304 lines
8.0 KiB
C
304 lines
8.0 KiB
C
/*
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* Copyright (C) 2020 Intel Corporation. All rights reserved.
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*
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* SPDX-License-Identifier: BSD-3-Clause
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*/
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#include <list.h>
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#include <asm/per_cpu.h>
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#include <schedule.h>
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#include <ticks.h>
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#define BVT_MCU_MS 1U
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/* context switch allowance */
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#define BVT_CSA_MCU 5U
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struct sched_bvt_data {
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/* keep list as the first item */
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struct list_head list;
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/* minimum charging unit in cycles */
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uint64_t mcu;
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/* a thread receives a share of cpu in proportion to its weight */
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uint16_t weight;
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/* virtual time advance variable, proportional to 1 / weight */
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uint64_t vt_ratio;
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/* the count down number of mcu until reschedule should take place */
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uint64_t run_countdown;
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/* actual virtual time in units of mcu */
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int64_t avt;
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/* effective virtual time in units of mcu */
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int64_t evt;
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uint64_t residual;
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uint64_t start_tsc;
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};
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/*
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* @pre obj != NULL
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* @pre obj->data != NULL
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*/
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static bool is_inqueue(struct thread_object *obj)
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{
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struct sched_bvt_data *data = (struct sched_bvt_data *)obj->data;
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return !list_empty(&data->list);
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}
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/*
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* @pre obj != NULL
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* @pre obj->data != NULL
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* @pre obj->sched_ctl != NULL
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* @pre obj->sched_ctl->priv != NULL
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*/
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static void runqueue_add(struct thread_object *obj)
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{
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struct sched_bvt_control *bvt_ctl =
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(struct sched_bvt_control *)obj->sched_ctl->priv;
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struct sched_bvt_data *data = (struct sched_bvt_data *)obj->data;
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struct list_head *pos;
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struct thread_object *iter_obj;
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struct sched_bvt_data *iter_data;
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/*
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* the earliest evt has highest priority,
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* the runqueue is ordered by priority.
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*/
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if (list_empty(&bvt_ctl->runqueue)) {
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list_add(&data->list, &bvt_ctl->runqueue);
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} else {
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list_for_each(pos, &bvt_ctl->runqueue) {
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iter_obj = container_of(pos, struct thread_object, data);
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iter_data = (struct sched_bvt_data *)iter_obj->data;
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if (iter_data->evt > data->evt) {
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list_add_node(&data->list, pos->prev, pos);
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break;
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}
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}
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if (!is_inqueue(obj)) {
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list_add_tail(&data->list, &bvt_ctl->runqueue);
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}
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}
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}
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/*
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* @pre obj != NULL
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* @pre obj->data != NULL
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*/
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static void runqueue_remove(struct thread_object *obj)
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{
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struct sched_bvt_data *data = (struct sched_bvt_data *)obj->data;
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list_del_init(&data->list);
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}
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/*
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* @brief Get the SVT (scheduler virtual time) which indicates the
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* minimum AVT of any runnable threads.
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* @pre obj != NULL
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* @pre obj->data != NULL
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* @pre obj->sched_ctl != NULL
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* @pre obj->sched_ctl->priv != NULL
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*/
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static int64_t get_svt(struct thread_object *obj)
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{
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struct sched_bvt_control *bvt_ctl = (struct sched_bvt_control *)obj->sched_ctl->priv;
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struct sched_bvt_data *obj_data;
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struct thread_object *tmp_obj;
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int64_t svt = 0;
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if (!list_empty(&bvt_ctl->runqueue)) {
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tmp_obj = get_first_item(&bvt_ctl->runqueue, struct thread_object, data);
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obj_data = (struct sched_bvt_data *)tmp_obj->data;
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svt = obj_data->avt;
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}
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return svt;
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}
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static void sched_tick_handler(void *param)
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{
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struct sched_control *ctl = (struct sched_control *)param;
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struct sched_bvt_control *bvt_ctl = (struct sched_bvt_control *)ctl->priv;
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struct sched_bvt_data *data;
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struct thread_object *current;
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uint16_t pcpu_id = get_pcpu_id();
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uint64_t rflags;
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obtain_schedule_lock(pcpu_id, &rflags);
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current = ctl->curr_obj;
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if (current != NULL ) {
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data = (struct sched_bvt_data *)current->data;
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/* only non-idle thread need to consume run_countdown */
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if (!is_idle_thread(current)) {
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data->run_countdown -= 1U;
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if (data->run_countdown == 0U) {
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make_reschedule_request(pcpu_id, DEL_MODE_IPI);
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}
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} else {
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if (!list_empty(&bvt_ctl->runqueue)) {
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make_reschedule_request(pcpu_id, DEL_MODE_IPI);
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}
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}
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}
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release_schedule_lock(pcpu_id, rflags);
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}
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/*
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*@pre: ctl->pcpu_id == get_pcpu_id()
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*/
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static int sched_bvt_init(struct sched_control *ctl)
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{
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struct sched_bvt_control *bvt_ctl = &per_cpu(sched_bvt_ctl, ctl->pcpu_id);
