isabelle: src/Doc/Tutorial/Protocol/Message.thy@a5a3b576fcfb (annotated)

49322 fbb320d02420 tuned headers; wenzelm parents: 48985 diff changeset	1	(* Author: Lawrence C Paulson, Cambridge University Computer Laboratory
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	2	Copyright 1996 University of Cambridge
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	3
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	4	Datatypes of agents and messages;
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	5	Inductive relations "parts", "analz" and "synth"
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	6	)(<*)
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	7
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	8	header{Theory of Agents and Messages for Security Protocols}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	9
48895 4cd4ef1ef4a4 prefer ML_file over old uses; wenzelm parents: 43564 diff changeset	10	theory Message imports Main begin
4cd4ef1ef4a4 prefer ML_file over old uses; wenzelm parents: 43564 diff changeset	11	ML_file "../../antiquote_setup.ML"
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	12
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	13	(Needed occasionally with spy_analz_tac, e.g. in analz_insert_Key_newK)
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	14	lemma [simp] : "A \<union> (B \<union> A) = B \<union> A"
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	15	by blast
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	16	(>)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	17
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	18	section{* Agents and Messages *}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	19
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	20	text {*
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	21	All protocol specifications refer to a syntactic theory of messages.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	22	Datatype
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	23	@{text agent} introduces the constant @{text Server} (a trusted central
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	24	machine, needed for some protocols), an infinite population of
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	25	friendly agents, and the~@{text Spy}:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	26	*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	27
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	28	datatype agent = Server \| Friend nat \| Spy
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	29
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	30	text {*
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	31	Keys are just natural numbers. Function @{text invKey} maps a public key to
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	32	the matching private key, and vice versa:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	33	*}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	34
42765 aec61b60ff7b modernized specifications; wenzelm parents: 42475 diff changeset	35	type_synonym key = nat
25341 ca3761e38a87 fix nipkow parents: 23929 diff changeset	36	consts invKey :: "key \<Rightarrow> key"
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	37	(<)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	38	consts all_symmetric :: bool --{true if all keys are symmetric}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	39
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	40	specification (invKey)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	41	invKey [simp]: "invKey (invKey K) = K"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	42	invKey_symmetric: "all_symmetric --> invKey = id"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	43	by (rule exI [of _ id], auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	44
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	45
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	46	text{*The inverse of a symmetric key is itself; that of a public key
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	47	is the private key and vice versa*}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	48
35416 d8d7d1b785af replaced a couple of constsdefs by definitions (also some old primrecs by modern ones) haftmann parents: 35109 diff changeset	49	definition symKeys :: "key set" where
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	50	"symKeys == {K. invKey K = K}"
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	51	(>)
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	52
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	53	text {*
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	54	Datatype
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	55	@{text msg} introduces the message forms, which include agent names, nonces,
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	56	keys, compound messages, and encryptions.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	57	*}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	58
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	59	datatype
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	60	msg = Agent agent
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	61	\| Nonce nat
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	62	\| Key key
32960 69916a850301 eliminated hard tabulators, guessing at each author's individual tab-width; wenzelm parents: 32265 diff changeset	63	\| MPair msg msg
69916a850301 eliminated hard tabulators, guessing at each author's individual tab-width; wenzelm parents: 32265 diff changeset	64	\| Crypt key msg
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	65
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	66	text {*
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	67	\noindent
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	68	The notation $\comp{X\sb 1,\ldots X\sb{n-1},X\sb n}$
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	69	abbreviates
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	70	$\isa{MPair}\,X\sb 1\,\ldots\allowbreak(\isa{MPair}\,X\sb{n-1}\,X\sb n)$.
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	71
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	72	Since datatype constructors are injective, we have the theorem
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	73	@{thm [display,indent=0] msg.inject(5) [THEN iffD1, of K X K' X']}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	74	A ciphertext can be decrypted using only one key and
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	75	can yield only one plaintext. In the real world, decryption with the
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	76	wrong key succeeds but yields garbage. Our model of encryption is
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	77	realistic if encryption adds some redundancy to the plaintext, such as a
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	78	checksum, so that garbage can be detected.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	79	*}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	80
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	81	(<)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	82	text{Concrete syntax: messages appear as {\|A,B,NA\|}, etc...}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	83	syntax
35109 0015a0a99ae9 modernized syntax/translations; wenzelm parents: 32960 diff changeset	84	"_MTuple" :: "['a, args] => 'a * 'b" ("(2{\|_,/ _\|})")
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	85
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	86	syntax (xsymbols)
35109 0015a0a99ae9 modernized syntax/translations; wenzelm parents: 32960 diff changeset	87	"_MTuple" :: "['a, args] => 'a * 'b" ("(2\<lbrace>_,/ _\<rbrace>)")
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	88
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	89	translations
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	90	"{\|x, y, z\|}" == "{\|x, {\|y, z\|}\|}"
35109 0015a0a99ae9 modernized syntax/translations; wenzelm parents: 32960 diff changeset	91	"{\|x, y\|}" == "CONST MPair x y"
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	92
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	93
35416 d8d7d1b785af replaced a couple of constsdefs by definitions (also some old primrecs by modern ones) haftmann parents: 35109 diff changeset	94	definition keysFor :: "msg set => key set" where
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	95	--{Keys useful to decrypt elements of a message set}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	96	"keysFor H == invKey ` {K. \<exists>X. Crypt K X \<in> H}"
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	97
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	98
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	99	subsubsection{Inductive Definition of All Parts" of a Message}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	100
23733 3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	101	inductive_set
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	102	parts :: "msg set => msg set"
23733 3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	103	for H :: "msg set"
3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	104	where
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	105	Inj [intro]: "X \<in> H ==> X \<in> parts H"
23733 3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	106	\| Fst: "{\|X,Y\|} \<in> parts H ==> X \<in> parts H"
3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	107	\| Snd: "{\|X,Y\|} \<in> parts H ==> Y \<in> parts H"
3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	108	\| Body: "Crypt K X \<in> parts H ==> X \<in> parts H"
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	109
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	110
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	111	text{Monotonicity}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	112	lemma parts_mono: "G \<subseteq> H ==> parts(G) \<subseteq> parts(H)"
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	113	apply auto
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	114	apply (erule parts.induct)
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	115	apply (blast dest: parts.Fst parts.Snd parts.Body)+
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	116	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	117
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	118
