// Copyright 2020 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include "base/check_deref.h" #include "base/check_version_internal.h" #include "base/dcheck_is_on.h" #include "base/debug/dump_without_crashing.h" #include "base/features.h" #include "base/functional/bind.h" #include "base/functional/callback.h" #include "base/logging.h" #include "base/macros/concat.h" #include "base/notimplemented.h" #include "base/notreached.h" #include "base/strings/string_piece.h" #include "base/strings/stringprintf.h" #include "base/test/gtest_util.h" #include "base/test/scoped_feature_list.h" #include "build/build_config.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" namespace { int g_dump_without_crashing_count = 0; constexpr base::NotFatalUntil kNextMilestone = BASE_CONCAT(base::NotFatalUntil::M, BASE_CHECK_NEXT_VERSION_INTERNAL); constexpr base::NotFatalUntil kCurrentMilestone = BASE_CONCAT(base::NotFatalUntil::M, BASE_CHECK_VERSION_INTERNAL); class ScopedExpectDumpWithoutCrashing { public: ScopedExpectDumpWithoutCrashing() { g_dump_without_crashing_count = 0; base::debug::SetDumpWithoutCrashingFunction(&DumpWithoutCrashing); } ~ScopedExpectDumpWithoutCrashing() { EXPECT_EQ(1, g_dump_without_crashing_count); base::debug::SetDumpWithoutCrashingFunction(nullptr); } private: static void DumpWithoutCrashing() { ++g_dump_without_crashing_count; } }; MATCHER_P2(LogErrorMatches, line, expected_msg, "") { EXPECT_THAT(arg, testing::HasSubstr( base::StringPrintf("check_unittest.cc(%d)] ", line))); if (std::string(expected_msg).find("=~") == 0) { EXPECT_THAT(std::string(arg), testing::ContainsRegex(std::string(expected_msg).substr(2))); } else { EXPECT_THAT(std::string(arg), testing::HasSubstr(expected_msg)); } return true; } // TODO(pbos): Upstream support for ignoring matchers in gtest when death // testing is not available. // Without this we get a compile failure on iOS because // GTEST_UNSUPPORTED_DEATH_TEST does not compile with a MATCHER as parameter. #if GTEST_HAS_DEATH_TEST #define CHECK_MATCHER(line, msg) LogErrorMatches(line, msg) #else #define CHECK_MATCHER(line, msg) msg #endif // Macro which expects a CHECK to fire with a certain message. If msg starts // with "=~", it's interpreted as a regular expression. // Example: EXPECT_CHECK("Check failed: false.", CHECK(false)); // // Note: Please use the `CheckDeathTest` fixture when using this check. #if !CHECK_WILL_STREAM() #define EXPECT_CHECK(msg, check_expr) \ do { \ EXPECT_CHECK_DEATH(check_expr); \ } while (0) #else #define EXPECT_CHECK(msg, check_expr) \ EXPECT_DEATH_IF_SUPPORTED(check_expr, CHECK_MATCHER(__LINE__, msg)) #endif // !CHECK_WILL_STREAM() // Macro which expects a DCHECK to fire if DCHECKs are enabled. // // Note: Please use the `CheckDeathTest` fixture when using this check. #define EXPECT_DCHECK(msg, check_expr) \ do { \ if (DCHECK_IS_ON() && logging::LOGGING_DCHECK == logging::LOGGING_FATAL) { \ EXPECT_DEATH_IF_SUPPORTED(check_expr, CHECK_MATCHER(__LINE__, msg)); \ } else if (DCHECK_IS_ON()) { \ ScopedExpectDumpWithoutCrashing expect_dump; \ check_expr; \ } else { \ check_expr; \ } \ } while (0) #define EXPECT_LOG_ERROR_WITH_FILENAME(expected_file, expected_line, expr, \ msg) \ do { \ static bool got_log_message = false; \ ASSERT_EQ(logging::GetLogMessageHandler(), nullptr); \ logging::SetLogMessageHandler([](int severity, const char* file, int line, \ size_t message_start, \ const std::string& str) { \ EXPECT_FALSE(got_log_message); \ got_log_message = true; \ EXPECT_EQ(severity, logging::LOGGING_ERROR); \ EXPECT_EQ(str.substr(message_start), (msg)); \ if (base::StringPiece(expected_file) != "") { \ EXPECT_STREQ(expected_file, file); \ } \ if (expected_line != -1) { \ EXPECT_EQ(expected_line, line); \ } \ return true; \ }); \ expr; \ EXPECT_TRUE(got_log_message); \ logging::SetLogMessageHandler(nullptr); \ } while (0) #define EXPECT_LOG_ERROR(expected_line, expr, msg) \ EXPECT_LOG_ERROR_WITH_FILENAME(__FILE__, expected_line, expr, msg) #define EXPECT_NO_LOG(expr) \ do { \ ASSERT_EQ(logging::GetLogMessageHandler(), nullptr); \ logging::SetLogMessageHandler([](int severity, const char* file, int line, \ size_t message_start, \ const std::string& str) { \ EXPECT_TRUE(false) << "Unexpected log: " << str; \ return true; \ }); \ expr; \ logging::SetLogMessageHandler(nullptr); \ } while (0) #if DCHECK_IS_ON() #define EXPECT_DUMP_WILL_BE_CHECK EXPECT_DCHECK #else #define EXPECT_DUMP_WILL_BE_CHECK(expected_string, statement) \ do { \ ScopedExpectDumpWithoutCrashing expect_dump; \ EXPECT_LOG_ERROR_WITH_FILENAME(base::Location::Current().file_name(), \ base::Location::Current().line_number(), \ statement, expected_string "\n"); \ } while (0) #endif // DCHECK_IS_ON() TEST(CheckDeathTest, Basics) { EXPECT_CHECK("Check failed: false. ", CHECK(false)); EXPECT_CHECK("Check failed: false. foo", CHECK(false) << "foo"); double a = 2, b = 1; EXPECT_CHECK("Check failed: a < b (2.000000 vs. 1.000000)", CHECK_LT(a, b)); EXPECT_CHECK("Check failed: a < b (2.000000 vs. 1.000000)custom message", CHECK_LT(a, b) << "custom message"); } TEST(CheckDeathTest, PCheck) { const char file[] = "/nonexistentfile123"; std::ignore = fopen(file, "r"); std::string err = logging::SystemErrorCodeToString(logging::GetLastSystemErrorCode()); EXPECT_CHECK( "Check failed: fopen(file, \"r\") != nullptr." " : " + err, PCHECK(fopen(file, "r") != nullptr)); EXPECT_CHECK( "Check failed: fopen(file, \"r\") != nullptr." " foo: " + err, PCHECK(fopen(file, "r") != nullptr) << "foo"); EXPECT_DCHECK( "Check failed: fopen(file, \"r\") != nullptr." " : " + err, DPCHECK(fopen(file, "r") != nullptr)); EXPECT_DCHECK( "Check failed: fopen(file, \"r\") != nullptr." " foo: " + err, DPCHECK(fopen(file, "r") != nullptr) << "foo"); } TEST(CheckDeathTest, CheckOp) { const int a = 1, b = 2; // clang-format off EXPECT_CHECK("Check failed: a == b (1 vs. 2)", CHECK_EQ(a, b)); EXPECT_CHECK("Check failed: a != a (1 vs. 1)", CHECK_NE(a, a)); EXPECT_CHECK("Check failed: b <= a (2 vs. 1)", CHECK_LE(b, a)); EXPECT_CHECK("Check failed: b < a (2 vs. 1)", CHECK_LT(b, a)); EXPECT_CHECK("Check failed: a >= b (1 vs. 2)", CHECK_GE(a, b)); EXPECT_CHECK("Check failed: a > b (1 vs. 2)", CHECK_GT(a, b)); EXPECT_DCHECK("Check failed: a == b (1 vs. 2)", DCHECK_EQ(a, b)); EXPECT_DCHECK("Check failed: a != a (1 vs. 1)", DCHECK_NE(a, a)); EXPECT_DCHECK("Check failed: b <= a (2 vs. 1)", DCHECK_LE(b, a)); EXPECT_DCHECK("Check failed: b < a (2 vs. 1)", DCHECK_LT(b, a)); EXPECT_DCHECK("Check failed: a >= b (1 vs. 2)", DCHECK_GE(a, b)); EXPECT_DCHECK("Check failed: a > b (1 vs. 2)", DCHECK_GT(a, b)); // clang-format on EXPECT_DUMP_WILL_BE_CHECK("Check failed: a == b (1 vs. 2)", DUMP_WILL_BE_CHECK_EQ(a, b)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: a != a (1 vs. 1)", DUMP_WILL_BE_CHECK_NE(a, a)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: