232 linhas
12 KiB
C
232 linhas
12 KiB
C
//{
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//(
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// The cmMem class implements a memory allocation manager interface.
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//
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//
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// Using cmMem allows memory leaks and some instances of memory corruption
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// to be be detected. It can also perform memory block alignment.
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//
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// The cmMm class acts as an interface for implementing functions designed to replace
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// malloc() and free(). cmMm does not actually allocate memory itself but rather
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// tracks and conditions block of memory provided by other sources. In this sense
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// it acts as a backend for a memory allocation manager.
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// cmMallocDebug.h gives an example of using cmMm to interface to malloc() and free().
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// cmLinkedHeap.h gives an example of using cmMm to link to an alternate heap manager.
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// See cmMdTest() and cmLHeapTest() for usage examples of cmMm.
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//
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// cmMm works as follows:
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//
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// 1. A client memory manager creates and configures a cmMm object via cmMmInitialize().
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// As part of the configuration the client gives callback functions which implement
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// actual memory allocation and release. In practice this means the callback probably
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// call malloc() or free().
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// 2. At some point later when the client needs to allocate a block of memory it calls
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// cmMmAllocate() with the size of the requested block. cmMm translates this request
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// into a call to the client provided memory allocation callback to get a block of raw
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// memory which is slightly larger than the request block.
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// 3. Given the raw memory block cmMm conditions it in the following ways and returns
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// it to the client.
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// * The base of the blocks data area is shifted such that it is has an arbitrary
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// address aligned according to the value set by the alignByteCnt parameter to cmMmInitialize().
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// Address aligment is sometimes required by routines which make use of the the SIMD
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// unit on some CPUs.
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// * 'Guard' bytes are prepended and appended to the blocks data area.
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// These bytes are set to the known fixed value (0xaa). At some point later cmMm can
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// then test for accidental writes just before or just after the legal data area by
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// checking the value of these guard bytes.
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// * The number of bytes allocated is written just prior to the leading guard bytes.
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// This allows the memory manager to track the
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// size of the memory and thereby makes reallocations() to smaller or equal data areas
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// very fast. This also allows the size of the data area to be known just by having a
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// pointer to the data area (see cmMmByteCount()). This basic information is not availabe
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// via malloc().
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// * A record is added to an internal database to track the allocation code location
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// (file name, file line, function name) and the allocation status (active or released).
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// * The client may request that a new block of memory be automatically filled with zeros.
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// If automatic zeroing is not requested then the block is filled with 0x55 to indicate that
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// it is not initialized. This can be useful when attempting to recognize uninitialized
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// memory during debugging.
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//
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// When a client requests that a block of memory is released cmMm does the following:
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//
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// 1. If deferred release is enabled (kDeferFreeFl) then the block is filled with 0x33
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// but the callback to freeFunc() is not actually made. This allows cmMm to track attempted
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// writes to freed memory areas. When deferred release is enabled the freeFunc() is not called
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// on any blocks until cmMmFinalize(). If the program continually allocates memory over the
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// life of the program this may mean that the program will eventually exhaust physical memory.
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// 2. If tracking is enabled (kTrackMmFl) then the block pointer is looked up in the internal database.
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// If the pointer is not found then a kMissingRecdRC is returned indicating an attempt to release
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// a non-allocated block.
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// 3. If tracking is enabled (kTrackMmFl) then the block is marked as released in the
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// internal tracking database. At the end of the program all blocks should be marked for release
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// otherwise they are considered leaks.
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//
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//
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// At any time during the life of the cmMm object the client can request a report of the
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// allocated blocks cmMmReport(). This report examines each allocated block for corrupt guard bytes,
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// double frees (attempts to release an allocated block that was already released), and
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// leaked blocks (active blocks).
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//
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//)
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#ifndef cmMem_h
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#define cmMem_h
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#ifdef __cplusplus
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extern "C" {
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#endif
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//(
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typedef cmHandle_t cmMmH_t; //< cmMm handle type.
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typedef cmRC_t cmMmRC_t; //< cmMm result code types.
