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kvm-cpu.c 7.04 KB
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#include "kvm/kvm-cpu.h"
#include "kvm/symbol.h"
#include "kvm/util.h"
#include "kvm/kvm.h"
#include "kvm/virtio.h"
#include "kvm/mutex.h"
#include "kvm/barrier.h"
#include <sys/ioctl.h>
#include <sys/mman.h>
#include <sys/eventfd.h>
#include <signal.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <stdio.h>
extern __thread struct kvm_cpu *current_kvm_cpu;
int __attribute__((weak)) kvm_cpu__get_endianness(struct kvm_cpu *vcpu)
{
return VIRTIO_ENDIAN_HOST;
}
void kvm_cpu__enable_singlestep(struct kvm_cpu *vcpu)
{
struct kvm_guest_debug debug = {
.control = KVM_GUESTDBG_ENABLE | KVM_GUESTDBG_SINGLESTEP,
};
if (ioctl(vcpu->vcpu_fd, KVM_SET_GUEST_DEBUG, &debug) < 0)
pr_warning("KVM_SET_GUEST_DEBUG failed");
}
void kvm_cpu__run(struct kvm_cpu *vcpu)
{
int err;
if (!vcpu->is_running)
return;
err = ioctl(vcpu->vcpu_fd, KVM_RUN, 0);
if (err < 0 && (errno != EINTR && errno != EAGAIN))
die_perror("KVM_RUN failed");
}
static void kvm_cpu_signal_handler(int signum)
{
if (signum == SIGKVMEXIT) {
if (current_kvm_cpu && current_kvm_cpu->is_running)
current_kvm_cpu->is_running = false;
} else if (signum == SIGKVMPAUSE) {
if (current_kvm_cpu->paused)
die("Pause signaled for already paused CPU\n");
/* pause_lock is held by kvm__pause() */
current_kvm_cpu->paused = 1;
/*
* This is a blocking function and uses locks. It is safe
* to call it for this signal as a second pause event should
* not be send to this thread until it acquires and releases
* the pause_lock.
*/
kvm__notify_paused();
}
/* For SIGKVMTASK cpu->task is already set */
}
static void kvm_cpu__handle_coalesced_mmio(struct kvm_cpu *cpu)
{
if (cpu->ring) {
while (cpu->ring->first != cpu->ring->last) {
struct kvm_coalesced_mmio *m;
m = &cpu->ring->coalesced_mmio[cpu->ring->first];
kvm_cpu__emulate_mmio(cpu,
m->phys_addr,
m->data,
m->len,
1);
cpu->ring->first = (cpu->ring->first + 1) % KVM_COALESCED_MMIO_MAX;
}
}
}
static DEFINE_MUTEX(task_lock);
static int task_eventfd;
static void kvm_cpu__run_task(struct kvm_cpu *cpu)
{
u64 inc = 1;
pr_debug("Running task %p on cpu %lu", cpu->task, cpu->cpu_id);
/* Make sure we see the store to cpu->task */
rmb();
cpu->task->func(cpu, cpu->task->data);
/* Clear task before we signal completion */
cpu->task = NULL;
wmb();
if (write(task_eventfd, &inc, sizeof(inc)) < 0)
die("Failed notifying of completed task.");
}
void kvm_cpu__run_on_all_cpus(struct kvm *kvm, struct kvm_cpu_task *task)
{
int i, done = 0;
pr_debug("Running task %p on all cpus", task);
mutex_lock(&task_lock);
for (i = 0; i < kvm->nrcpus; i++) {
if (kvm->cpus[i]->task) {
/* Should never happen */
die("CPU %d already has a task pending!", i);
}
kvm->cpus[i]->task = task;
wmb();
if (kvm->cpus[i] == current_kvm_cpu)
kvm_cpu__run_task(current_kvm_cpu);
else
pthread_kill(kvm->cpus[i]->thread, SIGKVMTASK);
}
while (done < kvm->nrcpus) {
u64 count;
if (read(task_eventfd, &count, sizeof(count)) < 0)
die("Failed reading task eventfd");
done += count;
}
mutex_unlock(&task_lock);
}
int kvm_cpu__start(struct kvm_cpu *cpu)
{
sigset_t sigset;
sigemptyset(&sigset);
sigaddset(&sigset, SIGALRM);
pthread_sigmask(SIG_BLOCK, &sigset, NULL);
signal(SIGKVMEXIT, kvm_cpu_signal_handler);
signal(SIGKVMPAUSE, kvm_cpu_signal_handler);
signal(SIGKVMTASK, kvm_cpu_signal_handler);
