flang/unittests/Runtime/RuntimeCrashTest.cpp - llvm-project - Git at Google

 //===-- flang/unittests/RuntimeGTest/CrashHandlerFixture.cpp ----*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 /// Selected APIs are tested here to support development of unit tests for other
 /// runtime components and ensure the test fixture handles crashes as we expect.
 //
 //===----------------------------------------------------------------------===//
 #include "CrashHandlerFixture.h"
 #include "../../runtime/terminator.h"
 #include "flang/Runtime/io-api.h"
 #include <gtest/gtest.h>

 using namespace Fortran::runtime;
 using namespace Fortran::runtime::io;

 //------------------------------------------------------------------------------
 /// Test crashes through direct calls to terminator methods
 //------------------------------------------------------------------------------
 struct TestTerminator : CrashHandlerFixture {};

 #define TEST_CRASH_HANDLER_MESSAGE \
   "Intentionally crashing runtime for unit test"

 TEST(TestTerminator, CrashTest) {
   static Fortran::runtime::Terminator t;
   ASSERT_DEATH(t.Crash(TEST_CRASH_HANDLER_MESSAGE), TEST_CRASH_HANDLER_MESSAGE);
 }

 #undef TEST_CRASH_HANDLER_MESSAGE

 TEST(TestTerminator, CheckFailedLocationTest) {
   static Fortran::runtime::Terminator t;
   ASSERT_DEATH(t.CheckFailed("predicate", "someFileName", 789),
       "RUNTIME_CHECK\\(predicate\\) failed at someFileName\\(789\\)");
 }

 TEST(TestTerminator, CheckFailedTest) {
   static Fortran::runtime::Terminator t;
   ASSERT_DEATH(t.CheckFailed("predicate"),
       "RUNTIME_CHECK\\(predicate\\) failed at \\(null\\)\\(0\\)");
 }

 //------------------------------------------------------------------------------
 /// Test misuse of io api
 //------------------------------------------------------------------------------
 struct TestIOCrash : CrashHandlerFixture {};

 TEST(TestIOCrash, FormatDescriptorWriteMismatchTest) {
   static constexpr int bufferSize{4};
   static char buffer[bufferSize];
   static const char *format{"(A4)"};
   auto *cookie{IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format))};
   ASSERT_DEATH(IONAME(OutputLogical)(cookie, true),
       "Data edit descriptor 'A' may not be used with a LOGICAL data item");
 }

 TEST(TestIOCrash, InvalidFormatCharacterTest) {
   static constexpr int bufferSize{1};
   static char buffer[bufferSize];
   static const char *format{"(C1)"};
   auto *cookie{IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format))};
   ASSERT_DEATH(IONAME(OutputInteger64)(cookie, 0xfeedface),
       "Unknown 'C' edit descriptor in FORMAT");
 }

 //------------------------------------------------------------------------------
 /// Test buffer overwrites with Output* functions
 /// Each test performs the tested IO operation correctly first, before causing
 /// an overwrite to demonstrate that the failure is caused by the overwrite and
 /// not a misuse of the API.
 //------------------------------------------------------------------------------
 TEST(TestIOCrash, OverwriteBufferAsciiTest) {
   static constexpr int bufferSize{4};
   static char buffer[bufferSize];
   static const char *format{"(A4)"};
   auto *cookie{IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format))};
   IONAME(OutputAscii)(cookie, "four", bufferSize);
   ASSERT_DEATH(IONAME(OutputAscii)(cookie, "Too many characters!", 20),
       "Internal write overran available records");
 }

 TEST(TestIOCrash, OverwriteBufferCharacterTest) {
   static constexpr int bufferSize{1};
   static char buffer[bufferSize];
   static const char *format{"(A1)"};
   auto *cookie{IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format))};
   IONAME(OutputCharacter)(cookie, "a", 1);
   ASSERT_DEATH(IONAME(OutputCharacter)(cookie, "a", 1),
       "Internal write overran available records");
 }

