#include "airtime.h" #include #define periodsToLog 48 // A reminder that there are 3600 seconds in an hour so I don't have // to keep googling it. // This can be changed to a smaller number to speed up testing. // uint32_t secondsPerPeriod = 3600; uint32_t lastMillis = 0; uint32_t secSinceBoot = 0; // Don't read out of this directly. Use the helper functions. struct airtimeStruct { uint16_t periodTX[periodsToLog]; uint16_t periodRX[periodsToLog]; uint16_t periodRX_ALL[periodsToLog]; uint8_t lastPeriodIndex; } airtimes; void logAirtime(reportTypes reportType, uint32_t airtime_ms) { if (reportType == TX_LOG) { airtimes.periodTX[0] = airtimes.periodTX[0] + round(airtime_ms / 1000); } else if (reportType == RX_LOG) { airtimes.periodRX[0] = airtimes.periodRX[0] + round(airtime_ms / 1000); } else if (reportType == RX_ALL_LOG) { airtimes.periodRX_ALL[0] = airtimes.periodRX_ALL[0] + round(airtime_ms / 1000); } else { // Unknown report type } } uint8_t currentPeriodIndex() { return ((getSecondsSinceBoot() / secondsPerPeriod) % periodsToLog); } void airtimeCalculator() { if (millis() - lastMillis > 1000) { lastMillis = millis(); secSinceBoot++; if (airtimes.lastPeriodIndex != currentPeriodIndex()) { for (int i = periodsToLog - 2; i >= 0; --i) { airtimes.periodTX[i + 1] = airtimes.periodTX[i]; airtimes.periodRX[i + 1] = airtimes.periodRX[i]; airtimes.periodRX_ALL[i + 1] = airtimes.periodRX_ALL[i]; } airtimes.periodTX[0] = 0; airtimes.periodRX[0] = 0; airtimes.periodRX_ALL[0] = 0; airtimes.lastPeriodIndex = currentPeriodIndex(); } } } uint16_t *airtimeReport(reportTypes reportType) { // currentHourIndexReset(); if (reportType == TX_LOG) { return airtimes.periodTX; } else if (reportType == RX_LOG) { return airtimes.periodRX; } else if (reportType == RX_ALL_LOG) { return airtimes.periodRX_ALL; } return 0; } uint8_t getPeriodsToLog() { return periodsToLog; } uint32_t getSecondsPerPeriod() { return secondsPerPeriod; } uint32_t getSecondsSinceBoot() { return secSinceBoot; }