Exemplos de NewEncryptedPacketClient em Golang

Linguagem de programação: Golang

Espaço para nome / nome do pacote: github.com/andrew-d/holepunch/transports

Método / Função: NewEncryptedPacketClient

Exemplos em hotexamples.com: 2

NewEncryptedPacketClient em Golang - 2 exemplos encontrados. Esses são os exemplos do mundo real mais bem avaliados de github.com/andrew-d/holepunch/transports.NewEncryptedPacketClient em Golang extraídos de projetos de código aberto. Você pode avaliar os exemplos para nos ajudar a melhorar a qualidade deles.

Relacionados

GenUUID

NewUser

PutUserToEnv

UnsupportedError

Rollback

ReadVarInt

InitLogging

New

NewGetDifficultyCmd

rados_lock_shared

Related in langs

podPress_validateLogin (PHP)

fetch_item_type_s_attribute_type_rs (PHP)

Computer (C#)

GlobalRequestName (C#)

IntPoint (C++)

MatMult (C++)

OutputStream (Java)

ConstructorDeclaration (Java)

RepositoryService (Python)

dhcp_status (Python)

Exemplo n.º 1

0

Exibir arquivo

Arquivo: server.go Projeto: postfix/holepunch

// Authenticate and then handle the client. func handleNewClient(tt tuntap.Device, client transports.PacketClient) { log.Printf("Accepted new client (reliable = %t)\n", client.IsReliable()) // Set up encryption. enc_client, err := transports.NewEncryptedPacketClient(client, "foobar") if err != nil { log.Printf("Could not initialize encryption: %s\n", err) client.Close() return } defer enc_client.Close() recv_ch := enc_client.RecvChannel() send_ch := enc_client.SendChannel() for { select { case from_client := <-recv_ch: log.Printf("client --> tuntap (%d bytes)\n", len(from_client)) err = tt.Write(from_client) if err != nil { log.Printf("Error writing: %s\n", err) } case from_tuntap := <-tt.RecvChannel(): log.Printf("tuntap --> client (%d bytes)\n", len(from_tuntap)) send_ch <- from_tuntap case <-tt.EOFChannel(): log.Println("EOF received from TUN/TAP device, exiting...") return } } }

Exemplo n.º 2

0

Exibir arquivo

Arquivo: client.go Projeto: postfix/holepunch

func startClient(tt tuntap.Device, hpserver string) { defer tt.Close() log.Printf("Holepunching with server %s...\n", hpserver) methods := strings.Split(method, ",") if len(methods) == 1 && methods[0] == "all" { methods = []string{"tcp", "udp", "icmp", "dns"} } var conn transports.PacketClient var err error for _, m := range methods { var curr_conn transports.PacketClient err = nil switch m { case "tcp": curr_conn, err = transports.NewTCPPacketClient(hpserver) case "udp": curr_conn, err = transports.NewUDPPacketClient(hpserver) default: log.Printf("Unknown method: %s\n", m) continue } if err != nil { log.Printf("Error creating transport '%s': %s\n", m, err) continue } // Set up encryption. enc_conn, err := transports.NewEncryptedPacketClient(curr_conn, "foobar") if err != nil { log.Printf("Could not initialize encryption: %s\n", err) curr_conn.Close() continue } // Encryption is valid, which means that we're authenticated. conn = enc_conn } if conn == nil { log.Printf("Could not create connection to server, exiting...\n") return } log.Printf("Connected to server (reliable = %t)\n", conn.IsReliable()) recv_ch := conn.RecvChannel() send_ch := conn.SendChannel() defer conn.Close() for { // TODO: some way of stopping this select { case from_server := <-recv_ch: log.Printf("server --> tuntap (%d bytes)\n", len(from_server)) tt.Write(from_server) case from_tuntap := <-tt.RecvChannel(): log.Printf("tuntap --> server (%d bytes)\n", len(from_tuntap)) send_ch <- from_tuntap case <-tt.EOFChannel(): log.Println("EOF received from TUN/TAP device, exiting...") return } } }