/* * Copyright 2008 Google Inc. * Copyright 2014-2018 Andreas Schneider * * 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. */ #ifndef CMOCKA_H_ #define CMOCKA_H_ #ifdef _WIN32 # ifdef _MSC_VER #define __func__ __FUNCTION__ # ifndef inline #define inline __inline # endif /* inline */ # if _MSC_VER < 1500 # ifdef __cplusplus extern "C" { # endif /* __cplusplus */ int __stdcall IsDebuggerPresent(); # ifdef __cplusplus } /* extern "C" */ # endif /* __cplusplus */ # endif /* _MSC_VER < 1500 */ # endif /* _MSC_VER */ #endif /* _WIN32 */ /** * @defgroup cmocka The CMocka API * * These headers or their equivalents MUST be included prior to including * this header file. * @code * #include * #include * #include * #include * @endcode * * This allows test applications to use custom definitions of C standard * library functions and types. * * @{ */ /* If __WORDSIZE is not set, try to figure it out and default to 32 bit. */ #ifndef __WORDSIZE # if (defined(__x86_64__) && !defined(__ILP32__)) || defined(__sparc_v9__) || defined(__sparcv9) # define __WORDSIZE 64 # else # define __WORDSIZE 32 # endif #endif #ifdef DOXYGEN /** * Largest integral type. This type should be large enough to hold any * pointer or integer supported by the compiler. */ typedef uintmax_t LargestIntegralType; #else /* DOXGEN */ #ifndef LargestIntegralType # if __WORDSIZE == 64 && !defined(_WIN64) # define LargestIntegralType unsigned long int # else # define LargestIntegralType unsigned long long int # endif #endif /* LargestIntegralType */ #endif /* DOXYGEN */ /* Printf format used to display LargestIntegralType as a hexidecimal. */ #ifndef LargestIntegralTypePrintfFormat # ifdef _WIN32 # define LargestIntegralTypePrintfFormat "0x%I64x" # else # if __WORDSIZE == 64 # define LargestIntegralTypePrintfFormat "%#lx" # else # define LargestIntegralTypePrintfFormat "%#llx" # endif # endif /* _WIN32 */ #endif /* LargestIntegralTypePrintfFormat */ /* Printf format used to display LargestIntegralType as a decimal. */ #ifndef LargestIntegralTypePrintfFormatDecimal # ifdef _WIN32 # define LargestIntegralTypePrintfFormatDecimal "%I64u" # else # if __WORDSIZE == 64 # define LargestIntegralTypePrintfFormatDecimal "%lu" # else # define LargestIntegralTypePrintfFormatDecimal "%llu" # endif # endif /* _WIN32 */ #endif /* LargestIntegralTypePrintfFormat */ #ifndef FloatPrintfFormat # define FloatPrintfFormat "%f" #endif /* FloatPrintfFormat */ #ifndef DoublePrintfFormat # define DoublePrintfFormat "%f" #endif /* DoublePrintfFormat */ /* Perform an unsigned cast to LargestIntegralType. */ #define cast_to_largest_integral_type(value) \ ((LargestIntegralType)(value)) /* Smallest integral type capable of holding a pointer. */ #if !defined(_UINTPTR_T) && !defined(_UINTPTR_T_DEFINED) && !defined(HAVE_UINTPTR_T) # if defined(_WIN32) /* WIN32 is an ILP32 platform */ typedef unsigned int uintptr_t; # elif defined(_WIN64) typedef unsigned long int uintptr_t; # else /* _WIN32 */ /* ILP32 and LP64 platforms */ # ifdef __WORDSIZE /* glibc */ # if __WORDSIZE == 64 typedef unsigned long int uintptr_t; # else typedef unsigned int uintptr_t; # endif /* __WORDSIZE == 64 */ # else /* __WORDSIZE */ # if defined(_LP64) || defined(_I32LPx) typedef unsigned long int uintptr_t; # else typedef unsigned int uintptr_t; # endif # endif /* __WORDSIZE */ # endif /* _WIN32 */ # define _UINTPTR_T # define _UINTPTR_T_DEFINED #endif /* !defined(_UINTPTR_T) || !defined(_UINTPTR_T_DEFINED) */ /* Perform an unsigned cast to uintptr_t. */ #define cast_to_pointer_integral_type(value) \ ((uintptr_t)((size_t)(value))) /* Perform a cast of a pointer to LargestIntegralType */ #define cast_ptr_to_largest_integral_type(value) \ cast_to_largest_integral_type(cast_to_pointer_integral_type(value)) /* GCC have printf type attribute check. */ #ifdef __GNUC__ #define CMOCKA_PRINTF_ATTRIBUTE(a,b) \ __attribute__ ((__format__ (__printf__, a, b))) #else #define CMOCKA_PRINTF_ATTRIBUTE(a,b) #endif /* __GNUC__ */ #if defined(__GNUC__) #define CMOCKA_DEPRECATED __attribute__ ((deprecated)) #elif defined(_MSC_VER) #define CMOCKA_DEPRECATED __declspec(deprecated) #else #define CMOCKA_DEPRECATED #endif #define WILL_RETURN_ALWAYS -1 #define WILL_RETURN_ONCE -2 /** * @defgroup cmocka_mock Mock Objects * @ingroup cmocka * * Mock objects mock objects are simulated objects that mimic the behavior of * real objects. Instead of calling the real objects, the tested object calls a * mock object that merely asserts that the correct methods were called, with * the expected parameters, in the correct order. * *
    *
  • will_return(function, value) - The will_return() macro * pushes a value onto a stack of mock values. This macro is intended to be * used by the unit test itself, while programming the behaviour of the mocked * object.
  • * *
  • mock() - the mock macro pops a value from a stack of * test values. The user of the mock() macro is the mocked object that uses it * to learn how it should behave.
