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# include "check-structures-sanity.h"
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# include <cinttypes>
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# include "df/large_integer.h"
Checker : : Checker ( color_ostream & out ) :
out ( out ) ,
checked_count ( 0 ) ,
error_count ( 0 ) ,
maxerrors ( ~ size_t ( 0 ) ) ,
maxerrors_reported ( false ) ,
enums ( false ) ,
sizes ( false ) ,
unnamed ( false ) ,
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failfast ( false ) ,
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noprogress ( ! out . is_console ( ) ) ,
maybepointer ( false )
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{
Core : : getInstance ( ) . p - > getMemRanges ( mapped ) ;
}
color_ostream & Checker : : fail ( int line , const QueueItem & item , const CheckedStructure & cs )
{
error_count + + ;
out < < COLOR_LIGHTRED < < " sanity check failed (line " < < line < < " ): " ;
out < < COLOR_RESET < < ( cs . identity ? cs . identity - > getFullName ( ) : " ? " ) ;
out < < " (accessed as " < < item . path < < " ): " ;
out < < COLOR_YELLOW ;
if ( maxerrors & & maxerrors ! = ~ size_t ( 0 ) )
maxerrors - - ;
return out ;
}
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bool Checker : : queue_item ( const QueueItem & item , CheckedStructure cs )
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{
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if ( ! cs . identity )
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{
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UNEXPECTED ;
return false ;
}
if ( cs . identity - > type ( ) = = IDTYPE_CLASS )
{
if ( cs . count )
{
UNEXPECTED ;
}
if ( get_vtable_name ( item , cs , true ) )
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{
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auto actual_identity = virtual_identity : : get ( reinterpret_cast < virtual_ptr > ( const_cast < void * > ( item . ptr ) ) ) ;
if ( static_cast < virtual_identity * > ( cs . identity ) - > is_subclass ( actual_identity ) )
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{
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cs . identity = actual_identity ;
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}
}
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}
auto ptr_end = PTR_ADD ( item . ptr , cs . full_size ( ) ) ;
auto prev = data . lower_bound ( item . ptr ) ;
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if ( prev ! = data . cbegin ( ) & & uintptr_t ( prev - > first ) > uintptr_t ( item . ptr ) )
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{
prev - - ;
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}
if ( prev ! = data . cend ( ) & & uintptr_t ( prev - > first ) < = uintptr_t ( item . ptr ) & & uintptr_t ( prev - > first ) + prev - > second . second . full_size ( ) > uintptr_t ( item . ptr ) )
{
auto offset = uintptr_t ( item . ptr ) - uintptr_t ( prev - > first ) ;
if ( ! prev - > second . second . has_type_at_offset ( cs , offset ) )
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{
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if ( offset = = 0 & & cs . identity = = df : : identity_traits < void * > : : get ( ) )
{
FAIL ( " unknown pointer is " < < prev - > second . second . identity - > getFullName ( ) < < " , previously seen at " < < prev - > second . first ) ;
return false ;
}
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// TODO
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FAIL ( " TODO: handle merging structures: " < < item . path < < " overlaps " < < prev - > second . first < < " (backward) " ) ;
return false ;
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}
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// we've already checked this structure, or we're currently queued to do so
return false ;
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}
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auto overlap_start = data . lower_bound ( item . ptr ) ;
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auto overlap_end = data . lower_bound ( ptr_end ) ;
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for ( auto overlap = overlap_start ; overlap ! = overlap_end ; overlap + + )
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{
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auto offset = uintptr_t ( overlap - > first ) - uintptr_t ( item . ptr ) ;
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if ( ! cs . has_type_at_offset ( overlap - > second . second , offset ) )
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{
// TODO
FAIL ( " TODO: handle merging structures: " < < overlap - > second . first < < " overlaps " < < item . path < < " (forward) " ) ;
return false ;
}
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}
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data . erase ( overlap_start , overlap_end ) ;
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data [ item . ptr ] = std : : make_pair ( item . path , cs ) ;
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queue . push_back ( item ) ;
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return true ;
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}
void Checker : : queue_globals ( )
{
auto fields = df : : global : : _identity . getFields ( ) ;
for ( auto field = fields ; field - > mode ! = struct_field_info : : END ; field + + )
{
if ( ! field - > offset )
{
UNEXPECTED ;
continue ;
}
// offset is the position of the DFHack pointer to this global.
