.TH mongod 1 .SH MONGOD .SH SYNOPSIS \fBmongod\f1\f1 is the primary daemon process for the MongoDB system. It handles data requests, manages data access, and performs background management operations. .PP This document provides a complete overview of all command line options for \fBmongod\f1\f1\&. These command line options are primarily useful for testing: In common operation, use the \fBconfiguration file options\f1 to control the behavior of your database. .PP \fBConfiguration File Settings and Command\-Line Options Mapping\f1 .PP MongoDB disables support for TLS 1.0 encryption on systems where TLS 1.1+ is available. For more details, see \fBDisable TLS 1.0\f1\&. .SH OPTIONS .RS .IP \(bu 2 MongoDB always enables journaling. As a result, MongoDB removes the \fBstorage.journal.enabled\f1 option and the corresponding \fB\-\-journal\f1 and \fB\-\-nojournal\f1 command\-line options. .RE .RS .IP \(bu 2 MongoDB removes the \fB\-\-cpu\f1 command\-line option. .RE .RS .IP \(bu 2 MongoDB removes the \fB\-\-serviceExecutor\f1 command\-line option and the corresponding \fBnet.serviceExecutor\f1 configuration option. .RE .RS .IP \(bu 2 MongoDB removes the \fB\-\-noIndexBuildRetry\f1 command\-line option and the corresponding \fBstorage.indexBuildRetry\f1 option. .RE .RS .IP \(bu 2 MongoDB deprecates the SSL options and instead adds new corresponding TLS options. .IP \(bu 2 MongoDB adds \fB\-\-tlsClusterCAFile\f1\f1/\fBnet.tls.clusterCAFile\f1\f1\&. .RE .SS CORE OPTIONS .PP \fBmongod \-\-help\f1, \fBmongod \-h\f1 .RS .PP Returns information on the options and use of \fBmongod\f1\f1\&. .RE .PP \fBmongod \-\-version\f1 .RS .PP Returns the \fBmongod\f1\f1 release number. .RE .PP \fBmongod \-\-config\f1, \fBmongod \-f\f1 .RS .PP Specifies a configuration file for runtime configuration options. The configuration file is the preferred method for runtime configuration of \fBmongod\f1\f1\&. The options are equivalent to the command\-line configuration options. See \fBConfiguration File Options\f1 for more information. .PP Ensure the configuration file uses ASCII encoding. The \fBmongod\f1\f1 instance does not support configuration files with non\-ASCII encoding, including UTF\-8. .RE .PP \fBmongod \-\-configExpand\f1 .RS .PP \fIDefault\f1: none .PP Enables using \fBExpansion Directives\f1 in configuration files. Expansion directives allow you to set externally sourced values for configuration file options. .PP \fB\-\-configExpand\f1\f1 supports the following expansion directives: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBnone\f1 .IP \(bu 4 Default. \fBmongod\f1\f1 does not expand expansion directives. \fBmongod\f1\f1 fails to start if any configuration file settings use expansion directives. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBrest\f1 .IP \(bu 4 \fBmongod\f1\f1 expands \fB__rest\f1 expansion directives when parsing the configuration file. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBexec\f1 .IP \(bu 4 \fBmongod\f1\f1 expands \fB__exec\f1 expansion directives when parsing the configuration file. .RE .RE .PP You can specify multiple expansion directives as a comma\-separated list, e.g. \fBrest, exec\f1\&. If the configuration file contains expansion directives not specified to \fB\-\-configExpand\f1\f1, the \fBmongod\f1\f1 returns an error and terminates. .PP See \fBExternally Sourced Configuration File Values\f1 for configuration files for more information on expansion directives. .RE .PP \fBmongod \-\-verbose\f1, \fBmongod \-v\f1 .RS .PP Increases the amount of internal reporting returned on standard output or in log files. Increase the verbosity with the \fB\-v\f1 form by including the option multiple times, (e.g. \fB\-vvvvv\f1\&.) .PP Starting in version 4.2, MongoDB includes the Debug verbosity level (1\-5) in the \fBlog messages\f1\&. For example, if the verbosity level is 2, MongoDB logs \fBD2\f1\&. In previous versions, MongoDB log messages only specified \fBD\f1 for Debug level. .RE .PP \fBmongod \-\-quiet\f1 .RS .PP Runs \fBmongod\f1\f1 in a quiet mode that attempts to limit the amount of output. .PP This option suppresses: .RS .IP \(bu 2 output from \fBdatabase commands\f1 .IP \(bu 2 replication activity .IP \(bu 2 connection accepted events .IP \(bu 2 connection closed events .RE .RE .PP \fBmongod \-\-port\f1 .RS .PP \fIDefault\f1: .RS .IP \(bu 2 27017 if \fBmongod\f1\f1 is not a shard member or a config server member .IP \(bu 2 27018 if \fBmongod\f1\f1 is a \fBshard member\f1\f1 .IP \(bu 2 27019 if \fBmongod\f1\f1 is a \fBconfig server member\f1\f1 .RE .PP The TCP port on which the MongoDB instance listens for client connections. .RE .PP \fBmongod \-\-bind_ip\f1 .RS .PP \fIDefault\f1: localhost .PP The hostnames and/or IP addresses and/or full Unix domain socket paths on which \fBmongod\f1\f1 should listen for client connections. You may attach \fBmongod\f1\f1 to any interface. To bind to multiple addresses, enter a list of comma\-separated values. .PP You can specify both IPv4 and IPv6 addresses, or hostnames that resolve to an IPv4 or IPv6 address. .PP If specifying an IPv6 address \fIor\f1 a hostname that resolves to an IPv6 address to \fB\-\-bind_ip\f1\f1, you must start \fBmongod\f1\f1 with \fB\-\-ipv6\f1\f1 to enable IPv6 support. Specifying an IPv6 address to \fB\-\-bind_ip\f1\f1 does not enable IPv6 support. .PP If specifying a link\-local IPv6 address (https://en.wikipedia.org/wiki/Link\-local_address#IPv6) (\fBfe80::/10\f1), you must append the zone index (https://en.wikipedia.org/wiki/IPv6_address#Scoped_literal_IPv6_addresses_(with_zone_index)) to that address (i.e. \fBfe80::
%\f1). .PP 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. .PP 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 will fail startup validation and will not start. .PP Before you bind your instance to a publicly\-accessible IP address, you must secure your cluster from unauthorized access. For a complete list of security recommendations, see \fBSecurity Checklist\f1\&. At minimum, consider \fBenabling authentication\f1 and \fBhardening network infrastructure\f1\&. .PP For more information about IP Binding, refer to the \fBIP Binding\f1 documentation. .PP To bind to all IPv4 addresses, enter \fB0.0.0.0\f1\&. .PP To bind to all IPv4 and IPv6 addresses, enter \fB::,0.0.0.0\f1 or starting in MongoDB 4.2, an asterisk \fB"*"\f1 (enclose the asterisk in quotes to avoid filename pattern expansion). Alternatively, use the \fBnet.bindIpAll\f1\f1 setting. .RS .IP \(bu 2 \fB\-\-bind_ip\f1 and \fB\-\-bind_ip_all\f1 are mutually exclusive. Specifying both options causes \fBmongod\f1\f1 to throw an error and terminate. .IP \(bu 2 The command\-line option \fB\-\-bind\f1 overrides the configuration file setting \fBnet.bindIp\f1\f1\&. .RE .RE .PP \fBmongod \-\-bind_ip_all\f1 .RS .PP If specified, the \fBmongod\f1\f1 instance binds to all IPv4 addresses (i.e. \fB0.0.0.0\f1). If \fBmongod\f1\f1 starts with \fB\-\-ipv6\f1\f1, \fB\-\-bind_ip_all\f1\f1 also binds to all IPv6 addresses (i.e. \fB::\f1). .PP \fBmongod\f1\f1 only supports IPv6 if started with \fB\-\-ipv6\f1\f1\&. Specifying \fB\-\-bind_ip_all\f1\f1 alone does not enable IPv6 support. .PP