ESP32-PaxCounter/src/rcommand.cpp

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// Basic Config
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#include "globals.h"
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#include "rcommand.h"
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// Local logging tag
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static const char TAG[] = __FILE__;
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static QueueHandle_t RcmdQueue;
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TaskHandle_t rcmdTask;
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// set of functions that can be triggered by remote commands
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void set_reset(uint8_t val[]) {
switch (val[0]) {
case 0: // restart device with cold start (clear RTC saved variables)
ESP_LOGI(TAG, "Remote command: restart device cold");
do_reset(false);
break;
case 1: // reset MAC counter
ESP_LOGI(TAG, "Remote command: reset MAC counter");
reset_counters(); // clear macs
break;
case 2: // reset device to factory settings
ESP_LOGI(TAG, "Remote command: reset device to factory settings");
eraseConfig();
break;
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case 3: // reset send queues
ESP_LOGI(TAG, "Remote command: flush send queue");
flushQueues();
break;
case 4: // restart device with warm start (keep RTC saved variables)
ESP_LOGI(TAG, "Remote command: restart device warm");
do_reset(true);
break;
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case 8: // reset and start local web server for manual software update
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ESP_LOGI(TAG, "Remote command: reboot to maintenance mode");
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RTC_runmode = RUNMODE_MAINTENANCE;
break;
case 9: // reset and ask OTA server via Wifi for automated software update
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ESP_LOGI(TAG, "Remote command: reboot to ota update mode");
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#if (USE_OTA)
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// check power status before scheduling ota update
if (batt_sufficient())
RTC_runmode = RUNMODE_UPDATE;
else
ESP_LOGE(TAG, "Battery level %d%% is too low for OTA", batt_level);
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#endif // USE_OTA
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break;
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default:
ESP_LOGW(TAG, "Remote command: reset called with invalid parameter(s)");
}
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}
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void set_rssi(uint8_t val[]) {
cfg.rssilimit = val[0] * -1;
ESP_LOGI(TAG, "Remote command: set RSSI limit to %d", cfg.rssilimit);
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}
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void set_sendcycle(uint8_t val[]) {
cfg.sendcycle = val[0];
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// update send cycle interrupt [seconds / 2]
sendTimer.attach(cfg.sendcycle * 2, setSendIRQ);
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ESP_LOGI(TAG, "Remote command: set send cycle to %d seconds",
cfg.sendcycle * 2);
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}
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void set_sleepcycle(uint8_t val[]) {
cfg.sleepcycle = val[0];
ESP_LOGI(TAG, "Remote command: set sleep cycle to %d seconds",
cfg.sleepcycle * 2);
}
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void set_wifichancycle(uint8_t val[]) {
cfg.wifichancycle = val[0];
// update Wifi channel rotation timer period
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if (cfg.wifichancycle > 0) {
if (xTimerIsTimerActive(WifiChanTimer) == pdFALSE)
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xTimerStart(WifiChanTimer, (TickType_t)0);
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xTimerChangePeriod(WifiChanTimer, pdMS_TO_TICKS(cfg.wifichancycle * 10),
100);
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ESP_LOGI(
TAG,
"Remote command: set Wifi channel hopping interval to %.1f seconds",
cfg.wifichancycle / float(100));
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} else {
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xTimerStop(WifiChanTimer, (TickType_t)0);
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esp_wifi_set_channel(WIFI_CHANNEL_MIN, WIFI_SECOND_CHAN_NONE);
channel = WIFI_CHANNEL_MIN;
ESP_LOGI(TAG, "Remote command: set Wifi channel hopping to off");
}
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}
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void set_blescantime(uint8_t val[]) {
cfg.blescantime = val[0];
ESP_LOGI(TAG, "Remote command: set BLE scan time to %.1f seconds",
cfg.blescantime / float(100));
// stop & restart BLE scan task to apply new parameter
if (cfg.blescan) {
stop_BLEscan();
start_BLEscan();
}
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}
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void set_countmode(uint8_t val[]) {
switch (val[0]) {
case 0: // cyclic unconfirmed
cfg.countermode = 0;
ESP_LOGI(TAG, "Remote command: set counter mode to cyclic unconfirmed");
break;
case 1: // cumulative
cfg.countermode = 1;
ESP_LOGI(TAG, "Remote command: set counter mode to cumulative");
break;
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case 2: // cyclic confirmed
