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/*
ChibiOS/RT - Copyright (C) 2006,2007,2008,2009,2010,
2011,2012 Giovanni Di Sirio.
This file is part of ChibiOS/RT.
ChibiOS/RT is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
ChibiOS/RT 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
---
A special exception to the GPL can be applied should you wish to distribute
a combined work that includes ChibiOS/RT, without being obliged to provide
the source code for any proprietary components. See the file exception.txt
for full details of how and when the exception can be applied.
*/
/**
* @file STM32/gpt_lld.c
* @brief STM32 GPT subsystem low level driver source.
*
* @addtogroup GPT
* @{
*/
#include "ch.h"
#include "hal.h"
#if HAL_USE_GPT || defined(__DOXYGEN__)
/*===========================================================================*/
/* Driver exported variables. */
/*===========================================================================*/
/**
* @brief GPTD1 driver identifier.
* @note The driver GPTD1 allocates the complex timer TIM1 when enabled.
*/
#if STM32_GPT_USE_TIM1 || defined(__DOXYGEN__)
GPTDriver GPTD1;
#endif
/**
* @brief GPTD2 driver identifier.
* @note The driver GPTD2 allocates the timer TIM2 when enabled.
*/
#if STM32_GPT_USE_TIM2 || defined(__DOXYGEN__)
GPTDriver GPTD2;
#endif
/**
* @brief GPTD3 driver identifier.
* @note The driver GPTD3 allocates the timer TIM3 when enabled.
*/
#if STM32_GPT_USE_TIM3 || defined(__DOXYGEN__)
GPTDriver GPTD3;
#endif
/**
* @brief GPTD4 driver identifier.
* @note The driver GPTD4 allocates the timer TIM4 when enabled.
*/
#if STM32_GPT_USE_TIM4 || defined(__DOXYGEN__)
GPTDriver GPTD4;
#endif
/**
* @brief GPTD5 driver identifier.
* @note The driver GPTD5 allocates the timer TIM5 when enabled.
*/
#if STM32_GPT_USE_TIM5 || defined(__DOXYGEN__)
GPTDriver GPTD5;
#endif
/**
* @brief GPTD8 driver identifier.
* @note The driver GPTD8 allocates the timer TIM8 when enabled.
*/
#if STM32_GPT_USE_TIM8 || defined(__DOXYGEN__)
GPTDriver GPTD8;
#endif
/*===========================================================================*/
/* Driver local variables. */
/*===========================================================================*/
/*===========================================================================*/
/* Driver local functions. */
/*===========================================================================*/
/**
* @brief Shared IRQ handler.
*
* @param[in] gptp pointer to a @p GPTDriver object
*/
static void gpt_lld_serve_interrupt(GPTDriver *gptp) {
gptp->tim->SR = 0;
if (gptp->state == GPT_ONESHOT) {
gptp->state = GPT_READY; /* Back in GPT_READY state. */
gpt_lld_stop_timer(gptp); /* Timer automatically stopped. */
}
gptp->config->callback(gptp);
}
/*===========================================================================*/
/* Driver interrupt handlers. */
/*===========================================================================*/
#if STM32_GPT_USE_TIM1
/**
* @brief TIM2 interrupt handler.
*
* @isr
*/
CH_IRQ_HANDLER(TIM1_UP_IRQHandler) {
CH_IRQ_PROLOGUE();
gpt_lld_serve_interrupt(&GPTD1);
CH_IRQ_EPILOGUE();
}
#endif /* STM32_GPT_USE_TIM1 */
#if STM32_GPT_USE_TIM2
/**
* @brief TIM2 interrupt handler.
*
* @isr
*/
CH_IRQ_HANDLER(TIM2_IRQHandler) {
CH_IRQ_PROLOGUE();
gpt_lld_serve_interrupt(&GPTD2);
CH_IRQ_EPILOGUE();
}
#endif /* STM32_GPT_USE_TIM2 */
#if STM32_GPT_USE_TIM3
/**
* @brief TIM3 interrupt handler.
*
* @isr
*/
CH_IRQ_HANDLER(TIM3_IRQHandler) {
CH_IRQ_PROLOGUE();
gpt_lld_serve_interrupt(&GPTD3);
CH_IRQ_EPILOGUE();
}
#endif /* STM32_GPT_USE_TIM3 */
#if STM32_GPT_USE_TIM4
/**
* @brief TIM4 interrupt handler.
