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afb6089d74
lazarus/components/fpdebug/fpdbgdwarf.pas
martin afb6089d74 FpDebug: Display function-ref variables 
git-svn-id: trunk@61521 -
2019-07-03 18:26:32 +00:00

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{
---------------------------------------------------------------------------
fpdbgdwarf.pas - Native Freepascal debugger - Dwarf symbol processing
---------------------------------------------------------------------------
This unit contains helper classes for handling and evaluating of debuggee data
described by DWARF debug symbols
---------------------------------------------------------------------------
@created(Mon Aug 1st WET 2006)
@lastmod($Date$)
@author(Marc Weustink <marc@@dommelstein.nl>)
@author(Martin Friebe)
***************************************************************************
* *
* This source is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This code is distributed in the hope that it will be useful, but *
* WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU *
* General Public License for more details. *
* *
* A copy of the GNU General Public License is available on the World *
* Wide Web at <http://www.gnu.org/copyleft/gpl.html>. You can also *
* obtain it by writing to the Free Software Foundation, *
* Inc., 51 Franklin Street - Fifth Floor, Boston, MA 02110-1335, USA. *
* *
***************************************************************************
}
unit FpDbgDwarf;
{$mode objfpc}{$H+}
{off $INLINE OFF}
(* Notes:
* FpDbgDwarfValues and Context
The Values do not add a reference to the Context. Yet they require the Context.
It is the users responsibility to keep the context, as long as any value exists.
*)
interface
uses
Classes, SysUtils, types, math, FpDbgInfo, FpDbgDwarfDataClasses, FpdMemoryTools, FpErrorMessages,
FpDbgUtil, FpDbgDwarfConst, DbgIntfBaseTypes, LazUTF8, LazLoggerBase, LazClasses;
type
TFpDwarfInfo = FpDbgDwarfDataClasses.TFpDwarfInfo;
{ TFpDwarfDefaultSymbolClassMap }
TFpDwarfDefaultSymbolClassMap = class(TFpDwarfSymbolClassMap)
private
class var ExistingClassMap: TFpDwarfSymbolClassMap;
protected
class function GetExistingClassMap: PFpDwarfSymbolClassMap; override;
public
class function ClassCanHandleCompUnit(ACU: TDwarfCompilationUnit): Boolean; override;
public
//function CanHandleCompUnit(ACU: TDwarfCompilationUnit): Boolean; override;
function GetDwarfSymbolClass(ATag: Cardinal): TDbgDwarfSymbolBaseClass; override;
function CreateContext(AThreadId, AStackFrame: Integer; AnAddress:
TDbgPtr; ASymbol: TFpDbgSymbol; ADwarf: TFpDwarfInfo): TFpDbgInfoContext; override;
function CreateProcSymbol(ACompilationUnit: TDwarfCompilationUnit;
AInfo: PDwarfAddressInfo; AAddress: TDbgPtr): TDbgDwarfSymbolBase; override;
end;
{ TFpDwarfInfoAddressContext }
TFpDwarfInfoAddressContext = class(TFpDbgInfoContext)
private
FSymbol: TFpDbgSymbol;
FAddress: TDBGPtr;
FThreadId, FStackFrame: Integer;
FDwarf: TFpDwarfInfo;
FlastResult: TFpDbgValue;
protected
function GetSymbolAtAddress: TFpDbgSymbol; override;
function GetProcedureAtAddress: TFpDbgValue; override;
function GetAddress: TDbgPtr; override;
function GetThreadId: Integer; override;
function GetStackFrame: Integer; override;
function GetSizeOfAddress: Integer; override;
function GetMemManager: TFpDbgMemManager; override;
property Symbol: TFpDbgSymbol read FSymbol;
property Dwarf: TFpDwarfInfo read FDwarf;
property Address: TDBGPtr read FAddress write FAddress;
property ThreadId: Integer read FThreadId write FThreadId;
property StackFrame: Integer read FStackFrame write FStackFrame;
procedure ApplyContext(AVal: TFpDbgValue); inline;
function SymbolToValue(ASym: TFpDbgSymbol): TFpDbgValue; inline;
procedure AddRefToVal(AVal: TFpDbgValue); inline;
function GetSelfParameter: TFpDbgValue; virtual;
function FindExportedSymbolInUnits(const AName: String; PNameUpper, PNameLower: PChar;
SkipCompUnit: TDwarfCompilationUnit; out ADbgValue: TFpDbgValue): Boolean; inline;
function FindSymbolInStructure(const AName: String; PNameUpper, PNameLower: PChar;
InfoEntry: TDwarfInformationEntry; out ADbgValue: TFpDbgValue): Boolean; inline;
// FindLocalSymbol: for the subroutine itself
function FindLocalSymbol(const AName: String; PNameUpper, PNameLower: PChar;
InfoEntry: TDwarfInformationEntry; out ADbgValue: TFpDbgValue): Boolean; virtual;
public
constructor Create(AThreadId, AStackFrame: Integer; AnAddress: TDbgPtr; ASymbol: TFpDbgSymbol; ADwarf: TFpDwarfInfo);
destructor Destroy; override;
function FindSymbol(const AName: String): TFpDbgValue; override;
end;
TFpDwarfSymbol = class;
TFpDwarfSymbolType = class;
TFpDwarfSymbolValue = class;
TFpDwarfSymbolValueClass = class of TFpDwarfSymbolValue;
TFpDwarfSymbolTypeClass = class of TFpDwarfSymbolType;
{%region Value objects }
{ TFpDwarfValueBase }
TFpDwarfValueBase = class(TFpDbgValue)
private
FContext: TFpDbgInfoContext;
public
property Context: TFpDbgInfoContext read FContext write FContext;
end;
{ TFpDwarfValueTypeDefinition }
TFpDwarfValueTypeDefinition = class(TFpDwarfValueBase)
private
FSymbol: TFpDbgSymbol; // stType
protected
function GetKind: TDbgSymbolKind; override;
function GetDbgSymbol: TFpDbgSymbol; override;
public
constructor Create(ASymbol: TFpDbgSymbol); // Only for stType
destructor Destroy; override;
function GetTypeCastedValue(ADataVal: TFpDbgValue): TFpDbgValue; override;
end;
{ TFpDwarfValue }
TFpDwarfValue = class(TFpDwarfValueBase)
private
FOwner: TFpDwarfSymbolType; // the creator, usually the type
FValueSymbol: TFpDwarfSymbolValue;
FTypeCastTargetType: TFpDwarfSymbolType;
FTypeCastSourceValue: TFpDbgValue;
FDataAddressCache: array of TFpDbgMemLocation;
FStructureValue: TFpDwarfValue;
FLastMember: TFpDwarfValue;
function GetDataAddressCache(AIndex: Integer): TFpDbgMemLocation;
procedure SetDataAddressCache(AIndex: Integer; AValue: TFpDbgMemLocation);
procedure SetStructureValue(AValue: TFpDwarfValue);
protected
FLastError: TFpError;
function MemManager: TFpDbgMemManager; inline;
procedure DoReferenceAdded; override;
procedure DoReferenceReleased; override;
procedure CircleBackRefActiveChanged(NewActive: Boolean); override;
procedure SetLastMember(ALastMember: TFpDwarfValue);
function GetLastError: TFpError; override;
function AddressSize: Byte; inline;
// Address of the symbol (not followed any type deref, or location)
function GetAddress: TFpDbgMemLocation; override;
function OrdOrAddress: TFpDbgMemLocation;
// Address of the data (followed type deref, location, ...)
function DataAddr: TFpDbgMemLocation;
function OrdOrDataAddr: TFpDbgMemLocation;
function GetDwarfDataAddress(out AnAddress: TFpDbgMemLocation; ATargetType: TFpDwarfSymbolType = nil): Boolean;
function GetStructureDwarfDataAddress(out AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType = nil): Boolean;
function HasDwarfDataAddress: Boolean; // TODO: is this just HasAddress?
procedure Reset; virtual; // keeps lastmember and structureninfo
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function HasTypeCastInfo: Boolean;
function IsValidTypeCast: Boolean; virtual;
function GetKind: TDbgSymbolKind; override;
function GetMemberCount: Integer; override;
function GetMemberByName(AIndex: String): TFpDbgValue; override;
function GetMember(AIndex: Int64): TFpDbgValue; override;
function GetDbgSymbol: TFpDbgSymbol; override;
function GetTypeInfo: TFpDbgSymbol; override;
function GetContextTypeInfo: TFpDbgSymbol; override;
property TypeCastTargetType: TFpDwarfSymbolType read FTypeCastTargetType;
property TypeCastSourceValue: TFpDbgValue read FTypeCastSourceValue;
property Owner: TFpDwarfSymbolType read FOwner;
public
constructor Create(AOwner: TFpDwarfSymbolType);
destructor Destroy; override;
procedure SetValueSymbol(AValueSymbol: TFpDwarfSymbolValue);
function SetTypeCastInfo(AStructure: TFpDwarfSymbolType;
ASource: TFpDbgValue): Boolean; // Used for Typecast
// StructureValue: Any Value returned via GetMember points to its structure
property StructureValue: TFpDwarfValue read FStructureValue write SetStructureValue;
property ValueSymbol: TFpDwarfSymbolValue read FValueSymbol;
// DataAddressCache[0]: ValueAddress // DataAddressCache[1..n]: DataAddress
property DataAddressCache[AIndex: Integer]: TFpDbgMemLocation read GetDataAddressCache write SetDataAddressCache;
end;
TFpDwarfValueUnknown = class(TFpDwarfValue)
end;
{ TFpDwarfValueSized }
TFpDwarfValueSized = class(TFpDwarfValue)
private
FSize: Integer;
protected
function CanUseTypeCastAddress: Boolean;
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetSize: Integer; override;
public
constructor Create(AOwner: TFpDwarfSymbolType; ASize: Integer);
end;
{ TFpDwarfValueNumeric }
TFpDwarfValueNumeric = class(TFpDwarfValueSized)
protected
FEvaluated: set of (doneUInt, doneInt, doneAddr, doneFloat);
protected
procedure Reset; override;
function GetFieldFlags: TFpDbgValueFieldFlags; override; // svfOrdinal
function IsValidTypeCast: Boolean; override;
public
constructor Create(AOwner: TFpDwarfSymbolType; ASize: Integer);
end;
{ TFpDwarfValueInteger }
TFpDwarfValueInteger = class(TFpDwarfValueNumeric)
private
FIntValue: Int64;
protected
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetAsCardinal: QWord; override;
function GetAsInteger: Int64; override;
end;
{ TFpDwarfValueCardinal }
TFpDwarfValueCardinal = class(TFpDwarfValueNumeric)
private
FValue: QWord;
protected
function GetAsCardinal: QWord; override;
function GetFieldFlags: TFpDbgValueFieldFlags; override;
end;
{ TFpDwarfValueFloat }
TFpDwarfValueFloat = class(TFpDwarfValueNumeric) // TDbgDwarfSymbolValue
// TODO: typecasts to int should convert
private
FValue: Extended;
protected
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetAsFloat: Extended; override;
end;
{ TFpDwarfValueBoolean }
TFpDwarfValueBoolean = class(TFpDwarfValueCardinal)
protected
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetAsBool: Boolean; override;
end;
{ TFpDwarfValueChar }
TFpDwarfValueChar = class(TFpDwarfValueCardinal)
protected
// returns single char(byte) / widechar
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetAsString: AnsiString; override;
function GetAsWideString: WideString; override;
end;
{ TFpDwarfValuePointer }
TFpDwarfValuePointer = class(TFpDwarfValueNumeric)
private
FLastAddrMember: TFpDbgValue;
FPointetToAddr: TFpDbgMemLocation;
protected
function GetAsCardinal: QWord; override;
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetDataAddress: TFpDbgMemLocation; override;
function GetAsString: AnsiString; override;
function GetAsWideString: WideString; override;
function GetMember(AIndex: Int64): TFpDbgValue; override;
public
destructor Destroy; override;
end;
{ TFpDwarfValueEnum }
TFpDwarfValueEnum = class(TFpDwarfValueNumeric)
private
FValue: QWord;
FMemberIndex: Integer;
FMemberValueDone: Boolean;
procedure InitMemberIndex;
protected
procedure Reset; override;
//function IsValidTypeCast: Boolean; override;
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetAsCardinal: QWord; override;
function GetAsString: AnsiString; override;
// Has exactly 0 (if the ordinal value is out of range) or 1 member (the current value's enum)
function GetMemberCount: Integer; override;
function GetMember({%H-}AIndex: Int64): TFpDbgValue; override;
end;
{ TFpDwarfValueEnumMember }
TFpDwarfValueEnumMember = class(TFpDwarfValue)
private
FOwnerVal: TFpDwarfSymbolValue;
protected
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetAsCardinal: QWord; override;
function GetAsString: AnsiString; override;
function IsValidTypeCast: Boolean; override;
public
constructor Create(AOwner: TFpDwarfSymbolValue);
end;
{ TFpDwarfValueConstNumber }
TFpDwarfValueConstNumber = class(TFpDbgValueConstNumber)
protected
procedure Update(AValue: QWord; ASigned: Boolean);
end;
{ TFpDwarfValueSet }
TFpDwarfValueSet = class(TFpDwarfValueSized)
private
FMem: array of Byte;
FMemberCount: Integer;
FMemberMap: array of Integer;
FNumValue: TFpDwarfValueConstNumber;
FTypedNumValue: TFpDbgValue;
procedure InitMap;
protected
procedure Reset; override;
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetMemberCount: Integer; override;
function GetMember(AIndex: Int64): TFpDbgValue; override;
function GetAsCardinal: QWord; override; // only up to qmord
function IsValidTypeCast: Boolean; override;
public
destructor Destroy; override;
end;
{ TFpDwarfValueStruct }
TFpDwarfValueStruct = class(TFpDwarfValue)
private
FDataAddress: TFpDbgMemLocation;
FDataAddressDone: Boolean;
protected
procedure Reset; override;
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetAsCardinal: QWord; override;
function GetDataAddress: TFpDbgMemLocation; override;
function GetDataSize: Integer; override;
function GetSize: Integer; override;
end;
{ TFpDwarfValueStructTypeCast }
TFpDwarfValueStructTypeCast = class(TFpDwarfValue)
private
FMembers: TFpDbgCircularRefCntObjList;
FDataAddress: TFpDbgMemLocation;
FDataAddressDone: Boolean;
protected
procedure Reset; override;
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetKind: TDbgSymbolKind; override;
function GetAsCardinal: QWord; override;
function GetSize: Integer; override;
function GetDataSize: Integer; override;
function GetDataAddress: TFpDbgMemLocation; override;
function IsValidTypeCast: Boolean; override;
public
destructor Destroy; override;
function GetMemberByName(AIndex: String): TFpDbgValue; override;
function GetMember(AIndex: Int64): TFpDbgValue; override;
function GetMemberCount: Integer; override;
end;
{ TFpDwarfValueConstAddress }
TFpDwarfValueConstAddress = class(TFpDbgValueConstAddress)
protected
procedure Update(AnAddress: TFpDbgMemLocation);
end;
{ TFpDwarfValueArray }
TFpDwarfValueArray = class(TFpDwarfValue)
private
FAddrObj: TFpDwarfValueConstAddress;
protected
function GetFieldFlags: TFpDbgValueFieldFlags; override;
function GetKind: TDbgSymbolKind; override;
function GetAsCardinal: QWord; override;
function GetDataAddress: TFpDbgMemLocation; override;
function GetMember(AIndex: Int64): TFpDbgValue; override;
function GetMemberEx(const AIndex: array of Int64): TFpDbgValue; override;
function GetMemberCount: Integer; override;
function GetMemberCountEx(const AIndex: array of Int64): Integer; override;
function GetIndexType(AIndex: Integer): TFpDbgSymbol; override;
function GetIndexTypeCount: Integer; override;
function IsValidTypeCast: Boolean; override;
public
destructor Destroy; override;
end;
{ TFpDwarfValueSubroutine }
TFpDwarfValueSubroutine = class(TFpDwarfValue)
protected
function GetDataAddress: TFpDbgMemLocation; override;
function IsValidTypeCast: Boolean; override;
end;
{%endregion Value objects }
{%region Symbol objects }
TInitLocParserData = record
(* DW_AT_data_member_location: Is always pushed on stack
DW_AT_data_location: Is avalibale for DW_OP_push_object_address
*)
ObjectDataAddress: TFpDbgMemLocation;
ObjectDataAddrPush: Boolean; // always push ObjectDataAddress on stack: DW_AT_data_member_location
end;
PInitLocParserData = ^TInitLocParserData;
{ TDbgDwarfIdentifier }
{ TFpDwarfSymbol }
TFpDwarfSymbol = class(TDbgDwarfSymbolBase)
private
FNestedTypeInfo: TFpDwarfSymbolType;
FParentTypeInfo: TFpDwarfSymbol;
FDwarfReadFlags: set of (didtNameRead, didtTypeRead, didtArtificialRead, didtIsArtifical);
function GetNestedTypeInfo: TFpDwarfSymbolType;
protected
(* There will be a circular reference between parenttype and self
"self" will only set its reference to parenttype, if self has other references. *)
procedure DoReferenceAdded; override;
procedure DoReferenceReleased; override;
procedure CircleBackRefActiveChanged(ANewActive: Boolean); override;
procedure SetParentTypeInfo(AValue: TFpDwarfSymbol); virtual;
function DoGetNestedTypeInfo: TFpDwarfSymbolType; virtual;
function ReadMemberVisibility(out AMemberVisibility: TDbgSymbolMemberVisibility): Boolean;
function IsArtificial: Boolean; // usud by formal param and subprogram
procedure NameNeeded; override;
procedure TypeInfoNeeded; override;
property NestedTypeInfo: TFpDwarfSymbolType read GetNestedTypeInfo;
// OwnerTypeInfo: reverse of "NestedTypeInfo" (variable that is of this type)
// property OwnerTypeInfo: TDbgDwarfIdentifier read FOwnerTypeInfo; // write SetOwnerTypeInfo;
// ParentTypeInfo: funtion for local var / class for member
property ParentTypeInfo: TFpDwarfSymbol read FParentTypeInfo write SetParentTypeInfo;
function DataSize: Integer; virtual;
protected
function InitLocationParser(const {%H-}ALocationParser: TDwarfLocationExpression;
AnInitLocParserData: PInitLocParserData = nil): Boolean; virtual;
function LocationFromTag(ATag: Cardinal; const AnAttribData: TDwarfAttribData; AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; // kept, if tag does not exist
AnInitLocParserData: PInitLocParserData = nil
): Boolean;
function LocationFromTag(ATag: Cardinal; AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; // kept, if tag does not exist
AnInitLocParserData: PInitLocParserData = nil;
AnInformationEntry: TDwarfInformationEntry = nil;
ASucessOnMissingTag: Boolean = False
): Boolean; // deprecated
function ConstantFromTag(ATag: Cardinal; out AConstData: TByteDynArray;
var AnAddress: TFpDbgMemLocation; // kept, if tag does not exist
AnInformationEntry: TDwarfInformationEntry = nil;
ASucessOnMissingTag: Boolean = False
): Boolean;
// GetDataAddress: data of a class, or string
function GetDataAddress(AValueObj: TFpDwarfValue; var AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType; ATargetCacheIndex: Integer): Boolean;
function GetDataAddressNext(AValueObj: TFpDwarfValue; var AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType; ATargetCacheIndex: Integer): Boolean; virtual;
function HasAddress: Boolean; virtual;
procedure Init; override;
public
class function CreateSubClass(AName: String; AnInformationEntry: TDwarfInformationEntry): TFpDwarfSymbol;
destructor Destroy; override;
function StartScope: TDbgPtr; // return 0, if none. 0 includes all anyway
end;
{ TFpDwarfSymbolValue }
TFpDwarfSymbolValue = class(TFpDwarfSymbol) // var, const, member, ...
protected
FValueObject: TFpDwarfValue;
FMembers: TFpDbgCircularRefCntObjList;
function GetValueAddress({%H-}AValueObj: TFpDwarfValue;{%H-} out AnAddress: TFpDbgMemLocation): Boolean; virtual;
function GetValueDataAddress(AValueObj: TFpDwarfValue; out AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType = nil): Boolean;
procedure KindNeeded; override;
procedure MemberVisibilityNeeded; override;
function GetMember(AIndex: Int64): TFpDbgSymbol; override;
function GetMemberByName(AIndex: String): TFpDbgSymbol; override;
function GetMemberCount: Integer; override;
procedure Init; override;
public
destructor Destroy; override;
class function CreateValueSubClass(AName: String; AnInformationEntry: TDwarfInformationEntry): TFpDwarfSymbolValue;
end;
{ TFpDwarfSymbolValueWithLocation }
TFpDwarfSymbolValueWithLocation = class(TFpDwarfSymbolValue)
private
procedure FrameBaseNeeded(ASender: TObject); // Sender = TDwarfLocationExpression
protected
function GetValueObject: TFpDbgValue; override;
function InitLocationParser(const ALocationParser: TDwarfLocationExpression;
AnInitLocParserData: PInitLocParserData): Boolean; override;
end;
{ TFpDwarfSymbolType }
(* Types and allowed tags in dwarf 2
DW_TAG_enumeration_type, DW_TAG_subroutine_type, DW_TAG_union_type,
DW_TAG_ptr_to_member_type, DW_TAG_set_type, DW_TAG_subrange_type, DW_TAG_file_type,
DW_TAG_thrown_type
DW_TAG_base_type
DW_AT_encoding Y
DW_AT_bit_offset Y
DW_AT_bit_size Y
DW_TAG_base_type
| DW_TAG_typedef
| | DW_TAG_string_type
| | | DW_TAG_array_type
| | | |
| | | | DW_TAG_class_type
| | | | | DW_TAG_structure_type
| | | | | |
| | | | | | DW_TAG_enumeration_type
| | | | | | | DW_TAG_set_type
| | | | | | | | DW_TAG_enumerator
| | | | | | | | | DW_TAG_subrange_type
DW_AT_name Y Y Y Y Y Y Y Y Y Y
DW_AT_sibling Y Y Y Y Y Y Y Y Y Y
DECL Y Y Y Y Y Y Y Y Y
DW_AT_byte_size Y Y Y Y Y Y Y Y
DW_AT_abstract_origin Y Y Y Y Y Y Y Y
DW_AT_accessibility Y Y Y Y Y Y Y Y
DW_AT_declaration Y Y Y Y Y Y Y Y
DW_AT_start_scope Y Y Y Y Y Y Y
DW_AT_visibility Y Y Y Y Y Y Y Y
DW_AT_type Y Y Y Y
DW_AT_segment Y DW_TAG_string_type
DW_AT_string_length Y
DW_AT_ordering Y DW_TAG_array_type
DW_AT_stride_size Y
DW_AT_const_value Y DW_TAG_enumerator
DW_AT_count Y DW_TAG_subrange_type
DW_AT_lower_bound Y
DW_AT_upper_bound Y
DW_TAG_pointer_type
| DW_TAG_reference_type
| | DW_TAG_packed_type
| | | DW_TAG_const_type
| | | | DW_TAG_volatile_type
DW_AT_address_class Y Y
DW_AT_sibling Y Y Y Y Y
DW_AT_type Y Y Y Y Y
DECL = DW_AT_decl_column, DW_AT_decl_file, DW_AT_decl_line
*)
TFpDwarfSymbolType = class(TFpDwarfSymbol)
protected
procedure Init; override;
procedure MemberVisibilityNeeded; override;
procedure SizeNeeded; override;
function GetTypedValueObject({%H-}ATypeCast: Boolean): TFpDwarfValue; virtual; // returns refcount=1 for caller, no cached copy kept
public
class function CreateTypeSubClass(AName: String; AnInformationEntry: TDwarfInformationEntry): TFpDwarfSymbolType;
function TypeCastValue(AValue: TFpDbgValue): TFpDbgValue; override;
(*TODO: workaround / quickfix // only partly implemented
When reading several elements of an array (dyn or stat), the typeinfo is always the same instance (type of array entry)
But once that instance has read data (like bounds / dwarf3 bounds are read from app mem), this is cached.
