd77SPatrick Mooney			/*
2c83e262SPatrick Mooney			 * While it is tempting to demand the -1 sentinel value
2c83e262SPatrick Mooney			 * in vcpuid here, that expectation was not established
2c83e262SPatrick Mooney			 * for early consumers, so it is ignored.
d515dd77SPatrick Mooney			 */
2c83e262SPatrick Mooney		} else if (vdp->vdve_vcpu_readf != NULL ||
2c83e262SPatrick Mooney		    vdp->vdve_vcpu_writef != NULL) {
2c83e262SPatrick Mooney			/*
2c83e262SPatrick Mooney			 * Per-vCPU handlers which permit "wildcard" access will
2c83e262SPatrick Mooney			 * accept a vcpuid of -1 (for VM-wide data), while all
2c83e262SPatrick Mooney			 * others expect vcpuid [0, VM_MAXCPU).
2c83e262SPatrick Mooney			 */
2c83e262SPatrick Mooney			const int llimit = vdp->vdve_vcpu_wildcard ? -1 : 0;
*4bd36be4SPatrick Mooney			if (req->vdr_vcpuid < llimit ||
*4bd36be4SPatrick Mooney			    req->vdr_vcpuid >= VM_MAXCPU) {
2c83e262SPatrick Mooney				return (EINVAL);
d515dd77SPatrick Mooney			}
2c83e262SPatrick Mooney		} else {
2c83e262SPatrick Mooney			/*
2c83e262SPatrick Mooney			 * A provider with neither VM-wide nor per-vCPU handlers
2c83e262SPatrick Mooney			 * is completely unexpected.  Such a situation should be
2c83e262SPatrick Mooney			 * made into a compile-time error.  Bail out for now,
2c83e262SPatrick Mooney			 * rather than punishing the user with a panic.
2c83e262SPatrick Mooney			 */
2c83e262SPatrick Mooney			return (EINVAL);
d515dd77SPatrick Mooney		}
2c83e262SPatrick Mooney
2c83e262SPatrick Mooney
2c83e262SPatrick Mooney		*resp = vdp;
2c83e262SPatrick Mooney		return (0);
d515dd77SPatrick Mooney	}
54cf5b63SPatrick Mooney	return (EINVAL);
d515dd77SPatrick Mooney}
d515dd77SPatrick Mooney
d515dd77SPatrick Mooneystatic void *
2c83e262SPatrick Mooneyvmm_data_from_class(const vmm_data_req_t *req, struct vm *vm)
d515dd77SPatrick Mooney{
d515dd77SPatrick Mooney	switch (req->vdr_class) {
d515dd77SPatrick Mooney	case VDC_REGISTER:
d515dd77SPatrick Mooney	case VDC_MSR:
2c83e262SPatrick Mooney	case VDC_FPU:
2c83e262SPatrick Mooney	case VDC_LAPIC:
2c83e262SPatrick Mooney	case VDC_VMM_ARCH:
d515dd77SPatrick Mooney		/*
d515dd77SPatrick Mooney		 * These have per-CPU handling which is dispatched outside
d515dd77SPatrick Mooney		 * vmm_data_version_entries listing.
d515dd77SPatrick Mooney		 */
2c83e262SPatrick Mooney		panic("Unexpected per-vcpu class %u", req->vdr_class);
2c83e262SPatrick Mooney		break;
d515dd77SPatrick Mooney
d515dd77SPatrick Mooney	case VDC_IOAPIC:
d515dd77SPatrick Mooney		return (vm->vioapic);
d515dd77SPatrick Mooney	case VDC_ATPIT:
d515dd77SPatrick Mooney		return (vm->vatpit);
d515dd77SPatrick Mooney	case VDC_ATPIC:
d515dd77SPatrick Mooney		return (vm->vatpic);
d515dd77SPatrick Mooney	case VDC_HPET:
d515dd77SPatrick Mooney		return (vm->vhpet);
d515dd77SPatrick Mooney	case VDC_PM_TIMER:
d515dd77SPatrick Mooney		return (vm->vpmtmr);
d515dd77SPatrick Mooney	case VDC_RTC:
d515dd77SPatrick Mooney		return (vm->vrtc);
2c83e262SPatrick Mooney	case VDC_VMM_TIME:
2c83e262SPatrick Mooney		return (vm);
2c83e262SPatrick Mooney	case VDC_VERSION:
2c83e262SPatrick Mooney		/*
2c83e262SPatrick Mooney		 * Play along with all of the other classes which need backup
2c83e262SPatrick Mooney		 * data, even though version info does not require it.
2c83e262SPatrick Mooney		 */
2c83e262SPatrick Mooney		return (vm);
d515dd77SPatrick Mooney
d515dd77SPatrick Mooney	default:
d515dd77SPatrick Mooney		/* The data class will have been validated by now */
d515dd77SPatrick Mooney		panic("Unexpected class %u", req->vdr_class);
d515dd77SPatrick Mooney	}
d515dd77SPatrick Mooney}
d515dd77SPatrick Mooney
ae8179d3SPatrick Mooneyconst uint32_t default_msr_iter[] = {
ae8179d3SPatrick Mooney	/*
ae8179d3SPatrick Mooney	 * Although EFER is also available via the get/set-register interface,
ae8179d3SPatrick Mooney	 * we include it in the default list of emitted MSRs.
ae8179d3SPatrick Mooney	 */
54cf5b63SPatrick Mooney	MSR_EFER,
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	/*
54cf5b63SPatrick Mooney	 * While gsbase and fsbase are accessible via the MSR accessors, they
54cf5b63SPatrick Mooney	 * are not included in MSR iteration since they are covered by the
54cf5b63SPatrick Mooney	 * segment descriptor interface too.
54cf5b63SPatrick Mooney	 */
54cf5b63SPatrick Mooney	MSR_KGSBASE,
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	MSR_STAR,
54cf5b63SPatrick Mooney	MSR_LSTAR,
54cf5b63SPatrick Mooney	MSR_CSTAR,
54cf5b63SPatrick Mooney	MSR_SF_MASK,
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	MSR_SYSENTER_CS_MSR,
54cf5b63SPatrick Mooney	MSR_SYSENTER_ESP_MSR,
54cf5b63SPatrick Mooney	MSR_SYSENTER_EIP_MSR,
ae8179d3SPatrick Mooney
54cf5b63SPatrick Mooney	MSR_PAT,
ae8179d3SPatrick Mooney
54cf5b63SPatrick Mooney	MSR_TSC,
ae8179d3SPatrick Mooney
54cf5b63SPatrick Mooney	MSR_MTRRcap,
54cf5b63SPatrick Mooney	MSR_MTRRdefType,
54cf5b63SPatrick Mooney	MSR_MTRR4kBase, MSR_MTRR4kBase + 1, MSR_MTRR4kBase + 2,
54cf5b63SPatrick Mooney	MSR_MTRR4kBase + 3, MSR_MTRR4kBase + 4, MSR_MTRR4kBase + 5,
54cf5b63SPatrick Mooney	MSR_MTRR4kBase + 6, MSR_MTRR4kBase + 7,
54cf5b63SPatrick Mooney	MSR_MTRR16kBase, MSR_MTRR16kBase + 1,
54cf5b63SPatrick Mooney	MSR_MTRR64kBase,
54cf5b63SPatrick Mooney};
54cf5b63SPatrick Mooney
ae8179d3SPatrick Mooneystatic int
ae8179d3SPatrick Mooneyvmm_data_read_msr(struct vm *vm, int vcpuid, uint32_t msr, uint64_t *value)
ae8179d3SPatrick Mooney{
ae8179d3SPatrick Mooney	int err = 0;
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney	switch (msr) {
ae8179d3SPatrick Mooney	case MSR_TSC:
ae8179d3SPatrick Mooney		/*
ae8179d3SPatrick Mooney		 * The vmm-data interface for MSRs provides access to the
ae8179d3SPatrick Mooney		 * per-vCPU offset of the TSC, when reading/writing MSR_TSC.
ae8179d3SPatrick Mooney		 *
ae8179d3SPatrick Mooney		 * The VM-wide offset (and scaling) of the guest TSC is accessed
ae8179d3SPatrick Mooney		 * via the VMM_TIME data class.
ae8179d3SPatrick Mooney		 */
ae8179d3SPatrick Mooney		*value = vm->vcpu[vcpuid].tsc_offset;
ae8179d3SPatrick Mooney		return (0);
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney	default:
ae8179d3SPatrick Mooney		if (is_mtrr_msr(msr)) {
ae8179d3SPatrick Mooney			err = vm_rdmtrr(&vm->vcpu[vcpuid].mtrr, msr, value);
ae8179d3SPatrick Mooney		} else {
ae8179d3SPatrick Mooney			err = ops->vmgetmsr(vm->cookie, vcpuid, msr, value);
ae8179d3SPatrick Mooney		}
ae8179d3SPatrick Mooney		break;
ae8179d3SPatrick Mooney	}
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney	return (err);
ae8179d3SPatrick Mooney}
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooneystatic int
ae8179d3SPatrick Mooneyvmm_data_write_msr(struct vm *vm, int vcpuid, uint32_t msr, uint64_t value)
ae8179d3SPatrick Mooney{
ae8179d3SPatrick Mooney	int err = 0;
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney	switch (msr) {
ae8179d3SPatrick Mooney	case MSR_TSC:
ae8179d3SPatrick Mooney		/* See vmm_data_read_msr() for more detail */
ae8179d3SPatrick Mooney		vm->vcpu[vcpuid].tsc_offset = value;
ae8179d3SPatrick Mooney		return (0);
ae8179d3SPatrick Mooney	case MSR_MTRRcap: {
ae8179d3SPatrick Mooney		/*
ae8179d3SPatrick Mooney		 * MTRRcap is read-only.  If the desired value matches the
ae8179d3SPatrick Mooney		 * existing one, consider it a success.
