src/third_party/libdisasm/swig/libdisasm.i - breakpad - Git at Google

 %module x86disasm
 %{
 #include "../../libdis.h"
 #include "../../../config.h"
 %}

 %rename(version_string) x86_version_string;
 %include "../../libdis.h"
 #include "../../../config.h"

 %inline %{
 	const char * x86_version_string( void ) {
 		return PACKAGE_VERSION;
 	}
 %}

 %rename(report_codes) x86_report_codes;
 %rename(report_error) x86_report_error;
 %rename(options) x86_options;
 %rename(init) x86_init;
 %rename(set_reporter) x86_set_reporter;
 %rename(set_options) x86_set_options;
 %rename(options) x86_get_options;
 %rename(cleanup) x86_cleanup;
 %rename(reg_type) x86_reg_type;
 %rename(reg) x86_reg_t;
 %rename(eaddr) x86_ea_t;
 %rename(op_type) x86_op_type;
 %rename(optype_is_address) x86_optype_is_address;
 %rename(optype_is_relative) x86_optype_is_relative;
 %rename(op_datatype) x86_op_datatype;
 %rename(op_access) x86_op_access;
 %rename(op_flags) x86_op_flags;
 %rename(operand) x86_op_t;
 %rename(insn_group) x86_insn_group;
 %rename(insn_type) x86_insn_type;
 %rename(insn_note) x86_insn_note ;
 %rename(flag_status) x86_flag_status;
 %rename(insn_cpu) x86_insn_cpu ;
 %rename(insn_isa) x86_insn_isa ;
 %rename(insn_prefix) x86_insn_prefix ;
 %rename(insn) x86_insn_t;
 %rename(insn_is_valid) x86_insn_is_valid;
 %rename(i_disasm) x86_disasm;
 %rename(i_disasm_range) x86_disasm_range;
 %rename(i_disasm_forward) x86_disasm_forward;
 %rename(insn_operand_count) x86_operand_count;
 %rename(insn_operand_1st) x86_operand_1st;
 %rename(insn_operand_2nd) x86_operand_2nd;
 %rename(insn_operand_3rd) x86_operand_3rd;
 %rename(insn_dest_operand) x86_get_dest_operand;
 %rename(insn_src_operand) x86_get_src_operand;
 %rename(insn_imm_operand) x86_get_imm_operand;
 %rename(operand_size) x86_operand_size;
 %rename(insn_rel_offset) x86_get_rel_offset;
 %rename(insn_branch_target) x86_get_branch_target;
 %rename(insn_imm) x86_get_imm;
 %rename(insn_raw_imm) x86_get_raw_imm;
 %rename(insn_set_addr) x86_set_insn_addr;
 %rename(insn_set_offset) x86_set_insn_offset;
 %rename(insn_set_function) x86_set_insn_function;
 %rename(insn_set_block) x86_set_insn_block;
 %rename(insn_tag) x86_tag_insn;
 %rename(insn_untag) x86_untag_insn;
 %rename(insn_is_tagged) x86_insn_is_tagged;
 %rename(asm_format) x86_asm_format;
 %rename(operand_format) x86_format_operand;
 %rename(insn_format_mnemonic) x86_format_mnemonic;
 %rename(insn_format) x86_format_insn;
 %rename(header_format) x86_format_header;
 %rename(endian) x86_endian;
 %rename(size_default_address) x86_addr_size;
 %rename(size_default_operand) x86_op_size;
 %rename(size_machine_word) x86_word_size;
 %rename(size_max_insn) x86_max_insn_size;
 %rename(reg_sp) x86_sp_reg;
 %rename(reg_fp) x86_fp_reg;
 %rename(reg_ip) x86_ip_reg;
 %rename(reg_from_id) x86_reg_from_id;
 %rename(reg_from_alias) x86_get_aliased_reg;
 %rename(invariant_op) x86_invariant_op_t;
 %rename(invariant) x86_invariant_t;
 %rename(disasm_invariant) x86_invariant_disasm;
 %rename(disasm_size) x86_size_disasm;

 %include "carrays.i"

 %array_class( unsigned char, byteArray );


 %apply (unsigned char *STRING, int LENGTH) {
 	(unsigned char *buf, size_t buf_len)
 };


