int32_t serial_recv_stream_dma (serial_t *obj, char *prxbuf, uint32_t len)
{
PHAL_RUART_OP pHalRuartOp;
PHAL_RUART_ADAPTER pHalRuartAdapter=(PHAL_RUART_ADAPTER)&(obj->hal_uart_adp);
u8 uart_idx = pHalRuartAdapter->UartIndex;
int32_t ret;
pHalRuartOp = &(obj->hal_uart_op);
if ((serial_dma_en[uart_idx] & SERIAL_RX_DMA_EN)==0) {
PUART_DMA_CONFIG pHalRuartDmaCfg;
pHalRuartDmaCfg = &obj->uart_gdma_cfg;
if (HAL_OK == HalRuartRxGdmaInit(pHalRuartOp, pHalRuartAdapter, pHalRuartDmaCfg)) {
serial_dma_en[uart_idx] |= SERIAL_RX_DMA_EN;
}
else {
return HAL_BUSY;
}
}
obj->rx_len = len;
HalRuartEnterCritical(pHalRuartAdapter);
ret = pHalRuartOp->HalRuartDmaRecv(pHalRuartAdapter, (u8*)prxbuf, len);
HalRuartExitCritical(pHalRuartAdapter);
return (ret);
}
int32_t serial_recv_stream_dma (serial_t *obj, char *prxbuf, uint32_t len)
{
PHAL_RUART_OP pHalRuartOp;
PHAL_RUART_ADAPTER pHalRuartAdapter=(PHAL_RUART_ADAPTER)&(obj->hal_uart_adp);
u8 uart_idx = pHalRuartAdapter->UartIndex;
int32_t ret;
pHalRuartOp = &(obj->hal_uart_op);
if ((serial_dma_en[uart_idx] & SERIAL_RX_DMA_EN)==0) {
PUART_DMA_CONFIG pHalRuartDmaCfg;
pHalRuartDmaCfg = &obj->uart_gdma_cfg;
#if 0
pHalRuartOp->HalRuartRxGdmaLoadDef (pHalRuartAdapter, pHalRuartDmaCfg);
pHalRuartOp->HalRuartDmaInit (pHalRuartAdapter);
InterruptRegister(&pHalRuartDmaCfg->RxGdmaIrqHandle);
InterruptEn(&pHalRuartDmaCfg->RxGdmaIrqHandle);
serial_dma_en[uart_idx] |= SERIAL_RX_DMA_EN;
#else
if (HAL_OK == HalRuartRxGdmaInit(pHalRuartOp, pHalRuartAdapter, pHalRuartDmaCfg)) {
serial_dma_en[uart_idx] |= SERIAL_RX_DMA_EN;
}
else {
return HAL_BUSY;
}
#endif
}
ret = pHalRuartOp->HalRuartDmaRecv(pHalRuartAdapter, (u8*)prxbuf, len);
return (ret);
}
int32_t serial_recv_stream_dma_timeout (serial_t *obj, char *prxbuf, uint32_t len, uint32_t timeout_ms, void *force_cs)
{
PHAL_RUART_OP pHalRuartOp;
PHAL_RUART_ADAPTER pHalRuartAdapter=(PHAL_RUART_ADAPTER)&(obj->hal_uart_adp);
u8 uart_idx = pHalRuartAdapter->UartIndex;
uint32_t TimeoutCount=0, StartCount;
int ret;
void (*task_yield)(void);
pHalRuartOp = &(obj->hal_uart_op);
if ((serial_dma_en[uart_idx] & SERIAL_RX_DMA_EN)==0) {
PUART_DMA_CONFIG pHalRuartDmaCfg;
pHalRuartDmaCfg = &obj->uart_gdma_cfg;
if (HAL_OK == HalRuartRxGdmaInit(pHalRuartOp, pHalRuartAdapter, pHalRuartDmaCfg)) {
serial_dma_en[uart_idx] |= SERIAL_RX_DMA_EN;
}
else {
return HAL_BUSY;
}
}
HalRuartEnterCritical(pHalRuartAdapter);
ret = pHalRuartOp->HalRuartDmaRecv(pHalRuartAdapter, (u8*)prxbuf, len);
HalRuartExitCritical(pHalRuartAdapter);
if ((ret == HAL_OK) && (timeout_ms > 0)) {
TimeoutCount = (timeout_ms*1000/TIMER_TICK_US);
StartCount = HalTimerOp.HalTimerReadCount(1);
task_yield = (void (*)(void))force_cs;
pHalRuartAdapter->Status = HAL_UART_STATUS_OK;
while (pHalRuartAdapter->State & HAL_UART_STATE_BUSY_RX) {
if (HAL_TIMEOUT == RuartIsTimeout(StartCount, TimeoutCount)) {
ret = pHalRuartOp->HalRuartStopRecv((VOID*)pHalRuartAdapter);
ret = pHalRuartOp->HalRuartResetRxFifo((VOID*)pHalRuartAdapter);
pHalRuartAdapter->Status = HAL_UART_STATUS_TIMEOUT;
break;
}
if (NULL != task_yield) {
task_yield();
}
}
if (pHalRuartAdapter->Status == HAL_UART_STATUS_TIMEOUT) {
return (len - pHalRuartAdapter->RxCount);
} else {
return len;
}
} else {
return (-ret);
}
// return (ret);
}
