Coverage Report

Created: 2026-07-16 06:27

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/net-snmp/snmplib/parse.c
Line
Count
Source
1
/*
2
 * parse.c
3
 *
4
 */
5
/* Portions of this file are subject to the following copyrights.  See
6
 * the Net-SNMP's COPYING file for more details and other copyrights
7
 * that may apply:
8
 */
9
/******************************************************************
10
        Copyright 1989, 1991, 1992 by Carnegie Mellon University
11
12
                      All Rights Reserved
13
14
Permission to use, copy, modify, and distribute this software and its
15
documentation for any purpose and without fee is hereby granted,
16
provided that the above copyright notice appear in all copies and that
17
both that copyright notice and this permission notice appear in
18
supporting documentation, and that the name of CMU not be
19
used in advertising or publicity pertaining to distribution of the
20
software without specific, written prior permission.
21
22
CMU DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING
23
ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL
24
CMU BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR
25
ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
26
WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
27
ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
28
SOFTWARE.
29
******************************************************************/
30
/*
31
 * Copyright © 2003 Sun Microsystems, Inc. All rights reserved.
32
 * Use is subject to license terms specified in the COPYING file
33
 * distributed with the Net-SNMP package.
34
 */
35
#include <net-snmp/net-snmp-config.h>
36
#include <net-snmp/net-snmp-features.h>
37
38
#ifndef NETSNMP_DISABLE_MIB_LOADING
39
40
#ifdef HAVE_LIMITS_H
41
#include <limits.h>
42
#endif
43
#include <stdio.h>
44
#ifdef HAVE_STDLIB_H
45
#include <stdlib.h>
46
#endif
47
#ifdef HAVE_STRING_H
48
#include <string.h>
49
#else
50
#include <strings.h>
51
#endif
52
#include <ctype.h>
53
#include <sys/types.h>
54
#ifdef HAVE_SYS_STAT_H
55
#include <sys/stat.h>
56
#endif
57
58
#ifdef HAVE_DIRENT_H
59
#include <dirent.h>
60
#endif
61
#ifdef TIME_WITH_SYS_TIME
62
# include <sys/time.h>
63
# include <time.h>
64
#else
65
# ifdef HAVE_SYS_TIME_H
66
#  include <sys/time.h>
67
# else
68
#  include <time.h>
69
# endif
70
#endif
71
#ifdef HAVE_NETINET_IN_H
72
#include <netinet/in.h>
73
#endif
74
#if defined(HAVE_REGEX_H) && defined(HAVE_REGCOMP)
75
#include <regex.h>
76
#endif
77
#ifdef HAVE_UNISTD_H
78
#include <unistd.h>
79
#endif
80
81
#include <errno.h>
82
83
#include <net-snmp/types.h>
84
#include <net-snmp/output_api.h>
85
#include <net-snmp/config_api.h>
86
#include <net-snmp/utilities.h>
87
88
#include <net-snmp/library/parse.h>
89
#include <net-snmp/library/mib.h>
90
#include <net-snmp/library/snmp_api.h>
91
#include <net-snmp/library/tools.h>
92
93
netsnmp_feature_child_of(find_module, mib_api);
94
netsnmp_feature_child_of(get_tc_description, mib_api);
95
96
/*
97
 * A linked list of nodes.
98
 */
99
struct node {
100
    struct node    *next;
101
    char           *label;  /* This node's (unique) textual name */
102
    u_long          subid;  /* This node's integer subidentifier */
103
    int             modid;  /* The module containing this node */
104
    char           *parent; /* The parent's textual name */
105
    int             tc_index; /* index into tclist (-1 if NA) */
106
    int             type;   /* The type of object this represents */
107
    int             access;
108
    int             status;
109
    struct enum_list *enums; /* (optional) list of enumerated integers */
110
    struct range_list *ranges;
111
    struct index_list *indexes;
112
    char           *augments;
113
    struct varbind_list *varbinds;
114
    char           *hint;
115
    char           *units;
116
    char           *description; /* description (a quoted string) */
117
    char           *reference; /* references (a quoted string) */
118
    char           *defaultValue;
119
    char           *filename;
120
    int             lineno;
121
};
122
123
/*
124
 * This is one element of an object identifier with either an integer
125
 * subidentifier, or a textual string label, or both.
126
 * The subid is -1 if not present, and label is NULL if not present.
127
 */
128
struct subid_s {
129
    int             subid;
130
    int             modid;
131
    char           *label;
132
};
133
134
1
#define TC_INCR 100
135
struct tc {                     /* textual conventions */
136
    int             type;
137
    int             modid;
138
    char           *descriptor;
139
    char           *hint;
140
    struct enum_list *enums;
141
    struct range_list *ranges;
142
    char           *description;
143
    int             lineno;
144
} *tclist;
145
int tc_alloc;
146
147
static int      mibLine;
148
static const char *File = "(none)";
149
static int      anonymous;
150
151
struct objgroup {
152
    char           *name;
153
    int             line;
154
    struct objgroup *next;
155
}              *objgroups = NULL, *objects = NULL, *notifs = NULL;
156
157
16
#define SYNTAX_MASK     0x80
158
/*
159
 * types of tokens
160
 * Tokens with the SYNTAX_MASK bit set are syntax tokens 
161
 */
162
184
#define CONTINUE    -1
163
21
#define ENDOFFILE   0
164
0
#define LABEL       1
165
#define SUBTREE     2
166
0
#define SYNTAX      3
167
1
#define OBJID       (4 | SYNTAX_MASK)
168
1
#define OCTETSTR    (5 | SYNTAX_MASK)
169
1
#define INTEGER     (6 | SYNTAX_MASK)
170
1
#define NETADDR     (7 | SYNTAX_MASK)
171
1
#define IPADDR      (8 | SYNTAX_MASK)
172
1
#define COUNTER     (9 | SYNTAX_MASK)
173
1
#define GAUGE       (10 | SYNTAX_MASK)
174
1
#define TIMETICKS   (11 | SYNTAX_MASK)
175
1
#define KW_OPAQUE   (12 | SYNTAX_MASK)
176
1
#define NUL         (13 | SYNTAX_MASK)
177
0
#define SEQUENCE    14
178
0
#define OF          15          /* SEQUENCE OF */
179
0
#define OBJTYPE     16
180
0
#define ACCESS      17
181
0
#define READONLY    18
182
0
#define READWRITE   19
183
0
#define WRITEONLY   20
184
#ifdef NOACCESS
185
#undef NOACCESS                 /* agent 'NOACCESS' token */
186
#endif
187
0
#define NOACCESS    21
188
0
#define STATUS      22
189
0
#define MANDATORY   23
190
0
#define KW_OPTIONAL    24
191
0
#define OBSOLETE    25
192
/*
193
 * #define RECOMMENDED 26 
194
 */
195
#define PUNCT       27
196
0
#define EQUALS      28
197
0
#define NUMBER      29
198
0
#define LEFTBRACKET 30
199
0
#define RIGHTBRACKET 31
200
0
#define LEFTPAREN   32
201
0
#define RIGHTPAREN  33
202
0
#define COMMA       34
203
0
#define DESCRIPTION 35
204
0
#define QUOTESTRING 36
205
0
#define INDEX       37
206
0
#define DEFVAL      38
207
0
#define DEPRECATED  39
208
0
#define SIZE        40
209
1
#define BITSTRING   (41 | SYNTAX_MASK)
210
1
#define NSAPADDRESS (42 | SYNTAX_MASK)
211
1
#define COUNTER64   (43 | SYNTAX_MASK)
212
1
#define OBJGROUP    44
213
1
#define NOTIFTYPE   45
214
0
#define AUGMENTS    46
215
1
#define COMPLIANCE  47
216
0
#define READCREATE  48
217
0
#define UNITS       49
218
0
#define REFERENCE   50
219
0
#define NUM_ENTRIES 51
220
1
#define MODULEIDENTITY 52
221
0
#define LASTUPDATED 53
222
0
#define ORGANIZATION 54
223
0
#define CONTACTINFO 55
224
1
#define UINTEGER32 (56 | SYNTAX_MASK)
225
0
#define CURRENT     57
226
0
#define DEFINITIONS 58
227
0
#define END         59
228
0
#define SEMI        60
229
1
#define TRAPTYPE    61
230
0
#define ENTERPRISE  62
231
/*
232
 * #define DISPLAYSTR (63 | SYNTAX_MASK) 
233
 */
234
0
#define BEGIN       64
235
0
#define IMPORTS     65
236
0
#define EXPORTS     66
237
0
#define ACCNOTIFY   67
238
0
#define BAR         68
239
0
#define RANGE       69
240
0
#define CONVENTION  70
241
0
#define DISPLAYHINT 71
242
0
#define FROM        72
243
1
#define AGENTCAP    73
244
0
#define MACRO       74
245
0
#define IMPLIED     75
246
0
#define SUPPORTS    76
247
0
#define INCLUDES    77
248
0
#define VARIATION   78
249
0
#define REVISION    79
250
0
#define NOTIMPL     80
251
0
#define OBJECTS     81
252
0
#define NOTIFICATIONS 82
253
0
#define MODULE      83
254
0
#define MINACCESS   84
255
0
#define PRODREL     85
256
0
#define WRSYNTAX    86
257
0
#define CREATEREQ   87
258
1
#define NOTIFGROUP  88
259
0
#define MANDATORYGROUPS 89
260
0
#define GROUP     90
261
0
#define OBJECT      91
262
0
#define IDENTIFIER  92
263
0
#define CHOICE      93
264
0
#define LEFTSQBRACK 95
265
0
#define RIGHTSQBRACK  96
266
0
#define IMPLICIT    97
267
0
#define APPSYNTAX (98 | SYNTAX_MASK)
268
0
#define OBJSYNTAX (99 | SYNTAX_MASK)
269
0
#define SIMPLESYNTAX  (100 | SYNTAX_MASK)
270
0
#define OBJNAME   (101 | SYNTAX_MASK)
271
0
#define NOTIFNAME (102 | SYNTAX_MASK)
272
0
#define VARIABLES 103
273
1
#define UNSIGNED32  (104 | SYNTAX_MASK)
274
1
#define INTEGER32 (105 | SYNTAX_MASK)
275
1
#define OBJIDENTITY 106
276
/*
277
 * Beware of reaching SYNTAX_MASK (0x80) 
278
 */
279
280
struct tok {
281
    const char     *name;       /* token name */
282
    int             len;        /* length not counting nul */
283
    int             token;      /* value */
284
    int             hash;       /* hash of name */
285
    struct tok     *next;       /* pointer to next in hash table */
286
};
287
288
289
static struct tok tokens[] = {
290
    {"obsolete", sizeof("obsolete") - 1, OBSOLETE}
291
    ,
292
    {"Opaque", sizeof("Opaque") - 1, KW_OPAQUE}
293
    ,
294
    {"optional", sizeof("optional") - 1, KW_OPTIONAL}
295
    ,
296
    {"LAST-UPDATED", sizeof("LAST-UPDATED") - 1, LASTUPDATED}
297
    ,
298
    {"ORGANIZATION", sizeof("ORGANIZATION") - 1, ORGANIZATION}
299
    ,
300
    {"CONTACT-INFO", sizeof("CONTACT-INFO") - 1, CONTACTINFO}
301
    ,
302
    {"MODULE-IDENTITY", sizeof("MODULE-IDENTITY") - 1, MODULEIDENTITY}
303
    ,
304
    {"MODULE-COMPLIANCE", sizeof("MODULE-COMPLIANCE") - 1, COMPLIANCE}
305
    ,
306
    {"DEFINITIONS", sizeof("DEFINITIONS") - 1, DEFINITIONS}
307
    ,
308
    {"END", sizeof("END") - 1, END}
309
    ,
310
    {"AUGMENTS", sizeof("AUGMENTS") - 1, AUGMENTS}
311
    ,
312
    {"not-accessible", sizeof("not-accessible") - 1, NOACCESS}
313
    ,
314
    {"write-only", sizeof("write-only") - 1, WRITEONLY}
315
    ,
316
    {"NsapAddress", sizeof("NsapAddress") - 1, NSAPADDRESS}
317
    ,
318
    {"UNITS", sizeof("Units") - 1, UNITS}
319
    ,
320
    {"REFERENCE", sizeof("REFERENCE") - 1, REFERENCE}
321
    ,
322
    {"NUM-ENTRIES", sizeof("NUM-ENTRIES") - 1, NUM_ENTRIES}
323
    ,
324
    {"BITSTRING", sizeof("BITSTRING") - 1, BITSTRING}
325
    ,
326
    {"BIT", sizeof("BIT") - 1, CONTINUE}
327
    ,
328
    {"BITS", sizeof("BITS") - 1, BITSTRING}
329
    ,
330
    {"Counter64", sizeof("Counter64") - 1, COUNTER64}
331
    ,
332
    {"TimeTicks", sizeof("TimeTicks") - 1, TIMETICKS}
333
    ,
334
    {"NOTIFICATION-TYPE", sizeof("NOTIFICATION-TYPE") - 1, NOTIFTYPE}
335
    ,
336
    {"OBJECT-GROUP", sizeof("OBJECT-GROUP") - 1, OBJGROUP}
337
    ,
338
    {"OBJECT-IDENTITY", sizeof("OBJECT-IDENTITY") - 1, OBJIDENTITY}
339
    ,
340
    {"IDENTIFIER", sizeof("IDENTIFIER") - 1, IDENTIFIER}
341
    ,
342
    {"OBJECT", sizeof("OBJECT") - 1, OBJECT}
343
    ,
344
    {"NetworkAddress", sizeof("NetworkAddress") - 1, NETADDR}
345
    ,
346
    {"Gauge", sizeof("Gauge") - 1, GAUGE}
347
    ,
348
    {"Gauge32", sizeof("Gauge32") - 1, GAUGE}
349
    ,
350
    {"Unsigned32", sizeof("Unsigned32") - 1, UNSIGNED32}
351
    ,
352
    {"read-write", sizeof("read-write") - 1, READWRITE}
353
    ,
354
    {"read-create", sizeof("read-create") - 1, READCREATE}
355
    ,
356
    {"OCTETSTRING", sizeof("OCTETSTRING") - 1, OCTETSTR}
357
    ,
358
    {"OCTET", sizeof("OCTET") - 1, CONTINUE}
359
    ,
360
    {"OF", sizeof("OF") - 1, OF}
361
    ,
362
    {"SEQUENCE", sizeof("SEQUENCE") - 1, SEQUENCE}
363
    ,
364
    {"NULL", sizeof("NULL") - 1, NUL}
365
    ,
366
    {"IpAddress", sizeof("IpAddress") - 1, IPADDR}
367
    ,
368
    {"UInteger32", sizeof("UInteger32") - 1, UINTEGER32}
369
    ,
370
    {"INTEGER", sizeof("INTEGER") - 1, INTEGER}
371
    ,
372
    {"Integer32", sizeof("Integer32") - 1, INTEGER32}
373
    ,
374
    {"Counter", sizeof("Counter") - 1, COUNTER}
375
    ,
376
    {"Counter32", sizeof("Counter32") - 1, COUNTER}
377
    ,
378
    {"read-only", sizeof("read-only") - 1, READONLY}
379
    ,
380
    {"DESCRIPTION", sizeof("DESCRIPTION") - 1, DESCRIPTION}
381
    ,
382
    {"INDEX", sizeof("INDEX") - 1, INDEX}
383
    ,
384
    {"DEFVAL", sizeof("DEFVAL") - 1, DEFVAL}
385
    ,
386
    {"deprecated", sizeof("deprecated") - 1, DEPRECATED}
387
    ,
388
    {"SIZE", sizeof("SIZE") - 1, SIZE}
389
    ,
390
    {"MAX-ACCESS", sizeof("MAX-ACCESS") - 1, ACCESS}
391
    ,
392
    {"ACCESS", sizeof("ACCESS") - 1, ACCESS}
393
    ,
394
    {"mandatory", sizeof("mandatory") - 1, MANDATORY}
395
    ,
396
    {"current", sizeof("current") - 1, CURRENT}
397
    ,
398
    {"STATUS", sizeof("STATUS") - 1, STATUS}
399
    ,
400
    {"SYNTAX", sizeof("SYNTAX") - 1, SYNTAX}
401
    ,
402
    {"OBJECT-TYPE", sizeof("OBJECT-TYPE") - 1, OBJTYPE}
403
    ,
404
    {"TRAP-TYPE", sizeof("TRAP-TYPE") - 1, TRAPTYPE}
405
    ,
406
    {"ENTERPRISE", sizeof("ENTERPRISE") - 1, ENTERPRISE}
407
    ,
408
    {"BEGIN", sizeof("BEGIN") - 1, BEGIN}
409
    ,
410
    {"IMPORTS", sizeof("IMPORTS") - 1, IMPORTS}
411
    ,
412
    {"EXPORTS", sizeof("EXPORTS") - 1, EXPORTS}
413
    ,
414
    {"accessible-for-notify", sizeof("accessible-for-notify") - 1,
415
     ACCNOTIFY}
416
    ,
417
    {"TEXTUAL-CONVENTION", sizeof("TEXTUAL-CONVENTION") - 1, CONVENTION}
418
    ,
419
    {"NOTIFICATION-GROUP", sizeof("NOTIFICATION-GROUP") - 1, NOTIFGROUP}
420
    ,
421
    {"DISPLAY-HINT", sizeof("DISPLAY-HINT") - 1, DISPLAYHINT}
422
    ,
423
    {"FROM", sizeof("FROM") - 1, FROM}
424
    ,
425
    {"AGENT-CAPABILITIES", sizeof("AGENT-CAPABILITIES") - 1, AGENTCAP}
426
    ,
427
    {"MACRO", sizeof("MACRO") - 1, MACRO}
428
    ,
429
    {"IMPLIED", sizeof("IMPLIED") - 1, IMPLIED}
430
    ,
431
    {"SUPPORTS", sizeof("SUPPORTS") - 1, SUPPORTS}
432
    ,
433
    {"INCLUDES", sizeof("INCLUDES") - 1, INCLUDES}
434
    ,
435
    {"VARIATION", sizeof("VARIATION") - 1, VARIATION}
436
    ,
437
    {"REVISION", sizeof("REVISION") - 1, REVISION}
438
    ,
439
    {"not-implemented", sizeof("not-implemented") - 1, NOTIMPL}
440
    ,
441
    {"OBJECTS", sizeof("OBJECTS") - 1, OBJECTS}
442
    ,
443
    {"NOTIFICATIONS", sizeof("NOTIFICATIONS") - 1, NOTIFICATIONS}
444
    ,
445
    {"MODULE", sizeof("MODULE") - 1, MODULE}
446
    ,
447
    {"MIN-ACCESS", sizeof("MIN-ACCESS") - 1, MINACCESS}
448
    ,
449
    {"PRODUCT-RELEASE", sizeof("PRODUCT-RELEASE") - 1, PRODREL}
450
    ,
451
    {"WRITE-SYNTAX", sizeof("WRITE-SYNTAX") - 1, WRSYNTAX}
452
    ,
453
    {"CREATION-REQUIRES", sizeof("CREATION-REQUIRES") - 1, CREATEREQ}
454
    ,
455
    {"MANDATORY-GROUPS", sizeof("MANDATORY-GROUPS") - 1, MANDATORYGROUPS}
456
    ,
457
    {"GROUP", sizeof("GROUP") - 1, GROUP}
458
    ,
459
    {"CHOICE", sizeof("CHOICE") - 1, CHOICE}
460
    ,
461
    {"IMPLICIT", sizeof("IMPLICIT") - 1, IMPLICIT}
462
    ,
463
    {"ObjectSyntax", sizeof("ObjectSyntax") - 1, OBJSYNTAX}
464
    ,
465
    {"SimpleSyntax", sizeof("SimpleSyntax") - 1, SIMPLESYNTAX}
466
    ,
467
    {"ApplicationSyntax", sizeof("ApplicationSyntax") - 1, APPSYNTAX}
468
    ,
469
    {"ObjectName", sizeof("ObjectName") - 1, OBJNAME}
470
    ,
471
    {"NotificationName", sizeof("NotificationName") - 1, NOTIFNAME}
472
    ,
473
    {"VARIABLES", sizeof("VARIABLES") - 1, VARIABLES}
474
    ,
475
    {NULL}
476
};
477
478
static struct module_compatability *module_map_head;
479
static struct module_compatability module_map[] = {
480
    {"RFC1065-SMI", "RFC1155-SMI", NULL, 0},
481
    {"RFC1066-MIB", "RFC1156-MIB", NULL, 0},
482
    /*
483
     * 'mib' -> 'mib-2' 
484
     */
485
    {"RFC1156-MIB", "RFC1158-MIB", NULL, 0},
486
    /*
487
     * 'snmpEnableAuthTraps' -> 'snmpEnableAuthenTraps' 
488
     */
489
    {"RFC1158-MIB", "RFC1213-MIB", NULL, 0},
490
    /*
491
     * 'nullOID' -> 'zeroDotZero' 
492
     */
493
    {"RFC1155-SMI", "SNMPv2-SMI", NULL, 0},
494
    {"RFC1213-MIB", "SNMPv2-SMI", "mib-2", 0},
495
    {"RFC1213-MIB", "SNMPv2-MIB", "sys", 3},
496
    {"RFC1213-MIB", "IF-MIB", "if", 2},
497
    {"RFC1213-MIB", "IP-MIB", "ip", 2},
498
    {"RFC1213-MIB", "IP-MIB", "icmp", 4},
499
    {"RFC1213-MIB", "TCP-MIB", "tcp", 3},
500
    {"RFC1213-MIB", "UDP-MIB", "udp", 3},
501
    {"RFC1213-MIB", "SNMPv2-SMI", "transmission", 0},
502
    {"RFC1213-MIB", "SNMPv2-MIB", "snmp", 4},
503
    {"RFC1231-MIB", "TOKENRING-MIB", NULL, 0},
504
    {"RFC1271-MIB", "RMON-MIB", NULL, 0},
505
    {"RFC1286-MIB", "SOURCE-ROUTING-MIB", "dot1dSr", 7},
506
    {"RFC1286-MIB", "BRIDGE-MIB", NULL, 0},
507
    {"RFC1315-MIB", "FRAME-RELAY-DTE-MIB", NULL, 0},
508
    {"RFC1316-MIB", "CHARACTER-MIB", NULL, 0},
509
    {"RFC1406-MIB", "DS1-MIB", NULL, 0},
510
    {"RFC-1213", "RFC1213-MIB", NULL, 0},
511
};
512
513
424
#define MODULE_NOT_FOUND  0
514
0
#define MODULE_LOADED_OK  1
515
0
#define MODULE_ALREADY_LOADED 2
516
/*
517
 * #define MODULE_LOAD_FAILED   3       
518
 */
519
0
#define MODULE_LOAD_FAILED  MODULE_NOT_FOUND
520
0
#define MODULE_SYNTAX_ERROR     4
521
522
int gMibError = 0,gLoop = 0;
523
static char *gpMibErrorString;
524
char gMibNames[STRINGMAX];
525
526
92
#define HASHSIZE        32
527
92
#define BUCKET(x)       (x & (HASHSIZE-1))
528
529
294
#define NHASHSIZE    128
530
294
#define NBUCKET(x)   (x & (NHASHSIZE-1))
531
532
static struct tok *buckets[HASHSIZE];
533
534
static struct node *nbuckets[NHASHSIZE];
535
static struct tree *tbuckets[NHASHSIZE];
536
static struct module *module_head = NULL;
537
538
static struct node *orphan_nodes = NULL;
539
NETSNMP_IMPORT struct tree *tree_head;
540
struct tree        *tree_head = NULL;
541
542
0
#define NUMBER_OF_ROOT_NODES  3
543
static struct module_import root_imports[NUMBER_OF_ROOT_NODES];
544
545
static int      current_module = 0;
546
static int      max_module = 0;
547
static int      first_err_module = 1;
548
static char    *last_err_module = NULL; /* no repeats on "Cannot find module..." */
549
550
static void     tree_from_node(struct tree *tp, struct node *np);
551
static void     do_subtree(struct tree *, struct node **);
552
static void     do_linkup(struct module *, struct node *);
553
static void     dump_module_list(void);
554
static int      get_token(FILE *, char *, int);
555
static int      parseQuoteString(FILE *, char *, int);
556
static int      tossObjectIdentifier(FILE *);
557
static int      name_hash(const char *);
558
static void     init_node_hash(struct node *);
559
static void     print_error(const char *, const char *, int);
560
static void     free_tree(struct tree *);
561
static void     free_partial_tree(struct tree *, int);
562
static void     free_node(struct node *);
563
static void     build_translation_table(void);
564
static void     init_tree_roots(void);
565
static void     merge_anon_children(struct tree *, struct tree *);
566
static void     unlink_tbucket(struct tree *);
567
static void     unlink_tree(struct tree *);
568
static struct node *parse_objectid(FILE *, char *);
569
static int      get_tc(const char *, int, int *, struct enum_list **,
570
                       struct range_list **, char **);
571
static int      get_tc_index(const char *, int);
572
static struct enum_list *parse_enumlist(FILE *, struct enum_list **);
573
static struct range_list *parse_ranges(FILE * fp, struct range_list **);
574
static struct node *parse_asntype(FILE *, char *, int *, char *);
575
static struct node *parse_objecttype(FILE *, char *);
576
static struct node *parse_objectgroup(FILE *, char *, int,
577
                                      struct objgroup **);
578
static struct node *parse_notificationDefinition(FILE *, char *);
579
static struct node *parse_trapDefinition(FILE *, char *);
580
static struct node *parse_compliance(FILE *, char *);
581
static struct node *parse_capabilities(FILE *, char *);
582
static struct node *parse_moduleIdentity(FILE *, char *);
583
static struct node *parse_macro(FILE *, char *);
584
static void     parse_imports(FILE *);
585
static struct node *parse(FILE *);
586
587
static int     read_module_internal(const char *);
588
static int     read_module_replacements(const char *);
589
static int     read_import_replacements(const char *,
590
                                         struct module_import *);
591
592
static struct node *merge_parse_objectid(struct node *, FILE *, char *);
593
static struct index_list *getIndexes(FILE * fp, struct index_list **);
594
static struct varbind_list *getVarbinds(FILE * fp, struct varbind_list **);
595
static void     free_indexes(struct index_list **);
596
static void     free_varbinds(struct varbind_list **);
597
static void     free_ranges(struct range_list **);
598
static void     free_enums(struct enum_list **);
599
static struct range_list *copy_ranges(struct range_list *);
600
static struct enum_list *copy_enums(struct enum_list *);
601
602
static u_int    compute_match(const char *search_base, const char *key);
603
604
void
605
snmp_mib_toggle_options_usage(const char *lead, FILE * outf)
606
0
{
607
0
    fprintf(outf, "%su:  %sallow the use of underlines in MIB symbols\n",
608
0
            lead, ((netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID,
609
0
             NETSNMP_DS_LIB_MIB_PARSE_LABEL)) ?
610
0
       "dis" : ""));
611
0
    fprintf(outf, "%sc:  %sallow the use of \"--\" to terminate comments\n",
612
0
            lead, ((netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID,
613
0
             NETSNMP_DS_LIB_MIB_COMMENT_TERM)) ?
614
0
       "" : "dis"));
615
616
0
    fprintf(outf, "%sd:  %ssave the DESCRIPTIONs of the MIB objects\n",
617
0
            lead, ((netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
618
0
             NETSNMP_DS_LIB_SAVE_MIB_DESCRS)) ?