ae8179d3SPatrick Mooney		 */
ae8179d3SPatrick Mooney		uint64_t comp;
ae8179d3SPatrick Mooney		err = vm_rdmtrr(&vm->vcpu[vcpuid].mtrr, msr, &comp);
ae8179d3SPatrick Mooney		if (err == 0 && comp != value) {
ae8179d3SPatrick Mooney			return (EINVAL);
ae8179d3SPatrick Mooney		}
ae8179d3SPatrick Mooney		break;
ae8179d3SPatrick Mooney	}
ae8179d3SPatrick Mooney	default:
ae8179d3SPatrick Mooney		if (is_mtrr_msr(msr)) {
ae8179d3SPatrick Mooney			/* MTRRcap is already handled above */
ae8179d3SPatrick Mooney			ASSERT3U(msr, !=, MSR_MTRRcap);
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney			err = vm_wrmtrr(&vm->vcpu[vcpuid].mtrr, msr, value);
ae8179d3SPatrick Mooney		} else {
ae8179d3SPatrick Mooney			err = ops->vmsetmsr(vm->cookie, vcpuid, msr, value);
ae8179d3SPatrick Mooney		}
ae8179d3SPatrick Mooney		break;
ae8179d3SPatrick Mooney	}
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney	return (err);
ae8179d3SPatrick Mooney}
ae8179d3SPatrick Mooney
54cf5b63SPatrick Mooneystatic int
54cf5b63SPatrick Mooneyvmm_data_read_msrs(struct vm *vm, int vcpuid, const vmm_data_req_t *req)
54cf5b63SPatrick Mooney{
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_class, ==, VDC_MSR);
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_version, ==, 1);
54cf5b63SPatrick Mooney
ae8179d3SPatrick Mooney	struct vdi_field_entry_v1 *entryp = req->vdr_data;
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney	/* Specific MSRs requested */
ae8179d3SPatrick Mooney	if ((req->vdr_flags & VDX_FLAG_READ_COPYIN) != 0) {
ae8179d3SPatrick Mooney		const uint_t count =
ae8179d3SPatrick Mooney		    req->vdr_len / sizeof (struct vdi_field_entry_v1);
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney		for (uint_t i = 0; i < count; i++, entryp++) {
ae8179d3SPatrick Mooney			int err = vmm_data_read_msr(vm, vcpuid,
ae8179d3SPatrick Mooney			    entryp->vfe_ident, &entryp->vfe_value);
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney			if (err != 0) {
ae8179d3SPatrick Mooney				return (err);
ae8179d3SPatrick Mooney			}
ae8179d3SPatrick Mooney		}
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney		*req->vdr_result_len =
ae8179d3SPatrick Mooney		    count * sizeof (struct vdi_field_entry_v1);
ae8179d3SPatrick Mooney		return (0);
ae8179d3SPatrick Mooney	}
ae8179d3SPatrick Mooney
ae8179d3SPatrick Mooney	/*
ae8179d3SPatrick Mooney	 * If specific MSRs are not requested, try to provide all those which we
ae8179d3SPatrick Mooney	 * know about instead.
ae8179d3SPatrick Mooney	 */
ae8179d3SPatrick Mooney	const uint_t num_msrs = nitems(default_msr_iter) +
ae8179d3SPatrick Mooney	    (VMM_MTRR_VAR_MAX * 2);
54cf5b63SPatrick Mooney	const uint32_t output_len =
54cf5b63SPatrick Mooney	    num_msrs * sizeof (struct vdi_field_entry_v1);
54cf5b63SPatrick Mooney
ae8179d3SPatrick Mooney	*req->vdr_result_len = output_len;
54cf5b63SPatrick Mooney	if (req->vdr_len < output_len) {
54cf5b63SPatrick Mooney		return (ENOSPC);
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney
ae8179d3SPatrick Mooney	/* Output the MSRs in the default list */
ae8179d3SPatrick Mooney	for (uint_t i = 0; i < nitems(default_msr_iter); i++, entryp++) {
ae8179d3SPatrick Mooney		entryp->vfe_ident = default_msr_iter[i];
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney		/* All of these MSRs are expected to work */
ae8179d3SPatrick Mooney		VERIFY0(vmm_data_read_msr(vm, vcpuid, entryp->vfe_ident,
ae8179d3SPatrick Mooney		    &entryp->vfe_value));
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney
ae8179d3SPatrick Mooney	/* Output the variable MTRRs */
54cf5b63SPatrick Mooney	for (uint_t i = 0; i < (VMM_MTRR_VAR_MAX * 2); i++, entryp++) {
ae8179d3SPatrick Mooney		entryp->vfe_ident = MSR_MTRRVarBase + i;
54cf5b63SPatrick Mooney
ae8179d3SPatrick Mooney		/* All of these MSRs are expected to work */
ae8179d3SPatrick Mooney		VERIFY0(vmm_data_read_msr(vm, vcpuid, entryp->vfe_ident,
ae8179d3SPatrick Mooney		    &entryp->vfe_value));
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney	return (0);
54cf5b63SPatrick Mooney}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic int
54cf5b63SPatrick Mooneyvmm_data_write_msrs(struct vm *vm, int vcpuid, const vmm_data_req_t *req)
54cf5b63SPatrick Mooney{
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_class, ==, VDC_MSR);
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_version, ==, 1);
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	const struct vdi_field_entry_v1 *entryp = req->vdr_data;
54cf5b63SPatrick Mooney	const uint_t entry_count =
54cf5b63SPatrick Mooney	    req->vdr_len / sizeof (struct vdi_field_entry_v1);
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	/*
54cf5b63SPatrick Mooney	 * First make sure that all of the MSRs can be manipulated.
54cf5b63SPatrick Mooney	 * For now, this check is done by going though the getmsr handler
54cf5b63SPatrick Mooney	 */
54cf5b63SPatrick Mooney	for (uint_t i = 0; i < entry_count; i++, entryp++) {
ae8179d3SPatrick Mooney		const uint64_t msr = entryp->vfe_ident;
54cf5b63SPatrick Mooney		uint64_t val;
54cf5b63SPatrick Mooney
ae8179d3SPatrick Mooney		if (vmm_data_read_msr(vm, vcpuid, msr, &val) != 0) {
ae8179d3SPatrick Mooney			return (EINVAL);
54cf5b63SPatrick Mooney		}
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	/*
54cf5b63SPatrick Mooney	 * Fairly confident that all of the 'set' operations are at least
54cf5b63SPatrick Mooney	 * targeting valid MSRs, continue on.