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	119	text{Equations hold because constructors are injective.}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	120	lemma Friend_image_eq [simp]: "(Friend x \<in> Friend`A) = (x:A)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	121	by auto
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	122
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	123	lemma Key_image_eq [simp]: "(Key x \<in> Key`A) = (x\<in>A)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	124	by auto
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	125
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	126	lemma Nonce_Key_image_eq [simp]: "(Nonce x \<notin> Key`A)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	127	by auto
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	128
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	129
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	130	subsubsection{Inverse of keys }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	131
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	132	lemma invKey_eq [simp]: "(invKey K = invKey K') = (K=K')"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	133	apply safe
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	134	apply (drule_tac f = invKey in arg_cong, simp)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	135	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	136
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	137
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	138	subsection{keysFor operator}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	139
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	140	lemma keysFor_empty [simp]: "keysFor {} = {}"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	141	by (unfold keysFor_def, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	142
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	143	lemma keysFor_Un [simp]: "keysFor (H \<union> H') = keysFor H \<union> keysFor H'"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	144	by (unfold keysFor_def, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	145
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	146	lemma keysFor_UN [simp]: "keysFor (\<Union>i\<in>A. H i) = (\<Union>i\<in>A. keysFor (H i))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	147	by (unfold keysFor_def, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	148
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	149	text{Monotonicity}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	150	lemma keysFor_mono: "G \<subseteq> H ==> keysFor(G) \<subseteq> keysFor(H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	151	by (unfold keysFor_def, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	152
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	153	lemma keysFor_insert_Agent [simp]: "keysFor (insert (Agent A) H) = keysFor H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	154	by (unfold keysFor_def, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	155
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	156	lemma keysFor_insert_Nonce [simp]: "keysFor (insert (Nonce N) H) = keysFor H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	157	by (unfold keysFor_def, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	158
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	159	lemma keysFor_insert_Key [simp]: "keysFor (insert (Key K) H) = keysFor H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	160	by (unfold keysFor_def, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	161
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	162	lemma keysFor_insert_MPair [simp]: "keysFor (insert {\|X,Y\|} H) = keysFor H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	163	by (unfold keysFor_def, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	164
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	165	lemma keysFor_insert_Crypt [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	166	"keysFor (insert (Crypt K X) H) = insert (invKey K) (keysFor H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	167	by (unfold keysFor_def, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	168
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	169	lemma keysFor_image_Key [simp]: "keysFor (Key`E) = {}"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	170	by (unfold keysFor_def, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	171
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	172	lemma Crypt_imp_invKey_keysFor: "Crypt K X \<in> H ==> invKey K \<in> keysFor H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	173	by (unfold keysFor_def, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	174
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	175
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	176	subsection{Inductive relation "parts"}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	177
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	178	lemma MPair_parts:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	179	"[\| {\|X,Y\|} \<in> parts H;
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	180	[\| X \<in> parts H; Y \<in> parts H \|] ==> P \|] ==> P"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	181	by (blast dest: parts.Fst parts.Snd)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	182
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	183	declare MPair_parts [elim!] parts.Body [dest!]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	184	text{*NB These two rules are UNSAFE in the formal sense, as they discard the
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	185	compound message. They work well on THIS FILE.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	186	@{text MPair_parts} is left as SAFE because it speeds up proofs.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	187	The Crypt rule is normally kept UNSAFE to avoid breaking up certificates.*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	188
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	189	lemma parts_increasing: "H \<subseteq> parts(H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	190	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	191
55142 378ae9e46175 prefer explicit 'for' context; wenzelm parents: 51717 diff changeset	192	lemmas parts_insertI = subset_insertI [THEN parts_mono, THEN subsetD]
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	193
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	194	lemma parts_empty [simp]: "parts{} = {}"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	195	apply safe
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	196	apply (erule parts.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	197	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	198
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	199	lemma parts_emptyE [elim!]: "X\<in> parts{} ==> P"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	200	by simp
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	201
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	202	text{WARNING: loops if H = {Y}, therefore must not be repeated!}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	203	lemma parts_singleton: "X\<in> parts H ==> \<exists>Y\<in>H. X\<in> parts {Y}"
26807 4cd176ea28dc Replaced blast by fast in proof of parts_singleton, since blast looped berghofe parents: 25341 diff changeset	204	by (erule parts.induct, fast+)
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	205
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	206
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	207	subsubsection{Unions }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	208
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	209	lemma parts_Un_subset1: "parts(G) \<union> parts(H) \<subseteq> parts(G \<union> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	210	by (intro Un_least parts_mono Un_upper1 Un_upper2)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	211
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	212	lemma parts_Un_subset2: "parts(G \<union> H) \<subseteq> parts(G) \<union> parts(H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	213	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	214	apply (erule parts.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	215	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	216
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	217	lemma parts_Un [simp]: "parts(G \<union> H) = parts(G) \<union> parts(H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	218	by (intro equalityI parts_Un_subset1 parts_Un_subset2)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	219
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	220	lemma parts_insert: "parts (insert X H) = parts {X} \<union> parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	221	apply (subst insert_is_Un [of _ H])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	222	apply (simp only: parts_Un)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	223	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	224
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	225	text{*TWO inserts to avoid looping. This rewrite is better than nothing.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	226	Not suitable for Addsimps: its behaviour can be strange.*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	227	lemma parts_insert2:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	228	"parts (insert X (insert Y H)) = parts {X} \<union> parts {Y} \<union> parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	229	apply (simp add: Un_assoc)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	230	apply (simp add: parts_insert [symmetric])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	231	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	232
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	233	lemma parts_UN_subset1: "(\<Union>x\<in>A. parts(H x)) \<subseteq> parts(\<Union>x\<in>A. H x)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	234	by (intro UN_least parts_mono UN_upper)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	235
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	236	lemma parts_UN_subset2: "parts(\<Union>x\<in>A. H x) \<subseteq> (\<Union>x\<in>A. parts(H x))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	237	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	238	apply (erule parts.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	239	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	240
