+++ /dev/null
-#include "rtl_433.h"
-
-/* Documentation also at http://www.tfd.hu/tfdhu/files/wsprotocol/auriol_protocol_v20.pdf
- * Message Format: (9 nibbles, 36 bits):
- * Please note that bytes need to be reversed before processing!
- *
- * Format for Temperature Humidity
- * AAAAAAAA BBBB CCCC CCCC CCCC DDDDDDDD EEEE
- * RC Type Temperature___ Humidity Checksum
- * A = Rolling Code / Device ID
- * Device ID: AAAABBAA BB is used for channel, base channel is 01
- * When channel selector is used, channel can be 10 (2) and 11 (3)
- * B = Message type (xyyz = temp/humidity if yy <> '11') else wind/rain sensor
- * x indicates battery status (0 normal, 1 voltage is below ~2.6 V)
- * z 0 indicates regular transmission, 1 indicates requested by pushbutton
- * C = Temperature (two's complement)
- * D = Humidity BCD format
- * E = Checksum
- *
- * Format for Rain
- * AAAAAAAA BBBB CCCC DDDD DDDD DDDD DDDD EEEE
- * RC Type Rain Checksum
- * A = Rolling Code /Device ID
- * B = Message type (xyyx = NON temp/humidity data if yy = '11')
- * C = fixed to 1100
- * D = Rain (bitvalue * 0.25 mm)
- * E = Checksum
- *
- * Format for Windspeed
- * AAAAAAAA BBBB CCCC CCCC CCCC DDDDDDDD EEEE
- * RC Type Windspd Checksum
- * A = Rolling Code
- * B = Message type (xyyx = NON temp/humidity data if yy = '11')
- * C = Fixed to 1000 0000 0000
- * D = Windspeed (bitvalue * 0.2 m/s, correction for webapp = 3600/1000 * 0.2 * 100 = 72)
- * E = Checksum
- *
- * Format for Winddirection & Windgust
- * AAAAAAAA BBBB CCCD DDDD DDDD EEEEEEEE FFFF
- * RC Type Winddir Windgust Checksum
- * A = Rolling Code
- * B = Message type (xyyx = NON temp/humidity data if yy = '11')
- * C = Fixed to 111
- * D = Wind direction
- * E = Windgust (bitvalue * 0.2 m/s, correction for webapp = 3600/1000 * 0.2 * 100 = 72)
- * F = Checksum
- *********************************************************************************************
- */
-uint8_t reverse8(uint8_t x) {
- x = (x & 0xF0) >> 4 | (x & 0x0F) << 4;
- x = (x & 0xCC) >> 2 | (x & 0x33) << 2;
- x = (x & 0xAA) >> 1 | (x & 0x55) << 1;
- return x;
-}
-
-uint8_t bcd_decode8(uint8_t x) {
- return ((x & 0xF0) >> 4) * 10 + (x & 0x0F);
-}
-
-static int alectov1_callback(uint8_t bb[BITBUF_ROWS][BITBUF_COLS], int16_t bits_per_row[BITBUF_ROWS]) {
- int temperature_before_dec;
- int temperature_after_dec;
- int16_t temp;
- uint8_t humidity, csum = 0, csum2 = 0;
- int i;
- if (bb[1][0] == bb[5][0] && bb[2][0] == bb[6][0] && (bb[1][4] & 0xf) == 0 && (bb[5][4] & 0xf) == 0
- && (bb[5][0] != 0 && bb[5][1] != 0)) {
-
- for (i = 0; i < 4; i++) {
- uint8_t tmp = reverse8(bb[1][i]);
- csum += (tmp & 0xf) + ((tmp & 0xf0) >> 4);
-
- tmp = reverse8(bb[5][i]);
- csum2 += (tmp & 0xf) + ((tmp & 0xf0) >> 4);
- }
-
- csum = ((bb[1][1] & 0x7f) == 0x6c) ? (csum + 0x7) : (0xf - csum);
- csum2 = ((bb[5][1] & 0x7f) == 0x6c) ? (csum2 + 0x7) : (0xf - csum2);
-
- csum = reverse8((csum & 0xf) << 4);
- csum2 = reverse8((csum2 & 0xf) << 4);
- /* Quit if checksup does not work out */
- if (csum != (bb[1][4] >> 4) || csum2 != (bb[5][4] >> 4)) {
- fprintf(stderr, "\nAlectoV1 CRC error");
- return 0;
- } //Invalid checksum
-
-
- uint8_t wind = 0;
-
- if ((bb[1][1] & 0xe0) == 0x60) {
- wind = ((bb[1][1] & 0xf) == 0xc) ? 0 : 1;
-
- fprintf(stdout, "SENSOR:TYPE=ALECTO_%s,", wind ? "WIND" : "RAIN_GAUGE");
- fprintf(stdout, "ID=%d,", reverse8(bb[1][0]));
- fprintf(stdout, "BUTTON=%d,", bb[1][1]&0x10 ? 1 : 0);
- fprintf(stdout, "BATTERY=%s,", bb[1][1]&0x80 ? "LOW" : "OK");
- if (wind) {
- int skip = -1;
- /* Untested code written according to the specification, may not decode correctly */
- if ((bb[1][1]&0xe) == 0x8 && bb[1][2] == 0) {
- skip = 0;
- } else if ((bb[1][1]&0xe) == 0xe) {
- skip = 4;
- } //According to supplied data!
