dev/nvmm/nvmm.c

1.21  maxv /*	$NetBSD: nvmm.c,v 1.21 2019/05/11 07:31:56 maxv Exp $	*/
 1.1  maxv
 1.1  maxv /*
1.14  maxv  * Copyright (c) 2018-2019 The NetBSD Foundation, Inc.
 1.1  maxv  * All rights reserved.
 1.1  maxv  *
 1.1  maxv  * This code is derived from software contributed to The NetBSD Foundation
 1.1  maxv  * by Maxime Villard.
 1.1  maxv  *
 1.1  maxv  * Redistribution and use in source and binary forms, with or without
 1.1  maxv  * modification, are permitted provided that the following conditions
 1.1  maxv  * are met:
 1.1  maxv  * 1. Redistributions of source code must retain the above copyright
 1.1  maxv  *    notice, this list of conditions and the following disclaimer.
 1.1  maxv  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  maxv  *    notice, this list of conditions and the following disclaimer in the
 1.1  maxv  *    documentation and/or other materials provided with the distribution.
 1.1  maxv  *
 1.1  maxv  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1  maxv  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1  maxv  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1  maxv  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1  maxv  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1  maxv  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1  maxv  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1  maxv  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1  maxv  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1  maxv  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1  maxv  * POSSIBILITY OF SUCH DAMAGE.
 1.1  maxv  */
 1.1  maxv
 1.1  maxv #include <sys/cdefs.h>
1.21  maxv __KERNEL_RCSID(0, "$NetBSD: nvmm.c,v 1.21 2019/05/11 07:31:56 maxv Exp $");
 1.1  maxv
 1.1  maxv #include <sys/param.h>
 1.1  maxv #include <sys/systm.h>
 1.1  maxv #include <sys/kernel.h>
 1.1  maxv
 1.1  maxv #include <sys/cpu.h>
 1.1  maxv #include <sys/conf.h>
 1.1  maxv #include <sys/kmem.h>
 1.1  maxv #include <sys/module.h>
 1.1  maxv #include <sys/proc.h>
1.11  maxv #include <sys/mman.h>
1.14  maxv #include <sys/file.h>
1.14  maxv #include <sys/filedesc.h>
1.17  maxv #include <sys/kauth.h>
 1.1  maxv
 1.1  maxv #include <uvm/uvm.h>
 1.1  maxv #include <uvm/uvm_page.h>
 1.1  maxv
 1.1  maxv #include "ioconf.h"
 1.1  maxv
 1.1  maxv #include <dev/nvmm/nvmm.h>
 1.1  maxv #include <dev/nvmm/nvmm_internal.h>
 1.1  maxv #include <dev/nvmm/nvmm_ioctl.h>
 1.1  maxv
 1.1  maxv static struct nvmm_machine machines[NVMM_MAX_MACHINES];
1.13  maxv static volatile unsigned int nmachines __cacheline_aligned;
 1.1  maxv
 1.1  maxv static const struct nvmm_impl *nvmm_impl_list[] = {
 1.7  maxv 	&nvmm_x86_svm,	/* x86 AMD SVM */
 1.7  maxv 	&nvmm_x86_vmx	/* x86 Intel VMX */
 1.1  maxv };
 1.1  maxv
 1.1  maxv static const struct nvmm_impl *nvmm_impl = NULL;
 1.1  maxv
1.17  maxv static struct nvmm_owner root_owner;
1.17  maxv
 1.1  maxv /* -------------------------------------------------------------------------- */
 1.1  maxv
 1.1  maxv static int
 1.1  maxv nvmm_machine_alloc(struct nvmm_machine **ret)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	size_t i;
 1.1  maxv
 1.1  maxv 	for (i = 0; i < NVMM_MAX_MACHINES; i++) {
 1.1  maxv 		mach = &machines[i];
 1.1  maxv
 1.1  maxv 		rw_enter(&mach->lock, RW_WRITER);
 1.1  maxv 		if (mach->present) {
 1.1  maxv 			rw_exit(&mach->lock);
 1.1  maxv 			continue;
 1.1  maxv 		}
 1.1  maxv
 1.1  maxv 		mach->present = true;
1.17  maxv 		mach->time = time_second;
 1.1  maxv 		*ret = mach;
1.13  maxv 		atomic_inc_uint(&nmachines);
 1.1  maxv 		return 0;
 1.1  maxv 	}
 1.1  maxv
 1.1  maxv 	return ENOBUFS;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static void
 1.1  maxv nvmm_machine_free(struct nvmm_machine *mach)
 1.1  maxv {
 1.1  maxv 	KASSERT(rw_write_held(&mach->lock));
 1.1  maxv 	KASSERT(mach->present);
 1.1  maxv 	mach->present = false;
1.13  maxv 	atomic_dec_uint(&nmachines);
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_machine_get(struct nvmm_owner *owner, nvmm_machid_t machid,
1.14  maxv     struct nvmm_machine **ret, bool writer)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	krw_t op = writer ? RW_WRITER : RW_READER;
 1.1  maxv
 1.1  maxv 	if (machid >= NVMM_MAX_MACHINES) {
 1.1  maxv 		return EINVAL;
 1.1  maxv 	}
 1.1  maxv 	mach = &machines[machid];
 1.1  maxv
 1.1  maxv 	rw_enter(&mach->lock, op);
