kopia lustrzana https://github.com/SP8EBC/ParaTNC
282 wiersze
6.2 KiB
C
282 wiersze
6.2 KiB
C
/*
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* it_handlers.c
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*
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* Created on: 28.05.2017
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* Author: mateusz
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*/
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#include "station_config_target_hw.h"
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#include <delay.h>
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#ifdef STM32F10X_MD_VL
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#include <stm32f10x.h>
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#endif
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#ifdef STM32L471xx
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#include <stm32l4xx.h>
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#include <stm32l4xx_ll_tim.h>
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#include <stm32l4xx_ll_dma.h>
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#include <stm32l471xx.h>
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#include "cmsis/stm32l4xx/system_stm32l4xx.h"
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#include "pwr_save.h"
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#endif
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#include "drivers/dallas.h"
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#include "drivers/ms5611.h"
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#include "drivers/serial.h"
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#include "drivers/i2c.h"
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#include "drivers/analog_anemometer.h"
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#include "aprs/wx.h"
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#include "aprs/telemetry.h"
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#include "aprs/beacon.h"
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#include "main.h"
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#include "LedConfig.h"
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//#include "afsk.h"
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#include "diag/Trace.h"
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#include "io.h"
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#include "rte_main.h"
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#include "station_config.h"
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/*
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* INTERRUPT PRIORITIES
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*
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* TIM2_IRQHandler - 1 -> Dallas delay (enable only during dallas comm)
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* I2C1_EV_IRQHandler - 2 -> I2C comm interrupt (active & enable only during communication with i2c sensor)
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* TIM4_IRQHandler - 3 -> APRS softmodem DAC (enable only during tx)
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* TIM7_IRQHandler - 4 -> APRS softmodem ADC
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* SysTick_Handler - 5
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* TIM1_UP_TIM16_IRQHandler - 6 -> TX20 baudrate timer
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* EXTI9_5_IRQHandler - 7 -> TX20 anemometer GPIO
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* EXTI4_IRQHandler - 8 -> DHT22 sensor GPIO interrupt
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* USART1_IRQHandler - 9 -> uart to comm with KISS host
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* I2C1_ER_IRQHandler - 10 -> I2C error interrupt
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*
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* TIM8_ - PWM input
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*/
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// TIM1 w TX20
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/* Zmienne używane do oversamplingu */
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int adc_sample_count = 0, adc_sample_c2 = 0; // Zmienna odliczająca próbki
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unsigned short int AdcBuffer[4]; // Bufor przechowujący kolejne wartości rejestru DR
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short int AdcValue;
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uint8_t it_handlers_cpu_load_pool = 0;
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uint8_t it_handlers_inhibit_radiomodem_dcd_led = 0;
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// this function will set all iterrupt priorities except systick
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void it_handlers_set_priorities(void) {
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NVIC_SetPriority(TIM2_IRQn, 1); // one-wire delay
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NVIC_SetPriority(I2C1_EV_IRQn, 2);
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#ifdef STM32F10X_MD_VL
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NVIC_SetPriority(TIM4_IRQn, 3); // DAC
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#else
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NVIC_SetPriority(TIM5_IRQn, 3);
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#endif
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NVIC_SetPriority(TIM7_IRQn, 4); // ADC
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// systick
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NVIC_SetPriority(TIM1_UP_TIM16_IRQn, 6); // TX20 anemometer
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NVIC_SetPriority(EXTI9_5_IRQn, 7); // TX20 anemometer
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NVIC_SetPriority(EXTI4_IRQn, 8); // DHT22 humidity sensor
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NVIC_SetPriority(USART2_IRQn, 9); // wx
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NVIC_SetPriority(USART1_IRQn, 10); // kiss
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NVIC_SetPriority(I2C1_ER_IRQn, 11);
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}
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#ifdef STM32L471xx
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void RTC_WKUP_IRQHandler(void) {
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main_woken_up = 1;
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// clear pending interrupt
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NVIC_ClearPendingIRQ(RTC_WKUP_IRQn);
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RTC->ISR &= (0xFFFFFFFF ^ RTC_ISR_WUTF_Msk);
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EXTI->PR1 |= EXTI_PR1_PIF20;
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main_set_monitor(12);
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system_clock_configure_l4();
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pwr_save_exit_from_stop2();
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}
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#endif
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// Systick interrupt used for time measurements, checking timeouts and SysTick_Handler
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void SysTick_Handler(void) {
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// systick interrupt is generated every 10ms
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master_time += SYSTICK_TICKS_PERIOD;
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if ((it_handlers_cpu_load_pool++) > SYSTICK_TICKS_PER_SECONDS) {
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main_service_cpu_load_ticks();
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it_handlers_cpu_load_pool = 0;
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}
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// decrementing a timer to trigger meteo measuremenets
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main_wx_decremenet_counter();
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main_packets_tx_decremenet_counter();
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main_one_second_pool_decremenet_counter();
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main_two_second_pool_decrement_counter();
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main_ten_second_pool_decremenet_counter();