b <= a (2 vs. 1)", DUMP_WILL_BE_CHECK_LE(b, a)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: b < a (2 vs. 1)", DUMP_WILL_BE_CHECK_LT(b, a)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: a >= b (1 vs. 2)", DUMP_WILL_BE_CHECK_GE(a, b)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: a > b (1 vs. 2)", DUMP_WILL_BE_CHECK_GT(a, b)); } TEST(CheckTest, CheckStreamsAreLazy) { int called_count = 0; int not_called_count = 0; auto Called = [&]() { ++called_count; // This returns a non-constant because returning 42 here directly triggers a // dead-code warning when streaming to *CHECK(Called()) << NotCalled(); return called_count >= 0; }; auto NotCalled = [&]() { ++not_called_count; return 42; }; CHECK(Called()) << NotCalled(); CHECK_EQ(Called(), Called()) << NotCalled(); PCHECK(Called()) << NotCalled(); DCHECK(Called()) << NotCalled(); DCHECK_EQ(Called(), Called()) << NotCalled(); DPCHECK(Called()) << NotCalled(); EXPECT_EQ(not_called_count, 0); #if DCHECK_IS_ON() EXPECT_EQ(called_count, 8); #else EXPECT_EQ(called_count, 4); #endif } void DcheckEmptyFunction1() { // Provide a body so that Release builds do not cause the compiler to // optimize DcheckEmptyFunction1 and DcheckEmptyFunction2 as a single // function, which breaks the Dcheck tests below. LOG(INFO) << "DcheckEmptyFunction1"; } void DcheckEmptyFunction2() {} #if BUILDFLAG(DCHECK_IS_CONFIGURABLE) class ScopedDcheckSeverity { public: explicit ScopedDcheckSeverity(logging::LogSeverity new_severity) : old_severity_(logging::LOGGING_DCHECK) { logging::LOGGING_DCHECK = new_severity; } ~ScopedDcheckSeverity() { logging::LOGGING_DCHECK = old_severity_; } private: logging::LogSeverity old_severity_; }; #endif // BUILDFLAG(DCHECK_IS_CONFIGURABLE) TEST(CheckDeathTest, Dcheck) { #if BUILDFLAG(DCHECK_IS_CONFIGURABLE) // DCHECKs are enabled, and LOGGING_DCHECK is mutable, but defaults to // non-fatal. Set it to LOGGING_FATAL to get the expected behavior from the // rest of this test. ScopedDcheckSeverity dcheck_severity(logging::LOGGING_FATAL); #endif // BUILDFLAG(DCHECK_IS_CONFIGURABLE) #if defined(NDEBUG) && !defined(DCHECK_ALWAYS_ON) // Release build. EXPECT_FALSE(DCHECK_IS_ON()); #elif defined(NDEBUG) && defined(DCHECK_ALWAYS_ON) // Release build with real DCHECKS. EXPECT_TRUE(DCHECK_IS_ON()); #else // Debug build. EXPECT_TRUE(DCHECK_IS_ON()); #endif EXPECT_DCHECK("Check failed: false. ", DCHECK(false)); // Produce a consistent error code so that both the main instance of this test // and the EXPECT_DEATH invocation below get the same error codes for DPCHECK. const char file[] = "/nonexistentfile123"; std::ignore = fopen(file, "r"); std::string err = logging::SystemErrorCodeToString(logging::GetLastSystemErrorCode()); EXPECT_DCHECK("Check failed: false. : " + err, DPCHECK(false)); EXPECT_DCHECK("Check failed: 0 == 1 (0 vs. 1)", DCHECK_EQ(0, 1)); // Test DCHECK on std::nullptr_t const void* p_null = nullptr; const void* p_not_null = &p_null; DCHECK_EQ(p_null, nullptr); DCHECK_EQ(nullptr, p_null); DCHECK_NE(p_not_null, nullptr); DCHECK_NE(nullptr, p_not_null); // Test DCHECK on a scoped enum. enum class Animal { DOG, CAT }; DCHECK_EQ(Animal::DOG, Animal::DOG); EXPECT_DCHECK("Check failed: Animal::DOG == Animal::CAT (0 vs. 1)", DCHECK_EQ(Animal::DOG, Animal::CAT)); // Test DCHECK on functions and function pointers. struct MemberFunctions { void