eh_personality.c

#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include "dwarf_eh.h"
#include "objc/runtime.h"
#include "objc/hooks.h"
#include "class.h"
#include "objcxx_eh.h"

#define fprintf(...)

/**
 * Class of exceptions to distinguish between this and other exception types.
 */
static const uint64_t objc_exception_class = EXCEPTION_CLASS('G','N','U','C','O','B','J','C');
static const uint64_t cxx_exception_class = EXCEPTION_CLASS('G','N','U','C','C','+','+','\0');

/**
 * Structure used as a header on thrown exceptions.  
 */
struct objc_exception
{
	/** The selector value to be returned when installing the catch handler.
	 * Used at the call site to determine which catch() block should execute.
	 * This is found in phase 1 of unwinding then installed in phase 2.*/
	int handlerSwitchValue;
	/** The cached landing pad for the catch handler.*/
	void *landingPad;

	/** The language-agnostic part of the exception header. */
	struct _Unwind_Exception unwindHeader;
	/** Thrown object.  This is after the unwind header so that the C++
	 * exception handler can catch this as a foreign exception. */
	id object;
	/** C++ exception structure.  Used for mixed exceptions.  When we are in
	 * Objective-C++ code, we create this structure for passing to the C++
	 * exception personality function.  It will then handle installing
	 * exceptions for us.  */
	struct _Unwind_Exception *cxx_exception;
};

typedef enum
{
	handler_none,
	handler_cleanup,
	handler_catchall_id,
	handler_catchall,
	handler_class
} handler_type;

/**
 * Saves the result of the landing pad that we have found.  For ARM, this is
 * stored in the generic unwind structure, while on other platforms it is
 * stored in the Objective-C exception.
 */
static void saveLandingPad(struct _Unwind_Context *context,
                           struct _Unwind_Exception *ucb,
                           struct objc_exception *ex,
                           int selector,
                           dw_eh_ptr_t landingPad)
{
#ifdef __arm__
	// On ARM, we store the saved exception in the generic part of the structure
	ucb->barrier_cache.sp = _Unwind_GetGR(context, 13);
	ucb->barrier_cache.bitpattern[1] = (uint32_t)selector;
	ucb->barrier_cache.bitpattern[3] = (uint32_t)landingPad;
#else
	// Cache the results for the phase 2 unwind, if we found a handler
	// and this is not a foreign exception.  We can't cache foreign exceptions
	// because we don't know their structure (although we could cache C++
	// exceptions...)
	if (ex)
	{
		ex->handlerSwitchValue = selector;
		ex->landingPad = landingPad;
	}
#endif
}

/**
 * Loads the saved landing pad.  Returns 1 on success, 0 on failure.
 */
static int loadLandingPad(struct _Unwind_Context *context,
                          struct _Unwind_Exception *ucb,
                          struct objc_exception *ex,
                          unsigned long *selector,
                          dw_eh_ptr_t *landingPad)
{
#ifdef __arm__
	*selector = ucb->barrier_cache.bitpattern[1];
	*landingPad = (dw_eh_ptr_t)ucb->barrier_cache.bitpattern[3];
	return 1;
#else
	if (ex)
	{
		*selector = ex->handlerSwitchValue;
		*landingPad = ex->landingPad;
		return 0;
	}
	return 0;
#endif
}

static inline _Unwind_Reason_Code continueUnwinding(struct _Unwind_Exception *ex,
                                                    struct _Unwind_Context *context)
{
#ifdef __arm__
	if (__gnu_unwind_frame(ex, context) != _URC_OK) { return _URC_FAILURE; }
#endif
	return _URC_CONTINUE_UNWIND;
}

static void cleanup(_Unwind_Reason_Code reason, struct _Unwind_Exception *e)
{
	/*
  if (header->exceptionDestructor)
		  header->exceptionDestructor (e + 1);

	free((struct objc_exception*) ((char*)e - offsetof(struct objc_exception,
					unwindHeader)));
					*/
}
/**
 * Throws an Objective-C exception.  This function is, unfortunately, used for
 * rethrowing caught exceptions too, even in @finally() blocks.  Unfortunately,
 * this means that we have some problems if the exception is boxed.
 */
void objc_exception_throw(id object)
{

