/* heapagnt.h -- HeapAgent (tm) public C/C++ header file * * Copyright (C) 1997-2012 Compuware Corporation. * All Rights Reserved. * * No part of this source code may be copied, modified or reproduced * in any form without retaining the above copyright notice. * This source code, or source code derived from it, may not be redistributed * without express written permission of the copyright owner. * */ #if !defined(_HEAPAGNT_H) #define _HEAPAGNT_H #if !defined(_SMARTHEAP_H) #include "smrtheap.h" #endif /* _SMARTHEAP_H */ #ifdef __cplusplus extern "C" { #endif #define HA_MAJOR_VERSION SHI_MAJOR_VERSION #define HA_MINOR_VERSION SHI_MINOR_VERSION #define HA_UPDATE_LEVEL SHI_UPDATE_LEVEL /*** Types ***/ /* Saftey Levels: parameter to dbgMemSetSafetyLevel */ typedef enum { MEM_SAFETY_SOME=2, /* fast: minimal debug performance degredation */ MEM_SAFETY_FULL, /* slower: recommended during development */ MEM_SAFETY_DEBUG, /* entire memory pool is checked each entrypoint */ MEM_SAFETY_LEVEL_INT_MAX = INT_MAX /* to ensure enum is full int in size */ } MEM_SAFETY_LEVEL; /* Pointer types: parameter to dbgMemCheckPtr */ typedef enum { MEM_POINTER_HEAP, MEM_POINTER_STACK, MEM_POINTER_STATIC, MEM_POINTER_CODE, MEM_POINTER_READONLY, MEM_POINTER_READWRITE } MEM_POINTER_TYPE; /* Debug Pool Info: parameter to dbgMemPoolInfo */ typedef struct { MEM_POOL pool; const char MEM_FAR *name; MEM_API createAPI; const char MEM_FAR *createFile; int createLine; unsigned long createPass; unsigned long createAllocCount; unsigned createCheckpoint; int isDeferFreeing; unsigned long deferQueueLength; unsigned checkFrequency; MEM_ERROR_INFO lastOkInfo; MEM_THREAD_ID threadID; unsigned long pid; void *callStack[MEM_MAXCALLSTACK]; } DBGMEM_POOL_INFO; /* Debug Ptr Info: parameter to dbgMemPtrInfo */ typedef struct { void MEM_FAR *ptr; MEM_POOL pool; MEM_SIZET argSize; MEM_BLOCK_TYPE blockType; MEM_BOOL isInUse; MEM_API createAPI; const char MEM_FAR *createFile; int createLine; unsigned long createPass; unsigned checkpoint; unsigned long allocCount; MEM_BOOL isDeferFreed; MEM_BOOL isFreeFillSuppressed; MEM_BOOL isReadOnly; MEM_BOOL isNoFree; MEM_BOOL isNoRealloc; MEM_THREAD_ID threadID; unsigned long pid; void MEM_FAR *callStack[MEM_MAXCALLSTACK]; } DBGMEM_PTR_INFO; /* Stack checking settting: parameter to dbgMemSetStackChecking */ typedef enum { DBGMEM_STACK_CHECK_NONE=1, DBGMEM_STACK_CHECK_ENTRY, DBGMEM_STACK_CHECK_RETURN, DBGMEM_STACK_CHECK_INT_MAX = INT_MAX /* to ensure enum is full int size */ } DBGMEM_STACK_CHECKING; /* Debug Settings Info: parameter to dbgMemSettingsInfo */ typedef struct { MEM_SAFETY_LEVEL safetyLevel; unsigned checkFrequency; unsigned long allocCount; unsigned checkpoint; MEM_BOOL isDeferFreeing; unsigned long deferQueueLength; MEM_SIZET deferSizeThreshold; MEM_BOOL isFreeFillSuppressed; MEM_BOOL isReallocAlwaysMoves; MEM_BOOL isWrongTaskRefReported; unsigned outputFlags; const char MEM_FAR *outputFile; unsigned guardSize; unsigned callstackChains; DBGMEM_STACK_CHECKING stackChecking; unsigned char guardFill; unsigned char freeFill; unsigned char