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1 /*	$NetBSD: cftoken.l,v 1.23 2011/02/02 15:21:34 vanhu Exp $	*/
2 
3 /* Id: cftoken.l,v 1.53 2006/08/22 18:17:17 manubsd Exp */
4 
5 %{
6 /*
7  * Copyright (C) 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002 and 2003 WIDE Project.
8  * All rights reserved.
9  *
10  * Redistribution and use in source and binary forms, with or without
11  * modification, are permitted provided that the following conditions
12  * are met:
13  * 1. Redistributions of source code must retain the above copyright
14  *    notice, this list of conditions and the following disclaimer.
15  * 2. Redistributions in binary form must reproduce the above copyright
16  *    notice, this list of conditions and the following disclaimer in the
17  *    documentation and/or other materials provided with the distribution.
18  * 3. Neither the name of the project nor the names of its contributors
19  *    may be used to endorse or promote products derived from this software
20  *    without specific prior written permission.
21  *
22  * THIS SOFTWARE IS PROVIDED BY THE PROJECT AND CONTRIBUTORS ``AS IS'' AND
23  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
24  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
25  * ARE DISCLAIMED.  IN NO EVENT SHALL THE PROJECT OR CONTRIBUTORS BE LIABLE
26  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
27  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
28  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
29  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
30  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
31  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32  * SUCH DAMAGE.
33  */
34 
35 #include "config.h"
36 
37 #include <sys/types.h>
38 #include <sys/param.h>
39 #include <sys/socket.h>
40 
41 #include <netinet/in.h>
42 #include PATH_IPSEC_H
43 
44 #include <stdlib.h>
45 #include <stdio.h>
46 #include <string.h>
47 #include <errno.h>
48 #include <limits.h>
49 #include <ctype.h>
50 #include <glob.h>
51 #ifdef HAVE_STDARG_H
52 #include <stdarg.h>
53 #else
54 #include <varargs.h>
55 #endif
56 
57 #include "var.h"
58 #include "misc.h"
59 #include "vmbuf.h"
60 #include "plog.h"
61 #include "debug.h"
62 
63 #include "algorithm.h"
64 #include "cfparse_proto.h"
65 #include "cftoken_proto.h"
66 #include "localconf.h"
67 #include "oakley.h"
68 #include "isakmp_var.h"
69 #include "isakmp.h"
70 #include "ipsec_doi.h"
71 #include "policy.h"
72 #include "proposal.h"
73 #include "remoteconf.h"
74 #ifdef GC
75 #include "gcmalloc.h"
76 #endif
77 
78 #include "cfparse.h"
79 
80 int yyerrorcount = 0;
81 
82 #if defined(YIPS_DEBUG)
83 #  define YYDB plog(LLV_DEBUG2, LOCATION, NULL,                                \
84 		"begin <%d>%s\n", yy_start, yytext);
85 #  define YYD {                                                                \
86 	plog(LLV_DEBUG2, LOCATION, NULL, "<%d>%s",                             \
87 	    yy_start, loglevel >= LLV_DEBUG2 ? "\n" : "");                     \
88 }
89 #else
90 #  define YYDB
91 #  define YYD
92 #endif /* defined(YIPS_DEBUG) */
93 
94 #define MAX_INCLUDE_DEPTH 10
95 
96 static struct include_stack {
97 	char *path;
98 	FILE *fp;
99 	YY_BUFFER_STATE prevstate;
100 	int lineno;
101 	glob_t matches;
102 	int matchon;
103 } incstack[MAX_INCLUDE_DEPTH];
104 static int incstackp = 0;
105 
106 static int yy_first_time = 1;
107 %}
108 
109 /* common seciton */
110 nl		\n
111 ws		[ \t]+
112 digit		[0-9]
113 letter		[A-Za-z]
114 hexdigit	[0-9A-Fa-f]
115 /*octet		(([01]?{digit}?{digit})|((2([0-4]{digit}))|(25[0-5]))) */
116 special		[()+\|\?\*]
117 comma		\,
118 dot		\.
