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https://github.com/georgik/esp32-idf-nmea-example

ESP32 ESP-IDF application with Rust no_std NMEA code as component
https://github.com/georgik/esp32-idf-nmea-example

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ESP32 ESP-IDF application with Rust no_std NMEA code as component

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# Example of integration ESP-IDF and Rust NMEA crate



The example shows how to integrate ESP-IDF with Rust no_std crate like [NMEA](https://crates.io/crates/nmea).



## Prerequisites



- [Installed ESP-IDF](https://docs.espressif.com/projects/esp-idf/en/latest/esp32/get-started/index.html#installation)

- [Installed Rust and Cargo](https://www.rust-lang.org/tools/install)

- [Installed Xtensa LLVM toolchain for Rust](https://esp-rs.github.io/book/installation/index.html)

- Basic knowledge of ESP-IDF, CMake, and Rust



## Structure



Here's how your project directory might look after the following the guide:



```

esp_idf_project/

|-- CMakeLists.txt

|-- main/

|   |-- CMakeLists.txt

|   |-- esp_idf_project.c

|-- sdkconfig

|-- components/

|   |-- nma /

|       |-- CMakeLists.txt

|       |-- include/

|           |-- nmea_idf.h

|       |-- nmea_idf.c

|       |-- nmea_idf_rs /

|           |-- Cargo.toml

|           |-- rust-toolchain.toml

|           |-- src/

|               |-- lib.rs

```



### Architecture



Key elements:

- `esp_idf_project` contains main C code like any other ESP-IDF application.

- The ESP-IDF componet with name `nmea` is stored in subdirectory with components.

  - The `nmea_idf_rs` component contains C adapter layer which helps interfacing with Rust library.

- The Rust code is stored in `components/nmea/nmea_idf_rs` subdirectory.



The component can be uploaded later on to [Component Manager](https://components.espressif.com/).



### Select target



Set target for main ESP-IDF application:



```bash

#idf.py set-target 

# idf.py set-target esp32

idf.py set-target esp32-c3

# idf.py set-target esp32-s3

```



Optional step when developers needs to build Rust component also manually:

Define which toolchain should be used for the Rust component in file `esp_rust_component/rust_crate/rust-toolchain.toml`



```toml

[toolchain]

# Use "esp" for ESP32, ESP32-S2, and ESP32-S3

#channel = "esp"

# Use "nightly" for ESP32-C*, ESP32-H* targets

channel = "nightly"

```



### Build the Project

From the base folder of the project (`esp_idf_project`), run the build process as you usually would for an ESP-IDF project:



```bash

idf.py build flash monitor

```



#### Build the Project in Debug



```bash

idf.py -DCMAKE_BUILD_TYPE=Debug build flash monitor

```



### Expected output



```

I (316) main_task: Started on CPU0

I (316) main_task: Calling app_main()

Remaining stack space before calling Rust function in app_main: 2392

Message from Rust: Hello ESP-RS. https://github.com/esp-rs

Size of NMEA: 12272

Remaining stack space after calling Rust function in app_main: 2392

Remaining stack space before calling Rust function in nmea_gga_task: 36068

NMEA altitude: 61.700001

Remaining stack space after calling Rust function in nmea_gga_task: 25924

GGA Data:

- Latitude: 53°21.6802' N

- Longitude: -7°29.6628' W

- GPS Quality: 1 (GPS fix)

- Number of Satellites: 8

- Horizontal Dilution of Precision: 1.0

- Altitude: 61.7 Meters

- Height of Geoid above WGS84 Ellipsoid: 55.2 Meters

I (376) main_task: Returned from app_main()

```



## Simulation



### Simulation with Wokwi in VS Code



[Wokwi for Visual Studio Code](https://docs.wokwi.com/vscode/getting-started) provides a simulation solution for embedded and IoT system engineers. The extension integrates with your existing development environment, allowing you to simulate your projects directly from your code editor.



- [Install VS Code](https://code.visualstudio.com/download)

- [Install Wokwi plugin](https://docs.wokwi.com/vscode/getting-started#installation)

- Activate Wokwi plugin - command palette, search for `Wokwi: Start Simulator`, select and ativate the plugin using web browser