This is the Qt CoAP module repository. CoAP is a protocol for IoT devices, and machine to machine communication. The full specification can be found in RFC 7252.
- CoAP Client
- Send GET/POST/PUT/DELETE requests
- Discover resources (single server)
- Observe resources and cancel the observation
- Blockwise requests and replies
- Confirmable and non-confirmable messages
- Some options can be added to the request
- Replies can be received in a separate or piggybacked message
- CoAP Server
QCoapClient* client = new QCoapClient(this);
connect(client, &QCoapClient::finished, this, &MyClass::onFinished);
client->get(QUrl("coap://coap.me/test"));
client->put(QUrl("coap://coap.me/test"), QByteArray("payload"));or
QCoapReply* reply = client->get(QCoapRequest("coap://coap.me/test"));
connect(reply, &QCoapReply::finished, this, &MyClass::onFinished);The slot connected to the QCoapReply::finished(QCoapReply *) signal can use the QCoapReply
object like a QIODevice object.
Observe requests are used to receive automatic server notifications for a resource. For Observe
requests specifically, you can use the QCoapReply::notified(QCoapReply *, QCoapMessage) signal
to handle notifications from the CoAP server.
QCoapRequest request = QCoapRequest("coap://coap.me/obs");
QCoapReply* reply = client->observe(request);
connect(reply, &QCoapReply::notified, this, &MyClass::onNotified);You can then stop the observation with
client->cancelObserve(reply);The notified signal will provide the QCoapReply and most recent message.
For machine to machine communication, CoAP Discovery requests is used to query the resources available to an endpoint, or to the complete network.
QCoapResourceDiscoveryReply *reply = client->discover("coap://coap.me/");
connect(reply, &QCoapReply::discovered, this, &MyClass::onDiscovered);For multicast discovery use one of the groups from the QtCoap::MulticastGroup enum, instead of
specifying the discovery path:
QCoapResourceDiscoveryReply *reply = client->discover(QtCoap::AllCoapNodesIPv6LinkLocal);If no group is specified, QtCoap::AllCoapNodesIPv4 will be used by default.
The signal discovered can be triggered multiple times, and will provide the list of resources
returned by the server(s).
The following example code can be used to secure CoAP communication:
QCoapClient* client = new QCoapClient(this, QtCoap::PreSharedKey);
QCoapSecurityConfiguration config;
config.setPreSharedKey("secretPSK");
config.setIdentity("Client_identity");
client->setSecurityConfiguration(config);To use X.509 certificate-based security use QtCoap::Certificate for the security mode.
QtCoap::RawPublicKey mode is not supported yet.
Automated tests require a Californium plugtest server. Plugtest is a CoAP server used to test the main features of the CoAP protocol. The following command starts a plugtest server using Docker.
docker run --name coap-test-server -d --rm -p 5683:5683/udp aleravat/coap-test-server:latestAutomated tests require COAP_TEST_SERVER_IP environment variable to be set, containing Plugtest
server IP address. This address will be used to connect to the Plugtest server on port 5683.
The IP address of the docker container can found identified by:
- Retrieve the container id with
docker ps
$ docker ps
CONTAINER ID IMAGE [...]
826073e84e7f aleravat/coap-test-server:latest [...]
- Get the IP address with
docker inspect <container_id> | grep IPAddress
$ docker inspect 826073e84e7f | grep IPAddress
[...]
"IPAddress": "172.17.0.3",
[...]
- Set the environment variable in QtCreator, or in a the terminal used
export COAP_TEST_SERVER_IP="172.17.0.3"