Esempio n. 1
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// DetailedHistoryFor10Messages is a common method used by both TestDetailedHistoryFor10EncryptedMessages
// and TestDetailedHistoryFor10Messages to publish's 10 messages to a pubnub channel, and after that
// call the history method of the pubnubMessaging package to fetch last 10 messages. These received
// messages are compared to the messages sent and if all match test is successful.
func DetailedHistoryFor10Messages(t *testing.T, cipherKey string, testName string) {
	numberOfMessages := 10
	startMessagesFrom := 0
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", cipherKey, false, "")

	message := "Test Message "
	channel := "testChannel"

	messagesSent := PublishMessages(pubnubInstance, channel, t, startMessagesFrom, numberOfMessages, message)

	if messagesSent {
		returnHistoryChannel := make(chan []byte)
		errorChannel := make(chan []byte)
		responseChannel := make(chan string)
		waitChannel := make(chan string)

		go pubnubInstance.History(channel, numberOfMessages, 0, 0, false, returnHistoryChannel, errorChannel)
		go ParseHistoryResponseForMultipleMessages(returnHistoryChannel, channel, message, testName, startMessagesFrom, numberOfMessages, cipherKey, responseChannel)
		go ParseErrorResponse(errorChannel, responseChannel)
		go WaitForCompletion(responseChannel, waitChannel)
		ParseWaitResponse(waitChannel, t, testName)
	} else {
		t.Error("Test '" + testName + "': failed.")
	}
}
Esempio n. 2
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// TestLargeMessage tests the client by publshing a large message
// An error "message to large" should be returned from the server
func TestLargeMessage(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")
	channel := "testChannel"
	message := "This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. This is a large message test which will return an error message. "
	returnChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Publish(channel, message, returnChannel, errorChannel)
	go ParseLargeResponse("Message Too Large", errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "MessageTooLarge")
}
Esempio n. 3
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// TestServerTime calls the GetTime method of the pubnubMessaging to test the time
func TestServerTime(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")

	returnTimeChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.GetTime(returnTimeChannel, errorChannel)
	go ParseTimeResponse(returnTimeChannel, responseChannel)
	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "Time")
}
Esempio n. 4
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// DetailedHistoryFor10Messages is a common method used by both TestDetailedHistoryFor10EncryptedMessages
// and TestDetailedHistoryFor10Messages to publish's 10 messages to a pubnub channel, and after that
// call the history method of the pubnubMessaging package to fetch last 10 messages with time parameters
// between which the messages were sent. These received message is compared to the messages sent and
// if all match test is successful.
func DetailedHistoryParamsFor10Messages(t *testing.T, cipherKey string, secretKey string, testName string) {
	numberOfMessages := 5
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", secretKey, cipherKey, false, "")

	message := "Test Message "
	channel := "testChannel"

	startTime := GetServerTime(pubnubInstance, t, testName)
	startMessagesFrom := 0
	messagesSent := PublishMessages(pubnubInstance, channel, t, startMessagesFrom, numberOfMessages, message)

	midTime := GetServerTime(pubnubInstance, t, testName)
	startMessagesFrom = 5
	messagesSent2 := PublishMessages(pubnubInstance, channel, t, startMessagesFrom, numberOfMessages, message)
	endTime := GetServerTime(pubnubInstance, t, testName)

	startMessagesFrom = 0
	if messagesSent {
		returnHistoryChannel := make(chan []byte)
		responseChannel := make(chan string)
		errorChannel := make(chan []byte)
		waitChannel := make(chan string)

		go pubnubInstance.History(channel, numberOfMessages, startTime, midTime, false, returnHistoryChannel, errorChannel)
		go ParseHistoryResponseForMultipleMessages(returnHistoryChannel, channel, message, testName, startMessagesFrom, numberOfMessages, cipherKey, responseChannel)
		go ParseErrorResponse(errorChannel, responseChannel)
		go WaitForCompletion(responseChannel, waitChannel)
		ParseWaitResponse(waitChannel, t, testName)
	} else {
		t.Error("Test '" + testName + "': failed.")
	}

