SgAsmPEImportDirectory Class Reference

Description

One import directory per library.

The import directory points to the Import Lookup Table and Import Address Table. ROSE no longer represents the ILT and IAT with separate IR nodes.

Definition at line 3378 of file binaryInstruction.C.

Inheritance diagram for SgAsmPEImportDirectory:

Collaboration diagram for SgAsmPEImportDirectory:

Classes
struct	PEImportDirectory_disk

Public Member Functions
struct SgAsmPEImportDirectory::PEImportDirectory_disk	__attribute__ ((packed))
	SgAsmPEImportDirectory (SgAsmPEImportSection *isec, const std::string &dll_name="")
SgAsmPEImportDirectory *	parse (rose_addr_t va, bool isLastEntry)
	Parse an import directory.
size_t	reallocate (Rose::BinaryAnalysis::RelativeVirtualAddress starting_rva)
	Allocates space for this import directory's name, import lookup table, and import address table.
void *	encode (SgAsmPEImportDirectory::PEImportDirectory_disk *) const
	Encode an import directory entry back into disk format.
virtual void	unparse (std::ostream &, const SgAsmPEImportSection *, size_t idx) const
virtual void	dump (FILE *, const char *prefix, ssize_t idx) const
size_t	iatRequiredSize () const
	Number of bytes required for the table.
int	findImportItem (const SgAsmPEImportItem *item, int hint=0) const
	Find an import item in an import directory.
size_t	hintNameTableExtent (Rose::BinaryAnalysis::AddressIntervalSet &extent) const
	Obtains the virtual address of the Hint/Name Table.
SgAsmGenericString *	get_dll_name () const
void	set_dll_name (SgAsmGenericString *)
const Rose::BinaryAnalysis::RelativeVirtualAddress &	get_dll_name_rva () const
Rose::BinaryAnalysis::RelativeVirtualAddress &	get_dll_name_rva ()
void	set_dll_name_rva (const Rose::BinaryAnalysis::RelativeVirtualAddress &)
size_t	iat_required_size () const
int	find_import_item (const SgAsmPEImportItem *, int=0) const
size_t	hintname_table_extent (Rose::BinaryAnalysis::AddressIntervalSet &) const
virtual	~SgAsmPEImportDirectory ()
	Destructor.
	SgAsmPEImportDirectory ()
	Default constructor.
SgAsmGenericString *const &	get_dllName () const
	Property: Name of library from which to import.
void	set_dllName (SgAsmGenericString *const &)
	Property: Name of library from which to import.
Rose::BinaryAnalysis::RelativeVirtualAddress const &	get_dllNameRva () const
	Property: Address of the import library name.
Rose::BinaryAnalysis::RelativeVirtualAddress &	get_dllNameRva ()
	Property: Address of the import library name.
void	set_dllNameRva (Rose::BinaryAnalysis::RelativeVirtualAddress const &)
	Property: Address of the import library name.
size_t const &	get_dll_name_nalloc () const
	Property: Bytes allocated in the file for the name.
void	set_dll_name_nalloc (size_t const &)
	Property: Bytes allocated in the file for the name.
time_t const &	get_time () const
	Property: Time.
void	set_time (time_t const &)
	Property: Time.
unsigned const &	get_forwarder_chain () const
	Property: Forwarder chain.
void	set_forwarder_chain (unsigned const &)
	Property: Forwarder chain.
Rose::BinaryAnalysis::RelativeVirtualAddress const &	get_ilt_rva () const
	Property: Starting address of the ILT.
Rose::BinaryAnalysis::RelativeVirtualAddress &	get_ilt_rva ()
	Property: Starting address of the ILT.
void	set_ilt_rva (Rose::BinaryAnalysis::RelativeVirtualAddress const &)
	Property: Starting address of the ILT.
size_t const &	get_ilt_nalloc () const
	Property: Bytes allocated in the file for the ILT.
void	set_ilt_nalloc (size_t const &)
	Property: Bytes allocated in the file for the ILT.
Rose::BinaryAnalysis::RelativeVirtualAddress const &	get_iat_rva () const
	Property: IAT RVA.
Rose::BinaryAnalysis::RelativeVirtualAddress &	get_iat_rva ()
	Property: IAT RVA.
void	set_iat_rva (Rose::BinaryAnalysis::RelativeVirtualAddress const &)
	Property: IAT RVA.
size_t const &	get_iat_nalloc () const
	Property: Bytes allocated in the file for the IAT.
void	set_iat_nalloc (size_t const &)
	Property: Bytes allocated in the file for the IAT.
SgAsmPEImportItemList *const &	get_imports () const
	Property: List of imports.
void	set_imports (SgAsmPEImportItemList *const &)
	Property: List of imports.
Public Member Functions inherited from SgAsmExecutableFileFormat
virtual	~SgAsmExecutableFileFormat ()
	Destructor.
Public Member Functions inherited from SgAsmNode
virtual	~SgAsmNode ()
	Destructor.
Sawyer::Attribute::Storage const &	attributes () const
	Attribute storage.
Sawyer::Attribute::Storage &	attributes ()
	Attribute storage.
Public Member Functions inherited from SgNode
virtual SgNode *	copy (SgCopyHelp &help) const
virtual std::string	class_name () const
	returns a string representing the class name
virtual VariantT	variantT () const
	returns new style SageIII enum values
void *	operator new (size_t size)
	returns pointer to newly allocated IR node
void	operator delete (void *pointer, size_t size)
	deallocated memory for IR node (returns memory to memory pool for reuse)
void	operator delete (void *pointer)
virtual size_t	get_numberOfTraversalSuccessors ()
	return number of children in the traversal successor list
virtual SgNode *	get_traversalSuccessorByIndex (size_t idx)
	index-based access to traversal successors by index number
virtual size_t	get_childIndex (SgNode *child)
	index-based access to traversal successors by child node
virtual const char *	sage_class_name () const
	generates string representing the class name: (e.g. for SgNode returns "SgNode").
void	executeVisitorMemberFunction (ROSE_VisitorPattern &visitor)
	FOR INTERNAL USE Support for visitor pattern.
virtual void	accept (ROSE_VisitorPattern &visitor)
	support for the classic visitor pattern done in GoF
virtual bool	isInMemoryPool ()
	FOR INTERNAL USE This is used in internal tests to verify that all IR nodes are allocated from the heap.
virtual void	checkDataMemberPointersIfInMemoryPool ()
	FOR INTERNAL USE This is used in internal tests to verify that all IR nodes are allocated from the heap.
virtual std::vector< std::pair< SgNode *, std::string > >	returnDataMemberPointers () const
	FOR INTERNAL USE Returns STL vector of pairs of SgNode* and strings for use in AST tools
virtual void	processDataMemberReferenceToPointers (ReferenceToPointerHandler *)
	FOR INTERNAL USE Processes pairs of references to SgNode* and strings for use in AST tools
virtual long	getChildIndex (SgNode *childNode) const
	FOR INTERNAL USE Returns a unique index value for the childNode in the list of children at this IR node.
	SgNode (const SgNodeStorageClass &source)
	IR node constructor to support AST File I/O.