auto ptr = * reinterpret_cast < const void * * > ( field - > offset ) ;
QueueItem item ( stl_sprintf ( " df.global.%s " , field - > name ) , ptr ) ;
CheckedStructure cs ( field ) ;
if ( ! ptr )
{
FAIL ( " unknown global address " ) ;
continue ;
}
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if ( ! strcmp ( field - > name , " enabler " ) )
{
// don't care about libgraphics as we have the source code
continue ;
}
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queue_item ( item , cs ) ;
}
}
bool Checker : : process_queue ( )
{
if ( queue . empty ( ) )
{
return false ;
}
auto item = std : : move ( queue . front ( ) ) ;
queue . pop_front ( ) ;
auto cs = data . find ( item . ptr ) ;
if ( cs = = data . end ( ) )
{
// happens if pointer is determined to be part of a larger structure
return true ;
}
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dispatch_item ( item , cs - > second . second ) ;
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return true ;
}
void Checker : : dispatch_item ( const QueueItem & base , const CheckedStructure & cs )
{
if ( ! is_valid_dereference ( base , cs ) )
{
return ;
}
if ( ! cs . count )
{
dispatch_single_item ( base , cs ) ;
return ;
}
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if ( sizes & & ! cs . inside_structure )
{
if ( auto allocated_size = get_allocated_size ( base ) )
{
auto expected_size = cs . identity - > byte_size ( ) ;
if ( cs . allocated_count )
expected_size * = cs . allocated_count ;
else if ( cs . count )
expected_size * = cs . count ;
if ( cs . identity - > type ( ) = = IDTYPE_CLASS & & get_vtable_name ( base , cs , true ) )
{
if ( cs . count )
{
UNEXPECTED ;
}
auto virtual_type = virtual_identity : : get ( static_cast < virtual_ptr > ( const_cast < void * > ( base . ptr ) ) ) ;
expected_size = virtual_type - > byte_size ( ) ;
}
auto & item = base ;
if ( allocated_size > expected_size )
{
FAIL ( " identified structure is too small (expected " < < expected_size < < " bytes, but there are " < < allocated_size < < " bytes allocated) " ) ;
}
else if ( allocated_size < expected_size )
{
FAIL ( " identified structure is too big (expected " < < expected_size < < " bytes, but there are " < < allocated_size < < " bytes allocated) " ) ;
}
}
else
{
UNEXPECTED ;
}
}
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auto ptr = base . ptr ;
auto size = cs . identity - > byte_size ( ) ;
for ( size_t i = 0 ; i < cs . count ; i + + )
{
QueueItem item ( base , i , ptr ) ;
dispatch_single_item ( item , cs ) ;
ptr = PTR_ADD ( ptr , size ) ;
}
}
void Checker : : dispatch_single_item ( const QueueItem & item , const CheckedStructure & cs )
{
checked_count + + ;
if ( ! maxerrors )
{
if ( ! maxerrors_reported )
{
FAIL ( " error limit reached. bailing out with " < < ( queue . size ( ) + 1 ) < < " items remaining in the queue. " ) ;
maxerrors_reported = true ;
}
queue . clear ( ) ;
return ;
}
switch ( cs . identity - > type ( ) )
{
case IDTYPE_GLOBAL :
case IDTYPE_FUNCTION :
UNEXPECTED ;
break ;
case IDTYPE_PRIMITIVE :
dispatch_primitive ( item , cs ) ;
break ;
case IDTYPE_POINTER :
dispatch_pointer ( item , cs ) ;
break ;
case IDTYPE_CONTAINER :
dispatch_container ( item , cs ) ;
break ;
case IDTYPE_PTR_CONTAINER :
dispatch_ptr_container ( item , cs ) ;
break ;
case IDTYPE_BIT_CONTAINER :
dispatch_bit_container ( item , cs ) ;
break ;
case IDTYPE_BITFIELD :
dispatch_bitfield ( item , cs ) ;
break ;
case IDTYPE_ENUM :
dispatch_enum ( item , cs ) ;
break ;
case IDTYPE_STRUCT :
dispatch_struct ( item , cs ) ;
break ;
case IDTYPE_CLASS :
dispatch_class ( item , cs ) ;
break ;
case IDTYPE_BUFFER :
dispatch_buffer ( item , cs ) ;
break ;
case IDTYPE_STL_PTR_VECTOR :
dispatch_stl_ptr_vector ( item , cs ) ;
break ;
case IDTYPE_OPAQUE :
break ;
case IDTYPE_UNION :
dispatch_untagged_union ( item , cs ) ;
break ;
}
}