So all consecutive entries get the same info...
array of string
array of shortstring
array of {dyn} array
This works similar to "Init", but should only clear data that is not static / depends on memory reads
Bounds (and maybe all such data) should be stored on the value object)
*)
procedure ResetValueBounds; virtual;
end;
{ TFpDwarfSymbolTypeBasic }
TFpDwarfSymbolTypeBasic = class(TFpDwarfSymbolType)
//function DoGetNestedTypeInfo: TFpDwarfSymbolType; // return nil
protected
procedure KindNeeded; override;
procedure TypeInfoNeeded; override;
function GetTypedValueObject({%H-}ATypeCast: Boolean): TFpDwarfValue; override;
function GetHasBounds: Boolean; override;
public
function GetValueBounds(AValueObj: TFpDbgValue; out ALowBound,
AHighBound: Int64): Boolean; override;
function GetValueLowBound(AValueObj: TFpDbgValue; out ALowBound: Int64): Boolean; override;
function GetValueHighBound(AValueObj: TFpDbgValue; out AHighBound: Int64): Boolean; override;
end;
{ TFpDwarfSymbolTypeModifier }
TFpDwarfSymbolTypeModifier = class(TFpDwarfSymbolType)
protected
procedure TypeInfoNeeded; override;
procedure ForwardToSymbolNeeded; override;
function GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue; override;
end;
{ TFpDwarfSymbolTypeRef }
TFpDwarfSymbolTypeRef = class(TFpDwarfSymbolTypeModifier)
protected
function GetFlags: TDbgSymbolFlags; override;
function GetDataAddressNext(AValueObj: TFpDwarfValue; var AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType; ATargetCacheIndex: Integer): Boolean; override;
end;
{ TFpDwarfSymbolTypeDeclaration }
TFpDwarfSymbolTypeDeclaration = class(TFpDwarfSymbolTypeModifier)
protected
// fpc encodes classes as pointer, not ref (so Obj1 = obj2 compares the pointers)
// typedef > pointer > srtuct
// while a pointer to class/object: pointer > typedef > ....
function DoGetNestedTypeInfo: TFpDwarfSymbolType; override;
end;
{ TFpDwarfSymbolTypeSubRange }
TFpDwarfSubRangeBoundReadState = (rfNotRead, rfNotFound, rfError, rfConst, rfValue);
TFpDwarfSymbolTypeSubRange = class(TFpDwarfSymbolTypeModifier)
// TODO not a modifier, maybe have a forwarder base class
private
FLowBoundConst: Int64;
FLowBoundValue: TFpDwarfSymbolValue;
FLowBoundState: TFpDwarfSubRangeBoundReadState;
FHighBoundConst: Int64;
FHighBoundValue: TFpDwarfSymbolValue;
FHighBoundState: TFpDwarfSubRangeBoundReadState;
FCountConst: Int64;
FCountValue: TFpDwarfSymbolValue;
FCountState: TFpDwarfSubRangeBoundReadState;
FLowEnumIdx, FHighEnumIdx: Integer;
FEnumIdxValid: Boolean;
procedure InitEnumIdx;
procedure ReadBound(AValueObj: TFpDwarfValue; AnAttrib: Cardinal;
var ABoundConst: Int64; var ABoundValue: TFpDwarfSymbolValue; var ABoundState: TFpDwarfSubRangeBoundReadState);
protected
function DoGetNestedTypeInfo: TFpDwarfSymbolType;override;
function GetHasBounds: Boolean; override;
procedure NameNeeded; override;
procedure KindNeeded; override;
procedure SizeNeeded; override;
function GetMember(AIndex: Int64): TFpDbgSymbol; override;
function GetMemberCount: Integer; override;
function GetFlags: TDbgSymbolFlags; override;
procedure Init; override;
public
procedure ResetValueBounds; override;
function GetValueBounds(AValueObj: TFpDbgValue; out ALowBound, AHighBound: Int64): Boolean; override;
function GetValueLowBound(AValueObj: TFpDbgValue; out ALowBound: Int64): Boolean; override;
function GetValueHighBound(AValueObj: TFpDbgValue; out AHighBound: Int64): Boolean; override;
property LowBoundState: TFpDwarfSubRangeBoundReadState read FLowBoundState; deprecated;
property HighBoundState: TFpDwarfSubRangeBoundReadState read FHighBoundState; deprecated;
property CountState: TFpDwarfSubRangeBoundReadState read FCountState; deprecated;
end;
{ TFpDwarfSymbolTypePointer }
TFpDwarfSymbolTypePointer = class(TFpDwarfSymbolType)
private
FIsInternalPointer: Boolean;
function GetIsInternalPointer: Boolean; inline;
function IsInternalDynArrayPointer: Boolean; inline;
protected
procedure TypeInfoNeeded; override;
procedure KindNeeded; override;
procedure SizeNeeded; override;
procedure ForwardToSymbolNeeded; override;
function GetDataAddressNext(AValueObj: TFpDwarfValue; var AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType; ATargetCacheIndex: Integer): Boolean; override;
function GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue; override;
function DataSize: Integer; override;
public
property IsInternalPointer: Boolean read GetIsInternalPointer write FIsInternalPointer; // Class (also DynArray, but DynArray is handled without this)
end;
{ TFpDwarfSymbolTypeSubroutine }
TFpDwarfSymbolTypeSubroutine = class(TFpDwarfSymbolType)
private
FProcMembers: TRefCntObjList;
FLastMember: TFpDbgSymbol;
procedure CreateMembers;
protected
//copied from TFpDwarfSymbolValueProc
function GetMember(AIndex: Int64): TFpDbgSymbol; override;
function GetMemberByName(AIndex: String): TFpDbgSymbol; override;
function GetMemberCount: Integer; override;
function GetTypedValueObject({%H-}ATypeCast: Boolean): TFpDwarfValue; override;
// TODO: deal with DW_TAG_pointer_type
function GetDataAddressNext(AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; ATargetType: TFpDwarfSymbolType;
ATargetCacheIndex: Integer): Boolean; override;
procedure KindNeeded; override;
public
destructor Destroy; override;
end;
{ TFpDwarfSymbolValueEnumMember }
TFpDwarfSymbolValueEnumMember = class(TFpDwarfSymbolValue)
FOrdinalValue: Int64;
FOrdinalValueRead, FHasOrdinalValue: Boolean;
procedure ReadOrdinalValue;
protected
procedure KindNeeded; override;
function GetHasOrdinalValue: Boolean; override;
function GetOrdinalValue: Int64; override;
procedure Init; override;
function GetValueObject: TFpDbgValue; override;
end;
{ TFpDwarfSymbolTypeEnum }
TFpDwarfSymbolTypeEnum = class(TFpDwarfSymbolType)
private
FMembers: TFpDbgCircularRefCntObjList;
procedure CreateMembers;
protected
function GetTypedValueObject({%H-}ATypeCast: Boolean): TFpDwarfValue; override;
procedure KindNeeded; override;
function GetMember(AIndex: Int64): TFpDbgSymbol; override;
function GetMemberByName(AIndex: String): TFpDbgSymbol; override;
function GetMemberCount: Integer; override;
function GetHasBounds: Boolean; override;
public
destructor Destroy; override;
function GetValueBounds(AValueObj: TFpDbgValue; out ALowBound,
AHighBound: Int64): Boolean; override;
function GetValueLowBound(AValueObj: TFpDbgValue; out ALowBound: Int64): Boolean; override;
function GetValueHighBound(AValueObj: TFpDbgValue; out AHighBound: Int64): Boolean; override;
end;
{ TFpDwarfSymbolTypeSet }
TFpDwarfSymbolTypeSet = class(TFpDwarfSymbolType)
protected
procedure KindNeeded; override;
function GetTypedValueObject({%H-}ATypeCast: Boolean): TFpDwarfValue; override;
function GetMemberCount: Integer; override;
function GetMember(AIndex: Int64): TFpDbgSymbol; override;
end;
(*
If not specified
.NestedTypeInfo --> copy of TypeInfo
.ParentTypeInfo --> nil
ParentTypeInfo: has a weak RefCount (only AddRef, if self has other refs)
AnObject = TFpDwarfSymbolValueVariable
|-- .TypeInfo --> TBar = TFpDwarfSymbolTypeStructure [*1]
|-- .ParentTypeInfo --> may point to subroutine, if param or local var // TODO
TBar = TFpDwarfSymbolTypeStructure
|-- .TypeInfo --> TBarBase = TFpDwarfSymbolTypeStructure
TBarBase = TFpDwarfSymbolTypeStructure
|-- .TypeInfo --> TOBject = TFpDwarfSymbolTypeStructure
TObject = TFpDwarfSymbolTypeStructure
|-- .TypeInfo --> nil
FField = TFpDwarfSymbolValueMember (declared in TBarBase)
|-- .TypeInfo --> Integer = TFpDwarfSymbolTypeBasic [*1]
|-- .ParentTypeInfo --> TBarBase
[*1] May have TFpDwarfSymbolTypeDeclaration or others
*)
{ TFpDwarfSymbolValueMember }
TFpDwarfSymbolValueMember = class(TFpDwarfSymbolValueWithLocation)
protected
function GetValueAddress(AValueObj: TFpDwarfValue; out AnAddress: TFpDbgMemLocation): Boolean; override;
function HasAddress: Boolean; override;
end;
{ TFpDwarfSymbolTypeStructure }
TFpDwarfSymbolTypeStructure = class(TFpDwarfSymbolType)
// record or class
private
FMembers: TFpDbgCircularRefCntObjList;
FLastChildByName: TFpDwarfSymbol;
FInheritanceInfo: TDwarfInformationEntry;
procedure CreateMembers;
procedure InitInheritanceInfo; inline;
protected
function DoGetNestedTypeInfo: TFpDwarfSymbolType; override;
procedure KindNeeded; override;
function GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue; override;
// GetMember, if AIndex > Count then parent
function GetMember(AIndex: Int64): TFpDbgSymbol; override;
function GetMemberByName(AIndex: String): TFpDbgSymbol; override;
function GetMemberCount: Integer; override;
function GetDataAddressNext(AValueObj: TFpDwarfValue; var AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType; ATargetCacheIndex: Integer): Boolean; override;
public
destructor Destroy; override;
end;
{ TFpDwarfSymbolTypeArray }
TFpDwarfSymbolTypeArray = class(TFpDwarfSymbolType)
private
FMembers: TFpDbgCircularRefCntObjList;
FRowMajor: Boolean;
FStrideInBits: Int64;
FDwarfArrayReadFlags: set of (didtStrideRead, didtOrdering);
procedure CreateMembers;
procedure ReadStride;
procedure ReadOrdering;
protected
procedure KindNeeded; override;
function GetTypedValueObject({%H-}ATypeCast: Boolean): TFpDwarfValue; override;
function GetFlags: TDbgSymbolFlags; override;
// GetMember: returns the TYPE/range of each index. NOT the data
function GetMember(AIndex: Int64): TFpDbgSymbol; override;
function GetMemberByName({%H-}AIndex: String): TFpDbgSymbol; override;
function GetMemberCount: Integer; override;
function GetMemberAddress(AValObject: TFpDwarfValue; const AIndex: Array of Int64): TFpDbgMemLocation;
public
destructor Destroy; override;
procedure ResetValueBounds; override;
end;
{ TFpDwarfSymbolValueProc }
TFpDwarfSymbolValueProc = class(TFpDwarfSymbolValue)
private
//FCU: TDwarfCompilationUnit;
FProcMembers: TRefCntObjList; // Locals
FLastMember: TFpDbgSymbol;
FAddress: TDbgPtr;
FAddressInfo: PDwarfAddressInfo;
FStateMachine: TDwarfLineInfoStateMachine;
FFrameBaseParser: TDwarfLocationExpression;
FSelfParameter: TFpDwarfValue;
function StateMachineValid: Boolean;
function ReadVirtuality(out AFlags: TDbgSymbolFlags): Boolean;
procedure CreateMembers;
protected
function GetMember(AIndex: Int64): TFpDbgSymbol; override;
function GetMemberByName(AIndex: String): TFpDbgSymbol; override;
function GetMemberCount: Integer; override;
function GetFrameBase(ASender: TDwarfLocationExpression): TDbgPtr;
procedure KindNeeded; override;
procedure SizeNeeded; override;
function GetFlags: TDbgSymbolFlags; override;
function GetColumn: Cardinal; override;
function GetFile: String; override;
// function GetFlags: TDbgSymbolFlags; override;
function GetLine: Cardinal; override;
function GetValueObject: TFpDbgValue; override;
function GetValueAddress(AValueObj: TFpDwarfValue; out
AnAddress: TFpDbgMemLocation): Boolean; override;
public
constructor Create(ACompilationUnit: TDwarfCompilationUnit; AInfo: PDwarfAddressInfo; AAddress: TDbgPtr); overload;
destructor Destroy; override;
// TODO members = locals ?
function GetSelfParameter(AnAddress: TDbgPtr = 0): TFpDwarfValue;
end;
{ TFpDwarfSymbolValueVariable }
TFpDwarfSymbolValueVariable = class(TFpDwarfSymbolValueWithLocation)
private
FConstData: TByteDynArray;
protected
function GetValueAddress(AValueObj: TFpDwarfValue; out AnAddress: TFpDbgMemLocation): Boolean; override;
function HasAddress: Boolean; override;
public
end;
{ TFpDwarfSymbolValueParameter }
TFpDwarfSymbolValueParameter = class(TFpDwarfSymbolValueWithLocation)
protected
function GetValueAddress(AValueObj: TFpDwarfValue; out AnAddress: TFpDbgMemLocation): Boolean; override;
function HasAddress: Boolean; override;
function GetFlags: TDbgSymbolFlags; override;
public
end;
{ TFpDwarfSymbolUnit }
TFpDwarfSymbolUnit = class(TFpDwarfSymbol)
private
FLastChildByName: TFpDbgSymbol;
protected
procedure Init; override;
function GetMemberByName(AIndex: String): TFpDbgSymbol; override;
public
destructor Destroy; override;
end;
{%endregion Symbol objects }
function dbgs(ASubRangeBoundReadState: TFpDwarfSubRangeBoundReadState): String; overload;
implementation
var
DBG_WARNINGS, FPDBG_DWARF_VERBOSE, FPDBG_DWARF_ERRORS, FPDBG_DWARF_WARNINGS, FPDBG_DWARF_SEARCH, FPDBG_DWARF_DATA_WARNINGS: PLazLoggerLogGroup;
function dbgs(ASubRangeBoundReadState: TFpDwarfSubRangeBoundReadState): String;
begin
WriteStr(Result, ASubRangeBoundReadState);
end;
{ TFpDwarfValueSubroutine }
function TFpDwarfValueSubroutine.GetDataAddress: TFpDbgMemLocation;
var
fields: TFpDbgValueFieldFlags;
t: TFpDbgMemLocation;
begin
if (FValueSymbol <> nil) then begin
if not FValueSymbol.GetValueDataAddress(Self, Result) then
Result := InvalidLoc;
end
else
if (FTypeCastSourceValue <> nil) then begin
fields := FTypeCastSourceValue.FieldFlags;
if svfOrdinal in fields then
Result := TargetLoc(TDbgPtr(FTypeCastSourceValue.AsCardinal))
else
if svfAddress in fields then begin
Result := InvalidLoc;
t := FTypeCastSourceValue.Address;
assert(SizeOf(Result) >= AddressSize, 'TDbgDwarfStructSymbolValue.GetDataAddress');
if (MemManager <> nil) then begin
Result := MemManager.ReadAddress(t, AddressSize);
if not IsValidLoc(Result) then
FLastError := MemManager.LastError;
end;
end;
end
else
Result := InvalidLoc;
end;
function TFpDwarfValueSubroutine.IsValidTypeCast: Boolean;
var
f: TFpDbgValueFieldFlags;
begin
Result := HasTypeCastInfo;
If not Result then
exit;
f := FTypeCastSourceValue.FieldFlags;
if (f * [svfAddress, svfSize, svfSizeOfPointer] = [svfAddress]) then
exit;
if (svfOrdinal in f)then
exit;
if (f * [svfAddress, svfSize] = [svfAddress, svfSize]) and
(FTypeCastSourceValue.Size = FOwner.CompilationUnit.AddressSize)
then
exit;
if (f * [svfAddress, svfSizeOfPointer] = [svfAddress, svfSizeOfPointer]) then
exit;
Result := False;
end;
{ TFpDwarfDefaultSymbolClassMap }
class function TFpDwarfDefaultSymbolClassMap.GetExistingClassMap: PFpDwarfSymbolClassMap;
begin
Result := @ExistingClassMap;
end;
class function TFpDwarfDefaultSymbolClassMap.ClassCanHandleCompUnit(ACU: TDwarfCompilationUnit): Boolean;
begin
Result := True;
end;
function TFpDwarfDefaultSymbolClassMap.GetDwarfSymbolClass(ATag: Cardinal): TDbgDwarfSymbolBaseClass;
begin
case ATag of
// TODO:
DW_TAG_constant:
Result := TFpDwarfSymbolValue;
DW_TAG_string_type,
DW_TAG_union_type, DW_TAG_ptr_to_member_type,
DW_TAG_file_type,
DW_TAG_thrown_type:
Result := TFpDwarfSymbolType;
// Type types
DW_TAG_packed_type,
DW_TAG_const_type,
DW_TAG_volatile_type: Result := TFpDwarfSymbolTypeModifier;
DW_TAG_reference_type: Result := TFpDwarfSymbolTypeRef;
DW_TAG_typedef: Result := TFpDwarfSymbolTypeDeclaration;
DW_TAG_pointer_type: Result := TFpDwarfSymbolTypePointer;
DW_TAG_base_type: Result := TFpDwarfSymbolTypeBasic;
DW_TAG_subrange_type: Result := TFpDwarfSymbolTypeSubRange;
DW_TAG_enumeration_type: Result := TFpDwarfSymbolTypeEnum;
DW_TAG_enumerator: Result := TFpDwarfSymbolValueEnumMember;
DW_TAG_set_type: Result := TFpDwarfSymbolTypeSet;
DW_TAG_structure_type,
DW_TAG_class_type: Result := TFpDwarfSymbolTypeStructure;
DW_TAG_array_type: Result := TFpDwarfSymbolTypeArray;
DW_TAG_subroutine_type: Result := TFpDwarfSymbolTypeSubroutine;
// Value types
DW_TAG_variable: Result := TFpDwarfSymbolValueVariable;
DW_TAG_formal_parameter: Result := TFpDwarfSymbolValueParameter;
DW_TAG_member: Result := TFpDwarfSymbolValueMember;
DW_TAG_subprogram: Result := TFpDwarfSymbolValueProc;
//DW_TAG_inlined_subroutine, DW_TAG_entry_poin
//
DW_TAG_compile_unit: Result := TFpDwarfSymbolUnit;
else
Result := TFpDwarfSymbol;
end;
end;
function TFpDwarfDefaultSymbolClassMap.CreateContext(AThreadId, AStackFrame: Integer;
AnAddress: TDbgPtr; ASymbol: TFpDbgSymbol; ADwarf: TFpDwarfInfo): TFpDbgInfoContext;
begin
Result := TFpDwarfInfoAddressContext.Create(AThreadId, AStackFrame, AnAddress, ASymbol, ADwarf);
end;
function TFpDwarfDefaultSymbolClassMap.CreateProcSymbol(ACompilationUnit: TDwarfCompilationUnit;
AInfo: PDwarfAddressInfo; AAddress: TDbgPtr): TDbgDwarfSymbolBase;
begin
Result := TFpDwarfSymbolValueProc.Create(ACompilationUnit, AInfo, AAddress);
end;
{ TDbgDwarfInfoAddressContext }
function TFpDwarfInfoAddressContext.GetSymbolAtAddress: TFpDbgSymbol;
begin
Result := FSymbol;
end;
function TFpDwarfInfoAddressContext.GetProcedureAtAddress: TFpDbgValue;
begin
Result := inherited GetProcedureAtAddress;
ApplyContext(Result);
end;
function TFpDwarfInfoAddressContext.GetAddress: TDbgPtr;
begin
Result := FAddress;
end;
function TFpDwarfInfoAddressContext.GetThreadId: Integer;
begin
Result := FThreadId;
end;
function TFpDwarfInfoAddressContext.GetStackFrame: Integer;
begin
Result := FStackFrame;
end;
function TFpDwarfInfoAddressContext.GetSizeOfAddress: Integer;
begin
assert(FSymbol is TFpDwarfSymbol, 'TDbgDwarfInfoAddressContext.GetSizeOfAddress');
Result := TFpDwarfSymbol(FSymbol).CompilationUnit.AddressSize;
end;
function TFpDwarfInfoAddressContext.GetMemManager: TFpDbgMemManager;
begin
Result := FDwarf.MemManager;
end;
procedure TFpDwarfInfoAddressContext.ApplyContext(AVal: TFpDbgValue);
begin
if (AVal <> nil) and (TFpDwarfValueBase(AVal).FContext = nil) then
TFpDwarfValueBase(AVal).FContext := Self;
end;
function TFpDwarfInfoAddressContext.SymbolToValue(ASym: TFpDbgSymbol): TFpDbgValue;
begin
if ASym = nil then begin
Result := nil;
exit;
end;
if ASym.SymbolType = stValue then begin
Result := ASym.Value;
if Result <> nil then
Result.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FlastResult, 'FindSymbol'){$ENDIF};
end
else begin
Result := TFpDwarfValueTypeDefinition.Create(ASym);
{$IFDEF WITH_REFCOUNT_DEBUG}Result.DbgRenameReference(@FlastResult, 'FindSymbol'){$ENDIF};
end;
ASym.ReleaseReference;
end;
procedure TFpDwarfInfoAddressContext.AddRefToVal(AVal: TFpDbgValue);
begin
AVal.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FlastResult, 'FindSymbol'){$ENDIF};
end;
function TFpDwarfInfoAddressContext.GetSelfParameter: TFpDbgValue;
begin
Result := TFpDwarfSymbolValueProc(FSymbol).GetSelfParameter(FAddress);
if (Result <> nil) and (TFpDwarfValueBase(Result).FContext = nil) then
TFpDwarfValueBase(Result).FContext := Self;
end;
function TFpDwarfInfoAddressContext.FindExportedSymbolInUnits(const AName: String; PNameUpper,
PNameLower: PChar; SkipCompUnit: TDwarfCompilationUnit; out ADbgValue: TFpDbgValue): Boolean;
var
i, ExtVal: Integer;
CU: TDwarfCompilationUnit;
InfoEntry, FoundInfoEntry: TDwarfInformationEntry;
s: String;
begin
Result := False;
ADbgValue := nil;
InfoEntry := nil;
FoundInfoEntry := nil;
i := FDwarf.CompilationUnitsCount;
while i > 0 do begin
dec(i);
CU := FDwarf.CompilationUnits[i];
if CU = SkipCompUnit then
continue;
//DebugLn(FPDBG_DWARF_SEARCH, ['TDbgDwarf.FindIdentifier search UNIT Name=', CU.FileName]);
InfoEntry.ReleaseReference;
InfoEntry := TDwarfInformationEntry.Create(CU, nil);
InfoEntry.ScopeIndex := CU.FirstScope.Index;
if not InfoEntry.AbbrevTag = DW_TAG_compile_unit then
continue;
// compile_unit can not have startscope
s := CU.UnitName;
if (s <> '') and (CompareUtf8BothCase(PNameUpper, PNameLower, @s[1])) then begin
ReleaseRefAndNil(FoundInfoEntry);
ADbgValue := SymbolToValue(TFpDwarfSymbol.CreateSubClass(AName, InfoEntry));
break;
end;
CU.ScanAllEntries;
if InfoEntry.GoNamedChildEx(PNameUpper, PNameLower) then begin
if InfoEntry.IsAddressInStartScope(FAddress) then begin
// only variables are marked "external", but types not / so we may need all top level
FoundInfoEntry.ReleaseReference;
FoundInfoEntry := InfoEntry.Clone;
//DebugLn(FPDBG_DWARF_SEARCH, ['TDbgDwarf.FindIdentifier MAYBE FOUND Name=', CU.FileName]);
// DW_AT_visibility ?
