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/*******************************************************************************
 * Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved.
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 * Except as contained in this notice, the name of Maxim Integrated
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 * The mere transfer of this software does not imply any licenses
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 * $Date: 2016-05-26 11:38:10 -0500 (Thu, 26 May 2016) $
 * $Revision: 23065 $
 *
 ******************************************************************************/

/**
 * @file  spix.h
 * @brief This is the high level API for the serial peripheral interface execute in place module.
 * @warning If using this SPIX with IAR Embedded Workbench for Arm, it is required to define
 *          <tt>IAR_SPIX_PRAGMA=1</tt>. This should be done under Project->Options->
 *          C/C++ Compiler->Preprocessor in the Defined Symbols input box. See the IAR documentation
 *          for additional information on how to set a preprocessor define in a project.
 */

#include "mxc_sys.h"
#include "spix_regs.h"

#ifndef _SPIX_H_
#define _SPIX_H_

#ifdef __cplusplus
extern "C" {
#endif

/***** Definitions *****/

/// @brief Options for number of I/O pins to use during for each fetch stage
typedef enum {
    SPIX_SINGLE_IO = MXC_V_SPIX_FETCH_CTRL_CMD_WIDTH_SINGLE,
    SPIX_DUAL_IO = MXC_V_SPIX_FETCH_CTRL_CMD_WIDTH_DUAL_IO,
    SPIX_QUAD_IO = MXC_V_SPIX_FETCH_CTRL_CMD_WIDTH_QUAD_IO
} spix_width_t;

/// @brief  Options for number of address bytes to use during fetch
typedef enum {
    SPIX_3BYTE_FETCH_ADDR = 0,
    SPIX_4BYTE_FETCH_ADDR = 1
} spix_addr_size_t;

/// @brief SPIX fetch configuration.
typedef struct {
    spix_width_t cmd_width;                 ///< Number of I/O lines used for command SPI transaction.
    spix_width_t addr_width;                ///< Number of I/O lines used for address SPI transaction.
    spix_width_t data_width;                ///< Number of I/O lines used for data SPI transaction.
    spix_addr_size_t addr_size;             ///< Use 3 or 4 byte addresses for fetches.
    uint8_t cmd;                            ///< Command value to initiate fetch.
    uint8_t mode_clocks;                    ///< Number of SPI clocks required during mode phase of fetch.
    uint8_t no_cmd_mode;                    ///< Read command sent only once.
    uint16_t mode_data;                     ///< Data sent with mode clocks.
} spix_fetch_t;

/***** Globals *****/

/***** Function Prototypes *****/

/**
 *  @brief          Configure SPI execute in place clocking.
 *  @param  sys_cfg Pointer to system level configuration structure.
 *  @param  mode    SPI mode to use for the clocking.
 *  @param  baud    Frequency in hertz to set the clock to. May not be able to achieve with
 *                  the given clock divider.
 *  @param  sample  Number of SPIX clocks to delay the sampling of the SDIO lines. Will use
 *                  feedback mode if set to 0.
 * @returns #E_NO_ERROR if everything is successful
 */
int SPIX_ConfigClock(const sys_cfg_spix_t *sys_cfg, uint32_t baud, uint8_t sample);

/**
 *  @brief              Configure SPI execute in place slave select.
 *  @param  ssel        Index of which slave select line to use.
 *  @param  pol         Polarity of slave select (0 for active low, 1 for active high).
 *  @param  act_delay   SPIX clocks between slave select assert and active SPI clock.
 *  @param  inact_delay SPIX clocks between active SPI clock and slave select deassert.
 */
void SPIX_ConfigSlave(uint8_t ssel, uint8_t pol, uint8_t act_delay, uint8_t inact_delay);

/**
 *  @brief          Configure how the SPIX fetches data.
 *  @param  fetch   Pointer to configuration struct that describes how to fetch data.
 */
void SPIX_ConfigFetch(const spix_fetch_t *fetch);

/**
 * @brief   Shutdown SPIX module.
 * @param   spix    Pointer to SPIX regs.
 * @returns #E_NO_ERROR if everything is successful
 */
int SPIX_Shutdown(mxc_spix_regs_t *spix);


#ifdef __cplusplus
}
#endif

#endif /* _SPIX_H */