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	241	lemma parts_UN [simp]: "parts(\<Union>x\<in>A. H x) = (\<Union>x\<in>A. parts(H x))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	242	by (intro equalityI parts_UN_subset1 parts_UN_subset2)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	243
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	244	text{*Added to simplify arguments to parts, analz and synth.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	245	NOTE: the UN versions are no longer used!*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	246
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	247
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	248	text{*This allows @{text blast} to simplify occurrences of
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	249	@{term "parts(G\<union>H)"} in the assumption.*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	250	lemmas in_parts_UnE = parts_Un [THEN equalityD1, THEN subsetD, THEN UnE]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	251	declare in_parts_UnE [elim!]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	252
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	253
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	254	lemma parts_insert_subset: "insert X (parts H) \<subseteq> parts(insert X H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	255	by (blast intro: parts_mono [THEN [2] rev_subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	256
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	257	subsubsection{Idempotence and transitivity }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	258
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	259	lemma parts_partsD [dest!]: "X\<in> parts (parts H) ==> X\<in> parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	260	by (erule parts.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	261
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	262	lemma parts_idem [simp]: "parts (parts H) = parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	263	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	264
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	265	lemma parts_subset_iff [simp]: "(parts G \<subseteq> parts H) = (G \<subseteq> parts H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	266	apply (rule iffI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	267	apply (iprover intro: subset_trans parts_increasing)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	268	apply (frule parts_mono, simp)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	269	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	270
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	271	lemma parts_trans: "[\| X\<in> parts G; G \<subseteq> parts H \|] ==> X\<in> parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	272	by (drule parts_mono, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	273
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	274	text{Cut}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	275	lemma parts_cut:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	276	"[\| Y\<in> parts (insert X G); X\<in> parts H \|] ==> Y\<in> parts (G \<union> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	277	by (blast intro: parts_trans)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	278
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	279
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	280	lemma parts_cut_eq [simp]: "X\<in> parts H ==> parts (insert X H) = parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	281	by (force dest!: parts_cut intro: parts_insertI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	282
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	283
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	284	subsubsection{Rewrite rules for pulling out atomic messages }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	285
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	286	lemmas parts_insert_eq_I = equalityI [OF subsetI parts_insert_subset]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	287
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	288
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	289	lemma parts_insert_Agent [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	290	"parts (insert (Agent agt) H) = insert (Agent agt) (parts H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	291	apply (rule parts_insert_eq_I)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	292	apply (erule parts.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	293	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	294
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	295	lemma parts_insert_Nonce [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	296	"parts (insert (Nonce N) H) = insert (Nonce N) (parts H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	297	apply (rule parts_insert_eq_I)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	298	apply (erule parts.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	299	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	300
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	301	lemma parts_insert_Key [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	302	"parts (insert (Key K) H) = insert (Key K) (parts H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	303	apply (rule parts_insert_eq_I)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	304	apply (erule parts.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	305	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	306
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	307	lemma parts_insert_Crypt [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	308	"parts (insert (Crypt K X) H) = insert (Crypt K X) (parts (insert X H))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	309	apply (rule equalityI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	310	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	311	apply (erule parts.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	312	apply (blast intro: parts.Body)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	313	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	314
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	315	lemma parts_insert_MPair [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	316	"parts (insert {\|X,Y\|} H) =
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	317	insert {\|X,Y\|} (parts (insert X (insert Y H)))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	318	apply (rule equalityI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	319	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	320	apply (erule parts.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	321	apply (blast intro: parts.Fst parts.Snd)+
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	322	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	323
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	324	lemma parts_image_Key [simp]: "parts (Key`N) = Key`N"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	325	apply auto
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	326	apply (erule parts.induct, auto)
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	327	done
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	328
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	329
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	330	text{In any message, there is an upper bound N on its greatest nonce.}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	331	lemma msg_Nonce_supply: "\<exists>N. \<forall>n. N\<le>n --> Nonce n \<notin> parts {msg}"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	332	apply (induct_tac "msg")
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	333	apply (simp_all (no_asm_simp) add: exI parts_insert2)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	334	txt{MPair case: blast works out the necessary sum itself!}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	335	prefer 2 apply auto apply (blast elim!: add_leE)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	336	txt{Nonce case}
58305 57752a91eec4 renamed 'datatype' to 'old_datatype'; 'datatype' is now alias for 'datatype_new' blanchet parents: 56059 diff changeset	337	apply (rename_tac nat)
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	338	apply (rule_tac x = "N + Suc nat" in exI, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	339	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	340	(>)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	341
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	342	section{* Modelling the Adversary *}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	343
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	344	text {*
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	345	The spy is part of the system and must be built into the model. He is
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	346	a malicious user who does not have to follow the protocol. He
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	347	watches the network and uses any keys he knows to decrypt messages.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	348	Thus he accumulates additional keys and nonces. These he can use to
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	349	compose new messages, which he may send to anybody.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	350
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	351	Two functions enable us to formalize this behaviour: @{text analz} and
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	352	@{text synth}. Each function maps a sets of messages to another set of
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	353	messages. The set @{text "analz H"} formalizes what the adversary can learn
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	354	from the set of messages~$H$. The closure properties of this set are
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	355	defined inductively.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	356	*}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	357
23733 3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	358	inductive_set
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	359	analz :: "msg set \<Rightarrow> msg set"
23733 3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	360	for H :: "msg set"