119 slash		\/
120 bcl		\{
121 ecl		\}
122 blcl		\[
123 elcl		\]
124 hyphen          \-
125 percent		\%
126 semi		\;
127 comment		\#.*
128 ccomment	"/*"
129 bracketstring	\<[^>]*\>
130 quotedstring	\"[^"]*\"
131 addrstring	[a-fA-F0-9:]([a-fA-F0-9:\.]*|[a-fA-F0-9:\.]*%[a-zA-Z0-9]*)
132 decstring	{digit}+
133 hexstring	0x{hexdigit}+
134 
135 %s S_INI S_PRIV S_PTH S_LOG S_PAD S_LST S_RTRY S_CFG S_LDAP S_RAD
136 %s S_ALGST S_ALGCL
137 %s S_SAINF S_SAINFS
138 %s S_RMT S_RMTS S_RMTP
139 %s S_SA
140 %s S_GSSENC
141 
142 %%
143 %{
144 	if (yy_first_time) {
145 		BEGIN S_INI;
146 		yy_first_time = 0;
147 	}
148 %}
149 
150 	/* privsep */
151 <S_INI>privsep		{ BEGIN S_PRIV; YYDB; return(PRIVSEP); }
152 <S_PRIV>{bcl}		{ return(BOC); }
153 <S_PRIV>user		{ YYD; return(USER); }
154 <S_PRIV>group		{ YYD; return(GROUP); }
155 <S_PRIV>chroot		{ YYD; return(CHROOT); }
156 <S_PRIV>{ecl}		{ BEGIN S_INI; return(EOC); }
157 
158 	/* path */
159 <S_INI>path		{ BEGIN S_PTH; YYDB; return(PATH); }
160 <S_PTH>include		{ YYD; yylval.num = LC_PATHTYPE_INCLUDE;
161 				return(PATHTYPE); }
162 <S_PTH>pre_shared_key	{ YYD; yylval.num = LC_PATHTYPE_PSK;
163 				return(PATHTYPE); }
164 <S_PTH>certificate	{ YYD; yylval.num = LC_PATHTYPE_CERT;
165 				return(PATHTYPE); }
166 <S_PTH>script		{ YYD; yylval.num = LC_PATHTYPE_SCRIPT;
167 				return(PATHTYPE); }
168 <S_PTH>backupsa		{ YYD; yylval.num = LC_PATHTYPE_BACKUPSA;
169 				return(PATHTYPE); }
170 <S_PTH>pidfile		{ YYD; yylval.num = LC_PATHTYPE_PIDFILE;
171 				return(PATHTYPE); }
172 <S_PTH>{semi}		{ BEGIN S_INI; YYDB; return(EOS); }
173 
174 	/* include */
175 <S_INI>include		{ YYDB; return(INCLUDE); }
176 
177     /* pfkey_buffer */
178 <S_INI>pfkey_buffer { YYDB; return(PFKEY_BUFFER); }
179 
180 	/* special */
181 <S_INI>complex_bundle	{ YYDB; return(COMPLEX_BUNDLE); }
182 
183 	/* logging */
184 <S_INI>log		{ BEGIN S_LOG; YYDB; return(LOGGING); }
185 <S_LOG>error		{ YYD; yylval.num = LLV_ERROR; return(LOGLEV); }
186 <S_LOG>warning		{ YYD; yylval.num = LLV_WARNING; return(LOGLEV); }
187 <S_LOG>notify		{ YYD; yylval.num = LLV_NOTIFY; return(LOGLEV); }
188 <S_LOG>info		{ YYD; yylval.num = LLV_INFO; return(LOGLEV); }
189 <S_LOG>debug		{ YYD; yylval.num = LLV_DEBUG; return(LOGLEV); }
190 <S_LOG>debug2		{ YYD; yylval.num = LLV_DEBUG2; return(LOGLEV); }
191 <S_LOG>{semi}		{ BEGIN S_INI; return(EOS); }
192 
193 	/* padding */
194 <S_INI>padding		{ BEGIN S_PAD; YYDB; return(PADDING); }
195 <S_PAD>{bcl}		{ return(BOC); }
196 <S_PAD>randomize	{ YYD; return(PAD_RANDOMIZE); }
197 <S_PAD>randomize_length	{ YYD; return(PAD_RANDOMIZELEN); }
198 <S_PAD>maximum_length	{ YYD; return(PAD_MAXLEN); }
199 <S_PAD>strict_check	{ YYD; return(PAD_STRICT); }
200 <S_PAD>exclusive_tail	{ YYD; return(PAD_EXCLTAIL); }
201 <S_PAD>{ecl}		{ BEGIN S_INI; return(EOC); }
202 
203 	/* listen */
204 <S_INI>listen		{ BEGIN S_LST; YYDB; return(LISTEN); }
205 <S_LST>{bcl}		{ return(BOC); }
206 <S_LST>isakmp		{ YYD; return(X_ISAKMP); }
207 <S_LST>isakmp_natt	{ YYD; return(X_ISAKMP_NATT); }
208 <S_LST>admin		{ YYD; return(X_ADMIN); }
209 <S_LST>adminsock	{ YYD; return(ADMINSOCK); }
210 <S_LST>disabled		{ YYD; return(DISABLED); }
211 <S_LST>strict_address	{ YYD; return(STRICT_ADDRESS); }
212 <S_LST>{ecl}		{ BEGIN S_INI; return(EOC); }
213 
214 	/* radius config */
215 <S_INI>radiuscfg	{ BEGIN S_RAD; YYDB; return(RADCFG); }
216 <S_RAD>{bcl}		{ return(BOC); }
217 <S_RAD>auth		{ YYD; return(RAD_AUTH); }
218 <S_RAD>acct		{ YYD; return(RAD_ACCT); }
219 <S_RAD>timeout		{ YYD; return(RAD_TIMEOUT); }
220 <S_RAD>retries		{ YYD; return(RAD_RETRIES); }
221 <S_RAD>{ecl}		{ BEGIN S_INI; return(EOC); }
222 
223 	/* ldap config */
224 <S_INI>ldapcfg		{ BEGIN S_LDAP; YYDB; return(LDAPCFG); }
225 <S_LDAP>{bcl}		{ return(BOC); }
226 <S_LDAP>version		{ YYD; return(LDAP_PVER); }
227 <S_LDAP>host		{ YYD; return(LDAP_HOST); }
228 <S_LDAP>port		{ YYD; return(LDAP_PORT); }
