(******************************************************************************
date: march 2002
author: Frederic Blanqui
email: blanqui@lri.fr
webpage: http://www.lri.fr/~blanqui/
University of Cambridge, Computer Laboratory
William Gates Building, JJ Thomson Avenue
Cambridge CB3 0FD, United Kingdom
******************************************************************************)
header{*lemmas on guarded messages for protocols with symmetric keys*}
theory Guard_Shared imports Guard GuardK Shared begin
subsection{*Extensions to Theory @{text Shared}*}
declare initState.simps [simp del]
subsubsection{*a little abbreviation*}
abbreviation
Ciph :: "agent => msg => msg"
"Ciph A X == Crypt (shrK A) X"
subsubsection{*agent associated to a key*}
constdefs agt :: "key => agent"
"agt K == @A. K = shrK A"
lemma agt_shrK [simp]: "agt (shrK A) = A"
by (simp add: agt_def)
subsubsection{*basic facts about @{term initState}*}
lemma no_Crypt_in_parts_init [simp]: "Crypt K X ~:parts (initState A)"
by (cases A, auto simp: initState.simps)
lemma no_Crypt_in_analz_init [simp]: "Crypt K X ~:analz (initState A)"
by auto
lemma no_shrK_in_analz_init [simp]: "A ~:bad
==> Key (shrK A) ~:analz (initState Spy)"
by (auto simp: initState.simps)
lemma shrK_notin_initState_Friend [simp]: "A ~= Friend C
==> Key (shrK A) ~: parts (initState (Friend C))"
by (auto simp: initState.simps)
lemma keyset_init [iff]: "keyset (initState A)"
by (cases A, auto simp: keyset_def initState.simps)
subsubsection{*sets of symmetric keys*}
constdefs shrK_set :: "key set => bool"
"shrK_set Ks == ALL K. K:Ks --> (EX A. K = shrK A)"
lemma in_shrK_set: "[| shrK_set Ks; K:Ks |] ==> EX A. K = shrK A"
by (simp add: shrK_set_def)
lemma shrK_set1 [iff]: "shrK_set {shrK A}"
by (simp add: shrK_set_def)
lemma shrK_set2 [iff]: "shrK_set {shrK A, shrK B}"
by (simp add: shrK_set_def)
subsubsection{*sets of good keys*}
constdefs good :: "key set => bool"
"good Ks == ALL K. K:Ks --> agt K ~:bad"
lemma in_good: "[| good Ks; K:Ks |] ==> agt K ~:bad"
by (simp add: good_def)
lemma good1 [simp]: "A ~:bad ==> good {shrK A}"
by (simp add: good_def)
lemma good2 [simp]: "[| A ~:bad; B ~:bad |] ==> good {shrK A, shrK B}"
by (simp add: good_def)
subsection{*Proofs About Guarded Messages*}
subsubsection{*small hack*}
lemma shrK_is_invKey_shrK: "shrK A = invKey (shrK A)"
by simp
lemmas shrK_is_invKey_shrK_substI = shrK_is_invKey_shrK [THEN ssubst]
lemmas invKey_invKey_substI = invKey [THEN ssubst]
lemma "Nonce n:parts {X} ==> Crypt (shrK A) X:guard n {shrK A}"
apply (rule shrK_is_invKey_shrK_substI, rule invKey_invKey_substI)
by (rule Guard_Nonce, simp+)
subsubsection{*guardedness results on nonces*}
lemma guard_ciph [simp]: "shrK A:Ks ==> Ciph A X:guard n Ks"
by (rule Guard_Nonce, simp)
lemma guardK_ciph [simp]: "shrK A:Ks ==> Ciph A X:guardK n Ks"
by (rule Guard_Key, simp)
lemma Guard_init [iff]: "Guard n Ks (initState B)"
by (induct B, auto simp: Guard_def initState.simps)
lemma Guard_knows_max': "Guard n Ks (knows_max' C evs)
==> Guard n Ks (knows_max C evs)"
by (simp add: knows_max_def)