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led_service_blink();
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srl_keep_timeout(main_kiss_srl_ctx_ptr);
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srl_keep_timeout(main_wx_srl_ctx_ptr);
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srl_keep_timeout(main_gsm_srl_ctx_ptr);
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srl_keep_tx_delay(main_wx_srl_ctx_ptr);
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i2cKeepTimeout();
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delay_decrement_counter();
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if (it_handlers_inhibit_radiomodem_dcd_led == 0) {
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led_control_led1_upper(main_ax25.dcd);
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}
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}
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void USART1_IRQHandler(void) {
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NVIC_ClearPendingIRQ(USART1_IRQn);
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srl_irq_handler(main_kiss_srl_ctx_ptr);
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}
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void USART2_IRQHandler(void) {
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NVIC_ClearPendingIRQ(USART2_IRQn);
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srl_irq_handler(main_wx_srl_ctx_ptr);
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}
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#ifdef STM32L471xx
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void USART3_IRQHandler() {
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NVIC_ClearPendingIRQ(USART3_IRQn);
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srl_irq_handler(main_gsm_srl_ctx_ptr);
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}
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#endif
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void I2C1_EV_IRQHandler(void) {
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NVIC_ClearPendingIRQ(I2C1_EV_IRQn);
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i2cIrqHandler();
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}
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void I2C1_ER_IRQHandler(void) {
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i2cErrIrqHandler();
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}
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void TIM2_IRQHandler( void ) {
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TIM2->SR &= ~(1<<0);
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if (delay_5us > 0) {
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delay_5us--;
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}
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}
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void TIM1_TRG_COM_TIM17_IRQHandler(void) {
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NVIC_ClearPendingIRQ(TIM1_TRG_COM_TIM17_IRQn);
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TIM17->SR &= ~(1<<0);
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#if defined(_ANEMOMETER_ANALOGUE) || defined(_ANEMOMETER_ANALOGUE_SPARKFUN)
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analog_anemometer_timer_irq();
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#endif
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}
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#ifdef STM32F10X_MD_VL
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void DMA1_Channel7_IRQHandler() { // DMA1_Channel7_IRQn
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#else
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void DMA1_Channel5_IRQHandler() { // DMA1_Channel7_IRQn
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#endif
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#ifdef STM32F10X_MD_VL
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NVIC_ClearPendingIRQ(DMA1_Channel7_IRQn);
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DMA_ClearITPendingBit(DMA1_IT_GL7);
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#endif
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#ifdef STM32L471xx
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LL_DMA_ClearFlag_TC5(DMA1);
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#endif
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#if defined(_ANEMOMETER_ANALOGUE) || defined(_ANEMOMETER_ANALOGUE_SPARKFUN)
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analog_anemometer_dma_irq();
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#endif
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}
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#ifdef STM32F10X_MD_VL
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void TIM4_IRQHandler( void ) {
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// obsluga przerwania cyfra-analog
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TIM4->SR &= ~(1<<0);
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DAC->DHR8R1 = AFSK_DAC_ISR(&main_afsk);
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DAC->SWTRIGR |= 1;
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#ifdef STM32L471xx
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DAC->DHR8R2 = AFSK_DAC_ISR(&main_afsk);
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DAC->SWTRIGR |= 2;
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#endif
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if ((main_config_data_mode->wx & WX_ENABLED) == 0) {
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led_control_led2_bottom(main_afsk.sending);
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}
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}
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#else
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void TIM5_IRQHandler( void ) {
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// obsluga przerwania cyfra-analog
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TIM5->SR &= ~(1<<0);
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DAC->DHR8R2 = AFSK_DAC_ISR(&main_afsk);
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DAC->SWTRIGR |= 2;
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if ((main_config_data_mode->wx & WX_ENABLED) == 0) {
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led_control_led2_bottom(main_afsk.sending);
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}
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}
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#endif
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void TIM7_IRQHandler(void) {
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// obsluga przetwarzania analog-cyfra. Wersja z oversamplingiem
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TIM7->SR &= ~(1<<0);
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#define ASC adc_sample_count
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#define ASC2 adc_sample_c2
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AdcBuffer[ASC] = ADC1->DR;
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if(ASC == 3) {
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// io_ext_watchdog_service();
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AdcValue = (short int)(( AdcBuffer[0] + AdcBuffer[1] + AdcBuffer[2] + AdcBuffer[3]) >> 1);
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AFSK_ADC_ISR(&main_afsk, (AdcValue - 4095) );
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ASC = 0;
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if (ASC2++ == 2) {
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// pooling AX25 musi być tu bo jak z przerwania wyskoczy nadawanie WX, BCN, TELEM przy dcd == true
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// to bedzie wisialo w nieskonczonosc bo ustawiania dcd jest w srodku ax25_poll
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ax25_poll(&main_ax25);
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ASC2 = 0;
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}
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else {
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}
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}
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else
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ASC++;
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}
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