Okay here is my problem where i am stuck for so many days.
I am developing a simple chat application with the help of XMPP client - SMACK.
Everything works fine for me normal chat process from one friend to another, also added the notification part.
What i am not able to do is if i forcibly close my application the whole session with SMACK stops.
I am not able to send the message to the user who had closed the application.
Now, how do i keep the status of the user permanently online so the he can also receive messages even if he had closed the application.
You can't. If the application is closed, the user is no longer online and the server knows that. You can still send them messages, but it is the servers job to store offline messages, but that means the server has to be configured to do so.
They can be retrieved once the user connects again.
Here are a couple of suggestions to work around the problem
Have a go at implementing either:
A long running service that connects every x minutes (polling solution) I personally advise against this as it's a drain on network and battery.
Implement GCM in your app and server.
It wakes up the app when a message is sent and connects to the server to retrieve the payload. (in fact with GCM over C2DM you can send the payload over google and not even have to connect but I steer clear of this)
Related
What I'm trying to ask is:
Whether these apps are relying on FCM/GCM (or any other type of) push notifications for syncing their data or are they using a socket connection in background through a service?
If they are relying on push notifications then why they don't have any loss in receiving notifications (in background) while I miss 10-15% of notifications in busy hours.
And if they are relying on a socket connection in background, then
ain't this eat battery like a dinosaur?
What I have found is that if I force stop Messenger and Facebook I still receive messages but somewhat late than usual.
Plus there is an option of 'Allow background activity' in Messenger, Facebook, Slack and Skype, which when I disable, I can't receive a notification at all.
Interesting this is that WhatsApp don't have this kinda option in its app info and If I just force stop WhatsApp it simply stops showing me message notifications.
Whether these apps are relying on FCM/GCM (or any other type of) push
notifications for syncing their data or are they using a socket
connection in background through a service?
They must be relying on FCM.
If they are relying on push notifications then why they don't have any
loss in receiving notifications (in background) while I miss 10-15% of
notifications in busy hours.
They must be using FCM high priority which are reliably delivered in doze mode.
And if they are relying on a socket connection in background, then
ain't this eat battery like a dinosaur?
They might not be running CPU intensive work.
Mobile applications like Whatsapp must be requesting permission to exempt them from Doze/battery saving and App standby mode. you can refer to my answer here for more details.
Adding on to Sagar answer.
1)Never show the notification from FCM notification payload unless required.
2)Once High priority FCM received you can do network operations for sometime and fetch data from server and then show up. If it fails whatsapp do puts ups with special msg.
https://www.quora.com/Why-do-I-get-You-may-have-new-messages-notification-on-WhatsApp
3)use foreground service/ cpu lock tied with app icon momentarily till the data is fetched ,later close it.
PS:No whatsapp do not request for Battery Optimization. they probably reply on FCM high-priority message.
Well I have no idea what EXACTLY are they doing in background (maybe no one has), but lets take a look at the concept.
In distributed systems and web applications, no one usually goes for push notification system in background for their services to talk to each other. While it is possible, but these alive services have better options to choose such as publisher/subscriber pattern and technologies that bring this service for us (ex: reddis, MQ, Nats.io), they are high available and with no single point of failure, and the data is still synced over all server.
Your second question starts with an if which might have a false result. But lets say they do. You should never compare your "client to server connections and logic" with "Server to server connections and logic". What I mean is maybe they use Reddis pub/sub service, it doesn't mean their client should use same system to connect to server. It has a big cost to keep those servers connections alive while supporting big numbers of messages to sync.
And about third question. No, socket connections don't always drain battery. It really depends on how you use them. You can check for sockets idle modes too.
Also, systems like firebase might be still be able to send notifications when an application is not running or not connected to server. Happened to me a lot of times in Telegram, when government of Iran has blocked it but I could still receive notifications. Its whole other story, I think you can find more about it with a little search.
PS: Please avoid asking too many questions at once. thanks.
For services which exchanging frequently messages like messenger, WhatsApp, and WeChat etc there are message brokers (Activemq Artemis, RabbitMQ, Kafka etc) which is running on the server and having active stomp connection with each client app. This broker forward the message to the respective client as it received, and if the client is not online then it hold the message in memory untill the client become online. For further details that how a message broker works visit the official website of my favorite Activemq Artemis docs.
