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# 🦀 Cursor Rust Rules
> **Production-tested Rust coding standards and best practices for Cursor IDE**
A comprehensive collection of Rust development rules designed for use with Cursor IDE, providing opinionated guidelines for building production-ready Rust applications with modern patterns and industry best practices.
## ✨ Features
- 🏗️ **Modern Architecture Patterns** - Domain-driven design, service-oriented architecture, and clean architecture
- 🌐 **Web Development Standards** - Axum web framework, OpenAPI integration, authentication patterns
- 🗄️ **Database Best Practices** - SQLx patterns, migrations, connection pooling, and repository patterns
-**Async & Concurrency** - Tokio patterns, async/await best practices, and concurrent data structures
- ⚙️ **Configuration Management** - Multi-format config support, hot-reloading, validation, and environment overrides
- 📊 **Observability & Monitoring** - Metrics collection, distributed tracing, health checks, and performance monitoring
- 🛠️ **Utility Libraries** - JWT authentication, CLI development, HTTP clients, and more
- 📦 **Workspace Organization** - Multi-crate workspace structure with clear service boundaries
- 🔍 **Code Quality** - Comprehensive linting, error handling, testing, and documentation standards
## 🚀 Quick Start
### 1. Clone the Repository
```bash
git clone https://github.com/your-username/cursor-rust-rules.git
cd cursor-rust-rules
```
### 2. Set Up Cursor Rules
Copy the rules to your Cursor configuration:
```bash
# Create cursor rules directory if it doesn't exist
mkdir -p ~/.cursor/rules/rust
# Copy all rules
cp -r .cursor/rules/rust/* ~/.cursor/rules/rust/
```
### 3. Use in Your Rust Project
In your Rust project, create or update `.cursorrules`:
```yaml
# .cursorrules
rules:
- "@rust/main" # Core Rust standards
- "@rust/axum" # Web development with Axum
- "@rust/database" # Database patterns with SQLx
- "@rust/cli" # CLI applications with clap
- "@rust/concurrency" # Async and concurrency patterns
- "@rust/configuration" # Configuration management patterns
- "@rust/observability" # Metrics, tracing, and health checks
- "@rust/utilities" # Utility libraries and CLI tools
- "@rust/workspace" # Multi-crate workspace organization
```
Or for specific features only:
```yaml
# .cursorrules - Minimal web API setup
rules:
- "@rust/core/code-quality"
- "@rust/features/axum"
- "@rust/features/database"
- "@rust/features/observability" # For production monitoring
# .cursorrules - Service with dynamic configuration
rules:
- "@rust/core/code-quality"
- "@rust/features/configuration"
- "@rust/features/observability"
- "@rust/features/utilities"
```
## 📁 Project Structure
```
cursor-rust-rules/
├── .cursor/rules/rust/ # Cursor rule definitions
│ ├── main.mdc # Main rule loader and feature detection
│ ├── core/ # Core standards
│ │ └── code-quality.mdc # Code quality and best practices
│ ├── features/ # Feature-specific rules
│ │ ├── axum.mdc # Web framework standards
│ │ ├── database.mdc # Database patterns
│ │ ├── cli.mdc # CLI application patterns
│ │ ├── concurrency.mdc # Async/concurrency patterns
│ │ ├── configuration.mdc # Configuration management patterns
│ │ ├── observability.mdc # Metrics, tracing, health checks
│ │ ├── utilities.mdc # Utility libraries
│ │ ├── http-client.mdc # HTTP client patterns
│ │ └── tools-and-config.mdc # Development tools
│ └── complex/ # Advanced patterns
│ └── workspace.mdc # Multi-crate workspace organization
└── README.md # This file
```
## 🎯 Rule Categories
### Core Standards
- **Code Quality** (`@rust/core/code-quality`) - Error handling, logging, testing, and code organization
### Feature-Specific Rules
- **Web Framework** (`@rust/features/axum`) - Axum 0.8+, OpenAPI, middleware, authentication
- **Database** (`@rust/features/database`) - SQLx patterns, migrations, connection pooling
- **CLI Applications** (`@rust/features/cli`) - Clap 4.0+, subcommands, enum_dispatch, modern CLI patterns
- **Concurrency** (`@rust/features/concurrency`) - Tokio, async patterns, concurrent data structures
- **Configuration** (`@rust/features/configuration`) - Multi-format config, hot-reloading, validation patterns
- **Observability** (`@rust/features/observability`) - Metrics collection, distributed tracing, health checks
- **Utilities** (`@rust/features/utilities`) - JWT, CLI tools, builder patterns, validation
- **HTTP Client** (`@rust/features/http-client`) - Reqwest patterns, retry logic, authentication
- **Tools & Config** (`@rust/features/tools-and-config`) - Development tooling and configuration
### Advanced Patterns
- **Workspace** (`@rust/complex/workspace`) - Subsystem-based multi-crate organization
## 🛠️ Usage Examples
### Web API Development
For building a web API with Axum:
```rust
// Cargo.toml gets configured with these dependencies
[dependencies]
axum = { version = "0.8", features = ["macros", "multipart", "ws"] }
