Library mcertikos.devdrivers.HandlerGen


This file provide the contextual refinement proof between MALInit layer and MALOp layer
Require Import Coqlib.
Require Import Errors.
Require Import AST.
Require Import Integers.
Require Import Floats.
Require Import Op.
Require Import Asm.
Require Import Events.
Require Import Globalenvs.
Require Import Smallstep.
Require Import Values.
Require Import Memory.
Require Import Maps.
Require Import CommonTactic.
Require Import AuxLemma.
Require Import FlatMemory.
Require Import AuxStateDataType.
Require Import Constant.
Require Import GlobIdent.
Require Import RealParams.
Require Import LoadStoreSem1.
Require Import AsmImplLemma.
Require Import LAsm.
Require Import RefinementTactic.
Require Import PrimSemantics.

Require Import liblayers.logic.PTreeModules.
Require Import liblayers.logic.LayerLogicImpl.
Require Import liblayers.compcertx.Stencil.
Require Import liblayers.compcertx.MakeProgram.
Require Import liblayers.compat.CompatLayers.
Require Import liblayers.compat.CompatGenSem.
Require Import compcert.cfrontend.Ctypes.
Require Import LayerCalculusLemma.

Require Import AbstractDataType.
Require Import DeviceStateDataType.
Require Import DHandler.
Require Import HandlerGenSpec.
Require Import LAsmModuleSem.
Require Import I64Layer.

Notation of the refinement relation

Section Refinement.

  Local Open Scope string_scope.
  Local Open Scope error_monad_scope.
  Local Open Scope Z_scope.

  Context `{real_params: RealParams}.
  Context `{oracle_prop: MultiOracleProp}.

  Notation HDATA := RData.
  Notation LDATA := RData.

  Notation HDATAOps := (cdata (cdata_ops := dhandlerop_data_ops) HDATA).
  Notation LDATAOps := (cdata (cdata_ops := dhandlerop_data_ops) LDATA).

  Section WITHMEM.

    Context `{Hstencil: Stencil}.
    Context `{Hmem: Mem.MemoryModelX}.
    Context `{Hmwd: UseMemWithData mem}.

Definition the refinement relation: relate_RData + match_RData

    Record relate_RData (f:meminj) (hadt: HDATA) (ladt: LDATA) :=
      mkrelate_RData {
          flatmem_re: FlatMem.flatmem_inj (HP hadt) (HP ladt);
          MM_re: MM hadt = MM ladt;
          MMSize_re: MMSize hadt = MMSize ladt;
          vmxinfo_re: vmxinfo hadt = vmxinfo ladt;
          CR3_re: CR3 hadt = CR3 ladt;
          ikern_re: ikern hadt = ikern ladt;
          pg_re: pg hadt = pg ladt;
          ihost_re: ihost hadt = ihost ladt;
          AC_re: AC hadt = AC ladt;
          ti_fst_re: (fst (ti hadt)) = (fst (ti ladt));
          ti_snd_re: val_inject f (snd (ti hadt)) (snd (ti ladt));
          AT_re: AT hadt = AT ladt;
          nps_re: nps hadt = nps ladt;
          init_re: init hadt = init ladt;

          buffer_re: buffer hadt = buffer ladt;

          com1_re: com1 hadt = com1 ladt;
          console_re: console hadt = console ladt;
          console_concrete_re: console_concrete hadt = console_concrete ladt;
          ioapic_re: ioapic ladt = ioapic hadt;
          lapic_re: lapic ladt = lapic hadt;
          intr_flag_re: intr_flag ladt = intr_flag hadt;
          curr_intr_num_re: curr_intr_num ladt = curr_intr_num hadt;
          drv_serial_re: drv_serial hadt = drv_serial ladt;
          in_intr_re: in_intr hadt = in_intr ladt;

          CPU_ID_re: CPU_ID hadt = CPU_ID ladt;
          cid_re: cid hadt = cid ladt;
          multi_oracle_re: multi_oracle hadt = multi_oracle ladt;
          multi_log_re: multi_log hadt = multi_log ladt;
          lock_re: lock hadt = lock ladt
        }.

    Inductive match_RData: stencilHDATAmemmeminjProp :=
    | MATCH_RDATA: habd m f s, match_RData s habd m f.

    Local Hint Resolve MATCH_RDATA.

