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|
/*
* Copyright 2008 Google Inc.
* Copyright 2014-2018 Andreas Schneider <asn@cryptomilk.org>
* Copyright 2015 Jakub Hrozek <jakub.hrozek@posteo.se>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#ifdef HAVE_MALLOC_H
#include <malloc.h>
#endif
#ifdef HAVE_INTTYPES_H
#include <inttypes.h>
#endif
#ifdef HAVE_SIGNAL_H
#include <signal.h>
#endif
#ifdef HAVE_STRINGS_H
#include <strings.h>
#endif
#include <stdint.h>
#include <setjmp.h>
#include <stdarg.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
/*
* This allows to add a platform specific header file. Some embedded platforms
* sometimes miss certain types and definitions.
*
* Example:
*
* typedef unsigned long int uintptr_t
* #define _UINTPTR_T 1
* #define _UINTPTR_T_DEFINED 1
*/
#ifdef CMOCKA_PLATFORM_INCLUDE
# include "cmocka_platform.h"
#endif /* CMOCKA_PLATFORM_INCLUDE */
#include <cmocka.h>
#include <cmocka_private.h>
/* Size of guard bytes around dynamically allocated blocks. */
#define MALLOC_GUARD_SIZE 16
/* Pattern used to initialize guard blocks. */
#define MALLOC_GUARD_PATTERN 0xEF
/* Pattern used to initialize memory allocated with test_malloc(). */
#define MALLOC_ALLOC_PATTERN 0xBA
#define MALLOC_FREE_PATTERN 0xCD
/* Alignment of allocated blocks. NOTE: This must be base2. */
#define MALLOC_ALIGNMENT sizeof(size_t)
/* Printf formatting for source code locations. */
#define SOURCE_LOCATION_FORMAT "%s:%u"
#if defined(HAVE_GCC_THREAD_LOCAL_STORAGE)
# define CMOCKA_THREAD __thread
#elif defined(HAVE_MSVC_THREAD_LOCAL_STORAGE)
# define CMOCKA_THREAD __declspec(thread)
#else
# define CMOCKA_THREAD
#endif
#ifdef HAVE_CLOCK_REALTIME
#define CMOCKA_CLOCK_GETTIME(clock_id, ts) clock_gettime((clock_id), (ts))
#else
#define CMOCKA_CLOCK_GETTIME(clock_id, ts)
#endif
#ifndef MAX
#define MAX(a,b) ((a) < (b) ? (b) : (a))
#endif
/**
* POSIX has sigsetjmp/siglongjmp, while Windows only has setjmp/longjmp.
*/
#ifdef HAVE_SIGLONGJMP
# define cm_jmp_buf sigjmp_buf
# define cm_setjmp(env) sigsetjmp(env, 1)
# define cm_longjmp(env, val) siglongjmp(env, val)
#else
# define cm_jmp_buf jmp_buf
# define cm_setjmp(env) setjmp(env)
# define cm_longjmp(env, val) longjmp(env, val)
#endif
/*
* Declare and initialize the pointer member of ValuePointer variable name
* with ptr.
*/
#define declare_initialize_value_pointer_pointer(name, ptr) \
ValuePointer name ; \
name.value = 0; \
name.x.pointer = (void*)(ptr)
/*
* Declare and initialize the value member of ValuePointer variable name
* with val.
*/
#define declare_initialize_value_pointer_value(name, val) \
ValuePointer name ; \
name.value = val
/* Cast a LargestIntegralType to pointer_type via a ValuePointer. */
#define cast_largest_integral_type_to_pointer( \
pointer_type, largest_integral_type) \
((pointer_type)((ValuePointer*)&(largest_integral_type))->x.pointer)
/* Used to cast LargetIntegralType to void* and vice versa. */
typedef union ValuePointer {
LargestIntegralType value;
struct {
#if defined(WORDS_BIGENDIAN) && (WORDS_SIZEOF_VOID_P == 4)
unsigned int padding;
#endif
void *pointer;
} x;
} ValuePointer;
/* Doubly linked list node. */
typedef struct ListNode {
const void *value;
int refcount;
struct ListNode *next;
struct ListNode *prev;
} ListNode;
/* Debug information for malloc(). */
struct MallocBlockInfoData {
void* block; /* Address of the block returned by malloc(). */
size_t allocated_size; /* Total size of the allocated block. */
size_t size; /* Request block size. */
SourceLocation location; /* Where the block was allocated. */
ListNode node; /* Node within list of all allocated blocks. */
};
typedef union {
struct MallocBlockInfoData *data;
char *ptr;
} MallocBlockInfo;
/* State of each test. */
typedef struct TestState {
const ListNode *check_point; /* Check point of the test if there's a */
/* setup function. */
void *state; /* State associated with the test. */
} TestState;
/* Determines whether two values are the same. */
typedef int (*EqualityFunction)(const void *left, const void *right);
/* Value of a symbol and the place it was declared. */
typedef struct SymbolValue {
SourceLocation location;
LargestIntegralType value;
} SymbolValue;
/*
* Contains a list of values for a symbol.
* NOTE: Each structure referenced by symbol_values_list_head must have a
* SourceLocation as its' first member.
*/
typedef struct SymbolMapValue {
const char *symbol_name;
ListNode symbol_values_list_head;
} SymbolMapValue;
/* Where a particular ordering was located and its symbol name */
typedef struct FuncOrderingValue {
SourceLocation location;
const char * function;
} FuncOrderingValue;
/* Used by list_free() to deallocate values referenced by list nodes. */
typedef void (*CleanupListValue)(const void *value, void *cleanup_value_data);
/* Structure used to check the range of integer types.a */
typedef struct CheckIntegerRange {
CheckParameterEvent event;
LargestIntegralType minimum;
LargestIntegralType maximum;
} CheckIntegerRange;
/* Structure used to check whether an integer value is in a set. */
typedef struct CheckIntegerSet {
CheckParameterEvent event;
const LargestIntegralType *set;
size_t size_of_set;
} CheckIntegerSet;
/* Used to check whether a parameter matches the area of memory referenced by
* this structure. */
typedef struct CheckMemoryData {
CheckParameterEvent event;
const void *memory;
size_t size;
} CheckMemoryData;
static ListNode* list_initialize(ListNode * const node);
static ListNode* list_add(ListNode * const head, ListNode *new_node);
static ListNode* list_add_value(ListNode * const head, const void *value,
const int count);
static ListNode* list_remove(
ListNode * const node, const CleanupListValue cleanup_value,
void * const cleanup_value_data);
static void list_remove_free(
ListNode * const node, const CleanupListValue cleanup_value,
void * const cleanup_value_data);
static int list_empty(const ListNode * const head);
static int list_find(
ListNode * const head, const void *value,
const EqualityFunction equal_func, ListNode **output);
static int list_first(ListNode * const head, ListNode **output);
static ListNode* list_free(
ListNode * const head, const CleanupListValue cleanup_value,
void * const cleanup_value_data);
static void 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 count);
static int get_symbol_value(
ListNode * const symbol_map_head, const char * const symbol_names[],
const size_t number_of_symbol_names, void **output);
static void free_value(const void *value, void *cleanup_value_data);
static void free_symbol_map_value(
const void *value, void *cleanup_value_data);
static void remove_always_return_values(ListNode * const map_head,
const size_t number_of_symbol_names);
static size_t check_for_leftover_values_list(const ListNode * head,
const char * const error_message);
static size_t check_for_leftover_values(
const ListNode * const map_head, const char * const error_message,
const size_t number_of_symbol_names);
static void remove_always_return_values_from_list(ListNode * const map_head);
/*
* This must be called at the beginning of a test to initialize some data
* structures.
*/
static void initialize_testing(const char *test_name);
/* This must be called at the end of a test to free() allocated structures. */
static void teardown_testing(const char *test_name);
static enum cm_message_output cm_get_output(void);
static int cm_error_message_enabled = 1;
static CMOCKA_THREAD char *cm_error_message;
void cm_print_error(const char * const format, ...) CMOCKA_PRINTF_ATTRIBUTE(1, 2);
/*
* Keeps track of the calling context returned by setenv() so that the fail()
* method can jump out of a test.
*/
static CMOCKA_THREAD cm_jmp_buf global_run_test_env;
static CMOCKA_THREAD int global_running_test = 0;
/* Keeps track of the calling context returned by setenv() so that */
/* mock_assert() can optionally jump back to expect_assert_failure(). */
jmp_buf global_expect_assert_env;
int global_expecting_assert = 0;
const char *global_last_failed_assert = NULL;
static int global_skip_test;
/* Keeps a map of the values that functions will have to return to provide */
/* mocked interfaces. */
static CMOCKA_THREAD ListNode global_function_result_map_head;
/* Location of the last mock value returned was declared. */
static CMOCKA_THREAD SourceLocation global_last_mock_value_location;
/* Keeps a map of the values that functions expect as parameters to their
* mocked interfaces. */
static CMOCKA_THREAD ListNode global_function_parameter_map_head;
/* Location of last parameter value checked was declared. */
static CMOCKA_THREAD SourceLocation global_last_parameter_location;
/* List (acting as FIFO) of call ordering. */
static CMOCKA_THREAD ListNode global_call_ordering_head;
/* Location of last call ordering that was declared. */
static CMOCKA_THREAD SourceLocation global_last_call_ordering_location;
/* List of all currently allocated blocks. */
static CMOCKA_THREAD ListNode global_allocated_blocks;
static enum cm_message_output global_msg_output = CM_OUTPUT_STDOUT;
static const char *global_test_filter_pattern;
#ifndef _WIN32
/* Signals caught by exception_handler(). */
static const int exception_signals[] = {
SIGFPE,
SIGILL,
SIGSEGV,
#ifdef SIGBUS
SIGBUS,
#endif
#ifdef SIGSYS
SIGSYS,
#endif
};
/* Default signal functions that should be restored after a test is complete. */
typedef void (*SignalFunction)(int signal);
static SignalFunction default_signal_functions[
ARRAY_SIZE(exception_signals)];
#else /* _WIN32 */
/* The default exception filter. */
static LPTOP_LEVEL_EXCEPTION_FILTER previous_exception_filter;
/* Fatal exceptions. */
typedef struct ExceptionCodeInfo {
DWORD code;
const char* description;
} ExceptionCodeInfo;
#define EXCEPTION_CODE_INFO(exception_code) {exception_code, #exception_code}
static const ExceptionCodeInfo exception_codes[] = {
EXCEPTION_CODE_INFO(EXCEPTION_ACCESS_VIOLATION),
EXCEPTION_CODE_INFO(EXCEPTION_ARRAY_BOUNDS_EXCEEDED),
EXCEPTION_CODE_INFO(EXCEPTION_DATATYPE_MISALIGNMENT),
EXCEPTION_CODE_INFO(EXCEPTION_FLT_DENORMAL_OPERAND),
EXCEPTION_CODE_INFO(EXCEPTION_FLT_DIVIDE_BY_ZERO),
EXCEPTION_CODE_INFO(EXCEPTION_FLT_INEXACT_RESULT),
EXCEPTION_CODE_INFO(EXCEPTION_FLT_INVALID_OPERATION),
EXCEPTION_CODE_INFO(EXCEPTION_FLT_OVERFLOW),
EXCEPTION_CODE_INFO(EXCEPTION_FLT_STACK_CHECK),
EXCEPTION_CODE_INFO(EXCEPTION_FLT_UNDERFLOW),
EXCEPTION_CODE_INFO(EXCEPTION_GUARD_PAGE),
EXCEPTION_CODE_INFO(EXCEPTION_ILLEGAL_INSTRUCTION),
EXCEPTION_CODE_INFO(EXCEPTION_INT_DIVIDE_BY_ZERO),
EXCEPTION_CODE_INFO(EXCEPTION_INT_OVERFLOW),
EXCEPTION_CODE_INFO(EXCEPTION_INVALID_DISPOSITION),
EXCEPTION_CODE_INFO(EXCEPTION_INVALID_HANDLE),
EXCEPTION_CODE_INFO(EXCEPTION_IN_PAGE_ERROR),
EXCEPTION_CODE_INFO(EXCEPTION_NONCONTINUABLE_EXCEPTION),
EXCEPTION_CODE_INFO(EXCEPTION_PRIV_INSTRUCTION),
EXCEPTION_CODE_INFO(EXCEPTION_STACK_OVERFLOW),
};
#endif /* !_WIN32 */
enum CMUnitTestStatus {
CM_TEST_NOT_STARTED,
CM_TEST_PASSED,
CM_TEST_FAILED,
CM_TEST_ERROR,
CM_TEST_SKIPPED,
};
struct CMUnitTestState {
const ListNode *check_point; /* Check point of the test if there's a setup function. */
const struct CMUnitTest *test; /* Point to array element in the tests we get passed */
