1.9 KiB
gcoap used with Rust
This is the advanced Rust example; see ../rust-hello-world/ for the basics.
In extension to the basic example, it shows:
-
C code can be mixed with Rust code easily; any C file is built and linked as in applications without Rust.
While it's technically possible to have header files for that code, it is easier (and likewise often done in C applications) to just translate the entry function's signature manually, as is done with the
do_vfs_init()
function. -
Code of Rust applications can be spread out into modules, even if it builds on RIOT components.
The CoAP handler built in the main function combines generic CoAP components (from
coap_message_demos
) with RIOT specific components (fromriot-coap-handler-demos
). -
Many features of RIOT are exposed to Rust through the riot-wrappers crate, which provides safe wrappers around RIOT structures.
In this example, the abovementioned CoAP handler is run on the gcoap server, for which the wrappers provide adaptation to the platform independent handler interface.
Then, ztimer is used to sleep until the network interfaces are expected to be ready.
Finally, the available network interfaces are iterated over and queried for their IP addresses, which makes it easier (in absence of an interactive shell) to find which address CoAP requests can be directed at.
How to use
$ make all flash term
[...]
main(): This is RIOT! (Version: 2022.01-devel-560-g7f8ed-rust-application)
constfs mounted successfully
CoAP server ready; waiting for interfaces to settle before reporting addresses...
Active interface from PID KernelPID(6) ("gnrc_netdev_tap")
Address fe80:0000:0000:0000:1234:56ff:fe78:90ab
Address 2a02:0b18:c13b:8018:1234:56ff:fe78:90ab
Once that is ready, in a parallel shell, run:
$ aiocoap-client 'coap://[2a02:0b18:c13b:8018:1234:56ff:fe78:90ab]/.well-known/core'