Example #1
0
func TestClientNameToCertificate(t *testing.T) {
	certificate, _ := certificate.FromP12File("certificate/_fixtures/certificate-valid.p12", "")
	client := apns.NewClient(certificate)
	name := client.HTTPClient.Transport.(*http2.Transport).TLSClientConfig.NameToCertificate
	assert.Len(t, name, 1)

	certificate2 := tls.Certificate{}
	client2 := apns.NewClient(certificate2)
	name2 := client2.HTTPClient.Transport.(*http2.Transport).TLSClientConfig.NameToCertificate
	assert.Len(t, name2, 0)
}
Example #2
0
func Start() {
	LogInfo("Push proxy server is initializing...")

	if len(CfgPP.ApplePushCertPrivate) > 0 {
		appleCert, appleCertErr := certificate.FromPemFile(CfgPP.ApplePushCertPrivate, CfgPP.ApplePushCertPassword)
		if appleCertErr != nil {
			LogCritical(fmt.Sprintf("Failed to load the apple pem cert err=%v", appleCertErr))
		}

		if CfgPP.ApplePushUseDevelopment {
			appleClient = apns.NewClient(appleCert).Development()
		} else {
			appleClient = apns.NewClient(appleCert).Production()
		}
	} else {
		LogError("Apple push notifications not configured.  Mssing ApplePushCertPrivate.")
	}

	if len(CfgPP.AndroidApiKey) == 0 {
		LogError("Android push notifications not configured.  Mssing AndroidApiKey.")
	}

	router := mux.NewRouter()
	var handler http.Handler = router
	vary := throttled.VaryBy{}
	vary.RemoteAddr = false
	vary.Headers = strings.Fields(CfgPP.ThrottleVaryByHeader)
	th := throttled.RateLimit(throttled.PerSec(CfgPP.ThrottlePerSec), &vary, throttledStore.NewMemStore(CfgPP.ThrottleMemoryStoreSize))

	th.DeniedHandler = http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
		LogError(fmt.Sprintf("%v: code=429 ip=%v", r.URL.Path, GetIpAddress(r)))
		throttled.DefaultDeniedHandler.ServeHTTP(w, r)
	})

	handler = th.Throttle(router)

	router.HandleFunc("/", root).Methods("GET")

	r := router.PathPrefix("/api/v1").Subrouter()
	r.HandleFunc("/send_push", handleSendNotification).Methods("POST")

	go func() {
		err := manners.ListenAndServe(CfgPP.ListenAddress, handler)
		if err != nil {
			LogCritical(err.Error())
		}
	}()

	LogInfo("Server is listening on " + CfgPP.ListenAddress)
}
Example #3
0
func main() {

	cert, err := certificate.FromP12File("../cert.p12", "")
	if err != nil {
		log.Fatal("Cert Error:", err)
	}

	notification := &apns2.Notification{}
	notification.DeviceToken = "11aa01229f15f0f0c52029d8cf8cd0aeaf2365fe4cebc4af26cd6d76b7919ef7"
	notification.Topic = "com.sideshow.Apns2"
	notification.Payload = []byte(`{
			"aps" : {
				"alert" : "Hello!"
			}
		}
	`)

	client := apns2.NewClient(cert).Production()
	res, err := client.Push(notification)

	if err != nil {
		log.Fatal("Error:", err)
	}

	fmt.Printf("%v %v %v\n", res.StatusCode, res.ApnsID, res.Reason)
}
Example #4
0
func main() {

	cert, pemErr := certificate.FromPemFile("../cert.pem", "")
	if pemErr != nil {
		log.Println("Cert Error:", pemErr)
	}

	notification := &apns.Notification{}
	notification.DeviceToken = "11aa01229f15f0f0c52029d8cf8cd0aeaf2365fe4cebc4af26cd6d76b7919ef7"
	notification.Topic = "com.sideshow.Apns2"
	notification.Payload = []byte(`{
		  "aps" : {
			"alert" : "Hello!"
		  }
		}
	`)

