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simmel-bootloader/nRF5_SDK_11.0.0_89a8197/components/drivers_nrf/hal/nrf_spis.h

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/* Copyright (c) 2015 Nordic Semiconductor. All Rights Reserved.
*
* The information contained herein is property of Nordic Semiconductor ASA.
* Terms and conditions of usage are described in detail in NORDIC
* SEMICONDUCTOR STANDARD SOFTWARE LICENSE AGREEMENT.
*
* Licensees are granted free, non-transferable use of the information. NO
* WARRANTY of ANY KIND is provided. This heading must NOT be removed from
* the file.
*
*/
/**
* @defgroup nrf_spis_hal SPIS HAL
* @{
* @ingroup nrf_spis
*
* @brief Hardware access layer for accessing the SPIS peripheral.
*/
#ifndef NRF_SPIS_H__
#define NRF_SPIS_H__
#include <stddef.h>
#include <stdbool.h>
#include <stdint.h>
#include "nrf.h"
/**
* @brief This value can be used as a parameter for the @ref nrf_spis_pins_set
* function to specify that a given SPI signal (SCK, MOSI, or MISO)
* shall not be connected to a physical pin.
*/
#define NRF_SPIS_PIN_NOT_CONNECTED 0xFFFFFFFF
/**
* @brief SPIS tasks.
*/
typedef enum
{
/*lint -save -e30*/
NRF_SPIS_TASK_ACQUIRE = offsetof(NRF_SPIS_Type, TASKS_ACQUIRE), ///< Acquire SPI semaphore.
NRF_SPIS_TASK_RELEASE = offsetof(NRF_SPIS_Type, TASKS_RELEASE), ///< Release SPI semaphore, enabling the SPI slave to acquire it.
/*lint -restore*/
} nrf_spis_task_t;
/**
* @brief SPIS events.
*/
typedef enum
{
/*lint -save -e30*/
NRF_SPIS_EVENT_END = offsetof(NRF_SPIS_Type, EVENTS_END), ///< Granted transaction completed.
NRF_SPIS_EVENT_ACQUIRED = offsetof(NRF_SPIS_Type, EVENTS_ACQUIRED) ///< Semaphore acquired.
/*lint -restore*/
} nrf_spis_event_t;
/**
* @brief SPIS shortcuts.
*/
typedef enum
{
NRF_SPIS_SHORT_END_ACQUIRE = SPIS_SHORTS_END_ACQUIRE_Msk ///< Shortcut between END event and ACQUIRE task.
} nrf_spis_short_mask_t;
/**
* @brief SPIS interrupts.
*/
typedef enum
{
NRF_SPIS_INT_END_MASK = SPIS_INTENSET_END_Msk, ///< Interrupt on END event.
NRF_SPIS_INT_ACQUIRED_MASK = SPIS_INTENSET_ACQUIRED_Msk ///< Interrupt on ACQUIRED event.
} nrf_spis_int_mask_t;
/**
* @brief SPI modes.
*/
typedef enum
{
NRF_SPIS_MODE_0, ///< SCK active high, sample on leading edge of clock.
NRF_SPIS_MODE_1, ///< SCK active high, sample on trailing edge of clock.
NRF_SPIS_MODE_2, ///< SCK active low, sample on leading edge of clock.
NRF_SPIS_MODE_3 ///< SCK active low, sample on trailing edge of clock.
} nrf_spis_mode_t;
/**
* @brief SPI bit orders.
*/
typedef enum
{
NRF_SPIS_BIT_ORDER_MSB_FIRST = SPIS_CONFIG_ORDER_MsbFirst, ///< Most significant bit shifted out first.
NRF_SPIS_BIT_ORDER_LSB_FIRST = SPIS_CONFIG_ORDER_LsbFirst ///< Least significant bit shifted out first.
} nrf_spis_bit_order_t;
/**
* @brief SPI semaphore status.
*/
typedef enum
{
NRF_SPIS_SEMSTAT_FREE = 0, ///< Semaphore is free.
NRF_SPIS_SEMSTAT_CPU = 1, ///< Semaphore is assigned to the CPU.
NRF_SPIS_SEMSTAT_SPIS = 2, ///< Semaphore is assigned to the SPI slave.
NRF_SPIS_SEMSTAT_CPUPENDING = 3 ///< Semaphore is assigned to the SPI, but a handover to the CPU is pending.
} nrf_spis_semstat_t;
/**
* @brief SPIS status.
*/
typedef enum
{
NRF_SPIS_STATUS_OVERREAD = SPIS_STATUS_OVERREAD_Msk, ///< TX buffer over-read detected and prevented.
