/* __assert.h - debug aid */ /* * Copyright (c) 2011-2014 Wind River Systems, Inc. * * 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. */ /* DESCRIPTION The __ASSERT() macro can be used inside kernel code. Assertions are enabled by setting the __ASSERT_ON symbol to a non-zero value. There are two ways to do this: a) Use the ASSERT and ASSERT_LEVEL kconfig options. b) Add "CFLAGS += -D__ASSERT_ON=" at the end of a project's Makefile. The Makefile method takes precedence over the kconfig option if both are used. Specifying an assertion level of 1 causes the compiler to issue warnings that the kernel contains debug-type __ASSERT() statements; this reminder is issued since assertion code is not normally present in a final product. Specifying assertion level 2 suppresses these warnings. The __ASSERT_EVAL() macro can also be used inside kernel code. It makes use of the __ASSERT() macro, but has some extra flexibility. It allows the developer to specify different actions depending whether the __ASSERT() macro is enabled or not. This can be particularly useful to prevent the compiler from generating comments (errors, warnings or remarks) about variables that are only used with __ASSERT() being assigned a value, but otherwise unused when the __ASSERT() macro is disabled. Consider the following example: int x; x = foo (); __ASSERT (x != 0, "foo() returned zero!"); If __ASSERT() is disabled, then is assigned a value, but never used. This type of situation can be resolved using the __ASSERT_EVAL() macro. __ASSERT_EVAL ((void) foo(), int x = foo(), x != 0, "foo() returned zero!"); The first parameter tells __ASSERT_EVAL() what to do if __ASSERT() is disabled. The second parameter tells __ASSERT_EVAL() what to do if __ASSERT() is enabled. The third and fourth parameters are the parameters it passes to __ASSERT(). The __ASSERT_NO_MSG() macro can be used to perform an assertion that reports the failed test and its location, but lacks additional debugging information provided to assist the user in diagnosing the problem; its use is discouraged. */ #ifndef ___ASSERT__H_ #define ___ASSERT__H_ #ifdef CONFIG_ASSERT #ifndef __ASSERT_ON #define __ASSERT_ON CONFIG_ASSERT_LEVEL #endif #endif #ifdef __ASSERT_ON #if (__ASSERT_ON < 0) || (__ASSERT_ON > 2) #error "Invalid __ASSERT() level: must be between 0 and 2" #endif #if __ASSERT_ON #include #define __ASSERT(test, fmt...) \ do { \ if (!(test)) { \ printk("ASSERTION FAIL [%s] @ %s:%d:\n\t", \ _STRINGIFY(test), \ __FILE__, \ __LINE__); \ printk(fmt); \ for (;;) \ ; /* spin thread */ \ } \ } while ((0)) #define __ASSERT_EVAL(expr1, expr2, test, fmt...) \ do { \ expr2; \ __ASSERT(test, fmt); \ } while (0) #if (__ASSERT_ON == 1) #warning "__ASSERT() statements are ENABLED" #endif #else #define __ASSERT(test, fmt...) \ do {/* nothing */ \ } while ((0)) #define __ASSERT_EVAL(expr1, expr2, test, fmt...) expr1 #endif #else #define __ASSERT(test, fmt...) \ do {/* nothing */ \ } while ((0)) #define __ASSERT_EVAL(expr1, expr2, test, fmt...) expr1 #endif #define __ASSERT_NO_MSG(test) __ASSERT(test, "") #endif /* ___ASSERT__H_ */