As the app disconnects it stops getting messages from xmpp server. For background notification purpose, I am using GCM service. Now, Just like WhatsApp I want my app too to receive the messages in background and save them in sqlite.
Is it necessary for this task that my app would always be connected to
xmpp server?
Will it not load the xmpp server Since, so many sessions the server
will have to keep alive?
Don't set keep alive for less then 10 minutes this will load the server.
When app is in the background then you have to send push notification via gcm for android and apns for iPhone. For this to implement you need to implement plugin on openfire.
1 up if you like the answer. Email me at cvofjaspreet#gmail.com I can provide you code for plugin also.
I have a few apps which are dependent from server side. From there are getting they data.
The server side needed development anyhow. Server code hosting is done in our side. The client-server communication, structure is already up.
In this state we need to implement a push notification:
If there are new data on the server than it should be visible at user somehow.
The "standard", recommended way now is to use Google Cloud Messaging System.
I have a few concerns about it:
Requires client and server side coding and bind they technology in our code. And not this is the biggest:
Is changing relative often the technology: deprecation, and need to change our code. This is the biggest. Previous of this was something other and before that something other. In 4-5 years 3 changes is to much.
I am thinking to implement like this:
I will write a broadcast receiver listening when the user got internet connection.
On Internet connection it will check the server to see if it has something new or not.
If is does than it will show a notification and job is done. If the user clicks the notification it will start the app and download the playload.
I will use an alarm schedule, to check the server again after 1 or 15 min or 4 hours, whatever. There it will be no service running in background, just receivers!
The register - unregister functionality should be done in app.
Communications to server in plus:
registerMyDevice(IMEI)-or username+password
unregisterMyDevice(IMEI)
isSomethingNewData()
When the client comes to server it will send his IMEI anyhow to identify, so the server will know for who need to send push.
Anybody can take Google proposed solution and prove it is better in this case than our in-house solution?
The main problem with that solution is that you'll add one more background process that shortens the battery life. Imagine what would happen if many app developers choose to implement your solution. A user that installs several such applications will have their battery emptied quickly. With GCM, one connection is maintained with one server, and that connection serves all applications on the device.
I believe integration with GCM is simpler than developing a push solution by yourself. The API changes always come with improvements (original GCM allowed multiple senders while C2DM didn't; the new GCM gives you user notifications and device to cloud messaging), but even if you don't choose to work with them, the old APIs still work (even if they are deprecated).
I am creating a app in android 4.0.3 i.e ICS version, which connects to the server when client gets login into the app.I am trying to get status of an client when he gets online or offline through server & seen onto the app screen.I am unable to proceed. Can anyone say me:
Is it possible to get the status of an user through server?
1-- How to proceed for first step...?
2-- How should I get a response from the server that the client is connected & viewed to other client example - when we login into skype our status shows available with green radio button, In same way how can I get it.?
It ll be very help full, If anybody guide me.
Many Thanks..
I'm assuming you're trying to develop a chat app ?
If this is the case, try using an XMPP library. XMPP is widely used for chat apps, including Facebook chat (and Google talk I think) and there are plenty of open source libraries available.
Otherwise, if you only want real-time notifications as a part of a bigger picture, try using push notifications. Google supports Cloud to Device Messaging (C2DM) for android. It allows to have push notifications to a specific device without you having to deal with persistent connections, battery and CPU use .etc.
C2DM approach comes down to this. When a client connects to your server, get a list of his friends and their 'C2DM IDs' and fire a C2DM push to their devices. This push is delivered to your app, and you can respond to it by firing a notification, or update UI .etc. (Your app doesn't necessarily have to be running. Push notification is delivered via a specific broadcast, and your app can register a receiver for it to wake up.)
Keep in mind that there is a quota for C2DM messages per device, per app and also a limit for the payload per message. So you're not supposed to send massive files via this. Just a notification to your app, so it can call your server and get an updated list, instead of polling.
You can get more info on C2DM and code samples here. https://developers.google.com/android/c2dm/
Hope this helps.
You may have moved on, but I'm posting for anyone who would run into this one in the future.
