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/*-
* Copyright (c) 2011 NetApp, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY NETAPP, INC ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL NETAPP, INC OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/types.h>
#include <sys/mman.h>
#include <sys/time.h>
#include <machine/atomic.h>
#include <machine/segments.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <err.h>
#include <libgen.h>
#include <unistd.h>
#include <assert.h>
#include <errno.h>
#include <pthread.h>
#include <pthread_np.h>
#include <sysexits.h>
#include <stdbool.h>
#include <machine/vmm.h>
#include <vmmapi.h>
#include "bhyverun.h"
#include "acpi.h"
#include "atkbdc.h"
#include "inout.h"
#include "dbgport.h"
#include "fwctl.h"
#include "ioapic.h"
#include "mem.h"
#include "mevent.h"
#include "mptbl.h"
#include "pci_emul.h"
#include "pci_irq.h"
#include "pci_lpc.h"
#include "smbiostbl.h"
#include "xmsr.h"
#include "spinup_ap.h"
#include "rtc.h"
#define GUEST_NIO_PORT 0x488 /* guest upcalls via i/o port */
#define MB (1024UL * 1024)
#define GB (1024UL * MB)
typedef int (*vmexit_handler_t)(struct vmctx *, struct vm_exit *, int *vcpu);
extern int vmexit_task_switch(struct vmctx *, struct vm_exit *, int *vcpu);
char *vmname;
int guest_ncpus;
char *guest_uuid_str;
static int guest_vmexit_on_hlt, guest_vmexit_on_pause;
static int virtio_msix = 1;
static int x2apic_mode = 0; /* default is xAPIC */
static int strictio;
static int strictmsr = 1;
static int acpi;
static char *progname;
static const int BSP = 0;
static cpuset_t cpumask;
static void vm_loop(struct vmctx *ctx, int vcpu, uint64_t rip);
static struct vm_exit vmexit[VM_MAXCPU];
struct bhyvestats {
uint64_t vmexit_bogus;
uint64_t vmexit_reqidle;
uint64_t vmexit_hlt;
uint64_t vmexit_pause;
uint64_t vmexit_mtrap;
uint64_t vmexit_inst_emul;
uint64_t cpu_switch_rotate;
uint64_t cpu_switch_direct;
} stats;
struct mt_vmm_info {
pthread_t mt_thr;
struct vmctx *mt_ctx;
int mt_vcpu;
} mt_vmm_info[VM_MAXCPU];
static cpuset_t *vcpumap[VM_MAXCPU] = { NULL };
static void
usage(int code)
{
fprintf(stderr,
"Usage: %s [-abehuwxACHPSWY] [-c vcpus] [-g <gdb port>] [-l <lpc>]\n"
" %*s [-m mem] [-p vcpu:hostcpu] [-s <pci>] [-U uuid] <vm>\n"
" -a: local apic is in xAPIC mode (deprecated)\n"
" -A: create ACPI tables\n"
" -c: # cpus (default 1)\n"
" -C: include guest memory in core file\n"
" -e: exit on unhandled I/O access\n"
" -g: gdb port\n"
" -h: help\n"
" -H: vmexit from the guest on hlt\n"
" -l: LPC device configuration\n"
" -m: memory size in MB\n"
" -p: pin 'vcpu' to 'hostcpu'\n"
" -P: vmexit from the guest on pause\n"
" -s: <slot,driver,configinfo> PCI slot config\n"
" -S: guest memory cannot be swapped\n"
" -u: RTC keeps UTC time\n"
" -U: uuid\n"
" -w: ignore unimplemented MSRs\n"
" -W: force virtio to use single-vector MSI\n"
" -x: local apic is in x2APIC mode\n"
" -Y: disable MPtable generation\n",
progname, (int)strlen(progname), "");
exit(code);
}
static int
pincpu_parse(const char *opt)
{
int vcpu, pcpu;
if (sscanf(opt, "%d:%d", &vcpu, &pcpu) != 2) {
fprintf(stderr, "invalid format: %s\n", opt);
return (-1);
}
if (vcpu < 0 || vcpu >= VM_MAXCPU) {
fprintf(stderr, "vcpu '%d' outside valid range from 0 to %d\n",
vcpu, VM_MAXCPU - 1);
return (-1);
}
if (pcpu < 0 || pcpu >= CPU_SETSIZE) {
fprintf(stderr, "hostcpu '%d' outside valid range from "