229 <S_LDAP>base		{ YYD; return(LDAP_BASE); }
230 <S_LDAP>subtree		{ YYD; return(LDAP_SUBTREE); }
231 <S_LDAP>bind_dn		{ YYD; return(LDAP_BIND_DN); }
232 <S_LDAP>bind_pw		{ YYD; return(LDAP_BIND_PW); }
233 <S_LDAP>attr_user	{ YYD; return(LDAP_ATTR_USER); }
234 <S_LDAP>attr_addr	{ YYD; return(LDAP_ATTR_ADDR); }
235 <S_LDAP>attr_mask	{ YYD; return(LDAP_ATTR_MASK); }
236 <S_LDAP>attr_group	{ YYD; return(LDAP_ATTR_GROUP); }
237 <S_LDAP>attr_member	{ YYD; return(LDAP_ATTR_MEMBER); }
238 <S_LDAP>{ecl}		{ BEGIN S_INI; return(EOC); }
239 
240 	/* mode_cfg */
241 <S_INI>mode_cfg		{ BEGIN S_CFG; YYDB; return(MODECFG); }
242 <S_CFG>{bcl}		{ return(BOC); }
243 <S_CFG>network4		{ YYD; return(CFG_NET4); }
244 <S_CFG>netmask4		{ YYD; return(CFG_MASK4); }
245 <S_CFG>dns4		{ YYD; return(CFG_DNS4); }
246 <S_CFG>nbns4		{ YYD; return(CFG_NBNS4); }
247 <S_CFG>wins4		{ YYD; return(CFG_NBNS4); }
248 <S_CFG>default_domain	{ YYD; return(CFG_DEFAULT_DOMAIN); }
249 <S_CFG>auth_source	{ YYD; return(CFG_AUTH_SOURCE); }
250 <S_CFG>auth_groups	{ YYD; return(CFG_AUTH_GROUPS); }
251 <S_CFG>group_source	{ YYD; return(CFG_GROUP_SOURCE); }
252 <S_CFG>conf_source	{ YYD; return(CFG_CONF_SOURCE); }
253 <S_CFG>accounting	{ YYD; return(CFG_ACCOUNTING); }
254 <S_CFG>system		{ YYD; return(CFG_SYSTEM); }
255 <S_CFG>local		{ YYD; return(CFG_LOCAL); }
256 <S_CFG>none		{ YYD; return(CFG_NONE); }
257 <S_CFG>radius		{ YYD; return(CFG_RADIUS); }
258 <S_CFG>pam		{ YYD; return(CFG_PAM); }
259 <S_CFG>ldap		{ YYD; return(CFG_LDAP); }
260 <S_CFG>pool_size	{ YYD; return(CFG_POOL_SIZE); }
261 <S_CFG>banner		{ YYD; return(CFG_MOTD); }
262 <S_CFG>auth_throttle	{ YYD; return(CFG_AUTH_THROTTLE); }
263 <S_CFG>split_network	{ YYD; return(CFG_SPLIT_NETWORK); }
264 <S_CFG>local_lan	{ YYD; return(CFG_SPLIT_LOCAL); }
265 <S_CFG>include		{ YYD; return(CFG_SPLIT_INCLUDE); }
266 <S_CFG>split_dns	{ YYD; return(CFG_SPLIT_DNS); }
267 <S_CFG>pfs_group	{ YYD; return(CFG_PFS_GROUP); }
268 <S_CFG>save_passwd	{ YYD; return(CFG_SAVE_PASSWD); }
269 <S_CFG>{comma}		{ YYD; return(COMMA); }
270 <S_CFG>{ecl}		{ BEGIN S_INI; return(EOC); }
271 
272 	/* timer */
273 <S_INI>timer		{ BEGIN S_RTRY; YYDB; return(RETRY); }
274 <S_RTRY>{bcl}		{ return(BOC); }
275 <S_RTRY>counter		{ YYD; return(RETRY_COUNTER); }
276 <S_RTRY>interval	{ YYD; return(RETRY_INTERVAL); }
277 <S_RTRY>persend		{ YYD; return(RETRY_PERSEND); }
278 <S_RTRY>phase1		{ YYD; return(RETRY_PHASE1); }
279 <S_RTRY>phase2		{ YYD; return(RETRY_PHASE2); }
280 <S_RTRY>natt_keepalive	{ YYD; return(NATT_KA); }
281 <S_RTRY>{ecl}		{ BEGIN S_INI; return(EOC); }
282 
283 	/* sainfo */
284 <S_INI>sainfo		{ BEGIN S_SAINF; YYDB; return(SAINFO); }
285 <S_SAINF>anonymous	{ YYD; return(ANONYMOUS); }
286 <S_SAINF>clientaddr	{ YYD; return(CLIENTADDR); }
287 <S_SAINF>{blcl}any{elcl}	{ YYD; return(PORTANY); }
288 <S_SAINF>any		{ YYD; return(ANY); }
289 <S_SAINF>from		{ YYD; return(FROM); }
290 <S_SAINF>group		{ YYD; return(GROUP); }
291 	/* sainfo spec */
292 <S_SAINF>{bcl}		{ BEGIN S_SAINFS; return(BOC); }
293 <S_SAINF>{semi}		{ BEGIN S_INI; return(EOS); }
294 <S_SAINFS>{ecl}		{ BEGIN S_INI; return(EOC); }
295 <S_SAINFS>pfs_group	{ YYD; return(PFS_GROUP); }
296 <S_SAINFS>remoteid	{ YYD; return(REMOTEID); }
297 <S_SAINFS>my_identifier	{ YYD; return(MY_IDENTIFIER); }
298 <S_SAINFS>lifetime	{ YYD; return(LIFETIME); }
299 <S_SAINFS>time		{ YYD; return(LIFETYPE_TIME); }
300 <S_SAINFS>byte		{ YYD; return(LIFETYPE_BYTE); }
301 <S_SAINFS>encryption_algorithm { YYD; yylval.num = algclass_ipsec_enc; return(ALGORITHM_CLASS); }
302 <S_SAINFS>authentication_algorithm { YYD; yylval.num = algclass_ipsec_auth; return(ALGORITHM_CLASS); }
303 <S_SAINFS>compression_algorithm	{ YYD; yylval.num = algclass_ipsec_comp; return(ALGORITHM_CLASS); }
304 <S_SAINFS>{comma}	{ YYD; return(COMMA); }
305 
306 	/* remote */
307 <S_INI>remote		{ BEGIN S_RMT; YYDB; return(REMOTE); }
308 <S_RMT>anonymous	{ YYD; return(ANONYMOUS); }
