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LibrePilot/flight/pios/stm32f4xx/pios_tim.c

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/**
******************************************************************************
* @addtogroup PIOS PIOS Core hardware abstraction layer
* @{
* @addtogroup PIOS_TIM Timer Functions
* @brief PIOS Timer control code
* @{
*
* @file pios_tim.c
* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2012.
* @brief Sets up timers and ways to register callbacks on them
* @see The GNU Public License (GPL) Version 3
*
*****************************************************************************/
/*
* This program 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.
*
* 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 General Public License
* for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
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#include "pios.h"
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#ifdef PIOS_INCLUDE_TIM
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#include "pios_tim_priv.h"
enum pios_tim_dev_magic {
PIOS_TIM_DEV_MAGIC = 0x87654098,
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};
struct pios_tim_dev {
enum pios_tim_dev_magic magic;
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const struct pios_tim_channel *channels;
uint8_t num_channels;
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const struct pios_tim_callbacks *callbacks;
uint32_t context;
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};
#define PIOS_TIM_ALL_FLAGS TIM_IT_CC1 | TIM_IT_CC2 | TIM_IT_CC3 | TIM_IT_CC4 | TIM_IT_Trigger | TIM_IT_Update
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static struct pios_tim_dev pios_tim_devs[PIOS_TIM_MAX_DEVS];
static uint8_t pios_tim_num_devs;
static struct pios_tim_dev *PIOS_TIM_alloc(void)
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{
struct pios_tim_dev *tim_dev;
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if (pios_tim_num_devs >= PIOS_TIM_MAX_DEVS) {
return NULL;
}
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tim_dev = &pios_tim_devs[pios_tim_num_devs++];
tim_dev->magic = PIOS_TIM_DEV_MAGIC;
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return tim_dev;
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}
int32_t PIOS_TIM_InitClock(const struct pios_tim_clock_cfg *cfg)
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{
PIOS_DEBUG_Assert(cfg);
/* Enable appropriate clock to timer module */
switch ((uint32_t)cfg->timer) {
case (uint32_t)TIM1:
RCC_APB2PeriphClockCmd(RCC_APB2Periph_TIM1, ENABLE);
break;
case (uint32_t)TIM2:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM2, ENABLE);
break;
case (uint32_t)TIM3:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM3, ENABLE);
break;
case (uint32_t)TIM4:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM4, ENABLE);
break;
case (uint32_t)TIM5:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM5, ENABLE);
break;
case (uint32_t)TIM6:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM6, ENABLE);
break;
case (uint32_t)TIM7:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM7, ENABLE);
break;
case (uint32_t)TIM8:
RCC_APB2PeriphClockCmd(RCC_APB2Periph_TIM8, ENABLE);
break;
case (uint32_t)TIM9:
RCC_APB2PeriphClockCmd(RCC_APB2Periph_TIM9, ENABLE);
break;
case (uint32_t)TIM10:
RCC_APB2PeriphClockCmd(RCC_APB2Periph_TIM10, ENABLE);
break;
case (uint32_t)TIM11:
RCC_APB2PeriphClockCmd(RCC_APB2Periph_TIM11, ENABLE);
break;
case (uint32_t)TIM12:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM12, ENABLE);
break;
case (uint32_t)TIM13:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM13, ENABLE);
break;
case (uint32_t)TIM14:
RCC_APB1PeriphClockCmd(RCC_APB1Periph_TIM14, ENABLE);
break;
}
/* Configure the dividers for this timer */
TIM_TimeBaseInit(cfg->timer, cfg->time_base_init);
/* Configure internal timer clocks */
TIM_InternalClockConfig(cfg->timer);
/* Enable timers */
TIM_Cmd(cfg->timer, ENABLE);
/* Enable Interrupts */
NVIC_Init(&cfg->irq.init);
return 0;
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}
int32_t PIOS_TIM_InitChannels(uint32_t *tim_id, const struct pios_tim_channel *channels, uint8_t num_channels, const struct pios_tim_callbacks *callbacks, uint32_t context)
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{
PIOS_Assert(channels);
PIOS_Assert(num_channels);
struct pios_tim_dev *tim_dev;
tim_dev = (struct pios_tim_dev *)PIOS_TIM_alloc();
if (!tim_dev) {
goto out_fail;
}