void Checker : : dispatch_primitive ( const QueueItem & item , const CheckedStructure & cs )
{
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if ( cs . identity = = df : : identity_traits < std : : string > : : get ( ) )
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{
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check_stl_string ( item ) ;
}
else if ( cs . identity = = df : : identity_traits < char * > : : get ( ) )
{
// TODO check c strings
UNEXPECTED ;
}
else if ( cs . identity = = df : : identity_traits < bool > : : get ( ) )
{
auto val = * reinterpret_cast < const uint8_t * > ( item . ptr ) ;
if ( val > 1 & & val ! = 0xd2 )
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{
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FAIL ( " invalid value for bool: " < < int ( val ) ) ;
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}
}
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else if ( dynamic_cast < df : : integer_identity_base * > ( cs . identity ) )
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{
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check_possible_pointer ( item , cs ) ;
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// TODO check ints?
}
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else if ( dynamic_cast < df : : float_identity_base * > ( cs . identity ) )
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{
// TODO check floats?
}
else
{
UNEXPECTED ;
}
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}
void Checker : : dispatch_pointer ( const QueueItem & item , const CheckedStructure & cs )
{
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auto target_ptr = validate_and_dereference < const void * > ( item ) ;
if ( ! target_ptr )
{
return ;
}
# ifdef DFHACK64
if ( uintptr_t ( target_ptr ) = = 0xd2d2d2d2d2d2d2d2 )
# else
if ( uintptr_t ( target_ptr ) = = 0xd2d2d2d2 )
# endif
{
return ;
}
QueueItem target_item ( item . path , target_ptr ) ;
auto target = static_cast < pointer_identity * > ( cs . identity ) - > getTarget ( ) ;
if ( ! target )
{
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check_unknown_pointer ( target_item ) ;
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return ;
}
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CheckedStructure target_cs ( target ) ;
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// 256 is an arbitrarily chosen size threshold
if ( cs . count | | target - > byte_size ( ) < = 256 )
{
// target is small, or we are inside an array of pointers; handle now
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if ( queue_item ( target_item , target_cs ) )
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{
// we insert it into the queue to make sure we're not stuck in a loop
// get it back out of the queue to prevent the queue growing too big
queue . pop_back ( ) ;
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dispatch_item ( target_item , target_cs ) ;
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}
}
else
{
// target is large and not part of an array; handle later
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queue_item ( target_item , target_cs ) ;
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}
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}
void Checker : : dispatch_container ( const QueueItem & item , const CheckedStructure & cs )
{
auto identity = static_cast < container_identity * > ( cs . identity ) ;
auto base_container = identity - > getFullName ( nullptr ) ;
if ( base_container = = " vector<void> " )
{
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check_stl_vector ( item , identity - > getItemType ( ) , identity - > getIndexEnumType ( ) ) ;
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}
else if ( base_container = = " deque<void> " )
{
// TODO: check deque?