 TEST(TestIOCrash, OverwriteBufferLogicalTest) {
   static constexpr int bufferSize{1};
   static char buffer[bufferSize];
   static const char *format{"(L1)"};
   auto *cookie{IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format))};
   IONAME(OutputLogical)(cookie, true);
   ASSERT_DEATH(IONAME(OutputLogical)(cookie, true),
       "Internal write overran available records");
 }

 TEST(TestIOCrash, OverwriteBufferRealTest) {
   static constexpr int bufferSize{1};
   static char buffer[bufferSize];
   static const char *format{"(F1)"};
   auto *cookie{IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format))};
   IONAME(OutputReal32)(cookie, 1.);
   EXPECT_DEATH(IONAME(OutputReal32)(cookie, 1.),
       "Internal write overran available records");

   std::memset(buffer, '\0', bufferSize);
   cookie = IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format));
   IONAME(OutputReal64)(cookie, 1.);
   EXPECT_DEATH(IONAME(OutputReal64)(cookie, 1.),
       "Internal write overran available records");
 }

 TEST(TestIOCrash, OverwriteBufferComplexTest) {
   static constexpr int bufferSize{8};
   static char buffer[bufferSize];
   static const char *format{"(Z1,Z1)"};
   auto *cookie{IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format))};
   IONAME(OutputComplex32)(cookie, 1., 1.);
   EXPECT_DEATH(IONAME(OutputComplex32)(cookie, 1., 1.),
       "Internal write overran available records");

   std::memset(buffer, '\0', bufferSize);
   cookie = IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format));
   IONAME(OutputComplex64)(cookie, 1., 1.);
   EXPECT_DEATH(IONAME(OutputComplex64)(cookie, 1., 1.),
       "Internal write overran available records");
 }

 TEST(TestIOCrash, OverwriteBufferIntegerTest) {
   static constexpr int bufferSize{1};
   static char buffer[bufferSize];
   static const char *format{"(I1)"};
   auto *cookie{IONAME(BeginInternalFormattedOutput)(
       buffer, bufferSize, format, std::strlen(format))};
   IONAME(OutputInteger64)(cookie, 0xdeadbeef);
   ASSERT_DEATH(IONAME(OutputInteger64)(cookie, 0xdeadbeef),
       "Internal write overran available records");
 }
	//===-- flang/unittests/RuntimeGTest/CrashHandlerFixture.cpp ----- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	/// Selected APIs are tested here to support development of unit tests for other
	/// runtime components and ensure the test fixture handles crashes as we expect.
	//
	//===----------------------------------------------------------------------===//
	#include "CrashHandlerFixture.h"
	#include "../../runtime/terminator.h"
	#include "flang/Runtime/io-api.h"
	#include <gtest/gtest.h>

	using namespace Fortran::runtime;
	using namespace Fortran::runtime::io;

	//------------------------------------------------------------------------------
	/// Test crashes through direct calls to terminator methods
	//------------------------------------------------------------------------------
	struct TestTerminator : CrashHandlerFixture {};

	#define TEST_CRASH_HANDLER_MESSAGE \
	"Intentionally crashing runtime for unit test"

	TEST(TestTerminator, CrashTest) {
	static Fortran::runtime::Terminator t;
	ASSERT_DEATH(t.Crash(TEST_CRASH_HANDLER_MESSAGE), TEST_CRASH_HANDLER_MESSAGE);
	}

	#undef TEST_CRASH_HANDLER_MESSAGE

	TEST(TestTerminator, CheckFailedLocationTest) {
	static Fortran::runtime::Terminator t;
	ASSERT_DEATH(t.CheckFailed("predicate", "someFileName", 789),
	"RUNTIME_CHECK\\(predicate\\) failed at someFileName\\(789\\)");
	}

	TEST(TestTerminator, CheckFailedTest) {
	static Fortran::runtime::Terminator t;
	ASSERT_DEATH(t.CheckFailed("predicate"),
	"RUNTIME_CHECK\\(predicate\\) failed at \\(null\\)\\(0\\)");
	}

	//------------------------------------------------------------------------------
	/// Test misuse of io api
	//------------------------------------------------------------------------------
	struct TestIOCrash : CrashHandlerFixture {};