void *state; /* State associated with the test */
const char *error_message; /* The error messages by the test */
enum CMUnitTestStatus status; /* PASSED, FAILED, ABORT ... */
double runtime; /* Time calculations */
};
/* Exit the currently executing test. */
static void exit_test(const int quit_application)
{
const char *abort_test = getenv("CMOCKA_TEST_ABORT");
if (abort_test != NULL && abort_test[0] == '1') {
print_error("%s", cm_error_message);
abort();
} else if (global_running_test) {
cm_longjmp(global_run_test_env, 1);
} else if (quit_application) {
exit(-1);
}
}
void _skip(const char * const file, const int line)
{
cm_print_error(SOURCE_LOCATION_FORMAT ": Skipped!\n", file, line);
global_skip_test = 1;
exit_test(1);
}
/* Initialize a SourceLocation structure. */
static void initialize_source_location(SourceLocation * const location) {
assert_non_null(location);
location->file = NULL;
location->line = 0;
}
/* Determine whether a source location is currently set. */
static int source_location_is_set(const SourceLocation * const location) {
assert_non_null(location);
return location->file && location->line;
}
/* Set a source location. */
static void set_source_location(
SourceLocation * const location, const char * const file,
const int line) {
assert_non_null(location);
location->file = file;
location->line = line;
}
static int c_strreplace(char *src,
size_t src_len,
const char *pattern,
const char *repl,
int *str_replaced)
{
char *p = NULL;
p = strstr(src, pattern);
if (p == NULL) {
return -1;
}
do {
size_t of = p - src;
size_t l = strlen(src);
size_t pl = strlen(pattern);
size_t rl = strlen(repl);
/* overflow check */
if (src_len <= l + MAX(pl, rl) + 1) {
return -1;
}
if (rl != pl) {
memmove(src + of + rl, src + of + pl, l - of - pl + 1);
}
memcpy(src + of, repl, rl);
if (str_replaced != NULL) {
*str_replaced = 1;
}
p = strstr(src, pattern);
} while (p != NULL);
return 0;
}
static int c_strmatch(const char *str, const char *pattern)
{
int ok;
if (str == NULL || pattern == NULL) {
return 0;
}
for (;;) {
/* Check if pattern is done */
if (*pattern == '\0') {
/* If string is at the end, we're good */
if (*str == '\0') {
return 1;
}
return 0;
}
if (*pattern == '*') {
/* Move on */
pattern++;
/* If we are at the end, everything is fine */
if (*pattern == '\0') {
return 1;
}
/* Try to match each position */
for (; *str != '\0'; str++) {
ok = c_strmatch(str, pattern);
if (ok) {
return 1;
}
}
/* No match */
return 0;
}
/* If we are at the end, leave */
if (*str == '\0') {
return 0;
}
/* Check if we have a single wildcard or matching char */
if (*pattern != '?' && *str != *pattern) {
return 0;
}
/* Move string and pattern */
str++;
pattern++;
}
return 0;
}
/* Create function results and expected parameter lists. */
void initialize_testing(const char *test_name) {
(void)test_name;
list_initialize(&global_function_result_map_head);
initialize_source_location(&global_last_mock_value_location);
list_initialize(&global_function_parameter_map_head);
initialize_source_location(&global_last_parameter_location);
list_initialize(&global_call_ordering_head);
initialize_source_location(&global_last_parameter_location);
}
static void fail_if_leftover_values(const char *test_name) {
int error_occurred = 0;
(void)test_name;
remove_always_return_values(&global_function_result_map_head, 1);
if (check_for_leftover_values(
&global_function_result_map_head,
"%s() has remaining non-returned values.\n", 1)) {
error_occurred = 1;
}
remove_always_return_values(&global_function_parameter_map_head, 2);
if (check_for_leftover_values(
&global_function_parameter_map_head,
"'%s' parameter still has values that haven't been checked.\n",
2)) {
error_occurred = 1;
}
remove_always_return_values_from_list(&global_call_ordering_head);
if (check_for_leftover_values_list(&global_call_ordering_head,
"%s function was expected to be called but was not not.\n")) {
error_occurred = 1;
}
if (error_occurred) {
exit_test(1);
}
}
static void teardown_testing(const char *test_name) {
(void)test_name;
list_free(&global_function_result_map_head, free_symbol_map_value,
(void*)0);
initialize_source_location(&global_last_mock_value_location);
list_free(&global_function_parameter_map_head, free_symbol_map_value,
(void*)1);
initialize_source_location(&global_last_parameter_location);
list_free(&global_call_ordering_head, free_value,
(void*)0);
initialize_source_location(&global_last_call_ordering_location);
}
/* Initialize a list node. */
static ListNode* list_initialize(ListNode * const node) {
node->value = NULL;
node->next = node;
node->prev = node;
node->refcount = 1;
return node;
}
/*
* Adds a value at the tail of a given list.
* The node referencing the value is allocated from the heap.
*/
static ListNode* list_add_value(ListNode * const head, const void *value,
const int refcount) {
ListNode * const new_node = (ListNode*)malloc(sizeof(ListNode));
assert_non_null(head);
assert_non_null(value);
new_node->value = value;
new_node->refcount = refcount;
return list_add(head, new_node);
}
/* Add new_node to the end of the list. */
static ListNode* list_add(ListNode * const head, ListNode *new_node) {
assert_non_null(head);
assert_non_null(new_node);
new_node->next = head;
new_node->prev = head->prev;
head->prev->next = new_node;
head->prev = new_node;
return new_node;
}
/* Remove a node from a list. */
static ListNode* list_remove(
ListNode * const node, const CleanupListValue cleanup_value,
void * const cleanup_value_data) {
assert_non_null(node);
node->prev->next = node->next;
node->next->prev = node->prev;
if (cleanup_value) {
cleanup_value(node->value, cleanup_value_data);
}
return node;
}
/* Remove a list node from a list and free the node. */
static void list_remove_free(
ListNode * const node, const CleanupListValue cleanup_value,
void * const cleanup_value_data) {
assert_non_null(node);
free(list_remove(node, cleanup_value, cleanup_value_data));
}
/*
* Frees memory kept by a linked list The cleanup_value function is called for
* every "value" field of nodes in the list, except for the head. In addition
* to each list value, cleanup_value_data is passed to each call to
* cleanup_value. The head of the list is not deallocated.
*/
static ListNode* list_free(
ListNode * const head, const CleanupListValue cleanup_value,
void * const cleanup_value_data) {
assert_non_null(head);
while (!list_empty(head)) {
list_remove_free(head->next, cleanup_value, cleanup_value_data);
}
return head;
}
/* Determine whether a list is empty. */
static int list_empty(const ListNode * const head) {
assert_non_null(head);
return head->next == head;
}
/*
* Find a value in the list using the equal_func to compare each node with the
* value.
*/
static int list_find(ListNode * const head, const void *value,
const EqualityFunction equal_func, ListNode **output) {
ListNode *current;
assert_non_null(head);
for (current = head->next; current != head; current = current->next) {
if (equal_func(current->value, value)) {
*output = current;
return 1;
}
}
return 0;
}
/* Returns the first node of a list */
static int list_first(ListNode * const head, ListNode **output) {
ListNode *target_node;
assert_non_null(head);
if (list_empty(head)) {
return 0;
}
target_node = head->next;
*output = target_node;
return 1;
}
/* Deallocate a value referenced by a list. */
static void free_value(const void *value, void *cleanup_value_data) {
(void)cleanup_value_data;
assert_non_null(value);
free((void*)value);
}
/* Releases memory associated to a symbol_map_value. */
static void free_symbol_map_value(const void *value,
void *cleanup_value_data) {
SymbolMapValue * const map_value = (SymbolMapValue*)value;
const LargestIntegralType children = cast_ptr_to_largest_integral_type(cleanup_value_data);
assert_non_null(value);
list_free(&map_value->symbol_values_list_head,
children ? free_symbol_map_value : free_value,
(void *) ((uintptr_t)children - 1));
free(map_value);
}
/*
* Determine whether a symbol name referenced by a symbol_map_value matches the
* specified function name.
*/
static int symbol_names_match(const void *map_value, const void *symbol) {
return !strcmp(((SymbolMapValue*)map_value)->symbol_name,
(const char*)symbol);
}
/*
* Adds a value to the queue of values associated with the given hierarchy of
* symbols. It's assumed value is allocated from the heap.
*/
static void 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) {
const char* symbol_name;
ListNode *target_node;
SymbolMapValue *target_map_value;
assert_non_null(symbol_map_head);
assert_non_null(symbol_names);
assert_true(number_of_symbol_names);
symbol_name = symbol_names[0];
if (!list_find(symbol_map_head, symbol_name, symbol_names_match,
&target_node)) {
SymbolMapValue * const new_symbol_map_value =
(SymbolMapValue*)malloc(sizeof(*new_symbol_map_value));
new_symbol_map_value->symbol_name = symbol_name;
list_initialize(&new_symbol_map_value->symbol_values_list_head);
target_node = list_add_value(symbol_map_head, new_symbol_map_value,
1);
}
target_map_value = (SymbolMapValue*)target_node->value;
if (number_of_symbol_names == 1) {
list_add_value(&target_map_value->symbol_values_list_head,
value, refcount);
} else {
add_symbol_value(&target_map_value->symbol_values_list_head,
&symbol_names[1], number_of_symbol_names - 1, value,
refcount);
}
}
/*
* Gets the next value associated with the given hierarchy of symbols.
* The value is returned as an output parameter with the function returning the
* node's old refcount value if a value is found, 0 otherwise. This means that
* a return value of 1 indicates the node was just removed from the list.
*/
static int get_symbol_value(
ListNode * const head, const char * const symbol_names[],
const size_t number_of_symbol_names, void **output) {
const char* symbol_name;
ListNode *target_node;
assert_non_null(head);
assert_non_null(symbol_names);
assert_true(number_of_symbol_names);
assert_non_null(output);
symbol_name = symbol_names[0];
if (list_find(head, symbol_name, symbol_names_match, &target_node)) {
SymbolMapValue *map_value;
ListNode *child_list;
int return_value = 0;
assert_non_null(target_node);
assert_non_null(target_node->value);
map_value = (SymbolMapValue*)target_node->value;
child_list = &map_value->symbol_values_list_head;
if (number_of_symbol_names == 1) {
ListNode *value_node = NULL;
return_value = list_first(child_list, &value_node);
assert_true(return_value);
*output = (void*) value_node->value;
return_value = value_node->refcount;
if (value_node->refcount - 1 == 0) {
list_remove_free(value_node, NULL, NULL);
} else if (value_node->refcount > WILL_RETURN_ONCE) {
--value_node->refcount;
}
} else {
return_value = get_symbol_value(
child_list, &symbol_names[1], number_of_symbol_names - 1,
output);
}
if (list_empty(child_list)) {
list_remove_free(target_node, free_symbol_map_value, (void*)0);
}
return return_value;
} else {
cm_print_error("No entries for symbol %s.\n", symbol_name);
}
return 0;
}
/**
* Taverse a list of nodes and remove first symbol value in list that has a
* refcount < -1 (i.e. should always be returned and has been returned at
* least once).