3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	361	where
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	362	Inj [intro,simp] : "X \<in> H \<Longrightarrow> X \<in> analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	363	\| Fst: "\<lbrace>X,Y\<rbrace> \<in> analz H \<Longrightarrow> X \<in> analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	364	\| Snd: "\<lbrace>X,Y\<rbrace> \<in> analz H \<Longrightarrow> Y \<in> analz H"
23733 3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	365	\| Decrypt [dest]:
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	366	"\<lbrakk>Crypt K X \<in> analz H; Key(invKey K) \<in> analz H\<rbrakk>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	367	\<Longrightarrow> X \<in> analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	368	(<)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	369	text{Monotonicity; Lemma 1 of Lowe's paper}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	370	lemma analz_mono: "G\<subseteq>H ==> analz(G) \<subseteq> analz(H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	371	apply auto
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	372	apply (erule analz.induct)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	373	apply (auto dest: analz.Fst analz.Snd)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	374	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	375
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	376	text{Making it safe speeds up proofs}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	377	lemma MPair_analz [elim!]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	378	"[\| {\|X,Y\|} \<in> analz H;
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	379	[\| X \<in> analz H; Y \<in> analz H \|] ==> P
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	380	\|] ==> P"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	381	by (blast dest: analz.Fst analz.Snd)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	382
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	383	lemma analz_increasing: "H \<subseteq> analz(H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	384	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	385
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	386	lemma analz_subset_parts: "analz H \<subseteq> parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	387	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	388	apply (erule analz.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	389	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	390
55142 378ae9e46175 prefer explicit 'for' context; wenzelm parents: 51717 diff changeset	391	lemmas analz_into_parts = analz_subset_parts [THEN subsetD]
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	392
55142 378ae9e46175 prefer explicit 'for' context; wenzelm parents: 51717 diff changeset	393	lemmas not_parts_not_analz = analz_subset_parts [THEN contra_subsetD]
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	394
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	395
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	396	lemma parts_analz [simp]: "parts (analz H) = parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	397	apply (rule equalityI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	398	apply (rule analz_subset_parts [THEN parts_mono, THEN subset_trans], simp)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	399	apply (blast intro: analz_increasing [THEN parts_mono, THEN subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	400	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	401
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	402	lemma analz_parts [simp]: "analz (parts H) = parts H"
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	403	apply auto
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	404	apply (erule analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	405	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	406
55142 378ae9e46175 prefer explicit 'for' context; wenzelm parents: 51717 diff changeset	407	lemmas analz_insertI = subset_insertI [THEN analz_mono, THEN [2] rev_subsetD]
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	408
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	409	subsubsection{General equational properties }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	410
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	411	lemma analz_empty [simp]: "analz{} = {}"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	412	apply safe
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	413	apply (erule analz.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	414	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	415
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	416	text{*Converse fails: we can analz more from the union than from the
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	417	separate parts, as a key in one might decrypt a message in the other*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	418	lemma analz_Un: "analz(G) \<union> analz(H) \<subseteq> analz(G \<union> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	419	by (intro Un_least analz_mono Un_upper1 Un_upper2)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	420
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	421	lemma analz_insert: "insert X (analz H) \<subseteq> analz(insert X H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	422	by (blast intro: analz_mono [THEN [2] rev_subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	423
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	424	subsubsection{Rewrite rules for pulling out atomic messages }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	425
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	426	lemmas analz_insert_eq_I = equalityI [OF subsetI analz_insert]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	427
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	428	lemma analz_insert_Agent [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	429	"analz (insert (Agent agt) H) = insert (Agent agt) (analz H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	430	apply (rule analz_insert_eq_I)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	431	apply (erule analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	432	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	433
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	434	lemma analz_insert_Nonce [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	435	"analz (insert (Nonce N) H) = insert (Nonce N) (analz H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	436	apply (rule analz_insert_eq_I)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	437	apply (erule analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	438	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	439
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	440	text{Can only pull out Keys if they are not needed to decrypt the rest}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	441	lemma analz_insert_Key [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	442	"K \<notin> keysFor (analz H) ==>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	443	analz (insert (Key K) H) = insert (Key K) (analz H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	444	apply (unfold keysFor_def)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	445	apply (rule analz_insert_eq_I)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	446	apply (erule analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	447	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	448
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	449	lemma analz_insert_MPair [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	450	"analz (insert {\|X,Y\|} H) =
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	451	insert {\|X,Y\|} (analz (insert X (insert Y H)))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	452	apply (rule equalityI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	453	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	454	apply (erule analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	455	apply (erule analz.induct)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	456	apply (blast intro: analz.Fst analz.Snd)+
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	457	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	458
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	459	text{Can pull out enCrypted message if the Key is not known}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	460	lemma analz_insert_Crypt:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	461	"Key (invKey K) \<notin> analz H
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	462	==> analz (insert (Crypt K X) H) = insert (Crypt K X) (analz H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	463	apply (rule analz_insert_eq_I)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	464	apply (erule analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	465
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	466	done
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	467
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	468	lemma lemma1: "Key (invKey K) \<in> analz H ==>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	469	analz (insert (Crypt K X) H) \<subseteq>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	470	insert (Crypt K X) (analz (insert X H))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	471	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	472	apply (erule_tac x = x in analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	473	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	474
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	475	lemma lemma2: "Key (invKey K) \<in> analz H ==>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	476	insert (Crypt K X) (analz (insert X H)) \<subseteq>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	477	analz (insert (Crypt K X) H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	478	apply auto
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	479	apply (erule_tac x = x in analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	480	apply (blast intro: analz_insertI analz.Decrypt)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	481	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	482
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	483	lemma analz_insert_Decrypt:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	484	"Key (invKey K) \<in> analz H ==>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	485	analz (insert (Crypt K X) H) =
