coap 6.0.0 coap: ^6.0.0 copied to clipboard
A CoAP library for Dart. A full implementation of an IPV4/6 CoAP client
coap #
The Constrained Application Protocol is a RESTful web transfer protocol for resource-constrained networks and nodes. The CoAP library is an implementation in Dart providing a CoAP client, the code was initially a port from the C# .NET project CoAP.NET.
Features #
- CoAP over UDP RFC 7252
- Observe resources RFC 7641
- Block-wise transfers RFC 7959
- FETCH, PATCH, and iPATCH methods RFC 8132
- Extended Token Length RFC 8974
- Multicast over UDP (not DTLS)
- Experimental: CoAP over DTLS (using FFI)
- Experimental: Request proxying
Roadmap #
- CoAP over TCP/TLS RFC 8323
Example #
FutureOr<void> main() async {
final conf = CoapConfig();
final uri = Uri(scheme: 'coap', host: 'coap.me', port: conf.defaultPort);
final client = CoapClient(uri, conf);
try {
final response =
await client.get('multi-format', accept: CoapMediaType.textPlain);
print('/multi-format response payload: ${response.payloadString}');
} on Exception catch (e) {
print('CoAP encountered an exception: $e');
}
client.close();
}
For more detailed examples, see examples.
Setup #
- Add the dependencies in your
pubspec.yaml
:
dependencies:
coap: ^4.2.1
devDependencies:
build_runner: ^2.1.11
- Create a
.yaml
file containing your CoAP's configurations:- The file name must be separated by
_
and must start withcoap_config
- Example:
coap_config_all
. This will generate a file calledCoapConfigAll
that you will use in your code. - Example:
coap_config_debug
. This will generate a file calledCoapConfigDebug
that you will use in your code. - This file must contain at least the protocol version. This is a valid configuration file with all possible properties: example/config/coap_config.yaml.
- Example:
- The file name must be separated by
- Run the command that will generate the configuration class:
- Run
dart pub run build_runner build
in your Dart project - Run
flutter pub run build_runner build
in your Flutter project After running the command above the configuration class will be generated next to the.yaml
configuration file.
- Run
Considerations #
Binaries for DTLS #
You can provide tinydtls
binaries via the plugin dart_tinydtls_libs. Alternatively, you can also download the binaries directly from the Plugin's GitHub Repository.
Likewise, if you are planning to use DTLS with OpenSSL, note that not all platforms support OpenSSL natively (iOS and Windows for example), in which case you need to ship the required binaries with your app.
Connectivity #
If connectivity is lost, the CoAP client will continuously try to re-initalize the socket. The library relies heavily on futures however, which might not survive in Flutter when the app runs in the background or when the display of the device is turned off. In this case, you might need to extend the WidgetsBindingObserver
class and re-initialize the CoapClient
in didChangeAppLifecycleState
on AppLifecycleState.resumed
.