	client := apns.NewClient(cert).Development()
	res, err := client.Push(notification)

	if err != nil {
		log.Println("Error:", err)
		return
	}

	log.Println("APNs ID:", res.ApnsID)
}
Example #5
0
func TestClientManagerAddWithoutNew(t *testing.T) {
	manager := apns2.ClientManager{
		MaxSize: 32,
		MaxAge:  5 * time.Minute,
		Factory: apns2.NewClient,
	}

	manager.Add(apns2.NewClient(mockCert()))
	assert.Equal(t, 1, manager.Len())
}
Example #6
0
func TestClientManagerAdd(t *testing.T) {
	fn := func(certificate tls.Certificate) *apns2.Client {
		t.Fatal("factory should not have been called")
		return nil
	}

	manager := apns2.NewClientManager()
	manager.Factory = fn
	manager.Add(apns2.NewClient(mockCert()))
	manager.Get(mockCert())
}
Example #7
0
func newPusher(c Config) (Pusher, error) {
	var (
		cert    tls.Certificate
		errCert error
	)
	if c.CertificateFileName != nil && *c.CertificateFileName != "" {
		cert, errCert = certificate.FromP12File(*c.CertificateFileName, *c.CertificatePassword)
	} else {
		cert, errCert = certificate.FromP12Bytes(*c.CertificateBytes, *c.CertificatePassword)
	}
	if errCert != nil {
		return nil, errCert
	}
	if *c.Production {
		logger.Debug("APNS Pusher in Production mode")
		return apns2.NewClient(cert).Production(), nil
	}
	logger.Debug("APNS Pusher in Development mode")
	return apns2.NewClient(cert).Development(), nil
}
Example #8
0
func TestClientManagerGetMaxAgeExpirationWithNilFactory(t *testing.T) {
	manager := apns2.NewClientManager()
	manager.Factory = func(certificate tls.Certificate) *apns2.Client {
		return nil
	}
	manager.MaxAge = time.Nanosecond
	manager.Add(apns2.NewClient(mockCert()))
	c1 := manager.Get(mockCert())
	time.Sleep(time.Microsecond)
	c2 := manager.Get(mockCert())
	assert.Nil(t, c1)
	assert.Nil(t, c2)
	assert.Equal(t, 1, manager.Len())
}
Example #9
0
func main() {
	kingpin.UsageTemplate(kingpin.CompactUsageTemplate).Version("0.1").Author("Alisson Sales")
	kingpin.CommandLine.Help = `Listens to STDIN to send nofitications and writes APNS response code and reason to STDOUT.
	The expected format is: <DeviceToken> <APNS Payload>
	Example: aff0c63d9eaa63ad161bafee732d5bc2c31f66d552054718ff19ce314371e5d0 {"aps": {"alert": "hi"}}`
	kingpin.Parse()

	cert, pemErr := certificate.FromPemFile(*certificatePath, "")

	if pemErr != nil {
		log.Fatalf("Error retrieving certificate `%v`: %v", certificatePath, pemErr)
	}

	client := apns2.NewClient(cert)

	if *mode == "development" {
		client.Development()
	} else {
		client.Production()
	}

	scanner := bufio.NewScanner(os.Stdin)

	for scanner.Scan() {
		in := scanner.Text()
		notificationArgs := strings.SplitN(in, " ", 2)
		token := notificationArgs[0]
		payload := notificationArgs[1]

		notification := &apns2.Notification{
			DeviceToken: token,
			Topic:       *topic,
			Payload:     payload,
		}

		res, err := client.Push(notification)