  • *
* * Because the will_return() and mock() are intended to be used in pairs, the * cmocka library would fail the test if there are more values pushed onto the * stack using will_return() than consumed with mock() and vice-versa. * * The following unit test stub illustrates how would a unit test instruct the * mock object to return a particular value: * * @code * will_return(chef_cook, "hotdog"); * will_return(chef_cook, 0); * @endcode * * Now the mock object can check if the parameter it received is the parameter * which is expected by the test driver. This can be done the following way: * * @code * int chef_cook(const char *order, char **dish_out) * { * check_expected(order); * } * @endcode * * For a complete example please take a look * here. * * @{ */ #ifdef DOXYGEN /** * @brief Retrieve a return value of the current function. * * @return The value which was stored to return by this function. * * @see will_return() */ LargestIntegralType mock(void); #else #define mock() _mock(__func__, __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Retrieve a typed return value of the current function. * * The value would be casted to type internally to avoid having the * caller to do the cast manually. * * @param[in] #type The expected type of the return value * * @return The value which was stored to return by this function. * * @code * int param; * * param = mock_type(int); * @endcode * * @see will_return() * @see mock() * @see mock_ptr_type() */ #type mock_type(#type); #else #define mock_type(type) ((type) mock()) #endif #ifdef DOXYGEN /** * @brief Retrieve a typed return value of the current function. * * The value would be casted to type internally to avoid having the * caller to do the cast manually but also casted to uintptr_t to make * sure the result has a valid size to be used as a pointer. * * @param[in] #type The expected type of the return value * * @return The value which was stored to return by this function. * * @code * char *param; * * param = mock_ptr_type(char *); * @endcode * * @see will_return() * @see mock() * @see mock_type() */ type mock_ptr_type(#type); #else #define mock_ptr_type(type) ((type) (uintptr_t) mock()) #endif #ifdef DOXYGEN /** * @brief Store a value to be returned by mock() later. * * @param[in] #function The function which should return the given value. * * @param[in] value The value to be returned by mock(). * * @code * int return_integer(void) * { * return (int)mock(); * } * * static void test_integer_return(void **state) * { * will_return(return_integer, 42); * * assert_int_equal(my_function_calling_return_integer(), 42); * } * @endcode * * @see mock() * @see will_return_count() */ void will_return(#function, LargestIntegralType value); #else #define will_return(function, value) \ _will_return(#function, __FILE__, __LINE__, \ cast_to_largest_integral_type(value), 1) #endif #ifdef DOXYGEN /** * @brief Store a value to be returned by mock() later. * * @param[in] #function The function which should return the given value. * * @param[in] value The value to be returned by mock(). * * @param[in] count The parameter indicates the number of times the value should * be returned by mock(). If count is set to -1, the value * will always be returned but must be returned at least once. * If count is set to -2, the value will always be returned * by mock(), but is not required to be returned. * * @see mock() */ void will_return_count(#function, LargestIntegralType value, int count); #else #define will_return_count(function, value, count) \ _will_return(#function, __FILE__, __LINE__, \ cast_to_largest_integral_type(value), count) #endif #ifdef DOXYGEN /** * @brief Store a value that will be always returned by mock(). * * @param[in] #function The function which should return the given value. * * @param[in] #value The value to be returned by mock(). * * This is equivalent to: * @code * will_return_count(function, value, -1); * @endcode * * @see will_return_count() * @see mock() */ void will_return_always(#function, LargestIntegralType value); #else #define will_return_always(function, value) \ will_return_count(function, (value), WILL_RETURN_ALWAYS) #endif #ifdef DOXYGEN /** * @brief Store a value that may be always returned by mock(). * * This stores a value which will always be returned by mock() but is not * required to be returned by at least one call to mock(). Therefore, * in contrast to will_return_always() which causes a test failure if it * is not returned at least once, will_return_maybe() will never cause a test * to fail if its value is not returned. * * @param[in] #function The function which should return the given value. * * @param[in] #value The value to be returned by mock(). * * This is equivalent to: * @code * will_return_count(function, value, -2); * @endcode * * @see will_return_count() * @see mock() */ void will_return_maybe(#function, LargestIntegralType value); #else #define will_return_maybe(function, value) \ will_return_count(function, (value), WILL_RETURN_ONCE) #endif /** @} */ /** * @defgroup cmocka_param Checking Parameters * @ingroup cmocka * * Functionality to store expected values for mock function parameters. * * In addition to storing the return values of mock functions, cmocka provides * functionality to store expected values for mock function parameters using * the expect_*() functions provided. A mock function parameter can then be * validated using the check_expected() macro. * * Successive calls to expect_*() macros for a parameter queues values to check * the specified parameter. check_expected() checks a function parameter * against the next value queued using expect_*(), if the parameter check fails * a test failure is signalled. In addition if check_expected() is called and * no more parameter values are queued a test failure occurs. * * The following test stub illustrates how to do this. First is the the function * we call in the test driver: * * @code * static void test_driver(void **state) * { * expect_string(chef_cook, order, "hotdog"); * } * @endcode * * Now the chef_cook function can check if the parameter we got passed is the * parameter which is expected by the test driver. This can be done the * following way: * * @code * int chef_cook(const char *order, char **dish_out) * { * check_expected(order); * } * @endcode * * For a complete example please take a look * here * * @{ */ /* * 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. */ #ifdef DOXYGEN /** * @brief Add a custom parameter checking function. * * If the event parameter is NULL the event structure is allocated internally * by this function. If the parameter is provided it must be allocated on the * heap and doesn't need to be deallocated by the caller. * * @param[in] #function The function to add a custom parameter checking * function for. * * @param[in] #parameter The parameters passed to the function. * * @param[in] #check_function The check function to call. * * @param[in] check_data The data to pass to the check function. */ void expect_check(#function, #parameter, #check_function, const void *check_data); #else #define expect_check(function, parameter, check_function, check_data) \ _expect_check(#function, #parameter, __FILE__, __LINE__, check_function, \ cast_to_largest_integral_type(check_data), NULL, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter value is part of the provided * array. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] value_array[] The array to check for the value. * * @see check_expected(). */ void expect_in_set(#function, #parameter, LargestIntegralType value_array[]); #else #define expect_in_set(function, parameter, value_array) \ expect_in_set_count(function, parameter, value_array, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter value is part of the provided * array. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] value_array[] The array to check for the value. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_in_set_count(#function, #parameter, LargestIntegralType value_array[], size_t count); #else #define expect_in_set_count(function, parameter, value_array, count) \ _expect_in_set(#function, #parameter, __FILE__, __LINE__, value_array, \ sizeof(value_array) / sizeof((value_array)[0]), count) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter value is not part of the * provided array. