MongoDB Performance
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As you develop and operate applications with MongoDB, you may need to analyze the performance of the application and its database. When you encounter degraded performance, it is often a function of database access strategies, hardware availability, and the number of open database connections.
Some users may experience performance limitations as a result of inadequate or inappropriate indexing strategies, or as a consequence of poor schema design patterns. Locking Performance discusses how these can impact MongoDB's internal locking.
Performance issues may indicate that the database is operating at capacity and that it is time to add additional capacity to the database. In particular, the application's working set should fit in the available physical memory.
In some cases performance issues may be temporary and related to abnormal traffic load. As discussed in Number of Connections, scaling can help relax excessive traffic.
Database Profiling can help you to understand what operations are causing degradation.
Locking Performance
MongoDB uses a locking system to ensure data set consistency. If certain operations are long-running or a queue forms, performance will degrade as requests and operations wait for the lock.
Lock-related slowdowns can be intermittent. To see if the lock has been
affecting your performance, refer to the locks
section and the globalLock section of the
serverStatus
output.
Dividing locks.<type>.timeAcquiringMicros
by
locks.<type>.acquireWaitCount
can give an approximate average wait time for a particular lock mode.
locks.<type>.deadlockCount
provide
the number of times the lock acquisitions encountered deadlocks.
If globalLock.currentQueue.total
is consistently high,
then there is a chance that a large number of requests are waiting for
a lock. This indicates a possible concurrency issue that may be affecting
performance.
If globalLock.totalTime
is
high relative to uptime
, the database has
existed in a lock state for a significant amount of time.
Long queries can result from ineffective use of indexes; non-optimal schema design; poor query structure; system architecture issues; or insufficient RAM resulting in disk reads.
Number of Connections
In some cases, the number of connections between the applications and the
database can overwhelm the ability of the server to handle requests. The
following fields in the serverStatus
document can provide insight:
connections
is a container for the following two fields:connections.current
the total number of current clients connected to the database instance.connections.available
the total number of unused connections available for new clients.
If there are numerous concurrent application requests, the database may have trouble keeping up with demand. If this is the case, then you will need to increase the capacity of your deployment.
For write-heavy applications, deploy sharding and add one or more
shards to a sharded cluster to distribute load among
mongod
instances.
Spikes in the number of connections can also be the result of application or driver errors. All of the officially supported MongoDB drivers implement connection pooling, which allows clients to use and reuse connections more efficiently. An extremely high number of connections, particularly without corresponding workload, is often indicative of a driver or other configuration error.
Unless constrained by system-wide limits, the maximum number of
incoming connections supported by MongoDB is configured with the
maxIncomingConnections
setting. On Unix-based systems,
system-wide limits can be modified using the ulimit
command, or by
editing your system's /etc/sysctl
file. See UNIX ulimit
Settings
for more information.
Database Profiling
The Database Profiler collects detailed information about operations run against a mongod instance. The profiler's output can help to identify inefficient queries and operations.
You can enable and configure profiling for individual databases or for
all databases on a mongod
instance.
Profiler settings affect only a single mongod
instance and
will not propagate across a replica set or sharded cluster.
See Database Profiler for information on enabling and configuring the profiler.
The following profiling levels are available:
Level | Description |
---|---|
0 | The profiler is off and does not collect any data.
This is the default profiler level. |
1 | |
2 | The profiler collects data for all operations. |
Warning
Profiling can degrade performance and expose unencrypted query data in the system log. Carefully consider any performance and security implications before configuring and enabling the profiler on a production deployment.
See Profiler Overhead for more information on potential performance degradation.
Note
When logLevel
is set to 0
, MongoDB records slow
operations to the diagnostic log at a rate determined by
slowOpSampleRate
.
At higher logLevel
settings, all operations appear in
the diagnostic log regardless of their latency with the following
exception: the logging of slow oplog entry messages by the
secondaries. The secondaries log only the slow oplog
entries; increasing the logLevel
does not log all
oplog entries.
Starting in MongoDB 4.2, the profiler entries and the diagnostic log messages (i.e. mongod/mongos log messages) for read/write operations include:
queryHash
to help identify slow queries with the same query shape.planCacheKey
to provide more insight into the query plan cache for slow queries.
Full Time Diagnostic Data Capture
To help MongoDB engineers analyze server behavior, mongod
and
mongos
processes include a Full Time Diagnostic Data
Capture (FTDC) mechanism. FTDC is enabled by default. Due to its
importance in debugging deployments, FTDC thread failures are fatal and
stop the parent mongod
or mongos
process.
Important
FTDC Privacy
FTDC data files are compressed and not human-readable. MongoDB Inc. engineers cannot access FTDC data without explicit permission and assistance from system owners or operators.
FTDC data never contains any of the following information:
Samples of queries, query predicates, or query results
Data sampled from any end-user collection or index
System or MongoDB user credentials or security certificates
FTDC data contains certain host machine information such as
hostnames, operating system information, and the options or settings
used to start the mongod
or
mongos
. This information may be
considered protected or confidential by some organizations or
regulatory bodies, but is not typically considered to be Personally
Identifiable Information (PII). For clusters where these fields were
configured with protected, confidential, or PII data, please notify
MongoDB Inc. engineers before sending the FTDC data so appropriate
measures can be taken.
FTDC periodically collects statistics produced by the following commands:
replSetGetStatus
(mongod
only)collStats
for thelocal.oplog.rs
collection (mongod
only)connPoolStats
(mongos
only)
Depending on the host operating system, the diagnostic data may include one or more of the following utilization statistics:
CPU utilization
Memory utilization
Disk utilization related to performance. FTDC does not include data related to storage capacity.
Network performance statistics. FTDC only captures metadata and does not capture or inspect any network packets.
Note
Starting in MongoDB 4.4, if the mongod
process runs
in a container, FTDC will report utilization statistics from
the perspective of the container instead of the host operating
system. For example, if a the mongod
runs in a
container that is configured with RAM restrictions, FTDC will
calculate memory utilization against the container's RAM limit, as
opposed to the host operating system's total available RAM.
FTDC collects statistics produced by the following commands on file rotation or startup:
mongod
processes store FTDC data files in a
diagnostic.data
directory under the instances
storage.dbPath
. All diagnostic data files are stored
under this directory. For example, given a dbPath
of /data/db
, the diagnostic data directory would be
/data/db/diagnostic.data
.
mongos
processes store FTDC data files in a
diagnostic directory relative to the systemLog.path
log
path setting. MongoDB truncates the logpath's file extension and
concatenates diagnostic.data
to the remaining name. For example,
given a path
setting of
/var/log/mongodb/mongos.log
, the diagnostic data directory would be
/var/log/mongodb/mongos.diagnostic.data
.
FTDC runs with the following defaults:
Data capture every 1 second
200MB maximum
diagnostic.data
folder size.
These defaults are designed to provide useful data to MongoDB Inc. engineers with minimal impact on performance or storage size. These values only require modifications if requested by MongoDB Inc. engineers for specific diagnostic purposes.
You can view the FTDC source code on the
MongoDB Github Repository.
The ftdc_system_stats_*.ccp
files specifically define any
system-specific diagnostic data captured.
To disable FTDC, start up the mongod
or
mongos
with the
diagnosticDataCollectionEnabled: false
option specified to the
setParameter
setting in your configuration file:
setParameter: diagnosticDataCollectionEnabled: false
Disabling FTDC may increase the time or resources required when analyzing or debugging issues with support from MongoDB Inc. engineers.