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All Projects → hjagodzinski → C-Mock

hjagodzinski / C-Mock

Licence: BSD-2-Clause license
C Mock is Google Mock's extension allowing a function mocking.

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C Mock - Google Mock Extension

Build Status

Overview

C Mock is Google Mock's extension allowing a function mocking. Only global (non-static) functions mocking is supported.

This is neither a patch to nor fork of Google Mock. This is just a set of headers providing a way to use tools for mock methods with mock functions in tests.

C Mock is not intended to promote a bad design. Its goal is to aid the developers to test their code.

Before the use of C Mock the following reading is recommended:

Requirements

  • Google Test (for 1.10 support use release v0.3.1)
  • GNU/Linux environment that Google Test supports

Guide

C Mock requires no prior build, it is just a set of header files you include in your code.

Using CMockMocker class

C Mock comes with the CMockMocker class and two generic macros CMOCK_MOCK_METHOD and CMOCK_MOCK_FUNCTION.

Creating mock

C Mock does not know whether a mocked function is declared with a name mangling - whether this is a pure C function or a C++ function. Therefore C Mock does not redeclare mocked function. Original function prototype declaration should be used (i.e. use of original function header file).

Suppose you want to mock int add(int, int) and int substract(int, int) functions declared in math.h header file. To do that you create a single mock class for both of them called MathMocker:

math_mocker.h

#include <cmock/cmock.h>

#include "math.h"

class MathMocker : public CMockMocker<MathMocker>
{
public:
    CMOCK_MOCK_METHOD(int, add, (int, int));
    CMOCK_MOCK_METHOD(int, substract, (int, int));
};

math_mocker.cc

#include "math_mocker.h"

CMOCK_MOCK_FUNCTION(MathMocker, int, add, (int, int));
CMOCK_MOCK_FUNCTION(MathMocker, int, substract, (int, int));

Specifying expectations

To specify the expectations you use Google Mock's macros as you normally would do. The functions are mocked as long as its corresponding mocker class instance exists. This allows to easily control when the functions are mocked. If a mocker class instance does not exist, the real function is called.

{
    MathMocker mock;

    EXPECT_CALL(mock, add(1, 1)).WillOnce(Return(11));
    ASSERT_EQ(11, add(1, 1)); // calling the mock

    EXPECT_CALL(mock, substract(1, 2)).WillOnce(Return(12));
    ASSERT_EQ(12, substract(1, 2)); // calling the mock
}

ASSERT_EQ(2, add(1, 1)); // calling the real function
ASSERT_EQ(-1, substract(1, 2)); // calling the real function

Still, you might want to call a real function. CMockMocker class has a static member holding a pointer to a real function. Use the CMOCK_REAL_FUNCTION macro to call a real function.

ASSERT_EQ(2, CMOCK_REAL_FUNCTION(MathMocker, add)(1, 2));

Before the generic CMOCK_MOCK_METHOD and CMOCK_MOCK_FUNCTION macros were introduced, function mocks were created using MOCK_METHOD/MOCK_METHODn and CMOCK_MOCK_FUNCTIONn macros respectively. These macros are still supported as long as they are used consistently for a given method/function pair, though migration to the new ones is recommended. For instance, if you use MOCK_METHOD/MOCK_METHODn to mock a method, then you must use CMOCK_MOCK_FUNCTIONn to mock a corresponding function. Note that CMOCK_REAL_FUNCTION is only supported for functions mocked with new generic macros.

Using macros (deprecated)

C Mock comes with four macros:

  • DECLARE_FUNCTION_MOCKn and IMPLEMENT_FUNCTION_MOCKn
  • EXPECT_FUNCTION_CALL
  • ON_FUNCTION_CALL

These macros do what theirs' method counterparts do MOCK_METHODn, EXPECT_CALL and ON_CALL, respectively. There are small differences though.

Creating mock

Both DECLARE_FUNCTION_MOCKn and IMPLEMENT_FUNCTION_MOCKn stand for a series of macros for defining and implementing a function mock, respectively. These macros take three arguments: a mock class name, a function name, and a function prototype.

C Mock internally redefines a function being mocked. Because only one implementation of a function might exist in an executable, a splitting of a declaration and implementation is necessary. Especially, if mocking a certain function takes place in more than one compilation unit. Therefore declaration should be put in a header file whereas implementation in a source file.