309 <S_RMT>inherit		{ YYD; return(INHERIT); }
310 	/* remote spec */
311 <S_RMT>{bcl}		{ BEGIN S_RMTS; return(BOC); }
312 <S_RMTS>{ecl}		{ BEGIN S_INI; return(EOC); }
313 <S_RMTS>remote_address	{ YYD; return(REMOTE_ADDRESS); }
314 <S_RMTS>exchange_mode	{ YYD; return(EXCHANGE_MODE); }
315 <S_RMTS>{comma}		{ YYD; /* XXX ignored, but to be handled. */ ; }
316 <S_RMTS>base		{ YYD; yylval.num = ISAKMP_ETYPE_BASE; return(EXCHANGETYPE); }
317 <S_RMTS>main		{ YYD; yylval.num = ISAKMP_ETYPE_IDENT; return(EXCHANGETYPE); }
318 <S_RMTS>aggressive	{ YYD; yylval.num = ISAKMP_ETYPE_AGG; return(EXCHANGETYPE); }
319 <S_RMTS>doi		{ YYD; return(DOI); }
320 <S_RMTS>ipsec_doi	{ YYD; yylval.num = IPSEC_DOI; return(DOITYPE); }
321 <S_RMTS>situation	{ YYD; return(SITUATION); }
322 <S_RMTS>identity_only	{ YYD; yylval.num = IPSECDOI_SIT_IDENTITY_ONLY; return(SITUATIONTYPE); }
323 <S_RMTS>secrecy		{ YYD; yylval.num = IPSECDOI_SIT_SECRECY; return(SITUATIONTYPE); }
324 <S_RMTS>integrity	{ YYD; yylval.num = IPSECDOI_SIT_INTEGRITY; return(SITUATIONTYPE); }
325 <S_RMTS>my_identifier	{ YYD; return(MY_IDENTIFIER); }
326 <S_RMTS>xauth_login	{ YYD; return(XAUTH_LOGIN); /* formerly identifier type login */ }
327 <S_RMTS>peers_identifier	{ YYD; return(PEERS_IDENTIFIER); }
328 <S_RMTS>verify_identifier	{ YYD; return(VERIFY_IDENTIFIER); }
329 <S_RMTS>certificate_type	{ YYD; return(CERTIFICATE_TYPE); }
330 <S_RMTS>ca_type		{ YYD; return(CA_TYPE); }
331 <S_RMTS>x509		{ YYD; yylval.num = ISAKMP_CERT_X509SIGN; return(CERT_X509); }
332 <S_RMTS>plain_rsa	{ YYD; yylval.num = ISAKMP_CERT_PLAINRSA; return(CERT_PLAINRSA); }
333 <S_RMTS>peers_certfile	{ YYD; return(PEERS_CERTFILE); }
334 <S_RMTS>dnssec		{ YYD; return(DNSSEC); }
335 <S_RMTS>verify_cert	{ YYD; return(VERIFY_CERT); }
336 <S_RMTS>send_cert	{ YYD; return(SEND_CERT); }
337 <S_RMTS>send_cr		{ YYD; return(SEND_CR); }
338 <S_RMTS>match_empty_cr	{ YYD; return(MATCH_EMPTY_CR); }
339 <S_RMTS>dh_group	{ YYD; return(DH_GROUP); }
340 <S_RMTS>nonce_size	{ YYD; return(NONCE_SIZE); }
341 <S_RMTS>generate_policy	{ YYD; return(GENERATE_POLICY); }
342 <S_RMTS>unique		{ YYD; yylval.num = GENERATE_POLICY_UNIQUE; return(GENERATE_LEVEL); }
343 <S_RMTS>require		{ YYD; yylval.num = GENERATE_POLICY_REQUIRE; return(GENERATE_LEVEL); }
344 <S_RMTS>support_proxy	{ YYD; return(SUPPORT_PROXY); }
345 <S_RMTS>initial_contact	{ YYD; return(INITIAL_CONTACT); }
346 <S_RMTS>nat_traversal	{ YYD; return(NAT_TRAVERSAL); }
347 <S_RMTS>force		{ YYD; return(REMOTE_FORCE_LEVEL); }
348 <S_RMTS>proposal_check	{ YYD; return(PROPOSAL_CHECK); }
349 <S_RMTS>obey		{ YYD; yylval.num = PROP_CHECK_OBEY; return(PROPOSAL_CHECK_LEVEL); }
350 <S_RMTS>strict		{ YYD; yylval.num = PROP_CHECK_STRICT; return(PROPOSAL_CHECK_LEVEL); }
351 <S_RMTS>exact		{ YYD; yylval.num = PROP_CHECK_EXACT; return(PROPOSAL_CHECK_LEVEL); }
352 <S_RMTS>claim		{ YYD; yylval.num = PROP_CHECK_CLAIM; return(PROPOSAL_CHECK_LEVEL); }
353 <S_RMTS>keepalive	{ YYD; return(KEEPALIVE); }
354 <S_RMTS>passive		{ YYD; return(PASSIVE); }
355 <S_RMTS>lifetime	{ YYD; return(LIFETIME); }
356 <S_RMTS>time		{ YYD; return(LIFETYPE_TIME); }
357 <S_RMTS>byte		{ YYD; return(LIFETYPE_BYTE); }
358 <S_RMTS>dpd			{ YYD; return(DPD); }
359 <S_RMTS>dpd_delay	{ YYD; return(DPD_DELAY); }
360 <S_RMTS>dpd_retry	{ YYD; return(DPD_RETRY); }
361 <S_RMTS>dpd_maxfail	{ YYD; return(DPD_MAXFAIL); }
362 <S_RMTS>ph1id		{ YYD; return(PH1ID); }
363 <S_RMTS>ike_frag	{ YYD; return(IKE_FRAG); }
364 <S_RMTS>esp_frag	{ YYD; return(ESP_FRAG); }
365 <S_RMTS>script		{ YYD; return(SCRIPT); }
366 <S_RMTS>phase1_up	{ YYD; return(PHASE1_UP); }
367 <S_RMTS>phase1_down	{ YYD; return(PHASE1_DOWN); }
368 <S_RMTS>phase1_dead	{ YYD; return(PHASE1_DEAD); }
369 <S_RMTS>mode_cfg	{ YYD; return(MODE_CFG); }
370 <S_RMTS>weak_phase1_check { YYD; return(WEAK_PHASE1_CHECK); }
371 <S_RMTS>rekey		{ YYD; return(REKEY); }
372 	/* remote proposal */
373 <S_RMTS>proposal	{ BEGIN S_RMTP; YYDB; return(PROPOSAL); }