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	486	insert (Crypt K X) (analz (insert X H))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	487	by (intro equalityI lemma1 lemma2)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	488
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	489	text{*Case analysis: either the message is secure, or it is not! Effective,
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	490	but can cause subgoals to blow up! Use with @{text "split_if"}; apparently
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	491	@{text "split_tac"} does not cope with patterns such as @{term"analz (insert
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	492	(Crypt K X) H)"} *}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	493	lemma analz_Crypt_if [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	494	"analz (insert (Crypt K X) H) =
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	495	(if (Key (invKey K) \<in> analz H)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	496	then insert (Crypt K X) (analz (insert X H))
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	497	else insert (Crypt K X) (analz H))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	498	by (simp add: analz_insert_Crypt analz_insert_Decrypt)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	499
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	500
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	501	text{This rule supposes "for the sake of argument" that we have the key.}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	502	lemma analz_insert_Crypt_subset:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	503	"analz (insert (Crypt K X) H) \<subseteq>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	504	insert (Crypt K X) (analz (insert X H))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	505	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	506	apply (erule analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	507	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	508
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	509
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	510	lemma analz_image_Key [simp]: "analz (Key`N) = Key`N"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	511	apply auto
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	512	apply (erule analz.induct, auto)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	513	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	514
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	515
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	516	subsubsection{Idempotence and transitivity }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	517
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	518	lemma analz_analzD [dest!]: "X\<in> analz (analz H) ==> X\<in> analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	519	by (erule analz.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	520
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	521	lemma analz_idem [simp]: "analz (analz H) = analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	522	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	523
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	524	lemma analz_subset_iff [simp]: "(analz G \<subseteq> analz H) = (G \<subseteq> analz H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	525	apply (rule iffI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	526	apply (iprover intro: subset_trans analz_increasing)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	527	apply (frule analz_mono, simp)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	528	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	529
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	530	lemma analz_trans: "[\| X\<in> analz G; G \<subseteq> analz H \|] ==> X\<in> analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	531	by (drule analz_mono, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	532
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	533	text{Cut; Lemma 2 of Lowe}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	534	lemma analz_cut: "[\| Y\<in> analz (insert X H); X\<in> analz H \|] ==> Y\<in> analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	535	by (erule analz_trans, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	536
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	537	(*Cut can be proved easily by induction on
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	538	"Y: analz (insert X H) ==> X: analz H --> Y: analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	539	*)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	540
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	541	text{*This rewrite rule helps in the simplification of messages that involve
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	542	the forwarding of unknown components (X). Without it, removing occurrences
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	543	of X can be very complicated. *}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	544	lemma analz_insert_eq: "X\<in> analz H ==> analz (insert X H) = analz H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	545	by (blast intro: analz_cut analz_insertI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	546
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	547
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	548	text{A congruence rule for "analz" }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	549
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	550	lemma analz_subset_cong:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	551	"[\| analz G \<subseteq> analz G'; analz H \<subseteq> analz H' \|]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	552	==> analz (G \<union> H) \<subseteq> analz (G' \<union> H')"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	553	apply simp
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	554	apply (iprover intro: conjI subset_trans analz_mono Un_upper1 Un_upper2)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	555	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	556
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	557	lemma analz_cong:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	558	"[\| analz G = analz G'; analz H = analz H' \|]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	559	==> analz (G \<union> H) = analz (G' \<union> H')"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	560	by (intro equalityI analz_subset_cong, simp_all)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	561
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	562	lemma analz_insert_cong:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	563	"analz H = analz H' ==> analz(insert X H) = analz(insert X H')"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	564	by (force simp only: insert_def intro!: analz_cong)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	565
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	566	text{If there are no pairs or encryptions then analz does nothing}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	567	lemma analz_trivial:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	568	"[\| \<forall>X Y. {\|X,Y\|} \<notin> H; \<forall>X K. Crypt K X \<notin> H \|] ==> analz H = H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	569	apply safe
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	570	apply (erule analz.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	571	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	572
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	573	text{These two are obsolete (with a single Spy) but cost little to prove...}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	574	lemma analz_UN_analz_lemma:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	575	"X\<in> analz (\<Union>i\<in>A. analz (H i)) ==> X\<in> analz (\<Union>i\<in>A. H i)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	576	apply (erule analz.induct)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	577	apply (blast intro: analz_mono [THEN [2] rev_subsetD])+
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	578	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	579
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	580	lemma analz_UN_analz [simp]: "analz (\<Union>i\<in>A. analz (H i)) = analz (\<Union>i\<in>A. H i)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	581	by (blast intro: analz_UN_analz_lemma analz_mono [THEN [2] rev_subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	582	(>)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	583	text {*
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	584	Note the @{text Decrypt} rule: the spy can decrypt a
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	585	message encrypted with key~$K$ if he has the matching key,~$K^{-1}$.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	586	Properties proved by rule induction include the following:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	587	@{named_thms [display,indent=0] analz_mono [no_vars] (analz_mono) analz_idem [no_vars] (analz_idem)}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	588
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	589	The set of fake messages that an intruder could invent
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	590	starting from~@{text H} is @{text "synth(analz H)"}, where @{text "synth H"}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	591	formalizes what the adversary can build from the set of messages~$H$.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	592	*}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	593
23733 3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	594	inductive_set
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	595	synth :: "msg set \<Rightarrow> msg set"
23733 3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	596	for H :: "msg set"
3f8ad7418e55 Adapted to new inductive definition package. berghofe parents: 16417 diff changeset	597	where
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	598	Inj [intro]: "X \<in> H \<Longrightarrow> X \<in> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	599	\| Agent [intro]: "Agent agt \<in> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	600	\| MPair [intro]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	601	"\<lbrakk>X \<in> synth H; Y \<in> synth H\<rbrakk> \<Longrightarrow> \<lbrace>X,Y\<rbrace> \<in> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	602	\| Crypt [intro]:
23929 6a98d0826daf Tuned. berghofe parents: 23925 diff changeset	603	"\<lbrakk>X \<in> synth H; Key K \<in> H\<rbrakk> \<Longrightarrow> Crypt K X \<in> synth H"
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	604	(<)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	605	lemma synth_mono: "G\<subseteq>H ==> synth(G) \<subseteq> synth(H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	606	by (auto, erule synth.induct, auto)
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	607
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	608	inductive_cases Key_synth [elim!]: "Key K \<in> synth H"
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	609	inductive_cases MPair_synth [elim!]: "{\|X,Y\|} \<in> synth H"
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	610	inductive_cases Crypt_synth [elim!]: "Crypt K X \<in> synth H"
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	611
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	612	lemma analz_synth_Un [simp]: "analz (synth G \<union> H) = analz (G \<union> H) \<union> synth G"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	613	apply (rule equalityI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	614	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	615	apply (erule analz.induct)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	616	prefer 5 apply (blast intro: analz_mono [THEN [2] rev_subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	617	apply (blast intro: analz.Fst analz.Snd analz.Decrypt)+
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	618	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	619
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	620	lemma analz_synth [simp]: "analz (synth H) = analz H \<union> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	621	apply (cut_tac H = "{}" in analz_synth_Un)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	622	apply (simp (no_asm_use))
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	623	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	624	(>)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	625	text {*
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	626	The set includes all agent names. Nonces and keys are assumed to be
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	627	unguessable, so none are included beyond those already in~$H$. Two
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	628	elements of @{term "synth H"} can be combined, and an element can be encrypted
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	629	using a key present in~$H$.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	630
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	631	Like @{text analz}, this set operator is monotone and idempotent. It also
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	632	satisfies an interesting equation involving @{text analz}:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	633	@{named_thms [display,indent=0] analz_synth [no_vars] (analz_synth)}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	634	Rule inversion plays a major role in reasoning about @{text synth}, through
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	635	declarations such as this one:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	636	*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	637
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	638	inductive_cases Nonce_synth [elim!]: "Nonce n \<in> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	639
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	640	text {*
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	641	\noindent
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	642	The resulting elimination rule replaces every assumption of the form
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	643	@{term "Nonce n \<in> synth H"} by @{term "Nonce n \<in> H"},
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	644	expressing that a nonce cannot be guessed.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	645
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	646	A third operator, @{text parts}, is useful for stating correctness
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	647	properties. The set
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	648	@{term "parts H"} consists of the components of elements of~$H$. This set
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	649	includes~@{text H} and is closed under the projections from a compound
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	650	message to its immediate parts.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	651	Its definition resembles that of @{text analz} except in the rule
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	652	corresponding to the constructor @{text Crypt}:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	653	@{thm [display,indent=5] parts.Body [no_vars]}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	654	The body of an encrypted message is always regarded as part of it. We can
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	655	use @{text parts} to express general well-formedness properties of a protocol,
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	656	for example, that an uncompromised agent's private key will never be
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	657	included as a component of any message.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	658	*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	659	(<)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	660	lemma synth_increasing: "H \<subseteq> synth(H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	661	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	662
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	663	subsubsection{Unions }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	664
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	665	text{*Converse fails: we can synth more from the union than from the
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	666	separate parts, building a compound message using elements of each.*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	667	lemma synth_Un: "synth(G) \<union> synth(H) \<subseteq> synth(G \<union> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	668	by (intro Un_least synth_mono Un_upper1 Un_upper2)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	669
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	670	lemma synth_insert: "insert X (synth H) \<subseteq> synth(insert X H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	671	by (blast intro: synth_mono [THEN [2] rev_subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	672
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	673	subsubsection{Idempotence and transitivity }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	674
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	675	lemma synth_synthD [dest!]: "X\<in> synth (synth H) ==> X\<in> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	676	by (erule synth.induct, blast+)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	677
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	678	lemma synth_idem: "synth (synth H) = synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	679	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	680
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	681	lemma synth_subset_iff [simp]: "(synth G \<subseteq> synth H) = (G \<subseteq> synth H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	682	apply (rule iffI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	683	apply (iprover intro: subset_trans synth_increasing)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	684	apply (frule synth_mono, simp add: synth_idem)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	685	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	686
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	687	lemma synth_trans: "[\| X\<in> synth G; G \<subseteq> synth H \|] ==> X\<in> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	688	by (drule synth_mono, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	689
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	690	text{Cut; Lemma 2 of Lowe}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	691	lemma synth_cut: "[\| Y\<in> synth (insert X H); X\<in> synth H \|] ==> Y\<in> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	692	by (erule synth_trans, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	693
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	694	lemma Agent_synth [simp]: "Agent A \<in> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	695	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	696
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	697	lemma Nonce_synth_eq [simp]: "(Nonce N \<in> synth H) = (Nonce N \<in> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	698	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	699
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	700	lemma Key_synth_eq [simp]: "(Key K \<in> synth H) = (Key K \<in> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	701	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	702
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	703	lemma Crypt_synth_eq [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	704	"Key K \<notin> H ==> (Crypt K X \<in> synth H) = (Crypt K X \<in> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	705	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	706
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	707
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	708	lemma keysFor_synth [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	709	"keysFor (synth H) = keysFor H \<union> invKey`{K. Key K \<in> H}"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	710	by (unfold keysFor_def, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	711
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	712
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	713	subsubsection{Combinations of parts, analz and synth }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	714