Firebase is a good solution to use in this scenario, if the app is always running when you want communication to happen. (It will not wake up your app as C2DM/CDM does, unless you have a service running all the time and still wouldn't wake up if the device is asleep... AFAIK)
It may be useful for some scenarios, but may be not for a chat app as you want the device to wake up when a message arrives.
Note that they have limitations on the free subscription though.
Is it possible to send push notifications to an android application without using Google server: C2DM?
So, I would like to have my own server which sends notifications directly to the app, but I'm not sure how are the notifications perceived by the device, because the device needs to receive notifications even if the app is not running and the notifications should appear in the notification center.
I think that the guys from www.airpush.com have managed to this, but I'm not sure how.
Can anyone help me with this please?
UPDATE:
Also I would like to know how to display the notifications in the notification center if I don't use C2DM? And if it is possible to configure the notification center to receive notifications from my server even if the user deletes the application developed by us, application which registered that device to receive notifications.
I want to send 3-4 notifications a day, but these notifications need to appear in the notification center and they should go only through our server. How can I configure the notification center within the app to make requests on my server for push notifications.
Thank You!
There is a solution from UrbanAirship called Helium push. According documentation Helium:
Works on Android 1.6 and higher
Does not require a Google Account
No default pushes per day limit
No default pushes per minute limit
Works on Amazon devices (e.g., Kindle Fire)
End to end Urban Airship support (i.e., API to to device)
Best throughput
The problem is that you need development app key for using this one.
Take a look at MQTT:
MQTT stands for MQ Telemetry Transport. It is a publish/subscribe, extremely simple and lightweight messaging protocol, designed for constrained devices and low-bandwidth, high-latency or unreliable networks.
It can be used (and was used in some applications) to implement custom server push solutions. One of the most well known applications using MQTT is Facebook Messanger.
You can easily find more information on MQTT in the Internet, e.g. in this SO question or in this blog post.
According to the FAQ on airpush.com, they're not using real push notifications but rather polling the server a few times per day. One reason I think this is a viable solution for you as well is that Android's C2DM apparently makes use of the Google Play Store, so it won't work on devices distributed outside of the Google eco-system. With over 5 Million Kindle Fires having sold already, that is worth thinking about.
From Airpush FAQ:
When executed once from the main activity of an Androidâ„¢ application, the Airpush client utilizes Androidâ„¢ OS's AlarmManager framework to schedule ongoing server polling events a few times per day. If an ad is polled from the server it is cached until optimal display time, which is algorithmically determined by the server.
Without using C2DM there's not option for a "real push notification". Because (afaik, correct me if I'm wrong) an android device registers at google (they can still deinstall malware from your phone via remote) and with this ip they are able to do a push notification. All other solutions could tend to be a "register at a server, keep the connection alive and wait for requests" or something and tend to be more battery-inefficient.
Parse has an excellent push notification service for Android, very easy to setup. More info here: Parse Android Notification Doc
If you want the user to only receive 3-4 messages per day and your messages are not bound to specific arrival times, you don't need pushing mechanisms.
Just create a service in your app that checks your own web service 5-10 times a day. If there is new data, make your app display it in the notification center.
If you don't want to have a service running all the time (like many messaging apps do), you can set up alarms (using the Android AlarmManager framework) that wake your app up regularily to check for new messages to display.
And if it is possible to configure the notification center to receive
notifications from my server even if the user deletes the application
developed by us, application which registered that device to receive
notifications.
That sounds like you want to write a virus or root kit ;-) You could use e-mails for your messages instead.
UPDATE 2013-12-30:
As just noted in my comment, rebuilding what GCM does is not a nice approach. It's enough when Google Services already load the device with this functionality. If your goal is just that Google does not see what messages you send to your users, you might aswell encrypt them. For Google not being able to actually read your messages, the client app should generate a key and send it to your server. All messages you send via GCM can then be encrypted using that key.
If you just want to circumvent Google's restriction on the amount of messages sent to users, you could pack multiple messages into one GCM notification and show them one after the other. But then again, we are back at some kind of polling solution as described before, with the exception that the user does not need to have internet access when you want to show the messages as they are cached on the device.