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Atomicity and Transactions

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  • Example

In MongoDB, a write operation is atomic on the level of a single document, even if the operation modifies multiple values. When multiple update commands happen in parallel, each individual command ensures that the query condition still matches.

To guarantee that concurrent update commands do not conflict with each other, you can specify the expected current value of a field in the update filter.

Consider a collection with this document:

db.games.insertOne( { _id: 1, score: 80 } )

These update operations occur concurrently:

// Update A
db.games.updateOne(
{ score: 80 },
{
$set: { score: 90 }
}
)
// Update B
db.games.updateOne(
{ score: 80 },
{
$set: { score: 100 }
}
)

One update operation sets the document's score field to either 90 or 100. After this update completes, the second update operation no longer matches the query predicate { score: 80 }, and is not performed.

Warning

In the case of concurrent update operations, specifying a filter on a field that is not being updated can lead to unexpected results. For example, consider if these update operations occur concurrently:

// Update A
db.games.updateOne(
{ _id: 1 },
{
$set: { score: 90 }
}
)
// Update B
db.games.updateOne(
{ _id: 1 },
{
$set: { score: 100 }
}
)

After one update operation completes, the remaining operation still matches the query predicate { _id: 1 }. As a result, both update operations occur and the stored score value reflects the second update operation. This is problematic because the client that issued the first update does not receive any indication that the update was overwritten and the score value is different than expected.

To prevent conflicting write operations when your update filter is on a different field than the one being updated, use the $inc operator.

For example, consider if these update operations occur concurrently:

// Update A
db.games.updateOne(
{ _id: 1 },
{
$inc: { score: 10 }
}
)
// Update B
db.games.updateOne(
{ _id: 1 },
{
$inc: { score: 20 }
}
)

After one update operation completes, the remaining operation still matches the query predicate { _id: 1 }. However, because the operations modify the current value of score, they don't overwrite each other. Both updates are reflected and the resulting score is 110.

Tip

Store Unique Values

To ensure that a field only has unique values, you can create a unique index. Unique indexes prevent inserts and updates from creating duplicate data. You can create a unique index on multiple fields to ensure the combination of field values is unique. For examples, see Create a Unique Index.

When a single write operation (e.g. db.collection.updateMany()) modifies multiple documents, the modification of each document is atomic, but the operation as a whole is not atomic.

When performing multi-document write operations, whether through a single write operation or multiple write operations, other operations may interleave.

For situations that require atomicity of reads and writes to multiple documents (in a single or multiple collections), MongoDB supports distributed transactions, including transactions on replica sets and sharded clusters.

For more information, see transactions

Important

In most cases, a distributed transaction incurs a greater performance cost over single document writes, and the availability of distributed transactions should not be a replacement for effective schema design. For many scenarios, the denormalized data model (embedded documents and arrays) will continue to be optimal for your data and use cases. That is, for many scenarios, modeling your data appropriately will minimize the need for distributed transactions.

For additional transactions usage considerations (such as runtime limit and oplog size limit), see also Production Considerations.

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