	startMessagesFrom = 5
	if messagesSent2 {
		returnHistoryChannel2 := make(chan []byte)
		errorChannel2 := make(chan []byte)
		responseChannel2 := make(chan string)
		waitChannel2 := make(chan string)

		go pubnubInstance.History(channel, numberOfMessages, midTime, endTime, false, returnHistoryChannel2, errorChannel2)
		go ParseHistoryResponseForMultipleMessages(returnHistoryChannel2, channel, message, testName, startMessagesFrom, numberOfMessages, cipherKey, responseChannel2)
		go ParseErrorResponse(errorChannel2, responseChannel2)
		go WaitForCompletion(responseChannel2, waitChannel2)
		ParseWaitResponse(waitChannel2, t, testName)
	} else {
		t.Error("Test '" + testName + "': failed.")
	}
}
Esempio n. 5
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// TestSubscriptionConnectStatus sends out a subscribe request to a pubnub channel
// and validates the response for the connect status.
func TestSubscriptionConnectStatus(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")

	channel := "testChannel"

	returnSubscribeChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Subscribe(channel, "", returnSubscribeChannel, false, errorChannel)
	go ParseSubscribeResponse(pubnubInstance, returnSubscribeChannel, t, channel, "", "SubscriptionConnectStatus", "", responseChannel)
	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "SubscriptionConnectStatus")
}
Esempio n. 6
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// HereNow is a common method used by the tests TestHereNow, HereNowWithCipher, CustomUuid
// It subscribes to a pubnub channel and then
// makes a call to the herenow method of the pubnub api.
func HereNow(t *testing.T, cipherKey string, customUuid string, testName string) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", cipherKey, false, customUuid)

	channel := "testChannel"

	returnSubscribeChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Subscribe(channel, "", returnSubscribeChannel, false, errorChannel)
	go ParseSubscribeResponseForPresence(pubnubInstance, customUuid, returnSubscribeChannel, channel, testName, responseChannel)
	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, testName)
}
Esempio n. 7
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// TestEncryptedDetailedHistory publish's an encrypted message to a pubnub channel and when the
// sent response is received, calls the history method of the pubnubMessaging package to fetch
// 1 message. This received message is compared to the message sent and if both match test is successful.
func TestEncryptedDetailedHistory(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "enigma", false, "")

	channel := "testChannel"
	message := "Test Message"
	returnPublishChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Publish(channel, message, returnPublishChannel, errorChannel)
	go ParseResponse(returnPublishChannel, pubnubInstance, channel, message, "EncryptedDetailedHistory", 1, responseChannel)
	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "EncryptedDetailedHistory")
}
Esempio n. 8
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// TestSuccessCodeAndInfoWithEncryption sends out an encrypted
// message to the pubnub channel
// The response is parsed and should match the 'sent' status.
// _publishSuccessMessage is defined in the common.go file
func TestSuccessCodeAndInfoWithEncryption(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "enigma", false, "")
	channel := "testChannel"
	message := "Pubnub API Usage Example"
	returnChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Publish(channel, message, returnChannel, errorChannel)
	go ParsePublishResponse(returnChannel, channel, _publishSuccessMessage, "SuccessCodeAndInfoWithEncryption", responseChannel)

	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "SuccessCodeAndInfoWithEncryption")
	time.Sleep(2 * time.Second)
}
Esempio n. 9
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// TestPresence subscribes to the presence notifications on a pubnub channel and
// then subscribes to a pubnub channel. The test waits till we get a response from
// the subscribe call. The method that parses the presence response sets the global
// variable _endPresenceTestAsSuccess to true if the presence contains a join info
// on the channel and _endPresenceTestAsFailure is otherwise.
func TestPresence(t *testing.T) {
	customUuid := "customuuid"
	testName := "Presence"
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, customUuid)
	channel := "testForPresenceChannel"

	returnPresenceChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Subscribe(channel, "", returnPresenceChannel, true, errorChannel)
	go ParseSubscribeResponseForPresence(pubnubInstance, customUuid, returnPresenceChannel, channel, testName, responseChannel)
	go ParseResponseDummy(errorChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, testName)
}
Esempio n. 10
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// TestMultiSubscriptionConnectStatus send out a pubnub multi channel subscribe request and
// parses the response for multiple connection status.
func TestMultiSubscriptionConnectStatus(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")
	testName := "TestMultiSubscriptionConnectStatus"
	channels := "testChannel1,testChannel2"

	returnSubscribeChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Subscribe(channels, "", returnSubscribeChannel, false, errorChannel)
	go ParseSubscribeResponseForMultipleChannels(returnSubscribeChannel, channels, testName, responseChannel)

	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, testName)
}
Esempio n. 11
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// TestUnsubscribeNotSubscribed will try to unsubscribe a non subscribed pubnub channel.
// The response should contain 'not subscribed'
func TestUnsubscribeNotSubscribed(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")

	currentTime := time.Now()
	channel := "testChannel" + currentTime.Format("20060102150405")

	returnUnsubscribeChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Unsubscribe(channel, returnUnsubscribeChannel, errorChannel)
	go ParseUnsubscribeResponse(returnUnsubscribeChannel, channel, "not subscribed", responseChannel)
	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "UnsubscribeNotSubscribed")
}
Esempio n. 12
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// SendMultipleResponse is the common implementation for TestMultipleResponsed and
// TestMultipleResponseEncrypted
func SendMultipleResponse(t *testing.T, encrypted bool) {
	cipher := ""
	testName := "TestMultipleResponse"
	if encrypted {
		cipher = "enigma"
		testName = "TestMultipleResponseEncrypted"
	}
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", cipher, false, "")
	pubnubChannel := "testChannel"
	returnTimeChannel := make(chan []byte)
	errorChannelTime := make(chan []byte)

	go pubnubInstance.GetTime(returnTimeChannel, errorChannelTime)

	retTime, errTime := ParseTimeFromServer(returnTimeChannel, errorChannelTime)
	if errTime == nil {
		message1 := "message1"
		message2 := "message2"
		returnPublishChannel := make(chan []byte)
		errorChannelPub := make(chan []byte)

		go pubnubInstance.Publish(pubnubChannel, message1, returnPublishChannel, errorChannelPub)
		b1, _ := ParsePublishResponseFromServer(returnPublishChannel, errorChannelPub)

		returnPublishChannel2 := make(chan []byte)
		errorChannelPub2 := make(chan []byte)

		go pubnubInstance.Publish(pubnubChannel, message2, returnPublishChannel2, errorChannelPub2)
		b2, _ := ParsePublishResponseFromServer(returnPublishChannel2, errorChannelPub2)

		if b1 && b2 {

			returnSubscribeChannel := make(chan []byte)
			errorChannelSub := make(chan []byte)
			responseChannelSub := make(chan string)
			waitChannelSub := make(chan string)

			go pubnubInstance.Subscribe(pubnubChannel, retTime, returnSubscribeChannel, false, errorChannelSub)
			go ParseSubscribeMultiResponse(pubnubChannel, returnSubscribeChannel, message1, message2, cipher, testName, responseChannelSub)
			go ParseErrorResponse(errorChannelSub, responseChannelSub)
			go WaitForCompletion(responseChannelSub, waitChannelSub)
			ParseWaitResponse(waitChannelSub, t, testName)
		}
	}
}
Esempio n. 13
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// TestNullMessage sends out a null message to a pubnub channel. The response should
// be an "Invalid Message".
func TestNullMessage(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")
	channel := "testChannel"
	var message interface{}
	message = nil
	returnChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Publish(channel, message, returnChannel, errorChannel)
	//go ParsePublishResponse(returnChannel, channel, "Invalid Message", "NullMessage", responseChannel)
	go ParseResponseDummy(returnChannel)
	go ParseErrorResponseForTestSuccess("Invalid Message", errorChannel, responseChannel)
	//go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "NullMessage")
}
Esempio n. 14
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// TestSuccessCodeAndInfoForComplexMessage2 sends out a complex message to the pubnub channel
// The response is parsed and should match the 'sent' status.
// _publishSuccessMessage and InitComplexMessage is defined in the common.go file
func TestSuccessCodeAndInfoForComplexMessage2(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")
	channel := "testChannel"

	customComplexMessage := InitComplexMessage()

	returnChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Publish(channel, customComplexMessage, returnChannel, errorChannel)
	go ParsePublishResponse(returnChannel, channel, _publishSuccessMessage, "SuccessCodeAndInfoForComplexMessage2", responseChannel)