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	715	lemma parts_synth [simp]: "parts (synth H) = parts H \<union> synth H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	716	apply (rule equalityI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	717	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	718	apply (erule parts.induct)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	719	apply (blast intro: synth_increasing [THEN parts_mono, THEN subsetD]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	720	parts.Fst parts.Snd parts.Body)+
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	721	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	722
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	723	lemma analz_analz_Un [simp]: "analz (analz G \<union> H) = analz (G \<union> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	724	apply (intro equalityI analz_subset_cong)+
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	725	apply simp_all
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	726	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	727
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	728
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	729	subsubsection{For reasoning about the Fake rule in traces }
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	730
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	731	lemma parts_insert_subset_Un: "X\<in> G ==> parts(insert X H) \<subseteq> parts G \<union> parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	732	by (rule subset_trans [OF parts_mono parts_Un_subset2], blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	733
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	734	text{*More specifically for Fake. Very occasionally we could do with a version
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	735	of the form @{term"parts{X} \<subseteq> synth (analz H) \<union> parts H"} *}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	736	lemma Fake_parts_insert:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	737	"X \<in> synth (analz H) ==>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	738	parts (insert X H) \<subseteq> synth (analz H) \<union> parts H"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	739	apply (drule parts_insert_subset_Un)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	740	apply (simp (no_asm_use))
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	741	apply blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	742	done
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	743
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	744	lemma Fake_parts_insert_in_Un:
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	745	"[\|Z \<in> parts (insert X H); X: synth (analz H)\|]
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	746	==> Z \<in> synth (analz H) \<union> parts H";
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	747	by (blast dest: Fake_parts_insert [THEN subsetD, dest])
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	748
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	749	text{*@{term H} is sometimes @{term"Key ` KK \<union> spies evs"}, so can't put
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	750	@{term "G=H"}.*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	751	lemma Fake_analz_insert:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	752	"X\<in> synth (analz G) ==>
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	753	analz (insert X H) \<subseteq> synth (analz G) \<union> analz (G \<union> H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	754	apply (rule subsetI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	755	apply (subgoal_tac "x \<in> analz (synth (analz G) \<union> H) ")
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	756	prefer 2 apply (blast intro: analz_mono [THEN [2] rev_subsetD] analz_mono [THEN synth_mono, THEN [2] rev_subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	757	apply (simp (no_asm_use))
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	758	apply blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	759	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	760
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	761	lemma analz_conj_parts [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	762	"(X \<in> analz H & X \<in> parts H) = (X \<in> analz H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	763	by (blast intro: analz_subset_parts [THEN subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	764
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	765	lemma analz_disj_parts [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	766	"(X \<in> analz H \| X \<in> parts H) = (X \<in> parts H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	767	by (blast intro: analz_subset_parts [THEN subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	768
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	769	text{*Without this equation, other rules for synth and analz would yield
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	770	redundant cases*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	771	lemma MPair_synth_analz [iff]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	772	"({\|X,Y\|} \<in> synth (analz H)) =
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	773	(X \<in> synth (analz H) & Y \<in> synth (analz H))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	774	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	775
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	776	lemma Crypt_synth_analz:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	777	"[\| Key K \<in> analz H; Key (invKey K) \<in> analz H \|]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	778	==> (Crypt K X \<in> synth (analz H)) = (X \<in> synth (analz H))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	779	by blast
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	780
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	781
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	782	text{We do NOT want Crypt... messages broken up in protocols!!}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	783	declare parts.Body [rule del]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	784
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	785
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	786	text{*Rewrites to push in Key and Crypt messages, so that other messages can
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	787	be pulled out using the @{text analz_insert} rules*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	788
55142 378ae9e46175 prefer explicit 'for' context; wenzelm parents: 51717 diff changeset	789	lemmas pushKeys =
27225 b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	790	insert_commute [of "Key K" "Agent C"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	791	insert_commute [of "Key K" "Nonce N"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	792	insert_commute [of "Key K" "Number N"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	793	insert_commute [of "Key K" "Hash X"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	794	insert_commute [of "Key K" "MPair X Y"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	795	insert_commute [of "Key K" "Crypt X K'"]
55142 378ae9e46175 prefer explicit 'for' context; wenzelm parents: 51717 diff changeset	796	for K C N X Y K'
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	797
55142 378ae9e46175 prefer explicit 'for' context; wenzelm parents: 51717 diff changeset	798	lemmas pushCrypts =
27225 b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	799	insert_commute [of "Crypt X K" "Agent C"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	800	insert_commute [of "Crypt X K" "Agent C"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	801	insert_commute [of "Crypt X K" "Nonce N"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	802	insert_commute [of "Crypt X K" "Number N"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	803	insert_commute [of "Crypt X K" "Hash X'"]
b316dde851f5 eliminated OldGoals.inst; wenzelm parents: 27154 diff changeset	804	insert_commute [of "Crypt X K" "MPair X' Y"]
55142 378ae9e46175 prefer explicit 'for' context; wenzelm parents: 51717 diff changeset	805	for X K C N X' Y
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	806
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	807	text{*Cannot be added with @{text "[simp]"} -- messages should not always be
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	808	re-ordered. *}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	809	lemmas pushes = pushKeys pushCrypts
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	810
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	811
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	812	subsection{Tactics useful for many protocol proofs}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	813	ML
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	814	{*
39282 7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	815	val invKey = @{thm invKey};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	816	val keysFor_def = @{thm keysFor_def};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	817	val symKeys_def = @{thm symKeys_def};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	818	val parts_mono = @{thm parts_mono};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	819	val analz_mono = @{thm analz_mono};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	820	val synth_mono = @{thm synth_mono};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	821	val analz_increasing = @{thm analz_increasing};
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	822
39282 7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	823	val analz_insertI = @{thm analz_insertI};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	824	val analz_subset_parts = @{thm analz_subset_parts};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	825	val Fake_parts_insert = @{thm Fake_parts_insert};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	826	val Fake_analz_insert = @{thm Fake_analz_insert};
7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	827	val pushes = @{thms pushes};
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	828
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	829
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	830	(*Analysis of Fake cases. Also works for messages that forward unknown parts,
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	831	but this application is no longer necessary if analz_insert_eq is used.
