Suppose I have a collection where I create a unique index on a field:

db.users.createIndex({username: 1}, {unique:true})

What happens if two documents with the same username are SIMULTANEOUSLY being inserted in the collection?
How does the database prevent the collision? I mean which one gets inserted and which results in an error?
Assuming the inserts are really SIMULTANEOUS there is no way for the database to know that two duplicates are being inserted, right?
So, what's really going on?

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    In simple terms, whichever insert gets the write lock first wins, and the other insert results in an error. – JohnnyHK May 13 '15 at 16:20
  • @JohnnyHK, Are you saying that getting the write lock at the same instant in time is impossible? – Core_dumped May 13 '15 at 16:22
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    This why unique indexes cannot yet exist outside of the shard key in sharded envos atm – Sammaye May 13 '15 at 16:24
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    Data is applied in memory first, so obtaining a lock is a matter of nanoseconds. And 1M writes most likely wouldn't be feasible on a single server. In a shared environment the new doc would be sent to the shard with the matching key range. If done right, your writes would be more or less evenly distributed (fuzzy). Let's assume you have 10 shards, this would translate to 100k writes / shard / s. Even when taking and lifting a lock would take 10ns each, that would be 2M nanoseconds or 1/500 of a second. Plenty of time left for the other stuff. – Markus W Mahlberg May 13 '15 at 16:44
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    @SylvainLeroux I have added an answer as a community wiki. – Markus W Mahlberg May 13 '15 at 17:35

Writes can not be applied simultaneously to the dataset. When a write is sent to a MongoDB instance, be it a shard or a standalone server, here is what happens

  1. A collection wide write lock (which resides in RAM) is requested
  2. When the lock is granted, the resulting data to be written (be it an update, an upsert or a new document) is checked against the unique indices (which usually reside in RAM)
  3. If there is no collision, the data is applied to the dataset in RAM
  4. The lock is released. Only now other writes can start performing changes to the data in memory.
  5. With the default write concern, the query returns now
  6. After commitIntervalMs the data is written to the journal
  7. Only after syncInterval seconds (60 per default), the journal is applied to the data files

That being said, we can look at the actual values. 1 million writes / second seem a bit much for a single server (simply because the mass storage can't handle it), so we assume a sharded cluster with 10 shards, with a shard key which distributes the writes more or less evenly. As we have seen above, all operations are applied in RAM. With today's hardware, some 3.5 billion instructions/s can be processed, or 3.5 instructions per nanosecond. Let's assume getting and releasing a lock each take 35 instructions or 10 nanoseconds. So locking and unlocking for each of our 100k writes would take 20 nanoseconds, altogether 1/500 of a second.

That would leave 499/500 of a second or 998000000 nanoseconds for the other stuff MongoDB needs to do, which translates to a whopping 3.493 billion instructions.

The locks to prevent concurrent writes are far from being the limiting factor for write operations. Syncing the changes to the journal and the data files is usually the limiting factor, followed by to less RAM to keep the indices and working set in RAM.

  • I agree with the top part of your answer, but I disagree with estimating the locking and unlocking speed based on the CPU's ability to process X billion instructions per second. As you correctly stated, the actual CPU instructions involved take negligible time. But that is neither here nor there. You should be looking at memory read & write speed instead. – Lakey May 13 '15 at 17:39
  • To be honest with you: this was just a would guess. But the relation between acquiring and releasing a lock and the actual manipulation of the data should be about right, which was my point. Since I posted this as a community wiki answer on purpose, feel free to edit it according to the actual values. – Markus W Mahlberg May 13 '15 at 17:43
  • The amount of time required to take the lock is based on CPU speed as well as number of CPUs. More CPUs == Longer time to acquire the lock. Also, collection level locks were introduced in MongoDB 3.0 (MMAPv1), in previous version (2.2/2.4/2.6) it was database level, in 2.0 and earlier it was global. for something like this. There is also some inaccuracies in how data is actually written in memory. There is a concept of a shared view and a private view of the data. Updates all take place in the shared view and the shared view is updated atomically. – Pete Garafano May 13 '15 at 17:46
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    @PeteGarafano it is a community wiki answer, your insights would be a great addition ( and I don't grind rep with it, since no one gets rep for wiki answers) – Markus W Mahlberg May 13 '15 at 17:51
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    As reference this is a pretty good compliment here: stackoverflow.com/a/17459488/383478 – Sammaye May 13 '15 at 21:13

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