374 <S_RMTP>{bcl}		{ return(BOC); }
375 <S_RMTP>{ecl}		{ BEGIN S_RMTS; return(EOC); }
376 <S_RMTP>lifetime	{ YYD; return(LIFETIME); }
377 <S_RMTP>time		{ YYD; return(LIFETYPE_TIME); }
378 <S_RMTP>byte		{ YYD; return(LIFETYPE_BYTE); }
379 <S_RMTP>encryption_algorithm { YYD; yylval.num = algclass_isakmp_enc; return(ALGORITHM_CLASS); }
380 <S_RMTP>authentication_method { YYD; yylval.num = algclass_isakmp_ameth; return(ALGORITHM_CLASS); }
381 <S_RMTP>hash_algorithm	{ YYD; yylval.num = algclass_isakmp_hash; return(ALGORITHM_CLASS); }
382 <S_RMTP>dh_group	{ YYD; return(DH_GROUP); }
383 <S_RMTP>gss_id		{ YYD; return(GSS_ID); }
384 <S_RMTP>gssapi_id	{ YYD; return(GSS_ID); } /* for back compatibility */
385 
386 	/* GSS ID encoding type (global) */
387 <S_INI>gss_id_enc	{ BEGIN S_GSSENC; YYDB; return(GSS_ID_ENC); }
388 <S_GSSENC>latin1	{ YYD; yylval.num = LC_GSSENC_LATIN1;
389 				return(GSS_ID_ENCTYPE); }
390 <S_GSSENC>utf-16le	{ YYD; yylval.num = LC_GSSENC_UTF16LE;
391 				return(GSS_ID_ENCTYPE); }
392 <S_GSSENC>{semi}	{ BEGIN S_INI; YYDB; return(EOS); }
393 
394 	/* parameter */
395 on		{ YYD; yylval.num = TRUE; return(SWITCH); }
396 off		{ YYD; yylval.num = FALSE; return(SWITCH); }
397 
398 	/* prefix */
399 {slash}{digit}{1,3} {
400 			YYD;
401 			yytext++;
402 			yylval.num = atoi(yytext);
403 			return(PREFIX);
404 		}
405 
406 	/* port number */
407 {blcl}{decstring}{elcl}	{
408 			char *p = yytext;
409 			YYD;
410 			while (*++p != ']') ;
411 			*p = 0;
412 			yytext++;
413 			yylval.num = atoi(yytext);
414 			return(PORT);
415 		}
416 
417 	/* address range */
418 {hyphen}{addrstring} {
419                         YYD;
420                         yytext++;
421 			yylval.val = vmalloc(yyleng + 1);
422 			if (yylval.val == NULL) {
423 				yyerror("vmalloc failed");
424 				return -1;
425 			}
426 			memcpy(yylval.val->v, yytext, yylval.val->l);
427                         return(ADDRRANGE);
428                 }
429 
430 	/* upper protocol */
431 esp		{ YYD; yylval.num = IPPROTO_ESP; return(UL_PROTO); }
432 ah		{ YYD; yylval.num = IPPROTO_AH; return(UL_PROTO); }
433 ipcomp		{ YYD; yylval.num = IPPROTO_IPCOMP; return(UL_PROTO); }
434 icmp		{ YYD; yylval.num = IPPROTO_ICMP; return(UL_PROTO); }
435 icmp6		{ YYD; yylval.num = IPPROTO_ICMPV6; return(UL_PROTO); }
436 tcp		{ YYD; yylval.num = IPPROTO_TCP; return(UL_PROTO); }
437 udp		{ YYD; yylval.num = IPPROTO_UDP; return(UL_PROTO); }
438 gre		{ YYD; yylval.num = IPPROTO_GRE; return(UL_PROTO); }
439 
440 	/* algorithm type */
441 des_iv64	{ YYD; yylval.num = algtype_des_iv64;	return(ALGORITHMTYPE); }
442 des		{ YYD; yylval.num = algtype_des;	return(ALGORITHMTYPE); }
443 3des		{ YYD; yylval.num = algtype_3des;	return(ALGORITHMTYPE); }
444 rc5		{ YYD; yylval.num = algtype_rc5;	return(ALGORITHMTYPE); }
445 idea 		{ YYD; yylval.num = algtype_idea;	return(ALGORITHMTYPE); }
446 cast128		{ YYD; yylval.num = algtype_cast128;	return(ALGORITHMTYPE); }
447 blowfish	{ YYD; yylval.num = algtype_blowfish;	return(ALGORITHMTYPE); }
448 3idea		{ YYD; yylval.num = algtype_3idea;	return(ALGORITHMTYPE); }
449 des_iv32	{ YYD; yylval.num = algtype_des_iv32;	return(ALGORITHMTYPE); }
450 rc4 		{ YYD; yylval.num = algtype_rc4;	return(ALGORITHMTYPE); }
451 null_enc	{ YYD; yylval.num = algtype_null_enc;	return(ALGORITHMTYPE); }
452 null		{ YYD; yylval.num = algtype_null_enc;	return(ALGORITHMTYPE); }
453 aes		{ YYD; yylval.num = algtype_aes;	return(ALGORITHMTYPE); }
454 rijndael	{ YYD; yylval.num = algtype_aes;	return(ALGORITHMTYPE); }
455 twofish		{ YYD; yylval.num = algtype_twofish;	return(ALGORITHMTYPE); }
456 camellia	{ YYD; yylval.num = algtype_camellia;	return(ALGORITHMTYPE); }
457 non_auth	{ YYD; yylval.num = algtype_non_auth;	return(ALGORITHMTYPE); }
458 hmac_md5	{ YYD; yylval.num = algtype_hmac_md5;	return(ALGORITHMTYPE); }
459 hmac_sha1	{ YYD; yylval.num = algtype_hmac_sha1;	return(ALGORITHMTYPE); }
