Crate libcoap_rs

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A safe wrapper around the libcoap C library.

This wrapper allows for safe and idiomatic usage of the libcoap C library in Rust.

§Feature support

libcoap-rs currently supports the following subset of the libcoap feature set:

  • Basic CoAP client
  • Basic CoAP server
  • Transports:
    • UDP
    • DTLS
      • DTLS using PSK
      • DTLS using PKI/RPK
    • TCP
    • TLS
    • OSCORE
    • WebSockets
  • Blockwise Transfer
    • Receiving large messages
      • Note: Handled in libcoap by setting COAP_BLOCK_USE_LIBCOAP|COAP_BLOCK_SINGLE_BODY. Manually constructing and managing blockwise transfers is currently not in scope for this library.
    • sending client-side large messages
    • sending server-side large messages
  • Resource observation
    • Observing resources as a client
    • Notifying observers as a server

§Building

libcoap-rs can be linked to either an included version of libcoap or to a version provided by the environment. By default, it will use the vendored version, which can be disabled by disabling the default feature vendored.

In order to use DTLS, a DTLS library must be chosen, see the later section on using cryptography for more information.

Some (but not all) of the available DTLS libraries may also be vendored using the dtls_[LIBRARY]_vendored feature.

§Building on the ESP32

libcoap-rs and libcoap-sys support building for the ESP32. This is done by using the version of libcoap provided by the ESP-IDF as a managed component and generating bindings for it.

In order to build for the ESP, ensure that the following preconditions are met:

  • The version of esp-idf-sys used by your crate matches the one used by libcoap-sys.
  • Ensure that your sdkconfig.defaults enables the features required by your chosen feature set of libcoap-rs
  • Ensure that the ESP-IDF version you link against is supported. libcoap-rs should compile on at least ESP-IDF 5.1.3 and 5.3. If it does not (or you require support for newer versions of ESP-IDF), please open an issue in the libcoap-rs issue tracker.

An example for a typical excerpt from sdkconfig.defaults can be found here:

# libcoap base functionality (client and server)
CONFIG_COAP_SERVER_SUPPORT=y
CONFIG_COAP_CLIENT_SUPPORT=y

# enable DTLS in libcoap
CONFIG_COAP_MBEDTLS_PSK=y
CONFIG_COAP_MBEDTLS_PKI=y
CONFIG_MBEDTLS_SSL_PROTO_DTLS=y
CONFIG_MBEDTLS_PSK_MODES=y
CONFIG_MBEDTLS_KEY_EXCHANGE_PSK=y

§Using cryptography

If you wish to use CoAP over DTLS, you have to provide credential and key information to libcoap. See the documentation of the crypto module for more information and examples.

libcoap requires a DTLS library to be selected for DTLS functionality. By default, libcoap-rs will use openssl for this purpose. If you wish to use one of the other supported DTLS libraries (GnuTLS, MbedTLS, tinydtls), disable the dtls_openssl feature and replace it with the feature for the library of your choice.

Note that enabling multiple backends is not possible and doing so will result in a single backend being chosen based on the priority order (gnutls > openssl > mbedtls > tinydtls).

§Examples

§Client

This example runs a simple CoAP client which makes a request to coap://[::1]:5683/hello_world and checks whether the result has the code 2.00 (Content) and the payload Hello World!.

use std::{
    net::{SocketAddr, UdpSocket},
    time::Duration,
};

use libcoap_rs::{
    CoapContext,
    message::{CoapMessageCommon, CoapResponse, CoapRequest},
    protocol::{CoapRequestCode, CoapResponseCode, CoapMessageCode, CoapMessageType},
    CoapRequestHandler, CoapResource,
    session::{CoapSessionCommon, CoapClientSession},
    types::{CoapUriScheme, CoapUri}
};

let server_address : SocketAddr = "[::1]:5683".parse().unwrap();

// Create a new context.
let mut context = CoapContext::new().expect("Failed to create CoAP context");

