ESP32-PaxCounter/docs/payloadformat.md

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# Payload format
You can select different payload formats in [`paxcounter.conf`](https://github.com/cyberman54/ESP32-Paxcounter/blob/master/shared/paxcounter_orig.conf):
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- ***Plain*** uses big endian format and generates json fields, e.g. useful for TTN console
- ***Packed*** uses little endian format and generates json fields
- [***CayenneLPP***](https://developers.mydevices.com/cayenne/docs/lora/#lora-cayenne-low-power-payload) generates MyDevices Cayenne readable fields
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```c linenums="20" title="shared/paxcounter_orig.conf"
--8<-- "shared/paxcounter_orig.conf:20:20"
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```
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!!! danger "Decrepated information from the things network v2"
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If you're using [TheThingsNetwork](https://www.thethingsnetwork.org/) (TTN) you may want to use a payload converter. Go to TTN Console - Application - Payload Formats and paste the code example below in tabs Decoder and Converter. This way your MQTT application can parse the fields `pax`, `ble` and `wifi`.
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To add your device to myDevices Cayenne platform select "Cayenne-LPP" from Lora device list and use the CayenneLPP payload encoder.
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To track a paxcounter device with on board GPS and at the same time contribute to TTN coverage mapping, you simply activate the [TTNmapper integration](https://www.thethingsnetwork.org/docs/applications/ttnmapper/) in TTN Console. Both formats *plain* and *packed* generate the fields `latitude`, `longitude` and `hdop` required by ttnmapper. Important: set TTN mapper port filter to '4' (paxcounter GPS Port).
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Hereafter described is the default *plain* format, which uses MSB bit numbering. Under /TTN in this repository you find some ready-to-go decoders which you may copy to your TTN console:
[**plain_decoder.js**](https://github.com/cyberman54/ESP32-Paxcounter/blob/master/src/TTN/plain_decoder.js) |
[**plain_converter.js**](https://github.com/cyberman54/ESP32-Paxcounter/blob/master/src/TTN/plain_converter.js) |
[**packed_decoder.js**](https://github.com/cyberman54/ESP32-Paxcounter/blob/master/src/TTN/packed_decoder.js) |
[**packed_converter.js**](https://github.com/cyberman54/ESP32-Paxcounter/blob/master/src/TTN/packed_converter.js)
**Port #1:** Paxcount data
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byte 1-2: Number of unique devices, seen on Wifi [00 00 if Wifi scan disabled]
byte 3-4: Number of unique devices, seen on Bluetooth [ommited if BT scan disabled]
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**Port #2:** Device status query result
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byte 1-2: Battery or USB Voltage [mV], 0 if no battery probe
byte 3-10: Uptime [seconds]
byte 11: CPU temperature [°C]
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bytes 12-15: Free RAM [bytes]
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byte 16: Last CPU core 0 reset reason
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bytes 17-20: Number of restarts since last power cycle
**Port #3:** Device configuration query result
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byte 1: Lora DR (0..15, see rcommand 0x05) [default 5]
byte 2: Lora TXpower (2..15) [default 15]
byte 3: Lora ADR (1=on, 0=off) [default 1]
byte 4: Screensaver status (1=on, 0=off) [default 0]
byte 5: Display status (1=on, 0=off) [default 0]
byte 6: Counter mode (0=cyclic unconfirmed, 1=cumulative, 2=cyclic confirmed) [default 0]
bytes 7-8: RSSI limiter threshold value (negative, MSB) [default 0]
byte 9: Scan and send cycle in seconds/2 (0..255) [default 120]
byte 10: Wifi channel hopping interval in seconds/100 (0..255), 0 means no hopping [default 50]
byte 11: Bluetooth channel switch interval in seconds/100 (0..255) [default 10]
byte 12: Bluetooth scanner status (1=on, 0=0ff) [default 1]
byte 13: Wifi antenna switch (0=internal, 1=external) [default 0]
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bytes 14-15: Sleep cycle in seconds/10 (MSB) [default 0]
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byte 16: Payloadmask (Bitmask, 0..255, see rcommand 0x14)
byte 17: 0 (reserved)
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bytes 18-28: Software version (ASCII format, terminating with zero)
**Port #4:** GPS data (only if device has fature GPS, and GPS data is enabled and GPS has a fix)
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bytes 1-4: Latitude
bytes 5-8: Longitude
byte 9: Number of satellites
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bytes 10-11: HDOP
bytes 12-13: Altitude [meter]
**Port #5:** Button pressed alarm
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byte 1: static value 0x01
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**Port #6:** (unused)
**Port #7:** Environmental sensor data (only if device has feature BME)
bytes 1-2: Temperature [°C]
bytes 3-4: Pressure [hPa]
bytes 5-6: Humidity [%]
bytes 7-8: Indoor air quality index (0..500), see below
Indoor air quality classification:
0-50 good
51-100 average
101-150 little bad
151-200 bad
201-300 worse
301-500 very bad
**Port #8:** Battery voltage data (only if device has feature BATT)
bytes 1-2: Battery or USB Voltage [mV], 0 if no battery probe
**Port #9:** Time/Date
bytes 1-4: board's local time/date in UNIX epoch (number of seconds that have elapsed since January 1, 1970 (midnight UTC/GMT), not counting leap seconds)
**Ports #10, #11, #12:** User sensor data
Format is specified by user in function `sensor_read(uint8_t sensor)`, see `src/sensor.cpp`.