// -=-=- StartHere -=-=- // // # Chapter I: Using QUIC // // In this chapter we will write together a `main.go` file that // uses netxlite to establish a new QUIC connection with an UDP endpoint. // // Conceptually, this program is very similar to the ones presented // in chapters 2 and 3, except that here we use QUIC. // // (This file is auto-generated from the corresponding source file, // so make sure you don't edit it manually.) // // ## The main.go file // // We define `main.go` file using `package main`. // // The beginning of the program is equal to the previous chapters, // so there is not much to say about it. // // ```Go package main import ( "context" "crypto/tls" "errors" "flag" "os" "time" "github.com/apex/log" "github.com/lucas-clemente/quic-go" "github.com/ooni/probe-cli/v3/internal/netxlite" ) func main() { log.SetLevel(log.DebugLevel) address := flag.String("address", "8.8.4.4:443", "Remote endpoint address") sni := flag.String("sni", "dns.google", "SNI to use") timeout := flag.Duration("timeout", 60*time.Second, "Timeout") flag.Parse() ctx, cancel := context.WithTimeout(context.Background(), *timeout) defer cancel() // ``` // // The main difference is that we set the ALPN correctly for // QUIC/HTTP3 by using `"h3"` here. // // ```Go config := &tls.Config{ ServerName: *sni, NextProtos: []string{"h3"}, RootCAs: netxlite.NewDefaultCertPool(), } // ``` // // Also, where previously we called `dialTLS` now we call // a function with a similar API called `dialQUIC`. // // ``` qconn, state, err := dialQUIC(ctx, *address, config) // ``` // // The rest of the main function is pretty much the same. // // ```Go if err != nil { fatal(err) } log.Infof("Connection type : %T", qconn) log.Infof("Cipher suite : %s", netxlite.TLSCipherSuiteString(state.CipherSuite)) log.Infof("Negotiated protocol: %s", state.NegotiatedProtocol) log.Infof("TLS version : %s", netxlite.TLSVersionString(state.Version)) qconn.CloseWithError(0, "") } // ``` // // The dialQUIC function is new. We need to create a QUIC listener // and, using it, a QUICDialer. These two steps are separated so // higher level code can wrap the QUICDialer and collect stats on // the returned connections. Also, as previously, this dialer is // not attached to a resolver, so it will fail if provided a domain // name. The rationale for doing that is similar to before: we // are focusing on step-by-step measurements where each operation // is performed independently. (That is, we assume that before // the code written in this main we have already resolved the // domain name of interest using a resolver, which we will investigate // in the next two chapters.) // // ```Go func dialQUIC(ctx context.Context, address string, config *tls.Config) (quic.EarlyConnection, tls.ConnectionState, error) { ql := netxlite.NewQUICListener() d := netxlite.NewQUICDialerWithoutResolver(ql, log.Log) qconn, err := d.DialContext(ctx, address, config, &quic.Config{}) if err != nil { return nil, tls.ConnectionState{}, err } // ``` // // The following line unwraps the connection state returned by // QUIC code to be of the same type of the ConnectionState that // we returned in the previous chapters. // // ```Go return qconn, qconn.ConnectionState().TLS.ConnectionState, nil } // ``` // // The rest of the program is equal to the previous chapters. // // ```Go func fatal(err error) { var ew *netxlite.ErrWrapper if !errors.As(err, &ew) { log.Fatal("cannot get ErrWrapper") } log.Warnf("error string : %s", err.Error()) log.Warnf("OONI failure : %s", ew.Failure) log.Warnf("failed operation: %s", ew.Operation) log.Warnf("underlying error: %+v", ew.WrappedErr) os.Exit(1) } // ``` // // ## Running the code // // ### Vanilla run // // You can now run this code as follows: // // ```bash // go run -race ./internal/tutorial/netxlite/chapter04 // ``` // // You will see debug logs describing what is happening along with timing info. // // ### QUIC handshake timeout // // ```bash // go run -race ./internal/tutorial/netxlite/chapter04 -address 8.8.4.4:1 // ``` // // should cause a QUIC timeout error. Try lowering the timout adding, e.g., // the `-timeout 5s` flag to the command line. // // ### SNI mismatch // // ```bash // go run -race ./internal/tutorial/netxlite/chapter04 -sni example.com // ``` // // should give you a TLS error mentioning that the certificate is invalid. // // ## Conclusions // // We have seen how to use netxlite to establish a QUIC connection // with a remote UDP endpoint speaking QUIC.