windows-nt/Source/XPSP1/NT/public/internal/sdktools/inc/ehdata.h

875 lines
29 KiB
C
Raw Normal View History

2020-09-26 03:20:57 -05:00
/***
*ehdata.h -
*
* Copyright (c) 1993-1995, Microsoft Corporation. All rights reserved.
*
*Purpose:
* Declare misc. types, macros, etc. for implementation
* of C++ Exception Handling for the run-time and the compiler.
* Hardware independent, assumes Windows NT.
*
* Portions of this header file can be disabled by defining the following
* macros:
* _EHDATA_NOHEADERS - suppresses inclusion of standard header files
* If this is specified, then appropriate typedefs or macros must
* be provided by some other means.
* _EHDATA_NOTHROW - suppresses definitions used only to describe a throw
* _EHDATA_NOFUNCINFO - suppresses definitions for the frame descriptor
* _EHDATA_NONT - suppresses definitions of our version of NT's stuff
*
* Other conditional compilation macros:
* CC_EXPLICITFRAME - if true, representation of registration node includes
* the value of the frame-pointer for that frame, making the location
* of the registration node on the frame flexible. This is intended
* primarily for early testing.
*
* [Internal]
*
*Revision History:
* 05-20-93 BS Module Created.
* 03-01-94 CFW Remove CONTEXT def for x86 for TiborL.
* 03-03-94 TL Mips (_M_MRX000 >= 4000) changes
* 09-02-94 SKS This header file added.
* 09-12-94 GJF Merged in changes from/for DEC (Al Doser, dated 6/20,
* and Bill Baxter, dated 6/28).
* 11-06-94 GJF Changed pack pragma to 8 byte alignment.
* 02-14-95 CFW Clean up Mac merge.
* 03-22-95 PML Add const for read-only structs
* 03-29-95 CFW Add error message to internal headers.
* 04-14-95 JWM Added EH_ABORT_FRAME_UNWIND_PART for EH/SEH exception handling.
* 04-20-95 TGL Added iFrameNestLevel field to MIPS FuncInfo
* 04-27-95 JWM EH_ABORT_FRAME_UNWIND_PART now #ifdef ALLOW_UNWIND_ABORT.
* 06-08-95 JWM Merged CRT version of ehdata.h into langapi source.
*
****/
#ifndef _INC_EHDATA
#define _INC_EHDATA
#if _M_IX86 >= 300 /*IFSTRIP=IGN*/
# ifndef CC_EXPLICITFRAME
# define CC_EXPLICITFRAME 0 // If non-zero, we're using a hack version of the
// registration node.
# endif
#endif
#ifndef _EHDATA_NOHEADERS
#include <stddef.h>
#include <excpt.h>
#if defined(_WIN32)
#include <windows.h>
#else
#include <nowin.h>
#endif
#endif /* _EHDATA_NOHEADERS */
#pragma pack(push, ehdata, 4)
#define EH_EXCEPTION_NUMBER ('msc' | 0xE0000000) // The NT Exception # that we use
#define EH_MAGIC_NUMBER1 0x19930520 // The magic # identifying this version
// As magic numbers increase, we have to keep track of
// the versions that we are backwards compatible with.
#define EH_EXCEPTION_PARAMETERS 3 // Number of parameters in exception record
#ifdef ALLOW_UNWIND_ABORT
#define EH_ABORT_FRAME_UNWIND_PART EH_EXCEPTION_NUMBER+1
#endif
//
// PMD - Pointer to Member Data: generalized pointer-to-member descriptor
//
typedef struct PMD
{
ptrdiff_t mdisp; // Offset of intended data within base
ptrdiff_t pdisp; // Displacement to virtual base pointer
ptrdiff_t vdisp; // Index within vbTable to offset of base
} PMD;
//
// PMFN - Pointer to Member Function
// M00REVIEW: we may need something more than this, but this will do for now.
//
typedef void (*PMFN)(void);
//
// TypeDescriptor - per-type record which uniquely identifies the type.
//
// Each type has a decorated name which uniquely identifies it, and a hash
// value which is computed by the compiler. The hash function used is not
// important; the only thing which is essential is that it be the same for
// all time.
//
// The special type '...' (ellipsis) is represented by a null name.
//
#pragma warning(disable:4200) // get rid of obnoxious nonstandard extension warning
typedef struct TypeDescriptor
{
#if _RTTI
const void * pVFTable; // Field overloaded by RTTI
#else
DWORD hash; // Hash value computed from type's decorated name
#endif
void * spare; // reserved, possible for RTTI
char name[]; // The decorated name of the type; 0 terminated.