619
0
       "do not " : ""));
620
621
0
    fprintf(outf, "%se:  disable errors when MIB symbols conflict\n", lead);
622
623
0
    fprintf(outf, "%sw:  enable warnings when MIB symbols conflict\n", lead);
624
625
0
    fprintf(outf, "%sW:  enable detailed warnings when MIB symbols conflict\n",
626
0
            lead);
627
628
0
    fprintf(outf, "%sR:  replace MIB symbols from latest module\n", lead);
629
0
}
630
631
char           *
632
snmp_mib_toggle_options(char *options)
633
0
{
634
0
    if (options) {
635
0
        while (*options) {
636
0
            switch (*options) {
637
0
            case 'u':
638
0
                netsnmp_ds_set_boolean(NETSNMP_DS_LIBRARY_ID, NETSNMP_DS_LIB_MIB_PARSE_LABEL,
639
0
                               !netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID,
640
0
                                               NETSNMP_DS_LIB_MIB_PARSE_LABEL));
641
0
                break;
642
643
0
            case 'c':
644
0
                netsnmp_ds_toggle_boolean(NETSNMP_DS_LIBRARY_ID,
645
0
            NETSNMP_DS_LIB_MIB_COMMENT_TERM);
646
0
                break;
647
648
0
            case 'e':
649
0
                netsnmp_ds_toggle_boolean(NETSNMP_DS_LIBRARY_ID,
650
0
            NETSNMP_DS_LIB_MIB_ERRORS);
651
0
                break;
652
653
0
            case 'w':
654
0
                netsnmp_ds_set_int(NETSNMP_DS_LIBRARY_ID,
655
0
           NETSNMP_DS_LIB_MIB_WARNINGS, 1);
656
0
                break;
657
658
0
            case 'W':
659
0
                netsnmp_ds_set_int(NETSNMP_DS_LIBRARY_ID,
660
0
           NETSNMP_DS_LIB_MIB_WARNINGS, 2);
661
0
                break;
662
663
0
            case 'd':
664
0
                netsnmp_ds_toggle_boolean(NETSNMP_DS_LIBRARY_ID, 
665
0
            NETSNMP_DS_LIB_SAVE_MIB_DESCRS);
666
0
                break;
667
668
0
            case 'R':
669
0
                netsnmp_ds_toggle_boolean(NETSNMP_DS_LIBRARY_ID, 
670
0
            NETSNMP_DS_LIB_MIB_REPLACE);
671
0
                break;
672
673
0
            default:
674
                /*
675
                 * return at the unknown option 
676
                 */
677
0
                return options;
678
0
            }
679
0
            options++;
680
0
        }
681
0
    }
682
0
    return NULL;
683
0
}
684
685
static int
686
name_hash(const char *name)
687
386
{
688
386
    int             hash = 0;
689
386
    const char     *cp;
690
691
386
    if (!name)
692
0
        return 0;
693
4.50k
    for (cp = name; *cp; cp++)
694
4.12k
        hash += tolower((unsigned char)(*cp));
695
386
    return (hash);
696
386
}
697
698
void
699
netsnmp_init_mib_internals(void)
700
212
{
701
212
    register struct tok *tp;
702
212
    register int    b, i;
703
212
    int             max_modc;
704
705
212
    if (tree_head)
706
211
        return;
707
708
    /*
709
     * Set up hash list of pre-defined tokens
710
     */
711
1
    memset(buckets, 0, sizeof(buckets));
712
93
    for (tp = tokens; tp->name; tp++) {
713
92
        tp->hash = name_hash(tp->name);
714
92
        b = BUCKET(tp->hash);
715
92
        if (buckets[b])
716
60
            tp->next = buckets[b];      /* BUG ??? */
717
92
        buckets[b] = tp;
718
92
    }
719
720
    /*
721
     * Initialise other internal structures
722
     */
723
724
1
    max_modc = sizeof(module_map) / sizeof(module_map[0]) - 1;
725
22
    for (i = 0; i < max_modc; ++i)
726
21
        module_map[i].next = &(module_map[i + 1]);
727
1
    module_map[max_modc].next = NULL;
728
1
    module_map_head = module_map;
729
730
1
    memset(nbuckets, 0, sizeof(nbuckets));
731
1
    memset(tbuckets, 0, sizeof(tbuckets));
732
1
    free(tclist);
733
1
    tc_alloc = TC_INCR;
734
1
    tclist = calloc(tc_alloc, sizeof(struct tc));
735
1
    build_translation_table();
736
1
    init_tree_roots();          /* Set up initial roots */
737
    /*
738
     * Relies on 'add_mibdir' having set up the modules 
739
     */
740
1
}
741
742
#ifndef NETSNMP_NO_LEGACY_DEFINITIONS
743
void
744
init_mib_internals(void)
745
0
{
746
0
    netsnmp_init_mib_internals();
747
0
}
748
#endif
749
750
static void
751
init_node_hash(struct node *nodes)
752
0
{
753
0
    struct node    *np, *nextp;
754
0
    int             hash;
755
756
0
    memset(nbuckets, 0, sizeof(nbuckets));
757
0
    for (np = nodes; np;) {
758
0
        nextp = np->next;
759
0
        hash = NBUCKET(name_hash(np->parent));
760
0
        np->next = nbuckets[hash];
761
0
        nbuckets[hash] = np;
762
0
        np = nextp;
763
0
    }
764
0
}
765
766
static int      erroneousMibs = 0;
767
768
netsnmp_feature_child_of(parse_get_error_count, netsnmp_unused);
769
#ifndef NETSNMP_FEATURE_REMOVE_PARSE_GET_ERROR_COUNT
770
int
771
get_mib_parse_error_count(void)
772
0
{
773
0
    return erroneousMibs;
774
0
}
775
#endif /* NETSNMP_FEATURE_REMOVE_PARSE_GET_ERROR_COUNT */
776
777
778
static void
779
print_error(const char *str, const char *token, int type)
780
184
{
781
184
    erroneousMibs++;
782
184
    if (!netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID,
783
184
                                NETSNMP_DS_LIB_MIB_ERRORS))
784
163
  return;
785
21
    DEBUGMSGTL(("parse-mibs", "\n"));
786
21
    if (type == ENDOFFILE)
787
0
        snmp_log(LOG_ERR, "%s (EOF): At line %d in %s\n", str, mibLine,
788
0
                 File);
789
21
    else if (token && *token)
790
19
        snmp_log(LOG_ERR, "%s (%s): At line %d in %s\n", str, token,
791
19
                 mibLine, File);
792
2
    else
793
2
        snmp_log(LOG_ERR, "%s: At line %d in %s\n", str, mibLine, File);
794
21
}
795
796
static void
797
print_module_not_found(const char *cp)
798
188
{
799
188
    if (first_err_module) {
800
1
        snmp_log(LOG_ERR, "MIB search path: %s\n",
801
1
                           netsnmp_get_mib_directory());
802
1
        first_err_module = 0;
803
1
    }
804
188
    if (!last_err_module || strcmp(cp, last_err_module))
805
184
        print_error("Cannot find module", cp, CONTINUE);
806
188
    if (last_err_module)
807
187
        free(last_err_module);
808
188
    last_err_module = strdup(cp);
809
188
}
810
811
static struct node *
812
alloc_node(int modid)
813
0
{
814
0
    struct node    *np;
815
816
0
    np = calloc(1, sizeof(struct node));
817
0
    if (!np)
818
0
        return NULL;
819
820
0
    np->tc_index = -1;
821
0
    np->modid = modid;
822
0
    np->filename = strdup(File);
823
0
    np->lineno = mibLine;
824
825
0
    return np;
826
0
}
827
828
static void
829
unlink_tbucket(struct tree *tp)
830
0
{
831
0
    int             hash = NBUCKET(name_hash(tp->label));
832
0
    struct tree    *otp = NULL, *ntp = tbuckets[hash];
833
834
0
    while (ntp && ntp != tp) {
835
0
        otp = ntp;
836
0
        ntp = ntp->next;
837
0
    }
838
0
    if (!ntp)
839
0
        snmp_log(LOG_EMERG, "Can't find %s in tbuckets\n", tp->label);
840
0
    else if (otp)
841
0
        otp->next = ntp->next;
842
0
    else
843
0
        tbuckets[hash] = tp->next;
844
0
}
845
846
static void
847
unlink_tree(struct tree *tp)
848
0
{
849
0
    struct tree    *otp = NULL, *ntp = tp->parent;
850
851
0
    if (!ntp) {                 /* this tree has no parent */
852
0
        DEBUGMSGTL(("unlink_tree", "Tree node %s has no parent\n",
853
0
                    tp->label));
854
0
    } else {
855
0
        ntp = ntp->child_list;
856
857
0
        while (ntp && ntp != tp) {
858
0
            otp = ntp;
859
0
            ntp = ntp->next_peer;
860
0
        }
861
0
        if (!ntp)
862
0
            snmp_log(LOG_EMERG, "Can't find %s in %s's children\n",
863
0
                     tp->label, tp->parent->label);
864
0
        else if (otp)
865
0
            otp->next_peer = ntp->next_peer;
866
0
        else
867
0
            tp->parent->child_list = tp->next_peer;
868
0
    }
869
870
0
    if (tree_head == tp)
871
0
        tree_head = tp->next_peer;
872
0
}
873
874
static void
875
free_partial_tree(struct tree *tp, int keep_label)
876
0
{
877
0
    if (!tp)
878
0
        return;
879
880
    /*
881
     * remove the data from this tree node 
882
     */
883
0
    free_enums(&tp->enums);
884
0
    free_ranges(&tp->ranges);
885
0
    free_indexes(&tp->indexes);
886
0
    free_varbinds(&tp->varbinds);
887
0
    if (!keep_label)
888
0
        SNMP_FREE(tp->label);
889
0
    SNMP_FREE(tp->hint);
890
0
    SNMP_FREE(tp->units);
891
0
    SNMP_FREE(tp->description);
892
0
    SNMP_FREE(tp->reference);
893
0
    SNMP_FREE(tp->augments);
894
0
    SNMP_FREE(tp->defaultValue);
895
0
}
896
897
/*
898
 * free a tree node. Note: the node must already have been unlinked
899
 * from the tree when calling this routine
900
 */
901
static void
902
free_tree(struct tree *Tree)
903
0
{
904
0
    if (!Tree)
905
0
        return;
906
907
0
    unlink_tbucket(Tree);
908
0
    free_partial_tree(Tree, FALSE);
909
0
    if (Tree->module_list != &Tree->modid)
910
0
        free(Tree->module_list);
911
0
    free(Tree);
912
0
}
913
914
static void
915
free_node(struct node *np)
916
0
{
917
0
    if (!np)
918
0
        return;
919
920
0
    free_enums(&np->enums);
921
0
    free_ranges(&np->ranges);
922
0
    free_indexes(&np->indexes);
923
0
    free_varbinds(&np->varbinds);
924
0
    free(np->label);
925
0
    free(np->hint);
926
0
    free(np->units);
927
0
    free(np->description);
928
0
    free(np->reference);
929
0
    free(np->defaultValue);
930
0
    free(np->parent);
931
0
    free(np->augments);
932
0
    free(np->filename);
933
0
    free(np);
934
0
}
935
936
static void
937
print_range_value(FILE * fp, int type, struct range_list * rp)
938
0
{
939
0
    switch (type) {
940
0
    case TYPE_INTEGER:
941
0
    case TYPE_INTEGER32:
942
0
        if (rp->low == rp->high)
943
0
            fprintf(fp, "%d", rp->low);
944
0
        else
945
0
            fprintf(fp, "%d..%d", rp->low, rp->high);
946
0
        break;
947
0
    case TYPE_UNSIGNED32:
948
0
    case TYPE_OCTETSTR:
949
0
    case TYPE_GAUGE:
950
0
    case TYPE_UINTEGER:
951
0
        if (rp->low == rp->high)
952
0
            fprintf(fp, "%u", (unsigned)rp->low);
953
0
        else
954
0
            fprintf(fp, "%u..%u", (unsigned)rp->low, (unsigned)rp->high);
955
0
        break;
956
0
    default:
957
        /* No other range types allowed */
958
0
        break;
959
0
    }
960
0
}
961
962
#ifdef TEST
963
static void
964
print_nodes(FILE * fp, struct node *root)
965
{
966
    struct enum_list *ep;
967
    struct index_list *ip;
968
    struct varbind_list *vp;
969
    struct node    *np;
970
971
    for (np = root; np; np = np->next) {
972
        fprintf(fp, "%s ::= { %s %ld } (%d)\n", np->label, np->parent,
973
                np->subid, np->type);
974
        if (np->tc_index >= 0)
975
            fprintf(fp, "  TC = %s\n", tclist[np->tc_index].descriptor);
976
        if (np->enums) {
977
            fprintf(fp, "  Enums: \n");
978
            for (ep = np->enums; ep; ep = ep->next) {
979
                fprintf(fp, "    %s(%d)\n", ep->label, ep->value);
980
            }
981
        }
982
        if (np->ranges) {
983
            struct range_list *rp;
984
            fprintf(fp, "  Ranges: ");
985
            for (rp = np->ranges; rp; rp = rp->next) {
986
                fprintf(fp, "\n    ");
987
                print_range_value(fp, np->type, rp);
988
            }
989
            fprintf(fp, "\n");
990
        }
991
        if (np->indexes) {
992
            fprintf(fp, "  Indexes: \n");
993
            for (ip = np->indexes; ip; ip = ip->next) {
994
                fprintf(fp, "    %s\n", ip->ilabel);
995
            }
996
        }
997
        if (np->augments)
998
            fprintf(fp, "  Augments: %s\n", np->augments);
999
        if (np->varbinds) {
1000
            fprintf(fp, "  Varbinds: \n");
1001
            for (vp = np->varbinds; vp; vp = vp->next) {
1002
                fprintf(fp, "    %s\n", vp->vblabel);
1003
            }
1004
        }
1005
        if (np->hint)
1006
            fprintf(fp, "  Hint: %s\n", np->hint);
1007
        if (np->units)
1008
            fprintf(fp, "  Units: %s\n", np->units);
1009
        if (np->defaultValue)
1010
            fprintf(fp, "  DefaultValue: %s\n", np->defaultValue);
1011
    }
1012
}
1013
#endif
1014
1015
void
1016
print_subtree(FILE * f, struct tree *tree, int count)
1017
0
{
1018
0
    struct tree    *tp;
1019
0
    int             i;
1020
0
    char            modbuf[256];
1021
1022
0
    for (i = 0; i < count; i++)
1023
0
        fprintf(f, "  ");
1024
0
    fprintf(f, "Children of %s(%ld):\n", tree->label, tree->subid);
1025
0
    count++;
1026
0
    for (tp = tree->child_list; tp; tp = tp->next_peer) {
1027
0
        for (i = 0; i < count; i++)
1028
0
            fprintf(f, "  ");
1029
0
        fprintf(f, "%s:%s(%ld) type=%d",
1030
0
                module_name(tp->module_list[0], modbuf),
1031
0
                tp->label, tp->subid, tp->type);
1032
0
        if (tp->tc_index != -1)
1033
0
            fprintf(f, " tc=%d", tp->tc_index);
1034
0
        if (tp->hint)
1035
0
            fprintf(f, " hint=%s", tp->hint);
1036
0
        if (tp->units)
1037
0
            fprintf(f, " units=%s", tp->units);
1038
0
        if (tp->number_modules > 1) {
1039
0
            fprintf(f, " modules:");
1040
0
            for (i = 1; i < tp->number_modules; i++)
1041
0
                fprintf(f, " %s", module_name(tp->module_list[i], modbuf));
1042
0
        }
1043
0
        fprintf(f, "\n");
1044
0
    }
1045
0
    for (tp = tree->child_list; tp; tp = tp->next_peer) {
1046
0
        if (tp->child_list)
1047
0
            print_subtree(f, tp, count);
1048
0
    }
1049
0
}
1050
1051
void
1052
print_ascii_dump_tree(FILE * f, struct tree *tree, int count)
1053
0
{
1054
0
    struct tree    *tp;
1055
1056
0
    count++;
1057
0
    for (tp = tree->child_list; tp; tp = tp->next_peer) {
1058
0
        fprintf(f, "%s OBJECT IDENTIFIER ::= { %s %ld }\n", tp->label,
1059
0
                tree->label, tp->subid);
1060
0
    }
1061
0
    for (tp = tree->child_list; tp; tp = tp->next_peer) {
1062
0
        if (tp->child_list)
1063
0
            print_ascii_dump_tree(f, tp, count);
1064
0
    }
1065
0
}
1066
1067
static int      translation_table[256];
1068
1069
static void
1070
build_translation_table(void)
1071
1
{
1072
1
    int             count;
1073
1074
257
    for (count = 0; count < 256; count++) {
1075
256
        switch (count) {
1076
1
        case OBJID:
1077
1
            translation_table[count] = TYPE_OBJID;
1078
1
            break;
1079
1
        case OCTETSTR:
1080
1
            translation_table[count] = TYPE_OCTETSTR;
1081
1
            break;
1082
1
        case INTEGER:
1083
1
            translation_table[count] = TYPE_INTEGER;
1084
1
            break;
1085
1
        case NETADDR:
1086
1
            translation_table[count] = TYPE_NETADDR;
1087
1
            break;
1088
1
        case IPADDR:
1089
1
            translation_table[count] = TYPE_IPADDR;
1090
1
            break;
1091
1
        case COUNTER:
1092
1
            translation_table[count] = TYPE_COUNTER;
1093
1
            break;
1094
1
        case GAUGE:
1095
1
            translation_table[count] = TYPE_GAUGE;
1096
1
            break;
1097
1
        case TIMETICKS:
1098
1
            translation_table[count] = TYPE_TIMETICKS;
1099
1
            break;
1100
1
        case KW_OPAQUE:
1101
1
            translation_table[count] = TYPE_OPAQUE;
1102
1
            break;
1103
1
        case NUL:
1104
1
            translation_table[count] = TYPE_NULL;
1105
1
            break;
1106
1
        case COUNTER64:
1107
1
            translation_table[count] = TYPE_COUNTER64;
1108
1
            break;
1109
1
        case BITSTRING:
1110
1
            translation_table[count] = TYPE_BITSTRING;
1111
1
            break;
1112
1
        case NSAPADDRESS:
1113
1
            translation_table[count] = TYPE_NSAPADDRESS;
1114
1
            break;
1115
1
        case INTEGER32:
1116
1
            translation_table[count] = TYPE_INTEGER32;
1117
1
            break;
1118
1
        case UINTEGER32:
1119
1
            translation_table[count] = TYPE_UINTEGER;
1120
1
            break;
1121
1
        case UNSIGNED32:
1122
1
            translation_table[count] = TYPE_UNSIGNED32;
1123
1
            break;
1124
1
        case TRAPTYPE:
1125
1
            translation_table[count] = TYPE_TRAPTYPE;
1126
1
            break;
1127
1
        case NOTIFTYPE:
1128
1
            translation_table[count] = TYPE_NOTIFTYPE;
1129
1
            break;
1130
1
        case NOTIFGROUP:
1131
1
            translation_table[count] = TYPE_NOTIFGROUP;
1132
1
            break;
1133
1
        case OBJGROUP:
1134
1
            translation_table[count] = TYPE_OBJGROUP;
1135
1
            break;
1136
1
        case MODULEIDENTITY:
1137
1
            translation_table[count] = TYPE_MODID;
1138
1
            break;
1139
1
        case OBJIDENTITY:
1140
1
            translation_table[count] = TYPE_OBJIDENTITY;
1141
1
            break;
1142
1
        case AGENTCAP:
1143
1
            translation_table[count] = TYPE_AGENTCAP;
1144
1
            break;
1145
1
        case COMPLIANCE:
1146
1
            translation_table[count] = TYPE_MODCOMP;
1147
1
            break;
1148
232
        default:
1149
232
            translation_table[count] = TYPE_OTHER;
1150
232
            break;
1151
256
        }
1152
256
    }
1153
1
}
1154
1155
static void
1156
init_tree_roots(void)
1157
1
{
1158
1
    struct tree    *tp, *lasttp;
1159
1
    int             base_modid;
1160
1
    int             hash;
1161
1162
1
    base_modid = which_module("SNMPv2-SMI");
1163
1
    if (base_modid == -1)
1164
1
        base_modid = which_module("RFC1155-SMI");
1165
1
    if (base_modid == -1)
1166
1
        base_modid = which_module("RFC1213-MIB");
1167
1168
    /*
1169
     * build root node 
1170
     */
1171
1
    tp = calloc(1, sizeof(struct tree));
1172
1
    if (tp == NULL)
1173
0
        return;
1174
1
    tp->label = strdup("joint-iso-ccitt");
1175
1
    tp->modid = base_modid;
1176
1
    tp->number_modules = 1;
1177
1
    tp->module_list = &(tp->modid);
1178
1
    tp->subid = 2;
1179
1
    tp->tc_index = -1;
1180
1
    set_function(tp);           /* from mib.c */
1181
1
    hash = NBUCKET(name_hash(tp->label));
1182
1
    tp->next = tbuckets[hash];
1183
1
    tbuckets[hash] = tp;
1184
1
    lasttp = tp;
1185
1
    root_imports[0].label = strdup(tp->label);
1186
1
    root_imports[0].modid = base_modid;
1187
1188
    /*
1189
     * build root node 
1190
     */
1191
1
    tp = calloc(1, sizeof(struct tree));
1192
1
    if (tp == NULL)
1193
0
        return;
1194
1
    tp->next_peer = lasttp;
1195
1
    tp->label = strdup("ccitt");
1196
1
    tp->modid = base_modid;
1197
1
    tp->number_modules = 1;
1198
1
    tp->module_list = &(tp->modid);
1199
1
    tp->subid = 0;
1200
1
    tp->tc_index = -1;
1201
1
    set_function(tp);           /* from mib.c */
1202
1
    hash = NBUCKET(name_hash(tp->label));
1203
1
    tp->next = tbuckets[hash];
1204
1
    tbuckets[hash] = tp;
1205
1
    lasttp = tp;
1206
1
    root_imports[1].label = strdup(tp->label);
1207
1
    root_imports[1].modid = base_modid;
1208
1209
    /*
1210
     * build root node 
1211
     */
1212
1
    tp = calloc(1, sizeof(struct tree));
1213
1
    if (tp == NULL)
1214
0
        return;
1215
1
    tp->next_peer = lasttp;
1216
1
    tp->label = strdup("iso");
1217
1
    tp->modid = base_modid;
1218
1
    tp->number_modules = 1;
1219
1
    tp->module_list = &(tp->modid);
1220
1
    tp->subid = 1;
1221
1
    tp->tc_index = -1;
1222
1
    set_function(tp);           /* from mib.c */
1223
1
    hash = NBUCKET(name_hash(tp->label));
1224
1
    tp->next = tbuckets[hash];
1225
1
    tbuckets[hash] = tp;
1226
1
    lasttp = tp;
1227
1
    root_imports[2].label = strdup(tp->label);
1228
1
    root_imports[2].modid = base_modid;
1229
1230
1
    tree_head = tp;
1231
1
}
1232
1233
#ifdef STRICT_MIB_PARSEING
1234
#define label_compare strcasecmp
1235
#else
1236
4.43k
#define label_compare strcmp
1237
#endif
1238
1239
1240
struct tree    *
1241
find_tree_node(const char *name, int modid)
1242
303
{
1243
303
    struct tree    *tp, *headtp;
1244
303
    int             count, *int_p;
1245
1246
303
    if (!name || !*name)
1247
12
        return (NULL);
1248
1249
291
    headtp = tbuckets[NBUCKET(name_hash(name))];
1250
417
    for (tp = headtp; tp; tp = tp->next) {
1251
168
        if (tp->label && !label_compare(tp->label, name)) {
1252
1253
42
            if (modid == -1)    /* Any module */
1254
42
                return (tp);
1255
1256
0
            for (int_p = tp->module_list, count = 0;
1257
0
                 count < tp->number_modules; ++count, ++int_p)
1258
0
                if (*int_p == modid)
1259
0
                    return (tp);
1260
0
        }
1261
168
    }
1262
1263
249
    return (NULL);
1264
291
}
1265
1266
/*
1267
 * computes a value which represents how close name1 is to name2.
1268
 * * high scores mean a worse match.
1269
 * * (yes, the algorithm sucks!)
1270
 */
1271
1.17k
#define MAX_BAD 0xffffff
1272
1273
static          u_int
1274
compute_match(const char *search_base, const char *key)
1275
710
{
1276
710
#if defined(HAVE_REGEX_H) && defined(HAVE_REGCOMP)
1277
710
    int             rc;
1278
710
    regex_t         parsetree;
1279
710
    regmatch_t      pmatch;
1280
710
    rc = regcomp(&parsetree, key, REG_ICASE | REG_EXTENDED);
1281
710
    if (rc == 0)
1282
656
        rc = regexec(&parsetree, search_base, 1, &pmatch, 0);
1283
710
    regfree(&parsetree);
1284
710
    if (rc == 0) {
1285
        /*
1286
         * found 
1287
         */
1288
45
        return pmatch.rm_so;
1289
45
    }
1290
#else                           /* use our own wildcard matcher */
1291
    /*
1292
     * first find the longest matching substring (ick) 
1293
     */
1294
    char           *first = NULL, *result = NULL, *entry;
1295
    const char     *position;
1296
    char           *newkey = strdup(key);
1297
    char           *st;
1298
1299
1300
    entry = strtok_r(newkey, "*", &st);
1301
    position = search_base;
1302
    while (entry) {
1303
        result = strcasestr(position, entry);
1304
1305
        if (result == NULL) {
1306
            free(newkey);
1307
            return MAX_BAD;
1308
        }
1309
1310
        if (first == NULL)
1311
            first = result;
1312
1313
        position = result + strlen(entry);
1314
        entry = strtok_r(NULL, "*", &st);
1315
    }
1316
    free(newkey);
1317
    if (result)
1318
        return (first - search_base);
1319
#endif
1320
1321
    /*
1322
     * not found 
1323
     */
1324
665
    return MAX_BAD;
1325
710
}
1326
1327
/*
1328
 * Find the tree node that best matches the pattern string.
1329
 * Use the "reported" flag such that only one match
1330
 * is attempted for every node.
1331
 *
1332
 * Warning! This function may recurse.
1333
 *
1334
 * Caller _must_ invoke clear_tree_flags before first call
1335
 * to this function.  This function may be called multiple times
1336
 * to ensure that the entire tree is traversed.
1337
 */
1338
1339
struct tree    *
1340
find_best_tree_node(const char *pattrn, struct tree *tree_top,
1341
                    u_int * match)
1342
254
{
1343
254
    struct tree    *tp, *best_so_far = NULL, *retptr;
1344
254
    u_int           old_match = MAX_BAD, new_match = MAX_BAD;
1345
1346
254
    if (!pattrn || !*pattrn)
1347
3
        return (NULL);
1348
1349
251
    if (!tree_top)
1350
5
        tree_top = get_tree_head();
1351
1352
943
    for (tp = tree_top; tp; tp = tp->next_peer) {
1353
710
        if (!tp->reported && tp->label)
1354
710
            new_match = compute_match(tp->label, pattrn);
1355
710
        tp->reported = 1;
1356
1357
710
        if (new_match < old_match) {
1358
37
            best_so_far = tp;
1359
37
            old_match = new_match;
1360
37
        }
1361
710
        if (new_match == 0)
1362
18
            break;              /* this is the best result we can get */
1363
692
        if (tp->child_list) {
1364
0
            retptr =
1365
0
                find_best_tree_node(pattrn, tp->child_list, &new_match);
1366
0
            if (new_match < old_match) {
1367
0
                best_so_far = retptr;
1368
0
                old_match = new_match;
1369
0
            }
1370
0
            if (new_match == 0)
1371
0
                break;          /* this is the best result we can get */
1372
0
        }
1373
692
    }
1374
251
    if (match)
1375
0
        *match = old_match;
1376
251
    return (best_so_far);
1377
254
}
1378
1379
1380
static void
1381
merge_anon_children(struct tree *tp1, struct tree *tp2)
1382
                /*
1383
                 * NB: tp1 is the 'anonymous' node 
1384
                 */
1385
0
{
1386
0
    struct tree    *child1, *child2, *previous;
1387
1388
0
    for (child1 = tp1->child_list; child1;) {
1389
1390
0
        for (child2 = tp2->child_list, previous = NULL;
1391
0
             child2; previous = child2, child2 = child2->next_peer) {
1392
1393
0
            if (child1->subid == child2->subid) {
1394
                /*
1395
                 * Found 'matching' children,
1396
                 *  so merge them
1397
                 */
1398
0
                if (!strncmp(child1->label, ANON, ANON_LEN)) {
1399
0
                    merge_anon_children(child1, child2);
1400
1401
0
                    child1->child_list = NULL;
1402
0
                    previous = child1;  /* Finished with 'child1' */
1403
0
                    child1 = child1->next_peer;
1404
0
                    free_tree(previous);
1405
0
                    goto next;
1406
0
                }
1407
1408
0
                else if (!strncmp(child2->label, ANON, ANON_LEN)) {
1409
0
                    merge_anon_children(child2, child1);
1410
1411
0
                    if (previous)
1412
0
                        previous->next_peer = child2->next_peer;
1413
0
                    else
1414
0
                        tp2->child_list = child2->next_peer;
1415
0
                    free_tree(child2);
1416
1417
0
                    previous = child1;  /* Move 'child1' to 'tp2' */
1418
0
                    child1 = child1->next_peer;
1419
0
                    previous->next_peer = tp2->child_list;
1420
0
                    tp2->child_list = previous;
1421
0
                    for (previous = tp2->child_list;
1422
0
                         previous; previous = previous->next_peer)
1423
0
                        previous->parent = tp2;
1424
0
                    goto next;
1425
0
                } else if (!label_compare(child1->label, child2->label)) {
1426
0
                    if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
1427
0
             NETSNMP_DS_LIB_MIB_WARNINGS)) {
1428
0
                        snmp_log(LOG_WARNING,
1429
0
                                 "Warning: %s.%ld is both %s and %s (%s)\n",
1430
0
                                 tp2->label, child1->subid, child1->label,
1431
0
                                 child2->label, File);
1432
0
        }
1433
0
                    continue;
1434
0
                } else {
1435
                    /*
1436
                     * Two copies of the same node.