SgNode *	addRegExpAttribute (std::string s, AstRegExAttribute *a)
	Support for AST matching using regular expression.
void	set_isModified (bool isModified)
	All nodes in the AST contain a isModified flag used to track changes to the AST.
void	set_containsTransformation (bool containsTransformation)
	Many nodes can hide other AST nodes and we need to track when outer nodes contain modified nodes even if they are not themselves modified.
bool	get_isModified () const
	Acess function for isModified flag.
bool	get_containsTransformation () const
	Acess function for containsTransformation flag.
SgNode *	get_raw_parent () const
	Access function for direct access to uncomputed value of parent node.
bool	isChild (SgNode *node) const
	Query function for if the input IR nodes is a child of the current IR node.
virtual std::string	unparseToString (SgUnparse_Info *info) const
	This function unparses the AST node (excluding comments and unnecessary white space)
std::string	unparseToString () const
int	variant () const
	Older version function returns enum value "NODE".
virtual void	addNewAttribute (std::string s, AstAttribute *a)
	Add a new attribute represented by the named string.
virtual AstAttribute *	getAttribute (std::string s) const
	Returns attribute of name 's'.
virtual void	updateAttribute (std::string s, AstAttribute *a)
	Replace existing attribute of name 's' with new AstAttribute.
virtual void	setAttribute (std::string s, AstAttribute *a)
	This is a wrapper function with the following semantics: if no attribute of name 's' exists then addNewAttribute(s,a); is called, otherwise updateAttribute(s,a); is called.
virtual void	removeAttribute (std::string s)
	Remove attribute of name 's' if present.
virtual bool	attributeExists (std::string s) const
	Tests if attribute of name 's' is present.
virtual int	numberOfAttributes () const
	Returns the number of attributes on this IR node.
virtual AstAttributeMechanism *	get_attributeMechanism () const
	FOR INTERNAL USE Access function; if an attribute exists then a pointer to it is returned, else error.
virtual void	set_attributeMechanism (AstAttributeMechanism *a)
	FOR INTERNAL USE Access function; sets poiner to value AstAttributeMechanism.
virtual void	fixupCopy_scopes (SgNode *copy, SgCopyHelp &help) const
virtual void	fixupCopy_symbols (SgNode *copy, SgCopyHelp &help) const
virtual void	fixupCopy_references (SgNode *copy, SgCopyHelp &help) const
virtual Sg_File_Info *	get_file_info (void) const
	File information containing filename, line number, column number, and if the SgNode is a part of a new transformation, etc.
virtual Sg_File_Info *	get_startOfConstruct (void) const
	New function interface for Sg_File_Info data stores starting location of contruct (typically the opening brace or first letter of keyword).
virtual Sg_File_Info *	get_endOfConstruct (void) const
	New function interface for Sg_File_Info data stores ending location of contruct (typically the closing brace).
VirtualCFG::CFGNode	cfgForBeginning ()
	Returns the CFG node for just before this AST node.
VirtualCFG::CFGNode	cfgForEnd ()
	Returns the CFG node for just after this AST node.
virtual unsigned int	cfgIndexForEnd () const
	Determine the CFG index for the end of this construct.
virtual bool	cfgIsIndexInteresting (unsigned int index) const
	Determine whether a particular CFG node index is "interesting" for this kind of node.
virtual unsigned int	cfgFindChildIndex (SgNode *n)
	Find the index of n in this node's CFG children.
virtual unsigned int	cfgFindNextChildIndex (SgNode *n)
	Find the index just after n in this node's CFG children.
virtual std::vector< VirtualCFG::CFGEdge >	cfgOutEdges (unsigned int index=false)
	Find the out edges of a CFG node – internal version.
virtual std::vector< VirtualCFG::CFGEdge >	cfgInEdges (unsigned int index=false)
	Find the in edges of a CFG node – internal version.
int	numberOfNodesInSubtree ()
	Computes the number of nodes in the defined subtree of the AST.
int	depthOfSubtree ()
	Computes the depth of the current defined subtree of the AST.
template<class T >
T *	initParentPointer (T *child, SgNode *parent)
	Generated for tree edge data member initializations.
SgNode *	get_freepointer () const
void	set_freepointer (SgNode *freepointer)
virtual	~SgNode ()
	This is the destructor.
	SgNode ()
	This is the constructor.
virtual SgNode *	copy (SgCopyHelp &help) const
virtual std::string	class_name () const
	returns a string representing the class name
virtual VariantT	variantT () const
	returns new style SageIII enum values
void *	operator new (size_t size)
	returns pointer to newly allocated IR node
void	operator delete (void *pointer, size_t size)
	deallocated memory for IR node (returns memory to memory pool for reuse)
void	operator delete (void *pointer)
virtual std::vector< SgNode * >	get_traversalSuccessorContainer ()
	container of pointers to AST successor nodes used in the traversal overridden in every class by generated implementation
virtual std::vector< std::string >	get_traversalSuccessorNamesContainer ()
	container of names of variables or container indices used used in the traversal to access AST successor nodes overridden in every class by generated implementation
virtual size_t	get_numberOfTraversalSuccessors ()
	return number of children in the traversal successor list
virtual SgNode *	get_traversalSuccessorByIndex (size_t idx)
	index-based access to traversal successors by index number
virtual size_t	get_childIndex (SgNode *child)
	index-based access to traversal successors by child node
virtual RTIReturnType	roseRTI ()
	return C++ Runtime-Time-Information
virtual const char *	sage_class_name () const
void	executeVisitorMemberFunction (ROSE_VisitorPattern &visitor)
	FOR INTERNAL USE Support for visitor pattern.
virtual void	accept (ROSE_VisitorPattern &visitor)
	support for the classic visitor pattern done in GoF
virtual bool	isInMemoryPool ()
	FOR INTERNAL USE This is used in internal tests to verify that all IR nodes are allocated from the heap.
virtual void	checkDataMemberPointersIfInMemoryPool ()
	FOR INTERNAL USE This is used in internal tests to verify that all IR nodes are allocated from the heap.
virtual std::vector< std::pair< SgNode *, std::string > >	returnDataMemberPointers () const
	FOR INTERNAL USE Returns STL vector of pairs of SgNode* and strings for use in AST tools
virtual void	processDataMemberReferenceToPointers (ReferenceToPointerHandler *)
	FOR INTERNAL USE Processes pairs of references to SgNode* and strings for use in AST tools
virtual long	getChildIndex (SgNode *childNode) const