} TypeDescriptor;
#pragma warning(default:4200)
#define TD_HASH(td) ((td).hash)
#define TD_NAME(td) ((td).name)
#define TD_IS_TYPE_ELLIPSIS(td) ((td == NULL) || (TD_NAME(*td)[0] == '\0'))
#ifndef _EHDATA_NOTHROW
/////////////////////////////////////////////////////////////////////////////
//
// Description of the thrown object. (M00REVIEW: not final)
//
// This information is broken down into three levels, to allow for maximum
// comdat folding (at the cost of some extra pointers).
//
// ThrowInfo is the head of the description, and contains information about
// the particular variant thrown.
// CatchableTypeArray is an array of pointers to type descriptors. It will
// be shared between objects thrown by reference but with varying
// qualifiers.
// CatchableType is the description of an individual type, and how to effect
// the conversion from a given type.
//
//---------------------------------------------------------------------------
//
// CatchableType - description of a type that can be caught.
//
// Note: although isSimpleType can be part of ThrowInfo, it is more
// convenient for the run-time to have it here.
//
typedef const struct _s_CatchableType {
unsigned int properties; // Catchable Type properties (Bit field)
TypeDescriptor *pType; // Pointer to the type descriptor for this type
PMD thisDisplacement; // Pointer to instance of catch type within
// thrown object.
int sizeOrOffset; // Size of simple-type object or offset into
// buffer of 'this' pointer for catch object
PMFN copyFunction; // Copy constructor or CC-closure
} CatchableType;
#define CT_IsSimpleType 0x00000001 // type is a simple type
#define CT_ByReferenceOnly 0x00000002 // type must be caught by reference
#define CT_HasVirtualBase 0x00000004 // type is a class with virtual bases
#define CT_PROPERTIES(ct) ((ct).properties)
#define CT_PTD(ct) ((ct).pType)
#define CT_THISDISP(ct) ((ct).thisDisplacement)
#define CT_SIZE(ct) ((ct).sizeOrOffset)
#define CT_COPYFUNC(ct) ((ct).copyFunction)
#define CT_OFFSET(ct) ((ct).sizeOrOffset)
#define CT_HASH(ct) (TD_HASH(*CT_PTD(ct)))
#define CT_NAME(ct) (TD_NAME(*CT_PTD(ct)))
#define SET_CT_ISSIMPLETYPE(ct) (CT_PROPERTIES(ct) |= CT_IsSimpleType)
#define SET_CT_BYREFONLY(ct) (CT_PROPERTIES(ct) |= CT_ByReferenceOnly)
#define SET_CT_HASVB(ct) (CT_PROPERTIES(ct) |= CT_HasVirtualBase)
#define CT_ISSIMPLETYPE(ct) (CT_PROPERTIES(ct) & CT_IsSimpleType) // Is it a simple type?
#define CT_BYREFONLY(ct) (CT_PROPERTIES(ct) & CT_ByReferenceOnly) // Must it be caught by reference?
#define CT_HASVB(ct) (CT_PROPERTIES(ct) & CT_HasVirtualBase) // Is this type a class with virtual bases?
//
// CatchableTypeArray - array of pointers to catchable types, with length
//
#pragma warning(disable:4200) // get rid of obnoxious nonstandard extension warning
typedef const struct _s_CatchableTypeArray {
int nCatchableTypes;
CatchableType *arrayOfCatchableTypes[];
} CatchableTypeArray;
#pragma warning(default:4200)
//
// ThrowInfo - information describing the thrown object, staticly built
// at the throw site.
//
// pExceptionObject (the dynamic part of the throw; see below) is always a
// reference, whether or not it is logically one. If 'isSimpleType' is true,
// it is a reference to the simple type, which is 'size' bytes long. If
// 'isReference' and 'isSimpleType' are both false, then it's a UDT or
// a pointer to any type (ie pExceptionObject points to a pointer). If it's
// a pointer, copyFunction is NULL, otherwise it is a pointer to a copy
// constructor or copy constructor closure.
//
// The pForwardCompat function pointer is intended to be filled in by future
// versions, so that if say a DLL built with a newer version (say C10) throws,
// and a C9 frame attempts a catch, the frame handler attempting the catch (C9)
// can let the version that knows all the latest stuff do the work.
//
typedef const struct _s_ThrowInfo {
unsigned int attributes; // Throw Info attributes (Bit field)
PMFN pmfnUnwind; // Destructor to call when exception
// has been handled or aborted.
int (__cdecl*pForwardCompat)(...); // Forward compatibility frame handler
CatchableTypeArray *pCatchableTypeArray; // Pointer to list of pointers to types.
