// Multi-service example: run multiple services in a single binary. // // Each service gets its own server, client, store, and cache while // sharing the registry, broker, and transport — so they can // discover and call each other within the same process. package main import ( "context" "fmt" "log" "go-micro.dev/v6" ) // -- Users service -- type UserRequest struct { Id string `json:"id"` } type UserResponse struct { Name string `json:"name"` Email string `json:"email"` } type Users struct{} func (u *Users) Lookup(ctx context.Context, req *UserRequest, rsp *UserResponse) error { log.Printf("[users] Lookup id=%s", req.Id) rsp.Name = "Alice" rsp.Email = "alice@example.com" return nil } // -- Orders service -- type OrderRequest struct { UserId string `json:"user_id"` } type OrderResponse struct { OrderId string `json:"order_id"` Status string `json:"status"` } type Orders struct{} func (o *Orders) Create(ctx context.Context, req *OrderRequest, rsp *OrderResponse) error { log.Printf("[orders] Create for user=%s", req.UserId) rsp.OrderId = "ORD-001" rsp.Status = "created" return nil } func main() { // Create two services — each gets isolated server, client, // store, and cache instances automatically. users := micro.NewService("users", micro.Address(":9001")) orders := micro.NewService("orders", micro.Address(":9002")) // Register handlers if err := users.Handle(new(Users)); err != nil { log.Fatal(err) } if err := orders.Handle(new(Orders)); err != nil { log.Fatal(err) } // Run both services together. The group handles signals // and stops all services when one exits. g := micro.NewGroup(users, orders) fmt.Println("Starting users (:9001) and orders (:9002) in a single binary") if err := g.Run(); err != nil { log.Fatal(err) } }