Last updated on: 2016-05-02
Authored by: Megan Meza
Cloud Queues was built to be flexible for a wide variety of messaging needs. This article explains some common patterns and their possible variations.
In the task distribution pattern, customers use Cloud Queues much like Amazon Simple Queue Service (SQS) to feed worker pools, as follows:
Each step in the process can have the following variations:
Step 1 - variation 1: One or more producers push several messages into a queue. The worker can claim batches of messages or a single message at a time.
Step 2 - variation 1: The worker does not claim the message before it expires. The producer should be adjusted to use a higher TTL value for messages, or the worker should poll more frequently.
Step 2 - variation 2: There are no messages to claim, because all messages have been consumed by this or other workers. The worker continues to periodically send requests to claim messages until new messages are available. Alternatively, a governor process might choose to autoscale the worker pool based on load (which can be checked by using GET request to retrieve statistics for the queue, or by monitoring whether individual workers are idle).
Step 3 - variation: The worker crashes after claiming the message, but before processing it. The claim on the message will eventually expire, after which the message will be made available again to be claimed by another worker.
Step 4 - variation: The worker crashes after processing the message but before deleting it. The next worker to claim the message checks whether the message has already been processed before proceeding. In some cases, double-processing of a message might be acceptable, in which case no check is necessary.
Pub-Sub stands for Publisher-Subscriber, and it means notifying one or more consumers or subscribers of an event, as follows:
Step 2 in the process can have the following variations:
Step 2 - variation 1: The subscriber has already listed messages in a previous round. The subscriber submits a “next” marker to tell the server what messages it has already seen, so that the server returns only new messages to the subscriber.
Step 2 - variation 2: The subscriber does not list messages before message X expires. The producer should be adjusted to use a higher TTL value when posting messages, the subscriber should poll more often, or both.
Step 2 - variation 3: All messages have been listed. The subscriber gets an empty response, and continues to periodically list messages using the queue’s last known marker, until it gets a non-empty response.
Step 2 - variation 4: The subscriber crashes before it can get message X. A process monitor would simply restart the subscriber, and the subscriber would be able to get message X as long as it is able to poll within the TTL period set by the publisher.
In this pattern, each agent gets its own queue. A “queue” resource is extremely lightweight in Cloud Queues, so users can create hundreds of thousands of them without problem.
Note that bidirectional communication requires only a single queue.
A couple steps in the process can have the following variations:
Step 2 - variation 1: The agent could claim messages, but it is slower than simply listing messages, and claiming isn’t necessary when only one client will ever read from the queue.
Step 2 - variation 2: The agent crashes before getting the message. As soon as the agent restarts, it can still get the message if it restarts within the TTL period set by the controller.
Step 4 - variation 1: The agent crashes before posting the result message. The controller should have a timeout period after which it no longer expects a response from its request.
Step 4 - variation 2: If no result is expected, this step and the next step are skipped.
In auditing, users add an additional observer that is constantly listing and recording messages in a queue. This observer could be a CLI “tail”-like script, or a passive server process logging everything as it comes through.
Auditing helps in diagnosing problems or bugs in the message producers. It can also ensure that messages were processed correctly, for example, if users were using Cloud Queues as part of a metering solution and they wanted to audit their records to ensure billable events were all submitted to the billing system correctly.
However, having the ability to delay messages from being claim-able for a certain period of time is a feature still needed in order to make auditing work really well. Such a feature would give the auditor a chance to list a message before the worker deletes it. Today, workers can pause a specified number of seconds after claiming a message before deleting it, but this process will be more graceful after message delays are implemented.
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