//===------------------------- cxa_default_handlers.cpp -------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // // // This file implements the default terminate_handler and unexpected_handler. //===----------------------------------------------------------------------===// #include #include #include #include #include "abort_message.h" #include "cxxabi.h" #include "cxa_handlers.hpp" #include "cxa_exception.hpp" #include "private_typeinfo.h" #include "include/atomic_support.h" #if !defined(LIBCXXABI_SILENT_TERMINATE) static const char* cause = "uncaught"; __attribute__((noreturn)) static void demangling_terminate_handler() { // If there might be an uncaught exception using namespace __cxxabiv1; __cxa_eh_globals* globals = __cxa_get_globals_fast(); if (globals) { __cxa_exception* exception_header = globals->caughtExceptions; // If there is an uncaught exception if (exception_header) { _Unwind_Exception* unwind_exception = reinterpret_cast<_Unwind_Exception*>(exception_header + 1) - 1; bool native_exception = (unwind_exception->exception_class & get_vendor_and_language) == (kOurExceptionClass & get_vendor_and_language); if (native_exception) { void* thrown_object = unwind_exception->exception_class == kOurDependentExceptionClass ? ((__cxa_dependent_exception*)exception_header)->primaryException : exception_header + 1; const __shim_type_info* thrown_type = static_cast(exception_header->exceptionType); // Try to get demangled name of thrown_type int status; char buf[1024]; size_t len = sizeof(buf); const char* name = __cxa_demangle(thrown_type->name(), buf, &len, &status); if (status != 0) name = thrown_type->name(); // If the uncaught exception can be caught with std::exception& const __shim_type_info* catch_type = static_cast(&typeid(std::exception)); if (catch_type->can_catch(thrown_type, thrown_object)) { // Include the what() message from the exception const std::exception* e = static_cast(thrown_object); abort_message("terminating with %s exception of type %s: %s", cause, name, e->what()); } else // Else just note that we're terminating with an exception abort_message("terminating with %s exception of type %s", cause, name); } else // Else we're terminating with a foreign exception abort_message("terminating with %s foreign exception", cause); } } // Else just note that we're terminating abort_message("terminating"); } __attribute__((noreturn)) static void demangling_unexpected_handler() { cause = "unexpected"; std::terminate(); } static std::terminate_handler default_terminate_handler = demangling_terminate_handler; static std::terminate_handler default_unexpected_handler = demangling_unexpected_handler; #else static std::terminate_handler default_terminate_handler = std::abort; static std::terminate_handler default_unexpected_handler = std::terminate; #endif // // Global variables that hold the pointers to the current handler // _LIBCXXABI_DATA_VIS std::terminate_handler __cxa_terminate_handler = default_terminate_handler; _LIBCXXABI_DATA_VIS std::unexpected_handler __cxa_unexpected_handler = default_unexpected_handler; namespace std { unexpected_handler set_unexpected(unexpected_handler func) _NOEXCEPT { if (func == 0) func = default_unexpected_handler; return __libcpp_atomic_exchange(&__cxa_unexpected_handler, func, _AO_Acq_Rel); } terminate_handler set_terminate(terminate_handler func) _NOEXCEPT { if (func == 0) func = default_terminate_handler; return __libcpp_atomic_exchange(&__cxa_terminate_handler, func, _AO_Acq_Rel); } }