func main() { // Start authentication engine zmq.AuthSetVerbose(true) zmq.AuthStart() zmq.AuthAllow("domain1", "127.0.0.1") // Tell the authenticator how to handle PLAIN requests zmq.AuthPlainAdd("domain1", "admin", "secret") // Create and bind server socket server, _ := zmq.NewSocket(zmq.PUSH) server.ServerAuthPlain("domain1") server.Bind("tcp://*:9000") // Create and connect client socket client, _ := zmq.NewSocket(zmq.PULL) client.SetPlainUsername("admin") client.SetPlainPassword("secret") client.Connect("tcp://127.0.0.1:9000") // Send a single message from server to client _, err := server.Send("Hello", 0) checkErr(err) message, err := client.Recv(0) checkErr(err) if message != "Hello" { log.Fatalln(message, "!= Hello") } zmq.AuthStop() fmt.Println("Woodhouse test OK") }
func main() { // Start authentication engine zmq.AuthSetVerbose(true) zmq.AuthStart() zmq.AuthAllow("127.0.0.1") // Tell the authenticator to allow any CURVE requests for this domain zmq.AuthCurveAdd("global", zmq.CURVE_ALLOW_ANY) // We need two certificates, one for the client and one for // the server. The client must know the server's public key // to make a CURVE connection. client_public, client_secret, err := zmq.NewCurveKeypair() checkErr(err) server_public, server_secret, _ := zmq.NewCurveKeypair() checkErr(err) // Create and bind server socket server, _ := zmq.NewSocket(zmq.PUSH) server.ServerAuthCurve("global", server_secret) server.Bind("tcp://*:9000") // Create and connect client socket client, _ := zmq.NewSocket(zmq.PULL) client.ClientAuthCurve(server_public, client_public, client_secret) client.Connect("tcp://127.0.0.1:9000") // Send a single message from server to client _, err = server.Send("Hello", 0) checkErr(err) message, err := client.Recv(0) checkErr(err) if message != "Hello" { log.Fatalln(message, "!= Hello") } zmq.AuthStop() fmt.Println("Stonehouse test OK") }
func main() { // Get some indication of what the authenticator is deciding zmq.AuthSetVerbose(true) // Start the authentication engine. This engine // allows or denies incoming connections (talking to the libzmq // core over a protocol called ZAP). zmq.AuthStart() // Whitelist our address; any other address will be rejected zmq.AuthAllow("domain1", "127.0.0.1") // Create and bind server socket server, err := zmq.NewSocket(zmq.PUSH) checkErr(err) server.ServerAuthNull("domain1") server.Bind("tcp://*:9000") // Create and connect client socket client, err := zmq.NewSocket(zmq.PULL) checkErr(err) checkErr(client.Connect("tcp://127.0.0.1:9000")) // Send a single message from server to client _, err = server.Send("Hello", 0) checkErr(err) message, err := client.Recv(0) checkErr(err) if message != "Hello" { log.Fatalln(message, "!= Hello") } zmq.AuthStop() fmt.Println("Strawhouse test OK") }
func TestAuthStart(t *testing.T) { if _, minor, _ := zmq.Version(); minor >= 1 && !zmq.HasCurve() { t.Skip("Curve not available") } type Meta struct { key string value string ok bool } zmq.AuthSetVerbose(false) // Start authentication engine err := zmq.AuthStart() if err != nil { t.Fatal("AuthStart:", err) } defer zmq.AuthStop() zmq.AuthSetMetadataHandler( func(version, request_id, domain, address, identity, mechanism string, credentials ...string) (metadata map[string]string) { return map[string]string{ "Identity": identity, "User-Id": "anonymous", "Hello": "World!", "Foo": "Bar", } }) zmq.AuthAllow("domain1", "127.0.0.1") // We need two certificates, one for the client and one for // the server. The client must know the server's public key // to make a CURVE connection. client_public, client_secret, err := zmq.NewCurveKeypair() if err != nil { t.Fatal("NewCurveKeypair:", err) } server_public, server_secret, err := zmq.NewCurveKeypair() if err != nil { t.Fatal("NewCurveKeypair:", err) } // Tell authenticator to use this public client key zmq.AuthCurveAdd("domain1", client_public) // Create and bind server socket server, err := zmq.NewSocket(zmq.DEALER) if err != nil { t.Fatal("NewSocket:", err) } defer func() { server.SetLinger(0) server.Close() }() server.SetIdentity("Server1") server.ServerAuthCurve("domain1", server_secret) err = server.Bind("tcp://*:9000") if err != nil { t.Fatal("server.Bind:", err) } // Create and connect client socket client, err := zmq.NewSocket(zmq.DEALER) if err != nil { t.Fatal("NewSocket:", err) } defer func() { client.SetLinger(0) client.Close() }() server.SetIdentity("Client1") client.ClientAuthCurve(server_public, client_public, client_secret) err = client.Connect("tcp://127.0.0.1:9000") if err != nil { t.Fatal("client.Connect:", err) } // Send a message from client to server msg := []string{"Greetings", "Earthlings!"