inUseFill; } DBGMEM_SETTINGS_INFO; /* Trace function pointer: parameter to dbgMemSet[Entry/Exit]Handler */ typedef void (MEM_ENTRY2 * MEM_ENTRY3 MEM_TRACE_FN) (MEM_ERROR_INFO MEM_FAR *, MEM_SIZET); /* define and initialize these variables at file scope to change defaults */ extern const unsigned dbgMemGuardSize; extern const unsigned char dbgMemGuardFill; extern const unsigned char dbgMemFreeFill; extern const unsigned char dbgMemInUseFill; #define DBGMEM_PTR_NOPROTECTION 0x0000u #define DBGMEM_PTR_READONLY 0x0001u #define DBGMEM_PTR_NOFREE 0x0002u #define DBGMEM_PTR_NOREALLOC 0x0004u #define DBGMEM_OUTPUT_PROMPT 0x0001u #define DBGMEM_OUTPUT_CONSOLE 0x0002u #define DBGMEM_OUTPUT_BEEP 0x0004u #define DBGMEM_OUTPUT_FILE 0x0010u #define DBGMEM_OUTPUT_FILE_APPEND 0x0020u /*** Function Prototypes ***/ #ifdef MEM_DEBUG #if 0 /* defined(MEM_WIN16) || defined(MEM_WIN32) */ #define SHI_MAJOR_VERSION HA_MAJOR_VERSION #define SHI_MINOR_VERSION HA_MINOR_VERSION #define SHI_UPDATE_LEVEL HA_UPDATE_LEVEL #endif /* MEM_WIN16 || MEM_WIN32 */ /* malloc, new, et al call these entry-point in debug lib */ MEM_ENTRY1 void MEM_FAR * MEM_ENTRY _dbgMemAllocPtr1(MEM_POOL, MEM_SIZET, unsigned, MEM_API, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemFreePtr1(void MEM_FAR *, MEM_API, const char MEM_FAR *, int); MEM_ENTRY1 void MEM_FAR * MEM_ENTRY _dbgMemReAllocPtr1(void MEM_FAR *, MEM_SIZET, unsigned, MEM_API, const char MEM_FAR *, int); MEM_ENTRY1 MEM_SIZET MEM_ENTRY _dbgMemSizePtr1(void MEM_FAR *, MEM_API, const char MEM_FAR *, int); void MEM_FAR * MEM_ENTRY _dbgMEM_alloc(size_t, unsigned, MEM_API, const char MEM_FAR *, int); void MEM_FAR * MEM_ENTRY _dbgMEM_realloc(void MEM_FAR *, size_t, const char MEM_FAR *, int); void MEM_ENTRY _dbgMEM_free(void MEM_FAR *, const char MEM_FAR *, int); MEM_ENTRY1 void MEM_ENTRY _shi_deleteLoc(const char MEM_FAR *file, int line); /* functions to control error detection */ MEM_ENTRY1 MEM_SAFETY_LEVEL MEM_ENTRY dbgMemSetSafetyLevel(MEM_SAFETY_LEVEL); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemSetGuardSize(unsigned); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemSetGuardFill(MEM_UCHAR); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemSetFreeFill(MEM_UCHAR); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemSetInUseFill(MEM_UCHAR); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemSetCallstackChains(unsigned); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemSetStackChecking(DBGMEM_STACK_CHECKING); MEM_ENTRY1 unsigned MEM_ENTRY dbgMemSetCheckpoint(unsigned); MEM_ENTRY1 unsigned MEM_ENTRY _dbgMemPoolSetCheckFrequency(MEM_POOL, unsigned, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemPoolDeferFreeing(MEM_POOL, int, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemPoolFreeDeferred(MEM_POOL, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemProtectPtr(void MEM_FAR *, unsigned, const char MEM_FAR *, int); /* functions to control error reporting */ MEM_ENTRY1 unsigned MEM_ENTRY dbgMemFormatErrorInfo(MEM_ERROR_INFO MEM_FAR *, char MEM_FAR *, unsigned); MEM_ENTRY1 unsigned MEM_ENTRY dbgMemFormatCall(MEM_ERROR_INFO