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uint64_t tick_period = BVT_MCU_MS * TICKS_PER_MS;
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int ret = 0;
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ASSERT(ctl->pcpu_id == get_pcpu_id(), "Init scheduler on wrong CPU!");
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ctl->priv = bvt_ctl;
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INIT_LIST_HEAD(&bvt_ctl->runqueue);
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/* The tick_timer is periodically */
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initialize_timer(&bvt_ctl->tick_timer, sched_tick_handler, ctl,
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cpu_ticks() + tick_period, tick_period);
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if (add_timer(&bvt_ctl->tick_timer) < 0) {
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pr_err("Failed to add schedule tick timer!");
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ret = -1;
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}
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return ret;
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}
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static void sched_bvt_deinit(struct sched_control *ctl)
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{
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struct sched_bvt_control *bvt_ctl = (struct sched_bvt_control *)ctl->priv;
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del_timer(&bvt_ctl->tick_timer);
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}
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static void sched_bvt_init_data(struct thread_object *obj)
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{
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struct sched_bvt_data *data;
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data = (struct sched_bvt_data *)obj->data;
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INIT_LIST_HEAD(&data->list);
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data->mcu = BVT_MCU_MS * TICKS_PER_MS;
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/* TODO: virtual time advance ratio should be proportional to weight. */
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data->vt_ratio = 1U;
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data->residual = 0U;
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data->run_countdown = BVT_CSA_MCU;
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}
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static uint64_t v2p(uint64_t virt_time, uint64_t ratio)
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{
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return (uint64_t)(virt_time / ratio);
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}
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static uint64_t p2v(uint64_t phy_time, uint64_t ratio)
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{
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return (uint64_t)(phy_time * ratio);
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}
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static void update_vt(struct thread_object *obj)
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{
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struct sched_bvt_data *data;
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uint64_t now_tsc = cpu_ticks();
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uint64_t v_delta, delta_mcu = 0U;
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data = (struct sched_bvt_data *)obj->data;
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/* update current thread's avt and evt */
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if (now_tsc > data->start_tsc) {
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v_delta = p2v(now_tsc - data->start_tsc, data->vt_ratio) + data->residual;
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delta_mcu = (uint64_t)(v_delta / data->mcu);
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data->residual = v_delta % data->mcu;
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}
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data->avt += delta_mcu;
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/* TODO: evt = avt - (warp ? warpback : 0U) */
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data->evt = data->avt;
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if (is_inqueue(obj)) {
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runqueue_remove(obj);
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runqueue_add(obj);
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}
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}
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static struct thread_object *sched_bvt_pick_next(struct sched_control *ctl)
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{
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struct sched_bvt_control *bvt_ctl = (struct sched_bvt_control *)ctl->priv;
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struct thread_object *first_obj = NULL, *second_obj = NULL;
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struct sched_bvt_data *first_data = NULL, *second_data = NULL;
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struct list_head *first, *sec;
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struct thread_object *next = NULL;
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struct thread_object *current = ctl->curr_obj;
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uint64_t now_tsc = cpu_ticks();
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uint64_t delta_mcu = 0U;
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if (!is_idle_thread(current)) {
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update_vt(current);
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}
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if (!list_empty(&bvt_ctl->runqueue)) {
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first = bvt_ctl->runqueue.next;
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sec = (first->next == &bvt_ctl->runqueue) ? NULL : first->next;
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first_obj = container_of(first, struct thread_object, data);
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first_data = (struct sched_bvt_data *)first_obj->data;
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/* The run_countdown is used to store how may mcu the next thread
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* can run for. It is set in pick_next handler, and decreases in
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* tick handler. Normally, the next thread can run until its AVT
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* is ahead of the next runnable thread for one CSA
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* (context switch allowance). But when there is only one object
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* in runqueue, it can run forever. so, set a very very large
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* number to it so that it can run for a long time. Here,
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* UINT64_MAX can make it run for >100 years before rescheduled.
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*/
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if (sec != NULL) {
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second_obj = container_of(sec, struct thread_object, data);
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second_data = (struct sched_bvt_data *)second_obj->data;
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delta_mcu = second_data->evt - first_data->evt;
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first_data->run_countdown = v2p(delta_mcu, first_data->vt_ratio) + BVT_CSA_MCU;
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} else {
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first_data->run_countdown = UINT64_MAX;
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}
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first_data->start_tsc = now_tsc;
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next = first_obj;
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} else {
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next = &get_cpu_var(idle);
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}
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return next;
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}
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static void sched_bvt_sleep(struct thread_object *obj)
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{
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runqueue_remove(obj);
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}
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static void sched_bvt_wake(struct thread_object *obj)
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{
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struct sched_bvt_data *data;
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int64_t svt, threshold;
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data = (struct sched_bvt_data *)obj->data;
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svt = get_svt(obj);
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threshold = svt - BVT_CSA_MCU;
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/* adjusting AVT for a thread after a long sleep */
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data->avt = (data->avt > threshold) ? data->avt : svt;
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/* TODO: evt = avt - (warp ? warpback : 0U) */
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data->evt = data->avt;
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/* add to runqueue in order */
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runqueue_add(obj);
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}
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struct acrn_scheduler sched_bvt = {
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.name = "sched_bvt",
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.init = sched_bvt_init,
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.init_data = sched_bvt_init_data,
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.pick_next = sched_bvt_pick_next,
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.sleep = sched_bvt_sleep,
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.wake = sched_bvt_wake,
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.deinit = sched_bvt_deinit,
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};
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