1 /*
2 * Copyright 2008 Google Inc.
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16 #include <setjmp.h>
17 #ifndef _WIN32
18 #include <signal.h>
19 #endif // !_WIN32
20 #include <stdarg.h>
21 #include <stddef.h>
22 #include <stdio.h>
23 #include <stdlib.h>
24 #include <string.h>
25 #ifdef _WIN32
26 #include <windows.h>
27 #endif // _WIN32
28 #include <cmockery.h>
29
30 #ifdef _WIN32
31 #define vsnprintf _vsnprintf
32 #endif // _WIN32
33
34 // Size of guard bytes around dynamically allocated blocks.
35 #define MALLOC_GUARD_SIZE 16
36 // Pattern used to initialize guard blocks.
37 #define MALLOC_GUARD_PATTERN 0xEF
38 // Pattern used to initialize memory allocated with test_malloc().
39 #define MALLOC_ALLOC_PATTERN 0xBA
40 #define MALLOC_FREE_PATTERN 0xCD
41 // Alignment of allocated blocks. NOTE: This must be base2.
42 #define MALLOC_ALIGNMENT sizeof(size_t)
43
44 // Printf formatting for source code locations.
45 #define SOURCE_LOCATION_FORMAT "%s:%d"
46
47 // Calculates the number of elements in an array.
48 #define ARRAY_LENGTH(x) (sizeof(x) / sizeof((x)[0]))
49
50 // Doubly linked list node.
51 typedef struct ListNode {
52 const void *value;
53 int refcount;
54 struct ListNode *next;
55 struct ListNode *prev;
56 } ListNode;
57
58 // Debug information for malloc().
59 typedef struct MallocBlockInfo {
60 void* block; // Address of the block returned by malloc().
61 size_t allocated_size; // Total size of the allocated block.
62 size_t size; // Request block size.
63 SourceLocation location; // Where the block was allocated.
64 ListNode node; // Node within list of all allocated blocks.
65 } MallocBlockInfo;
66
67 // State of each test.
68 typedef struct TestState {
69 const ListNode *check_point; // Check point of the test if there's a
70 // setup function.
71 void *state; // State associated with the test.
72 } TestState;
73
74 // Determines whether two values are the same.
75 typedef int (*EqualityFunction)(const void *left, const void *right);
76
77 // Value of a symbol and the place it was declared.
78 typedef struct SymbolValue {
79 SourceLocation location;
80 const void* value;
81 } SymbolValue;
82
83 /* Contains a list of values for a symbol.
84 * NOTE: Each structure referenced by symbol_values_list_head must have a
85 * SourceLocation as its' first member.
86 */
87 typedef struct SymbolMapValue {
88 const char *symbol_name;
89 ListNode symbol_values_list_head;
90 } SymbolMapValue;
91
92 // Used by list_free() to deallocate values referenced by list nodes.
93 typedef void (*CleanupListValue)(const void *value, void *cleanup_value_data);
94
95 // Structure used to check the range of integer types.
96 typedef struct CheckIntegerRange {
97 CheckParameterEvent event;
98 int minimum;
99 int maximum;
100 } CheckIntegerRange;
101
102 // Structure used to check whether an integer value is in a set.
103 typedef struct CheckIntegerSet {
104 CheckParameterEvent event;
105 const void **set;
106 size_t size_of_set;
107 } CheckIntegerSet;
108
109 /* Used to check whether a parameter matches the area of memory referenced by
110 * this structure. */
111 typedef struct CheckMemoryData {
112 CheckParameterEvent event;
113 const void *memory;
114 size_t size;
115 } CheckMemoryData;
116
117 static ListNode* list_initialize(ListNode * const node);
118 static ListNode* list_add(ListNode * const head, ListNode *new_node);
119 static ListNode* list_add_value(ListNode * const head, const void *value,
120 const int count);
121 static ListNode* list_remove(
122 ListNode * const node, const CleanupListValue cleanup_value,
123 void * const cleanup_value_data);
124 static void list_remove_free(
125 ListNode * const node, const CleanupListValue cleanup_value,
126 void * const cleanup_value_data);
127 static int list_empty(const ListNode * const head);
128 static int list_find(
129 ListNode * const head, const void *value,
130 const EqualityFunction equal_func, ListNode **output);
131 static int list_first(ListNode * const head, ListNode **output);
132 static ListNode* list_free(
133 ListNode * const head, const CleanupListValue cleanup_value,
134 void * const cleanup_value_data);
135
136 static void add_symbol_value(
137 ListNode * const symbol_map_head, const char * const symbol_names[],
138 const size_t number_of_symbol_names, const void* value, const int count);
139 static int get_symbol_value(
140 ListNode * const symbol_map_head, const char * const symbol_names[],
141 const size_t number_of_symbol_names, void **output);
142 static void free_value(const void *value, void *cleanup_value_data);
143 static void free_symbol_map_value(
144 const void *value, void *cleanup_value_data);
145 static void remove_always_return_values(ListNode * const map_head,
146 const size_t number_of_symbol_names);
147 static int check_for_leftover_values(
148 const ListNode * const map_head, const char * const error_message,
149 const size_t number_of_symbol_names);
150 // This must be called at the beginning of a test to initialize some data
151 // structures.
152 static void initialize_testing(const char *test_name);
153 // This must be called at the end of a test to free() allocated structures.
154 static void teardown_testing(const char *test_name);
155
156
157 // Keeps track of the calling context returned by setenv() so that the fail()
158 // method can jump out of a test.
159 static jmp_buf global_run_test_env;
160 static int global_running_test = 0;
161
162 // Keeps track of the calling context returned by setenv() so that
163 // mock_assert() can optionally jump back to expect_assert_failure().
164 jmp_buf global_expect_assert_env;
165 int global_expecting_assert = 0;
166
167 // Keeps a map of the values that functions will have to return to provide
168 // mocked interfaces.
169 static ListNode global_function_result_map_head;
170 // Location of the last mock value returned was declared.
171 static SourceLocation global_last_mock_value_location;
172
173 /* Keeps a map of the values that functions expect as parameters to their
174 * mocked interfaces. */
175 static ListNode global_function_parameter_map_head;
176 // Location of last parameter value checked was declared.
177 static SourceLocation global_last_parameter_location;
178
179 // List of all currently allocated blocks.
180 static ListNode global_allocated_blocks;
181
182 #ifndef _WIN32
183 // Signals caught by exception_handler().
184 static const int exception_signals[] = {
185 SIGFPE,
186 SIGILL,
187 SIGSEGV,
188 SIGBUS,
189 SIGSYS,
190 };
191
192 // Default signal functions that should be restored after a test is complete.
193 typedef void (*SignalFunction)(int signal);
194 static SignalFunction default_signal_functions[
195 ARRAY_LENGTH(exception_signals)];
196
197 #else // _WIN32
198
199 // The default exception filter.
200 static LPTOP_LEVEL_EXCEPTION_FILTER previous_exception_filter;
201
202 // Fatal exceptions.
203 typedef struct ExceptionCodeInfo {
204 DWORD code;
205 const char* description;
206 } ExceptionCodeInfo;
207
208 #define EXCEPTION_CODE_INFO(exception_code) {exception_code, #exception_code}
209
210 static const ExceptionCodeInfo exception_codes[] = {
211 EXCEPTION_CODE_INFO(EXCEPTION_ACCESS_VIOLATION),
212 EXCEPTION_CODE_INFO(EXCEPTION_ARRAY_BOUNDS_EXCEEDED),
213 EXCEPTION_CODE_INFO(EXCEPTION_DATATYPE_MISALIGNMENT),
214 EXCEPTION_CODE_INFO(EXCEPTION_FLT_DENORMAL_OPERAND),
215 EXCEPTION_CODE_INFO(EXCEPTION_FLT_DIVIDE_BY_ZERO),
216 EXCEPTION_CODE_INFO(EXCEPTION_FLT_INEXACT_RESULT),
217 EXCEPTION_CODE_INFO(EXCEPTION_FLT_INVALID_OPERATION),
218 EXCEPTION_CODE_INFO(EXCEPTION_FLT_OVERFLOW),
219 EXCEPTION_CODE_INFO(EXCEPTION_FLT_STACK_CHECK),
220 EXCEPTION_CODE_INFO(EXCEPTION_FLT_UNDERFLOW),
221 EXCEPTION_CODE_INFO(EXCEPTION_GUARD_PAGE),
222 EXCEPTION_CODE_INFO(EXCEPTION_ILLEGAL_INSTRUCTION),
223 EXCEPTION_CODE_INFO(EXCEPTION_INT_DIVIDE_BY_ZERO),
224 EXCEPTION_CODE_INFO(EXCEPTION_INT_OVERFLOW),
225 EXCEPTION_CODE_INFO(EXCEPTION_INVALID_DISPOSITION),
226 EXCEPTION_CODE_INFO(EXCEPTION_INVALID_HANDLE),
227 EXCEPTION_CODE_INFO(EXCEPTION_IN_PAGE_ERROR),
228 EXCEPTION_CODE_INFO(EXCEPTION_NONCONTINUABLE_EXCEPTION),
229 EXCEPTION_CODE_INFO(EXCEPTION_PRIV_INSTRUCTION),
230 EXCEPTION_CODE_INFO(EXCEPTION_STACK_OVERFLOW),
231 };
232 #endif // !_WIN32
233
234
235 // Exit the currently executing test.
