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I know that I can't lock a single mongodb document, in fact there is no way to lock a collection either.

However, I've got this scenario, where I think I need some way to prevent more than one thread (or process, it's not important) from modifying a document. Here's my scenario.

I have a collection that contains object of type A. I have some code that retrieve a document of type A, add an element in an array that is a property of the document (a.arr.add(new Thing()) and then save back the document to mongodb. This code is parallel, multiple threads in my applications can do theses operations and for now there is no way to prevent to threads from doing theses operations in parallel on the same document. This is bad because one of the threads could overwrite the works of the other.

I do use the repository pattern to abstract the access to the mongodb collection, so I only have CRUDs operations at my disposition.

Now that I think about it, maybe it's a limitation of the repository pattern and not a limitation of mongodb that is causing me troubles. Anyway, how can I make this code "thread safe"? I guess there's a well known solution to this problem, but being new to mongodb and the repository pattern, I don't immediately sees it.

Thanks

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7 Answers 7

"Doctor, it hurts when I do this"

"Then don't do that!"

Basically, what you're describing sounds like you've got a serial dependency there -- MongoDB or whatever, your algorithm has a point at which the operation has to be serialized. That will be an inherent bottleneck, and if you absolutely must do it, you'll have to arrange some kind of semaphore to protect it.

So, the place to look is at your algorithm. Can you eliminate that? Could you, for example, handle it with some kind of conflict resolution, like "get record into local' update; store record" so that after the store the new record would be the one gotten on that key?

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I Charlie, thanks for answering. I don't understand the conflict resolution you propose. I agree that I do need to change my algorithm and I can imagine some solution, but I feel there must be some agreed upon solution to this problem. It seems to me that it's a classical problem lots of peoples using mongodb (or probably any database) have run into. If it was an in memory update, I would know how to use a mutex to "lock" the variable I want to update so only one thread update it at a time. I guess my question is : How do other programmers usually handle this situation? –  Mathieu Pagé Jun 18 '12 at 2:28

Hey the only way of which I think now is to add an status parameter and use the operation findAndModify(), which enables you to atomically modify a document. It's a bit slower, but should do the trick.

So let's say you add an status attribut and when you retrieve the document change the status from "IDLE" to "PROCESSING". Then you update the document and save it back to the collection updating the status to "IDLE" again.

Code example:

var doc = db.runCommand({
              "findAndModify" : "COLLECTION_NAME",
              "query" : {"_id": "ID_DOCUMENT", "status" : "IDLE"},
              "update" : {"$set" : {"status" : "RUNNING"} }
}).value

Change the COLLECTION_NAME and ID_DOCUMENT to a proper value. By default findAndModify() returns the old value, which means the status value will be still IDLE on the client side. So when you are done with updating just save/update everything again.

The only think you need be be aware is that you can only modify one document at a time.

Hope it helps.

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You can use simple update() for the same purpose, which is the official solution offered at MongoDB site: docs.mongodb.org/manual/tutorial/isolate-sequence-of-operations The main complication of this solution though is that code you have to write for the case when update fails. I.e. retry the update. Depending of your code you may have to run into further complications to avoid side effects when retrying, etc. –  Yaroslav Stavnichiy Nov 23 '13 at 10:28

An alternative is to do in place update

for ex:

http://www.mongodb.org/display/DOCS/Updating#comment-41821928

db.users.update( { level: "Sourcerer" }, { '$push' : { 'inventory' : 'magic wand'} }, false, true );

which will push 'magic wand' into all "Sourcerer" user's inventory array. Update to each document/user is atomic.

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Classic solution when you want to make something thread-safe is to use locks (mutexes). This is also called pessimistic locking as opposed to optimistic locking described here.

There are scenarios when pessimistic locking is more efficient (more details here). It is also far easier to implement (major difficulty of optimistic locking is recovery from collision).

MongoDB does not provide mechanism for a lock. But this can be easily implemented at application level (i.e. in your code):

  1. Acquire lock
  2. Read document
  3. Modify document
  4. Write document
  5. Release lock

The granularity of the lock can be different: global, collection-specific, record/document-specific. The more specific the lock the less its performance penalty.

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up vote 0 down vote accepted

Answering my own question because I found a solution while doing research on the Internet.

I think what I need to do is use an Optimistic Concurency Control.

It consist in adding a timestamp, a hash or another unique identifier (I'll used UUIDs) to every documents. The unique identifier must be modified each time the document is modified. before updating the document I'll do something like this (in pseudo-code) :

var oldUUID = doc.uuid;
doc.uuid = new UUID();
BeginTransaction();
if (GetDocUUIDFromDatabase(doc.id) == oldUUID)
{
   SaveToDatabase(doc);
   Commit();
}
else
{
   // Document was modified in the DB since we read it. We can't save our changes.
   RollBack();
   throw new ConcurencyException();
}
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Yup, that's one method of conflict resolution. –  Charlie Martin Jun 19 '12 at 3:05
    
You can do that, but using the atomic operators some of the other answers describe is probably what you want (and is atomic like you want). Here are the docs: mongodb.org/display/DOCS/Atomic+Operations –  will Oct 30 '12 at 7:48

If you have a system with > 1 servers then you'll need a distributive lock.

I prefer to use Hazelcast.

While saving you can get Hazelcast lock by entity id, fetch and update data, then release a lock.

As an example: https://github.com/azee/template-api/blob/master/template-rest/src/main/java/com/mycompany/template/scheduler/SchedulerJob.java

Just use lock.lock() instead of lock.tryLock()

Here you can see how to configure Hazelcast in your spring context:

https://github.com/azee/template-api/blob/master/template-rest/src/main/resources/webContext.xml

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Sounds like you want to use MongoDB's atomic operators: http://www.mongodb.org/display/DOCS/Atomic+Operations

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The problem with the atomic operators is that they don't really help me since I was using the repository patterns, so I only had CRUD operations at my disposition. –  Mathieu Pagé Oct 30 '12 at 12:43

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