Mercurial > public > ostc4
view Discovery/Inc/logbook.h @ 424:2b31cf1ebbcc ImprovmentNVM_2
Added (optional) menu item to analyse log sample buffer:
The analysis function will check the ring buffer for proper closure of sectors. In case of a log sample ring corruption more than sector will show the state started (4). Depending on the time past since corruption and the location of the corrupted sector, a cleanup function will be executed if a dive is started. The dive is necessary because of the definition of sample position during OSTC startup phase.
author | ideenmodellierer |
---|---|
date | Sat, 15 Feb 2020 20:45:19 +0100 |
parents | 2e58a4094770 |
children | 928a14568689 |
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/////////////////////////////////////////////////////////////////////////////// /// -*- coding: UTF-8 -*- /// /// \file Discovery/Inc/logbook.h /// \brief /// \author Heinrichs Weikamp /// \date 2018 /// /// $Id$ /////////////////////////////////////////////////////////////////////////////// /// \par Copyright (c) 2014-2018 Heinrichs Weikamp gmbh /// /// 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, see <http://www.gnu.org/licenses/>. ////////////////////////////////////////////////////////////////////////////// #ifndef LOGBOOK_H #define LOGBOOK_H #include "data_central.h" #include "settings.h" typedef struct { uint8_t setpoint_cbar; uint8_t depth_meter; } SSetpointLog; typedef struct { uint8_t oxygen_percentage; uint8_t helium_percentage; uint8_t depth_meter; gasbit8_Type note; } SGasListLog; //Logbook typedef struct { uint16_t diveHeaderStart; uint8_t pBeginProfileData[3]; uint8_t pEndProfileData[3]; uint8_t profileLength[3]; uint8_t logbookProfileVersion; uint8_t dateYear; uint8_t dateMonth; uint8_t dateDay; uint8_t timeHour; uint8_t timeMinute; uint8_t extraPagesWithData; /* from here on: changes in order with respect to OSTC3 */ uint16_t maxDepth; uint16_t diveTimeMinutes; uint8_t diveTimeSeconds; uint8_t samplingRate; int16_t minTemp; uint16_t surfacePressure_mbar; uint16_t desaturationTime; SGasListLog gasordil[5]; uint8_t firmwareVersionLow; uint8_t firmwareVersionHigh; uint16_t batteryVoltage; uint16_t cnsAtBeginning; uint8_t gfAtBeginning; uint8_t gfAtEnd; uint16_t personalDiveCount; SSetpointLog setpoint[5]; uint16_t maxCNS; uint16_t averageDepth_mbar; uint16_t total_diveTime_seconds; uint8_t salinity; uint8_t gfLow_or_Vpm_conservatism; uint8_t gfHigh; uint8_t decoModel; float n2Compartments[16]; float heCompartments[16]; uint8_t n2CompartDesatTime_min[16]; uint8_t heCompartDesatTime_min[16]; uint16_t diveNumber; uint8_t lastDecostop_m; uint8_t CCRmode; uint8_t diveMode; uint8_t hwHudLastStatus; /* from here on identical to OSTC3 again */ uint16_t hwHudBattery_mV; uint8_t batteryGaugeRegisters[6]; uint16_t diveHeaderEnd; } SLogbookHeader; //Logbook OSTC3 typedef struct { uint8_t diveHeaderStart[2]; uint8_t pBeginProfileData[3]; uint8_t pEndProfileData[3]; uint8_t logbookProfileVersion; uint8_t profileLength[3]; uint8_t dateYear; uint8_t dateMonth; uint8_t dateDay; uint8_t timeHour; uint8_t timeMinute; uint8_t maxDepth[2]; uint8_t diveTimeMinutes[2]; uint8_t diveTimeSeconds; uint8_t minTemp[2]; uint8_t surfacePressure_mbar[2]; uint8_t desaturationTime[2]; uint8_t gasordil[5*4]; uint8_t firmwareVersionLow; uint8_t firmwareVersionHigh; uint8_t batteryVoltage[2]; uint8_t samplingRate; uint8_t cnsAtBeginning[2]; uint8_t gfAtBeginning; uint8_t gfAtEnd; uint8_t personalDiveCount[2]; uint8_t CCRmode; uint8_t setpoint[5*2]; uint8_t salinity; uint8_t maxCNS[2]; uint8_t averageDepth_mbar[2]; uint8_t total_diveTime_seconds[2]; uint8_t gfLow_or_Vpm_conservatism; uint8_t gfHigh; uint8_t decoModel; uint8_t diveNumber[2]; uint8_t diveMode; uint8_t n2CompartDesatTime_min[16]; uint8_t n2Compartments[16*4]; uint8_t heCompartDesatTime_min[16]; uint8_t heCompartments[16*4]; uint8_t lastDecostop_m; uint8_t safetyDistance_10cm; uint8_t hwHudBattery_mV[2]; uint8_t hwHudLastStatus; uint8_t batteryGaugeRegisters[6]; uint8_t diveHeaderEnd[2]; } SLogbookHeaderOSTC3; //Logbook OSTC3 typedef struct { uint8_t profileLength[3]; uint8_t dateYear; uint8_t dateMonth; uint8_t dateDay; uint8_t timeHour; uint8_t timeMinute; uint8_t maxDepth[2]; uint8_t diveTimeMinutes[2]; uint8_t diveTimeSeconds; uint8_t totalDiveNumberLow; uint8_t totalDiveNumberHigh; uint8_t profileVersion; } SLogbookHeaderOSTC3compact; typedef struct { uint8_t profileLength[3]; uint8_t samplingRate_seconds; uint8_t numDivisors; uint8_t tempType; uint8_t tempLength; uint8_t tempDivisor; uint8_t deco_ndlType; uint8_t deco_ndlLength; uint8_t deco_ndlDivisor; uint8_t gfType; uint8_t gfLength; uint8_t gfDivisor; uint8_t ppo2Type; uint8_t ppo2Length; uint8_t ppo2Divisor; uint8_t decoplanType; uint8_t decoplanLength; uint8_t decoplanDivisor; uint8_t cnsType; uint8_t cnsLength; uint8_t cnsDivisor; uint8_t tankType; uint8_t tankLength; uint8_t tankDivisor; } SSmallHeader; typedef struct { int8_t percentageO2; int8_t percentageHe; } SManualGas; void logbook_writeSample(const SDiveState *state); void logbook_initNewdiveProfile(const SDiveState* pInfo, SSettings* pSettings); void logbook_EndDive(void); SLogbookHeader* logbook_getCurrentHeader(void); SLogbookHeaderOSTC3 * logbook_build_ostc3header(SLogbookHeader* pLogbookHeader); SLogbookHeaderOSTC3compact * logbook_build_ostc3header_compact(SLogbookHeader* pHead); uint8_t logbook_getNumberOfHeaders(void); uint8_t logbook_getHeader(uint8_t StepBackwards,SLogbookHeader* pLogbookHeader); uint16_t logbook_readSampleData(uint8_t StepBackwards, uint16_t length,uint16_t* depth, uint8_t* gasid, int16_t* temperature, uint16_t* ppo2, uint16_t* setpoint, uint16_t* sensor1, uint16_t* sensor2, uint16_t* sensor3, uint16_t* cns, uint8_t* bailout, uint16_t* decostopDepth); void logbook_test(void); void logbook_InitAndWrite(const SDiveState* pStateReal); void logbook_recover_brokenlog(uint8_t headerId); uint16_t logbook_lastDive_diveNumber(void); #endif /* LOGBOOK_H */