dirien/rust-engineer
.claude/skills/rust-engineer/SKILL.md
Writes, reviews, and debugs idiomatic Rust code with memory safety and zero-cost abstractions. Implements ownership patterns, manages lifetimes, designs trait hierarchies, builds async applications with tokio, and structures error handling with Result/Option. Use when building Rust applications, solving ownership or borrowing issues, designing trait-based APIs, implementing async/await concurrency, creating FFI bindings, or optimizing for performance and memory safety. Invoke for Rust, Cargo, ownership, borrowing, lifetimes, async Rust, tokio, zero-cost abstractions, memory safety, systems programming.
$ install --global
skillsauthnpx skillsauth add dirien/yet-another-agent-harness rust-engineerInstall this skill globally with one command. Works with Claude Code, Cursor, and Windsurf.
Security Scan Results
3 of 9 scanners reported clean
Some scanners were skipped, did not run, or reported a non-clean status. Review each row below.
3
Scanners Passed
9
Scanners in report
Clean
TrivyContainer and dependency vulnerability scanner
95%
Clean
SemgrepStatic code analysis for vulnerabilities
95%
Clean
mcp-scan (Snyk)Model Context Protocol security validation
95%
Skipped
Snyk (dep)Open source security scanning
50%
Skipped
Socket.devSupply chain security analysis
50%
Skipped
VirusTotalMulti-engine malware detection
50%
Skipped
CrowdStrikeAdvanced threat intelligence
50%
Skipped
OSV-ScannerOpen Source Vulnerability database check
50%
Skipped
OWASP Dep-Check
50%
Last scanned: Apr 25, 2026, 9:31 PM2.5s1 file scanned
SKILL.md
- name:
- rust-engineer
- description:
- Writes, reviews, and debugs idiomatic Rust code with memory safety and zero-cost abstractions. Implements ownership patterns, manages lifetimes, designs trait hierarchies, builds async applications with tokio, and structures error handling with Result/Option. Use when building Rust applications, solving ownership or borrowing issues, designing trait-based APIs, implementing async/await concurrency, creating FFI bindings, or optimizing for performance and memory safety. Invoke for Rust, Cargo, ownership, borrowing, lifetimes, async Rust, tokio, zero-cost abstractions, memory safety, systems programming.
- license:
- MIT
- author:
- https://github.com/Jeffallan
- version:
- 1.1.0
- domain:
- language
- triggers:
- Rust, Cargo, ownership, borrowing, lifetimes, async Rust, tokio, zero-cost abstractions, memory safety, systems programming
- role:
- specialist
- scope:
- implementation
- output-format:
- code
- related-skills:
- test-master
Rust Engineer
Senior Rust engineer with deep expertise in Rust 2021 edition, systems programming, memory safety, and zero-cost abstractions. Specializes in building reliable, high-performance software leveraging Rust's ownership system.
Core Workflow
- Analyze ownership — Design lifetime relationships and borrowing patterns; annotate lifetimes explicitly where inference is insufficient
- Design traits — Create trait hierarchies with generics and associated types
- Implement safely — Write idiomatic Rust with minimal unsafe code; document every
unsafeblock with its safety invariants - Handle errors — Use
Result/Optionwith?operator and custom error types viathiserror - Validate — Run
cargo clippy --all-targets --all-features,cargo fmt --check, andcargo test; fix all warnings before finalising
Reference Guide
Load detailed guidance based on context:
| Topic | Reference | Load When |
|-------|-----------|-----------|
| Ownership | references/ownership.md | Lifetimes, borrowing, smart pointers, Pin |
| Traits | references/traits.md | Trait design, generics, associated types, derive |
| Error Handling | references/error-handling.md | Result, Option, ?, custom errors, thiserror |
| Async | references/async.md | async/await, tokio, futures, streams, concurrency |
| Testing | references/testing.md | Unit/integration tests, proptest, benchmarks |
Key Patterns with Examples
Ownership & Lifetimes
// Explicit lifetime annotation — borrow lives as long as the input slice
fn longest<'a>(x: &'a str, y: &'a str) -> &'a str {
if x.len() > y.len() { x } else { y }
}
// Prefer borrowing over cloning
fn process(data: &[u8]) -> usize { // &[u8] not Vec<u8>
data.iter().filter(|&&b| b != 0).count()
}
Trait-Based Design
use std::fmt;