MEM_FAR *, char MEM_FAR *, unsigned); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemSetDefaultErrorOutput(unsigned flags, const char MEM_FAR *file); MEM_ENTRY1 MEM_TRACE_FN MEM_ENTRY dbgMemSetEntryHandler(MEM_TRACE_FN); MEM_ENTRY1 MEM_TRACE_FN MEM_ENTRY dbgMemSetExitHandler(MEM_TRACE_FN); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemReportLeakage(MEM_POOL,unsigned,unsigned, const char MEM_FAR *, unsigned); MEM_ENTRY1 MEM_SIZET MEM_ENTRY _dbgMemTotalCount(const char MEM_FAR *, int); MEM_ENTRY1 MEM_SIZET MEM_ENTRY _dbgMemTotalSize(const char MEM_FAR *, int); MEM_ENTRY1 void MEM_ENTRY _dbgMemBreakpoint(const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbg_MemPoolInfo(MEM_POOL, DBGMEM_POOL_INFO MEM_FAR *, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemPtrInfo(void MEM_FAR *, DBGMEM_PTR_INFO MEM_FAR *, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemSettingsInfo( DBGMEM_SETTINGS_INFO MEM_FAR *, const char MEM_FAR *, int); MEM_ENTRY1 unsigned MEM_ENTRY dbgMemSetCheckFrequency(unsigned); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemDeferFreeing(MEM_BOOL); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemFreeDeferred(const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemReallocMoves(MEM_BOOL); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemSuppressFreeFill(MEM_BOOL); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemReportWrongTaskRef(MEM_BOOL); MEM_ENTRY1 unsigned long MEM_ENTRY dbgMemSetDeferQueueLen(unsigned long); MEM_ENTRY1 MEM_SIZET MEM_ENTRY dbgMemSetDeferSizeThreshold(MEM_SIZET); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemPoolSetName(MEM_POOL, const char MEM_FAR *, const char MEM_FAR *, int); MEM_ENTRY1 unsigned long MEM_ENTRY _dbgMemPoolSetDeferQueueLen(MEM_POOL, unsigned long, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbgMemCheckAll(const char MEM_FAR *, int); MEM_POOL_STATUS MEM_ENTRY _dbgMemWalkHeap( MEM_POOL_ENTRY MEM_FAR *, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY _dbg_MemCheckPtr(void MEM_FAR *, MEM_POINTER_TYPE, MEM_SIZET, const char MEM_FAR *, int); MEM_ENTRY1 MEM_BOOL MEM_ENTRY dbgMemScheduleChecking(MEM_BOOL, int, unsigned); #endif /* Wrapper macros for passing file/line info */ #ifndef _SHI_dbgMacros #ifdef MEM_DEBUG #ifndef MALLOC_MACRO #define MEM_malloc(s_) _dbgMEM_alloc(s_, 0, MEM_MEM_MALLOC, __FILE__, __LINE__) #define MEM_calloc(s_, c_) _dbgMEM_alloc((s_)*(c_), 1 /*MEM_ZEROINIT*/, \ MEM_MEM_CALLOC, __FILE__, __LINE__) #define MEM_realloc(p_, s_) _dbgMEM_realloc(p_, s_, __FILE__, __LINE__) #define MEM_free(p_) _dbgMEM_free(p_, __FILE__, __LINE__) #endif #if !defined(NO_MALLOC_MACRO) #ifdef malloc #undef malloc #endif #ifdef calloc #undef calloc #endif #ifdef realloc #undef realloc #endif #ifdef free #undef free #endif #define malloc(s_) MEM_malloc(s_) #define calloc(s_, c_) MEM_calloc(s_, c_) #define realloc(p_, s_) MEM_realloc(p_, s_) #define free(p_) MEM_free(p_) #endif /* NO_MALLOC_MACRO */ #define dbgMemPoolSetCheckFrequency(p, b) \ _dbgMemPoolSetCheckFrequency(p, b, __FILE__, __LINE__) #define dbgMemPoolDeferFreeing(p, b) \ _dbgMemPoolDeferFreeing(p, b, __FILE__, __LINE__) #define dbgMemPoolFreeDeferred(p) _dbgMemPoolFreeDeferred(p,__FILE__,__LINE__) #define dbgMemProtectPtr(p, b) _dbgMemProtectPtr(p, b, __FILE__, __LINE__) #define dbgMemReportLeakage(p, c1, c2) \ _dbgMemReportLeakage(p, c1, c2, __FILE__, __LINE__) #define dbgMemTotalCount() _dbgMemTotalCount(__FILE__, __LINE__) #define dbgMemTotalSize() _dbgMemTotalSize(__FILE__, __LINE__) #define dbgMemPoolInfo(p, b) _dbg_MemPoolInfo(p, b, __FILE__, __LINE__) #define dbgMemPtrInfo(p, b) _dbgMemPtrInfo(p, b, __FILE__, __LINE__) #define dbgMemSettingsInfo(b) _dbgMemSettingsInfo(b, __FILE__, __LINE__) #define dbgMemPoolSetName(p, n) _dbgMemPoolSetName(p, n, __FILE__, __LINE__) #define dbgMemPoolSetDeferQueueLen(p, l) \ _dbgMemPoolSetDeferQueueLen(p, l, __FILE__, __LINE__) #define dbgMemFreeDeferred() _dbgMemFreeDeferred(__FILE__, __LINE__) #define dbgMemWalkHeap(b) _dbgMemWalkHeap(b, __FILE__, __LINE__) #define dbgMemCheckAll() _dbgMemCheckAll(__FILE__, __LINE__) #define dbgMemCheckPtr(p, t, s) _dbg_MemCheckPtr(p, t, s, __FILE__, __LINE__) #define dbgMemBreakpoint() _dbgMemBreakpoint(__FILE__, __LINE__) #endif /* MEM_DEBUG */ #endif /* _SHI_dbgMacros */ #ifdef __cplusplus } #ifndef __BORLANDC__ /* Borland C++ does not treat extern "C++" correctly */ extern "C++" { #endif /* __BORLANDC__ */ #if defined(_MSC_VER) && _MSC_VER >= 900 #pragma warning(disable : 4507) #endif #if defined(new) #if defined(MEM_DEBUG) #undef new #define DEFINE_NEW_MACRO 1 #endif #endif #ifdef DEBUG_NEW #undef DEBUG_NEW #endif #ifdef DEBUG_DELETE #undef DEBUG_DELETE #endif #ifdef MEM_DEBUG #define DBG_FORMAL , const char MEM_FAR *file, int line #define DBG_ACTUAL , file, line /* both debug and non-debug versions are both defined so that calls * to shi_New from inline versions of operator new in modules * that were not recompiled with MEM_DEBUG will resolve correctly */ void MEM_FAR * MEM_ENTRY_ANSI shi_New(MEM_SIZET DBG_FORMAL, unsigned=0, MEM_POOL=0); /* operator new variants: */ /* compiler-specific versions of new */ #if UINT_MAX == 0xFFFFu #if defined(__BORLANDC__) #if (defined(__LARGE__) || defined(__COMPACT__) || defined(__HUGE__)) inline void far *operator new(MEM_SIZET sz DBG_FORMAL) { return shi_New(sz DBG_ACTUAL); } #if __BORLANDC__ >= 0x450 inline void MEM_FAR *operator new[](MEM_SIZET sz DBG_FORMAL) { return shi_New(sz DBG_ACTUAL); } #endif /* __BORLANDC__ >= 0x450 */ #endif /* __LARGE__ */ #elif defined(_MSC_VER) #if (defined(M_I86LM) || defined(M_I86CM) || defined(M_I86HM)) inline void __huge * operator new(unsigned long count, size_t sz DBG_FORMAL) { return (void __huge *)shi_New(count * sz DBG_ACTUAL, MEM_HUGE); } #endif /* M_I86LM */ #endif /* _MSC_VER */ #endif /* compiler-specific versions of new */ // Smart Heap has not tested non MFC apps using MEM_DEBUG. // This declaration is required for non MFC apps. inline void *operator new(size_t sz DBG_FORMAL) { return shi_New(sz, file, line, 0); } /* version of new that passes memory allocation flags */ inline void MEM_FAR *operator new(size_t sz DBG_FORMAL, unsigned flags) { return