	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "SuccessCodeAndInfoForComplexMessage2")
	time.Sleep(2 * time.Second)
}
Esempio n. 15
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// TestSuccessCodeAndInfoForComplexMessage sends out a complex message to the pubnub channel
// The response is parsed and should match the 'sent' status.
// _publishSuccessMessage and customstruct is defined in the common.go file
func TestSuccessCodeAndInfoForComplexMessage(t *testing.T) {
	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")
	channel := "testChannel"

	customStruct := CustomStruct{
		Foo: "hi!",
		Bar: []int{1, 2, 3, 4, 5},
	}

	returnChannel := make(chan []byte)
	errorChannel := make(chan []byte)
	responseChannel := make(chan string)
	waitChannel := make(chan string)

	go pubnubInstance.Publish(channel, customStruct, returnChannel, errorChannel)
	go ParsePublishResponse(returnChannel, channel, _publishSuccessMessage, "SuccessCodeAndInfoForComplexMessage", responseChannel)

	go ParseErrorResponse(errorChannel, responseChannel)
	go WaitForCompletion(responseChannel, waitChannel)
	ParseWaitResponse(waitChannel, t, "SuccessCodeAndInfoForComplexMessage")
	time.Sleep(2 * time.Second)
}
Esempio n. 16
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// ResumeOnReconnect contains the actual impementation of both TestResumeOnReconnectFalse and TestResumeOnReconnectTrue
// the parameter b determines of resume on reconnect setting is true or false.
func ResumeOnReconnect(t *testing.T, b bool) {
	testName := "ResumeOnReconnectFalse"
	if b {
		pubnubMessaging.SetResumeOnReconnect(true)
		testName = "ResumeOnReconnectTrue"
	} else {
		pubnubMessaging.SetResumeOnReconnect(false)
	}
	pubnubChannel := "testChannel"

	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", "", false, "")
	returnSubscribeChannel := make(chan []byte)
	errorChannelSub := make(chan []byte)
	responseChannelSub := make(chan string)
	waitChannelSub := make(chan string)

	pubnubMessaging.SetSubscribeTimeout(12)
	go pubnubInstance.Subscribe(pubnubChannel, "", returnSubscribeChannel, false, errorChannelSub)
	go ParseSubscribeForTimetoken(pubnubInstance, pubnubChannel, returnSubscribeChannel, errorChannelSub, testName, responseChannelSub)
	go WaitForCompletion(responseChannelSub, waitChannelSub)
	ParseWaitResponse(waitChannelSub, t, testName)
	pubnubMessaging.SetSubscribeTimeout(310)
}
Esempio n. 17
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// SendMultiplexingRequest is the common method to test TestMultiplexing,
// TestMultiplexingSSL, TestEncryptedMultiplexing, TestEncryptedMultiplexingWithSSL.
//
// It subscribes to 2 channels in the same request and then calls the ParseSubscribeMultiplexedResponse
// for further processing.
//
// Parameters:
// t: *testing.T instance.
// testName: testname for display.
// ssl: ssl setting.
// encrypted: encryption setting.
func SendMultiplexingRequest(t *testing.T, testName string, ssl bool, encrypted bool) {
	cipher := ""
	if encrypted {
		cipher = "enigma"
	}
	message1 := "message1"
	message2 := "message2"
	pubnubChannel1 := "testChannel1"
	pubnubChannel2 := "testChannel2"