"0 to %d\n", pcpu, CPU_SETSIZE - 1);
return (-1);
}
if (vcpumap[vcpu] == NULL) {
if ((vcpumap[vcpu] = malloc(sizeof(cpuset_t))) == NULL) {
perror("malloc");
return (-1);
}
CPU_ZERO(vcpumap[vcpu]);
}
CPU_SET(pcpu, vcpumap[vcpu]);
return (0);
}
void
vm_inject_fault(void *arg, int vcpu, int vector, int errcode_valid,
int errcode)
{
struct vmctx *ctx;
int error, restart_instruction;
ctx = arg;
restart_instruction = 1;
error = vm_inject_exception(ctx, vcpu, vector, errcode_valid, errcode,
restart_instruction);
assert(error == 0);
}
void *
paddr_guest2host(struct vmctx *ctx, uintptr_t gaddr, size_t len)
{
return (vm_map_gpa(ctx, gaddr, len));
}
int
fbsdrun_vmexit_on_pause(void)
{
return (guest_vmexit_on_pause);
}
int
fbsdrun_vmexit_on_hlt(void)
{
return (guest_vmexit_on_hlt);
}
int
fbsdrun_virtio_msix(void)
{
return (virtio_msix);
}
static void *
fbsdrun_start_thread(void *param)
{
char tname[MAXCOMLEN + 1];
struct mt_vmm_info *mtp;
int vcpu;
mtp = param;
vcpu = mtp->mt_vcpu;
snprintf(tname, sizeof(tname), "vcpu %d", vcpu);
pthread_set_name_np(mtp->mt_thr, tname);
vm_loop(mtp->mt_ctx, vcpu, vmexit[vcpu].rip);
/* not reached */
exit(1);
return (NULL);
}
void
fbsdrun_addcpu(struct vmctx *ctx, int fromcpu, int newcpu, uint64_t rip)
{
int error;
assert(fromcpu == BSP);
/*
* The 'newcpu' must be activated in the context of 'fromcpu'. If
* vm_activate_cpu() is delayed until newcpu's pthread starts running
* then vmm.ko is out-of-sync with bhyve and this can create a race
* with vm_suspend().
*/
error = vm_activate_cpu(ctx, newcpu);
if (error != 0)
err(EX_OSERR, "could not activate CPU %d", newcpu);
CPU_SET_ATOMIC(newcpu, &cpumask);
/*
* Set up the vmexit struct to allow execution to start
* at the given RIP
*/
vmexit[newcpu].rip = rip;
vmexit[newcpu].inst_length = 0;
mt_vmm_info[newcpu].mt_ctx = ctx;
mt_vmm_info[newcpu].mt_vcpu = newcpu;
error = pthread_create(&mt_vmm_info[newcpu].mt_thr, NULL,
fbsdrun_start_thread, &mt_vmm_info[newcpu]);
assert(error == 0);
}
static int
fbsdrun_deletecpu(struct vmctx *ctx, int vcpu)
{
if (!CPU_ISSET(vcpu, &cpumask)) {
fprintf(stderr, "Attempting to delete unknown cpu %d\n", vcpu);
exit(1);
}
CPU_CLR_ATOMIC(vcpu, &cpumask);
return (CPU_EMPTY(&cpumask));
}
static int
vmexit_handle_notify(struct vmctx *ctx, struct vm_exit *vme, int *pvcpu,
uint32_t eax)
{
#if BHYVE_DEBUG
/*
* put guest-driven debug here
*/
#endif
return (VMEXIT_CONTINUE);
}
static int
vmexit_inout(struct vmctx *ctx, struct vm_exit *vme, int *pvcpu)
{
int error;
int bytes, port, in, out;
int vcpu;
vcpu = *pvcpu;
port = vme->u.inout.port;
bytes = vme->u.inout.bytes;
in = vme->u.inout.in;
out = !in;
/* Extra-special case of host notifications */
if (out && port == GUEST_NIO_PORT) {
error = vmexit_handle_notify(ctx, vme, pvcpu, vme->u.inout.eax);
return (error);
}
error = emulate_inout(ctx, vcpu, vme, strictio);
if (error) {
fprintf(stderr, "Unhandled %s%c 0x%04x at 0x%lx\n",
in ? "in" : "out",
bytes == 1 ? 'b' : (bytes == 2 ? 'w' : 'l'),
port, vmexit->rip);
return (VMEXIT_ABORT);
} else {
return (VMEXIT_CONTINUE);
}
}
static int
vmexit_rdmsr(struct vmctx *ctx, struct vm_exit *vme, int *pvcpu)
{
uint64_t val;
uint32_t eax, edx;
int error;
val = 0;
error = emulate_rdmsr(ctx, *pvcpu, vme->u.msr.code, &val);
if (error != 0) {
fprintf(stderr, "rdmsr to register %#x on vcpu %d\n",
vme->u.msr.code, *pvcpu);
if (strictmsr) {