NRF_SPIS_STATUS_OVERFLOW = SPIS_STATUS_OVERFLOW_Msk ///< RX buffer overflow detected and prevented.
} nrf_spis_status_mask_t;
/**
* @brief Function for activating a specific SPIS task.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_task Task to activate.
*/
__STATIC_INLINE void nrf_spis_task_trigger(NRF_SPIS_Type * p_spis,
nrf_spis_task_t spis_task);
/**
* @brief Function for getting the address of a specific SPIS task register.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_task Requested task.
*
* @return Address of the specified task register.
*/
__STATIC_INLINE uint32_t nrf_spis_task_address_get(NRF_SPIS_Type const * p_spis,
nrf_spis_task_t spis_task);
/**
* @brief Function for clearing a specific SPIS event.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_event Event to clear.
*/
__STATIC_INLINE void nrf_spis_event_clear(NRF_SPIS_Type * p_spis,
nrf_spis_event_t spis_event);
/**
* @brief Function for checking the state of a specific SPIS event.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_event Event to check.
*
* @retval true If the event is set.
* @retval false If the event is not set.
*/
__STATIC_INLINE bool nrf_spis_event_check(NRF_SPIS_Type const * p_spis,
nrf_spis_event_t spis_event);
/**
* @brief Function for getting the address of a specific SPIS event register.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_event Requested event.
*
* @return Address of the specified event register.
*/
__STATIC_INLINE uint32_t nrf_spis_event_address_get(NRF_SPIS_Type const * p_spis,
nrf_spis_event_t spis_event);
/**
* @brief Function for enabling specified shortcuts.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_shorts_mask Shortcuts to enable.
*/
__STATIC_INLINE void nrf_spis_shorts_enable(NRF_SPIS_Type * p_spis,
uint32_t spis_shorts_mask);
/**
* @brief Function for disabling specified shortcuts.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_shorts_mask Shortcuts to disable.
*/
__STATIC_INLINE void nrf_spis_shorts_disable(NRF_SPIS_Type * p_spis,
uint32_t spis_shorts_mask);
/**
* @brief Function for enabling specified interrupts.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_int_mask Interrupts to enable.
*/
__STATIC_INLINE void nrf_spis_int_enable(NRF_SPIS_Type * p_spis,
uint32_t spis_int_mask);
/**
* @brief Function for disabling specified interrupts.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_int_mask Interrupts to disable.
*/
__STATIC_INLINE void nrf_spis_int_disable(NRF_SPIS_Type * p_spis,
uint32_t spis_int_mask);
/**
* @brief Function for retrieving the state of a given interrupt.
*
* @param[in] p_spis SPIS instance.
* @param[in] spis_int Interrupt to check.
*
* @retval true If the interrupt is enabled.
* @retval false If the interrupt is not enabled.
*/
__STATIC_INLINE bool nrf_spis_int_enable_check(NRF_SPIS_Type const * p_spis,
nrf_spis_int_mask_t spis_int);
/**
* @brief Function for enabling the SPIS peripheral.
*
* @param[in] p_spis SPIS instance.
*/
__STATIC_INLINE void nrf_spis_enable(NRF_SPIS_Type * p_spis);
/**
* @brief Function for disabling the SPIS peripheral.
*
* @param[in] p_spis SPIS instance.
*/
__STATIC_INLINE void nrf_spis_disable(NRF_SPIS_Type * p_spis);
/**
* @brief Function for retrieving the SPIS semaphore status.
*
* @param[in] p_spis SPIS instance.
*
* @returns Current semaphore status.
*/
__STATIC_INLINE nrf_spis_semstat_t nrf_spis_semaphore_status_get(NRF_SPIS_Type * p_spis);
/**
* @brief Function for retrieving the SPIS status.
*
* @param[in] p_spis SPIS instance.
*
* @returns Current SPIS status.
*/
__STATIC_INLINE nrf_spis_status_mask_t nrf_spis_status_get(NRF_SPIS_Type * p_spis);
/**
* @brief Function for configuring SPIS pins.
*
* If a given signal is not needed, pass the @ref NRF_SPIS_PIN_NOT_CONNECTED
* value instead of its pin number.
*
* @param[in] p_spis SPIS instance.
* @param[in] sck_pin SCK pin number.
* @param[in] mosi_pin MOSI pin number.
* @param[in] miso_pin MISO pin number.
* @param[in] csn_pin CSN pin number.
*/
__STATIC_INLINE void nrf_spis_pins_set(NRF_SPIS_Type * p_spis,
uint32_t sck_pin,
uint32_t mosi_pin,
uint32_t miso_pin,
uint32_t csn_pin);
/**
* @brief Function for setting the transmit buffer.
*
* @param[in] p_spis SPIS instance.
