mirror of https://github.com/arendst/Tasmota.git
305 lines
10 KiB
C++
305 lines
10 KiB
C++
/*
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xsns_38_az7798.ino - AZ_Instrument 7798 CO2/temperature/humidity meter support for Sonoff-Tasmota
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Copyright (C) 2018 Theo Arends
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifdef USE_AZ7798
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#define XSNS_38 38
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/*********************************************************************************************\
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* CO2, temperature and humidity meter and data logger
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* Known by different names (brief survey 2018-12-16):
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* - AZ-Instrument 7798 (http://www.az-instrument.com.tw)
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* - co2meter.com AZ-0004
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* - Extech CO200
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* - BES CO7788 (https://www.aliexpress.com)
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* - AZ CO87 (https://www.aliexpress.com)
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* - no doubt there are more ...
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*
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* Hardware Serial will be selected if GPIO1 = [AZ Tx] and GPIO3 = [AZ Rx]
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*
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* Inside the meter, the serial comms wire with the red stripe goes to GPIO1.
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* The other one therefore to GPIO3.
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* WeMos D1 Mini is powered from the incoming 5V.
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*
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* This implementation was derived from xsns_15_mhz19.ino from
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* Sonoff-Tasmota-6.3.0 by Arthur de Beun.
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*
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* The serial comms protocol is not publicly documented, that I could find.
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* The info below was obtained by reverse-engineering.
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* Port settings: 9600 8N1
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* The suppied USB interface has a CP20x USB-serial bridge.
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* The 3-way, 2.5mm jack has tip=RxD, middle=TxD and base=0V
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* The TxD output swing is 3V3.
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*
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* There is never a space before the 0x0d, but the other spaces are there.
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*
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* serial number / ID
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* request: I 0x0d
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* response: i 12345678 7798V3.4 0x0d
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*
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* log info
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* request: M 0x0d
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* response: m 45 1 C 1af4 0cf4 0x0d
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*
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* 45 = number of records, but there are only 15 lines of 3 values each)
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* 1 = sample rate in seconds
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* C = celcius, F
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* 1af4 0cf4 = seconds since 2000-01-01 00:00:00
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*
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* start time 2014-04-30 19:35:16
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* end time 2014-04-30 19:35:30
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*
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* download log data
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* request: D 0x0d
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* response: m 45 1 C 1af4 0cf4 0x0d
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* d 174 955 698 0x0d
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* 174 = temp in [C * 10]
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* 955 = CO2 [ppm]
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* 698 = RH in [% * 10]
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* d 174 990 694 0x0d
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* ...
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* d 173 929 654 0x0d
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*
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* 15 lines in total, 1 second apart
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*
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* Sync datalogger time with PC
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* request: C 452295746 0x0d
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* response: > 0x0d
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*
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* 452295746 = seconds since 2000-01-01 00:00:00
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*
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* Identifier:
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* request: J -------- 1 0x0d
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*
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* the characters (dashes) in the above become the first part of the response to the I command (12345678 above)
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*
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* Set sample rate
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* request: S 10 0x0d
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* response: m 12 10 C 1af5 7be1 0x0d
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*
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* Other characters that seem to give a response:
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* A responds with >
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* so is similar to the response to C, so other characters may be required
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* A is the beep alarm perhaps?
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* parameters would be CO2 level and on/off, as per front panel P1.3 setting?
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*
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* L responds with >
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* L perhaps sets the limits for the good and normal levels (P1.1 and P1.2)?
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*
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* Q responds with >
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* Q is reset maybe (P4.1)?
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*
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* : responds with : T19.9C:C2167ppm:H57.4%
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* This one gives the current readings.
