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popnhax/libdisasm/swig/libdisasm_oop.i

1115 lines
26 KiB
OpenEdge ABL

%module x86disasm
%{
#ifdef _MSC_VER
typedef __int64 qword;
#else
typedef long long qword;
#endif
#include <sys/types.h>
#define MAX_REGNAME 8
#define MAX_PREFIX_STR 32
#define MAX_MNEM_STR 16
#define MAX_INSN_SIZE 20
#define MAX_OP_STRING 32
#define MAX_OP_RAW_STRING 64
#define MAX_OP_XML_STRING 256
#define MAX_NUM_OPERANDS 8
#define MAX_INSN_STRING 512
#define MAX_INSN_RAW_STRING 1024
#define MAX_INSN_XML_STRING 4096
#include "../../../config.h"
const char * version_string( void ) {
return PACKAGE_VERSION;
}
%}
const char * version_string( void );
%rename(X86_Register) x86_reg_t;
%rename(X86_EAddr) x86_ea_t;
%rename(X86_Operand) x86_op_t;
//%rename(X86_OpList) x86_oplist_t;
%rename(X86_Insn) x86_insn_t;
%rename(X86_InvOperand) x86_invariant_op_t;
%rename(X86_Invariant) x86_invariant_t;
%include "carrays.i"
%array_class( unsigned char, byteArray );
%apply (unsigned char *STRING, int LENGTH) {
(unsigned char *buf, size_t buf_len)
};
%inline %{
enum x86_asm_format {
unknown_syntax = 0, /* never use! */
native_syntax, /* header: 35 bytes */
intel_syntax, /* header: 23 bytes */
att_syntax, /* header: 23 bytes */
xml_syntax, /* header: 679 bytes */
raw_syntax /* header: 172 bytes */
};
%}
/* ================================================================== */
/* operand class */
%inline %{
enum x86_reg_type {
reg_gen = 0x00001, reg_in = 0x00002,
reg_out = 0x00004, reg_local = 0x00008,
reg_fpu = 0x00010, reg_seg = 0x00020,
reg_simd = 0x00040, reg_sys = 0x00080,
reg_sp = 0x00100, reg_fp = 0x00200,
reg_pc = 0x00400, reg_retaddr = 0x00800,
reg_cond = 0x01000, reg_zero = 0x02000,
reg_ret = 0x04000, reg_src = 0x10000,
reg_dest = 0x20000, reg_count = 0x40000
};
typedef struct {
char name[MAX_REGNAME];
enum x86_reg_type type;
unsigned int size;
unsigned int id;
unsigned int alias;
unsigned int shift;
} x86_reg_t;
void x86_reg_from_id( unsigned int id, x86_reg_t * reg );
typedef struct {
unsigned int scale;
x86_reg_t index, base;
long disp;
char disp_sign;
char disp_size;
} x86_ea_t;
enum x86_op_type {
op_unused = 0,
op_register = 1,
op_immediate = 2,
op_relative_near = 3,
op_relative_far = 4,
op_absolute = 5,
op_expression = 6,
op_offset = 7,
op_unknown
};
enum x86_op_datatype {
op_byte = 1, op_word = 2,
op_dword = 3, op_qword = 4,
op_dqword = 5, op_sreal = 6,
op_dreal = 7, op_extreal = 8,
op_bcd = 9, op_ssimd = 10,
op_dsimd = 11, op_sssimd = 12,
op_sdsimd = 13, op_descr32 = 14,
op_descr16 = 15, op_pdescr32 = 16,
op_pdescr16 = 17, op_fpuenv = 18,
op_fpregset = 19,
};
enum x86_op_access {
op_read = 1,
op_write = 2,
op_execute = 4
};
enum x86_op_flags {
op_signed = 1, op_string = 2,
op_constant = 4, op_pointer = 8,
op_sysref = 0x010, op_implied = 0x020,
op_hardcode = 0x40, op_es_seg = 0x100,
op_cs_seg = 0x200, op_ss_seg = 0x300,
op_ds_seg = 0x400, op_fs_seg = 0x500,
op_gs_seg = 0x600
};
typedef struct {
enum x86_op_type type;
enum x86_op_datatype datatype;
enum x86_op_access access;
enum x86_op_flags flags;
union {
char sbyte;