if InfoEntry.ReadValue(DW_AT_external, ExtVal) then
if ExtVal <> 0 then
break;
// Search for better ADbgValue
end;
end;
end;
if FoundInfoEntry <> nil then begin;
ADbgValue := SymbolToValue(TFpDwarfSymbol.CreateSubClass(AName, FoundInfoEntry));
FoundInfoEntry.ReleaseReference;
end;
InfoEntry.ReleaseReference;
Result := ADbgValue <> nil;
end;
function TFpDwarfInfoAddressContext.FindSymbolInStructure(const AName: String; PNameUpper,
PNameLower: PChar; InfoEntry: TDwarfInformationEntry; out ADbgValue: TFpDbgValue): Boolean;
var
InfoEntryInheritance: TDwarfInformationEntry;
FwdInfoPtr: Pointer;
FwdCompUint: TDwarfCompilationUnit;
SelfParam: TFpDbgValue;
begin
Result := False;
ADbgValue := nil;
InfoEntry.AddReference;
while True do begin
if not InfoEntry.IsAddressInStartScope(FAddress) then
break;
InfoEntryInheritance := InfoEntry.FindChildByTag(DW_TAG_inheritance);
if InfoEntry.GoNamedChildEx(PNameUpper, PNameLower) then begin
if InfoEntry.IsAddressInStartScope(FAddress) then begin
SelfParam := GetSelfParameter;
if (SelfParam <> nil) then begin
// TODO: only valid, as long as context is valid, because if context is freed, then self is lost too
ADbgValue := SelfParam.MemberByName[AName];
assert(ADbgValue <> nil, 'FindSymbol: SelfParam.MemberByName[AName]');
if ADbgValue <> nil then
ADbgValue.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FlastResult, 'FindSymbol'){$ENDIF};
end
else debugln(['TDbgDwarfInfoAddressContext.FindSymbol XXXXXXXXXXXXX no self']);
;
if ADbgValue = nil then begin // Todo: abort the searh /SetError
ADbgValue := SymbolToValue(TFpDwarfSymbol.CreateSubClass(AName, InfoEntry));
end;
InfoEntry.ReleaseReference;
InfoEntryInheritance.ReleaseReference;
Result := True;
exit;
end;
end;
if not( (InfoEntryInheritance <> nil) and
(InfoEntryInheritance.ReadReference(DW_AT_type, FwdInfoPtr, FwdCompUint)) )
then
break;
InfoEntry.ReleaseReference;
InfoEntry := TDwarfInformationEntry.Create(FwdCompUint, FwdInfoPtr);
InfoEntryInheritance.ReleaseReference;
DebugLn(FPDBG_DWARF_SEARCH, ['TDbgDwarf.FindIdentifier PARENT ', dbgs(InfoEntry, FwdCompUint) ]);
end;
InfoEntry.ReleaseReference;
Result := ADbgValue <> nil;
end;
function TFpDwarfInfoAddressContext.FindLocalSymbol(const AName: String; PNameUpper,
PNameLower: PChar; InfoEntry: TDwarfInformationEntry; out ADbgValue: TFpDbgValue): Boolean;
begin
Result := False;
ADbgValue := nil;
if not InfoEntry.GoNamedChildEx(PNameUpper, PNameLower) then
exit;
if InfoEntry.IsAddressInStartScope(FAddress) and not InfoEntry.IsArtificial then begin
ADbgValue := SymbolToValue(TFpDwarfSymbol.CreateSubClass(AName, InfoEntry));
if ADbgValue <> nil then
TFpDwarfSymbol(ADbgValue.DbgSymbol).ParentTypeInfo := TFpDwarfSymbolValueProc(FSymbol);
end;
Result := ADbgValue <> nil;
end;
constructor TFpDwarfInfoAddressContext.Create(AThreadId, AStackFrame: Integer;
AnAddress: TDbgPtr; ASymbol: TFpDbgSymbol; ADwarf: TFpDwarfInfo);
begin
inherited Create;
AddReference;
FAddress := AnAddress;
FThreadId := AThreadId;
FStackFrame := AStackFrame;
FDwarf := ADwarf;
FSymbol := ASymbol;
FSymbol.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FSymbol, 'Context to Symbol'){$ENDIF};
end;
destructor TFpDwarfInfoAddressContext.Destroy;
begin
FlastResult.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FlastResult, 'FindSymbol'){$ENDIF};
FSymbol.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FSymbol, 'Context to Symbol'){$ENDIF};
inherited Destroy;
end;
function TFpDwarfInfoAddressContext.FindSymbol(const AName: String): TFpDbgValue;
var
SubRoutine: TFpDwarfSymbolValueProc; // TDbgSymbol;
CU: TDwarfCompilationUnit;
//Scope,
StartScopeIdx: Integer;
InfoEntry: TDwarfInformationEntry;
NameUpper, NameLower: String;
InfoName: PChar;
tg: Cardinal;
PNameUpper, PNameLower: PChar;
begin
Result := nil;
if (FSymbol = nil) or not(FSymbol is TFpDwarfSymbolValueProc) or (AName = '') then
exit;
SubRoutine := TFpDwarfSymbolValueProc(FSymbol);
NameUpper := UTF8UpperCase(AName);
NameLower := UTF8LowerCase(AName);
PNameUpper := @NameUpper[1];
PNameLower := @NameLower[1];
try
CU := SubRoutine.CompilationUnit;
InfoEntry := SubRoutine.InformationEntry.Clone;
while InfoEntry.HasValidScope do begin
//debugln(FPDBG_DWARF_SEARCH, ['TDbgDwarf.FindIdentifier Searching ', dbgs(InfoEntry.FScope, CU)]);
StartScopeIdx := InfoEntry.ScopeIndex;
//if InfoEntry.Abbrev = nil then
// exit;
if not InfoEntry.IsAddressInStartScope(FAddress) // StartScope = first valid address
then begin
// CONTINUE: Search parent(s)
//InfoEntry.ScopeIndex := StartScopeIdx;
InfoEntry.GoParent;
Continue;
end;
if InfoEntry.ReadName(InfoName) and not InfoEntry.IsArtificial
then begin
if (CompareUtf8BothCase(PNameUpper, PNameLower, InfoName)) then begin
// TODO: this is a pascal sperific search order? Or not?
// If this is a type with a pointer or ref, need to find the pointer or ref.
InfoEntry.GoParent;
if InfoEntry.HasValidScope and
InfoEntry.GoNamedChildEx(PNameUpper, PNameLower)
then begin
if InfoEntry.IsAddressInStartScope(FAddress) and not InfoEntry.IsArtificial then begin
Result := SymbolToValue(TFpDwarfSymbol.CreateSubClass(AName, InfoEntry));
exit;
end;
end;
InfoEntry.ScopeIndex := StartScopeIdx;
Result := SymbolToValue(TFpDwarfSymbol.CreateSubClass(AName, InfoEntry));
exit;
end;
end;
tg := InfoEntry.AbbrevTag;
if (tg = DW_TAG_class_type) or (tg = DW_TAG_structure_type) then begin
if FindSymbolInStructure(AName,PNameUpper, PNameLower, InfoEntry, Result) then
exit; // TODO: check error
//InfoEntry.ScopeIndex := StartScopeIdx;
end
else
if (StartScopeIdx = SubRoutine.InformationEntry.ScopeIndex) then begin // searching in subroutine
if FindLocalSymbol(AName,PNameUpper, PNameLower, InfoEntry, Result) then
exit; // TODO: check error
//InfoEntry.ScopeIndex := StartScopeIdx;
end
// TODO: nested subroutine
else
if InfoEntry.GoNamedChildEx(PNameUpper, PNameLower) then begin
if InfoEntry.IsAddressInStartScope(FAddress) and not InfoEntry.IsArtificial then begin
Result := SymbolToValue(TFpDwarfSymbol.CreateSubClass(AName, InfoEntry));
exit;
end;
end;
// Search parent(s)
InfoEntry.ScopeIndex := StartScopeIdx;
InfoEntry.GoParent;
end;
FindExportedSymbolInUnits(AName, PNameUpper, PNameLower, CU, Result);
finally
if (Result = nil) or (InfoEntry = nil)
then DebugLn(FPDBG_DWARF_SEARCH, ['TDbgDwarf.FindIdentifier NOT found Name=', AName])
else DebugLn(FPDBG_DWARF_SEARCH, ['TDbgDwarf.FindIdentifier(',AName,') found Scope=', TFpDwarfSymbol(Result.DbgSymbol).InformationEntry.ScopeDebugText, ' ResultSymbol=', DbgSName(Result.DbgSymbol), ' ', Result.DbgSymbol.Name, ' in ', TFpDwarfSymbol(Result.DbgSymbol).CompilationUnit.FileName]);
ReleaseRefAndNil(InfoEntry);
FlastResult.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FlastResult, 'FindSymbol'){$ENDIF};
FlastResult := Result;
assert((Result = nil) or (Result is TFpDwarfValueBase), 'TDbgDwarfInfoAddressContext.FindSymbol: (Result = nil) or (Result is TFpDwarfValueBase)');
ApplyContext(Result);
end;
end;
{ TFpDwarfValueTypeDefinition }
function TFpDwarfValueTypeDefinition.GetKind: TDbgSymbolKind;
begin
Result := skNone;
end;
function TFpDwarfValueTypeDefinition.GetDbgSymbol: TFpDbgSymbol;
begin
Result := FSymbol;
end;
constructor TFpDwarfValueTypeDefinition.Create(ASymbol: TFpDbgSymbol);
begin
inherited Create;
FSymbol := ASymbol;
FSymbol.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FSymbol, 'TFpDwarfValueTypeDefinition'){$ENDIF};
end;
destructor TFpDwarfValueTypeDefinition.Destroy;
begin
inherited Destroy;
FSymbol.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FSymbol, 'TFpDwarfValueTypeDefinition'){$ENDIF};
end;
function TFpDwarfValueTypeDefinition.GetTypeCastedValue(ADataVal: TFpDbgValue): TFpDbgValue;
begin
Result := FSymbol.TypeCastValue(ADataVal);
assert((Result = nil) or (Result is TFpDwarfValue), 'TFpDwarfValueTypeDefinition.GetTypeCastedValue: (Result = nil) or (Result is TFpDwarfValue)');
if (Result <> nil) and (TFpDwarfValue(Result).FContext = nil) then
TFpDwarfValue(Result).FContext := FContext;
end;
{ TFpDwarfValue }
function TFpDwarfValue.MemManager: TFpDbgMemManager;
begin
Result := nil;
if FContext <> nil then
Result := FContext.MemManager;
if Result = nil then begin
// Either a typecast, or a member gotten from a typecast,...
assert((FOwner <> nil) and (FOwner.CompilationUnit <> nil) and (FOwner.CompilationUnit.Owner <> nil), 'TDbgDwarfSymbolValue.MemManager');
Result := FOwner.CompilationUnit.Owner.MemManager;
end;
end;
function TFpDwarfValue.GetDataAddressCache(AIndex: Integer): TFpDbgMemLocation;
begin
if AIndex < Length(FDataAddressCache) then
Result := FDataAddressCache[AIndex]
else
Result := UnInitializedLoc;
end;
function TFpDwarfValue.AddressSize: Byte;
begin
assert((FOwner <> nil) and (FOwner.CompilationUnit <> nil), 'TDbgDwarfSymbolValue.AddressSize');
Result := FOwner.CompilationUnit.AddressSize;
end;
procedure TFpDwarfValue.SetDataAddressCache(AIndex: Integer; AValue: TFpDbgMemLocation);
var
i, j: Integer;
begin
i := length(FDataAddressCache);
if AIndex >= i then begin
SetLength(FDataAddressCache, AIndex + 1 + 8);
// todo: Fillbyte 0
for j := i to Length(FDataAddressCache) - 1 do
FDataAddressCache[j] := UnInitializedLoc;
end;
FDataAddressCache[AIndex] := AValue;
end;
procedure TFpDwarfValue.SetStructureValue(AValue: TFpDwarfValue);
begin
if FStructureValue <> nil then
Reset;
if FStructureValue = AValue then
exit;
if CircleBackRefsActive and (FStructureValue <> nil) then
FStructureValue.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FStructureValue, 'TDbgDwarfSymbolValue'){$ENDIF};
FStructureValue := AValue;
if CircleBackRefsActive and (FStructureValue <> nil) then
FStructureValue.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FStructureValue, 'TDbgDwarfSymbolValue'){$ENDIF};
end;
function TFpDwarfValue.GetLastError: TFpError;
begin
Result := FLastError;
end;
function TFpDwarfValue.DataAddr: TFpDbgMemLocation;
begin
// GetDwarfDataAddress(???); What about FTypeCastSourceValue.AsCardinal ?
if FValueSymbol <> nil then begin
//FValueSymbol.GetValueAddress(Self, Result);
FValueSymbol.GetValueDataAddress(Self, Result, FOwner);
if IsError(FValueSymbol.LastError) then
FLastError := FValueSymbol.LastError;
end
else
if HasTypeCastInfo then begin
Result := FTypeCastSourceValue.Address;
if IsError(FTypeCastSourceValue.LastError) then
FLastError := FTypeCastSourceValue.LastError;
if IsReadableLoc(Result) then begin
if not FTypeCastTargetType.GetDataAddress(Self, Result, FOwner, 1) then
Result := InvalidLoc;
if IsError(FTypeCastTargetType.LastError) then
FLastError := FTypeCastTargetType.LastError;
end;
end
else
Result := InvalidLoc;
end;
function TFpDwarfValue.OrdOrDataAddr: TFpDbgMemLocation;
begin
if HasTypeCastInfo and (svfOrdinal in FTypeCastSourceValue.FieldFlags) then
Result := ConstLoc(FTypeCastSourceValue.AsCardinal)
else
Result := DataAddr;
end;
function TFpDwarfValue.GetDwarfDataAddress(out AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType): Boolean;
var
fields: TFpDbgValueFieldFlags;
begin
if FValueSymbol <> nil then begin
Assert(FValueSymbol is TFpDwarfSymbolValue, 'TDbgDwarfSymbolValue.GetDwarfDataAddress FValueSymbol');
Assert(TypeInfo is TFpDwarfSymbolType, 'TDbgDwarfSymbolValue.GetDwarfDataAddress TypeInfo');
Assert(not HasTypeCastInfo, 'TDbgDwarfSymbolValue.GetDwarfDataAddress not HasTypeCastInfo');
Result := FValueSymbol.GetValueDataAddress(Self, AnAddress, ATargetType);
if IsError(FValueSymbol.LastError) then
FLastError := FValueSymbol.LastError;
end
else
begin
// TODO: cache own address
// try typecast
Result := HasTypeCastInfo;
if not Result then
exit;
fields := FTypeCastSourceValue.FieldFlags;
AnAddress := InvalidLoc;
if svfOrdinal in fields then
AnAddress := ConstLoc(FTypeCastSourceValue.AsCardinal)
else
if svfAddress in fields then
AnAddress := FTypeCastSourceValue.Address;
Result := IsReadableLoc(AnAddress);
if not Result then
exit;
Result := FTypeCastTargetType.GetDataAddress(Self, AnAddress, ATargetType, 1);
if IsError(FTypeCastTargetType.LastError) then
FLastError := FTypeCastTargetType.LastError;
end;
end;
function TFpDwarfValue.GetStructureDwarfDataAddress(out AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType): Boolean;
begin
AnAddress := InvalidLoc;
Result := StructureValue <> nil;
if Result then
Result := StructureValue.GetDwarfDataAddress(AnAddress, ATargetType);
end;
function TFpDwarfValue.HasDwarfDataAddress: Boolean;
begin
if FValueSymbol <> nil then begin
Assert(FValueSymbol is TFpDwarfSymbolValue, 'TDbgDwarfSymbolValue.GetDwarfDataAddress FValueSymbol');
Assert(TypeInfo is TFpDwarfSymbolType, 'TDbgDwarfSymbolValue.GetDwarfDataAddress TypeInfo');
Assert(not HasTypeCastInfo, 'TDbgDwarfSymbolValue.GetDwarfDataAddress not HasTypeCastInfo');
Result := FValueSymbol.HasAddress;
end
else
begin
// try typecast
Result := HasTypeCastInfo;
if not Result then
exit;
Result := FTypeCastSourceValue.FieldFlags * [svfAddress, svfOrdinal] <> [];
end;
end;
procedure TFpDwarfValue.Reset;
begin
FDataAddressCache := nil;
FLastError := NoError;
end;
function TFpDwarfValue.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
if FValueSymbol <> nil then begin
if FValueSymbol.HasAddress then Result := Result + [svfAddress];
end
else
if HasTypeCastInfo then begin
Result := Result + FTypeCastSourceValue.FieldFlags * [svfAddress];
end;
end;
function TFpDwarfValue.HasTypeCastInfo: Boolean;
begin
Result := (FTypeCastTargetType <> nil) and (FTypeCastSourceValue <> nil);
end;
function TFpDwarfValue.IsValidTypeCast: Boolean;
begin
Result := False;
end;
procedure TFpDwarfValue.DoReferenceAdded;
begin
inherited DoReferenceAdded;
DoPlainReferenceAdded;
end;
procedure TFpDwarfValue.DoReferenceReleased;
begin
inherited DoReferenceReleased;
DoPlainReferenceReleased;
end;
procedure TFpDwarfValue.CircleBackRefActiveChanged(NewActive: Boolean);
begin
inherited CircleBackRefActiveChanged(NewActive);
if NewActive then;
if CircleBackRefsActive then begin
if FValueSymbol <> nil then
FValueSymbol.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FValueSymbol, 'TDbgDwarfSymbolValue'){$ENDIF};
if FStructureValue <> nil then
FStructureValue.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FStructureValue, 'TDbgDwarfSymbolValue'){$ENDIF};
end
else begin
if FValueSymbol <> nil then
FValueSymbol.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FValueSymbol, 'TDbgDwarfSymbolValue'){$ENDIF};
if FStructureValue <> nil then
FStructureValue.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FStructureValue, 'TDbgDwarfSymbolValue'){$ENDIF};
end;
end;
procedure TFpDwarfValue.SetLastMember(ALastMember: TFpDwarfValue);
begin
if FLastMember <> nil then
FLastMember.ReleaseCirclularReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FLastMember, 'TDbgDwarfSymbolValue'){$ENDIF};
FLastMember := ALastMember;
if (FLastMember <> nil) then begin
FLastMember.SetStructureValue(Self);
FLastMember.AddCirclularReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FLastMember, 'TDbgDwarfSymbolValue'){$ENDIF};
if (FLastMember.FContext = nil) then
FLastMember.FContext := FContext;
end;
end;
function TFpDwarfValue.GetKind: TDbgSymbolKind;
begin
if FValueSymbol <> nil then
Result := FValueSymbol.Kind
else
if HasTypeCastInfo then
Result := FTypeCastTargetType.Kind
else
Result := inherited GetKind;
end;
function TFpDwarfValue.GetAddress: TFpDbgMemLocation;
begin
if FValueSymbol <> nil then
FValueSymbol.GetValueAddress(Self, Result)
else
if HasTypeCastInfo then
Result := FTypeCastSourceValue.Address
else
Result := inherited GetAddress;
end;
function TFpDwarfValue.OrdOrAddress: TFpDbgMemLocation;
begin
if HasTypeCastInfo and (svfOrdinal in FTypeCastSourceValue.FieldFlags) then
Result := ConstLoc(FTypeCastSourceValue.AsCardinal)
else
Result := Address;
end;
function TFpDwarfValue.GetMemberCount: Integer;
begin
if FValueSymbol <> nil then
Result := FValueSymbol.MemberCount
else
Result := inherited GetMemberCount;
end;
function TFpDwarfValue.GetMemberByName(AIndex: String): TFpDbgValue;
var
m: TFpDbgSymbol;
begin
Result := nil;
if FValueSymbol <> nil then begin
m := FValueSymbol.MemberByName[AIndex];
if m <> nil then
Result := m.Value;
end;
SetLastMember(TFpDwarfValue(Result));
end;
function TFpDwarfValue.GetMember(AIndex: Int64): TFpDbgValue;
var
m: TFpDbgSymbol;
begin
Result := nil;
if FValueSymbol <> nil then begin
m := FValueSymbol.Member[AIndex];
if m <> nil then
Result := m.Value;
end;
SetLastMember(TFpDwarfValue(Result));
end;
function TFpDwarfValue.GetDbgSymbol: TFpDbgSymbol;
begin
Result := FValueSymbol;
end;
function TFpDwarfValue.GetTypeInfo: TFpDbgSymbol;
begin
if HasTypeCastInfo then
Result := FTypeCastTargetType
else
Result := inherited GetTypeInfo;
end;
function TFpDwarfValue.GetContextTypeInfo: TFpDbgSymbol;
begin
if (FValueSymbol <> nil) and (FValueSymbol.ParentTypeInfo <> nil) then
Result := FValueSymbol.ParentTypeInfo
else
Result := nil; // internal error
end;
constructor TFpDwarfValue.Create(AOwner: TFpDwarfSymbolType);
begin
FOwner := AOwner;
inherited Create;
end;
destructor TFpDwarfValue.Destroy;
begin
