Update Self-Managed Sharded Cluster to Keyfile Authentication
Overview
Enforcing access control on a sharded cluster requires configuring:
Security between components of the cluster using Internal Authentication.
Security between connecting clients and the cluster using Role-Based Access Control in Self-Managed Deployments.
For this tutorial, each member of the sharded cluster must use the same
internal authentication mechanism and settings. This means enforcing internal
authentication on each mongos
and mongod
in the cluster.
The following tutorial uses a keyfile to enable internal authentication.
Enforcing internal authentication also enforces user access control. To
connect to the replica set, clients like mongosh
need to
use a user account. See
Access Control.
CloudManager and OpsManager
If Cloud Manager or Ops Manager is managing your deployment, internal authentication is automatically enforced.
To configure Access Control on a
managed deployment, see: Configure Access Control for MongoDB Deployments
in the Cloud Manager manual
or in the Ops Manager manual.
Considerations
Important
To avoid configuration updates due to IP address changes, use DNS hostnames instead of IP addresses. It is particularly important to use a DNS hostname instead of an IP address when configuring replica set members or sharded cluster members.
Use hostnames instead of IP addresses to configure clusters across a split network horizon. Starting in MongoDB 5.0, nodes that are only configured with an IP address fail startup validation and do not start.
IP Binding
MongoDB binaries, mongod
and
mongos
, bind to localhost
by default.
Operating System
This tutorial primarily refers to the mongod
process.
Windows users should use the mongod.exe
program instead.
Keyfile Security
Keyfiles are bare-minimum forms of security and are best suited for testing or development environments. For production environments we recommend using x.509 certificates.
Access Control
This tutorial covers creating the minimum number of administrative
users on the admin
database only. For the user authentication,
the tutorial uses the default SCRAM
authentication mechanism. Challenge-response security mechanisms are
best suited for testing or development environments. For production
environments, we recommend using x.509
certificates or Self-Managed LDAP Proxy Authentication
(available for MongoDB Enterprise only) or Kerberos Authentication on Self-Managed Deployments
(available for MongoDB Enterprise only).
For details on creating users for specific authentication mechanism, refer to the specific authentication mechanism pages.
See ➤ Configure Role-Based Access Control for best practices for user creation and management.
Users
In general, to create users for a sharded clusters, connect to the
mongos
and add the sharded cluster users.
However, some maintenance operations require direct connections to specific shards in a sharded cluster. To perform these operations, you must connect directly to the shard and authenticate as a shard-local administrative user.
Shard-local users exist only in the specific shard and should only be
used for shard-specific maintenance and configuration. You cannot
connect to the mongos
with shard-local users.
See the Users in Self-Managed Deployments security documentation for more information.
Downtime
Upgrading a sharded cluster to enforce access control requires downtime.
Procedures
Enforce Keyfile Internal Authentication on Existing Sharded Cluster Deployment
Create a keyfile.
With keyfile authentication, each
mongod
or mongos
instances in the sharded cluster uses the contents of the keyfile as the
shared password for authenticating other members in the deployment. Only
mongod
or mongos
instances with the correct keyfile can join the sharded cluster.
Note
Keyfiles for internal membership authentication use YAML format to allow for multiple keys in a keyfile. The YAML format accepts either:
A single key string (same as in earlier versions)
A sequence of key strings
The YAML format is compatible with the existing single-key keyfiles that use the text file format.
A key's length must be between 6 and 1024 characters and may only contain characters in the base64 set. All members of the sharded cluster must share at least one common key.
Note
On UNIX systems, the keyfile must not have group or world permissions. On Windows systems, keyfile permissions are not checked.
You can generate a keyfile using any method you choose. For example,
the following operation uses openssl
to generate a complex
pseudo-random 1024 character string to use as a shared password. It then
uses chmod
to change file permissions to provide read
permissions for the file owner only:
openssl rand -base64 756 > <path-to-keyfile> chmod 400 <path-to-keyfile>
See Keyfiles for additional details and requirements for using keyfiles.
Copy the keyfile to each component in the sharded cluster.
Every server hosting a mongod
or mongos
component
of the sharded cluster must contain a copy of the keyfile.
Copy the keyfile to each server hosting the sharded cluster members.