short sword;
long sdword;
qword sqword;
unsigned char byte;
unsigned short word;
unsigned long dword;
qword qword;
float sreal;
double dreal;
unsigned char extreal[10];
unsigned char bcd[10];
qword dqword[2];
unsigned char simd[16];
unsigned char fpuenv[28];
void * address;
unsigned long offset;
x86_reg_t reg;
char relative_near;
long relative_far;
x86_ea_t expression;
} data;
void * insn;
} x86_op_t;
unsigned int x86_operand_size( x86_op_t *op );
int x86_format_operand(x86_op_t *op, char *buf, int len,
enum x86_asm_format format);
%}
%extend x86_reg_t{
x86_reg_t * aliased_reg( ) {
x86_reg_t * reg = (x86_reg_t * )
calloc( sizeof(x86_reg_t), 1 );
x86_reg_from_id( self->id, reg );
return reg;
}
}
%extend x86_op_t{
size_t size() {
return x86_operand_size( self );
}
char * format( enum x86_asm_format format ) {
char *buf, *str;
size_t len;
switch ( format ) {
case xml_syntax:
len = MAX_OP_XML_STRING;
break;
case raw_syntax:
len = MAX_OP_RAW_STRING;
break;
case native_syntax:
case intel_syntax:
case att_syntax:
case unknown_syntax:
default:
len = MAX_OP_STRING;
break;
}
buf = (char * ) calloc( len + 1, 1 );
x86_format_operand( self, buf, len, format );
/* drop buffer down to a reasonable size */
str = strdup( buf );
free(buf);
return str;
}
int is_address( ) {
if ( self->type == op_absolute ||
self->type == op_offset ) {
return 1;
}
return 0;
}
int is_relative( ) {
if ( self->type == op_relative_near ||
self->type == op_relative_far ) {
return 1;
}
return 0;
}
%newobject copy;
x86_op_t * copy() {
x86_op_t *op = (x86_op_t *) calloc( sizeof(x86_op_t), 1 );
if ( op ) {
memcpy( op, self, sizeof(x86_op_t) );
}
return op;
}
}
/* ================================================================== */
/* operand list class */
%inline %{
typedef struct X86_OpListNode {
x86_op_t *op;
struct X86_OpListNode *next, *prev;
} X86_OpListNode;
typedef struct X86_OpList {
size_t count;
X86_OpListNode *head, *tail, *curr;
} X86_OpList;
%}
%extend X86_OpList {
X86_OpList () {
X86_OpList *list = (X86_OpList *)
calloc( sizeof(X86_OpList), 1 );
list->count = 0;
return list;
}
~X86_OpList() {
X86_OpListNode *node, *next;
node = self->head;
while ( node ) {
next = node->next;
/* free( node->insn ); */
free( node );
node = next;
}
free( self );
}
X86_OpListNode * first() {
self->curr = self->head;
return self->head;
}
X86_OpListNode * last() {
self->curr = self->tail;
return self->tail;
}
X86_OpListNode * next() {
if (! self->curr ) {
self->curr = self->head;
return self->head;
}
self->curr = self->curr->next;
return self->curr;
}
X86_OpListNode * prev() {
if (! self->curr ) {
self->curr = self->tail;
return self->tail;
}
self->curr = self->curr->prev;
return self->curr;
}
%newobject append;
void append( x86_op_t *op ) {
X86_OpListNode *node = (X86_OpListNode *)
calloc( sizeof(X86_OpListNode) , 1 );
if (! node ) {
return;
}
self->count++;
if ( ! self->tail ) {
self->head = self->tail = node;
} else {
self->tail->next = node;
node->prev = self->tail;
self->tail = node;
}
node->op = x86_op_t_copy( op );
}
}
%inline %{
typedef struct x86_operand_list {
x86_op_t op;