exit_test(const int quit_application)236 static void exit_test(const int quit_application) {
237 if (global_running_test) {
238 longjmp(global_run_test_env, 1);
239 } else if (quit_application) {
240 exit(-1);
241 }
242 }
243
244
245 // Initialize a SourceLocation structure.
initialize_source_location(SourceLocation * const location)246 static void initialize_source_location(SourceLocation * const location) {
247 assert_true(location);
248 location->file = NULL;
249 location->line = 0;
250 }
251
252
253 // Determine whether a source location is currently set.
source_location_is_set(const SourceLocation * const location)254 static int source_location_is_set(const SourceLocation * const location) {
255 assert_true(location);
256 return location->file && location->line;
257 }
258
259
260 // Set a source location.
set_source_location(SourceLocation * const location,const char * const file,const int line)261 static void set_source_location(
262 SourceLocation * const location, const char * const file,
263 const int line) {
264 assert_true(location);
265 location->file = file;
266 location->line = line;
267 }
268
269
270 // Create function results and expected parameter lists.
initialize_testing(const char * test_name)271 void initialize_testing(const char *test_name) {
272 list_initialize(&global_function_result_map_head);
273 initialize_source_location(&global_last_mock_value_location);
274 list_initialize(&global_function_parameter_map_head);
275 initialize_source_location(&global_last_parameter_location);
276 }
277
278
fail_if_leftover_values(const char * test_name)279 void fail_if_leftover_values(const char *test_name) {
280 int error_occurred = 0;
281 remove_always_return_values(&global_function_result_map_head, 1);
282 if (check_for_leftover_values(
283 &global_function_result_map_head,
284 "%s() has remaining non-returned values.\n", 1)) {
285 error_occurred = 1;
286 }
287
288 remove_always_return_values(&global_function_parameter_map_head, 2);
289 if (check_for_leftover_values(
290 &global_function_parameter_map_head,
291 "%s parameter still has values that haven't been checked.\n", 2)) {
292 error_occurred = 1;
293 }
294 if (error_occurred) {
295 exit_test(1);
296 }
297 }
298
299
teardown_testing(const char * test_name)300 void teardown_testing(const char *test_name) {
301 list_free(&global_function_result_map_head, free_symbol_map_value,
302 (void*)0);
303 initialize_source_location(&global_last_mock_value_location);
304 list_free(&global_function_parameter_map_head, free_symbol_map_value,
305 (void*)1);
306 initialize_source_location(&global_last_parameter_location);
307 }
308
309 // Initialize a list node.
list_initialize(ListNode * const node)310 static ListNode* list_initialize(ListNode * const node) {
311 node->value = NULL;
312 node->next = node;
313 node->prev = node;
314 node->refcount = 1;
315 return node;
316 }
317
318
319 /* Adds a value at the tail of a given list.
320 * The node referencing the value is allocated from the heap. */
list_add_value(ListNode * const head,const void * value,const int refcount)321 static ListNode* list_add_value(ListNode * const head, const void *value,
322 const int refcount) {
323 ListNode * const new_node = (ListNode*)malloc(sizeof(ListNode));
324 assert_true(head);
325 assert_true(value);
326 new_node->value = value;
327 new_node->refcount = refcount;
328 return list_add(head, new_node);
329 }
330
331
332 // Add new_node to the end of the list.
list_add(ListNode * const head,ListNode * new_node)333 static ListNode* list_add(ListNode * const head, ListNode *new_node) {
334 assert_true(head);
335 assert_true(new_node);
336 new_node->next = head;
337 new_node->prev = head->prev;
338 head->prev->next = new_node;
339 head->prev = new_node;
340 return new_node;
341 }
342
343
344 // Remove a node from a list.
list_remove(ListNode * const node,const CleanupListValue cleanup_value,void * const cleanup_value_data)345 static ListNode* list_remove(
346 ListNode * const node, const CleanupListValue cleanup_value,
347 void * const cleanup_value_data) {
348 assert_true(node);
349 node->prev->next = node->next;
350 node->next->prev = node->prev;
351 if (cleanup_value) {
352 cleanup_value(node->value, cleanup_value_data);
353 }
354 return node;
355 }
356
357
358 /* Remove a list node from a list and free the node. */
list_remove_free(ListNode * const node,const CleanupListValue cleanup_value,void * const cleanup_value_data)359 static void list_remove_free(
360 ListNode * const node, const CleanupListValue cleanup_value,
361 void * const cleanup_value_data) {
362 assert_true(node);
363 free(list_remove(node, cleanup_value, cleanup_value_data));
364 }
365
366
367 /* Frees memory kept by a linked list
368 * The cleanup_value function is called for every "value" field of nodes in the
369 * list, except for the head. In addition to each list value,
370 * cleanup_value_data is passed to each call to cleanup_value. The head
371 * of the list is not deallocated.
372 */
list_free(ListNode * const head,const CleanupListValue cleanup_value,void * const cleanup_value_data)373 static ListNode* list_free(
374 ListNode * const head, const CleanupListValue cleanup_value,
375 void * const cleanup_value_data) {
376 assert_true(head);
377 while (!list_empty(head)) {
378 list_remove_free(head->next, cleanup_value, cleanup_value_data);
379 }
380 return head;
381 }
382
383
384 // Determine whether a list is empty.
list_empty(const ListNode * const head)385 static int list_empty(const ListNode * const head) {
386 assert_true(head);
387 return head->next == head;
388 }
389
390
391 /* Find a value in the list using the equal_func to compare each node with the
392 * value.
393 */
list_find(ListNode * const head,const void * value,const EqualityFunction equal_func,ListNode ** output)394 static int list_find(ListNode * const head, const void *value,
395 const EqualityFunction equal_func, ListNode **output) {
396 ListNode *current;
397 assert_true(head);
398 for (current = head->next; current != head; current = current->next) {
399 if (equal_func(current->value, value)) {
400 *output = current;
401 return 1;
402 }
403 }
404 return 0;
405 }
406
407 // Returns the first node of a list
list_first(ListNode * const head,ListNode ** output)408 static int list_first(ListNode * const head, ListNode **output) {
409 ListNode *target_node;
410 assert_true(head);
411 if (list_empty(head)) {
412 return 0;
413 }
414 target_node = head->next;
415 *output = target_node;
416 return 1;
417 }
418
419
420 // Deallocate a value referenced by a list.
free_value(const void * value,void * cleanup_value_data)421 static void free_value(const void *value, void *cleanup_value_data) {
422 assert_true(value);
423 free((void*)value);
424 }
425
426
427 // Releases memory associated to a symbol_map_value.
free_symbol_map_value(const void * value,void * cleanup_value_data)428 static void free_symbol_map_value(const void *value,
429 void *cleanup_value_data) {
430 SymbolMapValue * const map_value = (SymbolMapValue*)value;
431 const unsigned int children = (unsigned int)cleanup_value_data;
432 assert_true(value);
433 list_free(&map_value->symbol_values_list_head,
434 children ? free_symbol_map_value : free_value,
435 (void*)(children - 1));
436 free(map_value);
437 }
438
439
440 /* Determine whether a symbol name referenced by a symbol_map_value
441 * matches the specified function name. */
symbol_names_match(const void * map_value,const void * symbol)442 static int symbol_names_match(const void *map_value, const void *symbol) {
443 return !strcmp(((SymbolMapValue*)map_value)->symbol_name,
444 (const char*)symbol);
445 }
446
447
448 /* Adds a value to the queue of values associated with the given
449 * hierarchy of symbols. It's assumed value is allocated from the heap.
