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add checksum and xor to lora payload

Thomas Buck hace 4 meses
padre
commit
8174d78158
Se han modificado 4 ficheros con 122 adiciones y 98 borrados
  1. 4
    0
      include/config.h
  2. 6
    0
      include/lora.h
  3. 10
    1
      src/influx.cpp
  4. 102
    97
      src/lora.cpp

+ 4
- 0
include/config.h Ver fichero

@@ -42,6 +42,10 @@
42 42
 #define INFLUXDB_DATABASE "roomsensorsdiy"
43 43
 //#define INFLUX_MAX_ERRORS_RESET 10
44 44
 
45
+// LoRa SML Bridge "Crypto"
46
+// needs to be sizeof(struct lora_sml_msg) bytes long
47
+#define LORA_XOR_KEY "_SUPER_SECRET_KEY_HERE_"
48
+
45 49
 // all given in milliseconds
46 50
 #define SERVER_HANDLE_INTERVAL 10
47 51
 #define SENSOR_HANDLE_INTERVAL (5 * 1000)

+ 6
- 0
include/lora.h Ver fichero

@@ -36,6 +36,12 @@ enum lora_sml_type {
36 36
     LORA_SML_NUM_MESSAGES
37 37
 };
38 38
 
39
+struct lora_sml_msg {
40
+    uint8_t type; // enum lora_sml_type
41
+    double value;
42
+    uint32_t checksum;
43
+} __attribute__ ((packed));
44
+
39 45
 #ifdef FEATURE_SML
40 46
 void lora_sml_send(enum lora_sml_type msg, double value, unsigned long counter);
41 47
 #endif // FEATURE_SML

+ 10
- 1
src/influx.cpp Ver fichero

@@ -118,7 +118,16 @@ void writeSensorDatum(String measurement, String sensor, String placement, Strin
118 118
 
119 119
     ms.addValue(key, value);
120 120
 
121
-    debug.printf("Writing %s %s %s %s %.2lf\n", measurement.c_str(), sensor.c_str(), placement.c_str(), key.c_str(), value);
121
+    debug.print("Writing ");
122
+    debug.print(measurement);
123
+    debug.print(" ");
124
+    debug.print(sensor);
125
+    debug.print(" ");
126
+    debug.print(placement);
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+    debug.print(" ");
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+    debug.print(key);
129
+    debug.print(" ");
130
+    debug.printf("%.2lf\n", value);
122 131
     writeMeasurement(ms);
123 132
     debug.println(F("Done!"));
124 133
 }

+ 102
- 97
src/lora.cpp Ver fichero

@@ -25,9 +25,6 @@
25 25
 #include "influx.h"
26 26
 #include "lora.h"
27 27
 
28
-// define LORA_TEST_TX to periodically transmit a test message
29
-//#define LORA_TEST_TX
30
-
31 28
 //#define DEBUG_LORA_RX_HEXDUMP
32 29
 
33 30
 #ifdef FEATURE_SML
@@ -38,13 +35,6 @@
38 35
 #define LORA_LED_BRIGHTNESS 25 // in percent, 50% brightness is plenty for this LED
39 36
 #endif // FEATURE_SML
40 37
 
41
-#ifdef LORA_TEST_TX
42
-// Pause between transmited packets in seconds.
43
-// Set to zero to only transmit a packet when pressing the user button
44
-// Will not exceed 1% duty cycle, even if you set a lower value.
45
-#define PAUSE               10
46
-#endif // LORA_TEST_TX
47
-
48 38
 // Frequency in MHz. Keep the decimal point to designate float.
49 39
 // Check your own rules and regulations to see what is legal where you are.
50 40
 #define FREQUENCY           866.3       // for Europe
@@ -100,10 +90,6 @@ static struct sml_cache cache[LORA_SML_NUM_MESSAGES];
100 90
 
101 91
 #endif // FEATURE_SML
102 92
 
103
-#ifdef LORA_TEST_TX
104
-static unsigned long test_counter = 0;
105
-#endif // LORA_TEST_TX
106
-
107 93
 void lora_oled_init(void) {
108 94
     heltec_setup();
109 95
 }
@@ -126,17 +112,45 @@ double lora_get_mangled_bat(void) {
126 112
     return *((double *)data);
127 113
 }
128 114
 
115
+// adapted from "Hacker's Delight"
116
+static uint32_t calc_checksum(const uint8_t *data, size_t len) {
117
+    uint32_t c = 0xFFFFFFFF;
118
+    for (size_t i = 0; i < len; i++) {
119
+        c ^= data[i];
120
+        for (size_t j = 0; j < 8; j++) {
121
+            uint32_t mask = -(c & 1);
122
+            c = (c >> 1) ^ (0xEDB88320 & mask);
123
+        }
124
+    }
125
+
126
+    return ~c;
127
+}
128
+
129 129
 static void lora_rx(void) {
130 130
     rx_flag = true;
131 131
 }
132 132
 
