AMiRo-OS

/*

AMiRo-LLD is a compilation of low-level hardware drivers for the Autonomous Mini Robot (AMiRo) platform.

Copyright (C) 2016..2019  Thomas Schöpping et al.

This program is free software: you can redistribute it and/or modify

it under the terms of the GNU Lesser General Public License as published by

the Free Software Foundation, either version 3 of the License, or

(at your option) any later version.

This program is distributed in the hope that it will be useful,

but WITHOUT ANY WARRANTY; without even the implied warranty of

MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

GNU Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public License

along with this program.  If not, see <http://www.gnu.org/licenses/>.

*/

#ifndef AMIROLLD_PERIPHAL_H

#define AMIROLLD_PERIPHAL_H

#include <amiro-lld.h>

/*============================================================================*/

/* VERSION                                                                    */

/*============================================================================*/

/**

 * @brief   The periphery abstraction layer interface major version.

 * @note    Changes of the major version imply incompatibilities.

 */

#define PERIPHAL_VERSION_MAJOR    1

/**

 * @brief   The periphery abstraction layer interface minor version.

 * @note    A higher minor version implies new functionalty, but all old interfaces are still available.

 */

#define PERIPHAL_VERSION_MINOR    0

/*============================================================================*/

/* DEPENDENCIES                                                               */

/*============================================================================*/

/*============================================================================*/

/* GENERAL                                                                    */

/*============================================================================*/

#ifdef __cplusplus

extern "C" {

#endif

/**

 * @brief Delay execution by a specific number of microseconds.

 *

 * @param[in]   us    Time to sleep until execution continues in microseconds.

 */

void usleep(apalTime_t us);

#ifdef __cplusplus

}

#endif

/*============================================================================*/

/* GPIO                                                                       */

/*============================================================================*/

typedef osGpio_t apalGpio_t;

#ifdef __cplusplus

extern "C" {

#endif

/**

 * @brief Read the current value of a GPIO pin.

 *

 * @param[in]   gpio  GPIO to read.

 * @param[out]  val   Current value of the GPIO.

 *

 * @return The status indicates whether the function call was successful.

 */

apalExitStatus_t apalGpioRead(apalGpio_t* gpio, apalGpioState_t* const val);

/**

 * @brief Set the value of a GPIO pin.

 *

 * @param[in] gpio  GPIO to write.

 * @param[in] val   Value to set for the GPIO.

 *

 * @return The status indicates whether the function call was successful.

 */

apalExitStatus_t apalGpioWrite(apalGpio_t* gpio, const apalGpioState_t val);

/**

 * @brief Toggle the output of a GPIO.

 *

 * @param[in] gpio  GPIO to toggle.

 *

 * @return The status indicates whether the function call was successful.

 */

apalExitStatus_t apalGpioToggle(apalGpio_t* gpio);

/**

 * @brief Get the current on/off state of a control GPIO.

 *

 * @param[in]   gpio  Control GPIO to read.

 * @param[out]  val   Current activation status of the control GPIO.

 *

 * @return The status indicates whether the function call was successful.

 */

apalExitStatus_t apalControlGpioGet(const apalControlGpio_t* const cgpio, apalControlGpioState_t* const val);

/**

 * @brief Turn a control GPIO 'on' or 'off' respectively.

 *

 * @param[in] gpio  Control GPIO to set.

 * @param[in] val   Activation value to set for the control GPIO.

 *

 * @return The status indicates whether the function call was successful.

 */

apalExitStatus_t apalControlGpioSet(const apalControlGpio_t* const cgpio, const apalControlGpioState_t val);

#ifdef __cplusplus

}

#endif

/*============================================================================*/

/* PWM                                                                        */

/*============================================================================*/

/**

 * @brief PWM driver type.

 */

typedef osPWMDriver_t apalPWMDriver_t;

#ifdef __cplusplus

extern "C" {

#endif

/**

 * @brief   Set the PWM with given parameters.

 *

 * @param[in] pwm       PWM driver to set.

 * @param[in] channel   Channel of the PWM driver to set.

 * @param[in] width     Width to set the channel to.

 *

 * @return  The status indicates whether the function call was successful.

 */

apalExitStatus_t apalPWMSet(apalPWMDriver_t* pwm, const apalPWMchannel_t channel, const apalPWMwidth_t width);

/**

 * @brief   Retrieve the current frequency of the PWM.

 *

 * @param[in]  pwm        PWM driver to read.

 * @param[out] frequency  The currently set frequency.

 *

 * @return  The status indicates whether the function call was successful.

 */

apalExitStatus_t apalPWMGetFrequency(apalPWMDriver_t* pwm, apalPWMfrequency_t* const frequency);

/**

 * @brief   Retrieve the current period of the PWM.

 *

 * @param[in]   pwm     PWM driver to read.

 * @param[out]  period  The currently set period.

 *

 * @return  The status indicates whether the function call was successful.

 */

apalExitStatus_t apalPWMGetPeriod(apalPWMDriver_t* pwm, apalPWMperiod_t* const period);

#ifdef __cplusplus

}

#endif

/*============================================================================*/

/* QEI                                                                        */

/*============================================================================*/

/**

 * @brief QEI driver type.

 */

typedef osQEIDriver_t apaQEIDriver_t;

#ifdef __cplusplus

extern "C" {

#endif

/**

 * @brief Gets the direction of the last transition.

 *

 * @param[in]   qei         The QEI driver to use.

 * @param[out]  direction   The direction of the last transition.