	FOR INTERNAL USE Returns a unique index value for the childNode in the list of children at this IR node.
	SgNode (const SgNodeStorageClass &source)
	IR node constructor to support AST File I/O.
SgNode *	addRegExpAttribute (std::string s, AstRegExAttribute *a)
	Support for AST matching using regular expression.
void	set_isModified (bool isModified)
	All nodes in the AST contain a isModified flag used to track changes to the AST.
void	set_containsTransformation (bool containsTransformation)
	Many nodes can hide other AST nodes and we need to track when outer nodes contain modified nodes even if they are not themselves modified.
bool	get_isModified () const
	Acess function for isModified flag.
bool	get_containsTransformation () const
	Acess function for containsTransformation flag.
void	set_parent (SgNode *parent)
	All nodes in the AST contain a reference to a parent node.
SgNode *	get_parent () const
	Access function for parent node.
SgNode *	get_raw_parent () const
	Access function for direct access to uncomputed value of parent node.
bool	isChild (SgNode *node) const
	Query function for if the input IR nodes is a child of the current IR node.
virtual std::string	unparseToString (SgUnparse_Info *info) const
	This function unparses the AST node (excluding comments and unnecessary white space)
std::string	unparseToString () const
std::string	unparseToCompleteString ()
	This function unparses the AST node (including comments and white space)
int	variant () const
bool	get_isVisited () const
	DOCS IN HEADER: Access function for p_isVisited flag used previously by the AST traversals.
void	set_isVisited (bool isVisited)
	Access function for p_isVisited flag used previously by the AST traversals.
virtual void	addNewAttribute (std::string s, AstAttribute *a)
	Add a new attribute represented by the named string.
virtual AstAttribute *	getAttribute (std::string s) const
	Returns attribute of name 's'.
virtual void	updateAttribute (std::string s, AstAttribute *a)
	Replace existing attribute of name 's' with new AstAttribute.
virtual void	setAttribute (std::string s, AstAttribute *a)
	This is a wrapper function with the following semantics: if no attribute of name 's' exists then addNewAttribute(s,a); is called, otherwise updateAttribute(s,a); is called.
virtual void	removeAttribute (std::string s)
	Remove attribute of name 's' if present.
virtual bool	attributeExists (std::string s) const
	Tests if attribute of name 's' is present.
virtual int	numberOfAttributes () const
	Returns the number of attributes on this IR node.
virtual AstAttributeMechanism *	get_attributeMechanism () const
	FOR INTERNAL USE Access function; if an attribute exists then a pointer to it is returned, else error.
virtual void	set_attributeMechanism (AstAttributeMechanism *a)
	FOR INTERNAL USE Access function; sets poiner to value AstAttributeMechanism.
virtual void	fixupCopy_scopes (SgNode *copy, SgCopyHelp &help) const
virtual void	fixupCopy_symbols (SgNode *copy, SgCopyHelp &help) const
virtual void	fixupCopy_references (SgNode *copy, SgCopyHelp &help) const
virtual Sg_File_Info *	get_file_info (void) const
	File information containing filename, line number, column number, and if the SgNode is a part of a new transformation, etc.
virtual Sg_File_Info *	get_startOfConstruct (void) const
	New function interface for Sg_File_Info data stores starting location of contruct (typically the opening brace or first letter of keyword).
virtual Sg_File_Info *	get_endOfConstruct (void) const
	New function interface for Sg_File_Info data stores ending location of contruct (typically the closing brace).
VirtualCFG::CFGNode	cfgForBeginning ()
	Returns the CFG node for just before this AST node.
VirtualCFG::CFGNode	cfgForEnd ()
	Returns the CFG node for just after this AST node.
virtual unsigned int	cfgIndexForEnd () const
	Determine the CFG index for the end of this construct.
virtual bool	cfgIsIndexInteresting (unsigned int index) const
	Determine whether a particular CFG node index is "interesting" for this kind of node.
virtual unsigned int	cfgFindChildIndex (SgNode *n)
	Find the index of n in this node's CFG children.
virtual unsigned int	cfgFindNextChildIndex (SgNode *n)
	Find the index just after n in this node's CFG children.
virtual std::vector< VirtualCFG::CFGEdge >	cfgOutEdges (unsigned int index=false)
	Find the out edges of a CFG node – internal version.
virtual std::vector< VirtualCFG::CFGEdge >	cfgInEdges (unsigned int index=false)
	Find the in edges of a CFG node – internal version.
int	numberOfNodesInSubtree ()
	Computes the number of nodes in the defined subtree of the AST.
int	depthOfSubtree ()
	Computes the depth of the current defined subtree of the AST.
template<class T >
T *	initParentPointer (T *child, SgNode *parent)
	Generated for tree edge data member initializations.
SgNode *	get_freepointer () const
void	set_freepointer (SgNode *freepointer)
virtual std::vector< SgNode * >	get_traversalSuccessorContainer ()
	container of pointers to AST successor nodes used in the traversal overridden in every class by generated implementation
virtual std::vector< std::string >	get_traversalSuccessorNamesContainer ()
	container of names of variables or container indices used used in the traversal to access AST successor nodes overridden in every class by generated implementation
virtual RTIReturnType	roseRTI ()
	return C++ Runtime-Time-Information
void	set_parent (SgNode *parent)
	All nodes in the AST contain a reference to a parent node.
SgNode *	get_parent () const
	Access function for parent node.
std::string	unparseToCompleteString ()
	This function unparses the AST node (including comments and white space)
bool	get_isVisited () const
	DOCS IN HEADER: Access function for p_isVisited flag used previously by the AST traversals.
void	set_isVisited (bool isVisited)
	Access function for p_isVisited flag used previously by the AST traversals.
template<class T >
std::enable_if< std::is_pointer< T >::value, void >::type	changeChildPointer (T &edge, T const &child)
	Set a child edge in a tree to point to a specific child.
template<class T >
std::enable_if<!std::is_pointer< T >::value, void >::type	changeChildPointer (T &edge, T const &child)
	Set a child edge in a tree to point to a specific child.
template<class T >
std::enable_if< std::is_pointer< T >::value, void >::type	changeChildPointer (T &edge, T const &child)
	Set a child edge in a tree to point to a specific child.
template<class T >
std::enable_if<!std::is_pointer< T >::value, void >::type	changeChildPointer (T &edge, T const &child)
	Set a child edge in a tree to point to a specific child.

