// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef SANDBOX_LINUX_TESTS_UNIT_TESTS_H__ #define SANDBOX_LINUX_TESTS_UNIT_TESTS_H__ #include "base/basictypes.h" #include "build/build_config.h" #include "sandbox/linux/tests/sandbox_test_runner_function_pointer.h" #include "testing/gtest/include/gtest/gtest.h" namespace sandbox { // Has this been compiled to run on Android? bool IsAndroid(); bool IsArchitectureArm(); // Is Valgrind currently being used? bool IsRunningOnValgrind(); #if defined(ADDRESS_SANITIZER) #define DISABLE_ON_ASAN(test_name) DISABLED_##test_name #else #define DISABLE_ON_ASAN(test_name) test_name #endif // defined(ADDRESS_SANITIZER) #if defined(LEAK_SANITIZER) #define DISABLE_ON_LSAN(test_name) DISABLED_##test_name #else #define DISABLE_ON_LSAN(test_name) test_name #endif #if defined(THREAD_SANITIZER) #define DISABLE_ON_TSAN(test_name) DISABLED_##test_name #else #define DISABLE_ON_TSAN(test_name) test_name #endif // defined(THREAD_SANITIZER) #if defined(OS_ANDROID) #define DISABLE_ON_ANDROID(test_name) DISABLED_##test_name #else #define DISABLE_ON_ANDROID(test_name) test_name #endif // While it is perfectly OK for a complex test to provide its own DeathCheck // function. Most death tests have very simple requirements. These tests should // use one of the predefined DEATH_XXX macros as an argument to // SANDBOX_DEATH_TEST(). You can check for a (sub-)string in the output of the // test, for a particular exit code, or for a particular death signal. // NOTE: If you do decide to write your own DeathCheck, make sure to use // gtests's ASSERT_XXX() macros instead of SANDBOX_ASSERT(). See // unit_tests.cc for examples. #define DEATH_SUCCESS() sandbox::UnitTests::DeathSuccess, NULL #define DEATH_SUCCESS_ALLOW_NOISE() \ sandbox::UnitTests::DeathSuccessAllowNoise, NULL #define DEATH_MESSAGE(msg) \ sandbox::UnitTests::DeathMessage, \ static_cast(static_cast(msg)) #define DEATH_SEGV_MESSAGE(msg) \ sandbox::UnitTests::DeathSEGVMessage, \ static_cast(static_cast(msg)) #define DEATH_EXIT_CODE(rc) \ sandbox::UnitTests::DeathExitCode, \ reinterpret_cast(static_cast(rc)) #define DEATH_BY_SIGNAL(s) \ sandbox::UnitTests::DeathBySignal, \ reinterpret_cast(static_cast(s)) // A SANDBOX_DEATH_TEST is just like a SANDBOX_TEST (see below), but it assumes // that the test actually dies. The death test only passes if the death occurs // in the expected fashion, as specified by "death" and "death_aux". These two // parameters are typically set to one of the DEATH_XXX() macros. #define SANDBOX_DEATH_TEST(test_case_name, test_name, death) \ void TEST_##test_name(void); \ TEST(test_case_name, test_name) { \ SandboxTestRunnerFunctionPointer sandbox_test_runner(TEST_##test_name); \ sandbox::UnitTests::RunTestInProcess(&sandbox_test_runner, death); \ } \ void TEST_##test_name(void) // Define a new test case that runs inside of a GTest death test. This is // necessary, as most of our tests by definition make global and irreversible // changes to the system (i.e. they install a sandbox). GTest provides death // tests as a tool to isolate global changes from the rest of the tests. #define SANDBOX_TEST(test_case_name, test_name) \ SANDBOX_DEATH_TEST(test_case_name, test_name, DEATH_SUCCESS()) // SANDBOX_TEST_ALLOW_NOISE is just like SANDBOX_TEST, except it does not // consider log error messages printed by the test to be test failures. #define SANDBOX_TEST_ALLOW_NOISE(test_case_name, test_name) \ SANDBOX_DEATH_TEST(test_case_name, test_name, DEATH_SUCCESS_ALLOW_NOISE()) // Simple assertion macro that is compatible with running inside of a death // test. We unfortunately cannot use any of the GTest macros. #define SANDBOX_STR(x) #x #define SANDBOX_ASSERT(expr) \ ((expr) ? static_cast(0) : sandbox::UnitTests::AssertionFailure( \ SANDBOX_STR(expr), __FILE__, __LINE__)) // This class allows to run unittests in their own process. The main method is // RunTestInProcess(). class UnitTests { public: typedef void (*DeathCheck)(int status, const std::string& msg, const void* aux); // Runs a test inside a short-lived process. Do not call this function // directly. It is automatically invoked by SANDBOX_TEST(). Most sandboxing // functions make global irreversible changes to the execution environment // and must therefore execute in their own isolated process. // |test_runner| must implement the SandboxTestRunner interface and will run // in a subprocess. // Note: since the child process (created with fork()) will never return from // RunTestInProcess(), |test_runner| is guaranteed to exist for the lifetime // of the child process. static void RunTestInProcess(SandboxTestRunner* test_runner, DeathCheck death, const void* death_aux); // Report a useful error message and terminate the current SANDBOX_TEST(). // Calling this function from outside a SANDBOX_TEST() is unlikely to do // anything useful. static void AssertionFailure(const char* expr, const char* file, int line); // Sometimes we determine at run-time that a test should be disabled. // Call this method if we want to return from a test and completely // ignore its results. // You should not call this method, if the test already ran any test-relevant // code. Most notably, you should not call it, you already wrote any messages // to stderr. static void IgnoreThisTest(); // A DeathCheck method that verifies that the test completed succcessfully. // This is the default test mode for SANDBOX_TEST(). The "aux" parameter // of this DeathCheck is unused (and thus unnamed) static void DeathSuccess(int status, const std::string& msg, const void*); // A DeathCheck method that verifies that the test completed succcessfully // allowing for log error messages. static void DeathSuccessAllowNoise(int status, const std::string& msg, const void*); // A DeathCheck method that verifies that the test completed with error // code "1" and printed a message containing a particular substring. The // "aux" pointer should point to a C-string containing the expected error // message. This method is useful for checking assertion failures such as // in SANDBOX_ASSERT() and/or SANDBOX_DIE(). static void DeathMessage(int status, const std::string& msg, const void* aux); // Like DeathMessage() but the process must be terminated with a segmentation // fault. // Implementation detail: On Linux (but not on Android), this does check for // the return value of our default signal handler rather than for the actual // reception of a SIGSEGV. // TODO(jln): make this more robust. static void DeathSEGVMessage(int status, const std::string& msg, const void* aux); // A DeathCheck method that verifies that the test completed with a // particular exit code. If the test output any messages to stderr, they are // silently ignored. The expected exit code should be passed in by // casting the its "int" value to a "void *", which is then used for "aux". static void DeathExitCode(int status, const std::string& msg, const void* aux); // A DeathCheck method that verifies that the test was terminated by a // particular signal. If the test output any messages to stderr, they are // silently ignore. The expected signal number should be passed in by // casting the its "int" value to a "void *", which is then used for "aux". static void DeathBySignal(int status, const std::string& msg, const void* aux); private: DISALLOW_IMPLICIT_CONSTRUCTORS(UnitTests); }; } // namespace #endif // SANDBOX_LINUX_TESTS_UNIT_TESTS_H__