*/
static void remove_always_return_values_from_list(ListNode * const map_head)
{
ListNode * current = NULL;
ListNode * next = NULL;
assert_non_null(map_head);
for (current = map_head->next, next = current->next;
current != map_head;
current = next, next = current->next) {
if (current->refcount < -1) {
list_remove_free(current, free_value, NULL);
}
}
}
/*
* Traverse down a tree of symbol values and remove the first symbol value
* in each branch that has a refcount < -1 (i.e should always be returned
* and has been returned at least once).
*/
static void remove_always_return_values(ListNode * const map_head,
const size_t number_of_symbol_names) {
ListNode *current;
assert_non_null(map_head);
assert_true(number_of_symbol_names);
current = map_head->next;
while (current != map_head) {
SymbolMapValue * const value = (SymbolMapValue*)current->value;
ListNode * const next = current->next;
ListNode *child_list;
assert_non_null(value);
child_list = &value->symbol_values_list_head;
if (!list_empty(child_list)) {
if (number_of_symbol_names == 1) {
ListNode * const child_node = child_list->next;
/* If this item has been returned more than once, free it. */
if (child_node->refcount < -1) {
list_remove_free(child_node, free_value, NULL);
}
} else {
remove_always_return_values(child_list,
number_of_symbol_names - 1);
}
}
if (list_empty(child_list)) {
list_remove_free(current, free_value, NULL);
}
current = next;
}
}
static size_t check_for_leftover_values_list(const ListNode * head,
const char * const error_message)
{
ListNode *child_node;
size_t leftover_count = 0;
if (!list_empty(head))
{
for (child_node = head->next; child_node != head;
child_node = child_node->next, ++leftover_count) {
const FuncOrderingValue *const o =
(const FuncOrderingValue*) child_node->value;
cm_print_error(error_message, o->function);
cm_print_error(SOURCE_LOCATION_FORMAT
": note: remaining item was declared here\n",
o->location.file, o->location.line);
}
}
return leftover_count;
}
/*
* Checks if there are any leftover values set up by the test that were never
* retrieved through execution, and fail the test if that is the case.
*/
static size_t check_for_leftover_values(
const ListNode * const map_head, const char * const error_message,
const size_t number_of_symbol_names) {
const ListNode *current;
size_t symbols_with_leftover_values = 0;
assert_non_null(map_head);
assert_true(number_of_symbol_names);
for (current = map_head->next; current != map_head;
current = current->next) {
const SymbolMapValue * const value =
(SymbolMapValue*)current->value;
const ListNode *child_list;
assert_non_null(value);
child_list = &value->symbol_values_list_head;
if (!list_empty(child_list)) {
if (number_of_symbol_names == 1) {
const ListNode *child_node;
cm_print_error(error_message, value->symbol_name);
for (child_node = child_list->next; child_node != child_list;
child_node = child_node->next) {
const SourceLocation * const location =
(const SourceLocation*)child_node->value;
cm_print_error(SOURCE_LOCATION_FORMAT
": note: remaining item was declared here\n",
location->file, location->line);
}
} else {
cm_print_error("%s: ", value->symbol_name);
check_for_leftover_values(child_list, error_message,
number_of_symbol_names - 1);
}
symbols_with_leftover_values ++;
}
}
return symbols_with_leftover_values;
}
/* Get the next return value for the specified mock function. */
LargestIntegralType _mock(const char * const function, const char* const file,
const int line) {
void *result;
const int rc = get_symbol_value(&global_function_result_map_head,
&function, 1, &result);
if (rc) {
SymbolValue * const symbol = (SymbolValue*)result;
const LargestIntegralType value = symbol->value;
global_last_mock_value_location = symbol->location;
if (rc == 1) {
free(symbol);
}
return value;
} else {
cm_print_error(SOURCE_LOCATION_FORMAT ": error: Could not get value "
"to mock function %s\n", file, line, function);
if (source_location_is_set(&global_last_mock_value_location)) {
cm_print_error(SOURCE_LOCATION_FORMAT
": note: Previously returned mock value was declared here\n",
global_last_mock_value_location.file,
global_last_mock_value_location.line);
} else {
cm_print_error("There were no previously returned mock values for "
"this test.\n");
}
exit_test(1);
}
return 0;
}
/* Ensure that function is being called in proper order */
void _function_called(const char *const function,
const char *const file,
const int line)
{
ListNode *first_value_node = NULL;
ListNode *value_node = NULL;
int rc;
rc = list_first(&global_call_ordering_head, &value_node);
first_value_node = value_node;
if (rc) {
FuncOrderingValue *expected_call;
int cmp;
expected_call = (FuncOrderingValue *)value_node->value;
cmp = strcmp(expected_call->function, function);
if (value_node->refcount < -1) {
/*
* Search through value nodes until either function is found or
* encounter a non-zero refcount greater than -2
*/
if (cmp != 0) {
value_node = value_node->next;
expected_call = (FuncOrderingValue *)value_node->value;
cmp = strcmp(expected_call->function, function);
while (value_node->refcount < -1 &&
cmp != 0 &&
value_node != first_value_node->prev) {
value_node = value_node->next;
if (value_node == NULL) {
break;
}
expected_call = (FuncOrderingValue *)value_node->value;
if (expected_call == NULL) {
continue;
}
cmp = strcmp(expected_call->function, function);
}
if (expected_call == NULL || value_node == first_value_node->prev) {
cm_print_error(SOURCE_LOCATION_FORMAT
": error: No expected mock calls matching "
"called() invocation in %s",
file, line,
function);
exit_test(1);
}
}
}
if (cmp == 0) {
if (value_node->refcount > -2 && --value_node->refcount == 0) {
list_remove_free(value_node, free_value, NULL);
}
} else {
cm_print_error(SOURCE_LOCATION_FORMAT
": error: Expected call to %s but received called() "
"in %s\n",
file, line,
expected_call->function,
function);
exit_test(1);
}
} else {
cm_print_error(SOURCE_LOCATION_FORMAT
": error: No mock calls expected but called() was "
"invoked in %s\n",
file, line,
function);
exit_test(1);
}
}
/* Add a return value for the specified mock function name. */
void _will_return(const char * const function_name, const char * const file,
const int line, const LargestIntegralType value,
const int count) {
SymbolValue * const return_value =
(SymbolValue*)malloc(sizeof(*return_value));
assert_true(count != 0);
return_value->value = value;
set_source_location(&return_value->location, file, line);
add_symbol_value(&global_function_result_map_head, &function_name, 1,
return_value, count);
}
/*
* Add a custom parameter checking function. If the event parameter is NULL
* the event structure is allocated internally by this function. If event
* parameter is provided it must be allocated on the heap and doesn't need to
* be deallocated by the caller.
*/
void _expect_check(
const char* const function, const char* const parameter,
const char* const file, const int line,
const CheckParameterValue check_function,
const LargestIntegralType check_data,
CheckParameterEvent * const event, const int count) {
CheckParameterEvent * const check =
event ? event : (CheckParameterEvent*)malloc(sizeof(*check));
const char* symbols[] = {function, parameter};
check->parameter_name = parameter;
check->check_value = check_function;
check->check_value_data = check_data;
set_source_location(&check->location, file, line);
add_symbol_value(&global_function_parameter_map_head, symbols, 2, check,
count);
}
/*
* Add an call expectations that a particular function is called correctly.
* This is used for code under test that makes calls to several functions
* in depended upon components (mocks).
*/
void _expect_function_call(
const char * const function_name,
const char * const file,
const int line,
const int count)
{
FuncOrderingValue *ordering;
assert_non_null(function_name);
assert_non_null(file);
assert_true(count != 0);
ordering = (FuncOrderingValue *)malloc(sizeof(*ordering));
set_source_location(&ordering->location, file, line);
ordering->function = function_name;
list_add_value(&global_call_ordering_head, ordering, count);
}
/* Returns 1 if the specified values are equal. If the values are not equal
* an error is displayed and 0 is returned. */
static int values_equal_display_error(const LargestIntegralType left,
const LargestIntegralType right) {
const int equal = left == right;
if (!equal) {
cm_print_error(LargestIntegralTypePrintfFormat " != "
LargestIntegralTypePrintfFormat "\n", left, right);
}
return equal;
}
/*
* Returns 1 if the specified values are not equal. If the values are equal
* an error is displayed and 0 is returned. */
static int values_not_equal_display_error(const LargestIntegralType left,
const LargestIntegralType right) {
const int not_equal = left != right;
if (!not_equal) {
cm_print_error(LargestIntegralTypePrintfFormat " == "
LargestIntegralTypePrintfFormat "\n", left, right);
}
return not_equal;
}
/*
* Determine whether value is contained within check_integer_set.
* If invert is 0 and the value is in the set 1 is returned, otherwise 0 is
* returned and an error is displayed. If invert is 1 and the value is not
* in the set 1 is returned, otherwise 0 is returned and an error is
* displayed.
*/
static int value_in_set_display_error(
const LargestIntegralType value,
const CheckIntegerSet * const check_integer_set, const int invert) {
int succeeded = invert;
assert_non_null(check_integer_set);
{
const LargestIntegralType * const set = check_integer_set->set;
const size_t size_of_set = check_integer_set->size_of_set;
size_t i;
for (i = 0; i < size_of_set; i++) {
if (set[i] == value) {
/* If invert = 0 and item is found, succeeded = 1. */
/* If invert = 1 and item is found, succeeded = 0. */
succeeded = !succeeded;
break;
}
}
if (succeeded) {
return 1;
}
cm_print_error(LargestIntegralTypePrintfFormatDecimal
" is %sin the set (",
value, invert ? "" : "not ");
for (i = 0; i < size_of_set; i++) {
cm_print_error(LargestIntegralTypePrintfFormat ", ", set[i]);
}
cm_print_error(")\n");
}
return 0;
}
/*
* Determine whether a value is within the specified range. If the value is
* within the specified range 1 is returned. If the value isn't within the
* specified range an error is displayed and 0 is returned.
*/
static int integer_in_range_display_error(
const LargestIntegralType value, const LargestIntegralType range_min,
const LargestIntegralType range_max) {
if (value >= range_min && value <= range_max) {
return 1;
}
cm_print_error(LargestIntegralTypePrintfFormatDecimal
" is not within the range "
LargestIntegralTypePrintfFormatDecimal "-"
LargestIntegralTypePrintfFormatDecimal "\n",
value, range_min, range_max);
return 0;
}
/*
* Determine whether a value is within the specified range. If the value
* is not within the range 1 is returned. If the value is within the
* specified range an error is displayed and zero is returned.
*/
static int integer_not_in_range_display_error(
const LargestIntegralType value, const LargestIntegralType range_min,
const LargestIntegralType range_max) {
if (value < range_min || value > range_max) {
return 1;
}
cm_print_error(LargestIntegralTypePrintfFormatDecimal
" is within the range "
LargestIntegralTypePrintfFormatDecimal "-"
LargestIntegralTypePrintfFormatDecimal "\n",
value, range_min, range_max);
return 0;
}
/*
* Determine whether the specified strings are equal. If the strings are equal
* 1 is returned. If they're not equal an error is displayed and 0 is
* returned.