    Global Instance rel_ops: CompatRelOps HDATAOps LDATAOps :=
      {
        relate_AbData s f d1 d2 := relate_RData f d1 d2;
        match_AbData s d1 m f := match_RData s d1 m f;
        new_glbl := nil
      }.

Properties of relations

    Section Rel_Property.

Prove that after taking one step, the refinement relation still holds
      Lemma relate_incr:
         abd abd´ f ,
          relate_RData f abd abd´
          → inject_incr f
          → relate_RData abd abd´.
      Proof.
        inversion 1; subst; intros; inv H; constructor; eauto.
      Qed.

      Global Instance rel_prf: CompatRel HDATAOps LDATAOps.
      Proof.
        constructor; intros; simpl; trivial.
        eapply relate_incr; eauto.
      Qed.

    End Rel_Property.

Proofs the one-step forward simulations for the low level specifications

    Section OneStep_Forward_Relation.

      Section FRESH_PRIM.

        Lemma serial_intr_enable_kern_mode:
           d ,
            serial_intr_enable_concrete_spec d = Some
            → kernel_mode d.
        Proof.
          unfold serial_intr_enable_concrete_spec. intros.
          Opaque serial_intr_enable_concrete_aux.
          subdestruct; auto.
        Qed.

        Lemma serial_intr_enable_spec_ref:
          compatsim (crel HDATA LDATA) (gensem serial_intr_enable_concrete_spec) serial_intr_enable_spec_low.
        Proof.
          compatsim_simpl (@match_AbData).
          exploit serial_intr_enable_concrete_exist; eauto 1.
          intros [labd´ [HP HM]].
          refine_split; try econstructor; eauto.
          - eapply serial_intr_enable_kern_mode; eauto.
          - constructor.
        Qed.

        Lemma serial_intr_disable_kern_mode:
           d ,
            serial_intr_disable_concrete_spec d = Some
            → kernel_mode d.
        Proof.
          unfold serial_intr_disable_concrete_spec. intros.
          Opaque serial_intr_disable_concrete_aux.
          subdestruct; auto.
        Qed.

        Lemma serial_intr_disable_spec_ref:
          compatsim (crel HDATA LDATA) (gensem serial_intr_disable_concrete_spec) serial_intr_disable_spec_low.
        Proof.
          compatsim_simpl (@match_AbData).
          exploit serial_intr_disable_concrete_exist; eauto 1.
          intros [labd´ [HP HM]].
          refine_split; try econstructor; eauto.
          - eapply serial_intr_disable_kern_mode; eauto.
          - constructor.
        Qed.

      End FRESH_PRIM.

      Section PASSTHROUGH_RPIM.

        Global Instance: (LoadStoreProp (hflatmem_store:= flatmem_store´) (lflatmem_store:= flatmem_store´)).
        Proof.
          accessor_prop_tac.
          - eapply flatmem_store´_exists; eauto.
        Qed.

        Lemma passthrough_correct:
          sim (crel HDATA LDATA) dhandler_passthrough dhandlerop.
        Proof.
          sim_oplus.
          - apply fload´_sim.
          - apply fstore´_sim.
          - apply page_copy´_sim.
          - apply page_copy_back´_sim.

          - apply vmxinfo_get_sim.
          - apply setPG_sim.
          - apply setCR3_sim.
          - apply get_size_sim.
          - apply is_mm_usable_sim.
          - apply get_mm_s_sim.
          - apply get_mm_l_sim.
          - apply get_CPU_ID_sim.
          - apply get_curid_sim.
          - apply set_curid_sim.
          - apply set_curid_init_sim.

          - apply (release_lock_sim (valid_arg_imply:= Shared2ID0_imply)).
          -
            eapply acquire_lock_sim0; eauto.
            intros. inv H; trivial; try inv H0.
          - apply ticket_lock_init0_sim.
          - apply cli_sim.
          - apply sti_sim.
          - apply serial_putc_sim.
          - apply cons_buf_read_sim.
          - apply trapin_sim.
          - apply trapout´_sim.
          - apply hostin_sim.
          - apply hostout´_sim.
          - apply proc_create_postinit_sim.
          - apply trap_info_get_sim.
          - apply trap_info_ret_sim.
          - layer_sim_simpl.
            + eapply load_correct1.
            + eapply store_correct1.
        Qed.

      End PASSTHROUGH_RPIM.

    End OneStep_Forward_Relation.

  End WITHMEM.

End Refinement.