460 hmac_sha2_256	{ YYD; yylval.num = algtype_hmac_sha2_256;	return(ALGORITHMTYPE); }
461 hmac_sha256	{ YYD; yylval.num = algtype_hmac_sha2_256;	return(ALGORITHMTYPE); }
462 hmac_sha2_384	{ YYD; yylval.num = algtype_hmac_sha2_384;	return(ALGORITHMTYPE); }
463 hmac_sha384	{ YYD; yylval.num = algtype_hmac_sha2_384;	return(ALGORITHMTYPE); }
464 hmac_sha2_512	{ YYD; yylval.num = algtype_hmac_sha2_512;	return(ALGORITHMTYPE); }
465 hmac_sha512	{ YYD; yylval.num = algtype_hmac_sha2_512;	return(ALGORITHMTYPE); }
466 des_mac		{ YYD; yylval.num = algtype_des_mac;	return(ALGORITHMTYPE); }
467 kpdk		{ YYD; yylval.num = algtype_kpdk;	return(ALGORITHMTYPE); }
468 md5		{ YYD; yylval.num = algtype_md5;	return(ALGORITHMTYPE); }
469 sha1		{ YYD; yylval.num = algtype_sha1;	return(ALGORITHMTYPE); }
470 tiger		{ YYD; yylval.num = algtype_tiger;	return(ALGORITHMTYPE); }
471 sha2_256	{ YYD; yylval.num = algtype_sha2_256;	return(ALGORITHMTYPE); }
472 sha256		{ YYD; yylval.num = algtype_sha2_256;	return(ALGORITHMTYPE); }
473 sha2_384	{ YYD; yylval.num = algtype_sha2_384;	return(ALGORITHMTYPE); }
474 sha384		{ YYD; yylval.num = algtype_sha2_384;	return(ALGORITHMTYPE); }
475 sha2_512	{ YYD; yylval.num = algtype_sha2_512;	return(ALGORITHMTYPE); }
476 sha512		{ YYD; yylval.num = algtype_sha2_512;	return(ALGORITHMTYPE); }
477 oui		{ YYD; yylval.num = algtype_oui;	return(ALGORITHMTYPE); }
478 deflate		{ YYD; yylval.num = algtype_deflate;	return(ALGORITHMTYPE); }
479 lzs		{ YYD; yylval.num = algtype_lzs;	return(ALGORITHMTYPE); }
480 modp768		{ YYD; yylval.num = algtype_modp768;	return(ALGORITHMTYPE); }
481 modp1024	{ YYD; yylval.num = algtype_modp1024;	return(ALGORITHMTYPE); }
482 modp1536	{ YYD; yylval.num = algtype_modp1536;	return(ALGORITHMTYPE); }
483 ec2n155		{ YYD; yylval.num = algtype_ec2n155;	return(ALGORITHMTYPE); }
484 ec2n185		{ YYD; yylval.num = algtype_ec2n185;	return(ALGORITHMTYPE); }
485 modp2048	{ YYD; yylval.num = algtype_modp2048;	return(ALGORITHMTYPE); }
486 modp3072	{ YYD; yylval.num = algtype_modp3072;	return(ALGORITHMTYPE); }
487 modp4096	{ YYD; yylval.num = algtype_modp4096;	return(ALGORITHMTYPE); }
488 modp6144	{ YYD; yylval.num = algtype_modp6144;	return(ALGORITHMTYPE); }
489 modp8192	{ YYD; yylval.num = algtype_modp8192;	return(ALGORITHMTYPE); }
490 pre_shared_key	{ YYD; yylval.num = algtype_psk;	return(ALGORITHMTYPE); }
491 rsasig		{ YYD; yylval.num = algtype_rsasig;	return(ALGORITHMTYPE); }
492 dsssig		{ YYD; yylval.num = algtype_dsssig;	return(ALGORITHMTYPE); }
493 rsaenc		{ YYD; yylval.num = algtype_rsaenc;	return(ALGORITHMTYPE); }
494 rsarev		{ YYD; yylval.num = algtype_rsarev;	return(ALGORITHMTYPE); }
495 gssapi_krb	{ YYD; yylval.num = algtype_gssapikrb;	return(ALGORITHMTYPE); }
496 hybrid_rsa_server {
497 #ifdef ENABLE_HYBRID
498 	YYD; yylval.num = algtype_hybrid_rsa_s; return(ALGORITHMTYPE);
499 #else
500 	yyerror("racoon not configured with --enable-hybrid");
501 #endif
502 }
503 hybrid_dss_server {
504 #ifdef ENABLE_HYBRID
505 	YYD; yylval.num = algtype_hybrid_dss_s; return(ALGORITHMTYPE);
506 #else
507 	yyerror("racoon not configured with --enable-hybrid");
508 #endif
509 }
510 hybrid_rsa_client {
511 #ifdef ENABLE_HYBRID
512 	YYD; yylval.num = algtype_hybrid_rsa_c; return(ALGORITHMTYPE);
513 #else
514 	yyerror("racoon not configured with --enable-hybrid");
515 #endif
516 }
517 hybrid_dss_client {
518 #ifdef ENABLE_HYBRID
519 	YYD; yylval.num = algtype_hybrid_dss_c; return(ALGORITHMTYPE);
520 #else
521 	yyerror("racoon not configured with --enable-hybrid");
522 #endif
523 }
524 xauth_psk_server {
525 #ifdef ENABLE_HYBRID
526 	YYD; yylval.num = algtype_xauth_psk_s; return(ALGORITHMTYPE);
527 #else
528 	yyerror("racoon not configured with --enable-hybrid");
529 #endif
530 }
531 xauth_psk_client {
532 #ifdef ENABLE_HYBRID
533 	YYD; yylval.num = algtype_xauth_psk_c; return(ALGORITHMTYPE);
534 #else
535 	yyerror("racoon not configured with --enable-hybrid");