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] value_array[] The array to check for the value. * * @see check_expected(). */ void expect_not_in_set(#function, #parameter, LargestIntegralType value_array[]); #else #define expect_not_in_set(function, parameter, value_array) \ expect_not_in_set_count(function, parameter, value_array, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter value is not part of the * provided array. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] value_array[] The array to check for the value. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_not_in_set_count(#function, #parameter, LargestIntegralType value_array[], size_t count); #else #define expect_not_in_set_count(function, parameter, value_array, count) \ _expect_not_in_set( \ #function, #parameter, __FILE__, __LINE__, value_array, \ sizeof(value_array) / sizeof((value_array)[0]), count) #endif #ifdef DOXYGEN /** * @brief Add an event to check a parameter is inside a numerical range. * The check would succeed if minimum <= value <= maximum. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] minimum The lower boundary of the interval to check against. * * @param[in] maximum The upper boundary of the interval to check against. * * @see check_expected(). */ void expect_in_range(#function, #parameter, LargestIntegralType minimum, LargestIntegralType maximum); #else #define expect_in_range(function, parameter, minimum, maximum) \ expect_in_range_count(function, parameter, minimum, maximum, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to repeatedly check a parameter is inside a * numerical range. The check would succeed if minimum <= value <= maximum. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] minimum The lower boundary of the interval to check against. * * @param[in] maximum The upper boundary of the interval to check against. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_in_range_count(#function, #parameter, LargestIntegralType minimum, LargestIntegralType maximum, size_t count); #else #define expect_in_range_count(function, parameter, minimum, maximum, count) \ _expect_in_range(#function, #parameter, __FILE__, __LINE__, minimum, \ maximum, count) #endif #ifdef DOXYGEN /** * @brief Add an event to check a parameter is outside a numerical range. * The check would succeed if minimum > value > maximum. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] minimum The lower boundary of the interval to check against. * * @param[in] maximum The upper boundary of the interval to check against. * * @see check_expected(). */ void expect_not_in_range(#function, #parameter, LargestIntegralType minimum, LargestIntegralType maximum); #else #define expect_not_in_range(function, parameter, minimum, maximum) \ expect_not_in_range_count(function, parameter, minimum, maximum, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to repeatedly check a parameter is outside a * numerical range. The check would succeed if minimum > value > maximum. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] minimum The lower boundary of the interval to check against. * * @param[in] maximum The upper boundary of the interval to check against. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_not_in_range_count(#function, #parameter, LargestIntegralType minimum, LargestIntegralType maximum, size_t count); #else #define expect_not_in_range_count(function, parameter, minimum, maximum, \ count) \ _expect_not_in_range(#function, #parameter, __FILE__, __LINE__, \ minimum, maximum, count) #endif #ifdef DOXYGEN /** * @brief Add an event to check if a parameter is the given value. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] value The value to check. * * @see check_expected(). */ void expect_value(#function, #parameter, LargestIntegralType value); #else #define expect_value(function, parameter, value) \ expect_value_count(function, parameter, value, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to repeatedly check if a parameter is the given value. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] value The value to check. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_value_count(#function, #parameter, LargestIntegralType value, size_t count); #else #define expect_value_count(function, parameter, value, count) \ _expect_value(#function, #parameter, __FILE__, __LINE__, \ cast_to_largest_integral_type(value), count) #endif #ifdef DOXYGEN /** * @brief Add an event to check if a parameter isn't the given value. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] value The value to check. * * @see check_expected(). */ void expect_not_value(#function, #parameter, LargestIntegralType value); #else #define expect_not_value(function, parameter, value) \ expect_not_value_count(function, parameter, value, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to repeatedly check if a parameter isn't the given value. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] value The value to check. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_not_value_count(#function, #parameter, LargestIntegralType value, size_t count); #else #define expect_not_value_count(function, parameter, value, count) \ _expect_not_value(#function, #parameter, __FILE__, __LINE__, \ cast_to_largest_integral_type(value), count) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter value is equal to the * provided string. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] string The string value to compare. * * @see check_expected(). */ void expect_string(#function, #parameter, const char *string); #else #define expect_string(function, parameter, string) \ expect_string_count(function, parameter, string, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter value is equal to the * provided string. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] string The string value to compare. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_string_count(#function, #parameter, const char *string, size_t count); #else #define expect_string_count(function, parameter, string, count) \ _expect_string(#function, #parameter, __FILE__, __LINE__, \ (const char*)(string), count) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter value isn't equal to the * provided string. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] string The string value to compare. * * @see check_expected(). */ void expect_not_string(#function, #parameter, const char *string); #else #define expect_not_string(function, parameter, string) \ expect_not_string_count(function, parameter, string, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter value isn't equal to the * provided string. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] string The string value to compare. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_not_string_count(#function, #parameter, const char *string, size_t count); #else #define expect_not_string_count(function, parameter, string, count) \ _expect_not_string(#function, #parameter, __FILE__, __LINE__, \ (const char*)(string), count) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter does match an area of memory. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] memory The memory to compare. * * @param[in] size The size of the memory to compare. * * @see check_expected(). */ void expect_memory(#function, #parameter, void *memory, size_t size); #else #define expect_memory(function, parameter, memory, size) \ expect_memory_count(function, parameter, memory, size, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to repeatedly check if the parameter does match an area * of memory. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] memory The memory to compare. * * @param[in] size The size of the memory to compare. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_memory_count(#function, #parameter, void *memory, size_t size, size_t count); #else #define expect_memory_count(function, parameter, memory, size, count) \ _expect_memory(#function, #parameter, __FILE__, __LINE__, \ (const void*)(memory), size, count) #endif #ifdef DOXYGEN /** * @brief Add an event to check if the parameter doesn't match an area of * memory. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] memory The memory to compare. * * @param[in] size The size of the memory to compare. * * @see check_expected(). */ void expect_not_memory(#function, #parameter, void *memory, size_t size); #else #define expect_not_memory(function, parameter, memory, size) \ expect_not_memory_count(function, parameter, memory, size, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to repeatedly check if the parameter doesn't match an * area of memory. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] memory The memory to compare. * * @param[in] size The size of the memory to compare. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_not_memory_count(#function, #parameter, void *memory, size_t size, size_t count); #else #define expect_not_memory_count(function, parameter, memory, size, count) \ _expect_not_memory(#function, #parameter, __FILE__, __LINE__, \ (const void*)(memory), size, count) #endif #ifdef DOXYGEN /** * @brief Add an event to check if a parameter (of any value) has been passed. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @see check_expected(). */ void expect_any(#function, #parameter); #else #define expect_any(function, parameter) \ expect_any_count(function, parameter, 1) #endif #ifdef DOXYGEN /** * @brief Add an event to always check if a parameter (of any value) has been passed. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @see check_expected(). */ void expect_any_always(#function, #parameter); #else #define expect_any_always(function, parameter) \ expect_any_count(function, parameter, WILL_RETURN_ALWAYS) #endif #ifdef DOXYGEN /** * @brief Add an event to repeatedly check if a parameter (of any value) has * been passed. * * The event is triggered by calling check_expected() in the mocked function. * * @param[in] #function The function to add the check for. * * @param[in] #parameter The name of the parameter passed to the function. * * @param[in] count The count parameter returns the number of times the value * should be returned by check_expected(). If count is set * to -1 the value will always be returned. * * @see check_expected(). */ void expect_any_count(#function, #parameter, size_t count); #else #define expect_any_count(function, parameter, count) \ _expect_any(#function, #parameter, __FILE__, __LINE__, count) #endif #ifdef DOXYGEN /** * @brief Determine whether a function parameter is correct. * * This ensures the next value queued by one of the expect_*() macros matches * the specified variable. * * This function needs to be called in the mock object. * * @param[in] #parameter The parameter to check. */ void check_expected(#parameter); #else #define check_expected(parameter) \ _check_expected(__func__, #parameter, __FILE__, __LINE__, \ cast_to_largest_integral_type(parameter)) #endif #ifdef DOXYGEN /** * @brief Determine whether a function parameter is correct. * * This ensures the next value queued by one of the expect_*() macros matches * the specified variable. * * This function needs to be called in the mock object. * * @param[in] #parameter The pointer to check. */ void check_expected_ptr(#parameter); #else #define check_expected_ptr(parameter) \ _check_expected(__func__, #parameter, __FILE__, __LINE__, \ cast_ptr_to_largest_integral_type(parameter)) #endif /** @} */ /** * @defgroup cmocka_asserts Assert Macros * @ingroup cmocka * * This is a set of useful assert macros like the standard C libary's * assert(3) macro. * * On an assertion failure a cmocka assert macro will write the failure to the * standard error stream and signal a test failure. Due to limitations of the C * language the general C standard library assert() and cmocka's assert_true() * and assert_false() macros can only display the expression that caused the * assert failure. cmocka's type specific assert macros, assert_{type}_equal() * and assert_{type}_not_equal(), display the data that caused the assertion * failure which increases data visibility aiding debugging of failing test * cases. * * @{ */ #ifdef DOXYGEN /** * @brief Assert that the given expression is true. * * The function prints an error message to standard error and terminates the * test by calling fail() if expression is false (i.e., compares equal to * zero). * * @param[in] expression The expression to evaluate. * * @see assert_int_equal() * @see assert_string_equal() */ void assert_true(scalar expression); #else #define assert_true(c) _assert_true(cast_to_largest_integral_type(c), #c, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the given expression is false. * * The function prints an error message to standard error and terminates the * test by calling fail() if expression is true. * * @param[in] expression The expression to evaluate. * * @see assert_int_equal() * @see assert_string_equal() */ void assert_false(scalar expression); #else #define assert_false(c) _assert_true(!(cast_to_largest_integral_type(c)), #c, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the return_code is greater than or equal to 0. * * The function prints an error message to standard error and terminates the * test by calling fail() if the return code is smaller than 0. If the function * you check sets an errno if it fails you can pass it to the function and * it will be printed as part of the error message. * * @param[in] rc The return code to evaluate. * * @param[in] error Pass errno here or 0. */ void assert_return_code(int rc, int error); #else #define assert_return_code(rc, error) \ _assert_return_code(cast_to_largest_integral_type(rc), \ sizeof(rc), \ cast_to_largest_integral_type(error), \ #rc, __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the given pointer is non-NULL. * * The function prints an error message to standard error and terminates the * test by calling fail() if the pointer is NULL. * * @param[in] pointer The pointer to evaluate. * * @see assert_null() */ void assert_non_null(void *pointer); #else #define assert_non_null(c) _assert_true(cast_ptr_to_largest_integral_type(c), #c, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the given pointer is NULL. * * The function prints an error message to standard error and terminates the * test by calling fail() if the pointer is non-NULL. * * @param[in] pointer The pointer to evaluate. * * @see assert_non_null() */ void assert_null(void *pointer); #else #define assert_null(c) _assert_true(!(cast_ptr_to_largest_integral_type(c)), #c, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given pointers are equal. * * The function prints an error message and terminates the test by calling * fail() if the pointers are not equal. * * @param[in] a The first pointer to compare. * * @param[in] b The pointer to compare against the first one. */ void assert_ptr_equal(void *a, void *b); #else #define assert_ptr_equal(a, b) \ _assert_int_equal(cast_ptr_to_largest_integral_type(a), \ cast_ptr_to_largest_integral_type(b), \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given pointers are not equal. * * The function prints an error message and terminates the test by calling * fail() if the pointers are equal. * * @param[in] a The first pointer to compare. * * @param[in] b The pointer to compare against the first one. */ void assert_ptr_not_equal(void *a, void *b); #else #define assert_ptr_not_equal(a, b) \ _assert_int_not_equal(cast_ptr_to_largest_integral_type(a), \ cast_ptr_to_largest_integral_type(b), \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given integers are equal. * * The function prints an error message to standard error and terminates the * test by calling fail() if the integers are not equal. * * @param[in] a The first integer to compare. * * @param[in] b The integer to compare against the first one. */ void assert_int_equal(int a, int b); #else #define assert_int_equal(a, b) \ _assert_int_equal(cast_to_largest_integral_type(a), \ cast_to_largest_integral_type(b), \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given integers are not equal. * * The function prints an error message to standard error and terminates the * test by calling fail() if the integers are equal. * * @param[in] a The first integer to compare. * * @param[in] b The integer to