		if err != nil {
			log.Fatal("Error: ", err)
		} else {
			fmt.Printf("%v: '%v'\n", res.StatusCode, res.Reason)
		}
	}
}
Example #10
0
func TestDialTLSTimeout(t *testing.T) {
	apns.TLSDialTimeout = 1 * time.Millisecond
	certificate, _ := certificate.FromP12File("certificate/_fixtures/certificate-valid.p12", "")
	client := apns.NewClient(certificate)
	dialTLS := client.HTTPClient.Transport.(*http2.Transport).DialTLS
	listener, err := net.Listen("tcp", "127.0.0.1:0")
	if err != nil {
		t.Fatal(err)
	}
	address := listener.Addr().String()
	defer listener.Close()
	var e error
	if _, e = dialTLS("tcp", address, nil); e == nil {
		t.Fatal("Dial completed successfully")
	}
	if !strings.Contains(e.Error(), "timed out") {
		t.Errorf("resulting error not a timeout: %s", e)
	}
}
Example #11
0
/**
 * An APN Worker which reads from RabbitMQ queue and sends APN messages
 * If APN is expired or invalid it sends APN key to a queue which is processed by another goroutine and updated in database
 */
func apn_processor(identity int, config Configuration, conn *amqp.Connection,
	ApnStatusInactiveQueueName, ApnQueueName string, ch_err, ch_apn_log_success chan []byte, logger *log.Logger,
	killWorker chan int, apnQueue ApnQueue) {
	isHourly := apnQueue.IsHourly
	pemPath := apnQueue.PemPath
	apnTopic := apnQueue.Topic
	// Load PEM file specified in config file required to send APN messages
	cert, pemErr := certificate.FromPemFile(pemPath, "")
	failOnError(pemErr, "Failed to load PEM file for APN")

	ApnQueueNameOriginal := ApnQueueName
	now := time.Now()
	var hourlyTick <-chan time.Time
	if isHourly == true {
		curHour := ""
		curHour = strconv.Itoa(now.Hour())
		curHourInt := now.Hour()
		if curHourInt < 10 {
			curHour = "0" + strconv.Itoa(curHourInt)
		} else {
			curHour = strconv.Itoa(curHourInt)
		}
		//tmp := now.Second()%24
		//if tmp < 10 {
		//	curHour = "0" + strconv.Itoa(tmp)
		//} else {
		//	curHour = strconv.Itoa(tmp)
		//}
		ApnQueueName = ApnQueueNameOriginal + "_" + curHour
		waitTime := 60 - now.Minute()
		hourlyTick = time.After(time.Duration(waitTime*61) * time.Second)
		//fmt.Println(waitTime%24)
		//hourlyTick = time.After(time.Duration(waitTime%24) * time.Second)
		olog(fmt.Sprintf("Connecting to "+ApnQueueName), config.DebugMode)
	}

	// Create a new APN Client
	client := apns.NewClient(cert).Production()

	// Create new channel to communicate with RabbitMQ
	ch, err := conn.Channel()
	failOnError(err, "Failed to open a channel")
	defer ch.Close()

	err = ch.Qos(
		1,     // prefetch count
		0,     // prefetch size
		false, // global
	)
	failOnError(err, "Failed to set QoS")

	msgsApn, err := ch.Consume(
		ApnQueueName, // queue
		"",           // consumer
		false,        // auto-ack
		false,        // exclusive
		false,        // no-local
		false,        // no-wait
		nil,          // args
	)
	failOnError(err, "Failed to register a consumer")

	// Get a message
	// Process it
	// If processing is complete, then delete it
	for {
		select {
		case <-hourlyTick:
			olog(fmt.Sprintf("Ticking"), config.DebugMode)
			curHour := ""
			now = time.Now()
			curHourInt := now.Hour()
			if curHourInt < 10 {
				curHour = "0" + strconv.Itoa(curHourInt)
			} else {
				curHour = strconv.Itoa(curHourInt)
			}
			ch.Cancel(ApnQueueName, false)
			curHour = strconv.Itoa(now.Hour())
			ApnQueueName = ApnQueueNameOriginal + "_" + curHour
			msgsApn, err = ch.Consume(
				ApnQueueName, // queue
				"",           // consumer
				false,        // auto-ack
				false,        // exclusive
				false,        // no-local
				false,        // no-wait
				nil,          // args
			)
			failOnError(err, "Failed to register a consumer")
			olog(fmt.Sprintf("Connected to "+ApnQueueName), config.DebugMode)

