init
Dependencies: aconno_I2C Lis2dh12 WatchdogTimer
main.cpp
- Committer:
- pathfindr
- Date:
- 2018-12-23
- Revision:
- 29:059fc7324328
- Parent:
- 28:24b02608fa5f
- Child:
- 31:c84fc6d8eaa3
File content as of revision 29:059fc7324328:
#include "main.h" //------------------------------------------------------------------------------ //DEFINES //------------------------------------------------------------------------------ #define FW_VERSION 1 #define DEFAULT_SLEEP_FRAME 30000 #define DEFAULT_LOCATION_MODE 2 #define DEFAULT_LOCATION_ACCURACY 2 // 0 = no location, 1 = cl only, 2 = gps then cl #define DEFAULT_LOCATION_TX_INTERVAL_MINS 1440 #define DEFAULT_LOCATION_TX_FAILSAFE_HRS 168 #define DEFAULT_LOCATION_TIMEOUT 180 #define DEFAULT_MOTION_G 11 #define DEFAULT_MOTION_START_SECONDS 120 #define DEFAULT_MOTION_STOP_SECONDS 120 #define DEFAULT_IMPACT_G 127 #define DEFAULT_CONNECTION_ATTEMPTS 1 #define DEFAULT_CONNECTION_TIMEOUT 180 #define DEFAULT_BEACON_INTERVAL_SECONDS 10 //------------------------------------------------------------------------------ //FUNCTION PROTOTYPES //------------------------------------------------------------------------------ static void mainStateEngine(void); static void selftest(void); static void buttonPress(void); static void buttonRelease(void); static void dumpSettings(void); static void saveEventTimes(void); static void event_location_tx(void); //------------------------------------------------------------------------------ //GLOBAL VARS / CLEARED ON SLEEP (IF USING SOFT REBOOT HACK) //------------------------------------------------------------------------------ char* GLOBAL_defaultApi = "b:gps2"; bool GLOBAL_accel_healthy = false; bool GLOBAL_requireSoftReset = false; bool GLOBAL_motionStopFlagTriggered = false; bool GLOBAL_debugLED = true; bool GLOBAL_needToConfigureLis3dh = false; bool GLOBAL_registeredOnNetwork = false; bool GLOBAL_modemOn = false; time_t GLOBAL_RTCunixtime = 0; time_t GLOBAL_wakeTime = 0; char GLOBAL_exceptionString[10]; //------------------------------------------------------------------------------ //RETAINED NOINIT RAM VARS //------------------------------------------------------------------------------ #if defined ( __CC_ARM ) /** THIS IS THE MBED ONLINE COMPILER TOOLCHAIN*/ //MUST BE STATICS //IDENTITY static long long RET_imei __attribute__((section("noinit"),zero_init)); //SETTINGS static int RET_setting_firmware __attribute__((section("noinit"),zero_init)); //must be int to support negative value static uint8_t RET_setting_location_mode __attribute__((section("noinit"),zero_init)); static uint8_t RET_setting_location_accuracy __attribute__((section("noinit"),zero_init)); static uint32_t RET_setting_location_tx_interval_mins __attribute__((section("noinit"),zero_init)); static uint32_t RET_setting_location_tx_failsafe_hrs __attribute__((section("noinit"),zero_init)); static uint16_t RET_setting_location_timeout __attribute__((section("noinit"),zero_init)); static uint32_t RET_setting_activity_tx_interval_hrs __attribute__((section("noinit"),zero_init)); static uint32_t RET_setting_environmental_tx_interval_mins __attribute__((section("noinit"),zero_init)); static uint16_t RET_setting_motion_g __attribute__((section("noinit"),zero_init)); static time_t RET_setting_motion_start_seconds __attribute__((section("noinit"),zero_init)); static time_t RET_setting_motion_stop_seconds __attribute__((section("noinit"),zero_init)); static uint16_t RET_setting_impact_g __attribute__((section("noinit"),zero_init)); static uint8_t RET_setting_impact_alert __attribute__((section("noinit"),zero_init)); static uint16_t RET_setting_connection_timeout __attribute__((section("noinit"),zero_init)); static uint16_t RET_setting_beacon_interval_seconds __attribute__((section("noinit"),zero_init)); static uint16_t RET_setting_beacon_scan __attribute__((section("noinit"),zero_init)); //STATE static uint16_t RET_sleepToggle __attribute__((section("noinit"),zero_init)); static uint8_t RET_coldBoot __attribute__((section("noinit"),zero_init)); static bool RET_haveSettings __attribute__((section("noinit"),zero_init)); static uint8_t RET_state __attribute__((section("noinit"),zero_init)); static