1 files changed, 323 insertions, 0 deletions

diff --git a/tracker-stm32/src/main.cpp b/tracker-stm32/src/main.cpp
new file mode 100644
index 0000000..1ae97e9
--- /dev/null
+++ b/tracker-stm32/src/main.cpp
@@ -0,0 +1,323 @@
+// Licence: MIT
+#include <Arduino.h>
+#include <RadioLib.h>
+#include <Wire.h>
+#include <SparkFun_u-blox_GNSS_Arduino_Library.h>
+#include <SD.h>
+#include "compression.h"
+
+// Date Type Codes defined in aprs434.github.io
+constexpr int DATA_TYPE_CODE_GEOLOCATION = 0;
+constexpr int DATA_TYPE_CODE_STATUS_REPORT = 1;
+
+// TODO: read these settings from the SD Card
+constexpr char CALLSIGN[] = "HB9EGM";
+constexpr int SSID = 12;
+constexpr int PATH_CODE = 2; // metropolitan mobile
+constexpr char SYMBOL_TABLE_IDENTIFIER = '/';
+constexpr char SYMBOL_CODE_BICYCLE = 'b';
+constexpr long REPORT_TX_INTERVAL = 15000;
+
+constexpr long TEXT_TX_INTERVAL = 47000;
+constexpr char TEXT_REPORT[] = "mpb.li/git/lora-aprs-hb9egm"; // Max length=28
+
+#if 0
+File myFile;
+constexpr int SD_CS = 17;
+#endif
+
+// SX1278 has the following connections:
+// NSS pin:   PD14 (Arduino 10)
+// DIO0 pin:  PF3 (Arduino 8)
+// RESET pin: PF15 (Arduino 9)
+RFM96 radio = new Module(10, 8, 9);
+HardwareSerial SerialGNSS(PD6, PD5);
+SFE_UBLOX_GNSS gnss;
+
+long lastGnssPoll = 0;
+long lastPositionReport = 0;
+long lastTextReport = 0;
+
+constexpr size_t MAX_REPORT_LEN = 32;
+size_t report_len = 0;
+uint8_t report[MAX_REPORT_LEN];
+
+static char letterize(int x) {
+    return (char) x + 65;
+}
+
+static char* get_mh(double lat, double lon, int size) {
+    static char locator[11];
+    double LON_F[]={20,2.0,0.083333,0.008333,0.0003472083333333333};
+    double LAT_F[]={10,1.0,0.0416665,0.004166,0.0001735833333333333};
+    int i;
+    lon += 180;
+    lat += 90;
+
+    if (size <= 0 || size > 10) size = 6;
+    size/=2; size*=2;
+
+    for (i = 0; i < size/2; i++){
+        if (i % 2 == 1) {
+            locator[i*2] = (char) (lon/LON_F[i] + '0');
+            locator[i*2+1] = (char) (lat/LAT_F[i] + '0');
+        } else {
+            locator[i*2] = letterize((int) (lon/LON_F[i]));
+            locator[i*2+1] = letterize((int) (lat/LAT_F[i]));
+        }
+        lon = fmod(lon, LON_F[i]);
+        lat = fmod(lat, LAT_F[i]);
+    }
+    locator[i*2]=0;
+    return locator;
+}
+
+void setup() {
+    Serial.begin(9600);
+    pinMode(LED_BUILTIN, OUTPUT);
+
+#if 0
+    pinMode(SD_CS, OUTPUT);
+
+    if (!SD.begin(SD_CS)) {
+        Serial.println("SD init failed!");
+        return;
+    }
+#endif
+
+    Wire.begin();
+
+    SerialGNSS.begin(9600);
+    if (!gnss.begin(SerialGNSS)) {
+        while (true) {
+            Serial.println(F("Check GNSS"));
+            delay(4000);
+        }
+    }
+
+    //gnss.enableDebugging(); // Uncomment this line to enable helpful debug messages on Serial
+
+    Serial.print(F("Version: "));
+    byte versionHigh = gnss.getProtocolVersionHigh();
+    Serial.print(versionHigh);
+    Serial.print(".");
+    byte versionLow = gnss.getProtocolVersionLow();
+    Serial.println(versionLow);
+
+    Serial.print(F("[RFM] Init "));
+    int state = radio.begin(433.900);
+    if (state == RADIOLIB_ERR_NONE) {
+        Serial.println(F("success!"));
+    } else {
+        Serial.print(F("failed, code "));
+        Serial.println(state);
+        while (true);
+    }
+
+    if (radio.setBandwidth(125.0) == RADIOLIB_ERR_INVALID_BANDWIDTH) {
+        Serial.println(F("Selected bandwidth is invalid for this module!"));
+        while (true);
+    }
+
