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# include <stdint.h>
# include <stdio.h>
# include <string.h>
# include <stm32f4xx_hal.h>
# include "usbd_cdc_msc_hid.h"
# include "usbd_cdc_interface.h"
# include "nlr.h"
# include "misc.h"
# include "mpconfig.h"
# include "qstr.h"
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# include "gc.h"
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# include "obj.h"
# include "runtime.h"
# include "timer.h"
# include "servo.h"
// The timers can be used by multiple drivers, and need a common point for
// the interrupts to be dispatched, so they are all collected here.
//
// TIM3:
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// - flash storage controller, to flush the cache
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// - USB CDC interface, interval, to check for new data
// - LED 4, PWM to set the LED intensity
//
// TIM5:
// - servo controller, PWM
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//
// TIM6:
// - ADC, DAC for read_timed and write_timed
//
// Python usage model:
//
// tim = pyb.Timer(4, freq=100) # freq in Hz
// tim = pyb.Timer(4, prescaler=1, period=100)
// tim.counter() # get counter (can also set)
// tim.prescaler(2) # set prescaler (can also get)
// tim.period(200) # set period (can also get)
// tim.callback(lambda t: ...) # set callback for update interrupt (t=tim instance)
// tim.callback(None) # clear callback
typedef struct _pyb_timer_obj_t {
mp_obj_base_t base ;
machine_uint_t tim_id ;
mp_obj_t callback ;
TIM_HandleTypeDef tim ;
IRQn_Type irqn ;
} pyb_timer_obj_t ;
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TIM_HandleTypeDef TIM3_Handle ;
TIM_HandleTypeDef TIM5_Handle ;
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TIM_HandleTypeDef TIM6_Handle ;
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// Used to divide down TIM3 and periodically call the flash storage IRQ
static uint32_t tim3_counter = 0 ;
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// Used to do callbacks to Python code on interrupt
STATIC pyb_timer_obj_t * pyb_timer_obj_all [ 14 ] ;
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# define PYB_TIMER_OBJ_ALL_NUM ARRAY_SIZE(pyb_timer_obj_all)
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void timer_init0 ( void ) {
tim3_counter = 0 ;
for ( uint i = 0 ; i < PYB_TIMER_OBJ_ALL_NUM ; i + + ) {
pyb_timer_obj_all [ i ] = NULL ;
}
}
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// TIM3 is set-up for the USB CDC interface
void timer_tim3_init ( void ) {
// set up the timer for USBD CDC
__TIM3_CLK_ENABLE ( ) ;
TIM3_Handle . Instance = TIM3 ;
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TIM3_Handle . Init . Period = ( USBD_CDC_POLLING_INTERVAL * 1000 ) - 1 ; // TIM3 fires every USBD_CDC_POLLING_INTERVAL ms
TIM3_Handle . Init . Prescaler = 84 - 1 ; // for System clock at 168MHz, TIM3 runs at 1MHz
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TIM3_Handle . Init . ClockDivision = 0 ;
TIM3_Handle . Init . CounterMode = TIM_COUNTERMODE_UP ;
HAL_TIM_Base_Init ( & TIM3_Handle ) ;
HAL_NVIC_SetPriority ( TIM3_IRQn , 6 , 0 ) ;
HAL_NVIC_EnableIRQ ( TIM3_IRQn ) ;
if ( HAL_TIM_Base_Start ( & TIM3_Handle ) ! = HAL_OK ) {
/* Starting Error */
}
}
/* unused
void timer_tim3_deinit ( void ) {
// reset TIM3 timer
__TIM3_FORCE_RESET ( ) ;
__TIM3_RELEASE_RESET ( ) ;
}
*/
// TIM5 is set-up for the servo controller
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// This function inits but does not start the timer
