#ifndef __SPDIO_API_H__ #define __SPDIO_API_H__ #include #define SPDIO_API_DBG #ifdef SPDIO_API_DBG #define SPDIO_API_PRINTK(fmt, args...) printf(fmt"\r\n",## args) #define _SPDIO_API_PRINTK(fmt, args...) printf(fmt,## args) #else #define SPDIO_API_PRINTK(fmt, args...) #define _SPDIO_API_PRINTK(fmt, args...) #endif #define SPDIO_DMA_ALIGN_4 4 #define SPDIO_RX_BUFSZ_ALIGN(x) ((((x-1)>>6)+1)<<6) //alignement to 64 #define SPDIO_RXDESC_SZ 24 /*Don't modify this enum table*/ enum spdio_rx_data_t{ SPDIO_RX_DATA_NULL = 0x00, SPDIO_RX_DATA_ETH = 0x83, //an ethernet packet received SPDIO_RX_DATA_ATCMD = 0x11, //an AT command packet received SPDIO_RX_DATA_USER = 0x41, //defined by user }; enum spdio_tx_data_t{ SPDIO_TX_DATA_NULL = 0x00, SPDIO_TX_DATA_ETH = 0x82, //an ethernet packet sent SPDIO_TX_DATA_ATCMDRSP = 0x10, //an AT command response packet sent SPDIO_TX_DATA_USER = 0x40, // defined by user }; struct spdio_buf_t{ void *priv; //priv data from user u32 buf_allocated; //The spdio buffer allocated address u16 size_allocated; //The actual allocated size u32 buf_addr; //The spdio buffer physical address, it must be 4-bytes aligned u16 buf_size; u8 type; //The type of the data which this buffer carries, spdio_rx_data_t and spdio_tx_data_t u8 reserved; }; struct spdio_t { void *priv; //not used by user u32 tx_bd_num; //for spdio send data to host, 2 bd for one packet, so this value must be rounded to 2 u32 rx_bd_num; //for spdio receive data from host u32 rx_bd_bufsz; //buffer size = desired packet length + 24(spdio header info), must be rounded to 64 struct spdio_buf_t *rx_buf; //buffer array for spdio receive assigned by user, rx_bd_bufsz * rx_bd_num /** *@brief: rx_done_cb: pointer to callback function defined by user, called by spdio when one packet receive done *@param priv: a pointer to spdio_t structure which is used to initilize spdio interface *@param pbuf: a pointer to spdio_buf_t structure which is spdio receive buffer *@param pdata: the actual received packet payload *@param size: the actual payload length *@param type: the received packet type, spdio_rx_data_t *@retval: SUCCESS or FAIL */ char (*rx_done_cb)(void *priv, void* pbuf, u8 *pdata, u16 size, u8 type); /** *@brief: tx_done_cb: pointer to callback function defined by user, called by spdio when one packet sent done *@param priv: a pointer to spdio_t structure which is used to initilize spdio interface *@param pbuf: a pointer to spdio_buf_t structure which carries the transmit packet *@retval: SUCCESS or FAIL */ char (*tx_done_cb)(void *priv, void* pbuf); }; /** * @brief Gets example setting for spdio obj. * @param obj: a pointer to an spdio_t structure which will be initialized with an example settings * @retval None */ void spdio_structinit(struct spdio_t *obj); /** * @brief Initialize spdio interface. * @param obj, a pointer to a spdio_t structure which should be initialized by user, * and which will be used to initialize spdio interface * obj->tx_bd_num: spdio write bd number, needs 2 bd for one transaction * obj->rx_bd_num: spdio read bd number * obj->rx_bd_bufsz: spdio read buffer size * obj->rx_buf: spdio read buffer array * @retval None */ void spdio_init(struct spdio_t *obj); /** * @brief Deinitialize spdio interface. * @param obj: a pointer to spdio_t structure which is already initialized * @retval None */ void spdio_deinit(struct spdio_t *obj); /** * @brief spdio write function. * @param obj: a pointer to spdio_t structure which is already initialized * @param pbuf: a pointer to spdio_buf_t structure which carries the payload * @retval SUCCESS or FAIL */ s8 spdio_tx(struct spdio_t *obj, struct spdio_buf_t *pbuf); /** * @brief an obj which will be used to initialize sdio interface * so it must be initialized before calling HalSdioInit(); */ extern struct spdio_t *g_spdio_priv; #endif //#ifndef __SPDIO_API_H__