Before you bind your instance to a publicly\-accessible IP address, you must secure your cluster from unauthorized access. For a complete list of security recommendations, see \fBSecurity Checklist\f1\&. At minimum, consider \fBenabling authentication\f1 and \fBhardening network infrastructure\f1\&. .PP For more information about IP Binding, refer to the \fBIP Binding\f1 documentation. .PP Alternatively, you can set the \fB\-\-bind_ip\f1 option to \fB::,0.0.0.0\f1 or, starting in MongoDB 4.2, to an asterisk \fB"*"\f1 (enclose the asterisk in quotes to avoid filename pattern expansion). .PP \fB\-\-bind_ip\f1 and \fB\-\-bind_ip_all\f1 are mutually exclusive. That is, you can specify one or the other, but not both. .RE .PP \fBmongod \-\-clusterIpSourceAllowlist\f1 .RS .PP A list of IP addresses/CIDR (Classless Inter\-Domain Routing (https://tools.ietf.org/html/rfc4632)) ranges against which the \fBmongod\f1\f1 validates authentication requests from other members of the replica set and, if part of a sharded cluster, the \fBmongos\f1\f1 instances. The \fBmongod\f1\f1 verifies that the originating IP is either explicitly in the list or belongs to a CIDR range in the list. If the IP address is not present, the server does not authenticate the \fBmongod\f1\f1 or \fBmongos\f1\f1\&. .PP \fB\-\-clusterIpSourceAllowlist\f1\f1 has no effect on a \fBmongod\f1\f1 started without \fBauthentication\f1\&. .PP \fB\-\-clusterIpSourceAllowlist\f1\f1 accepts multiple comma\-separated IPv4/6 addresses or Classless Inter\-Domain Routing (CIDR (https://tools.ietf.org/html/rfc4632)) ranges: .PP .EX mongod \-\-clusterIpSourceAllowlist 192.0.2.0/24,127.0.0.1,::1 .EE .PP Ensure \fB\-\-clusterIpSourceAllowlist\f1\f1 includes the IP address \fIor\f1 CIDR ranges that include the IP address of each replica set member or \fBmongos\f1\f1 in the deployment to ensure healthy communication between cluster components. .RE .PP \fBmongod \-\-clusterIpSourceWhitelist\f1 .RS .PP \fIDeprecated in version 5.0:\f1 Use \fB\-\-clusterIpSourceAllowlist\f1\f1 instead. .PP A list of IP addresses/CIDR (Classless Inter\-Domain Routing (https://tools.ietf.org/html/rfc4632)) ranges against which the \fBmongod\f1\f1 validates authentication requests from other members of the replica set and, if part of a sharded cluster, the \fBmongos\f1\f1 instances. The \fBmongod\f1\f1 verifies that the originating IP is either explicitly in the list or belongs to a CIDR range in the list. If the IP address is not present, the server does not authenticate the \fBmongod\f1\f1 or \fBmongos\f1\f1\&. .PP \fB\-\-clusterIpSourceWhitelist\f1\f1 has no effect on a \fBmongod\f1\f1 started without \fBauthentication\f1\&. .PP \fB\-\-clusterIpSourceWhitelist\f1\f1 accepts multiple comma\-separated IPv4/6 addresses or Classless Inter\-Domain Routing (CIDR (https://tools.ietf.org/html/rfc4632)) ranges: .PP .EX mongod \-\-clusterIpSourceWhitelist 192.0.2.0/24,127.0.0.1,::1 .EE .PP Ensure \fB\-\-clusterIpSourceWhitelist\f1\f1 includes the IP address \fIor\f1 CIDR ranges that include the IP address of each replica set member or \fBmongos\f1\f1 in the deployment to ensure healthy communication between cluster components. .RE .PP \fBmongod \-\-ipv6\f1 .RS .PP Enables IPv6 support. \fBmongod\f1\f1 disables IPv6 support by default. .PP Setting \fB\-\-ipv6\f1\f1 does \fInot\f1 direct the \fBmongod\f1\f1 to listen on any local IPv6 addresses or interfaces. To configure the \fBmongod\f1\f1 to listen on an IPv6 interface, you must either: .RS .IP \(bu 2 Configure \fB\-\-bind_ip\f1\f1 with one or more IPv6 addresses or hostnames that resolve to IPv6 addresses, \fBor\f1 .IP \(bu 2 Set \fB\-\-bind_ip_all\f1\f1 to \fBtrue\f1\&. .RE .RE .PP \fBmongod \-\-listenBacklog\f1 .RS .PP \fIDefault\f1: Target system \fBSOMAXCONN\f1 constant .PP The maximum number of connections that can exist in the listen queue. .PP Consult your local system\(aqs documentation to understand the limitations and configuration requirements before using this parameter. .PP To prevent undefined behavior, specify a value for this parameter between \fB1\f1 and the local system \fBSOMAXCONN\f1 constant. .PP The default value for the \fBlistenBacklog\f1 parameter is set at compile time to the target system \fBSOMAXCONN\f1 constant. \fBSOMAXCONN\f1 is the maximum valid value that is documented for the \fIbacklog\f1 parameter to the \fIlisten\f1 system call. .PP Some systems may interpret \fBSOMAXCONN\f1 symbolically, and others numerically. The actual \fIlisten backlog\f1 applied in practice may differ from any numeric interpretation of the \fBSOMAXCONN\f1 constant or argument to \fB\-\-listenBacklog\f1, and may also be constrained by system settings like \fBnet.core.somaxconn\f1 on Linux. .PP Passing a value for the \fBlistenBacklog\f1 parameter that exceeds the \fBSOMAXCONN\f1 constant for the local system is, by the letter of the standards, undefined behavior. Higher values may be silently integer truncated, may be ignored, may cause unexpected resource consumption, or have other adverse consequences. .PP On systems with workloads that exhibit connection spikes, for which it is empirically known that the local system can honor higher values for the \fIbacklog\f1 parameter than the \fBSOMAXCONN\f1 constant, setting the \fBlistenBacklog\f1 parameter to a higher value may reduce operation latency as observed by the client by reducing the number of connections which are forced into a backoff state. .RE .PP \fBmongod \-\-maxConns\f1 .RS .PP The maximum number of simultaneous connections that \fBmongod\f1\f1 will accept. This setting has no effect if it is higher than your operating system\(aqs configured maximum connection tracking threshold. .PP Do not assign too low of a value to this option, or you will encounter errors during normal application operation. .RE .PP \fBmongod \-\-logpath\f1 .RS .PP Sends all diagnostic logging information to a log file instead of to standard output or to the host\(aqs \fBsyslog\f1 system. MongoDB creates the log file at the path you specify. .PP By default, MongoDB will move any existing log file rather than overwrite it. To instead append to the log file, set the \fB\-\-logappend\f1\f1 option. .RE .PP \fBmongod \-\-syslog\f1 .RS .PP Sends all logging output to the host\(aqs \fBsyslog\f1 system rather than to standard output or to a log file (\fB\-\-logpath\f1\f1). .PP The \fB\-\-syslog\f1\f1 option is not supported on Windows. .PP The \fBsyslog\f1 daemon generates timestamps when it logs a message, not when MongoDB issues the message. This can lead to misleading timestamps for log entries, especially when the system is under heavy load. We recommend using the \fB\-\-logpath\f1\f1 option for production systems to ensure accurate timestamps. .PP Starting in version 4.2, MongoDB includes the \fBcomponent\f1 in its log messages to \fBsyslog\f1\&. .PP .EX ... ACCESS [repl writer worker 5] Unsupported modification to roles collection ... .EE .RE .PP \fBmongod \-\-syslogFacility\f1 .RS .PP \fIDefault\f1: user .PP Specifies the facility level used when logging messages to syslog. The value you specify must be supported by your operating system\(aqs