//===-- CrashReason.cpp -----------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "CrashReason.h" #include "llvm/Support/raw_ostream.h" #include namespace { void AppendFaultAddr(std::string &str, lldb::addr_t addr) { std::stringstream ss; ss << " (fault address: 0x" << std::hex << addr << ")"; str += ss.str(); } #if defined(si_lower) && defined(si_upper) void AppendBounds(std::string &str, lldb::addr_t lower_bound, lldb::addr_t upper_bound, lldb::addr_t addr) { llvm::raw_string_ostream stream(str); if ((unsigned long)addr < lower_bound) stream << ": lower bound violation "; else stream << ": upper bound violation "; stream << "(fault address: 0x"; stream.write_hex(addr); stream << ", lower bound: 0x"; stream.write_hex(lower_bound); stream << ", upper bound: 0x"; stream.write_hex(upper_bound); stream << ")"; stream.flush(); } #endif CrashReason GetCrashReasonForSIGSEGV(const siginfo_t &info) { assert(info.si_signo == SIGSEGV); switch (info.si_code) { #ifdef SI_KERNEL case SI_KERNEL: // Some platforms will occasionally send nonstandard spurious SI_KERNEL // codes. // One way to get this is via unaligned SIMD loads. return CrashReason::eInvalidAddress; // for lack of anything better #endif case SEGV_MAPERR: return CrashReason::eInvalidAddress; case SEGV_ACCERR: return CrashReason::ePrivilegedAddress; #ifndef SEGV_BNDERR #define SEGV_BNDERR 3 #endif case SEGV_BNDERR: return CrashReason::eBoundViolation; } assert(false && "unexpected si_code for SIGSEGV"); return CrashReason::eInvalidCrashReason; } CrashReason GetCrashReasonForSIGILL(const siginfo_t &info) { assert(info.si_signo == SIGILL); switch (info.si_code) { case ILL_ILLOPC: return CrashReason::eIllegalOpcode; case ILL_ILLOPN: return CrashReason::eIllegalOperand; case ILL_ILLADR: return CrashReason::eIllegalAddressingMode; case ILL_ILLTRP: return CrashReason::eIllegalTrap; case ILL_PRVOPC: return CrashReason::ePrivilegedOpcode; case ILL_PRVREG: return CrashReason::ePrivilegedRegister; case ILL_COPROC: return CrashReason::eCoprocessorError; case ILL_BADSTK: return CrashReason::eInternalStackError; } assert(false && "unexpected si_code for SIGILL"); return CrashReason::eInvalidCrashReason; } CrashReason GetCrashReasonForSIGFPE(const siginfo_t &info) { assert(info.si_signo == SIGFPE); switch (info.si_code) { case FPE_INTDIV: return CrashReason::eIntegerDivideByZero; case FPE_INTOVF: return CrashReason::eIntegerOverflow; case FPE_FLTDIV: return CrashReason::eFloatDivideByZero; case FPE_FLTOVF: return CrashReason::eFloatOverflow; case FPE_FLTUND: return CrashReason::eFloatUnderflow; case FPE_FLTRES: return CrashReason::eFloatInexactResult; case FPE_FLTINV: return CrashReason::eFloatInvalidOperation; case FPE_FLTSUB: return CrashReason::eFloatSubscriptRange; } assert(false && "unexpected si_code for SIGFPE"); return CrashReason::eInvalidCrashReason; } CrashReason GetCrashReasonForSIGBUS(const siginfo_t &info) { assert(info.si_signo == SIGBUS); switch (info.si_code) { case BUS_ADRALN: return CrashReason::eIllegalAlignment; case BUS_ADRERR: return CrashReason::eIllegalAddress; case BUS_OBJERR: return CrashReason::eHardwareError; } assert(false && "unexpected si_code for SIGBUS"); return CrashReason::eInvalidCrashReason; } } std::string GetCrashReasonString(CrashReason reason, const siginfo_t &info) { std::string str; // make sure that siginfo_t has the bound fields available. #if defined(si_lower) && defined(si_upper) if (reason == CrashReason::eBoundViolation) { str = "signal SIGSEGV"; AppendBounds(str, reinterpret_cast(info.si_lower), reinterpret_cast(info.si_upper), reinterpret_cast(info.si_addr)); return str; } #endif return GetCrashReasonString(reason, reinterpret_cast(info.si_addr)); } std::string GetCrashReasonString(CrashReason reason, lldb::addr_t fault_addr) { std::string str; switch (reason) { default: assert(false && "invalid CrashReason"); break; case CrashReason::eInvalidAddress: str = "signal SIGSEGV: invalid address"; AppendFaultAddr(str, fault_addr); break; case CrashReason::ePrivilegedAddress: str = "signal SIGSEGV: address access protected"; AppendFaultAddr(str, fault_addr); break; case CrashReason::eBoundViolation: str = "signal SIGSEGV: bound violation"; break; case CrashReason::eIllegalOpcode: str = "signal SIGILL: illegal instruction"; break; case CrashReason::eIllegalOperand: str = "signal SIGILL: illegal instruction operand"; break; case CrashReason::eIllegalAddressingMode: str = "signal SIGILL: illegal addressing mode"; break; case CrashReason::eIllegalTrap: str = "signal SIGILL: illegal trap"; break; case CrashReason::ePrivilegedOpcode: str = "signal SIGILL: privileged instruction"; break; case CrashReason::ePrivilegedRegister: str = "signal SIGILL: privileged register"; break; case CrashReason::eCoprocessorError: str = "signal SIGILL: coprocessor error"; break; case CrashReason::eInternalStackError: str = "signal SIGILL: internal stack error"; break; case CrashReason::eIllegalAlignment: str = "signal SIGBUS: illegal alignment"; break; case CrashReason::eIllegalAddress: str = "signal SIGBUS: illegal address"; break; case CrashReason::eHardwareError: str = "signal SIGBUS: hardware error"; break; case CrashReason::eIntegerDivideByZero: str = "signal SIGFPE: integer divide by zero"; break; case CrashReason::eIntegerOverflow: str = "signal SIGFPE: integer overflow"; break; case CrashReason::eFloatDivideByZero: str = "signal SIGFPE: floating point divide by zero"; break; case CrashReason::eFloatOverflow: str = "signal SIGFPE: floating point overflow"; break; case CrashReason::eFloatUnderflow: str = "signal SIGFPE: floating point underflow"; break; case CrashReason::eFloatInexactResult: str = "signal SIGFPE: inexact floating point result"; break; case CrashReason::eFloatInvalidOperation: str = "signal SIGFPE: invalid floating point operation"; break; case CrashReason::eFloatSubscriptRange: str = "signal SIGFPE: invalid floating point subscript range"; break; } return str; } const char *CrashReasonAsString(CrashReason reason) { #ifdef LLDB_CONFIGURATION_BUILDANDINTEGRATION // Just return the code in ascii for integration builds. chcar str[8]; sprintf(str, "%d", reason); #else const char *str = nullptr; switch (reason) { case CrashReason::eInvalidCrashReason: str = "eInvalidCrashReason"; break; // SIGSEGV crash reasons. case CrashReason::eInvalidAddress: str = "eInvalidAddress"; break; case CrashReason::ePrivilegedAddress: str = "ePrivilegedAddress"; break; case CrashReason::eBoundViolation: str = "eBoundViolation"; break; // SIGILL crash reasons. case CrashReason::eIllegalOpcode: str = "eIllegalOpcode"; break; case CrashReason::eIllegalOperand: str = "eIllegalOperand"; break; case CrashReason::eIllegalAddressingMode: str = "eIllegalAddressingMode"; break; case CrashReason::eIllegalTrap: str = "eIllegalTrap"; break; case CrashReason::ePrivilegedOpcode: str = "ePrivilegedOpcode"; break; case CrashReason::ePrivilegedRegister: str = "ePrivilegedRegister"; break; case CrashReason::eCoprocessorError: str = "eCoprocessorError"; break; case CrashReason::eInternalStackError: str = "eInternalStackError"; break; // SIGBUS crash reasons: case CrashReason::eIllegalAlignment: str = "eIllegalAlignment"; break; case CrashReason::eIllegalAddress: str = "eIllegalAddress"; break; case CrashReason::eHardwareError: str = "eHardwareError"; break; // SIGFPE crash reasons: case CrashReason::eIntegerDivideByZero: str = "eIntegerDivideByZero"; break; case CrashReason::eIntegerOverflow: str = "eIntegerOverflow"; break; case CrashReason::eFloatDivideByZero: str = "eFloatDivideByZero"; break; case CrashReason::eFloatOverflow: str = "eFloatOverflow"; break; case CrashReason::eFloatUnderflow: str = "eFloatUnderflow"; break; case CrashReason::eFloatInexactResult: str = "eFloatInexactResult"; break; case CrashReason::eFloatInvalidOperation: str = "eFloatInvalidOperation"; break; case CrashReason::eFloatSubscriptRange: str = "eFloatSubscriptRange"; break; } #endif return str; } CrashReason GetCrashReason(const siginfo_t &info) { switch (info.si_signo) { case SIGSEGV: return GetCrashReasonForSIGSEGV(info); case SIGBUS: return GetCrashReasonForSIGBUS(info); case SIGFPE: return GetCrashReasonForSIGFPE(info); case SIGILL: return GetCrashReasonForSIGILL(info); } assert(false && "unexpected signal"); return CrashReason::eInvalidCrashReason; }