	SEL rethrow_sel = sel_registerName("rethrow");
	if ((nil != object) &&
	    (class_respondsToSelector(classForObject(object), rethrow_sel)))
	{
		fprintf(stderr, "Rethrowing\n");
		IMP rethrow = objc_msg_lookup(object, rethrow_sel);
		rethrow(object, rethrow_sel);
		// Should not be reached!  If it is, then the rethrow method actually
		// didn't, so we throw it normally.
	}

	fprintf(stderr, "Throwing %p\n", object);

	struct objc_exception *ex = calloc(1, sizeof(struct objc_exception));

	ex->unwindHeader.exception_class = objc_exception_class;
	ex->unwindHeader.exception_cleanup = cleanup;

	ex->object = object;

	_Unwind_Reason_Code err = _Unwind_RaiseException(&ex->unwindHeader);
	free(ex);
	if (_URC_END_OF_STACK == err && 0 != _objc_unexpected_exception)
	{
		_objc_unexpected_exception(object);
	}
	fprintf(stderr, "Throw returned %d\n",(int) err);
	abort();
}

static Class get_type_table_entry(struct _Unwind_Context *context,
                                  struct dwarf_eh_lsda *lsda,
                                  int filter)
{
	dw_eh_ptr_t record = lsda->type_table -
		dwarf_size_of_fixed_size_field(lsda->type_table_encoding)*filter;
	dw_eh_ptr_t start = record;
	int64_t offset = read_value(lsda->type_table_encoding, &record);

	if (0 == offset) { return Nil; }

	// ...so we need to resolve it
	char *class_name = (char*)(intptr_t)resolve_indirect_value(context,
			lsda->type_table_encoding, offset, start);

	if (0 == class_name) { return Nil; }

	fprintf(stderr, "Class name: %s\n", class_name);

	if (strcmp("@id", class_name) == 0) { return (Class)1; }

	return (Class)objc_getClass(class_name);
}

static BOOL isKindOfClass(Class thrown, Class type)
{
	do
	{
		if (thrown == type)
		{
			return YES;
		}
		thrown = class_getSuperclass(thrown);
	} while (Nil != thrown);

	return NO;
}


static handler_type check_action_record(struct _Unwind_Context *context,
                                        BOOL foreignException,
                                        struct dwarf_eh_lsda *lsda,
                                        dw_eh_ptr_t action_record,
                                        Class thrown_class,
                                        unsigned long *selector)
{
	//if (!action_record) { return handler_cleanup; }
	while (action_record)
	{
		int filter = read_sleb128(&action_record);
		dw_eh_ptr_t action_record_offset_base = action_record;
		int displacement = read_sleb128(&action_record);
		*selector = filter;
		fprintf(stderr, "Filter: %d\n", filter);
		if (filter > 0)
		{
			Class type = get_type_table_entry(context, lsda, filter);
			fprintf(stderr, "%p type: %d\n", type, !foreignException);
			// Catchall
			if (Nil == type)
			{
				return handler_catchall;
			}
			// We treat id catches as catchalls when an object is thrown and as
			// nothing when a foreign exception is thrown
			else if ((Class)1 == type)
			{
				fprintf(stderr, "Found id catch\n");
				if (!foreignException)
				{
					return handler_catchall_id;
				}
			}
			else if (!foreignException && isKindOfClass(thrown_class, type))
			{
				fprintf(stderr, "found handler for %s\n", type->name);
				return handler_class;
			}
			else if (thrown_class == type)
			{
				return handler_class;
			}
		}
		else if (filter == 0)
		{
			fprintf(stderr, "0 filter\n");
			// Cleanup?  I think the GNU ABI doesn't actually use this, but it
			// would be a good way of indicating a non-id catchall...
			return handler_cleanup;
		}
		else
		{
			fprintf(stderr, "Filter value: %d\n"
					"Your compiler and I disagree on the correct layout of EH data.\n", 
					filter);
			abort();
		}
		*selector = 0;
		action_record = displacement ? 
			action_record_offset_base + displacement : 0;
	}
	return handler_none;
}