450 */
add_symbol_value(ListNode * const symbol_map_head,const char * const symbol_names[],const size_t number_of_symbol_names,const void * value,const int refcount)451 static void add_symbol_value(ListNode * const symbol_map_head,
452 const char * const symbol_names[],
453 const size_t number_of_symbol_names,
454 const void* value, const int refcount) {
455 const char* symbol_name;
456 ListNode *target_node;
457 SymbolMapValue *target_map_value;
458 assert_true(symbol_map_head);
459 assert_true(symbol_names);
460 assert_true(number_of_symbol_names);
461 symbol_name = symbol_names[0];
462
463 if (!list_find(symbol_map_head, symbol_name, symbol_names_match,
464 &target_node)) {
465 SymbolMapValue * const new_symbol_map_value =
466 malloc(sizeof(*new_symbol_map_value));
467 new_symbol_map_value->symbol_name = symbol_name;
468 list_initialize(&new_symbol_map_value->symbol_values_list_head);
469 target_node = list_add_value(symbol_map_head, new_symbol_map_value,
470 1);
471 }
472
473 target_map_value = (SymbolMapValue*)target_node->value;
474 if (number_of_symbol_names == 1) {
475 list_add_value(&target_map_value->symbol_values_list_head,
476 value, refcount);
477 } else {
478 add_symbol_value(&target_map_value->symbol_values_list_head,
479 &symbol_names[1], number_of_symbol_names - 1, value,
480 refcount);
481 }
482 }
483
484
485 /* Gets the next value associated with the given hierarchy of symbols.
486 * The value is returned as an output parameter with the function returning the
487 * node's old refcount value if a value is found, 0 otherwise.
488 * This means that a return value of 1 indicates the node was just removed from
489 * the list.
490 */
get_symbol_value(ListNode * const head,const char * const symbol_names[],const size_t number_of_symbol_names,void ** output)491 static int get_symbol_value(
492 ListNode * const head, const char * const symbol_names[],
493 const size_t number_of_symbol_names, void **output) {
494 const char* symbol_name;
495 ListNode *target_node;
496 assert_true(head);
497 assert_true(symbol_names);
498 assert_true(number_of_symbol_names);
499 assert_true(output);
500 symbol_name = symbol_names[0];
501
502 if (list_find(head, symbol_name, symbol_names_match, &target_node)) {
503 SymbolMapValue *map_value;
504 ListNode *child_list;
505 int return_value = 0;
506 assert_true(target_node);
507 assert_true(target_node->value);
508
509 map_value = (SymbolMapValue*)target_node->value;
510 child_list = &map_value->symbol_values_list_head;
511
512 if (number_of_symbol_names == 1) {
513 ListNode *value_node = NULL;
514 return_value = list_first(child_list, &value_node);
515 assert_true(return_value);
516 *output = (void*) value_node->value;
517 return_value = value_node->refcount;
518 if (--value_node->refcount == 0) {
519 list_remove_free(value_node, NULL, NULL);
520 }
521 } else {
522 return_value = get_symbol_value(
523 child_list, &symbol_names[1], number_of_symbol_names - 1,
524 output);
525 }
526 if (list_empty(child_list)) {
527 list_remove_free(target_node, free_symbol_map_value, (void*)0);
528 }
529 return return_value;
530 } else {
531 print_error("No entries for symbol %s.\n", symbol_name);
532 }
533 return 0;
534 }
535
536
537 /* Traverse down a tree of symbol values and remove the first symbol value
538 * in each branch that has a refcount < -1 (i.e should always be returned
539 * and has been returned at least once).
540 */
remove_always_return_values(ListNode * const map_head,const size_t number_of_symbol_names)541 static void remove_always_return_values(ListNode * const map_head,
542 const size_t number_of_symbol_names) {
543 ListNode *current;
544 assert_true(map_head);
545 assert_true(number_of_symbol_names);
546 current = map_head->next;
547 while (current != map_head) {
548 SymbolMapValue * const value = (SymbolMapValue*)current->value;
549 ListNode * const next = current->next;
550 ListNode *child_list;
551 assert_true(value);
552 child_list = &value->symbol_values_list_head;
553
554 if (!list_empty(child_list)) {
555 if (number_of_symbol_names == 1) {
556 ListNode * const child_node = child_list->next;
557 // If this item has been returned more than once, free it.
558 if (child_node->refcount < -1) {
559 list_remove_free(child_node, free_value, NULL);
560 }
561 } else {
562 remove_always_return_values(child_list,
563 number_of_symbol_names - 1);
564 }
565 }
566
567 if (list_empty(child_list)) {
568 list_remove_free(current, free_value, NULL);
569 }
570 current = next;
571 }
572 }
573
574 /* Checks if there are any leftover values set up by the test that were never
575 * retrieved through execution, and fail the test if that is the case.
576 */
check_for_leftover_values(const ListNode * const map_head,const char * const error_message,const size_t number_of_symbol_names)577 static int check_for_leftover_values(
578 const ListNode * const map_head, const char * const error_message,
579 const size_t number_of_symbol_names) {
580 const ListNode *current;
581 int symbols_with_leftover_values = 0;
582 assert_true(map_head);
583 assert_true(number_of_symbol_names);
584
585 for (current = map_head->next; current != map_head;
586 current = current->next) {
587 const SymbolMapValue * const value =
588 (SymbolMapValue*)current->value;
589 const ListNode *child_list;
590 assert_true(value);
591 child_list = &value->symbol_values_list_head;
592
593 if (!list_empty(child_list)) {
594 if (number_of_symbol_names == 1) {
595 const ListNode *child_node;
596 print_error(error_message, value->symbol_name);
597 print_error(" Remaining item(s) declared at...\n");
598
599 for (child_node = child_list->next; child_node != child_list;
600 child_node = child_node->next) {
601 const SourceLocation * const location = child_node->value;
602 print_error(" " SOURCE_LOCATION_FORMAT "\n",
603 location->file, location->line);
604 }
605 } else {
606 print_error("%s.", value->symbol_name);
607 check_for_leftover_values(child_list, error_message,
608 number_of_symbol_names - 1);
609 }
610 symbols_with_leftover_values ++;
611 }
612 }
613 return symbols_with_leftover_values;
614 }
615
616
617 // Get the next return value for the specified mock function.
_mock(const char * const function,const char * const file,const int line)618 void* _mock(const char * const function, const char* const file,
619 const int line) {
620 void *result;
621 const int rc = get_symbol_value(&global_function_result_map_head,
622 &function, 1, &result);
623 if (rc) {
624 SymbolValue * const symbol = result;
625 void * const value = (void*)symbol->value;
626 global_last_mock_value_location = symbol->location;
627 if (rc == 1) {
628 free(symbol);
629 }
630 return value;
631 } else {
632 print_error("ERROR: " SOURCE_LOCATION_FORMAT " - Could not get value "
633 "to mock function %s\n", file, line, function);
634 if (source_location_is_set(&global_last_mock_value_location)) {
635 print_error("Previously returned mock value was declared at "
636 SOURCE_LOCATION_FORMAT "\n",
637 global_last_mock_value_location.file,
638 global_last_mock_value_location.line);
639 } else {
640 print_error("There were no previously returned mock values for "
641 "this test.\n");
642 }
643 exit_test(1);
644 }
645 return NULL;
646 }
647
648
649 // Add a return value for the specified mock function name.
_will_return(const char * const function_name,const char * const file,const int line,const void * const value,const int count)650 void _will_return(const char * const function_name, const char * const file,
651 const int line, const void* const value, const int count) {
652 SymbolValue * const return_value = malloc(sizeof(*return_value));
653 assert_true(count > 0);
654 return_value->value = value;
655 set_source_location(&return_value->location, file, line);
656 add_symbol_value(&global_function_result_map_head, &function_name, 1,
657 return_value, count);
658 }
659
660
661 /* Add a custom parameter checking function. If the event parameter is NULL
662 * the event structure is allocated internally by this function. If event
663 * parameter is provided it must be allocated on the heap and doesn't need to
664 * be deallocated by the caller.