Protected Member Functions
void	initializeProperties ()
	Initialize all properties that have explicit initial values.
Protected Member Functions inherited from SgAsmExecutableFileFormat
	SgAsmExecutableFileFormat ()
	Default constructor.
void	initializeProperties ()
	Initialize all properties that have explicit initial values.
Protected Member Functions inherited from SgAsmNode
	SgAsmNode ()
	Default constructor.
void	initializeProperties ()
	Initialize all properties that have explicit initial values.
Protected Member Functions inherited from SgNode
virtual void	post_construction_initialization ()
	Final initialization for constructors This function is called at the end of generated constructors to allow the specification writer to add special initialization functions or tests. Default is to do nothing. Otherwise it should be overridden in the spec file, in NewHeaderCode/NewOutlinedCode.
virtual void	destructorHelper ()
	This gets called by all Rosebud-generated destructors.
virtual void	post_construction_initialization ()
	Final initialization for constructors This function is called at the end of generated constructors to allow the specification writer to add special initialization functions or tests. Default is to do nothing. Otherwise it should be overridden in the spec file, in NewHeaderCode/NewOutlinedCode.
virtual void	destructorHelper ()
	This gets called by all Rosebud-generated destructors.
virtual void	debugSerializationBegin (const char *className)
	Called by generated serializers.
virtual void	debugSerializationEnd (const char *className)
	Called by generated serializers.
virtual void	debugSerializationBegin (const char *className)
	Called by generated serializers.
virtual void	debugSerializationEnd (const char *className)
	Called by generated serializers.