133
-static bool lora_tx(uint8_t *data, size_t len) {
133
+static bool lora_tx(enum lora_sml_type type, double value) {
134 134
     bool tx_legal = millis() > (last_tx + minimum_pause);
135 135
     if (!tx_legal) {
136 136
         //debug.printf("Legal limit, wait %i sec.\n", (int)((minimum_pause - (millis() - last_tx)) / 1000) + 1);
137 137
         return false;
138 138
     }
139 139
 
140
+    struct lora_sml_msg msg;
141
+    msg.type = type;
142
+    msg.value = value;
143
+    msg.checksum = calc_checksum((uint8_t *)&msg, offsetof(struct lora_sml_msg, checksum));
144
+
145
+    uint8_t *data = (uint8_t *)&msg;
146
+    const size_t len = sizeof(struct lora_sml_msg);
147
+
148
+#ifdef LORA_XOR_KEY
149
+    for (size_t i = 0; i < len; i++) {
150
+        data[i] ^= LORA_XOR_KEY[i];
151
+    }
152
+#endif
153
+
140 154
     debug.printf("TX [%d] (%lu) ", data[0], len);
141 155
     radio.clearDio1Action();
142 156
 
@@ -174,11 +188,7 @@ static bool lora_tx(uint8_t *data, size_t len) {
174 188
 
175 189
 #ifdef FEATURE_SML
176 190
 static bool lora_sml_cache_send(enum lora_sml_type msg) {
177
-    const size_t len = sizeof(double) + 1;
178
-    uint8_t data[len];
179
-    data[0] = (uint8_t)msg;
180
-    memcpy(data + 1, &cache[msg].value, sizeof(double));
181
-    return lora_tx(data, len);
191
+    return lora_tx(msg, cache[msg].value);
182 192
 }
183 193
 
184 194
 static void lora_sml_handle_cache(void) {
@@ -313,16 +323,22 @@ void lora_run(void) {
313 323
         rx_flag = false;
314 324
 
315 325
         bool success = true;
316
-        uint8_t data[sizeof(double) + 1];
326
+        uint8_t data[sizeof(struct lora_sml_msg)];
317 327
         RADIOLIB_CHECK(radio.readData(data, sizeof(data)));
318 328
         if (success) {
329
+#ifdef LORA_XOR_KEY
330
+            for (size_t i = 0; i < sizeof(data); i++) {
331
+                data[i] ^= LORA_XOR_KEY[i];
332
+            }
333
+#endif
334
+
319 335
             debug.printf("RX [%i]\n", data[0]);
320 336
             debug.printf("  RSSI: %.2f dBm\n", radio.getRSSI());
321 337
             debug.printf("  SNR: %.2f dB\n", radio.getSNR());
322 338
 
323 339
 #if defined(DEBUG_LORA_RX_HEXDUMP) || (!defined(ENABLE_INFLUXDB_LOGGING))
324 340
             for (int i = 0; i < sizeof(data); i++) {
325
-                debug.printf("%02X", data[i]);
341
+                debug.printf("  %02X", data[i]);
326 342
                 if (i < (sizeof(data) - 1)) {
327 343
                     debug.print(" ");
328 344
                 } else {
@@ -331,63 +347,70 @@ void lora_run(void) {
331 347
             }
332 348
 #endif
333 349
 
334
-#ifdef ENABLE_INFLUXDB_LOGGING
335
-            if (data[0] == LORA_SML_BAT_V) {
336
-                float vbat = NAN;
337
-                int percent = -1;
338
-                memcpy(&vbat, data + 1, sizeof(float));
339
-                memcpy(&percent, data + 1 + sizeof(float), sizeof(int));
340
-                debug.printf("  Vbat: %.2f (%d%%)\n", vbat, percent);
341
-
342
-                writeSensorDatum("environment", "sml", SENSOR_LOCATION, "vbat", vbat);
343
-                writeSensorDatum("environment", "sml", SENSOR_LOCATION, "percent", percent);
350
+            struct lora_sml_msg *msg = (struct lora_sml_msg *)data;
351
+            uint32_t checksum = calc_checksum(data, offsetof(struct lora_sml_msg, checksum));
352
+            if (checksum != msg->checksum) {
353
+                debug.printf("  CRC: 0x%08X != 0x%08X\n", msg->checksum, checksum);
344 354
             } else {
345
-                double val = NAN;
346
-                memcpy(&val, data + 1, sizeof(double));
347
-                debug.printf("  Value: %.2f\n", val);
348
-
349
-                String key;
350
-                switch (data[0]) {
351
-                    case LORA_SML_HELLO:
352
-                        key = "hello";
353
-                        break;
354
-
355
-                    case LORA_SML_SUM_WH:
356
-                        key = "Sum_Wh";
357
-                        break;
358
-
359
-                    case LORA_SML_T1_WH:
360
-                        key = "T1_Wh";
361
-                        break;
362
-
363
-                    case LORA_SML_T2_WH:
364
-                        key = "T2_Wh";
365
-                        break;
366
-
367
-                    case LORA_SML_SUM_W:
368
-                        key = "Sum_W";
369
-                        break;
370
-
371
-                    case LORA_SML_L1_W:
372
-                        key = "L1_W";
373
-                        break;
374
-
375
-                    case LORA_SML_L2_W:
376
-                        key = "L2_W";
377
-                        break;
378
-
379
-                    case LORA_SML_L3_W:
380
-                        key = "L3_W";
381
-                        break;
382
-
383
-                    default:
384
-                        key = "unknown";
385
-                        break;
386
-                }
355
+                debug.printf("  CRC: OK 0x%08X\n", checksum);
387 356
 