54cf5b63SPatrick Mooney	 */
54cf5b63SPatrick Mooney	entryp = req->vdr_data;
54cf5b63SPatrick Mooney	for (uint_t i = 0; i < entry_count; i++, entryp++) {
ae8179d3SPatrick Mooney		int err = vmm_data_write_msr(vm, vcpuid, entryp->vfe_ident,
ae8179d3SPatrick Mooney		    entryp->vfe_value);
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney		if (err != 0) {
54cf5b63SPatrick Mooney			return (err);
54cf5b63SPatrick Mooney		}
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney	*req->vdr_result_len = entry_count * sizeof (struct vdi_field_entry_v1);
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	return (0);
54cf5b63SPatrick Mooney}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic const vmm_data_version_entry_t msr_v1 = {
54cf5b63SPatrick Mooney	.vdve_class = VDC_MSR,
54cf5b63SPatrick Mooney	.vdve_version = 1,
54cf5b63SPatrick Mooney	.vdve_len_per_item = sizeof (struct vdi_field_entry_v1),
ad4335f7SPatrick Mooney	.vdve_vcpu_readf = vmm_data_read_msrs,
ad4335f7SPatrick Mooney	.vdve_vcpu_writef = vmm_data_write_msrs,
54cf5b63SPatrick Mooney};
54cf5b63SPatrick MooneyVMM_DATA_VERSION(msr_v1);
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic const uint32_t vmm_arch_v1_fields[] = {
ad4335f7SPatrick Mooney	VAI_VM_IS_PAUSED,
ad4335f7SPatrick Mooney};
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooneystatic const uint32_t vmm_arch_v1_vcpu_fields[] = {
ad4335f7SPatrick Mooney	VAI_PEND_NMI,
ad4335f7SPatrick Mooney	VAI_PEND_EXTINT,
ad4335f7SPatrick Mooney	VAI_PEND_EXCP,
ad4335f7SPatrick Mooney	VAI_PEND_INTINFO,
54cf5b63SPatrick Mooney};
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic bool
ad4335f7SPatrick Mooneyvmm_read_arch_field(struct vm *vm, int vcpuid, uint32_t ident, uint64_t *valp)
54cf5b63SPatrick Mooney{
54cf5b63SPatrick Mooney	ASSERT(valp != NULL);
54cf5b63SPatrick Mooney
ad4335f7SPatrick Mooney	if (vcpuid == -1) {
ad4335f7SPatrick Mooney		switch (ident) {
ad4335f7SPatrick Mooney		case VAI_VM_IS_PAUSED:
ad4335f7SPatrick Mooney			*valp = vm->is_paused ? 1 : 0;
ad4335f7SPatrick Mooney			return (true);
ad4335f7SPatrick Mooney		default:
ad4335f7SPatrick Mooney			break;
ad4335f7SPatrick Mooney		}
ad4335f7SPatrick Mooney	} else {
ad4335f7SPatrick Mooney		VERIFY(vcpuid >= 0 && vcpuid <= VM_MAXCPU);
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney		struct vcpu *vcpu = &vm->vcpu[vcpuid];
ad4335f7SPatrick Mooney		switch (ident) {
ad4335f7SPatrick Mooney		case VAI_PEND_NMI:
ad4335f7SPatrick Mooney			*valp = vcpu->nmi_pending != 0 ? 1 : 0;
ad4335f7SPatrick Mooney			return (true);
ad4335f7SPatrick Mooney		case VAI_PEND_EXTINT:
ad4335f7SPatrick Mooney			*valp = vcpu->extint_pending != 0 ? 1 : 0;
ad4335f7SPatrick Mooney			return (true);
ad4335f7SPatrick Mooney		case VAI_PEND_EXCP:
ad4335f7SPatrick Mooney			*valp = vcpu->exc_pending;
ad4335f7SPatrick Mooney			return (true);
ad4335f7SPatrick Mooney		case VAI_PEND_INTINFO:
ad4335f7SPatrick Mooney			*valp = vcpu->exit_intinfo;
ad4335f7SPatrick Mooney			return (true);
ad4335f7SPatrick Mooney		default:
ad4335f7SPatrick Mooney			break;
ad4335f7SPatrick Mooney		}
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney	return (false);
54cf5b63SPatrick Mooney}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic int
ad4335f7SPatrick Mooneyvmm_data_read_varch(struct vm *vm, int vcpuid, const vmm_data_req_t *req)
54cf5b63SPatrick Mooney{
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_class, ==, VDC_VMM_ARCH);
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_version, ==, 1);
54cf5b63SPatrick Mooney
ad4335f7SPatrick Mooney	/* per-vCPU fields are handled separately from VM-wide ones */
ad4335f7SPatrick Mooney	if (vcpuid != -1 && (vcpuid < 0 || vcpuid >= VM_MAXCPU)) {
ad4335f7SPatrick Mooney		return (EINVAL);
ad4335f7SPatrick Mooney	}
ad4335f7SPatrick Mooney
54cf5b63SPatrick Mooney	struct vdi_field_entry_v1 *entryp = req->vdr_data;
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	/* Specific fields requested */
54cf5b63SPatrick Mooney	if ((req->vdr_flags & VDX_FLAG_READ_COPYIN) != 0) {
54cf5b63SPatrick Mooney		const uint_t count =
54cf5b63SPatrick Mooney		    req->vdr_len / sizeof (struct vdi_field_entry_v1);
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney		for (uint_t i = 0; i < count; i++, entryp++) {
ad4335f7SPatrick Mooney			if (!vmm_read_arch_field(vm, vcpuid, entryp->vfe_ident,
54cf5b63SPatrick Mooney			    &entryp->vfe_value)) {
54cf5b63SPatrick Mooney				return (EINVAL);
54cf5b63SPatrick Mooney			}
54cf5b63SPatrick Mooney		}
54cf5b63SPatrick Mooney		*req->vdr_result_len =
54cf5b63SPatrick Mooney		    count * sizeof (struct vdi_field_entry_v1);
54cf5b63SPatrick Mooney		return (0);
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	/* Emit all of the possible values */
ad4335f7SPatrick Mooney	const uint32_t *idents;
ad4335f7SPatrick Mooney	uint_t ident_count;
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney	if (vcpuid == -1) {
ad4335f7SPatrick Mooney		idents = vmm_arch_v1_fields;
ad4335f7SPatrick Mooney		ident_count = nitems(vmm_arch_v1_fields);
ad4335f7SPatrick Mooney	} else {
ad4335f7SPatrick Mooney		idents = vmm_arch_v1_vcpu_fields;
ad4335f7SPatrick Mooney		ident_count = nitems(vmm_arch_v1_vcpu_fields);
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney	}
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney	const uint32_t total_size =
ad4335f7SPatrick Mooney	    ident_count * sizeof (struct vdi_field_entry_v1);
ad4335f7SPatrick Mooney
54cf5b63SPatrick Mooney	*req->vdr_result_len = total_size;
54cf5b63SPatrick Mooney	if (req->vdr_len < total_size) {
54cf5b63SPatrick Mooney		return (ENOSPC);
54cf5b63SPatrick Mooney	}
ad4335f7SPatrick Mooney	for (uint_t i = 0; i < ident_count; i++, entryp++) {
ad4335f7SPatrick Mooney		entryp->vfe_ident = idents[i];
ad4335f7SPatrick Mooney		VERIFY(vmm_read_arch_field(vm, vcpuid, entryp->vfe_ident,
54cf5b63SPatrick Mooney		    &entryp->vfe_value));
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney	return (0);
54cf5b63SPatrick Mooney}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic int
ad4335f7SPatrick Mooneyvmm_data_write_varch_vcpu(struct vm *vm, int vcpuid, const vmm_data_req_t *req)
54cf5b63SPatrick Mooney{
ad4335f7SPatrick Mooney	VERIFY3U(req->vdr_class, ==, VDC_VMM_ARCH);
ad4335f7SPatrick Mooney	VERIFY3U(req->vdr_version, ==, 1);
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney	if (vcpuid < 0 || vcpuid >= VM_MAXCPU) {
ad4335f7SPatrick Mooney		return (EINVAL);
ad4335f7SPatrick Mooney	}
54cf5b63SPatrick Mooney
ad4335f7SPatrick Mooney	const struct vdi_field_entry_v1 *entryp = req->vdr_data;
ad4335f7SPatrick Mooney	const uint_t entry_count =
ad4335f7SPatrick Mooney	    req->vdr_len / sizeof (struct vdi_field_entry_v1);
ad4335f7SPatrick Mooney	struct vcpu *vcpu = &vm->vcpu[vcpuid];
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney	for (uint_t i = 0; i < entry_count; i++, entryp++) {
ad4335f7SPatrick Mooney		const uint64_t val = entryp->vfe_value;
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney		switch (entryp->vfe_ident) {
ad4335f7SPatrick Mooney		case VAI_PEND_NMI:
ad4335f7SPatrick Mooney			vcpu->nmi_pending = (val != 0);
ad4335f7SPatrick Mooney			break;
ad4335f7SPatrick Mooney		case VAI_PEND_EXTINT:
ad4335f7SPatrick Mooney			vcpu->extint_pending = (val != 0);
ad4335f7SPatrick Mooney			break;
ad4335f7SPatrick Mooney		case VAI_PEND_EXCP:
ad4335f7SPatrick Mooney			if (!VM_INTINFO_PENDING(val)) {
ad4335f7SPatrick Mooney				vcpu->exc_pending = 0;
ad4335f7SPatrick Mooney			} else if (VM_INTINFO_TYPE(val) != VM_INTINFO_HWEXCP ||
ad4335f7SPatrick Mooney			    (val & VM_INTINFO_MASK_RSVD) != 0) {
ad4335f7SPatrick Mooney				/* reject improperly-formed hw exception */
ad4335f7SPatrick Mooney				return (EINVAL);
ad4335f7SPatrick Mooney			} else {
ad4335f7SPatrick Mooney				vcpu->exc_pending = val;
ad4335f7SPatrick Mooney			}
ad4335f7SPatrick Mooney			break;
ad4335f7SPatrick Mooney		case VAI_PEND_INTINFO:
ad4335f7SPatrick Mooney			if (vm_exit_intinfo(vm, vcpuid, val) != 0) {
ad4335f7SPatrick Mooney				return (EINVAL);
ad4335f7SPatrick Mooney			}
ad4335f7SPatrick Mooney			break;
ad4335f7SPatrick Mooney		default:
ad4335f7SPatrick Mooney			return (EINVAL);
ad4335f7SPatrick Mooney		}
ad4335f7SPatrick Mooney	}
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney	*req->vdr_result_len = entry_count * sizeof (struct vdi_field_entry_v1);
ad4335f7SPatrick Mooney	return (0);
ad4335f7SPatrick Mooney}
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooneystatic int
ad4335f7SPatrick Mooneyvmm_data_write_varch(struct vm *vm, int vcpuid, const vmm_data_req_t *req)
ad4335f7SPatrick Mooney{
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_class, ==, VDC_VMM_ARCH);
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_version, ==, 1);
54cf5b63SPatrick Mooney
ad4335f7SPatrick Mooney	/* per-vCPU fields are handled separately from VM-wide ones */
ad4335f7SPatrick Mooney	if (vcpuid != -1) {
ad4335f7SPatrick Mooney		return (vmm_data_write_varch_vcpu(vm, vcpuid, req));
ad4335f7SPatrick Mooney	}
ad4335f7SPatrick Mooney
54cf5b63SPatrick Mooney	const struct vdi_field_entry_v1 *entryp = req->vdr_data;
54cf5b63SPatrick Mooney	const uint_t entry_count =
54cf5b63SPatrick Mooney	    req->vdr_len / sizeof (struct vdi_field_entry_v1);
54cf5b63SPatrick Mooney
717646f7SJordan Paige Hendricks	if (entry_count > 0) {
717646f7SJordan Paige Hendricks		if (entryp->vfe_ident == VAI_VM_IS_PAUSED) {
ad4335f7SPatrick Mooney			/*
ad4335f7SPatrick Mooney			 * The VM_PAUSE and VM_RESUME ioctls are the officially
ad4335f7SPatrick Mooney			 * sanctioned mechanisms for setting the is-paused state
ad4335f7SPatrick Mooney			 * of the VM.