MemberFunction1() { // See the comment in DcheckEmptyFunction1(). LOG(INFO) << "Do not merge with MemberFunction2."; } void MemberFunction2() {} }; void (MemberFunctions::*mp1)() = &MemberFunctions::MemberFunction1; void (MemberFunctions::*mp2)() = &MemberFunctions::MemberFunction2; void (*fp1)() = DcheckEmptyFunction1; void (*fp2)() = DcheckEmptyFunction2; void (*fp3)() = DcheckEmptyFunction1; DCHECK_EQ(fp1, fp3); DCHECK_EQ(mp1, &MemberFunctions::MemberFunction1); DCHECK_EQ(mp2, &MemberFunctions::MemberFunction2); EXPECT_DCHECK("=~Check failed: fp1 == fp2 \\(\\w+ vs. \\w+\\)", DCHECK_EQ(fp1, fp2)); EXPECT_DCHECK( "Check failed: mp2 == &MemberFunctions::MemberFunction1 (1 vs. 1)", DCHECK_EQ(mp2, &MemberFunctions::MemberFunction1)); } TEST(CheckTest, DcheckReleaseBehavior) { int var1 = 1; int var2 = 2; int var3 = 3; int var4 = 4; // No warnings about unused variables even though no check fires and DCHECK // may or may not be enabled. DCHECK(var1) << var2; DPCHECK(var1) << var3; DCHECK_EQ(var1, 1) << var4; } TEST(CheckTest, DCheckEqStatements) { bool reached = false; if (false) DCHECK_EQ(false, true); // Unreached. else DCHECK_EQ(true, reached = true); // Reached, passed. ASSERT_EQ(DCHECK_IS_ON() ? true : false, reached); if (false) DCHECK_EQ(false, true); // Unreached. } TEST(CheckTest, CheckEqStatements) { bool reached = false; if (false) CHECK_EQ(false, true); // Unreached. else CHECK_EQ(true, reached = true); // Reached, passed. ASSERT_TRUE(reached); if (false) CHECK_EQ(false, true); // Unreached. } #if BUILDFLAG(DCHECK_IS_CONFIGURABLE) TEST(CheckDeathTest, ConfigurableDCheck) { if (base::CommandLine::ForCurrentProcess()->HasSwitch( "gtest_internal_run_death_test")) { // This specific test relies on LOGGING_DCHECK not starting out as FATAL, // even when run part of death tests (should die only after LOGGING_DCHECK // gets reconfigured to FATAL below). logging::LOGGING_DCHECK = logging::LOGGING_ERROR; } else { // Verify that DCHECKs default to non-fatal in configurable-DCHECK builds. // Note that we require only that DCHECK is non-fatal by default, rather // than requiring that it be exactly INFO, ERROR, etc level. EXPECT_LT(logging::LOGGING_DCHECK, logging::LOGGING_FATAL); } DCHECK(false); // Verify that DCHECK* aren't hard-wired to crash on failure. logging::LOGGING_DCHECK = logging::LOGGING_ERROR; DCHECK(false); DCHECK_EQ(1, 2); // Verify that DCHECK does crash if LOGGING_DCHECK is set to LOGGING_FATAL. logging::LOGGING_DCHECK = logging::LOGGING_FATAL; EXPECT_CHECK("Check failed: false. ", DCHECK(false)); EXPECT_CHECK("Check failed: 1 == 2 (1 vs. 2)", DCHECK_EQ(1, 2)); } TEST(CheckTest, ConfigurableDCheckFeature) { // Initialize FeatureList with and without DcheckIsFatal, and verify the // value of LOGGING_DCHECK. Note that we don't require that DCHECK take a // specific value when the feature is off, only that it is non-fatal. { base::test::ScopedFeatureList feature_list; feature_list.InitFromCommandLine("DcheckIsFatal", ""); EXPECT_EQ(logging::LOGGING_DCHECK, logging::LOGGING_FATAL); } { base::test::ScopedFeatureList feature_list; feature_list.InitFromCommandLine("", "DcheckIsFatal"); EXPECT_LT(logging::LOGGING_DCHECK, logging::LOGGING_FATAL); } // The default case is last, so we leave LOGGING_DCHECK in the default state. { base::test::ScopedFeatureList feature_list; feature_list.InitFromCommandLine("", ""); EXPECT_LT(logging::LOGGING_DCHECK, logging::LOGGING_FATAL); } } #endif // BUILDFLAG(DCHECK_IS_CONFIGURABLE) struct StructWithOstream { bool operator==(const StructWithOstream& o) const { return &o == this; } }; #if CHECK_WILL_STREAM() std::ostream& operator<<(std::ostream& out, const StructWithOstream&) { return out << "ostream"; } #endif // CHECK_WILL_STREAM() struct StructWithToString { bool operator==(const StructWithToString& o) const { return &o == this; } std::string ToString() const { return "ToString"; } }; struct StructWithToStringAndOstream { bool operator==(const StructWithToStringAndOstream& o) const { return &o == this; } std::string ToString() const { return "ToString"; } }; #if CHECK_WILL_STREAM() std::ostream& operator<<(std::ostream& out, const StructWithToStringAndOstream&) { return out << "ostream"; } #endif // CHECK_WILL_STREAM() struct StructWithToStringNotStdString { struct PseudoString {}; bool operator==(const StructWithToStringNotStdString& o) const { return &o == this; } PseudoString ToString() const { return PseudoString(); } }; #if CHECK_WILL_STREAM() std::ostream& operator<<(std::ostream& out, const StructWithToStringNotStdString::PseudoString&) { return out << "ToString+ostream"; } #endif // CHECK_WILL_STREAM() TEST(CheckDeathTest, OstreamVsToString) { StructWithOstream a, b; EXPECT_CHECK("Check failed: a == b (ostream vs. ostream)", CHECK_EQ(a, b)); StructWithToString c, d; EXPECT_CHECK("Check failed: c == d (ToString vs. ToString)", CHECK_EQ(c, d)); StructWithToStringAndOstream e, f; EXPECT_CHECK("Check failed: e == f (ostream vs. ostream)", CHECK_EQ(e, f)); StructWithToStringNotStdString g, h; EXPECT_CHECK("Check failed: g == h (ToString+ostream vs. ToString+ostream)", CHECK_EQ(g, h)); } // This non-void function is here to make sure that NOTREACHED_NORETURN() is // properly annotated as [[noreturn]] and does not require a return statement. int NotReachedNoreturnInFunction() { NOTREACHED_NORETURN(); // No return statement here. } TEST(CheckDeathTest, NotReached) { #if BUILDFLAG(DCHECK_IS_CONFIGURABLE) // This specific death test relies on LOGGING_DCHECK not being FATAL, even // when run as part of a death test. ScopedDcheckSeverity dcheck_severity(logging::LOGGING_ERROR); #endif #if DCHECK_IS_ON() // Expect a DCHECK with streamed params intact. EXPECT_DCHECK("Check failed: false. foo", NOTREACHED() << "foo"); #elif CHECK_WILL_STREAM() || BUILDFLAG(ENABLE_LOG_ERROR_NOT_REACHED) // This block makes sure that base::Location::Current() returns non-dummy // values for file_name() and line_number(). This is necessary to avoid a // false negative inside EXPECT_LOG_ERROR_WITH_FILENAME() where we exhonorate // the NOTREACHED() macro below even though it didn't provide the expected // filename and line numbers. // See EXPECT_LOG_ERROR_WITH_FILENAME() for the exclusion of "" and -1. ASSERT_NE(base::Location::Current().file_name(), nullptr); EXPECT_STRNE(base::Location::Current().file_name(), ""); EXPECT_NE(base::Location::Current().line_number(), -1); // Expect LOG(ERROR) that looks like CHECK(false) with streamed params intact. // Note that this implementation uses base::Location::Current() which doesn't // match __FILE__ (strips ../../ prefix) and __LINE__ (uses __builtin_LINE()). EXPECT_LOG_ERROR_WITH_FILENAME(base::Location::Current().file_name(), base::Location::Current().line_number(), NOTREACHED() << "foo", "Check failed: false. foo\n"); #else // Expect LOG(ERROR) that looks like CHECK(false) without file or line intact. // We use `""` and `-1` to not expect a specific filename or line number. // The actual location comes from // logging::NotReachedError::TriggerNotReached() but we have no good way of // asserting what that filename or line number is from here. EXPECT_LOG_ERROR_WITH_FILENAME("", -1, NOTREACHED() << "foo", "Check failed: false. NOTREACHED log messages " "are omitted in official builds. Sorry!