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amiro-os / periphery-lld / aos_periphAL.c @ ae8211ea

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1 e545e620 Thomas Schöpping
/*
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AMiRo-OS is an operating system designed for the Autonomous Mini Robot (AMiRo) platform.
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Copyright (C) 2016..2019  Thomas Schöpping et al.
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
9

10
This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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GNU General Public License for more details.
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15
You should have received a copy of the GNU General Public License
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along with this program.  If not, see <http://www.gnu.org/licenses/>.
17
*/
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#include <periphAL.h>
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/*============================================================================*/
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/* DEBUG                                                                      */
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/*============================================================================*/
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#if (AMIROOS_CFG_DBG == true)
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#include <amiroos.h>
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#include <chprintf.h>
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void apalDbgAssertMsg(const bool c, const char* fmt, ...)
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{
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  if (!c) {
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    va_list ap;
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    va_start(ap, fmt);
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    chvprintf((BaseSequentialStream*)&aos.iostream, fmt, ap);
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    va_end(ap);
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    chThdExit(MSG_RESET);
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  }
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  return;
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}
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int apalDbgPrintf(const char* fmt, ...)
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{
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  va_list ap;
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  va_start(ap, fmt);
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  const int chars = chvprintf((BaseSequentialStream*)&aos.iostream, fmt, ap);
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  va_end(ap);
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  return chars;
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}
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#endif /* (AMIROOS_CFG_DBG == true) */
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/*============================================================================*/
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/* TIMING                                                                     */
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/*============================================================================*/
60
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#if (AMIROOS_CFG_DBG == true)
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void apalSleep(apalTime_t us)
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{
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  // check if the specified time can be represented by the system
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  apalDbgAssert(us <= chTimeI2US(TIME_INFINITE));
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  const sysinterval_t interval = chTimeUS2I(us);
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  // TIME_IMMEDIATE makes no sense and would even cause system halt
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  if (interval != TIME_IMMEDIATE) {
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    chThdSleep(interval);
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  }
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  return;
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}
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#endif /* (AMIROOS_CFG_DBG == true) */
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/*============================================================================*/
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/* GPIO                                                                       */
81
/*============================================================================*/
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#if (HAL_USE_PAL == TRUE)
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apalExitStatus_t apalGpioRead(apalGpio_t* gpio, apalGpioState_t* const val)
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{
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  apalDbgAssert(gpio != NULL);
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  apalDbgAssert(val != NULL);
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  *val = (palReadLine(gpio->line) == PAL_HIGH) ? APAL_GPIO_HIGH : APAL_GPIO_LOW;
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalGpioWrite(apalGpio_t* gpio, const apalGpioState_t val)
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{
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  apalDbgAssert(gpio != NULL);
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  // palWriteLine() is not guaranteed to be atomic, thus the scheduler is locked.
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  syssts_t sysstatus = chSysGetStatusAndLockX();
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  palWriteLine(gpio->line, (val == APAL_GPIO_HIGH) ? PAL_HIGH : PAL_LOW);
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  chSysRestoreStatusX(sysstatus);
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalGpioToggle(apalGpio_t* gpio)
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{
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  apalDbgAssert(gpio != NULL);
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  // palWriteLine() is not guaranteed to be atomic, thus the scheduler is locked.
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  syssts_t sysstatus = chSysGetStatusAndLockX();
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  palWriteLine(gpio->line, (palReadLine(gpio->line) == PAL_HIGH) ? PAL_LOW : PAL_HIGH);
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  chSysRestoreStatusX(sysstatus);
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalGpioIsInterruptEnabled(apalGpio_t* gpio, bool* const enabled)
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{
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  apalDbgAssert(gpio != NULL);
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  apalDbgAssert(enabled != NULL);
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  *enabled = palIsLineEventEnabledX(gpio->line);
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalControlGpioGet(const apalControlGpio_t* const cgpio, apalControlGpioState_t* const val)
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{
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  apalDbgAssert(cgpio != NULL);
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  apalDbgAssert(cgpio->gpio != NULL);
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  apalDbgAssert(val != NULL);
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  *val = ((palReadLine(cgpio->gpio->line) == PAL_HIGH) ^ (cgpio->meta.active == APAL_GPIO_ACTIVE_HIGH)) ? APAL_GPIO_OFF : APAL_GPIO_ON;
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalControlGpioSet(const apalControlGpio_t* const cgpio, const apalControlGpioState_t val)
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{
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  apalDbgAssert(cgpio != NULL);
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  apalDbgAssert(cgpio->gpio != NULL);
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  apalDbgAssert(cgpio->meta.direction == APAL_GPIO_DIRECTION_OUTPUT || cgpio->meta.direction == APAL_GPIO_DIRECTION_BIDIRECTIONAL);
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  // palWriteLine() is not guaranteed to be atomic, thus the scheduler is locked.