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	832	Abstraction over i is ESSENTIAL: it delays the dereferencing of claset
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	833	DEPENDS UPON "X" REFERRING TO THE FRADULENT MESSAGE *)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	834
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	835	(*Apply rules to break down assumptions of the form
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	836	Y \<in> parts(insert X H) and Y \<in> analz(insert X H)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	837	*)
32265 fa8872f21ac3 reinserted legacy ML function haftmann parents: 32149 diff changeset	838	fun impOfSubs th = th RSN (2, @{thm rev_subsetD})
fa8872f21ac3 reinserted legacy ML function haftmann parents: 32149 diff changeset	839
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	840	val Fake_insert_tac =
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	841	dresolve_tac [impOfSubs Fake_analz_insert,
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	842	impOfSubs Fake_parts_insert] THEN'
39282 7c69964c6d74 proper antiquotations; wenzelm parents: 35416 diff changeset	843	eresolve_tac [asm_rl, @{thm synth.Inj}];
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	844
51717 9e7d1c139569 simplifier uses proper Proof.context instead of historic type simpset; wenzelm parents: 49322 diff changeset	845	fun Fake_insert_simp_tac ctxt i =
9e7d1c139569 simplifier uses proper Proof.context instead of historic type simpset; wenzelm parents: 49322 diff changeset	846	REPEAT (Fake_insert_tac i) THEN asm_full_simp_tac ctxt i;
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	847
42475 f830a72b27ed simplified/modernized method setup; wenzelm parents: 39282 diff changeset	848	fun atomic_spy_analz_tac ctxt =
42793 88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	849	SELECT_GOAL
51717 9e7d1c139569 simplifier uses proper Proof.context instead of historic type simpset; wenzelm parents: 49322 diff changeset	850	(Fake_insert_simp_tac ctxt 1 THEN
42793 88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	851	IF_UNSOLVED (Blast.depth_tac (ctxt addIs [analz_insertI, impOfSubs analz_subset_parts]) 4 1));
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	852
42475 f830a72b27ed simplified/modernized method setup; wenzelm parents: 39282 diff changeset	853	fun spy_analz_tac ctxt i =
42793 88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	854	DETERM
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	855	(SELECT_GOAL
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	856	(EVERY
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	857	[ (push in occurrences of X...)
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	858	(REPEAT o CHANGED)
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	859	(res_inst_tac ctxt [(("x", 1), "X")] (insert_commute RS ssubst) 1),
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	860	(...allowing further simplifications)
51717 9e7d1c139569 simplifier uses proper Proof.context instead of historic type simpset; wenzelm parents: 49322 diff changeset	861	simp_tac ctxt 1,
42793 88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	862	REPEAT (FIRSTGOAL (resolve_tac [allI,impI,notI,conjI,iffI])),
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42765 diff changeset	863	DEPTH_SOLVE (atomic_spy_analz_tac ctxt 1)]) i);
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	864	*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	865
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	866	text{*By default only @{text o_apply} is built-in. But in the presence of
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	867	eta-expansion this means that some terms displayed as @{term "f o g"} will be
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	868	rewritten, and others will not!*}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	869	declare o_def [simp]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	870
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	871
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	872	lemma Crypt_notin_image_Key [simp]: "Crypt K X \<notin> Key ` A"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	873	by auto
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	874
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	875	lemma synth_analz_mono: "G\<subseteq>H ==> synth (analz(G)) \<subseteq> synth (analz(H))"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	876	by (iprover intro: synth_mono analz_mono)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	877
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	878	lemma Fake_analz_eq [simp]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	879	"X \<in> synth(analz H) ==> synth (analz (insert X H)) = synth (analz H)"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	880	apply (drule Fake_analz_insert[of _ _ "H"])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	881	apply (simp add: synth_increasing[THEN Un_absorb2])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	882	apply (drule synth_mono)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	883	apply (simp add: synth_idem)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	884	apply (rule equalityI)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	885	apply (simp add: );
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	886	apply (rule synth_analz_mono, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	887	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	888
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	889	text{Two generalizations of @{text analz_insert_eq}}
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	890	lemma gen_analz_insert_eq [rule_format]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	891	"X \<in> analz H ==> ALL G. H \<subseteq> G --> analz (insert X G) = analz G";
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	892	by (blast intro: analz_cut analz_insertI analz_mono [THEN [2] rev_subsetD])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	893
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	894	lemma synth_analz_insert_eq [rule_format]:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	895	"X \<in> synth (analz H)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	896	==> ALL G. H \<subseteq> G --> (Key K \<in> analz (insert X G)) = (Key K \<in> analz G)";
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	897	apply (erule synth.induct)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	898	apply (simp_all add: gen_analz_insert_eq subset_trans [OF _ subset_insertI])
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	899	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	900
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	901	lemma Fake_parts_sing:
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	902	"X \<in> synth (analz H) ==> parts{X} \<subseteq> synth (analz H) \<union> parts H";
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	903	apply (rule subset_trans)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	904	apply (erule_tac [2] Fake_parts_insert)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	905	apply (rule parts_mono, blast)
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	906	done
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	907
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	908	lemmas Fake_parts_sing_imp_Un = Fake_parts_sing [THEN [2] rev_subsetD]
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	909
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	910	method_setup spy_analz = {*
42475 f830a72b27ed simplified/modernized method setup; wenzelm parents: 39282 diff changeset	911	Scan.succeed (SIMPLE_METHOD' o spy_analz_tac) *}
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	912	"for proving the Fake case when analz is involved"
c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	913
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	914	method_setup atomic_spy_analz = {*
42475 f830a72b27ed simplified/modernized method setup; wenzelm parents: 39282 diff changeset	915	Scan.succeed (SIMPLE_METHOD' o atomic_spy_analz_tac) *}
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	916	"for debugging spy_analz"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	917
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	918	method_setup Fake_insert_simp = {*
51717 9e7d1c139569 simplifier uses proper Proof.context instead of historic type simpset; wenzelm parents: 49322 diff changeset	919	Scan.succeed (SIMPLE_METHOD' o Fake_insert_simp_tac) *}
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	920	"for debugging spy_analz"
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	921
ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	922
11250 c8bbf4c4bc2d symlinks to ../../../HOL/Auth. Fingers crossed... paulson parents: diff changeset	923	end
23925 ee98c2528a8f LaTeX code is now generated directly from theory files. berghofe parents: 23733 diff changeset	924	(>)

author	blanchet
	Mon, 15 Sep 2014 10:49:07 +0200
changeset 58335	a5a3b576fcfb
parent 58305	57752a91eec4
child 58860	fee7cfa69c50
permissions	-rw-r--r--