}
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else if ( base_container = = " DfArray<void> " )
{
// TODO: check DfArray
}
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else if ( base_container . substr ( 0 , 4 ) = = " map< " )
{
// TODO: check map
}
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else
{
UNEXPECTED ;
}
}
void Checker : : dispatch_ptr_container ( const QueueItem & item , const CheckedStructure & cs )
{
auto identity = static_cast < container_identity * > ( cs . identity ) ;
auto base_container = identity - > getFullName ( nullptr ) ;
{
UNEXPECTED ;
}
}
void Checker : : dispatch_bit_container ( const QueueItem & item , const CheckedStructure & cs )
{
auto identity = static_cast < container_identity * > ( cs . identity ) ;
auto base_container = identity - > getFullName ( nullptr ) ;
if ( base_container = = " BitArray<> " )
{
// TODO: check DF bit array
}
else if ( base_container = = " vector<bool> " )
{
// TODO: check stl bit vector
}
else
{
UNEXPECTED ;
}
}
void Checker : : dispatch_bitfield ( const QueueItem & item , const CheckedStructure & cs )
{
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check_possible_pointer ( item , cs ) ;
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if ( ! enums )
{
return ;
}
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auto bitfield_type = static_cast < bitfield_identity * > ( cs . identity ) ;
uint64_t bitfield_value ;
switch ( bitfield_type - > byte_size ( ) )
{
case 1 :
bitfield_value = validate_and_dereference < uint8_t > ( item ) ;
// don't check for uninitialized; too small to be sure
break ;
case 2 :
bitfield_value = validate_and_dereference < uint16_t > ( item ) ;
if ( bitfield_value = = 0xd2d2 )
{
bitfield_value = 0 ;
}
break ;
case 4 :
bitfield_value = validate_and_dereference < uint32_t > ( item ) ;
if ( bitfield_value = = 0xd2d2d2d2 )
{
bitfield_value = 0 ;
}
break ;
case 8 :
bitfield_value = validate_and_dereference < uint64_t > ( item ) ;
if ( bitfield_value = = 0xd2d2d2d2d2d2d2d2 )
{
bitfield_value = 0 ;
}
break ;
default :
UNEXPECTED ;
bitfield_value = 0 ;
break ;
}
auto num_bits = bitfield_type - > getNumBits ( ) ;
auto bits = bitfield_type - > getBits ( ) ;
for ( int i = 0 ; i < 64 ; i + + )
{
if ( ! ( num_bits & 1 ) )
{
bitfield_value > > = 1 ;
continue ;
}
bitfield_value > > = 1 ;
if ( i > = num_bits | | ! bits [ i ] . size )
{
FAIL ( " bitfield bit " < < i < < " is out of range " ) ;
}
else if ( unnamed & & bits [ i ] . size > 0 & & ! bits [ i ] . name )
{
FAIL ( " bitfield bit " < < i < < " is unnamed " ) ;
}
else if ( unnamed & & ! bits [ i + bits [ i ] . size ] . name )
{
FAIL ( " bitfield bit " < < i < < " (part of a field starting at bit " < < ( i + bits [ i ] . size ) < < " ) is unnamed " ) ;
}
}
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}
void Checker : : dispatch_enum ( const QueueItem & item , const CheckedStructure & cs )
{
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check_possible_pointer ( item , cs ) ;
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if ( ! enums )
{
return ;
}
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auto enum_type = static_cast < enum_identity * > ( cs . identity ) ;
auto enum_value = get_int_value ( item , enum_type - > getBaseType ( ) ) ;
if ( enum_type - > byte_size ( ) = = 2 & & uint16_t ( enum_value ) = = 0xd2d2 )
{
return ;
}
else if ( enum_type - > byte_size ( ) = = 4 & & uint32_t ( enum_value ) = = 0xd2d2d2d2 )
{
return ;
}
else if ( enum_type - > byte_size ( ) = = 8 & & uint64_t ( enum_value ) = = 0xd2d2d2d2d2d2d2d2 )
{
return ;
}
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if ( is_in_global ( item ) & & enum_value = = 0 )
{
return ;
}
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auto enum_name = get_enum_item_key ( enum_type , enum_value ) ;
if ( ! enum_name )
{
FAIL ( " enum value ( " < < enum_value < < " ) is out of range " ) ;
return ;
}
if ( unnamed & & ! * enum_name )
{
FAIL ( " enum value ( " < < enum_value < < " ) is unnamed " ) ;
}
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}
void Checker : : dispatch_struct ( const QueueItem & item , const CheckedStructure & cs )
{
auto identity = static_cast < struct_identity * > ( cs . identity ) ;
for ( auto p = identity ; p ; p = p - > getParent ( ) )
{
auto fields = p - > getFields ( ) ;
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if ( ! fields )
{
continue ;