1437
                     * 'child2' adopts the children of 'child1'
1438
                     */
1439
1440
0
                    if (child2->child_list) {
1441
0
                        for (previous = child2->child_list; previous->next_peer; previous = previous->next_peer);       /* Find the end of the list */
1442
0
                        previous->next_peer = child1->child_list;
1443
0
                    } else
1444
0
                        child2->child_list = child1->child_list;
1445
0
                    for (previous = child1->child_list;
1446
0
                         previous; previous = previous->next_peer)
1447
0
                        previous->parent = child2;
1448
0
                    child1->child_list = NULL;
1449
1450
0
                    previous = child1;  /* Finished with 'child1' */
1451
0
                    child1 = child1->next_peer;
1452
0
                    free_tree(previous);
1453
0
                    goto next;
1454
0
                }
1455
0
            }
1456
0
        }
1457
        /*
1458
         * If no match, move 'child1' to 'tp2' child_list
1459
         */
1460
0
        if (child1) {
1461
0
            previous = child1;
1462
0
            child1 = child1->next_peer;
1463
0
            previous->parent = tp2;
1464
0
            previous->next_peer = tp2->child_list;
1465
0
            tp2->child_list = previous;
1466
0
        }
1467
0
      next:;
1468
0
    }
1469
0
}
1470
1471
1472
/*
1473
 * Find all the children of root in the list of nodes.  Link them into the
1474
 * tree and out of the nodes list.
1475
 */
1476
static void
1477
do_subtree(struct tree *root, struct node **nodes)
1478
0
{
1479
0
    struct tree    *tp, *anon_tp = NULL;
1480
0
    struct tree    *xroot = root;
1481
0
    struct node    *np, **headp;
1482
0
    struct node    *oldnp = NULL, *child_list = NULL, *childp = NULL;
1483
0
    int             hash;
1484
0
    int            *int_p;
1485
0
    int             depth = 0;
1486
0
    struct tree    *p;
1487
1488
0
    for (p = root; p; p = p->parent) {
1489
0
        depth++;
1490
0
        if (depth >= MAX_OID_LEN) {
1491
0
            snmp_log(LOG_ERR, "MIB tree depth exceeds MAX_OID_LEN (%d); aborting subtree parsing\n", MAX_OID_LEN);
1492
0
            return;
1493
0
        }
1494
0
    }
1495
1496
0
    while (xroot->next_peer && xroot->next_peer->subid == root->subid) {
1497
#if 0
1498
        printf("xroot: %s.%s => %s\n", xroot->parent->label, xroot->label,
1499
               xroot->next_peer->label);
1500
#endif
1501
0
        xroot = xroot->next_peer;
1502
0
    }
1503
1504
0
    tp = root;
1505
0
    headp = &nbuckets[NBUCKET(name_hash(tp->label))];
1506
    /*
1507
     * Search each of the nodes for one whose parent is root, and
1508
     * move each into a separate list.
1509
     */
1510
0
    for (np = *headp; np; np = np->next) {
1511
0
        if (!label_compare(tp->label, np->parent)) {
1512
            /*
1513
             * take this node out of the node list 
1514
             */
1515
0
            if (oldnp == NULL) {
1516
0
                *headp = np->next;      /* fix root of node list */
1517
0
            } else {
1518
0
                oldnp->next = np->next; /* link around this node */
1519
0
            }
1520
0
            if (child_list)
1521
0
                childp->next = np;
1522
0
            else
1523
0
                child_list = np;
1524
0
            childp = np;
1525
0
        } else {
1526
0
            oldnp = np;
1527
0
        }
1528
1529
0
    }
1530
0
    if (childp)
1531
0
        childp->next = NULL;
1532
    /*
1533
     * Take each element in the child list and place it into the tree.
1534
     */
1535
0
    for (np = child_list; np; np = np->next) {
1536
0
        struct tree    *otp = NULL;
1537
0
        struct tree    *xxroot = xroot;
1538
0
        anon_tp = NULL;
1539
0
        tp = xroot->child_list;
1540
1541
0
        if (np->subid == -1) {
1542
            /*
1543
             * name ::= { parent } 
1544
             */
1545
0
            np->subid = xroot->subid;
1546
0
            tp = xroot;
1547
0
            xxroot = xroot->parent;
1548
0
        }
1549
1550
0
        while (tp) {
1551
0
            if (tp->subid == np->subid)
1552
0
                break;
1553
0
            else {
1554
0
                otp = tp;
1555
0
                tp = tp->next_peer;
1556
0
            }
1557
0
        }
1558
0
        if (tp) {
1559
0
            if (!label_compare(tp->label, np->label)) {
1560
                /*
1561
                 * Update list of modules 
1562
                 */
1563
0
                int_p = malloc((tp->number_modules + 1) * sizeof(int));
1564
0
                if (int_p == NULL)
1565
0
                    goto cleanup;
1566
0
                memcpy(int_p, tp->module_list,
1567
0
                       tp->number_modules * sizeof(int));
1568
0
                int_p[tp->number_modules] = np->modid;
1569
0
                if (tp->module_list != &tp->modid)
1570
0
                    free(tp->module_list);
1571
0
                ++tp->number_modules;
1572
0
                tp->module_list = int_p;
1573
1574
0
                if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
1575
0
             NETSNMP_DS_LIB_MIB_REPLACE)) {
1576
                    /*
1577
                     * Replace from node 
1578
                     */
1579
0
                    tree_from_node(tp, np);
1580
0
                }
1581
                /*
1582
                 * Handle children 
1583
                 */
1584
0
                do_subtree(tp, nodes);
1585
0
                continue;
1586
0
            }
1587
0
            if (!strncmp(np->label, ANON, ANON_LEN) ||
1588
0
                !strncmp(tp->label, ANON, ANON_LEN)) {
1589
0
                anon_tp = tp;   /* Need to merge these two trees later */
1590
0
            } else if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
1591
0
            NETSNMP_DS_LIB_MIB_WARNINGS)) {
1592
0
                snmp_log(LOG_WARNING,
1593
0
                         "Warning: %s.%ld is both %s and %s (%s)\n",
1594
0
                         root->label, np->subid, tp->label, np->label,
1595
0
                         File);
1596
0
      }
1597
0
        }
1598
1599
0
        tp = calloc(1, sizeof(struct tree));
1600
0
        if (tp == NULL)
1601
0
            goto cleanup;
1602
0
        tp->parent = xxroot;
1603
0
        tp->modid = np->modid;
1604
0
        tp->number_modules = 1;
1605
0
        tp->module_list = &(tp->modid);
1606
0
        tree_from_node(tp, np);
1607
0
        if (!otp && !xxroot) {
1608
0
          free_tree(tp);
1609
0
          goto cleanup;
1610
0
        }
1611
0
        tp->next_peer = otp ? otp->next_peer : xxroot->child_list;
1612
0
        if (otp)
1613
0
            otp->next_peer = tp;
1614
0
        else
1615
0
            xxroot->child_list = tp;
1616
0
        hash = NBUCKET(name_hash(tp->label));
1617
0
        tp->next = tbuckets[hash];
1618
0
        tbuckets[hash] = tp;
1619
0
        do_subtree(tp, nodes);
1620
1621
0
        if (anon_tp) {
1622
0
            if (!strncmp(tp->label, ANON, ANON_LEN)) {
1623
                /*
1624
                 * The new node is anonymous,
1625
                 *  so merge it with the existing one.
1626
                 */
1627
0
                merge_anon_children(tp, anon_tp);
1628
1629
                /*
1630
                 * unlink and destroy tp 
1631
                 */
1632
0
                unlink_tree(tp);
1633
0
                free_tree(tp);
1634
0
            } else if (!strncmp(anon_tp->label, ANON, ANON_LEN)) {
1635
0
                struct tree    *ntp;
1636
                /*
1637
                 * The old node was anonymous,
1638
                 *  so merge it with the existing one,
1639
                 *  and fill in the full information.
1640
                 */
1641
0
                merge_anon_children(anon_tp, tp);
1642
1643
                /*
1644
                 * unlink anon_tp from the hash 
1645
                 */
1646
0
                unlink_tbucket(anon_tp);
1647
1648
                /*
1649
                 * get rid of old contents of anon_tp 
1650
                 */
1651
0
                free_partial_tree(anon_tp, FALSE);
1652
1653
                /*
1654
                 * put in the current information 
1655
                 */
1656
0
                anon_tp->label = tp->label;
1657
0
                anon_tp->child_list = tp->child_list;
1658
0
                anon_tp->modid = tp->modid;
1659
0
                anon_tp->tc_index = tp->tc_index;
1660
0
                anon_tp->type = tp->type;
1661
0
                anon_tp->enums = tp->enums;
1662
0
                anon_tp->indexes = tp->indexes;
1663
0
                anon_tp->augments = tp->augments;
1664
0
                anon_tp->varbinds = tp->varbinds;
1665
0
                anon_tp->ranges = tp->ranges;
1666
0
                anon_tp->hint = tp->hint;
1667
0
                anon_tp->units = tp->units;
1668
0
                anon_tp->description = tp->description;
1669
0
                anon_tp->reference = tp->reference;
1670
0
                anon_tp->defaultValue = tp->defaultValue;
1671
0
                anon_tp->parent = tp->parent;
1672
1673
0
                set_function(anon_tp);
1674
1675
                /*
1676
                 * update parent pointer in moved children 
1677
                 */
1678
0
                ntp = anon_tp->child_list;
1679
0
                while (ntp) {
1680
0
                    ntp->parent = anon_tp;
1681
0
                    ntp = ntp->next_peer;
1682
0
                }
1683
1684
                /*
1685
                 * hash in anon_tp in its new place 
1686
                 */
1687
0
                hash = NBUCKET(name_hash(anon_tp->label));
1688
0
                anon_tp->next = tbuckets[hash];
1689
0
                tbuckets[hash] = anon_tp;
1690
1691
                /*
1692
                 * unlink and destroy tp 
1693
                 */
1694
0
                unlink_tbucket(tp);
1695
0
                unlink_tree(tp);
1696
0
                free(tp);
1697
0
            } else {
1698
                /*
1699
                 * Uh?  One of these two should have been anonymous! 
1700
                 */
1701
0
                if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
1702
0
               NETSNMP_DS_LIB_MIB_WARNINGS)) {
1703
0
                    snmp_log(LOG_WARNING,
1704
0
                             "Warning: expected anonymous node (either %s or %s) in %s\n",
1705
0
                             tp->label, anon_tp->label, File);
1706
0
    }
1707
0
            }
1708
0
            anon_tp = NULL;
1709
0
        }
1710
0
    }
1711
0
cleanup:
1712
    /*
1713
     * free all nodes that were copied into tree 
1714
     */
1715
0
    oldnp = NULL;
1716
0
    for (np = child_list; np; np = np->next) {
1717
0
        if (oldnp)
1718
0
            free_node(oldnp);
1719
0
        oldnp = np;
1720
0
    }
1721
0
    if (oldnp)
1722
0
        free_node(oldnp);
1723
0
}
1724
1725
static void
1726
do_linkup(struct module *mp, struct node *np)
1727
0
{
1728
0
    struct module_import *mip;
1729
0
    struct node    *onp, *oldp, *newp;
1730
0
    struct tree    *tp;
1731
0
    int             i, more;
1732
    /*
1733
     * All modules implicitly import
1734
     *   the roots of the tree
1735
     */
1736
0
    if (snmp_get_do_debugging() > 1)
1737
0
        dump_module_list();
1738
0
    DEBUGMSGTL(("parse-mibs", "Processing IMPORTS for module %d %s\n",
1739
0
                mp->modid, mp->name));
1740
0
    if (mp->no_imports == 0) {
1741
0
        mp->no_imports = NUMBER_OF_ROOT_NODES;
1742
0
        mp->imports = root_imports;
1743
0
    }
1744
1745
    /*
1746
     * Build the tree
1747
     */
1748
0
    init_node_hash(np);
1749
0
    for (i = 0, mip = mp->imports; i < mp->no_imports; ++i, ++mip) {
1750
0
        char            modbuf[256];
1751
0
        DEBUGMSGTL(("parse-mibs", "  Processing import: %s\n",
1752
0
                    mip->label));
1753
0
        if (get_tc_index(mip->label, mip->modid) != -1)
1754
0
            continue;
1755
0
        tp = find_tree_node(mip->label, mip->modid);
1756
0
        if (!tp) {
1757
0
      if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, NETSNMP_DS_LIB_MIB_ERRORS))
1758
0
                snmp_log(LOG_WARNING,
1759
0
                         "Did not find '%s' in module %s (%s)\n",
1760
0
                         mip->label, module_name(mip->modid, modbuf),
1761
0
                         File);
1762
0
            continue;
1763
0
        }
1764
0
        do_subtree(tp, &np);
1765
0
    }
1766
1767
    /*
1768
     * If any nodes left over,
1769
     *   check that they're not the result of a "fully qualified"
1770
     *   name, and then add them to the list of orphans
1771
     */
1772
1773
0
    if (!np)
1774
0
        return;
1775
0
    for (tp = tree_head; tp; tp = tp->next_peer)
1776
0
        do_subtree(tp, &np);
1777
0
    if (!np)
1778
0
        return;
1779
1780
    /*
1781
     * quietly move all internal references to the orphan list 
1782
     */
1783
0
    oldp = orphan_nodes;
1784
0
    do {
1785
0
        for (i = 0; i < NHASHSIZE; i++)
1786
0
            for (onp = nbuckets[i]; onp; onp = onp->next) {
1787
0
                struct node    *op = NULL;
1788
0
                int             hash = NBUCKET(name_hash(onp->label));
1789
0
                np = nbuckets[hash];
1790
0
                while (np) {
1791
0
                    if (label_compare(onp->label, np->parent)) {
1792
0
                        op = np;
1793
0
                        np = np->next;
1794
0
                    } else {
1795
0
                        if (op)
1796
0
                            op->next = np->next;
1797
0
                        else
1798
0
                            nbuckets[hash] = np->next;
1799
0
      DEBUGMSGTL(("parse-mibs", "Moving %s to orphanage", np->label));
1800
0
                        np->next = orphan_nodes;
1801
0
                        orphan_nodes = np;
1802
0
                        op = NULL;
1803
0
                        np = nbuckets[hash];
1804
0
                    }
1805
0
                }
1806
0
            }
1807
0
        newp = orphan_nodes;
1808
0
        more = 0;
1809
0
        for (onp = orphan_nodes; onp != oldp; onp = onp->next) {
1810
0
            struct node    *op = NULL;
1811
0
            int             hash = NBUCKET(name_hash(onp->label));
1812
0
            np = nbuckets[hash];
1813
0
            while (np) {
1814
0
                if (label_compare(onp->label, np->parent)) {
1815
0
                    op = np;
1816
0
                    np = np->next;
1817
0
                } else {
1818
0
                    if (op)
1819
0
                        op->next = np->next;
1820
0
                    else
1821
0
                        nbuckets[hash] = np->next;
1822
0
                    np->next = orphan_nodes;
1823
0
                    orphan_nodes = np;
1824
0
                    op = NULL;
1825
0
                    np = nbuckets[hash];
1826
0
                    more = 1;
1827
0
                }
1828
0
            }
1829
0
        }
1830
0
        oldp = newp;
1831
0
    } while (more);
1832
1833
    /*
1834
     * complain about left over nodes 
1835
     */
1836
0
    for (np = orphan_nodes; np && np->next; np = np->next);     /* find the end of the orphan list */
1837
0
    for (i = 0; i < NHASHSIZE; i++)
1838
0
        if (nbuckets[i]) {
1839
0
            if (orphan_nodes)
1840
0
                onp = np->next = nbuckets[i];
1841
0
            else
1842
0
                onp = orphan_nodes = nbuckets[i];
1843
0
            nbuckets[i] = NULL;
1844
0
            while (onp) {
1845
0
                snmp_log(LOG_WARNING,
1846
0
                         "Cannot resolve OID in %s: %s ::= { %s %ld } at line %d in %s\n",
1847
0
                         (mp->name ? mp->name : "<no module>"),
1848
0
                         (onp->label ? onp->label : "<no label>"),
1849
0
                         (onp->parent ? onp->parent : "<no parent>"),
1850
0
                         onp->subid, onp->lineno, onp->filename);
1851
0
                np = onp;
1852
0
                onp = onp->next;
1853
0
            }
1854
0
        }
1855
0
    return;
1856
0
}
1857
1858
1859
/**
1860
 * Read an OID from a file.
1861
 * @param[in]  file   File to read from.
1862
 * @param[out] id_arg Array to store the OID in.
1863
 * @param[in]  length Number of elements in the @id_arg array.
1864
 *
1865
 * Takes a list of the form:
1866
 * { iso org(3) dod(6) 1 }
1867
 * and creates several nodes, one for each parent-child pair.
1868
 * Returns 0 on error.
1869
 */
1870
static int
1871
getoid(FILE * fp, struct subid_s *id_arg, int length)
1872
0
{
1873
0
    struct subid_s *id = id_arg;
1874
0
    int             i, count, type;
1875
0
    char            token[MAXTOKEN];
1876
1877
0
    if ((type = get_token(fp, token, MAXTOKEN)) != LEFTBRACKET) {
1878
0
        print_error("Expected \"{\"", token, type);
1879
0
        return 0;
1880
0
    }
1881
0
    type = get_token(fp, token, MAXTOKEN);
1882
0
    for (count = 0; count < length; count++, id++) {
1883
0
        id->label = NULL;
1884
0
        id->modid = current_module;
1885
0
        id->subid = -1;
1886
0
        if (type == RIGHTBRACKET)
1887
0
            return count;
1888
0
        if (type == LABEL) {
1889
            /*
1890
             * this entry has a label 
1891
             */
1892
0
            id->label = strdup(token);
1893
0
            type = get_token(fp, token, MAXTOKEN);
1894
0
            if (type == LEFTPAREN) {
1895
0
                type = get_token(fp, token, MAXTOKEN);
1896
0
                if (type == NUMBER) {
1897
0
                    id->subid = strtoul(token, NULL, 10);
1898
0
                    if ((type =
1899
0
                         get_token(fp, token, MAXTOKEN)) != RIGHTPAREN) {
1900
0
                        print_error("Expected a closing parenthesis",
1901
0
                                    token, type);
1902
0
                        goto free_labels;
1903
0
                    }
1904
0
                } else {
1905
0
                    print_error("Expected a number", token, type);
1906
0
                    goto free_labels;
1907
0
                }
1908
0
            } else {
1909
0
                continue;
1910
0
            }
1911
0
        } else if (type == NUMBER) {
1912
            /*
1913
             * this entry  has just an integer sub-identifier 
1914
             */
1915
0
            id->subid = strtoul(token, NULL, 10);
1916
0
        } else {
1917
0
            print_error("Expected label or number", token, type);
1918
0
            goto free_labels;
1919
0
        }
1920
0
        type = get_token(fp, token, MAXTOKEN);
1921
0
    }
1922
0
    print_error("Too long OID", token, type);
1923
0
    --count;
1924
1925
0
free_labels:
1926
0
    for (i = 0; i <= count; i++) {
1927
0
        free(id_arg[i].label);
1928
0
        id_arg[i].label = NULL;
1929
0
    }
1930
1931
0
    return 0;
1932
0
}
1933
1934
/*
1935
 * Parse a sequence of object subidentifiers for the given name.
1936
 * The "label OBJECT IDENTIFIER ::=" portion has already been parsed.
1937
 *
1938
 * The majority of cases take this form :
1939
 * label OBJECT IDENTIFIER ::= { parent 2 }
1940
 * where a parent label and a child subidentifier number are specified.
1941
 *
1942
 * Variations on the theme include cases where a number appears with
1943
 * the parent, or intermediate subidentifiers are specified by label,
1944
 * by number, or both.
1945
 *
1946
 * Here are some representative samples :
1947
 * internet        OBJECT IDENTIFIER ::= { iso org(3) dod(6) 1 }
1948
 * mgmt            OBJECT IDENTIFIER ::= { internet 2 }
1949
 * rptrInfoHealth  OBJECT IDENTIFIER ::= { snmpDot3RptrMgt 0 4 }
1950
 *
1951
 * Here is a very rare form :
1952
 * iso             OBJECT IDENTIFIER ::= { 1 }
1953
 *
1954
 * Returns NULL on error.  When this happens, memory may be leaked.
1955
 */
1956
static struct node *
1957
parse_objectid(FILE * fp, char *name)
1958
0
{
1959
0
    register int    count;
1960
0
    register struct subid_s *op, *nop;
1961
0
    int             length;
1962
0
    struct subid_s  loid[32];
1963
0
    struct node    *np, *root = NULL, *oldnp = NULL;
1964
0
    struct tree    *tp;
1965
1966
0
    if ((length = getoid(fp, loid, 32)) == 0) {
1967
0
        print_error("Bad object identifier", NULL, CONTINUE);
1968
0
        return NULL;
1969
0
    }
1970
1971
    /*
1972
     * Handle numeric-only object identifiers,
1973
     *  by labeling the first sub-identifier
1974
     */
1975
0
    op = loid;
1976
0
    if (!op->label) {
1977
0
        if (length == 1) {
1978
0
            print_error("Attempt to define a root oid", name, OBJECT);
1979
0
            return NULL;
1980
0
        }
1981
0
        for (tp = tree_head; tp; tp = tp->next_peer)
1982
0
            if ((int) tp->subid == op->subid) {
1983
0
                op->label = strdup(tp->label);
1984
0
                break;
1985
0
            }
1986
0
    }
1987
1988
    /*
1989
     * Handle  "label OBJECT-IDENTIFIER ::= { subid }"
1990
     */
1991
0
    if (length == 1) {
1992
0
        op = loid;
1993
0
        np = alloc_node(op->modid);
1994
0
        if (np == NULL)
1995
0
            return (NULL);
1996
0
        np->subid = op->subid;
1997
0
        np->label = strdup(name);
1998
0
        np->parent = op->label;
1999
0
        return np;
2000
0
    }
2001
2002
    /*
2003
     * For each parent-child subid pair in the subid array,
2004
     * create a node and link it into the node list.
2005
     */
2006
0
    for (count = 0, op = loid, nop = loid + 1; count < (length - 1);
2007
0
         count++, op++, nop++) {
2008
        /*
2009
         * every node must have parent's name and child's name or number 
2010
         */
2011
        /*
2012
         * XX the next statement is always true -- does it matter ?? 
2013
         */
2014
0
        if (op->label && (nop->label || (nop->subid != -1))) {
2015
0
            np = alloc_node(nop->modid);
2016
0
            if (np == NULL)
2017
0
                goto err;
2018
0
            if (root == NULL) {
2019
0
                root = np;
2020
0
            } else {
2021
0
                netsnmp_assert(oldnp);
2022
0
                oldnp->next = np;
2023
0
            }
2024
0
            oldnp = np;
2025
2026
0
            np->parent = strdup(op->label);
2027
0
            if (count == (length - 2)) {
2028
                /*
2029
                 * The name for this node is the label for this entry 
2030
                 */
2031
0
                np->label = strdup(name);
2032
0
                if (np->label == NULL)
2033
0
                    goto err;
2034
0
            } else {
2035
0
                if (!nop->label) {
2036
0
                    if (asprintf(&nop->label, "%s%d", ANON, anonymous++) < 0)
2037
0
                        goto err;
2038
0
                }
2039
0
                np->label = strdup(nop->label);
2040
0
            }
2041
0
            if (nop->subid != -1)
2042
0
                np->subid = nop->subid;
2043
0
            else
2044
0
                print_error("Warning: This entry is pretty silly",
2045
0
                            np->label, CONTINUE);
2046
0
        }                       /* end if(op->label... */
2047
0
    }
2048
2049
0
out:
2050
    /*
2051
     * free the loid array 
2052
     */
2053
0
    for (count = 0, op = loid; count < length; count++, op++) {
2054
0
        free(op->label);
2055
0
        op->label = NULL;
2056
0
    }
2057
2058
0
    return root;
2059
2060
0
err:
2061
0
    for (; root; root = np) {
2062
0
        np = root->next;
2063
0
        free_node(root);
2064
0
    }
2065
0
    goto out;
2066
0
}
2067
2068
static int
2069
get_tc(const char *descriptor,
2070
       int modid,
2071
       int *tc_index,
2072
       struct enum_list **ep, struct range_list **rp, char **hint)
2073
0
{
2074
0
    int             i;
2075
0
    struct tc      *tcp;
2076
2077
0
    i = get_tc_index(descriptor, modid);
2078
0
    if (tc_index)
2079
0
        *tc_index = i;
2080
0
    if (i != -1) {
2081
0
        tcp = &tclist[i];
2082
0
        if (ep) {
2083
0
            free_enums(ep);
2084
0
            *ep = copy_enums(tcp->enums);
2085
0
        }
2086
0
        if (rp) {
2087
0
            free_ranges(rp);
2088
0
            *rp = copy_ranges(tcp->ranges);
2089
0
        }
2090
0
        if (hint) {
2091
0
            if (*hint)
2092
0
                free(*hint);
2093
0
            *hint = (tcp->hint ? strdup(tcp->hint) : NULL);
2094
0
        }
2095
0
        return tcp->type;
2096
0
    }
2097
0
    return LABEL;
2098
0
}
2099
2100
/*
2101
 * return index into tclist of given TC descriptor
2102
 * return -1 if not found
2103
 */
2104
static int
2105
get_tc_index(const char *descriptor, int modid)
2106
0
{
2107
0
    int             i;
2108
0
    struct tc      *tcp;
2109
0
    struct module  *mp;
2110
0
    struct module_import *mip;
2111
2112
    /*
2113
     * Check that the descriptor isn't imported
2114
     *  by searching the import list
2115
     */
2116
2117
0
    for (mp = module_head; mp; mp = mp->next)
2118
0
        if (mp->modid == modid)
2119
0
            break;
2120
0
    if (mp)
2121
0
        for (i = 0, mip = mp->imports; i < mp->no_imports; ++i, ++mip) {
2122
0
            if (!label_compare(mip->label, descriptor)) {
2123
                /*
2124
                 * Found it - so amend the module ID 
2125
                 */
2126
0
                modid = mip->modid;
2127
0
                break;
2128
0
            }
2129
0
        }
2130
2131
2132
0
    for (i = 0, tcp = tclist; i < tc_alloc; i++, tcp++) {
2133
0
        if (tcp->type == 0)
2134
0
            break;
2135
0
        if (!label_compare(descriptor, tcp->descriptor) &&
2136
0
            ((modid == tcp->modid) || (modid == -1))) {
2137
0
            return i;
2138
0
        }
2139
0
    }
2140
0
    return -1;
2141
0
}
2142
2143
/*
2144
 * translate integer tc_index to string identifier from tclist
2145
 * *
2146
 * * Returns pointer to string in table (should not be modified) or NULL
2147
 */
2148
const char     *
2149
get_tc_descriptor(int tc_index)
2150
0
{
2151
0
    if (tc_index < 0 || tc_index >= tc_alloc)
2152
0
        return NULL;
2153
0
    return tclist[tc_index].descriptor;
2154
0
}
2155
2156
#ifndef NETSNMP_FEATURE_REMOVE_GET_TC_DESCRIPTION
2157
/* used in the perl module */
2158
const char     *
2159
get_tc_description(int tc_index)
2160
0
{
2161
0
    if (tc_index < 0 || tc_index >= tc_alloc)
2162
0
        return NULL;
2163
0
    return tclist[tc_index].description;
2164
0
}
2165
#endif /* NETSNMP_FEATURE_REMOVE_GET_TC_DESCRIPTION */
2166
2167
2168
/*
2169
 * Parses an enumeration list of the form:
2170
 *        { label(value) label(value) ... }
2171
 * The initial { has already been parsed.
2172
 * Returns NULL on error.