+    if (radio.setSpreadingFactor(12) == RADIOLIB_ERR_INVALID_SPREADING_FACTOR) {
+        Serial.println(F("Selected spreading factor is invalid for this module!"));
+        while (true);
+    }
+
+    if (radio.setCodingRate(5) == RADIOLIB_ERR_INVALID_CODING_RATE) {
+        Serial.println(F("Selected coding rate is invalid for this module!"));
+        while (true);
+    }
+
+    // NOTE: value 0x34 is reserved for LoRaWAN networks and should not be used
+    if (radio.setSyncWord(0x14) != RADIOLIB_ERR_NONE) {
+        Serial.println(F("Unable to set sync word!"));
+        while (true);
+    }
+
+    if (radio.setOutputPower(16) == RADIOLIB_ERR_INVALID_OUTPUT_POWER) {
+        Serial.println(F("Selected output power is invalid for this module!"));
+        while (true);
+    }
+
+    if (radio.setPreambleLength(8) == RADIOLIB_ERR_INVALID_PREAMBLE_LENGTH) {
+        Serial.println(F("Selected preamble length is invalid for this module!"));
+        while (true);
+    }
+
+    // radio.setRfSwitchPins(4, 5);
+}
+
+static void handle_radio_error(int state)
+{
+    if (state == RADIOLIB_ERR_NONE) {
+        Serial.print(F(" RFM OK Datarate: "));
+        Serial.print(radio.getDataRate());
+        Serial.println(F(" bps"));
+
+    }
+    else if (state == RADIOLIB_ERR_PACKET_TOO_LONG) {
+        Serial.println(F(" too long!"));
+
+    }
+    else if (state == RADIOLIB_ERR_TX_TIMEOUT) {
+        Serial.println(F(" timeout!"));
+
+    }
+    else {
+        Serial.print(F(" failed, code "));
+        Serial.println(state);
+    }
+}
+
+void loop()
+{
+    const auto now = millis();
+    if (now - lastGnssPoll > 1000) {
+        lastGnssPoll = now;
+
+        // longitude and latitude are in degrees*1e7
+        const long latitude = gnss.getLatitude();
+        Serial.print(F("Lat: "));
+        Serial.print(latitude);
+
+        const long longitude = gnss.getLongitude();
+        Serial.print(F(" Long: "));
+        Serial.print(longitude);
+
+        char *locator = get_mh((double)latitude/1e7, (double)longitude/1e7, 10);
+        Serial.print(F(" Loc: "));
+        Serial.print(locator);
+
+        const long altitude = gnss.getAltitude();
+        Serial.print(F(" Alt: "));
+        Serial.print(altitude);
+        Serial.print(F(" (mm)"));
+
+        const long speed = gnss.getGroundSpeed();
+        Serial.print(F(" Speed: "));
+        Serial.print(speed);
+        Serial.print(F(" (mm/s)"));
+        // 1m/s = 900/463 knots
+        const double speed_kn = speed / 1000.0 * 900.0 / 463.0;
+
+        const long heading = gnss.getHeading();
+        Serial.print(F(" Heading: "));
+        Serial.print(heading);
+        Serial.print(F(" (degrees * 10^-5)"));
+
+        const byte SIV = gnss.getSIV();
+        Serial.print(F(" SIV: "));
+        Serial.print(SIV);
+
+        Serial.print(F(" TX in: "));
+        Serial.print(REPORT_TX_INTERVAL - (now - lastPositionReport));
+
+        Serial.println();
+
+        if (now - lastPositionReport > REPORT_TX_INTERVAL) {
+            lastPositionReport = now;
+
+            digitalWrite(LED_BUILTIN, HIGH);
+
+            // Encode Compressed Geolocation Frame according to aprs434.github.io
+            const uint32_t callsign_EEEE = encodeCallsign(CALLSIGN);
+
+            report_len = 0;
+            // Callsign encoded as CCCC
+            report[report_len++] = (callsign_EEEE >> 24) & 0xFF;
+            report[report_len++] = (callsign_EEEE >> 16) & 0xFF;
+            report[report_len++] = (callsign_EEEE >> 8) & 0xFF;
