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/* heap.h * * This include file contains the information pertaining to the Heap * Handler. A heap is a doubly linked list of variable size * blocks which are allocated using the first fit method. Garbage * collection is performed each time a block is returned to the heap by * coalescing neighbor blocks. Control information for both allocated * and unallocated blocks is contained in the heap space. A heap header * contains control information for the heap. * * COPYRIGHT (c) 1989-1999. * On-Line Applications Research Corporation (OAR). * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.OARcorp.com/rtems/license.html. * * $Id: heap.h,v 1.2 2001-09-27 11:59:32 chris Exp $ */ #ifndef __RTEMS_HEAP_h #define __RTEMS_HEAP_h #ifdef __cplusplus extern "C" { #endif /* * Status codes for heap_extend */ typedef enum { HEAP_EXTEND_SUCCESSFUL, HEAP_EXTEND_ERROR, HEAP_EXTEND_NOT_IMPLEMENTED } Heap_Extend_status; /* * Constants used in the size/used field of each heap block to * indicate when a block is free or in use. */ #define HEAP_BLOCK_USED 1 /* indicates block is in use */ #define HEAP_BLOCK_FREE 0 /* indicates block is free */ /* * The size/used field value for the dummy front and back flags. */ #define HEAP_DUMMY_FLAG (0 + HEAP_BLOCK_USED) /* * The following constants reflect various requirements of the * heap data structures which impact the management of a heap. * * NOTE: Because free block overhead is greater than used block * overhead AND a portion of the allocated space is from * the extra free block overhead, the absolute lower bound * of the minimum fragment size is equal to the size of * the free block overhead. */ #define HEAP_OVERHEAD \ (sizeof( unsigned32 ) * 2) /* size dummy first and last blocks */ #define HEAP_BLOCK_USED_OVERHEAD \ (sizeof( void * ) * 2) /* num bytes overhead in used block */ #define HEAP_MINIMUM_SIZE \ (HEAP_OVERHEAD + sizeof (Heap_Block)) /* min number of bytes the user may */ /* specify for the heap size */ /* * The following defines the data structure used to manage * individual blocks in a heap. When the block is allocated, the * next and previous fields are not used by the Heap Handler * and thus the address returned for the block starts at * the address of the next field. * * NOTE: The next and previous pointers are only valid when the * block is free. Caution must be exercised to insure that * allocated blocks are large enough to contain them and * that they are not accidentally overwritten when the * block is actually allocated. */ typedef struct Heap_Block_struct Heap_Block; struct Heap_Block_struct { unsigned32 back_flag; /* size and status of prev block */ unsigned32 front_flag; /* size and status of block */ Heap_Block *next; /* pointer to next block */ Heap_Block *previous; /* pointer to previous block */ }; /* * The following defines the control block used to manage each heap. * * NOTE: * * This structure is layed out such that it can be used a a dummy * first and last block on the free block chain. The extra padding * insures the dummy last block is the correct size. * * The first Heap_Block starts at first while the second starts at * final. This is effectively the same trick as is used in the Chain * Handler. */ typedef struct { Heap_Block *start; /* first valid block address in heap */ Heap_Block *final; /* last valid block address in heap */ Heap_Block *first; /* pointer to first block in heap */ Heap_Block *permanent_null; /* always NULL pointer */ Heap_Block *last; /* pointer to last block in heap */ unsigned32 page_size; /* allocation unit */ unsigned32 reserved; } Heap_Control; /* * _Heap_Initialize * * DESCRIPTION: * * This routine initializes the_heap record to manage the * contiguous heap of size bytes which starts at starting_address. * Blocks of memory are allocated from the heap in multiples of * page_size byte units. */ unsigned32 _Heap_Initialize( Heap_Control *the_heap, void *starting_address, unsigned32 size, unsigned32 page_size ); /* * _Heap_Extend * * DESCRIPTION: * * This routine grows the_heap memory area using the size bytes which * begin at starting_address. */ Heap_Extend_status _Heap_Extend( Heap_Control *the_heap, void *starting_address, unsigned32 size, unsigned32 *amount_extended ); /* * _Heap_Allocate * * DESCRIPTION: * * DESCRIPTION: * * This function attempts to allocate a block of size bytes from * the_heap. If insufficient memory is free in the_heap to allocate * a block of the requested size, then NULL is returned. */ void *_Heap_Allocate( Heap_Control *the_heap, unsigned32 size ); /* * _Heap_Size_of_user_area * * DESCRIPTION: * * This kernel routine sets size to the size of the given heap block. * It returns TRUE if the starting_address is in the heap, and FALSE * otherwise. */ boolean _Heap_Size_of_user_area( Heap_Control *the_heap, void *starting_address, unsigned32 *size ); /* * _Heap_Free * * DESCRIPTION: * * This routine returns the block of memory which begins * at starting_address to the_heap. Any coalescing which is * possible with the freeing of this routine is performed. */ boolean _Heap_Free( Heap_Control *the_heap, void *start_address ); /* * _Heap_Walk * * DESCRIPTION: * * This routine walks the heap to verify its integrity. */ void _Heap_Walk( Heap_Control *the_heap, int source, boolean do_dump ); #ifndef __RTEMS_APPLICATION__ #include <rtems/score/heap.inl> #endif #ifdef __cplusplus } #endif #endif /* end of include file */
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