ad4335f7SPatrick Mooney			 */
ad4335f7SPatrick Mooney			return (EPERM);
717646f7SJordan Paige Hendricks		} else {
717646f7SJordan Paige Hendricks			/* no other valid arch entries at this time */
54cf5b63SPatrick Mooney			return (EINVAL);
54cf5b63SPatrick Mooney		}
54cf5b63SPatrick Mooney	}
717646f7SJordan Paige Hendricks
54cf5b63SPatrick Mooney	*req->vdr_result_len = entry_count * sizeof (struct vdi_field_entry_v1);
54cf5b63SPatrick Mooney	return (0);
54cf5b63SPatrick Mooney}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic const vmm_data_version_entry_t vmm_arch_v1 = {
54cf5b63SPatrick Mooney	.vdve_class = VDC_VMM_ARCH,
54cf5b63SPatrick Mooney	.vdve_version = 1,
54cf5b63SPatrick Mooney	.vdve_len_per_item = sizeof (struct vdi_field_entry_v1),
ad4335f7SPatrick Mooney	.vdve_vcpu_readf = vmm_data_read_varch,
ad4335f7SPatrick Mooney	.vdve_vcpu_writef = vmm_data_write_varch,
2c83e262SPatrick Mooney
2c83e262SPatrick Mooney	/*
2c83e262SPatrick Mooney	 * Handlers for VMM_ARCH can process VM-wide (vcpuid == -1) entries in
2c83e262SPatrick Mooney	 * addition to vCPU specific ones.
2c83e262SPatrick Mooney	 */
2c83e262SPatrick Mooney	.vdve_vcpu_wildcard = true,
54cf5b63SPatrick Mooney};
54cf5b63SPatrick MooneyVMM_DATA_VERSION(vmm_arch_v1);
54cf5b63SPatrick Mooney
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * GUEST TIME SUPPORT
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Broadly, there are two categories of functionality related to time passing in
717646f7SJordan Paige Hendricks * the guest: the guest's TSC and timers used by emulated devices.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * ---------------------------
717646f7SJordan Paige Hendricks * GUEST TSC "VIRTUALIZATION"
717646f7SJordan Paige Hendricks * ---------------------------
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The TSC can be read either via an instruction (rdtsc/rdtscp) or by reading
717646f7SJordan Paige Hendricks * the TSC MSR.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * When a guest reads the TSC via its MSR, the guest will exit and we emulate
717646f7SJordan Paige Hendricks * the rdmsr. More typically, the guest reads the TSC via a rdtsc(p)
717646f7SJordan Paige Hendricks * instruction. Both SVM and VMX support virtualizing the guest TSC in hardware
717646f7SJordan Paige Hendricks * -- that is, a guest will not generally exit on a rdtsc instruction.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * To support hardware-virtualized guest TSC, both SVM and VMX provide two knobs
717646f7SJordan Paige Hendricks * for the hypervisor to adjust the guest's view of the TSC:
717646f7SJordan Paige Hendricks * - TSC offset
717646f7SJordan Paige Hendricks * - TSC frequency multiplier (also called "frequency ratio")
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * When a guest calls rdtsc(p), the TSC value it sees is the sum of:
717646f7SJordan Paige Hendricks *     guest_tsc = (host TSC, scaled according to frequency multiplier)
717646f7SJordan Paige Hendricks *		    + (TSC offset, programmed by hypervisor)
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * See the discussions of the TSC offset and frequency multiplier below for more
717646f7SJordan Paige Hendricks * details on each of these.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * --------------------
717646f7SJordan Paige Hendricks * TSC OFFSET OVERVIEW
717646f7SJordan Paige Hendricks * --------------------
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The TSC offset is a value added to the host TSC (which may be scaled first)
717646f7SJordan Paige Hendricks * to provide the guest TSC. This offset addition is generally done by hardware,
717646f7SJordan Paige Hendricks * but may be used in emulating the TSC if necessary.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Recall that general formula for calculating the guest TSC is:
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *	guest_tsc = (host TSC, scaled if needed) + TSC offset
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Intuitively, the TSC offset is simply an offset of the host's TSC to make the
717646f7SJordan Paige Hendricks * guest's view of the TSC appear correct: The guest TSC should be 0 at boot and
717646f7SJordan Paige Hendricks * monotonically increase at a roughly constant frequency. Thus in the simplest
717646f7SJordan Paige Hendricks * case, the TSC offset is just the negated value of the host TSC when the guest
717646f7SJordan Paige Hendricks * was booted, assuming they have the same frequencies.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * In practice, there are several factors that can make calculating the TSC
717646f7SJordan Paige Hendricks * offset more complicated, including:
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * (1) the physical CPU the guest is running on
717646f7SJordan Paige Hendricks * (2) whether the guest has written to the TSC of that vCPU
717646f7SJordan Paige Hendricks * (3) differing host and guest frequencies, like after a live migration
717646f7SJordan Paige Hendricks * (4) a guest running on a different system than where it was booted, like
717646f7SJordan Paige Hendricks *     after a live migration
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * We will explore each of these factors individually. See below for a
717646f7SJordan Paige Hendricks * summary.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * (1) Physical CPU offsets
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The system maintains a set of per-CPU offsets to the TSC to provide a
717646f7SJordan Paige Hendricks * consistent view of the TSC regardless of the CPU a thread is running on.
717646f7SJordan Paige Hendricks * These offsets are included automatically as a part of rdtsc_offset().