C Mock does not know whether a mocked function is declared with a name mangling - whether this is a pure C function or a C++ function. Therefore C Mock does not redeclare mocked function. Original function prototype declaration should be used (i.e. use of original function header file).

Suppose you want to mock int add(int, int) function declared in math.h header file. To do that you create AddFunctionMock mock class:

add_function_mock.h

#include <cmock/cmock.h>

#include "math.h" // use original function declaration

DECLARE_FUNCTION_MOCK2(AddFunctionMock, add, int(int, int));

add_function_mock.cc

IMPLEMENT_FUNCTION_MOCK2(AddFunctionMock, add, int(int, int));

Specifying expectations

EXPECT_FUNCTION_CALL and ON_FUNCTION_CALL do exactly what theirs' method equivalents. Both take two arguments: a mock class instance and the arguments you expect - there is no need to repeat the function name since it is already known at this point. Suppose we expect the add function to be called once with arguments 1 and 2, and want it to return 12:

AddFunctionMock mock;
EXPECT_FUNCTION_CALL(mock, (1, 2)).WillOnce(::testing::Return(12));

A function is mocked as long as its corresponding mock class instance exists. This allows controlling when a function is mocked.

{
    AddFunctionMock mock;
    add(1, 2); // calling the mock
}

add(1, 2); // calling the real function

Still, you might want to call a real function. Each mock class exports a static real class member holding a pointer to a real function.

AddFunctionMock mock;
EXPECT_FUNCTION_CALL(mock, (1, 2)).WillOnce(::testing::Invoke(AddFunctionMock::real));
foo(1, 2); // calling the real function

Building

C Mock uses specific GNU/Linux features internally and a test build requires a few additional steps.

Firstly, all functions you want to mock must be compiled into a dynamic library. If it includes your project-specific functions you must put them into a dynamic library as well.

Secondly, you must pass the following options to a linker when building a test executable:

  • -rdynamic - adds all symbols to a dynamic symbol table
  • -Wl,--no-as-needed - forces to link with the library during static linking when there are no dependencies to it
  • -ldl - links with dynamic linking loader library

C Mock comes with the cmock-config tool to hide all these details away from you. Run

cmock-config --cflags [path to Google Test]

and

cmock-config --libs [path to Google Test]

to get the compiler and linker options, respectively.

Since it is not recommended to install a pre-compiled version of Google Test many distributions don't provide pre-compiled Google Test anymore. You need to download and compile Google Test manually as described in Google Test. The optional second command argument is a path to a directory containing downloaded and built Google Test.

Suppose you have foo.c and bar.c files containing a code to test, a spam.c file containing project functions to mock, and a foobar_test.cc file containing the tests. To build your test executable:

  1. Compile the code to test.

    cc -c foo.c -o foo.o
cc -c bar.c -o bar.o

    Note that C-Mock does not require a code under test to be compiled with a C++ compiler. In the example above, a code under a test is compiled with a C compiler and the tests themselves are compiled with a C++ compiler.

  2. Build a shared library containing project functions to mock.

    cc -c -fPIC spam.c -o spam.o
cc -shared -Wl,-soname,$(pwd)/libspam.so -o libspam.so spam.o

    In general, this step is optional if the functions to mock are already provided by a dynamic library (i.e. third-party library).

    When building a dynamic library it is handy to specify soname as an absolute pathname. Then when the test executable is run no additional environment setup is required for the dynamic linking loader to locate your library (i.e. setting LD_LIBRARY_PATH).

  3. Compile the tests.

    g++ `cmock-config --cflags` -c foobar_test.cc -o foobar_test.o

  4. Build a test executable.

    g++ `cmock-config --libs` -pthread -lspam foobar_test.o foo.o bar.o -o foobar_test

    Google Test requires -pthread.

Installation

To install run:

make install

To uninstall run:

make uninstall

By default installation PREFIX is /usr/local. You can change it as follows:

make install PREFIX=/usr

Test

If your environment is supported and Google Test is installed, the following commands should succeed:

make
make test

Optionally you can provide a directory containing downloaded and built Google Test by setting GTEST_DIR:

GTEST_DIR=/path/to/googletest make

Tests are quite simple and are a good source of usage examples.

References

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