/**
 * The Objective-C exception personality function.  
 */
BEGIN_PERSONALITY_FUNCTION(__gnu_objc_personality_v0)
	fprintf(stderr, "Personality function called\n");
	
	// This personality function is for version 1 of the ABI.  If you use it
	// with a future version of the ABI, it won't know what to do, so it
	// reports a fatal error and give up before it breaks anything.
	if (1 != version)
	{
		return _URC_FATAL_PHASE1_ERROR;
	}
	struct objc_exception *ex = 0;
#ifndef fprintf
	char *cls = (char*)&exceptionClass;
#endif
	fprintf(stderr, "Class: %c%c%c%c%c%c%c%c\n", cls[7], cls[6], cls[5], cls[4], cls[3], cls[2], cls[1], cls[0]);

	// Check if this is a foreign exception.  If it is a C++ exception, then we
	// have to box it.  If it's something else, like a LanguageKit exception
	// then we ignore it (for now)
	BOOL foreignException = exceptionClass != objc_exception_class;
	// Is this a C++ exception containing an Objective-C++ object?
	BOOL objcxxException = NO;
	// The object to return
	void *object = NULL;

#ifdef NO_OBJCXX
	if (exceptionClass == cxx_exception_class)
	{
		id obj = objc_object_for_cxx_exception(exceptionObject);
		if (obj != (id)-1)
		{
			object = obj;
			fprintf(stderr, "ObjC++ object exception %p\n", object);
			objcxxException = YES;
			// This is a foreign exception, buy for the purposes of exception
			// matching, we pretend that it isn't.
			foreignException = NO;
		}
	}
#endif

	Class thrown_class = Nil;

	if (objcxxException)
	{
		thrown_class = (object == 0) ? Nil : classForObject((id)object);
	}
	// If it's not a foreign exception, then we know the layout of the
	// language-specific exception stuff.
	else if (!foreignException)
	{
		ex = (struct objc_exception*) ((char*)exceptionObject - 
				offsetof(struct objc_exception, unwindHeader));

		thrown_class = classForObject(ex->object);
	}
	else if (_objc_class_for_boxing_foreign_exception)
	{
		thrown_class = _objc_class_for_boxing_foreign_exception(exceptionClass);
		fprintf(stderr, "Foreign class: %p\n", thrown_class);
	}
	unsigned char *lsda_addr = (void*)_Unwind_GetLanguageSpecificData(context);
	fprintf(stderr, "LSDA: %p\n", lsda_addr);

	// No LSDA implies no landing pads - try the next frame
	if (0 == lsda_addr) { return _URC_CONTINUE_UNWIND; }

	// These two variables define how the exception will be handled.
	struct dwarf_eh_action action = {0};
	unsigned long selector = 0;
	
	if (actions & _UA_SEARCH_PHASE)
	{
		fprintf(stderr, "Search phase...\n");
		struct dwarf_eh_lsda lsda = parse_lsda(context, lsda_addr);
		action = dwarf_eh_find_callsite(context, &lsda);
		handler_type handler = check_action_record(context, foreignException,
				&lsda, action.action_record, thrown_class, &selector);
		// If there's no action record, we've only found a cleanup, so keep
		// searching for something real
		if (handler == handler_class ||
		   ((handler == handler_catchall_id) && !foreignException) ||
			(handler == handler_catchall))
		{
			saveLandingPad(context, exceptionObject, ex, selector, action.landing_pad);
			fprintf(stderr, "Found handler! %d\n", handler);
			return _URC_HANDLER_FOUND;
		}
		return _URC_CONTINUE_UNWIND;
	}
	fprintf(stderr, "Phase 2: Fight!\n");

