s32 bsp_mem_dump_alloc_list(u32 u32Size, u32 u32PoolType)
{
u32 u32Item;
u32 u32MostUsedItem;
void* pCurAddr;
u32 u32Num = 0;
MEM_ALLOC_INFO* pAllocInfo;
if (u32PoolType >= MEM_POOL_MAX)
{
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"invalid pool type:%d\n", u32PoolType);
return BSP_ERROR;
}
pAllocInfo = MEM_GET_ALLOC_INFO(u32PoolType);
u32MostUsedItem = pAllocInfo->mostUsedItem;
MEM_FIND_RIGHT_ITEM(u32Item, u32Size, u32MostUsedItem);
if (u32Item >= MEM_ALLOC_LIST_NUM)
{
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"invalid size:%d\n", u32Size);
return BSP_ERROR;
}
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"dump alloc list beg:\n");
pCurAddr = pAllocInfo->allocList[u32Item];
for (;NULL != pCurAddr; pCurAddr = (void*)MEM_ITEM_NEXT(pCurAddr))
{
(void)bsp_mem_dump_block((u32)pCurAddr);
u32Num++;
}
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"dump alloc list end, num:%d\n", u32Num);
return BSP_OK;
}
s32 bsp_mem_dump_alloc_list(u32 u32Size, u32 u32PoolType)
{
u32 u32Item;
u32 u32MostUsedItem;
void* pCurAddr;
u32 u32Num = 0;
MEM_ALLOC_INFO* pAllocInfo;
if (u32PoolType >= MEM_POOL_MAX)
{
printk("invalid pool type:%d\n", u32PoolType);
return ERROR;
}
pAllocInfo = MEM_GET_ALLOC_INFO(u32PoolType);
u32MostUsedItem = pAllocInfo->mostUsedItem;
MEM_FIND_RIGHT_ITEM(u32Item, u32Size, u32MostUsedItem);
if (u32Item >= MEM_ALLOC_LIST_NUM)
{
printk("invalid size:%d\n", u32Size);
return -1;
}
printk("dump alloc list beg:\n");
pCurAddr = (void*)PHY_TO_VIRT((unsigned int)pAllocInfo->allocList[u32Item]);
for (;NULL != pCurAddr; pCurAddr = (void*)MEM_ITEM_NEXT(pCurAddr))
{
(void)bsp_mem_dump_block((u32)pCurAddr);
u32Num++;
}
printk("dump alloc list end, num:%d\n", u32Num);
return 0;
}
void bsp_memory_free(u32 u32PoolType, void* pMem, u32 u32Size)
{
u32 cnt;
u32 u32MostUsedItem;
MEM_ALLOC_INFO* pAllocInfo = MEM_GET_ALLOC_INFO(u32PoolType);
u32MostUsedItem = pAllocInfo->mostUsedItem;
/* 先查找AllocList中是否有可用的内存节点 */
MEM_FIND_RIGHT_ITEM(cnt, u32Size, u32MostUsedItem);
#ifdef __BSP_MEM_DEBUG__
/* 判断该节点是否有效 */
if (cnt >= MEM_ALLOC_LIST_NUM)
{
printk("bsp_pool_alloc Fail, size:%d, line:%d\n", u32Size, __LINE__);
return;
}
#endif
MEM_LOCK_BY_TYPE(u32PoolType);
/* 将item挂回到链表 */
if (MEM_ICC_AXI_POOL == u32PoolType)
{
MEM_ITEM_NEXT(pMem) = (u32)(pAllocInfo->allocList[cnt]);
pAllocInfo->allocList[cnt] = (void*)(DRV_AXI_VIRT_TO_PHY((u32)pMem));
}
else if (MEM_ICC_DDR_POOL == u32PoolType)
{
MEM_ITEM_NEXT(pMem) = (u32)(pAllocInfo->allocList[cnt]);
pAllocInfo->allocList[cnt] = (void *)SHD_DDR_V2P((u32)pMem);
}
#ifdef __BSP_MEM_DEBUG__
pAllocInfo->allocUsedInfoList[cnt].u32CurNum--;
pAllocInfo->allocUsedInfoList[cnt].u32TotalFreeNum++;
MEM_ITEM_STATUS(pMem) = MEM_FREE;
#endif
/* Flush Cache */
MEM_FLUSH_CACHE_BY_TYPE(MEM_GET_ALLOC_ADDR(pMem), MEM_MGR_SIZE_FOR_CACHE, u32PoolType);
MEM_UNLOCK_BY_TYPE(u32PoolType);
return;
}
void* bsp_get_item(MEM_ALLOC_INFO* pAllocInfo, u32 cnt, u32 u32PoolType, u32 u32Size)
{
void *pItem;
void **ppHead = &(pAllocInfo->allocList[cnt]);
/* 如果链表中没有节点,则从内存池中分配 */
if (!*ppHead)
{
/* 判断是否达到最大个数 */
if((u32PoolType != MEM_ICC_DDR_POOL) || (pAllocInfo->allocNum[cnt] < sg_AllocMaxNum[cnt]))
{
/* 注意从内存池中分配的尺寸要额外包含 MGR 的部分 */
pItem = bsp_pool_alloc(pAllocInfo, u32Size+pAllocInfo->memPoolInfo.u32MgrSize);
if (NULL == pItem)
{
pAllocInfo->u32AllocFailCnt++;
return NULL;
}
MEM_ITEM_MAGIC(pItem) = (u32)MEM_MAGIC_NUM;