} _, err = client.SendMessage(msg[0], msg[1]) if err != nil { t.Fatal("client.SendMessage:", err) } // Receive message and metadata on the server tests := []Meta{ {"Identity", "Server1", true}, {"User-Id", "anonymous", true}, {"Socket-Type", "DEALER", true}, {"Hello", "World!", true}, {"Foo", "Bar", true}, {"Fuz", "", false}, } keys := make([]string, len(tests)) for i, test := range tests { keys[i] = test.key } message, metadata, err := server.RecvMessageWithMetadata(0, keys...) if err != nil { t.Fatal("server.RecvMessageWithMetadata:", err) } if !arrayEqual(message, msg) { t.Errorf("Received message was %q, expected %q", message, msg) } if _, minor, _ := zmq.Version(); minor < 1 { t.Log("Metadata not avalable in ZeroMQ versions prior to 4.1.0") } else { for _, test := range tests { value, ok := metadata[test.key] if value != test.value || ok != test.ok { t.Errorf("Metadata %s, expected %q %v, got %q %v", test.key, test.value, test.ok, value, ok) } } } }
func ExampleAuthStart() { checkErr := func(err error) bool { if err == nil { return false } log.Println(err) return true } zmq.AuthSetVerbose(false) // Start authentication engine err := zmq.AuthStart() if checkErr(err) { return } defer zmq.AuthStop() zmq.AuthSetMetadataHandler( func(version, request_id, domain, address, identity, mechanism string, credentials ...string) (metadata map[string]string) { return map[string]string{ "Identity": identity, "User-Id": "anonymous", "Hello": "World!", "Foo": "Bar", } }) zmq.AuthAllow("domain1", "127.0.0.1") // We need two certificates, one for the client and one for // the server. The client must know the server's public key // to make a CURVE connection. client_public, client_secret, err := zmq.NewCurveKeypair() if checkErr(err) { return } server_public, server_secret, err := zmq.NewCurveKeypair() if checkErr(err) { return } // Tell authenticator to use this public client key zmq.AuthCurveAdd("domain1", client_public) // Create and bind server socket server, err := zmq.NewSocket(zmq.DEALER) if checkErr(err) { return } defer server.Close() server.SetIdentity("Server1") server.ServerAuthCurve("domain1", server_secret) err = server.Bind("tcp://*:9000") if checkErr(err) { return } // Create and connect client socket client, err := zmq.NewSocket(zmq.DEALER) if checkErr(err) { return } defer client.Close() server.SetIdentity("Client1") client.ClientAuthCurve(server_public, client_public, client_secret) err = client.Connect("tcp://127.0.0.1:9000") if checkErr(err) { return } // Send a message from client to server _, err = client.SendMessage("Greatings", "Earthlings!") if checkErr(err) { return } // Receive message and metadata on the server keys := []string{"Identity", "User-Id", "Socket-Type", "Hello", "Foo", "Fuz"} message, metadata, err := server.RecvMessageWithMetadata(0, keys...) if checkErr(err) { return } fmt.Println(message) if _, minor, _ := zmq.Version(); minor < 1 { // Metadata requires at least ZeroMQ version 4.1 fmt.Println(`Identity: "Server1" true`) fmt.Println(`User-Id: "anonymous" true`) fmt.Println(`Socket-Type: "DEALER" true`) fmt.Println(`Hello: "World!" true`) fmt.Println(`Foo: "Bar" true`) fmt.Println(`Fuz: "" false`) } else { for _, key := range keys { value, ok := metadata[key] fmt.Printf("%v: %q %v\n", key, value, ok) } } // Output: // [Greatings Earthlings!] // Identity: "Server1" true // User-Id: "anonymous" true // Socket-Type: "DEALER" true // Hello: "World!" true // Foo: "Bar" true // Fuz: "" false }