Description

Idiomatic Go HTTP middleware patterns with context propagation, structured logging via slog, centralized error handling, and panic recovery. Use when writing...

README (SKILL.md)

Go HTTP Middleware

Name: Go Middleware
Author: anderskev

Quick Reference

Topic	Reference
Context keys, request IDs, user metadata	references/context-propagation.md
slog setup, logging middleware, child loggers	references/structured-logging.md
AppHandler pattern, domain errors, recovery	references/error-handling-middleware.md

Middleware Signature

All middleware follows the standard func(http.Handler) http.Handler pattern. This is the composable building block for cross-cutting concerns in Go HTTP servers.

// Standard middleware signature
func RequestID(next http.Handler) http.Handler {
    return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
        id := r.Header.Get("X-Request-ID")
        if id == "" {
            id = uuid.New().String()
        }
        ctx := context.WithValue(r.Context(), requestIDKey, id)
        w.Header().Set("X-Request-ID", id)
        next.ServeHTTP(w, r.WithContext(ctx))
    })
}

// Type-safe context keys
type contextKey string
const requestIDKey contextKey = "request_id"

func RequestIDFromContext(ctx context.Context) string {
    id, _ := ctx.Value(requestIDKey).(string)
    return id
}

Key points:

Accept http.Handler, return http.Handler -- always
Call next.ServeHTTP(w, r) to pass control to the next handler
Work before the call (pre-processing) or after (post-processing) or both
Use r.WithContext(ctx) to propagate new context values downstream

Context Propagation

Use context.WithValue for request-scoped data that crosses API boundaries (request IDs, authenticated users, tenant IDs). Always use typed keys to avoid collisions.

type contextKey string

const (
    requestIDKey contextKey = "request_id"
    userKey      contextKey = "user"
)

Provide typed helper functions for extraction:

func RequestIDFromContext(ctx context.Context) string {
    id, _ := ctx.Value(requestIDKey).(string)
    return id
}

See references/context-propagation.md for user metadata patterns, downstream propagation, and timeouts.

Structured Logging

Use slog (standard library, Go 1.21+) for structured logging in middleware. Wrap http.ResponseWriter to capture the status code.

func Logger(logger *slog.Logger) func(http.Handler) http.Handler {
    return func(next http.Handler) http.Handler {
        return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
            start := time.Now()
            wrapped := &statusWriter{ResponseWriter: w, status: http.StatusOK}

            next.ServeHTTP(wrapped, r)

            logger.Info("request completed",
                "method", r.Method,
                "path", r.URL.Path,
                "status", wrapped.status,
                "duration_ms", time.Since(start).Milliseconds(),
                "request_id", RequestIDFromContext(r.Context()),
            )
        })
    }
}

See references/structured-logging.md for JSON/text handler setup, log levels, and child loggers.

Centralized Error Handling

Define a custom handler type that returns error so handlers don't need to write error responses themselves:

type AppHandler func(w http.ResponseWriter, r *http.Request) error

func (fn AppHandler) ServeHTTP(w http.ResponseWriter, r *http.Request) {
    if err := fn(w, r); err != nil {
        handleError(w, r, err)
    }
}

Map domain errors to HTTP status codes in a single handleError function. Never leak internal error details to clients.

See references/error-handling-middleware.md for the full pattern with AppError, errors.As, and JSON responses.

Recovery Middleware

Catch panics to prevent a single bad request from crashing the server:

func Recovery(next http.Handler) http.Handler {
    return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
        defer func() {
            if rec := recover(); rec != nil {
                slog.Error("panic recovered",
                    "panic", rec,
                    "stack", string(debug.Stack()),
                    "request_id", RequestIDFromContext(r.Context()),
                )
                writeJSON(w, 500, map[string]string{"error": "internal server error"})
            }
        }()
        next.ServeHTTP(w, r)
    })
}

Recovery must be the outermost middleware so it catches panics from all inner middleware and handlers. See references/error-handling-middleware.md for details.

Middleware Chain Ordering

Apply middleware outermost-first. The first middleware in the chain wraps all others.

// Nested style (outermost first)
handler := Recovery(
    RequestID(
        Logger(
            Auth(
                router,
            ),
        ),
    ),
)

// Or with a chain helper
func Chain(h http.Handler, middleware ...func(http.Handler) http.Handler) http.Handler {
    for i := len(middleware) - 1; i >= 0; i-- {
        h = middleware[i](h)
    }
    return h
}

handler := Chain(router, Recovery, RequestID, Logger(slog.Default()), Auth)

Recommended Order

Recovery -- outermost; catches panics from all inner middleware
RequestID -- assign early so all subsequent middleware can reference it
Logger -- logs the completed request with ID and status
Auth -- after logging so failed auth attempts are recorded
Application-specific middleware -- rate limiting, CORS, etc.

Gates (check before merge or review)

Use these sequenced checks for objective pass/fail; do not replace them with “I verified mentally.”

