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zeroclaw/src/peripherals/rpi.rs
ehu shubham shaw de3ec87d16
Ehu shubham shaw contribution --> Hardware support (#306) 
* feat: add ZeroClaw firmware for ESP32 and Nucleo

* Introduced new firmware for ZeroClaw on ESP32 and Nucleo-F401RE, enabling JSON-over-serial communication for GPIO control.
* Added `zeroclaw-esp32` with support for commands like `gpio_read` and `gpio_write`, along with capabilities reporting.
* Implemented `zeroclaw-nucleo` firmware with similar functionality for STM32, ensuring compatibility with existing ZeroClaw protocols.
* Updated `.gitignore` to include new firmware targets and added necessary dependencies in `Cargo.toml` for both platforms.
* Created README files for both firmware projects detailing setup, build, and usage instructions.

Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>

* feat: enhance hardware peripheral support and documentation

- Added `Peripheral` trait implementation in `src/peripherals/` to manage hardware boards (STM32, RPi GPIO).
- Updated `AGENTS.md` to include new extension points for peripherals and their configuration.
- Introduced comprehensive documentation for adding boards and tools, including a quick start guide and supported boards.
- Enhanced `Cargo.toml` to include optional dependencies for PDF extraction and peripheral support.
- Created new datasheets for Arduino Uno, ESP32, and Nucleo-F401RE, detailing pin aliases and GPIO usage.
- Implemented new tools for hardware memory reading and board information retrieval in the agent loop.

This update significantly improves the integration and usability of hardware peripherals within the ZeroClaw framework.

* feat: add ZeroClaw firmware for ESP32 and Nucleo

* Introduced new firmware for ZeroClaw on ESP32 and Nucleo-F401RE, enabling JSON-over-serial communication for GPIO control.
* Added `zeroclaw-esp32` with support for commands like `gpio_read` and `gpio_write`, along with capabilities reporting.
* Implemented `zeroclaw-nucleo` firmware with similar functionality for STM32, ensuring compatibility with existing ZeroClaw protocols.
* Updated `.gitignore` to include new firmware targets and added necessary dependencies in `Cargo.toml` for both platforms.
* Created README files for both firmware projects detailing setup, build, and usage instructions.

Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>

* feat: enhance hardware peripheral support and documentation

- Added `Peripheral` trait implementation in `src/peripherals/` to manage hardware boards (STM32, RPi GPIO).
- Updated `AGENTS.md` to include new extension points for peripherals and their configuration.
- Introduced comprehensive documentation for adding boards and tools, including a quick start guide and supported boards.
- Enhanced `Cargo.toml` to include optional dependencies for PDF extraction and peripheral support.
- Created new datasheets for Arduino Uno, ESP32, and Nucleo-F401RE, detailing pin aliases and GPIO usage.
- Implemented new tools for hardware memory reading and board information retrieval in the agent loop.

This update significantly improves the integration and usability of hardware peripherals within the ZeroClaw framework.

* feat: Introduce hardware auto-discovery and expanded configuration options for agents, hardware, and security.

* chore: update dependencies and improve probe-rs integration

- Updated `Cargo.lock` to remove specific version constraints for several dependencies, including `zerocopy`, `syn`, and `strsim`, allowing for more flexibility in version resolution.
- Upgraded `bincode` and `bitfield` to their latest versions, enhancing serialization and memory management capabilities.
- Updated `Cargo.toml` to reflect the new version of `probe-rs` from `0.24` to `0.30`, improving hardware probing functionality.
- Refactored code in `src/hardware` and `src/tools` to utilize the new `SessionConfig` for session management in `probe-rs`, ensuring better compatibility and performance.
- Cleaned up documentation in `docs/datasheets/nucleo-f401re.md` by removing unnecessary lines.

* fix: apply cargo fmt

* docs: add hardware architecture diagram.