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  syssts_t sysstatus = chSysGetStatusAndLockX();
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  palWriteLine(cgpio->gpio->line, ((cgpio->meta.active == APAL_GPIO_ACTIVE_HIGH) ^ (val == APAL_GPIO_ON)) ? PAL_LOW : PAL_HIGH);
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  chSysRestoreStatusX(sysstatus);
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalControlGpioSetInterrupt(const apalControlGpio_t* const cgpio, const bool enable)
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{
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  apalDbgAssert(cgpio != NULL);
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  apalDbgAssert(cgpio->gpio != NULL);
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  if (enable) {
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    apalDbgAssert(pal_lld_get_line_event(cgpio->gpio->line) != NULL);
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    palEnableLineEvent(cgpio->gpio->line, APAL2CH_EDGE(cgpio->meta.edge));
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  } else {
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    palDisableLineEvent(cgpio->gpio->line);
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  }
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  return APAL_STATUS_OK;
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}
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#endif /* (HAL_USE_PAL == TRUE) */
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/*============================================================================*/
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/* PWM                                                                        */
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/*============================================================================*/
174
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#if (HAL_USE_PWM == TRUE)
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apalExitStatus_t apalPWMSet(apalPWMDriver_t* pwm, const apalPWMchannel_t channel, const apalPWMwidth_t width)
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{
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  apalDbgAssert(pwm != NULL);
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  pwmEnableChannel(pwm, (pwmchannel_t)channel, pwm->period * ((float)width / (float)APAL_PWM_WIDTH_MAX) + 0.5f);
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalPWMGetFrequency(apalPWMDriver_t* pwm, apalPWMfrequency_t* const frequency)
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{
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  apalDbgAssert(pwm != NULL);
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  apalDbgAssert(frequency != NULL);
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  *frequency = pwm->config->frequency;
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalPWMGetPeriod(apalPWMDriver_t* pwm, apalPWMperiod_t* const period)
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{
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  apalDbgAssert(pwm != NULL);
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  apalDbgAssert(period != NULL);
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  *period = pwm->period;
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  return APAL_STATUS_OK;
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}
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#endif /* (HAL_USE_PWM == TRUE) */
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/*============================================================================*/
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/* QEI                                                                        */
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/*============================================================================*/
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#if (HAL_USE_QEI == TRUE)
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apalExitStatus_t apalQEIGetDirection(apalQEIDriver_t* qei, apalQEIDirection_t* const direction)
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{
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  apalDbgAssert(qei != NULL);
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  apalDbgAssert(direction != NULL);
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  *direction = (qei_lld_get_direction(qei)) ? APAL_QEI_DIRECTION_DOWN : APAL_QEI_DIRECTION_UP;
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalQEIGetPosition(apalQEIDriver_t* qei, apalQEICount_t* const position)
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{
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  apalDbgAssert(qei != NULL);
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  apalDbgAssert(position != NULL);
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  *position = qei_lld_get_position(qei);
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  return APAL_STATUS_OK;
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}
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apalExitStatus_t apalQEIGetRange(apalQEIDriver_t* qei, apalQEICount_t* const range)
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{
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  apalDbgAssert(qei != NULL);
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  apalDbgAssert(range != NULL);
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  *range = qei_lld_get_range(qei);
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  return APAL_STATUS_OK;
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}
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#endif /* (HAL_USE_QEI == TRUE) */
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/*============================================================================*/
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/* I2C                                                                        */
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/*============================================================================*/
249
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#if (HAL_USE_I2C == TRUE) || defined(__DOXYGEN__)
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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)
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{
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  apalDbgAssert(i2cd != NULL);
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#if (I2C_USE_MUTUAL_EXCLUSION == TRUE)
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  // check whether the I2C driver was locked externally
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  const bool i2cd_locked_external = i2cd->mutex.owner == currp;
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  if (!i2cd_locked_external) {
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    i2cAcquireBus(i2cd);
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  }
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#endif /* (I2C_USE_MUTUAL_EXCLUSION == TRUE) */
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wtype-limits"
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#if defined(STM32F1XX_I2C)
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  // Due to a hardware limitation, for STM32F1 platform the minimum number of bytes that can be received is two.
