// 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. // // This file contains intentional memory errors, some of which may lead to // crashes if the test is ran without special memory testing tools. We use these // errors to verify the sanity of the tools. #include "base/atomicops.h" #include "base/debug/asan_invalid_access.h" #include "base/debug/profiler.h" #include "base/message_loop/message_loop.h" #include "base/third_party/dynamic_annotations/dynamic_annotations.h" #include "base/threading/thread.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { const base::subtle::Atomic32 kMagicValue = 42; // Helper for memory accesses that can potentially corrupt memory or cause a // crash during a native run. #if defined(ADDRESS_SANITIZER) || defined(SYZYASAN) #if defined(OS_IOS) // EXPECT_DEATH is not supported on IOS. #define HARMFUL_ACCESS(action,error_regexp) do { action; } while (0) #elif defined(SYZYASAN) // We won't get a meaningful error message because we're not running under the // SyzyASan logger, but we can at least make sure that the error has been // generated in the SyzyASan runtime. #define HARMFUL_ACCESS(action,unused) \ if (debug::IsBinaryInstrumented()) { EXPECT_DEATH(action, \ "AsanRuntime::OnError"); } #else #define HARMFUL_ACCESS(action,error_regexp) EXPECT_DEATH(action,error_regexp) #endif // !OS_IOS && !SYZYASAN #else #define HARMFUL_ACCESS(action,error_regexp) \ do { if (RunningOnValgrind()) { action; } } while (0) #endif void DoReadUninitializedValue(char *ptr) { // Comparison with 64 is to prevent clang from optimizing away the // jump -- valgrind only catches jumps and conditional moves, but clang uses // the borrow flag if the condition is just `*ptr == '\0'`. if (*ptr == 64) { VLOG(1) << "Uninit condition is true"; } else { VLOG(1) << "Uninit condition is false"; } } void ReadUninitializedValue(char *ptr) { #if defined(MEMORY_SANITIZER) EXPECT_DEATH(DoReadUninitializedValue(ptr), "use-of-uninitialized-value"); #else DoReadUninitializedValue(ptr); #endif } void ReadValueOutOfArrayBoundsLeft(char *ptr) { char c = ptr[-2]; VLOG(1) << "Reading a byte out of bounds: " << c; } void ReadValueOutOfArrayBoundsRight(char *ptr, size_t size) { char c = ptr[size + 1]; VLOG(1) << "Reading a byte out of bounds: " << c; } // This is harmless if you run it under Valgrind thanks to redzones. void WriteValueOutOfArrayBoundsLeft(char *ptr) { ptr[-1] = kMagicValue; } // This is harmless if you run it under Valgrind thanks to redzones. void WriteValueOutOfArrayBoundsRight(char *ptr, size_t size) { ptr[size] = kMagicValue; } void MakeSomeErrors(char *ptr, size_t size) { ReadUninitializedValue(ptr); HARMFUL_ACCESS(ReadValueOutOfArrayBoundsLeft(ptr), "2 bytes to the left"); HARMFUL_ACCESS(ReadValueOutOfArrayBoundsRight(ptr, size), "1 bytes to the right"); HARMFUL_ACCESS(WriteValueOutOfArrayBoundsLeft(ptr), "1 bytes to the left"); HARMFUL_ACCESS(WriteValueOutOfArrayBoundsRight(ptr, size), "0 bytes to the right"); } } // namespace // A memory leak detector should report an error in this test. TEST(ToolsSanityTest, MemoryLeak) { // Without the |volatile|, clang optimizes away the next two lines. int* volatile leak = new int[256]; // Leak some memory intentionally. leak[4] = 1; // Make sure the allocated memory is used. } #if (defined(ADDRESS_SANITIZER) && defined(OS_IOS)) || defined(SYZYASAN) // Because iOS doesn't support death tests, each of the following tests will // crash the whole program under Asan. On Windows Asan is based on