Coverage Report

Created: 2026-07-10 06:40

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/yara/libyara/object.c
Line
Count
Source
1
/*
2
Copyright (c) 2014. The YARA Authors. All Rights Reserved.
3
4
Redistribution and use in source and binary forms, with or without modification,
5
are permitted provided that the following conditions are met:
6
7
1. Redistributions of source code must retain the above copyright notice, this
8
list of conditions and the following disclaimer.
9
10
2. Redistributions in binary form must reproduce the above copyright notice,
11
this list of conditions and the following disclaimer in the documentation and/or
12
other materials provided with the distribution.
13
14
3. Neither the name of the copyright holder nor the names of its contributors
15
may be used to endorse or promote products derived from this software without
16
specific prior written permission.
17
18
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
19
ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
20
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
21
DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
22
ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
23
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
24
LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
25
ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
27
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28
*/
29
30
#include <assert.h>
31
#include <ctype.h>
32
#include <math.h>
33
#include <stdarg.h>
34
#include <stdio.h>
35
#include <stdlib.h>
36
#include <string.h>
37
#include <yara/error.h>
38
#include <yara/exec.h>
39
#include <yara/globals.h>
40
#include <yara/mem.h>
41
#include <yara/object.h>
42
#include <yara/strutils.h>
43
#include <yara/utils.h>
44
45
////////////////////////////////////////////////////////////////////////////////
46
// Creates a new object with the given type and identifier. If a parent is
47
// specified the new object is owned by the parent and it will be destroyed when
48
// the parent is destroyed. You must not call yr_object_destroy on an objected
49
// that has a parent, you should destroy the parent instead.
50
//
51
int yr_object_create(
52
    int8_t type,
53
    const char* identifier,
54
    YR_OBJECT* parent,
55
    YR_OBJECT** object)
56
11.6M
{
57
11.6M
  YR_OBJECT* obj;
58
11.6M
  size_t object_size = 0;
59
60
11.6M
  assert(parent != NULL || object != NULL);
61
11.6M
  assert(identifier != NULL);
62
63
11.6M
  switch (type)
64
11.6M
  {
65
1.41M
  case OBJECT_TYPE_STRUCTURE:
66
1.41M
    object_size = sizeof(YR_OBJECT_STRUCTURE);
67
1.41M
    break;
68
1.49M
  case OBJECT_TYPE_ARRAY:
69
1.49M
    object_size = sizeof(YR_OBJECT_ARRAY);
70
1.49M
    break;
71
0
  case OBJECT_TYPE_DICTIONARY:
72
0
    object_size = sizeof(YR_OBJECT_DICTIONARY);
73
0
    break;
74
4.32M
  case OBJECT_TYPE_INTEGER:
75
4.32M
    object_size = sizeof(YR_OBJECT);
76
4.32M
    break;
77
0
  case OBJECT_TYPE_FLOAT:
78
0
    object_size = sizeof(YR_OBJECT);
79
0
    break;
80
4.41M
  case OBJECT_TYPE_STRING:
81
4.41M
    object_size = sizeof(YR_OBJECT);
82
4.41M
    break;
83
0
  case OBJECT_TYPE_FUNCTION:
84
0
    object_size = sizeof(YR_OBJECT_FUNCTION);
85
0
    break;
86
0
  default:
87
0
    assert(false);
88
11.6M
  }
89
90
11.6M
  obj = (YR_OBJECT*) yr_malloc(object_size);
91
92
11.6M
  if (obj == NULL)
93
0
    return ERROR_INSUFFICIENT_MEMORY;
94
95
11.6M
  obj->type = type;
96
11.6M
  obj->identifier = yr_strdup(identifier);
97
11.6M
  obj->parent = parent;
98
11.6M
  obj->data = NULL;
99
100
11.6M
  switch (type)
101
11.6M
  {
102
4.32M
  case OBJECT_TYPE_INTEGER:
103
4.32M
    obj->value.i = YR_UNDEFINED;
104
4.32M
    break;
105
0
  case OBJECT_TYPE_FLOAT:
106
0
    obj->value.d = NAN;
107
0
    break;
108
4.41M
  case OBJECT_TYPE_STRING:
109
4.41M
    obj->value.ss = NULL;
110
4.41M
    break;
111
1.41M
  case OBJECT_TYPE_STRUCTURE:
112
1.41M
    object_as_structure(obj)->members = NULL;
113
1.41M
    break;
114
1.49M
  case OBJECT_TYPE_ARRAY:
115
1.49M
    object_as_array(obj)->items = NULL;
116
1.49M
    object_as_array(obj)->prototype_item = NULL;
117
1.49M
    break;
118
0
  case OBJECT_TYPE_DICTIONARY:
119
0
    object_as_dictionary(obj)->items = NULL;
120
0
    object_as_dictionary(obj)->prototype_item = NULL;
121
0
    break;
122
0
  case OBJECT_TYPE_FUNCTION:
123
0
    object_as_function(obj)->return_obj = NULL;
124
0
    for (int i = 0; i < YR_MAX_OVERLOADED_FUNCTIONS; i++)
125
0
    {
126
0
      object_as_function(obj)->prototypes[i].arguments_fmt = NULL;
127
0
      object_as_function(obj)->prototypes[i].code = NULL;
128
0
    }
129
0
    break;
130
11.6M
  }
131
132
11.6M
  if (obj->identifier == NULL)
133
0
  {
134
0
    yr_free(obj);
135
0
    return ERROR_INSUFFICIENT_MEMORY;
136
0
  }
137
138
11.6M
  if (parent != NULL)
139
606k
  {
140
606k
    assert(
141
606k
        parent->type == OBJECT_TYPE_STRUCTURE ||
142
606k
        parent->type == OBJECT_TYPE_ARRAY ||
143
606k
        parent->type == OBJECT_TYPE_DICTIONARY ||
144
606k
        parent->type == OBJECT_TYPE_FUNCTION);
145
146
    // Objects with a parent take the canary from it.