} ThrowInfo;
#define TI_IsConst 0x00000001 // thrown object has const qualifier
#define TI_IsVolatile 0x00000002 // thrown object has volatile qualifier
#define TI_IsUnaligned 0x00000004 // thrown object has unaligned qualifier
#define THROW_ATTRS(t) ((t).attributes)
#define THROW_UNWINDFUNC(t) ((t).pmfnUnwind)
#define THROW_FORWARDCOMPAT(t) ((t).pForwardCompat)
#define THROW_COUNT(t) ((t).pCatchableTypeArray->nCatchableTypes)
#define THROW_CTLIST(t) ((t).pCatchableTypeArray->arrayOfCatchableTypes)
#define THROW_PCTLIST(t) (&THROW_CTLIST(t))
#define THROW_CT(t, n) (*THROW_CTLIST(t)[n])
#define THROW_PCT(t, n) (THROW_CTLIST(t)[n])
#define SET_TI_ISCONST(t) (THROW_ATTRS(t) |= TI_IsConst) // Is the object thrown 'const' qualified
#define SET_TI_ISVOLATILE(t) (THROW_ATTRS(t) |= TI_IsVolatile) // Is the object thrown 'volatile' qualified
#define SET_TI_ISUNALIGNED(t) (THROW_ATTRS(t) |= TI_IsUnaligned) // Is the object thrown 'unaligned' qualified
#define THROW_ISCONST(t) (THROW_ATTRS(t) & TI_IsConst)
#define THROW_ISVOLATILE(t) (THROW_ATTRS(t) & TI_IsVolatile)
#define THROW_ISUNALIGNED(t) (THROW_ATTRS(t) & TI_IsUnaligned)
//
// Here's how to throw:
// M00HACK: _ThrowInfo is the name of the type that is 'pre-injected' into the
// compiler; since this prototype is known to the FE along with the pre-injected
// types, it has to match exactly.
//
#if _MSC_VER >= 900 /*IFSTRIP=IGN*/
extern "C" void __stdcall _CxxThrowException(void* pExceptionObject, _ThrowInfo* pThrowInfo);
#else
// If we're not self-building, we need to use the name that we defined above.
extern "C" void __stdcall _CxxThrowException(void* pExceptionObject, ThrowInfo* pThrowInfo);
#endif
#endif /* _EHDATA_NOTHROW */
#ifndef _EHDATA_NOFUNCINFO
/////////////////////////////////////////////////////////////////////////////
//
// Describing 'try/catch' blocks:
//
//---------------------------------------------------------------------------
//
// Current state of a function.
// -1 is the 'blank' state, ie there is nothing to unwind, no try blocks active.
//
typedef int __ehstate_t; // The type of a state index
#define EH_EMPTY_STATE -1
//
// HandlerType - description of a single 'catch'
//
typedef const struct _s_HandlerType {
unsigned int adjectives; // Handler Type adjectives (bitfield)
TypeDescriptor *pType; // Pointer to the corresponding type descriptor
ptrdiff_t dispCatchObj; // Displacement of catch object from base
// of current stack frame.
#if _M_MRX000 >= 4000 /*IFSTRIP=IGN*/
ULONG frameNestLevel; // The static nesting level of parent function
#endif
void * addressOfHandler; // Address of 'catch' code
} HandlerType;
#define HT_IsConst 0x00000001 // type referenced is 'const' qualified
#define HT_IsVolatile 0x00000002 // type referenced is 'volatile' qualified
#define HT_IsUnaligned 0x00000004 // type referenced is 'unaligned' qualified
#define HT_IsReference 0x00000008 // catch type is by reference
#define HT_IsResumable 0x00000010 // the catch may choose to resume (Reserved)
#define HT_ADJECTIVES(ht) ((ht).adjectives)
#define HT_PTD(ht) ((ht).pType)
#define HT_DISPCATCH(ht) ((ht).dispCatchObj)
#if _M_MRX000 >= 4000 /*IFSTRIP=IGN*/
#define HT_FRAMENEST(ht) ((ht).frameNestLevel)
#endif
#define HT_HANDLER(ht) ((ht).addressOfHandler)
#define HT_NAME(ht) (TD_NAME(*HT_PTD(ht)))
#define HT_HASH(ht) (TD_HASH(*HT_PTD(ht)))
#define HT_IS_TYPE_ELLIPSIS(ht) TD_IS_TYPE_ELLIPSIS(HT_PTD(ht))
#define SET_HT_ISCONST(ht) (HT_ADJECTIVES(ht) |= HT_IsConst)
#define SET_HT_ISVOLATILE(ht) (HT_ADJECTIVES(ht) |= HT_IsVolatile)
#define SET_HT_ISUNALIGNED(ht) (HT_ADJECTIVES(ht) |= HT_IsUnaligned)
#define SET_HT_ISREFERENCE(ht) (HT_ADJECTIVES(ht) |= HT_IsReference)
#define SET_HT_ISRESUMABLE(ht) (HT_ADJECTIVES(ht) |= HT_IsResumable)
#define HT_ISCONST(ht) (HT_ADJECTIVES(ht) & HT_IsConst) // Is the type referenced 'const' qualified
#define HT_ISVOLATILE(ht) (HT_ADJECTIVES(ht) & HT_IsVolatile) // Is the type referenced 'volatile' qualified
#define HT_ISUNALIGNED(ht) (HT_ADJECTIVES(ht) & HT_IsUnaligned) // Is the type referenced 'unaligned' qualified
#define HT_ISREFERENCE(ht) (HT_ADJECTIVES(ht) & HT_IsReference) // Is the catch type by reference
#define HT_ISRESUMABLE(ht) (HT_ADJECTIVES(ht) & HT_IsResumable) // Might the catch choose to resume (Reserved)
//
// HandlerMapEntry - associates a handler list (sequence of catches) with a
// range of eh-states.
