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I need to create a queue for processing. The queue itself is relatively low-volume. There might be about 1,000 writes to it per hour. The execution of each task might take about a minute each, and are processed almost as soon as the item is added to the queue.

Is there any reason that I might want to implement RabbitMQ instead of something off-the-shelf like Amazon SQS? What are some reasons why an application would need its own queueing system instead of something like SQS?

  • 1000 writes per hour is fine. If you have time and enough knowledge, then run RabbitMq instance by yourself, it saves money as well if compare with Amazon SQS service. For SQS, it was just there. It was convenient, simple, and reasonably quick to code at. – BMW Feb 24 '15 at 9:38
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For a start, Amazon SQS is a pseudo-queue which means the delivery of every message(if it reaches the queue) is guaranteed but not in a FIFO fashion which usually happens in a queue.

If the order of messages is important to you and you want the queue to work in a FIFO fashion, the Amazon SQS documentation states to handle this in your application logic as the messages from the Amazon SQS will reach you out of sequence.

Compared to this, as far as I know, you can implement worker queues in RabbitMQ. If that rids you of implementing queue message sequencing at application level then this would be a more preferable option.

Here are a few factors to help you decide which one to go for:

  1. Queue message sequence as mentioned above.

  2. You can setup your own server with RabbitMQ but not in the case of Amazon SQS so the cost gets involved here.

  3. Setting up your own server will require good knowledge of the subject so that you do not leave any corner untouched. This is not the case with Amazon SQS as it is pretty quick to get started with.

  4. Your own RabbitMQ server means maintenance cost down the line which is not the case with Amazon SQS.

Updates:

  1. Amazon SQS now supports FIFO queues.
  • 5
    What do you mean by "Amazon SQS has a wide portability with almost all the major platforms, not sure that is the case with RabbitMQ". RabbitMQ runs on all major platforms (Windows, Linux and Mac), plus in all major languages (Java, .Net, PHP, Python, Ruby, etc) – old_sound Mar 9 '15 at 16:55
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    @old_sound Thank you for pointing that out. I have updated my answer to omit that part. – Noman Ur Rehman Mar 9 '15 at 18:41
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    @old_sound The difference is that running SQS you only pay for usage (sending and receiving messages) while running RabbitMQ has the hidden costs (above the EC2 usage) of making sure the service is running, monitored, and patched including both the app and underlying operating system. With SQS AWS will take care of all of that "undifferentiated heavy lifting" so you can just focus on your app. – JaredHatfield Jul 16 '15 at 2:27
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    Amazon SQS now supports FIFO – rocketspacer Nov 30 '16 at 18:29
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    -1 This answer really needs some attention to be useful. Suggestions: Remove FIFO constraint entirely, focus on IaaS -- scaling, configuration, etc -- and differences in message delivery (e.g., polling). – Brett May 8 '18 at 17:54
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SQS would be my preference over RabbitMQ, here is why.

  1. SQS is a managed service. So you don't have to worry about operational aspects of running a messaging system including administration, security, monitoring etc. Amazon will do this for you and will provide support if something were to go wrong.
  2. SQS is Elastic and can scale to very large rate/volumes (unlimited according to AWS ;))
  3. Availability of SQS has a lot of 9's in it and is backed by Amazon, which is one less thing to worry about in your application.

However RabbitMQ might provide faster response times for puts and gets, typically in 10s of thousands of TPS from my testing. For SQS to provide that kind of throughput, you will have to scale up horizontally with multiple instances. So if you are looking for under 5ms puts , RabbitMQ might be an option to consider because i have seen close to 20ms-30ms put time from my SQS testing at 1000s of TPS, which is slightly higher than RabbitMQ.

We just moved our messaging infrastructure from ActiveMQ to SQS and can't be any more happier. We have found it to be cheaper than maintaining our own ActiveMQ cluster in the cloud.

Hope this helps! Let us know how it goes..

  • 13
    cloudamqp.com is a good hosted RabbitMQ service – Danny G Feb 20 '16 at 2:05
  • @ssekhar We are also planning to migrate activemq to SES.. How big are the changes on client end ? We are on java and latest version of activemq. – Deepak Nov 8 '16 at 6:59
  • I’ve been running SQS-based apps for years with median put latency around 7ms per put - if you’re getting 20-30ms then something is horribly wrong, either in your measurement or your test. Are you running from within same AWS region/AZ? How are you measuring? – Krease Aug 20 '18 at 15:31
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I actually used both in a commercial environment with reasonable.

The short answer is unless there are specific corner cases, it's better to go with AWS SQS. (You can skip to the bottom for simple summary)

Coding (Tie): RabbitMQ and AWS SQS both have establish libraries and plenty of examples.

