X-Git-Url: https://git.rvb.name/rtl-433.git/blobdiff_plain/337eb4ba945097205fbb6a3ca7912fb0697092d1..refs/heads/master:/src/devices/rubicson.c?ds=inline diff --git a/src/devices/rubicson.c b/src/devices/rubicson.c index f58a213..c89d7c5 100644 --- a/src/devices/rubicson.c +++ b/src/devices/rubicson.c @@ -1,58 +1,134 @@ #include "rtl_433.h" - +#include "data.h" +#include "util.h" /* Currently this can decode the temperature and id from Rubicson sensors * * the sensor sends 36 bits 12 times pwm modulated * the data is grouped into 9 nibles - * [id0] [id1], [unk0] [temp0], [temp1] [temp2], [unk1] [unk2], [unk3] + * [id0] [id1], [bat|unk1|chan1|chan2] [temp0], [temp1] [temp2], [F] [crc1], [crc2] * * The id changes when the battery is changed in the sensor. - * unk0 is always 1 0 0 0, most likely 2 channel bits as the sensor can recevice 3 channels - * unk1-3 changes and the meaning is unknown + * bat bit is 1 if battery is ok, 0 if battery is low + * chan1 and chan2 forms a 2bit value for the used channel + * unk1 is always 0 probably unused * temp is 12 bit signed scaled by 10 + * F is always 0xf + * crc1 and crc2 forms a 8-bit crc * * The sensor can be bought at Kjell&Co */ -static int rubicson_callback(uint8_t bb[BITBUF_ROWS][BITBUF_COLS],int16_t bits_per_row[BITBUF_ROWS]) { + +/* Working routine for checking the crc, lots of magic but it works */ + +//static uint8_t rp[] = {0xb8, 0x80, 0xea, 0xfe, 0x80}; +static uint8_t rp[] = {0xea, 0x8f, 0x6a, 0xfa, 0x50}; + +int rubicson_crc_check(bitrow_t *bb) { + uint8_t crc, w; + uint8_t diff[9]; + int i, ret; + + // diff against ref packet + + diff[0] = rp[0]^bb[1][0]; + diff[1] = rp[1]^bb[1][1]; + diff[2] = rp[2]^bb[1][2]; + diff[3] = rp[3]^bb[1][3]; + diff[4] = rp[4]^bb[1][4]; + +// fprintf(stdout, "%02x %02x %02x %02x %02x\n",rp[0],rp[1],rp[2],rp[3],rp[4]); +// fprintf(stdout, "%02x %02x %02x %02x %02x\n",bb[1][0],bb[1][1],bb[1][2],bb[1][3],bb[1][4]); +// fprintf(stdout, "%02x %02x %02x %02x %02x\n",diff[0],diff[1],diff[2],diff[3],diff[4]); + + for (crc = 0, w = 0xf1, i = 0; i<7 ; i++){ + uint8_t c = diff[i/2]; + unsigned digit = (i&1) ? c&0xF : (c&0xF0)>>4; + unsigned j; + for (j=4; j-->0; ) { + if ((digit >> j) & 1) + crc ^= w; + w = (w >> 1) ^ ((w & 1) ? 0x98: 0); + } + } + if (crc == (((diff[3]<<4)&0xF0) | (diff[4]>>4))) +// printf ("\ncrc ok: %x\n", crc); + ret = 1; + else +// printf ("\ncrc fail: %x\n", crc); + ret = 0; + + return ret; +}; + +static int rubicson_callback(bitbuffer_t *bitbuffer) { + bitrow_t *bb = bitbuffer->bb; int temperature_before_dec; - int temperature_after_dec; + int temperature_after_dec, i; int16_t temp; + int8_t rh, csum, csum_calc, sum=0; + unsigned bits = bitbuffer->bits_per_row[0]; + data_t *data; + + char time_str[LOCAL_TIME_BUFLEN]; + uint8_t channel; + uint8_t sensor_id; + uint8_t battery; + float temp_c; + + if (!(bits == 36)) + return 0; - /* FIXME validate the received message better, figure out crc */ - if (bb[1][0] == bb[2][0] && 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[6][0] == bb[7][0] && bb[7][0] == bb[8][0] && - bb[8][0] == bb[9][0] && (bb[5][0] != 0 && bb[5][1] != 0 && bb[5][2] != 0)) { + if (rubicson_crc_check(bb)) { + local_time_str(0, time_str); /* Nible 3,4,5 contains 12 bits of temperature * The temerature is signed and scaled by 10 */ temp = (int16_t)((uint16_t)(bb[0][1] << 12) | (bb[0][2] << 4)); temp = temp >> 4; - temperature_before_dec = abs(temp / 10); - temperature_after_dec = abs(temp % 10); + channel = ((bb[0][1]&0x30)>>4)+1; + battery = (bb[0][1]&0x80); + sensor_id = bb[0][0]; + temp_c = (float) temp / 10.0; - fprintf(stdout, "SENSOR:TYPE=RUBICSON,"); - fprintf(stdout, "ID=%x,",bb[0][0]); - fprintf(stdout, "TEMPERATURE=%s%d.%d\n",temp<0?"-":"",temperature_before_dec, temperature_after_dec); - fprintf(stderr, "%02x %02x %02x %02x %02x\n",bb[1][0],bb[0][1],bb[0][2],bb[0][3],bb[0][4]); - - if (debug_output) - debug_callback(bb, bits_per_row); + data = data_make("time", "", DATA_STRING, time_str, + "model", "", DATA_STRING, "Rubicson Temperature Sensor", + "id", "House Code", DATA_INT, sensor_id, + "channel", "Channel", DATA_INT, channel, + "battery", "Battery", DATA_STRING, battery ? "OK" : "LOW", + "temperature_C", "Temperature", DATA_FORMAT, "%.1f C", DATA_DOUBLE, temp_c, + "crc", "CRC", DATA_STRING, "OK", + NULL); + data_acquired_handler(data); return 1; } return 0; } +static char *output_fields[] = { + "time", + "model", + "id", + "channel", + "battery", + "temperature_C", + "crc", + NULL +}; + + // timings based on samp_rate=1024000 r_device rubicson = { - /* .id = */ 1, - /* .name = */ "Rubicson Temperature Sensor", - /* .modulation = */ OOK_PWM_D, - /* .short_limit = */ 1744/4, - /* .long_limit = */ 3500/4, - /* .reset_limit = */ 5000/4, - /* .json_callback = */ &rubicson_callback, + .name = "Rubicson Temperature Sensor", + .modulation = OOK_PULSE_PPM_RAW, + .short_limit = 488+970, // Gaps: Short 976µs, Long 1940µs, Sync 4000µs + .long_limit = 970+2000, // Pulse: 500µs (Initial pulse in each package is 388µs) + .reset_limit = 4800, // Two initial pulses and a gap of 9120µs is filtered out + .json_callback = &rubicson_callback, + .disabled = 0, + .demod_arg = 0, + .fields = output_fields, };