*
* @isr
*/
CH_IRQ_HANDLER(TIM4_IRQHandler) {
CH_IRQ_PROLOGUE();
gpt_lld_serve_interrupt(&GPTD4);
CH_IRQ_EPILOGUE();
}
#endif /* STM32_GPT_USE_TIM4 */
#if STM32_GPT_USE_TIM5
/**
* @brief TIM5 interrupt handler.
*
* @isr
*/
CH_IRQ_HANDLER(TIM5_IRQHandler) {
CH_IRQ_PROLOGUE();
gpt_lld_serve_interrupt(&GPTD5);
CH_IRQ_EPILOGUE();
}
#endif /* STM32_GPT_USE_TIM5 */
#if STM32_GPT_USE_TIM8
/**
* @brief TIM8 interrupt handler.
*
* @isr
*/
CH_IRQ_HANDLER(TIM8_UP_IRQHandler) {
CH_IRQ_PROLOGUE();
gpt_lld_serve_interrupt(&GPTD8);
CH_IRQ_EPILOGUE();
}
#endif /* STM32_GPT_USE_TIM8 */
/*===========================================================================*/
/* Driver exported functions. */
/*===========================================================================*/
/**
* @brief Low level GPT driver initialization.
*
* @notapi
*/
void gpt_lld_init(void) {
#if STM32_GPT_USE_TIM1
/* Driver initialization.*/
GPTD1.tim = STM32_TIM1;
gptObjectInit(&GPTD1);
#endif
#if STM32_GPT_USE_TIM2
/* Driver initialization.*/
GPTD2.tim = STM32_TIM2;
gptObjectInit(&GPTD2);
#endif
#if STM32_GPT_USE_TIM3
/* Driver initialization.*/
GPTD3.tim = STM32_TIM3;
gptObjectInit(&GPTD3);
#endif
#if STM32_GPT_USE_TIM4
/* Driver initialization.*/
GPTD4.tim = STM32_TIM4;
gptObjectInit(&GPTD4);
#endif
#if STM32_GPT_USE_TIM5
/* Driver initialization.*/
GPTD5.tim = STM32_TIM5;
gptObjectInit(&GPTD5);
#endif
#if STM32_GPT_USE_TIM8
/* Driver initialization.*/
GPTD8.tim = STM32_TIM8;
gptObjectInit(&GPTD8);
#endif
}
/**
* @brief Configures and activates the GPT peripheral.
*
* @param[in] gptp pointer to the @p GPTDriver object
*
* @notapi
*/
void gpt_lld_start(GPTDriver *gptp) {
uint16_t psc;
if (gptp->state == GPT_STOP) {
/* Clock activation.*/
#if STM32_GPT_USE_TIM1
if (&GPTD1 == gptp) {
rccEnableTIM1(FALSE);
rccResetTIM1();
nvicEnableVector(TIM1_UP_IRQn,
CORTEX_PRIORITY_MASK(STM32_GPT_TIM1_IRQ_PRIORITY));
gptp->clock = STM32_TIMCLK2;
}
#endif
#if STM32_GPT_USE_TIM2
if (&GPTD2 == gptp) {
rccEnableTIM2(FALSE);
rccResetTIM2();
nvicEnableVector(TIM2_IRQn,
CORTEX_PRIORITY_MASK(STM32_GPT_TIM2_IRQ_PRIORITY));
gptp->clock = STM32_TIMCLK1;
}
#endif
#if STM32_GPT_USE_TIM3
if (&GPTD3 == gptp) {
rccEnableTIM3(FALSE);
rccResetTIM3();
nvicEnableVector(TIM3_IRQn,
CORTEX_PRIORITY_MASK(STM32_GPT_TIM3_IRQ_PRIORITY));
gptp->clock = STM32_TIMCLK1;
}
#endif
#if STM32_GPT_USE_TIM4
if (&GPTD4 == gptp) {
rccEnableTIM4(FALSE);
rccResetTIM4();
nvicEnableVector(TIM4_IRQn,
CORTEX_PRIORITY_MASK(STM32_GPT_TIM4_IRQ_PRIORITY));
gptp->clock = STM32_TIMCLK1;
}
#endif
#if STM32_GPT_USE_TIM5
if (&GPTD5 == gptp) {
rccEnableTIM5(FALSE);
rccResetTIM5();
nvicEnableVector(TIM5_IRQn,
CORTEX_PRIORITY_MASK(STM32_GPT_TIM5_IRQ_PRIORITY));
gptp->clock = STM32_TIMCLK1;
}
#endif
#if STM32_GPT_USE_TIM8
if (&GPTD8 == gptp) {
rccEnableTIM8(FALSE);
rccResetTIM8();
nvicEnableVector(TIM8_UP_IRQn,
CORTEX_PRIORITY_MASK(STM32_GPT_TIM8_IRQ_PRIORITY));
gptp->clock = STM32_TIMCLK2;
}
#endif
}
/* Prescaler value calculation.*/
psc = (uint16_t)((gptp->clock / gptp->config->frequency) - 1);
chDbgAssert(((uint32_t)(psc + 1) * gptp->config->frequency) == gptp->clock,
"gpt_lld_start(), #1", "invalid frequency");
/* Timer configuration.*/
gptp->tim->CR1 = 0; /* Initially stopped. */
gptp->tim->CR2 = TIM_CR2_CCDS; /* DMA on UE (if any). */
gptp->tim->PSC = psc; /* Prescaler value. */
gptp->tim->DIER = 0;
}
/**
* @brief Deactivates the GPT peripheral.
