Source code of Windows XP (NT5)
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

188 lines
6.3 KiB

/***
*rtcapi.h - declarations and definitions for RTC use
*
* Copyright (c) 1985-2001, Microsoft Corporation. All rights reserved.
*
*Purpose:
* Contains the declarations and definitions for all RunTime Check
* support.
*
*Revision History:
* ??-??-?? KBF Created public header for RTC
* 05-11-99 KBF Wrap RTC support in #ifdef.
* 05-26-99 KBF Removed RTCl & RTCv, added _RTC_ADVMEM stuff
*
****/
#ifndef _INC_RTCAPI
#define _INC_RTCAPI
#ifdef _RTC
#ifdef __cplusplus
extern "C" {
#endif
// General User API
typedef enum _RTC_ErrorNumber {
_RTC_CHKSTK = 0,
_RTC_CVRT_LOSS_INFO,
_RTC_CORRUPT_STACK,
_RTC_UNINIT_LOCAL_USE,
#ifdef _RTC_ADVMEM
_RTC_INVALID_MEM,
_RTC_DIFF_MEM_BLOCK,
#endif
_RTC_ILLEGAL
} _RTC_ErrorNumber;
# define _RTC_ERRTYPE_IGNORE -1
# define _RTC_ERRTYPE_ASK -2
typedef int (__cdecl *_RTC_error_fn)(int, const char *, int, const char *, const char *, ...);
// User API
int __cdecl _RTC_NumErrors(void);
const char * __cdecl _RTC_GetErrDesc(_RTC_ErrorNumber errnum);
int __cdecl _RTC_SetErrorType(_RTC_ErrorNumber errnum, int ErrType);
_RTC_error_fn __cdecl _RTC_SetErrorFunc(_RTC_error_fn);
#ifdef _RTC_ADVMEM
void __cdecl _RTC_SetOutOfMemFunc(int (*func)(void));
#endif
// Power User/library API
#ifdef _RTC_ADVMEM
void __cdecl _RTC_Allocate(void *addr, unsigned size, short level);
void __cdecl _RTC_Free(void *mem, short level);
#endif
/* Init functions */
// These functions all call _CRT_RTC_INIT
void __cdecl _RTC_Initialize(void);
void __cdecl _RTC_Terminate(void);
// If you're not using the CRT, you have to implement _CRT_RTC_INIT
// Just return either null, or your error reporting function
// *** Don't mess with res0/res1/res2/res3/res4 - YOU'VE BEEN WARNED! ***
_RTC_error_fn _CRT_RTC_INIT(void *res0, void **res1, int res2, int res3, int res4);
// Compiler generated calls (unlikely to be used, even by power users...)
/* Types */
typedef struct _RTC_vardesc {
int addr;
int size;
char *name;
} _RTC_vardesc;
typedef struct _RTC_framedesc {
int varCount;
_RTC_vardesc *variables;
} _RTC_framedesc;
/* Shortening convert checks - name indicates src bytes to target bytes */
/* Signedness is NOT checked */
char __fastcall _RTC_Check_2_to_1(short src);
char __fastcall _RTC_Check_4_to_1(int src);
char __fastcall _RTC_Check_8_to_1(__int64 src);
short __fastcall _RTC_Check_4_to_2(int src);
short __fastcall _RTC_Check_8_to_2(__int64 src);
int __fastcall _RTC_Check_8_to_4(__int64 src);
#ifdef _RTC_ADVMEM
// A memptr is a user pointer
typedef signed int memptr;
// A memref refers to a user pointer (ptr to ptr)
typedef memptr *memref;
// memvals are the contents of a memptr
// thus, they have sizes
typedef char memval1;
typedef short memval2;
typedef int memval4;
typedef __int64 memval8;
#endif
/* Stack Checking Calls */
void __cdecl _RTC_CheckEsp();
