nRF9160: HTTPS Client¶
The HTTPS Client sample demonstrates a minimal implementation of HTTP communication. It shows how to set up a TLS session towards an HTTPS server and how to send an HTTP request.
The sample supports the following development kit:
The sample is configured to compile and run as a non-secure application on nRF91’s Cortex-M33. Therefore, it automatically includes the Secure Partition Manager that prepares the required peripherals to be available for the application.
You can also configure it to use TF-M instead of Secure Partition Manager.
The sample first initializes the Modem library and AT communications. Next, it provisions a root CA certificate to the modem using the Modem key management library. Provisioning must be done before connecting to the LTE network, because the certificates can only be provisioned when the device is not connected.
The sample then establishes a connection to the LTE network, sets up the necessary TLS socket options, and connects to an HTTPS server. It sends an HTTP HEAD request and prints the response code in the terminal.
The sample connects to
www.example.com, which requires an X.509 certificate.
This certificate is provided in the
To connect to other servers, you might need to provision a different certificate. See Certificates for more information.
This sample can be found under
samples/nrf9160/https_client in the nRF Connect SDK folder structure.
The sample is built as a non-secure firmware image for the nrf9160dk_nrf9160ns build target. Because of this, it automatically includes the Secure Partition Manager. You can also configure it to use TF-M instead of SPM.
See Building and programming an application for information about how to build and program the application.
After programming the sample to your development kit, test it by performing the following steps:
Connect the USB cable and power on or reset your nRF9160 DK.
Open a terminal emulator and observe that the sample starts, provisions certificates, connects to the LTE network and to example.com, and then sends an HTTP HEAD request.
Observe that the HTTP HEAD request returns
HTTP/1.1 200 OK.