665 */
_expect_check(const char * const function,const char * const parameter,const char * const file,const int line,const CheckParameterValue check_function,void * const check_data,CheckParameterEvent * const event,const int count)666 void _expect_check(
667 const char* const function, const char* const parameter,
668 const char* const file, const int line,
669 const CheckParameterValue check_function, void * const check_data,
670 CheckParameterEvent * const event, const int count) {
671 CheckParameterEvent * const check =
672 event ? event : malloc(sizeof(*check));
673 const char* symbols[] = {function, parameter};
674 check->parameter_name = parameter;
675 check->check_value = check_function;
676 check->check_value_data = check_data;
677 set_source_location(&check->location, file, line);
678 add_symbol_value(&global_function_parameter_map_head, symbols, 2, check,
679 count);
680 }
681
682
683 /* Returns 1 if the specified values are equal. If the values are not equal
684 * an error is displayed and 0 is returned. */
values_equal_display_error(const void * const left,const void * const right)685 static int values_equal_display_error(const void* const left,
686 const void* const right) {
687 const int equal = left == right;
688 if (!equal) {
689 print_error("0x%x != 0x%x\n", left, right);
690 }
691 return equal;
692 }
693
694 /* Returns 1 if the specified values are not equal. If the values are equal
695 * an error is displayed and 0 is returned. */
values_not_equal_display_error(const void * const left,const void * const right)696 static int values_not_equal_display_error(const void* const left,
697 const void* const right) {
698 const int not_equal = left != right;
699 if (!not_equal) {
700 print_error("0x%x == 0x%x\n", left, right);
701 }
702 return not_equal;
703 }
704
705
706 /* Determine whether value is contained within check_integer_set.
707 * If invert is 0 and the value is in the set 1 is returned, otherwise 0 is
708 * returned and an error is displayed. If invert is 1 and the value is not
709 * in the set 1 is returned, otherwise 0 is returned and an error is
710 * displayed. */
value_in_set_display_error(const void * value,const CheckIntegerSet * const check_integer_set,const int invert)711 static int value_in_set_display_error(
712 const void *value, const CheckIntegerSet * const check_integer_set,
713 const int invert) {
714 int succeeded = invert;
715 assert_true(check_integer_set);
716 {
717 const void ** const set = check_integer_set->set;
718 const size_t size_of_set = check_integer_set->size_of_set;
719 size_t i;
720 for (i = 0; i < size_of_set; i++) {
721 if (set[i] == value) {
722 if (invert) {
723 succeeded = 0;
724 }
725 break;
726 }
727 }
728 if (succeeded) {
729 return 1;
730 }
731 print_error("%d is %sin the set (", value, invert ? "" : "not ");
732 for (i = 0; i < size_of_set; i++) {
733 print_error("%d, ", set[i]);
734 }
735 print_error(")\n");
736 }
737 return 0;
738 }
739
740
741 /* Determine whether a value is within the specified range. If the value is
742 * within the specified range 1 is returned. If the value isn't within the
743 * specified range an error is displayed and 0 is returned. */
integer_in_range_display_error(const int value,const int range_min,const int range_max)744 static int integer_in_range_display_error(
745 const int value, const int range_min, const int range_max) {
746 if (value >= range_min && value <= range_max) {
747 return 1;
748 }
749 print_error("%d is not within the range %d-%d\n", value, range_min,
750 range_max);
751 return 0;
752 }
753
754
755 /* Determine whether a value is within the specified range. If the value
756 * is not within the range 1 is returned. If the value is within the
757 * specified range an error is displayed and zero is returned. */
integer_not_in_range_display_error(const int value,const int range_min,const int range_max)758 static int integer_not_in_range_display_error(
759 const int value, const int range_min, const int range_max) {
760 if (value < range_min || value > range_max) {
761 return 1;
762 }
763 print_error("%d is within the range %d-%d\n", value, range_min,
764 range_max);
765 return 0;
766 }
767
768
769 /* Determine whether the specified strings are equal. If the strings are equal
770 * 1 is returned. If they're not equal an error is displayed and 0 is
771 * returned. */
string_equal_display_error(const char * const left,const char * const right)772 static int string_equal_display_error(
773 const char * const left, const char * const right) {
774 if (strcmp(left, right) == 0) {
775 return 1;
776 }
777 print_error("\"%s\" != \"%s\"\n", left, right);
778 return 0;
779 }
780
781
782 /* Determine whether the specified strings are equal. If the strings are not
783 * equal 1 is returned. If they're not equal an error is displayed and 0 is
784 * returned */
string_not_equal_display_error(const char * const left,const char * const right)785 static int string_not_equal_display_error(
786 const char * const left, const char * const right) {
787 if (strcmp(left, right) != 0) {
788 return 1;
789 }
790 print_error("\"%s\" == \"%s\"\n", left, right);
791 return 0;
792 }
793
794
795 /* Determine whether the specified areas of memory are equal. If they're equal
796 * 1 is returned otherwise an error is displayed and 0 is returned. */
memory_equal_display_error(const char * a,const char * b,const size_t size)797 static int memory_equal_display_error(const char* a, const char* b,
798 const size_t size) {
799 int differences = 0;
800 size_t i;
801 for (i = 0; i < size; i++) {
802 const char l = a[i];
803 const char r = b[i];
804 if (l != r) {
805 print_error("difference at offset %d 0x%02x 0x%02x\n", i, l, r);
806 differences ++;
807 }
808 }
809 if (differences) {
810 print_error("%d bytes of 0x%08x and 0x%08x differ\n", differences,
811 a, b);
812 return 0;
813 }
814 return 1;
815 }
816
817
818 /* Determine whether the specified areas of memory are not equal. If they're
819 * not equal 1 is returned otherwise an error is displayed and 0 is
820 * returned. */
memory_not_equal_display_error(const char * a,const char * b,const size_t size)821 static int memory_not_equal_display_error(const char* a, const char* b,
822 const size_t size) {
823 int same = 0;
824 size_t i;
825 for (i = 0; i < size; i++) {
826 const char l = a[i];
827 const char r = b[i];
828 if (l == r) {
829 print_error("equal at offset %d 0x%02x 0x%02x\n", i, l, r);
830 same ++;
831 }
832 }
833 if (same) {
834 print_error("%d bytes of 0x%08x and 0x%08x the same\n", same,
835 a, b);
836 return 0;
837 }
838 return 1;
839 }
840
841
842 // CheckParameterValue callback to check whether a value is within a set.
check_in_set(const void * value,void * check_value_data)843 static int check_in_set(const void *value, void *check_value_data) {
844 return value_in_set_display_error(value,
845 (CheckIntegerSet*)check_value_data, 0);
846 }
847
848
849 // CheckParameterValue callback to check whether a value isn't within a set.
check_not_in_set(const void * value,void * check_value_data)850 static int check_not_in_set(const void *value, void *check_value_data) {
851 return value_in_set_display_error(value,
852 (CheckIntegerSet*)check_value_data, 1);
853 }
854
855
856 /* Create the callback data for check_in_set() or check_not_in_set() and
857 * register a check event. */
expect_set(const char * const function,const char * const parameter,const char * const file,const int line,const void * values[],const size_t number_of_values,const CheckParameterValue check_function,const int count)858 static void expect_set(
859 const char* const function, const char* const parameter,
860 const char* const file, const int line, const void *values[],
861 const size_t number_of_values,
862 const CheckParameterValue check_function, const int count) {
863 CheckIntegerSet * const check_integer_set =
864 malloc(sizeof(*check_integer_set) +
865 (sizeof(values[0]) * number_of_values));
866 void ** const set = (void**)(check_integer_set + 1);
867 assert_true(values);
868 assert_true(number_of_values);
869 memcpy(set, values, number_of_values * sizeof(values[0]));
870 check_integer_set->set = (const void**)set;
871 _expect_check(function, parameter, file, line, check_function,
872 check_integer_set, &check_integer_set->event, count);
873 }
874
875
876 // Add an event to check whether a value is in a set.