lemma Nonce_not_used_Guard_spies [dest]: "Nonce n ~:used evs
==> Guard n Ks (spies evs)"
by (auto simp: Guard_def dest: not_used_not_known parts_sub)
lemma Nonce_not_used_Guard [dest]: "[| evs:p; Nonce n ~:used evs;
Gets_correct p; one_step p |] ==> Guard n Ks (knows (Friend C) evs)"
by (auto simp: Guard_def dest: known_used parts_trans)
lemma Nonce_not_used_Guard_max [dest]: "[| evs:p; Nonce n ~:used evs;
Gets_correct p; one_step p |] ==> Guard n Ks (knows_max (Friend C) evs)"
by (auto simp: Guard_def dest: known_max_used parts_trans)
lemma Nonce_not_used_Guard_max' [dest]: "[| evs:p; Nonce n ~:used evs;
Gets_correct p; one_step p |] ==> Guard n Ks (knows_max' (Friend C) evs)"
apply (rule_tac H="knows_max (Friend C) evs" in Guard_mono)
by (auto simp: knows_max_def)
subsubsection{*guardedness results on keys*}
lemma GuardK_init [simp]: "n ~:range shrK ==> GuardK n Ks (initState B)"
by (induct B, auto simp: GuardK_def initState.simps)
lemma GuardK_knows_max': "[| GuardK n A (knows_max' C evs); n ~:range shrK |]
==> GuardK n A (knows_max C evs)"
by (simp add: knows_max_def)
lemma Key_not_used_GuardK_spies [dest]: "Key n ~:used evs
==> GuardK n A (spies evs)"
by (auto simp: GuardK_def dest: not_used_not_known parts_sub)
lemma Key_not_used_GuardK [dest]: "[| evs:p; Key n ~:used evs;
Gets_correct p; one_step p |] ==> GuardK n A (knows (Friend C) evs)"
by (auto simp: GuardK_def dest: known_used parts_trans)
lemma Key_not_used_GuardK_max [dest]: "[| evs:p; Key n ~:used evs;
Gets_correct p; one_step p |] ==> GuardK n A (knows_max (Friend C) evs)"
by (auto simp: GuardK_def dest: known_max_used parts_trans)
lemma Key_not_used_GuardK_max' [dest]: "[| evs:p; Key n ~:used evs;
Gets_correct p; one_step p |] ==> GuardK n A (knows_max' (Friend C) evs)"
apply (rule_tac H="knows_max (Friend C) evs" in GuardK_mono)
by (auto simp: knows_max_def)
subsubsection{*regular protocols*}
constdefs regular :: "event list set => bool"
"regular p == ALL evs A. evs:p --> (Key (shrK A):parts (spies evs)) = (A:bad)"
lemma shrK_parts_iff_bad [simp]: "[| evs:p; regular p |] ==>
(Key (shrK A):parts (spies evs)) = (A:bad)"
by (auto simp: regular_def)
lemma shrK_analz_iff_bad [simp]: "[| evs:p; regular p |] ==>
(Key (shrK A):analz (spies evs)) = (A:bad)"
by auto
lemma Guard_Nonce_analz: "[| Guard n Ks (spies evs); evs:p;
shrK_set Ks; good Ks; regular p |] ==> Nonce n ~:analz (spies evs)"
apply (clarify, simp only: knows_decomp)
apply (drule Guard_invKey_keyset, simp+, safe)
apply (drule in_good, simp)
apply (drule in_shrK_set, simp+, clarify)
apply (frule_tac A=A in shrK_analz_iff_bad)
by (simp add: knows_decomp)+
lemma GuardK_Key_analz: "[| GuardK n Ks (spies evs); evs:p;
shrK_set Ks; good Ks; regular p; n ~:range shrK |] ==> Key n ~:analz (spies evs)"
apply (clarify, simp only: knows_decomp)
apply (drule GuardK_invKey_keyset, clarify, simp+, simp add: initState.simps)
apply clarify
apply (drule in_good, simp)
apply (drule in_shrK_set, simp+, clarify)
apply (frule_tac A=A in shrK_analz_iff_bad)
by (simp add: knows_decomp)+
end