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188 lines
5.8 KiB
188 lines
5.8 KiB
/*++
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Copyright (c) 1991 Microsoft Corporation
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Module Name:
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heap.c
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Abstract:
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Contains a heap allocator function.
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Author:
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Dan Lafferty (danl) 10-Jul-1991
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Environment:
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User Mode - Win32
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Revision History:
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10-Jul-1991 danl
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Ported from LM2.0
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--*/
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// static char *SCCSID = "@(#)heap.c 9.1 86/10/12";
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//
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// Simple heap allocator for small heaps in shared memory areas.
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//
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#include <windef.h> // USHORT definitions
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#include <heap.h> // Constants, macros, etc.
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#include <align.h> // ROUND_UP_COUNT
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LPBYTE heap = 0; // Pointer to start of heap
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DWORD heapln = 0; // Length of heap
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/*
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* Msgheapalloc - simple heap allocator
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*
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* This function allocates blocks out of a far heap.
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* It assumes that when it is called the static variable
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* heap points to the far heap and the static variable heapln
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* contains the length of the far heap.
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*
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* Msgheapalloc (cb)
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*
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* ENTRY
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* cb - number of bytes to allocate including header
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*
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* RETURN
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* index in far heap to start of block of length cb, or
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* INULL if no such block can be found or if cb < sizeof(HEAPHDR).
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*
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* This function maintains a heap in which all
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* blocks are implicitly linked. The header of a block is
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* three bytes long. It contains the size of the block including
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* the header and a one-byte flag which indicates whether the block
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* is allocated or not. Any non-zero value indicates that a block
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* is allocated. Note: Msgheapalloc() does NOT set the flag when it
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* returns a block. It is up to the caller to mark a block as
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* allocated. Unlike most heap allocators, Msgheapalloc() returns a
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* pointer (index) to the header rather than just past the header.
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* It does this because the message logging routines will need to
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* know the lengths of blocks they process. Also, in addition to
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* indicating that a block is allocated, the flag byte will be used
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* to indicate the type of the block (i.e. single block message,
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* multi-block message header, etc.). Since the logging routines
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* will use the size of a block, it must be exactly the size
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* requested.
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*
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* The algorithm used was chosen to minimize the size of the
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* heap managing routines and to conform to the requirements
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* of the logging routines.
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*
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* SIDE EFFECTS
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*
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* Changes the structure of the heap.
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*/
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DWORD
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Msgheapalloc(
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IN DWORD NumBytes // No. of bytes to allocate
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)
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{
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DWORD i; // Index to return
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DWORD newi; // New block index
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DWORD nexti; // Next block index
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DWORD numBytesNew; // New block size
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//
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// Must request at least siz bytes
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//
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if(NumBytes < sizeof(HEAPHDR)) {
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return(INULL);
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}
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//
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// *ALIGNMENT*
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// If necessary, increase the requested size to cause the allocated
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// block to fall on a 4-byte aligned boundary.
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//
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NumBytes = ROUND_UP_COUNT(NumBytes,4);
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//
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// This loop is used to traverse the heap by following the
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// chain of blocks until either the end of the heap is reached
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// or a free block of suitable size is found. Coalescing of
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// adjacent free blocks is performed herein also.
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//
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//
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// Loop to allocate block
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//
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for(i = 0; i < heapln; i += HP_SIZE(*HPTR(i))) {
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//
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// If free block found (hp_flag=0 indicates free),
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//
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if(HP_FLAG(*HPTR(i)) == 0) {
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//
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// A free block was found.
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// At this point, check to see if the current block can be
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// coalesced with the next block. We start with the offset of
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// the current block.
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nexti = i;
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//
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// Add to it the size of the next consecutive
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// free blocks until we reach the end of the heap, or an
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// allocated block is found.
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//
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while( (nexti < heapln) && (HP_FLAG(*HPTR(nexti))==0) ) {
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nexti += HP_SIZE(*HPTR(nexti));
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}
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//
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// Coalesce blocks all free blocks found thus far
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//
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HP_SIZE(*HPTR(i)) = nexti - i;
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//
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// At this point, attempt to allocate from the current
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// free block. The current free block must be exactly
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// the size we want or large enough to split, since we
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// must return a block whose size is EXACTLY the size
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// requested.
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//
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if(HP_SIZE(*HPTR(i)) == NumBytes) {
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//
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// Size is perfect
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//
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return(i);
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}
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if(HP_SIZE(*HPTR(i)) >= NumBytes + sizeof(HEAPHDR)) {
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//
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// If block is splittable, then get the index and size of
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// the block that is left over after taking out what is
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// needed from this allocate request.
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//
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newi = i + NumBytes;
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numBytesNew = HP_SIZE(*HPTR(i)) - NumBytes;
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//
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// Create a header for the left-over block by marking
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// it as free, and inserting the size.
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//
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HP_SIZE(*HPTR(newi)) = numBytesNew;
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HP_FLAG(*HPTR(newi)) = 0;
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//
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// Update the header for the allocated block and
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// return its index to the caller.
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// NOTE: The caller is responsible for marking this block
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// as allocated.
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//
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HP_SIZE(*HPTR(i)) = NumBytes;
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return(i);
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}
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}
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}
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return(INULL); // Heap full
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}
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