@ -25,6 +25,7 @@ distribution.
# include "Internal.h"
# include <string>
# include <sstream>
# include <vector>
# include <cstdio>
# include <map>
@ -64,9 +65,11 @@ private:
int32_t offset2 ;
Process * p ;
DataWidth dataWidth ;
uint32_t method ;
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 ) ;
std : : string dump ( ) ;
int32_t getValue ( uint32_t objectPtr ) ;
bool isConstant ( ) ;
} ;
@ -96,6 +99,7 @@ private:
public :
ItemDesc ( uint32_t VTable , Process * p ) ;
bool readItem ( uint32_t itemptr , dfh_item & item ) ;
std : : string dumpAccessors ( ) ;
std : : string className ;
uint32_t vtable ;
uint32_t mainType ;
@ -178,22 +182,23 @@ Accessor::Accessor(uint32_t function, Process *p)
this - > constant = 0 ;
return ;
}
uint32_t ptr = function ;
method = function ;
uint32_t temp = function ;
int data_reg = - 1 ;
uint64_t v = p - > readQuad ( ptr ) ;
uint64_t v = p - > readQuad ( tem p) ;
if ( do_match ( ptr , v , 2 , 0xFFFF , 0xC033 ) | |
do_match ( ptr , v , 2 , 0xFFFF , 0xC031 ) ) // XOR EAX, EAX
if ( do_match ( tem p, v , 2 , 0xFFFF , 0xC033 ) | |
do_match ( tem p, v , 2 , 0xFFFF , 0xC031 ) ) // XOR EAX, EAX
{
data_reg = 0 ;
this - > constant = 0 ;
}
else if ( do_match ( ptr , v , 3 , 0xFFFFFF , 0xFFC883 ) ) // OR EAX, -1
else if ( do_match ( tem p, v , 3 , 0xFFFFFF , 0xFFC883 ) ) // OR EAX, -1
{
data_reg = 0 ;
this - > constant = - 1 ;
}
else if ( do_match ( ptr , v , 5 , 0xFF , 0xB8 ) ) // MOV EAX,imm
else if ( do_match ( tem p, v , 5 , 0xFF , 0xB8 ) ) // MOV EAX,imm
{
data_reg = 0 ;
this - > constant = ( v > > 8 ) & 0xFFFFFFFF ;
@ -204,22 +209,22 @@ Accessor::Accessor(uint32_t function, Process *p)
int ptr_reg = 1 , tmp ; // ECX
// MOV REG,[ESP+4]
if ( do_match ( ptr , v , 4 , 0xFFFFC7FFU , 0x0424448B ) )
if ( do_match ( tem p, v , 4 , 0xFFFFC7FFU , 0x0424448B ) )
{
ptr_reg = ( v > > 11 ) & 7 ;
v = p - > readQuad ( ptr ) ;
v = p - > readQuad ( tem p) ;
}
if ( match_MOV_MEM ( ptr , v , ptr_reg , tmp , this - > offset1 , xsize ) ) {
if ( match_MOV_MEM ( tem p, v , ptr_reg , tmp , this - > offset1 , xsize ) ) {
data_reg = tmp ;
this - > type = ACCESSOR_INDIRECT ;
this - > dataWidth = xsize ;
if ( xsize = = Data32 )
{
v = p - > readQuad ( ptr ) ;
v = p - > readQuad ( tem p) ;
if ( match_MOV_MEM ( ptr , v , data_reg , tmp , this - > offset2 , xsize ) ) {
if ( match_MOV_MEM ( tem p, v , data_reg , tmp , this - > offset2 , xsize ) ) {
data_reg = tmp ;
this - > type = ACCESSOR_DOUBLE_INDIRECT ;
this - > dataWidth = xsize ;
@ -228,9 +233,9 @@ Accessor::Accessor(uint32_t function, Process *p)
}
}
v = p - > readQuad ( ptr ) ;
v = p - > readQuad ( tem p) ;
if ( data_reg = = 0 & & do_match ( ptr , v , 1 , 0xFF , 0xC3 ) ) // RET
if ( data_reg = = 0 & & do_match ( tem p, v , 1 , 0xFF , 0xC3 ) ) // RET
return ;
else
{
@ -248,6 +253,55 @@ bool Accessor::isConstant()
return false ;
}
string Accessor : : dump ( )
{
stringstream sstr ;
sstr < < hex < < " method @0x " < < method < < dec < < " " ;
switch ( type )
{
case ACCESSOR_CONSTANT :
sstr < < " Constant: " < < dec < < constant ;
break ;
case ACCESSOR_INDIRECT :
switch ( dataWidth )
{
case Data32 :
sstr < < " int32_t " ;
break ;
case DataSigned16 :
sstr < < " int16_t " ;
break ;
case DataUnsigned16 :
sstr < < " uint16_t " ;
break ;
default :
sstr < < " unknown " ;
break ;
}
sstr < < hex < < " [obj + 0x " < < offset1 < < " ] " ;