\n"); #endif EXPECT_DEATH_IF_SUPPORTED(NotReachedNoreturnInFunction(), CHECK_WILL_STREAM() ? "NOTREACHED hit. " : ""); } TEST(CheckDeathTest, NotReachedFatalExperiment) { base::test::ScopedFeatureList feature_list( base::features::kNotReachedIsFatal); EXPECT_CHECK_DEATH(NOTREACHED()); } TEST(CheckDeathTest, DumpWillBeCheck) { DUMP_WILL_BE_CHECK(true); EXPECT_DUMP_WILL_BE_CHECK("Check failed: false. foo", DUMP_WILL_BE_CHECK(false) << "foo"); } TEST(CheckDeathTest, DumpWillBeNotReachedNoreturn) { EXPECT_DUMP_WILL_BE_CHECK("NOTREACHED hit. foo", DUMP_WILL_BE_NOTREACHED_NORETURN() << "foo"); } static const std::string kNotImplementedMessage = "Not implemented reached in "; TEST(CheckTest, NotImplemented) { static const std::string expected_msg = kNotImplementedMessage + __PRETTY_FUNCTION__; #if DCHECK_IS_ON() // Expect LOG(ERROR) with streamed params intact. EXPECT_LOG_ERROR_WITH_FILENAME(base::Location::Current().file_name(), base::Location::Current().line_number(), NOTIMPLEMENTED() << "foo", expected_msg + "foo\n"); #else // Expect nothing. EXPECT_NO_LOG(NOTIMPLEMENTED() << "foo"); #endif } void NiLogOnce() { NOTIMPLEMENTED_LOG_ONCE(); } TEST(CheckTest, NotImplementedLogOnce) { static const std::string expected_msg = kNotImplementedMessage + "void (anonymous namespace)::NiLogOnce()\n"; #if DCHECK_IS_ON() EXPECT_LOG_ERROR_WITH_FILENAME(base::Location::Current().file_name(), base::Location::Current().line_number() - 10, NiLogOnce(), expected_msg); EXPECT_NO_LOG(NiLogOnce()); #else EXPECT_NO_LOG(NiLogOnce()); EXPECT_NO_LOG(NiLogOnce()); #endif } void NiLogTenTimesWithStream() { for (int i = 0; i < 10; ++i) { NOTIMPLEMENTED_LOG_ONCE() << " iteration: " << i; } } TEST(CheckTest, NotImplementedLogOnceWithStreamedParams) { static const std::string expected_msg1 = kNotImplementedMessage + "void (anonymous namespace)::NiLogTenTimesWithStream() iteration: 0\n"; #if DCHECK_IS_ON() // Expect LOG(ERROR) with streamed params intact, exactly once. EXPECT_LOG_ERROR_WITH_FILENAME(base::Location::Current().file_name(), base::Location::Current().line_number() - 13, NiLogTenTimesWithStream(), expected_msg1); // A different NOTIMPLEMENTED_LOG_ONCE() call is still logged. static const std::string expected_msg2 = kNotImplementedMessage + __PRETTY_FUNCTION__ + "tree fish\n"; EXPECT_LOG_ERROR_WITH_FILENAME(base::Location::Current().file_name(), base::Location::Current().line_number(), NOTIMPLEMENTED_LOG_ONCE() << "tree fish", expected_msg2); #else // Expect nothing. EXPECT_NO_LOG(NiLogTenTimesWithStream()); EXPECT_NO_LOG(NOTIMPLEMENTED_LOG_ONCE() << "tree fish"); #endif } // Test CHECK_DEREF of `T*` TEST(CheckTest, CheckDerefOfPointer) { std::string pointee = "not-null"; std::string* value_pointer = &pointee; auto& deref_result = CHECK_DEREF(value_pointer); static_assert(std::is_lvalue_reference_v); // Compare the pointers to ensure they are the same object (and not a