(* Title: HOL/UNITY/Client
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1998 University of Cambridge
Distributed Resource Management System: the Client
*)
Addsimps [Cli_prg_def RS def_prg_Init];
program_defs_ref := [Cli_prg_def];
Addsimps (map simp_of_act [rel_act_def, tok_act_def, ask_act_def]);
fun invariant_tac i =
rtac invariantI i THEN
constrains_tac (i+1);
(*Safety property 1(a): ask is nondecreasing*)
Goalw [increasing_def] "Cli_prg: increasing ask";
by (Clarify_tac 1);
by (constrains_tac 1);
by Auto_tac;
qed "increasing_ask";
(*Safety property 1(b): rel is nondecreasing*)
Goalw [increasing_def] "Cli_prg: increasing rel";
by (Clarify_tac 1);
by (constrains_tac 1);
by Auto_tac;
qed "increasing_rel";
Addsimps [nth_append, append_one_prefix];
Goal "Cli_prg: invariant {s. tok s <= Max}";
by (invariant_tac 1);
by Auto_tac;
qed "tok_bounded";
(*Safety property 3: no client requests "too many" tokens.
With no Substitution Axiom, we must prove the two invariants
simultaneously. Could combine tok_bounded, stable_constrains_stable
and a rule invariant_implies_stable...
*)
Goal "Cli_prg: \
\ invariant ({s. tok s <= Max} Int \
\ {s. ALL n: lessThan (size (ask s)). ask s!n <= Max})";
by (invariant_tac 1);
by (auto_tac (claset() addSEs [less_SucE], simpset()));
qed "ask_bounded";
(** Several facts used to prove Lemma 1 **)
Goal "Cli_prg: stable {s. rel s <= giv s}";
by (constrains_tac 1);
by Auto_tac;
qed "stable_rel_le_giv";
Goal "Cli_prg: stable {s. size (rel s) <= size (giv s)}";
by (constrains_tac 1);
by Auto_tac;
qed "stable_size_rel_le_giv";
Goal "Cli_prg: stable {s. size (ask s) <= Suc (size (rel s))}";
by (constrains_tac 1);
by Auto_tac;
qed "stable_size_ask_le_rel";
(*We no longer need constrains_tac to expand the program definition, and
expanding it is extremely expensive!*)
program_defs_ref := [];
(*Safety property 2: clients return the right number of tokens*)
Goal "Cli_prg : (Increasing giv Int (rel localTo Cli_prg)) \
\ guar Always {s. rel s <= giv s}";
by (rtac guaranteesI 1);
by (rtac AlwaysI 1);
by (Force_tac 1);
by (blast_tac (claset() addIs [Increasing_localTo_Stable,
stable_rel_le_giv]) 1);
qed "ok_guar_rel_prefix_giv";
(*** Towards proving the liveness property ***)
Goal "Cli_prg Join G \
\ : transient {s. size (giv s) = Suc k & \
\ size (rel s) = k & ask s ! k <= giv s ! k}";
by (res_inst_tac [("act", "rel_act")] transient_mem 1);
by (auto_tac (claset(),
simpset() addsimps [Domain_def, Acts_Join, Cli_prg_def]));
qed "transient_lemma";
val rewrite_o = rewrite_rule [o_def];
val Increasing_length = mono_length RS mono_Increasing_o;
Goal "Cli_prg : \
\ (Increasing giv Int (rel localTo Cli_prg) Int (ask localTo Cli_prg)) \
\ guar Always ({s. size (ask s) <= Suc (size (rel s))} Int \
\ {s. size (rel s) <= size (giv s)})";
by (rtac guaranteesI 1);
by (Clarify_tac 1);
by (dtac (impOfSubs (rewrite_o Increasing_length)) 1);
by (rtac AlwaysI 1);
by (Force_tac 1);
by (rtac Stable_Int 1);
by (fast_tac (claset() addEs [impOfSubs (rewrite_o localTo_imp_o_localTo)]
addIs [Increasing_localTo_Stable,
stable_size_rel_le_giv]) 2);
by (fast_tac (claset() addEs [impOfSubs (rewrite_o localTo_imp_o_localTo)]
addIs [stable_localTo_stable2 RS stable_imp_Stable,
stable_size_ask_le_rel]) 1);
val lemma1 = result();
Goal "Cli_prg : \
\ (Increasing giv Int (rel localTo Cli_prg) Int (ask localTo Cli_prg) \
\ Int Always giv_meets_ask) \
\ guar ({s. k < size (giv s)} LeadsTo {s. k < size (rel s)})";
by (rtac guaranteesI 1);
by (Clarify_tac 1);
by (rtac Stable_transient_Always_LeadsTo 1);
by (res_inst_tac [("k", "k")] transient_lemma 2);
by (force_tac (claset() addDs [impOfSubs Increasing_length,
impOfSubs Increasing_Stable_less],
simpset()) 1);
by (rtac (make_elim (lemma1 RS guaranteesD)) 1);
by (Blast_tac 1);
by (auto_tac (claset(),
simpset() addsimps [Always_eq_includes_reachable, giv_meets_ask_def]));
by (ALLGOALS Force_tac);
qed "client_correct";