536 #endif
537 }
538 xauth_rsa_server {
539 #ifdef ENABLE_HYBRID
540 	YYD; yylval.num = algtype_xauth_rsa_s; return(ALGORITHMTYPE);
541 #else
542 	yyerror("racoon not configured with --enable-hybrid");
543 #endif
544 }
545 xauth_rsa_client {
546 #ifdef ENABLE_HYBRID
547 	YYD; yylval.num = algtype_xauth_rsa_c; return(ALGORITHMTYPE);
548 #else
549 	yyerror("racoon not configured with --enable-hybrid");
550 #endif
551 }
552 
553 
554 	/* identifier type */
555 user_fqdn	{ YYD; yylval.num = IDTYPE_USERFQDN; return(IDENTIFIERTYPE); }
556 fqdn		{ YYD; yylval.num = IDTYPE_FQDN; return(IDENTIFIERTYPE); }
557 keyid		{ YYD; yylval.num = IDTYPE_KEYID; return(IDENTIFIERTYPE); }
558 address		{ YYD; yylval.num = IDTYPE_ADDRESS; return(IDENTIFIERTYPE); }
559 subnet		{ YYD; yylval.num = IDTYPE_SUBNET; return(IDENTIFIERTYPE); }
560 asn1dn		{ YYD; yylval.num = IDTYPE_ASN1DN; return(IDENTIFIERTYPE); }
561 
562 	/* identifier qualifier */
563 tag		{ YYD; yylval.num = IDQUAL_TAG;  return(IDENTIFIERQUAL); }
564 file		{ YYD; yylval.num = IDQUAL_FILE; return(IDENTIFIERQUAL); }
565 
566 	/* units */
567 B|byte|bytes		{ YYD; return(UNITTYPE_BYTE); }
568 KB			{ YYD; return(UNITTYPE_KBYTES); }
569 MB			{ YYD; return(UNITTYPE_MBYTES); }
570 TB			{ YYD; return(UNITTYPE_TBYTES); }
571 sec|secs|second|seconds	{ YYD; return(UNITTYPE_SEC); }
572 min|mins|minute|minutes	{ YYD; return(UNITTYPE_MIN); }
573 hour|hours		{ YYD; return(UNITTYPE_HOUR); }
574 
575 	/* boolean */
576 yes		{ YYD; yylval.num = TRUE; return(BOOLEAN); }
577 no		{ YYD; yylval.num = FALSE; return(BOOLEAN); }
578 
579 {decstring}	{
580 			char *bp;
581 
582 			YYD;
583 			yylval.num = strtoul(yytext, &bp, 10);
584 			return(NUMBER);
585 		}
586 
587 {hexstring}	{
588 			char *p;
589 
590 			YYD;
591 			yylval.val = vmalloc(yyleng + (yyleng & 1) + 1);
592 			if (yylval.val == NULL) {
593 				yyerror("vmalloc failed");
594 				return -1;
595 			}
596 
597 			p = yylval.val->v;
598 			*p++ = '0';
599 			*p++ = 'x';
600 
601 			/* fixed string if length is odd. */
602 			if (yyleng & 1)
603 				*p++ = '0';
604 			memcpy(p, &yytext[2], yyleng - 1);
605 
606 			return(HEXSTRING);
607 		}
608 
609 {quotedstring}	{
610 			char *p = yytext;
611 
612 			YYD;
613 			while (*++p != '"') ;
614 			*p = '\0';
615 
616 			yylval.val = vmalloc(yyleng - 1);
617 			if (yylval.val == NULL) {
618 				yyerror("vmalloc failed");
619 				return -1;
620 			}
621 			memcpy(yylval.val->v, &yytext[1], yylval.val->l);
622 
623 			return(QUOTEDSTRING);
624 		}
625 
626 {addrstring}	{
627 			YYD;
628 
629 			yylval.val = vmalloc(yyleng + 1);
630 			if (yylval.val == NULL) {
631 				yyerror("vmalloc failed");
632 				return -1;
633 			}
634 			memcpy(yylval.val->v, yytext, yylval.val->l);
635 
636 			return(ADDRSTRING);
637 		}
638 
639 <<EOF>>		{
640 			yy_delete_buffer(YY_CURRENT_BUFFER);
641 			fclose (incstack[incstackp].fp);
642 			incstack[incstackp].fp = NULL;
643 			racoon_free(incstack[incstackp].path);
644 			incstack[incstackp].path = NULL;
645 			incstackp--;
646     nextfile:
647 			if (incstack[incstackp].matchon <
648 			    incstack[incstackp].matches.gl_pathc) {
649 				char* filepath = incstack[incstackp].matches.gl_pathv[incstack[incstackp].matchon];
650 				incstack[incstackp].matchon++;
651 				incstackp++;
652 				if (yycf_set_buffer(filepath) != 0) {
653 					incstackp--;
654 					goto nextfile;
655 				}
656 				yy_switch_to_buffer(yy_create_buffer(yyin, YY_BUF_SIZE));
657 				BEGIN(S_INI);
658 			} else {
659 				globfree(&incstack[incstackp].matches);
660 				if (incstackp == 0)
661 					yyterminate();
662 				else
663 					yy_switch_to_buffer(incstack[incstackp].prevstate);
664 			}
665 		}
666 
667 	/* ... */
668 {ws}		{ ; }
669 {nl}		{ incstack[incstackp].lineno++; }
670 {comment}	{ YYD; }
671 {semi}		{ return(EOS); }
672 .		{ yymore(); }
673 
674 %%
675 
676 void
677 yyerror(char *s, ...)