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// cmMm result codes
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enum
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{
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kOkMmRC = cmOkRC,
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kObjAllocFailMmRC,
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kTrkAllocFailMmRC,
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kAllocFailMmRC,
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kFreeFailMmRC,
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kMissingRecdMmRC,
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kGuardCorruptMmRC,
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kWriteAfterFreeMmRC,
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kLeakDetectedMmRC,
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kDblFreeDetectedMmRC,
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kParamErrMmRC
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};
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// All cmMmH_t variables should be initialized with this value prior to calling cmMmInitialize().
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extern cmMmH_t cmMmNullHandle;
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// Function signature for data allocation routine client provided to cmMmInitialize().
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// Return NULL if byteCnt == 0.
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typedef void* (*cmAllocMmFunc_t)(void* funcArgPtr, unsigned byteCnt);
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// Function signature for data release routine client provided to cmMmInitialize().
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// Return true on success and false on failure. Return true if ptr==NULL.
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typedef bool (*cmFreeMmFunc_t)( void* funcArgPtr, void* ptr);
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// Flags for use with cmMmInitialize()
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enum
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{
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kTrackMmFl = 0x01, //< Track alloc's and free's for use by cmMmReport().
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kDeferFreeMmFl = 0x02, //< Defer memory release until cmMmFinalize() (ignored unless kTrackMmFl is set.) Allows checks for 'write after release'.
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kFillUninitMmFl = 0x04, //< Fill uninitialized (non-zeroed) memory with a 0x55 upon allocation
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kFillFreedMmFl = 0x08 //< Fill freed memory with 0x33. This allow checks for wite-after-free.
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};
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// Create a new cmMm object.
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// If *hp was not initalized by an earlier call to cmMmInitialize() then it should
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// be set to cmMmNullHandle prior to calling this function. If *hp is a valid handle
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// then it is automatically finalized by an internal call to cmMmFinalize() prior to
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// being re-iniitalized.
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cmMmRC_t cmMmInitialize(
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cmMmH_t* hp, //< Pointer to a client provided cmMmH_t handle to recieve the handle of the new object.
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cmAllocMmFunc_t allocFunc, //< The memory allocation function equivalent to malloc().
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cmFreeMmFunc_t freeFunc, //< The memory release function equivalent to free().
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void* funcArgPtr, //< An application supplied data value sent with call backs to allocFunc() and freeFunc().
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unsigned guardByteCnt, //< Count of guardBytes to precede and follow each allocated block.
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unsigned alignByteCnt, //< Address alignment to provide for each allocated block.
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unsigned flags, //< Configuration flags (See cmXXXMmFl).
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cmRpt_t* rptPtr //< Pointer to an error reporting object.
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);
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// Release a cmMm object created by an earlier call to cmMmInitialize(). Upon successful completion *hp is set to cmMmNullHandle.
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cmMmRC_t cmMmFinalize( cmMmH_t* hp );
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unsigned cmMmGuardByteCount( cmMmH_t h ); //< Return the count of guard bytes this cmMm object is applying.
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unsigned cmMmAlignByteCount( cmMmH_t h ); //< Return the byte alignment this cmMm object is applying.
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unsigned cmMmInitializeFlags( cmMmH_t h ); //< Return the configuration flags this cmMm object was initialized with.
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// Return true if 'h' is a valid handle for an existing cmMm object.
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bool cmMmIsValid( cmMmH_t h );
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// flags for use with cmMmAllocate()
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enum cmMmAllocFlags_t
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{
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kZeroMmFl = 0x01, //< Initialize new memory area to zero.
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kAlignMmFl = 0x02, //< Align the returned memory according to the alignByteCnt set in cmMmInitialize().
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kPreserveMmFl = 0x04 //< Preserve existing memory contents during reallocation (orgDataPtr!=NULL).
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};
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// Allocate a block of memory.
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// Calling this function results in a call to the function named in allocFunc() in cmMmInitialize().
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void* cmMmAllocate(
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cmMmH_t h, //< Handle for this cmMm object returned from an earlier successful call to cmMmInitialize().