Additional Inherited Members
Public Types inherited from SgAsmExecutableFileFormat
enum	ExecFamily {   FAMILY_UNSPECIFIED ,   FAMILY_DOS ,   FAMILY_ELF ,   FAMILY_JVM ,   FAMILY_LE ,   FAMILY_LX ,   FAMILY_NE ,   FAMILY_PE }
	Architecture family. More...
enum	ExecABI {   ABI_UNSPECIFIED ,   ABI_OTHER ,   ABI_86OPEN ,   ABI_AIX ,   ABI_ARM ,   ABI_FREEBSD ,   ABI_HPUX ,   ABI_IRIX ,   ABI_HURD ,   ABI_JVM ,   ABI_LINUX ,   ABI_MODESTO ,   ABI_MONTEREY ,   ABI_MSDOS ,   ABI_NT ,   ABI_NETBSD ,   ABI_OS2 ,   ABI_SOLARIS ,   ABI_SYSV ,   ABI_TRU64 ,   ABI_WIN386 }
	Application binary interface. More...
enum	InsSetArchitecture {   ISA_UNSPECIFIED = 0x0000 ,   ISA_OTHER = 0xffff ,   ISA_FAMILY_MASK = 0xff00 ,   ISA_IA32_Family = 0x0100 ,   ISA_IA32_286 = 0x0101 ,   ISA_IA32_386 = 0x0102 ,   ISA_IA32_486 = 0x0103 ,   ISA_IA32_Pentium = 0x0104 ,   ISA_IA32_Cyrix6x86 = 0x0105 ,   ISA_IA32_AMDK5 = 0x0106 ,   ISA_IA32_PentiumPro = 0x0107 ,   ISA_IA32_PentiumII = 0x0108 ,   ISA_IA32_Athlon = 0x0109 ,   ISA_IA32_Pentium4 = 0x010a ,   ISA_IA32_PentiumM = 0x010b ,   ISA_X8664_Family = 0x0200 ,   ISA_X8664_Athlon64 = 0x0201 ,   ISA_X8664_Prescott = 0x0202 ,   ISA_X8664_IntelCore = 0x0203 ,   ISA_X8664_AMDPhenom = 0x0204 ,   ISA_SPARC_Family = 0x0300 ,   ISA_SPARC_V7 = 0x0301 ,   ISA_SPARC_V8 = 0x0302 ,   ISA_SPARC_V8E = 0x0303 ,   ISA_SPARC_V9 = 0x0304 ,   ISA_SPARC_V9JPS1 = 0x0305 ,   ISA_SPARC_V9UA = 0x0306 ,   ISA_SPARC_V9JPS2 = 0x0307 ,   ISA_M68K_Family = 0x0400 ,   ISA_M68K_68000 = 0x0401 ,   ISA_M68K_68EC000 = 0x0402 ,   ISA_M68K_68HC000 = 0x0403 ,   ISA_M68K_68008 = 0x0404 ,   ISA_M68K_68010 = 0x0405 ,   ISA_M68K_68012 = 0x0406 ,   ISA_M68K_68020 = 0x0407 ,   ISA_M68K_68EC020 = 0x0408 ,   ISA_M68K_68030 = 0x0409 ,   ISA_M68K_68EC030 = 0x040a ,   ISA_M68K_68040 = 0x040b ,   ISA_M68K_68EC040 = 0x040c ,   ISA_M68K_68LC040 = 0x040d ,   ISA_M68K_68060 = 0x040e ,   ISA_M68K_ColdFire = 0x040f ,   ISA_M68K_DragonBall = 0x0410 ,   ISA_M88K_Family = 0x0500 ,   ISA_M88K_88100 = 0x0501 ,   ISA_M88K_88110 = 0x0502 ,   ISA_M88K_88110MP = 0x0503 ,   ISA_M88K_88120 = 0x0504 ,   ISA_MIPS_Family = 0x0600 ,   ISA_MIPS_MarkI = 0x0601 ,   ISA_MIPS_MarkII = 0x0602 ,   ISA_MIPS_MarkIII = 0x0603 ,   ISA_MIPS_R2000 = 0x0604 ,   ISA_MIPS_R3000 = 0x0605 ,   ISA_MIPS_R4000 = 0x0606 ,   ISA_MIPS_R4200 = 0x0607 ,   ISA_MIPS_R4300 = 0x0608 ,   ISA_MIPS_R4600 = 0x0609 ,   ISA_MIPS_R4650 = 0x060a ,   ISA_MIPS_R4700 = 0x060b ,   ISA_MIPS_R5000 = 0x060c ,   ISA_MIPS_RM7000 = 0x060d ,   ISA_MIPS_R8000 = 0x060e ,   ISA_MIPS_R10000 = 0x060f ,   ISA_MIPS_R12000 = 0x0610 ,   ISA_MIPS_R14000 = 0x0611 ,   ISA_MIPS_R16000 = 0x0612 ,   ISA_MIPS_R16000A = 0x0613 ,   ISA_MIPS_16 = 0x0614 ,   ISA_MIPS_FPU = 0x0615 ,   ISA_MIPS_16FPU = 0x0616 ,   ISA_I860_Family = 0x0700 ,   ISA_I860_860XR = 0x0701 ,   ISA_I860_860XP = 0x0702 ,   ISA_IA64_Family = 0x0800 ,   ISA_IA64_Itanium = 0x0801 ,   ISA_IA64_Itanium2 = 0x0802 ,   ISA_ARM_Family = 0x0900 ,   ISA_ARM_ARM1 = 0x0901 ,   ISA_ARM_ARM2 = 0x0902 ,   ISA_ARM_ARM3 = 0x0903 ,   ISA_ARM_ARM6 = 0x0904 ,   ISA_ARM_ARM7 = 0x0905 ,   ISA_ARM_ARM7TDMI = 0x0906 ,   ISA_ARM_StrongARM = 0x0907 ,   ISA_ARM_ARM8 = 0x0908 ,   ISA_ARM_ARM9TDMI = 0x0909 ,   ISA_ARM_ARM9E = 0x090a ,   ISA_ARM_ARM10E = 0x090b ,   ISA_ARM_XScale = 0x090c ,   ISA_ARM_ARM11 = 0x090d ,   ISA_ARM_Cortex = 0x090e ,   ISA_ARM_A64 = 0x090f ,   ISA_JVM = 0x0a00 ,   ISA_OTHER_Family = 0xf000 ,   ISA_ATT_WE_32100 = 0xf001 ,   ISA_IBM_System_370 = 0xf002 ,   ISA_HPPA = 0xf003 ,   ISA_Fujitsu_VPP500 = 0xf004 ,   ISA_Sun_v8plus = 0xf005 ,   ISA_PowerPC = 0xf006 ,   ISA_PowerPC_64bit = 0xf007 ,   ISA_IBM_S390 = 0xf008 ,   ISA_NEC_V800_series = 0xf009 ,   ISA_Fujitsu_FR20 = 0xf00a ,   ISA_TRW_RH_32 = 0xf00b ,   ISA_Motorola_RCE = 0xf00c ,   ISA_Digital_Alpha_fake = 0xf00e ,   ISA_Hitachi_SH = 0xf00f ,   ISA_Siemens_Tricore = 0xf010 ,   ISA_Argonaut_RISC_Core = 0xf011 ,   ISA_Hitachi_H8_300 = 0xf012 ,   ISA_Hitachi_H8_300H = 0xf013 ,   ISA_Hitachi_H8S = 0xf014 ,   ISA_Hitachi_H8_500 = 0xf015 ,   ISA_Stanford_MIPS_X = 0xf016 ,   ISA_Motorola_M68HC12 = 0xf017 ,   ISA_Fujitsu_MMA_Multimedia_Accelerator =0xf018 ,   ISA_Siemens_PCP = 0xf019 ,   ISA_Sony_nCPU_embeeded_RISC = 0xf01a ,   ISA_Denso_NDR1_microprocessor =0xf01b ,   ISA_Motorola_Start_Core_processor =0xf01c ,   ISA_Toyota_ME16_processor = 0xf01d ,   ISA_STMicroelectronic_ST100_processor =0xf01e ,   ISA_Advanced_Logic_Corp_Tinyj_emb_family =0xf01f ,   ISA_AMD_x86_64_architecture = 0xf020 ,   ISA_Sony_DSP_Processor = 0xf021 ,   ISA_Siemens_FX66_microcontroller =0xf022 ,   ISA_STMicroelectronics_ST9_plus_8_16_microcontroller =0xf023 ,   ISA_STMicroelectronics_ST7_8bit_microcontroller =0xf024 ,   ISA_Motorola_MC68HC16_microcontroller =0xf025 ,   ISA_Motorola_MC68HC11_microcontroller =0xf026 ,   ISA_Motorola_MC68HC08_microcontroller =0xf027 ,   ISA_Motorola_MC68HC05_microcontroller =0xf028 ,   ISA_Silicon_Graphics_SVx = 0xf029 ,   ISA_STMicroelectronics_ST19_8bit_microcontroller =0xf02a ,   ISA_Digital_VAX = 0xf02b ,   ISA_Axis_Communications_32bit_embedded_processor =0xf02c ,   ISA_Infineon_Technologies_32bit_embedded_processor =0xf02d ,   ISA_Element_14_64bit_DSP_Processor =0xf02e ,   ISA_LSI_Logic_16bit_DSP_Processor =0xf02f ,   ISA_Donald_Knuths_educational_64bit_processor =0xf030 ,   ISA_Harvard_University_machine_independent_object_files =0xf031 ,   ISA_SiTera_Prism = 0xf032 ,   ISA_Atmel_AVR_8bit_microcontroller =0xf033 ,   ISA_Fujitsu_FR30 = 0xf034 ,   ISA_Mitsubishi_D10V = 0xf035 ,   ISA_Mitsubishi_D30V = 0xf036 ,   ISA_NEC_v850 = 0xf037 ,   ISA_Mitsubishi_M32R = 0xf038 ,   ISA_Matsushita_MN10300 = 0xf039 ,   ISA_Matsushita_MN10200 = 0xf03a ,   ISA_picoJava = 0xf03b ,   ISA_OpenRISC_32bit_embedded_processor =0xf03c ,   ISA_ARC_Cores_Tangent_A5 = 0xf03d ,   ISA_Tensilica_Xtensa_Architecture =0xf03e ,   ISA_Digital_Alpha = 0xf03f ,   ISA_Matsushita_AM33 = 0xf040 ,   ISA_EFI_ByteCode = 0xf041 }
	Instruction sets organized by families. More...