+            report[report_len++] = callsign_EEEE & 0xFF;
+
+            // D SSID Path Code and Data Type Code
+            report[report_len++] = SSID * 16 + PATH_CODE * 4 + DATA_TYPE_CODE_GEOLOCATION;
+
+            // / Symbol Table Identifier
+            report[report_len++] = SYMBOL_TABLE_IDENTIFIER;
+
+            // XXXX Base91 Longitude
+            // YYYY Base91 Latitude
+            uint32_t aprs_lat = 900000000 - latitude;
+            aprs_lat = aprs_lat / 26 - aprs_lat / 2710 + aprs_lat / 15384615;
+            uint32_t aprs_lon = 900000000 + longitude / 2;
+            aprs_lon = aprs_lon / 26 - aprs_lon / 2710 + aprs_lon / 15384615;
+
+            char tmp_base91[5];
+            ax25_base91enc(tmp_base91, 4, aprs_lat);
+            for (int i=0; i<4; i++) {
+                report[report_len++] = tmp_base91[i];
+            }
+            ax25_base91enc(tmp_base91, 4, aprs_lon);
+            for (int i=0; i<4; i++) {
+                report[report_len++] = tmp_base91[i];
+            }
+
+            // $ Symbol Code
+            report[report_len++] = SYMBOL_CODE_BICYCLE;
+
+            // cs Course and Speed
+            ax25_base91enc(tmp_base91, 1, heading * 10000 / 4);
+            report[report_len++] = tmp_base91[0];
+
+            ax25_base91enc(tmp_base91, 1, (uint32_t)(log1p(speed_kn) / 0.07696));
+            report[report_len++] = tmp_base91[0];
+
+            Serial.print(F("TX: "));
+            // This is the old custom report I used before adopting aprs434.github.io,
+            // it is just callsign SPACE locator sent as ASCII
+            Serial.print(CALLSIGN);
+            Serial.print(F(" "));
+            Serial.println(locator);
+
+            // Debug print
+            Serial.println(F("Bytes: "));
+            for (int i = 0; i < report_len; i++) {
+                Serial.print((uint32_t)report[i]);
+            }
+            Serial.println(F(""));
+
+            int state = radio.transmit(report, report_len);
+            handle_radio_error(state);
+
+            digitalWrite(LED_BUILTIN, LOW);
+        }
+
+        if (now - lastTextReport > TEXT_TX_INTERVAL) {
+            lastTextReport = now;
+            digitalWrite(LED_BUILTIN, HIGH);
+
+            // Encode Compressed Status Report Frame according to aprs434.github.io
+            const uint32_t callsign_EEEE = encodeCallsign(CALLSIGN);
+
+            report_len = 0;
+            // Callsign encoded as CCCC
+            report[report_len++] = (callsign_EEEE >> 24) & 0xFF;
+            report[report_len++] = (callsign_EEEE >> 16) & 0xFF;
+            report[report_len++] = (callsign_EEEE >> 8) & 0xFF;
+            report[report_len++] = callsign_EEEE & 0xFF;
+
+            // D SSID Path Code and Data Type Code
+            report[report_len++] = SSID * 16 + PATH_CODE * 4 + DATA_TYPE_CODE_STATUS_REPORT;
+
+            // t(t...) text
+            const auto bignum = encodetttt(TEXT_REPORT);
+            for (int i = 0; i <= 512; i += 8) {
+                auto v = static_cast<uint8_t>((bignum >> (512-i)) & 0xFF);
+                if (v) {
+                    report[report_len++] = v;
+                }
+            }
+
+            Serial.print(F("TX length "));
+            Serial.print(report_len);
+            Serial.print(F(" bytes: "));
+            Serial.println(TEXT_REPORT);
+
+            int state = radio.transmit(report, report_len);
+            handle_radio_error(state);
+
+            digitalWrite(LED_BUILTIN, LOW);
+        }
+    }
+}