implementation of syslog. To use this option, you must enable the \fB\-\-syslog\f1\f1 option. .RE .PP \fBmongod \-\-logappend\f1 .RS .PP Appends new entries to the end of the existing log file when the \fBmongod\f1\f1 instance restarts. Without this option, \fBmongod\f1\f1 will back up the existing log and create a new file. .RE .PP \fBmongod \-\-logRotate\f1 .RS .PP \fIDefault\f1: rename .PP Determines the behavior for the \fBlogRotate\f1\f1 command when rotating the server log and/or the audit log. Specify either \fBrename\f1 or \fBreopen\f1: .RS .IP \(bu 2 \fBrename\f1 renames the log file. .IP \(bu 2 \fBreopen\f1 closes and reopens the log file following the typical Linux/Unix log rotate behavior. Use \fBreopen\f1 when using the Linux/Unix logrotate utility to avoid log loss. .IP If you specify \fBreopen\f1, you must also use \fB\-\-logappend\f1\f1\&. .RE .RE .PP \fBmongod \-\-timeStampFormat\f1 .RS .PP \fIDefault\f1: iso8601\-local .PP The time format for timestamps in log messages. Specify one of the following values: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBiso8601\-utc\f1 .IP \(bu 4 Displays timestamps in Coordinated Universal Time (UTC) in the ISO\-8601 format. For example, for New York at the start of the Epoch: \fB1970\-01\-01T00:00:00.000Z\f1 .RE .IP \(bu 2 .RS .IP \(bu 4 \fBiso8601\-local\f1 .IP \(bu 4 Displays timestamps in local time in the ISO\-8601 format. For example, for New York at the start of the Epoch: \fB1969\-12\-31T19:00:00.000\-05:00\f1 .RE .RE .PP Starting in MongoDB 4.4, \fB\-\-timeStampFormat\f1\f1 no longer supports \fBctime\f1\&. An example of \fBctime\f1 formatted date is: \fBWed Dec 31 18:17:54.811\f1\&. .RE .PP \fBmongod \-\-traceExceptions\f1 .RS .PP For internal diagnostic use only. .RE .PP \fBmongod \-\-pidfilepath\f1 .RS .PP Specifies a file location to store the process ID (PID) of the \fBmongod\f1\f1 process. The user running the \fBmongod\f1 or \fBmongos\f1 process must be able to write to this path. If the \fB\-\-pidfilepath\f1\f1 option is not specified, the process does not create a PID file. This option is generally only useful in combination with the \fB\-\-fork\f1\f1 option. .PP On Linux, PID file management is generally the responsibility of your distro\(aqs init system: usually a service file in the \fB/etc/init.d\f1 directory, or a systemd unit file registered with \fBsystemctl\f1\&. Only use the \fB\-\-pidfilepath\f1\f1 option if you are not using one of these init systems. For more information, please see the respective \fBInstallation Guide\f1 for your operating system. .PP On macOS, PID file management is generally handled by \fBbrew\f1\&. Only use the \fB\-\-pidfilepath\f1\f1 option if you are not using \fBbrew\f1 on your macOS system. For more information, please see the respective Installation Guide for your operating system. .RE .PP \fBmongod \-\-keyFile\f1 .RS .PP Specifies the path to a key file that stores the shared secret that MongoDB instances use to authenticate to each other in a \fBsharded cluster\f1 or \fBreplica set\f1\&. \fB\-\-keyFile\f1\f1 implies \fB\-\-auth\f1\f1\&. See \fBInternal/Membership Authentication\f1 for more information. .PP Starting in MongoDB 4.2, \fBkeyfiles for internal membership authentication\f1 use YAML format to allow for multiple keys in a keyfile. The YAML format accepts either: .RS .IP \(bu 2 A single key string (same as in earlier versions) .IP \(bu 2 A sequence of key strings .RE .PP The YAML format is compatible with the existing single\-key keyfiles that use the text file format. .RE .PP \fBmongod \-\-setParameter\f1 .RS .PP Specifies one of the MongoDB parameters described in \fBMongoDB Server Parameters\f1\&. You can specify multiple \fBsetParameter\f1 fields. .RE .PP \fBmongod \-\-nounixsocket\f1 .RS .PP Disables listening on the UNIX domain socket. \fB\-\-nounixsocket\f1\f1 applies only to Unix\-based systems. .PP The \fBmongod\f1\f1 process always listens on the UNIX socket unless one of the following is true: .RS .IP \(bu 2 \fB\-\-nounixsocket\f1\f1 is set .IP \(bu 2 \fBnet.bindIp\f1\f1 is not set .IP \(bu 2 \fBnet.bindIp\f1\f1 does not specify \fBlocalhost\f1 or its associated IP address .RE .PP \fBmongod\f1\f1 installed from official \fB\&.deb\f1 and \fB\&.rpm\f1 packages have the \fBbind_ip\f1 configuration set to \fB127.0.0.1\f1 by default. .RE .PP \fBmongod \-\-unixSocketPrefix\f1 .RS .PP \fIDefault\f1: /tmp .PP The path for the UNIX socket. \fB\-\-unixSocketPrefix\f1\f1 applies only to Unix\-based systems. .PP If this option has no value, the \fBmongod\f1\f1 process creates a socket with \fB/tmp\f1 as a prefix. MongoDB creates and listens on a UNIX socket unless one of the following is true: .RS .IP \(bu 2 \fBnet.unixDomainSocket.enabled\f1\f1 is \fBfalse\f1 .IP \(bu 2 \fB\-\-nounixsocket\f1\f1 is set .IP \(bu 2 \fBnet.bindIp\f1\f1 is not set .IP \(bu 2 \fBnet.bindIp\f1\f1 does not specify \fBlocalhost\f1 or its associated IP address .RE .RE .PP \fBmongod \-\-filePermissions\f1 .RS .PP \fIDefault\f1: \fB0700\f1 .PP Sets the permission for the UNIX domain socket file. .PP \fB\-\-filePermissions\f1\f1 applies only to Unix\-based systems. .RE .PP \fBmongod \-\-fork\f1 .RS .PP Enables a \fBdaemon\f1 mode that runs the \fBmongod\f1\f1 process in the background. By default \fBmongod\f1\f1 does not run as a daemon: typically you will run \fBmongod\f1\f1 as a daemon, either by using \fB\-\-fork\f1\f1 or by using a controlling process that handles the daemonization process (e.g. as with \fBupstart\f1 and \fBsystemd\f1). .PP Using the \fB\-\-fork\f1\f1 option requires that you configure log output for the \fBmongod\f1\f1 with one of the following: .RS .IP \(bu 2 \fB\-\-logpath\f1\f1 .IP \(bu 2 \fB\-\-syslog\f1\f1 .RE .PP The \fB\-\-fork\f1\f1 option is not supported on Windows. .RE .PP \fBmongod \-\-auth\f1 .RS .PP Enables authorization to control user\(aqs access to database resources and operations. When authorization is enabled, MongoDB requires all clients to authenticate themselves first in order to determine the access for the client. .PP To configure users, use the \fBmongosh\f1\f1 client. If no users exist, the localhost interface will continue to have access to the database until you create the first user. .PP See \fBSecurity\f1 for more information. .RE .PP \fBmongod \-\-noauth\f1 .RS .PP Disables authentication. Currently the default. Exists for future compatibility and clarity. .RE .PP \fBmongod \-\-transitionToAuth\f1 .RS .PP Allows the \fBmongod\f1\f1 to accept and create authenticated and non\-authenticated connections to and from other \fBmongod\f1\f1 and \fBmongos\f1\f1 instances in the deployment. Used for performing rolling transition of replica sets or sharded clusters from a no\-auth configuration to \fBinternal authentication\f1\&. Requires specifying a \fBinternal authentication\f1 mechanism such as \fB\-\-keyFile\f1\f1\&. .PP For example, if using \fBkeyfiles\f1 for \fBinternal authentication\f1, the \fBmongod\f1\f1 creates an authenticated connection with any \fBmongod\f1\f1 or \fBmongos\f1\f1 in the deployment using a matching keyfile. If the security mechanisms do not match, the \fBmongod\f1\f1 utilizes a