compare against the first one. * * @see assert_int_equal() */ void assert_int_not_equal(int a, int b); #else #define assert_int_not_equal(a, b) \ _assert_int_not_equal(cast_to_largest_integral_type(a), \ cast_to_largest_integral_type(b), \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given float are equal given an epsilon. * * The function prints an error message to standard error and terminates the * test by calling fail() if the float are not equal (given an epsilon). * * @param[in] a The first float to compare. * * @param[in] b The float to compare against the first one. * * @param[in] epsilon The epsilon used as margin for float comparison. */ void assert_float_equal(float a, float b, float epsilon); #else #define assert_float_equal(a, b, epsilon) \ _assert_float_equal((float)a, \ (float)b, \ (float)epsilon, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given float are not equal given an epsilon. * * The function prints an error message to standard error and terminates the * test by calling fail() if the float are not equal (given an epsilon). * * @param[in] a The first float to compare. * * @param[in] b The float to compare against the first one. * * @param[in] epsilon The epsilon used as margin for float comparison. */ void assert_float_not_equal(float a, float b, float epsilon); #else #define assert_float_not_equal(a, b, epsilon) \ _assert_float_not_equal((float)a, \ (float)b, \ (float)epsilon, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given double are equal given an epsilon. * * The function prints an error message to standard error and terminates the * test by calling fail() if the double are not equal (given an epsilon). * * @param[in] a The first double to compare. * * @param[in] b The double to compare against the first one. * * @param[in] epsilon The epsilon used as margin for double comparison. */ void assert_double_equal(double a, double b, double epsilon); #else #define assert_double_equal(a, b, epsilon) \ _assert_double_equal((double)a, \ (double)b, \ (double)epsilon, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given double are not equal given an epsilon. * * The function prints an error message to standard error and terminates the * test by calling fail() if the double are not equal (given an epsilon). * * @param[in] a The first double to compare. * * @param[in] b The double to compare against the first one. * * @param[in] epsilon The epsilon used as margin for double comparison. */ void assert_double_not_equal(double a, double b, double epsilon); #else #define assert_double_not_equal(a, b, epsilon) \ _assert_double_not_equal((float)a, \ (double)b, \ (double)epsilon, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given strings are equal. * * The function prints an error message to standard error and terminates the * test by calling fail() if the strings are not equal. * * @param[in] a The string to check. * * @param[in] b The other string to compare. */ void assert_string_equal(const char *a, const char *b); #else #define assert_string_equal(a, b) \ _assert_string_equal((const char*)(a), (const char*)(b), __FILE__, \ __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given strings are not equal. * * The function prints an error message to standard error and terminates the * test by calling fail() if the strings are equal. * * @param[in] a The string to check. * * @param[in] b The other string to compare. */ void assert_string_not_equal(const char *a, const char *b); #else #define assert_string_not_equal(a, b) \ _assert_string_not_equal((const char*)(a), (const char*)(b), __FILE__, \ __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given areas of memory are equal, otherwise fail. * * The function prints an error message to standard error and terminates the * test by calling fail() if the memory is not equal. * * @param[in] a The first memory area to compare * (interpreted as unsigned char). * * @param[in] b The second memory area to compare * (interpreted as unsigned char). * * @param[in] size The first n bytes of the memory areas to compare. */ void assert_memory_equal(const void *a, const void *b, size_t size); #else #define assert_memory_equal(a, b, size) \ _assert_memory_equal((const void*)(a), (const void*)(b), size, __FILE__, \ __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the two given areas of memory are not equal. * * The function prints an error message to standard error and terminates the * test by calling fail() if the memory is equal. * * @param[in] a The first memory area to compare * (interpreted as unsigned char). * * @param[in] b The second memory area to compare * (interpreted as unsigned char). * * @param[in] size The first n bytes of the memory areas to compare. */ void assert_memory_not_equal(const void *a, const void *b, size_t size); #else #define assert_memory_not_equal(a, b, size) \ _assert_memory_not_equal((const void*)(a), (const void*)(b), size, \ __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the specified value is not smaller than the minimum * and and not greater than the maximum. * * The function prints an error message to standard error and terminates the * test by calling fail() if value is not in range. * * @param[in] value The value to check. * * @param[in] minimum The minimum value allowed. * * @param[in] maximum The maximum value allowed. */ void assert_in_range(LargestIntegralType value, LargestIntegralType minimum, LargestIntegralType maximum); #else #define assert_in_range(value, minimum, maximum) \ _assert_in_range( \ cast_to_largest_integral_type(value), \ cast_to_largest_integral_type(minimum), \ cast_to_largest_integral_type(maximum), __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the specified value is smaller than the minimum or * greater than the maximum. * * The function prints an error message to standard error and terminates the * test by calling fail() if value is in range. * * @param[in] value The value to check. * * @param[in] minimum The minimum value to compare. * * @param[in] maximum The maximum value to compare. */ void assert_not_in_range(LargestIntegralType value, LargestIntegralType minimum, LargestIntegralType maximum); #else #define assert_not_in_range(value, minimum, maximum) \ _assert_not_in_range( \ cast_to_largest_integral_type(value), \ cast_to_largest_integral_type(minimum), \ cast_to_largest_integral_type(maximum), __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the specified value is within a set. * * The function prints an error message to standard error and terminates the * test by calling fail() if value is not within a set. * * @param[in] value The value to look up * * @param[in] values[] The array to check for the value. * * @param[in] count The size of the values array. */ void assert_in_set(LargestIntegralType value, LargestIntegralType values[], size_t count); #else #define assert_in_set(value, values, number_of_values) \ _assert_in_set(value, values, number_of_values, __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Assert that the specified value is not within a set. * * The function prints an error message to standard error and terminates the * test by calling fail() if value is within a set. * * @param[in] value The value to look up * * @param[in] values[] The array to check for the value. * * @param[in] count The size of the values array. */ void assert_not_in_set(LargestIntegralType value, LargestIntegralType values[], size_t count); #else #define assert_not_in_set(value, values, number_of_values) \ _assert_not_in_set(value, values, number_of_values, __FILE__, __LINE__) #endif /** @} */ /** * @defgroup cmocka_call_order Call Ordering * @ingroup cmocka * * It is often beneficial to make sure that functions are called in an * order. This is independent of mock returns and parameter checking as both * of the aforementioned do not check the order in which they are called from * different functions. * *
    *
  • expect_function_call(function) - The * expect_function_call() macro pushes an expectation onto the stack of * expected calls.
  • * *
  • function_called() - pops a value from the stack of * expected calls. function_called() is invoked within the mock object * that uses it. *