 1.1  maxv 	if (!mach->present) {
 1.1  maxv 		rw_exit(&mach->lock);
 1.1  maxv 		return ENOENT;
 1.1  maxv 	}
1.17  maxv 	if (owner != &root_owner && mach->owner != owner) {
 1.1  maxv 		rw_exit(&mach->lock);
 1.1  maxv 		return EPERM;
 1.1  maxv 	}
 1.1  maxv 	*ret = mach;
 1.1  maxv
 1.1  maxv 	return 0;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static void
 1.1  maxv nvmm_machine_put(struct nvmm_machine *mach)
 1.1  maxv {
 1.1  maxv 	rw_exit(&mach->lock);
 1.1  maxv }
 1.1  maxv
 1.1  maxv /* -------------------------------------------------------------------------- */
 1.1  maxv
 1.1  maxv static int
1.18  maxv nvmm_vcpu_alloc(struct nvmm_machine *mach, nvmm_cpuid_t cpuid,
1.18  maxv     struct nvmm_cpu **ret)
 1.1  maxv {
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv
1.18  maxv 	if (cpuid >= NVMM_MAX_VCPUS) {
1.18  maxv 		return EINVAL;
1.18  maxv 	}
1.18  maxv 	vcpu = &mach->cpus[cpuid];
 1.1  maxv
1.18  maxv 	mutex_enter(&vcpu->lock);
1.18  maxv 	if (vcpu->present) {
1.18  maxv 		mutex_exit(&vcpu->lock);
1.18  maxv 		return EBUSY;
 1.1  maxv 	}
 1.1  maxv
1.18  maxv 	vcpu->present = true;
1.19  maxv 	vcpu->comm = NULL;
1.18  maxv 	vcpu->hcpu_last = -1;
1.18  maxv 	*ret = vcpu;
1.18  maxv 	return 0;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static void
 1.1  maxv nvmm_vcpu_free(struct nvmm_machine *mach, struct nvmm_cpu *vcpu)
 1.1  maxv {
 1.1  maxv 	KASSERT(mutex_owned(&vcpu->lock));
 1.1  maxv 	vcpu->present = false;
1.19  maxv 	if (vcpu->comm != NULL) {
1.19  maxv 		uvm_deallocate(kernel_map, (vaddr_t)vcpu->comm, PAGE_SIZE);
1.19  maxv 	}
 1.1  maxv }
 1.1  maxv
 1.1  maxv int
 1.1  maxv nvmm_vcpu_get(struct nvmm_machine *mach, nvmm_cpuid_t cpuid,
 1.1  maxv     struct nvmm_cpu **ret)
 1.1  maxv {
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv
 1.1  maxv 	if (cpuid >= NVMM_MAX_VCPUS) {
 1.1  maxv 		return EINVAL;
 1.1  maxv 	}
 1.1  maxv 	vcpu = &mach->cpus[cpuid];
 1.1  maxv
 1.1  maxv 	mutex_enter(&vcpu->lock);
 1.1  maxv 	if (!vcpu->present) {
 1.1  maxv 		mutex_exit(&vcpu->lock);
 1.1  maxv 		return ENOENT;
 1.1  maxv 	}
 1.1  maxv 	*ret = vcpu;
 1.1  maxv
 1.1  maxv 	return 0;
 1.1  maxv }
 1.1  maxv
 1.1  maxv void
 1.1  maxv nvmm_vcpu_put(struct nvmm_cpu *vcpu)
 1.1  maxv {
 1.1  maxv 	mutex_exit(&vcpu->lock);
 1.1  maxv }
 1.1  maxv
 1.1  maxv /* -------------------------------------------------------------------------- */
 1.1  maxv
 1.1  maxv static void
1.14  maxv nvmm_kill_machines(struct nvmm_owner *owner)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv 	size_t i, j;
 1.1  maxv 	int error;
 1.1  maxv
 1.1  maxv 	for (i = 0; i < NVMM_MAX_MACHINES; i++) {
 1.1  maxv 		mach = &machines[i];
 1.1  maxv
 1.1  maxv 		rw_enter(&mach->lock, RW_WRITER);
1.14  maxv 		if (!mach->present || mach->owner != owner) {
 1.1  maxv 			rw_exit(&mach->lock);
 1.1  maxv 			continue;
 1.1  maxv 		}
 1.1  maxv
 1.1  maxv 		/* Kill it. */
 1.1  maxv 		for (j = 0; j < NVMM_MAX_VCPUS; j++) {
 1.1  maxv 			error = nvmm_vcpu_get(mach, j, &vcpu);
 1.1  maxv 			if (error)
 1.1  maxv 				continue;
 1.1  maxv 			(*nvmm_impl->vcpu_destroy)(mach, vcpu);
 1.1  maxv 			nvmm_vcpu_free(mach, vcpu);
 1.1  maxv 			nvmm_vcpu_put(vcpu);
 1.1  maxv 		}
1.15  maxv 		(*nvmm_impl->machine_destroy)(mach);
 1.1  maxv 		uvmspace_free(mach->vm);
 1.4  maxv
 1.4  maxv 		/* Drop the kernel UOBJ refs. */
 1.9  maxv 		for (j = 0; j < NVMM_MAX_HMAPPINGS; j++) {
 1.9  maxv 			if (!mach->hmap[j].present)
 1.4  maxv 				continue;
 1.9  maxv 			uao_detach(mach->hmap[j].uobj);
 1.4  maxv 		}
 1.4  maxv
 1.1  maxv 		nvmm_machine_free(mach);
 1.1  maxv
 1.1  maxv 		rw_exit(&mach->lock);
 1.1  maxv 	}
 1.1  maxv }
 1.1  maxv
 1.1  maxv /* -------------------------------------------------------------------------- */
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_capability(struct nvmm_owner *owner, struct nvmm_ioc_capability *args)
 1.1  maxv {
 1.1  maxv 	args->cap.version = NVMM_CAPABILITY_VERSION;
 1.1  maxv 	args->cap.state_size = nvmm_impl->state_size;
 1.1  maxv 	args->cap.max_machines = NVMM_MAX_MACHINES;
 1.1  maxv 	args->cap.max_vcpus = NVMM_MAX_VCPUS;
 1.1  maxv 	args->cap.max_ram = NVMM_MAX_RAM;
 1.1  maxv
 1.1  maxv 	(*nvmm_impl->capability)(&args->cap);
 1.1  maxv
 1.1  maxv 	return 0;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_machine_create(struct nvmm_owner *owner,