* @param[in] p_buffer Pointer to the buffer that contains the data to send.
* @param[in] length Maximum number of data bytes to transmit.
*/
__STATIC_INLINE void nrf_spis_tx_buffer_set(NRF_SPIS_Type * p_spis,
uint8_t const * p_buffer,
uint8_t length);
/**
* @brief Function for setting the receive buffer.
*
* @param[in] p_spis SPIS instance.
* @param[in] p_buffer Pointer to the buffer for received data.
* @param[in] length Maximum number of data bytes to receive.
*/
__STATIC_INLINE void nrf_spis_rx_buffer_set(NRF_SPIS_Type * p_spis,
uint8_t * p_buffer,
uint8_t length);
/**
* @brief Function for getting the number of bytes transmitted
* in the last granted transaction.
*
* @param[in] p_spis SPIS instance.
*
* @returns Number of bytes transmitted.
*/
__STATIC_INLINE uint8_t nrf_spis_tx_amount_get(NRF_SPIS_Type const * p_spis);
/**
* @brief Function for getting the number of bytes received
* in the last granted transaction.
*
* @param[in] p_spis SPIS instance.
*
* @returns Number of bytes received.
*/
__STATIC_INLINE uint8_t nrf_spis_rx_amount_get(NRF_SPIS_Type const * p_spis);
/**
* @brief Function for setting the SPI configuration.
*
* @param[in] p_spis SPIS instance.
* @param[in] spi_mode SPI mode.
* @param[in] spi_bit_order SPI bit order.
*/
__STATIC_INLINE void nrf_spis_configure(NRF_SPIS_Type * p_spis,
nrf_spis_mode_t spi_mode,
nrf_spis_bit_order_t spi_bit_order);
/**
* @brief Function for setting the default character.
*
* @param[in] p_spis SPIS instance.
* @param[in] def Default character that is clocked out in case of
* an overflow of the RXD buffer.
*/
__STATIC_INLINE void nrf_spis_def_set(NRF_SPIS_Type * p_spis,
uint8_t def);
/**
* @brief Function for setting the over-read character.
*
* @param[in] p_spis SPIS instance.
* @param[in] orc Over-read character that is clocked out in case of
* an over-read of the TXD buffer.
*/
__STATIC_INLINE void nrf_spis_orc_set(NRF_SPIS_Type * p_spis,
uint8_t orc);
#ifndef SUPPRESS_INLINE_IMPLEMENTATION
__STATIC_INLINE void nrf_spis_task_trigger(NRF_SPIS_Type * p_spis,
nrf_spis_task_t spis_task)
{
*((volatile uint32_t *)((uint8_t *)p_spis + (uint32_t)spis_task)) = 0x1UL;
}
__STATIC_INLINE uint32_t nrf_spis_task_address_get(NRF_SPIS_Type const * p_spis,
nrf_spis_task_t spis_task)
{
return (uint32_t)p_spis + (uint32_t)spis_task;
}
__STATIC_INLINE void nrf_spis_event_clear(NRF_SPIS_Type * p_spis,
nrf_spis_event_t spis_event)
{
*((volatile uint32_t *)((uint8_t *)p_spis + (uint32_t)spis_event)) = 0x0UL;
}
__STATIC_INLINE bool nrf_spis_event_check(NRF_SPIS_Type const * p_spis,
nrf_spis_event_t spis_event)
{
return (bool)*(volatile uint32_t *)((uint8_t *)p_spis + (uint32_t)spis_event);
}
__STATIC_INLINE uint32_t nrf_spis_event_address_get(NRF_SPIS_Type const * p_spis,
nrf_spis_event_t spis_event)
{
return (uint32_t)p_spis + (uint32_t)spis_event;
}
__STATIC_INLINE void nrf_spis_shorts_enable(NRF_SPIS_Type * p_spis,
uint32_t spis_shorts_mask)
{
p_spis->SHORTS |= spis_shorts_mask;
}
__STATIC_INLINE void nrf_spis_shorts_disable(NRF_SPIS_Type * p_spis,
uint32_t spis_shorts_mask)
{
p_spis->SHORTS &= ~(spis_shorts_mask);
