go-concurrency-patterns

$npx mdskill add wshobson/agents/go-concurrency-patterns

Master Go concurrency patterns for building efficient and reliable concurrent applications

  • Solve problems with goroutines, channels, and synchronization primitives
  • Uses Go's standard library including context, sync, and runtime packages
  • Analyzes concurrency needs to recommend appropriate patterns and primitives
  • Provides code examples and best practices for managing concurrent execution

SKILL.md

.github/skills/go-concurrency-patternsView on GitHub ↗
---
name: go-concurrency-patterns
description: Master Go concurrency with goroutines, channels, sync primitives, and context. Use when building concurrent Go applications, implementing worker pools, or debugging race conditions.
---

# Go Concurrency Patterns

Production patterns for Go concurrency including goroutines, channels, synchronization primitives, and context management.

## When to Use This Skill

- Building concurrent Go applications
- Implementing worker pools and pipelines
- Managing goroutine lifecycles
- Using channels for communication
- Debugging race conditions
- Implementing graceful shutdown

## Core Concepts

### 1. Go Concurrency Primitives

| Primitive         | Purpose                          |
| ----------------- | -------------------------------- |
| `goroutine`       | Lightweight concurrent execution |
| `channel`         | Communication between goroutines |
| `select`          | Multiplex channel operations     |
| `sync.Mutex`      | Mutual exclusion                 |
| `sync.WaitGroup`  | Wait for goroutines to complete  |
| `context.Context` | Cancellation and deadlines       |

### 2. Go Concurrency Mantra

```
Don't communicate by sharing memory;
share memory by communicating.
```

## Quick Start

```go
package main

import (
    "context"
    "fmt"
    "sync"
    "time"
)

func main() {
    ctx, cancel := context.WithTimeout(context.Background(), 5*time.Second)
    defer cancel()

    results := make(chan string, 10)
    var wg sync.WaitGroup

    // Spawn workers
    for i := 0; i < 3; i++ {
        wg.Add(1)
        go worker(ctx, i, results, &wg)
    }

    // Close results when done
    go func() {
        wg.Wait()
        close(results)
    }()

    // Collect results
    for result := range results {
        fmt.Println(result)
    }
}

func worker(ctx context.Context, id int, results chan<- string, wg *sync.WaitGroup) {
    defer wg.Done()

    select {
    case <-ctx.Done():
        return
    case results <- fmt.Sprintf("Worker %d done", id):
    }
}
```

## Detailed patterns and worked examples

Detailed pattern documentation lives in `references/details.md`. Read that file when the navigation tier above is insufficient.

## Best Practices

### Do's

- **Use context** - For cancellation and deadlines
- **Close channels** - From sender side only
- **Use errgroup** - For concurrent operations with errors
- **Buffer channels** - When you know the count
- **Prefer channels** - Over mutexes when possible

### Don'ts

- **Don't leak goroutines** - Always have exit path
- **Don't close from receiver** - Causes panic
- **Don't use shared memory** - Unless necessary
- **Don't ignore context cancellation** - Check ctx.Done()
- **Don't use time.Sleep for sync** - Use proper primitives

More from wshobson/agents

SkillDescription
accessibility-complianceImplement WCAG 2.2 compliant interfaces with mobile accessibility, inclusive design patterns, and assistive technology support. Use when auditing accessibility, implementing ARIA patterns, building for screen readers, or ensuring inclusive user experiences.
airflow-dag-patternsBuild production Apache Airflow DAGs with best practices for operators, sensors, testing, and deployment. Use when creating data pipelines, orchestrating workflows, or scheduling batch jobs.
angular-migrationMigrate from AngularJS to Angular using hybrid mode, incremental component rewriting, and dependency injection updates. Use when upgrading AngularJS applications, planning framework migrations, or modernizing legacy Angular code.
anti-reversing-techniquesUnderstand anti-reversing, obfuscation, and protection techniques encountered during software analysis. Use this skill when analyzing malware evasion techniques, when implementing anti-debugging protections for CTF challenges, when reverse engineering packed binaries, or when building security research tools that need to detect virtualized environments.
api-design-principlesMaster REST and GraphQL API design principles to build intuitive, scalable, and maintainable APIs that delight developers. Use when designing new APIs, reviewing API specifications, or establishing API design standards.
architecture-decision-recordsWrite and maintain Architecture Decision Records (ADRs) following best practices for technical decision documentation. Use when documenting significant technical decisions, reviewing past architectural choices, or establishing decision processes.
architecture-patternsImplement proven backend architecture patterns including Clean Architecture, Hexagonal Architecture, and Domain-Driven Design. Use this skill when designing clean architecture for a new microservice, when refactoring a monolith to use bounded contexts, when implementing hexagonal or onion architecture patterns, or when debugging dependency cycles between application layers.
async-python-patternsMaster Python asyncio, concurrent programming, and async/await patterns for high-performance applications. Use when building async APIs, concurrent systems, or I/O-bound applications requiring non-blocking operations.
attack-tree-constructionBuild comprehensive attack trees to visualize threat paths. Use when mapping attack scenarios, identifying defense gaps, or communicating security risks to stakeholders.
auth-implementation-patternsMaster authentication and authorization patterns including JWT, OAuth2, session management, and RBAC to build secure, scalable access control systems. Use when implementing auth systems, securing APIs, or debugging security issues.