uint8_t RET_state_prev __attribute__((section("noinit"),zero_init)); static uint8_t RET_buttonPressCount __attribute__((section("noinit"),zero_init)); static time_t RET_buttonPressTime __attribute__((section("noinit"),zero_init)); static time_t RET_buttonReleaseTime __attribute__((section("noinit"),zero_init)); static time_t RET_buttonHoldTime __attribute__((section("noinit"),zero_init)); static time_t RET_RTCunixtime __attribute__((section("noinit"),zero_init)); static time_t RET_SetupRunAt __attribute__((section("noinit"),zero_init)); //MOTION STATE static bool RET_motionTriggered __attribute__((section("noinit"),zero_init)); static bool RET_motionTriggeredInTXInterval __attribute__((section("noinit"),zero_init)); static time_t RET_motionStartTime __attribute__((section("noinit"),zero_init)); static time_t RET_motionStopTime __attribute__((section("noinit"),zero_init)); static bool RET_motionPendingOnState __attribute__((section("noinit"),zero_init)); static bool RET_motionPendingOffState __attribute__((section("noinit"),zero_init)); static bool RET_motionState __attribute__((section("noinit"),zero_init)); static float RET_motionTotalActivityHours __attribute__((section("noinit"),zero_init)); static time_t RET_motionFrameStart __attribute__((section("noinit"),zero_init)); static char RET_activityData[140] __attribute__((section("noinit"),zero_init)); //IMPACT static bool RET_impactTriggered __attribute__((section("noinit"),zero_init)); //EVENTS LOGGING static time_t RET_eventTime_location_log __attribute__((section("noinit"),zero_init)); static time_t RET_eventTime_environmental_log __attribute__((section("noinit"),zero_init)); //EVENTS TX static time_t RET_eventTime_location_tx __attribute__((section("noinit"),zero_init)); static time_t RET_eventTime_location_failsafe_tx __attribute__((section("noinit"),zero_init)); static time_t RET_eventTime_environmental_tx __attribute__((section("noinit"),zero_init)); static time_t RET_eventTime_activity_tx __attribute__((section("noinit"),zero_init)); static time_t RET_eventTime_wakeFromDormant __attribute__((section("noinit"),zero_init)); //DUPLICATES MEM INIT CHECK static time_t RET_RTCunixtime_bu __attribute__((section("noinit"),zero_init)); static uint32_t RET_memTest __attribute__((section("noinit"),zero_init)); #elif defined ( __GNUC__ ) #elif defined ( __ICCARM__ ) #endif //------------------------------------------------------------------------------ //GPIO //------------------------------------------------------------------------------ InterruptIn button(PN_IN_BUTTON); //This causes wake from sleep DigitalOut vreg_en(PN_VREG_EN); //------------------------------------------------------------------------------ //PERIPHERALS //------------------------------------------------------------------------------ //BLE myble; WatchdogTimer watchdog(300.0); //Do not set to less than 4500ms or can cause issues with softdevice void watchdogKick() {watchdog.kick();} //SERIAL DEBUG? #if CONSOLE_DEBUG Serial uart(PN_UART_TX, PN_UART_RX, 115200); #endif //------------------------------------------------------------------------------ //TIMERS //-----------------------------------------------mi------------------------------- LowPowerTicker RTCticker; //no impact on power consumption //------------------------------------------------------------------------------ //THREAD SEMAPHORES //------------------------------------------------------------------------------ Semaphore mainthread; //------------------------------------------------------------------------------ // LOW LEVEL FUNCS //------------------------------------------------------------------------------ void turnOffEverything() { vreg_en = 0; LED1off(); } void gotoSleep(long sleep_milliseconds) { /* turnOffEverything(); watchdogKick(); if (GLOBAL_requireSoftReset) { //dont need to clear this var as reset changes it back to false system_reset(); } mainthread.wait(sleep_milliseconds); */ } void setState(uint8_t state) { RET_state_prev = RET_state; RET_state = state; //DEBUG("STATEREADBACK %d\n",RET_state) } bool memoryIntegrityCheck() { bool pass = true; //check memory is init correct if (RET_memTest != 12345) { pass = false; } //Check clocks match and are in range if (RET_RTCunixtime != RET_RTCunixtime || RET_RTCunixtime < 1545412457) { pass = false; } return pass; } void dumpSettings() { DEBUG("RET_memTest:%d \n",RET_memTest); DEBUG("RET_RTCunixtime:%u \n",RET_RTCunixtime); DEBUG("RET_setting_firmware:%d \n",RET_setting_firmware); DEBUG("RET_state:%d \n",RET_state); DEBUG("RET_setting_location_mode:%d \n",RET_setting_location_mode); DEBUG("RET_setting_location_accuracy:%d \n",RET_setting_location_accuracy); DEBUG("RET_setting_location_tx_interval_mins:%d \n",RET_setting_location_tx_interval_mins); DEBUG("RET_setting_location_tx_failsafe_hrs:%d \n",RET_setting_location_tx_failsafe_hrs); DEBUG("RET_setting_location_timeout:%d \n",RET_setting_location_timeout); DEBUG("RET_setting_activity_tx_interval_hrs:%d \n",RET_setting_activity_tx_interval_hrs); DEBUG("RET_setting_environmental_tx_interval_mins:%d \n",RET_setting_environmental_tx_interval_mins); DEBUG("RET_setting_motion_g:%d \n",RET_setting_motion_g); DEBUG("RET_setting_motion_start_seconds:%d \n",RET_setting_motion_start_seconds); DEBUG("RET_setting_motion_stop_seconds:%d \n",RET_setting_motion_stop_seconds); DEBUG("RET_setting_impact_g:%d \n",RET_setting_impact_g); DEBUG("RET_setting_impact_alert:%d \n",RET_setting_impact_alert); DEBUG("RET_setting_connection_timeout:%d \n",RET_setting_connection_timeout); DEBUG("RET_setting_beacon_interval_seconds:%d \n",RET_setting_beacon_interval_seconds); DEBUG("RET_setting_beacon_scan:%d \n",RET_setting_beacon_scan); } float getBatteryV() { //this creates an extra 400ua of power usage!!! NRF52_SAADC batteryIn; batteryIn.addChannel(9); // vdd for battery batteryIn.calibrate(); float voltage = 0.0; for (uint8_t i = 1; i <= 2; i++) { // need to get it 2 times to get accurate data, first one is always low for some reason batteryIn.updateData(); voltage = (batteryIn.getData()[0])*(1.0/1024.0)*3.65; } return voltage; } float getTemperature() { SI7060 si7060(PN_I2C_SDA, PN_I2C_SCL); float temperature = si7060.getTemperature(); //DEBUG("Temperature:%.2f\n",temperature); return temperature; } void addToExceptionString(char* value) { snprintf(GLOBAL_exceptionString+strlen(GLOBAL_exceptionString),sizeof(GLOBAL_exceptionString),"%s.",value); } //------------------------------------------------------------------------------ // USER BUTTON HANDLING //------------------------------------------------------------------------------ void buttonPress() { RET_buttonPressTime = RET_RTCunixtime; } void buttonRelease() { RET_buttonHoldTime = (RET_RTCunixtime - RET_buttonPressTime); RET_buttonPressCount ++; } //------------------------------------------------------------------------------ // RTC TICKER //------------------------------------------------------------------------------ void RTCtick() { //YOU MUST NOT CALL ANY OTHER FUNCTIONS OR DEBUG FROM INSIDE HERE!!! OR IT LOCKS UP THE DEVICE, just change vars RET_RTCunixtime += 1; RET_RTCunixtime_bu += 1; GLOBAL_RTCunixtime = RET_RTCunixtime; //button logic - check for hold if (RET_buttonHoldTime > 4) { RET_buttonHoldTime = 0; RET_buttonPressCount = 0; RET_state_prev = RET_state; RET_state = STATE_BUTTONHOLD; mainthread.release(); } else { if((RET_RTCunixtime - RET_buttonPressTime) > 1) { switch (RET_buttonPressCount) { case 1 : if (RET_state == STATE_NORMAL) { RET_state = STATE_BUTTONPRESS1; mainthread.release(); } break; case 3 : if (RET_state == STATE_NORMAL) { RET_state = STATE_BUTTONPRESS2; mainthread.release(); } break; case 5 : if (RET_state == STATE_NORMAL) { RET_state = STATE_BUTTONPRESS3; mainthread.release(); } break; default : //do nothing break; } RET_buttonPressCount = 0; } } //SETUP STATE VISUALISE if (RET_state == STATE_SETUP) { led1 = !led1; } } void factoryReset() { //MEM CHECK RET_memTest = 12345; //IDENTITY RET_imei = 0; //STATE RET_sleepToggle = 0; RET_coldBoot = 1; RET_haveSettings = 0; RET_state = STATE_SETUP; RET_state_prev = RET_state; RET_RTCunixtime = 0; RET_RTCunixtime_bu = 0; RET_SetupRunAt = 0; //SETTINGS RET_setting_firmware = 0; RET_setting_location_mode = DEFAULT_LOCATION_MODE; RET_setting_location_accuracy = DEFAULT_LOCATION_ACCURACY; RET_setting_location_tx_interval_mins = DEFAULT_LOCATION_TX_INTERVAL_MINS; RET_setting_location_tx_failsafe_hrs = DEFAULT_LOCATION_TX_FAILSAFE_HRS; RET_setting_location_timeout = DEFAULT_LOCATION_TIMEOUT; RET_setting_activity_tx_interval_hrs = 0; RET_setting_environmental_tx_interval_mins = 0; RET_setting_motion_g = DEFAULT_MOTION_G; RET_setting_motion_start_seconds = DEFAULT_MOTION_START_SECONDS; RET_setting_motion_stop_seconds = DEFAULT_MOTION_STOP_SECONDS; RET_setting_impact_g = 0; RET_setting_impact_alert = 0; RET_setting_connection_timeout = DEFAULT_CONNECTION_TIMEOUT; RET_setting_beacon_interval_seconds = DEFAULT_BEACON_INTERVAL_SECONDS; RET_setting_beacon_scan = 0; //RET_RTCmillis = 0; RET_buttonPressCount = 0; RET_buttonPressTime = 0; RET_buttonReleaseTime = 0; RET_buttonHoldTime = 0; //MOTION STATE RET_motionTriggered = 0; RET_motionTriggeredInTXInterval = 0; RET_motionStartTime = 0; RET_motionStopTime = 0; RET_motionPendingOnState = 0; RET_motionPendingOffState = 0; RET_motionState = 0; RET_motionTotalActivityHours = 0.0; RET_motionFrameStart = 0; memset(RET_activityData,0,sizeof(RET_activityData)); //IMPACT RET_impactTriggered = 0; //EVENT HANDLING RET_eventTime_location_log = 0; RET_eventTime_location_tx = 0; RET_eventTime_location_failsafe_tx = 0; RET_eventTime_environmental_log = 0; RET_eventTime_environmental_tx = 0; RET_eventTime_activity_tx = 0; RET_eventTime_wakeFromDormant = 0; //OTHER LOCAL GLOBALS GLOBAL_requireSoftReset = false; //PERIPHERAL RESET lis3dh_configureForSleep(DEFAULT_MOTION_G,DEFAULT_IMPACT_G); } bool selfTest() { int test_count = 0; int test_pass = 0; //Accelerometer test_count ++; LIS3DH lis3dh(PN_SPI_MOSI, PN_SPI_MISO, PN_SPI_CS0, PN_SPI_CLK); uint8_t lis3dh_id; lis3dh.LIS3DH_GetWHO_AM_I(&lis3dh_id); if (lis3dh_id == 51) { test_pass ++; } else { addToExceptionString("A."); } //Temperature test_count ++; SI7060 si7060(PN_I2C_SDA, PN_I2C_SCL); float temperature; temperature = si7060.getTemperature(); if (temperature > -40 && temperature < 60) { test_pass ++; } else { addToExceptionString("T."); } //Result if (test_count == test_pass) { addToExceptionString("OK."); return true; } else { addToExceptionString("FAIL."); return false; } } //------------------------------------------------------------------------------ // MOTION FUNCS //------------------------------------------------------------------------------ void checkMotion() { if (lis3dh_int2) { //if (GLOBAL_debugLED) LED1blink(1,50); RET_motionTriggered = true; GLOBAL_needToConfigureLis3dh = true; //interrupt has fire so need to clear it if (!RET_motionPendingOnState) { RET_motionPendingOnState = true; RET_motionPendingOffState = false; // Log start motion time RET_motionStartTime = RET_RTCunixtime; } } else { RET_motionTriggered = false; RET_motionPendingOnState = false; if (!RET_motionPendingOffState) { RET_motionPendingOffState = true; //log stop motion time RET_motionStopTime = RET_RTCunixtime; } } //calculate motion state if (RET_motionPendingOnState) { //check if above threshold time_t inMotionForSeconds = (RET_RTCunixtime - RET_motionStartTime) + 2; //Plus 2 to account for rounding and non exact clocks if (inMotionForSeconds >= RET_setting_motion_start_seconds && RET_motionState == false) { RET_motionState = true; RET_motionTriggeredInTXInterval = true; if (GLOBAL_debugLED) LED1blink(1,50); if (RET_setting_location_tx_failsafe_hrs > 0) { time_t epochOffsetMins = ((RET_RTCunixtime - RET_motionFrameStart) / 60); sprintf(RET_activityData+strlen(RET_activityData),"1.%u!",epochOffsetMins); } } } if (RET_motionPendingOffState) { time_t noMotionForSeconds = (RET_RTCunixtime - RET_motionStopTime) + 2; //Plus 2 to account for rounding and non exact clocks if (noMotionForSeconds >= RET_setting_motion_stop_seconds && RET_motionState == true) { RET_motionPendingOffState = false; RET_motionState = false; GLOBAL_motionStopFlagTriggered = true; RET_motionTotalActivityHours += (float(RET_motionStopTime - RET_motionStartTime) / 3600.0); if (GLOBAL_debugLED) LED1blink(2,50); if (RET_setting_location_tx_failsafe_hrs > 0) { time_t epochOffsetMins = ((RET_RTCunixtime - RET_motionFrameStart) / 60); sprintf(RET_activityData+strlen(RET_activityData),"0.