vm_inject_gp(ctx, *pvcpu);
return (VMEXIT_CONTINUE);
}
}
eax = val;
error = vm_set_register(ctx, *pvcpu, VM_REG_GUEST_RAX, eax);
assert(error == 0);
edx = val >> 32;
error = vm_set_register(ctx, *pvcpu, VM_REG_GUEST_RDX, edx);
assert(error == 0);
return (VMEXIT_CONTINUE);
}
static int
vmexit_wrmsr(struct vmctx *ctx, struct vm_exit *vme, int *pvcpu)
{
int error;
error = emulate_wrmsr(ctx, *pvcpu, vme->u.msr.code, vme->u.msr.wval);
if (error != 0) {
fprintf(stderr, "wrmsr to register %#x(%#lx) on vcpu %d\n",
vme->u.msr.code, vme->u.msr.wval, *pvcpu);
if (strictmsr) {
vm_inject_gp(ctx, *pvcpu);
return (VMEXIT_CONTINUE);
}
}
return (VMEXIT_CONTINUE);
}
static int
vmexit_spinup_ap(struct vmctx *ctx, struct vm_exit *vme, int *pvcpu)
{
(void)spinup_ap(ctx, *pvcpu,
vme->u.spinup_ap.vcpu, vme->u.spinup_ap.rip);
return (VMEXIT_CONTINUE);
}
#define DEBUG_EPT_MISCONFIG
#ifdef DEBUG_EPT_MISCONFIG
#define EXIT_REASON_EPT_MISCONFIG 49
#define VMCS_GUEST_PHYSICAL_ADDRESS 0x00002400
#define VMCS_IDENT(x) ((x) | 0x80000000)
static uint64_t ept_misconfig_gpa, ept_misconfig_pte[4];
static int ept_misconfig_ptenum;
#endif
static int
vmexit_vmx(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
fprintf(stderr, "vm exit[%d]\n", *pvcpu);
fprintf(stderr, "\treason\t\tVMX\n");
fprintf(stderr, "\trip\t\t0x%016lx\n", vmexit->rip);
fprintf(stderr, "\tinst_length\t%d\n", vmexit->inst_length);
fprintf(stderr, "\tstatus\t\t%d\n", vmexit->u.vmx.status);
fprintf(stderr, "\texit_reason\t%u\n", vmexit->u.vmx.exit_reason);
fprintf(stderr, "\tqualification\t0x%016lx\n",
vmexit->u.vmx.exit_qualification);
fprintf(stderr, "\tinst_type\t\t%d\n", vmexit->u.vmx.inst_type);
fprintf(stderr, "\tinst_error\t\t%d\n", vmexit->u.vmx.inst_error);
#ifdef DEBUG_EPT_MISCONFIG
if (vmexit->u.vmx.exit_reason == EXIT_REASON_EPT_MISCONFIG) {
vm_get_register(ctx, *pvcpu,
VMCS_IDENT(VMCS_GUEST_PHYSICAL_ADDRESS),
&ept_misconfig_gpa);
vm_get_gpa_pmap(ctx, ept_misconfig_gpa, ept_misconfig_pte,
&ept_misconfig_ptenum);
fprintf(stderr, "\tEPT misconfiguration:\n");
fprintf(stderr, "\t\tGPA: %#lx\n", ept_misconfig_gpa);
fprintf(stderr, "\t\tPTE(%d): %#lx %#lx %#lx %#lx\n",
ept_misconfig_ptenum, ept_misconfig_pte[0],
ept_misconfig_pte[1], ept_misconfig_pte[2],
ept_misconfig_pte[3]);
}
#endif /* DEBUG_EPT_MISCONFIG */
return (VMEXIT_ABORT);
}
static int
vmexit_svm(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
fprintf(stderr, "vm exit[%d]\n", *pvcpu);
fprintf(stderr, "\treason\t\tSVM\n");
fprintf(stderr, "\trip\t\t0x%016lx\n", vmexit->rip);
fprintf(stderr, "\tinst_length\t%d\n", vmexit->inst_length);
fprintf(stderr, "\texitcode\t%#lx\n", vmexit->u.svm.exitcode);
fprintf(stderr, "\texitinfo1\t%#lx\n", vmexit->u.svm.exitinfo1);
fprintf(stderr, "\texitinfo2\t%#lx\n", vmexit->u.svm.exitinfo2);
return (VMEXIT_ABORT);
}
static int
vmexit_bogus(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
assert(vmexit->inst_length == 0);
stats.vmexit_bogus++;
return (VMEXIT_CONTINUE);
}
static int
vmexit_reqidle(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
assert(vmexit->inst_length == 0);
stats.vmexit_reqidle++;
return (VMEXIT_CONTINUE);
}
static int
vmexit_hlt(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
stats.vmexit_hlt++;
/*
* Just continue execution with the next instruction. We use
* the HLT VM exit as a way to be friendly with the host
* scheduler.
