Compatibility Changes in MongoDB 3.4
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The following 3.4 changes can affect the compatibility with older versions of MongoDB.
See also Release Notes for MongoDB 3.4.
Sharded Cluster Changes
shardsvr Requirement
For a 3.4 sharded cluster, mongod instances for the
shards must explicitly specify its role as a shardsvr,
either via the configuration file setting
sharding.clusterRole or via the command line option
--shardsvr.
3.4 mongos and Earlier Versions of mongod
Version 3.4 mongos instances cannot connect to earlier
versions of mongod instances.
Removal for Configuration Options
MongoDB 3.4 removes the following configuration options from
the mongos:
sharding.chunkSizeconfiguration file setting and--chunkSizecommand-line optionsharding.autoSplitconfiguration file setting and--noAutoSplitcommand-line option
Removal of Support for SCCC Config Servers
3.4 sharded clusters no longer support the use of mirrored (SCCC)
mongod instances as config servers. The use of SCCC config
servers, deprecated in the 3.2 release, is no longer valid. Instead,
deploy your config servers as a replica set (CSRS).
To upgrade your sharded cluster to version 3.4, the config servers must be running as a replica set.
To convert your existing config servers from SCCC to CSRS, see the MongoDB 3.4 manual Upgrade Config Servers to Replica Set.
Initial Sync and renameCollection
If a collection is renamed on the sync source while an initial sync is running, the initial sync process fails and restarts to avoid possible data corruption. See SERVER-26117.
Operations that rename collections include:
renameCollectioncommand anddb.collection.renameCollection()method.Aggregation (
db.collection.aggregate()method oraggregatecommand) with the$outstage.Map-reduce (
db.collection.mapReduce()method ormapReducecommand) with theoutoption.convertToCappedcommand.
As such, when upgrading from 3.2.11 or earlier versions to 3.4, initial
syncs may start failing if they encounter renameCollection
operations.
In MongoDB versions 3.2.11 or earlier versions, initial sync process
would proceed when encountering renameCollection operations, which
could potentially corrupt data. See SERVER-4941.
Deprecated Operations
group
Mongodb 3.4 deprecates the following commands and mongo
shell methods:
group command and db.collection.group().
Use
db.collection.aggregate()ordb.collection.mapReduce()instead.
aggregate without cursor
MongoDB 3.6 removes the use of aggregate command
without the cursor option unless the command includes the
explain option. Unless you include the explain option, you must
specify the cursor option.
To indicate a cursor with the default batch size, specify
cursor: {}.To indicate a cursor with a non-default batch size, use
cursor: { batchSize: <num> }.
Stricter Validation of Collection and Index Specifications
Stricter Validation of Collection Options
MongoDB 3.4 enforces a stricter validation of collection options during
create and db.createCollection() operations;
namely, the specified options must be valid options supported by
create and db.createCollection().
For example, the following operation is no longer valid:
db.createCollection( "myCappedCollection", { cappedtypo: true, size: 5242880 } )
Stricter Validation of Index Specifications
MongoDB 3.4 enforces a stricter validation of index specification
during createIndexes and
db.collection.createIndex() operations. The enforcement does
not apply to existing indexes.
Stricter validation include the following:
Ensuring that the value in the index key pattern
key: valueis valid. Specifically, value can be:ValueDescriptionA number greater than 0For ascending indexA number less than 0For descending indexString "text", "2dsphere", "2d", or "hashed"For special index typesFor example, the following operations are no longer valid:
db.collection.createIndex( { x: 0 } ); db.collection.createIndex( { y: "text2d" } ); db.collection.createIndex( { z: NaN } ); db.collection.createIndex( { x: 1, unique: true } ) Ensuring that the specified index options are valid. Previous versions ignored invalid options. For example, the following operations are no longer valid:
db.collection.createIndex( { y: 1 }, { uniques2: true} ); db.collection.createIndex( { z: 1 }, { expireAfterSec: 350 } )
General Compatibility Changes
Updates to namespace restrictions: in MongodDB 3.4, the
$character is no longer supported in database names.Important
You must drop any databases that contain a
$in its name before upgrading to MongoDB 3.4.Removal of deprecated
textSearchEnabledparameter. Starting from version 2.6, MongoDB enables the text search feature by default.Removal of
mongosniff. In MongoDB 3.4,mongosniffis replaced bymongoreplay, which offers a more flexible superset ofmongosniff's functionality.Updates to
$projectspecification behavior: empty documents in$projectspecifications produce an error.If you include a
hint()that specifies a sparse index when you perform acount()of all documents in a collection (i.e. with an empty query predicate), the sparse index is used even if the sparse index results in an incorrect count.db.collection.insert({ _id: 1, y: 1 } ); db.collection.createIndex( { x: 1 }, { sparse: true } ); db.collection.find().hint( { x: 1 } ).count(); To obtain the correct count, do not
hint()with a sparse index when performing a count of all documents in a collection.db.collection.find().count(); db.collection.createIndex({ y: 1 }); db.collection.find().hint({ y: 1 }).count(); Previous versions ignored the hint if the use of the sparse index would result in an incomplete count.