//
typedef const struct _s_TryBlockMapEntry {
__ehstate_t tryLow; // Lowest state index of try
__ehstate_t tryHigh; // Highest state index of try
#if !defined(_M_ALPHA) && !defined(_M_IA64)
__ehstate_t catchHigh; // Highest state index of any associated catch
#endif
int nCatches; // Number of entries in array
HandlerType *pHandlerArray; // List of handlers for this try
} TryBlockMapEntry;
#define TBME_LOW(hm) ((hm).tryLow)
#define TBME_HIGH(hm) ((hm).tryHigh)
#if !defined(_M_IA64)
#define TBME_CATCHHIGH(hm) ((hm).catchHigh)
#endif // !defined(_M_IA64)
#define TBME_NCATCHES(hm) ((hm).nCatches)
#define TBME_PLIST(hm) ((hm).pHandlerArray)
#define TBME_CATCH(hm, n) (TBME_PLIST(hm)[n])
#define TBME_PCATCH(hm, n) (&(TBME_PLIST(hm)[n]))
/////////////////////////////////////////////////////////////////////////////
//
// Description of the function:
//
//---------------------------------------------------------------------------
//
// UnwindMapEntry - Description of each state transition for unwinding
// the stack (ie destructing objects).
//
// The unwind map is an array, indexed by current state. Each entry specifies
// the state to go to during unwind, and the action required to get there.
// Note that states are represented by a signed integer, and that the 'blank'
// state is -1 so that the array remains 0-based (because by definition there
// is never any unwind action to be performed from state -1). It is also
// assumed that state indices will be dense, ie that there will be no gaps of
// unused state indices in a function.
//
typedef const struct _s_UnwindMapEntry {
__ehstate_t toState; // State this action takes us to
void (*action)(void); // Funclet to call to effect state change
} UnwindMapEntry;
#define UWE_TOSTATE(uwe) ((uwe).toState)
#define UWE_ACTION(uwe) ((uwe).action)
#if _M_MRX000 >= 4000 || defined(_M_MPPC) || defined(_M_PPC) /*IFSTRIP=IGN*/
typedef struct IptoStateMapEntry {
ULONG Ip;
__ehstate_t State;
} IptoStateMapEntry;
#endif
//
// FuncInfo - all the information that describes a function with exception
// handling information.
//
typedef const struct _s_FuncInfo
{
unsigned int magicNumber; // Identifies version of compiler
__ehstate_t maxState; // Highest state number plus one (thus
// number of entries in unwind map)
UnwindMapEntry *pUnwindMap; // Where the unwind map is
unsigned int nTryBlocks; // Number of 'try' blocks in this function
TryBlockMapEntry *pTryBlockMap; // Where the handler map is
#if defined(_M_ALPHA)
signed int EHContextDelta; // Frame offset of EHContext record
#endif
unsigned int nIPMapEntries; // # entries in the IP-to-state map. NYI (reserved)
#if _M_MRX000 >= 4000 /*IFSTRIP=IGN*/
IptoStateMapEntry *pIPtoStateMap; // An IP to state map..
ptrdiff_t dispUnwindHelp; // Displacement of unwind helpers from base
int iTryBlockIndex; // Used by catch functions only
int iFrameNestLevel; // The static nesting level of parent function
#elif defined(_M_MPPC) || defined(_M_PPC)
IptoStateMapEntry *pIPtoStateMap; // An IP to state map..