*/
static int string_equal_display_error(
const char * const left, const char * const right) {
if (strcmp(left, right) == 0) {
return 1;
}
cm_print_error("\"%s\" != \"%s\"\n", left, right);
return 0;
}
/*
* Determine whether the specified strings are equal. If the strings are not
* equal 1 is returned. If they're not equal an error is displayed and 0 is
* returned
*/
static int string_not_equal_display_error(
const char * const left, const char * const right) {
if (strcmp(left, right) != 0) {
return 1;
}
cm_print_error("\"%s\" == \"%s\"\n", left, right);
return 0;
}
/*
* Determine whether the specified areas of memory are equal. If they're equal
* 1 is returned otherwise an error is displayed and 0 is returned.
*/
static int memory_equal_display_error(const char* const a, const char* const b,
const size_t size) {
size_t differences = 0;
size_t i;
for (i = 0; i < size; i++) {
const char l = a[i];
const char r = b[i];
if (l != r) {
if (differences < 16) {
cm_print_error("difference at offset %" PRIdS " 0x%02x 0x%02x\n",
i, l, r);
}
differences ++;
}
}
if (differences > 0) {
if (differences >= 16) {
cm_print_error("...\n");
}
cm_print_error("%"PRIdS " bytes of %p and %p differ\n",
differences, (void *)a, (void *)b);
return 0;
}
return 1;
}
/*
* Determine whether the specified areas of memory are not equal. If they're
* not equal 1 is returned otherwise an error is displayed and 0 is
* returned.
*/
static int memory_not_equal_display_error(
const char* const a, const char* const b, const size_t size) {
size_t same = 0;
size_t i;
for (i = 0; i < size; i++) {
const char l = a[i];
const char r = b[i];
if (l == r) {
same ++;
}
}
if (same == size) {
cm_print_error("%"PRIdS "bytes of %p and %p the same\n",
same, (void *)a, (void *)b);
return 0;
}
return 1;
}
/* CheckParameterValue callback to check whether a value is within a set. */
static int check_in_set(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
return value_in_set_display_error(value,
cast_largest_integral_type_to_pointer(CheckIntegerSet*,
check_value_data), 0);
}
/* CheckParameterValue callback to check whether a value isn't within a set. */
static int check_not_in_set(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
return value_in_set_display_error(value,
cast_largest_integral_type_to_pointer(CheckIntegerSet*,
check_value_data), 1);
}
/* Create the callback data for check_in_set() or check_not_in_set() and
* register a check event. */
static void expect_set(
const char* const function, const char* const parameter,
const char* const file, const int line,
const LargestIntegralType values[], const size_t number_of_values,
const CheckParameterValue check_function, const int count) {
CheckIntegerSet * const check_integer_set =
(CheckIntegerSet*)malloc(sizeof(*check_integer_set) +
(sizeof(values[0]) * number_of_values));
LargestIntegralType * const set = (LargestIntegralType*)(
check_integer_set + 1);
declare_initialize_value_pointer_pointer(check_data, check_integer_set);
assert_non_null(values);
assert_true(number_of_values);
memcpy(set, values, number_of_values * sizeof(values[0]));
check_integer_set->set = set;
check_integer_set->size_of_set = number_of_values;
_expect_check(
function, parameter, file, line, check_function,
check_data.value, &check_integer_set->event, count);
}
/* Add an event to check whether a value is in a set. */
void _expect_in_set(
const char* const function, const char* const parameter,
const char* const file, const int line,
const LargestIntegralType values[], const size_t number_of_values,
const int count) {
expect_set(function, parameter, file, line, values, number_of_values,
check_in_set, count);
}
/* Add an event to check whether a value isn't in a set. */
void _expect_not_in_set(
const char* const function, const char* const parameter,
const char* const file, const int line,
const LargestIntegralType values[], const size_t number_of_values,
const int count) {
expect_set(function, parameter, file, line, values, number_of_values,
check_not_in_set, count);
}
/* CheckParameterValue callback to check whether a value is within a range. */
static int check_in_range(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
CheckIntegerRange * const check_integer_range =
cast_largest_integral_type_to_pointer(CheckIntegerRange*,
check_value_data);
assert_non_null(check_integer_range);
return integer_in_range_display_error(value, check_integer_range->minimum,
check_integer_range->maximum);
}
/* CheckParameterValue callback to check whether a value is not within a range. */
static int check_not_in_range(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
CheckIntegerRange * const check_integer_range =
cast_largest_integral_type_to_pointer(CheckIntegerRange*,
check_value_data);
assert_non_null(check_integer_range);
return integer_not_in_range_display_error(
value, check_integer_range->minimum, check_integer_range->maximum);
}
/* Create the callback data for check_in_range() or check_not_in_range() and
* register a check event. */
static void expect_range(
const char* const function, const char* const parameter,
const char* const file, const int line,
const LargestIntegralType minimum, const LargestIntegralType maximum,
const CheckParameterValue check_function, const int count) {
CheckIntegerRange * const check_integer_range =
(CheckIntegerRange*)malloc(sizeof(*check_integer_range));
declare_initialize_value_pointer_pointer(check_data, check_integer_range);
check_integer_range->minimum = minimum;
check_integer_range->maximum = maximum;
_expect_check(function, parameter, file, line, check_function,
check_data.value, &check_integer_range->event, count);
}
/* Add an event to determine whether a parameter is within a range. */
void _expect_in_range(
const char* const function, const char* const parameter,
const char* const file, const int line,
const LargestIntegralType minimum, const LargestIntegralType maximum,
const int count) {
expect_range(function, parameter, file, line, minimum, maximum,
check_in_range, count);
}
/* Add an event to determine whether a parameter is not within a range. */
void _expect_not_in_range(
const char* const function, const char* const parameter,
const char* const file, const int line,
const LargestIntegralType minimum, const LargestIntegralType maximum,
const int count) {
expect_range(function, parameter, file, line, minimum, maximum,
check_not_in_range, count);
}
/* CheckParameterValue callback to check whether a value is equal to an
* expected value. */
static int check_value(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
return values_equal_display_error(value, check_value_data);
}
/* Add an event to check a parameter equals an expected value. */
void _expect_value(
const char* const function, const char* const parameter,
const char* const file, const int line,
const LargestIntegralType value, const int count) {
_expect_check(function, parameter, file, line, check_value, value, NULL,
count);
}
/* CheckParameterValue callback to check whether a value is not equal to an
* expected value. */
static int check_not_value(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
return values_not_equal_display_error(value, check_value_data);
}
/* Add an event to check a parameter is not equal to an expected value. */
void _expect_not_value(
const char* const function, const char* const parameter,
const char* const file, const int line,
const LargestIntegralType value, const int count) {
_expect_check(function, parameter, file, line, check_not_value, value,
NULL, count);
}
/* CheckParameterValue callback to check whether a parameter equals a string. */
static int check_string(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
return string_equal_display_error(
cast_largest_integral_type_to_pointer(char*, value),
cast_largest_integral_type_to_pointer(char*, check_value_data));
}
/* Add an event to check whether a parameter is equal to a string. */
void _expect_string(
const char* const function, const char* const parameter,
const char* const file, const int line, const char* string,
const int count) {
declare_initialize_value_pointer_pointer(string_pointer,
discard_const(string));
_expect_check(function, parameter, file, line, check_string,
string_pointer.value, NULL, count);
}
/* CheckParameterValue callback to check whether a parameter is not equals to
* a string. */
static int check_not_string(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
return string_not_equal_display_error(
cast_largest_integral_type_to_pointer(char*, value),
cast_largest_integral_type_to_pointer(char*, check_value_data));
}
/* Add an event to check whether a parameter is not equal to a string. */
void _expect_not_string(
const char* const function, const char* const parameter,
const char* const file, const int line, const char* string,
const int count) {
declare_initialize_value_pointer_pointer(string_pointer,
discard_const(string));
_expect_check(function, parameter, file, line, check_not_string,
string_pointer.value, NULL, count);
}
/* CheckParameterValue callback to check whether a parameter equals an area of
* memory. */
static int check_memory(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
CheckMemoryData * const check = cast_largest_integral_type_to_pointer(
CheckMemoryData*, check_value_data);
assert_non_null(check);
return memory_equal_display_error(
cast_largest_integral_type_to_pointer(const char*, value),
(const char*)check->memory, check->size);
}
/* Create the callback data for check_memory() or check_not_memory() and
* register a check event. */
static void 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) {
CheckMemoryData * const check_data =
(CheckMemoryData*)malloc(sizeof(*check_data) + size);
void * const mem = (void*)(check_data + 1);
declare_initialize_value_pointer_pointer(check_data_pointer, check_data);
assert_non_null(memory);
assert_true(size);
memcpy(mem, memory, size);
check_data->memory = mem;
check_data->size = size;
_expect_check(function, parameter, file, line, check_function,
check_data_pointer.value, &check_data->event, count);
}
/* Add an event to check whether a parameter matches an area of memory. */
void _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) {
expect_memory_setup(function, parameter, file, line, memory, size,
check_memory, count);
}
/* CheckParameterValue callback to check whether a parameter is not equal to
* an area of memory. */
static int check_not_memory(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
CheckMemoryData * const check = cast_largest_integral_type_to_pointer(
CheckMemoryData*, check_value_data);
assert_non_null(check);
return memory_not_equal_display_error(
cast_largest_integral_type_to_pointer(const char*, value),
(const char*)check->memory,
check->size);
}
/* Add an event to check whether a parameter doesn't match an area of memory. */
void _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) {
expect_memory_setup(function, parameter, file, line, memory, size,
check_not_memory, count);
}
/* CheckParameterValue callback that always returns 1. */
static int check_any(const LargestIntegralType value,
const LargestIntegralType check_value_data) {
(void)value;
(void)check_value_data;
return 1;
}
/* Add an event to allow any value for a parameter. */
void _expect_any(
const char* const function, const char* const parameter,
const char* const file, const int line, const int count) {
_expect_check(function, parameter, file, line, check_any, 0, NULL,
count);
}
void _check_expected(
const char * const function_name, const char * const parameter_name,
const char* file, const int line, const LargestIntegralType value) {
void *result;
const char* symbols[] = {function_name, parameter_name};
const int rc = get_symbol_value(&global_function_parameter_map_head,
symbols, 2, &result);
if (rc) {
CheckParameterEvent * const check = (CheckParameterEvent*)result;
int check_succeeded;
global_last_parameter_location = check->location;
check_succeeded = check->check_value(value, check->check_value_data);
if (rc == 1) {
free(check);
}
if (!check_succeeded) {
cm_print_error(SOURCE_LOCATION_FORMAT
": error: Check of parameter %s, function %s failed\n"
SOURCE_LOCATION_FORMAT
": note: Expected parameter declared here\n",
file, line,
parameter_name, function_name,
global_last_parameter_location.file,
global_last_parameter_location.line);
_fail(file, line);
}
} else {
cm_print_error(SOURCE_LOCATION_FORMAT ": error: Could not get value "
"to check parameter %s of function %s\n", file, line,
parameter_name, function_name);
if (source_location_is_set(&global_last_parameter_location)) {
cm_print_error(SOURCE_LOCATION_FORMAT
": note: Previously declared parameter value was declared here\n",