2173
 */
2174
2175
static struct enum_list *
2176
parse_enumlist(FILE * fp, struct enum_list **retp)
2177
0
{
2178
0
    register int    type;
2179
0
    char            token[MAXTOKEN];
2180
0
    struct enum_list *ep = NULL, **epp = &ep;
2181
2182
0
    free_enums(retp);
2183
2184
0
    while ((type = get_token(fp, token, MAXTOKEN)) != ENDOFFILE) {
2185
0
        if (type == RIGHTBRACKET)
2186
0
            break;
2187
        /* some enums use "deprecated" to indicate a no longer value label */
2188
        /* (EG: IP-MIB's IpAddressStatusTC) */
2189
0
        if (type == LABEL || type == DEPRECATED) {
2190
            /*
2191
             * this is an enumerated label 
2192
             */
2193
0
            *epp = calloc(1, sizeof(struct enum_list));
2194
0
            if (*epp == NULL)
2195
0
                return (NULL);
2196
            /*
2197
             * a reasonable approximation for the length 
2198
             */
2199
0
            (*epp)->label = strdup(token);
2200
0
            type = get_token(fp, token, MAXTOKEN);
2201
0
            if (type != LEFTPAREN) {
2202
0
                print_error("Expected \"(\"", token, type);
2203
0
                goto err;
2204
0
            }
2205
0
            type = get_token(fp, token, MAXTOKEN);
2206
0
            if (type != NUMBER) {
2207
0
                print_error("Expected integer", token, type);
2208
0
                goto err;
2209
0
            }
2210
0
            (*epp)->value = strtol(token, NULL, 10);
2211
0
            (*epp)->lineno = mibLine;
2212
0
            type = get_token(fp, token, MAXTOKEN);
2213
0
            if (type != RIGHTPAREN) {
2214
0
                print_error("Expected \")\"", token, type);
2215
0
                goto err;
2216
0
            } else {
2217
0
                struct enum_list *op = ep;
2218
0
                while (op != *epp) {
2219
0
                    if (strcmp((*epp)->label, op->label) == 0) {
2220
0
                        snmp_log(LOG_ERR,
2221
0
                            "Duplicate enum label '%s' at line %d in %s. First at line %d\n",
2222
0
                            (*epp)->label, mibLine, File, op->lineno);
2223
0
                        erroneousMibs++;
2224
0
                        break;
2225
0
                    }
2226
0
                    else if ((*epp)->value == op->value) {
2227
0
                        snmp_log(LOG_ERR,
2228
0
                            "Duplicate enum value '%d' at line %d in %s. First at line %d\n",
2229
0
                            (*epp)->value, mibLine, File, op->lineno);
2230
0
                        erroneousMibs++;
2231
0
                        break;
2232
0
                    }
2233
0
                    op = op->next;
2234
0
                }
2235
0
            }
2236
0
            epp = &(*epp)->next;
2237
0
        }
2238
0
    }
2239
0
    if (type == ENDOFFILE) {
2240
0
        print_error("Expected \"}\"", token, type);
2241
0
        goto err;
2242
0
    }
2243
0
    *retp = ep;
2244
0
    return ep;
2245
2246
0
err:
2247
0
    free_enums(&ep);
2248
0
    return NULL;
2249
0
}
2250
2251
static struct range_list *
2252
parse_ranges(FILE * fp, struct range_list **retp)
2253
0
{
2254
0
    int             low, high;
2255
0
    char            nexttoken[MAXTOKEN];
2256
0
    int             nexttype;
2257
0
    struct range_list *rp = NULL, **rpp = &rp;
2258
0
    int             size = 0, taken = 1;
2259
2260
0
    free_ranges(retp);
2261
2262
0
    nexttype = get_token(fp, nexttoken, MAXTOKEN);
2263
0
    if (nexttype == SIZE) {
2264
0
        size = 1;
2265
0
        taken = 0;
2266
0
        nexttype = get_token(fp, nexttoken, MAXTOKEN);
2267
0
        if (nexttype != LEFTPAREN)
2268
0
            print_error("Expected \"(\" after SIZE", nexttoken, nexttype);
2269
0
    }
2270
2271
0
    do {
2272
0
        if (!taken)
2273
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
2274
0
        else
2275
0
            taken = 0;
2276
0
        high = low = strtoul(nexttoken, NULL, 10);
2277
0
        nexttype = get_token(fp, nexttoken, MAXTOKEN);
2278
0
        if (nexttype == RANGE) {
2279
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
2280
0
            errno = 0;
2281
0
            high = strtoul(nexttoken, NULL, 10);
2282
0
            if ( errno == ERANGE ) {
2283
0
                if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
2284
0
                                       NETSNMP_DS_LIB_MIB_WARNINGS))
2285
0
                    snmp_log(LOG_WARNING,
2286
0
                             "Warning: Upper bound not handled correctly (%s != %d): At line %d in %s\n",
2287
0
                                 nexttoken, high, mibLine, File);
2288
0
            }
2289
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
2290
0
        }
2291
0
        *rpp = (struct range_list *) calloc(1, sizeof(struct range_list));
2292
0
        if (*rpp == NULL)
2293
0
            break;
2294
0
        (*rpp)->low = low;
2295
0
        (*rpp)->high = high;
2296
0
        rpp = &(*rpp)->next;
2297
2298
0
    } while (nexttype == BAR);
2299
0
    if (size) {
2300
0
        if (nexttype != RIGHTPAREN)
2301
0
            print_error("Expected \")\" after SIZE", nexttoken, nexttype);
2302
0
        nexttype = get_token(fp, nexttoken, MAXTOKEN);
2303
0
    }
2304
0
    if (nexttype != RIGHTPAREN)
2305
0
        print_error("Expected \")\"", nexttoken, nexttype);
2306
2307
0
    *retp = rp;
2308
0
    return rp;
2309
0
}
2310
2311
/*
2312
 * Parses an asn type.  Structures are ignored by this parser.
2313
 * Returns NULL on error.
2314
 */
2315
static struct node *
2316
parse_asntype(FILE * fp, char *name, int *ntype, char *ntoken)
2317
0
{
2318
0
    int             type, i;
2319
0
    char            token[MAXTOKEN];
2320
0
    char            quoted_string_buffer[MAXQUOTESTR];
2321
0
    char           *hint = NULL;
2322
0
    char           *descr = NULL;
2323
0
    struct tc      *tcp;
2324
0
    int             level;
2325
0
    int             is_duplicate = 0;
2326
2327
0
    type = get_token(fp, token, MAXTOKEN);
2328
0
    if (type == SEQUENCE || type == CHOICE) {
2329
0
        level = 0;
2330
0
        while ((type = get_token(fp, token, MAXTOKEN)) != ENDOFFILE) {
2331
0
            if (type == LEFTBRACKET) {
2332
0
                level++;
2333
0
            } else if (type == RIGHTBRACKET && --level == 0) {
2334
0
                *ntype = get_token(fp, ntoken, MAXTOKEN);
2335
0
                return NULL;
2336
0
            }
2337
0
        }
2338
0
        print_error("Expected \"}\"", token, type);
2339
0
        return NULL;
2340
0
    } else if (type == LEFTBRACKET) {
2341
0
        struct node    *np;
2342
0
        int             ch_next = '{';
2343
0
        ungetc(ch_next, fp);
2344
0
        np = parse_objectid(fp, name);
2345
0
        if (np != NULL) {
2346
0
            *ntype = get_token(fp, ntoken, MAXTOKEN);
2347
0
            return np;
2348
0
        }
2349
0
        return NULL;
2350
0
    } else if (type == LEFTSQBRACK) {
2351
0
        int             size = 0;
2352
0
        do {
2353
0
            type = get_token(fp, token, MAXTOKEN);
2354
0
        } while (type != ENDOFFILE && type != RIGHTSQBRACK);
2355
0
        if (type != RIGHTSQBRACK) {
2356
0
            print_error("Expected \"]\"", token, type);
2357
0
            return NULL;
2358
0
        }
2359
0
        type = get_token(fp, token, MAXTOKEN);
2360
0
        if (type == IMPLICIT)
2361
0
            type = get_token(fp, token, MAXTOKEN);
2362
0
        *ntype = get_token(fp, ntoken, MAXTOKEN);
2363
0
        if (*ntype == LEFTPAREN) {
2364
0
            switch (type) {
2365
0
            case OCTETSTR:
2366
0
                *ntype = get_token(fp, ntoken, MAXTOKEN);
2367
0
                if (*ntype != SIZE) {
2368
0
                    print_error("Expected SIZE", ntoken, *ntype);
2369
0
                    return NULL;
2370
0
                }
2371
0
                size = 1;
2372
0
                *ntype = get_token(fp, ntoken, MAXTOKEN);
2373
0
                if (*ntype != LEFTPAREN) {
2374
0
                    print_error("Expected \"(\" after SIZE", ntoken,
2375
0
                                *ntype);
2376
0
                    return NULL;
2377
0
                }
2378
0
                NETSNMP_FALLTHROUGH;
2379
0
            case INTEGER:
2380
0
                *ntype = get_token(fp, ntoken, MAXTOKEN);
2381
0
                do {
2382
0
                    if (*ntype != NUMBER)
2383
0
                        print_error("Expected NUMBER", ntoken, *ntype);
2384
0
                    *ntype = get_token(fp, ntoken, MAXTOKEN);
2385
0
                    if (*ntype == RANGE) {
2386
0
                        *ntype = get_token(fp, ntoken, MAXTOKEN);
2387
0
                        if (*ntype != NUMBER)
2388
0
                            print_error("Expected NUMBER", ntoken, *ntype);
2389
0
                        *ntype = get_token(fp, ntoken, MAXTOKEN);
2390
0
                    }
2391
0
                } while (*ntype == BAR);
2392
0
                if (*ntype != RIGHTPAREN) {
2393
0
                    print_error("Expected \")\"", ntoken, *ntype);
2394
0
                    return NULL;
2395
0
                }
2396
0
                *ntype = get_token(fp, ntoken, MAXTOKEN);
2397
0
                if (size) {
2398
0
                    if (*ntype != RIGHTPAREN) {
2399
0
                        print_error("Expected \")\" to terminate SIZE",
2400
0
                                    ntoken, *ntype);
2401
0
                        return NULL;
2402
0
                    }
2403
0
                    *ntype = get_token(fp, ntoken, MAXTOKEN);
2404
0
                }
2405
0
            }
2406
0
        }
2407
0
        return NULL;
2408
0
    } else {
2409
0
        if (type == CONVENTION) {
2410
0
            while (type != SYNTAX && type != ENDOFFILE) {
2411
0
                if (type == DISPLAYHINT) {
2412
0
                    type = get_token(fp, token, MAXTOKEN);
2413
0
                    if (type != QUOTESTRING) {
2414
0
                        print_error("DISPLAY-HINT must be string", token,
2415
0
                                    type);
2416
0
                    } else {
2417
0
                        free(hint);
2418
0
                        hint = strdup(token);
2419
0
                    }
2420
0
                } else if (type == DESCRIPTION &&
2421
0
                           netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
2422
0
                                                  NETSNMP_DS_LIB_SAVE_MIB_DESCRS)) {
2423
0
                    type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2424
0
                    if (type != QUOTESTRING) {
2425
0
                        print_error("DESCRIPTION must be string", token,
2426
0
                                    type);
2427
0
                    } else {
2428
0
                        free(descr);
2429
0
                        descr = strdup(quoted_string_buffer);
2430
0
                    }
2431
0
                } else
2432
0
                    type =
2433
0
                        get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2434
0
            }
2435
0
            type = get_token(fp, token, MAXTOKEN);
2436
0
            if (type == OBJECT) {
2437
0
                type = get_token(fp, token, MAXTOKEN);
2438
0
                if (type != IDENTIFIER) {
2439
0
                    print_error("Expected IDENTIFIER", token, type);
2440
0
                    goto err;
2441
0
                }
2442
0
                type = OBJID;
2443
0
            }
2444
0
        } else if (type == OBJECT) {
2445
0
            type = get_token(fp, token, MAXTOKEN);
2446
0
            if (type != IDENTIFIER) {
2447
0
                print_error("Expected IDENTIFIER", token, type);
2448
0
                goto err;
2449
0
            }
2450
0
            type = OBJID;
2451
0
        }
2452
2453
0
        if (type == LABEL) {
2454
0
            type = get_tc(token, current_module, NULL, NULL, NULL, NULL);
2455
0
        }
2456
2457
        /*
2458
         * textual convention 
2459
         */
2460
0
        tcp = NULL;
2461
0
        is_duplicate = 0;
2462
0
        for (i = 0; i < tc_alloc; i++) {
2463
0
            if (tclist[i].type == 0) {
2464
0
                if (tcp == NULL)
2465
0
                    tcp = &tclist[i];
2466
0
            } else if (strcmp(name, tclist[i].descriptor) == 0 &&
2467
0
                       tclist[i].modid == current_module) {
2468
0
                snmp_log(LOG_ERR,
2469
0
                         "Duplicate TEXTUAL-CONVENTION '%s' at line %d in %s. First at line %d\n",
2470
0
                         name, mibLine, File, tclist[i].lineno);
2471
0
                erroneousMibs++;
2472
0
                is_duplicate = 1;
2473
0
                break;
2474
0
            }
2475
0
        }
2476
2477
0
        if (is_duplicate) {
2478
0
            struct range_list *dummy_ranges = NULL;
2479
0
            struct enum_list *dummy_enums = NULL;
2480
2481
0
            free(hint);
2482
0
            free(descr);
2483
0
            *ntype = get_token(fp, ntoken, MAXTOKEN);
2484
0
            if (*ntype == LEFTPAREN) {
2485
0
                dummy_ranges = parse_ranges(fp, &dummy_ranges);
2486
0
                free_ranges(&dummy_ranges);
2487
0
                *ntype = get_token(fp, ntoken, MAXTOKEN);
2488
0
            } else if (*ntype == LEFTBRACKET) {
2489
0
                dummy_enums = parse_enumlist(fp, &dummy_enums);
2490
0
                free_enums(&dummy_enums);
2491
0
                *ntype = get_token(fp, ntoken, MAXTOKEN);
2492
0
            }
2493
0
            return NULL;
2494
0
        }
2495
2496
0
        if (tcp == NULL) {
2497
0
            tclist = realloc(tclist, (tc_alloc + TC_INCR)*sizeof(struct tc));
2498
0
            memset(tclist+tc_alloc, 0, TC_INCR*sizeof(struct tc));
2499
0
            tcp = tclist + tc_alloc;
2500
0
            tc_alloc += TC_INCR;
2501
0
        }
2502
0
        if (!(type & SYNTAX_MASK)) {
2503
0
            print_error("Textual convention doesn't map to real type",
2504
0
                        token, type);
2505
0
            goto err;
2506
0
        }
2507
0
        tcp->modid = current_module;
2508
0
        tcp->descriptor = strdup(name);
2509
0
        tcp->hint = hint;
2510
0
        tcp->description = descr;
2511
0
        tcp->lineno = mibLine;
2512
0
        tcp->type = type;
2513
0
        *ntype = get_token(fp, ntoken, MAXTOKEN);
2514
0
        if (*ntype == LEFTPAREN) {
2515
0
            tcp->ranges = parse_ranges(fp, &tcp->ranges);
2516
0
            *ntype = get_token(fp, ntoken, MAXTOKEN);
2517
0
        } else if (*ntype == LEFTBRACKET) {
2518
            /*
2519
             * if there is an enumeration list, parse it 
2520
             */
2521
0
            tcp->enums = parse_enumlist(fp, &tcp->enums);
2522
0
            *ntype = get_token(fp, ntoken, MAXTOKEN);
2523
0
        }
2524
0
        return NULL;
2525
0
    }
2526
2527
0
err:
2528
0
    SNMP_FREE(descr);
2529
0
    SNMP_FREE(hint);
2530
0
    return NULL;
2531
0
}
2532
2533
2534
/*
2535
 * Parses an OBJECT TYPE macro.
2536
 * Returns 0 on error.
2537
 */
2538
static struct node *
2539
parse_objecttype(FILE * fp, char *name)
2540
0
{
2541
0
    register int    type;
2542
0
    char            token[MAXTOKEN];
2543
0
    char            nexttoken[MAXTOKEN];
2544
0
    char            quoted_string_buffer[MAXQUOTESTR];
2545
0
    int             nexttype, tctype;
2546
0
    register struct node *np;
2547
2548
0
    type = get_token(fp, token, MAXTOKEN);
2549
0
    if (type != SYNTAX) {
2550
0
        print_error("Bad format for OBJECT-TYPE", token, type);
2551
0
        return NULL;
2552
0
    }
2553
0
    np = alloc_node(current_module);
2554
0
    if (np == NULL)
2555
0
        return (NULL);
2556
0
    type = get_token(fp, token, MAXTOKEN);
2557
0
    if (type == OBJECT) {
2558
0
        type = get_token(fp, token, MAXTOKEN);
2559
0
        if (type != IDENTIFIER) {
2560
0
            print_error("Expected IDENTIFIER", token, type);
2561
0
            free_node(np);
2562
0
            return NULL;
2563
0
        }
2564
0
        type = OBJID;
2565
0
    }
2566
0
    if (type == LABEL) {
2567
0
        int             tmp_index;
2568
0
        tctype = get_tc(token, current_module, &tmp_index,
2569
0
                        &np->enums, &np->ranges, &np->hint);
2570
0
        if (tctype == LABEL &&
2571
0
            netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
2572
0
             NETSNMP_DS_LIB_MIB_WARNINGS) > 1) {
2573
0
            print_error("Warning: No known translation for type", token,
2574
0
                        type);
2575
0
        }
2576
0
        type = tctype;
2577
0
        np->tc_index = tmp_index;       /* store TC for later reference */
2578
0
    }
2579
0
    np->type = type;
2580
0
    nexttype = get_token(fp, nexttoken, MAXTOKEN);
2581
0
    switch (type) {
2582
0
    case SEQUENCE:
2583
0
        if (nexttype == OF) {
2584
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
2585
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
2586
2587
0
        }
2588
0
        break;
2589
0
    case INTEGER:
2590
0
    case INTEGER32:
2591
0
    case UINTEGER32:
2592
0
    case UNSIGNED32:
2593
0
    case COUNTER:
2594
0
    case GAUGE:
2595
0
    case BITSTRING:
2596
0
    case LABEL:
2597
0
        if (nexttype == LEFTBRACKET) {
2598
            /*
2599
             * if there is an enumeration list, parse it 
2600
             */
2601
0
            np->enums = parse_enumlist(fp, &np->enums);
2602
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
2603
0
        } else if (nexttype == LEFTPAREN) {
2604
            /*
2605
             * if there is a range list, parse it 
2606
             */
2607
0
            np->ranges = parse_ranges(fp, &np->ranges);
2608
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
2609
0
        }
2610
0
        break;
2611
0
    case OCTETSTR:
2612
0
    case KW_OPAQUE:
2613
        /*
2614
         * parse any SIZE specification 
2615
         */
2616
0
        if (nexttype == LEFTPAREN) {
2617
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
2618
0
            if (nexttype == SIZE) {
2619
0
                nexttype = get_token(fp, nexttoken, MAXTOKEN);
2620
0
                if (nexttype == LEFTPAREN) {
2621
0
                    np->ranges = parse_ranges(fp, &np->ranges);
2622
0
                    nexttype = get_token(fp, nexttoken, MAXTOKEN);      /* ) */
2623
0
                    if (nexttype == RIGHTPAREN) {
2624
0
                        nexttype = get_token(fp, nexttoken, MAXTOKEN);
2625
0
                        break;
2626
0
                    }
2627
0
                }
2628
0
            }
2629
0
            print_error("Bad SIZE syntax", token, type);
2630
0
            free_node(np);
2631
0
            return NULL;
2632
0
        }
2633
0
        break;
2634
0
    case OBJID:
2635
0
    case NETADDR:
2636
0
    case IPADDR:
2637
0
    case TIMETICKS:
2638
0
    case NUL:
2639
0
    case NSAPADDRESS:
2640
0
    case COUNTER64:
2641
0
        break;
2642
0
    default:
2643
0
        print_error("Bad syntax", token, type);
2644
0
        free_node(np);
2645
0
        return NULL;
2646
0
    }
2647
0
    if (nexttype == UNITS) {
2648
0
        type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2649
0
        if (type != QUOTESTRING) {
2650
0
            print_error("Bad UNITS", quoted_string_buffer, type);
2651
0
            free_node(np);
2652
0
            return NULL;
2653
0
        }
2654
0
        np->units = strdup(quoted_string_buffer);
2655
0
        nexttype = get_token(fp, nexttoken, MAXTOKEN);
2656
0
    }
2657
0
    if (nexttype != ACCESS) {
2658
0
        print_error("Should be ACCESS", nexttoken, nexttype);
2659
0
        free_node(np);
2660
0
        return NULL;
2661
0
    }
2662
0
    type = get_token(fp, token, MAXTOKEN);
2663
0
    if (type != READONLY && type != READWRITE && type != WRITEONLY
2664
0
        && type != NOACCESS && type != READCREATE && type != ACCNOTIFY) {
2665
0
        print_error("Bad ACCESS type", token, type);
2666
0
        free_node(np);
2667
0
        return NULL;
2668
0
    }
2669
0
    np->access = type;
2670
0
    type = get_token(fp, token, MAXTOKEN);
2671
0
    if (type != STATUS) {
2672
0
        print_error("Should be STATUS", token, type);
2673
0
        free_node(np);
2674
0
        return NULL;
2675
0
    }
2676
0
    type = get_token(fp, token, MAXTOKEN);
2677
0
    if (type != MANDATORY && type != CURRENT && type != KW_OPTIONAL &&
2678
0
        type != OBSOLETE && type != DEPRECATED) {
2679
0
        print_error("Bad STATUS", token, type);
2680
0
        free_node(np);
2681
0
        return NULL;
2682
0
    }
2683
0
    np->status = type;
2684
    /*
2685
     * Optional parts of the OBJECT-TYPE macro
2686
     */
2687
0
    type = get_token(fp, token, MAXTOKEN);
2688
0
    while (type != EQUALS && type != ENDOFFILE) {
2689
0
        switch (type) {
2690
0
        case DESCRIPTION:
2691
0
            type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2692
2693
0
            if (type != QUOTESTRING) {
2694
0
                print_error("Bad DESCRIPTION", quoted_string_buffer, type);
2695
0
                free_node(np);
2696
0
                return NULL;
2697
0
            }
2698
0
            if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
2699
0
               NETSNMP_DS_LIB_SAVE_MIB_DESCRS)) {
2700
0
                np->description = strdup(quoted_string_buffer);
2701
0
            }
2702
0
            break;
2703
2704
0
        case REFERENCE:
2705
0
            type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2706
0
            if (type != QUOTESTRING) {
2707
0
                print_error("Bad REFERENCE", quoted_string_buffer, type);
2708
0
                free_node(np);
2709
0
                return NULL;
2710
0
            }
2711
0
            np->reference = strdup(quoted_string_buffer);
2712
0
            break;
2713
0
        case INDEX:
2714
0
            if (np->augments) {
2715
0
                print_error("Cannot have both INDEX and AUGMENTS", token,
2716
0
                            type);
2717
0
                free_node(np);
2718
0
                return NULL;
2719
0
            }
2720
0
            np->indexes = getIndexes(fp, &np->indexes);
2721
0
            if (np->indexes == NULL) {
2722
0
                print_error("Bad INDEX list", token, type);
2723
0
                free_node(np);
2724
0
                return NULL;
2725
0
            }
2726
0
            break;
2727
0
        case AUGMENTS:
2728
0
            if (np->indexes) {
2729
0
                print_error("Cannot have both INDEX and AUGMENTS", token,
2730
0
                            type);
2731
0
                free_node(np);
2732
0
                return NULL;
2733
0
            }
2734
0
            np->indexes = getIndexes(fp, &np->indexes);
2735
0
            if (np->indexes == NULL) {
2736
0
                print_error("Bad AUGMENTS list", token, type);
2737
0
                free_node(np);
2738
0
                return NULL;
2739
0
            }
2740
0
            np->augments = strdup(np->indexes->ilabel);
2741
0
            free_indexes(&np->indexes);
2742
0
            break;
2743
0
        case DEFVAL:
2744
            /*
2745
             * Mark's defVal section 
2746
             */
2747
0
            type = get_token(fp, quoted_string_buffer,
2748
0
                             sizeof(quoted_string_buffer));
2749
0
            if (type != LEFTBRACKET) {
2750
0
                print_error("Bad DEFAULTVALUE", quoted_string_buffer,
2751
0
                            type);
2752
0
                free_node(np);
2753
0
                return NULL;
2754
0
            }
2755
2756
0
            {
2757
0
                int             level = 1;
2758
0
                char            defbuf[512];
2759
2760
0
                defbuf[0] = 0;
2761
0
                while (1) {
2762
0
                    type = get_token(fp, quoted_string_buffer,
2763
0
                                     sizeof(quoted_string_buffer));
2764
0
                    if ((type == RIGHTBRACKET && --level == 0)
2765
0
                        || type == ENDOFFILE)
2766
0
                        break;
2767
0
                    else if (type == LEFTBRACKET)
2768
0
                        level++;
2769
0
                    if (type == QUOTESTRING)
2770
0
                        strlcat(defbuf, "\\\"", sizeof(defbuf));
2771
0
                    strlcat(defbuf, quoted_string_buffer, sizeof(defbuf));
2772
0
                    if (type == QUOTESTRING)
2773
0
                        strlcat(defbuf, "\\\"", sizeof(defbuf));
2774
0
                    strlcat(defbuf, " ", sizeof(defbuf));
2775
0
                }
2776
2777
0
                if (type != RIGHTBRACKET) {
2778
0
                    print_error("Bad DEFAULTVALUE", quoted_string_buffer,
2779
0
                                type);
2780
0
                    free_node(np);
2781
0
                    return NULL;
2782
0
                }
2783
2784
                /*
2785
                 * Ensure strlen(defbuf) is above zero
2786
                 */
2787
0
                if (strlen(defbuf) == 0) {
2788
0
                    print_error("Bad DEFAULTVALUE", quoted_string_buffer,
2789
0
                                type);
2790
0
                    free_node(np);
2791
0
                    return NULL;
2792
0
                }
2793
0
                defbuf[strlen(defbuf) - 1] = 0;
2794
0
                np->defaultValue = strdup(defbuf);
2795
0
            }
2796
2797
0
            break;
2798
2799
0
        case NUM_ENTRIES:
2800
0
            if (tossObjectIdentifier(fp) != OBJID) {
2801
0
                print_error("Bad Object Identifier", token, type);
2802
0
                free_node(np);
2803
0
                return NULL;
2804
0
            }
2805
0
            break;
2806
2807
0
        default:
2808
0
            print_error("Bad format of optional clauses", token, type);
2809
0
            free_node(np);
2810
0
            return NULL;
2811
2812
0
        }
2813
0
        type = get_token(fp, token, MAXTOKEN);
2814
0
    }
2815
0
    if (type != EQUALS) {
2816
0
        print_error("Bad format", token, type);
2817
0
        free_node(np);
2818
0
        return NULL;
2819
0
    }
2820
0
    return merge_parse_objectid(np, fp, name);
2821
0
}
2822
2823
/*
2824
 * Parses an OBJECT GROUP macro.
2825
 * Returns 0 on error.
2826
 *
2827
 * Also parses object-identity, since they are similar (ignore STATUS).
2828
 *   - WJH 10/96
2829
 */
2830
static struct node *
2831
parse_objectgroup(FILE * fp, char *name, int what, struct objgroup **ol)
2832
0
{
2833
0
    int             type;
2834
0
    char            token[MAXTOKEN];
2835
0
    char            quoted_string_buffer[MAXQUOTESTR];
2836
0
    struct node    *np;
2837
2838
0
    np = alloc_node(current_module);
2839
0
    if (np == NULL)
2840
0
        return (NULL);
2841
0
    type = get_token(fp, token, MAXTOKEN);
2842
0
    if (type == what) {
2843
0
        type = get_token(fp, token, MAXTOKEN);
2844
0
        if (type != LEFTBRACKET) {
2845
0
            print_error("Expected \"{\"", token, type);
2846
0
            goto skip;
2847
0
        }
2848
0
        do {
2849
0
            struct objgroup *o;
2850
0
            type = get_token(fp, token, MAXTOKEN);
2851
0
            if (type != LABEL) {
2852
0
                print_error("Bad identifier", token, type);
2853
0
                goto skip;
2854
0
            }
2855
0
            o = (struct objgroup *) malloc(sizeof(struct objgroup));
2856
0
            if (!o) {
2857
0
                print_error("Resource failure", token, type);
2858
0
                goto skip;
2859
0
            }
2860
0
            o->line = mibLine;
2861
0
            o->name = strdup(token);
2862
0
            o->next = *ol;
2863
0
            *ol = o;
2864
0
            type = get_token(fp, token, MAXTOKEN);
2865
0
        } while (type == COMMA);
2866
0
        if (type != RIGHTBRACKET) {
2867
0
            print_error("Expected \"}\" after list", token, type);
2868
0
            goto skip;
2869
0
        }
2870
0
        type = get_token(fp, token, type);
2871
0
    }
2872
0
    if (type != STATUS) {
2873
0
        print_error("Expected STATUS", token, type);
2874
0
        goto skip;
2875
0
    }
2876
0
    type = get_token(fp, token, MAXTOKEN);
2877
0
    if (type != CURRENT && type != DEPRECATED && type != OBSOLETE) {
2878
0
        print_error("Bad STATUS value", token, type);
2879
0
        goto skip;
2880
0
    }
2881
0
    type = get_token(fp, token, MAXTOKEN);
2882
0
    if (type != DESCRIPTION) {
2883
0
        print_error("Expected DESCRIPTION", token, type);
2884
0
        goto skip;
2885
0
    }
2886
0
    type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2887
0
    if (type != QUOTESTRING) {
2888
0
        print_error("Bad DESCRIPTION", quoted_string_buffer, type);
2889
0
        free_node(np);
2890
0
        return NULL;
2891
0
    }
2892
0
    if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
2893
0
             NETSNMP_DS_LIB_SAVE_MIB_DESCRS)) {
2894
0
        np->description = strdup(quoted_string_buffer);
2895
0
    }
2896
0
    type = get_token(fp, token, MAXTOKEN);
2897
0
    if (type == REFERENCE) {
2898
0
        type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2899
0
        if (type != QUOTESTRING) {
2900
0
            print_error("Bad REFERENCE", quoted_string_buffer, type);
2901
0
            free_node(np);
2902
0
            return NULL;
2903
0
        }
2904
0
        np->reference = strdup(quoted_string_buffer);
2905
0
        type = get_token(fp, token, MAXTOKEN);
2906
0
    }
2907
0
    if (type != EQUALS)
2908
0
        print_error("Expected \"::=\"", token, type);
2909
0
  skip:
2910
0
    while (type != EQUALS && type != ENDOFFILE)
2911
0
        type = get_token(fp, token, MAXTOKEN);
2912
2913
0
    return merge_parse_objectid(np, fp, name);
2914
0
}
2915
2916
/*
2917
 * Parses a NOTIFICATION-TYPE macro.
