Theory RPC

(*  Title:      HOL/TLA/Memory/RPC.thy
    Author:     Stephan Merz, University of Munich
*)

section ‹RPC-Memory example: RPC specification›

theory RPC
imports RPCParameters ProcedureInterface Memory
begin

type_synonym rpcSndChType = "(rpcOp,Vals) channel"
type_synonym rpcRcvChType = "memChType"
type_synonym rpcStType = "(PrIds  rpcState) stfun"


(* state predicates *)

definition RPCInit :: "rpcRcvChType  rpcStType  PrIds  stpred"
  where "RPCInit rcv rst p == PRED ((rst!p = #rpcA)  ¬Calling rcv p)"


(* actions *)

definition RPCFwd :: "rpcSndChType  rpcRcvChType  rpcStType  PrIds  action"
  where "RPCFwd send rcv rst p == ACT
      $(Calling send p)
     $(rst!p) = # rpcA
     IsLegalRcvArg<arg<$(send!p)>>
     Call rcv p RPCRelayArg<arg<send!p>>
     (rst!p)$ = # rpcB
     unchanged (rtrner send!p)"

definition RPCReject :: "rpcSndChType  rpcRcvChType  rpcStType  PrIds  action"
  where "RPCReject send rcv rst p == ACT
      $(rst!p) = # rpcA
     ¬IsLegalRcvArg<arg<$(send!p)>>
     Return send p #BadCall
     unchanged ((rst!p), (caller rcv!p))"

definition RPCFail :: "rpcSndChType  rpcRcvChType  rpcStType  PrIds  action"
  where "RPCFail send rcv rst p == ACT
      ¬$(Calling rcv p)
     Return send p #RPCFailure
     (rst!p)$ = #rpcA
     unchanged (caller rcv!p)"

definition RPCReply :: "rpcSndChType  rpcRcvChType  rpcStType  PrIds  action"
  where "RPCReply send rcv rst p == ACT
      ¬$(Calling rcv p)
     $(rst!p) = #rpcB
     Return send p res<rcv!p>
     (rst!p)$ = #rpcA
     unchanged (caller rcv!p)"

definition RPCNext :: "rpcSndChType  rpcRcvChType  rpcStType  PrIds  action"
  where "RPCNext send rcv rst p == ACT
    (  RPCFwd send rcv rst p
      RPCReject send rcv rst p
      RPCFail send rcv rst p
      RPCReply send rcv rst p)"


(* temporal *)

definition RPCIPSpec :: "rpcSndChType  rpcRcvChType  rpcStType  PrIds  temporal"
  where "RPCIPSpec send rcv rst p == TEMP
     Init RPCInit rcv rst p
    [ RPCNext send rcv rst p ]_(rst!p, rtrner send!p, caller rcv!p)
    WF(RPCNext send rcv rst p)_(rst!p, rtrner send!p, caller rcv!p)"

definition RPCISpec :: "rpcSndChType  rpcRcvChType  rpcStType  temporal"
  where "RPCISpec send rcv rst == TEMP (p. RPCIPSpec send rcv rst p)"


lemmas RPC_action_defs =
  RPCInit_def RPCFwd_def RPCReject_def RPCFail_def RPCReply_def RPCNext_def

lemmas RPC_temp_defs = RPCIPSpec_def RPCISpec_def


(* The RPC component engages in an action for process p only if there is an outstanding,
   unanswered call for that process.
*)

lemma RPCidle: " ¬$(Calling send p)  ¬RPCNext send rcv rst p"
  by (auto simp: AReturn_def RPC_action_defs)

lemma RPCbusy: " $(Calling rcv p)  $(rst!p) = #rpcB  ¬RPCNext send rcv rst p"
  by (auto simp: RPC_action_defs)

(* RPC failure actions are visible. *)
lemma RPCFail_vis: " RPCFail send rcv rst p   
    <RPCNext send rcv rst p>_(rst!p, rtrner send!p, caller rcv!p)"
  by (auto dest!: Return_changed [temp_use] simp: angle_def RPCNext_def RPCFail_def)

lemma RPCFail_Next_enabled: " Enabled (RPCFail send rcv rst p)   
    Enabled (<RPCNext send rcv rst p>_(rst!p, rtrner send!p, caller rcv!p))"
  by (force elim!: enabled_mono [temp_use] RPCFail_vis [temp_use])

(* Enabledness of some actions *)
lemma RPCFail_enabled: "p. basevars (rtrner send!p, caller rcv!p, rst!p)   
     ¬Calling rcv p  Calling send p  Enabled (RPCFail send rcv rst p)"
  by (tactic action_simp_tac (context addsimps [@{thm RPCFail_def},
    @{thm AReturn_def}, @{thm caller_def}, @{thm rtrner_def}]) [exI]
    [@{thm base_enabled}, @{thm Pair_inject}] 1)

lemma RPCReply_enabled: "p. basevars (rtrner send!p, caller rcv!p, rst!p)   
       ¬Calling rcv p  Calling send p  rst!p = #rpcB  
          Enabled (RPCReply send rcv rst p)"
  by (tactic action_simp_tac (context addsimps [@{thm RPCReply_def},
    @{thm AReturn_def}, @{thm caller_def}, @{thm rtrner_def}]) [exI]
    [@{thm base_enabled}, @{thm Pair_inject}] 1)

end