}
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for ( auto field = fields ; field - > mode ! = struct_field_info : : END ; field + + )
{
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dispatch_field ( item , cs , identity , field ) ;
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}
}
}
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void Checker : : dispatch_field ( const QueueItem & item , const CheckedStructure & cs , struct_identity * identity , const struct_field_info * field )
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{
if ( field - > mode = = struct_field_info : : OBJ_METHOD | |
field - > mode = = struct_field_info : : CLASS_METHOD )
{
return ;
}
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auto field_ptr = PTR_ADD ( item . ptr , field - > offset ) ;
QueueItem field_item ( item , field - > name , field_ptr ) ;
CheckedStructure field_cs ( field ) ;
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auto tag_field = find_union_tag ( identity , field ) ;
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if ( tag_field )
{
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auto tag_ptr = PTR_ADD ( item . ptr , tag_field - > offset ) ;
QueueItem tag_item ( item , tag_field - > name , tag_ptr ) ;
CheckedStructure tag_cs ( tag_field ) ;
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auto attr_name = field - > extra ? field - > extra - > union_tag_attr : nullptr ;
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if ( tag_cs . identity - > isContainer ( ) )
{
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dispatch_tagged_union_vector ( field_item , tag_item , field_cs , tag_cs , attr_name ) ;
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}
else
{
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dispatch_tagged_union ( field_item , tag_item , field_cs , tag_cs , attr_name ) ;
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}
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return ;
}
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dispatch_item ( field_item , field_cs ) ;
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}
void Checker : : dispatch_class ( const QueueItem & item , const CheckedStructure & cs )
{
auto vtable_name = get_vtable_name ( item , cs ) ;
if ( ! vtable_name )
{
// bail out now because virtual_identity::get will crash
return ;
}
auto base_identity = static_cast < virtual_identity * > ( cs . identity ) ;
auto vptr = static_cast < virtual_ptr > ( const_cast < void * > ( item . ptr ) ) ;
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auto identity = virtual_identity : : get ( vptr ) ;
if ( ! identity )
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{
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FAIL ( " unidentified subclass of " < < base_identity - > getFullName ( ) < < " : " < < vtable_name ) ;
return ;
}
if ( base_identity ! = identity & & ! base_identity - > is_subclass ( identity ) )
{
FAIL ( " expected subclass of " < < base_identity - > getFullName ( ) < < " , but got " < < identity - > getFullName ( ) ) ;
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return ;
}
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if ( data . count ( item . ptr ) & & data . at ( item . ptr ) . first = = item . path )
{
// TODO: handle cases where this may overlap later data
data . at ( item . ptr ) . second . identity = identity ;
}
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dispatch_struct ( QueueItem ( item . path + " < " + identity - > getFullName ( ) + " > " , item . ptr ) , CheckedStructure ( identity ) ) ;
}
void Checker : : dispatch_buffer ( const QueueItem & item , const CheckedStructure & cs )
{
auto identity = static_cast < container_identity * > ( cs . identity ) ;
auto item_identity = identity - > getItemType ( ) ;
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dispatch_item ( item , CheckedStructure ( item_identity , identity - > byte_size ( ) / item_identity - > byte_size ( ) , static_cast < enum_identity * > ( identity - > getIndexEnumType ( ) ) , true ) ) ;
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}
void Checker : : dispatch_stl_ptr_vector ( const QueueItem & item , const CheckedStructure & cs )
{
auto identity = static_cast < container_identity * > ( cs . identity ) ;
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auto ptr_type = wrap_in_pointer ( identity - > getItemType ( ) ) ;