1.14  maxv     struct nvmm_ioc_machine_create *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	int error;
 1.1  maxv
 1.1  maxv 	error = nvmm_machine_alloc(&mach);
 1.1  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
 1.1  maxv 	/* Curproc owns the machine. */
1.14  maxv 	mach->owner = owner;
 1.1  maxv
 1.9  maxv 	/* Zero out the host mappings. */
 1.9  maxv 	memset(&mach->hmap, 0, sizeof(mach->hmap));
 1.4  maxv
 1.1  maxv 	/* Create the machine vmspace. */
 1.1  maxv 	mach->gpa_begin = 0;
 1.1  maxv 	mach->gpa_end = NVMM_MAX_RAM;
 1.1  maxv 	mach->vm = uvmspace_alloc(0, mach->gpa_end - mach->gpa_begin, false);
 1.1  maxv
1.19  maxv 	/* Create the comm uobj. */
1.19  maxv 	mach->commuobj = uao_create(NVMM_MAX_VCPUS * PAGE_SIZE, 0);
1.19  maxv
 1.1  maxv 	(*nvmm_impl->machine_create)(mach);
 1.1  maxv
 1.1  maxv 	args->machid = mach->machid;
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv
 1.1  maxv 	return 0;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_machine_destroy(struct nvmm_owner *owner,
1.14  maxv     struct nvmm_ioc_machine_destroy *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv 	int error;
 1.1  maxv 	size_t i;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, true);
 1.1  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
 1.1  maxv 	for (i = 0; i < NVMM_MAX_VCPUS; i++) {
 1.1  maxv 		error = nvmm_vcpu_get(mach, i, &vcpu);
 1.1  maxv 		if (error)
 1.1  maxv 			continue;
 1.1  maxv
 1.1  maxv 		(*nvmm_impl->vcpu_destroy)(mach, vcpu);
 1.1  maxv 		nvmm_vcpu_free(mach, vcpu);
 1.1  maxv 		nvmm_vcpu_put(vcpu);
 1.1  maxv 	}
 1.1  maxv
 1.1  maxv 	(*nvmm_impl->machine_destroy)(mach);
 1.1  maxv
 1.1  maxv 	/* Free the machine vmspace. */
 1.1  maxv 	uvmspace_free(mach->vm);
 1.4  maxv
 1.4  maxv 	/* Drop the kernel UOBJ refs. */
 1.9  maxv 	for (i = 0; i < NVMM_MAX_HMAPPINGS; i++) {
 1.9  maxv 		if (!mach->hmap[i].present)
 1.4  maxv 			continue;
 1.9  maxv 		uao_detach(mach->hmap[i].uobj);
 1.4  maxv 	}
 1.1  maxv
 1.1  maxv 	nvmm_machine_free(mach);
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv
 1.1  maxv 	return 0;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_machine_configure(struct nvmm_owner *owner,
1.14  maxv     struct nvmm_ioc_machine_configure *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	size_t allocsz;
1.21  maxv 	uint64_t op;
 1.1  maxv 	void *data;
 1.1  maxv 	int error;
 1.1  maxv
1.21  maxv 	op = NVMM_MACH_CONF_MD(args->op);
1.21  maxv 	if (__predict_false(op >= nvmm_impl->conf_max)) {
 1.1  maxv 		return EINVAL;
 1.1  maxv 	}
 1.1  maxv
1.21  maxv 	allocsz = nvmm_impl->conf_sizes[op];
 1.1  maxv 	data = kmem_alloc(allocsz, KM_SLEEP);
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, true);
 1.1  maxv 	if (error) {
 1.1  maxv 		kmem_free(data, allocsz);
 1.1  maxv 		return error;
 1.1  maxv 	}
 1.1  maxv
 1.1  maxv 	error = copyin(args->conf, data, allocsz);
 1.1  maxv 	if (error) {
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv
1.21  maxv 	error = (*nvmm_impl->machine_configure)(mach, op, data);
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	kmem_free(data, allocsz);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_vcpu_create(struct nvmm_owner *owner, struct nvmm_ioc_vcpu_create *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv 	int error;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, false);
 1.1  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
1.18  maxv 	error = nvmm_vcpu_alloc(mach, args->cpuid, &vcpu);
 1.1  maxv 	if (error)
 1.1  maxv 		goto out;
 1.1  maxv
1.19  maxv 	/* Allocate the comm page. */
1.19  maxv 	uao_reference(mach->commuobj);
1.19  maxv 	error = uvm_map(kernel_map, (vaddr_t *)&vcpu->comm, PAGE_SIZE,
1.19  maxv 	    mach->commuobj, args->cpuid * PAGE_SIZE, 0, UVM_MAPFLAG(UVM_PROT_RW,
1.19  maxv 	    UVM_PROT_RW, UVM_INH_SHARE, UVM_ADV_RANDOM, 0));
1.19  maxv 	if (error) {
1.19  maxv 		uao_detach(mach->commuobj);
1.19  maxv 		nvmm_vcpu_free(mach, vcpu);
1.19  maxv 		nvmm_vcpu_put(vcpu);
1.19  maxv 		goto out;
1.19  maxv 	}
1.19  maxv 	error = uvm_map_pageable(kernel_map, (vaddr_t)vcpu->comm,
1.19  maxv 	    (vaddr_t)vcpu->comm + PAGE_SIZE, false, 0);
1.19  maxv 	if (error) {
1.19  maxv 		nvmm_vcpu_free(mach, vcpu);
1.19  maxv 		nvmm_vcpu_put(vcpu);
1.19  maxv 		goto out;
1.19  maxv 	}
1.19  maxv 	memset(vcpu->comm, 0, PAGE_SIZE);
1.19  maxv