cfg.countermode = 2;
ESP_LOGI(TAG, "Remote command: set counter mode to cyclic confirmed");
break;
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default: // invalid parameter
ESP_LOGW(
TAG,
"Remote command: set counter mode called with invalid parameter(s)");
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return;
}
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reset_counters(); // clear macs
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}
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void set_screensaver(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set screen saver to %s ",
val[0] ? "on" : "off");
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cfg.screensaver = val[0] ? 1 : 0;
}
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void set_display(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set screen to %s", val[0] ? "on" : "off");
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cfg.screenon = val[0] ? 1 : 0;
}
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void set_gps(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set GPS mode to %s", val[0] ? "on" : "off");
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if (val[0]) {
cfg.payloadmask |= (uint8_t)GPS_DATA; // set bit in mask
} else {
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cfg.payloadmask &= (uint8_t)~GPS_DATA; // clear bit in mask
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}
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}
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void set_bme(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set BME mode to %s", val[0] ? "on" : "off");
if (val[0]) {
cfg.payloadmask |= (uint8_t)MEMS_DATA; // set bit in mask
} else {
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cfg.payloadmask &= (uint8_t)~MEMS_DATA; // clear bit in mask
}
}
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void set_batt(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set battery mode to %s",
val[0] ? "on" : "off");
if (val[0]) {
cfg.payloadmask |= (uint8_t)BATT_DATA; // set bit in mask
} else {
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cfg.payloadmask &= (uint8_t)~BATT_DATA; // clear bit in mask
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}
}
void set_payloadmask(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set payload mask to %X", val[0]);
cfg.payloadmask = val[0];
}
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void set_sensor(uint8_t val[]) {
#if (HAS_SENSORS)
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switch (val[0]) { // check if valid sensor number 1..3
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case 1:
case 2:
case 3:
break; // valid sensor number -> continue
default:
ESP_LOGW(
TAG,
"Remote command set sensor mode called with invalid sensor number");
return; // invalid sensor number -> exit
}
ESP_LOGI(TAG, "Remote command: set sensor #%d mode to %s", val[0],
val[1] ? "on" : "off");
if (val[1])
cfg.payloadmask |= sensor_mask(val[0]); // set bit
else
cfg.payloadmask &= ~sensor_mask(val[0]); // clear bit
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#endif
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}
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void set_beacon(uint8_t val[]) {
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uint8_t id = val[0]; // use first parameter as beacon storage id
memmove(val, val + 1, 6); // strip off storage id
beacons[id] = macConvert(val); // store beacon MAC in array
ESP_LOGI(TAG, "Remote command: set beacon ID#%d", id);
printKey("MAC", val, 6, false); // show beacon MAC
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}
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void set_monitor(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set beacon monitor mode to %s",
val ? "on" : "off");
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cfg.monitormode = val[0] ? 1 : 0;
}
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void set_loradr(uint8_t val[]) {
#if (HAS_LORA)
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if (validDR(val[0])) {
cfg.loradr = val[0];
ESP_LOGI(TAG, "Remote command: set LoRa Datarate to %d", cfg.loradr);
LMIC_setDrTxpow(assertDR(cfg.loradr), KEEP_TXPOW);
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ESP_LOGI(TAG, "Radio parameters now %s / %s / %s",
getSfName(updr2rps(LMIC.datarate)),
getBwName(updr2rps(LMIC.datarate)),
getCrName(updr2rps(LMIC.datarate)));
} else
ESP_LOGI(
TAG,
"Remote command: set LoRa Datarate called with illegal datarate %d",
val[0]);
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#else
ESP_LOGW(TAG, "Remote command: LoRa not implemented");
#endif // HAS_LORA
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}
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void set_loraadr(uint8_t val[]) {
#if (HAS_LORA)
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ESP_LOGI(TAG, "Remote command: set LoRa ADR mode to %s",
val[0] ? "on" : "off");
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cfg.adrmode = val[0] ? 1 : 0;
LMIC_setAdrMode(cfg.adrmode);
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#else
ESP_LOGW(TAG, "Remote command: LoRa not implemented");
#endif // HAS_LORA
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}
