//===------------------------- cxa_exception.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 "Exception Handling APIs" // http://www.codesourcery.com/public/cxx-abi/abi-eh.html // //===----------------------------------------------------------------------===// #include "cxxabi.h" #include // for std::terminate #include // for malloc, free #include // for memset #include #include "cxa_exception.hpp" namespace __cxxabiv1 { static const uint64_t kOurExceptionClass = 0x434C4E47432B2B00; // CLNGC++\0 static const uint64_t kOurDependentExceptionClass = 0x434C4E47432B2B01; // CLNGC++\1 // Utility routines static __cxa_exception *exception_from_thrown_object(void *p) throw() { return ((__cxa_exception *) p) - 1; } static void * thrown_object_from_exception(void *p) throw() { return (void *) (((__cxa_exception *) p) + 1 ); } static size_t object_size_from_exception_size(size_t size) throw() { return size + sizeof (__cxa_exception); } // Get the exception object from the unwind pointer. // Relies on the structure layout, where the unwind pointer is right in // front of the user's exception object static __cxa_exception * exception_from_exception_object(void *ptr) throw() { _Unwind_Exception *p = reinterpret_cast<_Unwind_Exception *>(ptr); return exception_from_thrown_object(p + 1 ); } static void setExceptionClass(_Unwind_Exception *unwind) throw() { unwind->exception_class = kOurExceptionClass; } static void setDependentExceptionClass(_Unwind_Exception *unwind) throw() { unwind->exception_class = kOurDependentExceptionClass; } // Is it one of ours? static bool isOurExceptionClass(_Unwind_Exception *unwind) throw() { return(unwind->exception_class == kOurExceptionClass)|| (unwind->exception_class == kOurDependentExceptionClass); } static bool isDependentException(_Unwind_Exception *unwind) throw() { return (unwind->exception_class & 0xFF) == 0x01; } // TODO: This needs to be atomic static int incrementHandlerCount(__cxa_exception *exception) throw() { return ++exception->handlerCount; } // TODO: This needs to be atomic static int decrementHandlerCount(__cxa_exception *exception) throw() { return --exception->handlerCount; } #include "fallback_malloc.cpp" // Allocate some memory from _somewhere_ static void *do_malloc(size_t size) throw() { void *ptr = std::malloc(size); if (NULL == ptr) // if malloc fails, fall back to emergency stash ptr = fallback_malloc(size); return ptr; } // Didn't know you could "return " from a void function, did you? // Well, you can, if the type of the expression is "void" also. static void do_free(void *ptr) throw() { return is_fallback_ptr(ptr) ? fallback_free(ptr) : std::free(ptr); } /* Howard says: If reason isn't _URC_FOREIGN_EXCEPTION_CAUGHT, then the terminateHandler stored in exc is called. Otherwise the exceptionDestructor stored in exc is called, and then the memory for the exception is deallocated. */ static void exception_cleanup_func(_Unwind_Reason_Code reason, struct _Unwind_Exception* exc) { __cxa_exception *exception = exception_from_exception_object(exc); if (_URC_FOREIGN_EXCEPTION_CAUGHT != reason) exception->terminateHandler (); void * thrown_object = thrown_object_from_exception(exception); if (NULL != exception->exceptionDestructor) exception->exceptionDestructor(thrown_object); __cxa_free_exception(thrown_object); } static LIBCXXABI_NORETURN void failed_throw(__cxa_exception *exception) throw() { // Section 2.5.3 says: // * For purposes of this ABI, several things are considered exception handlers: // ** A terminate() call due to a throw. // and // * Upon entry, Following initialization of the catch parameter, // a handler must call: // * void *__cxa_begin_catch(void *exceptionObject ); (void) __cxa_begin_catch(&exception->unwindHeader); std::terminate(); } extern "C" { // Allocate a __cxa_exception object, and zero-fill it. // Reserve "thrown_size" bytes on the end for the user's exception // object. Zero-fill the object. If memory can't be allocated, call // std::terminate. Return a pointer to the memory to be used for the // user's exception object. void * __cxa_allocate_exception (size_t thrown_size) throw() { size_t actual_size = object_size_from_exception_size(thrown_size); void *ptr = do_malloc(actual_size); if (NULL == ptr) std::terminate(); std::memset(ptr, 0, actual_size); return thrown_object_from_exception(ptr); } // Free a __cxa_exception object allocated with __cxa_allocate_exception. void __cxa_free_exception (void * thrown_exception) throw() { do_free(exception_from_thrown_object(thrown_exception)); } // This function shall allocate a __cxa_dependent_exception and // return a pointer to it. (Really to the object, not past its' end). // Otherwise, it will work like __cxa_allocate_exception. void * __cxa_allocate_dependent_exception () throw() { size_t actual_size = sizeof(__cxa_dependent_exception); void *ptr = do_malloc(actual_size); if (NULL == ptr) std::terminate(); std::memset(ptr, 0, actual_size); // bookkeeping here ? return ptr; } // This function shall free a dependent_exception. // It does not affect the reference count of the primary exception. void __cxa_free_dependent_exception (void * dependent_exception) throw() { // I'm pretty sure there's no bookkeeping here do_free(dependent_exception); } // 2.4.3 Throwing the Exception Object /* After constructing the exception object with the throw argument value, the generated code calls the __cxa_throw runtime library routine. This routine never returns. The __cxa_throw routine will do the following: * Obtain the __cxa_exception header from the thrown exception object address, which can be computed as follows: __cxa_exception *header = ((__cxa_exception *) thrown_exception - 1); * Save the current unexpected_handler and terminate_handler in the __cxa_exception header. * Save the tinfo and dest arguments in the __cxa_exception header. * Set the exception_class field in the unwind header. This is a 64-bit value representing the ASCII string "XXXXC++\0", where "XXXX" is a vendor-dependent string. That is, for implementations conforming to this ABI, the low-order 4 bytes of this 64-bit value will be "C++\0". * Increment the uncaught_exception flag. * Call _Unwind_RaiseException in the system unwind library, Its argument is the pointer to the thrown exception, which __cxa_throw itself received as an argument. __Unwind_RaiseException begins the process of stack unwinding, described in Section 2.5. In special cases, such as an inability to find a handler, _Unwind_RaiseException may return. In that case, __cxa_throw will call terminate, assuming that there was no handler for the exception. */ LIBCXXABI_NORETURN void __cxa_throw(void * thrown_exception, std::type_info * tinfo, void (*dest)(void *)) { __cxa_eh_globals *globals = __cxa_get_globals(); __cxa_exception *exception = exception_from_thrown_object(thrown_exception); exception->unexpectedHandler = __cxxabiapple::__cxa_unexpected_handler; exception->terminateHandler = __cxxabiapple::__cxa_terminate_handler; exception->exceptionType = tinfo; exception->exceptionDestructor = dest; setExceptionClass(&exception->unwindHeader); exception->referenceCount = 1; // This is a newly allocated exception, no need for thread safety. globals->uncaughtExceptions += 1; // Not atomically, since globals are thread-local exception->unwindHeader.exception_cleanup = exception_cleanup_func; _Unwind_RaiseException(&exception->unwindHeader); // If we get here, some kind of unwinding error has occurred. failed_throw(exception); } // 2.5.3 Exception Handlers extern void * __cxa_get_exception_ptr(void * exceptionObject) throw() { return exception_from_exception_object(exceptionObject); } /* This routine: * Increment's the exception's handler count. * Places the exception on the stack of currently-caught exceptions if it is not already there, linking the exception to the previous top of the stack. * Decrements the uncaught_exception count. * Returns the adjusted pointer to the exception object. */ void * __cxa_begin_catch(void * exceptionObject) throw() { __cxa_eh_globals *globals = __cxa_get_globals(); __cxa_exception *exception = exception_from_exception_object(exceptionObject); // TODO add stuff for dependent exceptions. // TODO - should this be atomic? // Increment the handler count, removing the flag about being rethrown // assert(exception->handlerCount != 0); exception->handlerCount = exception->handlerCount < 0 ? -exception->handlerCount + 1 : exception->handlerCount + 1; // place the exception on the top of the stack if it's not there. if (exception != globals->caughtExceptions) { exception->nextException = globals->caughtExceptions; globals->caughtExceptions = exception; } globals->uncaughtExceptions -= 1; // Not atomically, since globals are thread-local return thrown_object_from_exception(exception); } /* Upon exit for any reason, a handler must call: void __cxa_end_catch (); This routine: * Locates the most recently caught exception and decrements its handler count. * Removes the exception from the caught exception stack, if the handler count goes to zero. * Destroys the exception if the handler count goes to zero, and the exception was not re-thrown by throw. */ void __cxa_end_catch() { __cxa_eh_globals *globals = __cxa_get_globals(); __cxa_exception *current_exception = globals->caughtExceptions; if (NULL != current_exception) { if (current_exception->handlerCount < 0) { // The exception has been rethrown if (0 == incrementHandlerCount(current_exception)) { globals->caughtExceptions = current_exception->nextException; // Howard says: If the exception has been rethrown, don't destroy. } } else { if (0 == decrementHandlerCount(current_exception)) { // Remove from the chain of uncaught exceptions globals->caughtExceptions = current_exception->nextException; if (!isDependentException(¤t_exception->unwindHeader)) _Unwind_DeleteException(¤t_exception->unwindHeader); else { // TODO: deal with a dependent exception } } } } } std::type_info * __cxa_current_exception_type() { // get the current exception __cxa_eh_globals *globals = __cxa_get_globals(); __cxa_exception *current_exception = globals->caughtExceptions; if (NULL == current_exception) return NULL; // No current exception // TODO add stuff for dependent exceptions. return current_exception->exceptionType; } // 2.5.4 Rethrowing Exceptions /* This routine * marks the exception object on top of the caughtExceptions stack (in an implementation-defined way) as being rethrown. * If the caughtExceptions stack is empty, it calls terminate() (see [C++FDIS] [except.throw], 15.1.8). * It then returns to the handler that called it, which must call __cxa_end_catch(), perform any necessary cleanup, and finally call _Unwind_Resume() to continue unwinding. */ extern LIBCXXABI_NORETURN void __cxa_rethrow() { __cxa_eh_globals *globals = __cxa_get_globals(); __cxa_exception *exception = exception_from_exception_object(globals->caughtExceptions ); if (NULL == exception) // there's no current exception! std::terminate (); // Mark the exception as being rethrown exception->handlerCount = -exception->handlerCount ; // TODO: Atomic #if __arm__ (void) _Unwind_SjLj_Resume_or_Rethrow(&exception->unwindHeader); #else (void) _Unwind_Resume_or_Rethrow (&exception->unwindHeader); #endif // If we get here, some kind of unwinding error has occurred. failed_throw(exception); } } // extern "C" } // abi