FTypeCastTargetType.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FTypeCastTargetType, ClassName+'.FTypeCastTargetType'){$ENDIF};
FTypeCastSourceValue.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FTypeCastSourceValue, ClassName+'.FTypeCastSourceValue'){$ENDIF};
SetLastMember(nil);
inherited Destroy;
end;
procedure TFpDwarfValue.SetValueSymbol(AValueSymbol: TFpDwarfSymbolValue);
begin
if FValueSymbol = AValueSymbol then
exit;
if CircleBackRefsActive and (FValueSymbol <> nil) then
FValueSymbol.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FValueSymbol, 'TDbgDwarfSymbolValue'){$ENDIF};
FValueSymbol := AValueSymbol;
if CircleBackRefsActive and (FValueSymbol <> nil) then
FValueSymbol.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FValueSymbol, 'TDbgDwarfSymbolValue'){$ENDIF};
end;
function TFpDwarfValue.SetTypeCastInfo(AStructure: TFpDwarfSymbolType;
ASource: TFpDbgValue): Boolean;
begin
Reset;
AStructure.ResetValueBounds;
if FTypeCastSourceValue <> ASource then begin
if FTypeCastSourceValue <> nil then
FTypeCastSourceValue.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FTypeCastSourceValue, ClassName+'.FTypeCastSourceValue'){$ENDIF};
FTypeCastSourceValue := ASource;
if FTypeCastSourceValue <> nil then
FTypeCastSourceValue.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FTypeCastSourceValue, ClassName+'.FTypeCastSourceValue'){$ENDIF};
end;
if FTypeCastTargetType <> AStructure then begin
if FTypeCastTargetType <> nil then
FTypeCastTargetType.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FTypeCastTargetType, ClassName+'.FTypeCastTargetType'){$ENDIF};
FTypeCastTargetType := AStructure;
if FTypeCastTargetType <> nil then
FTypeCastTargetType.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FTypeCastTargetType, ClassName+'.FTypeCastTargetType'){$ENDIF};
end;
Result := IsValidTypeCast;
end;
{ TFpDwarfValueSized }
function TFpDwarfValueSized.CanUseTypeCastAddress: Boolean;
begin
Result := True;
if (FTypeCastSourceValue.FieldFlags * [svfAddress, svfSize, svfSizeOfPointer] = [svfAddress]) then
exit
else
if (FTypeCastSourceValue.FieldFlags * [svfAddress, svfSize] = [svfAddress, svfSize]) and
(FTypeCastSourceValue.Size = FSize) and (FSize > 0)
then
exit;
if (FTypeCastSourceValue.FieldFlags * [svfAddress, svfSizeOfPointer] = [svfAddress, svfSizeOfPointer]) and
not ( (FTypeCastTargetType.Kind = skPointer) //or
//(FSize = AddressSize xxxxxxx)
)
then
exit;
Result := False;
end;
function TFpDwarfValueSized.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfSize];
end;
function TFpDwarfValueSized.GetSize: Integer;
begin
Result := FSize;
end;
constructor TFpDwarfValueSized.Create(AOwner: TFpDwarfSymbolType; ASize: Integer);
begin
inherited Create(AOwner);
FSize := ASize;
end;
{ TFpDwarfValueNumeric }
procedure TFpDwarfValueNumeric.Reset;
begin
inherited Reset;
FEvaluated := [];
end;
function TFpDwarfValueNumeric.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfOrdinal];
end;
function TFpDwarfValueNumeric.IsValidTypeCast: Boolean;
begin
Result := HasTypeCastInfo;
If not Result then
exit;
if (svfOrdinal in FTypeCastSourceValue.FieldFlags) or CanUseTypeCastAddress then
exit;
Result := False;
end;
constructor TFpDwarfValueNumeric.Create(AOwner: TFpDwarfSymbolType; ASize: Integer);
begin
inherited Create(AOwner, ASize);
FEvaluated := [];
end;
{ TFpDwarfValueInteger }
function TFpDwarfValueInteger.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfInteger];
end;
function TFpDwarfValueInteger.GetAsCardinal: QWord;
begin
Result := QWord(GetAsInteger); // include sign extension
end;
function TFpDwarfValueInteger.GetAsInteger: Int64;
begin
if doneInt in FEvaluated then begin
Result := FIntValue;
exit;
end;
Include(FEvaluated, doneInt);
if (FSize <= 0) or (FSize > SizeOf(Result)) then
Result := inherited GetAsInteger
else
if not MemManager.ReadSignedInt(OrdOrDataAddr, FSize, Result) then begin
Result := 0; // TODO: error
FLastError := MemManager.LastError;
end;
FIntValue := Result;
end;
{ TDbgDwarfCardinalSymbolValue }
function TFpDwarfValueCardinal.GetAsCardinal: QWord;
begin
if doneUInt in FEvaluated then begin
Result := FValue;
exit;
end;
Include(FEvaluated, doneUInt);
if (FSize <= 0) or (FSize > SizeOf(Result)) then
Result := inherited GetAsCardinal
else
if not MemManager.ReadUnsignedInt(OrdOrDataAddr, FSize, Result) then begin
Result := 0; // TODO: error
FLastError := MemManager.LastError;
end;
FValue := Result;
end;
function TFpDwarfValueCardinal.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfCardinal];
end;
{ TFpDwarfValueFloat }
function TFpDwarfValueFloat.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfFloat] - [svfOrdinal];
end;
function TFpDwarfValueFloat.GetAsFloat: Extended;
begin
if doneFloat in FEvaluated then begin
Result := FValue;
exit;
end;
Include(FEvaluated, doneUInt);
if (FSize <= 0) or (FSize > SizeOf(Result)) then
Result := inherited GetAsCardinal
else
if not MemManager.ReadFloat(OrdOrDataAddr, FSize, Result) then begin
Result := 0; // TODO: error
FLastError := MemManager.LastError;
end;
FValue := Result;
end;
{ TFpDwarfValueBoolean }
function TFpDwarfValueBoolean.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfBoolean];
end;
function TFpDwarfValueBoolean.GetAsBool: Boolean;
begin
Result := QWord(GetAsCardinal) <> 0;
end;
{ TFpDwarfValueChar }
function TFpDwarfValueChar.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
case FSize of
1: Result := Result + [svfString];
2: Result := Result + [svfWideString];
end;
end;
function TFpDwarfValueChar.GetAsString: AnsiString;
begin
// Can typecast, because of FSize = 1, GetAsCardinal only read one byte
if FSize = 2 then
Result := GetAsWideString // temporary workaround for WideChar
else
if FSize <> 1 then
Result := inherited GetAsString
else
Result := SysToUTF8(char(byte(GetAsCardinal)));
end;
function TFpDwarfValueChar.GetAsWideString: WideString;
begin
if FSize > 2 then
Result := inherited GetAsWideString
else
Result := WideChar(Word(GetAsCardinal));
end;
{ TFpDwarfValuePointer }
function TFpDwarfValuePointer.GetAsCardinal: QWord;
var
a: TFpDbgMemLocation;
begin
a := GetDataAddress;
if IsTargetAddr(a) then
Result := LocToAddr(a)
else
Result := 0;
end;
function TFpDwarfValuePointer.GetFieldFlags: TFpDbgValueFieldFlags;
var
t: TFpDbgSymbol;
begin
Result := inherited GetFieldFlags;
//TODO: svfDataAddress should depend on (hidden) Pointer or Ref in the TypeInfo
Result := Result + [svfCardinal, svfOrdinal, svfSizeOfPointer, svfDataAddress] - [svfSize]; // data address
t := TypeInfo;
if (t <> nil) then t := t.TypeInfo;
if (t <> nil) and (t.Kind = skChar) and IsReadableMem(DataAddress) then // pchar
Result := Result + [svfString]; // data address
end;
function TFpDwarfValuePointer.GetDataAddress: TFpDbgMemLocation;
begin
if doneAddr in FEvaluated then begin
Result := FPointetToAddr;
exit;
end;
Include(FEvaluated, doneAddr);
if (FSize <= 0) then
Result := InvalidLoc
else
begin
if not MemManager.ReadAddress(OrdOrDataAddr, FSize, Result) then
FLastError := MemManager.LastError;
end;
FPointetToAddr := Result;
end;
function TFpDwarfValuePointer.GetAsString: AnsiString;
var
t: TFpDbgSymbol;
i: Integer;
begin
t := TypeInfo;
if (t <> nil) then t := t.TypeInfo;
if t.Size = 2 then
Result := GetAsWideString
else
if (MemManager <> nil) and (t <> nil) and (t.Kind = skChar) and IsReadableMem(DataAddress) then begin // pchar
SetLength(Result, 2000);
i := 2000;
while (i > 0) and (not MemManager.ReadMemory(DataAddress, i, @Result[1])) do
i := i div 2;
SetLength(Result,i);
i := pos(#0, Result);
if i > 0 then
SetLength(Result,i-1);
end
else
Result := inherited GetAsString;
end;
function TFpDwarfValuePointer.GetAsWideString: WideString;
var
t: TFpDbgSymbol;
i: Integer;
begin
t := TypeInfo;
if (t <> nil) then t := t.TypeInfo;
// skWideChar ???
if (MemManager <> nil) and (t <> nil) and (t.Kind = skChar) and IsReadableMem(DataAddress) then begin // pchar
SetLength(Result, 2000);
i := 4000; // 2000 * 16 bit
while (i > 0) and (not MemManager.ReadMemory(DataAddress, i, @Result[1])) do
i := i div 2;
SetLength(Result, i div 2);
i := pos(#0, Result);
if i > 0 then
SetLength(Result, i-1);
end
else
Result := inherited GetAsWideString;
end;
function TFpDwarfValuePointer.GetMember(AIndex: Int64): TFpDbgValue;
var
ti: TFpDbgSymbol;
addr: TFpDbgMemLocation;
Tmp: TFpDwarfValueConstAddress;
begin
//TODO: ?? if no TypeInfo.TypeInfo;, then return TFpDwarfValueConstAddress.Create(addr); (for mem dump)
Result := nil;
ReleaseRefAndNil(FLastAddrMember);
if (TypeInfo = nil) then begin // TODO dedicanted error code
FLastError := CreateError(fpErrAnyError, ['Can not dereference an untyped pointer']);
exit;
end;
// TODO re-use last member
ti := TypeInfo.TypeInfo;
{$PUSH}{$R-}{$Q-} // TODO: check overflow
if ti <> nil then
AIndex := AIndex * ti.Size;
addr := DataAddress;
if not IsTargetAddr(addr) then begin
FLastError := CreateError(fpErrAnyError, ['Internal dereference error']);
exit;
end;
addr.Address := addr.Address + AIndex;
{$POP}
Tmp := TFpDwarfValueConstAddress.Create(addr);
if ti <> nil then begin
Result := ti.TypeCastValue(Tmp);
Tmp.ReleaseReference;
SetLastMember(TFpDwarfValue(Result));
Result.ReleaseReference;
end
else begin
Result := Tmp;
FLastAddrMember := Result;
end;
end;
destructor TFpDwarfValuePointer.Destroy;
begin
FLastAddrMember.ReleaseReference;
inherited Destroy;
end;
{ TFpDwarfValueEnum }
procedure TFpDwarfValueEnum.InitMemberIndex;
var
v: QWord;
i: Integer;
begin
// TODO: if TypeInfo is a subrange, check against the bounds, then bypass it, and scan all members (avoid subrange scanning members)
if FMemberValueDone then exit;
// FTypeCastTargetType (if not nil) must be same as FOwner. It may have wrappers like declaration.
v := GetAsCardinal;
i := FOwner.MemberCount - 1;
while i >= 0 do begin
if FOwner.Member[i].OrdinalValue = v then break;
dec(i);
end;
FMemberIndex := i;
FMemberValueDone := True;
end;
procedure TFpDwarfValueEnum.Reset;
begin
inherited Reset;
FMemberValueDone := False;
end;
function TFpDwarfValueEnum.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfOrdinal, svfMembers, svfIdentifier];
end;
function TFpDwarfValueEnum.GetAsCardinal: QWord;
begin
if doneUInt in FEvaluated then begin
Result := FValue;
exit;
end;
Include(FEvaluated, doneUInt);
if (FSize <= 0) or (FSize > SizeOf(Result)) then
Result := inherited GetAsCardinal
else
if not MemManager.ReadEnum(OrdOrDataAddr, FSize, Result) then begin
FLastError := MemManager.LastError;
Result := 0; // TODO: error
end;
FValue := Result;
end;
function TFpDwarfValueEnum.GetAsString: AnsiString;
begin
InitMemberIndex;
if FMemberIndex >= 0 then
Result := FOwner.Member[FMemberIndex].Name
else
Result := '';
end;
function TFpDwarfValueEnum.GetMemberCount: Integer;
begin
InitMemberIndex;
if FMemberIndex < 0 then
Result := 0
else
Result := 1;
end;
function TFpDwarfValueEnum.GetMember(AIndex: Int64): TFpDbgValue;
begin
InitMemberIndex;
if (FMemberIndex >= 0) and (AIndex = 0) then
Result := FOwner.Member[FMemberIndex].Value
else
Result := nil;
end;
{ TFpDwarfValueEnumMember }
function TFpDwarfValueEnumMember.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfOrdinal, svfIdentifier];
end;
function TFpDwarfValueEnumMember.GetAsCardinal: QWord;
begin
Result := FOwnerVal.OrdinalValue;
end;
function TFpDwarfValueEnumMember.GetAsString: AnsiString;
begin
Result := FOwnerVal.Name;
end;
function TFpDwarfValueEnumMember.IsValidTypeCast: Boolean;
begin
assert(False, 'TDbgDwarfEnumMemberSymbolValue.IsValidTypeCast can not be returned for typecast');
Result := False;
end;
constructor TFpDwarfValueEnumMember.Create(AOwner: TFpDwarfSymbolValue);
begin
FOwnerVal := AOwner;
inherited Create(nil);
end;
{ TFpDwarfValueConstNumber }
procedure TFpDwarfValueConstNumber.Update(AValue: QWord; ASigned: Boolean);
begin
Signed := ASigned;
Value := AValue;
end;
{ TFpDwarfValueSet }
procedure TFpDwarfValueSet.InitMap;
const
BitCount: array[0..15] of byte = (0, 1, 1, 2, 1, 2, 2, 3, 1, 2, 2, 3, 2, 3, 3, 4);
var
i, i2, v, MemIdx, Bit, Cnt: Integer;
t: TFpDbgSymbol;
hb, lb: Int64;
begin
if (length(FMem) > 0) or (FSize <= 0) then
exit;
t := TypeInfo;
if t = nil then exit;
t := t.TypeInfo;
if t = nil then exit;
if not MemManager.ReadSet(DataAddr, FSize, FMem) then begin
FLastError := MemManager.LastError;
exit; // TODO: error
end;
Cnt := 0;
for i := 0 to FSize - 1 do
Cnt := Cnt + (BitCount[FMem[i] and 15]) + (BitCount[(FMem[i] div 16) and 15]);
FMemberCount := Cnt;
if (Cnt = 0) then exit;
SetLength(FMemberMap, Cnt);
if (t.Kind = skEnum) then begin
i2 := 0;
for i := 0 to t.MemberCount - 1 do
begin
v := t.Member[i].OrdinalValue;
MemIdx := v shr 3;
Bit := 1 shl (v and 7);
if (FMem[MemIdx] and Bit) <> 0 then begin
assert(i2 < Cnt, 'TDbgDwarfSetSymbolValue.InitMap too many members');
if i2 = Cnt then break;
FMemberMap[i2] := i;
inc(i2);
end;
end;
if i2 < Cnt then begin
FMemberCount := i2;
debugln(FPDBG_DWARF_DATA_WARNINGS, ['TDbgDwarfSetSymbolValue.InitMap not enough members']);
end;
end
else begin
i2 := 0;
MemIdx := 0;
Bit := 1;
t.GetValueBounds(nil, lb, hb);
for i := lb to hb do
begin
if (FMem[MemIdx] and Bit) <> 0 then begin
assert(i2 < Cnt, 'TDbgDwarfSetSymbolValue.InitMap too many members');
if i2 = Cnt then break;
FMemberMap[i2] := i - lb; // offset from low-bound
inc(i2);
end;
if Bit = 128 then begin
Bit := 1;
inc(MemIdx);
end
else
Bit := Bit shl 1;
end;
if i2 < Cnt then begin
FMemberCount := i2;
debugln(FPDBG_DWARF_DATA_WARNINGS, ['TDbgDwarfSetSymbolValue.InitMap not enough members']);
end;
end;
end;
procedure TFpDwarfValueSet.Reset;
begin
inherited Reset;
SetLength(FMem, 0);
end;
function TFpDwarfValueSet.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfMembers];
if FSize <= 8 then
Result := Result + [svfOrdinal];
end;
function TFpDwarfValueSet.GetMemberCount: Integer;
begin
InitMap;
Result := FMemberCount;
end;
function TFpDwarfValueSet.GetMember(AIndex: Int64): TFpDbgValue;
var
t: TFpDbgSymbol;
lb: Int64;
begin
Result := nil;
InitMap;
t := TypeInfo;
if t = nil then exit;
t := t.TypeInfo;
if t = nil then exit;
assert(t is TFpDwarfSymbolType, 'TDbgDwarfSetSymbolValue.GetMember t');
if t.Kind = skEnum then begin
Result := t.Member[FMemberMap[AIndex]].Value;
end
else begin
if (FNumValue = nil) or (FNumValue.RefCount > 1) then begin // refcount 1 by FTypedNumValue
t.GetValueLowBound(nil, lb);
FNumValue := TFpDwarfValueConstNumber.Create(FMemberMap[AIndex] + lb, t.Kind = skInteger);
end
else
begin
t.GetValueLowBound(nil, lb);
FNumValue.Update(FMemberMap[AIndex] + lb, t.Kind = skInteger);
FNumValue.AddReference;
end;
if (FTypedNumValue = nil) or (FTypedNumValue.RefCount > 1) then begin
FTypedNumValue.ReleaseReference;
FTypedNumValue := t.TypeCastValue(FNumValue)
end
else
TFpDwarfValue(FTypedNumValue).SetTypeCastInfo(TFpDwarfSymbolType(t), FNumValue); // update
FNumValue.ReleaseReference;
Assert((FTypedNumValue <> nil) and (TFpDwarfValue(FTypedNumValue).IsValidTypeCast), 'TDbgDwarfSetSymbolValue.GetMember FTypedNumValue');
Assert((FNumValue <> nil) and (FNumValue.RefCount > 0), 'TDbgDwarfSetSymbolValue.GetMember FNumValue');
Result := FTypedNumValue;
end;
end;
function TFpDwarfValueSet.GetAsCardinal: QWord;
begin
Result := 0;
if (FSize <= SizeOf(Result)) and (length(FMem) > 0) then
move(FMem[0], Result, FSize);
end;
function TFpDwarfValueSet.IsValidTypeCast: Boolean;
var
f: TFpDbgValueFieldFlags;
begin
Result := HasTypeCastInfo;
If not Result then
exit;
assert(FTypeCastTargetType.Kind = skSet, 'TFpDwarfValueSet.IsValidTypeCast: FTypeCastTargetType.Kind = skSet');
if (FTypeCastSourceValue.TypeInfo = FTypeCastTargetType)
then
exit; // pointer deref
f := FTypeCastSourceValue.FieldFlags;
if (f * [svfAddress, svfSize, svfSizeOfPointer] = [svfAddress]) then
exit;
if (f * [svfAddress, svfSize] = [svfAddress, svfSize]) and
(FTypeCastSourceValue.Size = FTypeCastTargetType.Size)
then
exit;
Result := False;
end;
destructor TFpDwarfValueSet.Destroy;
begin
FTypedNumValue.ReleaseReference;
inherited Destroy;
end;
{ TFpDwarfValueStruct }
procedure TFpDwarfValueStruct.Reset;
begin
inherited Reset;
FDataAddressDone := False;
end;
function TFpDwarfValueStruct.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfMembers];
//TODO: svfDataAddress should depend on (hidden) Pointer or Ref in the TypeInfo
if Kind in [skClass] then begin
Result := Result + [svfOrdinal, svfDataAddress, svfDataSize]; // svfDataSize
if (FValueSymbol <> nil) and FValueSymbol.HasAddress then
Result := Result + [svfSizeOfPointer];
end
else begin
Result := Result + [svfSize];
end;
end;
function TFpDwarfValueStruct.GetAsCardinal: QWord;
begin
Result := QWord(LocToAddrOrNil(DataAddress));
end;
function TFpDwarfValueStruct.GetDataAddress: TFpDbgMemLocation;
var
t: TFpDbgMemLocation;
begin
if FValueSymbol <> nil then begin
if not FDataAddressDone then begin
FDataAddress := InvalidLoc;
FValueSymbol.GetValueAddress(Self, t);
assert(SizeOf(FDataAddress) >= AddressSize, 'TDbgDwarfStructSymbolValue.GetDataAddress');
if (MemManager <> nil) then begin
// TODO: wrong for records (const / DW_AT_FORM) // use GetDwarfDataAddress??