 %newobject x86_op_copy;
 %inline %{
 	x86_op_t * x86_op_copy( x86_op_t * src ) {
 		x86_op_t *op;

 		if (! src ) {
 			return NULL;
 		}

 		op = (x86_op_t *) calloc( sizeof(x86_op_t), 1 );
 		if ( op ) {
 			memcpy( op, src, sizeof(x86_op_t) );
 		}

 		return op;
 	}

 	typedef struct x86_op_list_node {
 		x86_op_t *op;
 		struct x86_op_list_node *next, *prev;
 	} x86_op_list_node;

 	typedef struct x86_op_list {
 		size_t count;
 		x86_op_list_node *head, *tail, *curr;
 	} x86_op_list;

 	x86_op_list * x86_op_list_new () {
 		x86_op_list *list = (x86_op_list *)
 				calloc( sizeof(x86_op_list), 1 );
 		list->count = 0;
 		return list;
 	}

 	void x86_op_list_free(x86_op_list *list) {
 		x86_op_list_node *node, *next;

 		node = list->head;
 		while ( node ) {
 			next = node->next;
 			/* free( node->insn ); */
 			free( node );
 			node = next;
 		}

 		free( list );
 	}

 	x86_op_list_node * x86_op_list_first(x86_op_list *list) {
 		return list->head;
 	}

 	x86_op_list_node * x86_op_list_last(x86_op_list *list) {
 		return list->tail;
 	}

 	x86_op_list_node * x86_op_list_next(x86_op_list *list) {
 		if (! list->curr ) {
 			list->curr = list->head;
 			return list->head;
 		}

 		list->curr = list->curr->next;
 		return list->curr;
 	}

 	x86_op_list_node * x86_op_list_prev(x86_op_list *list) {
 		if (! list->curr ) {
 			list->curr = list->tail;
 			return list->tail;
 		}

 		list->curr = list->curr->prev;
 		return list->curr;
 	}

 %}

 %newobject x86_op_list_append;

 %inline %{
 	void x86_op_list_append( x86_op_list * list, x86_op_t *op ) {
 		x86_op_list_node *node = (x86_op_list_node *)
 					calloc( sizeof(x86_op_list_node) , 1 );
 		if (! node ) {
 			return;
 		}

 		list->count++;
 		if ( ! list->tail ) {
 			list->head = list->tail = node;
 		} else {
 			list->tail->next = node;
 			node->prev = list->tail;
 			list->tail = node;
 		}

 		node->op = x86_op_copy( op );
 	}

 	x86_oplist_t * x86_op_list_node_copy( x86_oplist_t * list ) {
 		x86_oplist_t *ptr;
 		ptr = (x86_oplist_t *) calloc( sizeof(x86_oplist_t), 1 );
 		if ( ptr ) {
 			memcpy( &ptr->op, &list->op, sizeof(x86_op_t) );
 		}

 		return ptr;
 	}

 	x86_insn_t * x86_insn_new() {
 		x86_insn_t *insn = (x86_insn_t *)
 				   calloc( sizeof(x86_insn_t), 1 );
 		return insn;
 	}

 	void x86_insn_free( x86_insn_t *insn ) {
 		x86_oplist_free( insn );
 		free( insn );
 	}
 %}

 %newobject x86_insn_copy;

 %inline %{
 	x86_insn_t * x86_insn_copy( x86_insn_t *src) {
 		x86_oplist_t *ptr, *list, *last = NULL;
 		x86_insn_t *insn = (x86_insn_t *)
 				   calloc( sizeof(x86_insn_t), 1 );

 		if ( insn ) {
 			memcpy( insn, src, sizeof(x86_insn_t) );
 			insn->operands = NULL;
 			insn->block = NULL;
 			insn->function = NULL;