*/
return (VMEXIT_CONTINUE);
}
static int
vmexit_pause(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
stats.vmexit_pause++;
return (VMEXIT_CONTINUE);
}
static int
vmexit_mtrap(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
assert(vmexit->inst_length == 0);
stats.vmexit_mtrap++;
return (VMEXIT_CONTINUE);
}
static int
vmexit_inst_emul(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
int err, i;
struct vie *vie;
stats.vmexit_inst_emul++;
vie = &vmexit->u.inst_emul.vie;
err = emulate_mem(ctx, *pvcpu, vmexit->u.inst_emul.gpa,
vie, &vmexit->u.inst_emul.paging);
if (err) {
if (err == ESRCH) {
fprintf(stderr, "Unhandled memory access to 0x%lx\n",
vmexit->u.inst_emul.gpa);
}
fprintf(stderr, "Failed to emulate instruction [");
for (i = 0; i < vie->num_valid; i++) {
fprintf(stderr, "0x%02x%s", vie->inst[i],
i != (vie->num_valid - 1) ? " " : "");
}
fprintf(stderr, "] at 0x%lx\n", vmexit->rip);
return (VMEXIT_ABORT);
}
return (VMEXIT_CONTINUE);
}
static pthread_mutex_t resetcpu_mtx = PTHREAD_MUTEX_INITIALIZER;
static pthread_cond_t resetcpu_cond = PTHREAD_COND_INITIALIZER;
static int
vmexit_suspend(struct vmctx *ctx, struct vm_exit *vmexit, int *pvcpu)
{
enum vm_suspend_how how;
how = vmexit->u.suspended.how;
fbsdrun_deletecpu(ctx, *pvcpu);
if (*pvcpu != BSP) {
pthread_mutex_lock(&resetcpu_mtx);
pthread_cond_signal(&resetcpu_cond);
pthread_mutex_unlock(&resetcpu_mtx);
pthread_exit(NULL);
}
pthread_mutex_lock(&resetcpu_mtx);
while (!CPU_EMPTY(&cpumask)) {
pthread_cond_wait(&resetcpu_cond, &resetcpu_mtx);
}
pthread_mutex_unlock(&resetcpu_mtx);
switch (how) {
case VM_SUSPEND_RESET:
exit(0);
case VM_SUSPEND_POWEROFF:
exit(1);
case VM_SUSPEND_HALT:
exit(2);
case VM_SUSPEND_TRIPLEFAULT:
exit(3);
default:
fprintf(stderr, "vmexit_suspend: invalid reason %d\n", how);
exit(100);
}
return (0); /* NOTREACHED */
}
static vmexit_handler_t handler[VM_EXITCODE_MAX] = {
[VM_EXITCODE_INOUT] = vmexit_inout,
[VM_EXITCODE_INOUT_STR] = vmexit_inout,
[VM_EXITCODE_VMX] = vmexit_vmx,
[VM_EXITCODE_SVM] = vmexit_svm,
[VM_EXITCODE_BOGUS] = vmexit_bogus,
[VM_EXITCODE_REQIDLE] = vmexit_reqidle,
[VM_EXITCODE_RDMSR] = vmexit_rdmsr,
[VM_EXITCODE_WRMSR] = vmexit_wrmsr,
[VM_EXITCODE_MTRAP] = vmexit_mtrap,
[VM_EXITCODE_INST_EMUL] = vmexit_inst_emul,
[VM_EXITCODE_SPINUP_AP] = vmexit_spinup_ap,
[VM_EXITCODE_SUSPENDED] = vmexit_suspend,
[VM_EXITCODE_TASK_SWITCH] = vmexit_task_switch,
};
static void
vm_loop(struct vmctx *ctx, int vcpu, uint64_t startrip)
{
int error, rc;
enum vm_exitcode exitcode;
cpuset_t active_cpus;