FDataAddress := MemManager.ReadAddress(t, AddressSize);
if not IsValidLoc(FDataAddress) then
FLastError := MemManager.LastError;
end;
FDataAddressDone := True;
end;
Result := FDataAddress;
end
else
Result := inherited GetDataAddress;
end;
function TFpDwarfValueStruct.GetDataSize: Integer;
begin
Assert((FValueSymbol = nil) or (FValueSymbol.TypeInfo is TFpDwarfSymbol));
if (FValueSymbol <> nil) and (FValueSymbol.TypeInfo <> nil) then
if FValueSymbol.TypeInfo.Kind = skClass then
Result := TFpDwarfSymbol(FValueSymbol.TypeInfo).DataSize
else
Result := FValueSymbol.TypeInfo.Size
else
Result := -1;
end;
function TFpDwarfValueStruct.GetSize: Integer;
begin
if (Kind <> skClass) and (FValueSymbol <> nil) and (FValueSymbol.TypeInfo <> nil) then
Result := FValueSymbol.TypeInfo.Size
else
Result := -1;
end;
{ TFpDwarfValueStructTypeCast }
procedure TFpDwarfValueStructTypeCast.Reset;
begin
inherited Reset;
FDataAddressDone := False;
end;
function TFpDwarfValueStructTypeCast.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfMembers];
if kind = skClass then // todo detect hidden pointer
Result := Result + [svfDataSize]
else
Result := Result + [svfSize];
//TODO: svfDataAddress should depend on (hidden) Pointer or Ref in the TypeInfo
if Kind in [skClass] then
Result := Result + [svfOrdinal, svfDataAddress, svfSizeOfPointer]; // svfDataSize
end;
function TFpDwarfValueStructTypeCast.GetKind: TDbgSymbolKind;
begin
if HasTypeCastInfo then
Result := FTypeCastTargetType.Kind
else
Result := inherited GetKind;
end;
function TFpDwarfValueStructTypeCast.GetAsCardinal: QWord;
begin
Result := QWord(LocToAddrOrNil(DataAddress));
end;
function TFpDwarfValueStructTypeCast.GetSize: Integer;
begin
if (Kind <> skClass) and (FTypeCastTargetType <> nil) then
Result := FTypeCastTargetType.Size
else
Result := -1;
end;
function TFpDwarfValueStructTypeCast.GetDataSize: Integer;
begin
Assert((FTypeCastTargetType = nil) or (FTypeCastTargetType is TFpDwarfSymbol));
if FTypeCastTargetType <> nil then
if FTypeCastTargetType.Kind = skClass then
Result := TFpDwarfSymbol(FTypeCastTargetType).DataSize
else
Result := FTypeCastTargetType.Size
else
Result := -1;
end;
function TFpDwarfValueStructTypeCast.GetDataAddress: TFpDbgMemLocation;
var
fields: TFpDbgValueFieldFlags;
t: TFpDbgMemLocation;
begin
if HasTypeCastInfo then begin
if not FDataAddressDone then begin
// TODO: wrong for records // use GetDwarfDataAddress
fields := FTypeCastSourceValue.FieldFlags;
if svfOrdinal in fields then
FDataAddress := TargetLoc(TDbgPtr(FTypeCastSourceValue.AsCardinal))
else
if svfAddress in fields then begin
FDataAddress := InvalidLoc;
t := FTypeCastSourceValue.Address;
assert(SizeOf(FDataAddress) >= AddressSize, 'TDbgDwarfStructSymbolValue.GetDataAddress');
if (MemManager <> nil) then begin
FDataAddress := MemManager.ReadAddress(t, AddressSize);
if not IsValidLoc(FDataAddress) then
FLastError := MemManager.LastError;
end;
end;
FDataAddressDone := True;
end;
Result := FDataAddress;
end
else
Result := inherited GetDataAddress;
end;
function TFpDwarfValueStructTypeCast.IsValidTypeCast: Boolean;
var
f: TFpDbgValueFieldFlags;
begin
Result := HasTypeCastInfo;
if not Result then
exit;
if FTypeCastTargetType.Kind = skClass then begin
f := FTypeCastSourceValue.FieldFlags;
Result := (svfOrdinal in f); // ordinal is prefered in GetDataAddress
if Result then
exit;
Result := (svfAddress in f) and
( ( not(svfSize in f) ) or // either svfSizeOfPointer or a void type, e.g. pointer(1)^
( (svfSize in f) and (FTypeCastSourceValue.Size = AddressSize) )
);
end
else begin
f := FTypeCastSourceValue.FieldFlags;
if (f * [{svfOrdinal, }svfAddress] = [svfAddress]) then begin
if (f * [svfSize, svfSizeOfPointer]) = [svfSize] then
Result := Result and (FTypeCastTargetType.Size = FTypeCastSourceValue.Size)
else
if (f * [svfSize, svfSizeOfPointer]) = [svfSizeOfPointer] then
Result := Result and (FTypeCastTargetType.Size = AddressSize)
else
Result := (f * [svfSize, svfSizeOfPointer]) = []; // source is a void type, e.g. pointer(1)^
end
else
Result := False;
end;
end;
destructor TFpDwarfValueStructTypeCast.Destroy;
begin
FreeAndNil(FMembers);
inherited Destroy;
end;
function TFpDwarfValueStructTypeCast.GetMemberByName(AIndex: String): TFpDbgValue;
var
tmp: TFpDbgSymbol;
begin
Result := nil;
if not HasTypeCastInfo then
exit;
tmp := FTypeCastTargetType.MemberByName[AIndex];
if (tmp <> nil) then begin
assert((tmp is TFpDwarfSymbolValue), 'TDbgDwarfStructTypeCastSymbolValue.GetMemberByName'+DbgSName(tmp));
if FMembers = nil then
FMembers := TFpDbgCircularRefCntObjList.Create;
FMembers.Add(tmp);
Result := tmp.Value;
end;
SetLastMember(TFpDwarfValue(Result));
end;
function TFpDwarfValueStructTypeCast.GetMember(AIndex: Int64): TFpDbgValue;
var
tmp: TFpDbgSymbol;
begin
Result := nil;
if not HasTypeCastInfo then
exit;
// TODO: Why store them all in list? They are hold by the type
tmp := FTypeCastTargetType.Member[AIndex];
if (tmp <> nil) then begin
assert((tmp is TFpDwarfSymbolValue), 'TDbgDwarfStructTypeCastSymbolValue.GetMemberByName'+DbgSName(tmp));
if FMembers = nil then
FMembers := TFpDbgCircularRefCntObjList.Create;
FMembers.Add(tmp);
Result := tmp.Value;
end;
SetLastMember(TFpDwarfValue(Result));
end;
function TFpDwarfValueStructTypeCast.GetMemberCount: Integer;
var
ti: TFpDbgSymbol;
begin
Result := 0;
if not HasTypeCastInfo then
exit;
Result := FTypeCastTargetType.MemberCount;
ti := FTypeCastTargetType;
//TODO: cache result
if ti.Kind in [skClass, skObject] then
while ti.TypeInfo <> nil do begin
ti := ti.TypeInfo;
Result := Result + ti.MemberCount;
end;
end;
{ TFpDwarfValueConstAddress }
procedure TFpDwarfValueConstAddress.Update(AnAddress: TFpDbgMemLocation);
begin
Address := AnAddress;
end;
{ TFpDwarfValueArray }
function TFpDwarfValueArray.GetFieldFlags: TFpDbgValueFieldFlags;
begin
Result := inherited GetFieldFlags;
Result := Result + [svfMembers];
if (TypeInfo <> nil) and (sfDynArray in TypeInfo.Flags) then
Result := Result + [svfOrdinal, svfDataAddress];
end;
function TFpDwarfValueArray.GetKind: TDbgSymbolKind;
begin
Result := skArray;
end;
function TFpDwarfValueArray.GetAsCardinal: QWord;
begin
// TODO cache
if not MemManager.ReadUnsignedInt(OrdOrAddress, AddressSize, Result) then begin
FLastError := MemManager.LastError;
Result := 0;
end;
end;
function TFpDwarfValueArray.GetDataAddress: TFpDbgMemLocation;
begin
Result := OrdOrDataAddr;
end;
function TFpDwarfValueArray.GetMember(AIndex: Int64): TFpDbgValue;
begin
Result := GetMemberEx([AIndex]);
end;
function TFpDwarfValueArray.GetMemberEx(const AIndex: array of Int64
): TFpDbgValue;
var
Addr: TFpDbgMemLocation;
i: Integer;
begin
Result := nil;
assert((FOwner is TFpDwarfSymbolTypeArray) and (FOwner.Kind = skArray));
Addr := TFpDwarfSymbolTypeArray(FOwner).GetMemberAddress(Self, AIndex);
if not IsReadableLoc(Addr) then exit;
// FAddrObj.RefCount: hold by self
i := 1;
// FAddrObj.RefCount: hold by FLastMember (ignore only, if FLastMember is not hold by others)
if (FLastMember <> nil) and (FLastMember.RefCount = 1) then
i := 2;
if (FAddrObj = nil) or (FAddrObj.RefCount > i) then begin
FAddrObj.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FAddrObj, 'TDbgDwarfArraySymbolValue'){$ENDIF};
FAddrObj := TFpDwarfValueConstAddress.Create(Addr);
{$IFDEF WITH_REFCOUNT_DEBUG}FAddrObj.DbgRenameReference(@FAddrObj, 'TDbgDwarfArraySymbolValue');{$ENDIF}
end
else begin
FAddrObj.Update(Addr);
end;
if (FLastMember = nil) or (FLastMember.RefCount > 1) then begin
SetLastMember(TFpDwarfValue(FOwner.TypeInfo.TypeCastValue(FAddrObj)));
FLastMember.ReleaseReference;
end
else begin
TFpDwarfValue(FLastMember).SetTypeCastInfo(TFpDwarfSymbolType(FOwner.TypeInfo), FAddrObj);
end;
Result := FLastMember;
end;
function TFpDwarfValueArray.GetMemberCount: Integer;
var
t, t2: TFpDbgSymbol;
LowBound, HighBound: int64;
begin
Result := 0;
t := TypeInfo;
if t.MemberCount < 1 then // IndexTypeCount;
exit;
t2 := t.Member[0]; // IndexType[0];
if t2.GetValueBounds(self, LowBound, HighBound) then begin
if (HighBound < LowBound) then
exit(0); // empty array // TODO: error
// TODO: XXXXX Dynamic max limit
{$PUSH}{$Q-}
if QWord(HighBound - LowBound) > 3000 then
HighBound := LowBound + 3000;
Result := Integer(HighBound - LowBound + 1);
{$POP}
end;
end;
function TFpDwarfValueArray.GetMemberCountEx(const AIndex: array of Int64
): Integer;
var
t: TFpDbgSymbol;
lb, hb: Int64;
begin
Result := 0;
t := TypeInfo;
if length(AIndex) >= t.MemberCount then
exit;
t := t.Member[length(AIndex)];
if not t.GetValueBounds(nil, lb, hb) then
exit;
Result := hb - lb + 1;
end;
function TFpDwarfValueArray.GetIndexType(AIndex: Integer): TFpDbgSymbol;
begin
Result := TypeInfo.Member[AIndex];
end;
function TFpDwarfValueArray.GetIndexTypeCount: Integer;
begin
Result := TypeInfo.MemberCount;
end;
function TFpDwarfValueArray.IsValidTypeCast: Boolean;
var
f: TFpDbgValueFieldFlags;
begin
Result := HasTypeCastInfo;
If not Result then
exit;
assert(FTypeCastTargetType.Kind = skArray, 'TFpDwarfValueArray.IsValidTypeCast: FTypeCastTargetType.Kind = skArray');
//TODO: shortcut, if FTypeCastTargetType = FTypeCastSourceValue.TypeInfo ?
f := FTypeCastSourceValue.FieldFlags;
if (f * [svfAddress, svfSize, svfSizeOfPointer] = [svfAddress]) then
exit;
if sfDynArray in FTypeCastTargetType.Flags then begin
// dyn array
if (svfOrdinal in f)then
exit;
if (f * [svfAddress, svfSize] = [svfAddress, svfSize]) and
(FTypeCastSourceValue.Size = FOwner.CompilationUnit.AddressSize)
then
exit;
if (f * [svfAddress, svfSizeOfPointer] = [svfAddress, svfSizeOfPointer]) then
exit;
end
else begin
// stat array
if (f * [svfAddress, svfSize] = [svfAddress, svfSize]) and
(FTypeCastSourceValue.Size = FTypeCastTargetType.Size)
then
exit;
end;
Result := False;
end;
destructor TFpDwarfValueArray.Destroy;
begin
FAddrObj.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FAddrObj, 'TDbgDwarfArraySymbolValue'){$ENDIF};
inherited Destroy;
end;
{ TDbgDwarfIdentifier }
function TFpDwarfSymbol.GetNestedTypeInfo: TFpDwarfSymbolType;
begin
// TODO DW_AT_start_scope;
Result := FNestedTypeInfo;
if (Result <> nil) or (didtTypeRead in FDwarfReadFlags) then
exit;
include(FDwarfReadFlags, didtTypeRead);
FNestedTypeInfo := DoGetNestedTypeInfo;
Result := FNestedTypeInfo;
end;
procedure TFpDwarfSymbol.SetParentTypeInfo(AValue: TFpDwarfSymbol);
begin
if FParentTypeInfo = AValue then exit;
if (FParentTypeInfo <> nil) and CircleBackRefsActive then
FParentTypeInfo.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FParentTypeInfo, 'FParentTypeInfo'){$ENDIF};
FParentTypeInfo := AValue;
if (FParentTypeInfo <> nil) and CircleBackRefsActive then
FParentTypeInfo.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FParentTypeInfo, 'FParentTypeInfo'){$ENDIF};
end;
procedure TFpDwarfSymbol.DoReferenceAdded;
begin
inherited DoReferenceAdded;
DoPlainReferenceAdded;
end;
procedure TFpDwarfSymbol.DoReferenceReleased;
begin
inherited DoReferenceReleased;
DoPlainReferenceReleased;
end;
procedure TFpDwarfSymbol.CircleBackRefActiveChanged(ANewActive: Boolean);
begin
if (FParentTypeInfo = nil) then
exit;
if ANewActive then
FParentTypeInfo.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FParentTypeInfo, 'FParentTypeInfo'){$ENDIF}
else
FParentTypeInfo.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FParentTypeInfo, 'FParentTypeInfo'){$ENDIF};
end;
function TFpDwarfSymbol.DoGetNestedTypeInfo: TFpDwarfSymbolType;
var
FwdInfoPtr: Pointer;
FwdCompUint: TDwarfCompilationUnit;
InfoEntry: TDwarfInformationEntry;
begin // Do not access anything that may need forwardSymbol
if InformationEntry.ReadReference(DW_AT_type, FwdInfoPtr, FwdCompUint) then begin
InfoEntry := TDwarfInformationEntry.Create(FwdCompUint, FwdInfoPtr);
Result := TFpDwarfSymbolType.CreateTypeSubClass('', InfoEntry);
ReleaseRefAndNil(InfoEntry);
end
else
Result := nil;
end;
function TFpDwarfSymbol.ReadMemberVisibility(out
AMemberVisibility: TDbgSymbolMemberVisibility): Boolean;
var
Val: Integer;
begin
Result := InformationEntry.ReadValue(DW_AT_external, Val);
if Result and (Val <> 0) then begin
AMemberVisibility := svPublic;
exit;
end;
Result := InformationEntry.ReadValue(DW_AT_accessibility, Val);
if not Result then exit;
case Val of
DW_ACCESS_private: AMemberVisibility := svPrivate;
DW_ACCESS_protected: AMemberVisibility := svProtected;
DW_ACCESS_public: AMemberVisibility := svPublic;
else AMemberVisibility := svPrivate;
end;
end;
function TFpDwarfSymbol.IsArtificial: Boolean;
begin
if not(didtArtificialRead in FDwarfReadFlags) then begin
if InformationEntry.IsArtificial then
Include(FDwarfReadFlags, didtIsArtifical);
Include(FDwarfReadFlags, didtArtificialRead);
end;
Result := didtIsArtifical in FDwarfReadFlags;
end;
procedure TFpDwarfSymbol.NameNeeded;
var
AName: String;
begin
if InformationEntry.ReadName(AName) then
SetName(AName)
else
inherited NameNeeded;
end;
procedure TFpDwarfSymbol.TypeInfoNeeded;
begin
SetTypeInfo(NestedTypeInfo);
end;
function TFpDwarfSymbol.DataSize: Integer;
var
t: TFpDwarfSymbolType;
begin
t := NestedTypeInfo;
if t <> nil then
Result := t.DataSize
else
Result := 0;
end;
function TFpDwarfSymbol.InitLocationParser(const ALocationParser: TDwarfLocationExpression;
AnInitLocParserData: PInitLocParserData): Boolean;
var
ObjDataAddr: TFpDbgMemLocation;
begin
if (AnInitLocParserData <> nil) then begin
ObjDataAddr := AnInitLocParserData^.ObjectDataAddress;
if IsValidLoc(ObjDataAddr) then begin
if ObjDataAddr.MType = mlfConstant then begin
DebugLn(DBG_WARNINGS, 'Changing mlfConstant to mlfConstantDeref'); // TODO: Should be done by caller
ObjDataAddr.MType := mlfConstantDeref;
end;
debugln(FPDBG_DWARF_VERBOSE, ['TFpDwarfSymbol.InitLocationParser CurrentObjectAddress=', dbgs(ObjDataAddr), ' Push=',AnInitLocParserData^.ObjectDataAddrPush]);
ALocationParser.CurrentObjectAddress := ObjDataAddr;
if AnInitLocParserData^.ObjectDataAddrPush then
ALocationParser.Push(ObjDataAddr);
end
else
ALocationParser.CurrentObjectAddress := InvalidLoc
end
else
ALocationParser.CurrentObjectAddress := InvalidLoc;
Result := True;
end;
function TFpDwarfSymbol.LocationFromTag(ATag: Cardinal;
const AnAttribData: TDwarfAttribData; AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; AnInitLocParserData: PInitLocParserData
): Boolean;
var
Val: TByteDynArray;
LocationParser: TDwarfLocationExpression;
begin
//debugln(['TDbgDwarfIdentifier.LocationFromTag', ClassName, ' ',Name, ' ', DwarfAttributeToString(ATag)]);
Result := False;
AnAddress := InvalidLoc;
//TODO: avoid copying data
// DW_AT_data_member_location in members [ block or const]
// DW_AT_location [block or reference] todo: const
if not InformationEntry.ReadValue(AnAttribData, Val) then begin
DebugLn(['LocationFromTag: failed to read DW_AT_location']);
exit;
end;
if Length(Val) = 0 then begin
DebugLn('LocationFromTag: Warning DW_AT_location empty');
//exit;
end;
LocationParser := TDwarfLocationExpression.Create(@Val[0], Length(Val), CompilationUnit,
AValueObj.MemManager, AValueObj.Context);
InitLocationParser(LocationParser, AnInitLocParserData);
LocationParser.Evaluate;
if IsError(LocationParser.LastError) then
SetLastError(LocationParser.LastError);
AnAddress := LocationParser.ResultData;
Result := IsValidLoc(AnAddress);
if IsTargetAddr(AnAddress) and (ATag=DW_AT_location) then
AnAddress.Address :=CompilationUnit.MapAddressToNewValue(AnAddress.Address);
debugln(not Result, ['TDbgDwarfIdentifier.LocationFromTag FAILED']); // TODO
LocationParser.Free;
end;
function TFpDwarfSymbol.LocationFromTag(ATag: Cardinal; AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; AnInitLocParserData: PInitLocParserData;
AnInformationEntry: TDwarfInformationEntry; ASucessOnMissingTag: Boolean): Boolean;
var
AttrData: TDwarfAttribData;
begin
//debugln(['TDbgDwarfIdentifier.LocationFromTag', ClassName, ' ',Name, ' ', DwarfAttributeToString(ATag)]);
Result := False;
if AnInformationEntry = nil then
AnInformationEntry := InformationEntry;
//TODO: avoid copying data
// DW_AT_data_member_location in members [ block or const]
// DW_AT_location [block or reference] todo: const
if not AnInformationEntry.GetAttribData(ATag, AttrData) then begin
(* if ASucessOnMissingTag = true AND tag does not exist
then AnAddress will NOT be modified
this can be used for DW_AT_data_member_location, if it does not exist members are on input location
TODO: review - better use temp var in caller
*)
Result := ASucessOnMissingTag;
if not Result then
AnAddress := InvalidLoc;
if not Result then
DebugLn(['LocationFromTag: failed to read DW_AT_location / ASucessOnMissingTag=', dbgs(ASucessOnMissingTag)]);
exit;
end;
Result := LocationFromTag(ATag, AttrData, AValueObj, AnAddress, AnInitLocParserData);
end;
function TFpDwarfSymbol.ConstantFromTag(ATag: Cardinal; out
AConstData: TByteDynArray; var AnAddress: TFpDbgMemLocation;
AnInformationEntry: TDwarfInformationEntry; ASucessOnMissingTag: Boolean
): Boolean;
var
v: QWord;
AttrData: TDwarfAttribData;
begin
AConstData := nil;
if InformationEntry.GetAttribData(DW_AT_const_value, AttrData) then
case InformationEntry.AttribForm[AttrData.Idx] of
DW_FORM_string, DW_FORM_strp,
DW_FORM_block, DW_FORM_block1, DW_FORM_block2, DW_FORM_block4: begin
Result := InformationEntry.ReadValue(AttrData, AConstData, True);
if Result then
if Length(AConstData) > 0 then
AnAddress := SelfLoc(@AConstData[0])
else
AnAddress := InvalidLoc; // TODO: ???
end;
DW_FORM_data1, DW_FORM_data2, DW_FORM_data4, DW_FORM_data8, DW_FORM_sdata, DW_FORM_udata: begin
Result := InformationEntry.ReadValue(AttrData, v);
if Result then
AnAddress := ConstLoc(v);
end;
else
Result := False; // ASucessOnMissingTag ?
