commit
e2d0cb6ca1
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README.md
21
README.md
@ -311,7 +311,7 @@ Note: all settings are stored in NVRAM and will be reloaded when device starts.
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Example for EU868:
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DataRate Radio Bit/s
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DataRate Configuration Bit/s
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0 LoRa: SF12 / 125 kHz 250
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1 LoRa: SF11 / 125 kHz 440
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2 LoRa: SF10 / 125 kHz 980
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@ -320,20 +320,33 @@ Note: all settings are stored in NVRAM and will be reloaded when device starts.
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5 LoRa: SF7 / 125 kHz 5470
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6* LoRa: SF7 / 250 kHz 11000
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7* FSK: 50 kbps 50000
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8 .. 14 reserved for future use (RFU)
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15 ignored (device keeps current setting)
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*) not supported by TheThingsNetwork
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0x06 set LoRa TXpower
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0 ... 15 [default: 14]
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0 ... 15 [default: 7]
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TXPower Configuration
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0 Max EIRP (usually +16dB)
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1 -2dB
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2 -4dB
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3 -6dB
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4 -8dB
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5 -10dB
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6 -12dB
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7 -14dB
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8 .. 14 reserved for future use (RFU)
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15 ignored (device keeps current setting)
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0x07 set LoRa Adaptive Data Rate mode
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0 = ADR off
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1 = ADR on [default]
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Note: set ADR to off, if device is moving, set to on, if not.
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If ADR is set to on, SF value is shown inverted on display.
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If ADR is set to off, SF value is shown inverted on display.
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0x08 do nothing
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@ -42,7 +42,8 @@
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#define SCREEN_MODE (0x80)
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// I2C bus access control
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#define I2C_MUTEX_LOCK() (xSemaphoreTake(I2Caccess, pdMS_TO_TICKS(10)) == pdTRUE)
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#define I2C_MUTEX_LOCK() \
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(xSemaphoreTake(I2Caccess, pdMS_TO_TICKS(10)) == pdTRUE)
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#define I2C_MUTEX_UNLOCK() (xSemaphoreGive(I2Caccess))
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enum sendprio_t { prio_low, prio_normal, prio_high };
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@ -104,7 +105,7 @@ extern std::array<uint64_t, 0xff>::iterator it;
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extern std::array<uint64_t, 0xff> beacons;
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extern configData_t cfg; // current device configuration
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extern char display_line6[], display_line7[]; // screen buffers
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extern char lmic_event_msg[]; // display buffer
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extern uint8_t volatile channel; // wifi channel rotation counter
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extern uint16_t volatile macs_total, macs_wifi, macs_ble,
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batt_voltage; // display values
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@ -7,7 +7,7 @@
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; ---> SELECT THE TARGET PLATFORM HERE! <---
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[board]
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halfile = generic.h
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;halfile = generic.h
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;halfile = ebox.h
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;halfile = eboxtube.h
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;halfile = ecopower.h
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@ -18,7 +18,7 @@ halfile = generic.h
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;halfile = ttgov21old.h
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;halfile = ttgov21new.h
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;halfile = ttgofox.h
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;halfile = ttgobeam.h
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halfile = ttgobeam.h
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;halfile = ttgobeam10.h
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;halfile = fipy.h
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;halfile = lopy.h
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@ -46,7 +46,7 @@ description = Paxcounter is a device for metering passenger flows in realtime. I
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release_version = 1.8.3
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; DEBUG LEVEL: For production run set to 0, otherwise device will leak RAM while running!
