mirror of
https://github.com/cwyark/ameba-sdk-gcc-make.git
synced 2024-11-24 23:14:18 +00:00
353 lines
7.9 KiB
C
353 lines
7.9 KiB
C
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#include <autoconf.h>
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#include "tcm_heap.h"
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#include <string.h> // memset()
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#include <osdep_service.h>
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//#define _DEBUG
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#if CONFIG_USE_TCM_HEAP
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#define FREE_FILL_CODE 0xDEAD
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#define ALLOC_FILL_CODE 0xBEEF
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#define ROUND_UP2(x, pad) (((x) + ((pad) - 1)) & ~((pad) - 1))
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#define TCM_HEAP_SIZE (40*1024)
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static struct Heap g_tcm_heap;
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#if defined (__ICCARM__)
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#pragma location=".tcm.heap"
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#else
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__attribute__((section(".tcm.heap")))
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#endif
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HEAP_DEFINE_BUF(tcm_heap, TCM_HEAP_SIZE);
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//unsigned char tcm_heap[TCM_HEAP_SIZE];
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static int g_heap_inited=0;
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static _lock tcm_lock;
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extern void vPortSetExtFree( void (*free)( void *p ), uint32_t upper, uint32_t lower );
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void tcm_heap_init(void)
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{
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//#ifdef _DEBUG
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//memset(memory, FREE_FILL_CODE, size);
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//#endif
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//ASSERT2(((int)memory % alignof(heap_buf_t)) == 0,
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//"memory buffer is unaligned, please use the HEAP_DEFINE_BUF() macro to declare heap buffers!\n");
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/* Initialize heap with a single big chunk */
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g_tcm_heap.FreeList = (MemChunk *)&tcm_heap;
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g_tcm_heap.FreeList->next = NULL;
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g_tcm_heap.FreeList->size = sizeof(tcm_heap);
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g_heap_inited = 1;
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rtw_spinlock_init(&tcm_lock);
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#if PLATFORM_FREERTOS
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// let RTOS know how to free memory if using as task stack
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vPortSetExtFree(tcm_heap_free, 0x20000000, 0x1fff0000);
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#endif
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}
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void tcm_heap_dump(void)
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{
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MemChunk *chunk, *prev;
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struct Heap* h = &g_tcm_heap;
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printf("---Free List--\n\r");
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for (prev = (MemChunk *)&h->FreeList, chunk = h->FreeList;
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chunk;
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prev = chunk, chunk = chunk->next)
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{
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printf(" prev %x, chunk %x, size %d \n\r", prev, chunk, chunk->size);
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}
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printf("--------------\n\r");
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}
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void *tcm_heap_allocmem(int size)
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{
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MemChunk *chunk, *prev;
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struct Heap* h = &g_tcm_heap;
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_irqL irqL;
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rtw_enter_critical(&tcm_lock, &irqL);
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if(!g_heap_inited) tcm_heap_init();
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/* Round size up to the allocation granularity */
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size = ROUND_UP2(size, sizeof(MemChunk));
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/* Handle allocations of 0 bytes */
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if (!size)
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size = sizeof(MemChunk);
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/* Walk on the free list looking for any chunk big enough to
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* fit the requested block size.
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*/
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for (prev = (MemChunk *)&h->FreeList, chunk = h->FreeList;
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chunk;
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prev = chunk, chunk = chunk->next)
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{
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if (chunk->size >= size)
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{
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if (chunk->size == size)
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{
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/* Just remove this chunk from the free list */
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prev->next = chunk->next;
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#ifdef _DEBUG
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memset(chunk, ALLOC_FILL_CODE, size);
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#endif
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rtw_exit_critical(&tcm_lock, &irqL);
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//printf("----ALLOC1-----\n\r");
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//tcm_heap_dump();
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//printf("--------------\n\r");
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return (void *)chunk;
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}
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else
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{
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/* Allocate from the END of an existing chunk */
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chunk->size -= size;
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#ifdef _DEBUG
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memset((uint8_t *)chunk + chunk->size, ALLOC_FILL_CODE, size);
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#endif
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rtw_exit_critical(&tcm_lock, &irqL);
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//printf("----ALLOC2-----\n\r");
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//tcm_heap_dump();
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//printf("--------------\n\r");
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return (void *)((uint8_t *)chunk + chunk->size);
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}
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}
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}
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rtw_exit_critical(&tcm_lock, &irqL);
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//printf("----ALLOC3-----\n\r");
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//tcm_heap_dump();
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//printf("--------------\n\r");
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return NULL; /* fail */
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}
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void tcm_heap_freemem(void *mem, int size)
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{
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MemChunk *prev;
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//ASSERT(mem);
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struct Heap* h = &g_tcm_heap;
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_irqL irqL;
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rtw_enter_critical(&tcm_lock, &irqL);
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if(!g_heap_inited) tcm_heap_init();
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#ifdef _DEBUG
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memset(mem, FREE_FILL_CODE, size);
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#endif
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/* Round size up to the allocation granularity */
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size = ROUND_UP2(size, sizeof(MemChunk));
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/* Handle allocations of 0 bytes */
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if (!size)
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size = sizeof(MemChunk);
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/* Special cases: first chunk in the free list or memory completely full */
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//ASSERT((uint8_t*)mem != (uint8_t*)h->FreeList);
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if (((uint8_t *)mem) < ((uint8_t *)h->FreeList) || !h->FreeList)
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{
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/* Insert memory block before the current free list head */
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prev = (MemChunk *)mem;
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prev->next = h->FreeList;
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prev->size = size;
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h->FreeList = prev;
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}
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else /* Normal case: not the first chunk in the free list */
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{
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/*
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* Walk on the free list. Stop at the insertion point (when mem