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The per-CPU offset must be included as a part reading the host TSC when
717646f7SJordan Paige Hendricks * calculating the offset before running the guest on a given CPU.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * (2) Guest TSC writes (vCPU offsets)
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The TSC is a writable MSR. When a guest writes to the TSC, this operation
717646f7SJordan Paige Hendricks * should result in the TSC, when read from that vCPU, shows the value written,
717646f7SJordan Paige Hendricks * plus whatever time has elapsed since the read.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * To support this, when the guest writes to the TSC, we store an additional
717646f7SJordan Paige Hendricks * vCPU offset calculated to make future reads of the TSC map to what the guest
717646f7SJordan Paige Hendricks * expects.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * (3) Differing host and guest frequencies (host TSC scaling)
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * A guest has the same frequency of its host when it boots, but it may be
717646f7SJordan Paige Hendricks * migrated to a machine with a different TSC frequency. Systems expect that
717646f7SJordan Paige Hendricks * their TSC frequency does not change. To support this fiction in which a guest
717646f7SJordan Paige Hendricks * is running on hardware of a different TSC frequency, the hypervisor  can
717646f7SJordan Paige Hendricks * program a "frequency multiplier" that represents the ratio of guest/host
717646f7SJordan Paige Hendricks * frequency.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Any time a host TSC is used in calculations for the offset, it should be
717646f7SJordan Paige Hendricks * "scaled" according to this multiplier, and the hypervisor should program the
717646f7SJordan Paige Hendricks * multiplier before running a guest so that the hardware virtualization of the
717646f7SJordan Paige Hendricks * TSC functions properly. Similarly, the multiplier should be used in any TSC
717646f7SJordan Paige Hendricks * emulation.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * See below for more details about the frequency multiplier.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * (4) Guest running on a system it did not boot on ("base guest TSC")
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * When a guest boots, its TSC offset is simply the negated host TSC at the time
717646f7SJordan Paige Hendricks * it booted. If a guest is migrated from a source host to a target host, the
717646f7SJordan Paige Hendricks * TSC offset from the source host is no longer useful for several reasons:
717646f7SJordan Paige Hendricks * - the target host TSC has no relationship to the source host TSC
717646f7SJordan Paige Hendricks * - the guest did not boot on the target system, so the TSC of the target host
717646f7SJordan Paige Hendricks *   is not sufficient to describe how long the guest has been running prior to
717646f7SJordan Paige Hendricks *   migration
717646f7SJordan Paige Hendricks * - the target system may have a different TSC frequency than the source system
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Ignoring the issue of frequency differences for a moment, let's consider how
717646f7SJordan Paige Hendricks * to re-align the guest TSC with the host TSC of the target host. Intuitively,
717646f7SJordan Paige Hendricks * for the guest to see the correct TSC, we still want to add some offset to the
717646f7SJordan Paige Hendricks * host TSC that offsets how long this guest has been running on
717646f7SJordan Paige Hendricks * the system.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * An example here might be helpful. Consider a source host and target host,
717646f7SJordan Paige Hendricks * both with TSC frequencies of 1GHz. On the source host, the guest and host TSC
717646f7SJordan Paige Hendricks * values might look like:
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *  +----------------------------------------------------------------------+
717646f7SJordan Paige Hendricks *  | Event                 | source host TSC  | guest TSC                 |
717646f7SJordan Paige Hendricks *  ------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *  | guest boot  (t=0s)    | 5000000000       | 5000000000 + -5000000000  |
717646f7SJordan Paige Hendricks *  |                       |                  | 0			   |
717646f7SJordan Paige Hendricks *  ------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *  | guest rdtsc (t=10s))  | 15000000000      | 15000000000 + -5000000000 |
717646f7SJordan Paige Hendricks *  |                       |                  | 10000000000		   |
717646f7SJordan Paige Hendricks *  ------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *  | migration   (t=15s)   | 20000000000      | 20000000000 + -5000000000 |
717646f7SJordan Paige Hendricks *  |                       |                  | 15000000000		   |
717646f7SJordan Paige Hendricks *  +----------------------------------------------------------------------+
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Ignoring the time it takes for a guest to physically migrate machines, on the
717646f7SJordan Paige Hendricks * target host, we would expect the TSC to continue functioning as such:
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *  +----------------------------------------------------------------------+
717646f7SJordan Paige Hendricks *  | Event                 | target host TSC  | guest TSC                 |
717646f7SJordan Paige Hendricks *  ------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *  | guest migrate (t=15s) | 300000000000     | 15000000000		   |
717646f7SJordan Paige Hendricks *  ------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *  | guest rdtsc (t=20s))  | 305000000000     | 20000000000		   |
717646f7SJordan Paige Hendricks *  ------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * In order to produce a correct TSC value here, we can calculate a new
717646f7SJordan Paige Hendricks * "effective" boot TSC that maps to what the host TSC would've been had it been
717646f7SJordan Paige Hendricks * booted on the target. We add that to the guest TSC when it began to run on
717646f7SJordan Paige Hendricks * this machine, and negate them both to get a new offset. In this example, the
717646f7SJordan Paige Hendricks * effective boot TSC is: -(300000000000 - 15000000000) = -285000000000.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *  +-------------------------------------------------------------------------+
717646f7SJordan Paige Hendricks *  | Event                 | target host TSC  | guest TSC                    |
717646f7SJordan Paige Hendricks *  ---------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *  | guest "boot" (t=0s)   | 285000000000     | 285000000000 + -285000000000 |
717646f7SJordan Paige Hendricks *  |                       |                  | 0			      |
717646f7SJordan Paige Hendricks *  ---------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *  | guest migrate (t=15s) | 300000000000     | 300000000000 + -285000000000 |
717646f7SJordan Paige Hendricks *  |                       |                  | 15000000000		      |
717646f7SJordan Paige Hendricks *  ---------------------------------------------------------------------------
717646f7SJordan Paige Hendricks *  | guest rdtsc (t=20s))  | 305000000000     | 305000000000 + -285000000000 |
717646f7SJordan Paige Hendricks *  |                       |                  | 20000000000		      |
717646f7SJordan Paige Hendricks *  --------------------------------------------------------------------------+
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * To support the offset calculation following a migration, the VMM data time
717646f7SJordan Paige Hendricks * interface allows callers to set a "base guest TSC", which is the TSC value of
717646f7SJordan Paige Hendricks * the guest when it began running on the host. The current guest TSC can be
717646f7SJordan Paige Hendricks * requested via a read of the time data. See below for details on that
717646f7SJordan Paige Hendricks * interface.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Frequency differences between the host and the guest are accounted for when
717646f7SJordan Paige Hendricks * scaling the host TSC. See below for details on the frequency multiplier.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * --------------------
717646f7SJordan Paige Hendricks * TSC OFFSET SUMMARY
717646f7SJordan Paige Hendricks * --------------------
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Factoring in all of the components to the TSC above, the TSC offset that is
717646f7SJordan Paige Hendricks * programmed by the hypervisor before running a given vCPU is:
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * offset = -((base host TSC, scaled if needed) - base_guest_tsc) + vCPU offset
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * This offset is stored in two pieces. Per-vCPU offsets are stored with the
717646f7SJordan Paige Hendricks * given vCPU and added in when programming the offset. The rest of the offset
717646f7SJordan Paige Hendricks * is stored as a VM-wide offset, and computed either at boot or when the time
717646f7SJordan Paige Hendricks * data is written to.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * It is safe to add the vCPU offset and the VM-wide offsets together because
717646f7SJordan Paige Hendricks * the vCPU offset is in terms of the guest TSC. The host TSC is scaled before
717646f7SJordan Paige Hendricks * using it in calculations, so all TSC values are applicable to the same
717646f7SJordan Paige Hendricks * frequency.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Note: Though both the VM-wide offset and per-vCPU offsets may be negative, we
717646f7SJordan Paige Hendricks * store them as unsigned values and perform all offsetting math unsigned. This
717646f7SJordan Paige Hendricks * is to avoid UB from signed overflow.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * -------------------------
717646f7SJordan Paige Hendricks * TSC FREQUENCY MULTIPLIER
717646f7SJordan Paige Hendricks * -------------------------
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * In order to account for frequency differences between the host and guest, SVM
717646f7SJordan Paige Hendricks * and VMX provide an interface to set a "frequency multiplier" (or "frequency
717646f7SJordan Paige Hendricks * ratio") representing guest to host frequency. In a hardware-virtualized read
717646f7SJordan Paige Hendricks * of the TSC, the host TSC is scaled using this multiplier prior to adding the
717646f7SJordan Paige Hendricks * programmed TSC offset.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Both platforms represent the ratio as a fixed point number, where the lower
717646f7SJordan Paige Hendricks * bits are used as a fractional component, and some number of the upper bits
717646f7SJordan Paige Hendricks * are used as the integer component.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Some example multipliers, for a platform with FRAC fractional bits in the
717646f7SJordan Paige Hendricks * multiplier:
717646f7SJordan Paige Hendricks * - guest frequency == host: 1 << FRAC
717646f7SJordan Paige Hendricks * - guest frequency is 2x host: 1 << (FRAC + 1)
717646f7SJordan Paige Hendricks * - guest frequency is 0.5x host: 1 << (FRAC - 1), as the highest-order
717646f7SJordan Paige Hendricks *   fractional bit represents 1/2
717646f7SJordan Paige Hendricks * - guest frequency is 2.5x host: (1 << FRAC) | (1 << (FRAC - 1))
717646f7SJordan Paige Hendricks * and so on.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * In general, the frequency multiplier is calculated as follows:
717646f7SJordan Paige Hendricks *		(guest_hz * (1 << FRAC_SIZE)) / host_hz
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The multiplier should be used any time the host TSC value is used in
717646f7SJordan Paige Hendricks * calculations with the guest TSC (and their frequencies differ). The function
717646f7SJordan Paige Hendricks * `vmm_scale_tsc` is intended to be used for these purposes, as it will scale
717646f7SJordan Paige Hendricks * the host TSC only if needed.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The multiplier should also be programmed by the hypervisor before the guest
717646f7SJordan Paige Hendricks * is run.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * ----------------------------
717646f7SJordan Paige Hendricks * DEVICE TIMERS (BOOT_HRTIME)
717646f7SJordan Paige Hendricks * ----------------------------
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Emulated devices use timers to do things such as scheduling periodic events.