Ensure that the user running the mongod
or mongos
instances is the owner of the
file and can access the keyfile.
Avoid storing the keyfile on storage mediums that can be easily
disconnected from the hardware hosting the mongod
or mongos
instances, such as a
USB drive or a network attached storage device.
Disable the Balancer.
sh.stopBalancer()
The balancer may not stop immediately if a migration is in progress.
The sh.stopBalancer()
method blocks the shell until the
balancer stops.
Starting in MongoDB 6.0.3, automatic chunk splitting is not performed. This is because of balancing policy improvements. Auto-splitting commands still exist, but do not perform an operation. For details, see Balancing Policy Changes.
In MongoDB versions earlier than 6.0.3, sh.stopBalancer()
also disables auto-splitting for the sharded cluster.
Use sh.getBalancerState()
to verify that the balancer has
stopped.
sh.getBalancerState()
Important
Do not proceed until the balancer has stopped running.
See Manage Sharded Cluster Balancer for tutorials on configuring sharded cluster balancer behavior.
Shut down all mongos
instances for the sharded cluster.
Connect mongosh
to each mongos
and shut
them down.
Use the db.shutdownServer()
method on the admin
database
to safely shut down the mongos
:
db.getSiblingDB("admin").shutdownServer()
Repeat until all mongos
instances in the cluster
are offline.
Once this step is complete, all mongos
instances in the cluster
should be offline.
Shut down config server mongod
instances.
Connect mongosh
to each mongod
in the
config server deployment and shut them down.
For replica set config server deployments, shut down the primary member last.
Use the db.shutdownServer()
method on the admin
database
to safely shut down the mongod
:
db.getSiblingDB("admin").shutdownServer()
Repeat until all config servers are offline.
Shut down shard replica set mongod
instances.
For each shard replica set, connect mongosh
to each
mongod
member in the replica set and shut them down. Shut down
the primary member last.
Use the db.shutdownServer()
method on the admin
database
to safely shut down the mongod
:
db.getSiblingDB("admin").shutdownServer()
Repeat this step for each shard replica set until all mongod
instances in all shard replica sets are offline.
Once this step is complete, the entire sharded cluster should be offline.
Enforce Access Control on the Config Servers.
Start each mongod
in the config server replica set.
Include the keyFile
setting. The keyFile
setting enforces
both Self-Managed Internal/Membership Authentication and
Role-Based Access Control in Self-Managed Deployments.
You can specify the mongod
settings either via a
configuration file or the command line.
Configuration File
If using a configuration file, for a config server replica
set, set security.keyFile
to the keyfile's path,
sharding.clusterRole
to configsvr
, and
replication.replSetName
to the name of the config
server replica set.
security: keyFile: <path-to-keyfile> sharding: clusterRole: configsvr replication: replSetName: <setname> storage: dbpath: <path>
Include additional options as required
for your configuration. For instance, if you wish remote clients to
connect to your deployment or your deployment members are run on
different hosts, specify the net.bindIp
setting.
Start the mongod
specifying the --config
option and the
path to the configuration file.
mongod --config <path-to-config>
Command Line
If using the command line parameters, for a config server replica
set, start the mongod
with the -keyFile
,
--configsvr
, and --replSet
parameters.
mongod --keyFile <path-to-keyfile> --configsvr --replSet <setname> --dbpath <path>
Include additional options as required for your configuration. For
instance, if you wish remote clients to connect to your deployment
or your deployment members are run on different hosts, specify the
--bind_ip
.
For more information on command line options, see the
mongod
reference page.
Make sure to use the original replica set name when restarting each member. You cannot change the name of a replica set.
Enforce Access Control for each Shard in the Sharded Cluster.
Running a mongod
with the keyFile
parameter enforces both
Self-Managed Internal/Membership Authentication and
Role-Based Access Control in Self-Managed Deployments.
Start each mongod
in the replica set using either
a configuration file or the command line.
Configuration File
If using a configuration file, set the
security.keyFile
option to the keyfile's path and the
replication.replSetName
option to the original name
of the replica set.
security: keyFile: <path-to-keyfile> replication: replSetName: <setname> storage: dbPath: <path>
Include additional options as required
for your configuration. For instance, if you wish remote clients to
connect to your deployment or your deployment members are run on
different hosts, specify the net.bindIp
setting.