shi_New(sz DBG_ACTUAL, flags); } /* version of new that allocates from a specified memory pool with alloc flags*/ inline void MEM_FAR *operator new(size_t sz DBG_FORMAL, MEM_POOL pool) { return shi_New(sz DBG_ACTUAL, 0, pool); } inline void MEM_FAR *operator new(size_t sz DBG_FORMAL, MEM_POOL pool, unsigned flags) { return shi_New(sz DBG_ACTUAL, flags, pool); } #ifdef SHI_ARRAY_NEW inline void MEM_FAR *operator new[](size_t sz DBG_FORMAL, MEM_POOL pool) { return shi_New(sz DBG_ACTUAL, 0, pool); } inline void MEM_FAR *operator new[](size_t sz DBG_FORMAL, MEM_POOL pool, unsigned flags) { return shi_New(sz DBG_ACTUAL, flags, pool); } #endif /* SHI_ARRAY_NEW */ /* version of new that changes the size of a memory block */ inline void MEM_FAR *operator new(size_t new_sz DBG_FORMAL, void MEM_FAR *lpMem, unsigned flags) { return _dbgMemReAllocPtr1(lpMem, new_sz, flags, MEM_NEW DBG_ACTUAL); } #ifdef SHI_ARRAY_NEW inline void MEM_FAR *operator new[](size_t new_sz DBG_FORMAL, void MEM_FAR *lpMem, unsigned flags) { return _dbgMemReAllocPtr1(lpMem, new_sz, flags, MEM_NEW DBG_ACTUAL); } #endif /* SHI_ARRAY_NEW */ /* To have HeapAgent track file/line of C++ allocations, * define new/delete as macros: * #define new DEBUG_NEW * #define delete DEBUG_DELETE * * In cases where you use explicit placement syntax, or in modules that define * operator new/delete, you must undefine the new/delete macros, e.g.: * #undef new * void *x = new(placementArg) char[30]; // cannot track file/line info * #define new DEBUG_NEW * void *y = new char[20]; // resume tracking file/line info */ #if (defined(_AFX) && defined(_DEBUG)) \ || (defined(_MSC_VER) && _MSC_VER >= 900) /* this must be defined out-of-line for _DEBUG MFC and MEM_DEBUG VC++/Win32 */ void MEM_FAR * MEM_ENTRY_ANSI operator new(size_t sz DBG_FORMAL); // Smart Heap patch required to use MEM_DEBUG, Feb 2014. void MEM_FAR * MEM_ENTRY_ANSI operator new[](size_t sz DBG_FORMAL); #else #ifndef OS_LINUX inline void MEM_FAR *operator new(size_t sz DBG_FORMAL) { return shi_New(sz DBG_ACTUAL); } #endif #ifdef SHI_ARRAY_NEW inline void MEM_FAR *operator new[](size_t sz DBG_FORMAL) { return shi_New(sz DBG_ACTUAL); } #endif /* SHI_ARRAY_NEW */ #endif /* _AFX && _DEBUG */ #if !(defined(__IBMCPP__) && defined(__DEBUG_ALLOC__)) /* debug new/delete built in for IBM Set C++ and Visual Age C++ */ #define DEBUG_NEW new(__FILE__, __LINE__) #define DEBUG_NEW1(x_) new(__FILE__, __LINE__, x_) #define DEBUG_NEW2(x_, y_) new(__FILE__, __LINE__, x_, y_) #define DEBUG_NEW3(x_, y_, z_) new(__FILE__, __LINE__, x_, y_, z_) #define DEBUG_DELETE _shi_deleteLoc(__FILE__, __LINE__), delete #ifdef DEFINE_NEW_MACRO #ifdef macintosh /* MPW C++ bug precludes new --> DEBUG_NEW --> new(...) */ #define new new(__FILE__, __LINE__) #define delete _shi_deleteLoc(__FILE__, __LINE__), delete #else #define new DEBUG_NEW #define delete DEBUG_DELETE #endif /* macintosh */ #endif /* DEFINE_NEW_MACRO */ #endif /* __IBMCPP__ */ #endif /* MEM_DEBUG */ #include "smrtheap.hpp" #ifndef __BORLANDC__ } #endif /* __BORLANDC__ */ #endif /* __cplusplus */ #endif /* !defined(_HEAPAGNT_H) */