 			/* copy operand list */
 			for ( list = src->operands; list; list = list->next ) {
 				ptr = x86_op_list_node_copy( list );

 				if (! ptr ) {
 					continue;
 				}

 				if ( insn->operands ) {
 					last->next = ptr;
 				} else {
 					insn->operands = ptr;
 				}
 				last = ptr;
 			}
 		}

 		return insn;
 	}

 	x86_op_list * x86_insn_op_list( x86_insn_t *insn ) {
 		x86_oplist_t *list = insn->operands;
 		x86_op_list *op_list = x86_op_list_new();

 		for ( list = insn->operands; list; list = list->next ) {
 			x86_op_list_append( op_list, &list->op );
 		}

 		return op_list;
 	}

 	typedef struct x86_insn_list_node {
 		x86_insn_t *insn;
 		struct x86_insn_list_node *next, *prev;
 	} x86_insn_list_node;

 	typedef struct x86_insn_list {
 		size_t count;
 		x86_insn_list_node *head, *tail, *curr;
 	} x86_insn_list;

 %}

 %newobject x86_insn_list_new;

 %inline %{
 	x86_insn_list * x86_insn_list_new () {
 		x86_insn_list *list = (x86_insn_list *)
 				calloc( sizeof(x86_insn_list), 1 );
 		list->count = 0;
 		return list;
 	}

 	void x86_insn_list_free( x86_insn_list * list ) {
 		x86_insn_list_node *node, *next;

 		if (! list ) {
 			return;
 		}

 		node = list->head;
 		while ( node ) {
 			next = node->next;
 			/* free( node->insn ); */
 			free( node );
 			node = next;
 		}

 		free( list );
 	}

 	x86_insn_list_node * x86_insn_list_first( x86_insn_list *list ) {
 		if (! list ) {
 			return NULL;
 		}
 		return list->head;
 	}

 	x86_insn_list_node * x86_insn_list_last( x86_insn_list *list ) {
 		if (! list ) {
 			return NULL;
 		}
 		return list->tail;
 	}

 	x86_insn_list_node * x86_insn_list_next( x86_insn_list *list ) {
 		if (! list ) {
 			return NULL;
 		}
 		if (! list->curr ) {
 			list->curr = list->head;
 			return list->head;
 		}

 		list->curr = list->curr->next;
 		return list->curr;
 	}

 	x86_insn_list_node * x86_insn_list_prev( x86_insn_list *list ) {
 		if (! list ) {
 			return NULL;
 		}
 		if (! list->curr ) {
 			list->curr = list->tail;
 			return list->tail;
 		}

 		list->curr = list->curr->prev;
 		return list->curr;
 	}

 %}

 %newobject x86_insn_list_append;

 %inline %{
 	void x86_insn_list_append( x86_insn_list *list, x86_insn_t *insn ) {
 		x86_insn_list_node *node;
 		if (! list ) {
 			return;
 		}

 		node = (x86_insn_list_node *)
 					calloc( sizeof(x86_insn_list_node) , 1 );

 		if (! node ) {
 			return;
 		}

 		list->count++;
 		if ( ! list->tail ) {
 			list->head = list->tail = node;
 		} else {
 			list->tail->next = node;
 			node->prev = list->tail;
 			list->tail = node;
 		}

 		node->insn = x86_insn_copy( insn );
 	}

 	typedef struct {
 		enum x86_report_codes last_error;
 		void * last_error_data;
 		void * disasm_callback;
 		void * disasm_resolver;
 	} x86disasm;

 	void x86_default_reporter( enum x86_report_codes code,
 				   void *data, void *arg ) {
 		x86disasm *dis = (x86disasm *) arg;
 		if ( dis ) {
 			dis->last_error = code;
 			dis->last_error_data = data;
 		}
 	}

 	void x86_default_callback( x86_insn_t *insn, void *arg ) {
 		x86_insn_list *list = (x86_insn_list *) arg;
 		if ( list ) {
 			x86_insn_list_append( list, insn );
 		}
 	}

 	/* TODO: resolver stack, maybe a callback */
 	long x86_default_resolver( x86_op_t *op, x86_insn_t *insn, void *arg ) {
 		x86disasm *dis = (x86disasm *) arg;
 		if ( dis ) {
 			//return dis->resolver( op, insn );
 			return 0;
 		}

 		return 0;
 	}


 %}

 %newobject x86disasm_new;

 %inline %{
 	x86disasm * x86disasm_new ( enum x86_options options ) {
 		x86disasm * dis = (x86disasm *)
 				calloc( sizeof( x86disasm ), 1 );
 		x86_init( options, x86_default_reporter, dis );
 		return dis;
 	}

 	void x86disasm_free( x86disasm * dis ) {
 		x86_cleanup();
 		free( dis );
 	}
 %}