	// TODO: If this is a C++ exception, we can cache the lookup and cheat a
	// bit
	if (!(actions & _UA_HANDLER_FRAME))
	{
		struct dwarf_eh_lsda lsda = parse_lsda(context, lsda_addr);
		action = dwarf_eh_find_callsite(context, &lsda);
		// If there's no cleanup here, continue unwinding.
		if (0 == action.landing_pad)
		{
			return _URC_CONTINUE_UNWIND;
		}
		handler_type handler = check_action_record(context, foreignException,
				&lsda, action.action_record, thrown_class, &selector);
		fprintf(stderr, "handler! %d %d\n", (int)handler,  (int)selector);
		// If this is not a cleanup, ignore it and keep unwinding.
		//if (check_action_record(context, foreignException, &lsda,
				//action.action_record, thrown_class, &selector) != handler_cleanup)
		if (handler != handler_cleanup)
		{
			fprintf(stderr, "Ignoring handler! %d\n",handler);
			return _URC_CONTINUE_UNWIND;
		}
		fprintf(stderr, "Installing cleanup...\n");
		// If there is a cleanup, we need to return the exception structure
		// (not the object) to the calling frame.  The exception object
		object = exceptionObject;
		//selector = 0;
	}
	else if (foreignException || objcxxException)
	{
		struct dwarf_eh_lsda lsda = parse_lsda(context, lsda_addr);
		action = dwarf_eh_find_callsite(context, &lsda);
		check_action_record(context, foreignException, &lsda,
				action.action_record, thrown_class, &selector);
		// If it's a foreign exception, then box it.  If it's an Objective-C++
		// exception, then we need to delete the exception object.
		if (foreignException)
		{
			fprintf(stderr, "Doing the foreign exception thing...\n");
			//[thrown_class exceptionWithForeignException: exceptionObject];
			SEL box_sel = sel_registerName("exceptionWithForeignException:");
			IMP boxfunction = objc_msg_lookup((id)thrown_class, box_sel);
			object = boxfunction((id)thrown_class, box_sel, exceptionObject);
			fprintf(stderr, "Boxed as %p\n", object);
		}
		else // ObjCXX exception
		{
			_Unwind_DeleteException(exceptionObject);
		}
	}
	else
	{
		// Restore the saved info if we saved some last time.
		loadLandingPad(context, exceptionObject, ex, &selector, &action.landing_pad);
		object = ex->object;
		free(ex);
	}

	_Unwind_SetIP(context, (unsigned long)action.landing_pad);
	_Unwind_SetGR(context, __builtin_eh_return_data_regno(0), 
			(unsigned long)object);
	_Unwind_SetGR(context, __builtin_eh_return_data_regno(1), selector);

	return _URC_INSTALL_CONTEXT;
}

// FIXME!
#ifndef __arm__
BEGIN_PERSONALITY_FUNCTION(__gnustep_objcxx_personality_v0)
	if (exceptionClass == objc_exception_class)
	{
		struct objc_exception *ex = (struct objc_exception*)
			((char*)exceptionObject - offsetof(struct objc_exception,
				unwindHeader));
		if (0 == ex->cxx_exception)
		{
			id *newEx = __cxa_allocate_exception(sizeof(id));
			*newEx = ex->object;
			ex->cxx_exception = objc_init_cxx_exception(newEx);
			ex->cxx_exception->exception_class = cxx_exception_class;
			ex->cxx_exception->exception_cleanup = cleanup;
			ex->cxx_exception->private_1 = exceptionObject->private_1;
			ex->cxx_exception->private_2 = exceptionObject->private_2;
		}
		exceptionObject = ex->cxx_exception;
		exceptionClass = cxx_exception_class;
	}
	return CALL_PERSONALITY_FUNCTION(__gxx_personality_v0);
}
#endif