check_stl_vector ( item , ptr_type , identity - > getIndexEnumType ( ) ) ;
}
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void Checker : : dispatch_tagged_union ( const QueueItem & item , const QueueItem & tag_item , const CheckedStructure & cs , const CheckedStructure & tag_cs , const char * attr_name )
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{
if ( tag_cs . identity - > type ( ) ! = IDTYPE_ENUM | | cs . identity - > type ( ) ! = IDTYPE_UNION )
{
UNEXPECTED ;
return ;
}
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auto union_type = static_cast < union_identity * > ( cs . identity ) ;
auto union_data_ptr = reinterpret_cast < const uint8_t * > ( item . ptr ) ;
uint8_t padding_byte = * union_data_ptr ;
bool all_padding = false ;
if ( padding_byte = = 0x00 | | padding_byte = = 0xd2 | | padding_byte = = 0xff )
{
all_padding = true ;
for ( size_t i = 0 ; i < union_type - > byte_size ( ) ; i + + )
{
if ( union_data_ptr [ i ] ! = padding_byte )
{
all_padding = false ;
break ;
}
}
}
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auto tag_identity = static_cast < enum_identity * > ( tag_cs . identity ) ;
auto tag_value = get_int_value ( tag_item , tag_identity - > getBaseType ( ) ) ;
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if ( all_padding & & padding_byte = = 0xd2 )
{
// special case: completely uninitialized
switch ( tag_identity - > byte_size ( ) )
{
case 1 :
if ( tag_value = = 0xd2 )
{
return ;
}
break ;
case 2 :
if ( tag_value = = 0xd2d2 )
{
return ;
}
break ;
case 4 :
if ( tag_value = = 0xd2d2d2d2 )
{
return ;
}
break ;
case 8 :
if ( uint64_t ( tag_value ) = = 0xd2d2d2d2d2d2d2d2 )
{
return ;
}
break ;
default :
UNEXPECTED ;
break ;
}
}
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auto tag_name = get_enum_item_attr_or_key ( tag_identity , tag_value , attr_name ) ;
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if ( ! tag_name )
{
FAIL ( " tagged union tag (accessed as " < < tag_item . path < < " ) value ( " < < tag_value < < " ) not defined in enum " < < tag_cs . identity - > getFullName ( ) ) ;
return ;
}
if ( ! * tag_name )
{
FAIL ( " tagged union tag (accessed as " < < tag_item . path < < " ) value ( " < < tag_value < < " ) is unnamed " ) ;
return ;
}
for ( auto field = union_type - > getFields ( ) ; field - > mode ! = struct_field_info : : END ; field + + )
{
if ( strcmp ( field - > name , * tag_name ) )
{
continue ;
}
if ( field - > offset ! = 0 )
{
UNEXPECTED ;
}
dispatch_item ( QueueItem ( item , field - > name , item . ptr ) , field ) ;
return ;
}
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// don't ask for fields if it's all padding
if ( all_padding )
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{
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return ;
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}
FAIL ( " tagged union missing " < < * tag_name < < " field to match tag (accessed as " < < tag_item . path < < " ) value ( " < < tag_value < < " ) " ) ;
}
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void Checker : : dispatch_tagged_union_vector ( const QueueItem & item , const QueueItem & tag_item , const CheckedStructure & cs , const CheckedStructure & tag_cs , const char * attr_name )
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{
auto union_container_identity = static_cast < container_identity * > ( cs . identity ) ;
CheckedStructure union_item_cs ( union_container_identity - > getItemType ( ) ) ;
if ( union_container_identity - > type ( ) ! = IDTYPE_CONTAINER )
{
// assume pointer container
union_item_cs . identity = wrap_in_pointer ( union_item_cs . identity ) ;
}
auto tag_container_identity = static_cast < container_identity * > ( tag_cs . identity ) ;
auto tag_container_base = tag_container_identity - > getFullName ( nullptr ) ;
if ( tag_container_base = = " vector<void> " )
{
auto vec_union = validate_vector_size ( item , union_item_cs ) ;
CheckedStructure tag_item_cs ( tag_container_identity - > getItemType ( ) ) ;
auto vec_tag = validate_vector_size ( tag_item , tag_item_cs ) ;
if ( ! vec_union . first | | ! vec_tag . first )
{
// invalid vectors (already warned)
return ;
}
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if ( ! vec_union . second . count & & ! vec_tag . second . count )
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{
// empty vectors
return ;