717646f7SJordan Paige Hendricks * These timers are scheduled relative to the hrtime of the host. When device
717646f7SJordan Paige Hendricks * state is exported or imported, we use boot_hrtime to normalize these timers
717646f7SJordan Paige Hendricks * against the host hrtime. The boot_hrtime represents the hrtime of the host
717646f7SJordan Paige Hendricks * when the guest was booted.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * If a guest is migrated to a different machine, boot_hrtime must be adjusted
717646f7SJordan Paige Hendricks * to match the hrtime of when the guest was effectively booted on the target
717646f7SJordan Paige Hendricks * host. This allows timers to continue functioning when device state is
717646f7SJordan Paige Hendricks * imported on the target.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * ------------------------
717646f7SJordan Paige Hendricks * VMM DATA TIME INTERFACE
717646f7SJordan Paige Hendricks * ------------------------
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * In order to facilitate live migrations of guests, we provide an interface,
717646f7SJordan Paige Hendricks * via the VMM data read/write ioctls, for userspace to make changes to the
717646f7SJordan Paige Hendricks * guest's view of the TSC and device timers, allowing these features to
717646f7SJordan Paige Hendricks * continue functioning after a migration.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The interface was designed to expose the minimal amount of data needed for a
717646f7SJordan Paige Hendricks * userspace component to make adjustments to the guest's view of time (e.g., to
717646f7SJordan Paige Hendricks * account for time passing in a live migration). At a minimum, such a program
717646f7SJordan Paige Hendricks * needs:
717646f7SJordan Paige Hendricks * - the current guest TSC
717646f7SJordan Paige Hendricks * - guest TSC frequency
717646f7SJordan Paige Hendricks * - guest's boot_hrtime
717646f7SJordan Paige Hendricks * - timestamps of when this data was taken (hrtime for hrtime calculations, and
717646f7SJordan Paige Hendricks *   wall clock time for computing time deltas between machines)
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The wall clock time is provided for consumers to make adjustments to the
717646f7SJordan Paige Hendricks * guest TSC and boot_hrtime based on deltas observed during migrations. It may
717646f7SJordan Paige Hendricks * be prudent for consumers to use this data only in circumstances where the
717646f7SJordan Paige Hendricks * source and target have well-synchronized wall clocks, but nothing in the
717646f7SJordan Paige Hendricks * interface depends on this assumption.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * On writes, consumers write back:
717646f7SJordan Paige Hendricks * - the base guest TSC (used for TSC offset calculations)
717646f7SJordan Paige Hendricks * - desired boot_hrtime
717646f7SJordan Paige Hendricks * - guest_frequency (cannot change)
717646f7SJordan Paige Hendricks * - hrtime of when this data was adjusted
717646f7SJordan Paige Hendricks * - (wall clock time on writes is ignored)
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The interface will adjust the input guest TSC slightly, based on the input
717646f7SJordan Paige Hendricks * hrtime, to account for latency between userspace calculations and application
717646f7SJordan Paige Hendricks * of the data on the kernel side. This amounts to adding a small amount of
717646f7SJordan Paige Hendricks * additional "uptime" for the guest.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * After the adjustments, the interface updates the VM-wide TSC offset and
717646f7SJordan Paige Hendricks * boot_hrtime. Per-vCPU offsets are not adjusted, as those are already in terms
717646f7SJordan Paige Hendricks * of the guest TSC and can be exported/imported via the MSR VMM data interface.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * --------------------------------
717646f7SJordan Paige Hendricks * SUPPORTED PLATFORMS AND CAVEATS
717646f7SJordan Paige Hendricks * --------------------------------
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * While both VMX and SVM offer TSC scaling as a feature, at this time only SVM
717646f7SJordan Paige Hendricks * is supported by bhyve.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The time data interface is designed such that Intel support can be added
717646f7SJordan Paige Hendricks * easily, and all other aspects of the time interface should work on Intel.
717646f7SJordan Paige Hendricks * (Without frequency control though, in practice, doing live migrations of
717646f7SJordan Paige Hendricks * guests on Intel will not work for time-related things, as two machines
717646f7SJordan Paige Hendricks * rarely have exactly the same frequency).
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Additionally, while on both SVM and VMX the frequency multiplier is a fixed
717646f7SJordan Paige Hendricks * point number, each uses a different number of fractional and integer bits for
717646f7SJordan Paige Hendricks * the multiplier. As such, calculating the multiplier and fractional bit size
717646f7SJordan Paige Hendricks * is requested via the vmm_ops.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Care should be taken to set reasonable limits for ratios based on the
717646f7SJordan Paige Hendricks * platform, as the difference in fractional bits can lead to slightly different
717646f7SJordan Paige Hendricks * tradeoffs in terms of representable ratios and potentially overflowing
717646f7SJordan Paige Hendricks * calculations.
717646f7SJordan Paige Hendricks */
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * Scales the TSC if needed, based on the input frequency multiplier.
717646f7SJordan Paige Hendricks */
717646f7SJordan Paige Hendricksstatic uint64_t
717646f7SJordan Paige Hendricksvmm_scale_tsc(uint64_t tsc, uint64_t mult)
717646f7SJordan Paige Hendricks{
717646f7SJordan Paige Hendricks	const uint32_t frac_size = ops->fr_fracsize;
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	if (mult != VM_TSCM_NOSCALE) {
717646f7SJordan Paige Hendricks		VERIFY3U(frac_size, >, 0);
717646f7SJordan Paige Hendricks		return (scale_tsc(tsc, mult, frac_size));
717646f7SJordan Paige Hendricks	} else {
717646f7SJordan Paige Hendricks		return (tsc);
717646f7SJordan Paige Hendricks	}
717646f7SJordan Paige Hendricks}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * Calculate the frequency multiplier, which represents the ratio of
717646f7SJordan Paige Hendricks * guest_hz / host_hz. The frequency multiplier is a fixed point number with
717646f7SJordan Paige Hendricks * `frac_sz` fractional bits (fractional bits begin at bit 0).
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * See comment for "calc_freq_multiplier" in "vmm_time_support.S" for more
717646f7SJordan Paige Hendricks * information about valid input to this function.
717646f7SJordan Paige Hendricks */
717646f7SJordan Paige Hendricksuint64_t
717646f7SJordan Paige Hendricksvmm_calc_freq_multiplier(uint64_t guest_hz, uint64_t host_hz,
717646f7SJordan Paige Hendricks    uint32_t frac_size)
717646f7SJordan Paige Hendricks{
717646f7SJordan Paige Hendricks	VERIFY3U(guest_hz, !=, 0);
717646f7SJordan Paige Hendricks	VERIFY3U(frac_size, >, 0);
717646f7SJordan Paige Hendricks	VERIFY3U(frac_size, <, 64);
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	return (calc_freq_multiplier(guest_hz, host_hz, frac_size));
717646f7SJordan Paige Hendricks}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * Calculate the guest VM-wide TSC offset.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * offset = - ((base host TSC, scaled if needed) - base_guest_tsc)
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The base_host_tsc and the base_guest_tsc are the TSC values of the host
717646f7SJordan Paige Hendricks * (read on the system) and the guest (calculated) at the same point in time.
717646f7SJordan Paige Hendricks * This allows us to fix the guest TSC at this point in time as a base, either
717646f7SJordan Paige Hendricks * following boot (guest TSC = 0), or a change to the guest's time data from
717646f7SJordan Paige Hendricks * userspace (such as in the case of a migration).
717646f7SJordan Paige Hendricks */
717646f7SJordan Paige Hendricksstatic uint64_t
717646f7SJordan Paige Hendrickscalc_tsc_offset(uint64_t base_host_tsc, uint64_t base_guest_tsc, uint64_t mult)
717646f7SJordan Paige Hendricks{
717646f7SJordan Paige Hendricks	const uint64_t htsc_scaled = vmm_scale_tsc(base_host_tsc, mult);
717646f7SJordan Paige Hendricks	if (htsc_scaled > base_guest_tsc) {
717646f7SJordan Paige Hendricks		return ((uint64_t)(- (int64_t)(htsc_scaled - base_guest_tsc)));
717646f7SJordan Paige Hendricks	} else {
717646f7SJordan Paige Hendricks		return (base_guest_tsc - htsc_scaled);
717646f7SJordan Paige Hendricks	}
717646f7SJordan Paige Hendricks}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * Calculate an estimate of the guest TSC.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * guest_tsc = (host TSC, scaled if needed) + offset
717646f7SJordan Paige Hendricks */
717646f7SJordan Paige Hendricksstatic uint64_t
717646f7SJordan Paige Hendrickscalc_guest_tsc(uint64_t host_tsc, uint64_t mult, uint64_t offset)
717646f7SJordan Paige Hendricks{
717646f7SJordan Paige Hendricks	return (vmm_scale_tsc(host_tsc, mult) + offset);
717646f7SJordan Paige Hendricks}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * Take a non-atomic "snapshot" of the current:
717646f7SJordan Paige Hendricks * - TSC
717646f7SJordan Paige Hendricks * - hrtime
717646f7SJordan Paige Hendricks * - wall clock time
717646f7SJordan Paige Hendricks */
717646f7SJordan Paige Hendricksstatic void
717646f7SJordan Paige Hendricksvmm_time_snapshot(uint64_t *tsc, hrtime_t *hrtime, timespec_t *hrestime)
717646f7SJordan Paige Hendricks{
717646f7SJordan Paige Hendricks	/*
717646f7SJordan Paige Hendricks	 * Disable interrupts while we take the readings: In the absence of a
717646f7SJordan Paige Hendricks	 * mechanism to convert hrtime to hrestime, we want the time between
717646f7SJordan Paige Hendricks	 * each of these measurements to be as small as possible.
717646f7SJordan Paige Hendricks	 */
717646f7SJordan Paige Hendricks	ulong_t iflag = intr_clear();
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	hrtime_t hrt = gethrtimeunscaledf();
717646f7SJordan Paige Hendricks	*tsc = (uint64_t)hrt;
717646f7SJordan Paige Hendricks	*hrtime = hrt;
717646f7SJordan Paige Hendricks	scalehrtime(hrtime);
717646f7SJordan Paige Hendricks	gethrestime(hrestime);
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	intr_restore(iflag);
717646f7SJordan Paige Hendricks}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * Read VMM Time data
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * Provides:
717646f7SJordan Paige Hendricks * - the current guest TSC and TSC frequency
717646f7SJordan Paige Hendricks * - guest boot_hrtime
717646f7SJordan Paige Hendricks * - timestamps of the read (hrtime and wall clock time)
717646f7SJordan Paige Hendricks */
717646f7SJordan Paige Hendricksstatic int
717646f7SJordan Paige Hendricksvmm_data_read_vmm_time(void *arg, const vmm_data_req_t *req)
717646f7SJordan Paige Hendricks{
717646f7SJordan Paige Hendricks	VERIFY3U(req->vdr_class, ==, VDC_VMM_TIME);
717646f7SJordan Paige Hendricks	VERIFY3U(req->vdr_version, ==, 1);
717646f7SJordan Paige Hendricks	VERIFY3U(req->vdr_len, >=, sizeof (struct vdi_time_info_v1));
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	struct vm *vm = arg;
717646f7SJordan Paige Hendricks	struct vdi_time_info_v1 *out = req->vdr_data;
717646f7SJordan Paige Hendricks
*4bd36be4SPatrick Mooney	/*
*4bd36be4SPatrick Mooney	 * Since write operations on VMM_TIME data are strict about vcpuid
*4bd36be4SPatrick Mooney	 * (see: vmm_data_write_vmm_time()), read operations should be as well.