if (vcpumap[vcpu] != NULL) {
error = pthread_setaffinity_np(pthread_self(),
sizeof(cpuset_t), vcpumap[vcpu]);
assert(error == 0);
}
error = vm_active_cpus(ctx, &active_cpus);
assert(CPU_ISSET(vcpu, &active_cpus));
error = vm_set_register(ctx, vcpu, VM_REG_GUEST_RIP, startrip);
assert(error == 0);
while (1) {
error = vm_run(ctx, vcpu, &vmexit[vcpu]);
if (error != 0)
break;
exitcode = vmexit[vcpu].exitcode;
if (exitcode >= VM_EXITCODE_MAX || handler[exitcode] == NULL) {
fprintf(stderr, "vm_loop: unexpected exitcode 0x%x\n",
exitcode);
exit(1);
}
rc = (*handler[exitcode])(ctx, &vmexit[vcpu], &vcpu);
switch (rc) {
case VMEXIT_CONTINUE:
break;
case VMEXIT_ABORT:
abort();
default:
exit(1);
}
}
fprintf(stderr, "vm_run error %d, errno %d\n", error, errno);
}
static int
num_vcpus_allowed(struct vmctx *ctx)
{
int tmp, error;
error = vm_get_capability(ctx, BSP, VM_CAP_UNRESTRICTED_GUEST, &tmp);
/*
* The guest is allowed to spinup more than one processor only if the
* UNRESTRICTED_GUEST capability is available.
*/
if (error == 0)
return (VM_MAXCPU);
else
return (1);
}
void
fbsdrun_set_capabilities(struct vmctx *ctx, int cpu)
{
int err, tmp;
if (fbsdrun_vmexit_on_hlt()) {
err = vm_get_capability(ctx, cpu, VM_CAP_HALT_EXIT, &tmp);
if (err < 0) {
fprintf(stderr, "VM exit on HLT not supported\n");
exit(1);
}
vm_set_capability(ctx, cpu, VM_CAP_HALT_EXIT, 1);
if (cpu == BSP)
handler[VM_EXITCODE_HLT] = vmexit_hlt;
}
if (fbsdrun_vmexit_on_pause()) {
/*
* pause exit support required for this mode
*/
err = vm_get_capability(ctx, cpu, VM_CAP_PAUSE_EXIT, &tmp);
if (err < 0) {
fprintf(stderr,
"SMP mux requested, no pause support\n");
exit(1);
}
vm_set_capability(ctx, cpu, VM_CAP_PAUSE_EXIT, 1);
if (cpu == BSP)
handler[VM_EXITCODE_PAUSE] = vmexit_pause;
}
if (x2apic_mode)
err = vm_set_x2apic_state(ctx, cpu, X2APIC_ENABLED);
else
err = vm_set_x2apic_state(ctx, cpu, X2APIC_DISABLED);
if (err) {
fprintf(stderr, "Unable to set x2apic state (%d)\n", err);
exit(1);
}
vm_set_capability(ctx, cpu, VM_CAP_ENABLE_INVPCID, 1);
}
static struct vmctx *
do_open(const char *vmname)
{
struct vmctx *ctx;
int error;
bool reinit, romboot;
reinit = romboot = false;
if (lpc_bootrom())
romboot = true;
error = vm_create(vmname);
if (error) {
if (errno == EEXIST) {
if (romboot) {
reinit = true;
} else {
/*
* The virtual machine has been setup by the
* userspace bootloader.
*/
}
} else {
perror("vm_create");
exit(1);
}
} else {
if (!romboot) {
/*
* If the virtual machine was just created then a
* bootrom must be configured to boot it.
