default_sched_stride.c

#include <defs.h>
#include <list.h>
#include <proc.h>
#include <assert.h>
#include <default_sched.h>

#define USE_SKEW_HEAP 1

/* You should define the BigStride constant here*/
/* LAB6: YOUR CODE */
#define BIG_STRIDE    /* you should give a value, and is ??? */

/* The compare function for two skew_heap_node_t's and the
 * corresponding procs*/
static int
proc_stride_comp_f(void *a, void *b)
{
     struct proc_struct *p = le2proc(a, lab6_run_pool);
     struct proc_struct *q = le2proc(b, lab6_run_pool);
     int32_t c = p->lab6_stride - q->lab6_stride;
     if (c > 0) return 1;
     else if (c == 0) return 0;
     else return -1;
}

/*
 * stride_init initializes the run-queue rq with correct assignment for
 * member variables, including:
 *
 *   - run_list: should be a empty list after initialization.
 *   - lab6_run_pool: NULL
 *   - proc_num: 0
 *   - max_time_slice: no need here, the variable would be assigned by the caller.
 *
 * hint: see libs/list.h for routines of the list structures.
 */
static void
stride_init(struct run_queue *rq) {
     /* LAB6: YOUR CODE 
      * (1) init the ready process list: rq->run_list
      * (2) init the run pool: rq->lab6_run_pool
      * (3) set number of process: rq->proc_num to 0       
      */
}

/*
 * stride_enqueue inserts the process ``proc'' into the run-queue
 * ``rq''. The procedure should verify/initialize the relevant members
 * of ``proc'', and then put the ``lab6_run_pool'' node into the
 * queue(since we use priority queue here). The procedure should also
 * update the meta date in ``rq'' structure.
 *
 * proc->time_slice denotes the time slices allocation for the
 * process, which should set to rq->max_time_slice.
 * 
 * hint: see libs/skew_heap.h for routines of the priority
 * queue structures.
 */
static void
stride_enqueue(struct run_queue *rq, struct proc_struct *proc) {
     /* LAB6: YOUR CODE 
      * (1) insert the proc into rq correctly
      * NOTICE: you can use skew_heap or list. Important functions
      *         skew_heap_insert: insert a entry into skew_heap
      *         list_add_before: insert  a entry into the last of list   
      * (2) recalculate proc->time_slice
      * (3) set proc->rq pointer to rq
      * (4) increase rq->proc_num
      */
}

/*
 * stride_dequeue removes the process ``proc'' from the run-queue
 * ``rq'', the operation would be finished by the skew_heap_remove
 * operations. Remember to update the ``rq'' structure.
 *
 * hint: see libs/skew_heap.h for routines of the priority
 * queue structures.
 */
static void
stride_dequeue(struct run_queue *rq, struct proc_struct *proc) {
     /* LAB6: YOUR CODE 
      * (1) remove the proc from rq correctly
      * NOTICE: you can use skew_heap or list. Important functions
      *         skew_heap_remove: remove a entry from skew_heap
      *         list_del_init: remove a entry from the  list
      */
}
/*
 * stride_pick_next pick the element from the ``run-queue'', with the
 * minimum value of stride, and returns the corresponding process
 * pointer. The process pointer would be calculated by macro le2proc,
 * see kern/process/proc.h for definition. Return NULL if
 * there is no process in the queue.
 *
 * When one proc structure is selected, remember to update the stride
 * property of the proc. (stride += BIG_STRIDE / priority)
 *
 * hint: see libs/skew_heap.h for routines of the priority
 * queue structures.
 */
static struct proc_struct *
stride_pick_next(struct run_queue *rq) {
     /* LAB6: YOUR CODE 
      * (1) get a  proc_struct pointer p  with the minimum value of stride
             (1.1) If using skew_heap, we can use le2proc get the p from rq->lab6_run_poll
             (1.2) If using list, we have to search list to find the p with minimum stride value
      * (2) update p;s stride value: p->lab6_stride
      * (3) return p
      */
}

/*
 * stride_proc_tick works with the tick event of current process. You
 * should check whether the time slices for current process is
 * exhausted and update the proc struct ``proc''. proc->time_slice
 * denotes the time slices left for current
 * process. proc->need_resched is the flag variable for process
 * switching.
 */
static void
stride_proc_tick(struct run_queue *rq, struct proc_struct *proc) {
     /* LAB6: YOUR CODE */
}

struct sched_class default_sched_class = {
     .name = "stride_scheduler",
     .init = stride_init,
     .enqueue = stride_enqueue,
     .dequeue = stride_dequeue,
     .pick_next = stride_pick_next,
     .proc_tick = stride_proc_tick,
};