SyzyAsan; the // error report mechanism is different than with Asan so these tests will fail. #define MAYBE_AccessesToNewMemory DISABLED_AccessesToNewMemory #define MAYBE_AccessesToMallocMemory DISABLED_AccessesToMallocMemory #else #define MAYBE_AccessesToNewMemory AccessesToNewMemory #define MAYBE_AccessesToMallocMemory AccessesToMallocMemory #endif // (defined(ADDRESS_SANITIZER) && defined(OS_IOS)) || defined(SYZYASAN) // The following tests pass with Clang r170392, but not r172454, which // makes AddressSanitizer detect errors in them. We disable these tests under // AddressSanitizer until we fully switch to Clang r172454. After that the // tests should be put back under the (defined(OS_IOS) || defined(OS_WIN)) // clause above. // See also http://crbug.com/172614. #if defined(ADDRESS_SANITIZER) || defined(SYZYASAN) #define MAYBE_SingleElementDeletedWithBraces \ DISABLED_SingleElementDeletedWithBraces #define MAYBE_ArrayDeletedWithoutBraces DISABLED_ArrayDeletedWithoutBraces #else #define MAYBE_ArrayDeletedWithoutBraces ArrayDeletedWithoutBraces #define MAYBE_SingleElementDeletedWithBraces SingleElementDeletedWithBraces #endif // defined(ADDRESS_SANITIZER) || defined(SYZYASAN) TEST(ToolsSanityTest, MAYBE_AccessesToNewMemory) { char *foo = new char[10]; MakeSomeErrors(foo, 10); delete [] foo; // Use after delete. HARMFUL_ACCESS(foo[5] = 0, "heap-use-after-free"); } TEST(ToolsSanityTest, MAYBE_AccessesToMallocMemory) { char *foo = reinterpret_cast<char*>(malloc(10)); MakeSomeErrors(foo, 10); free(foo); // Use after free. HARMFUL_ACCESS(foo[5] = 0, "heap-use-after-free"); } TEST(ToolsSanityTest, MAYBE_ArrayDeletedWithoutBraces) { #if !defined(ADDRESS_SANITIZER) && !defined(SYZYASAN) // This test may corrupt memory if not run under Valgrind or compiled with // AddressSanitizer. if (!RunningOnValgrind()) return; #endif // Without the |volatile|, clang optimizes away the next two lines. int* volatile foo = new int[10]; delete foo; } TEST(ToolsSanityTest, MAYBE_SingleElementDeletedWithBraces) { #if !defined(ADDRESS_SANITIZER) // This test may corrupt memory if not run under Valgrind or compiled with // AddressSanitizer. if (!RunningOnValgrind()) return; #endif // Without the |volatile|, clang optimizes away the next two lines. int* volatile foo = new int; (void) foo; delete [] foo; } #if defined(ADDRESS_SANITIZER) || defined(SYZYASAN) TEST(ToolsSanityTest, DISABLED_AddressSanitizerNullDerefCrashTest) { // Intentionally crash to make sure AddressSanitizer is running. // This test should not be ran on bots. int* volatile zero = NULL; *zero = 0; } TEST(ToolsSanityTest, DISABLED_AddressSanitizerLocalOOBCrashTest) { // Intentionally crash to make sure AddressSanitizer is instrumenting // the local variables. // This test should not be ran on bots. int array[5]; // Work around the OOB warning reported by Clang. int* volatile access = &array[5]; *access = 43; } namespace { int g_asan_test_global_array[10]; } // namespace TEST(ToolsSanityTest, DISABLED_AddressSanitizerGlobalOOBCrashTest) { // Intentionally crash to make sure AddressSanitizer is instrumenting // the global variables. // This test should not be ran on bots. // Work around the OOB warning reported by Clang. int* volatile access = g_asan_test_global_array - 1; *access = 43; } TEST(ToolsSanityTest, AsanHeapOverflow) { HARMFUL_ACCESS(debug::AsanHeapOverflow() ,"to the right"); } TEST(ToolsSanityTest, AsanHeapUnderflow) { HARMFUL_ACCESS(debug::AsanHeapUnderflow(), "to the