#else
void *pIPtoStateMap; // An IP to state map. NYI (reserved).
#endif
} FuncInfo;
#define FUNC_MAGICNUM(fi) ((fi).magicNumber)
#define FUNC_MAXSTATE(fi) ((fi).maxState)
#define FUNC_NTRYBLOCKS(fi) ((fi).nTryBlocks)
#define FUNC_NIPMAPENT(fi) ((fi).nIPMapEntries)
#define FUNC_PUNWINDMAP(fi) ((fi).pUnwindMap)
#define FUNC_PHANDLERMAP(fi) ((fi).pTryBlockMap)
#if defined(_M_ALPHA)
#define FUNC_EHCONTEXTDELTA(fi) ((fi).EHContextDelta)
#endif
#define FUNC_IPMAP(fi) ((fi).pIPtoStateMap)
#define FUNC_UNWIND(fi, st) ((fi).pUnwindMap[st])
#define FUNC_PUNWIND(fi, st) (&FUNC_UNWIND(fi, st))
#define FUNC_TRYBLOCK(fi,n) ((fi).pTryBlockMap[n])
#define FUNC_PTRYBLOCK(fi,n) (&FUNC_TRYBLOCK(fi, n))
#if _M_MRX000 >= 4000 /*IFSTRIP=IGN*/
#define FUNC_IPTOSTATE(fi,n) ((fi).pIPtoStateMap[n])
#define FUNC_PIPTOSTATE(fi,n) (&FUNC_IPTOSTATE(fi,n))
#define FUNC_DISPUNWINDHELP(fi) ((fi).dispUnwindHelp)
#define FUNC_TRYBLOCKINDEX(fi) ((fi).iTryBlockIndex)
#define FUNC_FRAMENEST(fi) ((fi).iFrameNestLevel)
#elif defined(_M_MPPC) || defined(_M_PPC)
#define FUNC_IPTOSTATE(fi,n) ((fi).pIPtoStateMap[n])
#define FUNC_PIPTOSTATE(fi,n) (&FUNC_IPTOSTATE(fi,n))
#elif defined(_M_IA64)
#define FUNC_UNWIND(fi, st) ((fi).pUnwindMap[st])
#define FUNC_PUNWIND(fi, st) (&FUNC_UNWIND(fi, st))
#define FUNC_TRYBLOCK(fi,n) ((fi).pTryBlockMap[n])
#define FUNC_PTRYBLOCK(fi,n) (&FUNC_TRYBLOCK(fi, n))
#else
#define FUNC_IPTOSTATE(fi,n) __ERROR_NYI__
#endif
#endif /* _EHDATA_NOFUNCINFO */
#ifndef _EHDATA_NONT
/////////////////////////////////////////////////////////////////////////////
//
// Data types that are variants of data used by NT (and Chicago) to manage
// exception handling.
//
//---------------------------------------------------------------------------
/////////////////////////////////////////////////////////////////////////////
//
// A stack registration node (i386 only)
//
#if _M_IX86 >= 300 /*IFSTRIP=IGN*/
struct EHRegistrationNode {
/* void * stackPtr */ // Stack ptr at entry to try (below address point)
EHRegistrationNode *pNext; // Next node in the chain
void * frameHandler; // The handler function for this frame
__ehstate_t state; // The current state of this function
#if CC_EXPLICITFRAME
void * frame; // Value of ebp for this frame
#endif
};
#if !CC_EXPLICITFRAME
// Cannonical offset
# define FRAME_OFFSET sizeof(EHRegistrationNode)
#endif
#define PRN_NEXT(prn) ((prn)->pNext)
#define PRN_HANDLER(prn) ((prn)->frameHandler)
#define PRN_STATE(prn) ((prn)->state)
#define PRN_STACK(prn) (((void**)(prn))[-1])
#if CC_EXPLICITFRAME
# define PRN_FRAME(prn) ((prn)->frame)
#else
# define PRN_FRAME(prn) ((void*)(((char*)prn) + FRAME_OFFSET))
#endif
typedef void DispatcherContext; // Meaningless on Intel
#elif _M_MRX000 >= 4000 /*IFSTRIP=IGN*/
//
// On MIPS we don't have a registration node, just a pointer to the stack frame base
//
typedef ULONG EHRegistrationNode;
#define PRN_NEXT(prn) __ERROR__
#define PRN_HANDLER(prn) __ERROR__
#define PRN_STATE(prn) __ERROR__
#define PRN_STACK(prn) __ERROR__
#define PRN_FRAME(prn) __ERROR__
#define FRAME_OFFSET 0
#if !defined(_NTSUBSET_)
typedef struct _RUNTIME_FUNCTION {
ULONG BeginAddress;
ULONG EndAddress;
EXCEPTION_DISPOSITION (*ExceptionHandler)();
PVOID HandlerData;
ULONG PrologEndAddress;
} RUNTIME_FUNCTION, *PRUNTIME_FUNCTION;
#endif
typedef struct _xDISPATCHER_CONTEXT {
ULONG ControlPc;
PRUNTIME_FUNCTION FunctionEntry;
ULONG EstablisherFrame;
PCONTEXT ContextRecord;
} DispatcherContext; // changed the case of the name to conform to EH conventions
#elif defined(_M_ALPHA)
//
// On Alpha we don't have a registration node,