kvm_cpu__reset_vcpu(cpu);
if (cpu->kvm->cfg.single_step)
kvm_cpu__enable_singlestep(cpu);
while (cpu->is_running) {
if (cpu->needs_nmi) {
kvm_cpu__arch_nmi(cpu);
cpu->needs_nmi = 0;
}
if (cpu->task)
kvm_cpu__run_task(cpu);
kvm_cpu__run(cpu);
switch (cpu->kvm_run->exit_reason) {
case KVM_EXIT_UNKNOWN:
break;
case KVM_EXIT_DEBUG:
kvm_cpu__show_registers(cpu);
kvm_cpu__show_code(cpu);
break;
case KVM_EXIT_IO: {
bool ret;
ret = kvm_cpu__emulate_io(cpu,
cpu->kvm_run->io.port,
(u8 *)cpu->kvm_run +
cpu->kvm_run->io.data_offset,
cpu->kvm_run->io.direction,
cpu->kvm_run->io.size,
cpu->kvm_run->io.count);
if (!ret)
goto panic_kvm;
break;
}
case KVM_EXIT_MMIO: {
bool ret;
/*
* If we had MMIO exit, coalesced ring should be processed
* *before* processing the exit itself
*/
kvm_cpu__handle_coalesced_mmio(cpu);
ret = kvm_cpu__emulate_mmio(cpu,
cpu->kvm_run->mmio.phys_addr,
cpu->kvm_run->mmio.data,
cpu->kvm_run->mmio.len,
cpu->kvm_run->mmio.is_write);
if (!ret)
goto panic_kvm;
break;
}
case KVM_EXIT_INTR:
if (cpu->is_running)
break;
goto exit_kvm;
case KVM_EXIT_SHUTDOWN:
goto exit_kvm;
case KVM_EXIT_SYSTEM_EVENT:
/*
* Print the type of system event and
* treat all system events as shutdown request.
*/
switch (cpu->kvm_run->system_event.type) {
default:
pr_warning("unknown system event type %d",
cpu->kvm_run->system_event.type);
/* fall through for now */
case KVM_SYSTEM_EVENT_RESET:
/* Fall through for now */
case KVM_SYSTEM_EVENT_SHUTDOWN:
/*
* Ensure that all VCPUs are torn down,
* regardless of which CPU generated the event.
*/
kvm__reboot(cpu->kvm);
goto exit_kvm;
};
break;
default: {
bool ret;
ret = kvm_cpu__handle_exit(cpu);
if (!ret)
goto panic_kvm;
break;
}
}
kvm_cpu__handle_coalesced_mmio(cpu);
}
exit_kvm:
return 0;
panic_kvm:
return 1;
}
int kvm_cpu__init(struct kvm *kvm)
{
int max_cpus, recommended_cpus, i;
max_cpus = kvm__max_cpus(kvm);
recommended_cpus = kvm__recommended_cpus(kvm);
if (kvm->cfg.nrcpus > max_cpus) {
printf(" # Limit the number of CPUs to %d\n", max_cpus);
kvm->cfg.nrcpus = max_cpus;
} else if (kvm->cfg.nrcpus > recommended_cpus) {
printf(" # Warning: The maximum recommended amount of VCPUs"
" is %d\n", recommended_cpus);
}
kvm->nrcpus = kvm->cfg.nrcpus;
task_eventfd = eventfd(0, 0);
if (task_eventfd < 0) {
pr_warning("Couldn't create task_eventfd");
return task_eventfd;
}
/* Alloc one pointer too many, so array ends up 0-terminated */
kvm->cpus = calloc(kvm->nrcpus + 1, sizeof(void *));
if (!kvm->cpus) {
pr_warning("Couldn't allocate array for %d CPUs", kvm->nrcpus);
return -ENOMEM;
}
for (i = 0; i < kvm->nrcpus; i++) {
kvm->cpus[i] = kvm_cpu__arch_init(kvm, i);
if (!kvm->cpus[i]) {
pr_warning("unable to initialize KVM VCPU");
goto fail_alloc;
}
}
return 0;
fail_alloc:
for (i = 0; i < kvm->nrcpus; i++)
free(kvm->cpus[i]);
return -ENOMEM;
}
base_init(kvm_cpu__init);
int kvm_cpu__exit(struct kvm *kvm)
{
int i, r;
void *ret = NULL;
kvm_cpu__delete(kvm->cpus[0]);
kvm->cpus[0] = NULL;
kvm__pause(kvm);
for (i = 1; i < kvm->nrcpus; i++) {
if (kvm->cpus[i]->is_running) {
pthread_kill(kvm->cpus[i]->thread, SIGKVMEXIT);
if (pthread_join(kvm->cpus[i]->thread, &ret) != 0)
die("pthread_join");
kvm_cpu__delete(kvm->cpus[i]);
}
if (ret == NULL)
r = 0;
}
kvm__continue(kvm);
free(kvm->cpus);
kvm->nrcpus = 0;
close(task_eventfd);
return r;
}
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