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void timer_tim5_init ( void ) {
// TIM5 clock enable
__TIM5_CLK_ENABLE ( ) ;
// set up and enable interrupt
HAL_NVIC_SetPriority ( TIM5_IRQn , 6 , 0 ) ;
HAL_NVIC_EnableIRQ ( TIM5_IRQn ) ;
// PWM clock configuration
TIM5_Handle . Instance = TIM5 ;
TIM5_Handle . Init . Period = 2000 ; // timer cycles at 50Hz
TIM5_Handle . Init . Prescaler = ( ( SystemCoreClock / 2 ) / 100000 ) - 1 ; // timer runs at 100kHz
TIM5_Handle . Init . ClockDivision = 0 ;
TIM5_Handle . Init . CounterMode = TIM_COUNTERMODE_UP ;
HAL_TIM_PWM_Init ( & TIM5_Handle ) ;
}
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// Init TIM6 with a counter-overflow at the given frequency (given in Hz)
// TIM6 is used by the DAC and ADC for auto sampling at a given frequency
// This function inits but does not start the timer
void timer_tim6_init ( uint freq ) {
// TIM6 clock enable
__TIM6_CLK_ENABLE ( ) ;
// Timer runs at SystemCoreClock / 2
// Compute the prescaler value so TIM6 triggers at freq-Hz
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uint32_t period = MAX ( 1 , ( SystemCoreClock / 2 ) / freq ) ;
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uint32_t prescaler = 1 ;
while ( period > 0xffff ) {
period > > = 1 ;
prescaler < < = 1 ;
}
// Time base clock configuration
TIM6_Handle . Instance = TIM6 ;
TIM6_Handle . Init . Period = period - 1 ;
TIM6_Handle . Init . Prescaler = prescaler - 1 ;
TIM6_Handle . Init . ClockDivision = 0 ; // unused for TIM6
TIM6_Handle . Init . CounterMode = TIM_COUNTERMODE_UP ; // unused for TIM6
HAL_TIM_Base_Init ( & TIM6_Handle ) ;
}
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// Interrupt dispatch
void HAL_TIM_PeriodElapsedCallback ( TIM_HandleTypeDef * htim ) {
if ( htim = = & TIM3_Handle ) {
USBD_CDC_HAL_TIM_PeriodElapsedCallback ( ) ;
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// Periodically raise a flash IRQ for the flash storage controller
if ( tim3_counter + + > = 500 / USBD_CDC_POLLING_INTERVAL ) {
tim3_counter = 0 ;
NVIC - > STIR = FLASH_IRQn ;
}
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} else if ( htim = = & TIM5_Handle ) {
servo_timer_irq_callback ( ) ;
}
}
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/******************************************************************************/
/* Micro Python bindings */
STATIC void pyb_timer_print ( void ( * print ) ( void * env , const char * fmt , . . . ) , void * env , mp_obj_t self_in , mp_print_kind_t kind ) {
pyb_timer_obj_t * self = self_in ;
if ( self - > tim . State = = HAL_TIM_STATE_RESET ) {
print ( env , " Timer(%u) " , self - > tim_id ) ;
} else {
print ( env , " Timer(%u, prescaler=%u, period=%u, mode=%u, div=%u) " ,
self - > tim_id ,
self - > tim . Init . Prescaler ,
self - > tim . Init . Period ,
self - > tim . Init . CounterMode ,
self - > tim . Init . ClockDivision
) ;
}
}
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STATIC const mp_arg_t pyb_timer_init_args [ ] = {
{ MP_QSTR_freq , MP_ARG_KW_ONLY | MP_ARG_INT , { . u_int = 0xffffffff } } ,
{ MP_QSTR_prescaler , MP_ARG_KW_ONLY | MP_ARG_INT , { . u_int = 0xffffffff } } ,
{ MP_QSTR_period , MP_ARG_KW_ONLY | MP_ARG_INT , { . u_int = 0xffffffff } } ,
{ MP_QSTR_mode , MP_ARG_KW_ONLY | MP_ARG_INT , { . u_int = TIM_COUNTERMODE_UP } } ,
{ MP_QSTR_div , MP_ARG_KW_ONLY | MP_ARG_INT , { . u_int = TIM_CLOCKDIVISION_DIV1 } } ,
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} ;