/* Bind the configuration to the device instance */
tim_dev->channels = channels;
tim_dev->num_channels = num_channels;
tim_dev->callbacks = callbacks;
tim_dev->context = context;
/* Configure the pins */
for (uint8_t i = 0; i < num_channels; i++) {
const struct pios_tim_channel *chan = &(channels[i]);
/* Enable the peripheral clock for the GPIO */
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/* switch ((uint32_t)chan->pin.gpio) {
case (uint32_t) GPIOA:
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOA, ENABLE);
break;
case (uint32_t) GPIOB:
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOB, ENABLE);
break;
case (uint32_t) GPIOC:
RCC_APB2PeriphClockCmd(RCC_APB2Periph_GPIOB, ENABLE);
break;
default:
PIOS_Assert(0);
break;
}
*/ // commented out for now as f4 starts all clocks
GPIO_Init(chan->pin.gpio, &chan->pin.init);
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PIOS_DEBUG_Assert(chan->remap);
// Second parameter should technically be PinSource but they are numerically the same
GPIO_PinAFConfig(chan->pin.gpio, chan->pin.pin_source, chan->remap);
}
*tim_id = (uint32_t)tim_dev;
return 0;
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out_fail:
return -1;
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}
static void PIOS_TIM_generic_irq_handler(TIM_TypeDef *timer)
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{
/* Iterate over all registered clients of the TIM layer to find channels on this timer */
for (uint8_t i = 0; i < pios_tim_num_devs; i++) {
const struct pios_tim_dev *tim_dev = &pios_tim_devs[i];
if (!tim_dev->channels || tim_dev->num_channels == 0) {
/* No channels to process on this client */
continue;
}
/* Check for an overflow event on this timer */
bool overflow_event;
uint16_t overflow_count;
if (TIM_GetITStatus(timer, TIM_IT_Update) == SET) {
TIM_ClearITPendingBit(timer, TIM_IT_Update);
overflow_count = timer->ARR;
overflow_event = true;
} else {
overflow_count = 0;
overflow_event = false;
}
for (uint8_t j = 0; j < tim_dev->num_channels; j++) {
const struct pios_tim_channel *chan = &tim_dev->channels[j];
if (chan->timer != timer) {
/* channel is not on this timer */
continue;
}
/* Figure out which interrupt bit we should be looking at */
uint16_t timer_it;
switch (chan->timer_chan) {
case TIM_Channel_1:
timer_it = TIM_IT_CC1;
break;
case TIM_Channel_2:
timer_it = TIM_IT_CC2;
break;
case TIM_Channel_3:
timer_it = TIM_IT_CC3;
break;
case TIM_Channel_4:
timer_it = TIM_IT_CC4;
break;
default:
PIOS_Assert(0);
break;
}
bool edge_event;
uint16_t edge_count;
if (TIM_GetITStatus(chan->timer, timer_it) == SET) {
TIM_ClearITPendingBit(chan->timer, timer_it);
/* Read the current counter */
switch (chan->timer_chan) {
case TIM_Channel_1:
edge_count = TIM_GetCapture1(chan->timer);
break;
case TIM_Channel_2:
edge_count = TIM_GetCapture2(chan->timer);
break;
case TIM_Channel_3:
edge_count = TIM_GetCapture3(chan->timer);
break;
case TIM_Channel_4:
edge_count = TIM_GetCapture4(chan->timer);
break;
default:
PIOS_Assert(0);
break;
}
edge_event = true;
} else {
edge_event = false;
edge_count = 0;
}
if (!tim_dev->callbacks) {
/* No callbacks registered, we're done with this channel */
continue;
}
/* Generate the appropriate callbacks */
if (overflow_event & edge_event) {
/*
* When both edge and overflow happen in the same interrupt, we
* need a heuristic to determine the order of the edge and overflow
* events so that the callbacks happen in the right order. If we
* get the order wrong, our pulse width calculations could be off by up
* to ARR ticks. That could be bad.
*
* Heuristic: If the edge_count is < 16 ticks above zero then we assume the
* edge happened just after the overflow.
*/
if (edge_count < 16) {
/* Call the overflow callback first */
if (tim_dev->callbacks->overflow) {
(*tim_dev->callbacks->overflow)((uint32_t)tim_dev,
tim_dev->context,
j,
overflow_count);
}
/* Call the edge callback second */
if (tim_dev->callbacks->edge) {
(*tim_dev->callbacks->edge)((uint32_t)tim_dev,
tim_dev->context,
j,
edge_count);
}
} else {
/* Call the edge callback first */
if (tim_dev->callbacks->edge) {
(*tim_dev->callbacks->edge)((uint32_t)tim_dev,
tim_dev->context,
j,
edge_count);
}
/* Call the overflow callback second */
if (tim_dev->callbacks->overflow) {
(*tim_dev->callbacks->overflow)((uint32_t)tim_dev,
tim_dev->context,
j,
overflow_count);
}
}
} else if (overflow_event && tim_dev->callbacks->overflow) {
(*tim_dev->callbacks->overflow)((uint32_t)tim_dev,
tim_dev->context,
j,
overflow_count);