end
else
Result := ASucessOnMissingTag;
end;
function TFpDwarfSymbol.GetDataAddress(AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; ATargetType: TFpDwarfSymbolType;
ATargetCacheIndex: Integer): Boolean;
var
ti: TFpDwarfSymbolType;
InitLocParserData: TInitLocParserData;
begin
InitLocParserData.ObjectDataAddress := AnAddress;
InitLocParserData.ObjectDataAddrPush := False;
Result := LocationFromTag(DW_AT_data_location, AValueObj, AnAddress, @InitLocParserData, nil, True);
if not Result then
exit;
if ATargetType = Self then begin
Result := True;
exit;
end;
//TODO: Handle AValueObj.DataAddressCache[ATargetCacheIndex];
Result := GetDataAddressNext(AValueObj, AnAddress, ATargetType, ATargetCacheIndex);
if not Result then
exit;
ti := NestedTypeInfo;
if ti <> nil then
Result := ti.GetDataAddress(AValueObj, AnAddress, ATargetType, ATargetCacheIndex+1)
else
Result := ATargetType = nil; // end of type chain
end;
function TFpDwarfSymbol.GetDataAddressNext(AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; ATargetType: TFpDwarfSymbolType;
ATargetCacheIndex: Integer): Boolean;
begin
Result := True;
end;
function TFpDwarfSymbol.HasAddress: Boolean;
begin
Result := False;
end;
procedure TFpDwarfSymbol.Init;
begin
//
end;
class function TFpDwarfSymbol.CreateSubClass(AName: String;
AnInformationEntry: TDwarfInformationEntry): TFpDwarfSymbol;
var
c: TDbgDwarfSymbolBaseClass;
begin
c := AnInformationEntry.CompUnit.DwarfSymbolClassMap.GetDwarfSymbolClass(AnInformationEntry.AbbrevTag);
Result := TFpDwarfSymbol(c.Create(AName, AnInformationEntry));
end;
destructor TFpDwarfSymbol.Destroy;
begin
inherited Destroy;
ReleaseRefAndNil(FNestedTypeInfo);
Assert(not CircleBackRefsActive, 'CircleBackRefsActive can not be is destructor');
// FParentTypeInfo := nil
end;
function TFpDwarfSymbol.StartScope: TDbgPtr;
begin
if not InformationEntry.ReadStartScope(Result) then
Result := 0;
end;
{ TFpDwarfSymbolValue }
function TFpDwarfSymbolValue.GetValueAddress(AValueObj: TFpDwarfValue; out
AnAddress: TFpDbgMemLocation): Boolean;
begin
Result := False;
end;
function TFpDwarfSymbolValue.GetValueDataAddress(AValueObj: TFpDwarfValue; out
AnAddress: TFpDbgMemLocation; ATargetType: TFpDwarfSymbolType): Boolean;
begin
Result := TypeInfo <> nil;
if not Result then
exit;
Assert((TypeInfo is TFpDwarfSymbol) and (TypeInfo.SymbolType = stType), 'TFpDwarfSymbolValue.GetDataAddress');
Result := GetValueAddress(AValueObj, AnAddress);
Result := Result and IsReadableLoc(AnAddress);
if Result then begin
Result := TFpDwarfSymbolType(TypeInfo).GetDataAddress(AValueObj, AnAddress, ATargetType, 1);
if not Result then SetLastError(TypeInfo.LastError);
end;
end;
procedure TFpDwarfSymbolValue.KindNeeded;
var
t: TFpDbgSymbol;
begin
t := TypeInfo;
if t = nil then
inherited KindNeeded
else
SetKind(t.Kind);
end;
procedure TFpDwarfSymbolValue.MemberVisibilityNeeded;
var
Val: TDbgSymbolMemberVisibility;
begin
if ReadMemberVisibility(Val) then
SetMemberVisibility(Val)
else
if TypeInfo <> nil then
SetMemberVisibility(TypeInfo.MemberVisibility)
else
inherited MemberVisibilityNeeded;
end;
function TFpDwarfSymbolValue.GetMember(AIndex: Int64): TFpDbgSymbol;
var
ti: TFpDbgSymbol;
k: TDbgSymbolKind;
begin
ti := TypeInfo;
if ti = nil then begin
Result := inherited GetMember(AIndex);
exit;
end;
k := ti.Kind;
// while holding result, until refcount added, do not call any function
Result := ti.Member[AIndex];
assert((Result = nil) or (Result is TFpDwarfSymbolValue), 'TFpDwarfSymbolValue.GetMember is Value');
if (k in [skClass, skObject, skRecord {, skArray}]) and
(Result <> nil) and (Result is TFpDwarfSymbolValue)
then begin
if FMembers = nil then
FMembers := TFpDbgCircularRefCntObjList.Create;
FMembers.Add(Result); //TODO: last member only?
end;
end;
function TFpDwarfSymbolValue.GetMemberByName(AIndex: String): TFpDbgSymbol;
var
ti: TFpDbgSymbol;
k: TDbgSymbolKind;
begin
ti := TypeInfo;
if ti = nil then begin
Result := inherited GetMemberByName(AIndex);
exit;
end;
k := ti.Kind;
// while holding result, until refcount added, do not call any function
Result := ti.MemberByName[AIndex];
assert((Result = nil) or (Result is TFpDwarfSymbolValue), 'TFpDwarfSymbolValue.GetMember is Value');
if (k in [skClass, skObject, skRecord {, skArray}]) and
(Result <> nil) and (Result is TFpDwarfSymbolValue)
then begin
if FMembers = nil then
FMembers := TFpDbgCircularRefCntObjList.Create;
FMembers.Add(Result);
end;
end;
function TFpDwarfSymbolValue.GetMemberCount: Integer;
var
ti: TFpDbgSymbol;
begin
ti := TypeInfo;
if ti <> nil then begin
Result := ti.MemberCount;
//TODO: cache result
if ti.Kind in [skClass, skObject] then
while ti.TypeInfo <> nil do begin
ti := ti.TypeInfo;
Result := Result + ti.MemberCount;
end;
end
else
Result := inherited GetMemberCount;
end;
procedure TFpDwarfSymbolValue.Init;
begin
inherited Init;
SetSymbolType(stValue);
end;
destructor TFpDwarfSymbolValue.Destroy;
begin
Assert(not CircleBackRefsActive, 'CircleBackRefsActive can not be is ddestructor');
FreeAndNil(FMembers);
if FValueObject <> nil then begin
FValueObject.SetValueSymbol(nil);
FValueObject.ReleaseCirclularReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FValueObject, ClassName+'.FValueObject'){$ENDIF};
FValueObject := nil;
end;
ParentTypeInfo := nil;
inherited Destroy;
end;
class function TFpDwarfSymbolValue.CreateValueSubClass(AName: String;
AnInformationEntry: TDwarfInformationEntry): TFpDwarfSymbolValue;
var
c: TDbgDwarfSymbolBaseClass;
begin
c := AnInformationEntry.CompUnit.DwarfSymbolClassMap.GetDwarfSymbolClass(AnInformationEntry.AbbrevTag);
if c.InheritsFrom(TFpDwarfSymbolValue) then
Result := TFpDwarfSymbolValueClass(c).Create(AName, AnInformationEntry)
else
Result := nil;
end;
{ TFpDwarfSymbolValueWithLocation }
function TFpDwarfSymbolValueWithLocation.InitLocationParser(const ALocationParser: TDwarfLocationExpression;
AnInitLocParserData: PInitLocParserData): Boolean;
begin
Result := inherited InitLocationParser(ALocationParser, AnInitLocParserData);
ALocationParser.OnFrameBaseNeeded := @FrameBaseNeeded;
end;
procedure TFpDwarfSymbolValueWithLocation.FrameBaseNeeded(ASender: TObject);
var
p: TFpDwarfSymbol;
fb: TDBGPtr;
begin
debugln(FPDBG_DWARF_SEARCH, ['TFpDwarfSymbolValueVariable.FrameBaseNeeded ']);
p := ParentTypeInfo;
// TODO: what if parent is declaration?
if (p <> nil) and (p is TFpDwarfSymbolValueProc) then begin
fb := TFpDwarfSymbolValueProc(p).GetFrameBase(ASender as TDwarfLocationExpression);
(ASender as TDwarfLocationExpression).FrameBase := fb;
if fb = 0 then begin
debugln(FPDBG_DWARF_ERRORS, ['DWARF ERROR in TFpDwarfSymbolValueWithLocation.FrameBaseNeeded result is 0']);
end;
exit;
end;
{$warning TODO}
//else
//if OwnerTypeInfo <> nil then
// OwnerTypeInfo.fr;
// TODO: check owner
debugln(FPDBG_DWARF_ERRORS, ['DWARF ERROR in TFpDwarfSymbolValueWithLocation.FrameBaseNeeded no parent type info']);
(ASender as TDwarfLocationExpression).FrameBase := 0;
end;
function TFpDwarfSymbolValueWithLocation.GetValueObject: TFpDbgValue;
var
ti: TFpDbgSymbol;
begin
Result := FValueObject;
if Result <> nil then exit;
ti := TypeInfo;
if (ti = nil) or not (ti.SymbolType = stType) then exit;
FValueObject := TFpDwarfSymbolType(ti).GetTypedValueObject(False);
if FValueObject <> nil then begin
{$IFDEF WITH_REFCOUNT_DEBUG}FValueObject.DbgRenameReference(@FValueObject, ClassName+'.FValueObject');{$ENDIF}
FValueObject.MakePlainRefToCirclular;
FValueObject.SetValueSymbol(self);
end;
Result := FValueObject;
end;
{ TFpDwarfSymbolType }
procedure TFpDwarfSymbolType.Init;
begin
inherited Init;
SetSymbolType(stType);
end;
procedure TFpDwarfSymbolType.MemberVisibilityNeeded;
var
Val: TDbgSymbolMemberVisibility;
begin
if ReadMemberVisibility(Val) then
SetMemberVisibility(Val)
else
inherited MemberVisibilityNeeded;
end;
procedure TFpDwarfSymbolType.SizeNeeded;
var
ByteSize: Integer;
begin
if InformationEntry.ReadValue(DW_AT_byte_size, ByteSize) then
SetSize(ByteSize)
else
inherited SizeNeeded;
end;
function TFpDwarfSymbolType.GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue;
begin
Result := TFpDwarfValueUnknown.Create(Self);
end;
procedure TFpDwarfSymbolType.ResetValueBounds;
var
ti: TFpDwarfSymbolType;
begin
ti := NestedTypeInfo;
if (ti <> nil) then
ti.ResetValueBounds;
end;
class function TFpDwarfSymbolType.CreateTypeSubClass(AName: String;
AnInformationEntry: TDwarfInformationEntry): TFpDwarfSymbolType;
var
c: TDbgDwarfSymbolBaseClass;
begin
c := AnInformationEntry.CompUnit.DwarfSymbolClassMap.GetDwarfSymbolClass(AnInformationEntry.AbbrevTag);
if c.InheritsFrom(TFpDwarfSymbolType) then
Result := TFpDwarfSymbolTypeClass(c).Create(AName, AnInformationEntry)
else
Result := nil;
end;
function TFpDwarfSymbolType.TypeCastValue(AValue: TFpDbgValue): TFpDbgValue;
begin
Result := GetTypedValueObject(True);
If Result = nil then
exit;
assert(Result is TFpDwarfValue);
if not TFpDwarfValue(Result).SetTypeCastInfo(self, AValue) then
ReleaseRefAndNil(Result);
end;
{ TDbgDwarfBaseTypeIdentifier }
procedure TFpDwarfSymbolTypeBasic.KindNeeded;
var
Encoding, ByteSize: Integer;
begin
if not InformationEntry.ReadValue(DW_AT_encoding, Encoding) then begin
DebugLn(FPDBG_DWARF_WARNINGS, ['TFpDwarfSymbolTypeBasic.KindNeeded: Failed reading encoding for ', DwarfTagToString(InformationEntry.AbbrevTag)]);
inherited KindNeeded;
exit;
end;
if InformationEntry.ReadValue(DW_AT_byte_size, ByteSize) then
SetSize(ByteSize);
case Encoding of
DW_ATE_address : SetKind(skPointer);
DW_ATE_boolean: SetKind(skBoolean);
//DW_ATE_complex_float:
DW_ATE_float: SetKind(skFloat);
DW_ATE_signed: SetKind(skInteger);
DW_ATE_signed_char: SetKind(skChar);
DW_ATE_unsigned: SetKind(skCardinal);
DW_ATE_unsigned_char: SetKind(skChar);
DW_ATE_numeric_string:SetKind(skChar); // temporary for widestring
else
begin
DebugLn(FPDBG_DWARF_WARNINGS, ['TFpDwarfSymbolTypeBasic.KindNeeded: Unknown encoding ', DwarfBaseTypeEncodingToString(Encoding), ' for ', DwarfTagToString(InformationEntry.AbbrevTag)]);
inherited KindNeeded;
end;
end;
end;
procedure TFpDwarfSymbolTypeBasic.TypeInfoNeeded;
begin
SetTypeInfo(nil);
end;
function TFpDwarfSymbolTypeBasic.GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue;
begin
case Kind of
skPointer: Result := TFpDwarfValuePointer.Create(Self, Size);
skInteger: Result := TFpDwarfValueInteger.Create(Self, Size);
skCardinal: Result := TFpDwarfValueCardinal.Create(Self, Size);
skBoolean: Result := TFpDwarfValueBoolean.Create(Self, Size);
skChar: Result := TFpDwarfValueChar.Create(Self, Size);
skFloat: Result := TFpDwarfValueFloat.Create(Self, Size);
end;
end;
function TFpDwarfSymbolTypeBasic.GetHasBounds: Boolean;
begin
Result := (kind = skInteger) or (kind = skCardinal);
end;
function TFpDwarfSymbolTypeBasic.GetValueBounds(AValueObj: TFpDbgValue; out
ALowBound, AHighBound: Int64): Boolean;
begin
Result := GetValueLowBound(AValueObj, ALowBound); // TODO: ond GetValueHighBound() // but all callers must check result;
if not GetValueHighBound(AValueObj, AHighBound) then
Result := False;
end;
function TFpDwarfSymbolTypeBasic.GetValueLowBound(AValueObj: TFpDbgValue; out
ALowBound: Int64): Boolean;
begin
Result := True;
case Kind of
skInteger: ALowBound := -(int64( high(int64) shr (64 - Min(Size, 8) * 8)))-1;
skCardinal: ALowBound := 0;
else
Result := False;
end;
end;
function TFpDwarfSymbolTypeBasic.GetValueHighBound(AValueObj: TFpDbgValue; out
AHighBound: Int64): Boolean;
begin
Result := True;
case Kind of
skInteger: AHighBound := int64( high(int64) shr (64 - Min(Size, 8) * 8));
skCardinal: AHighBound := int64( high(qword) shr (64 - Min(Size, 8) * 8));
else
Result := False;
end;
end;
{ TFpDwarfSymbolTypeModifier }
procedure TFpDwarfSymbolTypeModifier.TypeInfoNeeded;
var
p: TFpDwarfSymbolType;
begin
p := NestedTypeInfo;
if p <> nil then
SetTypeInfo(p.TypeInfo)
else
SetTypeInfo(nil);
end;
procedure TFpDwarfSymbolTypeModifier.ForwardToSymbolNeeded;
begin
SetForwardToSymbol(NestedTypeInfo)
end;
function TFpDwarfSymbolTypeModifier.GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue;
var
ti: TFpDwarfSymbolType;
begin
ti := NestedTypeInfo;
if ti <> nil then
Result := ti.GetTypedValueObject(ATypeCast)
else
Result := inherited;
end;
{ TFpDwarfSymbolTypeRef }
function TFpDwarfSymbolTypeRef.GetFlags: TDbgSymbolFlags;
begin
Result := (inherited GetFlags) + [sfInternalRef];
end;
function TFpDwarfSymbolTypeRef.GetDataAddressNext(AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; ATargetType: TFpDwarfSymbolType;
ATargetCacheIndex: Integer): Boolean;
var
t: TFpDbgMemLocation;
begin
t := AValueObj.DataAddressCache[ATargetCacheIndex];
if IsInitializedLoc(t) then begin
AnAddress := t;
end
else begin
Result := AValueObj.MemManager <> nil;
if not Result then
exit;
AnAddress := AValueObj.MemManager.ReadAddress(AnAddress, CompilationUnit.AddressSize);
AValueObj.DataAddressCache[ATargetCacheIndex] := AnAddress;
end;
Result := IsValidLoc(AnAddress);
if Result then
Result := inherited GetDataAddressNext(AValueObj, AnAddress, ATargetType, ATargetCacheIndex)
else
if IsError(AValueObj.MemManager.LastError) then
SetLastError(AValueObj.MemManager.LastError);
// Todo: other error
end;
{ TFpDwarfSymbolTypeDeclaration }
function TFpDwarfSymbolTypeDeclaration.DoGetNestedTypeInfo: TFpDwarfSymbolType;
var
ti: TFpDwarfSymbolType;
ti2: TFpDbgSymbol;
begin
Result := inherited DoGetNestedTypeInfo;
// Is internal class pointer?
// Do not trigged any cached property of the pointer
if (Result = nil) then
exit;
ti := Result;
if (ti is TFpDwarfSymbolTypeModifier) then begin
ti := TFpDwarfSymbolType(ti.TypeInfo);
if (Result = nil) then
exit;
end;
if not (ti is TFpDwarfSymbolTypePointer) then
exit;
ti2 := ti.NestedTypeInfo;
// only if it is NOT a declaration
if (ti2 <> nil) and (ti2 is TFpDwarfSymbolTypeStructure) then begin
TFpDwarfSymbolTypePointer(ti).IsInternalPointer := True;
// TODO: Flag the structure as class (save teme in KindNeeded)
end;
end;
{ TFpDwarfSymbolTypeSubRange }
procedure TFpDwarfSymbolTypeSubRange.InitEnumIdx;
var
t: TFpDwarfSymbolType;
i: Integer;
h, l: Int64;
begin
if FEnumIdxValid then
exit;
FEnumIdxValid := True;
t := NestedTypeInfo;
i := t.MemberCount - 1;
GetValueBounds(nil, l, h);
while (i >= 0) and (t.Member[i].OrdinalValue > h) do
dec(i);
FHighEnumIdx := i;
while (i >= 0) and (t.Member[i].OrdinalValue >= l) do
dec(i);
FLowEnumIdx := i + 1;
end;
procedure TFpDwarfSymbolTypeSubRange.ReadBound(AValueObj: TFpDwarfValue;
AnAttrib: Cardinal; var ABoundConst: Int64;
var ABoundValue: TFpDwarfSymbolValue;
var ABoundState: TFpDwarfSubRangeBoundReadState);
var
FwdInfoPtr: Pointer;
FwdCompUint: TDwarfCompilationUnit;
NewInfo: TDwarfInformationEntry;
AnAddress: TFpDbgMemLocation;
InitLocParserData: TInitLocParserData;
AttrData: TDwarfAttribData;
begin
// TODO: assert(AValueObj <> nil, 'TFpDwarfSymbolTypeSubRange.ReadBound: AValueObj <> nil');
if ABoundState <> rfNotRead then exit;
if InformationEntry.GetAttribData(AnAttrib, AttrData) then begin
// TODO: check the FORM, to determine what data to read.