struct x86_operand_list *next;
} x86_oplist_t;
%}
%extend x86_oplist_t {
%newobject x86_oplist_node_copy;
}
/* ================================================================== */
/* instruction class */
%inline %{
x86_oplist_t * x86_oplist_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;
}
enum x86_insn_group {
insn_none = 0, insn_controlflow = 1,
insn_arithmetic = 2, insn_logic = 3,
insn_stack = 4, insn_comparison = 5,
insn_move = 6, insn_string = 7,
insn_bit_manip = 8, insn_flag_manip = 9,
insn_fpu = 10, insn_interrupt = 13,
insn_system = 14, insn_other = 15
};
enum x86_insn_type {
insn_invalid = 0, insn_jmp = 0x1001,
insn_jcc = 0x1002, insn_call = 0x1003,
insn_callcc = 0x1004, insn_return = 0x1005,
insn_add = 0x2001, insn_sub = 0x2002,
insn_mul = 0x2003, insn_div = 0x2004,
insn_inc = 0x2005, insn_dec = 0x2006,
insn_shl = 0x2007, insn_shr = 0x2008,
insn_rol = 0x2009, insn_ror = 0x200A,
insn_and = 0x3001, insn_or = 0x3002,
insn_xor = 0x3003, insn_not = 0x3004,
insn_neg = 0x3005, insn_push = 0x4001,
insn_pop = 0x4002, insn_pushregs = 0x4003,
insn_popregs = 0x4004, insn_pushflags = 0x4005,
insn_popflags = 0x4006, insn_enter = 0x4007,
insn_leave = 0x4008, insn_test = 0x5001,
insn_cmp = 0x5002, insn_mov = 0x6001,
insn_movcc = 0x6002, insn_xchg = 0x6003,
insn_xchgcc = 0x6004, insn_strcmp = 0x7001,
insn_strload = 0x7002, insn_strmov = 0x7003,
insn_strstore = 0x7004, insn_translate = 0x7005,
insn_bittest = 0x8001, insn_bitset = 0x8002,
insn_bitclear = 0x8003, insn_clear_carry = 0x9001,
insn_clear_zero = 0x9002, insn_clear_oflow = 0x9003,
insn_clear_dir = 0x9004, insn_clear_sign = 0x9005,
insn_clear_parity = 0x9006, insn_set_carry = 0x9007,
insn_set_zero = 0x9008, insn_set_oflow = 0x9009,
insn_set_dir = 0x900A, insn_set_sign = 0x900B,
insn_set_parity = 0x900C, insn_tog_carry = 0x9010,
insn_tog_zero = 0x9020, insn_tog_oflow = 0x9030,
insn_tog_dir = 0x9040, insn_tog_sign = 0x9050,
insn_tog_parity = 0x9060, insn_fmov = 0xA001,
insn_fmovcc = 0xA002, insn_fneg = 0xA003,
insn_fabs = 0xA004, insn_fadd = 0xA005,
insn_fsub = 0xA006, insn_fmul = 0xA007,
insn_fdiv = 0xA008, insn_fsqrt = 0xA009,
insn_fcmp = 0xA00A, insn_fcos = 0xA00C,
insn_fldpi = 0xA00D, insn_fldz = 0xA00E,
insn_ftan = 0xA00F, insn_fsine = 0xA010,
insn_fsys = 0xA020, insn_int = 0xD001,
insn_intcc = 0xD002, insn_iret = 0xD003,
insn_bound = 0xD004, insn_debug = 0xD005,
insn_trace = 0xD006, insn_invalid_op = 0xD007,
insn_oflow = 0xD008, insn_halt = 0xE001,
insn_in = 0xE002, insn_out = 0xE003,
insn_cpuid = 0xE004, insn_nop = 0xF001,
insn_bcdconv = 0xF002, insn_szconv = 0xF003
};
enum x86_insn_note {
insn_note_ring0 = 1,
insn_note_smm = 2,
insn_note_serial = 4
};
enum x86_flag_status {
insn_carry_set = 0x1,
insn_zero_set = 0x2,
insn_oflow_set = 0x4,
insn_dir_set = 0x8,
insn_sign_set = 0x10,
insn_parity_set = 0x20,
insn_carry_or_zero_set = 0x40,
insn_zero_set_or_sign_ne_oflow = 0x80,
insn_carry_clear = 0x100,
insn_zero_clear = 0x200,
insn_oflow_clear = 0x400,
insn_dir_clear = 0x800,
insn_sign_clear = 0x1000,
insn_parity_clear = 0x2000,
insn_sign_eq_oflow = 0x4000,
insn_sign_ne_oflow = 0x8000
};