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void set_blescan(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set BLE scanner to %s", val[0] ? "on" : "off");
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macs_ble = 0; // clear BLE counter
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cfg.blescan = val[0] ? 1 : 0;
if (cfg.blescan)
start_BLEscan();
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else
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stop_BLEscan();
}
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void set_wifiscan(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set WIFI scanner to %s",
val[0] ? "on" : "off");
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macs_wifi = 0; // clear WIFI counter
cfg.wifiscan = val[0] ? 1 : 0;
switch_wifi_sniffer(cfg.wifiscan);
}
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void set_wifiant(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set Wifi antenna to %s",
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val[0] ? "external" : "internal");
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cfg.wifiant = val[0] ? 1 : 0;
#ifdef HAS_ANTENNA_SWITCH
antenna_select(cfg.wifiant);
#endif
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}
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void set_macfilter(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set macfilter mode to %s",
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val[0] ? "on" : "off");
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cfg.macfilter = val[0] ? 1 : 0;
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}
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void set_rgblum(uint8_t val[]) {
// Avoid wrong parameters
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cfg.rgblum = (val[0] <= 100) ? (uint8_t)val[0] : RGBLUMINOSITY;
ESP_LOGI(TAG, "Remote command: set RGB Led luminosity %d", cfg.rgblum);
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};
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void set_lorapower(uint8_t val[]) {
#if (HAS_LORA)
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// set data rate and transmit power only if we have no ADR
if (!cfg.adrmode) {
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cfg.txpower = val[0];
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ESP_LOGI(TAG, "Remote command: set LoRa TXPOWER to %d", cfg.txpower);
LMIC_setDrTxpow(assertDR(cfg.loradr), cfg.txpower);
} else
ESP_LOGI(
TAG,
"Remote command: set LoRa TXPOWER, not executed because ADR is on");
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#else
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ESP_LOGW(TAG, "Remote command: LoRa not implemented");
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#endif // HAS_LORA
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};
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void get_config(uint8_t val[]) {
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ESP_LOGI(TAG, "Remote command: get device configuration");
payload.reset();
payload.addConfig(cfg);
SendPayload(CONFIGPORT);
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};
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void get_status(uint8_t val[]) {
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ESP_LOGI(TAG, "Remote command: get device status");
payload.reset();
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payload.addStatus(read_voltage(), (uint64_t)(uptime() / 1000ULL),
temperatureRead(), getFreeRAM(), rtc_get_reset_reason(0),
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RTC_restarts);
SendPayload(STATUSPORT);
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};
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void get_gps(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: get gps status");
#if (HAS_GPS)
gpsStatus_t gps_status;
gps_storelocation(&gps_status);
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payload.reset();
payload.addGPS(gps_status);
SendPayload(GPSPORT);
#else
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ESP_LOGW(TAG, "GPS function not supported");
#endif
};
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void get_bme(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: get bme680 sensor data");
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#if (HAS_BME)
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payload.reset();
payload.addBME(bme_status);
SendPayload(BMEPORT);
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#else
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ESP_LOGW(TAG, "BME sensor not supported");
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#endif
};
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void get_batt(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: get battery voltage");
#if (defined BAT_MEASURE_ADC || defined HAS_PMU)
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payload.reset();
payload.addVoltage(read_voltage());
SendPayload(BATTPORT);
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#else
ESP_LOGW(TAG, "Battery voltage not supported");
#endif
};
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void get_time(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: get time");
payload.reset();
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payload.addTime(now());
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payload.addByte(timeStatus() << 4 | timeSource);