copy) EXPECT_EQ(&deref_result, &pointee); static_assert(std::is_same_v); } TEST(CheckDeathTest, CheckDerefOfNullPointer) { std::string* null_pointer = nullptr; EXPECT_CHECK("Check failed: null_pointer != nullptr. ", CHECK_DEREF(null_pointer)); } // Test CHECK_DEREF of `const T*` TEST(CheckTest, CheckDerefOfConstPointer) { std::string pointee = "not-null"; const std::string* const_value_pointer = &pointee; auto& deref_result = CHECK_DEREF(const_value_pointer); static_assert(std::is_lvalue_reference_v); // Compare the pointers to ensure they are the same object (and not a copy) EXPECT_EQ(&deref_result, &pointee); static_assert(std::is_same_v); } TEST(CheckDeathTest, CheckDerefOfConstNullPointer) { std::string* const_null_pointer = nullptr; EXPECT_CHECK("Check failed: const_null_pointer != nullptr. ", CHECK_DEREF(const_null_pointer)); } TEST(CheckDeathTest, CheckNotFatalUntil) { #if BUILDFLAG(DCHECK_IS_CONFIGURABLE) // This specific death test relies on LOGGING_DCHECK not being FATAL, even // when run as part of a death test, as CHECK with a milestone acts like a // DCHECK. ScopedDcheckSeverity dcheck_severity(logging::LOGGING_ERROR); #endif // Next milestone not yet fatal. EXPECT_DUMP_WILL_BE_CHECK("Check failed: false. foo", CHECK(false, kNextMilestone) << "foo"); // Fatal in current major version. EXPECT_CHECK("Check failed: false. foo", CHECK(false, kCurrentMilestone) << "foo"); } TEST(CheckDeathTest, CheckOpNotFatalUntil) { #if BUILDFLAG(DCHECK_IS_CONFIGURABLE) // This specific death test relies on LOGGING_DCHECK not being FATAL, even // when run as part of a death test, as CHECK with a milestone acts like a // DCHECK. ScopedDcheckSeverity dcheck_severity(logging::LOGGING_ERROR); #endif const int a = 1, b = 2; // Next milestone not yet fatal. EXPECT_DUMP_WILL_BE_CHECK("Check failed: a == b (1 vs. 2)", CHECK_EQ(a, b, kNextMilestone)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: a != a (1 vs. 1)", CHECK_NE(a, a, kNextMilestone)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: b <= a (2 vs. 1)", CHECK_LE(b, a, kNextMilestone)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: b < a (2 vs. 1)", CHECK_LT(b, a, kNextMilestone)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: a >= b (1 vs. 2)", CHECK_GE(a, b, kNextMilestone)); EXPECT_DUMP_WILL_BE_CHECK("Check failed: a > b (1 vs. 2)", CHECK_GT(a, b, kNextMilestone)); // Fatal in current major version. EXPECT_CHECK("Check failed: a == b (1 vs. 2)", CHECK_EQ(a, b, kCurrentMilestone)); EXPECT_CHECK("Check failed: a != a (1 vs. 1)", CHECK_NE(a, a, kCurrentMilestone)); EXPECT_CHECK("Check failed: b <= a (2 vs. 1)", CHECK_LE(b, a, kCurrentMilestone)); EXPECT_CHECK("Check failed: b < a (2 vs. 1)", CHECK_LT(b, a, kCurrentMilestone)); EXPECT_CHECK("Check failed: a >= b (1 vs. 2)", CHECK_GE(a, b, kCurrentMilestone)); EXPECT_CHECK("Check failed: a > b (1 vs. 2)", CHECK_GT(a, b, kCurrentMilestone)); } TEST(CheckDeathTest, NotReachedNotFatalUntil) { #if BUILDFLAG(DCHECK_IS_CONFIGURABLE) // This specific death test relies on LOGGING_DCHECK not being FATAL, even // when run as part of a death test, as CHECK with a milestone acts like a // DCHECK. ScopedDcheckSeverity dcheck_severity(logging::LOGGING_ERROR); #endif // Next milestone not yet fatal. EXPECT_DUMP_WILL_BE_CHECK("Check failed: false. foo", NOTREACHED(kNextMilestone) << "foo"); // Fatal in current major version. EXPECT_CHECK("Check failed: false. foo", NOTREACHED(kCurrentMilestone) << "foo"); } } // namespace