enum x86_insn_cpu {
cpu_8086 = 1, cpu_80286 = 2,
cpu_80386 = 3, cpu_80387 = 4,
cpu_80486 = 5, cpu_pentium = 6,
cpu_pentiumpro = 7, cpu_pentium2 = 8,
cpu_pentium3 = 9, cpu_pentium4 = 10,
cpu_k6 = 16, cpu_k7 = 32,
cpu_athlon = 48
};
enum x86_insn_isa {
isa_gp = 1, isa_fp = 2,
isa_fpumgt = 3, isa_mmx = 4,
isa_sse1 = 5, isa_sse2 = 6,
isa_sse3 = 7, isa_3dnow = 8,
isa_sys = 9
};
enum x86_insn_prefix {
insn_no_prefix = 0,
insn_rep_zero = 1,
insn_rep_notzero = 2,
insn_lock = 4
};
typedef struct {
unsigned long addr;
unsigned long offset;
enum x86_insn_group group;
enum x86_insn_type type;
enum x86_insn_note note;
unsigned char bytes[MAX_INSN_SIZE];
unsigned char size;
unsigned char addr_size;
unsigned char op_size;
enum x86_insn_cpu cpu;
enum x86_insn_isa isa;
enum x86_flag_status flags_set;
enum x86_flag_status flags_tested;
unsigned char stack_mod;
long stack_mod_val;
enum x86_insn_prefix prefix;
char prefix_string[MAX_PREFIX_STR];
char mnemonic[MAX_MNEM_STR];
x86_oplist_t *operands;
size_t operand_count;
size_t explicit_count;
void *block;
void *function;
int tag;
} x86_insn_t;
typedef void (*x86_operand_fn)(x86_op_t *op, x86_insn_t *insn,
void *arg);
enum x86_op_foreach_type {
op_any = 0,
op_dest = 1,
op_src = 2,
op_ro = 3,
op_wo = 4,
op_xo = 5,
op_rw = 6,
op_implicit = 0x10,
op_explicit = 0x20
};
size_t x86_operand_count( x86_insn_t *insn,
enum x86_op_foreach_type type );
x86_op_t * x86_operand_1st( x86_insn_t *insn );
x86_op_t * x86_operand_2nd( x86_insn_t *insn );
x86_op_t * x86_operand_3rd( x86_insn_t *insn );
long x86_get_rel_offset( x86_insn_t *insn );
x86_op_t * x86_get_branch_target( x86_insn_t *insn );
x86_op_t * x86_get_imm( x86_insn_t *insn );
unsigned char * x86_get_raw_imm( x86_insn_t *insn );
void x86_set_insn_addr( x86_insn_t *insn, unsigned long addr );
int x86_format_mnemonic(x86_insn_t *insn, char *buf, int len,
enum x86_asm_format format);
int x86_format_insn(x86_insn_t *insn, char *buf, int len,
enum x86_asm_format);
void x86_oplist_free( x86_insn_t *insn );
int x86_insn_is_valid( x86_insn_t *insn );
%}
%extend x86_insn_t {
x86_insn_t() {
x86_insn_t *insn = (x86_insn_t *)
calloc( sizeof(x86_insn_t), 1 );
return insn;
}
~x86_insn_t() {
x86_oplist_free( self );
free( self );
}
int is_valid( ) {
return x86_insn_is_valid( self );
}
x86_op_t * operand_1st() {
return x86_operand_1st( self );
}
x86_op_t * operand_2nd() {
return x86_operand_2nd( self );
}
x86_op_t * operand_3rd() {
return x86_operand_3rd( self );
}
x86_op_t * operand_dest() {
return x86_operand_1st( self );
}
x86_op_t * operand_src() {
return x86_operand_2nd( self );
}
size_t num_operands( enum x86_op_foreach_type type ) {
return x86_operand_count( self, type );
}
long rel_offset() {
return x86_get_rel_offset( self );
}
x86_op_t * branch_target() {
return x86_get_branch_target( self );
}
x86_op_t * imm() {
return x86_get_imm( self );
}
unsigned char * raw_imm() {
return x86_get_raw_imm( self );
}
%newobject format;
char * format( enum x86_asm_format format ) {
char *buf, *str;
size_t len;
switch ( format ) {
case xml_syntax:
len = MAX_INSN_XML_STRING;
break;
case raw_syntax:
len = MAX_INSN_RAW_STRING;
break;
case native_syntax:
case intel_syntax:
case att_syntax:
case unknown_syntax:
default:
len = MAX_INSN_STRING;
break;
}
buf = (char * ) calloc( len + 1, 1 );
x86_format_insn( self, buf, len, format );
/* drop buffer down to a reasonable size */
str = strdup( buf );
free(buf);
return str;
}
%newobject format_mnemonic;
char * format_mnemonic( enum x86_asm_format format ) {
char *buf, *str;
size_t len = MAX_MNEM_STR + MAX_PREFIX_STR + 4;
buf = (char * ) calloc( len, 1 );
x86_format_mnemonic( self, buf, len, format );
/* drop buffer down to a reasonable size */
str = strdup( buf );
free(buf);
return str;
}
%newobject copy;
x86_insn_t * copy() {
x86_oplist_t *ptr, *list, *last = NULL;
x86_insn_t *insn = (x86_insn_t *)
calloc( sizeof(x86_insn_t), 1 );
if ( insn ) {
memcpy( insn, self, sizeof(x86_insn_t) );
insn->operands = NULL;
insn->block = NULL;
insn->function = NULL;
/* copy operand list */
for ( list = self->operands; list; list = list->next ) {
ptr = x86_oplist_node_copy( list );
if (! ptr ) {
continue;
}
if ( insn->operands ) {
last->next = ptr;
} else {
insn->operands = ptr;
}
last = ptr;
}
}
return insn;
}
X86_OpList * operand_list( ) {
x86_oplist_t *list = self->operands;
X86_OpList *op_list = new_X86_OpList();
for ( list = self->operands; list; list = list->next ) {
X86_OpList_append( op_list, &list->op );
}
return op_list;
}
}
/* ================================================================== */
/* invariant instruction class */
%inline %{
#define X86_WILDCARD_BYTE 0xF4
typedef struct {
enum x86_op_type type;
enum x86_op_datatype datatype;
enum x86_op_access access;
enum x86_op_flags flags;
} x86_invariant_op_t;
typedef struct {
unsigned char bytes[64];
unsigned int size;
enum x86_insn_group group;
enum x86_insn_type type;
x86_invariant_op_t operands[3];
} x86_invariant_t;
%}
%extend x86_invariant_t {
x86_invariant_t() {
x86_invariant_t *inv = (x86_invariant_t *)
calloc( sizeof(x86_invariant_t), 1 );
return inv;
}
~x86_invariant_t() {
free( self );
}
}
/* ================================================================== */
/* instruction list class */
%inline %{
typedef struct X86_InsnListNode {
x86_insn_t *insn;
struct X86_InsnListNode *next, *prev;
} X86_InsnListNode;
typedef struct X86_InsnList {
size_t count;
X86_InsnListNode *head, *tail, *curr;
} X86_InsnList;
%}
%extend X86_InsnList {
X86_InsnList () {
X86_InsnList *list = (X86_InsnList *)
calloc( sizeof(X86_InsnList), 1 );
list->count = 0;
return list;
}
~X86_InsnList() {
X86_InsnListNode *node, *next;
node = self->head;
while ( node ) {
next = node->next;
/* free( node->insn ); */
free( node );
node = next;
}
free( self );
}
X86_InsnListNode * first() { return self->head; }
X86_InsnListNode * last() { return self->tail; }
X86_InsnListNode * next() {
if (! self->curr ) {
self->curr = self->head;
return self->head;
}
self->curr = self->curr->next;
return self->curr;
}
X86_InsnListNode * prev() {
if (! self->curr ) {
self->curr = self->tail;
return self->tail;
}
self->curr = self->curr->prev;
return self->curr;
}
%newobject append;