 1.1  maxv 	error = (*nvmm_impl->vcpu_create)(mach, vcpu);
 1.1  maxv 	if (error) {
 1.1  maxv 		nvmm_vcpu_free(mach, vcpu);
 1.1  maxv 		nvmm_vcpu_put(vcpu);
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv
 1.1  maxv 	nvmm_vcpu_put(vcpu);
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_vcpu_destroy(struct nvmm_owner *owner, struct nvmm_ioc_vcpu_destroy *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv 	int error;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, false);
 1.1  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
 1.1  maxv 	error = nvmm_vcpu_get(mach, args->cpuid, &vcpu);
 1.1  maxv 	if (error)
 1.1  maxv 		goto out;
 1.1  maxv
 1.1  maxv 	(*nvmm_impl->vcpu_destroy)(mach, vcpu);
 1.1  maxv 	nvmm_vcpu_free(mach, vcpu);
 1.1  maxv 	nvmm_vcpu_put(vcpu);
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_vcpu_setstate(struct nvmm_owner *owner,
1.14  maxv     struct nvmm_ioc_vcpu_setstate *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv 	int error;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, false);
 1.6  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
 1.1  maxv 	error = nvmm_vcpu_get(mach, args->cpuid, &vcpu);
 1.1  maxv 	if (error)
 1.1  maxv 		goto out;
 1.1  maxv
1.19  maxv 	(*nvmm_impl->vcpu_setstate)(vcpu);
 1.1  maxv 	nvmm_vcpu_put(vcpu);
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_vcpu_getstate(struct nvmm_owner *owner,
1.14  maxv     struct nvmm_ioc_vcpu_getstate *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv 	int error;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, false);
 1.6  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
 1.1  maxv 	error = nvmm_vcpu_get(mach, args->cpuid, &vcpu);
 1.1  maxv 	if (error)
 1.1  maxv 		goto out;
 1.1  maxv
1.19  maxv 	(*nvmm_impl->vcpu_getstate)(vcpu);
 1.1  maxv 	nvmm_vcpu_put(vcpu);
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_vcpu_inject(struct nvmm_owner *owner, struct nvmm_ioc_vcpu_inject *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv 	int error;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, false);
 1.1  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
 1.1  maxv 	error = nvmm_vcpu_get(mach, args->cpuid, &vcpu);
 1.1  maxv 	if (error)
 1.1  maxv 		goto out;
 1.1  maxv
1.20  maxv 	error = (*nvmm_impl->vcpu_inject)(vcpu);
 1.1  maxv 	nvmm_vcpu_put(vcpu);
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.8  maxv static void
 1.8  maxv nvmm_do_vcpu_run(struct nvmm_machine *mach, struct nvmm_cpu *vcpu,
 1.8  maxv     struct nvmm_exit *exit)
 1.8  maxv {
 1.8  maxv 	struct vmspace *vm = mach->vm;
 1.8  maxv
 1.8  maxv 	while (1) {
 1.8  maxv 		(*nvmm_impl->vcpu_run)(mach, vcpu, exit);
 1.8  maxv
 1.8  maxv 		if (__predict_true(exit->reason != NVMM_EXIT_MEMORY)) {
 1.8  maxv 			break;
 1.8  maxv 		}
1.10  maxv 		if (exit->u.mem.gpa >= mach->gpa_end) {
1.10  maxv 			break;
1.10  maxv 		}
1.11  maxv 		if (uvm_fault(&vm->vm_map, exit->u.mem.gpa, exit->u.mem.prot)) {
 1.8  maxv 			break;
 1.8  maxv 		}
 1.8  maxv 	}
 1.8  maxv }
 1.8  maxv
 1.1  maxv static int
1.14  maxv nvmm_vcpu_run(struct nvmm_owner *owner, struct nvmm_ioc_vcpu_run *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	struct nvmm_cpu *vcpu;
 1.1  maxv 	int error;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, false);
 1.1  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
 1.1  maxv 	error = nvmm_vcpu_get(mach, args->cpuid, &vcpu);
 1.1  maxv 	if (error)
 1.1  maxv 		goto out;
 1.1  maxv
 1.8  maxv 	nvmm_do_vcpu_run(mach, vcpu, &args->exit);
 1.1  maxv 	nvmm_vcpu_put(vcpu);
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.1  maxv /* -------------------------------------------------------------------------- */
 1.1  maxv
 1.4  maxv static struct uvm_object *
 1.9  maxv nvmm_hmapping_getuobj(struct nvmm_machine *mach, uintptr_t hva, size_t size,
 1.4  maxv    size_t *off)
 1.4  maxv {
 1.9  maxv 	struct nvmm_hmapping *hmapping;
 1.4  maxv 	size_t i;
 1.4  maxv
 1.9  maxv 	for (i = 0; i < NVMM_MAX_HMAPPINGS; i++) {
 1.9  maxv 		hmapping = &mach->hmap[i];
 1.9  maxv 		if (!hmapping->present) {
 1.4  maxv 			continue;
 1.4  maxv 		}
 1.9  maxv 		if (hva >= hmapping->hva &&
 1.9  maxv 		    hva + size <= hmapping->hva + hmapping->size) {
 1.9  maxv 			*off = hva - hmapping->hva;
 1.9  maxv 			return hmapping->uobj;
 1.4  maxv 		}
 1.4  maxv 	}
 1.4  maxv