Recovery position
- Locate where the server builds the middleware chain (e.g. main, router Use, or a Chain helper).
- Pass: Recovery wraps all other middleware and the final handler per Middleware Chain Ordering (outermost in nested style, or correct Chain argument order for your helper). Cite file path and the full chain snippet.
Status-aware middleware uses a wrapped ResponseWriter
- If middleware logs or records HTTP status after the handler runs, it must pass a wrapper into next.ServeHTTP, not the original writer alone.
- Pass: snippet shows next.ServeHTTP(wrapped, r) (or equivalent) when status is observed after next returns.
Every forward path calls next
- Scan each middleware’s control flow.
- Pass: no branch drops the request without calling next.ServeHTTP unless that branch intentionally sends a response (e.g. auth failure); those short-circuits are obvious in code review.

Anti-patterns

Using string or int context keys

// BAD: collisions with other packages
ctx = context.WithValue(ctx, "user", user)

// GOOD: unexported typed key
type contextKey string
const userKey contextKey = "user"
ctx = context.WithValue(ctx, userKey, user)

Writing response before calling next

// BAD: writes response then continues chain
func Bad(next http.Handler) http.Handler {
    return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
        w.WriteHeader(http.StatusOK) // too early!
        next.ServeHTTP(w, r)
    })
}

Forgetting to call next.ServeHTTP

// BAD: swallows the request
func Bad(next http.Handler) http.Handler {
    return http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
        log.Println("got request")
        // forgot next.ServeHTTP(w, r)
    })
}

Storing large objects in context

Context values should be small, request-scoped metadata (IDs, tokens, user structs). Never store database connections, file handles, or large payloads.

Using context.WithValue for function parameters

If a function needs a value to do its job, pass it as an explicit parameter. Context is for cross-cutting metadata that passes through APIs, not for avoiding function signatures.

Recovery middleware in the wrong position

If recovery is not the outermost middleware, panics in outer middleware will crash the server. Always apply recovery first.

Usage Guidance

This skill is a documentation-only guide for Go HTTP middleware and appears internally consistent. Before installing/using it in production, consider: (1) provenance — the source/homepage are missing (verify the author or prefer a known upstream library/repo), (2) licensing — check if the snippets carry a license you can use, and (3) integration details — examples show propagating request IDs to downstream HTTP calls and logging; ensure you do not accidentally log sensitive fields (the docs already warn about that). Because it’s documentation-only, it cannot execute code by itself, but copy-pasted snippets should be reviewed and tested in your codebase.

Capability Tags

cryptocan-make-purchases

Capability Assessment

✓ Purpose & Capability

The name/description match the SKILL.md and the three reference documents. There are no unexpected binaries, env vars, or config paths requested — everything in the files is about middleware, context, logging, error handling, and recovery, which is consistent with the stated purpose.

✓ Instruction Scope

Runtime instructions and code examples are narrowly scoped to implementing middleware patterns (RequestID, Logger, Recovery, AppHandler, context usage, etc.). Examples showing propagation to downstream HTTP calls are normal for middleware docs. The instructions do not direct reading unrelated files, harvesting environment variables, or sending data to unknown external endpoints.

✓ Install Mechanism

This is an instruction-only skill with no install spec and no code files to execute. That presents minimal installation risk — nothing is downloaded or written to disk by the skill itself.

✓ Credentials

The skill declares no required environment variables or credentials. The docs show typical use of an environment string to select logger configuration, which is reasonable and proportional to the topic.

✓ Persistence & Privilege

The skill does not request always:true, does not modify other skills or system settings, and does not require persistent presence. Default autonomous invocation settings are unchanged and appropriate for an instruction-only skill.

Version History

v2.3.1

- Added a new "Gates (check before merge or review)" section outlining sequenced, objective checks for middleware correctness. - Gates cover: Recovery middleware position; proper use of response writer wrappers; and ensuring all middleware call `next.ServeHTTP` in every forward path. - No logic/code changes; documentation only. - Existing anti-patterns, middleware signature, and usage patterns remain unchanged.

v2.3.0

- Added a comprehensive SKILL.md with detailed documentation and best practices for Go HTTP middleware. - Covers context propagation, structured logging with slog, centralized error handling, and recovery middleware. - Provides code samples, recommended middleware chain order, and anti-patterns to avoid. - Includes quick references to more in-depth documentation for each major topic.

Metadata

Slug go-middleware

Version 2.3.1

License MIT-0

All-time Installs 1

Active Installs 1

Total Versions 2

Frequently Asked Questions

What is Go Middleware?

Idiomatic Go HTTP middleware patterns with context propagation, structured logging via slog, centralized error handling, and panic recovery. Use when writing... It is an AI Agent Skill for Claude Code / OpenClaw, with 170 downloads so far.

How do I install Go Middleware?

Run "/install go-middleware" in the OpenClaw or Claude Code chat to install it in one step — no extra setup required.

Is Go Middleware free?

Yes, Go Middleware is completely free, licensed under MIT-0. You can download, install and use it at no cost.

Which platforms does Go Middleware support?

Go Middleware is cross-platform and runs anywhere OpenClaw / Claude Code is available (cross-platform).

Who created Go Middleware?

It is built and maintained by Kevin Anderson (@anderskev); the current version is v2.3.1.

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