// Copyright 2021 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 is copied from //base/immediate_crash.h. #ifndef BUILD_RUST_STD_IMMEDIATE_CRASH_H_ #define BUILD_RUST_STD_IMMEDIATE_CRASH_H_ #include "build/build_config.h" // Crashes in the fastest possible way with no attempt at logging. // There are several constraints; see http://crbug.com/664209 for more context. // // - TRAP_SEQUENCE_() must be fatal. It should not be possible to ignore the // resulting exception or simply hit 'continue' to skip over it in a debugger. // - Different instances of TRAP_SEQUENCE_() must not be folded together, to // ensure crash reports are debuggable. Unlike __builtin_trap(), asm volatile // blocks will not be folded together. // Note: TRAP_SEQUENCE_() previously required an instruction with a unique // nonce since unlike clang, GCC folds together identical asm volatile // blocks. // - TRAP_SEQUENCE_() must produce a signal that is distinct from an invalid // memory access. // - TRAP_SEQUENCE_() must be treated as a set of noreturn instructions. // __builtin_unreachable() is used to provide that hint here. clang also uses // this as a heuristic to pack the instructions in the function epilogue to // improve code density. // // Additional properties that are nice to have: // - TRAP_SEQUENCE_() should be as compact as possible. // - The first instruction of TRAP_SEQUENCE_() should not change, to avoid // shifting crash reporting clusters. As a consequence of this, explicit // assembly is preferred over intrinsics. // Note: this last bullet point may no longer be true, and may be removed in // the future. // Note: TRAP_SEQUENCE Is currently split into two macro helpers due to the fact // that clang emits an actual instruction for __builtin_unreachable() on certain // platforms (see https://crbug.com/958675). In addition, the int3/bkpt/brk will // be removed in followups, so splitting it up like this now makes it easy to // land the followups. #if defined(COMPILER_GCC) #if defined(OS_NACL) // Crash report accuracy is not guaranteed on NaCl. #define TRAP_SEQUENCE1_() __builtin_trap() #define TRAP_SEQUENCE2_() asm volatile("") #elif defined(ARCH_CPU_X86_FAMILY) // TODO(https://crbug.com/958675): In theory, it should be possible to use just // int3. However, there are a number of crashes with SIGILL as the exception // code, so it seems likely that there's a signal handler that allows execution // to continue after SIGTRAP. #define TRAP_SEQUENCE1_() asm volatile("int3") #if defined(OS_APPLE) // Intentionally empty: __builtin_unreachable() is always part of the sequence // (see IMMEDIATE_CRASH below) and already emits a ud2 on Mac. #define TRAP_SEQUENCE2_() asm volatile("") #else #define TRAP_SEQUENCE2_() asm volatile("ud2") #endif // defined(OS_APPLE) #elif defined(ARCH_CPU_ARMEL) // bkpt will generate a SIGBUS when running on armv7 and a SIGTRAP when running // as a 32 bit userspace app on arm64. There doesn't seem to be any way to // cause a SIGTRAP from userspace without using a syscall (which would be a // problem for sandboxing). // TODO(https://crbug.com/958675): Remove bkpt from this sequence. #define TRAP_SEQUENCE1_() asm volatile("bkpt #0") #define TRAP_SEQUENCE2_() asm volatile("udf #0") #elif defined(ARCH_CPU_ARM64) // This will always generate a SIGTRAP on arm64. // TODO(https://crbug.com/958675): Remove brk from this sequence. #define TRAP_SEQUENCE1_() asm volatile("brk #0") #define TRAP_SEQUENCE2_() asm volatile("hlt #0") #else // Crash report accuracy will not be guaranteed on other architectures, but at // least this will crash as expected. #define TRAP_SEQUENCE1_() __builtin_trap() #define TRAP_SEQUENCE2_() asm volatile("") #endif // ARCH_CPU_* #elif defined(COMPILER_MSVC) #if !defined(__clang__) // MSVC x64 doesn't support inline asm, so use the MSVC intrinsic. #define TRAP_SEQUENCE1_() __debugbreak() #define TRAP_SEQUENCE2_() #elif defined(ARCH_CPU_ARM64) // Windows ARM64 uses "BRK #F000" as its breakpoint instruction, and // __debugbreak() generates that in both VC++ and clang. #define TRAP_SEQUENCE1_() __debugbreak() // Intentionally empty: __builtin_unreachable() is always part of the sequence // (see IMMEDIATE_CRASH below) and already emits a ud2 on Win64, // https://crbug.com/958373 #define TRAP_SEQUENCE2_() __asm volatile("") #else #define TRAP_SEQUENCE1_() asm volatile("int3") #define TRAP_SEQUENCE2_() asm volatile("ud2") #endif // __clang__ #else #error No supported trap sequence! #endif // COMPILER_GCC #define TRAP_SEQUENCE_() \ do { \ TRAP_SEQUENCE1_(); \ TRAP_SEQUENCE2_(); \ } while (false) // CHECK() and the trap sequence can be invoked from a constexpr function. // This could make compilation fail on GCC, as it forbids directly using inline // asm inside a constexpr function. However, it allows calling a lambda // expression including the same asm. // The side effect is that the top of the stacktrace will not point to the // calling function, but to this anonymous lambda. This is still useful as the // full name of the lambda will typically include the name of the function that // calls CHECK() and the debugger will still break at the right line of code. #if !defined(COMPILER_GCC) #define WRAPPED_TRAP_SEQUENCE_() TRAP_SEQUENCE_() #else #define WRAPPED_TRAP_SEQUENCE_() \ do { \ [] { TRAP_SEQUENCE_(); }(); \ } while (false) #endif // !defined(COMPILER_GCC) #if defined(__clang__) || defined(COMPILER_GCC) // __builtin_unreachable() hints to the compiler that this is noreturn and can // be packed in the function epilogue. #define IMMEDIATE_CRASH() \ ({ \ WRAPPED_TRAP_SEQUENCE_(); \ __builtin_unreachable(); \ }) #else // This is supporting non-chromium user of logging.h to build with MSVC, like // pdfium. On MSVC there is no __builtin_unreachable(). #define IMMEDIATE_CRASH() WRAPPED_TRAP_SEQUENCE_() #endif // defined(__clang__) || defined(COMPILER_GCC) #endif // BUILD_RUST_STD_IMMEDIATE_CRASH_H_