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My android system needs to send frequent updates to an app for tablet (a kiosk always connected to wifi and power plug).
GCM-HTTP (//developer.android.com/google/gcm/http.html) works fine but in some cases it can happen that a single device receives many notifications triggering the well- known throttling issue described here (//developer.android.com/google/gcm/adv.html#throttling). This is a problem since the payload in the notification is of great importance for the system. What is the best solution to prevent this?

  • implement in the server a service that groups notifications to the same device and shoot them with a limited frequency.
  • use a XMPP service. I would like to use GCM-XMPP (//developer.android.com/google/gcm/ccs.html) but you need to be signed in a whitelist so I don't think everyone can already use it. As alternatives should I use aSmack or Quickblox as advised here (Android and XMPP: Currently available solutions) and here (Better Way to implement the chat application using XMPP on Android?) respectively?
  • implement a basic socket connection as described in (//thinkandroid.wordpress.com/2010/03/27/incorporating-socket-programming-into-your-applications/)? In this case I have to take into consideration the possibility of the connection getting momentarily lost?

SOLUTION: I found the solution to my question, that is XMPP protocol. At the beginning I implemented aSmack in the tablet application and configured an eJabberd server running locally. The implementation has been pretty easy. After a couple of weeks I received a mail from Google for the GCM-XMPP, that is even quicker to embed in the app and works super fine!

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Hi, Did you get a solution for that? –  Hagai L Nov 17 at 11:01

2 Answers 2

Maybe setting time_to_live to 0.

From http://developer.android.com/google/gcm/adv.html:

"Another advantage of specifying the expiration date for a message is that GCM will never throttle messages with a time_to_live value of 0 seconds. In other words, GCM will guarantee best effort for messages that must be delivered "now or never." Keep in mind that a time_to_live value of 0 means messages that can't be delivered immediately will be discarded. However, because such messages are never stored, this provides the best latency for sending notifications."

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Thanks a lot for your time. Unfortunately setting time_to_live to 0 does not prevent the throttling issue. All the documentation on developer.android has been already deeply studied. –  deleElon79 Feb 24 at 11:49
So did you find a way around it? I am deploying an app that needs to push notification probably to 100+ devices every minute for an hour. I am very nervous about the throttling issue, but don't have that many devices to test beforehand. –  hahahut Feb 24 at 19:40
@deleElon79, can you explain about throttling and ttl and setting it to 0 will not solve this –  guy_fawkes Feb 25 at 18:40
@hahahut: The throttling issue is really linked to how many messages per minute a device receives. So it is not important (for what throttling matters) to how many devices you send messages. What matters is the frequency, so in theory you could test just with one or two devices. You talk about 1msg/min, to me it seems not a high frequency, but the maximum frequency is not specified by google so you do have to run some test for a meaningful length of time. If you are not satisfied you should switch to XMPP protocol that is more "reliable", especially if your msgs are time critical. –  deleElon79 Feb 26 at 12:32
@abbiya: you can find this information in the android documentation. As I said in previous comment throttling is linked to how many msg/min a device receives. If you send two many msg to one device, even if the TTL is 0 throttling will be triggered. –  deleElon79 Feb 26 at 12:35

Why they have Throttling is :

To prevent abuse (such as sending a flood of messages to a device) and to optimize for the overall network efficiency and battery life of devices, GCM implements throttling of messages using a token bucket scheme. Messages are throttled on a per application and per collapse key basis (including non-collapsible messages). Each application collapse key is granted some initial tokens, and new tokens are granted periodically therefter. Each token is valid for a single message sent to the device. If an application collapse key exhausts its supply of available tokens, new messages are buffered in a pending queue until new tokens become available at the time of the periodic grant. Thus throttling in between periodic grant intervals may add to the latency of message delivery for an application collapse key that sends a large number of messages within a short period of time. Messages in the pending queue of an application collapse key may be delivered before the time of the next periodic grant, if they are piggybacked with messages belonging to a non-throttled category by GCM for network and battery efficiency reasons.

Check the source

Check this ( delay_while_idle) tag in server settings and make it false. Otherwise it will buffer the messages at server.

And also Follow

Every message sent in GCM has the following characteristics:

It has a payload limit of 4096 bytes.
By default, it is stored by GCM for 4 weeks.

But despite these similarities, messages can behave very differently depending on their particular settings. One major distinction between messages is whether they are collapsed (where each new message replaces the preceding message) or not collapsed (where each individual message is delivered). Every message sent in GCM is either a "send-to-sync" (collapsible) message or a "message with payload" (non-collapsible message). These concepts are described in more detail in the following sections.

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This answer is not at all what I was looking for. Please do not post links already present in the question. delay_while_idle parameter will not work since as I wrote the app will be on a tablet always connected to both wifi and power, and the app will be the only app running (never goes to sleep). –  deleElon79 Dec 2 '13 at 11:28

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