//===-- wrappers_cpp_test.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 // //===----------------------------------------------------------------------===// #include "tests/scudo_unit_test.h" #include #include #include #include #include void operator delete(void *, size_t) noexcept; void operator delete[](void *, size_t) noexcept; // Note that every Cxx allocation function in the test binary will be fulfilled // by Scudo. See the comment in the C counterpart of this file. template static void testCxxNew() { T *P = new T; EXPECT_NE(P, nullptr); memset(P, 0x42, sizeof(T)); EXPECT_DEATH(delete[] P, ""); delete P; EXPECT_DEATH(delete P, ""); P = new T; EXPECT_NE(P, nullptr); memset(P, 0x42, sizeof(T)); operator delete(P, sizeof(T)); P = new (std::nothrow) T; EXPECT_NE(P, nullptr); memset(P, 0x42, sizeof(T)); delete P; const size_t N = 16U; T *A = new T[N]; EXPECT_NE(A, nullptr); memset(A, 0x42, sizeof(T) * N); EXPECT_DEATH(delete A, ""); delete[] A; EXPECT_DEATH(delete[] A, ""); A = new T[N]; EXPECT_NE(A, nullptr); memset(A, 0x42, sizeof(T) * N); operator delete[](A, sizeof(T) * N); A = new (std::nothrow) T[N]; EXPECT_NE(A, nullptr); memset(A, 0x42, sizeof(T) * N); delete[] A; } class Pixel { public: enum class Color { Red, Green, Blue }; int X = 0; int Y = 0; Color C = Color::Red; }; TEST(ScudoWrappersCppTest, New) { if (getenv("SKIP_TYPE_MISMATCH")) { printf("Skipped type mismatch tests.\n"); return; } testCxxNew(); testCxxNew(); testCxxNew(); testCxxNew(); testCxxNew(); testCxxNew(); testCxxNew(); testCxxNew(); testCxxNew(); } static std::mutex Mutex; static std::condition_variable Cv; static bool Ready; static void stressNew() { std::vector V; { std::unique_lock Lock(Mutex); while (!Ready) Cv.wait(Lock); } for (size_t I = 0; I < 256U; I++) { const size_t N = std::rand() % 128U; uintptr_t *P = new uintptr_t[N]; if (P) { memset(P, 0x42, sizeof(uintptr_t) * N); V.push_back(P); } } while (!V.empty()) { delete[] V.back(); V.pop_back(); } } TEST(ScudoWrappersCppTest, ThreadedNew) { Ready = false; std::thread Threads[32]; for (size_t I = 0U; I < sizeof(Threads) / sizeof(Threads[0]); I++) Threads[I] = std::thread(stressNew); { std::unique_lock Lock(Mutex); Ready = true; Cv.notify_all(); } for (auto &T : Threads) T.join(); } #if !SCUDO_FUCHSIA // TODO(kostyak): for me, this test fails in a specific configuration when ran // by itself with some Scudo or GWP-ASan violation. Other people // can't seem to reproduce the failure. Consider skipping this in // the event it fails on the upstream bots. TEST(ScudoWrappersCppTest, AllocAfterFork) { std::atomic_bool Stop; // Create threads that simply allocate and free different sizes. std::vector Threads; for (size_t N = 0; N < 5; N++) { std::thread *T = new std::thread([&Stop] { while (!Stop) { for (size_t SizeLog = 3; SizeLog <= 21; SizeLog++) { char *P = new char[1UL << SizeLog]; EXPECT_NE(P, nullptr); // Make sure this value is not optimized away. asm volatile("" : : "r,m"(P) : "memory"); delete[] P; } } }); Threads.push_back(T); } // Create a thread to fork and allocate. for (size_t N = 0; N < 100; N++) { pid_t Pid; if ((Pid = fork()) == 0) { for (size_t SizeLog = 3; SizeLog <= 21; SizeLog++) { char *P = new char[1UL << SizeLog]; EXPECT_NE(P, nullptr); // Make sure this value is not optimized away. asm volatile("" : : "r,m"(P) : "memory"); // Make sure we can touch all of the allocation. memset(P, 0x32, 1U << SizeLog); // EXPECT_LE(1U << SizeLog, malloc_usable_size(ptr)); delete[] P; } _exit(10); } EXPECT_NE(-1, Pid); int Status; EXPECT_EQ(Pid, waitpid(Pid, &Status, 0)); EXPECT_FALSE(WIFSIGNALED(Status)); EXPECT_EQ(10, WEXITSTATUS(Status)); } printf("Waiting for threads to complete\n"); Stop = true; for (auto Thread : Threads) Thread->join(); Threads.clear(); } #endif