SendPayload(TIMEPORT);
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};
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void set_time(uint8_t val[]) {
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ESP_LOGI(TAG, "Remote command: timesync requested");
setTimeSyncIRQ();
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};
void set_flush(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: flush");
// does nothing
// used to open receive window on LoRaWAN class a nodes
};
void set_enscount(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: set ENS_COUNT to %s", val[0] ? "on" : "off");
cfg.enscount = val[0] ? 1 : 0;
if (val[0])
cfg.payloadmask |= SENSOR1_DATA;
else
cfg.payloadmask &= ~SENSOR1_DATA;
}
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void set_loadconfig(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: load config from NVRAM");
loadConfig();
};
void set_saveconfig(uint8_t val[]) {
ESP_LOGI(TAG, "Remote command: save config to NVRAM");
saveConfig(false);
};
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// assign previously defined functions to set of numeric remote commands
// format: {opcode, function, number of function arguments}
static const cmd_t table[] = {
{0x01, set_rssi, 1}, {0x02, set_countmode, 1},
{0x03, set_gps, 1}, {0x04, set_display, 1},
{0x05, set_loradr, 1}, {0x06, set_lorapower, 1},
{0x07, set_loraadr, 1}, {0x08, set_screensaver, 1},
{0x09, set_reset, 1}, {0x0a, set_sendcycle, 1},
{0x0b, set_wifichancycle, 1}, {0x0c, set_blescantime, 1},
{0x0d, set_macfilter, 1}, {0x0e, set_blescan, 1},
{0x0f, set_wifiant, 1}, {0x10, set_rgblum, 1},
{0x11, set_monitor, 1}, {0x12, set_beacon, 7},
{0x13, set_sensor, 2}, {0x14, set_payloadmask, 1},
{0x15, set_bme, 1}, {0x16, set_batt, 1},
{0x17, set_wifiscan, 1}, {0x18, set_enscount, 1},
{0x19, set_sleepcycle, 1}, {0x20, set_loadconfig, 0},
{0x21, set_saveconfig, 0}, {0x80, get_config, 0},
{0x81, get_status, 0}, {0x83, get_batt, 0},
{0x84, get_gps, 0}, {0x85, get_bme, 0},
{0x86, get_time, 0}, {0x87, set_time, 0},
{0x99, set_flush, 0}};
static const uint8_t cmdtablesize =
sizeof(table) / sizeof(table[0]); // number of commands in command table
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// check and execute remote command
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void rcmd_execute(const uint8_t cmd[], const uint8_t cmdlength) {
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if (cmdlength == 0)
return;
uint8_t foundcmd[cmdlength], cursor = 0;
while (cursor < cmdlength) {
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int i = cmdtablesize;
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while (i--) {
if (cmd[cursor] == table[i].opcode) { // lookup command in opcode table
cursor++; // strip 1 byte opcode
if ((cursor + table[i].params) <= cmdlength) {
memmove(foundcmd, cmd + cursor,
table[i].params); // strip opcode from cmd array
cursor += table[i].params;
table[i].func(
foundcmd); // execute assigned function with given parameters
} else
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ESP_LOGI(TAG,
"Remote command x%02X called with missing parameter(s), "
"skipped",
table[i].opcode);
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break; // command found -> exit table lookup loop
} // end of command validation
} // end of command table lookup loop
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if (i < 0) { // command not found -> exit parser
ESP_LOGI(TAG, "Unknown remote command x%02X, ignored", cmd[cursor]);
break;
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}
} // command parsing loop
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} // rcmd_execute()
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// remote command processing task
void rcmd_process(void *pvParameters) {
_ASSERT((uint32_t)pvParameters == 1); // FreeRTOS check
RcmdBuffer_t RcmdBuffer;
while (1) {
// fetch next or wait for incoming rcommand from queue
if (xQueueReceive(RcmdQueue, &RcmdBuffer, portMAX_DELAY) != pdTRUE) {
ESP_LOGE(TAG, "Premature return from xQueueReceive() with no data!");
continue;
}
rcmd_execute(RcmdBuffer.cmd, RcmdBuffer.cmdLen);
}
delay(2); // yield to CPU
} // rcmd_process()
// enqueue remote command
void IRAM_ATTR rcommand(const uint8_t *cmd, const size_t cmdlength) {
RcmdBuffer_t rcmd = {0};
rcmd.cmdLen = cmdlength;
memcpy(rcmd.cmd, cmd, cmdlength);
if (xQueueSendToBack(RcmdQueue, (void *)&rcmd, (TickType_t)0) != pdTRUE)
ESP_LOGW(TAG, "Remote command queue is full");
} // rcommand()
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void rcmd_queuereset(void) { xQueueReset(RcmdQueue); }
uint32_t rcmd_queuewaiting(void) { return uxQueueMessagesWaiting(RcmdQueue); }
void rcmd_deinit(void) {
rcmd_queuereset();
vTaskDelete(rcmdTask);
}
esp_err_t rcmd_init(void) {
_ASSERT(RCMD_QUEUE_SIZE > 0);
RcmdQueue = xQueueCreate(RCMD_QUEUE_SIZE, sizeof(RcmdBuffer_t));
if (RcmdQueue == 0) {
ESP_LOGE(TAG, "Could not create rcommand send queue. Aborting.");
return ESP_FAIL;
}
ESP_LOGI(TAG, "Rcommand send queue created, size %d Bytes",
RCMD_QUEUE_SIZE * sizeof(RcmdBuffer_t));
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xTaskCreatePinnedToCore(rcmd_process, // task function
"rcmdloop", // name of task
3072, // stack size of task
(void *)1, // parameter of the task
1, // priority of the task
&rcmdTask, // task handle
1); // CPU core
return ESP_OK;
} // rcmd_init()