 1.4  maxv 	return NULL;
 1.4  maxv }
 1.4  maxv
 1.4  maxv static int
 1.9  maxv nvmm_hmapping_validate(struct nvmm_machine *mach, uintptr_t hva, size_t size)
 1.4  maxv {
 1.9  maxv 	struct nvmm_hmapping *hmapping;
 1.4  maxv 	size_t i;
 1.4  maxv
 1.4  maxv 	if ((hva % PAGE_SIZE) != 0 || (size % PAGE_SIZE) != 0) {
 1.4  maxv 		return EINVAL;
 1.4  maxv 	}
 1.4  maxv 	if (hva == 0) {
 1.4  maxv 		return EINVAL;
 1.4  maxv 	}
 1.4  maxv
 1.9  maxv 	for (i = 0; i < NVMM_MAX_HMAPPINGS; i++) {
 1.9  maxv 		hmapping = &mach->hmap[i];
 1.9  maxv 		if (!hmapping->present) {
 1.4  maxv 			continue;
 1.4  maxv 		}
 1.4  maxv
 1.9  maxv 		if (hva >= hmapping->hva &&
 1.9  maxv 		    hva + size <= hmapping->hva + hmapping->size) {
 1.4  maxv 			break;
 1.4  maxv 		}
 1.4  maxv
 1.9  maxv 		if (hva >= hmapping->hva &&
 1.9  maxv 		    hva < hmapping->hva + hmapping->size) {
 1.4  maxv 			return EEXIST;
 1.4  maxv 		}
 1.9  maxv 		if (hva + size > hmapping->hva &&
 1.9  maxv 		    hva + size <= hmapping->hva + hmapping->size) {
 1.4  maxv 			return EEXIST;
 1.4  maxv 		}
 1.9  maxv 		if (hva <= hmapping->hva &&
 1.9  maxv 		    hva + size >= hmapping->hva + hmapping->size) {
 1.4  maxv 			return EEXIST;
 1.4  maxv 		}
 1.4  maxv 	}
 1.4  maxv
 1.4  maxv 	return 0;
 1.4  maxv }
 1.4  maxv
 1.9  maxv static struct nvmm_hmapping *
 1.9  maxv nvmm_hmapping_alloc(struct nvmm_machine *mach)
 1.4  maxv {
 1.9  maxv 	struct nvmm_hmapping *hmapping;
 1.4  maxv 	size_t i;
 1.4  maxv
 1.9  maxv 	for (i = 0; i < NVMM_MAX_HMAPPINGS; i++) {
 1.9  maxv 		hmapping = &mach->hmap[i];
 1.9  maxv 		if (!hmapping->present) {
 1.9  maxv 			hmapping->present = true;
 1.9  maxv 			return hmapping;
 1.4  maxv 		}
 1.4  maxv 	}
 1.4  maxv
 1.4  maxv 	return NULL;
 1.4  maxv }
 1.4  maxv
 1.9  maxv static int
 1.9  maxv nvmm_hmapping_free(struct nvmm_machine *mach, uintptr_t hva, size_t size)
 1.4  maxv {
 1.4  maxv 	struct vmspace *vmspace = curproc->p_vmspace;
 1.9  maxv 	struct nvmm_hmapping *hmapping;
 1.9  maxv 	size_t i;
 1.4  maxv
 1.9  maxv 	for (i = 0; i < NVMM_MAX_HMAPPINGS; i++) {
 1.9  maxv 		hmapping = &mach->hmap[i];
 1.9  maxv 		if (!hmapping->present || hmapping->hva != hva ||
 1.9  maxv 		    hmapping->size != size) {
 1.9  maxv 			continue;
 1.9  maxv 		}
 1.9  maxv
 1.9  maxv 		uvm_unmap(&vmspace->vm_map, hmapping->hva,
 1.9  maxv 		    hmapping->hva + hmapping->size);
 1.9  maxv 		uao_detach(hmapping->uobj);
 1.4  maxv
 1.9  maxv 		hmapping->uobj = NULL;
 1.9  maxv 		hmapping->present = false;
 1.9  maxv
 1.9  maxv 		return 0;
 1.9  maxv 	}
 1.9  maxv
 1.9  maxv 	return ENOENT;
 1.4  maxv }
 1.4  maxv
 1.4  maxv static int
1.14  maxv nvmm_hva_map(struct nvmm_owner *owner, struct nvmm_ioc_hva_map *args)
 1.4  maxv {
 1.4  maxv 	struct vmspace *vmspace = curproc->p_vmspace;
 1.4  maxv 	struct nvmm_machine *mach;
 1.9  maxv 	struct nvmm_hmapping *hmapping;
 1.4  maxv 	vaddr_t uva;
 1.4  maxv 	int error;
 1.4  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, true);
 1.4  maxv 	if (error)
 1.4  maxv 		return error;
 1.4  maxv
 1.9  maxv 	error = nvmm_hmapping_validate(mach, args->hva, args->size);
 1.4  maxv 	if (error)
 1.4  maxv 		goto out;
 1.4  maxv
 1.9  maxv 	hmapping = nvmm_hmapping_alloc(mach);
 1.9  maxv 	if (hmapping == NULL) {
 1.4  maxv 		error = ENOBUFS;
 1.4  maxv 		goto out;
 1.4  maxv 	}
 1.4  maxv
 1.9  maxv 	hmapping->hva = args->hva;
 1.9  maxv 	hmapping->size = args->size;
 1.9  maxv 	hmapping->uobj = uao_create(hmapping->size, 0);
 1.9  maxv 	uva = hmapping->hva;
 1.4  maxv
 1.4  maxv 	/* Take a reference for the user. */
 1.9  maxv 	uao_reference(hmapping->uobj);
 1.4  maxv
 1.4  maxv 	/* Map the uobj into the user address space, as pageable. */
 1.9  maxv 	error = uvm_map(&vmspace->vm_map, &uva, hmapping->size, hmapping->uobj,
 1.9  maxv 	    0, 0, UVM_MAPFLAG(UVM_PROT_RW, UVM_PROT_RW, UVM_INH_SHARE,
 1.4  maxv 	    UVM_ADV_RANDOM, UVM_FLAG_FIXED|UVM_FLAG_UNMAP));
 1.4  maxv 	if (error) {
 1.9  maxv 		uao_detach(hmapping->uobj);
 1.4  maxv 	}
 1.4  maxv
 1.4  maxv out:
 1.4  maxv 	nvmm_machine_put(mach);
 1.4  maxv 	return error;
 1.4  maxv }
 1.4  maxv
 1.4  maxv static int
1.14  maxv nvmm_hva_unmap(struct nvmm_owner *owner, struct nvmm_ioc_hva_unmap *args)
 1.4  maxv {
 1.4  maxv 	struct nvmm_machine *mach;
 1.4  maxv 	int error;
 1.4  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, true);