if InformationEntry.ReadReference(AttrData, FwdInfoPtr, FwdCompUint) then begin
NewInfo := TDwarfInformationEntry.Create(FwdCompUint, FwdInfoPtr);
ABoundValue := TFpDwarfSymbolValue.CreateValueSubClass('', NewInfo);
NewInfo.ReleaseReference;
if (ABoundValue = nil) or (ABoundValue.Value =nil) or not (svfInteger in ABoundValue.Value.FieldFlags) then begin
// Not implemented in DwarfSymbolClassMap.GetDwarfSymbolClass // or not a value type (bound can not be a type)
ABoundState := rfError;
exit;
end
else
ABoundState := rfValue;
end
else
if InformationEntry.ReadValue(AttrData, ABoundConst) then begin
ABoundState := rfConst;
end
else
begin
if assigned(AValueObj) then begin
InitLocParserData.ObjectDataAddress := AValueObj.Address;
if not IsValidLoc(InitLocParserData.ObjectDataAddress) then
InitLocParserData.ObjectDataAddress := AValueObj.OrdOrAddress;
InitLocParserData.ObjectDataAddrPush := False;
if LocationFromTag(AnAttrib, AttrData, AValueObj, AnAddress, @InitLocParserData) then begin
ABoundState := rfConst;
ABoundConst := Int64(AnAddress.Address);
end
else
ABoundState := rfError;
end
else // TODO: check AttrData=>FORM is correct for LocationFromTag
ABoundState := rfNotRead; // There is a bound, but it can not be read yet
end;
end
else
ABoundState := rfNotFound;
end;
function TFpDwarfSymbolTypeSubRange.DoGetNestedTypeInfo: TFpDwarfSymbolType;
begin
Result := inherited DoGetNestedTypeInfo;
if Result <> nil then
exit;
if FLowBoundState = rfValue then
Result := FLowBoundValue.TypeInfo as TFpDwarfSymbolType
else
if FHighBoundState = rfValue then
Result := FHighBoundValue.TypeInfo as TFpDwarfSymbolType
else
if FCountState = rfValue then
Result := FCountValue.TypeInfo as TFpDwarfSymbolType;
end;
function TFpDwarfSymbolTypeSubRange.GetHasBounds: Boolean;
var
dummy: Int64;
begin
if FLowBoundState = rfNotRead then
GetValueLowBound(nil, dummy);
Result := (FLowBoundState in [rfConst, rfValue, rfNotRead]);
if not Result then
exit;
if (FHighBoundState = rfNotRead) and (FCountState = rfNotRead) then
GetValueHighBound(nil, dummy);
if FHighBoundState = rfNotRead then
FCountState := rfNotFound; // dummy marker. HighBound depends on ValueObj
Result := (FHighBoundState in [rfConst, rfValue, rfNotRead]) or
(FCountState in [rfConst, rfValue, rfNotRead]);
end;
procedure TFpDwarfSymbolTypeSubRange.NameNeeded;
var
AName: String;
begin
if InformationEntry.ReadName(AName) then
SetName(AName)
else
SetName('');
end;
procedure TFpDwarfSymbolTypeSubRange.KindNeeded;
var
t: TFpDbgSymbol;
begin
// TODO: limit to ordinal types
if not HasBounds then begin // does ReadBounds;
SetKind(skNone); // incomplete type
end;
t := NestedTypeInfo;
if t = nil then begin
SetKind(skInteger);
SetSize(CompilationUnit.AddressSize);
end
else
SetKind(t.Kind);
end;
procedure TFpDwarfSymbolTypeSubRange.SizeNeeded;
var
t: TFpDbgSymbol;
begin
t := NestedTypeInfo;
if t = nil then begin
SetKind(skInteger);
SetSize(CompilationUnit.AddressSize);
end
else
SetSize(t.Size);
end;
function TFpDwarfSymbolTypeSubRange.GetMember(AIndex: Int64): TFpDbgSymbol;
begin
if Kind = skEnum then begin
if not FEnumIdxValid then
InitEnumIdx;
Result := NestedTypeInfo.Member[AIndex - FLowEnumIdx];
end
else
Result := inherited GetMember(AIndex);
end;
function TFpDwarfSymbolTypeSubRange.GetMemberCount: Integer;
begin
if Kind = skEnum then begin
if not FEnumIdxValid then
InitEnumIdx;
Result := FHighEnumIdx - FLowEnumIdx + 1;
end
else
Result := inherited GetMemberCount;
end;
function TFpDwarfSymbolTypeSubRange.GetFlags: TDbgSymbolFlags;
begin
Result := (inherited GetFlags) + [sfSubRange];
end;
procedure TFpDwarfSymbolTypeSubRange.ResetValueBounds;
begin
inherited ResetValueBounds;
FLowBoundState := rfNotRead;
FHighBoundState := rfNotRead;
FCountState := rfNotRead;
end;
function TFpDwarfSymbolTypeSubRange.GetValueBounds(AValueObj: TFpDbgValue; out
ALowBound, AHighBound: Int64): Boolean;
begin
Result := GetValueLowBound(AValueObj, ALowBound); // TODO: ond GetValueHighBound() // but all callers must check result;
if not GetValueHighBound(AValueObj, AHighBound) then
Result := False;
end;
function TFpDwarfSymbolTypeSubRange.GetValueLowBound(AValueObj: TFpDbgValue;
out ALowBound: Int64): Boolean;
begin
assert((AValueObj = nil) or (AValueObj is TFpDwarfValue), 'TFpDwarfSymbolTypeSubRange.GetValueLowBound: AValueObj is TFpDwarfValue(');
if FLowBoundState = rfNotRead then
ReadBound(TFpDwarfValue(AValueObj), DW_AT_lower_bound, FLowBoundConst, FLowBoundValue, FLowBoundState);
Result := FLowBoundState in [rfConst, rfValue];
if Result then begin
if FLowBoundState = rfConst then
ALowBound := FLowBoundConst
else
ALowBound := FLowBoundValue.Value.AsInteger;
end;
end;
function TFpDwarfSymbolTypeSubRange.GetValueHighBound(AValueObj: TFpDbgValue;
out AHighBound: Int64): Boolean;
begin
assert((AValueObj = nil) or (AValueObj is TFpDwarfValue), 'TFpDwarfSymbolTypeSubRange.GetValueHighBound: AValueObj is TFpDwarfValue(');
if FHighBoundState = rfNotRead then
ReadBound(TFpDwarfValue(AValueObj), DW_AT_upper_bound, FHighBoundConst, FHighBoundValue, FHighBoundState);
Result := FHighBoundState in [rfConst, rfValue];
if Result then begin
if FHighBoundState = rfConst then
AHighBound := FHighBoundConst
else
AHighBound := FHighBoundValue.Value.AsInteger;
end
else
if FHighBoundState = rfNotFound then begin
ReadBound(TFpDwarfValue(AValueObj), DW_AT_count, FCountConst, FCountValue, FCountState);
Result := (FCountState in [rfConst, rfValue]) and
GetValueLowBound(AValueObj, AHighBound);
if Result then begin
if FCountState = rfConst then
AHighBound := AHighBound + FCountConst
else
AHighBound := AHighBound + FCountValue.Value.AsInteger;
end
end;
end;
procedure TFpDwarfSymbolTypeSubRange.Init;
begin
FLowBoundState := rfNotRead;
FHighBoundState := rfNotRead;
FCountState := rfNotRead;
inherited Init;
end;
{ TFpDwarfSymbolTypePointer }
function TFpDwarfSymbolTypePointer.IsInternalDynArrayPointer: Boolean;
var
ti: TFpDbgSymbol;
begin
Result := False;
ti := NestedTypeInfo; // Same as TypeInfo, but does not try to be forwarded
Result := (ti <> nil) and (ti is TFpDwarfSymbolTypeArray);
if Result then
Result := (sfDynArray in ti.Flags);
end;
procedure TFpDwarfSymbolTypePointer.TypeInfoNeeded;
var
p: TFpDwarfSymbolType;
begin
p := NestedTypeInfo;
if IsInternalPointer and (p <> nil) then begin
SetTypeInfo(p.TypeInfo);
exit;
end;
SetTypeInfo(p);
end;
function TFpDwarfSymbolTypePointer.GetIsInternalPointer: Boolean;
begin
Result := FIsInternalPointer or IsInternalDynArrayPointer;
end;
procedure TFpDwarfSymbolTypePointer.KindNeeded;
var
k: TDbgSymbolKind;
begin
if IsInternalPointer then begin
k := NestedTypeInfo.Kind;
if k = skObject then
SetKind(skClass)
else
SetKind(k);
end
else
SetKind(skPointer);
end;
procedure TFpDwarfSymbolTypePointer.SizeNeeded;
begin
SetSize(CompilationUnit.AddressSize);
end;
procedure TFpDwarfSymbolTypePointer.ForwardToSymbolNeeded;
begin
if IsInternalPointer then
SetForwardToSymbol(NestedTypeInfo) // Same as TypeInfo, but does not try to be forwarded
else
SetForwardToSymbol(nil); // inherited ForwardToSymbolNeeded;
end;
function TFpDwarfSymbolTypePointer.GetDataAddressNext(AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; ATargetType: TFpDwarfSymbolType;
ATargetCacheIndex: Integer): Boolean;
var
t: TFpDbgMemLocation;
begin
t := AValueObj.DataAddressCache[ATargetCacheIndex];
if IsInitializedLoc(t) then begin
AnAddress := t;
end
else begin
Result := AValueObj.MemManager <> nil;
if not Result then
exit;
AnAddress := AValueObj.MemManager.ReadAddress(AnAddress, CompilationUnit.AddressSize);
AValueObj.DataAddressCache[ATargetCacheIndex] := AnAddress;
end;
Result := IsValidLoc(AnAddress);
if Result then
Result := inherited GetDataAddressNext(AValueObj, AnAddress, ATargetType, ATargetCacheIndex)
else
if IsError(AValueObj.MemManager.LastError) then
SetLastError(AValueObj.MemManager.LastError);
// Todo: other error
end;
function TFpDwarfSymbolTypePointer.GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue;
begin
if IsInternalPointer then
Result := NestedTypeInfo.GetTypedValueObject(ATypeCast)
else
Result := TFpDwarfValuePointer.Create(Self, CompilationUnit.AddressSize);
end;
function TFpDwarfSymbolTypePointer.DataSize: Integer;
begin
if Kind = skClass then
Result := NestedTypeInfo.Size
else
Result := inherited DataSize;
end;
{ TFpDwarfSymbolTypeSubroutine }
procedure TFpDwarfSymbolTypeSubroutine.CreateMembers;
var
Info: TDwarfInformationEntry;
Info2: TDwarfInformationEntry;
begin
if FProcMembers <> nil then
exit;
FProcMembers := TRefCntObjList.Create;
Info := InformationEntry.Clone;
Info.GoChild;
while Info.HasValidScope do begin
if ((Info.AbbrevTag = DW_TAG_formal_parameter) or (Info.AbbrevTag = DW_TAG_variable)) //and
//not(Info.IsArtificial)
then begin
Info2 := Info.Clone;
FProcMembers.Add(Info2);
Info2.ReleaseReference;
end;
Info.GoNext;
end;
Info.ReleaseReference;
end;
function TFpDwarfSymbolTypeSubroutine.GetMember(AIndex: Int64): TFpDbgSymbol;
begin
CreateMembers;
FLastMember.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember'){$ENDIF};
FLastMember := TFpDwarfSymbol.CreateSubClass('', TDwarfInformationEntry(FProcMembers[AIndex]));
{$IFDEF WITH_REFCOUNT_DEBUG}FLastMember.DbgRenameReference(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember');{$ENDIF}
Result := FLastMember;
end;
function TFpDwarfSymbolTypeSubroutine.GetMemberByName(AIndex: String
): TFpDbgSymbol;
var
Info: TDwarfInformationEntry;
s, s2: String;
i: Integer;
begin
CreateMembers;
s2 := LowerCase(AIndex);
FLastMember.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember'){$ENDIF};
FLastMember := nil;;
for i := 0 to FProcMembers.Count - 1 do begin
Info := TDwarfInformationEntry(FProcMembers[i]);
if Info.ReadName(s) and (LowerCase(s) = s2) then begin
FLastMember := TFpDwarfSymbol.CreateSubClass('', Info);
{$IFDEF WITH_REFCOUNT_DEBUG}FLastMember.DbgRenameReference(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember');{$ENDIF}
break;
end;
end;
Result := FLastMember;
end;
function TFpDwarfSymbolTypeSubroutine.GetMemberCount: Integer;
begin
CreateMembers;
Result := FProcMembers.Count;
end;
function TFpDwarfSymbolTypeSubroutine.GetTypedValueObject(ATypeCast: Boolean
): TFpDwarfValue;
begin
Result := TFpDwarfValueSubroutine.Create(Self);
end;
function TFpDwarfSymbolTypeSubroutine.GetDataAddressNext(
AValueObj: TFpDwarfValue; var AnAddress: TFpDbgMemLocation;
ATargetType: TFpDwarfSymbolType; ATargetCacheIndex: Integer): Boolean;
var
t: TFpDbgMemLocation;
begin
t := AValueObj.DataAddressCache[ATargetCacheIndex];
if IsInitializedLoc(t) then begin
AnAddress := t;
end
else begin
Result := AValueObj.MemManager <> nil;
if not Result then
exit;
AnAddress := AValueObj.MemManager.ReadAddress(AnAddress, CompilationUnit.AddressSize);
AValueObj.DataAddressCache[ATargetCacheIndex] := AnAddress;
end;
Result := IsValidLoc(AnAddress);
if not Result then
if IsError(AValueObj.MemManager.LastError) then
SetLastError(AValueObj.MemManager.LastError);
// Todo: other error
end;
procedure TFpDwarfSymbolTypeSubroutine.KindNeeded;
begin
if TypeInfo <> nil then
SetKind(skFunctionRef)
else
SetKind(skProcedureRef);
end;
destructor TFpDwarfSymbolTypeSubroutine.Destroy;
begin
FreeAndNil(FProcMembers);
FLastMember.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember'){$ENDIF};
inherited Destroy;
end;
{ TDbgDwarfIdentifierEnumElement }
procedure TFpDwarfSymbolValueEnumMember.ReadOrdinalValue;
begin
if FOrdinalValueRead then exit;
FOrdinalValueRead := True;
FHasOrdinalValue := InformationEntry.ReadValue(DW_AT_const_value, FOrdinalValue);
end;
procedure TFpDwarfSymbolValueEnumMember.KindNeeded;
begin
SetKind(skEnumValue);
end;
function TFpDwarfSymbolValueEnumMember.GetHasOrdinalValue: Boolean;
begin
ReadOrdinalValue;
Result := FHasOrdinalValue;
end;
function TFpDwarfSymbolValueEnumMember.GetOrdinalValue: Int64;
begin
ReadOrdinalValue;
Result := FOrdinalValue;
end;
procedure TFpDwarfSymbolValueEnumMember.Init;
begin
FOrdinalValueRead := False;
inherited Init;
end;
function TFpDwarfSymbolValueEnumMember.GetValueObject: TFpDbgValue;
begin
Result := FValueObject;
if Result <> nil then exit;
FValueObject := TFpDwarfValueEnumMember.Create(Self);
{$IFDEF WITH_REFCOUNT_DEBUG}FValueObject.DbgRenameReference(@FValueObject, ClassName+'.FValueObject');{$ENDIF}
FValueObject.MakePlainRefToCirclular;
FValueObject.SetValueSymbol(self);
Result := FValueObject;
end;
{ TFpDwarfSymbolTypeEnum }
procedure TFpDwarfSymbolTypeEnum.CreateMembers;
var
Info, Info2: TDwarfInformationEntry;
sym: TFpDwarfSymbol;
begin
if FMembers <> nil then
exit;
FMembers := TFpDbgCircularRefCntObjList.Create;
Info := InformationEntry.FirstChild;
if Info = nil then exit;
while Info.HasValidScope do begin
if (Info.AbbrevTag = DW_TAG_enumerator) then begin
Info2 := Info.Clone;
sym := TFpDwarfSymbol.CreateSubClass('', Info2);
FMembers.Add(sym);
sym.ReleaseReference;
sym.ParentTypeInfo := self;
Info2.ReleaseReference;
end;
Info.GoNext;
end;
Info.ReleaseReference;
end;
function TFpDwarfSymbolTypeEnum.GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue;
begin
Result := TFpDwarfValueEnum.Create(Self, Size);
end;
procedure TFpDwarfSymbolTypeEnum.KindNeeded;
begin
SetKind(skEnum);
end;
function TFpDwarfSymbolTypeEnum.GetMember(AIndex: Int64): TFpDbgSymbol;
begin
CreateMembers;
Result := TFpDbgSymbol(FMembers[AIndex]);
end;
function TFpDwarfSymbolTypeEnum.GetMemberByName(AIndex: String): TFpDbgSymbol;
var
i: Integer;
s, s1, s2: String;
begin
if AIndex = '' then
s1 := UTF8UpperCase(AIndex);
s2 := UTF8LowerCase(AIndex);
CreateMembers;
i := FMembers.Count - 1;
while i >= 0 do begin
Result := TFpDbgSymbol(FMembers[i]);
s := Result.Name;
if (s <> '') and CompareUtf8BothCase(@s1[1], @s2[1], @s[1]) then
exit;
dec(i);
end;
Result := nil;
end;
function TFpDwarfSymbolTypeEnum.GetMemberCount: Integer;
begin
CreateMembers;
Result := FMembers.Count;
end;
function TFpDwarfSymbolTypeEnum.GetHasBounds: Boolean;
begin
Result := True;
end;
destructor TFpDwarfSymbolTypeEnum.Destroy;
var
i: Integer;
begin
if FMembers <> nil then
for i := 0 to FMembers.Count - 1 do
TFpDwarfSymbol(FMembers[i]).ParentTypeInfo := nil;
FreeAndNil(FMembers);
inherited Destroy;
end;
function TFpDwarfSymbolTypeEnum.GetValueBounds(AValueObj: TFpDbgValue; out
ALowBound, AHighBound: Int64): Boolean;
begin
Result := GetValueLowBound(AValueObj, ALowBound); // TODO: ond GetValueHighBound() // but all callers must check result;
if not GetValueHighBound(AValueObj, AHighBound) then
Result := False;
end;
function TFpDwarfSymbolTypeEnum.GetValueLowBound(AValueObj: TFpDbgValue; out
ALowBound: Int64): Boolean;
var
c: Integer;
begin
Result := True;
c := MemberCount;
if c > 0 then
ALowBound := Member[0].OrdinalValue
else
ALowBound := 0;
end;
function TFpDwarfSymbolTypeEnum.GetValueHighBound(AValueObj: TFpDbgValue; out
AHighBound: Int64): Boolean;
var
c: Integer;
begin
Result := True;
c := MemberCount;
if c > 0 then
AHighBound := Member[c-1].OrdinalValue
else
AHighBound := -1;
end;
{ TFpDwarfSymbolTypeSet }
procedure TFpDwarfSymbolTypeSet.KindNeeded;
begin
SetKind(skSet);
end;
function TFpDwarfSymbolTypeSet.GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue;
begin
Result := TFpDwarfValueSet.Create(Self, Size);
end;
function TFpDwarfSymbolTypeSet.GetMemberCount: Integer;
begin
if TypeInfo.Kind = skEnum then
Result := TypeInfo.MemberCount
else
Result := inherited GetMemberCount;
end;
function TFpDwarfSymbolTypeSet.GetMember(AIndex: Int64): TFpDbgSymbol;
begin
if TypeInfo.Kind = skEnum then
Result := TypeInfo.Member[AIndex]
else
Result := inherited GetMember(AIndex);
end;
{ TFpDwarfSymbolValueMember }
function TFpDwarfSymbolValueMember.GetValueAddress(AValueObj: TFpDwarfValue; out
AnAddress: TFpDbgMemLocation): Boolean;
var
BaseAddr: TFpDbgMemLocation;
InitLocParserData: TInitLocParserData;
begin
AnAddress := AValueObj.DataAddressCache[0];
Result := IsValidLoc(AnAddress);
if IsInitializedLoc(AnAddress) then
exit;
if AValueObj = nil then debugln(['TFpDwarfSymbolValueMember.InitLocationParser: NO VAl Obj !!!!!!!!!!!!!!!'])
else if AValueObj.StructureValue = nil then debugln(['TFpDwarfSymbolValueMember.InitLocationParser: NO STRUCT Obj !!!!!!!!!!!!!!!']);
if (AValueObj = nil) or (AValueObj.StructureValue = nil) or (ParentTypeInfo = nil)
then begin
debugln(FPDBG_DWARF_ERRORS, ['DWARF ERROR in TFpDwarfSymbolValueMember.InitLocationParser Error: ',ErrorCode(LastError),' ValueObject=', DbgSName(FValueObject)]);
Result := False;
if not IsError(LastError) then
SetLastError(CreateError(fpErrLocationParserInit)); // TODO: error message?
exit;
end;
Assert((ParentTypeInfo is TFpDwarfSymbol) and (ParentTypeInfo.SymbolType = stType), '');
if not AValueObj.GetStructureDwarfDataAddress(BaseAddr, TFpDwarfSymbolType(ParentTypeInfo)) then begin
debugln(FPDBG_DWARF_ERRORS, ['DWARF ERROR in TFpDwarfSymbolValueMember.InitLocationParser Error: ',ErrorCode(LastError),' ValueObject=', DbgSName(FValueObject)]);
Result := False;
if not IsError(LastError) then
SetLastError(CreateError(fpErrLocationParserInit)); // TODO: error message?
exit;
end;
//TODO: AValueObj.StructureValue.LastError
InitLocParserData.ObjectDataAddress := BaseAddr;
InitLocParserData.ObjectDataAddrPush := True;
Result := LocationFromTag(DW_AT_data_member_location, AValueObj, AnAddress, @InitLocParserData);
AValueObj.DataAddressCache[0] := AnAddress;
end;
function TFpDwarfSymbolValueMember.HasAddress: Boolean;
begin
Result := (InformationEntry.HasAttrib(DW_AT_data_member_location));
end;
{ TFpDwarfSymbolTypeStructure }
function TFpDwarfSymbolTypeStructure.GetMemberByName(AIndex: String): TFpDbgSymbol;
var
Ident: TDwarfInformationEntry;
ti: TFpDbgSymbol;
begin
// Todo, maybe create all children?
if FLastChildByName <> nil then begin
FLastChildByName.ReleaseCirclularReference;
FLastChildByName := nil;
end;
Result := nil;
Ident := InformationEntry.FindNamedChild(AIndex);
if Ident <> nil then begin
FLastChildByName := TFpDwarfSymbol.CreateSubClass('', Ident);
FLastChildByName.MakePlainRefToCirclular;
FLastChildByName.ParentTypeInfo := self;
//assert is member ?
ReleaseRefAndNil(Ident);
Result := FLastChildByName;
exit;
end;
ti := TypeInfo; // Parent
if ti <> nil then
Result := ti.MemberByName[AIndex];
end;
function TFpDwarfSymbolTypeStructure.GetMemberCount: Integer;
begin
CreateMembers;
Result := FMembers.Count;
end;
function TFpDwarfSymbolTypeStructure.GetDataAddressNext(AValueObj: TFpDwarfValue;
var AnAddress: TFpDbgMemLocation; ATargetType: TFpDwarfSymbolType;
ATargetCacheIndex: Integer): Boolean;
var
t: TFpDbgMemLocation;
InitLocParserData: TInitLocParserData;
begin
t := AValueObj.DataAddressCache[ATargetCacheIndex];
if IsInitializedLoc(t) then begin
AnAddress := t;
Result := IsValidLoc(AnAddress);
end
else begin
InitInheritanceInfo;
//TODO: may be a constant // offset
InitLocParserData.ObjectDataAddress := AnAddress;
InitLocParserData.ObjectDataAddrPush := True;
Result := LocationFromTag(DW_AT_data_member_location, AValueObj, t, @InitLocParserData, FInheritanceInfo);
if not Result then
exit;
AnAddress := t;
AValueObj.DataAddressCache[ATargetCacheIndex] := AnAddress;
if IsError(AValueObj.MemManager.LastError) then
SetLastError(AValueObj.MemManager.LastError);
end;
Result := inherited GetDataAddressNext(AValueObj, AnAddress, ATargetType, ATargetCacheIndex);
end;
function TFpDwarfSymbolTypeStructure.GetMember(AIndex: Int64): TFpDbgSymbol;
var
ti: TFpDbgSymbol;
begin
CreateMembers;
if AIndex >= FMembers.Count then begin
ti := TypeInfo;
if ti <> nil then
Result := ti.Member[AIndex - FMembers.Count];
end
else
Result := TFpDbgSymbol(FMembers[AIndex]);
end;
destructor TFpDwarfSymbolTypeStructure.Destroy;
var
i: Integer;
begin
ReleaseRefAndNil(FInheritanceInfo);
if FMembers <> nil then begin
for i := 0 to FMembers.Count - 1 do
TFpDwarfSymbol(FMembers[i]).ParentTypeInfo := nil;
FreeAndNil(FMembers);
end;
if FLastChildByName <> nil then begin
FLastChildByName.ParentTypeInfo := nil;
FLastChildByName.ReleaseCirclularReference;
FLastChildByName := nil;
end;
inherited Destroy;
end;
procedure TFpDwarfSymbolTypeStructure.CreateMembers;
var
Info: TDwarfInformationEntry;
Info2: TDwarfInformationEntry;
sym: TFpDwarfSymbol;
begin
if FMembers <> nil then
exit;
FMembers := TFpDbgCircularRefCntObjList.Create;
Info := InformationEntry.Clone;
Info.GoChild;
while Info.HasValidScope do begin
if (Info.AbbrevTag = DW_TAG_member) or (Info.AbbrevTag = DW_TAG_subprogram) then begin
Info2 := Info.Clone;
sym := TFpDwarfSymbol.CreateSubClass('', Info2);
FMembers.Add(sym);
sym.ReleaseReference;
sym.ParentTypeInfo := self;
Info2.ReleaseReference;
end;
Info.GoNext;
end;
Info.ReleaseReference;
end;
procedure TFpDwarfSymbolTypeStructure.InitInheritanceInfo;
begin
if FInheritanceInfo = nil then
FInheritanceInfo := InformationEntry.FindChildByTag(DW_TAG_inheritance);
end;
function TFpDwarfSymbolTypeStructure.DoGetNestedTypeInfo: TFpDwarfSymbolType;
var
FwdInfoPtr: Pointer;
FwdCompUint: TDwarfCompilationUnit;
ParentInfo: TDwarfInformationEntry;
begin
Result:= nil;
InitInheritanceInfo;
if (FInheritanceInfo <> nil) and
FInheritanceInfo.ReadReference(DW_AT_type, FwdInfoPtr, FwdCompUint)
then begin
ParentInfo := TDwarfInformationEntry.Create(FwdCompUint, FwdInfoPtr);
//DebugLn(FPDBG_DWARF_SEARCH, ['Inherited from ', dbgs(ParentInfo.FInformationEntry, FwdCompUint) ]);
Result := TFpDwarfSymbolType.CreateTypeSubClass('', ParentInfo);
ParentInfo.ReleaseReference;
end;
end;
procedure TFpDwarfSymbolTypeStructure.KindNeeded;
begin
if (InformationEntry.AbbrevTag = DW_TAG_class_type) then
SetKind(skClass)
else
begin
if TypeInfo <> nil then // inheritance
SetKind(skObject) // skClass
else
if MemberByName['_vptr$TOBJECT'] <> nil then
SetKind(skObject) // skClass
else
if MemberByName['_vptr$'+Name] <> nil then
SetKind(skObject)
else
SetKind(skRecord);
end;
end;
function TFpDwarfSymbolTypeStructure.GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue;
begin
if ATypeCast then
Result := TFpDwarfValueStructTypeCast.Create(Self)
else
Result := TFpDwarfValueStruct.Create(Self);
end;
{ TFpDwarfSymbolTypeArray }
procedure TFpDwarfSymbolTypeArray.CreateMembers;
var
Info, Info2: TDwarfInformationEntry;
t: Cardinal;
sym: TFpDwarfSymbol;
begin
if FMembers <> nil then
exit;
FMembers := TFpDbgCircularRefCntObjList.Create;
Info := InformationEntry.FirstChild;
if Info = nil then exit;
while Info.HasValidScope do begin
t := Info.AbbrevTag;
if (t = DW_TAG_enumeration_type) or (t = DW_TAG_subrange_type) then begin
Info2 := Info.Clone;
sym := TFpDwarfSymbol.CreateSubClass('', Info2);
FMembers.Add(sym);
sym.ReleaseReference;
sym.ParentTypeInfo := self;
Info2.ReleaseReference;
end;
Info.GoNext;
end;
Info.ReleaseReference;
end;
procedure TFpDwarfSymbolTypeArray.ReadStride;
var
t: TFpDwarfSymbolType;
begin
if didtStrideRead in FDwarfArrayReadFlags then
exit;
Include(FDwarfArrayReadFlags, didtStrideRead);
if InformationEntry.ReadValue(DW_AT_bit_stride, FStrideInBits) then
exit;
CreateMembers;
if (FMembers.Count > 0) and // TODO: stride for diff member
(TDbgDwarfSymbolBase(FMembers[0]).InformationEntry.ReadValue(DW_AT_byte_stride, FStrideInBits))
then begin
FStrideInBits := FStrideInBits * 8;
exit;
end;
t := NestedTypeInfo;
if t = nil then
FStrideInBits := 0 // TODO error
else
FStrideInBits := t.Size * 8;
end;
procedure TFpDwarfSymbolTypeArray.ReadOrdering;
var
AVal: Integer;
begin
if didtOrdering in FDwarfArrayReadFlags then
exit;
Include(FDwarfArrayReadFlags, didtOrdering);
if InformationEntry.ReadValue(DW_AT_ordering, AVal) then
FRowMajor := AVal = DW_ORD_row_major
else
FRowMajor := True; // default (at least in pas)
end;
procedure TFpDwarfSymbolTypeArray.KindNeeded;
begin
SetKind(skArray); // Todo: static/dynamic?