2918
 * Returns 0 on error.
2919
 */
2920
static struct node *
2921
parse_notificationDefinition(FILE * fp, char *name)
2922
0
{
2923
0
    register int    type;
2924
0
    char            token[MAXTOKEN];
2925
0
    char            quoted_string_buffer[MAXQUOTESTR];
2926
0
    register struct node *np;
2927
2928
0
    np = alloc_node(current_module);
2929
0
    if (np == NULL)
2930
0
        return (NULL);
2931
0
    type = get_token(fp, token, MAXTOKEN);
2932
0
    while (type != EQUALS && type != ENDOFFILE) {
2933
0
        switch (type) {
2934
0
        case DESCRIPTION:
2935
0
            type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2936
0
            if (type != QUOTESTRING) {
2937
0
                print_error("Bad DESCRIPTION", quoted_string_buffer, type);
2938
0
                goto free_node;
2939
0
            }
2940
0
            if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
2941
0
               NETSNMP_DS_LIB_SAVE_MIB_DESCRS)) {
2942
0
                np->description = strdup(quoted_string_buffer);
2943
0
            }
2944
0
            break;
2945
0
        case REFERENCE:
2946
0
            type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2947
0
            if (type != QUOTESTRING) {
2948
0
                print_error("Bad REFERENCE", quoted_string_buffer, type);
2949
0
                goto free_node;
2950
0
            }
2951
0
            free(np->reference);
2952
0
            np->reference = strdup(quoted_string_buffer);
2953
0
            break;
2954
0
        case OBJECTS:
2955
0
            np->varbinds = getVarbinds(fp, &np->varbinds);
2956
0
            if (!np->varbinds) {
2957
0
                print_error("Bad OBJECTS list", token, type);
2958
0
                goto free_node;
2959
0
            }
2960
0
            break;
2961
0
        default:
2962
            /*
2963
             * NOTHING 
2964
             */
2965
0
            break;
2966
0
        }
2967
0
        type = get_token(fp, token, MAXTOKEN);
2968
0
    }
2969
0
    return merge_parse_objectid(np, fp, name);
2970
2971
0
free_node:
2972
0
    free_node(np);
2973
0
    return NULL;
2974
0
}
2975
2976
/*
2977
 * Parses a TRAP-TYPE macro.
2978
 * Returns 0 on error.
2979
 */
2980
static struct node *
2981
parse_trapDefinition(FILE * fp, char *name)
2982
0
{
2983
0
    register int    type;
2984
0
    char            token[MAXTOKEN];
2985
0
    char            quoted_string_buffer[MAXQUOTESTR];
2986
0
    register struct node *np;
2987
2988
0
    np = alloc_node(current_module);
2989
0
    if (np == NULL)
2990
0
        return (NULL);
2991
0
    type = get_token(fp, token, MAXTOKEN);
2992
0
    while (type != EQUALS && type != ENDOFFILE) {
2993
0
        switch (type) {
2994
0
        case DESCRIPTION:
2995
0
            type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
2996
0
            if (type != QUOTESTRING) {
2997
0
                print_error("Bad DESCRIPTION", quoted_string_buffer, type);
2998
0
                goto free_node;
2999
0
            }
3000
0
            if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
3001
0
               NETSNMP_DS_LIB_SAVE_MIB_DESCRS)) {
3002
0
                np->description = strdup(quoted_string_buffer);
3003
0
            }
3004
0
            break;
3005
0
        case REFERENCE:
3006
            /* I'm not sure REFERENCEs are legal in smiv1 traps??? */
3007
0
            type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
3008
0
            if (type != QUOTESTRING) {
3009
0
                print_error("Bad REFERENCE", quoted_string_buffer, type);
3010
0
                goto free_node;
3011
0
            }
3012
0
            np->reference = strdup(quoted_string_buffer);
3013
0
            break;
3014
0
        case ENTERPRISE:
3015
0
            type = get_token(fp, token, MAXTOKEN);
3016
0
            if (type == LEFTBRACKET) {
3017
0
                type = get_token(fp, token, MAXTOKEN);
3018
0
                if (type != LABEL) {
3019
0
                    print_error("Bad Trap Format", token, type);
3020
0
                    goto free_node;
3021
0
                }
3022
0
                np->parent = strdup(token);
3023
                /*
3024
                 * Get right bracket 
3025
                 */
3026
0
                type = get_token(fp, token, MAXTOKEN);
3027
0
            } else if (type == LABEL) {
3028
0
                np->parent = strdup(token);
3029
0
            } else {
3030
0
                goto free_node;
3031
0
            }
3032
0
            break;
3033
0
        case VARIABLES:
3034
0
            np->varbinds = getVarbinds(fp, &np->varbinds);
3035
0
            if (!np->varbinds) {
3036
0
                print_error("Bad VARIABLES list", token, type);
3037
0
                goto free_node;
3038
0
            }
3039
0
            break;
3040
0
        default:
3041
            /*
3042
             * NOTHING 
3043
             */
3044
0
            break;
3045
0
        }
3046
0
        type = get_token(fp, token, MAXTOKEN);
3047
0
    }
3048
0
    type = get_token(fp, token, MAXTOKEN);
3049
3050
0
    np->label = strdup(name);
3051
3052
0
    if (type != NUMBER) {
3053
0
        print_error("Expected a Number", token, type);
3054
0
        goto free_node;
3055
0
    }
3056
0
    np->subid = strtoul(token, NULL, 10);
3057
0
    np->next = alloc_node(current_module);
3058
0
    if (np->next == NULL)
3059
0
        goto free_node;
3060
3061
    /* Catch the syntax error */
3062
0
    if (np->parent == NULL) {
3063
0
        gMibError = MODULE_SYNTAX_ERROR;
3064
0
        goto free_next_node;
3065
0
    }
3066
3067
0
    np->next->parent = np->parent;
3068
0
    np->parent = NULL;
3069
0
    if (asprintf(&np->parent, "%s#", np->next->parent) < 0)
3070
0
        goto free_next_node;
3071
0
    np->next->label = strdup(np->parent);
3072
0
    return np;
3073
3074
0
free_next_node:
3075
0
    free_node(np->next);
3076
3077
0
free_node:
3078
0
    free_node(np);
3079
0
    return NULL;
3080
0
}
3081
3082
3083
/*
3084
 * Parses a compliance macro
3085
 * Returns 0 on error.
3086
 */
3087
static int
3088
eat_syntax(FILE * fp, char *token, int maxtoken)
3089
0
{
3090
0
    int             type, nexttype;
3091
0
    struct node    *np = alloc_node(current_module);
3092
0
    char            nexttoken[MAXTOKEN];
3093
3094
0
    if (!np)
3095
0
  return 0;
3096
3097
0
    type = get_token(fp, token, maxtoken);
3098
0
    nexttype = get_token(fp, nexttoken, MAXTOKEN);
3099
0
    switch (type) {
3100
0
    case INTEGER:
3101
0
    case INTEGER32:
3102
0
    case UINTEGER32:
3103
0
    case UNSIGNED32:
3104
0
    case COUNTER:
3105
0
    case GAUGE:
3106
0
    case BITSTRING:
3107
0
    case LABEL:
3108
0
        if (nexttype == LEFTBRACKET) {
3109
            /*
3110
             * if there is an enumeration list, parse it 
3111
             */
3112
0
            np->enums = parse_enumlist(fp, &np->enums);
3113
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
3114
0
        } else if (nexttype == LEFTPAREN) {
3115
            /*
3116
             * if there is a range list, parse it 
3117
             */
3118
0
            np->ranges = parse_ranges(fp, &np->ranges);
3119
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
3120
0
        }
3121
0
        break;
3122
0
    case OCTETSTR:
3123
0
    case KW_OPAQUE:
3124
        /*
3125
         * parse any SIZE specification 
3126
         */
3127
0
        if (nexttype == LEFTPAREN) {
3128
0
            nexttype = get_token(fp, nexttoken, MAXTOKEN);
3129
0
            if (nexttype == SIZE) {
3130
0
                nexttype = get_token(fp, nexttoken, MAXTOKEN);
3131
0
                if (nexttype == LEFTPAREN) {
3132
0
                    np->ranges = parse_ranges(fp, &np->ranges);
3133
0
                    nexttype = get_token(fp, nexttoken, MAXTOKEN);      /* ) */
3134
0
                    if (nexttype == RIGHTPAREN) {
3135
0
                        nexttype = get_token(fp, nexttoken, MAXTOKEN);
3136
0
                        break;
3137
0
                    }
3138
0
                }
3139
0
            }
3140
0
            print_error("Bad SIZE syntax", token, type);
3141
0
            free_node(np);
3142
0
            return nexttype;
3143
0
        }
3144
0
        break;
3145
0
    case OBJID:
3146
0
    case NETADDR:
3147
0
    case IPADDR:
3148
0
    case TIMETICKS:
3149
0
    case NUL:
3150
0
    case NSAPADDRESS:
3151
0
    case COUNTER64:
3152
0
        break;
3153
0
    default:
3154
0
        print_error("Bad syntax", token, type);
3155
0
        free_node(np);
3156
0
        return nexttype;
3157
0
    }
3158
0
    free_node(np);
3159
0
    return nexttype;
3160
0
}
3161
3162
static int
3163
compliance_lookup(const char *name, int modid)
3164
0
{
3165
0
    struct objgroup *op;
3166
3167
0
    if (modid != -1)
3168
0
        return find_tree_node(name, modid) != NULL;
3169
3170
0
    op = malloc(sizeof(struct objgroup));
3171
0
    if (!op)
3172
0
        return 0;
3173
3174
0
    op->next = objgroups;
3175
0
    op->name = strdup(name);
3176
0
    if (!op->name) {
3177
0
        free(op);
3178
0
        return 0;
3179
0
    }
3180
0
    op->line = mibLine;
3181
0
    objgroups = op;
3182
0
    return 1;
3183
0
}
3184
3185
static struct node *
3186
parse_compliance(FILE * fp, char *name)
3187
0
{
3188
0
    int             type;
3189
0
    char            token[MAXTOKEN];
3190
0
    char            quoted_string_buffer[MAXQUOTESTR];
3191
0
    struct node    *np;
3192
3193
0
    np = alloc_node(current_module);
3194
0
    if (np == NULL)
3195
0
        return (NULL);
3196
0
    type = get_token(fp, token, MAXTOKEN);
3197
0
    if (type != STATUS) {
3198
0
        print_error("Expected STATUS", token, type);
3199
0
        goto skip;
3200
0
    }
3201
0
    type = get_token(fp, token, MAXTOKEN);
3202
0
    if (type != CURRENT && type != DEPRECATED && type != OBSOLETE) {
3203
0
        print_error("Bad STATUS", token, type);
3204
0
        goto skip;
3205
0
    }
3206
0
    type = get_token(fp, token, MAXTOKEN);
3207
0
    if (type != DESCRIPTION) {
3208
0
        print_error("Expected DESCRIPTION", token, type);
3209
0
        goto skip;
3210
0
    }
3211
0
    type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
3212
0
    if (type != QUOTESTRING) {
3213
0
        print_error("Bad DESCRIPTION", quoted_string_buffer, type);
3214
0
        goto skip;
3215
0
    }
3216
0
    if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
3217
0
             NETSNMP_DS_LIB_SAVE_MIB_DESCRS))
3218
0
        np->description = strdup(quoted_string_buffer);
3219
0
    type = get_token(fp, token, MAXTOKEN);
3220
0
    if (type == REFERENCE) {
3221
0
        type = get_token(fp, quoted_string_buffer,
3222
0
                         sizeof(quoted_string_buffer));
3223
0
        if (type != QUOTESTRING) {
3224
0
            print_error("Bad REFERENCE", quoted_string_buffer, type);
3225
0
            goto skip;
3226
0
        }
3227
0
        np->reference = strdup(quoted_string_buffer);
3228
0
        type = get_token(fp, token, MAXTOKEN);
3229
0
    }
3230
0
    if (type != MODULE) {
3231
0
        print_error("Expected MODULE", token, type);
3232
0
        goto skip;
3233
0
    }
3234
0
    while (type == MODULE) {
3235
0
        int             modid = -1;
3236
0
        char            modname[MAXTOKEN];
3237
0
        type = get_token(fp, token, MAXTOKEN);
3238
0
        if (type == LABEL
3239
0
            && strcmp(token, module_name(current_module, modname))) {
3240
0
            modid = read_module_internal(token);
3241
0
            if (modid != MODULE_LOADED_OK
3242
0
                && modid != MODULE_ALREADY_LOADED) {
3243
0
                print_error("Unknown module", token, type);
3244
0
                goto skip;
3245
0
            }
3246
0
            modid = which_module(token);
3247
0
            type = get_token(fp, token, MAXTOKEN);
3248
0
        }
3249
0
        if (type == MANDATORYGROUPS) {
3250
0
            type = get_token(fp, token, MAXTOKEN);
3251
0
            if (type != LEFTBRACKET) {
3252
0
                print_error("Expected \"{\"", token, type);
3253
0
                goto skip;
3254
0
            }
3255
0
            do {
3256
0
                type = get_token(fp, token, MAXTOKEN);
3257
0
                if (type != LABEL) {
3258
0
                    print_error("Bad group name", token, type);
3259
0
                    goto skip;
3260
0
                }
3261
0
                if (!compliance_lookup(token, modid))
3262
0
                    print_error("Unknown group", token, type);
3263
0
                type = get_token(fp, token, MAXTOKEN);
3264
0
            } while (type == COMMA);
3265
0
            if (type != RIGHTBRACKET) {
3266
0
                print_error("Expected \"}\"", token, type);
3267
0
                goto skip;
3268
0
            }
3269
0
            type = get_token(fp, token, MAXTOKEN);
3270
0
        }
3271
0
        while (type == GROUP || type == OBJECT) {
3272
0
            if (type == GROUP) {
3273
0
                type = get_token(fp, token, MAXTOKEN);
3274
0
                if (type != LABEL) {
3275
0
                    print_error("Bad group name", token, type);
3276
0
                    goto skip;
3277
0
                }
3278
0
                if (!compliance_lookup(token, modid))
3279
0
                    print_error("Unknown group", token, type);
3280
0
                type = get_token(fp, token, MAXTOKEN);
3281
0
            } else {
3282
0
                type = get_token(fp, token, MAXTOKEN);
3283
0
                if (type != LABEL) {
3284
0
                    print_error("Bad object name", token, type);
3285
0
                    goto skip;
3286
0
                }
3287
0
                if (!compliance_lookup(token, modid))
3288
0
                    print_error("Unknown group", token, type);
3289
0
                type = get_token(fp, token, MAXTOKEN);
3290
0
                if (type == SYNTAX)
3291
0
                    type = eat_syntax(fp, token, MAXTOKEN);
3292
0
                if (type == WRSYNTAX)
3293
0
                    type = eat_syntax(fp, token, MAXTOKEN);
3294
0
                if (type == MINACCESS) {
3295
0
                    type = get_token(fp, token, MAXTOKEN);
3296
0
                    if (type != NOACCESS && type != ACCNOTIFY
3297
0
                        && type != READONLY && type != WRITEONLY
3298
0
                        && type != READCREATE && type != READWRITE) {
3299
0
                        print_error("Bad MIN-ACCESS spec", token, type);
3300
0
                        goto skip;
3301
0
                    }
3302
0
                    type = get_token(fp, token, MAXTOKEN);
3303
0
                }
3304
0
            }
3305
0
            if (type != DESCRIPTION) {
3306
0
                print_error("Expected DESCRIPTION", token, type);
3307
0
                goto skip;
3308
0
            }
3309
0
            type = get_token(fp, token, MAXTOKEN);
3310
0
            if (type != QUOTESTRING) {
3311
0
                print_error("Bad DESCRIPTION", token, type);
3312
0
                goto skip;
3313
0
            }
3314
0
            type = get_token(fp, token, MAXTOKEN);
3315
0
        }
3316
0
    }
3317
0
  skip:
3318
0
    while (type != EQUALS && type != ENDOFFILE)
3319
0
        type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
3320
3321
0
    return merge_parse_objectid(np, fp, name);
3322
0
}
3323
3324
3325
/*
3326
 * Parses a capabilities macro
3327
 * Returns 0 on error.
3328
 */
3329
static struct node *
3330
parse_capabilities(FILE * fp, char *name)
3331
0
{
3332
0
    int             type;
3333
0
    char            token[MAXTOKEN];
3334
0
    char            quoted_string_buffer[MAXQUOTESTR];
3335
0
    struct node    *np;
3336
3337
0
    np = alloc_node(current_module);
3338
0
    if (np == NULL)
3339
0
        return (NULL);
3340
0
    type = get_token(fp, token, MAXTOKEN);
3341
0
    if (type != PRODREL) {
3342
0
        print_error("Expected PRODUCT-RELEASE", token, type);
3343
0
        goto skip;
3344
0
    }
3345
0
    type = get_token(fp, token, MAXTOKEN);
3346
0
    if (type != QUOTESTRING) {
3347
0
        print_error("Expected STRING after PRODUCT-RELEASE", token, type);
3348
0
        goto skip;
3349
0
    }
3350
0
    type = get_token(fp, token, MAXTOKEN);
3351
0
    if (type != STATUS) {
3352
0
        print_error("Expected STATUS", token, type);
3353
0
        goto skip;
3354
0
    }
3355
0
    type = get_token(fp, token, MAXTOKEN);
3356
0
    if (type != CURRENT && type != OBSOLETE) {
3357
0
        print_error("STATUS should be current or obsolete", token, type);
3358
0
        goto skip;
3359
0
    }
3360
0
    type = get_token(fp, token, MAXTOKEN);
3361
0
    if (type != DESCRIPTION) {
3362
0
        print_error("Expected DESCRIPTION", token, type);
3363
0
        goto skip;
3364
0
    }
3365
0
    type = get_token(fp, quoted_string_buffer, sizeof(quoted_string_buffer));
3366
0
    if (type != QUOTESTRING) {
3367
0
        print_error("Bad DESCRIPTION", quoted_string_buffer, type);
3368
0
        goto skip;
3369
0
    }
3370
0
    if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
3371
0
             NETSNMP_DS_LIB_SAVE_MIB_DESCRS)) {
3372
0
        np->description = strdup(quoted_string_buffer);
3373
0
    }
3374
0
    type = get_token(fp, token, MAXTOKEN);
3375
0
    if (type == REFERENCE) {
3376
0
        type = get_token(fp, quoted_string_buffer,
3377
0
                         sizeof(quoted_string_buffer));
3378
0
        if (type != QUOTESTRING) {
3379
0
            print_error("Bad REFERENCE", quoted_string_buffer, type);
3380
0
            goto skip;
3381
0
        }
3382
0
        np->reference = strdup(quoted_string_buffer);
3383
0
        type = get_token(fp, token, type);
3384
0
    }
3385
0
    while (type == SUPPORTS) {
3386
0
        int             modid;
3387
0
        struct tree    *tp;
3388
3389
0
        type = get_token(fp, token, MAXTOKEN);
3390
0
        if (type != LABEL) {
3391
0
            print_error("Bad module name", token, type);
3392
0
            goto skip;
3393
0
        }
3394
0
        modid = read_module_internal(token);
3395
0
        if (modid != MODULE_LOADED_OK && modid != MODULE_ALREADY_LOADED) {
3396
0
            print_error("Module not found", token, type);
3397
0
            goto skip;
3398
0
        }
3399
0
        modid = which_module(token);
3400
0
        type = get_token(fp, token, MAXTOKEN);
3401
0
        if (type != INCLUDES) {
3402
0
            print_error("Expected INCLUDES", token, type);
3403
0
            goto skip;
3404
0
        }
3405
0
        type = get_token(fp, token, MAXTOKEN);
3406
0
        if (type != LEFTBRACKET) {
3407
0
            print_error("Expected \"{\"", token, type);
3408
0
            goto skip;
3409
0
        }
3410
0
        do {
3411
0
            type = get_token(fp, token, MAXTOKEN);
3412
0
            if (type != LABEL) {
3413
0
                print_error("Expected group name", token, type);
3414
0
                goto skip;
3415
0
            }
3416
0
            tp = find_tree_node(token, modid);
3417
0
            if (!tp)
3418
0
                print_error("Group not found in module", token, type);
3419
0
            type = get_token(fp, token, MAXTOKEN);
3420
0
        } while (type == COMMA);
3421
0
        if (type != RIGHTBRACKET) {
3422
0
            print_error("Expected \"}\" after group list", token, type);
3423
0
            goto skip;
3424
0
        }
3425
0
        type = get_token(fp, token, MAXTOKEN);
3426
0
        while (type == VARIATION) {
3427
0
            type = get_token(fp, token, MAXTOKEN);
3428
0
            if (type != LABEL) {
3429
0
                print_error("Bad object name", token, type);
3430
0
                goto skip;
3431
0
            }
3432
0
            tp = find_tree_node(token, modid);
3433
0
            if (!tp)
3434
0
                print_error("Object not found in module", token, type);
3435
0
            type = get_token(fp, token, MAXTOKEN);
3436
0
            if (type == SYNTAX) {
3437
0
                type = eat_syntax(fp, token, MAXTOKEN);
3438
0
            }
3439
0
            if (type == WRSYNTAX) {
3440
0
                type = eat_syntax(fp, token, MAXTOKEN);
3441
0
            }
3442
0
            if (type == ACCESS) {
3443
0
                type = get_token(fp, token, MAXTOKEN);
3444
0
                if (type != ACCNOTIFY && type != READONLY
3445
0
                    && type != READWRITE && type != READCREATE
3446
0
                    && type != WRITEONLY && type != NOTIMPL) {
3447
0
                    print_error("Bad ACCESS", token, type);
3448
0
                    goto skip;
3449
0
                }
3450
0
                type = get_token(fp, token, MAXTOKEN);
3451
0
            }
3452
0
            if (type == CREATEREQ) {
3453
0
                type = get_token(fp, token, MAXTOKEN);
3454
0
                if (type != LEFTBRACKET) {
3455
0
                    print_error("Expected \"{\"", token, type);
3456
0
                    goto skip;
3457
0
                }
3458
0
                do {
3459
0
                    type = get_token(fp, token, MAXTOKEN);
3460
0
                    if (type != LABEL) {
3461
0
                        print_error("Bad object name in list", token,
3462
0
                                    type);
3463
0
                        goto skip;
3464
0
                    }
3465
0
                    type = get_token(fp, token, MAXTOKEN);
3466
0
                } while (type == COMMA);
3467
0
                if (type != RIGHTBRACKET) {
3468
0
                    print_error("Expected \"}\" after list", token, type);
3469
0
                    goto skip;
3470
0
                }
3471
0
                type = get_token(fp, token, MAXTOKEN);
3472
0
            }
3473
0
            if (type == DEFVAL) {
3474
0
                int             level = 1;
3475
0
                type = get_token(fp, token, MAXTOKEN);
3476
0
                if (type != LEFTBRACKET) {
3477
0
                    print_error("Expected \"{\" after DEFVAL", token,
3478
0
                                type);
3479
0
                    goto skip;
3480
0
                }
3481
0
                do {
3482
0
                    type = get_token(fp, token, MAXTOKEN);
3483
0
                    if (type == LEFTBRACKET)
3484
0
                        level++;
3485
0
                    else if (type == RIGHTBRACKET)
3486
0
                        level--;
3487
0
                } while ((type != RIGHTBRACKET || level != 0)
3488
0
                         && type != ENDOFFILE);
3489
0
                if (type != RIGHTBRACKET) {
3490
0
                    print_error("Missing \"}\" after DEFVAL", token, type);
3491
0
                    goto skip;
3492
0
                }
3493
0
                type = get_token(fp, token, MAXTOKEN);
3494
0
            }
3495
0
            if (type != DESCRIPTION) {
3496
0
                print_error("Expected DESCRIPTION", token, type);
3497
0
                goto skip;
3498
0
            }
3499
0
            type = get_token(fp, quoted_string_buffer,
3500
0
                             sizeof(quoted_string_buffer));
3501
0
            if (type != QUOTESTRING) {
3502
0
                print_error("Bad DESCRIPTION", quoted_string_buffer, type);
3503
0
                goto skip;
3504
0
            }
3505
0
            type = get_token(fp, token, MAXTOKEN);
3506
0
        }
3507
0
    }
3508
0
    if (type != EQUALS)
3509
0
        print_error("Expected \"::=\"", token, type);
3510
0
  skip:
3511
0
    while (type != EQUALS && type != ENDOFFILE) {
3512
0
        type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
3513
0
    }
3514
0
    return merge_parse_objectid(np, fp, name);
3515
0
}
3516
3517
/*
3518
 * Parses a module identity macro
3519
 * Returns 0 on error.
3520
 */
3521
static void
3522
check_utc(const char *utc)
3523
0
{
3524
0
    int             len, year, month, day, hour, minute;
3525
3526
0
    len = strlen(utc);
3527
0
    if (len == 0) {
3528
0
        print_error("Timestamp has zero length", utc, QUOTESTRING);
3529
0
        return;
3530
0
    }
3531
0
    if (utc[len - 1] != 'Z' && utc[len - 1] != 'z') {
3532
0
        print_error("Timestamp should end with Z", utc, QUOTESTRING);
3533
0
        return;
3534
0
    }
3535
0
    if (len == 11) {
3536
0
        len = sscanf(utc, "%2d%2d%2d%2d%2dZ", &year, &month, &day, &hour,
3537
0
                     &minute);
3538
0
        year += 1900;
3539
0
    } else if (len == 13)
3540
0
        len = sscanf(utc, "%4d%2d%2d%2d%2dZ", &year, &month, &day, &hour,
3541
0
                     &minute);
3542
0
    else {
3543
0
        print_error("Bad timestamp format (11 or 13 characters)",
3544
0
                    utc, QUOTESTRING);
3545
0
        return;
3546
0
    }
3547
0
    if (len != 5) {
3548
0
        print_error("Bad timestamp format", utc, QUOTESTRING);
3549
0
        return;
3550
0
    }
3551
0
    if (month < 1 || month > 12)
3552
0
        print_error("Bad month in timestamp", utc, QUOTESTRING);
3553
0
    if (day < 1 || day > 31)
3554
0
        print_error("Bad day in timestamp", utc, QUOTESTRING);
3555
0
    if (hour < 0 || hour > 23)
3556
0
        print_error("Bad hour in timestamp", utc, QUOTESTRING);
3557
0
    if (minute < 0 || minute > 59)
3558
0
        print_error("Bad minute in timestamp", utc, QUOTESTRING);
3559
0
}
3560
3561
static struct node *
3562
parse_moduleIdentity(FILE * fp, char *name)
3563
0
{
3564
0
    register int    type;
3565
0
    char            token[MAXTOKEN];
3566
0
    char            quoted_string_buffer[MAXQUOTESTR];
3567
0
    register struct node *np;
3568
3569
0
    np = alloc_node(current_module);
3570
0
    if (np == NULL)
3571
0
        return (NULL);
3572
0
    type = get_token(fp, token, MAXTOKEN);
3573
0
    if (type != LASTUPDATED) {
3574
0
        print_error("Expected LAST-UPDATED", token, type);
3575
0
        goto skip;
3576
0
    }
3577
0
    type = get_token(fp, token, MAXTOKEN);
3578
0
    if (type != QUOTESTRING) {
3579
0
        print_error("Need STRING for LAST-UPDATED", token, type);
3580
0
        goto skip;
3581
0
    }
3582
0
    check_utc(token);
3583
0
    type = get_token(fp, token, MAXTOKEN);
3584
0
    if (type != ORGANIZATION) {
3585
0
        print_error("Expected ORGANIZATION", token, type);
3586
0
        goto skip;
3587
0
    }
3588
0
    type = get_token(fp, token, MAXTOKEN);
3589
0
    if (type != QUOTESTRING) {
3590
0
        print_error("Bad ORGANIZATION", token, type);
3591
0
        goto skip;
3592
0
    }
3593
0
    type = get_token(fp, token, MAXTOKEN);
3594
0
    if (type != CONTACTINFO) {
3595
0
        print_error("Expected CONTACT-INFO", token, type);
3596
0
        goto skip;
3597
0
    }
3598
0
    type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
3599
0
    if (type != QUOTESTRING) {
3600
0
        print_error("Bad CONTACT-INFO", quoted_string_buffer, type);
3601
0
        goto skip;
3602
0
    }
3603
0
    type = get_token(fp, token, MAXTOKEN);
3604
0
    if (type != DESCRIPTION) {
3605
0
        print_error("Expected DESCRIPTION", token, type);
3606
0
        goto skip;
3607
0
    }
3608
0
    type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
3609
0
    if (type != QUOTESTRING) {
3610
0
        print_error("Bad DESCRIPTION", quoted_string_buffer, type);
3611
0
        goto skip;
3612
0
    }
3613
0
    if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
3614
0
             NETSNMP_DS_LIB_SAVE_MIB_DESCRS)) {
3615
0
        np->description = strdup(quoted_string_buffer);
3616
0
    }
3617
0
    type = get_token(fp, token, MAXTOKEN);
3618
0
    while (type == REVISION) {
3619
0
        type = get_token(fp, token, MAXTOKEN);
3620
0
        if (type != QUOTESTRING) {
3621
0
            print_error("Bad REVISION", token, type);
3622
0
            goto skip;
3623
0
        }
3624
0
        check_utc(token);
3625
0
        type = get_token(fp, token, MAXTOKEN);
3626
0
        if (type != DESCRIPTION) {
3627
0
            print_error("Expected DESCRIPTION", token, type);
3628
0
            goto skip;
3629
0
        }
3630
0
        type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
3631
0
        if (type != QUOTESTRING) {
3632
0
            print_error("Bad DESCRIPTION", quoted_string_buffer, type);
3633
0
            goto skip;
3634
0
        }
3635
0
        type = get_token(fp, token, MAXTOKEN);
3636
0
    }
3637
0
    if (type != EQUALS)
3638
0
        print_error("Expected \"::=\"", token, type);
3639
0
  skip:
3640
0
    while (type != EQUALS && type != ENDOFFILE) {
3641
0
        type = get_token(fp, quoted_string_buffer, MAXQUOTESTR);
3642
0
    }
3643
0
    return merge_parse_objectid(np, fp, name);
3644
0
}
3645
3646
3647
/*
3648
 * Parses a MACRO definition
3649
 * Expect BEGIN, discard everything to end.
