Vorago VA416xx Rust Support ========= This crate collection provided support to write Rust applications for the VA416XX family of devices. ## List of crates This workspace contains the following crates: - The `va416xx` PAC crate containing basic low-level register definition - The `va416xx-hal` HAL crate containing higher-level abstractions on top of the PAC register crate. - The `vorago-peb1` BSP crate containing support for the PEB1 development board. ## Using the `.cargo/config.toml` file Use the following command to have a starting `config.toml` file ```sh cp .cargo/def-config.toml .cargo/config.toml ``` You then can adapt the `config.toml` to your needs. For example, you can configure runners to conveniently flash with `cargo run`. ## Using the sample VS Code files Use the following command to have a starting configuration for VS Code: ```sh cp -rT vscode .vscode ``` You can then adapt the files in `.vscode` to your needs. ## Flashing, running and debugging the software You can use CLI or VS Code for flashing, running and debugging. In any case, take care of installing the pre-requisites first. ### Pre-Requisites 1. [SEGGER J-Link tools](https://www.segger.com/downloads/jlink/) installed 2. [gdb-multiarch](https://packages.debian.org/sid/gdb-multiarch) or similar cross-architecture debugger installed. All commands here assume `gdb-multiarch`. ### Using CLI You can build the blinky example application with the following command ```sh cargo build --example blinky ``` Start the GDB server first. The server needs to be started with a certain configuration and with a JLink script to disable ROM protection. For example, on Debian based system the following command can be used to do this (this command is also run when running the `jlink-gdb.sh` script) ```sh JLinkGDBServer -select USB -device Cortex-M4 -endian little -if SWD -speed 2000 \ -LocalhostOnly -vd -jlinkscriptfile ./jlink/JLinkSettings.JLinkScript ``` After this, you can flash and debug the application with the following command ```sh gdb-mutliarch -q -x jlink/jlink.gdb target/thumbv7em-none-eabihf/debug/examples/blinky ``` Please note that you can automate all steps except starting the GDB server by using a cargo runner configuration, for example with the following lines in your `.cargo/config.toml` file: ```toml [target.'cfg(all(target_arch = "arm", target_os = "none"))'] runner = "gdb-multiarch -q -x jlink/jlink.gdb" ``` After that, you can simply use `cargo run --example blinky` to flash the blinky example. ### Using VS Code Assuming a working debug connection to your VA108xx board, you can debug using VS Code with the [`Cortex-Debug` plugin](https://marketplace.visualstudio.com/items?itemName=marus25.cortex-debug). Some sample configuration files for VS code were provided and can be used by running `cp -rT vscode .vscode` like specified above. After that, you can use `Run and Debug` to automatically rebuild and flash your application. If you would like to use a custom GDB application, you can specify the gdb binary in the following configuration variables in your `settings.json`: - `"cortex-debug.gdbPath"` - `"cortex-debug.gdbPath.linux"` - `"cortex-debug.gdbPath.windows"` - `"cortex-debug.gdbPath.osx"` The provided VS Code configurations also provide an integrated RTT logger, which you can access via the terminal at `RTT Ch:0 console`.