	TEST(TestIOCrash, FormatDescriptorWriteMismatchTest) {
	static constexpr int bufferSize{4};
	static char buffer[bufferSize];
	static const char *format{"(A4)"};
	auto *cookie{IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format))};
	ASSERT_DEATH(IONAME(OutputLogical)(cookie, true),
	"Data edit descriptor 'A' may not be used with a LOGICAL data item");
	}

	TEST(TestIOCrash, InvalidFormatCharacterTest) {
	static constexpr int bufferSize{1};
	static char buffer[bufferSize];
	static const char *format{"(C1)"};
	auto *cookie{IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format))};
	ASSERT_DEATH(IONAME(OutputInteger64)(cookie, 0xfeedface),
	"Unknown 'C' edit descriptor in FORMAT");
	}

	//------------------------------------------------------------------------------
	/// Test buffer overwrites with Output* functions
	/// Each test performs the tested IO operation correctly first, before causing
	/// an overwrite to demonstrate that the failure is caused by the overwrite and
	/// not a misuse of the API.
	//------------------------------------------------------------------------------
	TEST(TestIOCrash, OverwriteBufferAsciiTest) {
	static constexpr int bufferSize{4};
	static char buffer[bufferSize];
	static const char *format{"(A4)"};
	auto *cookie{IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format))};
	IONAME(OutputAscii)(cookie, "four", bufferSize);
	ASSERT_DEATH(IONAME(OutputAscii)(cookie, "Too many characters!", 20),
	"Internal write overran available records");
	}

	TEST(TestIOCrash, OverwriteBufferCharacterTest) {
	static constexpr int bufferSize{1};
	static char buffer[bufferSize];
	static const char *format{"(A1)"};
	auto *cookie{IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format))};
	IONAME(OutputCharacter)(cookie, "a", 1);
	ASSERT_DEATH(IONAME(OutputCharacter)(cookie, "a", 1),
	"Internal write overran available records");
	}

	TEST(TestIOCrash, OverwriteBufferLogicalTest) {
	static constexpr int bufferSize{1};
	static char buffer[bufferSize];
	static const char *format{"(L1)"};
	auto *cookie{IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format))};
	IONAME(OutputLogical)(cookie, true);
	ASSERT_DEATH(IONAME(OutputLogical)(cookie, true),
	"Internal write overran available records");
	}

	TEST(TestIOCrash, OverwriteBufferRealTest) {
	static constexpr int bufferSize{1};
	static char buffer[bufferSize];
	static const char *format{"(F1)"};
	auto *cookie{IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format))};
	IONAME(OutputReal32)(cookie, 1.);
	EXPECT_DEATH(IONAME(OutputReal32)(cookie, 1.),
	"Internal write overran available records");

	std::memset(buffer, '\0', bufferSize);
	cookie = IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format));
	IONAME(OutputReal64)(cookie, 1.);
	EXPECT_DEATH(IONAME(OutputReal64)(cookie, 1.),
	"Internal write overran available records");
	}

	TEST(TestIOCrash, OverwriteBufferComplexTest) {
	static constexpr int bufferSize{8};
	static char buffer[bufferSize];
	static const char *format{"(Z1,Z1)"};
	auto *cookie{IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format))};
	IONAME(OutputComplex32)(cookie, 1., 1.);
	EXPECT_DEATH(IONAME(OutputComplex32)(cookie, 1., 1.),
	"Internal write overran available records");

	std::memset(buffer, '\0', bufferSize);
	cookie = IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format));
	IONAME(OutputComplex64)(cookie, 1., 1.);
	EXPECT_DEATH(IONAME(OutputComplex64)(cookie, 1., 1.),
	"Internal write overran available records");
	}

	TEST(TestIOCrash, OverwriteBufferIntegerTest) {
	static constexpr int bufferSize{1};
	static char buffer[bufferSize];
	static const char *format{"(I1)"};
	auto *cookie{IONAME(BeginInternalFormattedOutput)(
	buffer, bufferSize, format, std::strlen(format))};
	IONAME(OutputInteger64)(cookie, 0xdeadbeef);
	ASSERT_DEATH(IONAME(OutputInteger64)(cookie, 0xdeadbeef),
	"Internal write overran available records");
	}