_expect_in_set(const char * const function,const char * const parameter,const char * const file,const int line,const void * values[],const size_t number_of_values,const int count)877 void _expect_in_set(
878 const char* const function, const char* const parameter,
879 const char* const file, const int line, const void *values[],
880 const size_t number_of_values, const int count) {
881 expect_set(function, parameter, file, line, values, number_of_values,
882 check_in_set, count);
883 }
884
885
886 // Add an event to check whether a value isn't in a set.
_expect_not_in_set(const char * const function,const char * const parameter,const char * const file,const int line,const void * values[],const size_t number_of_values,const int count)887 void _expect_not_in_set(
888 const char* const function, const char* const parameter,
889 const char* const file, const int line, const void *values[],
890 const size_t number_of_values, const int count) {
891 expect_set(function, parameter, file, line, values, number_of_values,
892 check_not_in_set, count);
893 }
894
895
896 // CheckParameterValue callback to check whether a value is within a range.
check_in_range(const void * value,void * check_value_data)897 static int check_in_range(const void *value, void *check_value_data) {
898 CheckIntegerRange * const check_integer_range = check_value_data;
899 assert_true(check_value_data);
900 return integer_in_range_display_error(
901 (int)value, check_integer_range->minimum,
902 check_integer_range->maximum);
903 }
904
905
906 // CheckParameterValue callback to check whether a value is not within a range.
check_not_in_range(const void * value,void * check_value_data)907 static int check_not_in_range(const void *value, void *check_value_data) {
908 CheckIntegerRange * const check_integer_range = check_value_data;
909 assert_true(check_value_data);
910 return integer_not_in_range_display_error(
911 (int)value, check_integer_range->minimum,
912 check_integer_range->maximum);
913 }
914
915
916 /* Create the callback data for check_in_range() or check_not_in_range() and
917 * register a check event. */
expect_range(const char * const function,const char * const parameter,const char * const file,const int line,const int minimum,const int maximum,const CheckParameterValue check_function,const int count)918 static void expect_range(
919 const char* const function, const char* const parameter,
920 const char* const file, const int line,
921 const int minimum, const int maximum,
922 const CheckParameterValue check_function, const int count) {
923 CheckIntegerRange * const check_integer_range =
924 malloc(sizeof(*check_integer_range));
925 check_integer_range->minimum = minimum;
926 check_integer_range->maximum = maximum;
927 _expect_check(function, parameter, file, line, check_function,
928 check_integer_range, &check_integer_range->event, count);
929 }
930
931
932 // Add an event to determine whether a parameter is within a range.
_expect_in_range(const char * const function,const char * const parameter,const char * const file,const int line,const int minimum,const int maximum,const int count)933 void _expect_in_range(
934 const char* const function, const char* const parameter,
935 const char* const file, const int line,
936 const int minimum, const int maximum, const int count) {
937 expect_range(function, parameter, file, line, minimum, maximum,
938 check_in_range, count);
939 }
940
941
942 // Add an event to determine whether a parameter is not within a range.
_expect_not_in_range(const char * const function,const char * const parameter,const char * const file,const int line,const int minimum,const int maximum,const int count)943 void _expect_not_in_range(
944 const char* const function, const char* const parameter,
945 const char* const file, const int line,
946 const int minimum, const int maximum, const int count) {
947 expect_range(function, parameter, file, line, minimum, maximum,
948 check_not_in_range, count);
949 }
950
951
952 /* CheckParameterValue callback to check whether a value is equal to an
953 * expected value. */
check_value(const void * value,void * check_value_data)954 static int check_value(const void *value, void *check_value_data) {
955 return values_equal_display_error(value, check_value_data);
956 }
957
958
959 // Add an event to check a parameter equals an expected value.
_expect_value(const char * const function,const char * const parameter,const char * const file,const int line,const void * const value,const int count)960 void _expect_value(
961 const char* const function, const char* const parameter,
962 const char* const file, const int line, const void* const value,
963 const int count) {
964 _expect_check(function, parameter, file, line, check_value,
965 (void*)value, NULL, count);
966 }
967
968
969 /* CheckParameterValue callback to check whether a value is not equal to an
970 * expected value. */
check_not_value(const void * value,void * check_value_data)971 static int check_not_value(const void *value, void *check_value_data) {
972 return values_not_equal_display_error(value, check_value_data);
973 }
974
975
976 // Add an event to check a parameter is not equal to an expected value.
_expect_not_value(const char * const function,const char * const parameter,const char * const file,const int line,const void * const value,const int count)977 void _expect_not_value(
978 const char* const function, const char* const parameter,
979 const char* const file, const int line, const void* const value,
980 const int count) {
981 _expect_check(function, parameter, file, line, check_not_value,
982 (void*)value, NULL, count);
983 }
984
985
986 // CheckParameterValue callback to check whether a parameter equals a string.
check_string(const void * value,void * check_value_data)987 static int check_string(const void * value, void *check_value_data) {
988 return string_equal_display_error(value, check_value_data);
989 }
990
991
992 // Add an event to check whether a parameter is equal to a string.
_expect_string(const char * const function,const char * const parameter,const char * const file,const int line,const char * string,const int count)993 void _expect_string(
994 const char* const function, const char* const parameter,
995 const char* const file, const int line, const char* string,
996 const int count) {
997 _expect_check(function, parameter, file, line, check_string, (void*)string,
998 NULL, count);
999 }
1000
1001
1002 /* CheckParameterValue callback to check whether a parameter is not equals to
1003 * a string. */
check_not_string(const void * value,void * check_value_data)1004 static int check_not_string(const void * value, void *check_value_data) {
1005 return string_not_equal_display_error(value, check_value_data);
1006 }
1007
1008
1009 // Add an event to check whether a parameter is not equal to a string.
_expect_not_string(const char * const function,const char * const parameter,const char * const file,const int line,const char * string,const int count)1010 void _expect_not_string(
1011 const char* const function, const char* const parameter,
1012 const char* const file, const int line, const char* string,
1013 const int count) {
1014 _expect_check(function, parameter, file, line, check_not_string,
1015 (void*)string, NULL, count);
1016 }
1017
1018 /* CheckParameterValue callback to check whether a parameter equals an area of
1019 * memory. */
check_memory(const void * value,void * check_value_data)1020 static int check_memory(const void* value, void *check_value_data) {
1021 CheckMemoryData * const check = (CheckMemoryData*)check_value_data;
1022 assert_true(check);
1023 return memory_equal_display_error(value, check->memory, check->size);
1024 }
1025
1026
1027 /* Create the callback data for check_memory() or check_not_memory() and
1028 * register a check event. */
expect_memory_setup(const char * const function,const char * const parameter,const char * const file,const int line,const void * const memory,const size_t size,const CheckParameterValue check_function,const int count)1029 static void expect_memory_setup(
1030 const char* const function, const char* const parameter,
1031 const char* const file, const int line,
1032 const void * const memory, const size_t size,
1033 const CheckParameterValue check_function, const int count) {
1034 CheckMemoryData * const check_data = malloc(sizeof(*check_data) + size);
1035 void * const mem = (void*)(check_data + 1);
1036 assert_true(memory);
1037 assert_true(size);
1038 memcpy(mem, memory, size);
1039 check_data->memory = mem;
1040 check_data->size = size;
1041 _expect_check(function, parameter, file, line, check_function,
1042 check_data, &check_data->event, count);
1043 }
1044
1045
1046 // Add an event to check whether a parameter matches an area of memory.
_expect_memory(const char * const function,const char * const parameter,const char * const file,const int line,const void * const memory,const size_t size,const int count)1047 void _expect_memory(
1048 const char* const function, const char* const parameter,
1049 const char* const file, const int line, const void* const memory,
1050 const size_t size, const int count) {
1051 expect_memory_setup(function, parameter, file, line, memory, size,
1052 check_memory, count);
1053 }
1054
1055
1056 /* CheckParameterValue callback to check whether a parameter is not equal to
1057 * an area of memory. */
check_not_memory(const void * value,void * check_value_data)1058 static int check_not_memory(const void* value, void *check_value_data) {
1059 CheckMemoryData * const check = (CheckMemoryData*)check_value_data;
1060 assert_true(check);
1061 return memory_not_equal_display_error(value, check->memory, check->size);
1062 }
1063
1064
1065 // Add an event to check whether a parameter doesn't match an area of memory.