non\-authenticated connection instead. .PP A \fBmongod\f1\f1 running with \fB\-\-transitionToAuth\f1\f1 does not enforce \fBuser access controls\f1\&. Users may connect to your deployment without any access control checks and perform read, write, and administrative operations. .PP A \fBmongod\f1\f1 running with \fBinternal authentication\f1 and \fIwithout\f1 \fB\-\-transitionToAuth\f1\f1 requires clients to connect using \fBuser access controls\f1\&. Update clients to connect to the \fBmongod\f1\f1 using the appropriate \fBuser\f1 prior to restarting \fBmongod\f1\f1 without \fB\-\-transitionToAuth\f1\f1\&. .RE .PP \fBmongod \-\-sysinfo\f1 .RS .PP Returns diagnostic system information and then exits. The information provides the page size, the number of physical pages, and the number of available physical pages. .RE .PP \fBmongod \-\-noscripting\f1 .RS .PP Disables the scripting engine. .RE .PP \fBmongod \-\-notablescan\f1 .RS .PP Forbids operations that require a collection scan. See \fBnotablescan\f1\f1 for additional information. .RE .PP \fBmongod \-\-shutdown\f1 .RS .PP The \fB\-\-shutdown\f1\f1 option cleanly and safely terminates the \fBmongod\f1\f1 process. When invoking \fBmongod\f1\f1 with this option you must set the \fB\-\-dbpath\f1\f1 option either directly or by way of the \fBconfiguration file\f1 and the \fB\-\-config\f1\f1 option. .PP The \fB\-\-shutdown\f1\f1 option is available only on Linux systems. .PP For additional ways to shut down, see also \fBStop mongod\f1 Processes\f1\&. .RE .PP \fBmongod \-\-redactClientLogData\f1 .RS .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP A \fBmongod\f1\f1 running with \fB\-\-redactClientLogData\f1\f1 redacts any message accompanying a given log event before logging. This prevents the \fBmongod\f1\f1 from writing potentially sensitive data stored on the database to the diagnostic log. Metadata such as error or operation codes, line numbers, and source file names are still visible in the logs. .PP Use \fB\-\-redactClientLogData\f1\f1 in conjunction with \fBEncryption at Rest\f1 and \fBTLS/SSL (Transport Encryption)\f1 to assist compliance with regulatory requirements. .PP For example, a MongoDB deployment might store Personally Identifiable Information (PII) in one or more collections. The \fBmongod\f1\f1 logs events such as those related to CRUD operations, sharding metadata, etc. It is possible that the \fBmongod\f1\f1 may expose PII as a part of these logging operations. A \fBmongod\f1\f1 running with \fB\-\-redactClientLogData\f1\f1 removes any message accompanying these events before being output to the log, effectively removing the PII. .PP Diagnostics on a \fBmongod\f1\f1 running with \fB\-\-redactClientLogData\f1\f1 may be more difficult due to the lack of data related to a log event. See the \fBprocess logging\f1 manual page for an example of the effect of \fB\-\-redactClientLogData\f1\f1 on log output. .PP On a running \fBmongod\f1\f1, use \fBsetParameter\f1\f1 with the \fBredactClientLogData\f1\f1 parameter to configure this setting. .RE .PP \fBmongod \-\-networkMessageCompressors\f1 .RS .PP \fIDefault\f1: snappy,zstd,zlib .PP Specifies the default compressor(s) to use for communication between this \fBmongod\f1\f1 instance and: .RS .IP \(bu 2 other members of the deployment if the instance is part of a replica set or a sharded cluster .IP \(bu 2 \fBmongosh\f1\f1 .IP \(bu 2 drivers that support the \fBOP_COMPRESSED\f1 message format. .RE .PP MongoDB supports the following compressors: .RS .IP \(bu 2 \fBsnappy\f1 .IP \(bu 2 \fBzlib\f1 .IP \(bu 2 \fBzstd\f1 .RE .PP Both \fBmongod\f1\f1 and \fBmongos\f1\f1 instances default to \fBsnappy,zstd,zlib\f1 compressors, in that order. .PP To disable network compression, set the value to \fBdisabled\f1\&. .PP Messages are compressed when both parties enable network compression. Otherwise, messages between the parties are uncompressed. .PP If you specify multiple compressors, then the order in which you list the compressors matter as well as the communication initiator. For example, if \fBmongosh\f1\f1 specifies the following network compressors \fBzlib,snappy\f1 and the \fBmongod\f1\f1 specifies \fBsnappy,zlib\f1, messages between \fBmongosh\f1\f1 and \fBmongod\f1\f1 uses \fBzlib\f1\&. .PP If the parties do not share at least one common compressor, messages between the parties are uncompressed. For example, if \fBmongosh\f1\f1 specifies the network compressor \fBzlib\f1 and \fBmongod\f1\f1 specifies \fBsnappy\f1, messages between \fBmongosh\f1\f1 and \fBmongod\f1\f1 are not compressed. .RE .PP \fBmongod \-\-timeZoneInfo\f1 .RS .PP The full path from which to load the time zone database. If this option is not provided, then MongoDB will use its built\-in time zone database. .PP The configuration file included with Linux and macOS packages sets the time zone database path to \fB/usr/share/zoneinfo\f1 by default. .PP The built\-in time zone database is a copy of the Olson/IANA time zone database (https://www.iana.org/time\-zones)\&. It is updated along with MongoDB releases, but the time zone database release cycle differs from the MongoDB release cycle. The most recent release of the time zone database is available on our download site (https://downloads.mongodb.org/olson_tz_db/timezonedb\-latest.zip)\&. .PP .EX wget https://downloads.mongodb.org/olson_tz_db/timezonedb\-latest.zip unzip timezonedb\-latest.zip mongod \-\-timeZoneInfo timezonedb\-2017b/ .EE .PP MongoDB uses the third party timelib (https://github.com/derickr/timelib) library to provide accurate conversions between timezones. Due to a recent update, \fBtimelib\f1 could create inaccurate time zone conversions in older versions of MongoDB. .PP To explicitly link to the time zone database in versions of MongoDB prior to 5.0, 4.4.7, and 4.2.14, download the time zone database (https://downloads.mongodb.org/olson_tz_db/timezonedb\-latest.zip)\&. and use the \fBtimeZoneInfo\f1\f1 parameter. .PP \fBprocessManagement.timeZoneInfo\f1\f1\&. .RE .PP \fBmongod \-\-outputConfig\f1 .RS .PP Outputs the \fBmongod\f1\f1 instance\(aqs configuration options, formatted in YAML, to \fBstdout\f1 and exits the \fBmongod\f1\f1 instance. For configuration options that uses \fBExternally Sourced Configuration File Values\f1, \fB\-\-outputConfig\f1\f1 returns the resolved value for those options. .PP This may include any configured passwords or secrets previously obfuscated through the external source. .PP For usage examples, see: .RS .IP \(bu 2 \fBOutput the Configuration File with Resolved Expansion Directive Values\f1 .IP \(bu 2 \fBConvert Command\-Line Options to YAML\f1 .RE .RE .SS FREE MONITORING .PP \fBmongod \-\-enableFreeMonitoring\f1 .RS .PP Enables or disables \fBfree MongoDB Cloud monitoring\f1\&. \fB\-\-enableFreeMonitoring\f1\f1 accepts the following values: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBruntime\f1 .IP \(bu 4 Default. You can enable or disable free monitoring during runtime. .IP To enable or disable free monitoring during runtime, see \fBdb.enableFreeMonitoring()\f1\f1 and \fBdb.disableFreeMonitoring()\f1\f1\&. .IP To enable or disable free monitoring during runtime when running with access control, users must have required privileges. See \fBdb.enableFreeMonitoring()\f1\f1 and \fBdb.disableFreeMonitoring()\f1\f1 for details. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBon\f1 .IP \(bu 4 Enables free monitoring at startup; i.e. registers for free monitoring. When enabled at startup, you cannot disable free monitoring during runtime. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBoff\f1 .IP \(bu 4 Disables free monitoring at startup, regardless of whether you have previously registered for free monitoring. When disabled at startup, you cannot enable free monitoring during runtime. .RE .RE .PP Once enabled, the free monitoring state remains enabled until explicitly disabled. That is, you do not need to re\-enable each time you start the server. .PP For the corresponding configuration file setting, see \fBcloud.monitoring.free.state\f1\f1\&. .RE .PP \fBmongod \-\-freeMonitoringTag\f1 .RS .PP Optional tag to describe environment context. The tag can be sent as part of the \fBfree MongoDB Cloud monitoring\f1 registration at start up. .PP For the corresponding configuration file setting, see \fBcloud.monitoring.free.tags\f1\f1\&. .RE .SS LDAP AUTHENTICATION OR AUTHORIZATION OPTIONS .PP \fBmongod \-\-ldapServers\f1 .RS .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP The LDAP server against which the \fBmongod\f1\f1 authenticates users or determines what actions a user is authorized to perform on a given database. If the LDAP server specified has any replicated instances, you may specify the host and port of each replicated server in a comma\-delimited list. .PP If your LDAP infrastructure partitions the LDAP directory over multiple LDAP servers, specify \fIone\f1 LDAP server or any of its replicated instances to \fB\-\-ldapServers\f1\f1\&. MongoDB supports following LDAP referrals as defined in RFC 4511 4.1.10 (https://www.rfc\-editor.org/rfc/rfc4511.txt)\&. Do not use \fB\-\-ldapServers\f1\f1 for listing every LDAP server in your infrastructure. .PP This setting can be configured on a running \fBmongod\f1\f1 using \fBsetParameter\f1\f1\&. .PP If unset, \fBmongod\f1\f1 cannot use \fBLDAP authentication or authorization\f1\&. .RE .PP \fBmongod \-\-ldapValidateLDAPServerConfig\f1 .RS .PP \fIAvailable in MongoDB Enterprise\f1 .PP A flag that determines if the \fBmongod\f1\f1 instance checks the availability of the \fBLDAP server(s)\f1\f1 as part of its startup: .RS .IP \(bu 2 If \fBtrue\f1, the \fBmongod\f1\f1 instance performs the availability check and only continues to start up if the LDAP server is available. .IP \(bu 2 If \fBfalse\f1, the \fBmongod\f1\f1 instance skips the availability check; i.e. the instance starts up even if the LDAP server is unavailable. .RE .RE .PP \fBmongod \-\-ldapQueryUser\f1 .RS .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP The identity with which \fBmongod\f1\f1 binds as, when connecting to or performing queries on an LDAP server. .PP Only required if any of the following are true: .RS .IP \(bu 2 Using \fBLDAP authorization\f1\&. .IP \(bu 2 Using an LDAP query for \fBusername transformation\f1\f1\&. .IP \(bu 2 The LDAP server disallows anonymous binds .RE .PP You must use \fB\-\-ldapQueryUser\f1\f1 with \fB\-\-ldapQueryPassword\f1\f1\&. .PP If unset, \fBmongod\f1\f1 will not attempt to bind to the LDAP server. .PP This setting can be configured on a running \fBmongod\f1\f1 using \fBsetParameter\f1\f1\&. .PP Windows MongoDB deployments can use \fB\-\-ldapBindWithOSDefaults\f1\f1 instead of \fB\-\-ldapQueryUser\f1\f1 and \fB\-\-ldapQueryPassword\f1\f1\&. You cannot specify both \fB\-\-ldapQueryUser\f1\f1 and \fB\-\-ldapBindWithOSDefaults\f1\f1 at the same time. .RE .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP The password used to bind to an LDAP server when using \fB\-\-ldapQueryUser\f1\f1\&. You must use \fB\-\-ldapQueryPassword\f1\f1 with \fB\-\-ldapQueryUser\f1\f1\&. .PP If not set, \fBmongod\f1\f1 does not attempt to bind to the LDAP server. .PP You can configure this setting on a running \fBmongod\f1\f1 using \fBsetParameter\f1\f1\&. .PP Starting in MongoDB 4.4, the \fBldapQueryPassword\f1 \fBsetParameter\f1\f1 command accepts either a string or an array of strings. If \fBldapQueryPassword\f1 is set to an array, MongoDB tries each password in order until one succeeds. Use a password array to roll over the LDAP account password without downtime. .PP Windows MongoDB deployments can use \fB\-\-ldapBindWithOSDefaults\f1\f1 instead of \fB\-\-ldapQueryUser\f1\f1 and \fB\-\-ldapQueryPassword\f1\f1\&. You cannot specify both \fB\-\-ldapQueryPassword\f1\f1 and \fB\-\-ldapBindWithOSDefaults\f1\f1 at the same time. .PP \fBmongod \-\-ldapBindWithOSDefaults\f1 .RS .PP \fIDefault\f1: false .PP Available in MongoDB Enterprise for the Windows platform only. .PP Allows \fBmongod\f1\f1 to authenticate, or bind, using your Windows login credentials when connecting to the LDAP server. .PP Only required if: .RS .IP \(bu 2 Using \fBLDAP authorization\f1\&. .IP \(bu 2 Using an LDAP query for \fBusername transformation\f1\f1\&. .IP \(bu 2 The LDAP server disallows anonymous binds .RE .PP Use \fB\-\-ldapBindWithOSDefaults\f1\f1 to replace \fB\-\-ldapQueryUser\f1\f1 and \fB\-\-ldapQueryPassword\f1\f1\&. .RE .PP \fBmongod \-\-ldapBindMethod\f1 .RS .PP \fIDefault\f1: simple .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP The method \fBmongod\f1\f1 uses to authenticate to an LDAP server. Use with \fB\-\-ldapQueryUser\f1\f1 and \fB\-\-ldapQueryPassword\f1\f1 to connect to the LDAP server. .PP \fB\-\-ldapBindMethod\f1\f1 supports the following values: .RS .IP \(bu 2 \fBsimple\f1 \- \fBmongod\f1\f1 uses simple authentication. .IP \(bu 2 \fBsasl\f1 \- \fBmongod\f1\f1 uses SASL protocol for authentication .RE .PP If you specify \fBsasl\f1, you can configure the available SASL mechanisms using \fB\-\-ldapBindSaslMechanisms\f1\f1\&. \fBmongod\f1\f1 defaults to using \fBDIGEST\-MD5\f1 mechanism. .RE .PP \fBmongod \-\-ldapBindSaslMechanisms\f1 .RS .PP \fIDefault\f1: DIGEST\-MD5 .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP A comma\-separated list of SASL mechanisms \fBmongod\f1\f1 can use when authenticating to the LDAP server. The \fBmongod\f1\f1 and the LDAP server must agree on at least one mechanism. The \fBmongod\f1\f1 dynamically loads any SASL mechanism libraries installed on the host machine at runtime. .PP Install and configure the appropriate libraries for the selected SASL mechanism(s) on both the \fBmongod\f1\f1 host and the remote LDAP server host. Your operating system may include certain SASL libraries by default. Defer to the documentation associated with each SASL mechanism for guidance on installation and configuration. .PP If using the \fBGSSAPI\f1 SASL mechanism for use with \fBKerberos Authentication\f1, verify the following for the \fBmongod\f1\f1 host machine: .PP \fBLinux\f1\f1 .RS .RS .IP \(bu 2 The \fBKRB5_CLIENT_KTNAME\f1 environment variable resolves to the name of the client \fBLinux Keytab Files\f1 for the host machine. For more on Kerberos environment variables, please defer to the Kerberos documentation (https://web.mit.edu/kerberos/krb5\-1.13/doc/admin/env_variables.html)\&. .IP \(bu 2 The client keytab includes a \fBUser Principal\f1 for the \fBmongod\f1\f1 to use when connecting to the LDAP server and execute LDAP queries. .RE .RE .PP \fBWindows\f1\f1 .RS .PP If connecting to an Active Directory server, the Windows Kerberos configuration automatically generates a Ticket\-Granting\-Ticket (https://msdn.microsoft.com/en\-us/library/windows/desktop/aa380510(v=vs.85).aspx) when the user logs onto the system. Set \fB\-\-ldapBindWithOSDefaults\f1\f1 to \fBtrue\f1 to allow \fBmongod\f1\f1 to use the generated credentials when connecting to the Active Directory server and execute queries. .RE .PP Set \fB\-\-ldapBindMethod\f1\f1 to \fBsasl\f1 to use this option. .PP For a complete list of SASL mechanisms see the IANA listing (http://www.iana.org/assignments/sasl\-mechanisms/sasl\-mechanisms.xhtml)\&. Defer to the documentation for your LDAP or Active Directory service for identifying the SASL mechanisms compatible with the service. .PP MongoDB is not a source of SASL mechanism libraries, nor is the MongoDB documentation a definitive source for installing or configuring any given SASL mechanism. For documentation and support, defer to the SASL mechanism library vendor or owner. .PP For more information on SASL, defer to the following resources: .RS .IP \(bu 2 For Linux, please see the Cyrus SASL documentation (https://www.cyrusimap.org/sasl/)\&. .IP \(bu 2 For Windows, please see the Windows SASL documentation (https://msdn.microsoft.com/en\-us/library/cc223500.aspx)\&. .RE .RE .PP \fBmongod \-\-ldapTransportSecurity\f1 .RS .PP \fIDefault\f1: tls .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP By default, \fBmongod\f1\f1 creates a TLS/SSL secured connection to the LDAP server. .PP For Linux deployments, you must configure the appropriate TLS Options in \fB/etc/openldap/ldap.conf\f1 file. Your operating system\(aqs package manager creates this file as part of the MongoDB Enterprise installation, via the \fBlibldap\f1 dependency. See the documentation for \fBTLS Options\f1 in the ldap.conf OpenLDAP documentation (http://www.openldap.org/software/man.cgi?query=ldap.conf&manpath=OpenLDAP+2.4\-Release) for more complete instructions. .PP For Windows deployment, you must add the LDAP server CA certificates to the Windows certificate management tool. The exact name and functionality of the tool may vary depending on operating system version. Please see the documentation for your version of Windows for more information on certificate management. .PP Set \fB\-\-ldapTransportSecurity\f1\f1 to \fBnone\f1 to disable TLS/SSL between \fBmongod\f1\f1 and the LDAP server. .PP Setting \fB\-\-ldapTransportSecurity\f1\f1 to \fBnone\f1 transmits plaintext information and possibly credentials between \fBmongod\f1\f1 and the LDAP server. .RE .PP \fBmongod \-\-ldapTimeoutMS\f1 .RS .PP \fIDefault\f1: 10000 .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP The amount of time in milliseconds \fBmongod\f1\f1 should wait for an LDAP server to respond to a request. .PP Increasing the value of \fB\-\-ldapTimeoutMS\f1\f1 may prevent connection failure between the MongoDB server and the LDAP server, if the source of the failure is a connection timeout. Decreasing the value of \fB\-\-ldapTimeoutMS\f1\f1 reduces the time MongoDB waits for a response from the LDAP server. .PP This setting can be configured on a running \fBmongod\f1\f1 using \fBsetParameter\f1\f1\&. .RE .PP \fBmongod \-\-ldapRetryCount\f1 .RS .PP \fIDefault\f1: 0 .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP Number of operation retries by the server LDAP manager after a network error. .RE .PP \fBmongod \-\-ldapUserToDNMapping\f1 .RS .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP Maps the username provided to \fBmongod\f1\f1 for authentication to a LDAP Distinguished Name (DN). You may need to use \fB\-\-ldapUserToDNMapping\f1\f1 to transform a username into an LDAP DN in the following scenarios: .RS .IP \(bu 2 Performing LDAP authentication with simple LDAP binding, where users authenticate to MongoDB with usernames that are not full LDAP DNs. .IP \(bu 2 Using an \fBLDAP authorization query template\f1\f1 that requires a DN. .IP \(bu 2 Transforming the usernames of clients authenticating to Mongo DB using different authentication mechanisms (e.g. x.509, kerberos) to a full LDAP DN for authorization. .RE .PP \fB\-\-ldapUserToDNMapping\f1\f1 expects a quote\-enclosed JSON\-string representing an ordered array of documents. Each document contains a regular expression \fBmatch\f1 and either a \fBsubstitution\f1 or \fBldapQuery\f1 template used for transforming the incoming username. .PP Each document in the array has the following form: .PP .EX { match: "" substitution: "" | ldapQuery: "" } .EE .RS .IP \(bu 2 .RS .IP \(bu 4 Field .IP \(bu 4 Description .IP \(bu 4 Example .RE .IP \(bu 2 .RS .IP \(bu 4 \fBmatch\f1 .IP \(bu 4 An ECMAScript\-formatted regular expression (regex) to match against a provided username. Each parenthesis\-enclosed section represents a regex capture group used by \fBsubstitution\f1 or \fBldapQuery\f1\&. .IP \(bu 4 \fB"(.+)ENGINEERING"\f1 \fB"(.+)DBA"\f1 .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsubstitution\f1 .IP \(bu 4 An LDAP distinguished name (DN) formatting template that converts the authentication name matched by the \fBmatch\f1 regex into a LDAP DN. Each curly bracket\-enclosed numeric value is replaced by the corresponding regex capture group (http://www.regular\-expressions.info/refcapture.html) extracted from the authentication username via the \fBmatch\f1 regex. .IP The result of the substitution must be an RFC4514 (https://www.ietf.org/rfc/rfc4514.txt) escaped string. .IP \(bu 4 \fB"cn={0},ou=engineering, dc=example,dc=com"\f1 .RE .IP \(bu 2 .RS .IP \(bu 4 \fBldapQuery\f1 .IP \(bu 4 A LDAP query formatting template that inserts the authentication name matched by the \fBmatch\f1 regex into an LDAP query URI encoded respecting RFC4515 and RFC4516. Each curly bracket\-enclosed numeric value is replaced by the corresponding regex capture group (http://www.regular\-expressions.info/refcapture.html) extracted from the authentication username via the \fBmatch\f1 expression. \fBmongod\f1\f1 executes the query against the LDAP server to retrieve the LDAP DN for the authenticated user. \fBmongod\f1\f1 requires exactly one returned result for the transformation to be successful, or \fBmongod\f1\f1 skips this transformation. .IP \(bu 4 \fB"ou=engineering,dc=example, dc=com??one?