mirror of
https://github.com/netsurf-browser/netsurf
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167 lines
3.8 KiB
Plaintext
167 lines
3.8 KiB
Plaintext
NetSurf Unit Testing
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====================
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Overview
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--------
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NetSurf has unit tests integrated in the test directory. These tests
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use the check unit test framework for C [1].
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The tests are in a logical hierachy of "suite", "case" and individual
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"test". Historicaly we have split suites of tests into separate test
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programs although the framework does not madate this and some test
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programs contain more than one suite.
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Execution
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---------
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The test programs are executed by using the standard "test" target
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from the top level make invocation. The "coverage" target additionally
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generates code coverage reports allowing visibility on how much of a
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code module is being exercised.
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The check library must be installed to run the tests and the CI system
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automatically executes all enabled tests and generates coverage
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reports for each commit.
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Adding tests
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------------
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The test/Makefile defines each indiviadual test program that should be
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built and executed in the TESTS variable.
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The test program source files are defined in a xxx_SRCS variable and
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the make rules will then ensure the target program is built and
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executed.
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Each individual test program requires a main function which creates
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one (or more) suites. The suites are added to a test runner and then
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executed and the results reported.
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int main(int argc, char **argv)
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{
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int number_failed;
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SRunner *sr;
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sr = srunner_create(foo_suite_create());
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//srunner_add_suite(sr, bar_suite_create());
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srunner_run_all(sr, CK_ENV);
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number_failed = srunner_ntests_failed(sr);
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srunner_free(sr);
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return (number_failed == 0) ? EXIT_SUCCESS : EXIT_FAILURE;
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}
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Suite creation is done with a sub function to logically split suite
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code into sub modules. Each suite has test cases added to it.
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Suite *foo_suite_create(void)
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{
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Suite *s;
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s = suite_create("foo");
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suite_add_tcase(s, baz_case_create());
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suite_add_tcase(s, qux_case_create());
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return s;
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}
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Test cases include the actual tests to be performed within each case.
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TCase *baz_case_create(void)
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{
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TCase *tc;
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tc = tcase_create("Baz");
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tcase_add_test(tc, xxyz_test);
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tcase_add_test(tc, zzyx_test);
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return tc;
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}
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A test case may optionally have a fixture which is code that is
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executed before and after each test case. Unchecked fixtures are
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executed once before the test process forks for each test whereas
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checked fixtures are executed for each and every test.
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static void fixture_setup(void)
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{
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}
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static void fixture_teardown(void)
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{
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}
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TCase *qux_case_create(void)
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{
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TCase *tc;
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/* Matching entry tests */
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tc = tcase_create("Match");
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tcase_add_checked_fixture(tc,
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fixture_setup,
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fixture_teardown);
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tcase_add_test(tc, zzz_test);
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return tc;
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}
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Additionally test cases can contain tests executed in a loop. The test
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recives a single integer as a parameter named _i which iterates
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between values specified in the case setup.
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TCase *baz_case_create(void)
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{
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TCase *tc;
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tc = tcase_create("Baz");
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tcase_add_loop_test(tc, looping_test, 0, 5);
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return tc;
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}
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It is also possible to create tests which will generate a signal. The
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most commonly used of these is to check asserts in API calls.
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TCase *baz_case_create(void)
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{
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TCase *tc;
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tc = tcase_create("Baz");
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tcase_add_test_raise_signal(tc, assert_test, 6);
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return tc;
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}
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Actual test code is self contained in a function which uses the
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ck_assert macros to test results. The check framework requires each
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test to use the START_TEST and END_TEST macros when definig them.
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/**
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* url access leaf test
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*/
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START_TEST(nsurl_access_leaf_test)
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{
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nserror err;
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nsurl *res_url;
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const struct test_triplets *tst = &access_tests[_i];
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/* not testing create, this should always succeed */
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err = nsurl_create(tst->test1, &res_url);
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ck_assert(err == NSERROR_OK);
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ck_assert_str_eq(nsurl_access_leaf(res_url), tst->res);
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nsurl_unref(res_url);
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}
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END_TEST
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[1] https://libcheck.github.io/check/
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