@ -51,13 +51,19 @@ enum accessor_type {ACCESSOR_CONSTANT, ACCESSOR_INDIRECT, ACCESSOR_DOUBLE_INDIRE
/* this is used to store data about the way accessors work */
class DFHACK_EXPORT Accessor
{
public :
enum DataWidth {
Data32 = 0 ,
DataSigned16 ,
DataUnsigned16
} ;
private :
accessor_type type ;
int32_t constant ;
int32_t offset1 ;
int32_t offset2 ;
Process * p ;
uint32_t dataWidth ;
DataWidth dataWidth ;
public :
Accessor ( uint32_t function , Process * p ) ;
Accessor ( accessor_type type , int32_t constant , uint32_t offset1 , uint32_t offset2 , uint32_t dataWidth , Process * p ) ;
@ -134,10 +140,10 @@ static bool match_MEM_ACCESS(uint32_t &ptr, uint64_t v, int isize, int in_reg, i
}
}
static bool match_MOV_MEM ( uint32_t & ptr , uint64_t v , int in_reg , int & out_reg , int & offset , bool & size16 )
static bool match_MOV_MEM ( uint32_t & ptr , uint64_t v , int in_reg , int & out_reg , int & offset , Accessor : : DataWidth & size )
{
int prefix = 0 ;
size 16 = false ;
size = Accessor : : Data32 ;
if ( ( v & 0xFF ) = = 0x8B ) { // MOV
v > > = 8 ;
prefix = 1 ;
@ -145,17 +151,17 @@ static bool match_MOV_MEM(uint32_t &ptr, uint64_t v, int in_reg, int &out_reg, i
else if ( ( v & 0xFFFF ) = = 0x8B66 ) { // MOV 16-bit
v > > = 16 ;
prefix = 2 ;
size 16 = true ;
size = Accessor : : DataUnsigned16 ;
}
else if ( ( v & 0xFFFF ) = = 0xBF0F ) { // MOVSX
v > > = 16 ;
prefix = 2 ;
size 16 = true ;
size = Accessor : : DataSigned16 ;
}
else if ( ( v & 0xFFFF ) = = 0xB70F ) { // MOVZ
v > > = 16 ;
prefix = 2 ;
size 16 = true ;
size = Accessor : : DataUnsigned16 ;
}
else
return false ;
@ -190,7 +196,7 @@ Accessor::Accessor(uint32_t function, Process *p)
}
else
{
bool size16 ;
DataWidth xsize ;
int ptr_reg = 1 , tmp ; // ECX
// MOV REG,[ESP+4]
@ -200,24 +206,19 @@ Accessor::Accessor(uint32_t function, Process *p)
v = p - > readQuad ( ptr ) ;
}
this - > dataWidth = 4 ;
if ( match_MOV_MEM ( ptr , v , ptr_reg , tmp , this - > offset1 , size16 ) ) {
if ( match_MOV_MEM ( ptr , v , ptr_reg , tmp , this - > offset1 , xsize ) ) {
data_reg = tmp ;
this - > type = ACCESSOR_INDIRECT ;
this - > dataWidth = xsize ;
if ( size16 )
this - > dataWidth = 2 ;
else
if ( xsize = = Data32 )
{
v = p - > readQuad ( ptr ) ;
if ( match_MOV_MEM ( ptr , v , data_reg , tmp , this - > offset2 , size16 ) ) {
if ( match_MOV_MEM ( ptr , v , data_reg , tmp , this - > offset2 , x size) ) {
data_reg = tmp ;
this - > type = ACCESSOR_DOUBLE_INDIRECT ;
if ( size16 )
this - > dataWidth = 2 ;
this - > dataWidth = xsize ;
}
}
}
@ -245,29 +246,26 @@ bool Accessor::isConstant()
int32_t Accessor : : getValue ( uint32_t objectPtr )
{
int32_t offset = this - > offset1 ;
switch ( this - > type )
{
case ACCESSOR_CONSTANT :
return this - > constant ;
break ;
case ACCESSOR_INDIRECT :
switch ( this - > dataWidth )
{
case 2 :
return ( int16_t ) p - > readWord ( objectPtr + this - > offset1 ) ;
case 4 :
return p - > readDWord ( objectPtr + this - > offset1 ) ;
default :
return - 1 ;
}
break ;
case ACCESSOR_DOUBLE_INDIRECT :
objectPtr = p - > readDWord ( objectPtr + this - > offset1 ) ;
offset = this - > offset2 ;
// fallthrough
case ACCESSOR_INDIRECT :
switch ( this - > dataWidth )
{
case 2 :
return ( int16_t ) p - > readWord ( p - > readDWord ( objectPtr + this - > offset1 ) + this - > offset2 ) ;
case 4 :
return p - > readDWord ( p - > readDWord ( objectPtr + this - > offset1 ) + this - > offset2 ) ;
case Data32 :
return p - > readDWord ( objectPtr + offset ) ;
case DataSigned16 :
return ( int16_t ) p - > readWord ( objectPtr + offset ) ;
case DataUnsigned16 :
return ( uint16_t ) p - > readWord ( objectPtr + offset ) ;
default :
return - 1 ;
}