(user={0})"\f1 .RE .RE .PP An explanation of RFC4514 (https://www.ietf.org/rfc/rfc4514.txt), RFC4515 (https://tools.ietf.org/html/rfc4515), RFC4516 (https://tools.ietf.org/html/rfc4516), or LDAP queries is out of scope for the MongoDB Documentation. Please review the RFC directly or use your preferred LDAP resource. .PP For each document in the array, you must use either \fBsubstitution\f1 or \fBldapQuery\f1\&. You \fIcannot\f1 specify both in the same document. .PP When performing authentication or authorization, \fBmongod\f1\f1 steps through each document in the array in the given order, checking the authentication username against the \fBmatch\f1 filter. If a match is found, \fBmongod\f1\f1 applies the transformation and uses the output for authenticating the user. \fBmongod\f1\f1 does not check the remaining documents in the array. .PP If the given document does not match the provided authentication name, \fBmongod\f1\f1 continues through the list of documents to find additional matches. If no matches are found in any document, or the transformation the document describes fails, \fBmongod\f1\f1 returns an error. .PP Starting in MongoDB 4.4, \fBmongod\f1\f1 also returns an error if one of the transformations cannot be evaluated due to networking or authentication failures to the LDAP server. \fBmongod\f1\f1 rejects the connection request and does not check the remaining documents in the array. .PP Starting in MongoDB 5.0, \fB\-\-ldapUserToDNMapping\f1\f1 accepts an empty string \fB""\f1 or empty array \fB[ ]\f1 in place of a mapping documnent. If providing an empty string or empty array to \fB\-\-ldapUserToDNMapping\f1\f1, MongoDB will map the authenticated username as the LDAP DN. Previously, providing an empty mapping document would cause mapping to fail. .PP The following shows two transformation documents. The first document matches against any string ending in \fB@ENGINEERING\f1, placing anything preceeding the suffix into a regex capture group. The second document matches against any string ending in \fB@DBA\f1, placing anything preceeding the suffix into a regex capture group. .PP .EX "[ { match: "(.+)@ENGINEERING.EXAMPLE.COM", substitution: "cn={0},ou=engineering,dc=example,dc=com" }, { match: "(.+)@DBA.EXAMPLE.COM", ldapQuery: "ou=dba,dc=example,dc=com??one?(user={0})" } ]" .EE .PP A user with username \fBalice@ENGINEERING.EXAMPLE.COM\f1 matches the first document. The regex capture group \fB{0}\f1 corresponds to the string \fBalice\f1\&. The resulting output is the DN \fB"cn=alice,ou=engineering,dc=example,dc=com"\f1\&. .PP A user with username \fBbob@DBA.EXAMPLE.COM\f1 matches the second document. The regex capture group \fB{0}\f1 corresponds to the string \fBbob\f1\&. The resulting output is the LDAP query \fB"ou=dba,dc=example,dc=com??one?(user=bob)"\f1\&. \fBmongod\f1\f1 executes this query against the LDAP server, returning the result \fB"cn=bob,ou=dba,dc=example,dc=com"\f1\&. .PP If \fB\-\-ldapUserToDNMapping\f1\f1 is unset, \fBmongod\f1\f1 applies no transformations to the username when attempting to authenticate or authorize a user against the LDAP server. .PP This setting can be configured on a running \fBmongod\f1\f1 using the \fBsetParameter\f1\f1 database command. .RE .PP \fBmongod \-\-ldapAuthzQueryTemplate\f1 .RS .PP \fIAvailable in MongoDB Enterprise only.\f1 .PP A relative LDAP query URL formatted conforming to RFC4515 (https://tools.ietf.org/html/rfc4515) and RFC4516 (https://tools.ietf.org/html/rfc4516) that \fBmongod\f1\f1 executes to obtain the LDAP groups to which the authenticated user belongs to. The query is relative to the host or hosts specified in \fB\-\-ldapServers\f1\f1\&. .PP In the URL, you can use the following substituion tokens: .RS .IP \(bu 2 .RS .IP \(bu 4 Substitution Token .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fB{USER}\f1 .IP \(bu 4 Substitutes the authenticated username, or the \fBtransformed\f1\f1 username if a \fBusername mapping\f1\f1 is specified. .RE .IP \(bu 2 .RS .IP \(bu 4 \fB{PROVIDED_USER}\f1 .IP \(bu 4 Substitutes the supplied username, i.e. before either authentication or \fBLDAP transformation\f1\f1\&. .RE .RE .PP When constructing the query URL, ensure that the order of LDAP parameters respects RFC4516: .PP .EX [ dn [ ? [attributes] [ ? [scope] [ ? [filter] [ ? [Extensions] ] ] ] ] ] .EE .PP If your query includes an attribute, \fBmongod\f1\f1 assumes that the query retrieves a the DNs which this entity is member of. .PP If your query does not include an attribute, \fBmongod\f1\f1 assumes the query retrieves all entities which the user is member of. .PP For each LDAP DN returned by the query, \fBmongod\f1\f1 assigns the authorized user a corresponding role on the \fBadmin\f1 database. If a role on the on the \fBadmin\f1 database exactly matches the DN, \fBmongod\f1\f1 grants the user the roles and privileges assigned to that role. See the \fBdb.createRole()\f1\f1 method for more information on creating roles. .PP This LDAP query returns any groups listed in the LDAP user object\(aqs \fBmemberOf\f1 attribute. .PP .EX "{USER}?memberOf?base" .EE .PP Your LDAP configuration may not include the \fBmemberOf\f1 attribute as part of the user schema, may possess a different attribute for reporting group membership, or may not track group membership through attributes. Configure your query with respect to your own unique LDAP configuration. .PP If unset, \fBmongod\f1\f1 cannot authorize users using LDAP. .PP This setting can be configured on a running \fBmongod\f1\f1 using the \fBsetParameter\f1\f1 database command. .PP An explanation of RFC4515 (https://tools.ietf.org/html/rfc4515), RFC4516 (https://tools.ietf.org/html/rfc4516) or LDAP queries is out of scope for the MongoDB Documentation. Please review the RFC directly or use your preferred LDAP resource. .RE .SS STORAGE OPTIONS .PP \fBmongod \-\-storageEngine\f1 .RS .PP \fIDefault\f1: \fBwiredTiger\f1 .PP Starting in version 4.2, MongoDB removes the deprecated MMAPv1 storage engine. .PP Specifies the storage engine for the \fBmongod\f1\f1 database. Available values include: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBwiredTiger\f1 .IP \(bu 4 To specify the \fBWiredTiger Storage Engine\f1\&. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBinMemory\f1 .IP \(bu 4 To specify the \fBIn\-Memory Storage Engine\f1\&. .IP \fIAvailable in MongoDB Enterprise only.\f1 .RE .RE .PP If you attempt to start a \fBmongod\f1\f1 with a \fB\-\-dbpath\f1\f1 that contains data files produced by a storage engine other than the one specified by \fB\-\-storageEngine\f1\f1, \fBmongod\f1\f1 will refuse to start. .RE .PP \fBmongod \-\-dbpath\f1 .RS .PP \fIDefault\f1: \fB/data/db\f1 on Linux and macOS, \fB\data\db\f1 on Windows .PP The directory where the \fBmongod\f1\f1 instance stores its data. .PP If using the default \fBConfiguration File\f1 included with a package manager installation of MongoDB, the corresponding \fBstorage.dbPath\f1\f1 setting uses a different default. .PP The files in \fB\-\-dbpath\f1\f1 must correspond to the storage engine specified in \fB\-\-storageEngine\f1\f1\&. If the data files do not correspond to \fB\-\-storageEngine\f1\f1, \fBmongod\f1\f1 will refuse to start. .RE .PP \fBmongod \-\-directoryperdb\f1 .RS .PP Uses a separate directory to store data for each database. The directories are under the \fB\-\-dbpath\f1\f1 directory, and each subdirectory name corresponds to the database name. .PP Not available for \fBmongod\f1\f1 instances that use the \fBin\-memory storage engine\f1\&. .PP Starting in MongoDB 5.0, dropping the final collection in a database (or dropping the database itself) when \fB\-\-directoryperdb\f1\f1 is enabled deletes the newly empty subdirectory for that database. .PP To change the \fB\-\-directoryperdb\f1\f1 