Persona: You are a Go distributed systems engineer. You design gRPC services for correctness and operability — proper status codes, deadlines, interceptors, and graceful shutdown matter as much as the happy path.
Modes:
- Build mode — implementing a new gRPC server or client from scratch.
- Review mode — auditing existing gRPC code for correctness, security, and operability issues.
Go gRPC Best Practices
Treat gRPC as a pure transport layer — keep it separate from business logic. The official Go implementation is google.golang.org/grpc.
This skill is not exhaustive. Please refer to library documentation and code examples for more informations. Context7 can help as a discoverability platform.
Quick Reference
| Concern | Package / Tool |
|---|---|
| Service definition | protoc or buf with .proto files |
| Code generation | protoc-gen-go, protoc-gen-go-grpc |
| Error handling | google.golang.org/grpc/status with codes |
| Rich error details | google.golang.org/genproto/googleapis/rpc/errdetails |
| Interceptors | grpc.ChainUnaryInterceptor, grpc.ChainStreamInterceptor |
| Middleware ecosystem | github.com/grpc-ecosystem/go-grpc-middleware |
| Testing | google.golang.org/grpc/test/bufconn |
| TLS / mTLS | google.golang.org/grpc/credentials |
| Health checks | google.golang.org/grpc/health |
Proto File Organization
Organize by domain with versioned directories (proto/user/v1/). Always use Request/Response wrapper messages — bare types like string cannot have fields added later. Generate with buf generate or protoc.
Proto & code generation reference
Server Implementation
- Implement health check service (
grpc_health_v1) — Kubernetes probes need it to determine readiness - Use interceptors for cross-cutting concerns (logging, auth, recovery) — keeps business logic clean
- Use
GracefulStop()with a timeout fallback toStop()— drains in-flight RPCs while preventing hangs - Disable reflection in production — it exposes your full API surface
srv := grpc.NewServer(
grpc.ChainUnaryInterceptor(loggingInterceptor, recoveryInterceptor),
)
pb.RegisterUserServiceServer(srv, svc)
healthpb.RegisterHealthServer(srv, health.NewServer())
go srv.Serve(lis)
// On shutdown signal:
stopped := make(chan struct{})
go func() { srv.GracefulStop(); close(stopped) }()
select {
case <-stopped:
case <-time.After(15 * time.Second):
srv.Stop()
}
Interceptor Pattern
func loggingInterceptor(ctx context.Context, req any, info *grpc.UnaryServerInfo, handler grpc.UnaryHandler) (any, error) {
start := time.Now()
resp, err := handler(ctx, req)
log.Printf("method=%s duration=%s code=%s", info.FullMethod, time.Since(start), status.Code(err))
return resp, err
}
Client Implementation
- Reuse connections — gRPC multiplexes RPCs on a single HTTP/2 connection; one-per-request wastes TCP/TLS handshakes
- Set deadlines on every call (
context.WithTimeout) — without one, a slow upstream hangs goroutines indefinitely - Use
round_robinwith headless Kubernetes services viadns:///scheme - Pass metadata (auth tokens, trace IDs) via
metadata.NewOutgoingContext
conn, err := grpc.NewClient("dns:///user-service:50051",
grpc.WithTransportCredentials(creds),
grpc.WithDefaultServiceConfig(`{
"loadBalancingPolicy": "round_robin",
"methodConfig": [{
"name": [{"service": ""}],
"timeout": "5s",
"retryPolicy": {
"maxAttempts": 3,
"initialBackoff": "0.1s",
"maxBackoff": "1s",
"backoffMultiplier": 2,
"retryableStatusCodes": ["UNAVAILABLE"]
}
}]
}`),
)
client := pb.NewUserServiceClient(conn)
Error Handling
Always return gRPC errors using status.Error with a specific code — a raw error becomes codes.Unknown, telling the client nothing actionable. Clients use codes to decide retry vs fail-fast vs degrade.
| Code | When to Use |
|---|---|
InvalidArgument | Malformed input (missing field, bad format) |
NotFound | Entity does not exist |
AlreadyExists | Create failed, entity exists |
PermissionDenied | Caller lacks permission |
Unauthenticated | Missing or invalid token |
FailedPrecondition | System not in required state |
ResourceExhausted | Rate limit or quota exceeded |
Unavailable | Transient issue, safe to retry |
Internal | Unexpected bug |
DeadlineExceeded | Timeout |
// ✗ Bad — caller gets codes.Unknown, can't decide whether to retry
return nil, fmt.Errorf("user not found")
// ✓ Good — specific code lets clients act appropriately
if errors.Is(err, ErrNotFound) {
return nil, status.Errorf(codes.NotFound, "user %q not found", req.UserId)
}
return nil, status.Errorf(codes.Internal, "lookup failed: %v", err)
For field-level validation errors, attach errdetails.BadRequest via status.WithDetails.
Streaming
| Pattern | Use Case |
|---|---|
| Server streaming | Server sends a sequence (log tailing, result sets) |
| Client streaming | Client sends a sequence, server responds once (file upload, batch) |
| Bidirectional | Both send independently (chat, real-time sync) |
Prefer streaming over large single messages — avoids per-message size limits and lowers memory pressure.
func (s *server) ListUsers(req *pb.ListUsersRequest, stream pb.UserService_ListUsersServer) error {
for _, u := range users {
if err := stream.Send(u); err != nil {
return err
}
}
return nil
}
Testing
Use bufconn for in-memory connections that exercise the full gRPC stack (serialization, interceptors, metadata) without network overhead. Always test that error scenarios return the expected gRPC status codes.
Security
- TLS MUST be enabled in production — credentials travel in metadata
- For service-to-service auth, use mTLS or delegate to a service mesh (Istio, Linkerd)
- For user auth, implement
credentials.PerRPCCredentialsand validate tokens in an auth interceptor - Reflection SHOULD be disabled in production to prevent API discovery
Performance
| Setting | Purpose | Typical Value |
|---|---|---|
keepalive.ServerParameters.Time | Ping interval for idle connections | 30s |
keepalive.ServerParameters.Timeout | Ping ack timeout | 10s |
grpc.MaxRecvMsgSize | Override 4 MB default for large payloads | 16 MB |
| Connection pooling | Multiple conns for high-load streaming | 4 connections |
Most services do not need connection pooling — profile before adding complexity.
Common Mistakes
| Mistake | Fix |
|---|---|
Returning raw error | Becomes codes.Unknown — client can't decide whether to retry. Use status.Errorf with a specific code |
| No deadline on client calls | Slow upstream hangs indefinitely. Always context.WithTimeout |
| New connection per request | Wastes TCP/TLS handshakes. Create once, reuse — HTTP/2 multiplexes RPCs |
| Reflection enabled in production | Lets attackers enumerate every method. Enable only in dev/staging |
codes.Internal for all errors | Wrong codes break client retry logic. Unavailable triggers retry; InvalidArgument does not |
| Bare types as RPC arguments | Can't add fields to string. Wrapper messages allow backwards-compatible evolution |
| Missing health check service | Kubernetes can't determine readiness, kills pods during deployments |
| Ignoring context cancellation | Long operations continue after caller gave up. Check ctx.Err() |
Cross-References
- → See
samber/cc-skills-golang@golang-contextskill for deadline and cancellation patterns - → See
samber/cc-skills-golang@golang-error-handlingskill for gRPC error to Go error mapping - → See
samber/cc-skills-golang@golang-observabilityskill for gRPC interceptors (logging, tracing, metrics) - → See
samber/cc-skills-golang@golang-testingskill for gRPC testing with bufconn