utoipa = { version = "5.0", features = ["axum_extras", "chrono", "uuid"] }
sqlx = { version = "0.8", features = ["runtime-tokio-rustls", "postgres"] }
tokio = { version = "1.45", features = ["macros", "rt-multi-thread"] }
# Configuration management
figment = { version = "0.10", features = ["yaml", "toml", "env"] }
arc-swap = "1.0"
validator = { version = "0.18", features = ["derive"] }
# Observability
prometheus = "0.13"
opentelemetry = "0.23"
tracing-opentelemetry = "0.23"
dashmap = "6.0"
```
Your project follows patterns like:
```rust
// AppState with hot-reloadable config and observability
#[derive(Clone)]
pub struct AppState {
pub config: Arc<ArcSwap<AppConfig>>,
pub db: PgPool,
pub http_client: reqwest::Client,
pub metrics: Arc<MetricsCollector>,
pub health_manager: Arc<HealthManager>,
}
// Route handlers with OpenAPI documentation
#[utoipa::path(
post,
path = "/api/v1/users",
request_body = CreateUserRequest,
responses(
(status = 201, description = "User created", body = User),
(status = 400, description = "Validation error", body = ApiError)
),
tag = "users"
)]
pub async fn create_user(
State(state): State<AppState>,
Json(request): Json<CreateUserRequest>,
) -> Result<(StatusCode, Json<User>), ApiError> {
// Implementation follows validation and error handling patterns
}
```
### Database Integration
For database operations with SQLx:
```rust
// Repository patterns with proper error handling
#[async_trait]
pub trait UserRepository: Send + Sync {
async fn find_by_id(&self, id: UserId) -> Result<Option<User>, DatabaseError>;
async fn create(&self, user: CreateUserRequest) -> Result<User, DatabaseError>;
async fn update(&self, id: UserId, user: UpdateUserRequest) -> Result<User, DatabaseError>;
}
// Migration and connection management
pub async fn setup_database(config: &DatabaseConfig) -> Result<PgPool, DatabaseError> {
let pool = PgPoolOptions::new()
.max_connections(config.max_connections)
.connect(&config.url)
.await?;
sqlx::migrate!("./migrations").run(&pool).await?;
Ok(pool)
}
```
### Configuration Management
For dynamic configuration with hot-reloading:
```rust
// Multi-format configuration with validation
#[derive(Debug, Clone, Deserialize, Validate)]
pub struct AppConfig {
#[validate(length(min = 1, max = 100))]
pub name: String,
#[validate(range(min = 1, max = 65535))]
pub port: u16,
#[validate(nested)]
pub database: DatabaseConfig,
#[serde(default)]
#[validate(nested)]
pub observability: ObservabilityConfig,
}
// Hot-reloadable configuration manager
pub struct ConfigManager<T> {
current: Arc<ArcSwap<T>>,
reload_tx: broadcast::Sender<Arc<T>>,
}
impl<T> ConfigManager<T>
where
T: for<'de> Deserialize<'de> + Validate + Clone + Send + Sync + 'static,
{
pub async fn start_watching(&self) -> Result<(), ConfigError> {
// File system watching with atomic configuration updates
// Supports YAML, TOML, JSON with environment variable overrides
}
}
```
### Observability & Monitoring
For production-ready metrics and health checks:
```rust
// Lock-free metrics collection
pub struct MetricsCollector {
counters: DashMap<String, Arc<AtomicCounter>>,
prometheus_registry: Registry,
}
// Request timing middleware
pub struct RequestTimer {
start_time: Instant,
metrics: Arc<MetricsCollector>,
operation: String,
}
// Health check framework
#[async_trait]
pub trait HealthCheck: Send + Sync {
async fn check(&self) -> HealthCheckResult;
fn name(&self) -> &str;
}
// Distributed tracing setup
pub fn setup_tracing(config: TracingConfig) -> Result<(), TracingError> {
let tracer = opentelemetry_jaeger::new_agent_pipeline()
.with_service_name(&config.service_name)
.install_simple()?;
tracing_subscriber::registry()
.with(tracing_opentelemetry::layer().with_tracer(tracer))
.with(tracing_subscriber::fmt::layer())
.init();
Ok(())
}
```
### CLI Application Development
For building powerful command-line tools:
```rust
// Cargo.toml gets configured with these dependencies
[dependencies]
clap = { version = "4.0", features = ["derive", "env", "unicode"] }
enum_dispatch = "0.3"
tokio = { version = "1.45", features = ["macros", "rt-multi-thread"] }
anyhow = "1.0"
colored = "2.0"
```
Your CLI follows the enum_dispatch pattern:
```rust
/// Command execution trait with enum_dispatch
#[async_trait]
#[enum_dispatch(Commands)]
pub trait CommandExecutor {
async fn execute(&self, args: &Args, config: &Config) -> Result<()>;
}
/// All available commands
#[derive(Debug, Subcommand)]
#[enum_dispatch(CommandExecutor)]
pub enum Commands {
/// Database management commands
#[command(name = "db", alias = "database")]
Database(DatabaseCommand),
/// Server management commands
#[command(name = "server", alias = "srv")]
Server(ServerCommand),
}
// Each command implements CommandExecutor
#[async_trait]
impl CommandExecutor for DatabaseCommand {
async fn execute(&self, args: &Args, config: &Config) -> Result<()> {
// Command implementation with progress bars, colored output, etc.