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void* orgDataPtr, //< If this is a re-allocation then this pointer should point to the original allocation otherwise it should be NULL.
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unsigned newEleCnt, //< Count of elmements in this allocation.
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unsigned newEleByteCnt, //< Bytes per element in this allocation. The total memory request is newEleCnt*newEleByteCnt.
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enum cmMmAllocFlags_t flags, //< See cmMmAllocFlags_t.
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const char* fileName, //< Name of the C file from which the allocation request is being made.
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const char* funcName, //< Name of the C function from which the allocation request is being made.
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unsigned fileLine //< Line in the C file on which the allocation request is being made.
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);
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// Free memory pointed to by dataPtr.
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// If dataPtr==NULL then the functon does nothing and returns.
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// Calling this function results in a call to the function named in freeFunc() in cmMmInitialize().
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// This is the release mode memory free routine. See cmMmFreeDebug() for the debug mode memory release routine.
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// See \ref debug_mode for more about debug vs. release mode.
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cmMmRC_t cmMmFree( cmMmH_t h, void* dataPtr );
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// Debug mode version of cmMmFree(). See cmMmFree() for the release mode memory free routine.
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// See debug_mode for more about debug vs. release mode.
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// This routine is functionally identical to the cmMmFree() but takes the calling
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// location information for use in tracking the block of memory.
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cmMmRC_t cmMmFreeDebug( cmMmH_t h, void* dataPtr, const char* fileName, const char* funcName, unsigned fileLine );
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// This function is identical to cmMmFree() but takes the address of the pointer
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// to the block of memory to free. Upon successful completion *dataPtrPtr is
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// set to NULL. In general this should be the preferred version of the free routine
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// because it helps to eliminate problems of reusing deallocated memory blocks.
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// Note that although dataPtrPtr must point to a valid address *dataPtrPtr may be NULL.
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// This routine is generally only used in the release compile mode.
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// See cmMmFreePtrDebug() for the debug mode version. See \ref debug_mode for more
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// about compile vs. release mode.
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cmMmRC_t cmMmFreePtr( cmMmH_t h, void** dataPtrPtr );
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// Debug compile mode version of cmMmFreePtr().
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// This function is functionally identical to cmMmFreePtr() but accepts information
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// on the location of the call to aid in debuging.
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cmMmRC_t cmMmFreePtrDebug( cmMmH_t h, void* dataPtr, const char* fileName, const char* funcName, unsigned fileLine );
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// Return the size of a memory block returned from cmMmAllocate().
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unsigned cmMmByteCount( cmMmH_t h, const void* dataPtr );
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// Return the unique id associated with an address returned from cmMmAllocate().
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unsigned cmMmDebugId( cmMmH_t h, const void* dataPtr);
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// Flags for use with cmMmReport().
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enum
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{
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kSuppressSummaryMmFl = 0x01, //< Do not print a memory use summary report.
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kIgnoreNormalMmFl = 0x02, //< Do not print information for non-leaked,non-corrupt memory blocks.
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kIgnoreLeaksMmFl = 0x04 //< Do not print information for leaked blocks.
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};
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// Report on the memory tracking data.
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// Returns kMmOkRC if no errors were found otherwise returns the error of the
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// last anomoly reported.
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cmMmRC_t cmMmReport( cmMmH_t h, unsigned flags );
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// Analyze the memory assoc'd with a specific tracking record for corruption.
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// Returns: kOkMmRC,kGuardCorruptMmRC,kWriteAfterFreeMmRc, or kMissingRecdMmRC.
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// This function is only useful if kTrackMmFl was set in cmMmInitialize().
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// Write-after-free errors are only detectable if kDeferFreeMmFl was set in cmMmInitialize().
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cmMmRC_t cmMmIsGuardCorrupt( cmMmH_t h, unsigned id );
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// Check all tracking records by calling cmMmmIsGuardCorrupt() on each record.
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cmMmRC_t cmMmCheckAllGuards( cmMmH_t h );
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//)
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//}
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#ifdef __cplusplus
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}
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#endif
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#endif
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