left"); } TEST(ToolsSanityTest, AsanHeapUseAfterFree) { HARMFUL_ACCESS(debug::AsanHeapUseAfterFree(), "heap-use-after-free"); } #if defined(SYZYASAN) TEST(ToolsSanityTest, AsanCorruptHeapBlock) { HARMFUL_ACCESS(debug::AsanCorruptHeapBlock(), ""); } TEST(ToolsSanityTest, AsanCorruptHeap) { // This test will kill the process by raising an exception, there's no // particular string to look for in the stack trace. EXPECT_DEATH(debug::AsanCorruptHeap(), ""); } #endif // SYZYASAN #endif // ADDRESS_SANITIZER || SYZYASAN namespace { // We use caps here just to ensure that the method name doesn't interfere with // the wildcarded suppressions. class TOOLS_SANITY_TEST_CONCURRENT_THREAD : public PlatformThread::Delegate { public: explicit TOOLS_SANITY_TEST_CONCURRENT_THREAD(bool *value) : value_(value) {} virtual ~TOOLS_SANITY_TEST_CONCURRENT_THREAD() {} virtual void ThreadMain() OVERRIDE { *value_ = true; // Sleep for a few milliseconds so the two threads are more likely to live // simultaneously. Otherwise we may miss the report due to mutex // lock/unlock's inside thread creation code in pure-happens-before mode... PlatformThread::Sleep(TimeDelta::FromMilliseconds(100)); } private: bool *value_; }; class ReleaseStoreThread : public PlatformThread::Delegate { public: explicit ReleaseStoreThread(base::subtle::Atomic32 *value) : value_(value) {} virtual ~ReleaseStoreThread() {} virtual void ThreadMain() OVERRIDE { base::subtle::Release_Store(value_, kMagicValue); // Sleep for a few milliseconds so the two threads are more likely to live // simultaneously. Otherwise we may miss the report due to mutex // lock/unlock's inside thread creation code in pure-happens-before mode... PlatformThread::Sleep(TimeDelta::FromMilliseconds(100)); } private: base::subtle::Atomic32 *value_; }; class AcquireLoadThread : public PlatformThread::Delegate { public: explicit AcquireLoadThread(base::subtle::Atomic32 *value) : value_(value) {} virtual ~AcquireLoadThread() {} virtual void ThreadMain() OVERRIDE { // Wait for the other thread to make Release_Store PlatformThread::Sleep(TimeDelta::FromMilliseconds(100)); base::subtle::Acquire_Load(value_); } private: base::subtle::Atomic32 *value_; }; void RunInParallel(PlatformThread::Delegate *d1, PlatformThread::Delegate *d2) { PlatformThreadHandle a; PlatformThreadHandle b; PlatformThread::Create(0, d1, &a); PlatformThread::Create(0, d2, &b); PlatformThread::Join(a); PlatformThread::Join(b); } #if defined(THREAD_SANITIZER) void DataRace() { bool *shared = new bool(false); TOOLS_SANITY_TEST_CONCURRENT_THREAD thread1(shared), thread2(shared); RunInParallel(&thread1, &thread2); EXPECT_TRUE(*shared); delete shared; // We're in a death test - crash. CHECK(0); } #endif } // namespace #if defined(THREAD_SANITIZER) // A data race detector should report an error in this test. TEST(ToolsSanityTest, DataRace) { // The suppression regexp must match that in base/debug/tsan_suppressions.cc. EXPECT_DEATH(DataRace(), "1 race:base/tools_sanity_unittest.cc"); } #endif TEST(ToolsSanityTest, AnnotateBenignRace) { bool shared = false; ANNOTATE_BENIGN_RACE(&shared, "Intentional race - make sure doesn't show up"); TOOLS_SANITY_TEST_CONCURRENT_THREAD thread1(&shared), thread2(&shared); RunInParallel(&thread1, &thread2); EXPECT_TRUE(shared); } TEST(ToolsSanityTest, AtomicsAreIgnored) { base::subtle::Atomic32 shared = 0; ReleaseStoreThread thread1(&shared); AcquireLoadThread thread2(&shared); RunInParallel(&thread1, &thread2); EXPECT_EQ(kMagicValue, shared); } } // namespace base