acrn-hypervisor/hypervisor/common/sched_iorr.c

204 lines
5.3 KiB
C

/*
* Copyright (C) 2019 Intel Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <list.h>
#include <per_cpu.h>
#include <schedule.h>
#define CONFIG_SLICE_MS 10UL
struct sched_iorr_data {
/* keep list as the first item */
struct list_head list;
uint64_t slice_cycles;
uint64_t last_cycles;
int64_t left_cycles;
};
/*
* @pre obj != NULL
* @pre obj->data != NULL
*/
bool is_inqueue(struct thread_object *obj)
{
struct sched_iorr_data *data = (struct sched_iorr_data *)obj->data;
return !list_empty(&data->list);
}
/*
* @pre obj != NULL
* @pre obj->data != NULL
* @pre obj->sched_ctl != NULL
* @pre obj->sched_ctl->priv != NULL
*/
void runqueue_add_head(struct thread_object *obj)
{
struct sched_iorr_control *iorr_ctl = (struct sched_iorr_control *)obj->sched_ctl->priv;
struct sched_iorr_data *data = (struct sched_iorr_data *)obj->data;
if (!is_inqueue(obj)) {
list_add(&data->list, &iorr_ctl->runqueue);
}
}
/*
* @pre obj != NULL
* @pre obj->data != NULL
* @pre obj->sched_ctl != NULL
* @pre obj->sched_ctl->priv != NULL
*/
void runqueue_add_tail(struct thread_object *obj)
{
struct sched_iorr_control *iorr_ctl = (struct sched_iorr_control *)obj->sched_ctl->priv;
struct sched_iorr_data *data = (struct sched_iorr_data *)obj->data;
if (!is_inqueue(obj)) {
list_add_tail(&data->list, &iorr_ctl->runqueue);
}
}
/*
* @pre obj != NULL
* @pre obj->data != NULL
*/
void runqueue_remove(struct thread_object *obj)
{
struct sched_iorr_data *data = (struct sched_iorr_data *)obj->data;
list_del_init(&data->list);
}
static void sched_tick_handler(void *param)
{
struct sched_control *ctl = (struct sched_control *)param;
struct sched_iorr_control *iorr_ctl = (struct sched_iorr_control *)ctl->priv;
struct sched_iorr_data *data;
struct thread_object *current;
uint16_t pcpu_id = get_pcpu_id();
uint64_t now = rdtsc();
uint64_t rflags;
obtain_schedule_lock(pcpu_id, &rflags);
current = ctl->curr_obj;
/* If no vCPU start scheduling, ignore this tick */
if (current != NULL ) {
if (!(is_idle_thread(current) && list_empty(&iorr_ctl->runqueue))) {
data = (struct sched_iorr_data *)current->data;
/* consume the left_cycles of current thread_object if it is not idle */
if (!is_idle_thread(current)) {
data->left_cycles -= now - data->last_cycles;
data->last_cycles = now;
}
/* make reschedule request if current ran out of its cycles */
if (is_idle_thread(current) || data->left_cycles <= 0) {
make_reschedule_request(pcpu_id, DEL_MODE_IPI);
}
}
}
release_schedule_lock(pcpu_id, rflags);
}
/*
* @pre ctl->pcpu_id == get_pcpu_id()
*/
int sched_iorr_init(struct sched_control *ctl)
{
struct sched_iorr_control *iorr_ctl = &per_cpu(sched_iorr_ctl, ctl->pcpu_id);
uint64_t tick_period = CYCLES_PER_MS;
int ret = 0;
ASSERT(get_pcpu_id() == ctl->pcpu_id, "Init scheduler on wrong CPU!");
ctl->priv = iorr_ctl;
INIT_LIST_HEAD(&iorr_ctl->runqueue);
/* The tick_timer is periodically */
initialize_timer(&iorr_ctl->tick_timer, sched_tick_handler, ctl,
rdtsc() + tick_period, TICK_MODE_PERIODIC, tick_period);
if (add_timer(&iorr_ctl->tick_timer) < 0) {
pr_err("Failed to add schedule tick timer!");
ret = -1;
}
return ret;
}
void sched_iorr_deinit(struct sched_control *ctl)
{
struct sched_iorr_control *iorr_ctl = (struct sched_iorr_control *)ctl->priv;
del_timer(&iorr_ctl->tick_timer);
}
void sched_iorr_init_data(struct thread_object *obj)
{
struct sched_iorr_data *data;
data = (struct sched_iorr_data *)obj->data;
INIT_LIST_HEAD(&data->list);
data->left_cycles = data->slice_cycles = CONFIG_SLICE_MS * CYCLES_PER_MS;
}
static struct thread_object *sched_iorr_pick_next(struct sched_control *ctl)
{
struct sched_iorr_control *iorr_ctl = (struct sched_iorr_control *)ctl->priv;
struct thread_object *next = NULL;
struct thread_object *current = NULL;
struct sched_iorr_data *data;
uint64_t now = rdtsc();
current = ctl->curr_obj;
data = (struct sched_iorr_data *)current->data;
/* Ignore the idle object, inactive objects */
if (!is_idle_thread(current) && is_inqueue(current)) {
data->left_cycles -= now - data->last_cycles;
if (data->left_cycles <= 0) {
/* replenish thread_object with slice_cycles */
data->left_cycles += data->slice_cycles;
}
/* move the thread_object to tail */
runqueue_remove(current);
runqueue_add_tail(current);
}
/*
* Pick the next runnable sched object
* 1) get the first item in runqueue firstly
* 2) if object picked has no time_cycles, replenish it pick this one
* 3) At least take one idle sched object if we have no runnable one after step 1) and 2)
*/
if (!list_empty(&iorr_ctl->runqueue)) {
next = get_first_item(&iorr_ctl->runqueue, struct thread_object, data);
data = (struct sched_iorr_data *)next->data;
data->last_cycles = now;
while (data->left_cycles <= 0) {
data->left_cycles += data->slice_cycles;
}
} else {
next = &get_cpu_var(idle);
}
return next;
}
static void sched_iorr_sleep(struct thread_object *obj)
{
runqueue_remove(obj);
}
static void sched_iorr_wake(struct thread_object *obj)
{
runqueue_add_head(obj);
}
struct acrn_scheduler sched_iorr = {
.name = "sched_iorr",
.init = sched_iorr_init,
.init_data = sched_iorr_init_data,
.pick_next = sched_iorr_pick_next,
.sleep = sched_iorr_sleep,
.wake = sched_iorr_wake,
.deinit = sched_iorr_deinit,
};