3650
 * Returns 0 on error.
3651
 */
3652
static struct node *
3653
parse_macro(FILE * fp, char *name)
3654
0
{
3655
0
    register int    type;
3656
0
    char            token[MAXTOKEN];
3657
0
    struct node    *np;
3658
0
    int             iLine = mibLine;
3659
3660
0
    np = alloc_node(current_module);
3661
0
    if (np == NULL)
3662
0
        return (NULL);
3663
0
    type = get_token(fp, token, sizeof(token));
3664
0
    while (type != EQUALS && type != ENDOFFILE) {
3665
0
        type = get_token(fp, token, sizeof(token));
3666
0
    }
3667
0
    if (type != EQUALS) {
3668
0
        if (np)
3669
0
            free_node(np);
3670
0
        return NULL;
3671
0
    }
3672
0
    while (type != BEGIN && type != ENDOFFILE) {
3673
0
        type = get_token(fp, token, sizeof(token));
3674
0
    }
3675
0
    if (type != BEGIN) {
3676
0
        if (np)
3677
0
            free_node(np);
3678
0
        return NULL;
3679
0
    }
3680
0
    while (type != END && type != ENDOFFILE) {
3681
0
        type = get_token(fp, token, sizeof(token));
3682
0
    }
3683
0
    if (type != END) {
3684
0
        if (np)
3685
0
            free_node(np);
3686
0
        return NULL;
3687
0
    }
3688
3689
0
    if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
3690
0
         NETSNMP_DS_LIB_MIB_WARNINGS)) {
3691
0
        snmp_log(LOG_WARNING,
3692
0
                 "%s MACRO (lines %d..%d parsed and ignored).\n", name,
3693
0
                 iLine, mibLine);
3694
0
    }
3695
3696
0
    return np;
3697
0
}
3698
3699
/*
3700
 * Parses a module import clause
3701
 *   loading any modules referenced
3702
 */
3703
static void
3704
parse_imports(FILE * fp)
3705
0
{
3706
0
    register int    type;
3707
0
    char            token[MAXTOKEN];
3708
0
    char            modbuf[256];
3709
0
#define MAX_IMPORTS 512
3710
0
    struct module_import *import_list;
3711
0
    int             this_module;
3712
0
    struct module  *mp;
3713
3714
0
    int             import_count = 0;   /* Total number of imported descriptors */
3715
0
    int             i = 0, old_i;       /* index of first import from each module */
3716
3717
0
    import_list = malloc(MAX_IMPORTS * sizeof(*import_list));
3718
3719
0
    type = get_token(fp, token, MAXTOKEN);
3720
3721
    /*
3722
     * Parse the IMPORTS clause
3723
     */
3724
0
    while (type != SEMI && type != ENDOFFILE) {
3725
0
        if (type == LABEL) {
3726
0
            if (import_count == MAX_IMPORTS) {
3727
0
                print_error("Too many imported symbols", token, type);
3728
0
                do {
3729
0
                    type = get_token(fp, token, MAXTOKEN);
3730
0
                } while (type != SEMI && type != ENDOFFILE);
3731
0
                goto out;
3732
0
            }
3733
0
            import_list[import_count++].label = strdup(token);
3734
0
        } else if (type == FROM) {
3735
0
            type = get_token(fp, token, MAXTOKEN);
3736
0
            if (import_count == i) {    /* All imports are handled internally */
3737
0
                type = get_token(fp, token, MAXTOKEN);
3738
0
                continue;
3739
0
            }
3740
0
            this_module = which_module(token);
3741
3742
0
            for (old_i = i; i < import_count; ++i)
3743
0
                import_list[i].modid = this_module;
3744
3745
            /*
3746
             * Recursively read any pre-requisite modules
3747
             */
3748
0
            if (read_module_internal(token) == MODULE_NOT_FOUND) {
3749
0
    int found = 0;
3750
0
                for (; old_i < import_count; ++old_i) {
3751
0
                    found += read_import_replacements(token, &import_list[old_i]);
3752
0
                }
3753
0
    if (!found)
3754
0
        print_module_not_found(token);
3755
0
            }
3756
0
        }
3757
0
        type = get_token(fp, token, MAXTOKEN);
3758
0
    }
3759
3760
    /* Initialize modid in case the module name was missing. */
3761
0
    for (; i < import_count; ++i)
3762
0
        import_list[i].modid = -1;
3763
3764
    /*
3765
     * Save the import information
3766
     *   in the global module table
3767
     */
3768
0
    for (mp = module_head; mp; mp = mp->next) {
3769
0
        if (mp->modid == current_module) {
3770
0
            if (import_count == 0)
3771
0
                goto out;
3772
0
            if (mp->imports && (mp->imports != root_imports)) {
3773
                /*
3774
                 * this can happen if all modules are in one source file. 
3775
                 */
3776
0
                for (i = 0; i < mp->no_imports; ++i) {
3777
0
                    DEBUGMSGTL(("parse-mibs",
3778
0
                                "#### freeing Module %d '%s' %d\n",
3779
0
                                mp->modid, mp->imports[i].label,
3780
0
                                mp->imports[i].modid));
3781
0
                    free(mp->imports[i].label);
3782
0
                }
3783
0
                free(mp->imports);
3784
0
            }
3785
0
            mp->imports = (struct module_import *)
3786
0
                calloc(import_count, sizeof(struct module_import));
3787
0
            if (mp->imports == NULL)
3788
0
                goto out;
3789
0
            for (i = 0; i < import_count; ++i) {
3790
0
                mp->imports[i].label = import_list[i].label;
3791
0
                import_list[i].label = NULL;
3792
0
                mp->imports[i].modid = import_list[i].modid;
3793
0
                DEBUGMSGTL(("parse-mibs",
3794
0
                            "#### adding Module %d '%s' %d\n", mp->modid,
3795
0
                            mp->imports[i].label, mp->imports[i].modid));
3796
0
            }
3797
0
            mp->no_imports = import_count;
3798
0
            goto out;
3799
0
        }
3800
0
    }
3801
3802
    /*
3803
     * Shouldn't get this far
3804
     */
3805
0
    print_module_not_found(module_name(current_module, modbuf));
3806
3807
0
out:
3808
0
    for (i = 0; i < import_count; ++i)
3809
0
        free(import_list[i].label);
3810
0
    free(import_list);
3811
0
    return;
3812
0
}
3813
3814
3815
3816
/*
3817
 * MIB module handling routines
3818
 */
3819
3820
static void
3821
dump_module_list(void)
3822
0
{
3823
0
    struct module  *mp = module_head;
3824
3825
0
    DEBUGMSGTL(("parse-mibs", "Module list:\n"));
3826
0
    while (mp) {
3827
0
        DEBUGMSGTL(("parse-mibs", "  %s %d %s %d\n", mp->name, mp->modid,
3828
0
                    mp->file, mp->no_imports));
3829
0
        mp = mp->next;
3830
0
    }
3831
0
}
3832
3833
int
3834
which_module(const char *name)
3835
191
{
3836
191
    struct module  *mp;
3837
3838
191
    for (mp = module_head; mp; mp = mp->next)
3839
0
        if (!label_compare(mp->name, name))
3840
0
            return (mp->modid);
3841
3842
191
    DEBUGMSGTL(("parse-mibs", "Module %s not found\n", name));
3843
191
    return (-1);
3844
191
}
3845
3846
/*
3847
 * module_name - copy module name to user buffer, return ptr to same.
3848
 */
3849
char           *
3850
module_name(int modid, char *cp)
3851
0
{
3852
0
    struct module  *mp;
3853
3854
0
    for (mp = module_head; mp; mp = mp->next)
3855
0
        if (mp->modid == modid) {
3856
0
            strcpy(cp, mp->name);
3857
0
            return (cp);
3858
0
        }
3859
3860
0
    if (modid != -1) DEBUGMSGTL(("parse-mibs", "Module %d not found\n", modid));
3861
0
    sprintf(cp, "#%d", modid);
3862
0
    return (cp);
3863
0
}
3864
3865
/*
3866
 *  Backwards compatability
3867
 *  Read newer modules that replace the one specified:-
3868
 *      either all of them (read_module_replacements),
3869
 *      or those relating to a specified identifier (read_import_replacements)
3870
 *      plus an interface to add new replacement requirements
3871
 */
3872
netsnmp_feature_child_of(parse_add_module_replacement, netsnmp_unused);
3873
#ifndef NETSNMP_FEATURE_REMOVE_PARSE_ADD_MODULE_REPLACEMENT
3874
void
3875
add_module_replacement(const char *old_module,
3876
                       const char *new_module_name,
3877
                       const char *tag, int len)
3878
0
{
3879
0
    struct module_compatability *mcp;
3880
3881
0
    mcp = (struct module_compatability *)
3882
0
        calloc(1, sizeof(struct module_compatability));
3883
0
    if (mcp == NULL)
3884
0
        return;
3885
3886
0
    mcp->old_module = strdup(old_module);
3887
0
    mcp->new_module = strdup(new_module_name);
3888
0
    if (tag)
3889
0
        mcp->tag = strdup(tag);
3890
0
    mcp->tag_len = len;
3891
3892
0
    mcp->next = module_map_head;
3893
0
    module_map_head = mcp;
3894
0
}
3895
#endif /* NETSNMP_FEATURE_REMOVE_PARSE_ADD_MODULE_REPLACEMENT */
3896
3897
static int
3898
read_module_replacements(const char *name)
3899
212
{
3900
212
    struct module_compatability *mcp;
3901
3902
4.45k
    for (mcp = module_map_head; mcp; mcp = mcp->next) {
3903
4.26k
        if (!label_compare(mcp->old_module, name)) {
3904
24
            if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
3905
24
           NETSNMP_DS_LIB_MIB_WARNINGS)) {
3906
0
                snmp_log(LOG_WARNING,
3907
0
                         "Loading replacement module %s for %s (%s)\n",
3908
0
                         mcp->new_module, name, File);
3909
0
      }
3910
24
            (void) netsnmp_read_module(mcp->new_module);
3911
24
            return 1;
3912
24
        }
3913
4.26k
    }
3914
188
    return 0;
3915
212
}
3916
3917
static int
3918
read_import_replacements(const char *old_module_name,
3919
                         struct module_import *identifier)
3920
0
{
3921
0
    struct module_compatability *mcp;
3922
3923
    /*
3924
     * Look for matches first
3925
     */
3926
0
    for (mcp = module_map_head; mcp; mcp = mcp->next) {
3927
0
        if (!label_compare(mcp->old_module, old_module_name)) {
3928
3929
0
            if (                /* exact match */
3930
0
                   (mcp->tag_len == 0 &&
3931
0
                    (mcp->tag == NULL ||
3932
0
                     !label_compare(mcp->tag, identifier->label))) ||
3933
                   /*
3934
                    * prefix match 
3935
                    */
3936
0
                   (mcp->tag_len != 0 &&
3937
0
                    !strncmp(mcp->tag, identifier->label, mcp->tag_len))
3938
0
                ) {
3939
3940
0
                if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
3941
0
               NETSNMP_DS_LIB_MIB_WARNINGS)) {
3942
0
                    snmp_log(LOG_WARNING,
3943
0
                             "Importing %s from replacement module %s instead of %s (%s)\n",
3944
0
                             identifier->label, mcp->new_module,
3945
0
                             old_module_name, File);
3946
0
    }
3947
0
                (void) netsnmp_read_module(mcp->new_module);
3948
0
                identifier->modid = which_module(mcp->new_module);
3949
0
                return 1;         /* finished! */
3950
0
            }
3951
0
        }
3952
0
    }
3953
3954
    /*
3955
     * If no exact match, load everything relevant
3956
     */
3957
0
    return read_module_replacements(old_module_name);
3958
0
}
3959
3960
static int
3961
read_from_file(struct module *mp, const char *name)
3962
0
{
3963
0
    const char     *oldFile = File;
3964
0
    int             oldLine = mibLine;
3965
0
    int             oldModule = current_module;
3966
0
    FILE           *fp;
3967
0
    struct node    *np;
3968
0
    int             res;
3969
3970
0
    if (mp->no_imports != -1) {
3971
0
        DEBUGMSGTL(("parse-mibs", "Module %s already loaded\n",
3972
0
                    name));
3973
0
        return MODULE_ALREADY_LOADED;
3974
0
    }
3975
0
    if ((fp = fopen(mp->file, "r")) == NULL) {
3976
0
        int rval;
3977
0
        if (errno == ENOTDIR || errno == ENOENT)
3978
0
            rval = MODULE_NOT_FOUND;
3979
0
        else
3980
0
            rval = MODULE_LOAD_FAILED;
3981
0
        snmp_log_perror(mp->file);
3982
0
        return rval;
3983
0
    }
3984
0
#ifdef HAVE_FLOCKFILE
3985
0
    flockfile(fp);
3986
0
#endif
3987
0
    mp->no_imports = 0; /* Note that we've read the file */
3988
0
    File = mp->file;
3989
0
    mibLine = 1;
3990
0
    current_module = mp->modid;
3991
    /*
3992
     * Parse the file
3993
     */
3994
0
    np = parse(fp);
3995
0
#ifdef HAVE_FUNLOCKFILE
3996
0
    funlockfile(fp);
3997
0
#endif
3998
0
    fclose(fp);
3999
0
    File = oldFile;
4000
0
    mibLine = oldLine;
4001
0
    current_module = oldModule;
4002
0
    res = !np && gMibError == MODULE_SYNTAX_ERROR ?
4003
0
        MODULE_SYNTAX_ERROR : MODULE_LOADED_OK;
4004
0
    while (np) {
4005
0
        struct node *nnp = np->next;
4006
0
        free_node(np);
4007
0
        np = nnp;
4008
0
    }
4009
0
    return res;
4010
0
}
4011
4012
/*
4013
 *  Read in the named module
4014
 *      Returns the root of the whole tree
4015
 *      (by analogy with 'read_mib')
4016
 */
4017
static int
4018
read_module_internal(const char *name)
4019
212
{
4020
212
    struct module  *mp;
4021
4022
212
    netsnmp_init_mib_internals();
4023
4024
212
    for (mp = module_head; mp; mp = mp->next)
4025
0
        if (!label_compare(mp->name, name))
4026
0
            return read_from_file(mp, name);
4027
4028
212
    return MODULE_NOT_FOUND;
4029
212
}
4030
4031
void
4032
adopt_orphans(void)
4033
0
{
4034
0
    struct node    *np = NULL, *onp;
4035
0
    struct tree    *tp;
4036
0
    int             i, adopted = 1;
4037
4038
0
    if (!orphan_nodes)
4039
0
        return;
4040
0
    init_node_hash(orphan_nodes);
4041
0
    orphan_nodes = NULL;
4042
4043
0
    while (adopted) {
4044
0
        adopted = 0;
4045
0
        for (i = 0; i < NHASHSIZE; i++)
4046
0
            if (nbuckets[i]) {
4047
0
                for (np = nbuckets[i]; np != NULL; np = np->next) {
4048
0
                    tp = find_tree_node(np->parent, -1);
4049
0
        if (tp) {
4050
0
      do_subtree(tp, &np);
4051
0
      adopted = 1;
4052
                        /*
4053
                         * if do_subtree adopted the entire bucket, stop
4054
                         */
4055
0
                        if(NULL == nbuckets[i])
4056
0
                            break;
4057
4058
                        /*
4059
                         * do_subtree may modify nbuckets, and if np
4060
                         * was adopted, np->next probably isn't an orphan
4061
                         * anymore. if np is still in the bucket (do_subtree
4062
                         * didn't adopt it) keep on plugging. otherwise
4063
                         * start over, at the top of the bucket.
4064
                         */
4065
0
                        for(onp = nbuckets[i]; onp; onp = onp->next)
4066
0
                            if(onp == np)
4067
0
                                break;
4068
0
                        if(NULL == onp) { /* not in the list */
4069
0
                            np = nbuckets[i]; /* start over */
4070
0
                        }
4071
0
        }
4072
0
    }
4073
0
            }
4074
0
    }
4075
4076
    /*
4077
     * Report on outstanding orphans
4078
     *    and link them back into the orphan list
4079
     */
4080
0
    for (i = 0; i < NHASHSIZE; i++)
4081
0
        if (nbuckets[i]) {
4082
0
            if (orphan_nodes)
4083
0
                onp = np->next = nbuckets[i];
4084
0
            else
4085
0
                onp = orphan_nodes = nbuckets[i];
4086
0
            nbuckets[i] = NULL;
4087
0
            while (onp) {
4088
0
                char            modbuf[256];
4089
0
                snmp_log(LOG_WARNING,
4090
0
                         "Cannot resolve OID in %s: %s ::= { %s %ld } at line %d in %s\n",
4091
0
                         module_name(onp->modid, modbuf),
4092
0
                         (onp->label ? onp->label : "<no label>"),
4093
0
                         (onp->parent ? onp->parent : "<no parent>"),
4094
0
                         onp->subid, onp->lineno, onp->filename);
4095
0
                np = onp;
4096
0
                onp = onp->next;
4097
0
            }
4098
0
        }
4099
0
}
4100
4101
#ifndef NETSNMP_NO_LEGACY_DEFINITIONS
4102
struct tree    *
4103
read_module(const char *name)
4104
0
{
4105
0
    return netsnmp_read_module(name);
4106
0
}
4107
#endif
4108
4109
struct tree    *
4110
netsnmp_read_module(const char *name)
4111
212
{
4112
212
    int status = 0;
4113
212
    status = read_module_internal(name);
4114
4115
212
    if (status == MODULE_NOT_FOUND) {
4116
212
        if (!read_module_replacements(name))
4117
188
            print_module_not_found(name);
4118
212
    } else if (status == MODULE_SYNTAX_ERROR) {
4119
0
        gMibError = 0;
4120
0
        gLoop = 1;
4121
4122
0
        strncat(gMibNames, " ", sizeof(gMibNames) - strlen(gMibNames) - 1);
4123
0
        strncat(gMibNames, name, sizeof(gMibNames) - strlen(gMibNames) - 1);
4124
0
    }
4125
4126
212
    return tree_head;
4127
212
}
4128
4129
/*
4130
 * Prototype definition 
4131
 */
4132
void            unload_module_by_ID(int modID, struct tree *tree_top);
4133
4134
void
4135
unload_module_by_ID(int modID, struct tree *tree_top)
4136
0
{
4137
0
    struct tree    *tp, *next;
4138
0
    int             i;
4139
4140
0
    for (tp = tree_top; tp; tp = next) {
4141
        /*
4142
         * Essentially, this is equivalent to the code fragment:
4143
         *      if (tp->modID == modID)
4144
         *        tp->number_modules--;
4145
         * but handles one tree node being part of several modules,
4146
         * and possible multiple copies of the same module ID.
4147
         */
4148
0
        int             nmod = tp->number_modules;
4149
0
        if (nmod > 0) {         /* in some module */
4150
            /*
4151
             * Remove all copies of this module ID
4152
             */
4153
0
            int             cnt = 0, *pi1, *pi2 = tp->module_list;
4154
0
            for (i = 0, pi1 = pi2; i < nmod; i++, pi2++) {
4155
0
                if (*pi2 == modID)
4156
0
                    continue;
4157
0
                cnt++;
4158
0
                *pi1++ = *pi2;
4159
0
            }
4160
0
            if (nmod != cnt) {  /* in this module */
4161
                /*
4162
                 * if ( (nmod - cnt) > 1)
4163
                 * printf("Dup modid %d,  %d times, '%s'\n", tp->modid, (nmod-cnt), tp->label); fflush(stdout); ?* XXDEBUG 
4164
                 */
4165
0
                tp->number_modules = cnt;
4166
0
                switch (cnt) {
4167
0
                case 0:
4168
0
                    tp->module_list[0] = -1;    /* Mark unused, */
4169
0
        NETSNMP_FALLTHROUGH;
4170
4171
0
                case 1:        /* save the remaining module */
4172
0
                    if (&(tp->modid) != tp->module_list) {
4173
0
                        tp->modid = tp->module_list[0];
4174
0
                        free(tp->module_list);
4175
0
                        tp->module_list = &(tp->modid);
4176
0
                    }
4177
0
                    break;
4178
4179
0
                default:
4180
0
                    break;
4181
0
                }
4182
0
            }                   /* if tree node is in this module */
4183
0
        }
4184
        /*
4185
         * if tree node is in some module 
4186
         */
4187
0
        next = tp->next_peer;
4188
4189
4190
        /*
4191
         *  OK - that's dealt with *this* node.
4192
         *    Now let's look at the children.
4193
         *    (Isn't recursion wonderful!)
4194
         */
4195
0
        if (tp->child_list)
4196
0
            unload_module_by_ID(modID, tp->child_list);
4197
4198
4199
0
        if (tp->number_modules == 0) {
4200
            /*
4201
             * This node isn't needed any more (except perhaps
4202
             * for the sake of the children) 
4203
             */
4204
0
            if (tp->child_list == NULL) {
4205
0
                unlink_tree(tp);
4206
0
                free_tree(tp);
4207
0
            } else {
4208
0
                free_partial_tree(tp, TRUE);
4209
0
            }
4210
0
        }
4211
0
    }
4212
0
}
4213
4214
#ifndef NETSNMP_NO_LEGACY_DEFINITIONS
4215
int
4216
unload_module(const char *name)
4217
0
{
4218
0
    return netsnmp_unload_module(name);
4219
0
}
4220
#endif
4221
4222
int
4223
netsnmp_unload_module(const char *name)
4224
0
{
4225
0
    struct module  *mp;
4226
0
    int             modID = -1;
4227
4228
0
    for (mp = module_head; mp; mp = mp->next)
4229
0
        if (!label_compare(mp->name, name)) {
4230
0
            modID = mp->modid;
4231
0
            break;
4232
0
        }
4233
4234
0
    if (modID == -1) {
4235
0
        DEBUGMSGTL(("unload-mib", "Module %s not found to unload\n",
4236
0
                    name));
4237
0
        return MODULE_NOT_FOUND;
4238
0
    }
4239
0
    unload_module_by_ID(modID, tree_head);
4240
0
    mp->no_imports = -1;        /* mark as unloaded */
4241
0
    return MODULE_LOADED_OK;    /* Well, you know what I mean! */
4242
0
}
4243
4244
/*
4245
 * Clear module map, tree nodes, textual convention table.
4246
 */
4247
void
4248
unload_all_mibs(void)
4249
0
{
4250
0
    struct module  *mp;
4251
0
    struct module_compatability *mcp;
4252
0
    struct tc      *ptc;
4253
0
    unsigned int    i;
4254
4255
0
    for (mcp = module_map_head; mcp; mcp = module_map_head) {
4256
0
        if (mcp == module_map)
4257
0
            break;
4258
0
        module_map_head = mcp->next;
4259
0
        if (mcp->tag) free(NETSNMP_REMOVE_CONST(char *, mcp->tag));
4260
0
        free(NETSNMP_REMOVE_CONST(char *, mcp->old_module));
4261
0
        free(NETSNMP_REMOVE_CONST(char *, mcp->new_module));
4262
0
        free(mcp);
4263
0
    }
4264
4265
0
    for (mp = module_head; mp; mp = module_head) {
4266
0
        struct module_import *mi = mp->imports;
4267
0
        if (mi) {
4268
0
            for (i = 0; i < (unsigned int)mp->no_imports; ++i) {
4269
0
                SNMP_FREE((mi + i)->label);
4270
0
            }
4271
0
            mp->no_imports = 0;
4272
0
            if (mi == root_imports)
4273
0
                memset(mi, 0, sizeof(*mi));
4274
0
            else
4275
0
                free(mi);
4276
0
        }
4277
4278
0
        unload_module_by_ID(mp->modid, tree_head);
4279
0
        module_head = mp->next;
4280
0
        free(mp->name);
4281
0
        free(mp->file);
4282
0
        free(mp);
4283
0
    }
4284
0
    unload_module_by_ID(-1, tree_head);
4285
    /*
4286
     * tree nodes are cleared 
4287
     */
4288
4289
0
    for (i = 0, ptc = tclist; i < tc_alloc; i++, ptc++) {
4290
0
        if (ptc->type == 0)
4291
0
            continue;
4292
0
        free_enums(&ptc->enums);
4293
0
        free_ranges(&ptc->ranges);
4294
0
        free(ptc->descriptor);
4295
0
        if (ptc->hint)
4296
0
            free(ptc->hint);
4297
0
        if (ptc->description)
4298
0
            free(ptc->description);
4299
0
    }
4300
0
    SNMP_FREE(tclist);
4301
0
    tc_alloc = 0;
4302
4303
0
    memset(buckets, 0, sizeof(buckets));
4304
0
    memset(nbuckets, 0, sizeof(nbuckets));
4305
0
    memset(tbuckets, 0, sizeof(tbuckets));
4306
4307
0
    for (i = 0; i < sizeof(root_imports) / sizeof(root_imports[0]); i++) {
4308
0
        SNMP_FREE(root_imports[i].label);
4309
0
    }
4310
4311
0
    max_module = 0;
4312
0
    current_module = 0;
4313
0
    module_map_head = NULL;
4314
0
    SNMP_FREE(last_err_module);
4315
4316
0
    {
4317
0
        struct node *np = orphan_nodes;
4318
4319
0
        while (np) {
4320
0
            struct node *nnp = np->next;
4321
0
            free_node(np);
4322
0
            np = nnp;
4323
0
        }
4324
0
        orphan_nodes = NULL;
4325
0
    }
4326
0
    erroneousMibs = 0;
4327
0
    first_err_module = 1;
4328
0
}
4329
4330
static void
4331
new_module(const char *name, const char *file)
4332
0
{
4333
0
    struct module  *mp;
4334
4335
0
    for (mp = module_head; mp; mp = mp->next)
4336
0
        if (!label_compare(mp->name, name)) {
4337
0
            DEBUGMSGTL(("parse-mibs", "  Module %s already noted\n", name));
4338
            /*
4339
             * Not the same file 
4340
             */
4341
0
            if (label_compare(mp->file, file)) {
4342
0
                DEBUGMSGTL(("parse-mibs", "    %s is now in %s\n",
4343
0
                            name, file));
4344
0
                if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
4345
0
               NETSNMP_DS_LIB_MIB_WARNINGS)) {
4346
0
                    snmp_log(LOG_WARNING,
4347
0
                             "Warning: Module %s was in %s now is %s\n",
4348
0
                             name, mp->file, file);
4349
0
    }
4350
4351
                /*
4352
                 * Use the new one in preference 
4353
                 */
4354
0
                free(mp->file);
4355
0
                mp->file = strdup(file);
4356
0
            }
4357
0
            return;
4358
0
        }
4359
4360
    /*
4361
     * Add this module to the list 
4362
     */
4363
0
    DEBUGMSGTL(("parse-mibs", "  Module %d %s is in %s\n", max_module,
4364
0
                name, file));
4365
0
    mp = calloc(1, sizeof(struct module));
4366
0
    if (mp == NULL)
4367
0
        return;
4368
0
    mp->name = strdup(name);
4369
0
    mp->file = strdup(file);
4370
0
    if (mp->name == NULL || mp->file == NULL) {
4371
0
        free(mp->name);
4372
0
        free(mp->file);
4373
0
        free(mp);
4374
0
        return;
4375
0
    }
4376
0
    mp->imports = NULL;
4377
0
    mp->no_imports = -1;        /* Not yet loaded */
4378
0
    mp->modid = max_module;
4379
0
    ++max_module;
4380
4381
0
    mp->next = module_head;     /* Or add to the *end* of the list? */
4382
0
    module_head = mp;
4383
0
}
4384
4385
4386
static void
4387
scan_objlist(struct node *root, struct module *mp, struct objgroup *list, const char *error)
4388
0
{
4389
0
    int             oLine = mibLine;
4390
4391
0
    while (list) {
4392
0
        struct objgroup *gp = list;
4393
0
        struct node    *np;
4394
0
        list = list->next;
4395
0
        np = root;
4396
0
        while (np)
4397
0
            if (label_compare(np->label, gp->name))
4398
0
                np = np->next;
4399
0
            else
4400
0
                break;
4401
0
        if (!np) {
4402
0
      int i;
4403
0
      struct module_import *mip;
4404
      /* if not local, check if it was IMPORTed */
4405
0
      for (i = 0, mip = mp->imports; i < mp->no_imports; i++, mip++)
4406
0
    if (strcmp(mip->label, gp->name) == 0)
4407
0
        break;
4408
0
      if (i == mp->no_imports) {
4409
0
    mibLine = gp->line;
4410
0
    print_error(error, gp->name, QUOTESTRING);
4411
0
      }
4412
0
        }
4413
0
        free(gp->name);
4414
0
        free(gp);
4415
0
    }
4416
0
    mibLine = oLine;
4417
0
}
4418
4419
static void free_objgroup(struct objgroup *o)
4420
0
{
4421
0
    while (o) {
4422
0
        struct objgroup *next = o->next;
4423
4424
0
        free(o->name);
4425
0
        free(o);
4426
0
        o = next;
4427
0
    }
4428
0
}
4429
4430
/*
4431
 * Parses a mib file and returns a linked list of nodes found in the file.