* * expect_function_call() and function_called() are intended to be used in * pairs. Cmocka will fail a test if there are more or less expected calls * created (e.g. expect_function_call()) than consumed with function_called(). * There are provisions such as ignore_function_calls() which allow this * restriction to be circumvented in tests where mock calls for the code under * test are not the focus of the test. * * The following example illustrates how a unit test instructs cmocka * to expect a function_called() from a particular mock, * chef_sing(): * * @code * void chef_sing(void); * * void code_under_test() * { * chef_sing(); * } * * void some_test(void **state) * { * expect_function_call(chef_sing); * code_under_test(); * } * @endcode * * The implementation of the mock then must check whether it was meant to * be called by invoking function_called(): * * @code * void chef_sing() * { * function_called(); * } * @endcode * * @{ */ #ifdef DOXYGEN /** * @brief Check that current mocked function is being called in the expected * order * * @see expect_function_call() */ void function_called(void); #else #define function_called() _function_called(__func__, __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Store expected call(s) to a mock to be checked by function_called() * later. * * @param[in] #function The function which should should be called * * @param[in] times number of times this mock must be called * * @see function_called() */ void expect_function_calls(#function, const int times); #else #define expect_function_calls(function, times) \ _expect_function_call(#function, __FILE__, __LINE__, times) #endif #ifdef DOXYGEN /** * @brief Store expected single call to a mock to be checked by * function_called() later. * * @param[in] #function The function which should should be called * * @see function_called() */ void expect_function_call(#function); #else #define expect_function_call(function) \ _expect_function_call(#function, __FILE__, __LINE__, 1) #endif #ifdef DOXYGEN /** * @brief Expects function_called() from given mock at least once * * @param[in] #function The function which should should be called * * @see function_called() */ void expect_function_call_any(#function); #else #define expect_function_call_any(function) \ _expect_function_call(#function, __FILE__, __LINE__, -1) #endif #ifdef DOXYGEN /** * @brief Ignores function_called() invocations from given mock function. * * @param[in] #function The function which should should be called * * @see function_called() */ void ignore_function_calls(#function); #else #define ignore_function_calls(function) \ _expect_function_call(#function, __FILE__, __LINE__, -2) #endif /** @} */ /** * @defgroup cmocka_exec Running Tests * @ingroup cmocka * * This is the way tests are executed with CMocka. * * The following example illustrates this macro's use with the unit_test macro. * * @code * void Test0(void **state); * void Test1(void **state); * * int main(void) * { * const struct CMUnitTest tests[] = { * cmocka_unit_test(Test0), * cmocka_unit_test(Test1), * }; * * return cmocka_run_group_tests(tests, NULL, NULL); * } * @endcode * * @{ */ #ifdef DOXYGEN /** * @brief Forces the test to fail immediately and quit. */ void fail(void); #else #define fail() _fail(__FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Forces the test to not be executed, but marked as skipped */ void skip(void); #else #define skip() _skip(__FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Forces the test to fail immediately and quit, printing the reason. * * @code * fail_msg("This is some error message for test"); * @endcode * * or * * @code * char *error_msg = "This is some error message for test"; * fail_msg("%s", error_msg); * @endcode */ void fail_msg(const char *msg, ...); #else #define fail_msg(msg, ...) do { \ print_error("ERROR: " msg "\n", ##__VA_ARGS__); \ fail(); \ } while (0) #endif #ifdef DOXYGEN /** * @brief Generic method to run a single test. * * @deprecated This function was deprecated in favor of cmocka_run_group_tests * * @param[in] #function The function to test. * * @return 0 on success, 1 if an error occured. * * @code * // A test case that does nothing and succeeds. * void null_test_success(void **state) { * } * * int main(void) { * return run_test(null_test_success); * } * @endcode */ int run_test(#function); #else #define run_test(f) _run_test(#f, f, NULL, UNIT_TEST_FUNCTION_TYPE_TEST, NULL) #endif static inline void _unit_test_dummy(void **state) { (void)state; } /** Initializes a UnitTest structure. * * @deprecated This function was deprecated in favor of cmocka_unit_test */ #define unit_test(f) { #f, f, UNIT_TEST_FUNCTION_TYPE_TEST } #define _unit_test_setup(test, setup) \ { #test "_" #setup, setup, UNIT_TEST_FUNCTION_TYPE_SETUP } /** Initializes a UnitTest structure with a setup function. * * @deprecated This function was deprecated in favor of cmocka_unit_test_setup */ #define unit_test_setup(test, setup) \ _unit_test_setup(test, setup), \ unit_test(test), \ _unit_test_teardown(test, _unit_test_dummy) #define _unit_test_teardown(test, teardown) \ { #test "_" #teardown, teardown, UNIT_TEST_FUNCTION_TYPE_TEARDOWN } /** Initializes a UnitTest structure with a teardown function. * * @deprecated This function was deprecated in favor of cmocka_unit_test_teardown */ #define unit_test_teardown(test, teardown) \ _unit_test_setup(test, _unit_test_dummy), \ unit_test(test), \ _unit_test_teardown(test, teardown) /** Initializes a UnitTest structure for a group setup function. * * @deprecated This function was deprecated in favor of cmocka_run_group_tests */ #define group_test_setup(setup) \ { "group_" #setup, setup, UNIT_TEST_FUNCTION_TYPE_GROUP_SETUP } /** Initializes a UnitTest structure for a group teardown function. * * @deprecated This function was deprecated in favor of cmocka_run_group_tests */ #define group_test_teardown(teardown) \ { "group_" #teardown, teardown, UNIT_TEST_FUNCTION_TYPE_GROUP_TEARDOWN } /** * Initialize an array of UnitTest structures with a setup function for a test * and a teardown function. Either setup or teardown can be NULL. * * @deprecated This function was deprecated in favor of * cmocka_unit_test_setup_teardown */ #define unit_test_setup_teardown(test, setup, teardown) \ _unit_test_setup(test, setup), \ unit_test(test), \ _unit_test_teardown(test, teardown) /** Initializes a CMUnitTest structure. */ #define cmocka_unit_test(f) { #f, f, NULL, NULL, NULL } /** Initializes a CMUnitTest structure with a setup function. */ #define cmocka_unit_test_setup(f, setup) { #f, f, setup, NULL, NULL } /** Initializes a CMUnitTest structure with a teardown function. */ #define cmocka_unit_test_teardown(f, teardown) { #f, f, NULL, teardown, NULL } /** * Initialize an array of CMUnitTest structures with a setup function for a test * and a teardown function. Either setup or teardown can be NULL. */ #define cmocka_unit_test_setup_teardown(f, setup, teardown) { #f, f, setup, teardown, NULL } /** * Initialize a CMUnitTest structure with given initial state. It will be passed * to test function as an argument later. It can be used when test state does * not need special initialization or was initialized already. * @note If the group setup function initialized the state already, it won't be * overridden by the initial state defined here. */ #define cmocka_unit_test_prestate(f, state) { #f, f, NULL, NULL, state } /** * Initialize a CMUnitTest structure with given initial state, setup and * teardown function. Any of these values can be NULL. Initial state is passed * later to setup function, or directly to test if none was given. * @note If the group setup function initialized the state already, it won't be * overridden by the initial state defined here. */ #define cmocka_unit_test_prestate_setup_teardown(f, setup, teardown, state) { #f, f, setup, teardown, state } #define run_tests(tests) _run_tests(tests, sizeof(tests) / sizeof((tests)[0])) #define run_group_tests(tests) _run_group_tests(tests, sizeof(tests) / sizeof((tests)[0])) #ifdef DOXYGEN /** * @brief Run tests specified by an array of CMUnitTest structures. * * @param[in] group_tests[] The array of unit tests to execute. * * @param[in] group_setup The setup function which should be called before * all unit tests are executed. * * @param[in] group_teardown The teardown function to be called after all * tests have finished. * * @return 0 on success, or the number of failed tests. * * @code * static int setup(void **state) { * int *answer = malloc(sizeof(int)); * if (answer == NULL) { * return -1; * } * *answer = 42; * * *state = answer; * * return 0; * } * * static int teardown(void **state) { * free(*state); * * return 0; * } * * static void null_test_success(void **state) { * (void) state; * } * * static void int_test_success(void **state) { * int *answer = *state; * assert_int_equal(*answer, 42); * } * * int main(void) { * const struct CMUnitTest tests[] = { * cmocka_unit_test(null_test_success), * cmocka_unit_test_setup_teardown(int_test_success, setup, teardown), * }; * * return cmocka_run_group_tests(tests, NULL, NULL); * } * @endcode * * @see cmocka_unit_test * @see cmocka_unit_test_setup * @see cmocka_unit_test_teardown * @see cmocka_unit_test_setup_teardown */ int cmocka_run_group_tests(const struct CMUnitTest group_tests[], CMFixtureFunction group_setup, CMFixtureFunction group_teardown); #else # define cmocka_run_group_tests(group_tests, group_setup, group_teardown) \ _cmocka_run_group_tests(#group_tests, group_tests, sizeof(group_tests) / sizeof((group_tests)[0]), group_setup, group_teardown) #endif #ifdef DOXYGEN /** * @brief Run tests specified by an array of CMUnitTest structures and specify * a name. * * @param[in] group_name The name of the group test. * * @param[in] group_tests[] The array of unit tests to execute. * * @param[in] group_setup The setup function which should be called before * all unit tests are executed. * * @param[in] group_teardown The teardown function to be called after all * tests have finished. * * @return 0 on success, or the number of failed tests. * * @code * static int setup(void **state) { * int *answer = malloc(sizeof(int)); * if (answer == NULL) { * return -1; * } * *answer = 42; * * *state = answer; * * return 0; * } * * static int teardown(void **state) { * free(*state); * * return 0; * } * * static void null_test_success(void **state) { * (void) state; * } * * static void int_test_success(void **state) { * int *answer = *state; * assert_int_equal(*answer, 42); * } * * int main(void) { * const struct CMUnitTest tests[] = { * cmocka_unit_test(null_test_success), * cmocka_unit_test_setup_teardown(int_test_success, setup, teardown), * }; * * return cmocka_run_group_tests_name("success_test", tests, NULL, NULL); * } * @endcode * * @see cmocka_unit_test * @see cmocka_unit_test_setup * @see cmocka_unit_test_teardown * @see cmocka_unit_test_setup_teardown */ int cmocka_run_group_tests_name(const char *group_name, const struct CMUnitTest group_tests[], CMFixtureFunction group_setup, CMFixtureFunction group_teardown); #else # define cmocka_run_group_tests_name(group_name, group_tests, group_setup, group_teardown) \ _cmocka_run_group_tests(group_name, group_tests, sizeof(group_tests) / sizeof((group_tests)[0]), group_setup, group_teardown) #endif /** @} */ /** * @defgroup cmocka_alloc Dynamic Memory Allocation * @ingroup cmocka * * Memory leaks, buffer overflows and underflows can be checked using cmocka. * * To test for memory leaks, buffer overflows and underflows a module being * tested by cmocka should replace calls to malloc(), calloc() and free() to * test_malloc(), test_calloc() and test_free() respectively. Each time a block * is deallocated using test_free() it is checked for corruption, if a corrupt * block is found a test failure is signalled. All blocks allocated using the * test_*() allocation functions are tracked by the cmocka library. When a test * completes if any allocated blocks (memory leaks) remain they are reported * and a test failure is signalled. * * For simplicity cmocka currently executes all tests in one process. Therefore * all test cases in a test application share a single address space which * means memory corruption from a single test case could potentially cause the * test application to exit prematurely. * * @{ */ #ifdef DOXYGEN /** * @brief Test function overriding malloc. * * @param[in] size The bytes which should be allocated. * * @return A pointer to the allocated memory or NULL on error. * * @code * #ifdef UNIT_TESTING * extern void* _test_malloc(const size_t size, const char* file, const int line); * * #define malloc(size) _test_malloc(size, __FILE__, __LINE__) * #endif * * void leak_memory() { * int * const temporary = (int*)malloc(sizeof(int)); * *temporary = 0; * } * @endcode * * @see malloc(3) */ void *test_malloc(size_t size); #else #define test_malloc(size) _test_malloc(size, __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Test function overriding calloc. * * The memory is set to zero. * * @param[in] nmemb The number of elements for an array to be allocated. * * @param[in] size The size in bytes of each array element to allocate. * * @return A pointer to the allocated memory, NULL on error. * * @see calloc(3) */ void *test_calloc(size_t nmemb, size_t size); #else #define test_calloc(num, size) _test_calloc(num, size, __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Test function overriding realloc which detects buffer overruns * and memoery leaks. * * @param[in] ptr The memory block which should be changed. * * @param[in] size The bytes which should be allocated. * * @return The newly allocated memory block, NULL on error. */ void *test_realloc(void *ptr, size_t size); #else #define test_realloc(ptr, size) _test_realloc(ptr, size, __FILE__, __LINE__) #endif #ifdef DOXYGEN /** * @brief Test function overriding free(3). * * @param[in] ptr The pointer to the memory space to free. * * @see free(3). */ void test_free(void *ptr); #else #define test_free(ptr) _test_free(ptr, __FILE__, __LINE__) #endif /* Redirect malloc, calloc and free to the unit test allocators. */ #ifdef UNIT_TESTING #define malloc test_malloc #define realloc test_realloc #define calloc test_calloc #define free test_free #endif /* UNIT_TESTING */ /** @} */ /** * @defgroup cmocka_mock_assert Standard Assertions * @ingroup cmocka * * How to handle assert(3) of the standard C library. * * Runtime assert macros like the standard C library's assert() should be * redefined in modules being tested to use cmocka's mock_assert() function. * Normally mock_assert() signals a test failure. If a function is called using * the expect_assert_failure() macro, any calls to mock_assert() within the * function will result in the execution of the test. If no calls to * mock_assert() occur during the function called via expect_assert_failure() a * test failure is signalled. * * @{ */ /** * @brief Function to replace assert(3) in tested code. * * In conjuction with check_assert() it's possible to determine whether an * assert condition has failed without stopping a test. * * @param[in] result The expression to assert. * * @param[in] expression The expression as string. * * @param[in] file The file mock_assert() is called. * * @param[in] line The line mock_assert() is called. * * @code * #ifdef UNIT_TESTING * extern void mock_assert(const int result, const char* const expression, * const char * const file, const int line); * * #undef assert * #define assert(expression) \ * mock_assert((int)(expression), #expression, __FILE__, __LINE__); * #endif * * void increment_value(int * const value) { * assert(value); * (*value) ++; * } * @endcode * * @see assert(3) * @see expect_assert_failure */ void mock_assert(const int result, const char* const expression, const char * const file, const int line); #ifdef DOXYGEN /** * @brief Ensure that mock_assert() is called. * * If mock_assert() is called the assert expression string is returned. * * @param[in] fn_call The function will will call mock_assert(). * * @code * #define assert mock_assert * * void showmessage(const char *message) { * assert(message); * } * * int main(int argc, const char* argv[]) { * expect_assert_failure(show_message(NULL)); * printf("succeeded\n"); * return 0; * } * @endcode * */ void expect_assert_failure(function fn_call); #else #define expect_assert_failure(function_call) \ { \ const int result = setjmp(global_expect_assert_env); \ global_expecting_assert = 1; \ if (result) { \ print_message("Expected assertion %s occurred\n", \ global_last_failed_assert); \ global_expecting_assert = 0; \ } else { \ function_call ; \ global_expecting_assert = 0; \ print_error("Expected assert in %s\n", #function_call); \ _fail(__FILE__, __LINE__); \ } \ } #endif /** @} */ /* Function prototype for setup, test and teardown functions. */ typedef void (*UnitTestFunction)(void **state); /* Function that determines whether a function parameter value is correct. */ typedef int (*CheckParameterValue)(const LargestIntegralType value, const LargestIntegralType check_value_data); /* Type of the unit test function. */ typedef enum UnitTestFunctionType { UNIT_TEST_FUNCTION_TYPE_TEST = 0, UNIT_TEST_FUNCTION_TYPE_SETUP, UNIT_TEST_FUNCTION_TYPE_TEARDOWN, UNIT_TEST_FUNCTION_TYPE_GROUP_SETUP, UNIT_TEST_FUNCTION_TYPE_GROUP_TEARDOWN, } UnitTestFunctionType; /* * Stores a unit test function with its name and type. * NOTE: Every setup function must be paired with a teardown function. It's * possible to specify NULL function pointers. */ typedef struct UnitTest { const char* name; UnitTestFunction function; UnitTestFunctionType function_type; } UnitTest; typedef struct GroupTest { UnitTestFunction setup; UnitTestFunction teardown; const UnitTest *tests; const size_t number_of_tests; } GroupTest; /* Function prototype for test functions. */ typedef void (*CMUnitTestFunction)(void **state); /* Function prototype for setup and teardown functions. */ typedef int (*CMFixtureFunction)(void **state); struct CMUnitTest { const char *name; CMUnitTestFunction test_func; CMFixtureFunction setup_func; CMFixtureFunction teardown_func; void *initial_state; }; /* Location within some source code. */ typedef struct SourceLocation { const char* file; int line; } SourceLocation; /* Event that's called to check a parameter value. */ typedef struct CheckParameterEvent { SourceLocation location; const char *parameter_name; CheckParameterValue check_value; LargestIntegralType check_value_data; } CheckParameterEvent; /* Used by expect_assert_failure() and mock_assert(). */ extern int global_expecting_assert; extern jmp_buf global_expect_assert_env; extern const char * global_last_failed_assert; /* Retrieves a value for the given function, as set by "will_return". */ LargestIntegralType _mock(const char * const function, const char* const file, const int line); void _expect_function_call( const char * const function_name, const char * const file, const int line, const int count); void _function_called(const char * const function, const char* const file, const int line); 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); 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); 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); 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); 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); void _expect_value( const char* const function, const char* const parameter, const char* const file, const int line, const LargestIntegralType value, const int count); 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); void _expect_string( const char* const function, const char* const parameter, const char* const file, const int line, const char* string, const int count); 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); 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); 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); void _expect_any( const char* const function, const char* const parameter, const char* const file, const int line, const int count); void _check_expected( const char * const function_name, const char * const parameter_name, const char* file, const int line, const LargestIntegralType value); void _will_return(const char * const function_name, const char * const file, const int line, const LargestIntegralType value, const int count); void _assert_true(const LargestIntegralType result, const char* const expression, const char * const file, const int 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); void _assert_float_equal(const float a, const float n, const float epsilon, const char* const file, const int line); void _assert_float_not_equal(const float a, const float n, const float epsilon, const char* const file, const int line); void _assert_double_equal(const double a, const double n, const double epsilon, const char* const file, const int line); void _assert_double_not_equal(const double a, const double n, const double epsilon, const char* const file, const int line); void _assert_int_equal( const LargestIntegralType a, const LargestIntegralType b, const char * const file, const int line); void _assert_int_not_equal( const LargestIntegralType a, const LargestIntegralType b, const char * const file, const int line); void _assert_string_equal(const char * const a, const char * const b, const char * const file, const int line); void _assert_string_not_equal(const char * const a, const char * const b, const char *file, const int line); void _assert_memory_equal(const void * const a, const void * const b, const size_t size, const char* const file, const int 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); void _assert_in_range( const LargestIntegralType value, const LargestIntegralType minimum, const LargestIntegralType maximum, const char* const file, const int line); void _assert_not_in_range( const LargestIntegralType value, const LargestIntegralType minimum, const LargestIntegralType maximum, const char* const file, const int line); void _assert_in_set( const LargestIntegralType value, const LargestIntegralType values[], const size_t number_of_values, const char* const file, const int 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); void* _test_malloc(const size_t size, const char* file, const int line); void* _test_realloc(void *ptr, const size_t size, const char* file, const int line); void* _test_calloc(const size_t number_of_elements, const size_t size, const char* file, const int line); void _test_free(void* const ptr, const char* file, const int line); void _fail(const char * const file, const int line); void _skip(const char * const file, const int line); 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); CMOCKA_DEPRECATED int _run_tests(const UnitTest * const tests, const size_t number_of_tests); CMOCKA_DEPRECATED int _run_group_tests(const UnitTest * const tests, const size_t number_of_tests); /* Test runner */ 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); /* Standard output and error print methods. */ void print_message(const char* const format, ...) CMOCKA_PRINTF_ATTRIBUTE(1, 2); void print_error(const char* const format, ...) CMOCKA_PRINTF_ATTRIBUTE(1, 2); void vprint_message(const char* const format, va_list args) CMOCKA_PRINTF_ATTRIBUTE(1, 0); void vprint_error(const char* const format, va_list args) CMOCKA_PRINTF_ATTRIBUTE(1, 0); enum cm_message_output { CM_OUTPUT_STDOUT, CM_OUTPUT_SUBUNIT, CM_OUTPUT_TAP, CM_OUTPUT_XML, }; /** * @brief Function to set the output format for a test. * * The ouput format for the test can either be set globally using this * function or overriden with environment variable CMOCKA_MESSAGE_OUTPUT. * * The environment variable can be set to either STDOUT, SUBUNIT, TAP or XML. * * @param[in] output The output format to use for the test. * */ void cmocka_set_message_output(enum cm_message_output output); /** * @brief Set a pattern to only run the test matching the pattern. * * This allows to filter tests and only run the ones matching the pattern. The * pattern can include two wildards. The first is '*', a wildcard that matches * zero or more characters, or ‘?’, a wildcard that matches exactly one * character. * * @param[in] pattern The pattern to match, e.g. "test_wurst*" */ void cmocka_set_test_filter(const char *pattern); /** * @brief Set a pattern to skip tests matching the pattern. * * This allows to filter tests and skip the ones matching the pattern. The * pattern can include two wildards. The first is '*', a wildcard that matches * zero or more characters, or ‘?’, a wildcard that matches exactly one * character. * * @param[in] pattern The pattern to match, e.g. "test_wurst*" */ void cmocka_set_skip_filter(const char *pattern); /** @} */ #endif /* CMOCKA_H_ */