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#include <defs.h> #include <list.h> #include <proc.h> #include <assert.h> #include <default_sched.h> #define USE_SKEW_HEAP 1 /* You should define the BigStride constant here*/ /* LAB6: YOUR CODE */ #define BIG_STRIDE /* you should give a value, and is ??? */ /* The compare function for two skew_heap_node_t's and the * corresponding procs*/ static int proc_stride_comp_f(void *a, void *b) { struct proc_struct *p = le2proc(a, lab6_run_pool); struct proc_struct *q = le2proc(b, lab6_run_pool); int32_t c = p->lab6_stride - q->lab6_stride; if (c > 0) return 1; else if (c == 0) return 0; else return -1; } /* * stride_init initializes the run-queue rq with correct assignment for * member variables, including: * * - run_list: should be a empty list after initialization. * - lab6_run_pool: NULL * - proc_num: 0 * - max_time_slice: no need here, the variable would be assigned by the caller. * * hint: see libs/list.h for routines of the list structures. */ static void stride_init(struct run_queue *rq) { /* LAB6: YOUR CODE * (1) init the ready process list: rq->run_list * (2) init the run pool: rq->lab6_run_pool * (3) set number of process: rq->proc_num to 0 */ } /* * stride_enqueue inserts the process ``proc'' into the run-queue * ``rq''. The procedure should verify/initialize the relevant members * of ``proc'', and then put the ``lab6_run_pool'' node into the * queue(since we use priority queue here). The procedure should also * update the meta date in ``rq'' structure. * * proc->time_slice denotes the time slices allocation for the * process, which should set to rq->max_time_slice. * * hint: see libs/skew_heap.h for routines of the priority * queue structures. */ static void stride_enqueue(struct run_queue *rq, struct proc_struct *proc) { /* LAB6: YOUR CODE * (1) insert the proc into rq correctly * NOTICE: you can use skew_heap or list. Important functions * skew_heap_insert: insert a entry into skew_heap * list_add_before: insert a entry into the last of list * (2) recalculate proc->time_slice * (3) set proc->rq pointer to rq * (4) increase rq->proc_num */ } /* * stride_dequeue removes the process ``proc'' from the run-queue * ``rq'', the operation would be finished by the skew_heap_remove * operations. Remember to update the ``rq'' structure. * * hint: see libs/skew_heap.h for routines of the priority * queue structures. */ static void stride_dequeue(struct run_queue *rq, struct proc_struct *proc) { /* LAB6: YOUR CODE * (1) remove the proc from rq correctly * NOTICE: you can use skew_heap or list. Important functions * skew_heap_remove: remove a entry from skew_heap * list_del_init: remove a entry from the list */ } /* * stride_pick_next pick the element from the ``run-queue'', with the * minimum value of stride, and returns the corresponding process * pointer. The process pointer would be calculated by macro le2proc, * see kern/process/proc.h for definition. Return NULL if * there is no process in the queue. * * When one proc structure is selected, remember to update the stride * property of the proc. (stride += BIG_STRIDE / priority) * * hint: see libs/skew_heap.h for routines of the priority * queue structures. */ static struct proc_struct * stride_pick_next(struct run_queue *rq) { /* LAB6: YOUR CODE * (1) get a proc_struct pointer p with the minimum value of stride (1.1) If using skew_heap, we can use le2proc get the p from rq->lab6_run_poll (1.2) If using list, we have to search list to find the p with minimum stride value * (2) update p;s stride value: p->lab6_stride * (3) return p */ } /* * stride_proc_tick works with the tick event of current process. You * should check whether the time slices for current process is * exhausted and update the proc struct ``proc''. proc->time_slice * denotes the time slices left for current * process. proc->need_resched is the flag variable for process * switching. */ static void stride_proc_tick(struct run_queue *rq, struct proc_struct *proc) { /* LAB6: YOUR CODE */ } struct sched_class default_sched_class = { .name = "stride_scheduler", .init = stride_init, .enqueue = stride_enqueue, .dequeue = stride_dequeue, .pick_next = stride_pick_next, .proc_tick = stride_proc_tick, };