package main import ( "errors" "flag" "fmt" "log" "net" "runtime" "strconv" "strings" "sync" "github.com/mholt/caddy/config" "github.com/mholt/caddy/server" ) var ( conf string http2 bool // TODO: temporary flag until http2 is standard quiet bool cpu string ) func init() { flag.StringVar(&conf, "conf", config.DefaultConfigFile, "the configuration file to use") flag.BoolVar(&http2, "http2", true, "enable HTTP/2 support") // TODO: temporary flag until http2 merged into std lib flag.BoolVar(&quiet, "quiet", false, "quiet mode (no initialization output)") flag.StringVar(&cpu, "cpu", "100%", "CPU cap") flag.StringVar(&config.Host, "host", config.DefaultHost, "Default host") flag.StringVar(&config.Port, "port", config.DefaultPort, "Default port") flag.Parse() } func main() { var wg sync.WaitGroup // Set CPU cap err := setCPU(cpu) if err != nil { log.Fatal(err) } // Load config from file allConfigs, err := config.Load(conf) if err != nil { if config.IsNotFound(err) { allConfigs = config.Default() } else { log.Fatal(err) } } if len(allConfigs) == 0 { allConfigs = config.Default() } // Group by address (virtual hosts) addresses, err := arrangeBindings(allConfigs) if err != nil { log.Fatal(err) } // Start each server with its one or more configurations for addr, configs := range addresses { s, err := server.New(addr, configs, configs[0].TLS.Enabled) if err != nil { log.Fatal(err) } s.HTTP2 = http2 // TODO: This setting is temporary wg.Add(1) go func(s *server.Server) { defer wg.Done() err := s.Serve() if err != nil { log.Println(err) } }(s) if !quiet { for _, config := range configs { fmt.Println(config.Address()) } } } wg.Wait() } // arrangeBindings groups configurations by their bind address. For example, // a server that should listen on localhost and another on 127.0.0.1 will // be grouped into the same address: 127.0.0.1. It will return an error // if the address lookup fails or if a TLS listener is configured on the // same address as a plaintext HTTP listener. func arrangeBindings(allConfigs []config.Config) (map[string][]config.Config, error) { addresses := make(map[string][]config.Config) // Group configs by bind address for _, conf := range allConfigs { addr, err := net.ResolveTCPAddr("tcp", conf.Address()) if err != nil { return addresses, err } addresses[addr.String()] = append(addresses[addr.String()], conf) } // Don't allow HTTP and HTTPS to be served on the same address for _, configs := range addresses { isTLS := configs[0].TLS.Enabled for _, config := range configs { if config.TLS.Enabled != isTLS { thisConfigProto, otherConfigProto := "HTTP", "HTTP" if config.TLS.Enabled { thisConfigProto = "HTTPS" } if configs[0].TLS.Enabled { otherConfigProto = "HTTPS" } return addresses, fmt.Errorf("Configuration error: Cannot multiplex %s (%s) and %s (%s) on same address", configs[0].Address(), otherConfigProto, config.Address(), thisConfigProto) } } } return addresses, nil } // setCPU parses string cpu and sets GOMAXPROCS // according to its value. It accepts either // a number (e.g. 3) or a percent (e.g. 50%). func setCPU(cpu string) error { var numCPU int availCPU := runtime.NumCPU() if strings.HasSuffix(cpu, "%") { // Percent var percent float32 pctStr := cpu[:len(cpu)-1] pctInt, err := strconv.Atoi(pctStr) if err != nil || pctInt < 1 || pctInt > 100 { return errors.New("Invalid CPU value: percentage must be between 1-100") } percent = float32(pctInt) / 100 numCPU = int(float32(availCPU) * percent) } else { // Number num, err := strconv.Atoi(cpu) if err != nil || num < 1 { return errors.New("Invalid CPU value: provide a number or percent greater than 0") } numCPU = num } if numCPU > availCPU { numCPU = availCPU } runtime.GOMAXPROCS(numCPU) return nil }