254 lines
6.8 KiB
C
254 lines
6.8 KiB
C
/**
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* @file wave_analyzer.c
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* @brief Initialization of Input Capture pins used for dev console sniffer
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*
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* This file is responsible for sniffing of external digital signals and registering
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* these digital events in WaveChart used by the Sniffer tab of Dev Console.
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*
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*
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* @date Jan 7, 2013
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* @author Andrey Belomutskiy, (c) 2012-2014
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*/
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#include "main.h"
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#include "wave_analyzer.h"
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#include "eficonsole.h"
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#include "data_buffer.h"
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#include "pin_repository.h"
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#include "engine_state.h"
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#include "signal_executor.h"
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#include "engine_configuration.h"
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#include "trigger_central.h"
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#include "rfiutil.h"
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#define CHART_RESET_DELAY 1
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extern engine_configuration_s *engineConfiguration;
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static volatile uint32_t ckpPeriodUs; // difference between current crank signal and previous crank signal
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static volatile uint64_t previousCrankSignalStart = 0;
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#define MAX_ICU_COUNT 5
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static int waveReaderCount = 0;
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static WaveReader readers[MAX_ICU_COUNT];
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extern WaveChart waveChart;
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static Logging logger;
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static void ensureInitialized(WaveReader *reader) {
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if (!reader->hw.started)
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fatal("wave analyzer NOT INITIALIZED");
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}
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#ifdef EFI_WAVE_ANALYZER
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static void waAnaWidthCallback(WaveReader *reader) {
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uint64_t nowUs = getTimeNowUs();
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reader->eventCounter++;
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reader->lastActivityTimeUs = nowUs;
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addWaveChartEvent(reader->name, "up", "");
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uint64_t width = nowUs - reader->periodEventTimeUs;
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reader->last_wave_low_widthUs = width;
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reader->signalPeriodUs = nowUs - reader->widthEventTimeUs;
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reader->widthEventTimeUs = nowUs;
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}
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static void waIcuPeriodCallback(WaveReader *reader) {
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uint64_t nowUs = getTimeNowUs();
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reader->eventCounter++;
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reader->lastActivityTimeUs = nowUs;
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addWaveChartEvent(reader->name, "down", "");
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uint64_t width = nowUs - reader->widthEventTimeUs;
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reader->last_wave_high_widthUs = width;
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reader->periodEventTimeUs = nowUs;
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//scheduleSimpleMsg(&irqLogging, "co", reader->chart.counter);
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// dbAdd(&wavePeriodTime, now);
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int period = ckpPeriodUs; // local copy of volatile variable
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uint64_t offset = nowUs - previousCrankSignalStart;
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if (offset > period / 2) {
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/**
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* here we calculate the offset in relation to future cranking signal
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*/
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offset -= period;
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}
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reader->waveOffsetUs = offset;
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// we want only the low phase length, so we subsctract high width from period
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// processSignal(1, &dataPinReader, last_period - last_adc_response_width);
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}
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static void setWaveModeSilent(int index, int mode) {
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WaveReader *reader = &readers[index];
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setWaveReaderMode(&reader->hw, mode);
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}
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void setWaveMode(int index, int mode) {
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setWaveModeSilent(index, mode);
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print("wavemode%d:%d\r\n", index, mode);
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}
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int getWaveMode(int index) {
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WaveReader *reader = &readers[index];
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ensureInitialized(reader);
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return reader->hw.activeMode;
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}
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int getEventCounter(int index) {
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WaveReader *reader = &readers[index];
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ensureInitialized(reader);
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return reader->eventCounter;
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}
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static void initWave(char *name, int index, ICUDriver *driver, ioportid_t port, int pin, int mode) {
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waveReaderCount++;
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chDbgCheck(index < MAX_ICU_COUNT, "too many ICUs");
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WaveReader *reader = &readers[index];
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WaveReaderHw *hw = &reader->hw;
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reader->name = name;
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registerCallback(&hw->widthListeners, (IntListener) waAnaWidthCallback, reader);
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registerCallback(&hw->periodListeners, (IntListener) waIcuPeriodCallback, reader);
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initWaveAnalyzerDriver(hw, driver, port, pin);
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print("wave%d input on %s%d\r\n", index, portname(reader->hw.port), reader->hw.pin);
