/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* * testutil.h * * Utility functions for handling test errors * */ #ifndef _TESTUTIL_H #define _TESTUTIL_H #include "pkix.h" #include "plstr.h" #include "prprf.h" #include "prlong.h" #include "pkix_pl_common.h" #include "secutil.h" #include #include #ifdef __cplusplus extern "C" { #endif /* * In order to have a consistent format for displaying test information, * all tests are REQUIRED to use the functions provided by this library * (libtestutil.a) for displaying their information. * * A test using this library begins with a call to startTests with the test * name as the arg (which is used only for formatting). Before the first * subtest, a call to subTest should be made with the subtest name as the arg * (again, for formatting). If the subTest is successful, then no action * is needed. However, if the subTest is not successful, then a call * to testError should be made with a descriptive error message as the arg. * Note that a subTest MUST NOT call testError more than once. * Finally, a call to endTests is made with the test name as the arg (for * formatting). Note that most of these macros assume that a variable named * "plContext" of type (void *) has been defined by the test. As such, it * is essential that the test satisfy this condition. */ /* * PKIX_TEST_STD_VARS should be called at the beginning of every function * that uses PKIX_TEST_RETURN (e.g. subTests), but it should be called only * AFTER declaring local variables (so we don't get compiler warnings about * declarations after statements). PKIX_TEST_STD_VARS declares and initializes * several variables needed by the other test macros. */ #define PKIX_TEST_STD_VARS() \ PKIX_Error *pkixTestErrorResult = NULL; \ char *pkixTestErrorMsg = NULL; /* * PKIX_TEST_EXPECT_NO_ERROR should be used to wrap a standard PKIX function * call (one which returns a pointer to PKIX_Error) that is expected to return * NULL (i.e. to succeed). If "pkixTestErrorResult" is not NULL, * "goto cleanup" is executed, where a testError call is made if there were * unexpected results. This macro MUST NOT be called after the "cleanup" label. * * Example Usage: PKIX_TEST_EXPECT_NO_ERROR(pkixFunc_expected_to_succeed(...)); */ #define PKIX_TEST_EXPECT_NO_ERROR(func) \ do { \ pkixTestErrorResult = (func); \ if (pkixTestErrorResult) { \ goto cleanup; \ } \ } while (0) /* * PKIX_TEST_EXPECT_ERROR should be used to wrap a standard PKIX function call * (one which returns a pointer to PKIX_Error) that is expected to return * a non-NULL value (i.e. to fail). If "pkixTestErrorResult" is NULL, * "pkixTestErrorMsg" is set to a standard string and "goto cleanup" * is executed, where a testError call is made if there were unexpected * results. This macro MUST NOT be called after the "cleanup" label. * * Example Usage: PKIX_TEST_EXPECT_ERROR(pkixFunc_expected_to_fail(...)); */ #define PKIX_TEST_EXPECT_ERROR(func) \ do { \ pkixTestErrorResult = (func); \ if (!pkixTestErrorResult) { \ pkixTestErrorMsg = \ "Should have thrown an error here."; \ goto cleanup; \ } \ PKIX_TEST_DECREF_BC(pkixTestErrorResult); \ } while (0) /* * PKIX_TEST_DECREF_BC is a convenience macro which should only be called * BEFORE the "cleanup" label ("BC"). If the input parameter is non-NULL, it * DecRefs the input parameter and wraps the function with * PKIX_TEST_EXPECT_NO_ERROR, which executes "goto cleanup" upon error. * This macro MUST NOT be called after the "cleanup" label. */ #define PKIX_TEST_DECREF_BC(obj) \ do { \ if (obj) { \ PKIX_TEST_EXPECT_NO_ERROR(PKIX_PL_Object_DecRef((PKIX_PL_Object *)(obj), plContext)); \ obj = NULL; \ } \ } while (0) /* * PKIX_TEST_DECREF_AC is a convenience macro which should only be called * AFTER the "cleanup" label ("AC"). If the input parameter is non-NULL, it * DecRefs the input parameter. A pkixTestTempResult variable is used to prevent * incorrectly overwriting pkixTestErrorResult with NULL. * In the case DecRef succeeds, pkixTestTempResult will be NULL, and we won't * overwrite a previously set pkixTestErrorResult (if any). If DecRef fails, * then we do want to overwrite a previously set pkixTestErrorResult since a * DecRef failure is fatal and may be indicative of memory corruption. */ #define PKIX_TEST_DECREF_AC(obj) \ do { \ if (obj) { \ PKIX_Error *pkixTestTempResult = NULL; \ pkixTestTempResult = \ PKIX_PL_Object_DecRef((PKIX_PL_Object *)(obj), plContext); \ if (pkixTestTempResult) \ pkixTestErrorResult = pkixTestTempResult; \ obj = NULL; \ } \ } while (0) /* * PKIX_TEST_RETURN must always