/** mbed Microcontroller Library
******************************************************************************
* @file spi_ex_api.h
* @author
* @version V1.0.0
* @brief This file provides following mbed SPI API
******************************************************************************
* @attention
*
* Copyright (c) 2006-2013 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
******************************************************************************
*/
#ifndef MBED_SPI_EXT_API_H
#define MBED_SPI_EXT_API_H
#include "device.h"
#ifdef __cplusplus
extern "C" {
#endif
/** @addtogroup spi_ex SPI_EX
* @ingroup hal
* @brief spi extended functions
* @{
*/
///@name Ameba Common
///@{
#define SPI_DMA_RX_EN (1<<0)
#define SPI_DMA_TX_EN (1<<1)
enum {
SPI_SCLK_IDLE_LOW=0, // the SCLK is Low when SPI is inactive
SPI_SCLK_IDLE_HIGH=2 // the SCLK is High when SPI is inactive
};
// SPI Master mode: for continuous transfer, how the CS toggle:
enum {
SPI_CS_TOGGLE_EVERY_FRAME=0, // let SCPH=0 then the CS toggle every frame
SPI_CS_TOGGLE_START_STOP=1 // let SCPH=1 the CS toggle at start and stop
};
enum {
SPI_SCLK_TOGGLE_MIDDLE=0, // Serial Clk toggle at middle of 1st data bit and latch data at 1st Clk edge
SPI_SCLK_TOGGLE_START=1 // Serial Clk toggle at start of 1st data bit and latch data at 2nd Clk edge
};
typedef enum {
CS_0 = 0,
CS_1 = 1,
CS_2 = 2,
CS_3 = 3,
CS_4 = 4,
CS_5 = 5,
CS_6 = 6,
CS_7 = 7
}ChipSelect;
#define SPI_STATE_READY 0x00
#define SPI_STATE_RX_BUSY (1<<1)
#define SPI_STATE_TX_BUSY (1<<2)
typedef enum {
SpiRxIrq,
SpiTxIrq
} SpiIrq;
typedef void (*spi_irq_handler)(uint32_t id, SpiIrq event);
/**
* @brief Set SPI interrupt handler if needed.
* @param obj: spi object define in application software.
* @param handler: interrupt callback function
* @param id: interrupt callback parameter
* @retval none
*/
void spi_irq_hook(spi_t *obj, spi_irq_handler handler, uint32_t id);
/**
* @brief Set SPI interrupt bus tx done handler if needed.
* @param obj: spi object define in application software.
* @param handler: interrupt bus tx done callback function
* @param id: interrupt callback parameter
* @retval none
*/
void spi_bus_tx_done_irq_hook(spi_t *obj, spi_irq_handler handler, uint32_t id);
/**
* @brief Slave device to flush tx fifo.
* @param obj: spi slave object define in application software.
* @note : It will discard all data in both tx fifo and rx fifo
*/
void spi_slave_flush_fifo(spi_t * obj);
/**
* @brief slave recv target length data use interrupt mode.
* @param obj: spi slave object define in application software.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be read.
* @retval : stream init status
*/
int32_t spi_slave_read_stream(spi_t *obj, char *rx_buffer, uint32_t length);
/**
* @brief slave send target length data use interrupt mode.
* @param obj: spi slave object define in application software.
* @param tx_buffer: buffer to be written to Tx FIFO.
* @param length: number of data bytes to be send.
* @retval : stream init status
*/
int32_t spi_slave_write_stream(spi_t *obj, char *tx_buffer, uint32_t length);
/**
* @brief master recv target length data use interrupt mode.
* @param obj: spi master object define in application software.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be read.
* @retval : stream init status
*/
int32_t spi_master_read_stream(spi_t *obj, char *rx_buffer, uint32_t length);
/**
* @brief master send target length data use interrupt mode.
* @param obj: spi master object define in application software.
* @param tx_buffer: buffer to be written to Tx FIFO.
* @param length: number of data bytes to be send.
* @retval : stream init status
*/
int32_t spi_master_write_stream(spi_t *obj, char *tx_buffer, uint32_t length);
/**
* @brief master send & recv target length data use interrupt mode.
* @param obj: spi master object define in application software.
* @param tx_buffer: buffer to be written to Tx FIFO.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be send & recv.
* @retval : stream init status
*/
int32_t spi_master_write_read_stream(spi_t *obj, char *tx_buffer, char *rx_buffer, uint32_t length);
/**
* @brief slave recv target length data use interrupt mode and timeout mechanism.
* @param obj: spi slave object define in application software.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be read.
* @param timeout_ms: timeout waiting time.
* @retval : number of bytes read already
*/
int32_t spi_slave_read_stream_timeout(spi_t *obj, char *rx_buffer, uint32_t length, uint32_t timeout_ms);
/**
* @brief slave recv target length data use interrupt mode and stop if the spi bus is idle.
* @param obj: spi slave object define in application software.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be read.
* @retval : number of bytes read already
*/
int32_t spi_slave_read_stream_terminate(spi_t *obj, char *rx_buffer, uint32_t length);
//#ifdef CONFIG_GDMA_EN
/**
* @brief slave recv target length data use DMA mode.
* @param obj: spi slave object define in application software.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be read.
* @retval : stream init status
*/
int32_t spi_slave_read_stream_dma(spi_t *obj, char *rx_buffer, uint32_t length);
/**
* @brief slave send target length data use DMA mode.
* @param obj: spi slave object define in application software.
* @param tx_buffer: buffer to be written to Tx FIFO.
* @param length: number of data bytes to be send.
* @retval : stream init status
*/
int32_t spi_slave_write_stream_dma(spi_t *obj, char *tx_buffer, uint32_t length);
/**
* @brief master send & recv target length data use DMA mode.
* @param obj: spi master object define in application software.
* @param tx_buffer: buffer to be written to Tx FIFO.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be send & recv.
* @retval : stream init status
*/
int32_t spi_master_write_read_stream_dma(spi_t * obj, char * tx_buffer, char * rx_buffer, uint32_t length);
/**
* @brief master recv target length data use DMA mode.
* @param obj: spi master object define in application software.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be read.
* @retval : stream init status
* @note : DMA or Interrupt mode can be used to TX dummy data
*/
int32_t spi_master_read_stream_dma(spi_t *obj, char *rx_buffer, uint32_t length);
/**
* @brief master send target length data use DMA mode.
* @param obj: spi master object define in application software.
* @param tx_buffer: buffer to be written to Tx FIFO.
* @param length: number of data bytes to be send.
* @retval : stream init status
*/
int32_t spi_master_write_stream_dma(spi_t *obj, char *tx_buffer, uint32_t length);
/**
* @brief slave recv target length data use DMA mode and timeout mechanism.
* @param obj: spi slave object define in application software.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be read.
* @param timeout_ms: timeout waiting time.
* @retval : number of bytes read already
*/
int32_t spi_slave_read_stream_dma_timeout(spi_t *obj, char *rx_buffer, uint32_t length, uint32_t timeout_ms);
/**
* @brief slave recv target length data use DMA mode and stop if the spi bus is idle.
* @param obj: spi slave object define in application software.
* @param rx_buffer: buffer to save data read from SPI FIFO.
* @param length: number of data bytes to be read.
* @retval : number of bytes read already
*/
int32_t spi_slave_read_stream_dma_terminate(spi_t * obj, char * rx_buffer, uint32_t length);
//#endif
///@}
/*\@}*/
#ifdef __cplusplus
}
#endif
#endif