} else if (edge_event && tim_dev->callbacks->edge) {
(*tim_dev->callbacks->edge)((uint32_t)tim_dev,
tim_dev->context,
j,
edge_count);
}
}
}
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}
/* Bind Interrupt Handlers
*
* Map all valid TIM IRQs to the common interrupt handler
* and give it enough context to properly demux the various timers
*/
void TIM1_CC_IRQHandler(void) __attribute__((alias("PIOS_TIM_1_CC_irq_handler")));
static void PIOS_TIM_1_CC_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM1);
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}
void TIM2_IRQHandler(void) __attribute__((alias("PIOS_TIM_2_irq_handler")));
static void PIOS_TIM_2_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM2);
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}
void TIM3_IRQHandler(void) __attribute__((alias("PIOS_TIM_3_irq_handler")));
static void PIOS_TIM_3_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM3);
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}
void TIM4_IRQHandler(void) __attribute__((alias("PIOS_TIM_4_irq_handler")));
static void PIOS_TIM_4_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM4);
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}
void TIM5_IRQHandler(void) __attribute__((alias("PIOS_TIM_5_irq_handler")));
static void PIOS_TIM_5_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM5);
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}
void TIM6_IRQHandler(void) __attribute__((alias("PIOS_TIM_6_irq_handler")));
static void PIOS_TIM_6_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM6);
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}
void TIM7_IRQHandler(void) __attribute__((alias("PIOS_TIM_7_irq_handler")));
static void PIOS_TIM_7_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM7);
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}
void TIM8_UP_IRQHandler(void) __attribute__((alias("PIOS_TIM_8_UP_irq_handler")));
static void PIOS_TIM_8_UP_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM8);
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}
void TIM8_CC_IRQHandler(void) __attribute__((alias("PIOS_TIM_8_CC_irq_handler")));
static void PIOS_TIM_8_CC_irq_handler(void)
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{
PIOS_TIM_generic_irq_handler(TIM8);
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}
// The rest of TIM1 interrupts are overlapped
void TIM1_BRK_TIM9_IRQHandler(void) __attribute__((alias("PIOS_TIM_9_CC_irq_handler")));
static void PIOS_TIM_9_CC_irq_handler(void)
{
if (TIM_GetITStatus(TIM1, TIM_IT_Break)) {
PIOS_TIM_generic_irq_handler(TIM1);
} else if (TIM_GetITStatus(TIM9, PIOS_TIM_ALL_FLAGS)) {
PIOS_TIM_generic_irq_handler(TIM9);
}
}
void TIM1_UP_TIM10_IRQHandler(void) __attribute__((alias("PIOS_TIM_10_CC_irq_handler")));
static void PIOS_TIM_10_CC_irq_handler(void)
{
if (TIM_GetITStatus(TIM1, TIM_IT_Update)) {
PIOS_TIM_generic_irq_handler(TIM1);
} else if (TIM_GetITStatus(TIM10, PIOS_TIM_ALL_FLAGS)) {
PIOS_TIM_generic_irq_handler(TIM10);
}
}
void TIM1_TRG_COM_TIM11_IRQHandler(void) __attribute__((alias("PIOS_TIM_11_CC_irq_handler")));
static void PIOS_TIM_11_CC_irq_handler(void)
{
if (TIM_GetITStatus(TIM1, TIM_IT_COM | TIM_IT_Trigger)) {
PIOS_TIM_generic_irq_handler(TIM1);
} else if (TIM_GetITStatus(TIM11, PIOS_TIM_ALL_FLAGS)) {
PIOS_TIM_generic_irq_handler(TIM11);
}
}
void TIM8_BRK_TIM12_IRQHandler(void) __attribute__((alias("PIOS_TIM_12_irq_handler")));
static void PIOS_TIM_12_irq_handler(void)
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{
if (TIM_GetITStatus(TIM8, TIM_IT_Break)) {
PIOS_TIM_generic_irq_handler(TIM8);
} else if (TIM_GetITStatus(TIM12, PIOS_TIM_ALL_FLAGS)) {
PIOS_TIM_generic_irq_handler(TIM12);
}
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}
void TIM8_UP_TIM13_IRQHandler(void) __attribute__((alias("PIOS_TIM8_UP_TIM13_IRQHandler")));
static void PIOS_TIM8_UP_TIM13_IRQHandler(void)
{
if (TIM_GetITStatus(TIM8, TIM_IT_Update)) {
PIOS_TIM_generic_irq_handler(TIM8);
} else if (TIM_GetITStatus(TIM13, PIOS_TIM_ALL_FLAGS)) {
PIOS_TIM_generic_irq_handler(TIM13);
}
}
void TIM8_TRG_COM_TIM14_IRQHandler(void) __attribute__((alias("PIOS_TIM8_TRG_COM_TIM14_IRQHandler")));
static void PIOS_TIM8_TRG_COM_TIM14_IRQHandler(void)
{
if (TIM_GetITStatus(TIM8, TIM_IT_COM | TIM_IT_Trigger)) {
PIOS_TIM_generic_irq_handler(TIM8);
} else if (TIM_GetITStatus(TIM14, PIOS_TIM_ALL_FLAGS)) {
PIOS_TIM_generic_irq_handler(TIM14);
}
}
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#endif /* PIOS_INCLUDE_TIM */
/**
* @}
* @}
*/