global_last_parameter_location.file,
global_last_parameter_location.line);
} else {
cm_print_error("There were no previously declared parameter values "
"for this test.\n");
}
exit_test(1);
}
}
/* Replacement for assert. */
void mock_assert(const int result, const char* const expression,
const char* const file, const int line) {
if (!result) {
if (global_expecting_assert) {
global_last_failed_assert = expression;
longjmp(global_expect_assert_env, result);
} else {
cm_print_error("ASSERT: %s\n", expression);
_fail(file, line);
}
}
}
void _assert_true(const LargestIntegralType result,
const char * const expression,
const char * const file, const int line) {
if (!result) {
cm_print_error("%s\n", expression);
_fail(file, line);
}
}
void _assert_return_code(const LargestIntegralType result,
size_t rlen,
const LargestIntegralType error,
const char * const expression,
const char * const file,
const int line)
{
LargestIntegralType valmax;
switch (rlen) {
case 1:
valmax = 255;
break;
case 2:
valmax = 32767;
break;
case 4:
valmax = 2147483647;
break;
case 8:
default:
if (rlen > sizeof(valmax)) {
valmax = 2147483647;
} else {
valmax = 9223372036854775807L;
}
break;
}
if (result > valmax - 1) {
if (error > 0) {
cm_print_error("%s < 0, errno("
LargestIntegralTypePrintfFormatDecimal "): %s\n",
expression, error, strerror((int)error));
} else {
cm_print_error("%s < 0\n", expression);
}
_fail(file, line);
}
}
void _assert_int_equal(
const LargestIntegralType a, const LargestIntegralType b,
const char * const file, const int line) {
if (!values_equal_display_error(a, b)) {
_fail(file, line);
}
}
void _assert_int_not_equal(
const LargestIntegralType a, const LargestIntegralType b,
const char * const file, const int line) {
if (!values_not_equal_display_error(a, b)) {
_fail(file, line);
}
}
void _assert_string_equal(const char * const a, const char * const b,
const char * const file, const int line) {
if (!string_equal_display_error(a, b)) {
_fail(file, line);
}
}
void _assert_string_not_equal(const char * const a, const char * const b,
const char *file, const int line) {
if (!string_not_equal_display_error(a, b)) {
_fail(file, line);
}
}
void _assert_memory_equal(const void * const a, const void * const b,
const size_t size, const char* const file,
const int line) {
if (!memory_equal_display_error((const char*)a, (const char*)b, size)) {
_fail(file, line);
}
}
void _assert_memory_not_equal(const void * const a, const void * const b,
const size_t size, const char* const file,
const int line) {
if (!memory_not_equal_display_error((const char*)a, (const char*)b,
size)) {
_fail(file, line);
}
}
void _assert_in_range(
const LargestIntegralType value, const LargestIntegralType minimum,
const LargestIntegralType maximum, const char* const file,
const int line) {
if (!integer_in_range_display_error(value, minimum, maximum)) {
_fail(file, line);
}
}
void _assert_not_in_range(
const LargestIntegralType value, const LargestIntegralType minimum,
const LargestIntegralType maximum, const char* const file,
const int line) {
if (!integer_not_in_range_display_error(value, minimum, maximum)) {
_fail(file, line);
}
}
void _assert_in_set(const LargestIntegralType value,
const LargestIntegralType values[],
const size_t number_of_values, const char* const file,
const int line) {
CheckIntegerSet check_integer_set;
check_integer_set.set = values;
check_integer_set.size_of_set = number_of_values;
if (!value_in_set_display_error(value, &check_integer_set, 0)) {
_fail(file, line);
}
}
void _assert_not_in_set(const LargestIntegralType value,
const LargestIntegralType values[],
const size_t number_of_values, const char* const file,
const int line) {
CheckIntegerSet check_integer_set;
check_integer_set.set = values;
check_integer_set.size_of_set = number_of_values;
if (!value_in_set_display_error(value, &check_integer_set, 1)) {
_fail(file, line);
}
}
/* Get the list of allocated blocks. */
static ListNode* get_allocated_blocks_list(void) {
/* If it initialized, initialize the list of allocated blocks. */
if (!global_allocated_blocks.value) {
list_initialize(&global_allocated_blocks);
global_allocated_blocks.value = (void*)1;
}
return &global_allocated_blocks;
}
static void *libc_malloc(size_t size)
{
#undef malloc
return malloc(size);
#define malloc test_malloc
}
static void libc_free(void *ptr)
{
#undef free
free(ptr);
#define free test_free
}
static void *libc_realloc(void *ptr, size_t size)
{
#undef realloc
return realloc(ptr, size);
#define realloc test_realloc
}
static void vcm_print_error(const char* const format,
va_list args) CMOCKA_PRINTF_ATTRIBUTE(1, 0);
/* It's important to use the libc malloc and free here otherwise
* the automatic free of leaked blocks can reap the error messages
*/
static void vcm_print_error(const char* const format, va_list args)
{
char buffer[1024];
size_t msg_len = 0;
va_list ap;
int len;
va_copy(ap, args);
len = vsnprintf(buffer, sizeof(buffer), format, args);
if (len < 0) {
/* TODO */
goto end;
}
if (cm_error_message == NULL) {
/* CREATE MESSAGE */
cm_error_message = libc_malloc(len + 1);
if (cm_error_message == NULL) {
/* TODO */
goto end;
}
} else {
/* APPEND MESSAGE */
char *tmp;
msg_len = strlen(cm_error_message);
tmp = libc_realloc(cm_error_message, msg_len + len + 1);
if (tmp == NULL) {
goto end;
}
cm_error_message = tmp;
}
if (((size_t)len) < sizeof(buffer)) {
/* Use len + 1 to also copy '\0' */
memcpy(cm_error_message + msg_len, buffer, len + 1);
} else {
vsnprintf(cm_error_message + msg_len, len, format, ap);
}
end:
va_end(ap);
}
static void vcm_free_error(char *err_msg)
{
libc_free(err_msg);
}
/* Use the real malloc in this function. */
#undef malloc
void* _test_malloc(const size_t size, const char* file, const int line) {
char *ptr = NULL;
MallocBlockInfo block_info;
ListNode * const block_list = get_allocated_blocks_list();
size_t allocate_size;
char *block = NULL;
allocate_size = size + (MALLOC_GUARD_SIZE * 2) +
sizeof(struct MallocBlockInfoData) + MALLOC_ALIGNMENT;
assert_true(allocate_size > size);
block = (char *)malloc(allocate_size);
assert_non_null(block);
/* Calculate the returned address. */
ptr = (char*)(((size_t)block + MALLOC_GUARD_SIZE +
sizeof(struct MallocBlockInfoData) +
MALLOC_ALIGNMENT) & ~(MALLOC_ALIGNMENT - 1));
/* Initialize the guard blocks. */
memset(ptr - MALLOC_GUARD_SIZE, MALLOC_GUARD_PATTERN, MALLOC_GUARD_SIZE);
memset(ptr + size, MALLOC_GUARD_PATTERN, MALLOC_GUARD_SIZE);
memset(ptr, MALLOC_ALLOC_PATTERN, size);
block_info.ptr = ptr - (MALLOC_GUARD_SIZE +
sizeof(struct MallocBlockInfoData));
set_source_location(&block_info.data->location, file, line);
block_info.data->allocated_size = allocate_size;
block_info.data->size = size;
block_info.data->block = block;
block_info.data->node.value = block_info.ptr;
list_add(block_list, &block_info.data->node);
return ptr;
}
#define malloc test_malloc
void* _test_calloc(const size_t number_of_elements, const size_t size,
const char* file, const int line) {
void* const ptr = _test_malloc(number_of_elements * size, file, line);
if (ptr) {
memset(ptr, 0, number_of_elements * size);
}
return ptr;
}
/* Use the real free in this function. */
#undef free
void _test_free(void* const ptr, const char* file, const int line) {
unsigned int i;
char *block = discard_const_p(char, ptr);
MallocBlockInfo block_info;
if (ptr == NULL) {
return;
}
_assert_true(cast_ptr_to_largest_integral_type(ptr), "ptr", file, line);
block_info.ptr = block - (MALLOC_GUARD_SIZE +
sizeof(struct MallocBlockInfoData));
/* Check the guard blocks. */
{
char *guards[2] = {block - MALLOC_GUARD_SIZE,
block + block_info.data->size};
for (i = 0; i < ARRAY_SIZE(guards); i++) {
unsigned int j;
char * const guard = guards[i];
for (j = 0; j < MALLOC_GUARD_SIZE; j++) {
const char diff = guard[j] - MALLOC_GUARD_PATTERN;
if (diff) {
cm_print_error(SOURCE_LOCATION_FORMAT
": error: Guard block of %p size=%lu is corrupt\n"
SOURCE_LOCATION_FORMAT ": note: allocated here at %p\n",
file,
line,
ptr,
(unsigned long)block_info.data->size,
block_info.data->location.file,
block_info.data->location.line,
(void *)&guard[j]);
_fail(file, line);
}
}
}
}
list_remove(&block_info.data->node, NULL, NULL);
block = discard_const_p(char, block_info.data->block);
memset(block, MALLOC_FREE_PATTERN, block_info.data->allocated_size);
free(block);
}
#define free test_free
#undef realloc
void *_test_realloc(void *ptr,
const size_t size,
const char *file,
const int line)
{
MallocBlockInfo block_info;
char *block = ptr;
size_t block_size = size;
void *new_block;
if (ptr == NULL) {
return _test_malloc(size, file, line);
}
if (size == 0) {
_test_free(ptr, file, line);
return NULL;
}
block_info.ptr = block - (MALLOC_GUARD_SIZE +
sizeof(struct MallocBlockInfoData));
new_block = _test_malloc(size, file, line);
if (new_block == NULL) {
return NULL;
}
if (block_info.data->size < size) {
block_size = block_info.data->size;
}
memcpy(new_block, ptr, block_size);
/* Free previous memory */
_test_free(ptr, file, line);
return new_block;
}
#define realloc test_realloc
/* Crudely checkpoint the current heap state. */
static const ListNode* check_point_allocated_blocks(void) {
return get_allocated_blocks_list()->prev;
}
/* Display the blocks allocated after the specified check point. This
* function returns the number of blocks displayed. */
static size_t display_allocated_blocks(const ListNode * const check_point) {
const ListNode * const head = get_allocated_blocks_list();
const ListNode *node;
size_t allocated_blocks = 0;
assert_non_null(check_point);
assert_non_null(check_point->next);
for (node = check_point->next; node != head; node = node->next) {
const MallocBlockInfo block_info = {
.ptr = discard_const(node->value),
};
assert_non_null(block_info.ptr);
if (allocated_blocks == 0) {
cm_print_error("Blocks allocated...\n");
}
cm_print_error(SOURCE_LOCATION_FORMAT ": note: block %p allocated here\n",
block_info.data->location.file,
block_info.data->location.line,
block_info.data->block);
allocated_blocks++;
}
return allocated_blocks;
}
/* Free all blocks allocated after the specified check point. */
static void free_allocated_blocks(const ListNode * const check_point) {
const ListNode * const head = get_allocated_blocks_list();
const ListNode *node;
assert_non_null(check_point);
node = check_point->next;
assert_non_null(node);
while (node != head) {
const MallocBlockInfo block_info = {
.ptr = discard_const(node->value),
};
node = node->next;
free(discard_const_p(char, block_info.data) +
sizeof(struct MallocBlockInfoData) +
MALLOC_GUARD_SIZE);
}
}
/* Fail if any any blocks are allocated after the specified check point. */
static void fail_if_blocks_allocated(const ListNode * const check_point,
const char * const test_name) {
const size_t allocated_blocks = display_allocated_blocks(check_point);
if (allocated_blocks > 0) {
free_allocated_blocks(check_point);
cm_print_error("ERROR: %s leaked %zu block(s)\n", test_name,
allocated_blocks);
exit_test(1);
}
}
void _fail(const char * const file, const int line) {
enum cm_message_output output = cm_get_output();
switch(output) {
case CM_OUTPUT_STDOUT:
cm_print_error("[ LINE ] --- " SOURCE_LOCATION_FORMAT ": error: Failure!", file, line);
break;
default:
cm_print_error(SOURCE_LOCATION_FORMAT ": error: Failure!", file, line);
break;
}
exit_test(1);
}
#ifndef _WIN32
static void exception_handler(int sig) {
const char *sig_strerror = "";
#ifdef HAVE_STRSIGNAL
sig_strerror = strsignal(sig);
#endif
cm_print_error("Test failed with exception: %s(%d)",
sig_strerror, sig);
exit_test(1);
}
#else /* _WIN32 */
static LONG WINAPI exception_filter(EXCEPTION_POINTERS *exception_pointers) {
EXCEPTION_RECORD * const exception_record =
exception_pointers->ExceptionRecord;
const DWORD code = exception_record->ExceptionCode;
unsigned int i;
for (i = 0; i < ARRAY_SIZE(exception_codes); i++) {
const ExceptionCodeInfo * const code_info = &exception_codes[i];
if (code == code_info->code) {
static int shown_debug_message = 0;
fflush(stdout);
cm_print_error("%s occurred at %p.\n", code_info->description,
exception_record->ExceptionAddress);
if (!shown_debug_message) {
cm_print_error(
"\n"
"To debug in Visual Studio...\n"
"1. Select menu item File->Open Project\n"
"2. Change 'Files of type' to 'Executable Files'\n"
"3. Open this executable.\n"
"4. Select menu item Debug->Start\n"
"\n"
"Alternatively, set the environment variable \n"
"UNIT_TESTING_DEBUG to 1 and rebuild this executable, \n"
"then click 'Debug' in the popup dialog box.\n"
"\n");
shown_debug_message = 1;
}
exit_test(0);
return EXCEPTION_EXECUTE_HANDLER;
}
}
return EXCEPTION_CONTINUE_SEARCH;
}
#endif /* !_WIN32 */
void cm_print_error(const char * const format, ...)