 %newobject x86_disasm;

 %inline %{
 	x86_insn_t * disasm( unsigned char *buf, size_t buf_len,
 		           unsigned long buf_rva, unsigned int offset ) {
 		x86_insn_t *insn = calloc( sizeof( x86_insn_t ), 1 );
 		x86_disasm( buf, buf_len, buf_rva, offset, insn );
 		return insn;
 	}

 	int disasm_range( unsigned char *buf, size_t buf_len,
 	              unsigned long buf_rva, unsigned int offset,
 		      unsigned int len ) {

 		x86_insn_list *list = x86_insn_list_new();

 		if ( len > buf_len ) {
 			len = buf_len;
 		}

 		return x86_disasm_range( buf, buf_rva, offset, len,
 				x86_default_callback, list );
 	}

 	int disasm_forward( unsigned char *buf, size_t buf_len,
 			    unsigned long buf_rva, unsigned int offset ) {
 		x86_insn_list *list = x86_insn_list_new();

 		/* use default resolver: damn SWIG callbacks! */
 		return x86_disasm_forward( buf, buf_len, buf_rva, offset,
 			                   x86_default_callback, list,
 					   x86_default_resolver, NULL );
 	}

 	size_t disasm_invariant( unsigned char *buf, size_t buf_len,
 			  x86_invariant_t *inv ) {
 		return x86_invariant_disasm( buf, buf_len, inv );
 	}

 	size_t disasm_size( unsigned char *buf, size_t buf_len ) {
 		return x86_size_disasm( buf, buf_len );
 	}

 	int x86_max_operand_string( enum x86_asm_format format ) {
 		switch ( format ) {
 			case xml_syntax:
 				return  MAX_OP_XML_STRING;
 				break;
 			case raw_syntax:
 				return MAX_OP_RAW_STRING;
 				break;
 			case native_syntax:
 			case intel_syntax:
 			case att_syntax:
 			case unknown_syntax:
 			default:
 				return MAX_OP_STRING;
 				break;
 		}
 	}


 	int x86_max_insn_string( enum x86_asm_format format ) {
 		switch ( format ) {
 			case xml_syntax:
 				return  MAX_INSN_XML_STRING;
 				break;
 			case raw_syntax:
 				return MAX_INSN_RAW_STRING;
 				break;
 			case native_syntax:
 			case intel_syntax:
 			case att_syntax:
 			case unknown_syntax:
 			default:
 				return MAX_INSN_STRING;
 				break;
 		}
 	}

 	int x86_max_num_operands( ) { return MAX_NUM_OPERANDS; }
 %}
	%module x86disasm
	%{
	#include "../../libdis.h"
	#include "../../../config.h"
	%}

	%rename(version_string) x86_version_string;
	%include "../../libdis.h"
	#include "../../../config.h"

	%inline %{
	const char * x86_version_string( void ) {
	return PACKAGE_VERSION;
	}
	%}

