//===-- backtrace.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 #include "gwp_asan/common.h" #include "gwp_asan/crash_handler.h" #include "gwp_asan/tests/harness.h" // Optnone to ensure that the calls to these functions are not optimized away, // as we're looking for them in the backtraces. __attribute((optnone)) void * AllocateMemory(gwp_asan::GuardedPoolAllocator &GPA) { return GPA.allocate(1); } __attribute((optnone)) void DeallocateMemory(gwp_asan::GuardedPoolAllocator &GPA, void *Ptr) { GPA.deallocate(Ptr); } __attribute((optnone)) void DeallocateMemory2(gwp_asan::GuardedPoolAllocator &GPA, void *Ptr) { GPA.deallocate(Ptr); } __attribute__((optnone)) void TouchMemory(void *Ptr) { *(reinterpret_cast(Ptr)) = 7; } TEST_F(BacktraceGuardedPoolAllocator, DoubleFree) { void *Ptr = AllocateMemory(GPA); DeallocateMemory(GPA, Ptr); std::string DeathRegex = "Double Free.*"; DeathRegex.append("DeallocateMemory2.*"); DeathRegex.append("was deallocated.*"); DeathRegex.append("DeallocateMemory.*"); DeathRegex.append("was allocated.*"); DeathRegex.append("AllocateMemory.*"); ASSERT_DEATH(DeallocateMemory2(GPA, Ptr), DeathRegex); } TEST_F(BacktraceGuardedPoolAllocator, UseAfterFree) { void *Ptr = AllocateMemory(GPA); DeallocateMemory(GPA, Ptr); std::string DeathRegex = "Use After Free.*"; DeathRegex.append("TouchMemory.*"); DeathRegex.append("was deallocated.*"); DeathRegex.append("DeallocateMemory.*"); DeathRegex.append("was allocated.*"); DeathRegex.append("AllocateMemory.*"); ASSERT_DEATH(TouchMemory(Ptr), DeathRegex); } TEST(Backtrace, Short) { gwp_asan::AllocationMetadata Meta; Meta.AllocationTrace.RecordBacktrace( [](uintptr_t *TraceBuffer, size_t /* Size */) -> size_t { TraceBuffer[0] = 123u; TraceBuffer[1] = 321u; return 2u; }); uintptr_t TraceOutput[2] = {}; EXPECT_EQ(2u, __gwp_asan_get_allocation_trace(&Meta, TraceOutput, 2)); EXPECT_EQ(TraceOutput[0], 123u); EXPECT_EQ(TraceOutput[1], 321u); } TEST(Backtrace, ExceedsStorableLength) { gwp_asan::AllocationMetadata Meta; Meta.AllocationTrace.RecordBacktrace( [](uintptr_t *TraceBuffer, size_t Size) -> size_t { // Need to inintialise the elements that will be packed. memset(TraceBuffer, 0u, Size * sizeof(*TraceBuffer)); // Indicate that there were more frames, and we just didn't have enough // room to store them. return Size * 2; }); // Retrieve a frame from the collected backtrace, make sure it works E2E. uintptr_t TraceOutput; EXPECT_EQ(gwp_asan::AllocationMetadata::kMaxTraceLengthToCollect, __gwp_asan_get_allocation_trace(&Meta, &TraceOutput, 1)); } TEST(Backtrace, ExceedsRetrievableAllocLength) { gwp_asan::AllocationMetadata Meta; constexpr size_t kNumFramesToStore = 3u; Meta.AllocationTrace.RecordBacktrace( [](uintptr_t *TraceBuffer, size_t /* Size */) -> size_t { memset(TraceBuffer, kNumFramesToStore, kNumFramesToStore * sizeof(*TraceBuffer)); return kNumFramesToStore; }); uintptr_t TraceOutput; // Ask for one element, get told that there's `kNumFramesToStore` available. EXPECT_EQ(kNumFramesToStore, __gwp_asan_get_allocation_trace(&Meta, &TraceOutput, 1)); } TEST(Backtrace, ExceedsRetrievableDeallocLength) { gwp_asan::AllocationMetadata Meta; constexpr size_t kNumFramesToStore = 3u; Meta.DeallocationTrace.RecordBacktrace( [](uintptr_t *TraceBuffer, size_t /* Size */) -> size_t { memset(TraceBuffer, kNumFramesToStore, kNumFramesToStore * sizeof(*TraceBuffer)); return kNumFramesToStore; }); uintptr_t TraceOutput; // Ask for one element, get told that there's `kNumFramesToStore` available. EXPECT_EQ(kNumFramesToStore, __gwp_asan_get_deallocation_trace(&Meta, &TraceOutput, 1)); }