void append( x86_insn_t *insn ) {
X86_InsnListNode *node = (X86_InsnListNode *)
calloc( sizeof(X86_InsnListNode) , 1 );
if (! node ) {
return;
}
self->count++;
if ( ! self->tail ) {
self->head = self->tail = node;
} else {
self->tail->next = node;
node->prev = self->tail;
self->tail = node;
}
node->insn = x86_insn_t_copy( insn );
}
}
/* ================================================================== */
/* address table class */
/* slight TODO */
/* ================================================================== */
/* Main disassembler class */
%inline %{
enum x86_options {
opt_none= 0,
opt_ignore_nulls=1,
opt_16_bit=2
};
enum x86_report_codes {
report_disasm_bounds,
report_insn_bounds,
report_invalid_insn,
report_unknown
};
typedef struct {
enum x86_report_codes last_error;
void * last_error_data;
void * disasm_callback;
void * disasm_resolver;
} X86_Disasm;
typedef void (*DISASM_REPORTER)( enum x86_report_codes code,
void *data, void *arg );
typedef void (*DISASM_CALLBACK)( x86_insn_t *insn, void * arg );
typedef long (*DISASM_RESOLVER)( x86_op_t *op,
x86_insn_t * current_insn,
void *arg );
void x86_report_error( enum x86_report_codes code, void *data );
int x86_init( enum x86_options options, DISASM_REPORTER reporter,
void *arg);
void x86_set_reporter( DISASM_REPORTER reporter, void *arg);
void x86_set_options( enum x86_options options );
enum x86_options x86_get_options( void );
int x86_cleanup(void);
int x86_format_header( char *buf, int len, enum x86_asm_format format);
unsigned int x86_endian(void);
unsigned int x86_addr_size(void);
unsigned int x86_op_size(void);
unsigned int x86_word_size(void);
unsigned int x86_max_insn_size(void);
unsigned int x86_sp_reg(void);
unsigned int x86_fp_reg(void);
unsigned int x86_ip_reg(void);
size_t x86_invariant_disasm( unsigned char *buf, int buf_len,
x86_invariant_t *inv );
size_t x86_size_disasm( unsigned char *buf, unsigned int buf_len );
int x86_disasm( unsigned char *buf, unsigned int buf_len,
unsigned long buf_rva, unsigned int offset,
x86_insn_t * insn );
int x86_disasm_range( unsigned char *buf, unsigned long buf_rva,
unsigned int offset, unsigned int len,
DISASM_CALLBACK func, void *arg );
int x86_disasm_forward( unsigned char *buf, unsigned int buf_len,
unsigned long buf_rva, unsigned int offset,
DISASM_CALLBACK func, void *arg,
DISASM_RESOLVER resolver, void *r_arg );
void x86_default_reporter( enum x86_report_codes code,
void *data, void *arg ) {
X86_Disasm *dis = (X86_Disasm *) arg;
if ( dis ) {
dis->last_error = code;
dis->last_error_data = data;
}
}
void x86_default_callback( x86_insn_t *insn, void *arg ) {
X86_InsnList *list = (X86_InsnList *) arg;
if ( list ) {
X86_InsnList_append( list, insn );
}
}
/* TODO: resolver stack, maybe a callback */
long x86_default_resolver( x86_op_t *op, x86_insn_t *insn, void *arg ) {
X86_Disasm *dis = (X86_Disasm *) arg;
if ( dis ) {
//return dis->resolver( op, insn );
return 0;
}
return 0;
}
%}
%extend X86_Disasm {
X86_Disasm( ) {
X86_Disasm * dis = (X86_Disasm *)
calloc( sizeof( X86_Disasm ), 1 );
x86_init( opt_none, x86_default_reporter, dis );
return dis;