 1.4  maxv 	if (error)
 1.4  maxv 		return error;
 1.4  maxv
 1.9  maxv 	error = nvmm_hmapping_free(mach, args->hva, args->size);
 1.4  maxv
 1.4  maxv 	nvmm_machine_put(mach);
 1.9  maxv 	return error;
 1.4  maxv }
 1.4  maxv
 1.4  maxv /* -------------------------------------------------------------------------- */
 1.4  maxv
 1.1  maxv static int
1.14  maxv nvmm_gpa_map(struct nvmm_owner *owner, struct nvmm_ioc_gpa_map *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.4  maxv 	struct uvm_object *uobj;
 1.1  maxv 	gpaddr_t gpa;
 1.4  maxv 	size_t off;
 1.1  maxv 	int error;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, false);
 1.1  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
1.11  maxv 	if ((args->prot & ~(PROT_READ|PROT_WRITE|PROT_EXEC)) != 0) {
1.11  maxv 		error = EINVAL;
1.11  maxv 		goto out;
1.11  maxv 	}
1.11  maxv
 1.1  maxv 	if ((args->gpa % PAGE_SIZE) != 0 || (args->size % PAGE_SIZE) != 0 ||
 1.1  maxv 	    (args->hva % PAGE_SIZE) != 0) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	if (args->hva == 0) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	if (args->gpa < mach->gpa_begin || args->gpa >= mach->gpa_end) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	if (args->gpa + args->size <= args->gpa) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.3  maxv 	if (args->gpa + args->size > mach->gpa_end) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	gpa = args->gpa;
 1.1  maxv
 1.9  maxv 	uobj = nvmm_hmapping_getuobj(mach, args->hva, args->size, &off);
 1.4  maxv 	if (uobj == NULL) {
 1.4  maxv 		error = EINVAL;
 1.4  maxv 		goto out;
 1.4  maxv 	}
 1.4  maxv
 1.4  maxv 	/* Take a reference for the machine. */
 1.4  maxv 	uao_reference(uobj);
 1.1  maxv
 1.1  maxv 	/* Map the uobj into the machine address space, as pageable. */
 1.4  maxv 	error = uvm_map(&mach->vm->vm_map, &gpa, args->size, uobj, off, 0,
1.11  maxv 	    UVM_MAPFLAG(args->prot, UVM_PROT_RWX, UVM_INH_NONE,
 1.4  maxv 	    UVM_ADV_RANDOM, UVM_FLAG_FIXED|UVM_FLAG_UNMAP));
 1.1  maxv 	if (error) {
 1.4  maxv 		uao_detach(uobj);
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	if (gpa != args->gpa) {
 1.4  maxv 		uao_detach(uobj);
 1.1  maxv 		printf("[!] uvm_map problem\n");
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_gpa_unmap(struct nvmm_owner *owner, struct nvmm_ioc_gpa_unmap *args)
 1.1  maxv {
 1.1  maxv 	struct nvmm_machine *mach;
 1.1  maxv 	gpaddr_t gpa;
 1.1  maxv 	int error;
 1.1  maxv
1.14  maxv 	error = nvmm_machine_get(owner, args->machid, &mach, false);
 1.1  maxv 	if (error)
 1.1  maxv 		return error;
 1.1  maxv
 1.1  maxv 	if ((args->gpa % PAGE_SIZE) != 0 || (args->size % PAGE_SIZE) != 0) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	if (args->gpa < mach->gpa_begin || args->gpa >= mach->gpa_end) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	if (args->gpa + args->size <= args->gpa) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	if (args->gpa + args->size >= mach->gpa_end) {
 1.1  maxv 		error = EINVAL;
 1.1  maxv 		goto out;
 1.1  maxv 	}
 1.1  maxv 	gpa = args->gpa;
 1.1  maxv
 1.1  maxv 	/* Unmap the memory from the machine. */
 1.1  maxv 	uvm_unmap(&mach->vm->vm_map, gpa, gpa + args->size);
 1.1  maxv
 1.1  maxv out:
 1.1  maxv 	nvmm_machine_put(mach);
 1.1  maxv 	return error;
 1.1  maxv }
 1.1  maxv
 1.1  maxv /* -------------------------------------------------------------------------- */
 1.1  maxv
 1.1  maxv static int
1.17  maxv nvmm_ctl_mach_info(struct nvmm_ioc_ctl *args)
1.17  maxv {
1.17  maxv 	struct nvmm_ctl_mach_info ctl;
1.17  maxv 	struct nvmm_machine *mach;
1.17  maxv 	struct nvmm_cpu *vcpu;
1.17  maxv 	int error;
1.17  maxv 	size_t i;
1.17  maxv
1.17  maxv 	if (args->size != sizeof(ctl))
1.17  maxv 		return EINVAL;
1.17  maxv 	error = copyin(args->data, &ctl, sizeof(ctl));
1.17  maxv 	if (error)
1.17  maxv 		return error;
1.17  maxv
1.17  maxv 	error = nvmm_machine_get(&root_owner, ctl.machid, &mach, true);
1.17  maxv 	if (error)
1.17  maxv 		return error;
1.17  maxv
1.17  maxv 	ctl.nvcpus = 0;
1.17  maxv 	for (i = 0; i < NVMM_MAX_VCPUS; i++) {
1.17  maxv 		error = nvmm_vcpu_get(mach, i, &vcpu);
1.17  maxv 		if (error)
1.17  maxv 			continue;
1.17  maxv 		ctl.nvcpus++;
1.17  maxv 		nvmm_vcpu_put(vcpu);
1.17  maxv 	}
1.17  maxv 	ctl.pid = mach->owner->pid;
1.17  maxv 	ctl.time = mach->time;
1.17  maxv