enum	ExecPurpose {   PURPOSE_UNSPECIFIED ,   PURPOSE_OTHER ,   PURPOSE_EXECUTABLE ,   PURPOSE_LIBRARY ,   PURPOSE_CORE_DUMP ,   PURPOSE_OS_SPECIFIC ,   PURPOSE_PROC_SPECIFIC }
	General purpose of a binary executable file. More...
typedef struct stat	fileDetails
	Information about the file in the filesystem.
Public Types inherited from SgNode
enum	{ static_variant = V_SgNode }
	static variant value More...
enum	{ static_variant = V_SgNode }
	static variant value More...
Static Public Member Functions inherited from SgAsmExecutableFileFormat
static SgAsmGenericFile *	parseBinaryFormat (const char *name)
	Factory method that parses a binary file.
static void	unparseBinaryFormat (const std::string &name, SgAsmGenericFile *)
	Dump debugging information into a named text file.
static void	unparseBinaryFormat (std::ostream &, SgAsmGenericFile *)
	Dump debugging information to specified stream.
static void	initDiagnostics ()
	Initialize diagnostic streams.
static std::string	isaFamilyToString (SgAsmExecutableFileFormat::InsSetArchitecture)
static std::string	isaToString (SgAsmExecutableFileFormat::InsSetArchitecture)
static std::string	toString (SgAsmExecutableFileFormat::InsSetArchitecture)
static std::string	toString (SgAsmExecutableFileFormat::ExecFamily)
static std::string	toString (SgAsmExecutableFileFormat::ExecABI)
static std::string	toString (SgAsmExecutableFileFormat::ExecPurpose)
static std::string	isa_family_to_string (SgAsmExecutableFileFormat::InsSetArchitecture)
static std::string	isa_to_string (SgAsmExecutableFileFormat::InsSetArchitecture)
static std::string	to_string (SgAsmExecutableFileFormat::InsSetArchitecture)
static std::string	to_string (SgAsmExecutableFileFormat::ExecFamily)
static std::string	to_string (SgAsmExecutableFileFormat::ExecABI)
static std::string	to_string (SgAsmExecutableFileFormat::ExecPurpose)
Static Public Member Functions inherited from SgNode
static void	deleteMemoryPool ()
static size_t	numberOfNodes ()
	Returns the total number of IR nodes of this type.
static size_t	memoryUsage ()
	Returns the size in bytes of the total memory allocated for all IR nodes of this type.
static void	traverseMemoryPoolNodes (ROSE_VisitTraversal &visit)
	FOR INTERNAL USE Support for visitor pattern over all IR nodes by type of IR node.
static void	traverseMemoryPoolVisitorPattern (ROSE_VisitorPattern &visitor)
	FOR INTERNAL USE Support for visitor pattern.
static void	visitRepresentativeNode (ROSE_VisitTraversal &visit)
	FOR INTERNAL USE Support for type-based traversal.
static SgNode *	getNodeByNodeId (VariantT variantT, size_t poolIdx, size_t itemIdx)
	Find a node by its variant type, pool index, and item index.
static SgNode *	getNodeByNodeIdInternal (size_t poolIdx, size_t itemIdx)
	FOR INTERNAL USE Find an SgNode from its memory pool and location therin.
static std::string	getNodeIdString (SgNode *sgnode)
	compute the NodeId for a particular SgNode*.
static std::string	getNodeIdStringInternal (SgNode *sgnode)
static std::vector< std::string >	buildCommandLineToSubstituteTransformationFile (const std::vector< std::string > &argv, std::string newFileName)
	Command line support for this compilation The command line is saved as a static variable so that it will be available to support the rewrite mechanism.
static std::vector< VariantT >	getClassHierarchySubTreeFunction (VariantT v)
static void	getClassHierarchySubTreeFunction (VariantT v, std::vector< VariantT > &)
static std::map< SgNode *, std::string > &	get_globalMangledNameMap ()
	Access function for performance optimizing global mangled name map.
static void	clearGlobalMangledNameMap ()
	Support to clear the performance optimizing global mangled name map.
static std::map< std::string, uint64_t > &	get_shortMangledNameCache ()
	Access function for lower level optimizing of global mangled name map.
static std::map< SgNode *, std::string > &	get_globalQualifiedNameMapForNames ()
	Access function for name qualification support (for names).
static void	set_globalQualifiedNameMapForNames (const std::map< SgNode *, std::string > &X)
	Access function for name qualification support (for names).
static std::map< SgNode *, std::string > &	get_globalQualifiedNameMapForTypes ()
	Access function for name qualification support (for type).
static void	set_globalQualifiedNameMapForTypes (const std::map< SgNode *, std::string > &X)
	Access function for name qualification support (for type).
static std::map< SgNode *, std::map< SgNode *, std::string > > &	get_globalQualifiedNameMapForMapsOfTypes ()
	Access function for name qualification support (for maps of types).
static void	set_globalQualifiedNameMapForMapsOfTypes (const std::map< SgNode *, std::map< SgNode *, std::string > > &X)
	Access function for name qualification support (for maps of types).
static std::map< SgNode *, std::string > &	get_globalQualifiedNameMapForTemplateHeaders ()
	Access function for name qualification support (for template headers in template declarations).
static void	set_globalQualifiedNameMapForTemplateHeaders (const std::map< SgNode *, std::string > &X)
	Access function for name qualification support (for template headers in template declarations).
static std::map< SgNode *, std::string > &	get_globalTypeNameMap ()
	Access function for name qualification support (for names of types).
static void	set_globalTypeNameMap (const std::map< SgNode *, std::string > &X)
	Access function for name qualification support (for names of types).
static SgFunctionTypeTable *	get_globalFunctionTypeTable ()
	Access function for symbol table specific to function types.
static void	set_globalFunctionTypeTable (SgFunctionTypeTable *globalFunctionTypeTable)
	Access function for symbol table specific to function types.
static SgTypeTable *	get_globalTypeTable ()
	Access function for symbol table specific to non-function types.
static void	set_globalTypeTable (SgTypeTable *globalTypeTable)
	Access function for symbol table specific to non-function types.
static VariantT	variantFromPool (SgNode const *n)