147
606k
    obj->canary = parent->canary;
148
149
606k
    switch (parent->type)
150
606k
    {
151
504k
    case OBJECT_TYPE_STRUCTURE:
152
504k
      FAIL_ON_ERROR_WITH_CLEANUP(yr_object_structure_set_member(parent, obj), {
153
504k
        yr_free((void*) obj->identifier);
154
504k
        yr_free(obj);
155
504k
      });
156
504k
      break;
157
158
102k
    case OBJECT_TYPE_ARRAY:
159
102k
      object_as_array(parent)->prototype_item = obj;
160
102k
      break;
161
162
0
    case OBJECT_TYPE_DICTIONARY:
163
0
      object_as_dictionary(parent)->prototype_item = obj;
164
0
      break;
165
166
0
    case OBJECT_TYPE_FUNCTION:
167
0
      object_as_function(parent)->return_obj = obj;
168
0
      break;
169
606k
    }
170
606k
  }
171
172
11.6M
  if (object != NULL)
173
11.2M
    *object = obj;
174
175
11.6M
  return ERROR_SUCCESS;
176
11.6M
}
177
178
void yr_object_set_canary(YR_OBJECT* object, int canary)
179
7.30k
{
180
7.30k
  object->canary = canary;
181
7.30k
}
182
183
int yr_object_function_create(
184
    const char* identifier,
185
    const char* arguments_fmt,
186
    const char* return_fmt,
187
    YR_MODULE_FUNC code,
188
    YR_OBJECT* parent,
189
    YR_OBJECT** function)
190
0
{
191
0
  YR_OBJECT* return_obj;
192
0
  YR_OBJECT* o = NULL;
193
0
  YR_OBJECT_FUNCTION* f = NULL;
194
195
0
  int8_t return_type;
196
197
  // The parent of a function must be a structure.
198
0
  assert(parent != NULL && parent->type == OBJECT_TYPE_STRUCTURE);
199
200
0
  switch (*return_fmt)
201
0
  {
202
0
  case 'i':
203
0
    return_type = OBJECT_TYPE_INTEGER;
204
0
    break;
205
0
  case 's':
206
0
    return_type = OBJECT_TYPE_STRING;
207
0
    break;
208
0
  case 'f':
209
0
    return_type = OBJECT_TYPE_FLOAT;
210
0
    break;
211
0
  default:
212
0
    return ERROR_INVALID_FORMAT;
213
0
  }
214
215
  // Try to find if the structure already has a function
216
  // with that name. In that case this is a function overload.
217
0
  f = object_as_function(yr_object_lookup_field(parent, identifier));
218
219
  // Overloaded functions must have the same return type.
220
0
  if (f != NULL && return_type != f->return_obj->type)
221
0
    return ERROR_WRONG_RETURN_TYPE;
222
223
0
  if (f == NULL)  // Function doesn't exist yet
224
0
  {
225
0
    FAIL_ON_ERROR(
226
0
        yr_object_create(OBJECT_TYPE_FUNCTION, identifier, parent, &o));
227
228
    // In case of failure while creating return_obj we don't need to free the
229
    // previously created "o" object, as it is already associated with its
230
    // parent and will be destroyed when the parent is destroyed.