}
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if ( vec_union . second . count ! = vec_tag . second . count )
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{
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FAIL ( " tagged union vector is " < < vec_union . second . count < < " elements, but tag vector (accessed as " < < tag_item . path < < " ) is " < < vec_tag . second . count < < " elements " ) ;
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}
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for ( size_t i = 0 ; i < vec_union . second . count & & i < vec_tag . second . count ; i + + )
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{
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dispatch_tagged_union ( QueueItem ( item , i , vec_union . first ) , QueueItem ( tag_item , i , vec_tag . first ) , union_item_cs , tag_item_cs , attr_name ) ;
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vec_union . first = PTR_ADD ( vec_union . first , union_item_cs . identity - > byte_size ( ) ) ;
vec_tag . first = PTR_ADD ( vec_tag . first , tag_item_cs . identity - > byte_size ( ) ) ;
}
}
else if ( tag_container_base = = " vector<bool> " )
{
// TODO
UNEXPECTED ;
}
else
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{
UNEXPECTED ;
}
}
void Checker : : dispatch_untagged_union ( const QueueItem & item , const CheckedStructure & cs )
{
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// special case for large_integer weirdness
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if ( cs . identity = = df : : identity_traits < df : : large_integer > : : get ( ) )
{
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// it's 16 bytes on 64-bit linux due to a messy header in libgraphics
// but only the first 8 bytes are ever used
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dispatch_primitive ( item , CheckedStructure ( df : : identity_traits < int64_t > : : get ( ) , 0 , nullptr , cs . inside_structure ) ) ;
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return ;
}
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FAIL ( " unhandled untagged union: " < < item . path ) ;
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}
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void Checker : : check_unknown_pointer ( const QueueItem & item )
{
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const static CheckedStructure cs ( nullptr , 0 , nullptr , true ) ;
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if ( auto allocated_size = get_allocated_size ( item ) )
{
FAIL ( " pointer to a block of " < < allocated_size < < " bytes of allocated memory " ) ;
if ( allocated_size > = MIN_SIZE_FOR_SUGGEST & & known_types_by_size . count ( allocated_size ) )
{
FAIL ( " known types of this size: " < < join_strings ( " , " , known_types_by_size . at ( allocated_size ) ) ) ;
}
// check recursively if it's the right size for a pointer
// or if it starts with what might be a valid pointer
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QueueItem ptr_item ( item , " ?ptr? " , item . ptr ) ;
if ( allocated_size = = sizeof ( void * ) | | ( allocated_size > sizeof ( void * ) & & is_valid_dereference ( ptr_item , 1 , true ) ) )
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{
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CheckedStructure ptr_cs ( df : : identity_traits < void * > : : get ( ) ) ;
if ( queue_item ( ptr_item , ptr_cs ) )
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{
queue . pop_back ( ) ;
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dispatch_pointer ( ptr_item , ptr_cs ) ;
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}
}
}
# ifndef WIN32
else if ( auto str = validate_stl_string_pointer ( & item . ptr ) )
{
FAIL ( " untyped pointer is actually stl-string with value \" " < < * str < < " \" (length " < < str - > length ( ) < < " ) " ) ;
}
# endif
else if ( auto vtable_name = get_vtable_name ( QueueItem ( item . path , & item . ptr ) , cs , true ) )
{
FAIL ( " pointer to a vtable: " < < vtable_name ) ;
}
else if ( sizes )
{
//FAIL("pointer to memory with no size information");
}
}
void Checker : : check_stl_vector ( const QueueItem & item , type_identity * item_identity , type_identity * eid )
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{
auto vec_items = validate_vector_size ( item , CheckedStructure ( item_identity ) ) ;