_expect_not_memory(const char * const function,const char * const parameter,const char * const file,const int line,const void * const memory,const size_t size,const int count)1066 void _expect_not_memory(
1067 const char* const function, const char* const parameter,
1068 const char* const file, const int line, const void* const memory,
1069 const size_t size, const int count) {
1070 expect_memory_setup(function, parameter, file, line, memory, size,
1071 check_not_memory, count);
1072 }
1073
1074
1075 // CheckParameterValue callback that always returns 1.
check_any(const void * value,void * check_value_data)1076 static int check_any(const void *value, void *check_value_data) {
1077 return 1;
1078 }
1079
1080
1081 // Add an event to allow any value for a parameter.
_expect_any(const char * const function,const char * const parameter,const char * const file,const int line,const int count)1082 void _expect_any(
1083 const char* const function, const char* const parameter,
1084 const char* const file, const int line, const int count) {
1085 _expect_check(function, parameter, file, line, check_any, NULL, NULL,
1086 count);
1087 }
1088
1089
_check_expected(const char * const function_name,const char * const parameter_name,const char * file,const int line,const void * value)1090 void _check_expected(
1091 const char * const function_name, const char * const parameter_name,
1092 const char* file, const int line, const void* value) {
1093 void *result;
1094 const char* symbols[] = {function_name, parameter_name};
1095 const int rc = get_symbol_value(&global_function_parameter_map_head,
1096 symbols, 2, &result);
1097 if (rc) {
1098 CheckParameterEvent * const check = (CheckParameterEvent*)result;
1099 int check_succeeded;
1100 global_last_parameter_location = check->location;
1101 check_succeeded = check->check_value(value, check->check_value_data);
1102 if (rc == 1) {
1103 free(check);
1104 }
1105 if (!check_succeeded) {
1106 print_error("ERROR: Check of parameter %s, function %s failed\n"
1107 "Expected parameter declared at "
1108 SOURCE_LOCATION_FORMAT "\n",
1109 parameter_name, function_name,
1110 global_last_parameter_location.file,
1111 global_last_parameter_location.line);
1112 _fail(file, line);
1113 }
1114 } else {
1115 print_error("ERROR: " SOURCE_LOCATION_FORMAT " - Could not get value "
1116 "to check parameter %s of function %s\n", file, line,
1117 parameter_name, function_name);
1118 if (source_location_is_set(&global_last_parameter_location)) {
1119 print_error("Previously declared parameter value was declared at "
1120 SOURCE_LOCATION_FORMAT "\n",
1121 global_last_parameter_location.file,
1122 global_last_parameter_location.line);
1123 } else {
1124 print_error("There were no previously declared parameter values "
1125 "for this test.\n");
1126 }
1127 exit_test(1);
1128 }
1129 }
1130
1131
1132 // Replacement for assert.
mock_assert(const int result,const char * const expression,const char * const file,const int line)1133 void mock_assert(const int result, const char* const expression,
1134 const char* const file, const int line) {
1135 if (!result) {
1136 if (global_expecting_assert) {
1137 longjmp(global_expect_assert_env, (int)expression);
1138 } else {
1139 print_error("ASSERT: %s\n", expression);
1140 _fail(file, line);
1141 }
1142 }
1143 }
1144
1145
_assert_true(const int result,const char * const expression,const char * const file,const int line)1146 void _assert_true(const int result, const char * const expression,
1147 const char * const file, const int line) {
1148 if (!result) {
1149 print_error("%s\n", expression);
1150 _fail(file, line);
1151 }
1152 }
1153
_assert_int_equal(const int a,const int b,const char * const file,const int line)1154 void _assert_int_equal(const int a, const int b, const char * const file,
1155 const int line) {
1156 if (!values_equal_display_error((void*)a, (void*)b)) {
1157 _fail(file, line);
1158 }
1159 }
1160
1161
_assert_int_not_equal(const int a,const int b,const char * const file,const int line)1162 void _assert_int_not_equal(const int a, const int b, const char * const file,
1163 const int line) {
1164 if (!values_not_equal_display_error((void*)a, (void*)b)) {
1165 _fail(file, line);
1166 }
1167 }
1168
1169
_assert_string_equal(const char * const a,const char * const b,const char * const file,const int line)1170 void _assert_string_equal(const char * const a, const char * const b,
1171 const char * const file, const int line) {
1172 if (!string_equal_display_error(a, b)) {
1173 _fail(file, line);
1174 }
1175 }
1176
1177
_assert_string_not_equal(const char * const a,const char * const b,const char * file,const int line)1178 void _assert_string_not_equal(const char * const a, const char * const b,
1179 const char *file, const int line) {
1180 if (!string_not_equal_display_error(a, b)) {
1181 _fail(file, line);
1182 }
1183 }
1184
1185
_assert_memory_equal(const void * const a,const void * const b,const size_t size,const char * const file,const int line)1186 void _assert_memory_equal(const void * const a, const void * const b,
1187 const size_t size, const char* const file,
1188 const int line) {
1189 if (!memory_equal_display_error((const char*)a, (const char*)b, size)) {
1190 _fail(file, line);
1191 }
1192 }
1193
1194
_assert_memory_not_equal(const void * const a,const void * const b,const size_t size,const char * const file,const int line)1195 void _assert_memory_not_equal(const void * const a, const void * const b,
1196 const size_t size, const char* const file,
1197 const int line) {
1198 if (!memory_not_equal_display_error((const char*)a, (const char*)b,
1199 size)) {
1200 _fail(file, line);
1201 }
1202 }
1203
1204
_assert_in_range(const int value,const int minimum,const int maximum,const char * const file,const int line)1205 void _assert_in_range(const int value, const int minimum, const int maximum,
1206 const char* const file, const int line) {
1207 if (!integer_in_range_display_error(value, minimum, maximum)) {
1208 _fail(file, line);
1209 }
1210 }
1211
_assert_not_in_range(const int value,const int minimum,const int maximum,const char * const file,const int line)1212 void _assert_not_in_range(const int value, const int minimum,
1213 const int maximum, const char* const file,
1214 const int line) {
1215 if (!integer_not_in_range_display_error(value, minimum, maximum)) {
1216 _fail(file, line);
1217 }
1218 }
1219
_assert_in_set(const void * const value,const void * values[],const size_t number_of_values,const char * const file,const int line)1220 void _assert_in_set(const void* const value, const void *values[],
1221 const size_t number_of_values, const char* const file,
1222 const int line) {
1223 CheckIntegerSet check_integer_set;
1224 check_integer_set.set = values;
1225 check_integer_set.size_of_set = number_of_values;
1226 if (!value_in_set_display_error(value, &check_integer_set, 0)) {
1227 _fail(file, line);
1228 }
1229 }
1230
_assert_not_in_set(const void * const value,const void * values[],const size_t number_of_values,const char * const file,const int line)1231 void _assert_not_in_set(const void* const value, const void *values[],
1232 const size_t number_of_values, const char* const file,
1233 const int line) {
1234 CheckIntegerSet check_integer_set;
1235 check_integer_set.set = values;
1236 check_integer_set.size_of_set = number_of_values;
1237 if (!value_in_set_display_error(value, &check_integer_set, 1)) {
1238 _fail(file, line);
1239 }
1240 }
1241
1242
1243 // Get the list of allocated blocks.
get_allocated_blocks_list()1244 static ListNode* get_allocated_blocks_list() {
1245 // If it initialized, initialize the list of allocated blocks.
1246 if (!global_allocated_blocks.value) {
1247 list_initialize(&global_allocated_blocks);
1248 global_allocated_blocks.value = (void*)1;
1249 }
1250 return &global_allocated_blocks;
1251 }
1252
1253 // Use the real malloc in this function.
1254 #undef malloc
_test_malloc(const size_t size,const char * file,const int line)1255 void* _test_malloc(const size_t size, const char* file, const int line) {
1256 char* ptr;
1257 MallocBlockInfo *block_info;
1258 ListNode * const block_list = get_allocated_blocks_list();
1259 const size_t allocate_size = size + (MALLOC_GUARD_SIZE * 2) +
1260 sizeof(*block_info) + MALLOC_ALIGNMENT;
1261 char* const block = (char*)malloc(allocate_size);
1262 assert_true(block);
1263
1264 // Calculate the returned address.