231
0
    FAIL_ON_ERROR(yr_object_create(return_type, "result", o, &return_obj));
232
233
0
    f = object_as_function(o);
234
0
  }
235
236
0
  for (int i = 0; i < YR_MAX_OVERLOADED_FUNCTIONS; i++)
237
0
  {
238
0
    if (f->prototypes[i].arguments_fmt == NULL)
239
0
    {
240
0
      f->prototypes[i].arguments_fmt = arguments_fmt;
241
0
      f->prototypes[i].code = code;
242
243
0
      break;
244
0
    }
245
0
  }
246
247
0
  if (function != NULL)
248
0
    *function = (YR_OBJECT*) f;
249
250
0
  return ERROR_SUCCESS;
251
0
}
252
253
int yr_object_from_external_variable(
254
    YR_EXTERNAL_VARIABLE* external,
255
    YR_OBJECT** object)
256
0
{
257
0
  YR_OBJECT* obj;
258
0
  int result;
259
0
  uint8_t obj_type = 0;
260
261
0
  switch (external->type)
262
0
  {
263
0
  case EXTERNAL_VARIABLE_TYPE_INTEGER:
264
0
  case EXTERNAL_VARIABLE_TYPE_BOOLEAN:
265
0
    obj_type = OBJECT_TYPE_INTEGER;
266
0
    break;
267
268
0
  case EXTERNAL_VARIABLE_TYPE_FLOAT:
269
0
    obj_type = OBJECT_TYPE_FLOAT;
270
0
    break;
271
272
0
  case EXTERNAL_VARIABLE_TYPE_STRING:
273
0
  case EXTERNAL_VARIABLE_TYPE_MALLOC_STRING:
274
0
    obj_type = OBJECT_TYPE_STRING;
275
0
    break;
276
277
0
  default:
278
0
    assert(false);
279
0
  }
280
281
0
  result = yr_object_create(obj_type, external->identifier, NULL, &obj);
282
283
0
  if (result == ERROR_SUCCESS)
284
0
  {
285
0
    switch (external->type)
286
0
    {
287
0
    case EXTERNAL_VARIABLE_TYPE_INTEGER:
288
0
    case EXTERNAL_VARIABLE_TYPE_BOOLEAN:
289
0
      result = yr_object_set_integer(external->value.i, obj, NULL);
290
0
      break;
291
292
0
    case EXTERNAL_VARIABLE_TYPE_FLOAT:
293
0
      result = yr_object_set_float(external->value.f, obj, NULL);
294
0
      break;
295
296
0
    case EXTERNAL_VARIABLE_TYPE_STRING:
297
0
    case EXTERNAL_VARIABLE_TYPE_MALLOC_STRING:
298
0
      result = yr_object_set_string(
299
0
          external->value.s, strlen(external->value.s), obj, NULL);
300
0
      break;
301
0
    }
302
303
0
    if (result == ERROR_SUCCESS)
304
0
    {
305
0
      *object = obj;
306
0
    }
307
0
    else
308
0
    {
309
0
      yr_object_destroy(obj);
310
0
    }
311
0
  }
312
313
0
  return result;
314
0
}
315
316
////////////////////////////////////////////////////////////////////////////////
317
// Destroy an objects, and any other object that is a child of it. For example,
318
// destroying a struct will destroy all its members.
319
//
320
void yr_object_destroy(YR_OBJECT* object)
321
11.6M
{
322
11.6M
  YR_STRUCTURE_MEMBER* member;
323
11.6M
  YR_STRUCTURE_MEMBER* next_member;
324
11.6M
  YR_ARRAY_ITEMS* array_items;
325
11.6M
  YR_DICTIONARY_ITEMS* dict_items;
326
327
11.6M
  if (object == NULL)
328
0
    return;
329
330
11.6M
  switch (object->type)
331
11.6M
  {
332
1.41M
  case OBJECT_TYPE_STRUCTURE:
333
1.41M
    member = object_as_structure(object)->members;
334
335
10.8M
    while (member != NULL)
336
9.42M
    {
337
9.42M
      next_member = member->next;
338
9.42M
      yr_object_destroy(member->object);
339
9.42M
      yr_free(member);
340
9.42M
      member = next_member;
341
9.42M
    }
342
1.41M
    break;
343
344
4.41M
  case OBJECT_TYPE_STRING:
345
4.41M
    if (object->value.ss != NULL)
346
1.73M
      yr_free(object->value.ss);
347
4.41M
    break;
348
349
1.49M
  case OBJECT_TYPE_ARRAY:
350
1.49M
    if (object_as_array(object)->prototype_item != NULL)
351
1.49M
      yr_object_destroy(object_as_array(object)->prototype_item);
352
353
1.49M
    array_items = object_as_array(object)->items;
354
355
1.49M
    if (array_items != NULL)
356
52.0k
    {
357
858k
      for (int i = 0; i < array_items->length; i++)
358
806k
        if (array_items->objects[i] != NULL)
359
724k
          yr_object_destroy(array_items->objects[i]);
360
52.0k
    }
361
362
1.49M
    yr_free(array_items);
363
1.49M
    break;
364
365
0
  case OBJECT_TYPE_DICTIONARY:
366
0
    if (object_as_dictionary(object)->prototype_item != NULL)
367
0
      yr_object_destroy(object_as_dictionary(object)->prototype_item);
368
369
0
    dict_items = object_as_dictionary(object)->items;
370
371
0
    if (dict_items != NULL)
372
0
    {
373
0
      for (int i = 0; i < dict_items->used; i++)
374
0
      {
375
0
        if (dict_items->objects[i].key != NULL)
376
0
          yr_free(dict_items->objects[i].key);
377
378
0
        if (dict_items->objects[i].obj != NULL)
379
0
          yr_object_destroy(dict_items->objects[i].obj);
380