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setWaveReaderMode(hw, mode);
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}
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#endif
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//int getCrankStart() {
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// return previousCrankSignalStart;
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//}
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//static int getCrankPeriod(void) {
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// return ckpPeriod;
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//}
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static void onWaveShaftSignal(ShaftEvents ckpSignalType, int index) {
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if (index != 0)
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return;
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uint64_t nowUs = getTimeNowUs();
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ckpPeriodUs = nowUs - previousCrankSignalStart;
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previousCrankSignalStart = nowUs;
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}
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static WORKING_AREA(waThreadStack, UTILITY_THREAD_STACK_SIZE);
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//static Logging logger;
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static msg_t waThread(void *arg) {
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chRegSetThreadName("Wave Analyzer");
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while (TRUE) {
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chThdSleepSeconds(CHART_RESET_DELAY);
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publishChartIfFull(&waveChart);
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}
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#if defined __GNUC__
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return -1;
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#endif
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}
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int getWaveLowWidth(int index) {
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WaveReader *reader = &readers[index];
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ensureInitialized(reader);
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return reader->last_wave_low_widthUs;
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}
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float getWaveHighWidthMs(int index) {
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WaveReader *reader = &readers[index];
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ensureInitialized(reader);
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if (getTimeNowUs() - reader->lastActivityTimeUs > 4 * US_PER_SECOND)
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return 0; // dwell time has expired
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return reader->last_wave_high_widthUs / 1000.0;
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}
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uint64_t getWaveOffset(int index) {
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WaveReader *reader = &readers[index];
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ensureInitialized(reader);
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return reader->waveOffsetUs;
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}
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float getSignalPeriodMs(int index) {
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WaveReader *reader = &readers[index];
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ensureInitialized(reader);
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return reader->signalPeriodUs / 1000.0;
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}
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int getWidthEventTime(int index) {
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WaveReader *reader = &readers[index];
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ensureInitialized(reader);
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return reader->widthEventTimeUs;
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}
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uint64_t getPeriodEventTime(int index) {
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WaveReader *reader = &readers[index];
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ensureInitialized(reader);
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return reader->periodEventTimeUs;
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}
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int waveBufferReported = 0;
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static void reportWave(Logging *logging, int index) {
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// int counter = getEventCounter(index);
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// debugInt2(logging, "ev", index, counter);
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float dwellMs = getWaveHighWidthMs(index);
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float periodMs = getSignalPeriodMs(index);
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appendPrintf(logging, "duty%d%s", index, DELIMETER);
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appendFloat(logging, 100.0 * dwellMs / periodMs, 2);
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appendPrintf(logging, "%s", DELIMETER);
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appendPrintf(logging, "dwell%d%s", index, DELIMETER);
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appendFloat(logging, dwellMs, 2);
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appendPrintf(logging, "%s", DELIMETER);
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appendPrintf(logging, "period%d%s", index, DELIMETER);
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appendFloat(logging, periodMs, 2);
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appendPrintf(logging, "%s", DELIMETER);
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// int crank = getCrankPeriod();
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// int offset = getWaveOffset(index);
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// debugFloat2(logging, "advance", index, 90.0 * offset / crank, 3);
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// debugInt2(logging, "offset", index, offset);
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}
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void printWave(Logging *logging) {
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reportWave(logging, 0);
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reportWave(logging, 1);
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}
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void initWaveAnalyzer(void) {
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#ifdef EFI_WAVE_ANALYZER
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initLogging(&logger, "wave");
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initWave("input1 A8", 0, &LOGIC_ANALYZER_1_DRIVER, LOGIC_ANALYZER_1_PORT, LOGIC_ANALYZER_1_PIN, 1);
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initWave("input2 E5", 1, &LOGIC_ANALYZER_2_DRIVER, LOGIC_ANALYZER_2_PORT, LOGIC_ANALYZER_2_PIN, 1);
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// initWave("input0 C6", 2, &WAVE_TIMER, WAVE_INPUT_PORT, WAVE_INPUT_PIN, 0);
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addTriggerEventListener(&onWaveShaftSignal, "wave analyzer");
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addConsoleActionII("wm", setWaveModeSilent);
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chThdCreateStatic(waThreadStack, sizeof(waThreadStack), NORMALPRIO, waThread, NULL);
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#else
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print("wave disabled\r\n");
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#endif
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}
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