User Roles Changes
The privileges of the following built-in roles no longer apply to the
local and config databases:
Role | Change |
|---|---|
Starting in 3.4, to provide read privileges on the local
database, create a user in the admin database with
read role in the local database. See also
clusterManager and clusterMonitor role
for access to the config and local databases. | |
Starting in 3.4, to provide readWrite privileges on the
local database, create a user in the admin database with
readWrite role in the local database. See also
clusterManager and clusterMonitor role
for access to the config and local databases. | |
Starting in 3.4, to provide dbAdmin privileges on the
local database, create a user in the admin database with
dbAdmin role in the local database. See also
clusterManager and clusterMonitor role
for access to the config and local databases. |
Correspondingly, the following built-in roles include additional read
and write privileges on local and config databases:
Backwards Incompatible Features
The following 3.4 features persist data that earlier MongoDB versions
cannot correctly handle and require that
featureCompatibilityVersion be set to "3.4":
Index version
v: 2.v:2indexes add support for collation and decimal data type. Earlier index versions support neither collation nor the decimal data type.If
featureCompatibilityVersion: "3.4", indexes created in MongoDB 3.4 default tov: 2. Otherwise, new indexes default tov: 1.
To set the featureCompatibilityVersion, see
setFeatureCompatibilityVersion command.
Warning
Enabling these backwards-incompatible features can complicate the downgrade process. For details, see Remove 3.4 Incompatible Features.
It is recommended that after upgrading, you allow your deployment to run without enabling these features for a burn-in period to ensure the likelihood of downgrade is minimal. When you are confident that the likelihood of downgrade is minimal, enable these features.
3.4 deployments have the following default
featureCompatibilityVersion values:
3.4 Deployments | featureCompatibilityVersion |
|---|---|
For new deployments | "3.4" |
For deployments upgraded from 3.2 |
Earlier versions of MongoDB will not start if the database contains
views, collation specifications, or v:2 indexes. If the data
contains the decimal data type, operations against these documents may
fail. See Downgrade MongoDB 3.4 to 3.2 for details. If you need
to downgrade, you must remove data related to these incompatible
features from your database before downgrading the binaries.
Driver Compatibility Changes
To use the various new features such as the new Decimal Type and Collation with a MongoDB driver, an upgrade to a driver version that supports these features is necessary.
Single Element $in With upsert
When an upsert operation finds no matching documents, it creates a
document to insert based on the equality statements in the query and then
applies the update modifiers to this seeded document. For example:
db.c.drop() db.c.update( { a : 3, b: "foo" }, { $set : { c : 15 } }, { upsert : true } ) db.c.find() { "_id" : ObjectId("59c03009529946822d0afb8c"), "a" : 3, "b" : "foo", "c" : 15 }
Prior to 3.4, a single-element $in query did not seed the upsert
document. In the example below, the $addToSet update expression
is successful because of this behavior:
db.c.drop() db.c.update( { a : { $in : [1] } }, { $addToSet : { a : 2 } }, { upsert : true } ) db.c.find() { "_id" : ObjectId("58bdb00eb39e8f87607e9222"), "a" : [ 2 ] }
In 3.4 and newer versions, however, a single-element $in behaves
like an equality statement for upserts. If the query includes this condition
on a field, the field value is set to the element.
As a result of this behavior, certain upsert operations may fail in 3.4. In
example above, the $addToSet upsert would fail because the a
field would be seeded with a single value, and $addToSet cannot be
applied to a scalar field. To avoid this error, you must wrap the $in
expression in an $elemMatch expression:
db.c.drop() db.c.update( { a : { $elemMatch : { $in : [ 2 ] } } }, { $addToSet : { a: 3 } }, { upsert: true } ) db.c.find() { "_id" : ObjectId("..."), "a" : [ 3 ] }