end;
function TFpDwarfSymbolTypeArray.GetTypedValueObject(ATypeCast: Boolean): TFpDwarfValue;
begin
Result := TFpDwarfValueArray.Create(Self);
end;
function TFpDwarfSymbolTypeArray.GetFlags: TDbgSymbolFlags;
function IsDynSubRange(m: TFpDwarfSymbol): Boolean;
begin
Result := sfSubRange in m.Flags;
if not Result then exit;
while (m <> nil) and not(m is TFpDwarfSymbolTypeSubRange) do
m := m.NestedTypeInfo;
Result := m <> nil;
if not Result then exit; // TODO: should not happen, handle error
Result := (TFpDwarfSymbolTypeSubRange(m).FHighBoundState = rfValue) // dynamic high bound // TODO:? Could be rfConst for locationExpr
or (TFpDwarfSymbolTypeSubRange(m).FHighBoundState = rfNotRead); // dynamic high bound (yet to be read)
end;
var
m: TFpDbgSymbol;
lb, hb: Int64;
begin
Result := inherited GetFlags;
if (MemberCount = 1) then begin // TODO: move to freepascal specific
m := Member[0];
if (not m.GetValueBounds(nil, lb, hb)) or // e.g. Subrange with missing upper bound
(hb < lb) or
(IsDynSubRange(TFpDwarfSymbol(m)))
then
Result := Result + [sfDynArray]
else
Result := Result + [sfStatArray];
end
else
Result := Result + [sfStatArray];
end;
function TFpDwarfSymbolTypeArray.GetMember(AIndex: Int64): TFpDbgSymbol;
begin
CreateMembers;
Result := TFpDbgSymbol(FMembers[AIndex]);
end;
function TFpDwarfSymbolTypeArray.GetMemberByName(AIndex: String): TFpDbgSymbol;
begin
Result := nil; // no named members
end;
function TFpDwarfSymbolTypeArray.GetMemberCount: Integer;
begin
CreateMembers;
Result := FMembers.Count;
end;
function TFpDwarfSymbolTypeArray.GetMemberAddress(AValObject: TFpDwarfValue;
const AIndex: array of Int64): TFpDbgMemLocation;
var
Idx, Offs, Factor: Int64;
LowBound, HighBound: int64;
i: Integer;
bsize: Integer;
m: TFpDwarfSymbol;
begin
assert((AValObject is TFpDwarfValueArray), 'TFpDwarfSymbolTypeArray.GetMemberAddress AValObject');
ReadOrdering;
ReadStride; // TODO Stride per member (member = dimension/index)
Result := InvalidLoc;
if (FStrideInBits <= 0) or (FStrideInBits mod 8 <> 0) then
exit;
CreateMembers;
if Length(AIndex) > FMembers.Count then
exit;
if AValObject is TFpDwarfValueArray then begin
if not TFpDwarfValueArray(AValObject).GetDwarfDataAddress(Result, Self) then begin
Result := InvalidLoc;
Exit;
end;
end
else
exit; // TODO error
Offs := 0;
Factor := 1;
{$PUSH}{$R-}{$Q-} // TODO: check range of index
bsize := FStrideInBits div 8;
if FRowMajor then begin
for i := Length(AIndex) - 1 downto 0 do begin
Idx := AIndex[i];
m := TFpDwarfSymbol(FMembers[i]);
if i > 0 then begin
if not m.GetValueBounds(AValObject, LowBound, HighBound) then begin
Result := InvalidLoc;
exit;
end;
Idx := Idx - LowBound;
Offs := Offs + Idx * bsize * Factor;
Factor := Factor * (HighBound - LowBound + 1); // TODO range check
end
else begin
if m.GetValueLowBound(AValObject, LowBound) then
Idx := Idx - LowBound;
Offs := Offs + Idx * bsize * Factor;
end;
end;
end
else begin
for i := 0 to Length(AIndex) - 1 do begin
Idx := AIndex[i];
m := TFpDwarfSymbol(FMembers[i]);
if i > 0 then begin
if not m.GetValueBounds(AValObject, LowBound, HighBound) then begin
Result := InvalidLoc;
exit;
end;
Idx := Idx - LowBound;
Offs := Offs + Idx * bsize * Factor;
Factor := Factor * (HighBound - LowBound + 1); // TODO range check
end
else begin
if m.GetValueLowBound(AValObject, LowBound) then
Idx := Idx - LowBound;
Offs := Offs + Idx * bsize * Factor;
end;
end;
end;
assert(IsTargetAddr(Result), 'DwarfArray MemberAddress');
Result.Address := Result.Address + Offs;
{$POP}
end;
destructor TFpDwarfSymbolTypeArray.Destroy;
var
i: Integer;
begin
if FMembers <> nil then begin
for i := 0 to FMembers.Count - 1 do
TFpDwarfSymbol(FMembers[i]).ParentTypeInfo := nil;
FreeAndNil(FMembers);
end;
inherited Destroy;
end;
procedure TFpDwarfSymbolTypeArray.ResetValueBounds;
var
i: Integer;
begin
debuglnEnter(['TFpDwarfSymbolTypeArray.ResetValueBounds ' , Self.ClassName, dbgs(self)]); try
inherited ResetValueBounds;
FDwarfArrayReadFlags := [];
if FMembers <> nil then
for i := 0 to FMembers.Count - 1 do
if TObject(FMembers[i]) is TFpDwarfSymbolType then
TFpDwarfSymbolType(FMembers[i]).ResetValueBounds;
finally debuglnExit(['TFpDwarfSymbolTypeArray.ResetValueBounds ' ]); end;
end;
{ TDbgDwarfSymbol }
constructor TFpDwarfSymbolValueProc.Create(ACompilationUnit: TDwarfCompilationUnit;
AInfo: PDwarfAddressInfo; AAddress: TDbgPtr);
var
InfoEntry: TDwarfInformationEntry;
begin
FAddress := AAddress;
FAddressInfo := AInfo;
InfoEntry := TDwarfInformationEntry.Create(ACompilationUnit, nil);
InfoEntry.ScopeIndex := AInfo^.ScopeIndex;
inherited Create(
String(FAddressInfo^.Name),
InfoEntry
);
SetAddress(TargetLoc(FAddressInfo^.StartPC));
InfoEntry.ReleaseReference;
//BuildLineInfo(
// AFile: String = ''; ALine: Integer = -1; AFlags: TDbgSymbolFlags = []; const AReference: TDbgSymbol = nil);
end;
destructor TFpDwarfSymbolValueProc.Destroy;
begin
FreeAndNil(FProcMembers);
FLastMember.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember'){$ENDIF};
FreeAndNil(FStateMachine);
if FSelfParameter <> nil then begin
//TDbgDwarfIdentifier(FSelfParameter.DbgSymbol).ParentTypeInfo := nil;
FSelfParameter.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FSelfParameter, 'FSelfParameter'){$ENDIF};
end;
inherited Destroy;
end;
function TFpDwarfSymbolValueProc.GetColumn: Cardinal;
begin
if StateMachineValid
then Result := FStateMachine.Column
else Result := inherited GetColumn;
end;
function TFpDwarfSymbolValueProc.GetFile: String;
begin
if StateMachineValid
then Result := FStateMachine.FileName
else Result := inherited GetFile;
end;
function TFpDwarfSymbolValueProc.GetLine: Cardinal;
begin
if StateMachineValid
then Result := FStateMachine.Line
else Result := inherited GetLine;
end;
function TFpDwarfSymbolValueProc.GetValueObject: TFpDbgValue;
begin
Result := FValueObject;
if Result <> nil then exit;
FValueObject := TFpDwarfValueSubroutine.Create(nil);
{$IFDEF WITH_REFCOUNT_DEBUG}FValueObject.DbgRenameReference(@FValueObject, ClassName+'.FValueObject');{$ENDIF}
FValueObject.MakePlainRefToCirclular;
FValueObject.SetValueSymbol(self);
Result := FValueObject;
end;
function TFpDwarfSymbolValueProc.GetValueAddress(AValueObj: TFpDwarfValue; out
AnAddress: TFpDbgMemLocation): Boolean;
var
AttrData: TDwarfAttribData;
Addr: TDBGPtr;
begin
AnAddress := AValueObj.DataAddressCache[0];
Result := IsValidLoc(AnAddress);
if IsInitializedLoc(AnAddress) then
exit;
AnAddress := InvalidLoc;
if InformationEntry.GetAttribData(DW_AT_low_pc, AttrData) then
if InformationEntry.ReadAddressValue(AttrData, Addr) then
AnAddress := TargetLoc(Addr);
//DW_AT_ranges
Result := IsValidLoc(AnAddress);
AValueObj.DataAddressCache[0] := AnAddress;
end;
function TFpDwarfSymbolValueProc.StateMachineValid: Boolean;
var
SM1, SM2: TDwarfLineInfoStateMachine;
begin
Result := FStateMachine <> nil;
if Result then Exit;
if FAddressInfo^.StateMachine = nil
then begin
CompilationUnit.BuildLineInfo(FAddressInfo, False);
if FAddressInfo^.StateMachine = nil then Exit;
end;
// we cannot restore a statemachine to its current state
// so we shouldn't modify FAddressInfo^.StateMachine
// so use clones to navigate
SM1 := FAddressInfo^.StateMachine.Clone;
if FAddress < SM1.Address
then begin
// The address we want to find is before the start of this symbol ??
SM1.Free;
Exit;
end;
SM2 := FAddressInfo^.StateMachine.Clone;
repeat
if (FAddress = SM1.Address)
or not SM2.NextLine
or (FAddress < SM2.Address)
then begin
// found
FStateMachine := SM1;
SM2.Free;
Result := True;
Exit;
end;
until not SM1.NextLine;
//if all went well we shouldn't come here
SM1.Free;
SM2.Free;
end;
function TFpDwarfSymbolValueProc.ReadVirtuality(out AFlags: TDbgSymbolFlags): Boolean;
var
Val: Integer;
begin
AFlags := [];
Result := InformationEntry.ReadValue(DW_AT_virtuality, Val);
if not Result then exit;
case Val of
DW_VIRTUALITY_none: ;
DW_VIRTUALITY_virtual: AFlags := [sfVirtual];
DW_VIRTUALITY_pure_virtual: AFlags := [sfVirtual];
end;
end;
procedure TFpDwarfSymbolValueProc.CreateMembers;
var
Info: TDwarfInformationEntry;
Info2: TDwarfInformationEntry;
begin
if FProcMembers <> nil then
exit;
FProcMembers := TRefCntObjList.Create;
Info := InformationEntry.Clone;
Info.GoChild;
while Info.HasValidScope do begin
if ((Info.AbbrevTag = DW_TAG_formal_parameter) or (Info.AbbrevTag = DW_TAG_variable)) //and
//not(Info.IsArtificial)
then begin
Info2 := Info.Clone;
FProcMembers.Add(Info2);
Info2.ReleaseReference;
end;
Info.GoNext;
end;
Info.ReleaseReference;
end;
function TFpDwarfSymbolValueProc.GetMember(AIndex: Int64): TFpDbgSymbol;
begin
CreateMembers;
FLastMember.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember'){$ENDIF};
FLastMember := TFpDwarfSymbol.CreateSubClass('', TDwarfInformationEntry(FProcMembers[AIndex]));
{$IFDEF WITH_REFCOUNT_DEBUG}FLastMember.DbgRenameReference(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember');{$ENDIF}
Result := FLastMember;
end;
function TFpDwarfSymbolValueProc.GetMemberByName(AIndex: String): TFpDbgSymbol;
var
Info: TDwarfInformationEntry;
s, s2: String;
i: Integer;
begin
CreateMembers;
s2 := LowerCase(AIndex);
FLastMember.ReleaseReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember'){$ENDIF};
FLastMember := nil;;
for i := 0 to FProcMembers.Count - 1 do begin
Info := TDwarfInformationEntry(FProcMembers[i]);
if Info.ReadName(s) and (LowerCase(s) = s2) then begin
FLastMember := TFpDwarfSymbol.CreateSubClass('', Info);
{$IFDEF WITH_REFCOUNT_DEBUG}FLastMember.DbgRenameReference(@FLastMember, 'TFpDwarfSymbolValueProc.FLastMember');{$ENDIF}
break;
end;
end;
Result := FLastMember;
end;
function TFpDwarfSymbolValueProc.GetMemberCount: Integer;
begin
CreateMembers;
Result := FProcMembers.Count;
end;
function TFpDwarfSymbolValueProc.GetFrameBase(ASender: TDwarfLocationExpression): TDbgPtr;
var
Val: TByteDynArray;
rd: TFpDbgMemLocation;
begin
Result := 0;
if FFrameBaseParser = nil then begin
//TODO: avoid copying data
if not InformationEntry.ReadValue(DW_AT_frame_base, Val) then begin
// error
debugln(FPDBG_DWARF_ERRORS, ['TFpDwarfSymbolValueProc.GetFrameBase failed to read DW_AT_frame_base']);
exit;
end;
if Length(Val) = 0 then begin
// error
debugln(FPDBG_DWARF_ERRORS, ['TFpDwarfSymbolValueProc.GetFrameBase failed to read DW_AT_location']);
exit;
end;
FFrameBaseParser := TDwarfLocationExpression.Create(@Val[0], Length(Val), CompilationUnit,
ASender.MemManager, ASender.Context);
FFrameBaseParser.Evaluate;
end;
rd := FFrameBaseParser.ResultData;
if IsValidLoc(rd) then
Result := rd.Address;
if IsError(FFrameBaseParser.LastError) then begin
SetLastError(FFrameBaseParser.LastError);
debugln(FPDBG_DWARF_ERRORS, ['TFpDwarfSymbolValueProc.GetFrameBase location parser failed ', ErrorHandler.ErrorAsString(LastError)]);
end
else
if Result = 0 then begin
debugln(FPDBG_DWARF_ERRORS, ['TFpDwarfSymbolValueProc.GetFrameBase location parser failed. result is 0']);
end;
end;
procedure TFpDwarfSymbolValueProc.KindNeeded;
begin
if TypeInfo <> nil then
SetKind(skFunction)
else
SetKind(skProcedure);
end;
procedure TFpDwarfSymbolValueProc.SizeNeeded;
begin
SetSize(FAddressInfo^.EndPC - FAddressInfo^.StartPC);
end;
function TFpDwarfSymbolValueProc.GetFlags: TDbgSymbolFlags;
var
flg: TDbgSymbolFlags;
begin
Result := inherited GetFlags;
if ReadVirtuality(flg) then
Result := Result + flg;
end;
function TFpDwarfSymbolValueProc.GetSelfParameter(AnAddress: TDbgPtr): TFpDwarfValue;
const
this1: string = 'THIS';
this2: string = 'this';
self1: string = '$SELF';
self2: string = '$self';
var
InfoEntry: TDwarfInformationEntry;
tg: Cardinal;
found: Boolean;
begin
// special: search "self"
// Todo nested procs
Result := FSelfParameter;
if Result <> nil then exit;
InfoEntry := InformationEntry.Clone;
//StartScopeIdx := InfoEntry.ScopeIndex;
InfoEntry.GoParent;
tg := InfoEntry.AbbrevTag;
if (tg = DW_TAG_class_type) or (tg = DW_TAG_structure_type) then begin
InfoEntry.ScopeIndex := InformationEntry.ScopeIndex;
found := InfoEntry.GoNamedChildEx(@this1[1], @this2[1]);
if not found then begin
InfoEntry.ScopeIndex := InformationEntry.ScopeIndex;
found := InfoEntry.GoNamedChildEx(@self1[1], @self2[1]);
end;
if found then begin
if ((AnAddress = 0) or InfoEntry.IsAddressInStartScope(AnAddress)) and
InfoEntry.IsArtificial
then begin
Result := TFpDwarfValue(TFpDwarfSymbolValue.CreateValueSubClass('self', InfoEntry).Value);
FSelfParameter := Result;
FSelfParameter.AddReference{$IFDEF WITH_REFCOUNT_DEBUG}(@FSelfParameter, 'FSelfParameter'){$ENDIF};
FSelfParameter.DbgSymbol.ReleaseReference;
//FSelfParameter.DbgSymbol.ParentTypeInfo := Self;
debugln(FPDBG_DWARF_SEARCH, ['TFpDwarfSymbolValueProc.GetSelfParameter ', InfoEntry.ScopeDebugText, DbgSName(Result)]);
end;
end;
end;
InfoEntry.ReleaseReference;
end;
{ TFpDwarfSymbolValueVariable }
function TFpDwarfSymbolValueVariable.GetValueAddress(AValueObj: TFpDwarfValue; out
AnAddress: TFpDbgMemLocation): Boolean;
var
AttrData: TDwarfAttribData;
begin
AnAddress := AValueObj.DataAddressCache[0];
Result := IsValidLoc(AnAddress);
if IsInitializedLoc(AnAddress) then
exit;
if InformationEntry.GetAttribData(DW_AT_location, AttrData) then
Result := LocationFromTag(DW_AT_location, AttrData, AValueObj, AnAddress)
else
Result := ConstantFromTag(DW_AT_const_value, FConstData, AnAddress);
AValueObj.DataAddressCache[0] := AnAddress;
end;
function TFpDwarfSymbolValueVariable.HasAddress: Boolean;
begin
// TODO: THis is wrong. It might allow for the @ operator on a const...
Result := InformationEntry.HasAttrib(DW_AT_location) or
InformationEntry.HasAttrib(DW_AT_const_value);
end;
{ TFpDwarfSymbolValueParameter }
function TFpDwarfSymbolValueParameter.GetValueAddress(AValueObj: TFpDwarfValue; out
AnAddress: TFpDbgMemLocation): Boolean;
begin
AnAddress := AValueObj.DataAddressCache[0];
Result := IsValidLoc(AnAddress);
if IsInitializedLoc(AnAddress) then
exit;
Result := LocationFromTag(DW_AT_location, AValueObj, AnAddress);
AValueObj.DataAddressCache[0] := AnAddress;
end;
function TFpDwarfSymbolValueParameter.HasAddress: Boolean;
begin
Result := InformationEntry.HasAttrib(DW_AT_location);
end;
function TFpDwarfSymbolValueParameter.GetFlags: TDbgSymbolFlags;
begin
Result := (inherited GetFlags) + [sfParameter];
end;
{ TFpDwarfSymbolUnit }
procedure TFpDwarfSymbolUnit.Init;
begin
inherited Init;
SetSymbolType(stNone);
SetKind(skUnit);
end;
function TFpDwarfSymbolUnit.GetMemberByName(AIndex: String): TFpDbgSymbol;
var
Ident: TDwarfInformationEntry;
begin
// Todo, param to only search external.
ReleaseRefAndNil(FLastChildByName);
Result := nil;
Ident := InformationEntry.Clone;
Ident.GoNamedChildEx(AIndex);
if Ident <> nil then
Result := TFpDwarfSymbol.CreateSubClass('', Ident);
// No need to set ParentTypeInfo
ReleaseRefAndNil(Ident);
FLastChildByName := Result;
end;
destructor TFpDwarfSymbolUnit.Destroy;
begin
ReleaseRefAndNil(FLastChildByName);
inherited Destroy;
end;
initialization
DwarfSymbolClassMapList.SetDefaultMap(TFpDwarfDefaultSymbolClassMap);
DBG_WARNINGS := DebugLogger.FindOrRegisterLogGroup('DBG_WARNINGS' {$IFDEF DBG_WARNINGS} , True {$ENDIF} );
FPDBG_DWARF_VERBOSE := DebugLogger.FindOrRegisterLogGroup('FPDBG_DWARF_VERBOSE' {$IFDEF FPDBG_DWARF_VERBOSE} , True {$ENDIF} );
FPDBG_DWARF_ERRORS := DebugLogger.FindOrRegisterLogGroup('FPDBG_DWARF_ERRORS' {$IFDEF FPDBG_DWARF_ERRORS} , True {$ENDIF} );
FPDBG_DWARF_WARNINGS := DebugLogger.FindOrRegisterLogGroup('FPDBG_DWARF_WARNINGS' {$IFDEF FPDBG_DWARF_WARNINGS} , True {$ENDIF} );
FPDBG_DWARF_SEARCH := DebugLogger.FindOrRegisterLogGroup('FPDBG_DWARF_SEARCH' {$IFDEF FPDBG_DWARF_SEARCH} , True {$ENDIF} );
FPDBG_DWARF_DATA_WARNINGS := DebugLogger.FindOrRegisterLogGroup('FPDBG_DWARF_DATA_WARNINGS' {$IFDEF FPDBG_DWARF_DATA_WARNINGS} , True {$ENDIF} );
end.
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