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  msg_t status = MSG_OK;
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  if (rxbytes == 1) {
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    uint8_t buffer[2];
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    status = i2cMasterTransmitTimeout(i2cd, addr, txbuf, txbytes, buffer, 2, ((timeout >= TIME_INFINITE) ? TIME_INFINITE : TIME_US2I(timeout)) );
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    rxbuf[0] = buffer[0];
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  } else {
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    status = i2cMasterTransmitTimeout(i2cd, addr, txbuf, txbytes, rxbuf, rxbytes, ((timeout >= TIME_INFINITE) ? TIME_INFINITE : TIME_US2I(timeout)) );
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  }
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#else /* defined(STM32F1XX_I2C) */
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  const msg_t status = i2cMasterTransmitTimeout(i2cd, addr, txbuf, txbytes, rxbuf, rxbytes, ((timeout >= TIME_INFINITE) ? TIME_INFINITE : TIME_US2I(timeout)) );
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#endif /* defined(STM32F1XX_I2C) */
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#pragma GCC diagnostic pop
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#if (I2C_USE_MUTUAL_EXCLUSION == TRUE)
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  if (!i2cd_locked_external) {
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    i2cReleaseBus(i2cd);
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  }
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#endif /* (I2C_USE_MUTUAL_EXCLUSION == TRUE) */
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  switch (status)
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  {
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    case MSG_OK:
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#if defined(STM32F1XX_I2C)
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      return (rxbytes != 1) ? APAL_STATUS_OK : APAL_STATUS_WARNING;
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#else /* defined(STM32F1XX_I2C) */
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      return APAL_STATUS_OK;
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#endif /* defined(STM32F1XX_I2C) */
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    case MSG_TIMEOUT:
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      return APAL_STATUS_TIMEOUT;
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    case MSG_RESET:
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    default:
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      return APAL_STATUS_ERROR;
300
  }
301
}
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apalExitStatus_t apalI2CMasterReceive(apalI2CDriver_t* i2cd, const apalI2Caddr_t addr, uint8_t* const rxbuf, const size_t rxbytes, const apalTime_t timeout)
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{
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  apalDbgAssert(i2cd != NULL);
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#if (I2C_USE_MUTUAL_EXCLUSION == TRUE)
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  // check whether the I2C driver was locked externally
309
  const bool i2cd_locked_external = i2cd->mutex.owner == currp;
310
  if (!i2cd_locked_external) {
311
    i2cAcquireBus(i2cd);
312
  }
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#endif /* (I2C_USE_MUTUAL_EXCLUSION == TRUE) */
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#pragma GCC diagnostic push
316
#pragma GCC diagnostic ignored "-Wtype-limits"
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#if defined(STM32F1XX_I2C)
318
  // Due to a hardware limitation, for STM32F1 platform the minimum number of bytes that can be received is two.
319
  msg_t status = MSG_OK;
320
  if (rxbytes == 1) {
321
    uint8_t buffer[2];
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    status = i2cMasterReceiveTimeout(i2cd, addr, buffer, 2, ((timeout >= TIME_INFINITE) ? TIME_INFINITE : TIME_US2I(timeout)) );
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    rxbuf[0] = buffer[0];
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  } else {
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    status = i2cMasterReceiveTimeout(i2cd, addr, rxbuf, rxbytes, ((timeout >= TIME_INFINITE) ? TIME_INFINITE : TIME_US2I(timeout)) );
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  }
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#else /* defined(STM32F1XX_I2C) */
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  const msg_t status = i2cMasterReceiveTimeout(i2cd, addr, rxbuf, rxbytes, ((timeout >= TIME_INFINITE) ? TIME_INFINITE : TIME_US2I(timeout)) );
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#endif /* defined(STM32F1XX_I2C) */
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#pragma GCC diagnostic pop
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332
#if (I2C_USE_MUTUAL_EXCLUSION == TRUE)
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  if (!i2cd_locked_external) {
334
    i2cReleaseBus(i2cd);
335
  }
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#endif /* (I2C_USE_MUTUAL_EXCLUSION == TRUE) */
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338
  switch (status)
339
  {
340
    case MSG_OK:
341
#if defined(STM32F1XX_I2C)
342
      return (rxbytes != 1) ? APAL_STATUS_OK : APAL_STATUS_WARNING;
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#else /* defined(STM32F1XX_I2C) */
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      return APAL_STATUS_OK;
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#endif /* defined(STM32F1XX_I2C) */
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    case MSG_TIMEOUT:
347
      return APAL_STATUS_TIMEOUT;
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    case MSG_RESET:
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    default:
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      return APAL_STATUS_ERROR;
351
  }
352
}
353
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#endif /* (HAL_USE_I2C == TRUE) */
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356
/*============================================================================*/
357
/* SPI                                                                        */
358
/*============================================================================*/
359
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#if (HAL_USE_SPI == TRUE) || defined(__DOXYGEN__)