{
va_list args;
va_start(args, format);
if (cm_error_message_enabled) {
vcm_print_error(format, args);
} else {
vprint_error(format, args);
}
va_end(args);
}
/* Standard output and error print methods. */
void vprint_message(const char* const format, va_list args) {
char buffer[1024];
vsnprintf(buffer, sizeof(buffer), format, args);
printf("%s", buffer);
fflush(stdout);
#ifdef _WIN32
OutputDebugString(buffer);
#endif /* _WIN32 */
}
void vprint_error(const char* const format, va_list args) {
char buffer[1024];
vsnprintf(buffer, sizeof(buffer), format, args);
fprintf(stderr, "%s", buffer);
fflush(stderr);
#ifdef _WIN32
OutputDebugString(buffer);
#endif /* _WIN32 */
}
void print_message(const char* const format, ...) {
va_list args;
va_start(args, format);
vprint_message(format, args);
va_end(args);
}
void print_error(const char* const format, ...) {
va_list args;
va_start(args, format);
vprint_error(format, args);
va_end(args);
}
/* New formatter */
static enum cm_message_output cm_get_output(void)
{
enum cm_message_output output = global_msg_output;
char *env;
env = getenv("CMOCKA_MESSAGE_OUTPUT");
if (env != NULL) {
if (strcasecmp(env, "STDOUT") == 0) {
output = CM_OUTPUT_STDOUT;
} else if (strcasecmp(env, "SUBUNIT") == 0) {
output = CM_OUTPUT_SUBUNIT;
} else if (strcasecmp(env, "TAP") == 0) {
output = CM_OUTPUT_TAP;
} else if (strcasecmp(env, "XML") == 0) {
output = CM_OUTPUT_XML;
}
}
return output;
}
enum cm_printf_type {
PRINTF_TEST_START,
PRINTF_TEST_SUCCESS,
PRINTF_TEST_FAILURE,
PRINTF_TEST_ERROR,
PRINTF_TEST_SKIPPED,
};
static int xml_printed;
static int file_append;
static void cmprintf_group_finish_xml(const char *group_name,
size_t total_executed,
size_t total_failed,
size_t total_errors,
size_t total_skipped,
double total_runtime,
struct CMUnitTestState *cm_tests)
{
FILE *fp = stdout;
int file_opened = 0;
int multiple_files = 0;
char *env;
size_t i;
env = getenv("CMOCKA_XML_FILE");
if (env != NULL) {
char buf[1024];
int rc;
snprintf(buf, sizeof(buf), "%s", env);
rc = c_strreplace(buf, sizeof(buf), "%g", group_name, &multiple_files);
if (rc < 0) {
snprintf(buf, sizeof(buf), "%s", env);
}
fp = fopen(buf, "r");
if (fp == NULL) {
fp = fopen(buf, "w");
if (fp != NULL) {
file_append = 1;
file_opened = 1;
} else {
fp = stderr;
}
} else {
fclose(fp);
if (file_append) {
fp = fopen(buf, "a");
if (fp != NULL) {
file_opened = 1;
xml_printed = 1;
} else {
fp = stderr;
}
} else {
fp = stderr;
}
}
}
if (!xml_printed || (file_opened && !file_append)) {
fprintf(fp, "<?xml version=\"1.0\" encoding=\"UTF-8\" ?>\n");
if (!file_opened) {
xml_printed = 1;
}
}
fprintf(fp, "<testsuites>\n");
fprintf(fp, " <testsuite name=\"%s\" time=\"%.3f\" "
"tests=\"%u\" failures=\"%u\" errors=\"%u\" skipped=\"%u\" >\n",
group_name,
total_runtime, /* seconds */
(unsigned)total_executed,
(unsigned)total_failed,
(unsigned)total_errors,
(unsigned)total_skipped);
for (i = 0; i < total_executed; i++) {
struct CMUnitTestState *cmtest = &cm_tests[i];
fprintf(fp, " <testcase name=\"%s\" time=\"%.3f\" >\n",
cmtest->test->name, cmtest->runtime);
switch (cmtest->status) {
case CM_TEST_ERROR:
case CM_TEST_FAILED:
if (cmtest->error_message != NULL) {
fprintf(fp, " <failure><![CDATA[%s]]></failure>\n",
cmtest->error_message);
} else {
fprintf(fp, " <failure message=\"Unknown error\" />\n");
}
break;
case CM_TEST_SKIPPED:
fprintf(fp, " <skipped/>\n");
break;
case CM_TEST_PASSED:
case CM_TEST_NOT_STARTED:
break;
}
fprintf(fp, " </testcase>\n");
}
fprintf(fp, " </testsuite>\n");
fprintf(fp, "</testsuites>\n");
if (file_opened) {
fclose(fp);
}
}
static void cmprintf_group_start_standard(const size_t num_tests)
{
print_message("[==========] Running %u test(s).\n",
(unsigned)num_tests);
}
static void cmprintf_group_finish_standard(size_t total_executed,
size_t total_passed,
size_t total_failed,
size_t total_errors,
size_t total_skipped,
struct CMUnitTestState *cm_tests)
{
size_t i;
print_message("[==========] %u test(s) run.\n", (unsigned)total_executed);
print_error("[ PASSED ] %u test(s).\n",
(unsigned)(total_passed));
if (total_skipped) {
print_error("[ SKIPPED ] %"PRIdS " test(s), listed below:\n", total_skipped);
for (i = 0; i < total_executed; i++) {
struct CMUnitTestState *cmtest = &cm_tests[i];
if (cmtest->status == CM_TEST_SKIPPED) {
print_error("[ SKIPPED ] %s\n", cmtest->test->name);
}
}
print_error("\n %u SKIPPED TEST(S)\n", (unsigned)(total_skipped));
}
if (total_failed) {
print_error("[ FAILED ] %"PRIdS " test(s), listed below:\n", total_failed);
for (i = 0; i < total_executed; i++) {
struct CMUnitTestState *cmtest = &cm_tests[i];
if (cmtest->status == CM_TEST_FAILED) {
print_error("[ FAILED ] %s\n", cmtest->test->name);
}
}
print_error("\n %u FAILED TEST(S)\n",
(unsigned)(total_failed + total_errors));
}
}
static void cmprintf_standard(enum cm_printf_type type,
const char *test_name,
const char *error_message)
{
switch (type) {
case PRINTF_TEST_START:
print_message("[ RUN ] %s\n", test_name);
break;
case PRINTF_TEST_SUCCESS:
print_message("[ OK ] %s\n", test_name);
break;
case PRINTF_TEST_FAILURE:
if (error_message != NULL) {
print_error("[ ERROR ] --- %s\n", error_message);
}
print_message("[ FAILED ] %s\n", test_name);
break;
case PRINTF_TEST_SKIPPED:
print_message("[ SKIPPED ] %s\n", test_name);
break;
case PRINTF_TEST_ERROR:
if (error_message != NULL) {
print_error("%s\n", error_message);
}
print_error("[ ERROR ] %s\n", test_name);
break;
}
}
static void cmprintf_group_start_tap(const size_t num_tests)
{
print_message("1..%u\n", (unsigned)num_tests);
}
static void cmprintf_group_finish_tap(const char *group_name,
size_t total_executed,
size_t total_passed,
size_t total_skipped)
{
const char *status = "not ok";
if (total_passed + total_skipped == total_executed) {
status = "ok";
}
print_message("# %s - %s\n", status, group_name);
}
static void cmprintf_tap(enum cm_printf_type type,
uint32_t test_number,
const char *test_name,
const char *error_message)
{
switch (type) {
case PRINTF_TEST_START:
break;
case PRINTF_TEST_SUCCESS:
print_message("ok %u - %s\n", (unsigned)test_number, test_name);
break;
case PRINTF_TEST_FAILURE:
print_message("not ok %u - %s\n", (unsigned)test_number, test_name);
if (error_message != NULL) {
char *msg;
char *p;
msg = strdup(error_message);
if (msg == NULL) {
return;
}
p = msg;
while (p[0] != '\0') {
char *q = p;
p = strchr(q, '\n');
if (p != NULL) {
p[0] = '\0';
}
print_message("# %s\n", q);
if (p == NULL) {
break;
}
p++;
}
libc_free(msg);
}
break;
case PRINTF_TEST_SKIPPED:
print_message("not ok %u # SKIP %s\n", (unsigned)test_number, test_name);
break;
case PRINTF_TEST_ERROR:
print_message("not ok %u - %s %s\n",
(unsigned)test_number, test_name, error_message);
break;
}
}
static void cmprintf_subunit(enum cm_printf_type type,
const char *test_name,
const char *error_message)
{
switch (type) {
case PRINTF_TEST_START:
print_message("test: %s\n", test_name);
break;
case PRINTF_TEST_SUCCESS:
print_message("success: %s\n", test_name);
break;
case PRINTF_TEST_FAILURE:
print_message("failure: %s", test_name);
if (error_message != NULL) {
print_message(" [\n%s]\n", error_message);
}
break;
case PRINTF_TEST_SKIPPED:
print_message("skip: %s\n", test_name);
break;
case PRINTF_TEST_ERROR:
print_message("error: %s [ %s ]\n", test_name, error_message);
break;
}
}
static void cmprintf_group_start(const size_t num_tests)
{
enum cm_message_output output;
output = cm_get_output();
switch (output) {
case CM_OUTPUT_STDOUT:
cmprintf_group_start_standard(num_tests);
break;
case CM_OUTPUT_SUBUNIT:
break;
case CM_OUTPUT_TAP:
cmprintf_group_start_tap(num_tests);
break;
case CM_OUTPUT_XML:
break;
}
}
static void cmprintf_group_finish(const char *group_name,
size_t total_executed,
size_t total_passed,
size_t total_failed,
size_t total_errors,
size_t total_skipped,
double total_runtime,
struct CMUnitTestState *cm_tests)
{
enum cm_message_output output;
output = cm_get_output();
switch (output) {
case CM_OUTPUT_STDOUT:
cmprintf_group_finish_standard(total_executed,
total_passed,
total_failed,
total_errors,
total_skipped,
cm_tests);
break;
case CM_OUTPUT_SUBUNIT:
break;
case CM_OUTPUT_TAP:
cmprintf_group_finish_tap(group_name, total_executed, total_passed, total_skipped);
break;
case CM_OUTPUT_XML:
cmprintf_group_finish_xml(group_name,
total_executed,
total_failed,
total_errors,
total_skipped,
total_runtime,
cm_tests);
break;
}
}
static void cmprintf(enum cm_printf_type type,
size_t test_number,
const char *test_name,
const char *error_message)
{
enum cm_message_output output;
output = cm_get_output();
switch (output) {
case CM_OUTPUT_STDOUT:
cmprintf_standard(type, test_name, error_message);
break;
case CM_OUTPUT_SUBUNIT:
cmprintf_subunit(type, test_name, error_message);
break;
case CM_OUTPUT_TAP:
cmprintf_tap(type, test_number, test_name, error_message);
break;
case CM_OUTPUT_XML:
break;
}
}
void cmocka_set_message_output(enum cm_message_output output)
{
global_msg_output = output;
}
void cmocka_set_test_filter(const char *pattern)
{
global_test_filter_pattern = pattern;
}
/****************************************************************************
* TIME CALCULATIONS
****************************************************************************/
#ifdef HAVE_STRUCT_TIMESPEC
static struct timespec cm_tspecdiff(struct timespec time1,
struct timespec time0)
{
struct timespec ret;
int xsec = 0;
int sign = 1;
if (time0.tv_nsec > time1.tv_nsec) {
xsec = (int) ((time0.tv_nsec - time1.tv_nsec) / (1E9 + 1));
time0.tv_nsec -= (long int) (1E9 * xsec);
time0.tv_sec += xsec;
}
if ((time1.tv_nsec - time0.tv_nsec) > 1E9) {
xsec = (int) ((time1.tv_nsec - time0.tv_nsec) / 1E9);
time0.tv_nsec += (long int) (1E9 * xsec);
time0.tv_sec -= xsec;
}
ret.tv_sec = time1.tv_sec - time0.tv_sec;
ret.tv_nsec = time1.tv_nsec - time0.tv_nsec;
if (time1.tv_sec < time0.tv_sec) {
sign = -1;
}
ret.tv_sec = ret.tv_sec * sign;
return ret;
}
static double cm_secdiff(struct timespec clock1, struct timespec clock0)
{
double ret;
struct timespec diff;
diff = cm_tspecdiff(clock1, clock0);
ret = diff.tv_sec;
ret += (double) diff.tv_nsec / (double) 1E9;
return ret;
}
#endif /* HAVE_STRUCT_TIMESPEC */
/****************************************************************************
* CMOCKA TEST RUNNER
****************************************************************************/
static int cmocka_run_one_test_or_fixture(const char *function_name,
CMUnitTestFunction test_func,
CMFixtureFunction setup_func,
CMFixtureFunction teardown_func,
void ** const volatile state,
const void *const heap_check_point)
{
const ListNode * const volatile check_point = (const ListNode*)
(heap_check_point != NULL ?