}
}
```
### Multi-Crate Workspace
For complex applications, organize as services:
```
my-service-platform/
├── shared/ # Cross-cutting infrastructure
│ ├── shared-types/ # Domain primitives
│ ├── shared-config/ # Configuration management
│ └── shared-observability/ # Metrics & tracing
├── services/ # Business services
│ ├── core-services/ # Core business logic
│ │ ├── service-core/ # Domain logic
│ │ ├── service-api/ # HTTP endpoints
│ │ └── service-worker/ # Background processing
│ └── business-services/ # Business-specific services
│ ├── business-core/ # Business logic
│ ├── business-api/ # API endpoints
│ └── business-processor/ # Workflow engine
└── platform/ # Platform services
├── gateway/ # API gateway
├── admin-panel/ # Administration
└── health-monitor/ # Health monitoring
```
## 🎮 Interactive Features
The rules provide intelligent feature detection and suggestions:
### Automatic Dependency Detection
When you use certain patterns, Cursor will suggest appropriate dependencies:
```rust
// Using async patterns triggers Tokio suggestions
async fn my_function() -> Result<(), Error> {
// Cursor suggests: Add tokio = "1.45" with appropriate features
}
// Using database patterns triggers SQLx suggestions
sqlx::query!("SELECT * FROM users")
// Cursor suggests: Add sqlx with postgres features
// Using configuration patterns triggers config dependencies
#[derive(Deserialize, Validate)]
struct Config { /* ... */ }
// Cursor suggests: Add figment, validator, arc-swap
// Using metrics patterns triggers observability dependencies
let counter = metrics.counter("requests_total");
// Cursor suggests: Add prometheus, dashmap, opentelemetry
```
### Smart Code Generation
Rules include templates for common patterns:
- **API Endpoints** - Complete handler with validation and OpenAPI docs
- **Database Repositories** - Repository trait and implementation
- **Error Types** - Structured error handling with proper HTTP status codes
- **Configuration** - Environment-based config with hot reload support
## 📊 Rule Hierarchy
Rules are loaded based on project complexity:
1. **Simple Projects** - Core quality standards only
2. **Web APIs** - Core + Axum + Database + Observability rules
3. **Service Applications** - Core + Configuration + Observability + Utilities
4. **Complex Systems** - All rules including workspace organization
## 🔧 Customization
### Override Specific Rules
Create a local `.cursorrules` file to customize:
```yaml
rules:
- "@rust/main"
overrides:
# Use different web framework
web_framework: "warp"
# Custom database configuration
database:
orm: "diesel"
features: ["mysql"]
```
### Add Project-Specific Rules
Extend with your own patterns:
```rust
// .cursor/rules/rust/project/custom.mdc
// Your project-specific patterns and standards
```
## 🤝 Contributing
1. Fork the repository
2. Create a feature branch (`git checkout -b feature/amazing-rule`)
3. Add your rule with documentation and examples
4. Test with real projects
5. Submit a pull request
### Rule Writing Guidelines
- **Comprehensive Examples** - Show complete, working code
- **Production Patterns** - Based on real-world usage
- **Clear Documentation** - Explain why, not just what
- **Test Coverage** - Include testing patterns
- **Version Compatibility** - Specify crate versions
## 📚 References
- [Axum Documentation](https://docs.rs/axum/)
- [SQLx Documentation](https://docs.rs/sqlx/)
- [Tokio Documentation](https://docs.rs/tokio/)
- [Rust API Guidelines](https://rust-lang.github.io/api-guidelines/)
## 📄 License
MIT License - see LICENSE file for details.
## 🚨 Disclaimer
These rules represent opinionated best practices based on production experience. Adapt them to your specific project needs and constraints.
---
**Happy Coding with Rust! 🦀**
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