break ;
case ACCESSOR_DOUBLE_INDIRECT :
switch ( dataWidth )
{
case Data32 :
sstr < < " int32_t " ;
break ;
case DataSigned16 :
sstr < < " int16_t " ;
break ;
case DataUnsigned16 :
sstr < < " uint16_t " ;
break ;
default :
sstr < < " unknown " ;
break ;
}
sstr < < hex < < " [ [obj + 0x " < < offset1 < < " ] + 0x " < < offset2 < < " ] " ;
break ;
}
return sstr . str ( ) ;
}
int32_t Accessor : : getValue ( uint32_t objectPtr )
{
int32_t offset = this - > offset1 ;
@ -283,8 +337,10 @@ int32_t Accessor::getValue(uint32_t objectPtr)
Accessor * buildAccessor ( OffsetGroup * I , Process * p , const char * name , uint32_t vtable )
{
int32_t offset ;
if ( I - > getSafeOffset ( " item_type_accessor " , offset ) )
if ( I - > getSafeOffset ( name , offset ) )
{
return new Accessor ( p - > readDWord ( vtable + offset ) , p ) ;
}
else
{
fprintf ( stderr , " Missing offset for item accessor \" %s \" \n " , name ) ;
@ -324,6 +380,19 @@ ItemDesc::ItemDesc(uint32_t VTable, Process *p)
}
}
string ItemDesc : : dumpAccessors ( )
{
std : : stringstream outss ;
outss < < " MainType : " < < AMainType - > dump ( ) < < endl ;
outss < < " ASubType : " < < ASubType - > dump ( ) < < endl ;
outss < < " ASubIndex : " < < ASubIndex - > dump ( ) < < endl ;
outss < < " AIndex : " < < AIndex - > dump ( ) < < endl ;
outss < < " AQuality : " < < AQuality - > dump ( ) < < endl ;
outss < < " AWear : " < < AWear - > dump ( ) < < endl ;
return outss . str ( ) ;
}
bool ItemDesc : : readItem ( uint32_t itemptr , DFHack : : dfh_item & item )
{
p - > read ( itemptr , sizeof ( t_item ) , ( uint8_t * ) & item . base ) ;
@ -485,26 +554,38 @@ std::string Items::getItemClass(int32_t index)
std : : string Items : : getItemDescription ( const dfh_item & item , Materials * Materials )
{
/*
DFHack : : t_item item ;
std : : string out ;
if ( ! this - > getItemData ( itemptr , item ) )
return " ?? " ;
std : : stringstream outss ;
switch ( item . quality )
{
case 0 : break ;
case 1 : out . append ( " Well crafted " ) ; break ;
case 2 : out . append ( " Finely crafted " ) ; break ;
case 3 : out . append ( " Superior quality " ) ; break ;
case 4 : out . append ( " Exceptionnal " ) ; break ;
case 5 : out . append ( " Masterful " ) ; break ;
default : out . append ( " Crazy quality " ) ; break ;
case 0 :
outss < < " Ordinary " ;
break ;
case 1 :
outss < < " Well crafted " ;
break ;
case 2 :
outss < < " Finely crafted " ;
break ;
case 3 :
outss < < " Superior quality " ;
break ;
case 4 :
outss < < " Exceptionnal " ;
break ;
case 5 :
outss < < " Masterful " ;
break ;
default : outss < < " Crazy quality " < < item . quality < < " " ; break ;
}
out . append ( Materials - > getDescription ( item . matdesc ) ) ;
out . append ( " " ) ;
out . append ( this - > getItemClass ( item . matdesc . itemType ) ) ;
*/
//return out;
return getItemClass ( item . matdesc . itemType ) ;
outss < < Materials - > getDescription ( item . matdesc ) < < " " < < getItemClass ( item . matdesc . itemType ) ;
return outss . str ( ) ;
}
/// dump offsets used by accessors of a valid item to a string
std : : string Items : : dumpAccessors ( const dfh_item & item )
{
uint32_t vtable = item . base . vtable ;
std : : map < uint32_t , ItemDesc * > : : const_iterator it = d - > descVTable . find ( vtable ) ;
ItemDesc * desc = it - > second ;
return desc - > dumpAccessors ( ) ;
}