*/
fprintf(stderr, "virtual machine cannot be booted\n");
exit(1);
}
}
ctx = vm_open(vmname);
if (ctx == NULL) {
perror("vm_open");
exit(1);
}
if (reinit) {
error = vm_reinit(ctx);
if (error) {
perror("vm_reinit");
exit(1);
}
}
return (ctx);
}
int
main(int argc, char *argv[])
{
int c, error, gdb_port, err, bvmcons;
int max_vcpus, mptgen, memflags;
int rtc_localtime;
struct vmctx *ctx;
uint64_t rip;
size_t memsize;
char *optstr;
bvmcons = 0;
progname = basename(argv[0]);
gdb_port = 0;
guest_ncpus = 1;
memsize = 256 * MB;
mptgen = 1;
rtc_localtime = 1;
memflags = 0;
optstr = "abehuwxACHIPSWYp:g:c:s:m:l:U:";
while ((c = getopt(argc, argv, optstr)) != -1) {
switch (c) {
case 'a':
x2apic_mode = 0;
break;
case 'A':
acpi = 1;
break;
case 'b':
bvmcons = 1;
break;
case 'p':
if (pincpu_parse(optarg) != 0) {
errx(EX_USAGE, "invalid vcpu pinning "
"configuration '%s'", optarg);
}
break;
case 'c':
guest_ncpus = atoi(optarg);
break;
case 'C':
memflags |= VM_MEM_F_INCORE;
break;
case 'g':
gdb_port = atoi(optarg);
break;
case 'l':
if (lpc_device_parse(optarg) != 0) {
errx(EX_USAGE, "invalid lpc device "
"configuration '%s'", optarg);
}
break;
case 's':
if (pci_parse_slot(optarg) != 0)
exit(1);
else
break;
case 'S':
memflags |= VM_MEM_F_WIRED;
break;
case 'm':
error = vm_parse_memsize(optarg, &memsize);
if (error)
errx(EX_USAGE, "invalid memsize '%s'", optarg);
break;
case 'H':
guest_vmexit_on_hlt = 1;
break;
case 'I':
/*
* The "-I" option was used to add an ioapic to the
* virtual machine.
*
* An ioapic is now provided unconditionally for each
* virtual machine and this option is now deprecated.
*/
break;
case 'P':
guest_vmexit_on_pause = 1;
break;
case 'e':
strictio = 1;
break;
case 'u':
rtc_localtime = 0;
break;
case 'U':
guest_uuid_str = optarg;
break;
case 'w':
strictmsr = 0;
break;
case 'W':
virtio_msix = 0;
break;
case 'x':
x2apic_mode = 1;
break;
case 'Y':
mptgen = 0;
break;
case 'h':
usage(0);
default:
usage(1);
}
}
argc -= optind;
argv += optind;
if (argc != 1)
usage(1);
vmname = argv[0];
ctx = do_open(vmname);
if (guest_ncpus < 1) {
fprintf(stderr, "Invalid guest vCPUs (%d)\n", guest_ncpus);
exit(1);
}
max_vcpus = num_vcpus_allowed(ctx);
if (guest_ncpus > max_vcpus) {
fprintf(stderr, "%d vCPUs requested but only %d available\n",
guest_ncpus, max_vcpus);
exit(1);
}
fbsdrun_set_capabilities(ctx, BSP);
vm_set_memflags(ctx, memflags);
err = vm_setup_memory(ctx, memsize, VM_MMAP_ALL);
if (err) {
fprintf(stderr, "Unable to setup memory (%d)\n", errno);
exit(1);
}
error = init_msr();
if (error) {
fprintf(stderr, "init_msr error %d", error);
exit(1);
}
init_mem();
init_inout();
atkbdc_init(ctx);
pci_irq_init(ctx);
ioapic_init(ctx);
rtc_init(ctx, rtc_localtime);
sci_init(ctx);
/*
* Exit if a device emulation finds an error in it's initilization
*/
if (init_pci(ctx) != 0)
exit(1);
if (gdb_port != 0)
init_dbgport(gdb_port);
if (bvmcons)
init_bvmcons();
if (lpc_bootrom()) {
if (vm_set_capability(ctx, BSP, VM_CAP_UNRESTRICTED_GUEST, 1)) {
fprintf(stderr, "ROM boot failed: unrestricted guest "
"capability not available\n");
exit(1);
}
error = vcpu_reset(ctx, BSP);
assert(error == 0);
}
error = vm_get_register(ctx, BSP, VM_REG_GUEST_RIP, &rip);
assert(error == 0);
/*
* build the guest tables, MP etc.
*/
if (mptgen) {
error = mptable_build(ctx, guest_ncpus);
if (error)
exit(1);
}
error = smbios_build(ctx);
assert(error == 0);
if (acpi) {
error = acpi_build(ctx, guest_ncpus);
assert(error == 0);
}
if (lpc_bootrom())
fwctl_init();
/*
* Change the proc title to include the VM name.
*/
setproctitle("%s", vmname);
/*
* Add CPU 0
*/
fbsdrun_addcpu(ctx, BSP, BSP, rip);
/*
* Head off to the main event dispatch loop
*/
mevent_dispatch();
exit(1);
}
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