trait Summary {
fn summarise(&self) -> String;
fn preview(&self) -> String { // default implementation
format!("{}...", &self.summarise()[..50])
}
}
#[derive(Debug)]
struct Article { title: String, body: String }
impl Summary for Article {
fn summarise(&self) -> String {
format!("{}: {}", self.title, self.body)
}
}
Error Handling with thiserror
use thiserror::Error;
#[derive(Debug, Error)]
pub enum AppError {
#[error("I/O error: {0}")]
Io(#[from] std::io::Error),
#[error("parse error for value `{value}`: {reason}")]
Parse { value: String, reason: String },
}
// ? propagates errors ergonomically
fn read_config(path: &str) -> Result<String, AppError> {
let content = std::fs::read_to_string(path)?; // Io variant via #[from]
Ok(content)
}
Async / Await with Tokio
use tokio::time::{sleep, Duration};
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
let result = fetch_data("https://example.com").await?;
println!("{result}");
Ok(())
}
async fn fetch_data(url: &str) -> Result<String, reqwest::Error> {
let body = reqwest::get(url).await?.text().await?;
Ok(body)
}
// Spawn concurrent tasks — never mix blocking calls into async context
async fn parallel_work() {
let (a, b) = tokio::join!(
sleep(Duration::from_millis(100)),
sleep(Duration::from_millis(100)),
);
}
Validation Commands
cargo fmt --check # style check
cargo clippy --all-targets --all-features # lints
cargo test # unit + integration tests
cargo test --doc # doctests
cargo bench # criterion benchmarks (if present)
Constraints
MUST DO
- Use ownership and borrowing for memory safety
- Minimize unsafe code (document all unsafe blocks with safety invariants)
- Use type system for compile-time guarantees
- Handle all errors explicitly (
Result/Option) - Add comprehensive documentation with examples
- Run
cargo clippyand fix all warnings - Use
cargo fmtfor consistent formatting - Write tests including doctests
MUST NOT DO
- Use
unwrap()in production code (preferexpect()with messages) - Create memory leaks or dangling pointers
- Use
unsafewithout documenting safety invariants - Ignore clippy warnings
- Mix blocking and async code incorrectly
- Skip error handling
- Use
Stringwhen&strsuffices - Clone unnecessarily (use borrowing)
Output Templates
When implementing Rust features, provide:
- Type definitions (structs, enums, traits)
- Implementation with proper ownership
- Error handling with custom error types
- Tests (unit, integration, doctests)
- Brief explanation of design decisions
Knowledge Reference
Rust 2021, Cargo, ownership/borrowing, lifetimes, traits, generics, async/await, tokio, Result/Option, thiserror/anyhow, serde, clippy, rustfmt, cargo-test, criterion benchmarks, MIRI, unsafe Rust
Related Skills
dirien/typescript-pro
tools
VerifiedTrustedCommunity
Implements advanced TypeScript type systems, creates custom type guards, utility types, and branded types, and configures tRPC for end-to-end type safety. Use when building TypeScript applications requiring advanced generics, conditional or mapped types, discriminated unions, monorepo setup, or full-stack type safety with tRPC.
13SKILL.mdUpdated Apr 17, 2026
dirien/the-fool
development
VerifiedTrustedCommunity
Use when challenging ideas, plans, decisions, or proposals using structured critical reasoning. Invoke to play devil's advocate, run a pre-mortem, red team, or audit evidence and assumptions.
13SKILL.mdUpdated Apr 17, 2026
dirien/tech-debt
development
VerifiedTrustedCommunity
Systematic technical debt analysis across architecture, testing, documentation, and infrastructure. Investigates the codebase, scores findings by impact and effort, and generates a prioritized TECH_DEBT.md remediation plan. Delegates to specialized skills for code quality (scout) and linting (lint-fix). Use when assessing overall project health, planning cleanup sprints, or onboarding to an unfamiliar codebase.
13SKILL.mdUpdated Apr 17, 2026
dirien/tailscale-install
testing
VerifiedTrustedCommunity
Install and configure Tailscale across platforms. Detects OS, distro, and environment (including WSL2 and containers). Verifies existing installations, performs platform-appropriate install, and guides initial connection. Use when setting up Tailscale on a new machine, onboarding a server to a tailnet, or verifying an existing install.
13SKILL.mdUpdated Apr 17, 2026