	%rename(report_codes) x86_report_codes;
	%rename(report_error) x86_report_error;
	%rename(options) x86_options;
	%rename(init) x86_init;
	%rename(set_reporter) x86_set_reporter;
	%rename(set_options) x86_set_options;
	%rename(options) x86_get_options;
	%rename(cleanup) x86_cleanup;
	%rename(reg_type) x86_reg_type;
	%rename(reg) x86_reg_t;
	%rename(eaddr) x86_ea_t;
	%rename(op_type) x86_op_type;
	%rename(optype_is_address) x86_optype_is_address;
	%rename(optype_is_relative) x86_optype_is_relative;
	%rename(op_datatype) x86_op_datatype;
	%rename(op_access) x86_op_access;
	%rename(op_flags) x86_op_flags;
	%rename(operand) x86_op_t;
	%rename(insn_group) x86_insn_group;
	%rename(insn_type) x86_insn_type;
	%rename(insn_note) x86_insn_note ;
	%rename(flag_status) x86_flag_status;
	%rename(insn_cpu) x86_insn_cpu ;
	%rename(insn_isa) x86_insn_isa ;
	%rename(insn_prefix) x86_insn_prefix ;
	%rename(insn) x86_insn_t;
	%rename(insn_is_valid) x86_insn_is_valid;
	%rename(i_disasm) x86_disasm;
	%rename(i_disasm_range) x86_disasm_range;
	%rename(i_disasm_forward) x86_disasm_forward;
	%rename(insn_operand_count) x86_operand_count;
	%rename(insn_operand_1st) x86_operand_1st;
	%rename(insn_operand_2nd) x86_operand_2nd;
	%rename(insn_operand_3rd) x86_operand_3rd;
	%rename(insn_dest_operand) x86_get_dest_operand;
	%rename(insn_src_operand) x86_get_src_operand;
	%rename(insn_imm_operand) x86_get_imm_operand;
	%rename(operand_size) x86_operand_size;
	%rename(insn_rel_offset) x86_get_rel_offset;
	%rename(insn_branch_target) x86_get_branch_target;
	%rename(insn_imm) x86_get_imm;
	%rename(insn_raw_imm) x86_get_raw_imm;
	%rename(insn_set_addr) x86_set_insn_addr;
	%rename(insn_set_offset) x86_set_insn_offset;
	%rename(insn_set_function) x86_set_insn_function;
	%rename(insn_set_block) x86_set_insn_block;
	%rename(insn_tag) x86_tag_insn;
	%rename(insn_untag) x86_untag_insn;
	%rename(insn_is_tagged) x86_insn_is_tagged;
	%rename(asm_format) x86_asm_format;
	%rename(operand_format) x86_format_operand;
	%rename(insn_format_mnemonic) x86_format_mnemonic;
	%rename(insn_format) x86_format_insn;
	%rename(header_format) x86_format_header;
	%rename(endian) x86_endian;
	%rename(size_default_address) x86_addr_size;
	%rename(size_default_operand) x86_op_size;
	%rename(size_machine_word) x86_word_size;
	%rename(size_max_insn) x86_max_insn_size;
	%rename(reg_sp) x86_sp_reg;
	%rename(reg_fp) x86_fp_reg;
	%rename(reg_ip) x86_ip_reg;
	%rename(reg_from_id) x86_reg_from_id;
	%rename(reg_from_alias) x86_get_aliased_reg;
	%rename(invariant_op) x86_invariant_op_t;
	%rename(invariant) x86_invariant_t;
	%rename(disasm_invariant) x86_invariant_disasm;
	%rename(disasm_size) x86_size_disasm;

	%include "carrays.i"

	%array_class( unsigned char, byteArray );


	%apply (unsigned char *STRING, int LENGTH) {
	(unsigned char *buf, size_t buf_len)
	};


	%newobject x86_op_copy;
	%inline %{
	x86_op_t * x86_op_copy( x86_op_t * src ) {
	x86_op_t *op;

	if (! src ) {
	return NULL;
	}

	op = (x86_op_t *) calloc( sizeof(x86_op_t), 1 );
	if ( op ) {
	memcpy( op, src, sizeof(x86_op_t) );
	}

	return op;
	}

	typedef struct x86_op_list_node {
	x86_op_t *op;
	struct x86_op_list_node next, prev;
	} x86_op_list_node;

	typedef struct x86_op_list {
	size_t count;
	x86_op_list_node head, tail, *curr;
	} x86_op_list;

	x86_op_list * x86_op_list_new () {
	x86_op_list list = (x86_op_list )
	calloc( sizeof(x86_op_list), 1 );
	list->count = 0;
	return list;
	}

	void x86_op_list_free(x86_op_list *list) {
	x86_op_list_node node, next;

	node = list->head;
	while ( node ) {
	next = node->next;
	/* free( node->insn ); */
	free( node );
	node = next;
	}

	free( list );
	}

	x86_op_list_node * x86_op_list_first(x86_op_list *list) {
	return list->head;
	}

	x86_op_list_node * x86_op_list_last(x86_op_list *list) {
	return list->tail;
	}

	x86_op_list_node * x86_op_list_next(x86_op_list *list) {
	if (! list->curr ) {
	list->curr = list->head;
	return list->head;
	}

	list->curr = list->curr->next;
	return list->curr;
	}

	x86_op_list_node * x86_op_list_prev(x86_op_list *list) {
	if (! list->curr ) {
	list->curr = list->tail;
	return list->tail;
	}

	list->curr = list->curr->prev;
	return list->curr;
	}

	%}

	%newobject x86_op_list_append;