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; 0=None, 1=Error, 2=Warn, 3=Info, 4=Debug, 5=Verbose
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debug_level = 3
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debug_level = 4
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extra_scripts = pre:build.py
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otakeyfile = ota.conf
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lorakeyfile = loraconf.h
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@ -10,15 +10,17 @@ Display-Mask (128 x 64 pixel):
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0|PAX:aabbccddee
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1|PAX:aabbccddee
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2|B:a.bcV Sats:ab
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3|BLTH:abcde SF:ab
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3|BLTH:abcde SFab
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4|WIFI:abcde ch:ab
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5|RLIM:abcd abcdKB
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6|xxxxxxxxxxxxxxxx
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6|20:27:00* 27.Feb
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7|yyyyyyyyyyyyyyab
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line 6: x = Text for LORA status OR time/date
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line 7: y = Text for LMIC status; ab = payload queue
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line 6: * = char {L|G|R|?} indicates time source,
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inverse = clock controller is active,
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pulsed = pps input signal is active
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line 7: y = LMIC event message; ab = payload queue length
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*/
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@ -203,10 +205,10 @@ void draw_page(time_t t, uint8_t page) {
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#if (HAS_LORA)
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u8x8.setCursor(11, 3);
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if (cfg.adrmode) // if ADR=on then display SF value inverse
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if (!cfg.adrmode) // if ADR=off then display SF value inverse
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u8x8.setInverseFont(1);
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u8x8.printf("%5s", getSfName(updr2rps(LMIC.datarate)));
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if (cfg.adrmode) // switch off inverse if it was turned on
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u8x8.printf("%4s", getSfName(updr2rps(LMIC.datarate)));
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if (!cfg.adrmode) // switch off inverse if it was turned on
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u8x8.setInverseFont(0);
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#endif // HAS_LORA
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@ -239,17 +241,13 @@ void draw_page(time_t t, uint8_t page) {
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#endif // HAS_DCF77 || HAS_IF482
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if (timeSource != _unsynced)
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u8x8.printf(" %2d.%3s", day(t), printmonth[month(t)]);
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#else // update LoRa status display
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#if (HAS_LORA)
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u8x8.printf("%-16s", display_line6);
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#endif
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#endif // TIME_SYNC_INTERVAL
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#if (HAS_LORA)
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// line 7: update LMiC event display
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u8x8.setCursor(0, 7);
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u8x8.printf("%-14s", display_line7);
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u8x8.printf("%-14s", lmic_event_msg);
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// update LoRa send queue display
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msgWaiting = uxQueueMessagesWaiting(LoraSendQueue);
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@ -259,7 +257,6 @@ void draw_page(time_t t, uint8_t page) {
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u8x8.printf("%-2s", msgWaiting == SEND_QUEUE_SIZE ? "<>" : buff);
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} else
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u8x8.printf(" ");
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#endif // HAS_LORA
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break; // page0
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@ -231,7 +231,6 @@ void onEvent(ev_t ev) {
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case EV_JOINED:
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strcpy_P(buff, PSTR("JOINED"));
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sprintf(display_line6, " "); // clear previous lmic status
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// set data rate adaptation according to saved setting
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LMIC_setAdrMode(cfg.adrmode);
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// set data rate and transmit power to defaults only if we have no ADR
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@ -258,16 +257,7 @@ void onEvent(ev_t ev) {
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break;
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case EV_TXCOMPLETE:
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#if (TIME_SYNC_LORASERVER)
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// if last packet sent was a timesync request, store TX timestamp
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if (LMIC.pendTxPort == TIMEPORT)
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store_time_sync_req(osticks2ms(LMIC.txend)); // milliseconds
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#endif
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strcpy_P(buff, (LMIC.txrxFlags & TXRX_ACK) ? PSTR("RECEIVED ACK")
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: PSTR("TX COMPLETE"));
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sprintf(display_line6, " "); // clear previous lmic status
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strcpy_P(buff, PSTR("TX COMPLETE"));
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break;
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case EV_LOST_TSYNC:
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@ -321,7 +311,7 @@ void onEvent(ev_t ev) {
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// Log & Display if asked
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if (*buff) {
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ESP_LOGI(TAG, "%s", buff);
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sprintf(display_line7, buff);
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sprintf(lmic_event_msg, buff);
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}
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}
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@ -585,7 +575,12 @@ void myRxCallback(void *pUserData, uint8_t port, const uint8_t *pMsg,