388
-                writeSensorDatum("environment", "sml", SENSOR_LOCATION, key, val);
389
-            }
357
+#ifdef ENABLE_INFLUXDB_LOGGING
358
+                if (data[0] == LORA_SML_BAT_V) {
359
+                    // extract mangled float and int from double
360
+                    float vbat = NAN;
361
+                    int percent = -1;
362
+                    memcpy(&vbat, data + offsetof(struct lora_sml_msg, value), sizeof(float));
363
+                    memcpy(&percent, data + offsetof(struct lora_sml_msg, value) + sizeof(float), sizeof(int));
364
+                    debug.printf("  Vbat: %.2f (%d%%)\n", vbat, percent);
365
+
366
+                    writeSensorDatum("environment", "sml", SENSOR_LOCATION, "vbat", vbat);
367
+                    writeSensorDatum("environment", "sml", SENSOR_LOCATION, "percent", percent);
368
+                } else {
369
+                    debug.printf("  Value: %.2f\n", msg->value);
370
+
371
+                    String key;
372
+                    switch (data[0]) {
373
+                        case LORA_SML_HELLO:
374
+                            key = "hello";
375
+                            break;
376
+
377
+                        case LORA_SML_SUM_WH:
378
+                            key = "Sum_Wh";
379
+                            break;
380
+
381
+                        case LORA_SML_T1_WH:
382
+                            key = "T1_Wh";
383
+                            break;
384
+
385
+                        case LORA_SML_T2_WH:
386
+                            key = "T2_Wh";
387
+                            break;
388
+
389
+                        case LORA_SML_SUM_W:
390
+                            key = "Sum_W";
391
+                            break;
392
+
393
+                        case LORA_SML_L1_W:
394
+                            key = "L1_W";
395
+                            break;
396
+
397
+                        case LORA_SML_L2_W:
398
+                            key = "L2_W";
399
+                            break;
400
+
401
+                        case LORA_SML_L3_W:
402
+                            key = "L3_W";
403
+                            break;
404
+
405
+                        default:
406
+                            key = "unknown";
407
+                            break;
408
+                    }
409
+
410
+                    writeSensorDatum("environment", "sml", SENSOR_LOCATION, key, msg->value);
411
+                }
390 412
 #endif // ENABLE_INFLUXDB_LOGGING
413
+            }
391 414
         }
392 415
 
393 416
         success = true;
@@ -402,39 +425,21 @@ void lora_run(void) {
402 425
     lora_sml_handle_cache();
403 426
 #endif // FEATURE_SML
404 427
 
405
-    bool tx_legal = millis() > last_tx + minimum_pause;
406
-
407
-#ifdef LORA_TEST_TX
408
-    // Transmit a packet every PAUSE seconds or when the button is pressed
409
-    if ((PAUSE && tx_legal && millis() - last_tx > (PAUSE * 1000)) || button.isSingleClick()) {
410
-        // In case of button click, tell user to wait
411
-        if (!tx_legal) {
412
-            debug.printf("Legal limit, wait %i sec.\n", (int)((minimum_pause - (millis() - last_tx)) / 1000) + 1);
413
-            return;
414
-        }
415
-
416
-        String s = String(test_counter++);
417
-        lora_tx(s.c_str(), s.length());
418
-    }
419
-#else // LORA_TEST_TX
420 428
     if (button.isSingleClick()) {
421 429
         // In case of button click, tell user to wait
430
+        bool tx_legal = millis() > last_tx + minimum_pause;
422 431
         if (!tx_legal) {
423 432
             debug.printf("Legal limit, wait %i sec.\n", (int)((minimum_pause - (millis() - last_tx)) / 1000) + 1);
424 433
             return;
425 434
         }
426 435
 
436
+        // send test hello message on lorarx target, or battery state on loratx target
427 437
 #ifdef FEATURE_SML
428 438
         lora_sml_send(LORA_SML_BAT_V, lora_get_mangled_bat(), 0);
429 439
 #else // FEATURE_SML
430
-        uint8_t data[sizeof(double) + 1];
431
-        data[0] = LORA_SML_HELLO;
432
-        double tmp = -23.42;
433
-        memcpy(data + 1, &tmp, sizeof(double));
434
-        lora_tx(data, sizeof(data));
440
+        lora_tx(LORA_SML_HELLO, -23.42);
435 441
 #endif // FEATURE_SML
436 442
     }
437
-#endif // LORA_TEST_TX
438 443
 }
439 444
 
440 445
 #endif // FEATURE_LORA

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