4432
 * Returns NULL on error.
4433
 */
4434
static struct node *
4435
parse(FILE * fp)
4436
0
{
4437
#ifdef TEST
4438
    extern void     xmalloc_stats(FILE *);
4439
#endif
4440
0
    char            token[MAXTOKEN];
4441
0
    char            name[MAXTOKEN+1];
4442
0
    int             type = LABEL;
4443
0
    int             lasttype = LABEL;
4444
4445
0
#define BETWEEN_MIBS          1
4446
0
#define IN_MIB                2
4447
0
    int             state = BETWEEN_MIBS;
4448
0
    struct node    *np = NULL, *root = NULL;
4449
0
    struct objgroup *oldgroups = NULL, *oldobjects = NULL, *oldnotifs =
4450
0
        NULL;
4451
4452
0
    DEBUGMSGTL(("parse-file", "Parsing file:  %s...\n", File));
4453
4454
0
    if (last_err_module)
4455
0
        free(last_err_module);
4456
0
    last_err_module = NULL;
4457
4458
0
    while (type != ENDOFFILE) {
4459
0
        struct node *nnp;
4460
4461
0
        if (lasttype == CONTINUE)
4462
0
            lasttype = type;
4463
0
        else
4464
0
            type = lasttype = get_token(fp, token, MAXTOKEN);
4465
4466
0
        switch (type) {
4467
0
        case END:
4468
0
            if (state != IN_MIB) {
4469
0
                print_error("Error, END before start of MIB", NULL, type);
4470
0
                gMibError = MODULE_SYNTAX_ERROR;
4471
0
                goto free_mib;
4472
0
            } else {
4473
0
                struct module  *mp;
4474
#ifdef TEST
4475
                printf("\nNodes for Module %s:\n", name);
4476
                print_nodes(stdout, root);
4477
#endif
4478
0
                for (mp = module_head; mp; mp = mp->next)
4479
0
                    if (mp->modid == current_module)
4480
0
                        break;
4481
0
                scan_objlist(root, mp, objgroups, "Undefined OBJECT-GROUP");
4482
0
                scan_objlist(root, mp, objects, "Undefined OBJECT");
4483
0
                scan_objlist(root, mp, notifs, "Undefined NOTIFICATION");
4484
0
                objgroups = oldgroups;
4485
0
                objects = oldobjects;
4486
0
                notifs = oldnotifs;
4487
0
                do_linkup(mp, root);
4488
0
                np = root = NULL;
4489
0
            }
4490
0
            state = BETWEEN_MIBS;
4491
#ifdef TEST
4492
            if (netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
4493
           NETSNMP_DS_LIB_MIB_WARNINGS)) {
4494
                /* xmalloc_stats(stderr); */
4495
      }
4496
#endif
4497
0
            continue;
4498
0
        case IMPORTS:
4499
0
            parse_imports(fp);
4500
0
            continue;
4501
0
        case EXPORTS:
4502
0
            while (type != SEMI && type != ENDOFFILE)
4503
0
                type = get_token(fp, token, MAXTOKEN);
4504
0
            continue;
4505
0
        case LABEL:
4506
0
        case INTEGER:
4507
0
        case INTEGER32:
4508
0
        case UINTEGER32:
4509
0
        case UNSIGNED32:
4510
0
        case COUNTER:
4511
0
        case COUNTER64:
4512
0
        case GAUGE:
4513
0
        case IPADDR:
4514
0
        case NETADDR:
4515
0
        case NSAPADDRESS:
4516
0
        case OBJSYNTAX:
4517
0
        case APPSYNTAX:
4518
0
        case SIMPLESYNTAX:
4519
0
        case OBJNAME:
4520
0
        case NOTIFNAME:
4521
0
        case KW_OPAQUE:
4522
0
        case TIMETICKS:
4523
0
            break;
4524
0
        case ENDOFFILE:
4525
0
            continue;
4526
0
        default:
4527
0
            strlcpy(name, token, sizeof(name));
4528
0
            type = get_token(fp, token, MAXTOKEN);
4529
0
            nnp = NULL;
4530
0
            if (type == MACRO) {
4531
0
                nnp = parse_macro(fp, name);
4532
0
                if (nnp == NULL) {
4533
0
                    print_error("Bad parse of MACRO", NULL, type);
4534
0
                    gMibError = MODULE_SYNTAX_ERROR;
4535
0
                }
4536
0
                free_node(nnp); /* IGNORE */
4537
0
                nnp = NULL;
4538
0
            } else
4539
0
                print_error(name, "is a reserved word", lasttype);
4540
0
            continue;           /* see if we can parse the rest of the file */
4541
0
        }
4542
0
        strlcpy(name, token, sizeof(name));
4543
0
        type = get_token(fp, token, MAXTOKEN);
4544
0
        nnp = NULL;
4545
4546
        /*
4547
         * Handle obsolete method to assign an object identifier to a
4548
         * module
4549
         */
4550
0
        if (lasttype == LABEL && type == LEFTBRACKET) {
4551
0
            while (type != RIGHTBRACKET && type != ENDOFFILE)
4552
0
                type = get_token(fp, token, MAXTOKEN);
4553
0
            if (type == ENDOFFILE) {
4554
0
                print_error("Expected \"}\"", token, type);
4555
0
                gMibError = MODULE_SYNTAX_ERROR;
4556
0
                goto free_mib;
4557
0
            }
4558
0
            type = get_token(fp, token, MAXTOKEN);
4559
0
        }
4560
4561
0
        switch (type) {
4562
0
        case DEFINITIONS:
4563
0
            if (state != BETWEEN_MIBS) {
4564
0
                print_error("Error, nested MIBS", NULL, type);
4565
0
                gMibError = MODULE_SYNTAX_ERROR;
4566
0
                goto free_mib;
4567
0
            }
4568
0
            state = IN_MIB;
4569
0
            current_module = which_module(name);
4570
0
            oldgroups = objgroups;
4571
0
            objgroups = NULL;
4572
0
            oldobjects = objects;
4573
0
            objects = NULL;
4574
0
            oldnotifs = notifs;
4575
0
            notifs = NULL;
4576
0
            if (current_module == -1) {
4577
0
                new_module(name, File);
4578
0
                current_module = which_module(name);
4579
0
            }
4580
0
            DEBUGMSGTL(("parse-mibs", "Parsing MIB: %d %s\n",
4581
0
                        current_module, name));
4582
0
            while ((type = get_token(fp, token, MAXTOKEN)) != ENDOFFILE)
4583
0
                if (type == BEGIN)
4584
0
                    break;
4585
0
            break;
4586
0
        case OBJTYPE:
4587
0
            nnp = parse_objecttype(fp, name);
4588
0
            if (nnp == NULL) {
4589
0
                print_error("Bad parse of OBJECT-TYPE", NULL, type);
4590
0
                gMibError = MODULE_SYNTAX_ERROR;
4591
0
                goto free_mib;
4592
0
            }
4593
0
            break;
4594
0
        case OBJGROUP:
4595
0
            nnp = parse_objectgroup(fp, name, OBJECTS, &objects);
4596
0
            if (nnp == NULL) {
4597
0
                print_error("Bad parse of OBJECT-GROUP", NULL, type);
4598
0
                gMibError = MODULE_SYNTAX_ERROR;
4599
0
                goto free_mib;
4600
0
            }
4601
0
            break;
4602
0
        case NOTIFGROUP:
4603
0
            nnp = parse_objectgroup(fp, name, NOTIFICATIONS, &notifs);
4604
0
            if (nnp == NULL) {
4605
0
                print_error("Bad parse of NOTIFICATION-GROUP", NULL, type);
4606
0
                gMibError = MODULE_SYNTAX_ERROR;
4607
0
                goto free_mib;
4608
0
            }
4609
0
            break;
4610
0
        case TRAPTYPE:
4611
0
            nnp = parse_trapDefinition(fp, name);
4612
0
            if (nnp == NULL) {
4613
0
                print_error("Bad parse of TRAP-TYPE", NULL, type);
4614
0
                gMibError = MODULE_SYNTAX_ERROR;
4615
0
                goto free_mib;
4616
0
            }
4617
0
            break;
4618
0
        case NOTIFTYPE:
4619
0
            nnp = parse_notificationDefinition(fp, name);
4620
0
            if (nnp == NULL) {
4621
0
                print_error("Bad parse of NOTIFICATION-TYPE", NULL, type);
4622
0
                gMibError = MODULE_SYNTAX_ERROR;
4623
0
                goto free_mib;
4624
0
            }
4625
0
            break;
4626
0
        case COMPLIANCE:
4627
0
            nnp = parse_compliance(fp, name);
4628
0
            if (nnp == NULL) {
4629
0
                print_error("Bad parse of MODULE-COMPLIANCE", NULL, type);
4630
0
                gMibError = MODULE_SYNTAX_ERROR;
4631
0
                goto free_mib;
4632
0
            }
4633
0
            break;
4634
0
        case AGENTCAP:
4635
0
            nnp = parse_capabilities(fp, name);
4636
0
            if (nnp == NULL) {
4637
0
                print_error("Bad parse of AGENT-CAPABILITIES", NULL, type);
4638
0
                gMibError = MODULE_SYNTAX_ERROR;
4639
0
                goto free_mib;
4640
0
            }
4641
0
            break;
4642
0
        case MACRO:
4643
0
            nnp = parse_macro(fp, name);
4644
0
            if (nnp == NULL) {
4645
0
                print_error("Bad parse of MACRO", NULL, type);
4646
0
                gMibError = MODULE_SYNTAX_ERROR;
4647
0
            }
4648
0
            free_node(nnp);     /* IGNORE */
4649
0
            nnp = NULL;
4650
0
            break;
4651
0
        case MODULEIDENTITY:
4652
0
            nnp = parse_moduleIdentity(fp, name);
4653
0
            if (nnp == NULL) {
4654
0
                print_error("Bad parse of MODULE-IDENTITY", NULL, type);
4655
0
                gMibError = MODULE_SYNTAX_ERROR;
4656
0
                goto free_mib;
4657
0
            }
4658
0
            break;
4659
0
        case OBJIDENTITY:
4660
0
            nnp = parse_objectgroup(fp, name, OBJECTS, &objects);
4661
0
            if (nnp == NULL) {
4662
0
                print_error("Bad parse of OBJECT-IDENTITY", NULL, type);
4663
0
                gMibError = MODULE_SYNTAX_ERROR;
4664
0
                goto free_mib;
4665
0
            }
4666
0
            break;
4667
0
        case OBJECT:
4668
0
            type = get_token(fp, token, MAXTOKEN);
4669
0
            if (type != IDENTIFIER) {
4670
0
                print_error("Expected IDENTIFIER", token, type);
4671
0
                gMibError = MODULE_SYNTAX_ERROR;
4672
0
                goto free_mib;
4673
0
            }
4674
0
            type = get_token(fp, token, MAXTOKEN);
4675
0
            if (type != EQUALS) {
4676
0
                print_error("Expected \"::=\"", token, type);
4677
0
                gMibError = MODULE_SYNTAX_ERROR;
4678
0
                goto free_mib;
4679
0
            }
4680
0
            nnp = parse_objectid(fp, name);
4681
0
            if (nnp == NULL) {
4682
0
                print_error("Bad parse of OBJECT IDENTIFIER", NULL, type);
4683
0
                gMibError = MODULE_SYNTAX_ERROR;
4684
0
                goto free_mib;
4685
0
            }
4686
0
            break;
4687
0
        case EQUALS:
4688
0
            nnp = parse_asntype(fp, name, &type, token);
4689
0
            lasttype = CONTINUE;
4690
0
            break;
4691
0
        case ENDOFFILE:
4692
0
            break;
4693
0
        default:
4694
0
            print_error("Bad operator", token, type);
4695
0
            gMibError = MODULE_SYNTAX_ERROR;
4696
0
            goto free_mib;
4697
0
        }
4698
0
        if (nnp) {
4699
0
            struct node *op = root;
4700
0
            int is_duplicate = 0;
4701
4702
0
            while (op) {
4703
0
                if (strcmp(nnp->label, op->label) == 0 && nnp->subid != op->subid) {
4704
0
                    snmp_log(LOG_ERR, 
4705
0
                        "Duplicate Object '%s' at line %d in %s. First at line %d\n",
4706
0
                        op->label, mibLine, File, op->lineno);
4707
0
        erroneousMibs++;
4708
0
                    is_duplicate = 1;
4709
0
                    break;
4710
0
    }
4711
0
                op = op->next;
4712
0
            }
4713
0
            if (is_duplicate) {
4714
0
                struct node *next_node;
4715
4716
0
                while (nnp) {
4717
0
                    next_node = nnp->next;
4718
0
                    free_node(nnp);
4719
0
                    nnp = next_node;
4720
0
                }
4721
0
            } else {
4722
0
                if (np)
4723
0
                    np->next = nnp;
4724
0
                else
4725
0
                    np = root = nnp;
4726
0
                while (np->next)
4727
0
                    np = np->next;
4728
0
                if (np->type == TYPE_OTHER)
4729
0
                    np->type = type;
4730
0
            }
4731
0
        }
4732
0
    }
4733
0
    DEBUGMSGTL(("parse-file", "End of file (%s)\n", File));
4734
0
    return root;
4735
4736
0
free_mib:
4737
0
    for (; root; root = np) {
4738
0
        np = root->next;
4739
0
        free_node(root);
4740
0
    }
4741
0
    free_objgroup(objgroups);
4742
0
    objgroups = NULL;
4743
0
    free_objgroup(objects);
4744
0
    objects = NULL;
4745
0
    free_objgroup(notifs);
4746
0
    notifs = NULL;
4747
0
    return NULL;
4748
0
}
4749
4750
/*
4751
 * return zero if character is not a label character. 
4752
 */
4753
static int
4754
is_labelchar(int ich)
4755
0
{
4756
0
    netsnmp_assert(ich == EOF || (0 <= ich && ich < 256));
4757
0
    if ((isalnum(ich)) || (ich == '-'))
4758
0
        return 1;
4759
0
    if (ich == '_' && netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
4760
0
               NETSNMP_DS_LIB_MIB_PARSE_LABEL)) {
4761
0
        return 1;
4762
0
    }
4763
4764
0
    return 0;
4765
0
}
4766
4767
/**
4768
 * Read a single character from a file. Assumes that the caller has invoked
4769
 * flockfile(). Uses fgetc_unlocked() instead of getc() since the former is
4770
 * implemented as an inline function in glibc. See also bug 3447196
4771
 * (http://sourceforge.net/tracker/?func=detail&aid=3447196&group_id=12694&atid=112694).
4772
 */
4773
static int netsnmp_getc(FILE *stream)
4774
0
{
4775
0
#ifdef HAVE_FGETC_UNLOCKED
4776
0
    return fgetc_unlocked(stream);
4777
#else
4778
    return getc(stream);
4779
#endif
4780
0
}
4781
4782
/*
4783
 * Parses a token from the file.  The type of the token parsed is returned,
4784
 * and the text is placed in the string pointed to by token.
4785
 * Warning: this method may recurse.
4786
 */
4787
static int
4788
get_token(FILE *const fp, char *const token, const int maxtlen)
4789
0
{
4790
0
    int             ch, ch_next;
4791
0
    char           *cp;
4792
0
    int             hash;
4793
0
    struct tok     *tp;
4794
0
    int             too_long;
4795
0
    enum { bdigits, xdigits, other } seenSymbols;
4796
4797
0
fetch_next_token:
4798
0
    cp = token;
4799
0
    hash = 0;
4800
0
    too_long = 0;
4801
    /*
4802
     * skip all white space 
4803
     */
4804
0
    do {
4805
0
        ch = netsnmp_getc(fp);
4806
0
        if (ch == '\n')
4807
0
            mibLine++;
4808
0
    }
4809
0
    while (isspace(ch) && ch != EOF);
4810
0
    *cp++ = ch;
4811
0
    *cp = '\0';
4812
0
    switch (ch) {
4813
0
    case EOF:
4814
0
        return ENDOFFILE;
4815
0
    case '"':
4816
0
        return parseQuoteString(fp, token, maxtlen);
4817
0
    case '\'':                 /* binary or hex constant */
4818
0
        seenSymbols = bdigits;
4819
0
        while ((ch = netsnmp_getc(fp)) != EOF && ch != '\'') {
4820
0
            switch (seenSymbols) {
4821
0
            case bdigits:
4822
0
                if (ch == '0' || ch == '1')
4823
0
                    break;
4824
0
                seenSymbols = xdigits;
4825
0
                NETSNMP_FALLTHROUGH;
4826
0
            case xdigits:
4827
0
                if (isxdigit(ch))
4828
0
                    break;
4829
0
                seenSymbols = other;
4830
0
                NETSNMP_FALLTHROUGH;
4831
0
            case other:
4832
0
                break;
4833
0
            }
4834
0
            if (cp - token < maxtlen - 2)
4835
0
                *cp++ = ch;
4836
0
        }
4837
0
        if (ch == '\'') {
4838
0
            unsigned long   val = 0;
4839
0
            char           *run = token + 1;
4840
0
            ch = netsnmp_getc(fp);
4841
0
            switch (ch) {
4842
0
            case EOF:
4843
0
                return ENDOFFILE;
4844
0
            case 'b':
4845
0
            case 'B':
4846
0
                if (seenSymbols > bdigits) {
4847
0
                    *cp++ = '\'';
4848
0
                    *cp = 0;
4849
0
                    return LABEL;
4850
0
                }
4851
0
                while (run != cp)
4852
0
                    val = val * 2 + *run++ - '0';
4853
0
                break;
4854
0
            case 'h':
4855
0
            case 'H':
4856
0
                if (seenSymbols > xdigits) {
4857
0
                    *cp++ = '\'';
4858
0
                    *cp = 0;
4859
0
                    return LABEL;
4860
0
                }
4861
0
                while (run != cp) {
4862
0
                    ch = *run++;
4863
0
                    if ('0' <= ch && ch <= '9')
4864
0
                        val = val * 16 + ch - '0';
4865
0
                    else if ('a' <= ch && ch <= 'f')
4866
0
                        val = val * 16 + ch - 'a' + 10;
4867
0
                    else if ('A' <= ch && ch <= 'F')
4868
0
                        val = val * 16 + ch - 'A' + 10;
4869
0
                }
4870
0
                break;
4871
0
            default:
4872
0
                *cp++ = '\'';
4873
0
                *cp = 0;
4874
0
                return LABEL;
4875
0
            }
4876
0
            sprintf(token, "%ld", val);
4877
0
            return NUMBER;
4878
0
        } else
4879
0
            return LABEL;
4880
0
    case '(':
4881
0
        return LEFTPAREN;
4882
0
    case ')':
4883
0
        return RIGHTPAREN;
4884
0
    case '{':
4885
0
        return LEFTBRACKET;
4886
0
    case '}':
4887
0
        return RIGHTBRACKET;
4888
0
    case '[':
4889
0
        return LEFTSQBRACK;
4890
0
    case ']':
4891
0
        return RIGHTSQBRACK;
4892
0
    case ';':
4893
0
        return SEMI;
4894
0
    case ',':
4895
0
        return COMMA;
4896
0
    case '|':
4897
0
        return BAR;
4898
0
    case '.':
4899
0
        ch_next = netsnmp_getc(fp);
4900
0
        if (ch_next == '.')
4901
0
            return RANGE;
4902
0
        ungetc(ch_next, fp);
4903
0
        return LABEL;
4904
0
    case ':':
4905
0
        ch_next = netsnmp_getc(fp);
4906
0
        if (ch_next != ':') {
4907
0
            ungetc(ch_next, fp);
4908
0
            return LABEL;
4909
0
        }
4910
0
        ch_next = netsnmp_getc(fp);
4911
0
        if (ch_next != '=') {
4912
0
            ungetc(ch_next, fp);
4913
0
            return LABEL;
4914
0
        }
4915
0
        return EQUALS;
4916
0
    case '-':
4917
0
        ch_next = netsnmp_getc(fp);
4918
0
        if (ch_next == '-') {
4919
0
            if (netsnmp_ds_get_boolean(NETSNMP_DS_LIBRARY_ID, 
4920
0
               NETSNMP_DS_LIB_MIB_COMMENT_TERM)) {
4921
                /*
4922
                 * Treat the rest of this line as a comment. 
4923
                 */
4924
0
                while ((ch_next != EOF) && (ch_next != '\n'))
4925
0
                    ch_next = netsnmp_getc(fp);
4926
0
            } else {
4927
                /*
4928
                 * Treat the rest of the line or until another '--' as a comment 
4929
                 */
4930
                /*
4931
                 * (this is the "technically" correct way to parse comments) 
4932
                 */
4933
0
                ch = ' ';
4934
0
                ch_next = netsnmp_getc(fp);
4935
0
                while (ch_next != EOF && ch_next != '\n' &&
4936
0
                       (ch != '-' || ch_next != '-')) {
4937
0
                    ch = ch_next;
4938
0
                    ch_next = netsnmp_getc(fp);
4939
0
                }
4940
0
            }
4941
0
            if (ch_next == EOF)
4942
0
                return ENDOFFILE;
4943
0
            if (ch_next == '\n')
4944
0
                mibLine++;
4945
0
            goto fetch_next_token;
4946
0
        }
4947
0
        ungetc(ch_next, fp);
4948
0
  NETSNMP_FALLTHROUGH;
4949
0
    default:
4950
        /*
4951
         * Accumulate characters until end of token is found.  Then attempt to
4952
         * match this token as a reserved word.  If a match is found, return the
4953
         * type.  Else it is a label.
4954
         */
4955
0
        if (!is_labelchar(ch))
4956
0
            return LABEL;
4957
0
        hash += tolower(ch);
4958
0
      more:
4959
0
        while (is_labelchar(ch_next = netsnmp_getc(fp))) {
4960
0
            hash += tolower(ch_next);
4961
0
            if (cp - token < maxtlen - 1)
4962
0
                *cp++ = ch_next;
4963
0
            else
4964
0
                too_long = 1;
4965
0
        }
4966
0
        ungetc(ch_next, fp);
4967
0
        *cp = '\0';
4968
4969
0
        if (too_long)
4970
0
            print_error("Warning: token too long", token, CONTINUE);
4971
0
        for (tp = buckets[BUCKET(hash)]; tp; tp = tp->next) {
4972
0
            if ((tp->hash == hash) && (!label_compare(tp->name, token)))
4973
0
                break;
4974
0
        }
4975
0
        if (tp) {
4976
0
            if (tp->token != CONTINUE)
4977
0
                return (tp->token);
4978
0
            while (isspace((ch_next = netsnmp_getc(fp))))
4979
0
                if (ch_next == '\n')
4980
0
                    mibLine++;
4981
0
            if (ch_next == EOF)
4982
0
                return ENDOFFILE;
4983
0
            if (isalnum(ch_next)) {
4984
0
                *cp++ = ch_next;
4985
0
                hash += tolower(ch_next);
4986
0
                goto more;
4987
0
            }
4988
0
        }
4989
0
        if (token[0] == '-' || isdigit((unsigned char)(token[0]))) {
4990
0
            for (cp = token + 1; *cp; cp++)
4991
0
                if (!isdigit((unsigned char)(*cp)))
4992
0
                    return LABEL;
4993
0
            return NUMBER;
4994
0
        }
4995
0
        return LABEL;
4996
0
    }
4997
0
}
4998
4999
netsnmp_feature_child_of(parse_get_token, netsnmp_unused);
5000
#ifndef NETSNMP_FEATURE_REMOVE_PARSE_GET_TOKEN
5001
int
5002
snmp_get_token(FILE * fp, char *token, int maxtlen)
5003
0
{
5004
0
    return get_token(fp, token, maxtlen);
5005
0
}
5006
#endif /* NETSNMP_FEATURE_REMOVE_PARSE_GET_TOKEN */
5007
5008
int
5009
add_mibfile(const char* tmpstr, const char* d_name)
5010
0
{
5011
0
    FILE           *fp;
5012
0
    char            token[MAXTOKEN], token2[MAXTOKEN];
5013
5014
    /*
5015
     * which module is this 
5016
     */
5017
0
    if ((fp = fopen(tmpstr, "r")) == NULL) {
5018
0
        snmp_log_perror(tmpstr);
5019
0
        return 1;
5020
0
    }
5021
0
    DEBUGMSGTL(("parse-mibs", "Checking file: %s...\n",
5022
0
                tmpstr));
5023
0
    mibLine = 1;
5024
0
    File = tmpstr;
5025
0
    if (get_token(fp, token, MAXTOKEN) != LABEL) {
5026
0
      fclose(fp);
5027
0
      return 1;
5028
0
    }
5029
    /*
5030
     * simple test for this being a MIB 
5031
     */
5032
0
    if (get_token(fp, token2, MAXTOKEN) == DEFINITIONS) {
5033
0
        new_module(token, tmpstr);
5034
0
        fclose(fp);
5035
0
        return 0;
5036
0
    } else {
5037
0
        fclose(fp);
5038
0
        return 1;
5039
0
    }
5040
0
}
5041
5042
static int elemcmp(const void *a, const void *b)
5043
0
{
5044
0
    const char *const *s1 = a, *const *s2 = b;
5045
5046
0
    return strcmp(*s1, *s2);
5047
0
}
5048
5049
/*
5050
 * Scan a directory and return all filenames found as an array of pointers to
5051
 * directory entries (@result).
5052
 */
5053
static int scan_directory(char ***result, const char *dirname)
5054
0
{
5055
0
    DIR            *dir, *dir2;
5056
0
    struct dirent  *file;
5057
0
    char          **filenames = NULL;
5058
0
    int             fname_len, i, filename_count = 0, array_size = 0;
5059
0
    char           *tmpstr;
5060
5061
0
    *result = NULL;
5062
5063
0
    dir = opendir(dirname);
5064
0
    if (!dir)
5065
0
        return -1;
5066
5067
0
    while ((file = readdir(dir))) {
5068
        /*
5069
         * Only parse file names that don't begin with a '.'