			waitTime := 60 - now.Minute()
			hourlyTick = time.After(time.Duration(waitTime*61) * time.Second)
		case <-killWorker:
			// If a message is receieved through killWorker then log and exit
			olog(fmt.Sprintf("%d Received kill command", identity), config.DebugMode)
			return

		case d, ok := <-msgsApn:
			//  Receieve messages from RabbitMQ,
			if !ok {
				// If channel is closed then wait for it to be reconnected or wait for kill signal
				time.Sleep(100 * time.Millisecond)
				continue
			}
			olog(fmt.Sprintf("%d Worker Received a message: %s", identity, d.Body), config.DebugMode)

			// Receive APN message from channel and decode it
			payload := ApnMessage{}
			err := json.Unmarshal(d.Body, &payload)

			// In case message coult not be decoded log error and skip
			if err != nil {
				logger.Printf("Unmarshal error = %s, for MQ message data = %s", err.Error(), d.Body)
				olog(fmt.Sprintf("Unmarshal error = %s, for MQ message data = %s", err.Error(), d.Body), config.DebugMode)

				// Acknowledge to MQ that work has been processed successfully
				d.Ack(false)
				continue
			}

			// Extract Body and Token from Payload
			data := payload.Body
			token := payload.Token

			// Create new APN notification
			notification := &apns.Notification{}

			// Add device token
			notification.DeviceToken = token
			notification.Topic = apnTopic
			notification.Payload, err = json.Marshal(data)

			// If config contains time to love for message then add it
			if apnQueue.TtlSeconds > 0 {
				notification.Expiration = time.Now().Add(time.Duration(apnQueue.TtlSeconds) * time.Second)
			}

			// If json data contains ttl value then override it
			if payload.TimeToLiveSeconds > 0 {
				notification.Expiration = time.Now().Add(time.Duration(payload.TimeToLiveSeconds) * time.Second)
			}

			// Could not encode map to json.
			if err != nil {
				logger.Printf("Marshal error = %s, for MQ message data = %s", err.Error(), d.Body)
				olog(fmt.Sprintf("Marshal error = %s, for MQ message data = %s", err.Error(), d.Body), config.DebugMode)
				d.Ack(false)
				continue
			}

			res, err := client.Push(notification)
			if err != nil {
				// gcmErrCount++
				notificationByteArray, _ := json.Marshal(notification)
				logger.Printf("APN send error = %s, data=%s", err.Error(), notificationByteArray)
				olog(fmt.Sprintf("APN send error = %s", err.Error()), config.DebugMode)

				// In case of APN error / Requeue and continue to next
				// TODO: Inform admin

				// Same error continues without break for 10 times, sleep for a minute
				// TODO: Implement this in a better way
				//					if gcmErrCount >= 10 {
				//						time.Sleep(time.Minute)
				//					}

				key := token
				val, ok := retries_apn.Get(key)
				var valint int
				if ok {
					valint, ok = val.(int)

					if ok {
						valint = valint + 1
					} else {
						// Log error (This should not happen) and continue
						logger.Printf("APN Could not convert interface to int = %v", val)
						olog(fmt.Sprintf("APN Could not convert interface to int = %v", val), config.DebugMode)

						d.Ack(false)
						continue
					}
				} else {
					valint = 1
				}

				// If already tried 5 times, then do not requeue
				if valint >= config.APN.RequeueCount+1 {
					// Log it and continue
					logger.Printf("Max Retries APN send data=%s", notificationByteArray)
					olog(fmt.Sprintf("Max Retries APN send error. Data = %s", notificationByteArray), config.DebugMode)

					retries_apn.Remove(key)
					d.Ack(false)
					continue
				}

				retries_apn.Set(key, valint)
				d.Nack(false, true)