*4bd36be4SPatrick Mooney	 */
*4bd36be4SPatrick Mooney	if (req->vdr_vcpuid != -1) {
*4bd36be4SPatrick Mooney		return (EINVAL);
*4bd36be4SPatrick Mooney	}
*4bd36be4SPatrick Mooney
717646f7SJordan Paige Hendricks	/* Take a snapshot of this point in time */
717646f7SJordan Paige Hendricks	uint64_t tsc;
717646f7SJordan Paige Hendricks	hrtime_t hrtime;
717646f7SJordan Paige Hendricks	timespec_t hrestime;
717646f7SJordan Paige Hendricks	vmm_time_snapshot(&tsc, &hrtime, &hrestime);
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/* Write the output values */
717646f7SJordan Paige Hendricks	out->vt_guest_freq = vm->guest_freq;
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/*
717646f7SJordan Paige Hendricks	 * Use only the VM-wide TSC offset for calculating the guest TSC,
717646f7SJordan Paige Hendricks	 * ignoring per-vCPU offsets. This value is provided as a "base" guest
717646f7SJordan Paige Hendricks	 * TSC at the time of the read; per-vCPU offsets are factored in as
717646f7SJordan Paige Hendricks	 * needed elsewhere, either when running the vCPU or if the guest reads
717646f7SJordan Paige Hendricks	 * the TSC via rdmsr.
717646f7SJordan Paige Hendricks	 */
717646f7SJordan Paige Hendricks	out->vt_guest_tsc = calc_guest_tsc(tsc, vm->freq_multiplier,
717646f7SJordan Paige Hendricks	    vm->tsc_offset);
717646f7SJordan Paige Hendricks	out->vt_boot_hrtime = vm->boot_hrtime;
717646f7SJordan Paige Hendricks	out->vt_hrtime = hrtime;
717646f7SJordan Paige Hendricks	out->vt_hres_sec = hrestime.tv_sec;
717646f7SJordan Paige Hendricks	out->vt_hres_ns = hrestime.tv_nsec;
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	return (0);
717646f7SJordan Paige Hendricks}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks/*
717646f7SJordan Paige Hendricks * Modify VMM Time data related values
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * This interface serves to allow guests' TSC and device timers to continue
717646f7SJordan Paige Hendricks * functioning across live migrations. On a successful write, the VM-wide TSC
717646f7SJordan Paige Hendricks * offset and boot_hrtime of the guest are updated.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * The interface requires an hrtime of the system at which the caller wrote
717646f7SJordan Paige Hendricks * this data; this allows us to adjust the TSC and boot_hrtime slightly to
717646f7SJordan Paige Hendricks * account for time passing between the userspace call and application
717646f7SJordan Paige Hendricks * of the data here.
717646f7SJordan Paige Hendricks *
717646f7SJordan Paige Hendricks * There are several possibilities for invalid input, including:
717646f7SJordan Paige Hendricks * - a requested guest frequency of 0, or a frequency otherwise unsupported by
717646f7SJordan Paige Hendricks *   the underlying platform
717646f7SJordan Paige Hendricks * - hrtime or boot_hrtime values that appear to be from the future
717646f7SJordan Paige Hendricks * - the requested frequency does not match the host, and this system does not
717646f7SJordan Paige Hendricks *   have hardware TSC scaling support
717646f7SJordan Paige Hendricks */
717646f7SJordan Paige Hendricksstatic int
717646f7SJordan Paige Hendricksvmm_data_write_vmm_time(void *arg, const vmm_data_req_t *req)
717646f7SJordan Paige Hendricks{
717646f7SJordan Paige Hendricks	VERIFY3U(req->vdr_class, ==, VDC_VMM_TIME);
717646f7SJordan Paige Hendricks	VERIFY3U(req->vdr_version, ==, 1);
717646f7SJordan Paige Hendricks	VERIFY3U(req->vdr_len, >=, sizeof (struct vdi_time_info_v1));
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	struct vm *vm = arg;
717646f7SJordan Paige Hendricks	const struct vdi_time_info_v1 *src = req->vdr_data;
717646f7SJordan Paige Hendricks
*4bd36be4SPatrick Mooney	/*
*4bd36be4SPatrick Mooney	 * While vcpuid values != -1 are tolerated by the vmm_data machinery for
*4bd36be4SPatrick Mooney	 * VM-wide endpoints, the time-related data is more strict: It relies on
*4bd36be4SPatrick Mooney	 * write-locking the VM (implied by the vcpuid -1) to prevent vCPUs or
*4bd36be4SPatrick Mooney	 * other bits from observing inconsistent values while the state is
*4bd36be4SPatrick Mooney	 * being written.
*4bd36be4SPatrick Mooney	 */
*4bd36be4SPatrick Mooney	if (req->vdr_vcpuid != -1) {
*4bd36be4SPatrick Mooney		return (EINVAL);
*4bd36be4SPatrick Mooney	}
*4bd36be4SPatrick Mooney
717646f7SJordan Paige Hendricks	/*
717646f7SJordan Paige Hendricks	 * Platform-specific checks will verify the requested frequency against
717646f7SJordan Paige Hendricks	 * the supported range further, but a frequency of 0 is never valid.
717646f7SJordan Paige Hendricks	 */
717646f7SJordan Paige Hendricks	if (src->vt_guest_freq == 0) {
717646f7SJordan Paige Hendricks		return (EINVAL);
717646f7SJordan Paige Hendricks	}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/*
717646f7SJordan Paige Hendricks	 * Check whether the request frequency is supported and get the
717646f7SJordan Paige Hendricks	 * frequency multiplier.
717646f7SJordan Paige Hendricks	 */
717646f7SJordan Paige Hendricks	uint64_t mult = VM_TSCM_NOSCALE;
717646f7SJordan Paige Hendricks	freqratio_res_t res = ops->vmfreqratio(src->vt_guest_freq,
717646f7SJordan Paige Hendricks	    vmm_host_freq, &mult);
717646f7SJordan Paige Hendricks	switch (res) {
717646f7SJordan Paige Hendricks	case FR_SCALING_NOT_SUPPORTED:
717646f7SJordan Paige Hendricks		/*
717646f7SJordan Paige Hendricks		 * This system doesn't support TSC scaling, and the guest/host
717646f7SJordan Paige Hendricks		 * frequencies differ
717646f7SJordan Paige Hendricks		 */
717646f7SJordan Paige Hendricks		return (EPERM);
717646f7SJordan Paige Hendricks	case FR_OUT_OF_RANGE:
717646f7SJordan Paige Hendricks		/* Requested frequency ratio is too small/large */
717646f7SJordan Paige Hendricks		return (EINVAL);
717646f7SJordan Paige Hendricks	case FR_SCALING_NOT_NEEDED:
717646f7SJordan Paige Hendricks		/* Host and guest frequencies are the same */
717646f7SJordan Paige Hendricks		VERIFY3U(mult, ==, VM_TSCM_NOSCALE);
717646f7SJordan Paige Hendricks		break;
717646f7SJordan Paige Hendricks	case FR_VALID:
717646f7SJordan Paige Hendricks		VERIFY3U(mult, !=, VM_TSCM_NOSCALE);
717646f7SJordan Paige Hendricks		break;
717646f7SJordan Paige Hendricks	}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/*
717646f7SJordan Paige Hendricks	 * Find (and validate) the hrtime delta between the input request and
717646f7SJordan Paige Hendricks	 * when we received it so that we can bump the TSC to account for time
717646f7SJordan Paige Hendricks	 * passing.
717646f7SJordan Paige Hendricks	 *
717646f7SJordan Paige Hendricks	 * We ignore the hrestime as input, as this is a field that
717646f7SJordan Paige Hendricks	 * exists for reads.
717646f7SJordan Paige Hendricks	 */
717646f7SJordan Paige Hendricks	uint64_t tsc;
717646f7SJordan Paige Hendricks	hrtime_t hrtime;
717646f7SJordan Paige Hendricks	timespec_t hrestime;
717646f7SJordan Paige Hendricks	vmm_time_snapshot(&tsc, &hrtime, &hrestime);
717646f7SJordan Paige Hendricks	if ((src->vt_hrtime > hrtime) || (src->vt_boot_hrtime > hrtime)) {
717646f7SJordan Paige Hendricks		/*
717646f7SJordan Paige Hendricks		 * The caller has passed in an hrtime / boot_hrtime from the
717646f7SJordan Paige Hendricks		 * future.