template<class T >
static std::enable_if< std::is_base_of< SgNode, T >::value, T * >::type	createAndParent (SgNode *parent)
	Allocate and return a new node after setting its parent.
static void	deleteMemoryPool ()
static size_t	numberOfNodes ()
	Returns the total number of IR nodes of this type.
static size_t	memoryUsage ()
	Returns the size in bytes of the total memory allocated for all IR nodes of this type.
static void	traverseMemoryPoolNodes (ROSE_VisitTraversal &visit)
	FOR INTERNAL USE Support for visitor pattern over all IR nodes by type of IR node.
static void	traverseMemoryPoolVisitorPattern (ROSE_VisitorPattern &visitor)
	FOR INTERNAL USE Support for visitor pattern.
static void	visitRepresentativeNode (ROSE_VisitTraversal &visit)
	FOR INTERNAL USE Support for type-based traversal.
static SgNode *	getNodeByNodeId (VariantT variantT, size_t poolIdx, size_t itemIdx)
	Find a node by its variant type, pool index, and item index.
static SgNode *	getNodeByNodeIdInternal (size_t poolIdx, size_t itemIdx)
	FOR INTERNAL USE Find an SgNode from its memory pool and location therin.
static std::string	getNodeIdString (SgNode *sgnode)
	compute the NodeId for a particular SgNode*.
static std::string	getNodeIdStringInternal (SgNode *sgnode)
static std::vector< std::string >	buildCommandLineToSubstituteTransformationFile (const std::vector< std::string > &argv, std::string newFileName)
	Command line support for this compilation The command line is saved as a static variable so that it will be available to support the rewrite mechanism.
static std::vector< VariantT >	getClassHierarchySubTreeFunction (VariantT v)
static void	getClassHierarchySubTreeFunction (VariantT v, std::vector< VariantT > &)
static std::map< SgNode *, std::string > &	get_globalMangledNameMap ()
	Access function for performance optimizing global mangled name map.
static void	clearGlobalMangledNameMap ()
	Support to clear the performance optimizing global mangled name map.
static std::map< std::string, uint64_t > &	get_shortMangledNameCache ()
	Access function for lower level optimizing of global mangled name map.
static std::map< SgNode *, std::string > &	get_globalQualifiedNameMapForNames ()
	Access function for name qualification support (for names).
static void	set_globalQualifiedNameMapForNames (const std::map< SgNode *, std::string > &X)
	Access function for name qualification support (for names).
static std::map< SgNode *, std::string > &	get_globalQualifiedNameMapForTypes ()
	Access function for name qualification support (for type).
static void	set_globalQualifiedNameMapForTypes (const std::map< SgNode *, std::string > &X)
	Access function for name qualification support (for type).
static std::map< SgNode *, std::map< SgNode *, std::string > > &	get_globalQualifiedNameMapForMapsOfTypes ()
	Access function for name qualification support (for maps of types).
static void	set_globalQualifiedNameMapForMapsOfTypes (const std::map< SgNode *, std::map< SgNode *, std::string > > &X)
	Access function for name qualification support (for maps of types).
static std::map< SgNode *, std::string > &	get_globalQualifiedNameMapForTemplateHeaders ()
	Access function for name qualification support (for template headers in template declarations).
static void	set_globalQualifiedNameMapForTemplateHeaders (const std::map< SgNode *, std::string > &X)
	Access function for name qualification support (for template headers in template declarations).
static std::map< SgNode *, std::string > &	get_globalTypeNameMap ()
	Access function for name qualification support (for names of types).
static void	set_globalTypeNameMap (const std::map< SgNode *, std::string > &X)
	Access function for name qualification support (for names of types).
static SgFunctionTypeTable *	get_globalFunctionTypeTable ()
	Access function for symbol table specific to function types.
static void	set_globalFunctionTypeTable (SgFunctionTypeTable *globalFunctionTypeTable)
	Access function for symbol table specific to function types.
static SgTypeTable *	get_globalTypeTable ()
	Access function for symbol table specific to non-function types.
static void	set_globalTypeTable (SgTypeTable *globalTypeTable)
	Access function for symbol table specific to non-function types.
static VariantT	variantFromPool (SgNode const *n)
template<class T >
static std::enable_if< std::is_base_of< SgNode, T >::value, T * >::type	createAndParent (SgNode *parent)
	Allocate and return a new node after setting its parent.
Static Public Attributes inherited from SgAsmExecutableFileFormat
static Sawyer::Message::Facility	mlog
	Diagnostic stream.
Protected Attributes inherited from SgNode
SgNode *	p_parent
	This is the pointer to the parent IR node in the AST.
bool	p_isModified
	Records if IR node has been modified (data members reset).
bool	p_containsTransformation
SgNode *	p_freepointer
	This is the pointer to the chain of previously freed objects.
Static Protected Attributes inherited from SgNode
static std::vector< std::tuple< unsigned char *, unsigned, VariantT > >	all_pools
static SgFunctionTypeTable *	p_globalFunctionTypeTable
	Pointer to symbol table specific to function types.
static SgTypeTable *	p_globalTypeTable
static std::map< SgNode *, std::string >	p_globalMangledNameMap
	Cache of mangled names to avoid regeneration of previously build mangled names or parts of mangled names. This is a performance optimization.
static std::map< std::string, uint64_t >	p_shortMangledNameCache
	STL map used as a cache to shorten generated mangled names. This is mostly a space optimization ofr mangled names of templates.
static std::map< SgNode *, std::string >	p_globalQualifiedNameMapForNames
static std::map< SgNode *, std::string >	p_globalQualifiedNameMapForTypes
static std::map< SgNode *, std::string >	p_globalQualifiedNameMapForTemplateHeaders
static std::map< SgNode *, std::string >	p_globalTypeNameMap
static std::map< SgNode *, std::map< SgNode *, std::string > >	p_globalQualifiedNameMapForMapsOfTypes