1265 ptr = (char*)(((size_t)block + MALLOC_GUARD_SIZE + sizeof(*block_info) +
1266 MALLOC_ALIGNMENT) & ~(MALLOC_ALIGNMENT - 1));
1267
1268 // Initialize the guard blocks.
1269 memset(ptr - MALLOC_GUARD_SIZE, MALLOC_GUARD_PATTERN, MALLOC_GUARD_SIZE);
1270 memset(ptr + size, MALLOC_GUARD_PATTERN, MALLOC_GUARD_SIZE);
1271 memset(ptr, MALLOC_ALLOC_PATTERN, size);
1272
1273 block_info = (MallocBlockInfo*)(ptr - (MALLOC_GUARD_SIZE +
1274 sizeof(*block_info)));
1275 set_source_location(&block_info->location, file, line);
1276 block_info->allocated_size = allocate_size;
1277 block_info->size = size;
1278 block_info->block = block;
1279 block_info->node.value = block_info;
1280 list_add(block_list, &block_info->node);
1281 return ptr;
1282 }
1283 #define malloc test_malloc
1284
1285
_test_calloc(const size_t number_of_elements,const size_t size,const char * file,const int line)1286 void* _test_calloc(const size_t number_of_elements, const size_t size,
1287 const char* file, const int line) {
1288 void* const ptr = _test_malloc(number_of_elements * size, file, line);
1289 if (ptr) {
1290 memset(ptr, 0, number_of_elements * size);
1291 }
1292 return ptr;
1293 }
1294
1295
1296 // Use the real free in this function.
1297 #undef free
_test_free(void * const ptr,const char * file,const int line)1298 void _test_free(void* const ptr, const char* file, const int line) {
1299 unsigned int i;
1300 char *block = (char*)ptr;
1301 MallocBlockInfo *block_info;
1302 _assert_true((int)ptr, "ptr", file, line);
1303 block_info = (MallocBlockInfo*)(block - (MALLOC_GUARD_SIZE +
1304 sizeof(*block_info)));
1305 // Check the guard blocks.
1306 {
1307 char *guards[2] = {block - MALLOC_GUARD_SIZE,
1308 block + block_info->size};
1309 for (i = 0; i < ARRAY_LENGTH(guards); i++) {
1310 unsigned int j;
1311 char * const guard = guards[i];
1312 for (j = 0; j < MALLOC_GUARD_SIZE; j++) {
1313 const char diff = guard[j] - MALLOC_GUARD_PATTERN;
1314 if (diff) {
1315 print_error(
1316 "Guard block of 0x%08x size=%d allocated by "
1317 SOURCE_LOCATION_FORMAT " at 0x%08x is corrupt\n",
1318 (size_t)ptr, block_info->size,
1319 block_info->location.file, block_info->location.line,
1320 (size_t)&guard[j]);
1321 _fail(file, line);
1322 }
1323 }
1324 }
1325 }
1326 list_remove(&block_info->node, NULL, NULL);
1327
1328 block = block_info->block;
1329 memset(block, MALLOC_FREE_PATTERN, block_info->allocated_size);
1330 free(block);
1331 }
1332 #define free test_free
1333
1334
1335 // Crudely checkpoint the current heap state.
check_point_allocated_blocks()1336 static const ListNode* check_point_allocated_blocks() {
1337 return get_allocated_blocks_list()->prev;
1338 }
1339
1340
1341 /* Display the blocks allocated after the specified check point. This
1342 * function returns the number of blocks displayed. */
display_allocated_blocks(const ListNode * const check_point)1343 static int display_allocated_blocks(const ListNode * const check_point) {
1344 const ListNode * const head = get_allocated_blocks_list();
1345 const ListNode *node;
1346 int allocated_blocks = 0;
1347 assert_true(check_point);
1348 assert_true(check_point->next);
1349
1350 for (node = check_point->next; node != head; node = node->next) {
1351 const MallocBlockInfo * const block_info = node->value;
1352 assert_true(block_info);
1353
1354 if (!allocated_blocks) {
1355 print_error("Blocks allocated...\n");
1356 }
1357 print_error(" 0x%08x : " SOURCE_LOCATION_FORMAT "\n",
1358 block_info->block, block_info->location.file,
1359 block_info->location.line);
1360 allocated_blocks ++;
1361 }
1362 return allocated_blocks;
1363 }
1364
1365
1366 // Free all blocks allocated after the specified check point.
free_allocated_blocks(const ListNode * const check_point)1367 static void free_allocated_blocks(const ListNode * const check_point) {
1368 const ListNode * const head = get_allocated_blocks_list();
1369 const ListNode *node;
1370 assert_true(check_point);
1371
1372 node = check_point->next;
1373 assert_true(node);
1374
1375 while (node != head) {
1376 MallocBlockInfo * const block_info = (MallocBlockInfo*)node->value;
1377 node = node->next;
1378 free((char*)block_info + sizeof(*block_info) + MALLOC_GUARD_SIZE);
1379 }
1380 }
1381
1382
1383 // Fail if any any blocks are allocated after the specified check point.
fail_if_blocks_allocated(const ListNode * const check_point,const char * const test_name)1384 static void fail_if_blocks_allocated(const ListNode * const check_point,
1385 const char * const test_name) {
1386 const int allocated_blocks = display_allocated_blocks(check_point);
1387 if (allocated_blocks) {
1388 free_allocated_blocks(check_point);
1389 print_error("ERROR: %s leaked %d block(s)\n", test_name,
1390 allocated_blocks);
1391 exit_test(1);
1392 }
1393 }
1394
1395
_fail(const char * const file,const int line)1396 void _fail(const char * const file, const int line) {
1397 print_error("ERROR: " SOURCE_LOCATION_FORMAT " Failure!\n", file, line);
1398 exit_test(1);
1399 }
1400
1401
1402 #ifndef _WIN32
exception_handler(int sig)1403 static void exception_handler(int sig) {
1404 print_error("%s\n", strsignal(sig));
1405 exit_test(1);
1406 }
1407
1408 #else // _WIN32
1409
exception_filter(EXCEPTION_POINTERS * exception_pointers)1410 static LONG WINAPI exception_filter(EXCEPTION_POINTERS *exception_pointers) {
1411 EXCEPTION_RECORD * const exception_record =
1412 exception_pointers->ExceptionRecord;
1413 const DWORD code = exception_record->ExceptionCode;
1414 unsigned int i;
1415 for (i = 0; i < ARRAY_LENGTH(exception_codes); i++) {
1416 const ExceptionCodeInfo * const code_info = &exception_codes[i];
1417 if (code == code_info->code) {
1418 static int shown_debug_message = 0;
1419 fflush(stdout);
1420 print_error("%s occurred at 0x%08x.\n", code_info->description,
1421 exception_record->ExceptionAddress);
1422 if (!shown_debug_message) {
1423 print_error(
1424 "\n"
1425 "To debug in Visual Studio...\n"
1426 "1. Select menu item File->Open Project\n"
1427 "2. Change 'Files of type' to 'Executable Files'\n"
1428 "3. Open this executable.\n"
1429 "4. Select menu item Debug->Start\n"
1430 "\n"
1431 "Alternatively, set the environment variable \n"
1432 "UNIT_TESTING_DEBUG to 1 and rebuild this executable, \n"
1433 "then click 'Debug' in the popup dialog box.\n"
1434 "\n");
1435 shown_debug_message = 1;
1436 }
1437 exit_test(0);
1438 return EXCEPTION_EXECUTE_HANDLER;
1439 }
1440 }
1441 return EXCEPTION_CONTINUE_SEARCH;
1442 }
1443 #endif // !_WIN32
1444
1445
1446 // Standard output and error print methods.