	pubnubChannel := pubnubChannel1 + "," + pubnubChannel2

	pubnubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", cipher, ssl, "")
	returnSubscribeChannel := make(chan []byte)
	errorChannelSub := make(chan []byte)
	responseChannelSub := make(chan string)
	waitChannelSub := make(chan string)

	go pubnubInstance.Subscribe(pubnubChannel, "", returnSubscribeChannel, false, errorChannelSub)
	go ParseSubscribeMultiplexedResponse(pubnubInstance, returnSubscribeChannel, message1, message2, pubnubChannel1, pubnubChannel2, testName, responseChannelSub)
	go ParseErrorResponse(errorChannelSub, responseChannelSub)
	go WaitForCompletion(responseChannelSub, waitChannelSub)
	ParseWaitResponse(waitChannelSub, t, testName)
}
Esempio n. 18
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// Init asks the user the basic settings to initialize to the pubnub struct.
// Settings include the pubnub channel(s) to connect to.
// Ssl settings
// Cipher key
// Secret Key
// Custom Uuid
// Proxy details
//
// The method returns false if the channel name is not provided.
//
// returns: a bool, true if the user completed the initail settings.
func Init() (b bool) {
	fmt.Println("PubNub Api for go;", pubnubMessaging.VersionInfo())
	fmt.Println("Please enter the channel name(s). Enter multiple channels separated by comma without spaces.")
	reader := bufio.NewReader(os.Stdin)

	line, _, err := reader.ReadLine()
	if err != nil {
		fmt.Println(err)
	} else {
		_connectChannels = string(line)
		if strings.TrimSpace(_connectChannels) != "" {
			fmt.Println("Channel: ", _connectChannels)
			fmt.Println("Enable SSL? Enter y for Yes, n for No.")
			var enableSsl string
			fmt.Scanln(&enableSsl)

			if enableSsl == "y" || enableSsl == "Y" {
				_ssl = true
				fmt.Println("SSL enabled")
			} else {
				_ssl = false
				fmt.Println("SSL disabled")
			}

			fmt.Println("Please enter a CIPHER key, leave blank if you don't want to use this.")
			fmt.Scanln(&_cipher)
			fmt.Println("Cipher: ", _cipher)

			fmt.Println("Please enter a Custom UUID, leave blank for default.")
			fmt.Scanln(&_uuid)
			fmt.Println("UUID: ", _uuid)

			fmt.Println("Display error messages? Enter y for Yes, n for No. Default is Yes")
			var enableErrorMessages = "y"
			fmt.Scanln(&enableErrorMessages)

			if enableErrorMessages == "y" || enableErrorMessages == "Y" {
				_displayError = true
				fmt.Println("Error messages will be displayed")
			} else {
				_displayError = false
				fmt.Println("Error messages will not be displayed")
			}

			fmt.Println("Enable resume on reconnect? Enter y for Yes, n for No. Default is Yes")
			var enableResumeOnReconnect = "y"
			fmt.Scanln(&enableResumeOnReconnect)

			if enableResumeOnReconnect == "y" || enableResumeOnReconnect == "Y" {
				pubnubMessaging.SetResumeOnReconnect(true)
				fmt.Println("Resume on reconnect enabled")
			} else {
				pubnubMessaging.SetResumeOnReconnect(false)
				fmt.Println("Resume on reconnect disabled")
			}

			fmt.Println("Set subscribe timeout? Enter numerals.")
			var subscribeTimeout = ""
			fmt.Scanln(&subscribeTimeout)
			val, err := strconv.Atoi(subscribeTimeout)
			if err != nil {
				fmt.Println("Entered value is invalid. Using default value.")
			} else {
				pubnubMessaging.SetSubscribeTimeout(int64(val))
			}
			pubnubMessaging.SetOrigin("pubsub.pubnub.com")
			pubInstance := pubnubMessaging.PubnubInit("demo", "demo", "", _cipher, _ssl, _uuid)

			_pub = pubInstance

			SetupProxy()

			return true
		} else {
			fmt.Println("Channel cannot be empty.")
		}
	}
	return false
}