#include #include #include "exception_handling.h" #define CALL_FIRST 1 __declspec(thread) jmp_buf jmpBuf; __declspec(thread) PVOID caughtExceptionAddress; __declspec(thread) DWORD64 caughtInstructionPointer; __declspec(thread) PVOID savedStackPointer; __declspec(thread) BOOL exceptionHandlerInstalled = FALSE; __declspec(thread) BOOL alreadyHandlingException = FALSE; __declspec(thread) PVOID handle; void longjmpOutOfHere() { longjmp(jmpBuf, 1); } /// Get the current address that we use to jmp, the no inline is important static __declspec(noinline) void *get_callee_frame_address(void) { return _AddressOfReturnAddress(); } static LONG WINAPI exceptionHandler(struct _EXCEPTION_POINTERS *ExceptionInfo) { EXCEPTION_RECORD* pExceptionRecord = ExceptionInfo->ExceptionRecord; PCONTEXT pCONTEXT = ExceptionInfo->ContextRecord; caughtExceptionAddress = pExceptionRecord->ExceptionAddress; caughtInstructionPointer = pCONTEXT->Rip; if (alreadyHandlingException == TRUE) { return EXCEPTION_CONTINUE_SEARCH; } alreadyHandlingException = TRUE; // Basically, here, we coerce the os to resume us into a context that calls `longjmp` instead of just continuing. // Presumably, we cannot `longjmp` out of the signal/exception context, like we can on unix. pCONTEXT->Rip = (uintptr_t)(&longjmpOutOfHere); pCONTEXT->Rsp = (uintptr_t)(savedStackPointer); return EXCEPTION_CONTINUE_EXECUTION; } static void removeExceptionHandler() { if (exceptionHandlerInstalled == FALSE) { return; } RemoveVectoredExceptionHandler(handle); exceptionHandlerInstalled = FALSE; } uint8_t callProtected(trampoline_t trampoline, const struct wasmer_instance_context_t* ctx, const struct func_t* func, const uint64_t* param_vec, uint64_t* return_vec, struct call_protected_result_t* out_result) { // install exception handler if (exceptionHandlerInstalled == FALSE) { exceptionHandlerInstalled = TRUE; handle = AddVectoredExceptionHandler(CALL_FIRST, exceptionHandler); } // jmp jmp jmp! int signum = setjmp(jmpBuf); if (signum == 0) { // save the stack pointer savedStackPointer = get_callee_frame_address(); trampoline(ctx, func, param_vec, return_vec); out_result->code = 0; out_result->exception_address = 0; out_result->instruction_pointer = 0; removeExceptionHandler(); return TRUE; } out_result->code = (uint64_t)signum; out_result->exception_address = (uint64_t)caughtExceptionAddress; out_result->instruction_pointer = caughtInstructionPointer; caughtExceptionAddress = 0; caughtInstructionPointer = 0; removeExceptionHandler(); return FALSE; }