// just a pointer to the stack frame base
//
typedef ULONG EHRegistrationNode;
#define PRN_NEXT(prn) __ERROR__
#define PRN_HANDLER(prn) __ERROR__
#define PRN_STATE(prn) __ERROR__
#define PRN_STACK(prn) __ERROR__
#define PRN_FRAME(prn) __ERROR__
#define FRAME_OFFSET 0
#if !defined(_NTSUBSET_)
typedef struct _RUNTIME_FUNCTION {
ULONG BeginAddress;
ULONG EndAddress;
EXCEPTION_DISPOSITION (*ExceptionHandler)();
PVOID HandlerData; // ptr to FuncInfo record
ULONG PrologEndAddress;
} RUNTIME_FUNCTION, *PRUNTIME_FUNCTION;
#endif
typedef struct _xDISPATCHER_CONTEXT {
ULONG ControlPc;
PRUNTIME_FUNCTION FunctionEntry;
ULONG EstablisherFrame; // Virtual Frame Pointer
PCONTEXT ContextRecord;
} DispatcherContext; // changed the case of the name to conform to EH conventions
//
// _EHCONTEXT is a struct built in the frame by the compiler.
// On entry to a function, compiler generated code stores the
// address of the base of the fixed frame area (the so-called
// Real Frame Pointer) into the Rfp. On every state transition,
// compiler generated code stores the current state index into
// the State field.
//
// The FuncInfo record for the function contains the offset of
// the _EHCONTEXT record from the Virtual Frame Pointer - a
// pointer to the highest address of the frame so this offset
// is negative (frames grow down in the address space).
//
typedef struct _EHCONTEXT {
ULONG State;
PVOID Rfp;
} EHContext;
#define VIRTUAL_FP(pDC) (pDC->EstablisherFrame)
#define REAL_FP(VirtualFP, pFuncInfo) \
(((EHContext *)((char *)VirtualFP \
+ pFuncInfo->EHContextDelta)) -> Rfp)
#define EH_STATE(VirtualFP, pFuncInfo) \
(((EHContext *)((char *)VirtualFP \
+ pFuncInfo->EHContextDelta)) -> State)
#elif defined(_M_M68K)
struct EHRegistrationNode {
/* void * _sp; // The stack pointer for the entry of try/catch */
void * frameHandler; // The handler function for this frame
__ehstate_t state; // The current state of this function
};
#define PRN_HANDLER(prn) ((prn)->frameHandler)
#define PRN_STATE(prn) ((prn)->state)
typedef void DispatcherContext; // Meaningless on Mac
#elif defined(_M_PPC) || defined(_M_MPPC)
//
// On PowerPC we don't have a registration node, just a pointer to the stack
// frame base
//
typedef ULONG EHRegistrationNode;
#define PRN_NEXT(prn) __ERROR__
#define PRN_HANDLER(prn) __ERROR__
#define PRN_STATE(prn) __ERROR__
#define PRN_STACK(prn) __ERROR__
#define PRN_FRAME(prn) __ERROR__
#define FRAME_OFFSET 0
#if !defined(_NTSUBSET_)
typedef struct _RUNTIME_FUNCTION {
ULONG BeginAddress;
ULONG EndAddress;
EXCEPTION_DISPOSITION (*ExceptionHandler)(...);
PVOID HandlerData;
ULONG PrologEndAddress;
} RUNTIME_FUNCTION, *PRUNTIME_FUNCTION;
#endif
typedef struct _xDISPATCHER_CONTEXT {
ULONG ControlPc;
PRUNTIME_FUNCTION FunctionEntry;
ULONG EstablisherFrame;
PCONTEXT ContextRecord;
} DispatcherContext;
// changed the case of the name to conform to EH conventions
#if defined(_M_MPPC)
typedef struct _ftinfo {
ULONG dwMagicNumber; // magic number
void *pFrameInfo; // pointer to runtime frame info
PRUNTIME_FUNCTION rgFuncTable; // function table
ULONG cFuncTable; // number of function entry
ULONG dwEntryCF; // address of starting of the code fragment
ULONG dwSizeCF; // size of the code fragment
} FTINFO, *PFTINFO;
#define offsFTINFO 64
#endif
#elif defined(_M_IA64)
#if !defined(_NTSUBSET_)
struct _CONTEXT;
struct _EXCEPTION_RECORD;
typedef __int64 ULONGLONG;
typedef
EXCEPTION_DISPOSITION
(*PEXCEPTION_ROUTINE) (
IN struct _EXCEPTION_RECORD *ExceptionRecord,
IN PVOID EstablisherFrame,
IN OUT struct _CONTEXT *ContextRecord,
IN OUT PVOID DispatcherContext
);
typedef struct _UNWIND_INFO {