Start the mongod
specifying the --config
option and the
path to the configuration file.
mongod --config <path-to-config-file>
Command Line
If using the command line parameters, start the mongod
and
specify the --keyFile
and --replSet
parameters.
mongod --keyfile <path-to-keyfile> --replSet <setname> --dbpath <path>
Include additional options as required for your configuration. For
instance, if you wish remote clients to connect to your deployment
or your deployment members are run on different hosts, specify the
--bind_ip
.
For more information on startup parameters,
see the mongod
reference page.
Make sure to use the original replica set name when restarting each member. You cannot change the name of a replica set.
Repeat this step until all shards in the cluster are online.
Create a Shard-Local User Administrator (Optional).
Important
The Localhost Exception in Self-Managed Deployments allows clients connected over the
localhost interface to create users on a mongod
enforcing access control. After creating the first user,
the Localhost Exception in Self-Managed Deployments closes.
The first user must have privileges to create other users, such
as a user with the userAdminAnyDatabase
. This ensures
that you can create additional users after the Localhost Exception in Self-Managed Deployments
closes.
If at least one user does not have privileges to create users, once the localhost exception closes you may be unable to create or modify users with new privileges, and therefore unable to access certain functions or operations.
For each shard replica set in the cluster, connect
mongosh
to the primary member over the
localhost interface. You must run
mongosh
on the same machine as the target
mongod
to use the localhost interface.
Create a user with the userAdminAnyDatabase
role on the admin
database. This user can create
additional users for the shard replica set as necessary.
Creating this user also closes the Localhost Exception in Self-Managed Deployments.
The following example creates the shard-local user fred
on the
admin
database.
Important
Passwords should be random, long, and complex to ensure system security and to prevent or delay malicious access.
Tip
You can use the passwordPrompt()
method in conjunction with
various user authentication/management methods/commands to prompt
for the password instead of specifying the password directly in the
method/command call. However, you can still specify the password
directly as you would with earlier versions of the
mongo
shell.
admin = db.getSiblingDB("admin") admin.createUser( { user: "fred", pwd: passwordPrompt(), // or cleartext password roles: [ { role: "userAdminAnyDatabase", db: "admin" } ] } )
Enforce Access Control for the mongos
servers.
Running a mongod
with the keyFile
parameter enforces both
Self-Managed Internal/Membership Authentication and
Role-Based Access Control in Self-Managed Deployments.
Start each mongos
in the replica set using either
a configuration file or the command line.
Configuration File
If using a configuration file, set the
security.keyFile
to the keyfile`s path and the
sharding.configDB
to the replica set name and at least
one member of the replica set in <replSetName>/<host:port>
format.
security: keyFile: <path-to-keyfile> sharding: configDB: <configReplSetName>/cfg1.example.net:27019,cfg2.example.net:27019,...
Include additional options as required
for your configuration. For instance, if you wish remote clients to
connect to your deployment or your deployment members are run on
different hosts, specify the net.bindIp
setting.
Start the mongos
specifying the --config
option and the
path to the configuration file.
mongos --config <path-to-config-file>
Command Line
If using command line parameters start the mongos
and specify
the --keyFile
and --configdb
parameters.
mongos --keyFile <path-to-keyfile> --configdb <configReplSetName>/cfg1.example.net:27019,cfg2.example.net:27019,...
Include additional options as required for your configuration. For
instance, if you wish remote clients to connect to your deployment
or your deployment members are run on different hosts, specify the
--bind_ip
.
At this point, the entire sharded cluster is back online and can
communicate internally using the keyfile specified. However, external
programs like mongosh
need to use a correctly
provisioned user in order to read or write to the cluster.
Connect to the mongos
instance over the localhost interface.
Connect mongosh
to one of the
mongos
instances over the localhost
interface. You must run mongosh
on the same physical machine as the mongos
instance.
The localhost interface is only available since no users have been created for the deployment. The localhost interface closes after the creation of the first user.
Create the user administrator.
Important
After you create the first user, the localhost exception is no longer available.