0
      }
381
0
    }
382
383
0
    yr_free(dict_items);
384
0
    break;
385
386
0
  case OBJECT_TYPE_FUNCTION:
387
0
    yr_object_destroy(object_as_function(object)->return_obj);
388
0
    break;
389
11.6M
  }
390
391
11.6M
  yr_free((void*) object->identifier);
392
11.6M
  yr_free(object);
393
11.6M
}
394
395
YR_OBJECT* yr_object_lookup_field(YR_OBJECT* object, const char* field_name)
396
18.1M
{
397
18.1M
  YR_STRUCTURE_MEMBER* member;
398
399
18.1M
  assert(object != NULL);
400
18.1M
  assert(object->type == OBJECT_TYPE_STRUCTURE);
401
402
18.1M
  member = object_as_structure(object)->members;
403
404
129M
  while (member != NULL)
405
119M
  {
406
119M
    if (strcmp(member->object->identifier, field_name) == 0)
407
8.70M
      return member->object;
408
409
111M
    member = member->next;
410
111M
  }
411
412
9.42M
  return NULL;
413
18.1M
}
414
415
static YR_OBJECT* _yr_object_lookup(
416
    YR_OBJECT* object,
417
    int flags,
418
    const char* pattern,
419
    va_list args)
420
3.97M
{
421
3.97M
  YR_OBJECT* obj = object;
422
423
3.97M
  const char* p = pattern;
424
3.97M
  const char* key = NULL;
425
426
3.97M
  char str[256];
427
428
3.97M
  int i;
429
3.97M
  int index = -1;
430
431
8.69M
  while (obj != NULL)
432
8.69M
  {
433
8.69M
    i = 0;
434
435
87.0M
    while (*p != '\0' && *p != '.' && *p != '[' && i < sizeof(str) - 1)
436
78.3M
    {
437
78.3M
      str[i++] = *p++;
438
78.3M
    }
439
440
8.69M
    str[i] = '\0';
441
442
8.69M
    if (obj->type != OBJECT_TYPE_STRUCTURE)
443
0
      return NULL;
444
445
8.69M
    obj = yr_object_lookup_field(obj, str);
446
447
8.69M
    if (obj == NULL)
448
0
      return NULL;
449
450
8.69M
    if (*p == '[')
451
4.20M
    {
452
4.20M
      p++;
453
454
4.20M
      if (*p == '%')
455
4.20M
      {
456
4.20M
        p++;
457
458
4.20M
        switch (*p++)
459
4.20M
        {
460
4.20M
        case 'i':
461
4.20M
          index = va_arg(args, int);
462
4.20M
          break;
463
0
        case 's':
464
0
          key = va_arg(args, const char*);
465
0
          break;
466
467
0
        default:
468
0
          return NULL;
469
4.20M
        }
470
4.20M
      }
471
0
      else if (*p >= '0' && *p <= '9')
472
0
      {
473
0
        index = (int) strtol(p, (char**) &p, 10);
474
0
      }
475
0
      else if (*p == '"')
476
0
      {
477
0
        i = 0;
478
0
        p++;  // skip the opening quotation mark
479
480
0
        while (*p != '"' && *p != '\0' && i < sizeof(str) - 1) str[i++] = *p++;
481
482
0
        str[i] = '\0';
483
0
        p++;  // skip the closing quotation mark
484
0
        key = str;
485
0
      }
486
0
      else
487
0
      {
488
0
        return NULL;
489
0
      }
490
491
4.20M
      assert(*p == ']');
492
4.20M
      p++;
493
4.20M
      assert(*p == '.' || *p == '\0');
494
495
4.20M
      switch (obj->type)
496
4.20M
      {
497
4.20M
      case OBJECT_TYPE_ARRAY:
498
4.20M
        assert(index != -1);
499
4.20M
        obj = yr_object_array_get_item(obj, flags, index);
500
4.20M
        break;
501
502
0
      case OBJECT_TYPE_DICTIONARY:
503
0
        assert(key != NULL);
504
0
        obj = yr_object_dict_get_item(obj, flags, key);
505
0
        break;
506
4.20M
      }
507
4.20M
    }
508
509
8.69M
    if (*p == '\0')
510
3.97M
      break;
511
512
4.71M
    p++;
513
4.71M
  }
514
515
3.97M
  return obj;
516
3.97M
}
517
518
YR_OBJECT* yr_object_lookup(
519
    YR_OBJECT* object,
520
    int flags,
521
    const char* pattern,
522
    ...)
523
0
{
524
0
  YR_OBJECT* result;
525
526
0
  va_list args;
527
0
  va_start(args, pattern);
528
529
0
  result = _yr_object_lookup(object, flags, pattern, args);
530
531
0
  va_end(args);
532
533
0
  return result;
534
0
}
535
536
int yr_object_copy(YR_OBJECT* object, YR_OBJECT** object_copy)
537
11.0M
{
538
11.0M
  YR_OBJECT* copy;
539
11.0M
  YR_OBJECT* o;
540
541
11.0M
  YR_STRUCTURE_MEMBER* structure_member;
542
543
11.0M
  *object_copy = NULL;
544
545
11.0M
  FAIL_ON_ERROR(
546
11.0M
      yr_object_create(object->type, object->identifier, NULL, &copy));
547
548
11.0M
  copy->canary = object->canary;
549
550
11.0M
  switch (object->type)
551
11.0M
  {
552
4.07M
  case OBJECT_TYPE_INTEGER:
553
4.07M
    copy->value.i = object->value.i;
554
4.07M
    break;
555
556
0
  case OBJECT_TYPE_FLOAT:
557
0
    copy->value.d = object->value.d;
558
0
    break;
559
560
4.22M
  case OBJECT_TYPE_STRING:
561
562
4.22M
    if (object->value.ss != NULL)
563
0