heap_check_point : check_point_allocated_blocks());
int handle_exceptions = 1;
void *current_state = NULL;
int rc = 0;
/* FIXME check only one test or fixture is set */
/* Detect if we should handle exceptions */
#ifdef _WIN32
handle_exceptions = !IsDebuggerPresent();
#endif /* _WIN32 */
#ifdef UNIT_TESTING_DEBUG
handle_exceptions = 0;
#endif /* UNIT_TESTING_DEBUG */
if (handle_exceptions) {
#ifndef _WIN32
unsigned int i;
for (i = 0; i < ARRAY_SIZE(exception_signals); i++) {
default_signal_functions[i] = signal(
exception_signals[i], exception_handler);
}
#else /* _WIN32 */
previous_exception_filter = SetUnhandledExceptionFilter(
exception_filter);
#endif /* !_WIN32 */
}
/* Init the test structure */
initialize_testing(function_name);
global_running_test = 1;
if (cm_setjmp(global_run_test_env) == 0) {
if (test_func != NULL) {
test_func(state != NULL ? state : ¤t_state);
fail_if_blocks_allocated(check_point, function_name);
rc = 0;
} else if (setup_func != NULL) {
rc = setup_func(state != NULL ? state : ¤t_state);
/*
* For setup we can ignore any allocated blocks. We just need to
* ensure they're deallocated on tear down.
*/
} else if (teardown_func != NULL) {
rc = teardown_func(state != NULL ? state : ¤t_state);
fail_if_blocks_allocated(check_point, function_name);
} else {
/* ERROR */
}
fail_if_leftover_values(function_name);
global_running_test = 0;
} else {
/* TEST FAILED */
global_running_test = 0;
rc = -1;
}
teardown_testing(function_name);
if (handle_exceptions) {
#ifndef _WIN32
unsigned int i;
for (i = 0; i < ARRAY_SIZE(exception_signals); i++) {
signal(exception_signals[i], default_signal_functions[i]);
}
#else /* _WIN32 */
if (previous_exception_filter) {
SetUnhandledExceptionFilter(previous_exception_filter);
previous_exception_filter = NULL;
}
#endif /* !_WIN32 */
}
return rc;
}
static int cmocka_run_group_fixture(const char *function_name,
CMFixtureFunction setup_func,
CMFixtureFunction teardown_func,
void **state,
const void *const heap_check_point)
{
int rc;
if (setup_func != NULL) {
rc = cmocka_run_one_test_or_fixture(function_name,
NULL,
setup_func,
NULL,
state,
heap_check_point);
} else {
rc = cmocka_run_one_test_or_fixture(function_name,
NULL,
NULL,
teardown_func,
state,
heap_check_point);
}
return rc;
}
static int cmocka_run_one_tests(struct CMUnitTestState *test_state)
{
#ifdef HAVE_STRUCT_TIMESPEC
struct timespec start = {
.tv_sec = 0,
.tv_nsec = 0,
};
struct timespec finish = {
.tv_sec = 0,
.tv_nsec = 0,
};
#endif
int rc = 0;
/* Run setup */
if (test_state->test->setup_func != NULL) {
/* Setup the memory check point, it will be evaluated on teardown */
test_state->check_point = check_point_allocated_blocks();
rc = cmocka_run_one_test_or_fixture(test_state->test->name,
NULL,
test_state->test->setup_func,
NULL,
&test_state->state,
test_state->check_point);
if (rc != 0) {
test_state->status = CM_TEST_ERROR;
cm_print_error("Test setup failed");
}
}
/* Run test */
#ifdef HAVE_STRUCT_TIMESPEC
CMOCKA_CLOCK_GETTIME(CLOCK_REALTIME, &start);
#endif
if (rc == 0) {
rc = cmocka_run_one_test_or_fixture(test_state->test->name,
test_state->test->test_func,
NULL,
NULL,
&test_state->state,
NULL);
if (rc == 0) {
test_state->status = CM_TEST_PASSED;
} else {
if (global_skip_test) {
test_state->status = CM_TEST_SKIPPED;
global_skip_test = 0; /* Do not skip the next test */
} else {
test_state->status = CM_TEST_FAILED;
}
}
rc = 0;
}
test_state->runtime = 0.0;
#ifdef HAVE_STRUCT_TIMESPEC
CMOCKA_CLOCK_GETTIME(CLOCK_REALTIME, &finish);
test_state->runtime = cm_secdiff(finish, start);
#endif
/* Run teardown */
if (rc == 0 && test_state->test->teardown_func != NULL) {
rc = cmocka_run_one_test_or_fixture(test_state->test->name,
NULL,
NULL,
test_state->test->teardown_func,
&test_state->state,
test_state->check_point);
if (rc != 0) {
test_state->status = CM_TEST_ERROR;
cm_print_error("Test teardown failed");
}
}
test_state->error_message = cm_error_message;
cm_error_message = NULL;
return rc;
}
int _cmocka_run_group_tests(const char *group_name,
const struct CMUnitTest * const tests,
const size_t num_tests,
CMFixtureFunction group_setup,
CMFixtureFunction group_teardown)
{
struct CMUnitTestState *cm_tests;
const ListNode *group_check_point = check_point_allocated_blocks();
void *group_state = NULL;
size_t total_tests = 0;
size_t total_failed = 0;
size_t total_passed = 0;
size_t total_executed = 0;
size_t total_errors = 0;
size_t total_skipped = 0;
double total_runtime = 0;
size_t i;
int rc;
/* Make sure LargestIntegralType is at least the size of a pointer. */
assert_true(sizeof(LargestIntegralType) >= sizeof(void*));
cm_tests = (struct CMUnitTestState *)libc_malloc(sizeof(struct CMUnitTestState) * num_tests);
if (cm_tests == NULL) {
return -1;
}
/* Setup cmocka test array */
for (i = 0; i < num_tests; i++) {
if (tests[i].name != NULL &&
(tests[i].test_func != NULL
|| tests[i].setup_func != NULL
|| tests[i].teardown_func != NULL)) {
if (global_test_filter_pattern != NULL) {
int ok;
ok = c_strmatch(tests[i].name, global_test_filter_pattern);
if (!ok) {
continue;
}
}
cm_tests[total_tests] = (struct CMUnitTestState) {
.test = &tests[i],
.status = CM_TEST_NOT_STARTED,
.state = NULL,
};
total_tests++;
}
}
cmprintf_group_start(total_tests);
rc = 0;
/* Run group setup */
if (group_setup != NULL) {
rc = cmocka_run_group_fixture("cmocka_group_setup",
group_setup,
NULL,
&group_state,
group_check_point);
}
if (rc == 0) {
/* Execute tests */
for (i = 0; i < total_tests; i++) {
struct CMUnitTestState *cmtest = &cm_tests[i];
size_t test_number = i + 1;
cmprintf(PRINTF_TEST_START, test_number, cmtest->test->name, NULL);
if (group_state != NULL) {
cmtest->state = group_state;
} else if (cmtest->test->initial_state != NULL) {
cmtest->state = cmtest->test->initial_state;
}
rc = cmocka_run_one_tests(cmtest);
total_executed++;
total_runtime += cmtest->runtime;
if (rc == 0) {
switch (cmtest->status) {
case CM_TEST_PASSED:
cmprintf(PRINTF_TEST_SUCCESS,
test_number,
cmtest->test->name,
cmtest->error_message);
total_passed++;
break;
case CM_TEST_SKIPPED:
cmprintf(PRINTF_TEST_SKIPPED,
test_number,
cmtest->test->name,
cmtest->error_message);
total_skipped++;
break;
case CM_TEST_FAILED:
cmprintf(PRINTF_TEST_FAILURE,
test_number,
cmtest->test->name,
cmtest->error_message);
total_failed++;
break;
default:
cmprintf(PRINTF_TEST_ERROR,
test_number,
cmtest->test->name,
"Internal cmocka error");
total_errors++;
break;
}
} else {
char err_msg[2048] = {0};
snprintf(err_msg, sizeof(err_msg),
"Could not run test: %s",
cmtest->error_message);
cmprintf(PRINTF_TEST_ERROR,
test_number,
cmtest->test->name,
err_msg);
total_errors++;
}
}
} else {
if (cm_error_message != NULL) {
print_error("[ ERROR ] --- %s\n", cm_error_message);
vcm_free_error(cm_error_message);
cm_error_message = NULL;
}
cmprintf(PRINTF_TEST_ERROR, 0,
group_name, "[ FAILED ] GROUP SETUP");
total_errors++;
}
/* Run group teardown */
if (group_teardown != NULL) {
rc = cmocka_run_group_fixture("cmocka_group_teardown",
NULL,
group_teardown,
&group_state,
group_check_point);
if (rc != 0) {
if (cm_error_message != NULL) {
print_error("[ ERROR ] --- %s\n", cm_error_message);
vcm_free_error(cm_error_message);
cm_error_message = NULL;
}
cmprintf(PRINTF_TEST_ERROR, 0,
group_name, "[ FAILED ] GROUP TEARDOWN");
}
}
cmprintf_group_finish(group_name,
total_executed,
total_passed,
total_failed,
total_errors,
total_skipped,
total_runtime,
cm_tests);
for (i = 0; i < total_tests; i++) {
vcm_free_error(discard_const_p(char, cm_tests[i].error_message));
}
libc_free(cm_tests);
fail_if_blocks_allocated(group_check_point, "cmocka_group_tests");
return total_failed + total_errors;
}
/****************************************************************************
* DEPRECATED TEST RUNNER
****************************************************************************/
int _run_test(
const char * const function_name, const UnitTestFunction Function,
void ** const volatile state, const UnitTestFunctionType function_type,
const void* const heap_check_point) {
const ListNode * const volatile check_point = (const ListNode*)
(heap_check_point ?