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**********************************************************************************************
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/*********************************************************************************************/
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#include <TasmotaSerial.h>
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#ifndef CO2_LOW
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#define CO2_LOW 800 // Below this CO2 value show green light
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#endif
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#ifndef CO2_HIGH
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#define CO2_HIGH 1200 // Above this CO2 value show red light
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#endif
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#define AZ_READ_TIMEOUT 400 // Must be way less than 1000 but enough to read 9 bytes at 9600 bps
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TasmotaSerial *AzSerial;
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const char ktype[] = "AZ7798";
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uint8_t az_type = 1;
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uint16_t az_co2 = 0;
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double az_temperature = 0;
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double az_humidity = 0;
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uint8_t az_received = 0;
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uint8_t az_state = 0;
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/*********************************************************************************************/
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void AzEverySecond(void)
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{
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az_state++;
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if (5 == az_state) { // every 5 seconds
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az_state = 0;
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AzSerial->flush(); // sync reception
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AzSerial->write(":\r", 2);
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az_received = 0;
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uint8_t az_response[32];
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unsigned long start = millis();
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uint8_t counter = 0;
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uint8_t i, j;
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uint8_t response_substr[16];
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do {
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if (AzSerial->available() > 0) {
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az_response[counter] = AzSerial->read();
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if(az_response[counter] == 0x0d) { az_received = 1; }
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counter++;
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} else {
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delay(5);
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}
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} while(((millis() - start) < AZ_READ_TIMEOUT) && (counter < sizeof(az_response)) && !az_received);
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AddLogSerial(LOG_LEVEL_DEBUG_MORE, az_response, counter);
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if (!az_received) {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 comms timeout"));
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return;
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}
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i = 0;
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while((az_response[i] != 'T') && (i < counter)) {i++;} // find the start of response
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if(az_response[i] != 'T') {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 failed to find start of response"));
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return;
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}
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i++; // advance to start of temperature value
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j = 0;
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// find the end of temperature
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while((az_response[i] != 'C') && (az_response[i] != 'F') && (i < counter)) {
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response_substr[j++] = az_response[i++];
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}
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if((az_response[i] != 'C') && (az_response[i] != 'F')){
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 failed to find end of temperature"));
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return;
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}
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response_substr[j] = 0; // add null terminator
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az_temperature = CharToDouble((char*)response_substr); // units (C or F) depends on meter setting
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if(az_response[i] == 'C') { // meter transmits in degC
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az_temperature = ConvertTemp((float)az_temperature); // convert to degF, depending on settings
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} else { // meter transmits in degF
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az_temperature = ConvertTemp((az_temperature - 32) / 1.8); // convert to degC and then C or F depending on setting
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}
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i++; // advance to first delimiter
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if(az_response[i] != ':') {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 error first delimiter"));
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return;
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}
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i++; // advance to start of CO2
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if(az_response[i] != 'C') {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 error start of CO2"));
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return;
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}
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i++; // advance to start of CO2 value
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j = 0;
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// find the end of CO2
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while((az_response[i] != 'p') && (i < counter)) {
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response_substr[j++] = az_response[i++];
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}
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if(az_response[i] != 'p') {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 failed to find end of CO2"));
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return;
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}
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response_substr[j] = 0; // add null terminator
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az_co2 = atoi((char*)response_substr);
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LightSetSignal(CO2_LOW, CO2_HIGH, az_co2);
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i += 3; // advance to second delimiter
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if(az_response[i] != ':') {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 error second delimiter"));
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return;
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}
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i++; // advance to start of humidity
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if(az_response[i] != 'H') {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 error start of humidity"));
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return;
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}
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i++; // advance to start of humidity value
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j = 0;
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// find the end of humidity
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while((az_response[i] != '%') && (i < counter)) {
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response_substr[j++] = az_response[i++];
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}
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if(az_response[i] != '%') {
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AddLog_P(LOG_LEVEL_DEBUG, PSTR(D_LOG_DEBUG "AZ7798 failed to find end of humidity"));
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return;
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}
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response_substr[j] = 0; // add null terminator
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az_humidity = CharToDouble((char*)response_substr);
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}
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}
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/*********************************************************************************************/
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void AzInit(void)
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{
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az_type = 0;
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if ((pin[GPIO_AZ_RXD] < 99) && (pin[GPIO_AZ_TXD] < 99)) {
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AzSerial = new TasmotaSerial(pin[GPIO_AZ_RXD], pin[GPIO_AZ_TXD], 1);
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if (AzSerial->begin(9600)) {
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if (AzSerial->hardwareSerial()) { ClaimSerial(); }
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az_type = 1;
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}
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}
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}
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void AzShow(boolean json)
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{
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char temperature[10], humidity[10];
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dtostrfd(az_temperature, Settings.flag2.temperature_resolution, temperature);
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dtostrfd(az_humidity, Settings.flag2.humidity_resolution, humidity);
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if (json) {
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snprintf_P(mqtt_data, sizeof(mqtt_data), PSTR("%s,\"%s\":{\"" D_JSON_CO2 "\":%d,\"" D_JSON_TEMPERATURE "\":%s,\"" D_JSON_HUMIDITY "\":%s}"), mqtt_data, ktype, az_co2, temperature, humidity);
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#ifdef USE_DOMOTICZ
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if (0 == tele_period) DomoticzSensor(DZ_AIRQUALITY, az_co2);
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#endif // USE_DOMOTICZ
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#ifdef USE_WEBSERVER
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} else {
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snprintf_P(mqtt_data, sizeof(mqtt_data), HTTP_SNS_CO2, mqtt_data, ktype, az_co2);
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snprintf_P(mqtt_data, sizeof(mqtt_data), HTTP_SNS_TEMP, mqtt_data, ktype, temperature, TempUnit());
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snprintf_P(mqtt_data, sizeof(mqtt_data), HTTP_SNS_HUM, mqtt_data, ktype, humidity);
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#endif // USE_WEBSERVER
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}
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}
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/*********************************************************************************************\
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* Interface
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\*********************************************************************************************/
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boolean Xsns38(byte function)
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{
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boolean result = false;
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if(az_type){
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switch (function) {
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case FUNC_INIT:
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AzInit();
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break;
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case FUNC_EVERY_SECOND:
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AzEverySecond();
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break;
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case FUNC_JSON_APPEND:
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AzShow(1);
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break;
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#ifdef USE_WEBSERVER
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case FUNC_WEB_APPEND:
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AzShow(0);
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break;
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#endif // USE_WEBSERVER
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}
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}
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return result;
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}
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#endif // USE_AZ7798
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