      copy->value.ss = ss_dup(object->value.ss);
564
4.22M
    else
565
4.22M
      copy->value.ss = NULL;
566
567
4.22M
    break;
568
569
0
  case OBJECT_TYPE_FUNCTION:
570
571
0
    FAIL_ON_ERROR_WITH_CLEANUP(
572
0
        yr_object_copy(
573
0
            object_as_function(object)->return_obj,
574
0
            &object_as_function(copy)->return_obj),
575
        // cleanup
576
0
        yr_object_destroy(copy));
577
578
0
    for (int i = 0; i < YR_MAX_OVERLOADED_FUNCTIONS; i++)
579
0
      object_as_function(copy)->prototypes[i] =
580
0
          object_as_function(object)->prototypes[i];
581
582
0
    break;
583
584
1.34M
  case OBJECT_TYPE_STRUCTURE:
585
586
1.34M
    structure_member = object_as_structure(object)->members;
587
588
10.2M
    while (structure_member != NULL)
589
8.91M
    {
590
8.91M
      FAIL_ON_ERROR_WITH_CLEANUP(
591
8.91M
          yr_object_copy(structure_member->object, &o),
592
8.91M
          yr_object_destroy(copy));
593
594
8.91M
      FAIL_ON_ERROR_WITH_CLEANUP(yr_object_structure_set_member(copy, o),
595
                                 // cleanup
596
8.91M
                                 yr_free(o);
597
8.91M
                                 yr_object_destroy(copy));
598
599
8.91M
      structure_member = structure_member->next;
600
8.91M
    }
601
602
1.34M
    break;
603
604
1.39M
  case OBJECT_TYPE_ARRAY:
605
606
1.39M
    FAIL_ON_ERROR_WITH_CLEANUP(
607
1.39M
        yr_object_copy(object_as_array(object)->prototype_item, &o),
608
1.39M
        yr_object_destroy(copy));
609
610
1.39M
    object_as_array(copy)->prototype_item = o;
611
612
1.39M
    break;
613
614
0
  case OBJECT_TYPE_DICTIONARY:
615
616
0
    FAIL_ON_ERROR_WITH_CLEANUP(
617
0
        yr_object_copy(object_as_dictionary(object)->prototype_item, &o),
618
0
        yr_object_destroy(copy));
619
620
0
    object_as_dictionary(copy)->prototype_item = o;
621
622
0
    break;
623
624
0
  default:
625
0
    assert(false);
626
11.0M
  }
627
628
11.0M
  *object_copy = copy;
629
630
11.0M
  return ERROR_SUCCESS;
631
11.0M
}
632
633
int yr_object_structure_set_member(YR_OBJECT* object, YR_OBJECT* member)
634
9.42M
{
635
9.42M
  YR_STRUCTURE_MEMBER* sm;
636
637
9.42M
  assert(object->type == OBJECT_TYPE_STRUCTURE);
638
639
  // Check if the object already have a member with the same identifier
640
641
9.42M
  if (yr_object_lookup_field(object, member->identifier) != NULL)
642
0
    return ERROR_DUPLICATED_STRUCTURE_MEMBER;
643
644
9.42M
  sm = (YR_STRUCTURE_MEMBER*) yr_malloc(sizeof(YR_STRUCTURE_MEMBER));
645
646
9.42M
  if (sm == NULL)
647
0
    return ERROR_INSUFFICIENT_MEMORY;
648
649
9.42M
  member->parent = object;
650
9.42M
  sm->object = member;
651
9.42M
  sm->next = object_as_structure(object)->members;
652
653
9.42M
  object_as_structure(object)->members = sm;
654
655
9.42M
  return ERROR_SUCCESS;
656
9.42M
}
657
658
YR_API int yr_object_array_length(YR_OBJECT* object)
659
0
{
660
0
  YR_OBJECT_ARRAY* array;
661
662
0
  assert(object->type == OBJECT_TYPE_ARRAY);
663
0
  array = object_as_array(object);
664
665
0
  if (array->items == NULL)
666
0
    return 0;
667
668
0
  return array->items->length;
669
0
}
670
671
YR_API YR_OBJECT* yr_object_array_get_item(YR_OBJECT* object, int flags,
672
                                           int index)
673
4.20M
{
674
4.20M
  YR_OBJECT* result = NULL;
675
4.20M
  YR_OBJECT_ARRAY* array;
676
677
4.20M
  assert(object->type == OBJECT_TYPE_ARRAY);
678
679
4.20M
  if (index < 0)
680
0
    return NULL;
681
682
4.20M
  array = object_as_array(object);
683
684
4.20M
  if (array->items != NULL && array->items->capacity > index)
685
4.14M
    result = array->items->objects[index];
686
687
4.20M
  if (result == NULL && flags & OBJECT_CREATE)
688
724k
  {
689
724k
    yr_object_copy(array->prototype_item, &result);
690
691
724k
    if (result != NULL)
692
724k
      yr_object_array_set_item(object, result, index);
693
724k
  }
694
695
4.20M
  return result;
696
4.20M
}
697
698
int yr_object_array_set_item(YR_OBJECT* object, YR_OBJECT* item, int index)
699
724k
{
700
724k
  YR_OBJECT_ARRAY* array;
701
702
724k
  int capacity;
703
704
724k
  assert(index >= 0);
705
724k
  assert(object->type == OBJECT_TYPE_ARRAY);
706
707
724k
  array = object_as_array(object);
708
709
724k
  if (array->items == NULL)
710
52.0k
  {
711
52.0k
    capacity = 64;
712
713
52.1k
    while (capacity <= index) capacity *= 2;
714
715
52.0k
    array->items = (YR_ARRAY_ITEMS*) yr_malloc(