vprint_message(const char * const format,va_list args)1447 void vprint_message(const char* const format, va_list args) {
1448 char buffer[1024];
1449 vsnprintf(buffer, sizeof(buffer), format, args);
1450 printf(buffer);
1451 #ifdef _WIN32
1452 OutputDebugString(buffer);
1453 #endif // _WIN32
1454 }
1455
1456
vprint_error(const char * const format,va_list args)1457 void vprint_error(const char* const format, va_list args) {
1458 char buffer[1024];
1459 vsnprintf(buffer, sizeof(buffer), format, args);
1460 fprintf(stderr, buffer);
1461 #ifdef _WIN32
1462 OutputDebugString(buffer);
1463 #endif // _WIN32
1464 }
1465
1466
print_message(const char * const format,...)1467 void print_message(const char* const format, ...) {
1468 va_list args;
1469 va_start(args, format);
1470 vprint_message(format, args);
1471 va_end(args);
1472 }
1473
1474
print_error(const char * const format,...)1475 void print_error(const char* const format, ...) {
1476 va_list args;
1477 va_start(args, format);
1478 vprint_error(format, args);
1479 va_end(args);
1480 }
1481
1482
_run_test(const char * const function_name,const UnitTestFunction Function,void ** const state,const UnitTestFunctionType function_type,const void * const heap_check_point)1483 int _run_test(
1484 const char * const function_name, const UnitTestFunction Function,
1485 void ** const state, const UnitTestFunctionType function_type,
1486 const void* const heap_check_point) {
1487 const ListNode * const check_point = heap_check_point ?
1488 heap_check_point : check_point_allocated_blocks();
1489 void *current_state = NULL;
1490 int rc = 1;
1491 int handle_exceptions = 1;
1492 #ifdef _WIN32
1493 handle_exceptions = !IsDebuggerPresent();
1494 #endif // _WIN32
1495 #if UNIT_TESTING_DEBUG
1496 handle_exceptions = 0;
1497 #endif // UNIT_TESTING_DEBUG
1498
1499 if (handle_exceptions) {
1500 #ifndef _WIN32
1501 unsigned int i;
1502 for (i = 0; i < ARRAY_LENGTH(exception_signals); i++) {
1503 default_signal_functions[i] = signal(
1504 exception_signals[i], exception_handler);
1505 }
1506 #else // _WIN32
1507 previous_exception_filter = SetUnhandledExceptionFilter(
1508 exception_filter);
1509 #endif // !_WIN32
1510 }
1511
1512 if (function_type == UNIT_TEST_FUNCTION_TYPE_TEST) {
1513 print_message("%s: Starting test\n", function_name);
1514 }
1515 initialize_testing(function_name);
1516 global_running_test = 1;
1517 if (setjmp(global_run_test_env) == 0) {
1518 Function(state ? state : ¤t_state);
1519 fail_if_leftover_values(function_name);
1520
1521 /* If this is a setup function then ignore any allocated blocks
1522 * only ensure they're deallocated on tear down. */
1523 if (function_type != UNIT_TEST_FUNCTION_TYPE_SETUP) {
1524 fail_if_blocks_allocated(check_point, function_name);
1525 }
1526
1527 global_running_test = 0;
1528
1529 if (function_type == UNIT_TEST_FUNCTION_TYPE_TEST) {
1530 print_message("%s: Test completed successfully.\n", function_name);
1531 }
1532 rc = 0;
1533 } else {
1534 global_running_test = 0;
1535 print_message("%s: Test failed.\n", function_name);
1536 }
1537 teardown_testing(function_name);
1538
1539 if (handle_exceptions) {
1540 #ifndef _WIN32
1541 unsigned int i;
1542 for (i = 0; i < ARRAY_LENGTH(exception_signals); i++) {
1543 signal(exception_signals[i], default_signal_functions[i]);
1544 }
1545 #else // _WIN32
1546 if (previous_exception_filter) {
1547 SetUnhandledExceptionFilter(previous_exception_filter);
1548 previous_exception_filter = NULL;
1549 }
1550 #endif // !_WIN32
1551 }
1552
1553 return rc;
1554 }
1555
1556
_run_tests(const UnitTest * const tests,const size_t number_of_tests)1557 int _run_tests(const UnitTest * const tests, const size_t number_of_tests) {
1558 // Whether to execute the next test.
1559 int run_next_test = 1;
1560 // Whether the previous test failed.
1561 int previous_test_failed = 0;
1562 // Check point of the heap state.
1563 const ListNode * const check_point = check_point_allocated_blocks();
1564 // Current test being executed.
1565 size_t current_test = 0;
1566 // Number of tests executed.
1567 size_t tests_executed = 0;
1568 // Number of failed tests.
1569 size_t total_failed = 0;
1570 // Number of setup functions.
1571 size_t setups = 0;
1572 // Number of teardown functions.
1573 size_t teardowns = 0;
1574 /* A stack of test states. A state is pushed on the stack
1575 * when a test setup occurs and popped on tear down. */
1576 TestState* test_states = malloc(number_of_tests * sizeof(*test_states));
1577 size_t number_of_test_states = 0;
1578 // Names of the tests that failed.
1579 const char** failed_names = malloc(number_of_tests *
1580 sizeof(*failed_names));
1581 void **current_state = NULL;
1582
1583 while (current_test < number_of_tests) {
1584 const ListNode *test_check_point = NULL;
1585 TestState *current_TestState;
1586 const UnitTest * const test = &tests[current_test++];
1587 if (!test->function) {
1588 continue;
1589 }
1590
1591 switch (test->function_type) {
1592 case UNIT_TEST_FUNCTION_TYPE_TEST:
1593 run_next_test = 1;
1594 break;
1595 case UNIT_TEST_FUNCTION_TYPE_SETUP: {
1596 // Checkpoint the heap before the setup.
1597 current_TestState = &test_states[number_of_test_states++];
1598 current_TestState->check_point = check_point_allocated_blocks();
1599 test_check_point = current_TestState->check_point;
1600 current_state = ¤t_TestState->state;
1601 *current_state = NULL;
1602 run_next_test = 1;
1603 setups ++;
1604 break;
1605 }
1606 case UNIT_TEST_FUNCTION_TYPE_TEARDOWN:
1607 // Check the heap based on the last setup checkpoint.
1608 assert_true(number_of_test_states);
1609 current_TestState = &test_states[--number_of_test_states];
1610 test_check_point = current_TestState->check_point;
1611 current_state = ¤t_TestState->state;
1612 teardowns ++;
1613 break;
1614 default:
1615 print_error("Invalid unit test function type %d\n",
1616 test->function_type);
1617 exit_test(1);
1618 break;
1619 }
1620
1621 if (run_next_test) {
1622 int failed = _run_test(test->name, test->function, current_state,
1623 test->function_type, test_check_point);
1624 if (failed) {
1625 failed_names[total_failed] = test->name;
1626 }
1627
1628 switch (test->function_type) {
1629 case UNIT_TEST_FUNCTION_TYPE_TEST:
1630 previous_test_failed = failed;
1631 total_failed += failed;
1632 tests_executed ++;
1633 break;
1634
1635 case UNIT_TEST_FUNCTION_TYPE_SETUP:
1636 if (failed) {
1637 total_failed ++;
1638 tests_executed ++;
1639 // Skip forward until the next test or setup function.
1640 run_next_test = 0;
1641 }
1642 previous_test_failed = 0;
1643 break;
1644
1645 case UNIT_TEST_FUNCTION_TYPE_TEARDOWN:
1646 // If this test failed.
1647 if (failed && !previous_test_failed) {
1648 total_failed ++;
1649 }
1650 break;
1651 default:
1652 assert_false("BUG: shouldn't be here!");
1653 break;
1654 }
1655 }
1656 }
1657
1658 if (total_failed) {
1659 size_t i;
1660 print_error("%d out of %d tests failed!\n", total_failed,
1661 tests_executed);
1662 for (i = 0; i < total_failed; i++) {
1663 print_error(" %s\n", failed_names[i]);
1664 }
1665 } else {
1666 print_message("All %d tests passed\n", tests_executed);
1667 }
1668
1669 if (number_of_test_states) {
1670 print_error("Mismatched number of setup %d and teardown %d "
1671 "functions\n", setups, teardowns);
1672 total_failed = -1;
1673 }
1674
1675 free(test_states);
1676 free((void*)failed_names);
1677
1678 fail_if_blocks_allocated(check_point, "run_tests");
1679 return (int)total_failed;
1680 }
1681