*
* @param[in] gptp pointer to the @p GPTDriver object
*
* @notapi
*/
void gpt_lld_stop(GPTDriver *gptp) {
if (gptp->state == GPT_READY) {
gptp->tim->CR1 = 0; /* Timer disabled. */
gptp->tim->DIER = 0; /* All IRQs disabled. */
gptp->tim->SR = 0; /* Clear eventual pending IRQs. */
#if STM32_GPT_USE_TIM1
if (&GPTD1 == gptp) {
nvicDisableVector(TIM1_UP_IRQn);
rccDisableTIM1(FALSE);
}
#endif
#if STM32_GPT_USE_TIM2
if (&GPTD2 == gptp) {
nvicDisableVector(TIM2_IRQn);
rccDisableTIM2(FALSE);
}
#endif
#if STM32_GPT_USE_TIM3
if (&GPTD3 == gptp) {
nvicDisableVector(TIM3_IRQn);
rccDisableTIM3(FALSE);
}
#endif
#if STM32_GPT_USE_TIM4
if (&GPTD4 == gptp) {
nvicDisableVector(TIM4_IRQn);
rccDisableTIM4(FALSE);
}
#endif
#if STM32_GPT_USE_TIM5
if (&GPTD5 == gptp) {
nvicDisableVector(TIM5_IRQn);
rccDisableTIM5(FALSE);
}
#endif
#if STM32_GPT_USE_TIM8
if (&GPTD8 == gptp) {
nvicDisableVector(TIM8_UP_IRQn);
rccDisableTIM8(FALSE);
}
#endif
}
}
/**
* @brief Starts the timer in continuous mode.
*
* @param[in] gptp pointer to the @p GPTDriver object
* @param[in] interval period in ticks
*
* @notapi
*/
void gpt_lld_start_timer(GPTDriver *gptp, gptcnt_t interval) {
gptp->tim->ARR = interval - 1; /* Time constant. */
gptp->tim->EGR = TIM_EGR_UG; /* Update event. */
gptp->tim->CNT = 0; /* Reset counter. */
/* NOTE: After generating the UG event it takes several clock cycles before
SR bit 0 goes to 1. This is because the clearing of CNT has been inserted
before the clearing of SR, to give it some time.*/
gptp->tim->SR = 0; /* Clear pending IRQs (if any). */
gptp->tim->DIER = TIM_DIER_UIE; /* Update Event IRQ enabled. */
gptp->tim->CR1 = TIM_CR1_URS | TIM_CR1_CEN;
}
/**
* @brief Stops the timer.
*
* @param[in] gptp pointer to the @p GPTDriver object
*
* @notapi
*/
void gpt_lld_stop_timer(GPTDriver *gptp) {
gptp->tim->CR1 = 0; /* Initially stopped. */
gptp->tim->SR = 0; /* Clear pending IRQs (if any). */
gptp->tim->DIER = 0; /* Interrupts disabled. */
}
/**
* @brief Starts the timer in one shot mode and waits for completion.
* @details This function specifically polls the timer waiting for completion
* in order to not have extra delays caused by interrupt servicing,
* this function is only recommended for short delays.
*
* @param[in] gptp pointer to the @p GPTDriver object
* @param[in] interval time interval in ticks
*
* @notapi
*/
void gpt_lld_polled_delay(GPTDriver *gptp, gptcnt_t interval) {
gptp->tim->ARR = interval - 1; /* Time constant. */
gptp->tim->EGR = TIM_EGR_UG; /* Update event. */
gptp->tim->SR = 0; /* Clear pending IRQs (if any). */
gptp->tim->CR1 = TIM_CR1_OPM | TIM_CR1_URS | TIM_CR1_CEN;
while (!(gptp->tim->SR & TIM_SR_UIF))
;
}
#endif /* HAL_USE_GPT */
/** @} */
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