---------

Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
2026-02-16 11:40:10 -05:00

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//! Raspberry Pi GPIO peripheral — native rppal access.
//!
//! Only compiled when `peripheral-rpi` feature is enabled and target is Linux.
//! Uses BCM pin numbering (e.g. GPIO 17, 27).
use crate::config::PeripheralBoardConfig;
use crate::peripherals::traits::Peripheral;
use crate::tools::{Tool, ToolResult};
use async_trait::async_trait;
use serde_json::{json, Value};
/// RPi GPIO peripheral — direct access via rppal.
pub struct RpiGpioPeripheral {
board: PeripheralBoardConfig,
}
impl RpiGpioPeripheral {
/// Create a new RPi GPIO peripheral from config.
pub fn new(board: PeripheralBoardConfig) -> Self {
Self { board }
}
/// Attempt to connect (init rppal). Returns Ok if GPIO is available.
pub async fn connect_from_config(board: &PeripheralBoardConfig) -> anyhow::Result<Self> {
let mut peripheral = Self::new(board.clone());
peripheral.connect().await?;
Ok(peripheral)
}
}
#[async_trait]
impl Peripheral for RpiGpioPeripheral {
fn name(&self) -> &str {
&self.board.board
}
fn board_type(&self) -> &str {
"rpi-gpio"
}
async fn connect(&mut self) -> anyhow::Result<()> {
// Verify GPIO is accessible by doing a no-op init
let result = tokio::task::spawn_blocking(|| rppal::gpio::Gpio::new()).await??;
drop(result);
Ok(())
}
async fn disconnect(&mut self) -> anyhow::Result<()> {
Ok(())
}
async fn health_check(&self) -> bool {
tokio::task::spawn_blocking(|| rppal::gpio::Gpio::new().is_ok())
.await
.unwrap_or(false)
}
fn tools(&self) -> Vec<Box<dyn Tool>> {
vec![Box::new(RpiGpioReadTool), Box::new(RpiGpioWriteTool)]
}
}
/// Tool: read GPIO pin value (BCM numbering).
struct RpiGpioReadTool;
#[async_trait]
impl Tool for RpiGpioReadTool {
fn name(&self) -> &str {
"gpio_read"
}
fn description(&self) -> &str {
"Read the value (0 or 1) of a GPIO pin on Raspberry Pi. Uses BCM pin numbers (e.g. 17, 27)."
}
fn parameters_schema(&self) -> Value {
json!({
"type": "object",
"properties": {
"pin": {
"type": "integer",
"description": "BCM GPIO pin number (e.g. 17, 27)"
}
},
"required": ["pin"]
})
}
async fn execute(&self, args: Value) -> anyhow::Result<ToolResult> {
let pin = args
.get("pin")
.and_then(|v| v.as_u64())
.ok_or_else(|| anyhow::anyhow!("Missing 'pin' parameter"))?;
let pin_u8 = pin as u8;
let value = tokio::task::spawn_blocking(move || {
let gpio = rppal::gpio::Gpio::new()?;
let pin = gpio.get(pin_u8)?.into_input();
Ok::<_, anyhow::Error>(match pin.read() {
rppal::gpio::Level::Low => 0,
rppal::gpio::Level::High => 1,
})
})
.await??;
Ok(ToolResult {
success: true,
output: format!("pin {} = {}", pin, value),
error: None,
})
}
}
/// Tool: write GPIO pin value (BCM numbering).
struct RpiGpioWriteTool;
#[async_trait]
impl Tool for RpiGpioWriteTool {
fn name(&self) -> &str {
"gpio_write"
}
fn description(&self) -> &str {
"Set a GPIO pin high (1) or low (0) on Raspberry Pi. Uses BCM pin numbers."
}
fn parameters_schema(&self) -> Value {
json!({
"type": "object",
"properties": {
"pin": {
"type": "integer",
"description": "BCM GPIO pin number"
},
"value": {
"type": "integer",
"description": "0 for low, 1 for high"
}
},
"required": ["pin", "value"]
})
}
async fn execute(&self, args: Value) -> anyhow::Result<ToolResult> {
let pin = args
.get("pin")
.and_then(|v| v.as_u64())
.ok_or_else(|| anyhow::anyhow!("Missing 'pin' parameter"))?;
let value = args
.get("value")
.and_then(|v| v.as_u64())
.ok_or_else(|| anyhow::anyhow!("Missing 'value' parameter"))?;
let pin_u8 = pin as u8;
let level = match value {
0 => rppal::gpio::Level::Low,
_ => rppal::gpio::Level::High,
};
tokio::task::spawn_blocking(move || {
let gpio = rppal::gpio::Gpio::new()?;
let mut pin = gpio.get(pin_u8)?.into_output();
pin.write(level);
Ok::<_, anyhow::Error>(())
})
.await??;
Ok(ToolResult {
success: true,
output: format!("pin {} = {}", pin, value),
error: None,
})
}
}
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