1.17  maxv 	nvmm_machine_put(mach);
1.17  maxv
1.17  maxv 	error = copyout(&ctl, args->data, sizeof(ctl));
1.17  maxv 	if (error)
1.17  maxv 		return error;
1.17  maxv
1.17  maxv 	return 0;
1.17  maxv }
1.17  maxv
1.17  maxv static int
1.17  maxv nvmm_ctl(struct nvmm_owner *owner, struct nvmm_ioc_ctl *args)
1.17  maxv {
1.17  maxv 	int error;
1.17  maxv
1.17  maxv 	error = kauth_authorize_device(curlwp->l_cred, KAUTH_DEVICE_NVMM_CTL,
1.17  maxv 	    NULL, NULL, NULL, NULL);
1.17  maxv 	if (error)
1.17  maxv 		return error;
1.17  maxv
1.17  maxv 	switch (args->op) {
1.17  maxv 	case NVMM_CTL_MACH_INFO:
1.17  maxv 		return nvmm_ctl_mach_info(args);
1.17  maxv 	default:
1.17  maxv 		return EINVAL;
1.17  maxv 	}
1.17  maxv }
1.17  maxv
1.17  maxv /* -------------------------------------------------------------------------- */
1.17  maxv
1.17  maxv static int
 1.1  maxv nvmm_init(void)
 1.1  maxv {
 1.1  maxv 	size_t i, n;
 1.1  maxv
 1.1  maxv 	for (i = 0; i < __arraycount(nvmm_impl_list); i++) {
 1.1  maxv 		if (!(*nvmm_impl_list[i]->ident)()) {
 1.1  maxv 			continue;
 1.1  maxv 		}
 1.1  maxv 		nvmm_impl = nvmm_impl_list[i];
 1.1  maxv 		break;
 1.1  maxv 	}
 1.1  maxv 	if (nvmm_impl == NULL) {
 1.1  maxv 		printf("[!] No implementation found\n");
 1.1  maxv 		return ENOTSUP;
 1.1  maxv 	}
 1.1  maxv
 1.1  maxv 	for (i = 0; i < NVMM_MAX_MACHINES; i++) {
 1.1  maxv 		machines[i].machid = i;
 1.1  maxv 		rw_init(&machines[i].lock);
 1.1  maxv 		for (n = 0; n < NVMM_MAX_VCPUS; n++) {
1.18  maxv 			machines[i].cpus[n].present = false;
1.18  maxv 			machines[i].cpus[n].cpuid = n;
 1.1  maxv 			mutex_init(&machines[i].cpus[n].lock, MUTEX_DEFAULT,
 1.1  maxv 			    IPL_NONE);
 1.1  maxv 		}
 1.1  maxv 	}
 1.1  maxv
 1.1  maxv 	(*nvmm_impl->init)();
 1.1  maxv
 1.1  maxv 	return 0;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static void
 1.1  maxv nvmm_fini(void)
 1.1  maxv {
 1.1  maxv 	size_t i, n;
 1.1  maxv
 1.1  maxv 	for (i = 0; i < NVMM_MAX_MACHINES; i++) {
 1.1  maxv 		rw_destroy(&machines[i].lock);
 1.1  maxv 		for (n = 0; n < NVMM_MAX_VCPUS; n++) {
 1.1  maxv 			mutex_destroy(&machines[i].cpus[n].lock);
 1.1  maxv 		}
 1.1  maxv 	}
 1.1  maxv
 1.1  maxv 	(*nvmm_impl->fini)();
 1.1  maxv }
 1.1  maxv
 1.1  maxv /* -------------------------------------------------------------------------- */
 1.1  maxv
1.14  maxv static dev_type_open(nvmm_open);
1.14  maxv
1.14  maxv const struct cdevsw nvmm_cdevsw = {
1.14  maxv 	.d_open = nvmm_open,
1.14  maxv 	.d_close = noclose,
1.14  maxv 	.d_read = noread,
1.14  maxv 	.d_write = nowrite,
1.14  maxv 	.d_ioctl = noioctl,
1.14  maxv 	.d_stop = nostop,
1.14  maxv 	.d_tty = notty,
1.14  maxv 	.d_poll = nopoll,
1.14  maxv 	.d_mmap = nommap,
1.14  maxv 	.d_kqfilter = nokqfilter,
1.14  maxv 	.d_discard = nodiscard,
1.14  maxv 	.d_flag = D_OTHER | D_MPSAFE
1.14  maxv };
1.14  maxv
1.14  maxv static int nvmm_ioctl(file_t *, u_long, void *);
1.14  maxv static int nvmm_close(file_t *);
1.19  maxv static int nvmm_mmap(file_t *, off_t *, size_t, int, int *, int *,
1.19  maxv     struct uvm_object **, int *);
1.14  maxv
1.14  maxv const struct fileops nvmm_fileops = {
1.14  maxv 	.fo_read = fbadop_read,
1.14  maxv 	.fo_write = fbadop_write,
1.14  maxv 	.fo_ioctl = nvmm_ioctl,
1.14  maxv 	.fo_fcntl = fnullop_fcntl,
1.14  maxv 	.fo_poll = fnullop_poll,
1.14  maxv 	.fo_stat = fbadop_stat,
1.14  maxv 	.fo_close = nvmm_close,
1.14  maxv 	.fo_kqfilter = fnullop_kqfilter,
1.14  maxv 	.fo_restart = fnullop_restart,
1.19  maxv 	.fo_mmap = nvmm_mmap,
1.14  maxv };
1.14  maxv
 1.1  maxv static int
 1.1  maxv nvmm_open(dev_t dev, int flags, int type, struct lwp *l)
 1.1  maxv {
1.14  maxv 	struct nvmm_owner *owner;
1.14  maxv 	struct file *fp;
1.14  maxv 	int error, fd;
1.14  maxv
1.14  maxv 	if (minor(dev) != 0)
 1.1  maxv 		return EXDEV;
1.14  maxv 	error = fd_allocfile(&fp, &fd);
1.14  maxv 	if (error)
1.14  maxv 		return error;
1.14  maxv
1.14  maxv 	owner = kmem_alloc(sizeof(*owner), KM_SLEEP);
1.14  maxv 	owner->pid = l->l_proc->p_pid;
 1.1  maxv
1.14  maxv 	return fd_clone(fp, fd, flags, &nvmm_fileops, owner);
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.14  maxv nvmm_close(file_t *fp)
 1.1  maxv {
1.14  maxv 	struct nvmm_owner *owner = fp->f_data;
 1.1  maxv
1.14  maxv 	KASSERT(owner != NULL);
1.14  maxv 	nvmm_kill_machines(owner);
1.14  maxv 	kmem_free(owner, sizeof(*owner));