716
52.0k
        sizeof(YR_ARRAY_ITEMS) + capacity * sizeof(YR_OBJECT*));
717
718
52.0k
    if (array->items == NULL)
719
0
      return ERROR_INSUFFICIENT_MEMORY;
720
721
52.0k
    memset(array->items->objects, 0, capacity * sizeof(YR_OBJECT*));
722
723
52.0k
    array->items->capacity = capacity;
724
52.0k
    array->items->length = 0;
725
52.0k
  }
726
672k
  else if (index >= array->items->capacity)
727
2.82k
  {
728
2.82k
    capacity = array->items->capacity * 2;
729
730
2.85k
    while (capacity <= index) capacity *= 2;
731
732
2.82k
    array->items = (YR_ARRAY_ITEMS*) yr_realloc(
733
2.82k
        array->items, sizeof(YR_ARRAY_ITEMS) + capacity * sizeof(YR_OBJECT*));
734
735
2.82k
    if (array->items == NULL)
736
0
      return ERROR_INSUFFICIENT_MEMORY;
737
738
814k
    for (int i = array->items->capacity; i < capacity; i++)
739
811k
      array->items->objects[i] = NULL;
740
741
2.82k
    array->items->capacity = capacity;
742
2.82k
  }
743
744
724k
  item->parent = object;
745
724k
  array->items->objects[index] = item;
746
747
724k
  if (index >= array->items->length)
748
724k
    array->items->length = index + 1;
749
750
724k
  return ERROR_SUCCESS;
751
724k
}
752
753
YR_OBJECT* yr_object_dict_get_item(
754
    YR_OBJECT* object,
755
    int flags,
756
    const char* key)
757
0
{
758
0
  YR_OBJECT* result = NULL;
759
0
  YR_OBJECT_DICTIONARY* dict;
760
761
0
  assert(object->type == OBJECT_TYPE_DICTIONARY);
762
763
0
  dict = object_as_dictionary(object);
764
765
0
  if (dict->items != NULL)
766
0
  {
767
0
    for (int i = 0; i < dict->items->used; i++)
768
0
    {
769
0
      if (strcmp(dict->items->objects[i].key->c_string, key) == 0)
770
0
        result = dict->items->objects[i].obj;
771
0
    }
772
0
  }
773
774
0
  if (result == NULL && flags & OBJECT_CREATE)
775
0
  {
776
0
    yr_object_copy(dict->prototype_item, &result);
777
778
0
    if (result != NULL)
779
0
      yr_object_dict_set_item(object, result, key);
780
0
  }
781
782
0
  return result;
783
0
}
784
785
int yr_object_dict_set_item(YR_OBJECT* object, YR_OBJECT* item, const char* key)
786
0
{
787
0
  YR_OBJECT_DICTIONARY* dict;
788
789
0
  int count;
790
791
0
  assert(object->type == OBJECT_TYPE_DICTIONARY);
792
793
0
  dict = object_as_dictionary(object);
794
795
0
  if (dict->items == NULL)
796
0
  {
797
0
    count = 64;
798
799
0
    dict->items = (YR_DICTIONARY_ITEMS*) yr_malloc(
800
0
        sizeof(YR_DICTIONARY_ITEMS) + count * sizeof(dict->items->objects[0]));
801
802
0
    if (dict->items == NULL)
803
0
      return ERROR_INSUFFICIENT_MEMORY;
804
805
0
    memset(dict->items->objects, 0, count * sizeof(dict->items->objects[0]));
806
807
0
    dict->items->free = count;
808
0
    dict->items->used = 0;
809
0
  }
810
0
  else if (dict->items->free == 0)
811
0
  {
812
0
    count = dict->items->used * 2;
813
0
    dict->items = (YR_DICTIONARY_ITEMS*) yr_realloc(
814
0
        dict->items,
815
0
        sizeof(YR_DICTIONARY_ITEMS) + count * sizeof(dict->items->objects[0]));
816
817
0
    if (dict->items == NULL)
818
0
      return ERROR_INSUFFICIENT_MEMORY;
819
820
0
    for (int i = dict->items->used; i < count; i++)
821
0
    {
822
0
      dict->items->objects[i].key = NULL;
823
0
      dict->items->objects[i].obj = NULL;
824
0
    }
825
826
0
    dict->items->free = dict->items->used;
827
0
  }
828
829
0
  item->parent = object;
830
831
0
  dict->items->objects[dict->items->used].key = ss_new(key);
832
0
  dict->items->objects[dict->items->used].obj = item;
833
834
0
  dict->items->used++;
835
0
  dict->items->free--;
836
837
0
  return ERROR_SUCCESS;
838
0
}
839
840
bool yr_object_has_undefined_value(YR_OBJECT* object, const char* field, ...)
841
0
{
842
0
  YR_OBJECT* field_obj;
843
844
0
  va_list args;
845
0
  va_start(args, field);
846
847
0
  if (field != NULL)
848
0
    field_obj = _yr_object_lookup(object, 0, field, args);
849
0
  else
850
0
    field_obj = object;
851
852
0
  va_end(args);
853
854
0
  if (field_obj == NULL)
855
0
    return true;
856
857
0
  switch (field_obj->type)
858
0
  {
859
0
  case OBJECT_TYPE_FLOAT:
860
0
    return yr_isnan(field_obj->value.d);
861
0
  case OBJECT_TYPE_STRING:
862
0
    return field_obj->value.ss == NULL;
863
0
  case OBJECT_TYPE_INTEGER:
864
0
    return field_obj->value.i == YR_UNDEFINED;
865
0
  }
866
867
0
  return false;
868
0
}
869
870
int64_t yr_object_get_integer(YR_OBJECT* object, const char* field, ...)
