#include "cfs.h" #include #include #include struct sched_queue_t sched_cfs_ready_queue[MAX_CPU_NUM]; // 就绪队列 /** * @brief 从就绪队列中取出PCB * * @return struct process_control_block* */ struct process_control_block *sched_cfs_dequeue() { if (list_empty(&sched_cfs_ready_queue[proc_current_cpu_id].proc_queue.list)) { // kdebug("list empty, count=%d", sched_cfs_ready_queue[proc_current_cpu_id].count); return &initial_proc_union.pcb; } struct process_control_block *proc = container_of(list_next(&sched_cfs_ready_queue[proc_current_cpu_id].proc_queue.list), struct process_control_block, list); list_del(&proc->list); --sched_cfs_ready_queue[proc_current_cpu_id].count; return proc; } /** * @brief 将PCB加入就绪队列 * * @param pcb */ void sched_cfs_enqueue(struct process_control_block *pcb) { if (pcb == initial_proc[proc_current_cpu_id]) return; struct process_control_block *proc = container_of(list_next(&sched_cfs_ready_queue[proc_current_cpu_id].proc_queue.list), struct process_control_block, list); if ((list_empty(&sched_cfs_ready_queue[proc_current_cpu_id].proc_queue.list)) == 0) { while (proc->virtual_runtime < pcb->virtual_runtime) { proc = container_of(list_next(&proc->list), struct process_control_block, list); } } list_append(&proc->list, &pcb->list); ++sched_cfs_ready_queue[proc_current_cpu_id].count; } /** * @brief 调度函数 * */ void sched_cfs() { cli(); current_pcb->flags &= ~PF_NEED_SCHED; // kdebug("current_pcb pid= %d", current_pcb->pid); struct process_control_block *proc = sched_cfs_dequeue(); // kdebug("sched_cfs_ready_queue[proc_current_cpu_id].count = %d", sched_cfs_ready_queue[proc_current_cpu_id].count); if (current_pcb->virtual_runtime >= proc->virtual_runtime || !(current_pcb->state & PROC_RUNNING)) // 当前进程运行时间大于了下一进程的运行时间,进行切换 { // kdebug("current_pcb->virtual_runtime = %d,proc->vt= %d", current_pcb->virtual_runtime, proc->virtual_runtime); if (current_pcb->state & PROC_RUNNING) // 本次切换由于时间片到期引发,则再次加入就绪队列,否则交由其它功能模块进行管理 sched_cfs_enqueue(current_pcb); // kdebug("proc->pid=%d, count=%d", proc->pid, sched_cfs_ready_queue[proc_current_cpu_id].count); if (sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies <= 0) { switch (proc->priority) { case 0: case 1: sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies = 4 / sched_cfs_ready_queue[proc_current_cpu_id].count; break; case 2: default: sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies = (4 / sched_cfs_ready_queue[proc_current_cpu_id].count) << 2; break; } } process_switch_mm(proc); switch_proc(current_pcb, proc); } else // 不进行切换 { // kdebug("not switch."); sched_cfs_enqueue(proc); if (sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies <= 0) { switch (proc->priority) { case 0: case 1: sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies = 4 / sched_cfs_ready_queue[proc_current_cpu_id].count; break; case 2: default: sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies = (4 / sched_cfs_ready_queue[proc_current_cpu_id].count) << 2; break; } } } sti(); } /** * @brief 当时钟中断到达时,更新时间片 * */ void sched_update_jiffies() { switch (current_pcb->priority) { case 0: case 1: --sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies; ++current_pcb->virtual_runtime; break; case 2: default: sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies -= 2; current_pcb->virtual_runtime += 2; break; } // 时间片耗尽,标记可调度 if (sched_cfs_ready_queue[proc_current_cpu_id].cpu_exec_proc_jiffies <= 0) current_pcb->flags |= PF_NEED_SCHED; } /** * @brief 初始化CFS调度器 * */ void sched_cfs_init() { memset(&sched_cfs_ready_queue, 0, sizeof(struct sched_queue_t) * MAX_CPU_NUM); for (int i = 0; i < MAX_CPU_NUM; ++i) { list_init(&sched_cfs_ready_queue[i].proc_queue.list); sched_cfs_ready_queue[i].count = 1; // 因为存在IDLE进程,因此为1 sched_cfs_ready_queue[i].cpu_exec_proc_jiffies = 5; sched_cfs_ready_queue[i].proc_queue.virtual_runtime = 0x7fffffffffffffff; } }