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// transmit complete message handler
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void myTxCallback(void *pUserData, int fSuccess) {
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/* currently no code here */
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#if (TIME_SYNC_LORASERVER)
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// if last packet sent was a timesync request, store TX timestamp
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if (LMIC.pendTxPort == TIMEPORT)
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store_time_sync_req(osticks2ms(LMIC.txend)); // milliseconds
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#endif
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}
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// decode LORAWAN MAC message
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@ -651,12 +646,12 @@ uint8_t getBattLevel() {
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const char *getSfName(rps_t rps) {
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const char *const t[] = {"FSK", "SF7", "SF8", "SF9",
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"SF10", "SF11", "SF12", "SFrfu"};
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"SF10", "SF11", "SF12", "SF?"};
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return t[getSf(rps)];
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}
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const char *getBwName(rps_t rps) {
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const char *const t[] = {"BW125", "BW250", "BW500", "BWrfu"};
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const char *const t[] = {"BW125", "BW250", "BW500", "BW?"};
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return t[getBw(rps)];
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}
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@ -77,7 +77,7 @@ triggers pps 1 sec impulse
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#include "main.h"
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configData_t cfg; // struct holds current device configuration
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char display_line6[16], display_line7[16]; // display buffers
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char lmic_event_msg[16]; // display buffer for LMIC event message
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uint8_t volatile channel = 0; // channel rotation counter
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uint16_t volatile macs_total = 0, macs_wifi = 0, macs_ble = 0,
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batt_voltage = 0; // globals for display
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@ -49,7 +49,7 @@
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#define RETRANSMIT_RCMD 5 // [seconds] wait time before retransmitting rcommand results
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#define PAYLOAD_BUFFER_SIZE 51 // maximum size of payload block per transmit
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#define LORADRDEFAULT 5 // 0 .. 15, LoRaWAN datarate, according to regional LoRaWAN specs [default = 5]
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#define LORATXPOWDEFAULT 14 // 0 .. 15, LoRaWAN TX power
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#define LORATXPOWDEFAULT 7 // 0 .. 15, LoRaWAN TX power [default = 7]
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#define MAXLORARETRY 500 // maximum count of TX retries if LoRa busy
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#define SEND_QUEUE_SIZE 10 // maximum number of messages in payload send queue [1 = no queue]
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@ -75,7 +75,7 @@
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#define TIME_SYNC_INTERVAL_RETRY 10 // retry time sync after lost sync each .. minutes [default = 10], 0 means off
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#define TIME_SYNC_COMPILEDATE 0 // set to 1 to use compile date to initialize RTC after power outage [default = 0]
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#define TIME_SYNC_LORAWAN 0 // set to 1 to use LORA network as time source, 0 means off [default = 0]
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#define TIME_SYNC_LORASERVER 0 // set to 1 to use LORA timeserver as time source, 0 means off [default = 0]
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#define TIME_SYNC_LORASERVER 1 // set to 1 to use LORA timeserver as time source, 0 means off [default = 0]
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// settings for syncing time with timeserver applications
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#define TIME_SYNC_SAMPLES 1 // number of time requests for averaging
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@ -19,32 +19,25 @@ void do_reset() {
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void set_reset(uint8_t val[]) {
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switch (val[0]) {
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case 0: // restart device
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sprintf(display_line6, "Reset pending");
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do_reset();
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break;
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case 1: // reset MAC counter
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ESP_LOGI(TAG, "Remote command: reset MAC counter");
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reset_counters(); // clear macs
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get_salt(); // get new salt
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sprintf(display_line6, "Reset counter");
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break;
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case 2: // reset device to factory settings
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ESP_LOGI(TAG, "Remote command: reset device to factory settings");
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sprintf(display_line6, "Factory reset");
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eraseConfig();
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break;
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case 3: // reset send queues
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ESP_LOGI(TAG, "Remote command: flush send queue");
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sprintf(display_line6, "Queue reset");
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flushQueues();
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break;
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case 9: // reset and ask for software update via Wifi OTA
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ESP_LOGI(TAG, "Remote command: software update via Wifi");
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#if (USE_OTA)
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sprintf(display_line6, "Software update");
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cfg.runmode = 1;
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#else
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sprintf(display_line6, "Software update not implemented");
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#endif // USE_OTA
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break;
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