USHORT Version; // Version Number
USHORT Flags; // Flags
ULONG DataLength; // Length of Descriptor Data
PVOID Descriptors; // Unwind Descriptors
} UNWIND_INFO, *PUNWIND_INFO;
typedef union _FRAME_POINTERS {
struct {
ULONG MemoryStackFp;
ULONG BackingStoreFp;
};
ULONGLONG FramePointers; // used to force 8-byte alignment
} FRAME_POINTERS, *PFRAME_POINTERS;
typedef struct _RUNTIME_FUNCTION {
ULONG BeginAddress;
ULONG EndAddress;
PEXCEPTION_ROUTINE ExceptionHandler;
PVOID HandlerData;
PUNWIND_INFO UnwindData;
} RUNTIME_FUNCTION, *PRUNTIME_FUNCTION;
#endif
//
// On IA64 we don't have a registration node, just a pointer to the stack
// frame base and backing store base.
//
typedef FRAME_POINTERS EHRegistrationNode;
#define PRN_NEXT(prn) __ERROR__
#define PRN_HANDLER(prn) __ERROR__
#define PRN_STATE(prn) __ERROR__
#define PRN_STACK(prn) __ERROR__
#define PRN_FRAME(prn) __ERROR__
typedef struct _xDISPATCHER_CONTEXT {
FRAME_POINTERS EstablisherFrame;
ULONG ControlPc;
struct _RUNTIME_FUNCTION *FunctionEntry;
PCONTEXT ContextRecord;
} DispatcherContext, *pDispatcherContext;
typedef struct _EHContext {
PVOID Psp;
LONG State;
} EHContext;
#define EH_STATE_OFFSET -12
#define EH_STATE(pRN) \
(*(int*)(pRN->MemoryStackFp + EH_STATE_OFFSET))
#else
#error "Machine not supported"
#endif
/////////////////////////////////////////////////////////////////////////////
//
// The NT Exception record that we use to pass information from the throw to
// the possible catches.
//
// The constants in the comments are the values we expect.
// This is based on the definition of EXCEPTION_RECORD in winnt.h.
//
typedef struct EHExceptionRecord {
DWORD ExceptionCode; // The code of this exception. (= EH_EXCEPTION_NUMBER)
DWORD ExceptionFlags; // Flags determined by NT
struct _EXCEPTION_RECORD *ExceptionRecord; // An extra exception record (not used)
void * ExceptionAddress; // Address at which exception occurred
DWORD NumberParameters; // Number of extended parameters. (= EH_EXCEPTION_PARAMETERS)
struct EHParameters {
DWORD magicNumber; // = EH_MAGIC_NUMBER1
void * pExceptionObject; // Pointer to the actual object thrown
ThrowInfo *pThrowInfo; // Description of thrown object
} params;
} EHExceptionRecord;
#define PER_CODE(per) ((per)->ExceptionCode)
#define PER_FLAGS(per) ((per)->ExceptionFlags)
#define PER_NEXT(per) ((per)->ExceptionRecord)
#define PER_ADDRESS(per) ((per)->ExceptionAddress)
#define PER_NPARAMS(per) ((per)->NumberParameters)
#define PER_MAGICNUM(per) ((per)->params.magicNumber)
#define PER_PEXCEPTOBJ(per) ((per)->params.pExceptionObject)
#define PER_PTHROW(per) ((per)->params.pThrowInfo)
#define PER_THROW(per) (*PER_PTHROW(per))
#define PER_ISSIMPLETYPE(t) (PER_THROW(t).isSimpleType)
#define PER_ISREFERENCE(t) (PER_THROW(t).isReference)
#define PER_ISCONST(t) (PER_THROW(t).isConst)
#define PER_ISVOLATILE(t) (PER_THROW(t).isVolatile)
#define PER_ISUNALIGNED(t) (PER_THROW(t).isUnaligned)
#define PER_UNWINDFUNC(t) (PER_THROW(t).pmfnUnwind)
#define PER_PCTLIST(t) (PER_THROW(t).pCatchable)
#define PER_CTLIST(t) (*PER_PCTLIST(t))
#define PER_IS_MSVC_EH(per) ((PER_CODE(per) == EH_EXCEPTION_NUMBER) && \
(PER_NPARAMS(per) == EH_EXCEPTION_PARAMETERS) && \
(PER_MAGICNUM(per) == EH_MAGIC_NUMBER1))
/////////////////////////////////////////////////////////////////////////////
//
// NT kernel routines and definitions required to implement exception handling:
//
// (from ntxcapi.h, which is not a public header file)
//
//---------------------------------------------------------------------------
#ifndef _NTXCAPI_
// begin_ntddk
//
// Exception flag definitions.
