This fully unit-tested library allows you to encode your data on the Arduino site and decode it on the TTN side. It provides both a C-based encoder and a JavaScript-based decoder.
Since version 2.2.0 there is also an encoder for the TTN side.
Arduino side:
#include "LoraMessage.h"
LoraMessage message;
message
.addUnixtime(1467632413)
.addLatLng(-33.905052, 151.26641);
lora_send_bytes(message.getBytes(), message.getLength());
delete message;
TTN side:
// include src/decoder.js
var json = decode(bytes, [unixtime, latLng], ['time', 'coords']);
// json == {time: unixtime, coords: [latitude, longitude]}
TTN side:
// include src/encoder.js
var bytes = encode([timestamp, [latitude, longitude]], [unixtime, latLng]);
// bytes is of type Buffer
// include src/encoder.js
// include src/LoraMessage.js
var bytes = new LoraMessage(encoder)
.addUnixtime(1467632413)
.addLatLng(-33.905052, 151.26641)
.addBitmap(true, true, false, true)
.getBytes();
// bytes = <Buffer 1d 4b 7a 57 64 a6 fa fd 6a 24 04 09 d0>
and then decoding as usual:
var result = decoder.decode(
bytes,
[decoder.unixtime, decoder.latLng, decoder.bitmap],
['time', 'coords', 'heaters']
);
// result =
// { time: 1467632413,
// coords: [ -33.905052, 151.26641 ],
// heaters:
// { a: true,
// b: true,
// c: false,
// d: true,
// e: false,
// f: false,
// g: false,
// h: false } }
Serializes/deserializes a unix time (seconds)
#include "LoraEncoder.h"
byte buffer[4];
LoraEncoder encoder(buffer);
encoder.writeUnixtime(1467632413);
// buffer == {0x1d, 0x4b, 0x7a, 0x57}
and then in the TTN frontend, use the following method:
unixtime(bytes.slice(x, x + 4)) // 1467632413
Serializes/deserializes coordinates (latitude/longitude) with a precision of 6 decimals.
#include "LoraEncoder.h"
byte buffer[8];
LoraEncoder encoder(buffer);
encoder.writeLatLng(-33.905052, 151.26641);
// buffer == {0x64, 0xa6, 0xfa, 0xfd, 0x6a, 0x24, 0x04, 0x09}
and then in the TTN frontend, use the following method:
latLng(bytes.slice(x, x + 8)) // [-33.905052, 151.26641]
Serializes/deserializes an unsigned 8bit integer.
#include "LoraEncoder.h"
byte buffer[1];
LoraEncoder encoder(buffer);
uint8_t i = 10;
encoder.writeUint8(i);
// buffer == {0x0A}
and then in the TTN frontend, use the following method:
uint8(bytes.slice(x, x + 1)) // 10
Serializes/deserializes an unsigned 16bit integer.
#include "LoraEncoder.h"
byte buffer[2];
LoraEncoder encoder(buffer);
uint16_t i = 23453;
encoder.writeUint16(i);
// buffer == {0x9d, 0x5b}
and then in the TTN frontend, use the following method:
uint16(bytes.slice(x, x + 2)) // 23453
Serializes/deserializes a temperature reading between -327.68 and +327.67 (inclusive) with a precision of 2 decimals.
#include "LoraEncoder.h"
byte buffer[2];
LoraEncoder encoder(buffer);
encoder.writeTemperature(-123.45);
// buffer == {0xcf, 0xc7}
and then in the TTN frontend, use the following method:
temperature(bytes.slice(x, x + 2)) // -123.45
Serializes/deserializes a humidity reading between 0 and 100 (inclusive) with a precision of 2 decimals.
#include "LoraEncoder.h"
byte buffer[2];
LoraEncoder encoder(buffer);
encoder.writeHumidity(99.99);
// buffer == {0x0f, 0x27}
and then in the TTN frontend, use the following method:
humidity(bytes.slice(x, x + 2)) // 99.99
Serializes/deserializes a bitmap containing between 0 and 8 different flags.
#include "LoraEncoder.h"
byte buffer[1];
LoraEncoder encoder(buffer);
encoder.writeBitmap(true, false, false, false, false, false, false, false);
// buffer == {0x80}
and then in the TTN frontend, use the following method:
bitmap(bytes.slice(x, x + 1)) // { a: true, b: false, c: false, d: false, e: false, f: false, g: false, h: false }
The decoder allows you to write more than one value to a byte array:
#include "LoraEncoder.h"
byte buffer[19];
LoraEncoder encoder(buffer);
encoder.writeUnixtime(1467632413);
encoder.writeLatLng(-33.905052, 151.26641);
encoder.writeUint8(10);
encoder.writeUint16(23453);
encoder.writeTemperature(80.12);
encoder.writeHumidity(99.99);
encoder.writeBitmap(true, false, false, false, false, false, false, false);
/* buffer == {
0x1d, 0x4b, 0x7a, 0x57, // Unixtime
0x64, 0xa6, 0xfa, 0xfd, 0x6a, 0x24, 0x04, 0x09, // latitude,longitude
0x0A, // Uint8
0x9d, 0x5b, // Uint16
0x1f, 0x4c, // temperature
0x0f, 0x27, // humidity
0x80 // bitmap
}
*/
There is a convenience class that represents a LoraMessage that you can add readings to:
#include "LoraMessage.h"
LoraMessage message;
message
.addUnixtime(1467632413)
.addLatLng(-33.905052, 151.26641)
.addUint8(10)
.addUint16(23453)
.addTemperature(80.12)
.addHumidity(99.99)
.addBitmap(false, false, false, false, false, false, true, false);
send(message.getBytes(), message.getLength());
/*
getBytes() == {
0x1d, 0x4b, 0x7a, 0x57, // Unixtime
0x64, 0xa6, 0xfa, 0xfd, 0x6a, 0x24, 0x04, 0x09, // latitude,longitude
0x0A, // Uint8
0x9d, 0x5b, // Uint16
0x1f, 0x4c, // temperature
0x0f, 0x27, // humidity
0xfd // Bitmap
}
and
getLength() == 20
*/
The decode
method allows you to specify a mask for the incoming byte buffer (that was generated by this library) and apply decoding functions accordingly.
decode(byte Array, mask Array [,mapping Array])
Paste everything from src/decoder.js
into the decoder method and use like this:
function (bytes) {
// code from src/decoder.js here
return decode(bytes, [latLng, unixtime], ['coords', 'time']);
}
This maps the incoming byte buffer of 12 bytes to a sequence of one latLng
(8 bytes) and one unixtime
(4 bytes) sequence and maps the first one to a key coords
and the second to a key time
.
You can use: 64 A6 FA FD 6A 24 04 09 1D 4B 7A 57
for testing, and it will result in:
{
"coords": [
-33.905052,
151.26641
],
"time": 1467632413
}
Set up your decoder in the console:
The decode method already does most of the necessary transformations, so in most cases you can just pass the data through:
- Install the dependencies via
yarn
- Run the unit tests (C) via
yarn run test:c
- Run the unit tests (JavaScript) via
yarn test
- Check the coverage (JavaScript) via
yarn coverage
(seecoverage/lcov-report
)
The CI will kick off once you create a pull request automatically.