5070
         * Also skip files ending in '~', or starting/ending
5071
         * with '#' which are typically editor backup files.
5072
         */
5073
0
        fname_len = strlen(file->d_name);
5074
0
        if (fname_len > 0 && file->d_name[0] != '.'
5075
0
            && file->d_name[0] != '#'
5076
0
            && file->d_name[fname_len-1] != '#'
5077
0
            && file->d_name[fname_len-1] != '~') {
5078
0
            if (asprintf(&tmpstr, "%s/%s", dirname, file->d_name) < 0)
5079
0
                continue;
5080
0
            dir2 = opendir(tmpstr);
5081
0
            if (dir2) {
5082
                /* file is a directory, don't read it */
5083
0
                closedir(dir2);
5084
0
            } else {
5085
0
                if (filename_count >= array_size) {
5086
0
                    char **new_filenames;
5087
5088
0
                    array_size = (array_size + 16) * 2;
5089
0
                    new_filenames = realloc(filenames,
5090
0
                                        array_size * sizeof(filenames[0]));
5091
0
                    if (!new_filenames) {
5092
0
                        free(tmpstr);
5093
0
                        for (i = 0; i < filename_count; i++)
5094
0
                            free(filenames[i]);
5095
0
                        free(filenames);
5096
0
                        closedir(dir);
5097
0
                        return -1;
5098
0
                    }
5099
0
                    filenames = new_filenames;
5100
0
                }
5101
0
                filenames[filename_count++] = tmpstr;
5102
0
                tmpstr = NULL;
5103
0
            }
5104
0
            free(tmpstr);
5105
0
        }
5106
0
    }
5107
0
    closedir(dir);
5108
5109
0
    if (filenames)
5110
0
        qsort(filenames, filename_count, sizeof(filenames[0]), elemcmp);
5111
0
    *result = filenames;
5112
5113
0
    return filename_count;
5114
0
}
5115
5116
/* For Win32 platforms, the directory does not maintain a last modification
5117
 * date that we can compare with the modification date of the .index file.
5118
 * Therefore there is no way to know whether any .index file is valid.
5119
 * This is the reason for the #if !(defined(WIN32) || defined(cygwin))
5120
 * in the add_mibdir function
5121
 */
5122
int
5123
add_mibdir(const char *dirname)
5124
0
{
5125
0
    const char     *oldFile = File;
5126
0
    int             oldLine = mibLine;
5127
0
    char          **filenames;
5128
0
    int             count = 0;
5129
0
    int             filename_count, i;
5130
5131
0
    DEBUGMSGTL(("parse-mibs", "Scanning directory %s\n", dirname));
5132
5133
0
    filename_count = scan_directory(&filenames, dirname);
5134
5135
0
    if (filename_count >= 0) {
5136
0
        for (i = 0; i < filename_count; i++) {
5137
0
            if (add_mibfile(filenames[i], strrchr(filenames[i], '/')) == 0)
5138
0
                count++;
5139
0
      free(filenames[i]);
5140
0
        }
5141
0
        File = oldFile;
5142
0
        mibLine = oldLine;
5143
0
        free(filenames);
5144
0
        return (count);
5145
0
    }
5146
0
    else
5147
0
        DEBUGMSGTL(("parse-mibs","cannot open MIB directory %s\n", dirname));
5148
5149
0
    return (-1);
5150
0
}
5151
5152
5153
/*
5154
 * Returns the root of the whole tree
5155
 *   (for backwards compatability)
5156
 */
5157
struct tree    *
5158
read_mib(const char *filename)
5159
0
{
5160
0
    FILE           *fp;
5161
0
    char            token[MAXTOKEN];
5162
0
    const char     *oldFile = File;
5163
0
    int             oldLine = mibLine;
5164
5165
0
    fp = fopen(filename, "r");
5166
0
    if (fp == NULL) {
5167
0
        snmp_log_perror(filename);
5168
0
        return NULL;
5169
0
    }
5170
0
    mibLine = 1;
5171
0
    File = filename;
5172
0
    DEBUGMSGTL(("parse-mibs", "Parsing file: %s...\n", filename));
5173
0
    if (get_token(fp, token, MAXTOKEN) != LABEL) {
5174
0
      snmp_log(LOG_ERR, "Failed to parse MIB file %s\n", filename);
5175
0
      fclose(fp);
5176
0
      File = oldFile;
5177
0
      mibLine = oldLine;
5178
0
      return NULL;
5179
0
    }
5180
0
    fclose(fp);
5181
0
    new_module(token, filename);
5182
0
    (void) netsnmp_read_module(token);
5183
5184
0
    File = oldFile;
5185
0
    mibLine = oldLine;
5186
0
    return tree_head;
5187
0
}
5188
5189
5190
struct tree    *
5191
read_all_mibs(void)
5192
0
{
5193
0
    struct module  *mp;
5194
5195
0
    for (mp = module_head; mp; mp = mp->next)
5196
0
        if (mp->no_imports == -1)
5197
0
            netsnmp_read_module(mp->name);
5198
0
    adopt_orphans();
5199
5200
    /* If entered the syntax error loop in "read_module()" */
5201
0
    if (gLoop == 1) {
5202
0
        gLoop = 0;
5203
0
        free(gpMibErrorString);
5204
0
        gpMibErrorString = NULL;
5205
0
        if (asprintf(&gpMibErrorString, "Error in parsing MIB module(s): %s !"
5206
0
                     " Unable to load corresponding MIB(s)", gMibNames) < 0) {
5207
0
            snmp_log(LOG_CRIT,
5208
0
                     "failed to allocated memory for gpMibErrorString\n");
5209
0
        }
5210
0
    }
5211
5212
    /* Caller's responsibility to free this memory */
5213
0
    tree_head->parseErrorString = gpMibErrorString;
5214
  
5215
0
    return tree_head;
5216
0
}
5217
5218
5219
#ifdef TEST
5220
int main(int argc, char *argv[])
5221
{
5222
    int             i;
5223
    struct tree    *tp;
5224
    netsnmp_ds_set_int(NETSNMP_DS_LIBRARY_ID, NETSNMP_DS_LIB_MIB_WARNINGS, 2);
5225
5226
    netsnmp_init_mib();
5227
5228
    if (argc == 1)
5229
        (void) read_all_mibs();
5230
    else
5231
        for (i = 1; i < argc; i++)
5232
            read_mib(argv[i]);
5233
5234
    for (tp = tree_head; tp; tp = tp->next_peer)
5235
        print_subtree(stdout, tp, 0);
5236
    free_tree(tree_head);
5237
5238
    return 0;
5239
}
5240
#endif                          /* TEST */
5241
5242
static int
5243
parseQuoteString(FILE * fp, char *token, int maxtlen)
5244
0
{
5245
0
    register int    ch;
5246
0
    int             count = 0;
5247
0
    int             too_long = 0;
5248
0
    char           *token_start = token;
5249
5250
0
    for (ch = netsnmp_getc(fp); ch != EOF; ch = netsnmp_getc(fp)) {
5251
0
        if (ch == '\r')
5252
0
            continue;
5253
0
        if (ch == '\n') {
5254
0
            mibLine++;
5255
0
        } else if (ch == '"') {
5256
0
            netsnmp_assert(token - token_start < maxtlen);
5257
0
            *token = '\0';
5258
0
            if (too_long && netsnmp_ds_get_int(NETSNMP_DS_LIBRARY_ID, 
5259
0
             NETSNMP_DS_LIB_MIB_WARNINGS) > 1) {
5260
                /*
5261
                 * show short form for brevity sake 
5262
                 */
5263
0
                int             truncate_at = SNMP_MIN(50, maxtlen - 1);
5264
0
                char            ch_save = *(token_start + truncate_at);
5265
5266
0
                *(token_start + truncate_at) = '\0';
5267
0
                print_error("Warning: string too long",
5268
0
                            token_start, QUOTESTRING);
5269
0
                *(token_start + truncate_at) = ch_save;
5270
0
            }
5271
0
            return QUOTESTRING;
5272
0
        }
5273
        /*
5274
         * maximum description length check.  If greater, keep parsing
5275
         * but truncate the string 
5276
         */
5277
0
        if (++count < maxtlen)
5278
0
            *token++ = ch;
5279
0
        else
5280
0
            too_long = 1;
5281
0
    }
5282
5283
0
    return 0;
5284
0
}
5285
5286
/*
5287
 * struct index_list *
5288
 * getIndexes(FILE *fp):
5289
 *   This routine parses a string like  { blah blah blah } and returns a
5290
 *   list of the strings enclosed within it.
5291
 *
5292
 */
5293
static struct index_list *
5294
getIndexes(FILE * fp, struct index_list **retp)
5295
0
{
5296
0
    int             type;
5297
0
    char            token[MAXTOKEN];
5298
0
    char            nextIsImplied = 0;
5299
5300
0
    struct index_list *mylist = NULL;
5301
0
    struct index_list **mypp = &mylist;
5302
5303
0
    free_indexes(retp);
5304
5305
0
    type = get_token(fp, token, MAXTOKEN);
5306
5307
0
    if (type != LEFTBRACKET) {
5308
0
        return NULL;
5309
0
    }
5310
5311
0
    type = get_token(fp, token, MAXTOKEN);
5312
0
    while (type != RIGHTBRACKET && type != ENDOFFILE) {
5313
0
        if ((type == LABEL) || (type & SYNTAX_MASK)) {
5314
0
            *mypp = calloc(1, sizeof(struct index_list));
5315
0
            if (*mypp) {
5316
0
                (*mypp)->ilabel = strdup(token);
5317
0
                (*mypp)->isimplied = nextIsImplied;
5318
0
                mypp = &(*mypp)->next;
5319
0
                nextIsImplied = 0;
5320
0
            }
5321
0
        } else if (type == IMPLIED) {
5322
0
            nextIsImplied = 1;
5323
0
        }
5324
0
        type = get_token(fp, token, MAXTOKEN);
5325
0
    }
5326
5327
0
    *retp = mylist;
5328
0
    return mylist;
5329
0
}
5330
5331
static struct varbind_list *
5332
getVarbinds(FILE * fp, struct varbind_list **retp)
5333
0
{
5334
0
    int             type;
5335
0
    char            token[MAXTOKEN];
5336
5337
0
    struct varbind_list *mylist = NULL;
5338
0
    struct varbind_list **mypp = &mylist;
5339
5340
0
    free_varbinds(retp);
5341
5342
0
    type = get_token(fp, token, MAXTOKEN);
5343
5344
0
    if (type != LEFTBRACKET) {
5345
0
        return NULL;
5346
0
    }
5347
5348
0
    type = get_token(fp, token, MAXTOKEN);
5349
0
    while (type != RIGHTBRACKET && type != ENDOFFILE) {
5350
0
        if ((type == LABEL) || (type & SYNTAX_MASK)) {
5351
0
            *mypp = calloc(1, sizeof(struct varbind_list));
5352
0
            if (*mypp) {
5353
0
                (*mypp)->vblabel = strdup(token);
5354
0
                mypp = &(*mypp)->next;
5355
0
            }
5356
0
        }
5357
0
        type = get_token(fp, token, MAXTOKEN);
5358
0
    }
5359
5360
0
    *retp = mylist;
5361
0
    return mylist;
5362
0
}
5363
5364
static void
5365
free_indexes(struct index_list **spp)
5366
0
{
5367
0
    if (spp && *spp) {
5368
0
        struct index_list *pp, *npp;
5369
5370
0
        pp = *spp;
5371
0
        *spp = NULL;
5372
5373
0
        while (pp) {
5374
0
            npp = pp->next;
5375
0
            if (pp->ilabel)
5376
0
                free(pp->ilabel);
5377
0
            free(pp);
5378
0
            pp = npp;
5379
0
        }
5380
0
    }
5381
0
}
5382
5383
static void
5384
free_varbinds(struct varbind_list **spp)
5385
0
{
5386
0
    if (spp && *spp) {
5387
0
        struct varbind_list *pp, *npp;
5388
5389
0
        pp = *spp;
5390
0
        *spp = NULL;
5391
5392
0
        while (pp) {
5393
0
            npp = pp->next;
5394
0
            if (pp->vblabel)
5395
0
                free(pp->vblabel);
5396
0
            free(pp);
5397
0
            pp = npp;
5398
0
        }
5399
0
    }
5400
0
}
5401
5402
static void
5403
free_ranges(struct range_list **spp)
5404
0
{
5405
0
    if (spp && *spp) {
5406
0
        struct range_list *pp, *npp;
5407
5408
0
        pp = *spp;
5409
0
        *spp = NULL;
5410
5411
0
        while (pp) {
5412
0
            npp = pp->next;
5413
0
            free(pp);
5414
0
            pp = npp;
5415
0
        }
5416
0
    }
5417
0
}
5418
5419
static void
5420
free_enums(struct enum_list **spp)
5421
0
{
5422
0
    if (spp && *spp) {
5423
0
        struct enum_list *pp, *npp;
5424
5425
0
        pp = *spp;
5426
0
        *spp = NULL;
5427
5428
0
        while (pp) {
5429
0
            npp = pp->next;
5430
0
            if (pp->label)
5431
0
                free(pp->label);
5432
0
            free(pp);
5433
0
            pp = npp;
5434
0
        }
5435
0
    }
5436
0
}
5437
5438
static struct enum_list *
5439
copy_enums(struct enum_list *sp)
5440
0
{
5441
0
    struct enum_list *xp = NULL, **spp = &xp;
5442
5443
0
    while (sp) {
5444
0
        *spp = calloc(1, sizeof(struct enum_list));
5445
0
        if (!*spp)
5446
0
            break;
5447
0
        (*spp)->label = strdup(sp->label);
5448
0
        (*spp)->value = sp->value;
5449
0
        spp = &(*spp)->next;
5450
0
        sp = sp->next;
5451
0
    }
5452
0
    return (xp);
5453
0
}
5454
5455
static struct range_list *
5456
copy_ranges(struct range_list *sp)
5457
0
{
5458
0
    struct range_list *xp = NULL, **spp = &xp;
5459
5460
0
    while (sp) {
5461
0
        *spp = calloc(1, sizeof(struct range_list));
5462
0
        if (!*spp)
5463
0
            break;
5464
0
        (*spp)->low = sp->low;
5465
0
        (*spp)->high = sp->high;
5466
0
        spp = &(*spp)->next;
5467
0
        sp = sp->next;
5468
0
    }
5469
0
    return (xp);
5470
0
}
5471
5472
/*
5473
 * This routine parses a string like  { blah blah blah } and returns OBJID if
5474
 * it is well formed, and NULL if not.
5475
 */
5476
static int
5477
tossObjectIdentifier(FILE * fp)
5478
0
{
5479
0
    int             type;
5480
0
    char            token[MAXTOKEN];
5481
0
    int             bracketcount = 1;
5482
5483
0
    type = get_token(fp, token, MAXTOKEN);
5484
5485
0
    if (type != LEFTBRACKET)
5486
0
        return 0;
5487
0
    while ((type != RIGHTBRACKET || bracketcount > 0) && type != ENDOFFILE) {
5488
0
        type = get_token(fp, token, MAXTOKEN);
5489
0
        if (type == LEFTBRACKET)
5490
0
            bracketcount++;
5491
0
        else if (type == RIGHTBRACKET)
5492
0
            bracketcount--;
5493
0
    }
5494
5495
0
    if (type == RIGHTBRACKET)
5496
0
        return OBJID;
5497
0
    else
5498
0
        return 0;
5499
0
}
5500
5501
/* Find node in any MIB module
5502
   Used by Perl modules   */
5503
struct tree    *
5504
find_node(const char *name, struct tree *subtree)
5505
0
{                               /* Unused */
5506
0
    return (find_tree_node(name, -1));
5507
0
}
5508
5509
netsnmp_feature_child_of(parse_find_node2, netsnmp_unused);
5510
#ifndef NETSNMP_FEATURE_REMOVE_PARSE_FIND_NODE2
5511
struct tree    *
5512
find_node2(const char *name, const char *module)
5513
0
{                               
5514
0
  int modid = -1;
5515
0
  if (module) {
5516
0
    modid = which_module(module);
5517
0
  }
5518
0
  if (modid == -1)
5519
0
  {
5520
0
    return (NULL);
5521
0
  }
5522
0
  return (find_tree_node(name, modid));
5523
0
}
5524
#endif /* NETSNMP_FEATURE_REMOVE_PARSE_FIND_NODE2 */
5525
5526
#ifndef NETSNMP_FEATURE_REMOVE_FIND_MODULE
5527
/* Used in the perl module */
5528
struct module  *
5529
find_module(int mid)
5530
0
{
5531
0
    struct module  *mp;
5532
5533
0
    for (mp = module_head; mp != NULL; mp = mp->next) {
5534
0
        if (mp->modid == mid)
5535
0
            break;
5536
0
    }
5537
0
    return mp;
5538
0
}
5539
#endif /* NETSNMP_FEATURE_REMOVE_FIND_MODULE */
5540
5541
5542
static char     leave_indent[256];
5543
static int      leave_was_simple;
5544
5545
static void
5546
print_mib_leaves(FILE * f, struct tree *tp, int width)
5547
0
{
5548
0
    struct tree    *ntp;
5549
0
    char           *ip = leave_indent + strlen(leave_indent) - 1;
5550
0
    char            last_ipch = *ip;
5551
5552
0
    *ip = '+';
5553
0
    if (tp->type == TYPE_OTHER || tp->type > TYPE_SIMPLE_LAST) {
5554
0
        fprintf(f, "%s--%s(%ld)\n", leave_indent, tp->label, tp->subid);
5555
0
        if (tp->indexes) {
5556
0
            struct index_list *xp = tp->indexes;
5557
0
            int             first = 1, cpos = 0, len, cmax =
5558
0
                width - strlen(leave_indent) - 12;
5559
0
            *ip = last_ipch;
5560
0
            fprintf(f, "%s  |  Index: ", leave_indent);
5561
0
            while (xp) {
5562
0
                if (first)
5563
0
                    first = 0;
5564
0
                else
5565
0
                    fprintf(f, ", ");
5566
0
                cpos += (len = strlen(xp->ilabel) + 2);
5567
0
                if (cpos > cmax) {
5568
0
                    fprintf(f, "\n");
5569
0
                    fprintf(f, "%s  |         ", leave_indent);
5570
0
                    cpos = len;
5571
0
                }
5572
0
                fprintf(f, "%s", xp->ilabel);
5573
0
                xp = xp->next;
5574
0
            }
5575
0
            fprintf(f, "\n");
5576
0
            *ip = '+';
5577
0
        }
5578
0
    } else {
5579
0
        const char     *acc, *typ;
5580
0
        int             size = 0;
5581
0
        switch (tp->access) {
5582
0
        case MIB_ACCESS_NOACCESS:
5583
0
            acc = "----";
5584
0
            break;
5585
0
        case MIB_ACCESS_READONLY:
5586
0
            acc = "-R--";
5587
0
            break;
5588
0
        case MIB_ACCESS_WRITEONLY:
5589
0
            acc = "--W-";
5590
0
            break;
5591
0
        case MIB_ACCESS_READWRITE:
5592
0
            acc = "-RW-";
5593
0
            break;
5594
0
        case MIB_ACCESS_NOTIFY:
5595
0
            acc = "---N";
5596
0
            break;
5597
0
        case MIB_ACCESS_CREATE:
5598
0
            acc = "CR--";
5599
0
            break;
5600
0
        default:
5601
0
            acc = "    ";
5602
0
            break;
5603
0
        }
5604
0
        switch (tp->type) {
5605
0
        case TYPE_OBJID:
5606
0
            typ = "ObjID    ";
5607
0
            break;
5608
0
        case TYPE_OCTETSTR:
5609
0
            typ = "String   ";
5610
0
            size = 1;
5611
0
            break;
5612
0
        case TYPE_INTEGER:
5613
0
            if (tp->enums)
5614
0
                typ = "EnumVal  ";
5615
0
            else
5616
0
                typ = "INTEGER  ";
5617
0
            break;
5618
0
        case TYPE_NETADDR:
5619
0
            typ = "NetAddr  ";
5620
0
            break;
5621
0
        case TYPE_IPADDR:
5622
0
            typ = "IpAddr   ";
5623
0
            break;
5624
0
        case TYPE_COUNTER:
5625
0
            typ = "Counter  ";
5626
0
            break;
5627
0
        case TYPE_GAUGE:
5628
0
            typ = "Gauge    ";
5629
0
            break;
5630
0
        case TYPE_TIMETICKS:
5631
0
            typ = "TimeTicks";
5632
0
            break;
5633
0
        case TYPE_OPAQUE:
5634
0
            typ = "Opaque   ";
5635
0
            size = 1;
5636
0
            break;
5637
0
        case TYPE_NULL:
5638
0
            typ = "Null     ";
5639
0
            break;
5640
0
        case TYPE_COUNTER64:
5641
0
            typ = "Counter64";
5642
0
            break;
5643
0
        case TYPE_BITSTRING:
5644
0
            typ = "BitString";
5645
0
            break;
5646
0
        case TYPE_NSAPADDRESS:
5647
0
            typ = "NsapAddr ";
5648
0
            break;
5649
0
        case TYPE_UNSIGNED32:
5650
0
            typ = "Unsigned ";
5651
0
            break;
5652
0
        case TYPE_UINTEGER:
5653
0
            typ = "UInteger ";
5654
0
            break;
5655
0
        case TYPE_INTEGER32:
5656
0
            typ = "Integer32";
5657
0
            break;
5658
0
        default:
5659
0
            typ = "         ";
5660
0
            break;
5661
0
        }
5662
0
        fprintf(f, "%s-- %s %s %s(%ld)\n", leave_indent, acc, typ,
5663
0
                tp->label, tp->subid);
5664
0
        *ip = last_ipch;
5665
0
        if (tp->tc_index >= 0)
5666
0
            fprintf(f, "%s        Textual Convention: %s\n", leave_indent,
5667
0
                    tclist[tp->tc_index].descriptor);
5668
0
        if (tp->enums) {
5669
0
            struct enum_list *ep = tp->enums;
5670
0
            int             cpos = 0, cmax =
5671
0
                width - strlen(leave_indent) - 16;
5672
0
            fprintf(f, "%s        Values: ", leave_indent);
5673
0
            while (ep) {
5674
0
                char            buf[80];
5675
0
                int             bufw;
5676
0
                if (ep != tp->enums)
5677
0
                    fprintf(f, ", ");
5678
0
                snprintf(buf, sizeof(buf), "%s(%d)", ep->label, ep->value);
5679
0
                cpos += (bufw = strlen(buf) + 2);
5680
0
                if (cpos >= cmax) {
5681
0
                    fprintf(f, "\n%s                ", leave_indent);
5682
0
                    cpos = bufw;
5683
0
                }
5684
0
                fprintf(f, "%s", buf);
5685
0
                ep = ep->next;
5686
0
            }
5687
0
            fprintf(f, "\n");
5688
0
        }
5689
0
        if (tp->ranges) {
5690
0
            struct range_list *rp = tp->ranges;
5691
0
            if (size)
5692
0
                fprintf(f, "%s        Size: ", leave_indent);
5693
0
            else
5694
0
                fprintf(f, "%s        Range: ", leave_indent);
5695
0
            while (rp) {
5696
0
                if (rp != tp->ranges)
5697
0
                    fprintf(f, " | ");
5698
0
                print_range_value(f, tp->type, rp);
5699
0
                rp = rp->next;
5700
0
            }
5701
0
            fprintf(f, "\n");
5702
0
        }
5703
0
    }
5704
0
    *ip = last_ipch;
5705
0
    strcat(leave_indent, "  |");
5706
0
    leave_was_simple = tp->type != TYPE_OTHER;
5707
5708
0
    {
5709
0
        int             i, j, count = 0;
5710
0
        struct leave {
5711
0
            oid             id;
5712
0
            struct tree    *tp;
5713
0
        }              *leaves, *lp;
5714
5715
0
        for (ntp = tp->child_list; ntp; ntp = ntp->next_peer)
5716
0
            count++;
5717
0
        if (count) {
5718
0
            leaves = calloc(count, sizeof(struct leave));
5719
0
            if (!leaves)
5720
0
                return;
5721
0
            for (ntp = tp->child_list, count = 0; ntp;
5722
0
                 ntp = ntp->next_peer) {
5723
0
                for (i = 0, lp = leaves; i < count; i++, lp++)
5724
0
                    if (lp->id >= ntp->subid)
5725
0
                        break;
5726
0
                for (j = count; j > i; j--)
5727
0
                    leaves[j] = leaves[j - 1];
5728
0
                lp->id = ntp->subid;
5729
0
                lp->tp = ntp;
5730
0
                count++;
5731
0
            }
5732
0
            for (i = 1, lp = leaves; i <= count; i++, lp++) {
5733
0
                if (!leave_was_simple || lp->tp->type == 0)
5734
0
                    fprintf(f, "%s\n", leave_indent);
5735
0
                if (i == count)
5736
0
                    ip[3] = ' ';
5737
0
                print_mib_leaves(f, lp->tp, width);
5738
0
            }
5739
0
            free(leaves);
5740
0
            leave_was_simple = 0;
5741
0
        }
5742
0
    }
5743
0
    ip[1] = 0;
5744
0
}
5745
5746
void
5747
print_mib_tree(FILE * f, struct tree *tp, int width)
5748
0
{
5749
0
    leave_indent[0] = ' ';
5750
0
    leave_indent[1] = 0;
5751
0
    leave_was_simple = 1;
5752
0
    print_mib_leaves(f, tp, width);
5753
0
}
5754
5755
5756
/*
5757
 * Merge the parsed object identifier with the existing node.
5758
 * If there is a problem with the identifier, release the existing node.
5759
 */
5760
static struct node *
5761
merge_parse_objectid(struct node *np, FILE * fp, char *name)
5762
0
{
5763
0
    struct node    *nnp;
5764
    /*
5765
     * printf("merge defval --> %s\n",np->defaultValue); 
5766
     */
5767
0
    nnp = parse_objectid(fp, name);
5768
0
    if (nnp) {
5769
5770
        /*
5771
         * apply last OID sub-identifier data to the information 
5772
         */
5773
        /*
5774
         * already collected for this node. 
5775
         */
5776
0
        struct node    *headp, *nextp;
5777
0
        int             ncount = 0;
5778
0
        nextp = headp = nnp;
5779
0
        while (nnp->next) {
5780
0
            nextp = nnp;
5781
0
            ncount++;
5782
0
            nnp = nnp->next;
5783
0
        }
5784
5785
0
        np->label = nnp->label;
5786
0
        np->subid = nnp->subid;
5787
0
        np->modid = nnp->modid;
5788
0
        np->parent = nnp->parent;
5789
0
  if (nnp->filename != NULL) {
5790
0
    free(nnp->filename);
5791
0
  }
5792
0
        free(nnp);
5793
5794
0
        if (ncount) {
5795
0
            nextp->next = np;
5796
0
            np = headp;
5797
0
        }
5798
0
    } else {
5799
0
        free_node(np);
5800
0
        np = NULL;
5801
0
    }
5802
5803
0
    return np;
5804
0
}
5805
5806
/*
5807
 * transfer data to tree from node
5808
 *
5809
 * move pointers for alloc'd data from np to tp.
5810
 * this prevents them from being freed when np is released.
5811
 * parent member is not moved.
5812
 *
5813
 * CAUTION: nodes may be repeats of existing tree nodes.
5814
 * This can happen especially when resolving IMPORT clauses.
5815
 *
5816
 */
5817
static void
5818
tree_from_node(struct tree *tp, struct node *np)
5819
0
{
5820
0
    free_partial_tree(tp, FALSE);
5821
5822
0
    tp->label = np->label;
5823
0
    np->label = NULL;
5824
0
    tp->enums = np->enums;
5825
0
    np->enums = NULL;
5826
0
    tp->ranges = np->ranges;
5827
0
    np->ranges = NULL;
5828
0
    tp->indexes = np->indexes;
5829
0
    np->indexes = NULL;
5830
0
    tp->augments = np->augments;
5831
0
    np->augments = NULL;
5832
0
    tp->varbinds = np->varbinds;
5833
0
    np->varbinds = NULL;
5834
0
    tp->hint = np->hint;
5835
0
    np->hint = NULL;
5836
0
    tp->units = np->units;
5837
0
    np->units = NULL;
5838
0
    tp->description = np->description;
5839
0
    np->description = NULL;
5840
0
    tp->reference = np->reference;
5841
0
    np->reference = NULL;
5842
0
    tp->defaultValue = np->defaultValue;
5843
0
    np->defaultValue = NULL;
5844
0
    tp->subid = np->subid;
5845
0
    tp->tc_index = np->tc_index;
5846
0
    tp->type = translation_table[np->type];
5847
0
    tp->access = np->access;
5848
0
    tp->status = np->status;
5849
5850
0
    set_function(tp);
5851
0
}
5852
5853
#endif /* NETSNMP_DISABLE_MIB_LOADING */