//
// begin_winnt
#define EXCEPTION_NONCONTINUABLE 0x1 // Noncontinuable exception
// end_winnt
// end_ntddk
#define EXCEPTION_UNWINDING 0x2 // Unwind is in progress
#define EXCEPTION_EXIT_UNWIND 0x4 // Exit unwind is in progress
#define EXCEPTION_STACK_INVALID 0x8 // Stack out of limits or unaligned
#define EXCEPTION_NESTED_CALL 0x10 // Nested exception handler call
#define EXCEPTION_TARGET_UNWIND 0x20 // Target unwind in progress
#define EXCEPTION_COLLIDED_UNWIND 0x40 // Collided exception handler call
#define EXCEPTION_UNWIND (EXCEPTION_UNWINDING | EXCEPTION_EXIT_UNWIND | \
EXCEPTION_TARGET_UNWIND | EXCEPTION_COLLIDED_UNWIND)
#define IS_UNWINDING(Flag) ((Flag & EXCEPTION_UNWIND) != 0)
#define IS_DISPATCHING(Flag) ((Flag & EXCEPTION_UNWIND) == 0)
#define IS_TARGET_UNWIND(Flag) (Flag & EXCEPTION_TARGET_UNWIND)
#define IS_EXIT_UNWIND(Flag) (Flag & EXCEPTION_EXIT_UNWIND)
#if !defined(_M_M68K)
#ifdef __cplusplus
extern "C" {
#endif
void WINAPI
RtlUnwind (
IN void * TargetFrame OPTIONAL,
IN void * TargetIp OPTIONAL,
IN PEXCEPTION_RECORD ExceptionRecord OPTIONAL,
IN void * ReturnValue
);
#if defined(_M_ALPHA)
#define STATUS_UNWIND 0xc0000027
void WINAPI
RtlUnwindRfp (
IN void * TargetRealFrame OPTIONAL,
IN void * TargetIp OPTIONAL,
IN PEXCEPTION_RECORD ExceptionRecord OPTIONAL,
IN void * ReturnValue
);
#endif
#if defined(_M_PPC)
ULONG WINAPI
RtlVirtualUnwind (
IN ULONG ControlPc,
IN PRUNTIME_FUNCTION FunctionEntry,
IN OUT PCONTEXT ContextRecord,
OUT PBOOLEAN InFunction,
OUT PULONG EstablisherFrame,
IN OUT PVOID ContextPointers OPTIONAL,
IN ULONG LowStackLimit,
IN ULONG HighStackLimit
);
PRUNTIME_FUNCTION
RtlLookupFunctionEntry (
IN ULONG ControlPc
);
#endif
#if defined(_M_MPPC)
ULONG WINAPI
RtlVirtualUnwind (
IN ULONG ControlPc,
IN PRUNTIME_FUNCTION FunctionEntry,
IN OUT PCONTEXT ContextRecord,
OUT PBOOLEAN InFunction,
OUT PULONG EstablisherFrame,
IN OUT PVOID ContextPointers OPTIONAL,
IN ULONG LowStackLimit,
IN ULONG HighStackLimit
);
PRUNTIME_FUNCTION
RtlLookupFunctionEntry (
IN PRUNTIME_FUNCTION RuntimeFunction,
IN ULONG ControlPc,
IN ULONG Rtoc
);
VOID
RtlRaiseException (
IN PEXCEPTION_RECORD ExceptionRecord
);
#endif
#ifdef __cplusplus
}
#endif
#endif
#endif /* _NTXCAPI_ */
#endif /* _EHDATA_NONT */
#pragma pack(pop, ehdata)
#endif /* _INC_EHDATA */