void __fastcall _RTC_CheckStackVars(void *esp, _RTC_framedesc *fd);
#ifdef _RTC_ADVMEM
void __fastcall _RTC_MSAllocateFrame(memptr frame, _RTC_framedesc *v);
void __fastcall _RTC_MSFreeFrame(memptr frame, _RTC_framedesc *v);
#endif
/* Unintialized Local call */
void __cdecl _RTC_UninitUse(const char *varname);
#ifdef _RTC_ADVMEM
/* Memory checks */
void __fastcall _RTC_MSPtrAssignAdd(memref dst, memref base, int offset);
void __fastcall _RTC_MSAddrAssignAdd(memref dst, memptr base, int offset);
void __fastcall _RTC_MSPtrAssign(memref dst, memref src);
memptr __fastcall _RTC_MSPtrAssignR0(memref src);
memptr __fastcall _RTC_MSPtrAssignR0Add(memref src, int offset);
void __fastcall _RTC_MSR0AssignPtr(memref dst, memptr src);
void __fastcall _RTC_MSR0AssignPtrAdd(memref dst, memptr src, int offset);
memptr __fastcall _RTC_MSPtrPushAdd(memref dst, memref base, int offset);
memptr __fastcall _RTC_MSAddrPushAdd(memref dst, memptr base, int offset);
memptr __fastcall _RTC_MSPtrPush(memref dst, memref src);
memval1 __fastcall _RTC_MSPtrMemReadAdd1(memref base, int offset);
memval2 __fastcall _RTC_MSPtrMemReadAdd2(memref base, int offset);
memval4 __fastcall _RTC_MSPtrMemReadAdd4(memref base, int offset);
memval8 __fastcall _RTC_MSPtrMemReadAdd8(memref base, int offset);
memval1 __fastcall _RTC_MSMemReadAdd1(memptr base, int offset);
memval2 __fastcall _RTC_MSMemReadAdd2(memptr base, int offset);
memval4 __fastcall _RTC_MSMemReadAdd4(memptr base, int offset);
memval8 __fastcall _RTC_MSMemReadAdd8(memptr base, int offset);
memval1 __fastcall _RTC_MSPtrMemRead1(memref base);
memval2 __fastcall _RTC_MSPtrMemRead2(memref base);
memval4 __fastcall _RTC_MSPtrMemRead4(memref base);
memval8 __fastcall _RTC_MSPtrMemRead8(memref base);
memptr __fastcall _RTC_MSPtrMemCheckAdd1(memref base, int offset);
memptr __fastcall _RTC_MSPtrMemCheckAdd2(memref base, int offset);
memptr __fastcall _RTC_MSPtrMemCheckAdd4(memref base, int offset);
memptr __fastcall _RTC_MSPtrMemCheckAdd8(memref base, int offset);
memptr __fastcall _RTC_MSPtrMemCheckAddN(memref base, int offset, unsigned size);
memptr __fastcall _RTC_MSMemCheckAdd1(memptr base, int offset);
memptr __fastcall _RTC_MSMemCheckAdd2(memptr base, int offset);
memptr __fastcall _RTC_MSMemCheckAdd4(memptr base, int offset);
memptr __fastcall _RTC_MSMemCheckAdd8(memptr base, int offset);
memptr __fastcall _RTC_MSMemCheckAddN(memptr base, int offset, unsigned size);
memptr __fastcall _RTC_MSPtrMemCheck1(memref base);
memptr __fastcall _RTC_MSPtrMemCheck2(memref base);
memptr __fastcall _RTC_MSPtrMemCheck4(memref base);
memptr __fastcall _RTC_MSPtrMemCheck8(memref base);
memptr __fastcall _RTC_MSPtrMemCheckN(memref base, unsigned size);
#endif
/* Subsystem initialization stuff */
void __cdecl _RTC_Shutdown(void);
#ifdef _RTC_ADVMEM
void __cdecl _RTC_InitAdvMem(void);
#endif
void __cdecl _RTC_InitBase(void);
#ifdef __cplusplus
void* _ReturnAddress();
}
#endif
#endif
#endif // _INC_RTCAPI