}
X86_Disasm( enum x86_options options ) {
X86_Disasm * dis = (X86_Disasm *)
calloc( sizeof( X86_Disasm ), 1 );
x86_init( options, x86_default_reporter, dis );
return dis;
}
X86_Disasm( enum x86_options options, DISASM_REPORTER reporter ) {
X86_Disasm * dis = (X86_Disasm *)
calloc( sizeof( X86_Disasm ), 1 );
x86_init( options, reporter, NULL );
return dis;
}
X86_Disasm( enum x86_options options, DISASM_REPORTER reporter,
void * arg ) {
X86_Disasm * dis = (X86_Disasm *)
calloc( sizeof( X86_Disasm ), 1 );
x86_init( options, reporter, arg );
return dis;
}
~X86_Disasm() {
x86_cleanup();
free( self );
}
void set_options( enum x86_options options ) {
return x86_set_options( options );
}
enum x86_options options() {
return x86_get_options();
}
void set_callback( void * callback ) {
self->disasm_callback = callback;
}
void set_resolver( void * callback ) {
self->disasm_resolver = callback;
}
void report_error( enum x86_report_codes code ) {
x86_report_error( code, NULL );
}
%newobject disasm;
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_InsnList *list = new_X86_InsnList();
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_InsnList *list = new_X86_InsnList();
/* 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 );
}
%newobject format_header;
char * format_header( enum x86_asm_format format) {
char *buf, *str;
size_t len;
switch ( format ) {
/* these were obtained from x86_format.c */
case xml_syntax:
len = 679; break;
case raw_syntax:
len = 172; break;
case native_syntax:
len = 35; break;
case intel_syntax:
len = 23; break;
case att_syntax:
len = 23; break;
case unknown_syntax:
default:
len = 23; break;
}
buf = (char * ) calloc( len + 1, 1 );
x86_format_header( buf, len, format );
return buf;
}
unsigned int endian() {
return x86_endian();
}
unsigned int addr_size() {
return x86_addr_size();
}
unsigned int op_size() {
return x86_op_size();
}
unsigned int word_size() {
return x86_word_size();
}
unsigned int max_insn_size() {
return x86_max_insn_size();
}
unsigned int sp_reg() {
return x86_sp_reg();
}
unsigned int fp_reg() {
return x86_fp_reg();
}
unsigned int ip_reg() {
return x86_ip_reg();
}
%newobject reg_from_id;
x86_reg_t * reg_from_id( unsigned int id ) {
x86_reg_t * reg = calloc( sizeof(x86_reg_t), 1 );
x86_reg_from_id( id, reg );
return reg;
}
unsigned char wildcard_byte() { return X86_WILDCARD_BYTE; }
int max_register_string() { return MAX_REGNAME; }
int max_prefix_string() { return MAX_PREFIX_STR; }
int max_mnemonic_string() { return MAX_MNEM_STR; }
int 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 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 max_num_operands( ) { return MAX_NUM_OPERANDS; }
}
/* python callback, per the manual */
/*%typemap(python,in) PyObject *pyfunc {
if (!PyCallable_Check($source)) {
PyErr_SetString(PyExc_TypeError, "Need a callable object!");
return NULL;
}
$target = $source;
}*/
/* python FILE * callback, per the manual */
/*
%typemap(python,in) FILE * {
if (!PyFile_Check($source)) {
PyErr_SetString(PyExc_TypeError, "Need a file!");
return NULL;
}
$target = PyFile_AsFile($source);
}*/