%u!",epochOffsetMins); } } } } //------------------------------------------------------------------------------ // UPDATE OPERATING SETTINGS //------------------------------------------------------------------------------ bool saveSettings(char* settingsBuffer) { int matchCount = 0; int critical_fail_count = 0; time_t TEMP_b = 0; int TEMP_c = -1; int TEMP_d = -1; int TEMP_e = -1; int TEMP_f = -1; int TEMP_g = -1; int TEMP_h = -1; int TEMP_i = -1; int TEMP_j = -1; int TEMP_k = -1; int TEMP_l = -1; int TEMP_m = -1; int TEMP_n = -1; int TEMP_o = -1; int TEMP_p = -1; int TEMP_q = -1; int TEMP_r = -1; int TEMP_s = -1; if ( (matchCount = sscanf(settingsBuffer,"b:%u,c:%d,d:%d,e:%d,f:%d,g:%d,h:%d,i:%d,j:%d,k:%d,l:%d,m:%d,n:%d,o:%d,p:%d,q:%d,r:%d,s:%d", &TEMP_b,&TEMP_c,&TEMP_d,&TEMP_e,&TEMP_f,&TEMP_g,&TEMP_h,&TEMP_i,&TEMP_j,&TEMP_k,&TEMP_l,&TEMP_m,&TEMP_n,&TEMP_o,&TEMP_p,&TEMP_q,&TEMP_r,&TEMP_s) ) > 0 ) { DEBUG("FROMSERVER: b:%u,c:%d,d:%d,e:%d,f:%d,g:%d,h:%d,i:%d,j:%d,k:%d,l:%d,m:%d,n:%d,o:%d,p:%d,q:%d,r:%d,s:%d\n", TEMP_b,TEMP_c,TEMP_d,TEMP_e,TEMP_f,TEMP_g,TEMP_h,TEMP_i,TEMP_j,TEMP_k,TEMP_l,TEMP_m,TEMP_n,TEMP_o,TEMP_p,TEMP_q,TEMP_r,TEMP_s); //FAILUREMODE need to be checking these against checksums char changed; if(TEMP_b != 0) { RET_RTCunixtime = TEMP_b; changed = 'Y'; } else { changed = 'N'; critical_fail_count++; }; DEBUG("RET_RTCunixtime:%u..%c\n",RET_RTCunixtime,changed); if(TEMP_c != -1) { RET_setting_firmware = TEMP_c; changed = 'Y'; } else { changed = 'N'; RET_setting_firmware = -1;}; DEBUG("RET_setting_firmware:%d..%c\n",RET_setting_firmware,changed); if(TEMP_d != -1) { setState(TEMP_d); changed = 'Y'; } else { changed = 'N'; critical_fail_count++; }; DEBUG("RET_state:%d..%c\n",RET_state,changed); if(TEMP_e != -1) { RET_setting_location_mode = TEMP_e; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_location_mode:%d..%c\n",RET_setting_location_mode,changed); if(RET_setting_location_mode < 0 || RET_setting_location_mode > 3) {RET_setting_location_mode = DEFAULT_LOCATION_MODE;} if(TEMP_f != -1) { RET_setting_location_accuracy = TEMP_f; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_location_accuracy:%d..%c\n",RET_setting_location_accuracy,changed); if(RET_setting_location_accuracy < 0 || RET_setting_location_accuracy > 3) {RET_setting_location_accuracy = DEFAULT_LOCATION_ACCURACY;} if(TEMP_g != -1) { RET_setting_location_tx_interval_mins = TEMP_g; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_location_tx_interval_mins:%d..%c\n",RET_setting_location_tx_interval_mins,changed); if(TEMP_h != -1) { RET_setting_location_tx_failsafe_hrs = TEMP_h; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_location_tx_failsafe_hrs:%d..%c\n",RET_setting_location_tx_failsafe_hrs,changed); if(RET_setting_location_tx_failsafe_hrs < 0 || RET_setting_location_tx_failsafe_hrs > 504) {RET_setting_location_tx_failsafe_hrs = DEFAULT_LOCATION_TX_FAILSAFE_HRS;} if(TEMP_i != -1) { RET_setting_location_timeout = TEMP_i; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_location_timeout:%d..%c\n",RET_setting_location_timeout,changed); if(RET_setting_location_timeout < 60 || RET_setting_location_timeout > 300) {RET_setting_location_timeout = DEFAULT_LOCATION_TIMEOUT;} if(TEMP_j != -1) { RET_setting_activity_tx_interval_hrs = TEMP_j; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_activity_tx_interval_hrs:%d..%c\n",RET_setting_activity_tx_interval_hrs,changed); if(TEMP_k != -1) { RET_setting_environmental_tx_interval_mins = TEMP_k; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_environmental_tx_interval_mins:%d..%c\n",RET_setting_environmental_tx_interval_mins,changed); if(TEMP_l != -1) { RET_setting_motion_g = TEMP_l; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_motion_g:%d..%c\n",RET_setting_motion_g,changed); if(RET_setting_motion_g < 6 || RET_setting_motion_g > 127) {RET_setting_motion_g = DEFAULT_MOTION_G;} if(TEMP_m != -1) { RET_setting_motion_start_seconds = TEMP_m; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_motion_start_seconds:%d..%c\n",RET_setting_motion_start_seconds,changed); if(TEMP_n != -1) { RET_setting_motion_stop_seconds = TEMP_n; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_motion_stop_seconds:%d..