Library prosa.classic.implementation.uni.susp.dynamic.oblivious.fp_rta_example

Require Import prosa.classic.util.all.
Require Import prosa.classic.model.arrival.basic.job prosa.classic.model.arrival.basic.task prosa.classic.model.priority.
Require Import prosa.classic.model.schedule.uni.schedule prosa.classic.model.schedule.uni.schedulability.
Require Import prosa.classic.model.schedule.uni.susp.suspension_intervals.
Require Import prosa.classic.analysis.uni.basic.workload_bound_fp.
Require Import prosa.classic.analysis.uni.susp.dynamic.oblivious.fp_rta.
Require Import prosa.classic.implementation.uni.susp.dynamic.job
               prosa.classic.implementation.uni.susp.dynamic.task
               prosa.classic.implementation.uni.susp.dynamic.arrival_sequence.
Require Import prosa.classic.implementation.uni.susp.schedule.
From mathcomp Require Import ssreflect ssrbool ssrnat eqtype seq bigop div.

Module ResponseTimeAnalysisFP.

  Import Job UniprocessorSchedule SporadicTaskset Priority Schedulability
         SuspensionIntervals SuspensionObliviousFP WorkloadBoundFP.
  Import ConcreteJob ConcreteTask ConcreteArrivalSequence ConcreteScheduler.

  (* In this section, we run the suspension-oblivious FP RTA on a simple task set
     to show that the theorems contain no contradictory assumptions. *)

  Section ExampleRTA.

    Let tsk1 := {| task_id := 1; task_cost := 1; task_period := 5;
                                 task_deadline := 5; task_suspension_bound := 1 |}.
    Let tsk2 := {| task_id := 2; task_cost := 1; task_period := 5;
                                 task_deadline := 5; task_suspension_bound := 0|}.
    Let tsk3 := {| task_id := 3; task_cost := 1; task_period := 6;
                                 task_deadline := 6; task_suspension_bound := 1|}.

    (* Let ts be a task set containing these three tasks, ... *)
    Program Let ts := Build_set [:: tsk1; tsk2; tsk3] _.

    (* ...which can be shown to have valid parameters. *)
    Fact ts_has_valid_parameters:
      valid_sporadic_taskset task_cost task_period task_deadline ts.

    (* Now let's inflate the task costs with the suspension-bounds. *)
    Let inflated_cost := inflated_task_cost task_cost task_suspension_bound.

    (* After the inflation, note that the task costs are no larger than deadlines and periods. *)
    Fact inflated_cost_le_deadline_and_period:
       tsk,
        tsk \in ts
          inflated_cost tsk task_deadline tsk
          inflated_cost tsk task_period tsk.

    (* Next, recall the FP RTA schedulability test using RM as the FP policy
       and the inflated task costs. *)

    Let RTA_claimed_bounds :=
      fp_claimed_bounds inflated_cost task_period task_deadline (RM task_period).
    Let schedulability_test :=
      fp_schedulable inflated_cost task_period task_deadline (RM task_period).

    (* First, we show that the schedulability test returns the following bounds, ... *)
    Fact RTA_yields_these_bounds :
      RTA_claimed_bounds ts = Some [:: (tsk1, 3); (tsk2, 3); (tsk3, 5)].

    (* ...so the schedulability test indeed returns true. *)
    Fact schedulability_test_succeeds :
      schedulability_test ts = true.

    (* Now, let's show that the task set is schedulable. *)

    (* Let arr_seq be the periodic arrival sequence from ts... *)
    Let arr_seq := periodic_arrival_sequence ts.

    (* ...where jobs have total suspension times that are no larger than
       the suspension bound of their tasks. *)

     Variable next_suspension: job_suspension concrete_job_eqType.
     Hypothesis H_dynamic_suspensions:
       dynamic_suspension_model job_cost job_task next_suspension task_suspension_bound.

    (* Also assume rate-monotonic priorities. *)
    Let higher_eq_priority := FP_to_JLDP job_task (RM task_period).

    (* Next, let sched be the suspension-aware RM schedule with those job suspension times. *)
    Let sched := scheduler job_arrival job_cost arr_seq next_suspension higher_eq_priority.

    (* To conclude, based on the definition of deadline miss,... *)
    Let no_deadline_missed_by :=
      task_misses_no_deadline job_arrival job_cost job_deadline job_task arr_seq sched.

    (* ...we use the result of the suspension-oblivious FP RTA to conclude that
       no task misses its deadline. *)

    Corollary ts_is_schedulable:
       tsk,
        tsk \in ts
        no_deadline_missed_by tsk.

  End ExampleRTA.

End ResponseTimeAnalysisFP.