Visibility timeout (SQS): One thing that SQS offers offer RabbitMQ is a broader notion of visibility timeout. In RabbitMQ, if a consumer dies before it acks, the messages is put back into the queue. But SQS has a broader notion of visibility timeout that is not tied to a specific caller. So you can start a unit of work, set the visibility with large timeout (up to 12 hours), disconnect, have another worker finish and ack it. In my design, we leverage this extensively and eliminated additional service/storage to manage potentially large 'in progress' payloads.

Dead letter handling (RabbitMQ - by a 'hare') SQS provides basic dead letter handing in what they call "Re-drive policy" that dumps messages into Dead Letter Queue (just another queue). It's basic and only has a notion of message count. RabbitMQ has Dead Letter Exchanges that provides messages getting pushed int DLE when they expire. But this is sort of moot as the idea of "If you aren't watching your services and messages expire, then it will land in the DLE". It's a slight win for RabbitMQ as I find that argument counter intuitive. Why would you monitor your queue and not your services? (If anything, it's the other way around)

Administration (SQS): There is no administration to SQS. You just pay for API calls. All usual headaches like OS/app security patches, scale (add more nodes), disk are handled by AWS teams. It is also FedRamp compliant (for government use). It is truly a 'setup and forget' system. Where as RabbitMQ requires usual OS/service patches, AMIs, clustering, security hardening, etc. While it is extremely rare, AMIs can go down, or sometimes require to be moved around so clustering is needed out of box. SQS eliminates all those headaches.

COST (SQS): A single SQS API call can include 'batch up to 10 messages/256k size' and 'long polling' can drastically cut the cost down. Furthermore, there are strategies like message compression to shove dozens (some claim hundreds or more) of messages can be sent in a single payload to reduce cost further. And this is before we consider time people spend monitoring/patching/fixing issues. SQS is also great for 'poc projects' as if it sit idle, there's no cost.

FIFO (TIE): In 2016, AWS introduced FIFO support at a additional cost of ~$0.01/million api calls ($0.05 vs $0.04 per million API alls - before discounts). You can choose to use FIFO or not. For non-FIFO we rarely see duplicate messages.

Storage (SQS): AWS does not charge for storage but you do have a limit of 14 days. On RabbitMQ, you will have to allocate, expand, and manage disk space that require peak storage capacity plus extra buffers. It's just more headaches.

Metrics (SQS): SQS provides out of box metrics. And while you could add them to AWS, it's just more work.

Local dev (tie): Most modern shops like to have local environment. There are several options that allow dockers of RabbitMQ and SQS now.

High throughput/very large message (RabbitMQ - sort of) As you push SQS > 1000 requests/sec, SQS's latency will go up. There are several strategies to get around it. But I find these cases to be extremely rare as most work can be partitioned to multiple queues. But for these types of cases where 100k/sec is required, I think Kafka is better. (We also use Kafka at my work) It is rare to have a single unit of work that requires 1000+ request/second with low latency. *See more below for this explanation

Summary: If you are going to be in AWS and willing to be married to AQS, then SQS is a no brainer. But you should read on as there are important things to consider.

The classic strategy for RabbitMQ (and other queues) are to create several types of queues optimized for certain types of work. Then fine tune each of these queue and group similar work into small number of these (often very large) queues. Since SQS has no administrative overhead, it is actually better to allocate dedicated queue for each work. By doing so, it allows for scale but also eliminates queue saturation (offending work saturating the queue and drowning out other workers), better view into the work (default metrics), and such.

The new strategy has allowed my teams to have better view of how work is distributed. Gone are the days of 'upgrading instance for more load'. In the past, we would see a large unexplained spike that would cause side effects to other services or just guessed that the cumulative numbers looks abut right'. Now that traffic is separated, we actually uncovered many issues that went unnoticed before and can clearly explain how much traffic is going where. And while it is very possible to implement metrics and tooling, SQS provides all of these out of the box.

There are still great cases RabbitMQ should be seriously considered

- Very large legacy code base that uses RabbitMQ with extensive tooling and knowledgeable support staff
- Messages that needs to be in the same work stream for > 14 days
- Very large messages that has very low latency requirements with it
- Cloud agnostic code base requirements. If you must run your code on other platforms (e.g. Azure/Google/bare metal), then SQS is not an option
- Large volume of data for a single pipeline that can't be broke up and other solutions (e.g. Kafka) are not viable. But at a super large volume, Kafka is a lot faster. While SQS will push large payloads to S3, you are now incurring additional cost.

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