#ifndef HEAP_H #define HEAP_H #define HEAP_BLOCK_HEADER_GUARD (0xDEADC0DE) #define HEAP_BLOCK_FOOTER_GUARD (0xACDCACDC) #define HEAP_BLOCK_HEADER_SIZE (sizeof(HeapBlockHeader)) #define HEAP_BLOCK_FOOTER_SIZE (sizeof(HeapBlockFooter)) #define HEAP_BLOCK_OVERHEAD_SIZE (HEAP_BLOCK_HEADER_SIZE + HEAP_BLOCK_FOOTER_SIZE) // The initial length of [handles] array within [Heap]. #define HEAP_HANDLES_INITIAL_LENGTH (64) // The initial length of [gHeapFreeBlocks] array. #define HEAP_FREE_BLOCKS_INITIAL_LENGTH (128) // The initial length of [gHeapMoveableExtents] array. #define HEAP_MOVEABLE_EXTENTS_INITIAL_LENGTH (64) // The initial length of [gHeapMoveableBlocks] array. #define HEAP_MOVEABLE_BLOCKS_INITIAL_LENGTH (64) // The initial length of [gHeapReservedFreeBlockIndexes] array. #define HEAP_RESERVED_FREE_BLOCK_INDEXES_INITIAL_LENGTH (64) // The minimum size of block for splitting. #define HEAP_BLOCK_MIN_SIZE (128 + HEAP_BLOCK_OVERHEAD_SIZE) #define HEAP_HANDLE_STATE_INVALID (-1) // The only allowed combination is LOCKED | SYSTEM. typedef enum HeapBlockState { HEAP_BLOCK_STATE_FREE = 0x00, HEAP_BLOCK_STATE_MOVABLE = 0x01, HEAP_BLOCK_STATE_LOCKED = 0x02, HEAP_BLOCK_STATE_SYSTEM = 0x04, } HeapBlockState; typedef struct HeapBlockHeader { int guard; int size; unsigned int state; int handle_index; } HeapBlockHeader; typedef struct HeapBlockFooter { int guard; } HeapBlockFooter; typedef struct HeapHandle { unsigned int state; unsigned char* data; } HeapHandle; typedef struct Heap { int size; int freeBlocks; int moveableBlocks; int lockedBlocks; int systemBlocks; int handlesLength; int freeSize; int moveableSize; int lockedSize; int systemSize; HeapHandle* handles; unsigned char* data; } Heap; typedef struct HeapMoveableExtent { // Pointer to the first block in the extent. unsigned char* data; // Total number of free or moveable blocks in the extent. int blocksLength; // Number of moveable blocks in the extent. int moveableBlocksLength; // Total data size of blocks in the extent. This value does not include // the size of blocks overhead. int size; } HeapMoveableExtent; extern unsigned char** gHeapFreeBlocks; extern int gHeapFreeBlocksLength; extern HeapMoveableExtent* gHeapMoveableExtents; extern int gHeapMoveableExtentsLength; extern unsigned char** gHeapMoveableBlocks; extern int gHeapMoveableBlocksLength; extern int* gHeapReservedFreeBlockIndexes; extern int gHeapReservedFreeBlockIndexesLength; extern int gHeapsCount; bool heapInternalsInit(); void heapInternalsFree(); bool heapInit(Heap* heap, int a2); bool heapFree(Heap* heap); bool heapHandleListInit(Heap* heap); bool heapBlockAllocate(Heap* heap, int* handleIndexPtr, int size, int a3); bool heapBlockDeallocate(Heap* heap, int* handleIndexPtr); bool heapLock(Heap* heap, int handleIndex, unsigned char** bufferPtr); bool heapUnlock(Heap* heap, int handleIndex); bool heapPrintStats(Heap* heap, char* dest); bool heapFindFreeHandle(Heap* heap, int* handleIndexPtr); bool heapFindFreeBlock(Heap* heap, int size, void** blockPtr, int a4); int heapBlockCompareBySize(const void* a1, const void* a2); int heapMoveableExtentsCompareBySize(const void* a1, const void* a2); bool heapBuildMoveableExtentsList(Heap* heap, int* moveableExtentsLengthPtr, int* maxBlocksLengthPtr); bool heapBuildFreeBlocksList(Heap* heap); bool heapBuildMoveableBlocksList(int extentIndex); bool heapValidate(Heap* heap); #endif /* HEAP_H */