%c\n",RET_setting_motion_stop_seconds,changed); if(TEMP_o != -1) { RET_setting_impact_g = TEMP_o; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_impact_g:%d..%c\n",RET_setting_impact_g,changed); if(TEMP_p != -1) { RET_setting_impact_alert = TEMP_p; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_impact_alert:%d..%c\n",RET_setting_impact_alert,changed); if(TEMP_q != -1) { RET_setting_connection_timeout = TEMP_q; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_connection_timeout:%d..%c\n",RET_setting_connection_timeout,changed); if(RET_setting_connection_timeout < 60 || RET_setting_connection_timeout > 240) { RET_setting_connection_timeout = DEFAULT_CONNECTION_TIMEOUT; } if(TEMP_r != -1) { RET_setting_beacon_interval_seconds = TEMP_r; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_beacon_interval_seconds:%d..%c\n",RET_setting_beacon_interval_seconds,changed); if(TEMP_s != -1) { RET_setting_beacon_scan = TEMP_s; changed = 'Y'; } else { changed = 'N'; }; DEBUG("RET_setting_beacon_scan:%d..%c\n",RET_setting_beacon_scan,changed); if (critical_fail_count == 0) { DEBUG("GOT SETTINGS OK\n"); saveEventTimes(); RET_haveSettings = true; return true; } else { DEBUG("CRITICAL FAILS:%d\n",critical_fail_count); RET_haveSettings = false; return false; } } else { RET_haveSettings = false; return false; } } void saveEventTimes() { //SET EVENT TIMES if(RET_setting_location_tx_interval_mins > 0) { RET_eventTime_location_tx = (RET_RTCunixtime + (RET_setting_location_tx_interval_mins * 60)); DEBUG("EVENTSET - LOCATION TX at %u, MODE %d\n",RET_eventTime_location_tx, RET_setting_location_mode); } if(RET_setting_location_tx_failsafe_hrs > 0) { RET_eventTime_location_failsafe_tx = (RET_RTCunixtime + (RET_setting_location_tx_failsafe_hrs * 3600)); DEBUG("EVENTSET - LOCATION FAILSAFE TX at %u\n",RET_eventTime_location_failsafe_tx); } if(RET_setting_activity_tx_interval_hrs > 0) { RET_motionFrameStart = RET_RTCunixtime; //SET START FRAME INITAL RET_eventTime_activity_tx = (RET_RTCunixtime + (RET_setting_activity_tx_interval_hrs * 3600)); DEBUG("EVENTSET - ACTIVITY TX at %u\n",RET_eventTime_activity_tx); } if(RET_eventTime_environmental_tx > 0) { RET_eventTime_environmental_tx = (RET_RTCunixtime + (RET_setting_environmental_tx_interval_mins * 60)); DEBUG("EVENTSET - ENVIRONMENTAL TX at %u\n",RET_eventTime_environmental_tx); } } //------------------------------------------------------------------------------ // SETUP //------------------------------------------------------------------------------ bool setup() { bool pass = true; float voltage = getBatteryV(); float temperature = getTemperature(); bool selftestresult = selfTest(); Modem modem(PN_UART_TX, PN_UART_RX, PN_UART_CTS, PN_UART_RTS, PN_GSM_PWR_KEY, PN_VREG_EN, PN_GSM_WAKE_DISABLE); if (modem.on()) { //RET_imei = modem.getIMEI(); //DEBUG("imei: %lld \n",RET_imei); //char* modemModel = modem.getModemModel(); char locString[70]; memcpy(locString, modem.getLocation(1, RET_setting_location_timeout), 70); if (modem.registerOnNetwork(DEFAULT_CONNECTION_ATTEMPTS,(RET_setting_connection_timeout*1000))) { int timetaken = (RET_RTCunixtime - GLOBAL_wakeTime); char bytestosend[160]; snprintf(bytestosend,sizeof(bytestosend),"(%s,a:setup,f:%d,v:%.2f,t:%.1f,e:%d,z:SETUP-%s,c:1%s)\0",GLOBAL_defaultApi,FW_VERSION,voltage,temperature,timetaken,GLOBAL_exceptionString,locString); char result[180]; snprintf(result,sizeof(result),"%s",modem.USSDmessage(bytestosend, true, 2, GLOBAL_defaultApi)); if (result != "err") { //DEBUG("\nfromserver: %s \n",result); if (!saveSettings(result)) { //something went critically wrong getting settings pass = false; } } } else { //FAILUREMODE modem failed to register on network pass = false; } } else { //FAILUREMODE Modem failed to turn on pass = false; } //LOG RUN TIME - THIS MUST GO AT END AFTER WE HAVE GOT SERVER TIMESTAMP RET_SetupRunAt = RET_RTCunixtime; //RESULT return pass; } //------------------------------------------------------------------------------ // EVENTS //------------------------------------------------------------------------------ void event_connectiontest_tx(int location_accuracy) { DEBUG("TEST