Library prosa.classic.model.schedule.partitioned.schedule

Require Import prosa.classic.util.all.
Require Import prosa.classic.model.time prosa.classic.model.arrival.basic.task prosa.classic.model.arrival.basic.job.
Require Import prosa.classic.model.schedule.global.schedulability.
Require Import prosa.classic.model.schedule.global.basic.schedule.
Require prosa.classic.model.schedule.uni.schedule prosa.classic.model.schedule.uni.schedulability.
From mathcomp Require Import ssreflect ssrbool eqtype ssrnat seq fintype bigop.

Module Partitioned.

  Module uni := prosa.classic.model.schedule.uni.schedule.UniprocessorSchedule.
  Module uni_sched := prosa.classic.model.schedule.uni.schedulability.Schedulability.
  Import SporadicTaskset Schedule Schedulability.
  Export Time.

  Section PartitionedDefs.

    Context {Task: eqType}.
    Context {Job: eqType}.
    Variable job_task: Job Task.

    (* Consider any job arrival sequence. *)
    Variable arr_seq: arrival_sequence Job.

    (* Given any multiprocessor schedule of these jobs, ... *)
    Context {num_cpus: nat}.
    Variable sched: schedule Job num_cpus.

    (* ... we define a notion of "partitioned scheduling" (= no migrations) on
      a per-job, per-task, and finally whole-schedule level. *)


    Section NoJobMigration.

      (* A job is "partitioned" iff it never migrates, i.e., it
       * executes on the same processor whenever it is scheduled. *)


      (* So any job j... *)
      Variable j: Job.

      (* ... never migrates iff the following holds: ... *)
      Definition never_migrates :=
        (* ...for any point in time t... *)
         t,
          (* ...and any processor cpu... *)
         cpu,
          (* ... if job j is scheduled at time t on processor cpu... *)
          scheduled_on sched j cpu t
          (* ...then at any other time... *)
           t',
            (* ...if the same job is scheduled, it must be scheduled on
             * the same processor. *)

             cpu',
              scheduled_on sched j cpu' t' cpu' = cpu.

      (* Furthermore, we say that the job is assigned to processor assigned_cpu
       * if it executes only on that processor. *)

      Variable assigned_cpu : processor num_cpus.
      Definition job_local_to_processor :=
         t, cpu,
          scheduled_on sched j cpu t cpu = assigned_cpu.

    End NoJobMigration.

    (* Having defined a notiont of 'partitioned' for individual jobs, let us
     * now turn to tasks. *)


    Section NoTaskMigration.

      (* Given any task tsk in ts, ... *)
      Variable tsk: Task.

      (* ...we say that tsk is assigned to processor assigned_cpu ... *)
      Variable assigned_cpu : processor num_cpus.

      (* ...iff every job of tsk executes exclusively on assigned_cpu. *)
      Definition task_local_to_processor :=
         j,
          job_task j = tsk
          job_local_to_processor j assigned_cpu.

    End NoTaskMigration.

    (* Finally, a schedule is fully partitioned iff every task is assigned
       to some processor. *)

    Section PartitionedSchedule.

      (* Consider a task set ts to be scheduled. *)
      Variable ts: list Task.

      (* Given an assignment from every task in ts to a processor, ...*)
      Variable assigned_cpu: Task processor num_cpus.

      (* ...we say that a schedule is partitioned iff every task is local
         to the corresponding processor. *)

      Definition partitioned_schedule :=
         tsk,
          tsk \in ts
          task_local_to_processor tsk (assigned_cpu tsk).

    End PartitionedSchedule.

  End PartitionedDefs.

  Section SimpleProperties.

    Context {Job: eqType}.

    Context {num_cpus: nat}.
    Variable sched: schedule Job num_cpus.

    Section NoJobMigrationLemmas.

      Variable j: Job.

      Lemma local_jobs_dont_migrate:
         cpu,
          job_local_to_processor sched j cpu never_migrates sched j.

    End NoJobMigrationLemmas.

  End SimpleProperties.

End Partitioned.