}
__STATIC_INLINE void nrf_spis_int_enable(NRF_SPIS_Type * p_spis,
uint32_t spis_int_mask)
{
p_spis->INTENSET = spis_int_mask;
}
__STATIC_INLINE void nrf_spis_int_disable(NRF_SPIS_Type * p_spis,
uint32_t spis_int_mask)
{
p_spis->INTENCLR = spis_int_mask;
}
__STATIC_INLINE bool nrf_spis_int_enable_check(NRF_SPIS_Type const * p_spis,
nrf_spis_int_mask_t spis_int)
{
return (bool)(p_spis->INTENSET & spis_int);
}
__STATIC_INLINE void nrf_spis_enable(NRF_SPIS_Type * p_spis)
{
p_spis->ENABLE = (SPIS_ENABLE_ENABLE_Enabled << SPIS_ENABLE_ENABLE_Pos);
}
__STATIC_INLINE void nrf_spis_disable(NRF_SPIS_Type * p_spis)
{
p_spis->ENABLE = (SPIS_ENABLE_ENABLE_Disabled << SPIS_ENABLE_ENABLE_Pos);
}
__STATIC_INLINE nrf_spis_semstat_t nrf_spis_semaphore_status_get(NRF_SPIS_Type * p_spis)
{
return (nrf_spis_semstat_t) ((p_spis->SEMSTAT & SPIS_SEMSTAT_SEMSTAT_Msk)
>> SPIS_SEMSTAT_SEMSTAT_Pos);
}
__STATIC_INLINE nrf_spis_status_mask_t nrf_spis_status_get(NRF_SPIS_Type * p_spis)
{
return (nrf_spis_status_mask_t) p_spis->STATUS;
}
__STATIC_INLINE void nrf_spis_pins_set(NRF_SPIS_Type * p_spis,
uint32_t sck_pin,
uint32_t mosi_pin,
uint32_t miso_pin,
uint32_t csn_pin)
{
p_spis->PSELSCK = sck_pin;
p_spis->PSELMOSI = mosi_pin;
p_spis->PSELMISO = miso_pin;
p_spis->PSELCSN = csn_pin;
}
__STATIC_INLINE void nrf_spis_tx_buffer_set(NRF_SPIS_Type * p_spis,
uint8_t const * p_buffer,
uint8_t length)
{
p_spis->TXDPTR = (uint32_t)p_buffer;
p_spis->MAXTX = length;
}
__STATIC_INLINE void nrf_spis_rx_buffer_set(NRF_SPIS_Type * p_spis,
uint8_t * p_buffer,
uint8_t length)
{
p_spis->RXDPTR = (uint32_t)p_buffer;
p_spis->MAXRX = length;
}
__STATIC_INLINE uint8_t nrf_spis_tx_amount_get(NRF_SPIS_Type const * p_spis)
{
return (uint8_t) p_spis->AMOUNTRX;
}
__STATIC_INLINE uint8_t nrf_spis_rx_amount_get(NRF_SPIS_Type const * p_spis)
{
return (uint8_t) p_spis->AMOUNTTX;
}
__STATIC_INLINE void nrf_spis_configure(NRF_SPIS_Type * p_spis,
nrf_spis_mode_t spi_mode,
nrf_spis_bit_order_t spi_bit_order)
{
uint32_t config = (spi_bit_order == NRF_SPIS_BIT_ORDER_MSB_FIRST ?
SPIS_CONFIG_ORDER_MsbFirst : SPIS_CONFIG_ORDER_LsbFirst);
switch (spi_mode)
{
default:
case NRF_SPIS_MODE_0:
config |= (SPIS_CONFIG_CPOL_ActiveHigh << SPIS_CONFIG_CPOL_Pos) |
(SPIS_CONFIG_CPHA_Leading << SPIS_CONFIG_CPHA_Pos);
break;
case NRF_SPIS_MODE_1:
config |= (SPIS_CONFIG_CPOL_ActiveHigh << SPIS_CONFIG_CPOL_Pos) |
(SPIS_CONFIG_CPHA_Trailing << SPIS_CONFIG_CPHA_Pos);
break;
case NRF_SPIS_MODE_2:
config |= (SPIS_CONFIG_CPOL_ActiveLow << SPIS_CONFIG_CPOL_Pos) |
(SPIS_CONFIG_CPHA_Leading << SPIS_CONFIG_CPHA_Pos);
break;
case NRF_SPIS_MODE_3:
config |= (SPIS_CONFIG_CPOL_ActiveLow << SPIS_CONFIG_CPOL_Pos) |
(SPIS_CONFIG_CPHA_Trailing << SPIS_CONFIG_CPHA_Pos);
break;
}
p_spis->CONFIG = config;
}
__STATIC_INLINE void nrf_spis_orc_set(NRF_SPIS_Type * p_spis,
uint8_t orc)
{
p_spis->ORC = orc;
}
__STATIC_INLINE void nrf_spis_def_set(NRF_SPIS_Type * p_spis,
uint8_t def)
{
p_spis->DEF = def;
}
#endif // SUPPRESS_INLINE_IMPLEMENTATION
#endif // NRF_SPIS_H__
/** @} */
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