871
0
{
872
0
  YR_OBJECT* integer_obj;
873
874
0
  va_list args;
875
0
  va_start(args, field);
876
877
0
  if (field != NULL)
878
0
    integer_obj = _yr_object_lookup(object, 0, field, args);
879
0
  else
880
0
    integer_obj = object;
881
882
0
  va_end(args);
883
884
0
  if (integer_obj == NULL)
885
0
    return YR_UNDEFINED;
886
887
0
  assertf(
888
0
      integer_obj->type == OBJECT_TYPE_INTEGER,
889
0
      "type of \"%s\" is not integer\n",
890
0
      field);
891
892
0
  return integer_obj->value.i;
893
0
}
894
895
double yr_object_get_float(YR_OBJECT* object, const char* field, ...)
896
0
{
897
0
  YR_OBJECT* double_obj;
898
899
0
  va_list args;
900
0
  va_start(args, field);
901
902
0
  if (field != NULL)
903
0
    double_obj = _yr_object_lookup(object, 0, field, args);
904
0
  else
905
0
    double_obj = object;
906
907
0
  va_end(args);
908
909
0
  if (double_obj == NULL)
910
0
    return NAN;
911
912
0
  assertf(
913
0
      double_obj->type == OBJECT_TYPE_FLOAT,
914
0
      "type of \"%s\" is not double\n",
915
0
      field);
916
917
0
  return double_obj->value.d;
918
0
}
919
920
SIZED_STRING* yr_object_get_string(YR_OBJECT* object, const char* field, ...)
921
0
{
922
0
  YR_OBJECT* string_obj;
923
924
0
  va_list args;
925
0
  va_start(args, field);
926
927
0
  if (field != NULL)
928
0
    string_obj = _yr_object_lookup(object, 0, field, args);
929
0
  else
930
0
    string_obj = object;
931
932
0
  va_end(args);
933
934
0
  if (string_obj == NULL)
935
0
    return NULL;
936
937
0
  assertf(
938
0
      string_obj->type == OBJECT_TYPE_STRING,
939
0
      "type of \"%s\" is not string\n",
940
0
      field);
941
942
0
  return string_obj->value.ss;
943
0
}
944
945
int yr_object_set_integer(
946
    int64_t value,
947
    YR_OBJECT* object,
948
    const char* field,
949
    ...)
950
2.16M
{
951
2.16M
  YR_OBJECT* integer_obj;
952
953
2.16M
  va_list args;
954
2.16M
  va_start(args, field);
955
956
2.16M
  if (field != NULL)
957
2.16M
    integer_obj = _yr_object_lookup(object, OBJECT_CREATE, field, args);
958
0
  else
959
0
    integer_obj = object;
960
961
2.16M
  va_end(args);
962
963
2.16M
  if (integer_obj == NULL)
964
0
  {
965
0
    if (field != NULL)
966
0
      return ERROR_INSUFFICIENT_MEMORY;
967
0
    else
968
0
      return ERROR_INVALID_ARGUMENT;
969
0
  }
970
971
2.16M
  assert(integer_obj->type == OBJECT_TYPE_INTEGER);
972
973
2.16M
  integer_obj->value.i = value;
974
975
2.16M
  return ERROR_SUCCESS;
976
2.16M
}
977
978
int yr_object_set_float(double value, YR_OBJECT* object, const char* field, ...)
979
0
{
980
0
  YR_OBJECT* double_obj;
981
982
0
  va_list args;
983
0
  va_start(args, field);
984
985
0
  if (field != NULL)
986
0
    double_obj = _yr_object_lookup(object, OBJECT_CREATE, field, args);
987
0
  else
988
0
    double_obj = object;
989
990
0
  va_end(args);
991
992
0
  if (double_obj == NULL)
993
0
  {
994
0
    if (field != NULL)
995
0
      return ERROR_INSUFFICIENT_MEMORY;
996
0
    else
997
0
      return ERROR_INVALID_ARGUMENT;
998
0
  }
999
1000
0
  assert(double_obj->type == OBJECT_TYPE_FLOAT);
1001
1002
0
  double_obj->value.d = value;
1003
1004
0
  return ERROR_SUCCESS;
1005
0
}
1006
1007
int yr_object_set_string(
1008
    const char* value,
1009
    size_t len,
1010
    YR_OBJECT* object,
1011
    const char* field,
1012
    ...)