EVENT\n"); float voltage = getBatteryV(); float temperature = getTemperature(); int selftestresult = selfTest(); Modem modem(PN_UART_TX, PN_UART_RX, PN_UART_CTS, PN_UART_RTS, PN_GSM_PWR_KEY, PN_VREG_EN, PN_GSM_WAKE_DISABLE); if (modem.on()) { char locString[70]; memcpy(locString, modem.getLocation(location_accuracy, RET_setting_location_timeout), 70); if (modem.registerOnNetwork(DEFAULT_CONNECTION_ATTEMPTS,(RET_setting_connection_timeout*1000))) { int timetaken = (RET_RTCunixtime - GLOBAL_wakeTime); char bytestosend[160]; snprintf(bytestosend,sizeof(bytestosend),"(%s,a:loc,f:%d,t:%.1f,v:%.2f,z:TEST-%s,e:%d,c:1%s)\0",GLOBAL_defaultApi,FW_VERSION,temperature,voltage,GLOBAL_exceptionString,timetaken,locString); char result[180]; bool getSettings = true; snprintf(result,sizeof(result),"%s",modem.USSDmessage(bytestosend, getSettings, 2, GLOBAL_defaultApi)); if (result != "err") { //DEBUG("\nfromserver: %s \n",result); if (getSettings) { saveSettings(result); LED1blink(6,250); } } } } //RESETS RET_motionTriggeredInTXInterval = 0; saveEventTimes(); } void event_location_tx() { DEBUG("LOCATION TX\n"); float voltage = getBatteryV(); float temperature = getTemperature(); int selfTestResult = selfTest(); Modem modem(PN_UART_TX, PN_UART_RX, PN_UART_CTS, PN_UART_RTS, PN_GSM_PWR_KEY, PN_VREG_EN, PN_GSM_WAKE_DISABLE); if (modem.on()) { char locString[70]; if (RET_setting_location_accuracy > 0) { memcpy(locString, modem.getLocation(RET_setting_location_accuracy, RET_setting_location_timeout), 70); //DEBUG("locString:%s-\n",locString); } //SEND DATA if (modem.registerOnNetwork(DEFAULT_CONNECTION_ATTEMPTS,(RET_setting_connection_timeout*1000))) { int timetaken = (RET_RTCunixtime - GLOBAL_wakeTime); char bytesToSend[160]; snprintf(bytesToSend,sizeof(bytesToSend),"(%s,a:loc,f:%d,t:%.1f,v:%.2f,z:LOC-%s,e:%d,c:1%s)\0",GLOBAL_defaultApi,FW_VERSION,temperature,voltage,GLOBAL_exceptionString,timetaken,locString); char result[180]; bool getSettings = true; snprintf(result,sizeof(result),"%s",modem.USSDmessage(bytesToSend, getSettings, 2, GLOBAL_defaultApi)); if (result != "err") { //DEBUG("\nfromserver: %s \n",result); if (getSettings) { saveSettings(result); } } } } //RESETS RET_motionTriggeredInTXInterval = 0; saveEventTimes(); } void event_activity_tx() { DEBUG("ACTIVITY TX\n"); float temperature = getTemperature(); Modem modem(PN_UART_TX, PN_UART_RX, PN_UART_CTS, PN_UART_RTS, PN_GSM_PWR_KEY, PN_VREG_EN, PN_GSM_WAKE_DISABLE); if (modem.on()) { //SEND DATA if (modem.registerOnNetwork(DEFAULT_CONNECTION_ATTEMPTS,(RET_setting_connection_timeout*1000))) { char bytesToSend[160]; snprintf(bytesToSend,sizeof(bytesToSend),"(%s,a:act,e:%s,t:%u,r:%.2f,c:1)\0",GLOBAL_defaultApi,RET_activityData,RET_motionFrameStart,RET_motionTotalActivityHours); char result[180]; bool getResponse = false; snprintf(result,sizeof(result),"%s",modem.USSDmessage(bytesToSend, getResponse, 2, GLOBAL_defaultApi)); if (result != "err") { //RESET ACTIVITY FRAME memset(RET_activityData,0,sizeof(RET_activityData)); if (RET_haveSettings) { RET_motionFrameStart = RET_RTCunixtime; } } } } //RESETS RET_motionTriggeredInTXInterval = 0; saveEventTimes(); } //------------------------------------------------------------------------------ // STATE ENGINE //------------------------------------------------------------------------------ void mainStateEngine() { switch(RET_state) { case STATE_SETUP : DEBUG("STATE:SETUP\n"); factoryReset(); if (setup()) { // All good } else { RET_eventTime_wakeFromDormant = (RET_RTCunixtime + (24*3600)); //24hrs setState(STATE_DORMANT); DEBUG("SETSTATE:DORMANT until %u\n",RET_eventTime_wakeFromDormant); } break; case STATE_NORMAL : DEBUG("STATE:NORMAL\n"); //check and log motion checkMotion(); //LOCATION EVENT bool run_location_tx = false; switch (RET_setting_location_mode) { case 1: //INTERVAL POST if(RET_RTCunixtime >= RET_eventTime_location_tx && RET_eventTime_location_tx > 0) { run_location_tx = true; } break; case 2: //INTERVAL POST WITH MOTION CHECK if(RET_motionTriggeredInTXInterval && RET_RTCunixtime >= RET_eventTime_location_tx && RET_eventTime_location_tx > 0) { run_location_tx = true; } break; case 3: //POST ON STOP MOTION if (GLOBAL_motionStopFlagTriggered) { run_location_tx = true; GLOBAL_motionStopFlagTriggered = false; } break; } if(RET_RTCunixtime >= RET_eventTime_location_failsafe_tx && RET_eventTime_location_failsafe_tx > 0) { run_location_tx = true; } if (run_location_tx) { DEBUG("INTERVAL LOC TX...