				continue
			} else {
				// gcmErrCount = 0
				// TODO: Implement this as proper goroutine, its dangereous if user exists before this goroutine ends
				// Running result processor as a goroutine so that current worker can proceed with sending another APN request to
				// server, without getting delayed by processing
				go func() {
					isSentToClientSuccesfully := StatusErrApnError
					t := time.Now()
					ts := t.Format(time.RFC3339)

					if res.StatusCode == 200 {
						// Success (Log to file at bottom)
						isSentToClientSuccesfully = StatusSuccessApnRequest
					} else if res.Reason == "BadDeviceToken" || res.Reason == "Unregistered" {
						// Token error, set status of this token as inactive in database
						// Create a Status Inactive Message to be sent to RabbitMQ queue
						statusInactiveMsg := ApnStatusInactiveMsg{Token: token}

						// Convert it into json byte array
						jsonStatusInactiveMsg, err := json.Marshal(statusInactiveMsg)

						// If there is an issue while conversion, log it and skip
						if err != nil {
							logger.Printf("APN status inactive Marshal error = %s", err.Error())
							olog(fmt.Sprintf("APN status inactive Marshal error = %s", err.Error()), config.DebugMode)
						} else {
							// Publish message to RabbitMQ
							err = ch.Publish(
								"", // exchange
								ApnStatusInactiveQueueName, // routing key
								false, // mandatory
								false,
								amqp.Publishing{
									DeliveryMode: amqp.Persistent,
									ContentType:  "text/json",
									Body:         jsonStatusInactiveMsg,
								})
							// If there is error while publishing message log it
							if err != nil {
								logger.Printf("APN status inactive Publish error = %s", err.Error())
								olog(fmt.Sprintf("APN status inactive Publish error = %s", err.Error()), config.DebugMode)
							}
						}
						// Error is logged automatically after this block
					} else if res.Reason == "TooManyRequests" {
						// TODO: Delay sending instead of skipping
						// Error is logged automatically after this block
					}

					apnLog, err := json.Marshal(ApnLog{TimeStamp: ts, Type: isSentToClientSuccesfully, ApnId: token, Data: ApnError{Reason: res.Reason}})
					if err != nil {
						logger.Printf("Marshal error while logging APN response = %s", err.Error())
						olog(fmt.Sprintf("Marshal error while logging APN response = %s", err.Error()), config.DebugMode)
					}

					if isSentToClientSuccesfully == StatusSuccessApnRequest {
						ch_apn_log_success <- apnLog
					} else {
						ch_err <- apnLog
					}
				}()
			}
			// Acknowledge to MQ that work has been processed successfully
			d.Ack(false)
		}
	}
}
Example #12
0
func TestClientManagerAddTwice(t *testing.T) {
	manager := apns2.NewClientManager()
	manager.Add(apns2.NewClient(mockCert()))
	manager.Add(apns2.NewClient(mockCert()))
	assert.Equal(t, 1, manager.Len())
}
Example #13
0
		Log.Errorc(func() string {
			return err.Error()
		})

		return
	}

	token := args[0]
	msg_json := args[1]

	notification := &apns.Notification{}
	notification.DeviceToken = token
	notification.Topic = APNsTopic
	notification.Payload = []byte(msg_json)

	client := apns.NewClient(Cert).Production()
	res, err := client.Push(notification)

	if err != nil {
		Log.Errorc(func() string {
			return fmt.Sprintf("(%s) push apn message failed. err: %s, res: %s", this.cid(), err, res)
		})

		if res.StatusCode < 500 && res.StatusCode >= 400 {
			mutex.Lock()
			ApnInvalidTokens = append(ApnInvalidTokens, token)
			mutex.Unlock()
		}
	}

	return
Example #14
0
func TestClientProductionHost(t *testing.T) {
	client := apns.NewClient(mockCert()).Production()
	assert.Equal(t, "https://api.push.apple.com", client.Host)
}
Example #15
0
func TestClientDevelopmentHost(t *testing.T) {
	client := apns.NewClient(mockCert()).Development()
	assert.Equal(t, "https://api.development.push.apple.com", client.Host)
}