1013
1.81M
{
1014
1.81M
  YR_OBJECT* string_obj;
1015
1016
1.81M
  va_list args;
1017
1.81M
  va_start(args, field);
1018
1019
1.81M
  if (field != NULL)
1020
1.81M
    string_obj = _yr_object_lookup(object, OBJECT_CREATE, field, args);
1021
0
  else
1022
0
    string_obj = object;
1023
1024
1.81M
  va_end(args);
1025
1026
1.81M
  if (string_obj == NULL)
1027
0
  {
1028
0
    if (field != NULL)
1029
0
      return ERROR_INSUFFICIENT_MEMORY;
1030
0
    else
1031
0
      return ERROR_INVALID_ARGUMENT;
1032
0
  }
1033
1034
1.81M
  assert(string_obj->type == OBJECT_TYPE_STRING);
1035
1036
1.81M
  if (string_obj->value.ss != NULL)
1037
681
    yr_free(string_obj->value.ss);
1038
1039
1.81M
  if (value != NULL)
1040
1.73M
  {
1041
1.73M
    string_obj->value.ss = (SIZED_STRING*) yr_malloc(
1042
1.73M
        len + sizeof(SIZED_STRING));
1043
1044
1.73M
    if (string_obj->value.ss == NULL)
1045
0
      return ERROR_INSUFFICIENT_MEMORY;
1046
1047
1.73M
    string_obj->value.ss->length = (uint32_t) len;
1048
1.73M
    string_obj->value.ss->flags = 0;
1049
1050
1.73M
    memcpy(string_obj->value.ss->c_string, value, len);
1051
1.73M
    string_obj->value.ss->c_string[len] = '\0';
1052
1.73M
  }
1053
80.0k
  else
1054
80.0k
  {
1055
80.0k
    string_obj->value.ss = NULL;
1056
80.0k
  }
1057
1058
1.81M
  return ERROR_SUCCESS;
1059
1.81M
}
1060
1061
YR_OBJECT* yr_object_get_root(YR_OBJECT* object)
1062
0
{
1063
0
  YR_OBJECT* o = object;
1064
1065
0
  while (o->parent != NULL) o = o->parent;
1066
1067
0
  return o;
1068
0
}
1069
1070
YR_API void yr_object_print_data(
1071
    YR_OBJECT* object,
1072
    int indent,
1073
    int print_identifier)
1074
0
{
1075
0
  YR_DICTIONARY_ITEMS* dict_items;
1076
0
  YR_STRUCTURE_MEMBER* member;
1077
1078
0
  char indent_spaces[32];
1079
1080
0
  indent = yr_min(indent, sizeof(indent_spaces) - 1);
1081
1082
0
  memset(indent_spaces, '\t', indent);
1083
0
  indent_spaces[indent] = '\0';
1084
1085
0
  if (print_identifier && object->type != OBJECT_TYPE_FUNCTION)
1086
0
    printf("%s%s", indent_spaces, object->identifier);
1087
1088
0
  switch (object->type)
1089
0
  {
1090
0
  case OBJECT_TYPE_FLOAT:
1091
0
    if (object->value.i != YR_UNDEFINED)
1092
0
      printf(" = %f", object->value.d);
1093
0
    else
1094
0
      printf(" = YR_UNDEFINED");
1095
1096
0
    break;
1097
1098
0
  case OBJECT_TYPE_INTEGER:
1099
1100
0
    if (object->value.i != YR_UNDEFINED)
1101
0
      printf(" = %" PRId64, object->value.i);
1102
0
    else
1103
0
      printf(" = YR_UNDEFINED");
1104
1105
0
    break;
1106
1107
0
  case OBJECT_TYPE_STRING:
1108
1109
0
    if (object->value.ss != NULL)
1110
0
    {
1111
0
      printf(" = \"");
1112
1113
0
      for (size_t l = 0; l < object->value.ss->length; l++)
1114
0
      {
1115
0
        char c = object->value.ss->c_string[l];
1116
1117
0
        if (isprint((unsigned char) c))
1118
0
          printf("%c", c);
1119
0
        else
1120
0
          printf("\\x%02x", (unsigned char) c);
1121
0
      }
1122
1123
0
      printf("\"");
1124
0
    }
1125
0
    else
1126
0
    {
1127
0
      printf(" = YR_UNDEFINED");
1128
0
    }
1129
1130
0
    break;
1131
1132
0
  case OBJECT_TYPE_STRUCTURE:
1133
1134
0
    member = object_as_structure(object)->members;
1135
1136
0
    while (member != NULL)
1137
0
    {
1138
0
      if (member->object->type != OBJECT_TYPE_FUNCTION)
1139
0
      {
1140
0
        printf("\n");
1141
0
        yr_object_print_data(member->object, indent + 1, 1);
1142
0
      }
1143
0
      member = member->next;
1144
0
    }
1145
1146
0
    break;
1147
1148
0
  case OBJECT_TYPE_ARRAY:
1149
0
    for (int i = 0; i < yr_object_array_length(object); i++)
1150
0
    {
1151
0
      YR_OBJECT* o = yr_object_array_get_item(object, 0, i);
1152
1153
0
      if (o != NULL)
1154
0
      {
1155
0
        printf("\n%s\t[%d]", indent_spaces, i);
1156
0
        yr_object_print_data(o, indent + 1, 0);
1157
0
      }
1158
0
    }
1159
0
    break;
1160
1161
0
  case OBJECT_TYPE_DICTIONARY:
1162
1163
0
    dict_items = object_as_dictionary(object)->items;
1164
1165
0
    if (dict_items != NULL)
1166
0
    {
1167
0
      for (int i = 0; i < dict_items->used; i++)
1168
0
      {
1169
0
        printf("\n%s\t%s", indent_spaces, dict_items->objects[i].key->c_string);
1170
1171
0
        yr_object_print_data(dict_items->objects[i].obj, indent + 1, 0);
1172
0
      }
1173
0
    }
1174
1175
0
    break;
1176
0
  }
1177
0
}