heap_check_point : check_point_allocated_blocks());
void *current_state = NULL;
volatile int rc = 1;
int handle_exceptions = 1;
#ifdef _WIN32
handle_exceptions = !IsDebuggerPresent();
#endif /* _WIN32 */
#ifdef UNIT_TESTING_DEBUG
handle_exceptions = 0;
#endif /* UNIT_TESTING_DEBUG */
cm_error_message_enabled = 0;
if (handle_exceptions) {
#ifndef _WIN32
unsigned int i;
for (i = 0; i < ARRAY_SIZE(exception_signals); i++) {
default_signal_functions[i] = signal(
exception_signals[i], exception_handler);
}
#else /* _WIN32 */
previous_exception_filter = SetUnhandledExceptionFilter(
exception_filter);
#endif /* !_WIN32 */
}
if (function_type == UNIT_TEST_FUNCTION_TYPE_TEST) {
print_message("[ RUN ] %s\n", function_name);
}
initialize_testing(function_name);
global_running_test = 1;
if (cm_setjmp(global_run_test_env) == 0) {
Function(state ? state : ¤t_state);
fail_if_leftover_values(function_name);
/* If this is a setup function then ignore any allocated blocks
* only ensure they're deallocated on tear down. */
if (function_type != UNIT_TEST_FUNCTION_TYPE_SETUP) {
fail_if_blocks_allocated(check_point, function_name);
}
global_running_test = 0;
if (function_type == UNIT_TEST_FUNCTION_TYPE_TEST) {
print_message("[ OK ] %s\n", function_name);
}
rc = 0;
} else {
global_running_test = 0;
print_message("[ FAILED ] %s\n", function_name);
}
teardown_testing(function_name);
if (handle_exceptions) {
#ifndef _WIN32
unsigned int i;
for (i = 0; i < ARRAY_SIZE(exception_signals); i++) {
signal(exception_signals[i], default_signal_functions[i]);
}
#else /* _WIN32 */
if (previous_exception_filter) {
SetUnhandledExceptionFilter(previous_exception_filter);
previous_exception_filter = NULL;
}
#endif /* !_WIN32 */
}
return rc;
}
int _run_tests(const UnitTest * const tests, const size_t number_of_tests) {
/* Whether to execute the next test. */
int run_next_test = 1;
/* Whether the previous test failed. */
int previous_test_failed = 0;
/* Whether the previous setup failed. */
int previous_setup_failed = 0;
/* Check point of the heap state. */
const ListNode * const check_point = check_point_allocated_blocks();
/* Current test being executed. */
size_t current_test = 0;
/* Number of tests executed. */
size_t tests_executed = 0;
/* Number of failed tests. */
size_t total_failed = 0;
/* Number of setup functions. */
size_t setups = 0;
/* Number of teardown functions. */
size_t teardowns = 0;
size_t i;
/*
* A stack of test states. A state is pushed on the stack
* when a test setup occurs and popped on tear down.
*/
TestState* test_states =
(TestState*)malloc(number_of_tests * sizeof(*test_states));
/* The number of test states which should be 0 at the end */
long number_of_test_states = 0;
/* Names of the tests that failed. */
const char** failed_names = (const char**)malloc(number_of_tests *
sizeof(*failed_names));
void **current_state = NULL;
/* Count setup and teardown functions */
for (i = 0; i < number_of_tests; i++) {
const UnitTest * const test = &tests[i];
if (test->function_type == UNIT_TEST_FUNCTION_TYPE_SETUP) {
setups++;
}
if (test->function_type == UNIT_TEST_FUNCTION_TYPE_TEARDOWN) {
teardowns++;
}
}
print_message("[==========] Running %"PRIdS " test(s).\n",
number_of_tests - setups - teardowns);
/* Make sure LargestIntegralType is at least the size of a pointer. */
assert_true(sizeof(LargestIntegralType) >= sizeof(void*));
while (current_test < number_of_tests) {
const ListNode *test_check_point = NULL;
TestState *current_TestState;
const UnitTest * const test = &tests[current_test++];
if (!test->function) {
continue;
}
switch (test->function_type) {
case UNIT_TEST_FUNCTION_TYPE_TEST:
if (! previous_setup_failed) {
run_next_test = 1;
}
break;
case UNIT_TEST_FUNCTION_TYPE_SETUP: {
/* Checkpoint the heap before the setup. */
current_TestState = &test_states[number_of_test_states++];
current_TestState->check_point = check_point_allocated_blocks();
test_check_point = current_TestState->check_point;
current_state = ¤t_TestState->state;
*current_state = NULL;
run_next_test = 1;
break;
}
case UNIT_TEST_FUNCTION_TYPE_TEARDOWN:
/* Check the heap based on the last setup checkpoint. */
assert_true(number_of_test_states);
current_TestState = &test_states[--number_of_test_states];
test_check_point = current_TestState->check_point;
current_state = ¤t_TestState->state;
break;
default:
print_error("Invalid unit test function type %d\n",
test->function_type);
exit_test(1);
break;
}
if (run_next_test) {
int failed = _run_test(test->name, test->function, current_state,
test->function_type, test_check_point);
if (failed) {
failed_names[total_failed] = test->name;
}
switch (test->function_type) {
case UNIT_TEST_FUNCTION_TYPE_TEST:
previous_test_failed = failed;
total_failed += failed;
tests_executed ++;
break;
case UNIT_TEST_FUNCTION_TYPE_SETUP:
if (failed) {
total_failed ++;
tests_executed ++;
/* Skip forward until the next test or setup function. */
run_next_test = 0;
previous_setup_failed = 1;
}
previous_test_failed = 0;
break;
case UNIT_TEST_FUNCTION_TYPE_TEARDOWN:
/* If this test failed. */
if (failed && !previous_test_failed) {
total_failed ++;
}
break;
default:
#ifndef _HPUX
assert_null("BUG: shouldn't be here!");
#endif
break;
}
}
}
print_message("[==========] %"PRIdS " test(s) run.\n", tests_executed);
print_error("[ PASSED ] %"PRIdS " test(s).\n", tests_executed - total_failed);
if (total_failed > 0) {
print_error("[ FAILED ] %"PRIdS " test(s), listed below:\n", total_failed);
for (i = 0; i < total_failed; i++) {
print_error("[ FAILED ] %s\n", failed_names[i]);
}
} else {
print_error("\n %"PRIdS " FAILED TEST(S)\n", total_failed);
}
if (number_of_test_states != 0) {
print_error("[ ERROR ] Mismatched number of setup %"PRIdS " and "
"teardown %"PRIdS " functions\n", setups, teardowns);
total_failed = (size_t)-1;
}
free(test_states);
free((void*)failed_names);
fail_if_blocks_allocated(check_point, "run_tests");
return (int)total_failed;
}
int _run_group_tests(const UnitTest * const tests, const size_t number_of_tests)
{
UnitTestFunction setup = NULL;
const char *setup_name;
size_t num_setups = 0;
UnitTestFunction teardown = NULL;
const char *teardown_name = NULL;
size_t num_teardowns = 0;
size_t current_test = 0;
size_t i;
/* Number of tests executed. */
size_t tests_executed = 0;
/* Number of failed tests. */
size_t total_failed = 0;
/* Check point of the heap state. */
const ListNode * const check_point = check_point_allocated_blocks();
const char **failed_names = NULL;
void **current_state = NULL;
TestState group_state;
if (number_of_tests == 0) {
return -1;
}
failed_names = (const char **)malloc(number_of_tests *
sizeof(*failed_names));
if (failed_names == NULL) {
return -2;
}
/* Find setup and teardown function */
for (i = 0; i < number_of_tests; i++) {
const UnitTest * const test = &tests[i];
if (test->function_type == UNIT_TEST_FUNCTION_TYPE_GROUP_SETUP) {
if (setup == NULL) {
setup = test->function;
setup_name = test->name;
num_setups = 1;
} else {
print_error("[ ERROR ] More than one group setup function detected\n");
exit_test(1);
}
}
if (test->function_type == UNIT_TEST_FUNCTION_TYPE_GROUP_TEARDOWN) {
if (teardown == NULL) {
teardown = test->function;
teardown_name = test->name;
num_teardowns = 1;
} else {
print_error("[ ERROR ] More than one group teardown function detected\n");
exit_test(1);
}
}
}
print_message("[==========] Running %"PRIdS " test(s).\n",
number_of_tests - num_setups - num_teardowns);
if (setup != NULL) {
int failed;
group_state.check_point = check_point_allocated_blocks();
current_state = &group_state.state;
*current_state = NULL;
failed = _run_test(setup_name,
setup,
current_state,
UNIT_TEST_FUNCTION_TYPE_SETUP,
group_state.check_point);
if (failed) {
failed_names[total_failed] = setup_name;
}
total_failed += failed;
tests_executed++;
}
while (current_test < number_of_tests) {
int run_test = 0;
const UnitTest * const test = &tests[current_test++];
if (test->function == NULL) {
continue;
}
switch (test->function_type) {
case UNIT_TEST_FUNCTION_TYPE_TEST:
run_test = 1;
break;
case UNIT_TEST_FUNCTION_TYPE_SETUP:
case UNIT_TEST_FUNCTION_TYPE_TEARDOWN:
case UNIT_TEST_FUNCTION_TYPE_GROUP_SETUP:
case UNIT_TEST_FUNCTION_TYPE_GROUP_TEARDOWN:
break;
default:
print_error("Invalid unit test function type %d\n",
test->function_type);
break;
}
if (run_test) {
int failed;
failed = _run_test(test->name,
test->function,
current_state,
test->function_type,
NULL);
if (failed) {
failed_names[total_failed] = test->name;
}
total_failed += failed;
tests_executed++;
}
}
if (teardown != NULL) {
int failed;
failed = _run_test(teardown_name,
teardown,
current_state,
UNIT_TEST_FUNCTION_TYPE_GROUP_TEARDOWN,
group_state.check_point);
if (failed) {
failed_names[total_failed] = teardown_name;
}
total_failed += failed;
tests_executed++;
}
print_message("[==========] %"PRIdS " test(s) run.\n", tests_executed);
print_error("[ PASSED ] %"PRIdS " test(s).\n", tests_executed - total_failed);
if (total_failed) {
print_error("[ FAILED ] %"PRIdS " test(s), listed below:\n", total_failed);
for (i = 0; i < total_failed; i++) {
print_error("[ FAILED ] %s\n", failed_names[i]);
}
} else {
print_error("\n %"PRIdS " FAILED TEST(S)\n", total_failed);
}
free((void*)failed_names);
fail_if_blocks_allocated(check_point, "run_group_tests");
return (int)total_failed;
}
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