 *

 * @return The status indicates whether the function call was successful.

 */

apalExitStatus_t apalQEIGetDirection(apalQEIDriver_t* qei, apalQEIDirection_t* const direction);

/**

 * @brief Gets the current position of the ecnoder.

 *

 * @param[in]   qei       The QEI driver to use.

 * @param[out]  position  The current position of the encoder.

 *

 * @return The status indicates whether the function call was successful.

 */

apalExitStatus_t apalQEIGetPosition(apalQEIDriver_t* qei, apalQEICount_t* const position);

/**

 * @brief Gets the value range of the encoder.

 *

 * @param[in]   qei     The QEI driver to use.

 * @param[out]  range   The value range of the encoder.

 *

 * @return The status indicates whether the function call was successful.

 */

apalExitStatus_t apalQEIGetRange(apalQEIDriver_t* qei, apalQEICount_t* const range);

#ifdef __cplusplus

}

#endif

/*============================================================================*/

/* I2C                                                                        */

/*============================================================================*/

/**

 * @brief I2C driver type.

 */

typedef osI2CDriver_t apalI2CDriver_t;

#ifdef __cplusplus

extern "C" {

#endif

/**

 * @brief Transmit data and receive a response.

 *

 * @param[in]   i2cd      The I2C driver to use.

 * @param[in]   addr      Address to write to.

 * @param[in]   txbuf     Buffer containing data to send.

 * @param[in]   txbytes   Number of bytes to send.

 * @param[out]  rxbuf     Buffer to store a response to.

 * @param[in]   rxbytes   Number of bytes to receive.

 * @param[in]   timeout   Timeout for the function to return (in microseconds).

 *

 * @return The status indicates whether the function call was succesful or a timeout occurred.

 */

apalExitStatus_t apalI2CMasterTransmit(apalI2CDriver_t* i2cd, const apalI2Caddr_t addr, const uint8_t* const txbuf, const size_t txbytes, uint8_t* const rxbuf, const size_t rxbytes, const apalTime_t timeout);

/**

 * @brief Read data from a specific address.

 *

 * @param[in]   i2cd      The I2C driver to use.

 * @param[in]   addr      Address to read.

 * @param[out]  rxbuf     Buffer to store the response to.

 * @param[in]   rxbytes   Number of bytes to receive.

 * @param[in]   timeout   Timeout for the function to return (in microseconds).

 *

 * @return The status indicates whether the function call was succesful or a timeout occurred.

 */

apalExitStatus_t apalI2CMasterReceive(apalI2CDriver_t* i2cd, const apalI2Caddr_t addr, uint8_t* const rxbuf, const size_t rxbytes, const apalTime_t timeout);

#ifdef __cplusplus

}

#endif

/*============================================================================*/

/* SPI                                                                        */

/*============================================================================*/

/**

 * @brief SPI driver type.

 */

typedef osSPIDriver_t apalSPIDriver_t;

#ifdef __cplusplus

extern "C" {

#endif

/**

 * @brief Transmit and receive data from SPI

 *

 * @param[in]   spid      The SPI driver to use.

 * @param[in]   txData    Buffer containing data to send.

 * @param[out]  rxData    Buffer to store.

 * @param[in]   length    Number of bytes to send.

 *

 * @return The status indicates whether the function call was succesful.

 */

apalExitStatus_t apalSPIExchange(apalSPIDriver_t* spid, const uint8_t* const txData , uint8_t* const rxData, const size_t length);

/**

 * @brief Receive data from SPI

 *

 * @param[in]   spid      The SPI driver to use.

 * @param[out]  data      Buffer to store.

 * @param[in]   length    Number of bytes to send.

 *

 * @return The status indicates whether the function call was succesful.

 */

apalExitStatus_t apalSPIReceive(apalSPIDriver_t* spid, uint8_t* const data, const size_t length);

/**

 * @brief Transmit data to SPI

 *

 * @param[in]   spid      The SPI driver to use.

 * @param[in]   data      Buffer containing data to send.

 * @param[in]   length    Number of bytes to send.

 *

 * @return The status indicates whether the function call was succesful.

 */

apalExitStatus_t apalSPITransmit(apalSPIDriver_t* spid, const uint8_t* const data, const size_t length);

/**

 * @brief Transmit data to SPI and receive data afterwards without releasing the bus in between.

 *

 * @param[in]   spid        The SPI driver to use.

 * @param[in]   txData      Transmit data buffer.

 * @param[in]   rxData      Receive data buffer.

 * @param[in]   txLength    Number of bytes to send.

 * @param[in]   rxLength    Number of bytes to receive.

 *

 * @return The status indicates whether the function call was succesful.

 */

static inline apalExitStatus_t apalSPITransmitAndReceive(apalSPIDriver_t* spid, const uint8_t* const txData , uint8_t* const rxData, const size_t txLength, const size_t rxLength);

#ifdef __cplusplus

}

#endif

/*============================================================================*/

/* DEBUG                                                                      */

/*============================================================================*/

#ifdef __cplusplus

extern "C" {

#endif

/**

 * @brief Assert function to check a given condition.

 * @note  Using a macro is preferable.

 *

 * @param[in] c   The condition to check.

 */

void apalDbgAssert(bool c);

/**

 * @brief Printf function for messages printed only in debug builds.

 *

 * @param[in] fmt   Formatted string to print.

 */

void apalDbgPrintf(fmt, ...);

#ifdef __cplusplus

}

#endif

#endif /* AMIROOS_PERIPHAL_H */