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// skip bad pointer vectors
if ( item . path . length ( ) > 4 & & item . path . substr ( item . path . length ( ) - 4 ) = = " .bad " & & item_identity - > type ( ) = = IDTYPE_POINTER )
{
return ;
}
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if ( vec_items . first & & vec_items . second . count )
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{
QueueItem items_item ( item . path , vec_items . first ) ;
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queue_item ( items_item , vec_items . second ) ;
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}
}
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void Checker : : check_stl_string ( const QueueItem & item )
{
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const static CheckedStructure cs ( df : : identity_traits < std : : string > : : get ( ) , 0 , nullptr , true ) ;
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# ifdef WIN32
struct string_data
{
union
{
uintptr_t start ;
char local_data [ 16 ] ;
} ;
size_t length ;
size_t capacity ;
} ;
# else
struct string_data
{
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uintptr_t start ;
size_t length ;
union
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{
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char local_data [ 16 ] ;
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size_t capacity ;
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} ;
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} ;
# endif
auto string = reinterpret_cast < const string_data * > ( item . ptr ) ;
# ifdef WIN32
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const bool is_gcc = false ;
const bool is_local = string - > capacity < 16 ;
# else
const bool is_gcc = true ;
const bool is_local = string - > start = = reinterpret_cast < uintptr_t > ( & string - > local_data [ 0 ] ) ;
# endif
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const char * start = is_local ? & string - > local_data [ 0 ] : reinterpret_cast < const char * > ( string - > start ) ;
ptrdiff_t length = string - > length ;
ptrdiff_t capacity = string - > capacity ;
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( void ) start ;
if ( length < 0 )
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{
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FAIL ( " string length is negative ( " < < length < < " ) " ) ;
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}
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else if ( is_gcc & & length > 0 & & ! is_valid_dereference ( QueueItem ( item , " ?start? " , reinterpret_cast < void * > ( string - > start ) ) , 1 ) )
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{
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// nullptr is NOT okay here
FAIL ( " invalid string pointer " < < stl_sprintf ( " 0x% " PRIxPTR , string - > start ) ) ;
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return ;
}
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else if ( is_local & & length > = 16 )
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{
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FAIL ( " string length is too large for small string ( " < < length < < " ) " ) ;
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}
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else if ( ( ! is_gcc | | ! is_local ) & & capacity < 0 )
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{
FAIL ( " string capacity is negative ( " < < capacity < < " ) " ) ;
}
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else if ( ( ! is_gcc | | ! is_local ) & & capacity < length )
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{
FAIL ( " string capacity ( " < < capacity < < " ) is less than length ( " < < length < < " ) " ) ;
}
}
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void Checker : : check_possible_pointer ( const QueueItem & item , const CheckedStructure & cs )
{
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if ( sizes & & maybepointer & & uintptr_t ( item . ptr ) % sizeof ( void * ) = = 0 )
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{
auto ptr = validate_and_dereference < const void * > ( item , true ) ;
QueueItem ptr_item ( item , " ?maybe_pointer? " , ptr ) ;
if ( ptr & & is_valid_dereference ( ptr_item , 1 , true ) )
{
check_unknown_pointer ( ptr_item ) ;
}
}
}