Member Function Documentation

get_dllName()

SgAsmGenericString *const & SgAsmPEImportDirectory::get_dllName

(

)

const

Property: Name of library from which to import.

See PE specification.

set_dllName()

void SgAsmPEImportDirectory::set_dllName

(

SgAsmGenericString *const &

)

Property: Name of library from which to import.

See PE specification.

get_dllNameRva() [1/2]

Rose::BinaryAnalysis::RelativeVirtualAddress const & SgAsmPEImportDirectory::get_dllNameRva

(

)

const

Property: Address of the import library name.

See PE specification.

get_dllNameRva() [2/2]

Rose::BinaryAnalysis::RelativeVirtualAddress & SgAsmPEImportDirectory::get_dllNameRva

(

)

Property: Address of the import library name.

See PE specification.

set_dllNameRva()

void SgAsmPEImportDirectory::set_dllNameRva

(

Rose::BinaryAnalysis::RelativeVirtualAddress const &

)

Property: Address of the import library name.

See PE specification.

get_dll_name_nalloc()

size_t const & SgAsmPEImportDirectory::get_dll_name_nalloc

(

)

const

Property: Bytes allocated in the file for the name.

See PE specification.

set_dll_name_nalloc()

void SgAsmPEImportDirectory::set_dll_name_nalloc

(

size_t const &

)

Property: Bytes allocated in the file for the name.

See PE specification.

get_time()

time_t const & SgAsmPEImportDirectory::get_time

(

)

const

Property: Time.

See PE specification.

set_time()

void SgAsmPEImportDirectory::set_time

(

time_t const &

)

Property: Time.

See PE specification.

get_forwarder_chain()

unsigned const & SgAsmPEImportDirectory::get_forwarder_chain

(

)

const

Property: Forwarder chain.

See PE specification.

set_forwarder_chain()

void SgAsmPEImportDirectory::set_forwarder_chain

(

unsigned const &

)

Property: Forwarder chain.

See PE specification.

get_ilt_rva() [1/2]

Rose::BinaryAnalysis::RelativeVirtualAddress const & SgAsmPEImportDirectory::get_ilt_rva

(

)

const

Property: Starting address of the ILT.

See PE specification.

get_ilt_rva() [2/2]

Rose::BinaryAnalysis::RelativeVirtualAddress & SgAsmPEImportDirectory::get_ilt_rva

(

)

Property: Starting address of the ILT.

See PE specification.

set_ilt_rva()

void SgAsmPEImportDirectory::set_ilt_rva

(

Rose::BinaryAnalysis::RelativeVirtualAddress const &

)

Property: Starting address of the ILT.

See PE specification.

get_ilt_nalloc()

size_t const & SgAsmPEImportDirectory::get_ilt_nalloc

(

)

const

Property: Bytes allocated in the file for the ILT.

See PE specification.

set_ilt_nalloc()

void SgAsmPEImportDirectory::set_ilt_nalloc

(

size_t const &

)

Property: Bytes allocated in the file for the ILT.

See PE specification.

get_iat_rva() [1/2]

Rose::BinaryAnalysis::RelativeVirtualAddress const & SgAsmPEImportDirectory::get_iat_rva

(

)

const

Property: IAT RVA.

See PE specification.

get_iat_rva() [2/2]

Rose::BinaryAnalysis::RelativeVirtualAddress & SgAsmPEImportDirectory::get_iat_rva

(

)

Property: IAT RVA.

See PE specification.

set_iat_rva()

void SgAsmPEImportDirectory::set_iat_rva

(

Rose::BinaryAnalysis::RelativeVirtualAddress const &

)

Property: IAT RVA.

See PE specification.

get_iat_nalloc()

size_t const & SgAsmPEImportDirectory::get_iat_nalloc

(

)

const

Property: Bytes allocated in the file for the IAT.

See PE specification.

set_iat_nalloc()

void SgAsmPEImportDirectory::set_iat_nalloc

(

size_t const &

)

Property: Bytes allocated in the file for the IAT.

See PE specification.

get_imports()

SgAsmPEImportItemList *const & SgAsmPEImportDirectory::get_imports

(

)

const

Property: List of imports.

See PE specification.

set_imports()

void SgAsmPEImportDirectory::set_imports

(

SgAsmPEImportItemList *const &

)

Property: List of imports.

See PE specification.

parse()

SgAsmPEImportDirectory * SgAsmPEImportDirectory::parse	(	rose_addr_t	va,
		bool	isLastEntry
	)

Parse an import directory.

The import directory is parsed from the specified virtual address via the PE header's loader map. Return value is this directory entry on success, or the null pointer if the entry is all zero (which marks the end of the directory list). The isLastEntry is true if the caller thinks this should be an all-zero entry.

reallocate()

size_t SgAsmPEImportDirectory::reallocate

(

Rose::BinaryAnalysis::RelativeVirtualAddress

starting_rva

)

Allocates space for this import directory's name, import lookup table, and import address table.

The items are allocated beginning at the specified relative virtual address. Items are reallocated if they are not allocated or if they are allocated in the same section to which start_rva points (the import section). They are not reallocated if they already exist in some other section. The return value is the number of bytes allocated in the import section. Upon return, this directory's address data members are initialized with possibly new values.

iatRequiredSize()

size_t SgAsmPEImportDirectory::iatRequiredSize

(

)

const

Number of bytes required for the table.

Returns the number of bytes required for the entire IAT or ILT (including the zero terminator) as it is currently defined in the Import Directory. The returned size does not include space required to store any Hint/Name pairs, which are outside the ILT/IAT but pointed to by the ILT/IAT.

findImportItem()

int SgAsmPEImportDirectory::findImportItem	(	const SgAsmPEImportItem *	item,
		int	hint = 0
	)		const

Find an import item in an import directory.

Returns the index of the specified import item in this directory, or -1 if the import item is not a child of this directory. The hint index is checked first.

hintNameTableExtent()

size_t SgAsmPEImportDirectory::hintNameTableExtent

(

Rose::BinaryAnalysis::AddressIntervalSet &

extent

)

const

Obtains the virtual address of the Hint/Name Table.

The Hint/Name Table is an implicit table–the PE file format specification talks about such a table, but it is not actually defined anywhere in the PE file. Instead, various Import Lookup Table and Import Address Table entries might point to individual Hint/Name pairs, which collectively form an implicit Hint/Name Table. There is no requirement that the Hint/Name pairs are contiguous in the address space, and indeed they often are not. Therefore, the only way to describe the location of the Hint/Name Table is by a list of addresses.

This function will scan this Import Directory's import items, observe which items make references to Hint/Name pairs that have known addresses, and add those areas of virtual memory to the specified extent map. This function returns the number of ILT entries that reference a Hint/Name pair.

initializeProperties()

void SgAsmPEImportDirectory::initializeProperties ( )

protected

Initialize all properties that have explicit initial values.

This function is mostly for use in user-defined constructors where the user desires to initialize all the properties but does not know the names of the data members that store the property values. This function initializes the properties that have explicit initializations within this class, but does not recursively initialize base classes.

---

The documentation for this class was generated from the following file:

• binaryInstruction.C