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apalExitStatus_t apalSPITransmit(apalSPIDriver_t* spid, const uint8_t* const data, const size_t length)
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{
364
  apalDbgAssert(spid != NULL);
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#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
367
  // check whether the SPI driver was locked externally
368
  const bool spid_locked_external = spid->mutex.owner == currp;
369
  if (!spid_locked_external) {
370
    spiAcquireBus(spid);
371
  }
372
#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
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  spiSelect(spid);
375
  spiSend(spid, length, data);
376
  spiUnselect(spid);
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#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
379
  if (!spid_locked_external) {
380
    spiReleaseBus(spid);
381
  }
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#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
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384
  return APAL_STATUS_OK;
385
}
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apalExitStatus_t apalSPIReceive(apalSPIDriver_t* spid, uint8_t* const data, const size_t length)
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{
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  apalDbgAssert(spid != NULL);
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#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
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  // check whether the SPI driver was locked externally
393
  const bool spid_locked_external = spid->mutex.owner == currp;
394
  if (!spid_locked_external) {
395
    spiAcquireBus(spid);
396
  }
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#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
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  spiSelect(spid);
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  spiReceive(spid, length, data);
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  spiUnselect(spid);
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#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
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  if (!spid_locked_external) {
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    spiReleaseBus(spid);
406
  }
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#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
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  return APAL_STATUS_OK;
410
}
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apalExitStatus_t apalSPITransmitAndReceive(apalSPIDriver_t* spid, const uint8_t* const txData , uint8_t* const rxData, const size_t txLength, const size_t rxLength)
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{
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  apalDbgAssert(spid != NULL);
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#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
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  // check whether the SPI driver was locked externally
418
  const bool spid_locked_external = spid->mutex.owner == currp;
419
  if (!spid_locked_external) {
420
    spiAcquireBus(spid);
421
  }
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#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
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  spiSelect(spid);
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  spiSend(spid, txLength, txData);
426
  spiReceive(spid, rxLength, rxData);
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  spiUnselect(spid);
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#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
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  if (!spid_locked_external) {
431
    spiReleaseBus(spid);
432
  }
433 7de0cc90 Thomas Schöpping
#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
434 e545e620 Thomas Schöpping
435
  return APAL_STATUS_OK;
436
}
437
438 dd56d656 Thomas Schöpping
apalExitStatus_t apalSPIExchange(apalSPIDriver_t* spid, const uint8_t* const txData , uint8_t* const rxData, const size_t length)
439 e545e620 Thomas Schöpping
{
440 1f94ac64 Thomas Schöpping
  apalDbgAssert(spid != NULL);
441 e545e620 Thomas Schöpping
442 7de0cc90 Thomas Schöpping
#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
443 5ab6a6a4 Thomas Schöpping
  // check whether the SPI driver was locked externally
444
  const bool spid_locked_external = spid->mutex.owner == currp;
445
  if (!spid_locked_external) {
446
    spiAcquireBus(spid);
447
  }
448 7de0cc90 Thomas Schöpping
#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
449 5ab6a6a4 Thomas Schöpping
450 e545e620 Thomas Schöpping
  spiSelect(spid);
451 dd56d656 Thomas Schöpping
  spiExchange(spid, length, txData, rxData);
452 e545e620 Thomas Schöpping
  spiUnselect(spid);
453 5ab6a6a4 Thomas Schöpping
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#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
455 5ab6a6a4 Thomas Schöpping
  if (!spid_locked_external) {
456
    spiReleaseBus(spid);
457
  }
458 7de0cc90 Thomas Schöpping
#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
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460
  return APAL_STATUS_OK;
461
}
462
463 dd56d656 Thomas Schöpping
apalExitStatus_t apalSPIReconfigure(apalSPIDriver_t* spid, const apalSPIConfig_t* config)
464 e251c4e6 Robin Ewers
{
465 1f94ac64 Thomas Schöpping
  apalDbgAssert(spid != NULL);
466 dd56d656 Thomas Schöpping
  apalDbgAssert(config != NULL);
467 e251c4e6 Robin Ewers
468 7de0cc90 Thomas Schöpping
#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
469 5ab6a6a4 Thomas Schöpping
  // check whether the SPI driver was locked externally
470
  const bool spid_locked_external = spid->mutex.owner == currp;
471
  if (!spid_locked_external) {
472
    spiAcquireBus(spid);
473
  }
474 7de0cc90 Thomas Schöpping
#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
475 5ab6a6a4 Thomas Schöpping
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  spiStop(spid);
477
  spiStart(spid, config);
478 5ab6a6a4 Thomas Schöpping
479 7de0cc90 Thomas Schöpping
#if (SPI_USE_MUTUAL_EXCLUSION == TRUE)
480 5ab6a6a4 Thomas Schöpping
  if (!spid_locked_external) {
481
    spiReleaseBus(spid);
482
  }
483 7de0cc90 Thomas Schöpping
#endif /* (SPI_USE_MUTUAL_EXCLUSION == TRUE) */
484 e545e620 Thomas Schöpping
485
  return APAL_STATUS_OK;
486
}
487
488 7de0cc90 Thomas Schöpping
#endif /* (HAL_USE_SPI == TRUE) */