be AFTER the "cleanup" label. It does nothing * if everything went as expected. However, if there were unexpected results, * PKIX_TEST_RETURN calls testError, which displays a standard failure message * and increments the number of subtests that have failed. In the case * of an unexpected error, testError is called using the error's description * as an input and the error is DecRef'd. In the case of unexpected success * testError is called with a standard string. */ #define PKIX_TEST_RETURN() \ { \ if (pkixTestErrorMsg) { \ testError(pkixTestErrorMsg); \ } else if (pkixTestErrorResult) { \ pkixTestErrorMsg = \ PKIX_Error2ASCII(pkixTestErrorResult, plContext); \ if (pkixTestErrorMsg) { \ testError(pkixTestErrorMsg); \ PKIX_PL_Free((PKIX_PL_Object *)pkixTestErrorMsg, \ plContext); \ } else { \ testError("PKIX_Error2ASCII Failed"); \ } \ if (pkixTestErrorResult != PKIX_ALLOC_ERROR()) { \ PKIX_PL_Object_DecRef((PKIX_PL_Object *)pkixTestErrorResult, \ plContext); \ pkixTestErrorResult = NULL; \ } \ } \ } /* * PKIX_TEST_EQ_HASH_TOSTR_DUP is a convenience macro which executes the * standard set of operations that test the Equals, Hashcode, ToString, and * Duplicate functions of an object type. The goodObj, equalObj, and diffObj * are as the names suggest. The expAscii parameter is the expected result of * calling ToString on the goodObj. If expAscii is NULL, then ToString will * not be called on the goodObj. The checkDuplicate parameter is treated as * a Boolean to indicate whether the Duplicate function should be tested. If * checkDuplicate is NULL, then Duplicate will not be called on the goodObj. * The type is the name of the function's family. For example, if the type is * Cert, this macro will call PKIX_PL_Cert_Equals, PKIX_PL_Cert_Hashcode, and * PKIX_PL_Cert_ToString. * * Note: If goodObj uses the default Equals and Hashcode functions, then * for goodObj and equalObj to be equal, they must have the same pointer value. */ #define PKIX_TEST_EQ_HASH_TOSTR_DUP(goodObj, equalObj, diffObj, \ expAscii, type, checkDuplicate) \ do { \ subTest("PKIX_PL_" #type "_Equals "); \ testEqualsHelper((PKIX_PL_Object *)(goodObj), \ (PKIX_PL_Object *)(equalObj), \ PKIX_TRUE, \ plContext); \ subTest("PKIX_PL_" #type "_Hashcode "); \ testHashcodeHelper((PKIX_PL_Object *)(goodObj), \ (PKIX_PL_Object *)(equalObj), \ PKIX_TRUE, \ plContext); \ subTest("PKIX_PL_" #type "_Equals "); \ testEqualsHelper((PKIX_PL_Object *)(goodObj), \ (PKIX_PL_Object *)(diffObj), \ PKIX_FALSE, \ plContext); \ subTest("PKIX_PL_" #type "_Hashcode "); \ testHashcodeHelper((PKIX_PL_Object *)(goodObj), \ (PKIX_PL_Object *)(diffObj), \ PKIX_FALSE, \ plContext); \ if (expAscii) { \ subTest("PKIX_PL_" #type "_ToString"); \ testToStringHelper((PKIX_PL_Object *)(goodObj), \ (expAscii), \ plContext); \ } \ if (checkDuplicate) { \ subTest("PKIX_PL_" #type "_Duplicate"); \ testDuplicateHelper((PKIX_PL_Object *)goodObj, plContext); \ } \ } while (0) /* * PKIX_TEST_DECREF_BC is a convenience macro which should only be called * BEFORE the "cleanup" label ("BC"). If the input parameter is non-NULL, it * DecRefs the input parameter and wraps the function with * PKIX_TEST_EXPECT_NO_ERROR, which executes "goto cleanup" upon error. * This macro MUST NOT be called after the "cleanup" label. */ #define PKIX_TEST_ABORT_ON_NULL(obj) \ do { \ if (!obj) { \ goto cleanup; \ } \ } while (0) #define PKIX_TEST_ARENAS_ARG(arena) \ (arena ? (PORT_Strcmp(arena, "arenas") ? PKIX_FALSE : (j++, PKIX_TRUE)) : PKIX_FALSE) #define PKIX_TEST_ERROR_RECEIVED (pkixTestErrorMsg || pkixTestErrorResult) /* see source file for function documentation */ void startTests(char *testName); void endTests(char *testName); void subTest(char *subTestName); void testError(char *msg); extern PKIX_Error * _ErrorCheck(PKIX_Error *errorResult); extern PKIX_Error * _OutputError(PKIX_Error *errorResult); char *PKIX_String2ASCII(PKIX_PL_String *string, void *plContext); char *PKIX_Error2ASCII(PKIX_Error *error, void *plContext); char *PKIX_Object2ASCII(PKIX_PL_Object *object); char *PKIX_Cert2ASCII(PKIX_PL_Cert *cert); void testHashcodeHelper( PKIX_PL_Object *goodObject, PKIX_PL_Object *otherObject, PKIX_Boolean match, void *plContext); void testToStringHelper( PKIX_PL_Object *goodObject, char *expected, void *plContext); void testEqualsHelper( PKIX_PL_Object *goodObject, PKIX_PL_Object *otherObject, PKIX_Boolean match, void *plContext); void testDuplicateHelper( PKIX_PL_Object *object, void *plContext); void testErrorUndo(char *msg); #ifdef __cplusplus } #endif #endif /* TESTUTIL_H */