- if (skip >= 0) {
- double speed = reverse8(bb[1 + skip][3]);
- double gust = reverse8(bb[5 + skip][3]);
- int direction = (reverse8(bb[5 + skip][2]) << 1) | (bb[5 + skip][1] & 0x1);
- fprintf(stdout, "WINDSPEED=%.0f,", speed);
- fprintf(stdout, "WINDGUST=%.0f,", gust);
- fprintf(stdout, "WINDDIRECTION=%.2i\n", direction);
- }
- } else {
- /* Untested code written according to the specification, may not decode correctly */
- double rain_mm = (reverse8(bb[1][2]) + (reverse8(bb[1][3] << 8))) * 0.25;
- fprintf(stdout, "RAINFALL=%f\n", rain_mm);
- }
- } else if (bb[2][0] == bb[3][0] && bb[3][0] == bb[4][0] && bb[4][0] == bb[5][0] &&
- bb[5][0] == bb[6][0] && (bb[3][4] & 0xf) == 0 && (bb[5][4] & 0xf) == 0) {
- //static char * temp_states[4] = {"stable", "increasing", "decreasing", "invalid"};
- temp = (int16_t) ((uint16_t) (reverse8(bb[1][1]) >> 4) | (reverse8(bb[1][2]) << 4));
- if ((temp & 0x800) != 0) {
- temp |= 0xf000;
- }
- temperature_before_dec = abs(temp / 10);
- temperature_after_dec = abs(temp % 10);
- humidity = bcd_decode8(reverse8(bb[1][3]));
- fprintf(stdout, "SENSOR:TYPE=ALECTO_TEMP,");
- fprintf(stdout, "ID=%d,", reverse8(bb[1][0]));
- fprintf(stdout, "CHANNEL== %d,", (bb[1][0] & 0xc) >> 2);
- fprintf(stdout, "BUTTON=%d,", bb[1][1]&0x10 ? 1 : 0);
- fprintf(stdout, "BATTERY=%s,", bb[1][1]&0x80 ? "Low" : "OK");
- fprintf(stdout, "TEMP=%s%d.%d,", temp < 0 ? "-" : "", temperature_before_dec, temperature_after_dec);
- fprintf(stdout, "HUMIDITY=%d\n", humidity);
- }
- fprintf(stderr, "Checksum = %01x (calculated %01x)\n", bb[1][4] >> 4, csum);
-
- fprintf(stderr, "Received Data = %02x %02x %02x %02x %02x\n", bb[1][0], bb[1][1], bb[1][2], bb[1][3], bb[1][4]);
- if (wind) fprintf(stderr, "Rcvd Data 2 = %02x %02x %02x %02x %02x\n", bb[5][0], bb[5][1], bb[5][2], bb[5][3], bb[5][4]);
- /*
- * fprintf(stderr, "L2M: %02x %02x %02x %02x %02x\n",reverse8(bb[1][0]),reverse8(bb[1][1]),reverse8(bb[1][2]),reverse8(bb[1][3]),reverse8(bb[1][4]));
- */
- if (debug_output)
- debug_callback(bb, bits_per_row);
-
- return 1;
- }
- return 0;
-}
-
-//Timing based on 250000
-r_device alectov1 = {
- /* .id = */ 13,
- /* .name = */ "AlectoV1 Weather Sensor",
- /* .modulation = */ OOK_PWM_D,
- /* .short_limit = */ 3500 / 4, //875
- /* .long_limit = */ 7000 / 4, //1750
- /* .reset_limit = */ 15000 / 4, //3750
- /* .json_callback = */ &alectov1_callback,
-};