os_kernel_lab/labcodes_answer/lab7_result/kern/schedule/sched.c
Junjie Mao d9a83bd7be Adjust the time slice to 50ms
The original time slice (200ms) is too large for the priority test to
generate a satisfactory result in 20s. If we only schedule 5 times a
second, there are only 100 pick_next calls to the scheduler.

I believe making scheduling more frequently does little harm to the
system. Actually more scheduling opportunities may also reveal bugs
which are not triggered previously. Adopting smaller time slices also
allows us to reduce the time spent on the priority test, which can
benefit the autotesting system.

Signed-off-by: Junjie Mao <junjie.mao@hotmail.com>
2015-03-24 10:52:27 +08:00

173 lines
4.2 KiB
C

#include <list.h>
#include <sync.h>
#include <proc.h>
#include <sched.h>
#include <stdio.h>
#include <assert.h>
#include <default_sched.h>
static list_entry_t timer_list;
static struct sched_class *sched_class;
static struct run_queue *rq;
static inline void
sched_class_enqueue(struct proc_struct *proc) {
if (proc != idleproc) {
sched_class->enqueue(rq, proc);
}
}
static inline void
sched_class_dequeue(struct proc_struct *proc) {
sched_class->dequeue(rq, proc);
}
static inline struct proc_struct *
sched_class_pick_next(void) {
return sched_class->pick_next(rq);
}
static void
sched_class_proc_tick(struct proc_struct *proc) {
if (proc != idleproc) {
sched_class->proc_tick(rq, proc);
}
else {
proc->need_resched = 1;
}
}
static struct run_queue __rq;
void
sched_init(void) {
list_init(&timer_list);
sched_class = &default_sched_class;
rq = &__rq;
rq->max_time_slice = 5;
sched_class->init(rq);
cprintf("sched class: %s\n", sched_class->name);
}
void
wakeup_proc(struct proc_struct *proc) {
assert(proc->state != PROC_ZOMBIE);
bool intr_flag;
local_intr_save(intr_flag);
{
if (proc->state != PROC_RUNNABLE) {
proc->state = PROC_RUNNABLE;
proc->wait_state = 0;
if (proc != current) {
sched_class_enqueue(proc);
}
}
else {
warn("wakeup runnable process.\n");
}
}
local_intr_restore(intr_flag);
}
void
schedule(void) {
bool intr_flag;
struct proc_struct *next;
local_intr_save(intr_flag);
{
current->need_resched = 0;
if (current->state == PROC_RUNNABLE) {
sched_class_enqueue(current);
}
if ((next = sched_class_pick_next()) != NULL) {
sched_class_dequeue(next);
}
if (next == NULL) {
next = idleproc;
}
next->runs ++;
if (next != current) {
proc_run(next);
}
}
local_intr_restore(intr_flag);
}
void
add_timer(timer_t *timer) {
bool intr_flag;
local_intr_save(intr_flag);
{
assert(timer->expires > 0 && timer->proc != NULL);
assert(list_empty(&(timer->timer_link)));
list_entry_t *le = list_next(&timer_list);
while (le != &timer_list) {
timer_t *next = le2timer(le, timer_link);
if (timer->expires < next->expires) {
next->expires -= timer->expires;
break;
}
timer->expires -= next->expires;
le = list_next(le);
}
list_add_before(le, &(timer->timer_link));
}
local_intr_restore(intr_flag);
}
void
del_timer(timer_t *timer) {
bool intr_flag;
local_intr_save(intr_flag);
{
if (!list_empty(&(timer->timer_link))) {
if (timer->expires != 0) {
list_entry_t *le = list_next(&(timer->timer_link));
if (le != &timer_list) {
timer_t *next = le2timer(le, timer_link);
next->expires += timer->expires;
}
}
list_del_init(&(timer->timer_link));
}
}
local_intr_restore(intr_flag);
}
void
run_timer_list(void) {
bool intr_flag;
local_intr_save(intr_flag);
{
list_entry_t *le = list_next(&timer_list);
if (le != &timer_list) {
timer_t *timer = le2timer(le, timer_link);
assert(timer->expires != 0);
timer->expires --;
while (timer->expires == 0) {
le = list_next(le);
struct proc_struct *proc = timer->proc;
if (proc->wait_state != 0) {
assert(proc->wait_state & WT_INTERRUPTED);
}
else {
warn("process %d's wait_state == 0.\n", proc->pid);
}
wakeup_proc(proc);
del_timer(timer);
if (le == &timer_list) {
break;
}
timer = le2timer(le, timer_link);
}
}
sched_class_proc_tick(current);
}
local_intr_restore(intr_flag);
}