The first user must have privileges to create other users, such
as a user with the userAdminAnyDatabase
. This ensures
that you can create additional users after the Localhost Exception in Self-Managed Deployments
closes.
If at least one user does not have privileges to create users, once the localhost exception closes you cannot create or modify users, and therefore may be unable to perform necessary operations.
Add a user using the db.createUser()
method. The user should
have at minimum the userAdminAnyDatabase
role on the
admin
database.
Important
Passwords should be random, long, and complex to ensure system security and to prevent or delay malicious access.
The following example creates the user fred
on the
admin
database:
Tip
You can use the passwordPrompt()
method in conjunction with
various user authentication/management methods/commands to prompt
for the password instead of specifying the password directly in the
method/command call. However, you can still specify the password
directly as you would with earlier versions of the
mongo
shell.
admin = db.getSiblingDB("admin") admin.createUser( { user: "fred", pwd: passwordPrompt(), // or cleartext password roles: [ { role: "userAdminAnyDatabase", db: "admin" } ] } )
See Database User Roles for a full list of built-in roles and related to database administration operations.
Authenticate as the user administrator.
Use db.auth()
to authenticate as the user administrator
to create additional users:
Tip
You can use the passwordPrompt()
method in conjunction with
various user authentication/management methods/commands to prompt
for the password instead of specifying the password directly in the
method/command call. However, you can still specify the password
directly as you would with earlier versions of the
mongo
shell.
db.getSiblingDB("admin").auth("fred", passwordPrompt()) // or cleartext password
Enter the password when prompted.
Alternatively, connect a new mongosh
session to the
target replica set member using the -u <username>
,
-p <password>
, and the --authenticationDatabase "admin"
parameters. You must use the Localhost Exception in Self-Managed Deployments to connect
to the mongos
.
mongosh -u "fred" -p --authenticationDatabase "admin"
If you do not specify the password to the -p
command-line option, mongosh
prompts for the
password.
Create Administrative User for Cluster Management
The cluster administrator user has the clusterAdmin
role
for the sharded cluster and not the shard-local cluster
administrator.
The following example creates the user ravi
on the admin
database.
Important
Passwords should be random, long, and complex to ensure system security and to prevent or delay malicious access.
Tip
You can use the passwordPrompt()
method in conjunction with
various user authentication/management methods/commands to prompt
for the password instead of specifying the password directly in the
method/command call. However, you can still specify the password
directly as you would with earlier versions of the
mongo
shell.
db.getSiblingDB("admin").createUser( { "user" : "ravi", "pwd" : passwordPrompt(), // or cleartext password roles: [ { "role" : "clusterAdmin", "db" : "admin" } ] } )
See Cluster Administration Roles for a full list of built-in roles related to replica set and sharded cluster operations.
Authenticate as cluster admin.
To perform sharding operations, authenticate as a
clusterAdmin
user with either the
db.auth()
method or a new mongosh
session
with the username
, password
, and authenticationDatabase
parameters.
Note
This is the cluster administrator for the sharded cluster and not the shard-local cluster administrator.
Start the balancer.
Start the balancer.
sh.startBalancer()
Starting in MongoDB 6.0.3, automatic chunk splitting is not performed. This is because of balancing policy improvements. Auto-splitting commands still exist, but do not perform an operation. For details, see Balancing Policy Changes.
In MongoDB versions earlier than 6.0.3, sh.startBalancer()
also enables auto-splitting for the sharded cluster.
Use the sh.getBalancerState()
to verify the balancer has started.
See Manage Sharded Cluster Balancer for tutorials on the sharded cluster balancer.
Create additional users (Optional).
Create users to allow clients to connect and access the
sharded cluster. See Database User Roles for available built-in
roles, such as read
and readWrite
.
You may also want additional administrative users.
For more information on users, see Users in Self-Managed Deployments.
To create additional users, you must authenticate as a user with
userAdminAnyDatabase
or userAdmin
roles.
x.509 Internal Authentication
For details on using x.509 for internal authentication, see Use x.509 Certificate for Membership Authentication with Self-Managed MongoDB.
To upgrade from keyfile internal authentication to x.509 internal authentication, see Upgrade Self-Managed MongoDB from Keyfile Authentication to x.509 Authentication.