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# define PYB_TIMER_INIT_NUM_ARGS ARRAY_SIZE(pyb_timer_init_args)
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STATIC mp_obj_t pyb_timer_init_helper ( pyb_timer_obj_t * self , uint n_args , const mp_obj_t * args , mp_map_t * kw_args ) {
// parse args
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mp_arg_val_t vals [ PYB_TIMER_INIT_NUM_ARGS ] ;
mp_arg_parse_all ( n_args , args , kw_args , PYB_TIMER_INIT_NUM_ARGS , pyb_timer_init_args , vals ) ;
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// set the TIM configuration values
TIM_Base_InitTypeDef * init = & self - > tim . Init ;
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if ( vals [ 0 ] . u_int ! = 0xffffffff ) {
// set prescaler and period from frequency
if ( vals [ 0 ] . u_int = = 0 ) {
nlr_raise ( mp_obj_new_exception_msg ( & mp_type_ValueError , " can't have 0 frequency " ) ) ;
}
// work out TIM's clock source
uint tim_clock ;
if ( self - > tim_id = = 1 | | ( 8 < = self - > tim_id & & self - > tim_id < = 11 ) ) {
// TIM{1,8,9,10,11} are on APB2
tim_clock = HAL_RCC_GetPCLK2Freq ( ) ;
} else {
// TIM{2,3,4,5,6,7,12,13,14} are on APB1
tim_clock = HAL_RCC_GetPCLK1Freq ( ) ;
}
// compute the prescaler value so TIM triggers at freq-Hz
// dpgeorge: I don't understand why we need to multiply tim_clock by 2
uint32_t period = MAX ( 1 , 2 * tim_clock / vals [ 0 ] . u_int ) ;
uint32_t prescaler = 1 ;
while ( period > 0xffff ) {
period > > = 1 ;
prescaler < < = 1 ;
}
init - > Prescaler = prescaler - 1 ;
init - > Period = period - 1 ;
} else if ( vals [ 1 ] . u_int ! = 0xffffffff & & vals [ 2 ] . u_int ! = 0xffffffff ) {
// set prescaler and period directly
init - > Prescaler = vals [ 1 ] . u_int ;
init - > Period = vals [ 2 ] . u_int ;
} else {
nlr_raise ( mp_obj_new_exception_msg ( & mp_type_TypeError , " must specify either freq, or prescaler and period " ) ) ;
}
init - > CounterMode = vals [ 3 ] . u_int ;
init - > ClockDivision = vals [ 4 ] . u_int ;
init - > RepetitionCounter = 0 ;
// init the TIM peripheral
switch ( self - > tim_id ) {
case 1 : __TIM1_CLK_ENABLE ( ) ; break ;
case 2 : __TIM2_CLK_ENABLE ( ) ; break ;
case 3 : __TIM3_CLK_ENABLE ( ) ; break ;
case 4 : __TIM4_CLK_ENABLE ( ) ; break ;
case 5 : __TIM5_CLK_ENABLE ( ) ; break ;
case 6 : __TIM6_CLK_ENABLE ( ) ; break ;
case 7 : __TIM7_CLK_ENABLE ( ) ; break ;
case 8 : __TIM8_CLK_ENABLE ( ) ; break ;
case 9 : __TIM9_CLK_ENABLE ( ) ; break ;
case 10 : __TIM10_CLK_ENABLE ( ) ; break ;
case 11 : __TIM11_CLK_ENABLE ( ) ; break ;
case 12 : __TIM12_CLK_ENABLE ( ) ; break ;
case 13 : __TIM13_CLK_ENABLE ( ) ; break ;
case 14 : __TIM14_CLK_ENABLE ( ) ; break ;
}
HAL_TIM_Base_Init ( & self - > tim ) ;
HAL_TIM_Base_Start ( & self - > tim ) ;
// set the priority (if not a special timer)
if ( self - > tim_id ! = 3 & & self - > tim_id ! = 5 ) {
HAL_NVIC_SetPriority ( self - > irqn , 0xe , 0xe ) ; // next-to lowest priority
}
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return mp_const_none ;
}
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STATIC mp_obj_t pyb_timer_make_new ( mp_obj_t type_in , uint n_args , uint n_kw , const mp_obj_t * args ) {
// check arguments
mp_arg_check_num ( n_args , n_kw , 1 , MP_OBJ_FUN_ARGS_MAX , true ) ;
// create new Timer object
pyb_timer_obj_t * tim = m_new_obj ( pyb_timer_obj_t ) ;
tim - > base . type = & pyb_timer_type ;
tim - > callback = mp_const_none ;
memset ( & tim - > tim , 0 , sizeof ( tim - > tim ) ) ;
// get TIM number
tim - > tim_id = mp_obj_get_int ( args [ 0 ] ) ;