// Connect to the server at the specified address over UDP (no encryption)
let session = CoapClientSession::connect_udp(&mut context, server_address)
                .expect("Failed to create client-side session");

// Create a new CoAP URI to request from.
let uri = "coap://[::1]:5683/hello_world".parse().unwrap();

// Create a new request of type get with the specified URI.
let mut request = CoapRequest::new(CoapMessageType::Con, CoapRequestCode::Get, uri).unwrap();

// Send the request and wait for a response.
let req_handle = session.send_request(request).expect("Unable to send request");
loop {
    context.do_io(Some(Duration::from_secs(10))).expect("error during IO");
    // Poll for responses to a request using the request handle.
    for response in session.poll_handle(&req_handle) {
        assert_eq!(response.code(), CoapMessageCode::Response(CoapResponseCode::Content));
        assert_eq!(response.data().unwrap().as_ref(), "Hello World!".as_bytes());
        return;
    }
}

§Server

This example runs a simple CoAP server that provides a resource under the URI path /hello_world with Hello World! as the response payload.

use std::{
    net::{SocketAddr, UdpSocket},
    time::Duration,
};

use libcoap_rs::{
    CoapContext,
    message::{CoapMessageCommon, CoapResponse, CoapRequest},
    protocol::{CoapRequestCode, CoapResponseCode},
    CoapRequestHandler, CoapResource,
    session::{CoapSessionCommon, CoapServerSession},
};

// a new CoAP context and bind to the generated SocketAddr.
let mut context = CoapContext::new().expect("Failed to create CoAP context");
context.add_endpoint_udp("[::1]:5683".parse().unwrap()).expect("Unable to add/bind to endpoint");

// Create a new resource that is available at the URI path `hello_world`
// The second argument can be used to provide any kind of user-specific data, which will
// then be passed to the handler function.
let resource = CoapResource::new("hello_world", (), false);
// Set a method handler for the GET method.
resource.set_method_handler(
    CoapRequestCode::Get,
    Some(CoapRequestHandler::new(
        // The handler can be a lambda or some other kind of function.
        // Using methods is also possible by setting the resource's user data to an instance
        // of the struct, as the first argument will then be a mutable reference to the
        // user data. Methods will then use this user data as the `&mut self` reference.
        //
        // The provided CoapResponse is already filled with the correct token to be
        // interpreted as a response to the correct request by the client.
        |completed: &mut (), session: &mut CoapServerSession, request: &CoapRequest, mut response: CoapResponse| {
            // Set content of the response message to "Hello World!"
            let data = Vec::<u8>::from("Hello World!".as_bytes());
            response.set_data(Some(data));
            // Set the response code to 2.00 "Content"
            response.set_code(CoapResponseCode::Content);
            // Send the response message.
            session.send(response).expect("Unable to send response");
        },
    )),
);

// Add the resource to the context.
context.add_resource(resource);
loop {
    // process IO in a loop...
    if let Err(e) = context.do_io(Some(Duration::from_secs(1))) {
        break;
    }
    // ...until we want to shut down.
}
// Properly shut down, completing outstanding IO requests and properly closing sessions.
context.shutdown(Some(Duration::from_secs(0))).unwrap();

Modules§

  • crypto
    Cryptography interfaces and types.
  • error
    Error types
  • message
    Types related to message handling, parsing and creation.
  • prng
    Module containing methods for accessing or configuring the libcoap PRNG.
  • protocol
    Various types that are specified and defined in the CoAP standard and its extensions.
  • session
  • transport
  • types
    Types required for conversion between libcoap C library abstractions and Rust types.

Macros§

Structs§

  • CoapContext
    A CoAP Context — container for general state and configuration information relating to CoAP
  • CoapRequestHandler
    A handler for CoAP requests on a resource.
  • CoapResource
    Representation of a CoapResource that can be requested from a server.

Traits§