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This might sound like an obvious question, but I'm new to CouchDB, so I thought it was worthwhile asking in case there is something about CouchDB's structure that changes the situation that I didn't know about. For reasons out of my control, I have to build a queue-like structure out of CouchDB. For simplicity's sake, let's say I'm queueing IDs for jobs to be executed later. Note that there will be no duplicates.

I'm trying to figure out what the best way to structure this is. As I currently see it, I have a few options:

  1. Store the queue items as entries in a queue database with the IDs as _id, and store the dequeued items in a similar dequeued database with the IDs as the _id. Each record in each database wouldn't have any other information other than the (mandatory) _id and _rev.
  2. Have a single queueing database, and that database will contain one record with _id = 'queue' and one record with _id = 'dequeued'. Within each of the two records, there will be an arbitrary number of keys, each of which will be an ID for the jobs to be executed (or that were already executed). The values associated in the database with the keys will be irrelevant, possibly just a Boolean.
  3. Have a single queueing database, and within that database, have a single record called queue. Within that record, have two keys: queue and dequeued. Each of those keys will have as its associated value an arbitrary-length list of job execution IDs.

1 is slightly less desirable because it requires two databases, and 2 strikes me as a poor choice because it requires loading the entire list of queued or dequeued items in order to read a list item or make any changes. However, 3 is nice in that it allows for the whole list of IDs to be an ordered list rather than key/value pairs, which makes it easier to pick a random item from the list to be the next job to be executed, since I don't actually need to know any key names (since there are none).

I'm looking for whichever provides the best performance. Any thoughts on this?


For people reading this question in the future, I've built my CouchDB queuing module, CouchQueue, a work in progress.

You can get it npm install couchqueue.

Take a look (and please comment, pull request, etc.) here at Github.

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What is the expected job throughput? – Octavian Damiean Aug 30 '12 at 9:10

2 Answers 2

up vote 1 down vote accepted

Use one document per element in the queue, and keep one queue database.

I recommend a field to order the elements, for example .created_at with a timestamp in ISO 8601 format.

You can toggle an element's visibility with a .visible flag.

I recommend a map/reduce view, something like this

function(doc) {
    emit(doc.created_at, doc)

Now you can query this view, either oldest-first, or newest-first (?descending=true). You can mark an element complete by updating it, setting visible = false.

I wrote a CouchDB queue, CQS which is identical to the Amazon SQS API. It is similar to what I describe, except there is a checked-out state messages can be, not visible in the queue for a timeout period. I have used CQS in production for about two years, with hundreds of millions of updates.

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I ended up writing my own queuing system for CouchDB, which I will be open sourcing soon. Unlike yours, mine is not identical to Amazon SQS, I built it just as a convenient queuing wrapper on top of cradle. – jdotjdot Oct 4 '12 at 8:27
That queuing system, though still a work in progress, can be found here. – jdotjdot Oct 5 '12 at 9:37

I suggest using separate documents for each queue entry, it will allow you to avoid conflicts.

If you just need an queue with the interface push(), pop(), top() for adding inserting an element and taking one then the solution may be very simple (if you want the list with next(), or accessing n-th element, it gets more complicated). For scheduling algorithm with linear order (like FIFO, FILO) you can implement push() as insertion of the new document:

{ type: "queue", inserted: CURRENT_TIME, ... }

top() as the map:

function (doc) {
  if (doc.type == "queue" && doc.inserted) {
    emit(doc.inserted, doc);

and reduce as an aggregation (eg. max for FILO, min for FIFO). For pop() you can ask view for the top() and then delete the document. Map/reduce has to be deterministic, so if you want to choose the random element you can make the reduce dependent on the pseudo-random (chosen by the server) _id.

I expect two problems:

  1. Mind the concurrency: two processes can ask for the same document with top(), first will delete the document as part of the pop(), and second will try to fetch the deleted document.

  2. CouchDB never really deletes the document, only marks as deleted. Adding and deleting for each push()/pop() will grow the database. You will have to reuse the documents somehow. Perhaps you have some poll of the tasks, which are inserted and removed, or reordered in the queue. Then you can add queued: true to the task document, instead of separate documents with type: "queue".

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