switch ( tim - > tim_id ) {
case 1 : tim - > tim . Instance = TIM1 ; tim - > irqn = TIM1_UP_TIM10_IRQn ; break ;
case 2 : tim - > tim . Instance = TIM2 ; tim - > irqn = TIM2_IRQn ; break ;
case 3 : nlr_raise ( mp_obj_new_exception_msg ( & mp_type_ValueError , " Timer 3 is for internal use only " ) ) ; // TIM3 used for low-level stuff; go via regs if necessary
case 4 : tim - > tim . Instance = TIM4 ; tim - > irqn = TIM4_IRQn ; break ;
case 5 : tim - > tim . Instance = TIM5 ; tim - > irqn = TIM5_IRQn ; break ;
case 6 : tim - > tim . Instance = TIM6 ; tim - > irqn = TIM6_DAC_IRQn ; break ;
case 7 : tim - > tim . Instance = TIM7 ; tim - > irqn = TIM7_IRQn ; break ;
case 8 : tim - > tim . Instance = TIM8 ; tim - > irqn = TIM8_UP_TIM13_IRQn ; break ;
case 9 : tim - > tim . Instance = TIM9 ; tim - > irqn = TIM1_BRK_TIM9_IRQn ; break ;
case 10 : tim - > tim . Instance = TIM10 ; tim - > irqn = TIM1_UP_TIM10_IRQn ; break ;
case 11 : tim - > tim . Instance = TIM11 ; tim - > irqn = TIM1_TRG_COM_TIM11_IRQn ; break ;
case 12 : tim - > tim . Instance = TIM12 ; tim - > irqn = TIM8_BRK_TIM12_IRQn ; break ;
case 13 : tim - > tim . Instance = TIM13 ; tim - > irqn = TIM8_UP_TIM13_IRQn ; break ;
case 14 : tim - > tim . Instance = TIM14 ; tim - > irqn = TIM8_TRG_COM_TIM14_IRQn ; break ;
default : nlr_raise ( mp_obj_new_exception_msg_varg ( & mp_type_ValueError , " Timer %d does not exist " , tim - > tim_id ) ) ;
}
if ( n_args > 1 | | n_kw > 0 ) {
// start the peripheral
mp_map_t kw_args ;
mp_map_init_fixed_table ( & kw_args , n_kw , args + n_args ) ;
pyb_timer_init_helper ( tim , n_args - 1 , args + 1 , & kw_args ) ;
}
// set the global variable for interrupt callbacks
if ( tim - > tim_id - 1 < PYB_TIMER_OBJ_ALL_NUM ) {
pyb_timer_obj_all [ tim - > tim_id - 1 ] = tim ;
}
return ( mp_obj_t ) tim ;
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}
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STATIC mp_obj_t pyb_timer_init ( uint n_args , const mp_obj_t * args , mp_map_t * kw_args ) {
return pyb_timer_init_helper ( args [ 0 ] , n_args - 1 , args + 1 , kw_args ) ;
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}
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STATIC MP_DEFINE_CONST_FUN_OBJ_KW ( pyb_timer_init_obj , 1 , pyb_timer_init ) ;
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STATIC mp_obj_t pyb_timer_deinit ( mp_obj_t self_in ) {
//pyb_timer_obj_t *self = self_in;
// TODO implement me
return mp_const_none ;
}
STATIC MP_DEFINE_CONST_FUN_OBJ_1 ( pyb_timer_deinit_obj , pyb_timer_deinit ) ;
mp_obj_t pyb_timer_counter ( uint n_args , const mp_obj_t * args ) {
pyb_timer_obj_t * self = args [ 0 ] ;
if ( n_args = = 1 ) {
// get
return mp_obj_new_int ( self - > tim . Instance - > CNT ) ;
} else {
// set
__HAL_TIM_SetCounter ( & self - > tim , mp_obj_get_int ( args [ 1 ] ) ) ;
return mp_const_none ;
}
}
STATIC MP_DEFINE_CONST_FUN_OBJ_VAR_BETWEEN ( pyb_timer_counter_obj , 1 , 2 , pyb_timer_counter ) ;
mp_obj_t pyb_timer_prescaler ( uint n_args , const mp_obj_t * args ) {
pyb_timer_obj_t * self = args [ 0 ] ;
if ( n_args = = 1 ) {
// get
return mp_obj_new_int ( self - > tim . Instance - > PSC & 0xffff ) ;
} else {
// set
self - > tim . Init . Prescaler = self - > tim . Instance - > PSC = mp_obj_get_int ( args [ 1 ] ) & 0xffff ;
return mp_const_none ;
}
}
STATIC MP_DEFINE_CONST_FUN_OBJ_VAR_BETWEEN ( pyb_timer_prescaler_obj , 1 , 2 , pyb_timer_prescaler ) ;
mp_obj_t pyb_timer_period ( uint n_args , const mp_obj_t * args ) {
pyb_timer_obj_t * self = args [ 0 ] ;
