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esp-hal/hil-test
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Kirill Mikhailov 17492f6b62
Support 192 and 256-bit keys for AES (#1316) 
* Support 192 and 256-bit keys for AES

* quick fix

* Not `panic`ing on wrong key length

* fmt + hil

Update comment

* Add more doc comments

* Use `Key` enum for DMA mode

fix

* API fix: make some critical functions private

* Use `Into<Key>` instead of forcing users to call funcs with `key.into()`
2024-04-16 16:51:25 +00:00
..
.cargo
HIL updates (#1412)
2024-04-11 14:04:32 +00:00
tests
Support 192 and 256-bit keys for AES (#1316)
2024-04-16 16:51:25 +00:00
Cargo.toml
Add SPI Full Duplex DMA test (#1443)
2024-04-16 10:26:53 +00:00
README.md
Enable S3 HIL (#1338)
2024-04-16 12:09:18 +00:00

README.md

hil-test

Hardware-in-loop testing for esp-hal.

For assistance with this package please open an issue or start a discussion.

Quickstart

We use embedded-test as our testing framework, which relies on defmt internally. This allows us to write unit and integration tests much in the same way you would for a normal Rust project, when the standard library is available, and to execute them using Cargo's built-in test runner.

Running Tests Locally

We use [probe-rs] for flashing and running the tests on a target device, however, this MUST be installed from the correct revision, and with the correct features enabled:

cargo install probe-rs \
  --git=https://github.com/probe-rs/probe-rs \
  --rev=ddd59fa \
  --features=cli \
  --bin=probe-rs

Target device MUST connected via its USB-Serial-JTAG port, or if unavailable (eg. ESP32, ESP32-C2, ESP32-S2) then you must connect a compatible debug probe such as an [ESP-Prog].

You can run all tests for a given device by running the following command from the xtask folder:

cargo xtask run-tests $CHIP

For running a single test on a target, from the xtask folder run:

# Run GPIO tests for ESP32-C6
cargo xtask run-tests esp32c6 --test gpio

Another alternative way of running a single test is, from the hil-tests folder:

# Run GPIO tests for ESP32-C6
CARGO_BUILD_TARGET=riscv32imac-unknown-none-elf \
PROBE_RS_CHIP=esp32c6 \
  cargo +nightly test --features=esp32c6 --test=gpio
  • If the --test argument is omitted, then all tests will be run, independently if the tests are supported for that target, for this reason, we encourage using the xtask approach.
  • The build target MUST be specified via the CARGO_BUILD_TARGET environment variable or as an argument (--target).
  • The chip MUST be specified via the PROBE_RS_CHIP environment variable or as an argument of probe-rs (--chip).

Some tests will require physical connections, please see the current configuration in our runners.

Running Tests Remotes (ie. On Self-Hosted Runners)

The hil.yml workflow builds the test suite for all our available targets and executes them.

Our Virtual Machines have the following setup:

  • ESP32-C3 (rustboard):
    • Devkit: ESP32-C3-DevKit-RUST-1 connected via USB-Serial-JTAG.
      • GPIO2 and GPIO4 are connected.
    • VM: Ubuntu 20.04.5 configured with the following setup
  • ESP32-C6 (esp32c6-usb):
    • Devkit: ESP32-C6-DevKitC-1 V1.2 connected via USB-Serial-JTAG (USB port).
      • GPIO2 and GPIO4 are connected.
    • VM: Ubuntu 20.04.5 configured with the following setup
  • ESP32-H2 (esp32h2-usb):
    • Devkit: ESP32-H2-DevKitM-1 connected via USB-Serial-JTAG (USB port).
      • GPIO2 and GPIO4 are connected.
    • VM: Ubuntu 20.04.5 configured with the following setup
  • ESP32-S3 (esp32s3-usb):
    • Devkit: ESP32-S3-DevKitC-1 connected via USB-Serial-JTAG.
      • GPIO2 and GPIO4 are connected.
    • VM: Ubuntu 22.04.4 configured with the following setup

VM Setup

# Install Rust:
curl --proto '=https' --tlsv1.2 -sSf https://sh.rustup.rs | sh -s -- --default-toolchain stable -y --profile minimal
# Source the current shell:
source "$HOME/.cargo/env"
# Install dependencies
sudo apt install -y pkg-config libudev-dev
# Install probe-rs
cargo install probe-rs --git=https://github.com/probe-rs/probe-rs --rev=ddd59fa --features=cli --bin=probe-rs --locked --force
# Add the udev rules
wget -O - https://probe.rs/files/69-probe-rs.rules | sudo tee /etc/udev/rules.d/69-probe-rs.rules > /dev/null
# Add the user to plugdev group
sudo usermod -a -G plugdev $USER
# Reboot the VM
sudo reboot

Adding New Tests

  1. Create a new integration test file (tests/$PERIPHERAL.rs)
  2. Add a corresponding [[test]] entry to Cargol.toml (MUST set harness = false)
  3. Write the tests
  4. Document any necessary physical connections on boards connected to self-hosted runners
  5. Add a header in the test stating which targets support the given tests. Eg:
//! AES Test

//% CHIPS: esp32 esp32c3 esp32c6 esp32h2 esp32s2 esp32s3

If the test is supported by all the targets, you can omit the header. 6. Write some documentation at the top of the tests/$PERIPHERAL.rs file with the pins being used and the required connections, if applicable.