a0641abd8c
* Add "std" feature to rustlib to allow using std in Xtensa projects * Fix cargo target in CMakeLists.txt * Use std feature when building for Xtensa * Use std ffi aliases when building with std feature * Add custom ffi aliases when building without std feature * Add no_std attribute and panic handler when building without std feature |
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| .cargo | ||
| docs | ||
| main | ||
| rustlib | ||
| .gitignore | ||
| CMakeLists.txt | ||
| LICENSE | ||
| README.md | ||
| sdkconfig.defaults | ||
README.md
Rust ESP32 Example
An example project demonstrating integration with Rust for the ESP32-S2 and ESP32-C3 microcontrollers.
This example starts a FreeRTOS task to call a function in Rust and display the results in C.
Setup
First, install the ESP-IDF SDK as shown in the Get Started guides. For best support of the ESP32-C3, install the SDK from the master branch.
ESP32 and ESP32-S series
To support the Xtensa instruction set, build and install custom LLVM and Rust toolchains as shown in the Rust On Xtensa guide.
ESP32-C3
Install the RISCV target for Rust:
rustup target add riscv32i-unknown-none-elf
Configure
First ensure that the environment variables for the ESP32 SDK are properly set up. If you have followed the instructions in the Getting Started guide, activate the environment with the get_idf alias:
get_idf
Next, configure the project for the desired MCU.
For the ESP32:
idf.py set-target esp32
idf.py menuconfig
For the ESP32-S2:
idf.py set-target esp32s2
idf.py menuconfig
For the ESP32-C3:
idf.py set-target esp32c3
idf.py menuconfig
Build
Build the project by running:
idf.py build
This also runs Cargo internally, building a static library out of Rust code.
Flash
Flash the compiled binary by running:
idf.py -p /dev/cu.SLAB_USBtoUART flash
Monitor
Connect to the UART over USB port to monitor the application console:
idf.py -p /dev/cu.SLABtoUART monitor
To exit the monitor, press Ctrl-].
Debugging on ESP32-WROVER-KIT
openocd -f board/esp32-wrover-kit-3.3v.cfg