MEM_ITEM_SIZE(pItem) = u32Size;
MEM_ITEM_FLAGS(pItem) = u32PoolType;
if(MEM_ICC_DDR_POOL == u32PoolType)
{
pAllocInfo->allocNum[cnt]++;
}
#ifdef __BSP_MEM_DEBUG__
MEM_ITEM_FILE_NAME(pItem) = 0;
MEM_ITEM_LINE(pItem) = 0;
#endif
}
else
{
pAllocInfo->u32AllocFailCnt++;
return NULL;
}
}
/* 从链表中取出节点 */
else
{
pItem = (void*)PHY_TO_VIRT((unsigned int)*ppHead);
/* Invalid Cache */
MEM_INVALID_CACHE_BY_TYPE(MEM_GET_ALLOC_ADDR(pItem), MEM_MGR_SIZE_FOR_CACHE, u32PoolType);
*ppHead = (void*)MEM_ITEM_NEXT(pItem);
}
return pItem;
}
STATIC s32 bsp_mem_dump_block(u32 u32Addr)
{
BSP_BOOL bBlockInvalid = FALSE;
bBlockInvalid = bBlockInvalid;
if (NULL == (void *)u32Addr)
{
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"can't dump the block, the input ptr is NULL\n");
return BSP_ERROR;
}
if (MEM_MAGIC_NUM != MEM_ITEM_MAGIC(u32Addr))
{
bBlockInvalid = TRUE;
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"The Block:0x%x may Invalid!\n", u32Addr);
}
/* 为确保正确,统一刷下Cache */
MEM_INVALID_CACHE(MEM_GET_ALLOC_ADDR(u32Addr), MEM_MGR_SIZE_FOR_CACHE);
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"================================\n");
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"dump mem block info:\n");
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"================================\n");
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"usr ptr: 0x%x\n", u32Addr);
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"alloc ptr: 0x%x\n", (u32)MEM_GET_ALLOC_ADDR(u32Addr));
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"magic num: 0x%x\n", MEM_ITEM_MAGIC(u32Addr));
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"block size: %d\n", MEM_ITEM_SIZE(u32Addr));
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"mem flags: 0x%x\n", MEM_ITEM_FLAGS(u32Addr));
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"mem item next: 0x%x\n", MEM_ITEM_NEXT(u32Addr));
#ifdef __BSP_MEM_DEBUG__
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"used file name: %s\n", (bBlockInvalid) ? ("invalid") : (BSP_CHAR*)MEM_ITEM_FILE_NAME(u32Addr));
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"used line: %d\n", MEM_ITEM_LINE(u32Addr));
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"mem status: %s\n", (MEM_ITEM_STATUS(u32Addr)) ? ("ALLOC") : ("FREE"));
#endif
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,"================================\n");
return BSP_OK;
}
STATIC void bsp_memory_free(u32 u32PoolType, void* pMem, u32 u32Size)
{
u32 cnt;
u32 u32MostUsedItem;
MEM_ALLOC_INFO* pAllocInfo = MEM_GET_ALLOC_INFO(u32PoolType);
u32MostUsedItem = pAllocInfo->mostUsedItem;
/* 先查找AllocList中是否有可用的内存节点 */
MEM_FIND_RIGHT_ITEM(cnt, u32Size, u32MostUsedItem);
#ifdef __BSP_MEM_DEBUG__
/* 判断该节点是否有效 */
if (cnt >= MEM_ALLOC_LIST_NUM)
{
bsp_trace(BSP_LOG_LEVEL_ERROR, BSP_MODU_MEM,
"memPoolAlloc Fail, size:%d, line:%d\n", u32Size, __LINE__);
return;
}
#endif
MEM_LOCK_BY_TYPE(u32PoolType);/*lint !e713*/
/* 将item挂回到链表 */
MEM_ITEM_NEXT(pMem) = (u32)pAllocInfo->allocList[cnt];
pAllocInfo->allocList[cnt] = pMem;
#ifdef __BSP_MEM_DEBUG__
pAllocInfo->allocUsedInfoList[cnt].u32CurNum--;
pAllocInfo->allocUsedInfoList[cnt].u32TotalFreeNum++;
MEM_ITEM_STATUS(pMem) = MEM_FREE;
#endif
/* Flush Cache */
MEM_FLUSH_CACHE_BY_TYPE(MEM_GET_ALLOC_ADDR(pMem), MEM_MGR_SIZE_FOR_CACHE, u32PoolType);
MEM_UNLOCK_BY_TYPE(u32PoolType);
return;
}