	%inline %{
	void x86_op_list_append( x86_op_list * list, x86_op_t *op ) {
	x86_op_list_node node = (x86_op_list_node )
	calloc( sizeof(x86_op_list_node) , 1 );
	if (! node ) {
	return;
	}

	list->count++;
	if ( ! list->tail ) {
	list->head = list->tail = node;
	} else {
	list->tail->next = node;
	node->prev = list->tail;
	list->tail = node;
	}

	node->op = x86_op_copy( op );
	}

	x86_oplist_t * x86_op_list_node_copy( x86_oplist_t * list ) {
	x86_oplist_t *ptr;
	ptr = (x86_oplist_t *) calloc( sizeof(x86_oplist_t), 1 );
	if ( ptr ) {
	memcpy( &ptr->op, &list->op, sizeof(x86_op_t) );
	}

	return ptr;
	}

	x86_insn_t * x86_insn_new() {
	x86_insn_t insn = (x86_insn_t )
	calloc( sizeof(x86_insn_t), 1 );
	return insn;
	}

	void x86_insn_free( x86_insn_t *insn ) {
	x86_oplist_free( insn );
	free( insn );
	}
	%}

	%newobject x86_insn_copy;

	%inline %{
	x86_insn_t * x86_insn_copy( x86_insn_t *src) {
	x86_oplist_t ptr, list, *last = NULL;
	x86_insn_t insn = (x86_insn_t )
	calloc( sizeof(x86_insn_t), 1 );

	if ( insn ) {
	memcpy( insn, src, sizeof(x86_insn_t) );
	insn->operands = NULL;
	insn->block = NULL;
	insn->function = NULL;

	/* copy operand list */
	for ( list = src->operands; list; list = list->next ) {
	ptr = x86_op_list_node_copy( list );

	if (! ptr ) {
	continue;
	}

	if ( insn->operands ) {
	last->next = ptr;
	} else {
	insn->operands = ptr;
	}
	last = ptr;
	}
	}

	return insn;
	}

	x86_op_list * x86_insn_op_list( x86_insn_t *insn ) {
	x86_oplist_t *list = insn->operands;
	x86_op_list *op_list = x86_op_list_new();

	for ( list = insn->operands; list; list = list->next ) {
	x86_op_list_append( op_list, &list->op );
	}

	return op_list;
	}

	typedef struct x86_insn_list_node {
	x86_insn_t *insn;
	struct x86_insn_list_node next, prev;
	} x86_insn_list_node;

	typedef struct x86_insn_list {
	size_t count;
	x86_insn_list_node head, tail, *curr;
	} x86_insn_list;

	%}

	%newobject x86_insn_list_new;

	%inline %{
	x86_insn_list * x86_insn_list_new () {
	x86_insn_list list = (x86_insn_list )
	calloc( sizeof(x86_insn_list), 1 );
	list->count = 0;
	return list;
	}

	void x86_insn_list_free( x86_insn_list * list ) {
	x86_insn_list_node node, next;

	if (! list ) {
	return;
	}

	node = list->head;
	while ( node ) {
	next = node->next;
	/* free( node->insn ); */
	free( node );
	node = next;
	}

	free( list );
	}

	x86_insn_list_node * x86_insn_list_first( x86_insn_list *list ) {
	if (! list ) {
	return NULL;
	}
	return list->head;
	}

	x86_insn_list_node * x86_insn_list_last( x86_insn_list *list ) {
	if (! list ) {
	return NULL;
	}
	return list->tail;
	}

	x86_insn_list_node * x86_insn_list_next( x86_insn_list *list ) {
	if (! list ) {
	return NULL;
	}
	if (! list->curr ) {
	list->curr = list->head;
	return list->head;
	}

	list->curr = list->curr->next;
	return list->curr;
	}

	x86_insn_list_node * x86_insn_list_prev( x86_insn_list *list ) {
	if (! list ) {
	return NULL;
	}
	if (! list->curr ) {
	list->curr = list->tail;
	return list->tail;
	}

	list->curr = list->curr->prev;
	return list->curr;
	}

	%}

	%newobject x86_insn_list_append;