if ( n_args = = 1 ) {
// get
return mp_obj_new_int ( self - > tim . Instance - > ARR & 0xffff ) ;
} else {
// set
__HAL_TIM_SetAutoreload ( & self - > tim , mp_obj_get_int ( args [ 1 ] ) & 0xffff ) ;
return mp_const_none ;
}
}
STATIC MP_DEFINE_CONST_FUN_OBJ_VAR_BETWEEN ( pyb_timer_period_obj , 1 , 2 , pyb_timer_period ) ;
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STATIC mp_obj_t pyb_timer_callback ( mp_obj_t self_in , mp_obj_t callback ) {
pyb_timer_obj_t * self = self_in ;
if ( callback = = mp_const_none ) {
// stop interrupt (but not timer)
__HAL_TIM_DISABLE_IT ( & self - > tim , TIM_IT_UPDATE ) ;
self - > callback = mp_const_none ;
} else if ( mp_obj_is_callable ( callback ) ) {
self - > callback = callback ;
HAL_NVIC_EnableIRQ ( self - > irqn ) ;
// start timer, so that it interrupts on overflow
HAL_TIM_Base_Start_IT ( & self - > tim ) ;
} else {
nlr_raise ( mp_obj_new_exception_msg ( & mp_type_ValueError , " callback must be None or a callable object " ) ) ;
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}
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return mp_const_none ;
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}
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STATIC MP_DEFINE_CONST_FUN_OBJ_2 ( pyb_timer_callback_obj , pyb_timer_callback ) ;
STATIC const mp_map_elem_t pyb_timer_locals_dict_table [ ] = {
// instance methods
{ MP_OBJ_NEW_QSTR ( MP_QSTR_init ) , ( mp_obj_t ) & pyb_timer_init_obj } ,
{ MP_OBJ_NEW_QSTR ( MP_QSTR_deinit ) , ( mp_obj_t ) & pyb_timer_deinit_obj } ,
{ MP_OBJ_NEW_QSTR ( MP_QSTR_counter ) , ( mp_obj_t ) & pyb_timer_counter_obj } ,
{ MP_OBJ_NEW_QSTR ( MP_QSTR_prescaler ) , ( mp_obj_t ) & pyb_timer_prescaler_obj } ,
{ MP_OBJ_NEW_QSTR ( MP_QSTR_period ) , ( mp_obj_t ) & pyb_timer_period_obj } ,
{ MP_OBJ_NEW_QSTR ( MP_QSTR_callback ) , ( mp_obj_t ) & pyb_timer_callback_obj } ,
} ;
STATIC MP_DEFINE_CONST_DICT ( pyb_timer_locals_dict , pyb_timer_locals_dict_table ) ;
const mp_obj_type_t pyb_timer_type = {
{ & mp_type_type } ,
. name = MP_QSTR_Timer ,
. print = pyb_timer_print ,
. make_new = pyb_timer_make_new ,
. locals_dict = ( mp_obj_t ) & pyb_timer_locals_dict ,
} ;
void timer_irq_handler ( uint tim_id ) {
if ( tim_id - 1 < PYB_TIMER_OBJ_ALL_NUM ) {
// get the timer object
pyb_timer_obj_t * tim = pyb_timer_obj_all [ tim_id - 1 ] ;
if ( tim = = NULL ) {
// timer object has not been set, so we can't do anything
return ;
}
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// see if it was a TIM update event (the only event we currently interrupt on)
if ( __HAL_TIM_GET_FLAG ( & tim - > tim , TIM_FLAG_UPDATE ) ! = RESET ) {
if ( __HAL_TIM_GET_ITSTATUS ( & tim - > tim , TIM_IT_UPDATE ) ! = RESET ) {
// clear the interrupt
__HAL_TIM_CLEAR_IT ( & tim - > tim , TIM_IT_UPDATE ) ;
// execute callback if it's set
if ( tim - > callback ! = mp_const_none ) {
// When executing code within a handler we must lock the GC to prevent
// any memory allocations. We must also catch any exceptions.
gc_lock ( ) ;
nlr_buf_t nlr ;
if ( nlr_push ( & nlr ) = = 0 ) {
mp_call_function_1 ( tim - > callback , tim ) ;
nlr_pop ( ) ;
} else {
// Uncaught exception; disable the callback so it doesn't run again.
tim - > callback = mp_const_none ;
__HAL_TIM_DISABLE_IT ( & tim - > tim , TIM_IT_UPDATE ) ;
printf ( " Uncaught exception in Timer(%lu) interrupt handler \n " , tim - > tim_id ) ;
mp_obj_print_exception ( ( mp_obj_t ) nlr . ret_val ) ;
}
gc_unlock ( ) ;
}
}
}
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}
}