STATIC s32 use_smem_test(int size)
{
u32* pret = (u32*)bsp_smalloc(size, MEM_ICC_DDR_POOL);
u32* praw = pret;
u32 rawsize = size;
if(pret)
{
mem_print_dbg("sucess BSP_Malloc addr:%x size:%d", pret, size);
while(size > 0)
{
size -= sizeof(u32);
*pret = ACORE_MAGIC_NUM;
pret++;
}
taskDelay(200);
size = rawsize;
pret = praw;
while(size > 0)
{
size -= sizeof(u32);
if(*pret != ACORE_MAGIC_NUM)
{
mem_print_error("fail! Use smalloc fail addr:%x size:%d", pret, size);
return MEM_TEST_ERROR;
}
pret++;
}
bsp_sfree(praw);
return MEM_TEST_OK;
}
else
{
mem_print_error("fail! BSP_Malloc addr:%x size:%d", pret, size);
return MEM_TEST_ERROR;
}
}
STATIC void* bsp_pool_alloc(MEM_ALLOC_INFO* pAllocInfo, u32 u32Size)
{
u32 u32RetAddr = pAllocInfo->memPoolInfo.u32CurPosAddr;
if (pAllocInfo->memPoolInfo.u32Left < u32Size)
{
mem_print_error("alloc fail! left size = %x alloc size = %x", pAllocInfo->memPoolInfo.u32Left, u32Size);
return NULL;
}
pAllocInfo->memPoolInfo.u32CurPosAddr += u32Size;
pAllocInfo->memPoolInfo.u32Left -= u32Size;
return (void*)(u32RetAddr+pAllocInfo->memPoolInfo.u32MgrSize);
}
STATIC u32 mem_smalloc_test(u32 size)
{
void * pret = bsp_smalloc(size, MEM_ICC_DDR_POOL);
if(pret)
{
mem_print_dbg("sucess BSP_Malloc addr:%x size:%d", pret, size);
bsp_sfree(pret);
return MEM_TEST_OK;
}
else
{
mem_print_error("fail! BSP_Malloc addr:%x size:%d", pret, size);
return MEM_TEST_ERROR;
}
}