	%inline %{
	void x86_insn_list_append( x86_insn_list list, x86_insn_t insn ) {
	x86_insn_list_node *node;
	if (! list ) {
	return;
	}

	node = (x86_insn_list_node *)
	calloc( sizeof(x86_insn_list_node) , 1 );

	if (! node ) {
	return;
	}

	list->count++;
	if ( ! list->tail ) {
	list->head = list->tail = node;
	} else {
	list->tail->next = node;
	node->prev = list->tail;
	list->tail = node;
	}

	node->insn = x86_insn_copy( insn );
	}

	typedef struct {
	enum x86_report_codes last_error;
	void * last_error_data;
	void * disasm_callback;
	void * disasm_resolver;
	} x86disasm;

	void x86_default_reporter( enum x86_report_codes code,
	void data, void arg ) {
	x86disasm dis = (x86disasm ) arg;
	if ( dis ) {
	dis->last_error = code;
	dis->last_error_data = data;
	}
	}

	void x86_default_callback( x86_insn_t insn, void arg ) {
	x86_insn_list list = (x86_insn_list ) arg;
	if ( list ) {
	x86_insn_list_append( list, insn );
	}
	}

	/* TODO: resolver stack, maybe a callback */
	long x86_default_resolver( x86_op_t op, x86_insn_t insn, void *arg ) {
	x86disasm dis = (x86disasm ) arg;
	if ( dis ) {
	//return dis->resolver( op, insn );
	return 0;
	}

	return 0;
	}


	%}

	%newobject x86disasm_new;

	%inline %{
	x86disasm * x86disasm_new ( enum x86_options options ) {
	x86disasm * dis = (x86disasm *)
	calloc( sizeof( x86disasm ), 1 );
	x86_init( options, x86_default_reporter, dis );
	return dis;
	}

	void x86disasm_free( x86disasm * dis ) {
	x86_cleanup();
	free( dis );
	}
	%}

	%newobject x86_disasm;

	%inline %{
	x86_insn_t * disasm( unsigned char *buf, size_t buf_len,
	unsigned long buf_rva, unsigned int offset ) {
	x86_insn_t *insn = calloc( sizeof( x86_insn_t ), 1 );
	x86_disasm( buf, buf_len, buf_rva, offset, insn );
	return insn;
	}

	int disasm_range( unsigned char *buf, size_t buf_len,
	unsigned long buf_rva, unsigned int offset,
	unsigned int len ) {

	x86_insn_list *list = x86_insn_list_new();

	if ( len > buf_len ) {
	len = buf_len;
	}

	return x86_disasm_range( buf, buf_rva, offset, len,
	x86_default_callback, list );
	}

	int disasm_forward( unsigned char *buf, size_t buf_len,
	unsigned long buf_rva, unsigned int offset ) {
	x86_insn_list *list = x86_insn_list_new();

	/* use default resolver: damn SWIG callbacks! */
	return x86_disasm_forward( buf, buf_len, buf_rva, offset,
	x86_default_callback, list,
	x86_default_resolver, NULL );
	}

	size_t disasm_invariant( unsigned char *buf, size_t buf_len,
	x86_invariant_t *inv ) {
	return x86_invariant_disasm( buf, buf_len, inv );
	}

	size_t disasm_size( unsigned char *buf, size_t buf_len ) {
	return x86_size_disasm( buf, buf_len );
	}

	int x86_max_operand_string( enum x86_asm_format format ) {
	switch ( format ) {
	case xml_syntax:
	return MAX_OP_XML_STRING;
	break;
	case raw_syntax:
	return MAX_OP_RAW_STRING;
	break;
	case native_syntax:
	case intel_syntax:
	case att_syntax:
	case unknown_syntax:
	default:
	return MAX_OP_STRING;
	break;
	}
	}


	int x86_max_insn_string( enum x86_asm_format format ) {
	switch ( format ) {
	case xml_syntax:
	return MAX_INSN_XML_STRING;
	break;
	case raw_syntax:
	return MAX_INSN_RAW_STRING;
	break;
	case native_syntax:
	case intel_syntax:
	case att_syntax:
	case unknown_syntax:
	default:
	return MAX_INSN_STRING;
	break;
	}
	}

	int x86_max_num_operands( ) { return MAX_NUM_OPERANDS; }
	%}