1.14  maxv 	fp->f_data = NULL;
 1.1  maxv
1.14  maxv    	return 0;
 1.1  maxv }
 1.1  maxv
 1.1  maxv static int
1.19  maxv nvmm_mmap(file_t *fp, off_t *offp, size_t size, int prot, int *flagsp,
1.19  maxv     int *advicep, struct uvm_object **uobjp, int *maxprotp)
1.19  maxv {
1.19  maxv 	struct nvmm_owner *owner = fp->f_data;
1.19  maxv 	struct nvmm_machine *mach;
1.19  maxv 	nvmm_machid_t machid;
1.19  maxv 	nvmm_cpuid_t cpuid;
1.19  maxv 	int error;
1.19  maxv
1.19  maxv 	if (prot & PROT_EXEC)
1.19  maxv 		return EACCES;
1.19  maxv 	if (size != PAGE_SIZE)
1.19  maxv 		return EINVAL;
1.19  maxv
1.19  maxv 	cpuid = NVMM_COMM_CPUID(*offp);
1.19  maxv 	if (__predict_false(cpuid >= NVMM_MAX_VCPUS))
1.19  maxv 		return EINVAL;
1.19  maxv
1.19  maxv 	machid = NVMM_COMM_MACHID(*offp);
1.19  maxv 	error = nvmm_machine_get(owner, machid, &mach, false);
1.19  maxv 	if (error)
1.19  maxv 		return error;
1.19  maxv
1.19  maxv 	uao_reference(mach->commuobj);
1.19  maxv 	*uobjp = mach->commuobj;
1.19  maxv 	*offp = cpuid * PAGE_SIZE;
1.19  maxv 	*maxprotp = prot;
1.19  maxv 	*advicep = UVM_ADV_RANDOM;
1.19  maxv
1.19  maxv 	nvmm_machine_put(mach);
1.19  maxv 	return 0;
1.19  maxv }
1.19  maxv
1.19  maxv static int
1.14  maxv nvmm_ioctl(file_t *fp, u_long cmd, void *data)
 1.1  maxv {
1.14  maxv 	struct nvmm_owner *owner = fp->f_data;
1.14  maxv
1.14  maxv 	KASSERT(owner != NULL);
 1.1  maxv
 1.1  maxv 	switch (cmd) {
 1.1  maxv 	case NVMM_IOC_CAPABILITY:
1.14  maxv 		return nvmm_capability(owner, data);
 1.1  maxv 	case NVMM_IOC_MACHINE_CREATE:
1.14  maxv 		return nvmm_machine_create(owner, data);
 1.1  maxv 	case NVMM_IOC_MACHINE_DESTROY:
1.14  maxv 		return nvmm_machine_destroy(owner, data);
 1.1  maxv 	case NVMM_IOC_MACHINE_CONFIGURE:
1.14  maxv 		return nvmm_machine_configure(owner, data);
 1.1  maxv 	case NVMM_IOC_VCPU_CREATE:
1.14  maxv 		return nvmm_vcpu_create(owner, data);
 1.1  maxv 	case NVMM_IOC_VCPU_DESTROY:
1.14  maxv 		return nvmm_vcpu_destroy(owner, data);
 1.1  maxv 	case NVMM_IOC_VCPU_SETSTATE:
1.14  maxv 		return nvmm_vcpu_setstate(owner, data);
 1.1  maxv 	case NVMM_IOC_VCPU_GETSTATE:
1.14  maxv 		return nvmm_vcpu_getstate(owner, data);
 1.1  maxv 	case NVMM_IOC_VCPU_INJECT:
1.14  maxv 		return nvmm_vcpu_inject(owner, data);
 1.1  maxv 	case NVMM_IOC_VCPU_RUN:
1.14  maxv 		return nvmm_vcpu_run(owner, data);
 1.1  maxv 	case NVMM_IOC_GPA_MAP:
1.14  maxv 		return nvmm_gpa_map(owner, data);
 1.1  maxv 	case NVMM_IOC_GPA_UNMAP:
1.14  maxv 		return nvmm_gpa_unmap(owner, data);
 1.4  maxv 	case NVMM_IOC_HVA_MAP:
1.14  maxv 		return nvmm_hva_map(owner, data);
 1.4  maxv 	case NVMM_IOC_HVA_UNMAP:
1.14  maxv 		return nvmm_hva_unmap(owner, data);
1.17  maxv 	case NVMM_IOC_CTL:
1.17  maxv 		return nvmm_ctl(owner, data);
 1.1  maxv 	default:
 1.1  maxv 		return EINVAL;
 1.1  maxv 	}
 1.1  maxv }
 1.1  maxv
1.14  maxv /* -------------------------------------------------------------------------- */
 1.1  maxv
 1.1  maxv void
 1.1  maxv nvmmattach(int nunits)
 1.1  maxv {
 1.1  maxv 	/* nothing */
 1.1  maxv }
 1.1  maxv
1.16  maxv MODULE(MODULE_CLASS_MISC, nvmm, NULL);
 1.1  maxv
 1.1  maxv static int
 1.1  maxv nvmm_modcmd(modcmd_t cmd, void *arg)
 1.1  maxv {
 1.1  maxv 	int error;
 1.1  maxv
 1.1  maxv 	switch (cmd) {
 1.1  maxv 	case MODULE_CMD_INIT:
 1.1  maxv 		error = nvmm_init();
 1.1  maxv 		if (error)
 1.1  maxv 			return error;
 1.1  maxv
 1.1  maxv #if defined(_MODULE)
 1.1  maxv 		{
 1.1  maxv 			devmajor_t bmajor = NODEVMAJOR;
 1.1  maxv 			devmajor_t cmajor = 345;
 1.1  maxv
 1.1  maxv 			/* mknod /dev/nvmm c 345 0 */
 1.1  maxv 			error = devsw_attach("nvmm", NULL, &bmajor,
 1.1  maxv 			    &nvmm_cdevsw, &cmajor);
 1.1  maxv 			if (error) {
 1.1  maxv 				nvmm_fini();
 1.1  maxv 				return error;
 1.1  maxv 			}
 1.1  maxv 		}
 1.1  maxv #endif
 1.1  maxv 		return 0;
 1.1  maxv
 1.1  maxv 	case MODULE_CMD_FINI:
1.13  maxv 		if (nmachines > 0) {
1.13  maxv 			return EBUSY;
1.13  maxv 		}
 1.1  maxv #if defined(_MODULE)
 1.1  maxv 		{
 1.1  maxv 			error = devsw_detach(NULL, &nvmm_cdevsw);
 1.1  maxv 			if (error) {
 1.1  maxv 				return error;
 1.1  maxv 			}
 1.1  maxv 		}
 1.1  maxv #endif
 1.1  maxv 		nvmm_fini();
 1.1  maxv 		return 0;
 1.1  maxv
1.13  maxv 	case MODULE_CMD_AUTOUNLOAD:
1.13  maxv 		return EBUSY;
1.13  maxv
 1.1  maxv 	default:
 1.1  maxv 		return ENOTTY;
 1.1  maxv 	}
 1.1  maxv }