678 {
679 	char fmt[512];
680 
681 	va_list ap;
682 #ifdef HAVE_STDARG_H
683 	va_start(ap, s);
684 #else
685 	va_start(ap);
686 #endif
687 	snprintf(fmt, sizeof(fmt), "%s:%d: \"%s\" %s\n",
688 		incstack[incstackp].path, incstack[incstackp].lineno,
689 		yytext, s);
690 	plogv(LLV_ERROR, LOCATION, NULL, fmt, ap);
691 	va_end(ap);
692 
693 	yyerrorcount++;
694 }
695 
696 void
697 yywarn(char *s, ...)
698 {
699 	char fmt[512];
700 
701 	va_list ap;
702 #ifdef HAVE_STDARG_H
703 	va_start(ap, s);
704 #else
705 	va_start(ap);
706 #endif
707 	snprintf(fmt, sizeof(fmt), "%s:%d: \"%s\" %s\n",
708 		incstack[incstackp].path, incstack[incstackp].lineno,
709 		yytext, s);
710 	plogv(LLV_WARNING, LOCATION, NULL, fmt, ap);
711 	va_end(ap);
712 }
713 
714 int
715 yycf_switch_buffer(path)
716 	char *path;
717 {
718 	char *filepath = NULL;
719 
720 	/* got the include file name */
721 	if (incstackp >= MAX_INCLUDE_DEPTH) {
722 		plog(LLV_ERROR, LOCATION, NULL,
723 			"Includes nested too deeply");
724 		return -1;
725 	}
726 
727 	if (glob(path, GLOB_TILDE, NULL, &incstack[incstackp].matches) != 0 ||
728 	    incstack[incstackp].matches.gl_pathc == 0) {
729 		plog(LLV_ERROR, LOCATION, NULL,
730 			"glob found no matches for path \"%s\"\n", path);
731 		return -1;
732 	}
733 	incstack[incstackp].matchon = 0;
734 	incstack[incstackp].prevstate = YY_CURRENT_BUFFER;
735 
736     nextmatch:
737 	if (incstack[incstackp].matchon >= incstack[incstackp].matches.gl_pathc)
738 		return -1;
739 	filepath =
740 	    incstack[incstackp].matches.gl_pathv[incstack[incstackp].matchon];
741 	incstack[incstackp].matchon++;
742 	incstackp++;
743 
744 	if (yycf_set_buffer(filepath) != 0) {
745 	      incstackp--;
746 	      goto nextmatch;
747 	}
748 
749 	yy_switch_to_buffer(yy_create_buffer(yyin, YY_BUF_SIZE));
750 
751 	BEGIN(S_INI);
752 
753 	return 0;
754 }
755 
756 int
757 yycf_set_buffer(path)
758 	char *path;
759 {
760 	yyin = fopen(path, "r");
761 	if (yyin == NULL) {
762 		fprintf(stderr, "failed to open file %s (%s)\n",
763 			path, strerror(errno));
764 		plog(LLV_ERROR, LOCATION, NULL,
765 			"failed to open file %s (%s)\n",
766 			path, strerror(errno));
767 		return -1;
768 	}
769 
770 	/* initialize */
771 	incstack[incstackp].fp = yyin;
772 	if (incstack[incstackp].path != NULL)
773 		racoon_free(incstack[incstackp].path);
774 	incstack[incstackp].path = racoon_strdup(path);
775 	STRDUP_FATAL(incstack[incstackp].path);
776 	incstack[incstackp].lineno = 1;
777 	plog(LLV_DEBUG, LOCATION, NULL,
778 		"reading config file %s\n", path);
779 
780 	return 0;
781 }
782 
783 void
784 yycf_init_buffer()
785 {
786 	int i;
787 
788 	for (i = 0; i < MAX_INCLUDE_DEPTH; i++)
789 		memset(&incstack[i], 0, sizeof(incstack[i]));
790 	incstackp = 0;
791 }
792 
793 void
794 yycf_clean_buffer()
795 {
796 	int i;
797 
798 	for (i = 0; i < MAX_INCLUDE_DEPTH; i++) {
799 		if (incstack[i].path != NULL) {
800 			fclose(incstack[i].fp);
801 			racoon_free(incstack[i].path);
802 			incstack[i].path = NULL;
803 		}
804 	}
805 }
806 
807