\n"); event_location_tx(); } //if(RET_RTCunixtime >= RET_eventTime_location_tx && RET_eventTime_location_tx > 0) { run_location_tx = true; } //Location Failsafe timer catchall //if(RET_RTCunixtime >= RET_eventTime_location_failsafe_tx && RET_eventTime_location_failsafe_tx > 0) { run_location_tx = true; } //if (run_location_tx) { DEBUG("INTERVAL LOC TX...\n"); event_location_tx(); } //ACTIVITY EVENT bool run_activity_tx = false; if(RET_RTCunixtime >= RET_eventTime_activity_tx && RET_eventTime_activity_tx > 0 && strlen(RET_activityData) > 1) { run_activity_tx = true; } if (strlen(RET_activityData) > 130) { run_activity_tx = true; } if (run_activity_tx) { DEBUG("ACTIVITY TX...\n"); event_activity_tx();} break; case STATE_DORMANT : if (RET_RTCunixtime >= RET_eventTime_wakeFromDormant) { if (RET_haveSettings) { setState(STATE_NORMAL); } else { setState(STATE_SETUP); } DEBUG("WAKING UP FROM DORMANT\n"); } DEBUG("STATE:DORMANT until %u\n",RET_eventTime_wakeFromDormant); break; case STATE_BUTTONPRESS1 : setState(STATE_NORMAL); DEBUG("STATE:BUTTONPRESS1\n"); LED1blink(1,300); break; case STATE_BUTTONPRESS2 : setState(STATE_NORMAL); DEBUG("STATE:BUTTONPRESS2\n"); LED1blink(2,300); LED1on(0); event_connectiontest_tx(1); LED1off(); break; case STATE_BUTTONPRESS3 : setState(STATE_NORMAL); DEBUG("STATE:BUTTONPRESS3\n"); LED1blink(3,300); LED1on(0); event_connectiontest_tx(2); LED1off(); break; case STATE_BUTTONHOLD : DEBUG("STATE:BUTTONHOLD\n"); if (RET_state_prev == STATE_NORMAL) { setState(STATE_DORMANT); RET_eventTime_wakeFromDormant = (RET_RTCunixtime + (48*3600)); //48hrs DEBUG("TURNING OFF\n"); DEBUG("STATE:DORMANT until %u\n",RET_eventTime_wakeFromDormant); LED1on(5000); } else { if (RET_haveSettings) { setState(STATE_NORMAL); } else { setState(STATE_SETUP); } DEBUG("TURNING ON\n"); LED1blink(20,100); } break; default : setState(STATE_SETUP); DEBUG("DEFAULT STATE\n"); } } //------------------------------------------------------------------------------ // MAIN //------------------------------------------------------------------------------ int main() { //INIT turnOffEverything(); if (!memoryIntegrityCheck()) { RET_coldBoot = 1; LED1on(5000);} RTCticker.attach(&RTCtick, 1.0); button.fall(&buttonPress); //does this affect power? button.rise(&buttonRelease); //CHECK IF THIS IS RESET //0x00000004 == soft reset //0x00000002 == watchdog //0x00000001 == button/hardreset if (NRF_POWER->RESETREAS != 0xffffffff) { switch(NRF_POWER->RESETREAS) { case 0x00000001 : DEBUG("0x%08x. Hard Reset ST:%d\n",NRF_POWER->RESETREAS, RET_state); RET_coldBoot = 1; break; case 0x00000002 : DEBUG("Watchdog ST:%d\n",RET_state); break; case 0x00000004 : DEBUG("Soft ST:%d SLP:%d\n",RET_state, RET_sleepToggle); break; } NRF_POWER->RESETREAS = 0xffffffff; } //dumpSettings(); //CHECK FOR FIRST BOOT if (RET_coldBoot == 1) { factoryReset(); dumpSettings(); } //SHALL WE SLEEP if (RET_sleepToggle == 1) { RET_sleepToggle = 0; NRF_UART0->TASKS_SUSPEND = 1; NRF_UART0->ENABLE = 0; //NO MORE SERIAL OR DEBUG OUTPUTS AFTER THIS mainthread.wait(DEFAULT_SLEEP_FRAME); system_reset(); } //while(true) { watchdogKick(); //LOG START TIME GLOBAL_wakeTime = RET_RTCunixtime; //MAIN LOGIC DEBUG("STATE:%d, HAVESETTINGS:%d, MOTION: %d, RTC:%u, BOOTAT:%u, LOC:%u, LOCFS:%u, ACT:%u \n", RET_state, RET_haveSettings, RET_motionState, RET_RTCunixtime,RET_SetupRunAt,RET_eventTime_location_tx,RET_eventTime_location_failsafe_tx,RET_eventTime_activity_tx); DEBUG("ACTIVITY:%s\n",RET_activityData); mainStateEngine(); //PRE-SLEEP ACTIONS if (GLOBAL_needToConfigureLis3dh) { lis3dh_configureForSleep(10,127); } turnOffEverything(); //SLEEP DIFFERENT FOR THIS SHAKER TEST VERSION - AS IS WILL GIVE 450ua sleep if in motion /* NRF_UART0->TASKS_SUSPEND = 1; NRF_UART0->ENABLE = 0; //NO MORE SERIAL OR DEBUG OUTPUTS AFTER THIS mainthread.wait(DEFAULT_SLEEP_FRAME); */ RET_coldBoot = 0; RET_sleepToggle = 1; system_reset(); //} }