717646f7SJordan Paige Hendricks		 */
717646f7SJordan Paige Hendricks		return (EINVAL);
717646f7SJordan Paige Hendricks	}
717646f7SJordan Paige Hendricks	hrtime_t hrt_delta = hrtime - src->vt_hrtime;
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/* Calculate guest TSC adjustment */
717646f7SJordan Paige Hendricks	const uint64_t host_ticks = unscalehrtime(hrt_delta);
717646f7SJordan Paige Hendricks	const uint64_t guest_ticks = vmm_scale_tsc(host_ticks,
717646f7SJordan Paige Hendricks	    vm->freq_multiplier);
717646f7SJordan Paige Hendricks	const uint64_t base_guest_tsc = src->vt_guest_tsc + guest_ticks;
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	/* Update guest time data */
717646f7SJordan Paige Hendricks	vm->freq_multiplier = mult;
717646f7SJordan Paige Hendricks	vm->guest_freq = src->vt_guest_freq;
717646f7SJordan Paige Hendricks	vm->boot_hrtime = src->vt_boot_hrtime;
717646f7SJordan Paige Hendricks	vm->tsc_offset = calc_tsc_offset(tsc, base_guest_tsc,
717646f7SJordan Paige Hendricks	    vm->freq_multiplier);
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks	return (0);
717646f7SJordan Paige Hendricks}
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricksstatic const vmm_data_version_entry_t vmm_time_v1 = {
717646f7SJordan Paige Hendricks	.vdve_class = VDC_VMM_TIME,
717646f7SJordan Paige Hendricks	.vdve_version = 1,
717646f7SJordan Paige Hendricks	.vdve_len_expect = sizeof (struct vdi_time_info_v1),
717646f7SJordan Paige Hendricks	.vdve_readf = vmm_data_read_vmm_time,
717646f7SJordan Paige Hendricks	.vdve_writef = vmm_data_write_vmm_time,
717646f7SJordan Paige Hendricks};
717646f7SJordan Paige HendricksVMM_DATA_VERSION(vmm_time_v1);
717646f7SJordan Paige Hendricks
717646f7SJordan Paige Hendricks
54cf5b63SPatrick Mooneystatic int
54cf5b63SPatrick Mooneyvmm_data_read_versions(void *arg, const vmm_data_req_t *req)
54cf5b63SPatrick Mooney{
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_class, ==, VDC_VERSION);
54cf5b63SPatrick Mooney	VERIFY3U(req->vdr_version, ==, 1);
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	const uint32_t total_size = SET_COUNT(vmm_data_version_entries) *
54cf5b63SPatrick Mooney	    sizeof (struct vdi_version_entry_v1);
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	/* Make sure there is room for all of the entries */
54cf5b63SPatrick Mooney	*req->vdr_result_len = total_size;
54cf5b63SPatrick Mooney	if (req->vdr_len < *req->vdr_result_len) {
54cf5b63SPatrick Mooney		return (ENOSPC);
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney	struct vdi_version_entry_v1 *entryp = req->vdr_data;
54cf5b63SPatrick Mooney	const vmm_data_version_entry_t **vdpp;
54cf5b63SPatrick Mooney	SET_FOREACH(vdpp, vmm_data_version_entries) {
54cf5b63SPatrick Mooney		const vmm_data_version_entry_t *vdp = *vdpp;
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooney		entryp->vve_class = vdp->vdve_class;
54cf5b63SPatrick Mooney		entryp->vve_version = vdp->vdve_version;
54cf5b63SPatrick Mooney		entryp->vve_len_expect = vdp->vdve_len_expect;
54cf5b63SPatrick Mooney		entryp->vve_len_per_item = vdp->vdve_len_per_item;
54cf5b63SPatrick Mooney		entryp++;
54cf5b63SPatrick Mooney	}
54cf5b63SPatrick Mooney	return (0);
54cf5b63SPatrick Mooney}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic int
54cf5b63SPatrick Mooneyvmm_data_write_versions(void *arg, const vmm_data_req_t *req)
54cf5b63SPatrick Mooney{
54cf5b63SPatrick Mooney	/* Writing to the version information makes no sense */
54cf5b63SPatrick Mooney	return (EPERM);
54cf5b63SPatrick Mooney}
54cf5b63SPatrick Mooney
54cf5b63SPatrick Mooneystatic const vmm_data_version_entry_t versions_v1 = {
54cf5b63SPatrick Mooney	.vdve_class = VDC_VERSION,
54cf5b63SPatrick Mooney	.vdve_version = 1,
54cf5b63SPatrick Mooney	.vdve_len_per_item = sizeof (struct vdi_version_entry_v1),
54cf5b63SPatrick Mooney	.vdve_readf = vmm_data_read_versions,
54cf5b63SPatrick Mooney	.vdve_writef = vmm_data_write_versions,
54cf5b63SPatrick Mooney};
54cf5b63SPatrick MooneyVMM_DATA_VERSION(versions_v1);
54cf5b63SPatrick Mooney
d515dd77SPatrick Mooneyint
*4bd36be4SPatrick Mooneyvmm_data_read(struct vm *vm, const vmm_data_req_t *req)
d515dd77SPatrick Mooney{
d515dd77SPatrick Mooney	int err = 0;
d515dd77SPatrick Mooney
54cf5b63SPatrick Mooney	const vmm_data_version_entry_t *entry = NULL;
*4bd36be4SPatrick Mooney	err = vmm_data_find(req, &entry);
54cf5b63SPatrick Mooney	if (err != 0) {
d515dd77SPatrick Mooney		return (err);
d515dd77SPatrick Mooney	}
54cf5b63SPatrick Mooney	ASSERT(entry != NULL);
d515dd77SPatrick Mooney
ad4335f7SPatrick Mooney	if (entry->vdve_readf != NULL) {
2c83e262SPatrick Mooney		void *datap = vmm_data_from_class(req, vm);
54cf5b63SPatrick Mooney
ad4335f7SPatrick Mooney		err = entry->vdve_readf(datap, req);
ad4335f7SPatrick Mooney	} else if (entry->vdve_vcpu_readf != NULL) {
*4bd36be4SPatrick Mooney		err = entry->vdve_vcpu_readf(vm, req->vdr_vcpuid, req);
d515dd77SPatrick Mooney	} else {
ad4335f7SPatrick Mooney		err = EINVAL;
ad4335f7SPatrick Mooney	}
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney	/*
ad4335f7SPatrick Mooney	 * Successful reads of fixed-length data should populate the length of
ad4335f7SPatrick Mooney	 * that result.
ad4335f7SPatrick Mooney	 */
ad4335f7SPatrick Mooney	if (err == 0 && entry->vdve_len_expect != 0) {
ad4335f7SPatrick Mooney		*req->vdr_result_len = entry->vdve_len_expect;
d515dd77SPatrick Mooney	}
d515dd77SPatrick Mooney
d515dd77SPatrick Mooney	return (err);
d515dd77SPatrick Mooney}
d515dd77SPatrick Mooney
d515dd77SPatrick Mooneyint
*4bd36be4SPatrick Mooneyvmm_data_write(struct vm *vm, const vmm_data_req_t *req)
d515dd77SPatrick Mooney{
d515dd77SPatrick Mooney	int err = 0;
d515dd77SPatrick Mooney
54cf5b63SPatrick Mooney	const vmm_data_version_entry_t *entry = NULL;
*4bd36be4SPatrick Mooney	err = vmm_data_find(req, &entry);
54cf5b63SPatrick Mooney	if (err != 0) {
d515dd77SPatrick Mooney		return (err);
d515dd77SPatrick Mooney	}
54cf5b63SPatrick Mooney	ASSERT(entry != NULL);
d515dd77SPatrick Mooney
ad4335f7SPatrick Mooney	if (entry->vdve_writef != NULL) {
2c83e262SPatrick Mooney		void *datap = vmm_data_from_class(req, vm);
ad4335f7SPatrick Mooney
d515dd77SPatrick Mooney		err = entry->vdve_writef(datap, req);
ad4335f7SPatrick Mooney	} else if (entry->vdve_vcpu_writef != NULL) {
*4bd36be4SPatrick Mooney		err = entry->vdve_vcpu_writef(vm, req->vdr_vcpuid, req);
d515dd77SPatrick Mooney	} else {
ad4335f7SPatrick Mooney		err = EINVAL;
ad4335f7SPatrick Mooney	}
ad4335f7SPatrick Mooney
ad4335f7SPatrick Mooney	/*
ad4335f7SPatrick Mooney	 * Successful writes of fixed-length data should populate the length of
ad4335f7SPatrick Mooney	 * that result.
ad4335f7SPatrick Mooney	 */
ad4335f7SPatrick Mooney	if (err == 0 && entry->vdve_len_expect != 0) {
ad4335f7SPatrick Mooney		*req->vdr_result_len = entry->vdve_len_expect;
d515dd77SPatrick Mooney	}
d515dd77SPatrick Mooney
d515dd77SPatrick Mooney	return (err);
d515dd77SPatrick Mooney}