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* is between prev and prev->next)
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*/
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prev = h->FreeList;
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while (prev->next < (MemChunk *)mem && prev->next)
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prev = prev->next;
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/* Make sure mem is not *within* prev */
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//ASSERT((uint8_t*)mem >= (uint8_t*)prev + prev->size);
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/* Should it be merged with previous block? */
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if (((uint8_t *)prev) + prev->size == ((uint8_t *)mem))
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{
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/* Yes */
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prev->size += size;
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}
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else /* not merged with previous chunk */
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{
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MemChunk *curr = (MemChunk*)mem;
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/* insert it after the previous node
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* and move the 'prev' pointer forward
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* for the following operations
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*/
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curr->next = prev->next;
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curr->size = size;
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prev->next = curr;
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/* Adjust for the following test */
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prev = curr;
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}
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}
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/* Also merge with next chunk? */
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if (((uint8_t *)prev) + prev->size == ((uint8_t *)prev->next))
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{
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prev->size += prev->next->size;
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prev->next = prev->next->next;
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/* There should be only one merge opportunity, becuase we always merge on free */
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//ASSERT((uint8_t*)prev + prev->size != (uint8_t*)prev->next);
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}
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rtw_exit_critical(&tcm_lock, &irqL);
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//printf("---FREE %x--\n\r", mem);
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//tcm_heap_dump();
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//printf("--------------\n\r");
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}
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int tcm_heap_freeSpace(void)
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{
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int free_mem = 0;
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struct Heap* h = &g_tcm_heap;
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_irqL irqL;
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MemChunk *chunk;
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rtw_enter_critical(&tcm_lock, &irqL);
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if(!g_heap_inited) tcm_heap_init();
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for (chunk = h->FreeList; chunk; chunk = chunk->next)
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free_mem += chunk->size;
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rtw_exit_critical(&tcm_lock, &irqL);
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return free_mem;
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}
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/**
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* Standard malloc interface
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*/
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void *tcm_heap_malloc(int size)
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{
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int *mem;
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size += sizeof(int);
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if ((mem = (int*)tcm_heap_allocmem(size))){
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*mem++ = size;
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}
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return mem;
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}
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/**
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* Standard calloc interface
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*/
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void *tcm_heap_calloc(int size)
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{
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void *mem;
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if ((mem = tcm_heap_malloc(size)))
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memset(mem, 0, size);
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return mem;
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}
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/**
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* Free a block of memory, determining its size automatically.
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*
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* \param h Heap from which the block was allocated.
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* \param mem Pointer to a block of memory previously allocated with
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* either heap_malloc() or heap_calloc().
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*
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* \note If \a mem is a NULL pointer, no operation is performed.
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*
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* \note Freeing the same memory block twice has undefined behavior.
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*
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* \note This function works like the ANSI C free().
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*/
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void tcm_heap_free(void *mem)
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{
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int *_mem = (int *)mem;
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if (_mem)
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{
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--_mem;
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tcm_heap_freemem(_mem, *_mem);
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}
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}
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static void alloc_test(int size, int test_len)
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{
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//Simple test
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uint8_t *a[100];
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int i, j;
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for (i = 0; i < test_len; i++)
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{
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a[i] = tcm_heap_allocmem(size);
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//ASSERT(a[i]);
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for (j = 0; j < size; j++)
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a[i][j] = i;
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}
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//ASSERT(heap_freeSpace(&h) == HEAP_SIZE - test_len * ROUND_UP2(size, sizeof(MemChunk)));
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for (i = 0; i < test_len; i++)
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{
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for (j = 0; j < size; j++)
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{
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printf("a[%d][%d] = %d\n", i, j, a[i][j]);
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//ASSERT(a[i][j] == i);
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}
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tcm_heap_freemem(a[i], size);
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}
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//ASSERT(heap_freeSpace(&h) == HEAP_SIZE);
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}
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#define ALLOC_SIZE 256
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#define ALLOC_SIZE2 1024
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#define TEST_LEN 20
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#define TEST_LEN2 10
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#define HEAP_SIZE 59*1024
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int tcm_heap_testRun(void)
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{
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alloc_test(ALLOC_SIZE, TEST_LEN);
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alloc_test(ALLOC_SIZE2, TEST_LEN2);
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/* Try to allocate the whole heap */
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uint8_t *b = tcm_heap_allocmem(HEAP_SIZE);
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int i, j;
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//ASSERT(b);
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//ASSERT(heap_freeSpace(&h) == 0);
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//ASSERT(!heap_allocmem(&h, HEAP_SIZE));
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for (j = 0; j < HEAP_SIZE; j++)
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b[j] = j;
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for (j = 0; j < HEAP_SIZE; j++)
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{
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printf("b[%d] = %d\n", j, j);
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//ASSERT(b[j] == (j & 0xff));
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}
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tcm_heap_freemem(b, HEAP_SIZE);
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//ASSERT(heap_freeSpace(&h) == HEAP_SIZE);
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return 0;
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}
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#endif
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