update lab6 :: deleting timer

9 years ago · 5d8e661a1a
--- a/labcodes/lab6/kern/schedule/sched.c
+++ b/labcodes/lab6/kern/schedule/sched.c
@ -98,79 +98,3 @@ schedule(void) {
    }
    local_intr_restore(intr_flag);
 }

 // add timer to timer_list
 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);
 }

 // del timer from timer_list
 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);
 }

 // call scheduler to update tick related info, and check the timer is expired? If expired, then wakup proc
 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);
 }
--- a/labcodes/lab6/kern/schedule/sched.h
+++ b/labcodes/lab6/kern/schedule/sched.h
@ -9,24 +9,6 @@

 struct proc_struct;

 typedef struct {
    unsigned int expires;       //the expire time
    struct proc_struct *proc;   //the proc wait in this timer. If the expire time is end, then this proc will be scheduled
    list_entry_t timer_link;    //the timer list
 } timer_t;

 #define le2timer(le, member)            \
 to_struct((le), timer_t, member)

 // init a timer
 static inline timer_t *
 timer_init(timer_t *timer, struct proc_struct *proc, int expires) {
    timer->expires = expires;
    timer->proc = proc;
    list_init(&(timer->timer_link));
    return timer;
 }

 struct run_queue;

 // The introduction of scheduling classes is borrrowed from Linux, and makes the 
@ -65,9 +47,6 @@ struct run_queue {
 void sched_init(void);
 void wakeup_proc(struct proc_struct *proc);
 void schedule(void);
 void add_timer(timer_t *timer);     // add timer to timer_list
 void del_timer(timer_t *timer);     // del timer from timer_list
 void run_timer_list(void);          // call scheduler to update tick related info, and check the timer is expired? If expired, then wakup proc

 #endif /* !__KERN_SCHEDULE_SCHED_H__ */

--- a/labcodes/lab6/kern/trap/trap.c
+++ b/labcodes/lab6/kern/trap/trap.c
@ -225,12 +225,9 @@ trap_dispatch(struct trapframe *tf) {
         *    Every TICK_NUM cycle, you should set current process's current->need_resched = 1
         */
        /* LAB6 YOUR CODE */
        /* IMPORTANT FUNCTIONS:
 	     * run_timer_list
 	     *----------------------
 	     * you should update your lab5 code (just add ONE or TWO lines of code):
         *    Every tick, you should update the system time, iterate the timers, and trigger the timers which are end to call scheduler.
         *    You can use one funcitons to finish all these things.
        /* you should upate you lab5 code
         * IMPORTANT FUNCTIONS:
 	     * sched_class_proc_tick
         */
        break;
    case IRQ_OFFSET + IRQ_COM1:
--- a/labcodes/lab7/kern/trap/trap.c
+++ b/labcodes/lab7/kern/trap/trap.c
@ -225,12 +225,14 @@ trap_dispatch(struct trapframe *tf) {
         *    Every TICK_NUM cycle, you should set current process's current->need_resched = 1
         */
        /* LAB6 YOUR CODE */
        /* IMPORTANT FUNCTIONS:
        /* you should upate you lab5 code
         * IMPORTANT FUNCTIONS:
 	     * sched_class_proc_tick
         */         
        /* LAB7 YOUR CODE */
        /* you should upate you lab6 code
         * IMPORTANT FUNCTIONS:
 	     * run_timer_list
 	     *----------------------
 	     * you should update your lab5 code (just add ONE or TWO lines of code):
         *    Every tick, you should update the system time, iterate the timers, and trigger the timers which are end to call scheduler.
         *    You can use one funcitons to finish all these things.
         */
        break;
    case IRQ_OFFSET + IRQ_COM1:
--- a/labcodes/lab8/kern/trap/trap.c
+++ b/labcodes/lab8/kern/trap/trap.c
@ -225,12 +225,14 @@ trap_dispatch(struct trapframe *tf) {
         *    Every TICK_NUM cycle, you should set current process's current->need_resched = 1
         */
        /* LAB6 YOUR CODE */
        /* IMPORTANT FUNCTIONS:
        /* you should upate you lab5 code
         * IMPORTANT FUNCTIONS:
 	     * sched_class_proc_tick
         */         
        /* LAB7 YOUR CODE */
        /* you should upate you lab6 code
         * IMPORTANT FUNCTIONS:
 	     * run_timer_list
 	     *----------------------
 	     * you should update your lab5 code (just add ONE or TWO lines of code):
         *    Every tick, you should update the system time, iterate the timers, and trigger the timers which are end to call scheduler.
         *    You can use one funcitons to finish all these things.
         */
        break;
    case IRQ_OFFSET + IRQ_COM1:
--- a/labcodes_answer/lab6_result/kern/schedule/sched.c
+++ b/labcodes_answer/lab6_result/kern/schedule/sched.c
@ -99,78 +99,3 @@ schedule(void) {
    local_intr_restore(intr_flag);
 }

 // add timer to timer_list
 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);
 }

 // del timer from timer_list
 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);
 }

 // call scheduler to update tick related info, and check the timer is expired? If expired, then wakup proc
 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);
 }
--- a/labcodes_answer/lab6_result/kern/schedule/sched.h
+++ b/labcodes_answer/lab6_result/kern/schedule/sched.h
@ -9,24 +9,6 @@

 struct proc_struct;

 typedef struct {
    unsigned int expires;       //the expire time
    struct proc_struct *proc;   //the proc wait in this timer. If the expire time is end, then this proc will be scheduled
    list_entry_t timer_link;    //the timer list
 } timer_t;

 #define le2timer(le, member)            \
 to_struct((le), timer_t, member)

 // init a timer
 static inline timer_t *
 timer_init(timer_t *timer, struct proc_struct *proc, int expires) {
    timer->expires = expires;
    timer->proc = proc;
    list_init(&(timer->timer_link));
    return timer;
 }

 struct run_queue;

 // The introduction of scheduling classes is borrrowed from Linux, and makes the 
@ -65,9 +47,6 @@ struct run_queue {
 void sched_init(void);
 void wakeup_proc(struct proc_struct *proc);
 void schedule(void);
 void add_timer(timer_t *timer);     // add timer to timer_list
 void del_timer(timer_t *timer);     // del timer from timer_list
 void run_timer_list(void);          // call scheduler to update tick related info, and check the timer is expired? If expired, then wakup proc

 #endif /* !__KERN_SCHEDULE_SCHED_H__ */

--- a/labcodes_answer/lab6_result/kern/trap/trap.c
+++ b/labcodes_answer/lab6_result/kern/trap/trap.c
@ -233,7 +233,6 @@ trap_dispatch(struct trapframe *tf) {
         */
        ticks ++;
        assert(current != NULL);
        run_timer_list();
        break;
    case IRQ_OFFSET + IRQ_COM1:
        c = cons_getc();