option for existing deployments: .RS .IP \(bu 2 For standalone instances: .RS .IP \(bu 4 Use \fBmongodump\f1\f1 on the existing \fBmongod\f1\f1 instance to generate a backup. .IP \(bu 4 Stop the \fBmongod\f1\f1 instance. .IP \(bu 4 Add the \fB\-\-directoryperdb\f1\f1 value \fBand\f1 configure a new data directory .IP \(bu 4 Restart the \fBmongod\f1\f1 instance. .IP \(bu 4 Use \fBmongorestore\f1\f1 to populate the new data directory. .RE .IP \(bu 2 For replica sets: .RS .IP \(bu 4 Stop a secondary member. .IP \(bu 4 Add the \fB\-\-directoryperdb\f1\f1 value \fBand\f1 configure a new data directory to that secondary member. .IP \(bu 4 Restart that secondary. .IP \(bu 4 Use \fBinitial sync\f1 to populate the new data directory. .IP \(bu 4 Update remaining secondaries in the same fashion. .IP \(bu 4 Step down the primary, and update the stepped\-down member in the same fashion. .RE .RE .RE .PP \fBmongod \-\-syncdelay\f1 .RS .PP \fIDefault\f1: 60 .PP Controls how much time can pass before MongoDB flushes data to the data files via an \fBfsync\f1 operation. .PP \fBDo not set this value on production systems.\f1 In almost every situation, you should use the default setting. .PP If you set \fB\-\-syncdelay\f1\f1 to \fB0\f1, MongoDB will not sync the memory mapped files to disk. .PP The \fBmongod\f1\f1 process writes data very quickly to the journal and lazily to the data files. \fB\-\-syncdelay\f1\f1 has no effect on \fBjournaling\f1, but if \fB\-\-syncdelay\f1\f1 is set to \fB0\f1 the journal will eventually consume all available disk space. .PP Not available for \fBmongod\f1\f1 instances that use the \fBin\-memory storage engine\f1\&. .RE .PP \fBmongod \-\-upgrade\f1 .RS .PP Upgrades the on\-disk data format of the files specified by the \fB\-\-dbpath\f1\f1 to the latest version, if needed. .PP This option only affects the operation of the \fBmongod\f1\f1 if the data files are in an old format. .PP In most cases you should not set this value, so you can exercise the most control over your upgrade process. See the MongoDB release notes for more information about the upgrade process. .RE .PP \fBmongod \-\-repair\f1 .RS .PP Runs a repair routine on all databases for a \fBmongod\f1\f1 instance. .PP Starting in MongoDB 5.0: .RS .IP \(bu 2 The repair operation validates the collections to find any inconsistencies and fixes them if possible, which avoids rebuilding the indexes. .IP \(bu 2 If a collection\(aqs data file is salvaged or if the collection has inconsistencies that the validate step is unable to fix, then all indexes are rebuilt. .RE .PP In MongoDB 4.4 and previous versions, the repair operation attempts to: .RS .IP \(bu 2 Salvage corrupt data. The operation discards any corrupt data that cannot be salvaged. .IP \(bu 2 Rebuild indexes. The operation validates collections and rebuilds all indexes for collections with inconsistencies between the collection data and one or more indexes. The operation also rebuilds indexes for all salvaged and modified collections. (\fIChanged in version 4.4.\f1) .RE .PP If you are running with \fBjournaling\f1 enabled, there is almost never any need to run repair since the server can use the journal files to restore the data files to a clean state automatically. However, you may need to run repair in cases where you need to recover from a disk\-level data corruption. .RS .IP \(bu 2 Only use \fBmongod \-\-repair\f1\f1 if you have no other options. The operation removes and does not save any corrupt data during the repair process. .IP \(bu 2 Avoid running \fB\-\-repair\f1\f1 against a replica set member: .RS .IP \(bu 4 To repair a \fBreplica set\f1 member, if you have an intact copy of your data available (e.g. a recent backup or an intact member of the \fBreplica set\f1), restore from that intact copy instead(see \fBResync a Member of a Replica Set\f1). .IP \(bu 4 If you do choose to run \fBmongod \-\-repair\f1\f1 against a replica set member and the operation modifies the data or the metadata, you must still perform a full resync in order for the member to rejoin the replica set. .RE .IP \(bu 2 Before using \fB\-\-repair\f1\f1, make a backup copy of the \fBdbpath\f1\f1 directory. .IP \(bu 2 If repair fails to complete for any reason, you must restart the instance using the \fB\-\-repair\f1\f1 option. .RE .RE .PP \fBmongod \-\-journalCommitInterval\f1 .RS .PP \fIDefault\f1: 100 .PP The maximum amount of time in milliseconds that the \fBmongod\f1\f1 process allows between journal operations. Values can range from 1 to 500 milliseconds. Lower values increase the durability of the journal, at the expense of disk performance. .PP On WiredTiger, the default journal commit interval is 100 milliseconds. Additionally, a write that includes or implies \fBj:true\f1 will cause an immediate sync of the journal. For details or additional conditions that affect the frequency of the sync, see \fBJournaling Process\f1\&. .PP Not available for \fBmongod\f1\f1 instances that use the \fBin\-memory storage engine\f1\&. .PP Known Issue in 4.2.0: The \fB\-\-journalCommitInterval\f1\f1 is missing in 4.2.0. .RE .SS WIREDTIGER OPTIONS .PP \fBmongod \-\-wiredTigerCacheSizeGB\f1 .RS .PP Defines the maximum size of the internal cache that WiredTiger will use for all data. The memory consumed by an index build (see \fBmaxIndexBuildMemoryUsageMegabytes\f1\f1) is separate from the WiredTiger cache memory. .PP Values can range from \fB0.25\f1 GB to \fB10000\f1 GB. .PP Starting in MongoDB 3.4, the default WiredTiger internal cache size is the larger of either: .RS .IP \(bu 2 50% of (RAM \- 1 GB), or .IP \(bu 2 256 MB. .RE .PP For example, on a system with a total of 4GB of RAM the WiredTiger cache will use 1.5GB of RAM (\fB0.5 * (4 GB \- 1 GB) = 1.5 GB\f1). Conversely, a system with a total of 1.25 GB of RAM will allocate 256 MB to the WiredTiger cache because that is more than half of the total RAM minus one gigabyte (\fB0.5 * (1.25 GB \- 1 GB) = 128 MB < 256 MB\f1). .PP In some instances, such as when running in a container, the database can have memory constraints that are lower than the total system memory. In such instances, this memory limit, rather than the total system memory, is used as the maximum RAM available. .PP To see the memory limit, see \fBhostInfo.system.memLimitMB\f1\f1\&. .PP Avoid increasing the WiredTiger internal cache size above its default value. .PP With WiredTiger, MongoDB utilizes both the WiredTiger internal cache and the filesystem cache. .PP Via the filesystem cache, MongoDB automatically uses all free memory that is not used by the WiredTiger cache or by other processes. .PP The \fB\-\-wiredTigerCacheSizeGB\f1\f1 limits the size of the WiredTiger internal cache. The operating system will use the available free memory for filesystem cache, which allows the compressed MongoDB data files to stay in memory. In addition, the operating system will use any free RAM to buffer file system blocks and file system cache. .PP To accommodate the additional consumers of RAM, you may have to decrease WiredTiger internal cache size. .PP The default WiredTiger internal cache size value assumes that there is a single \fBmongod\f1\f1 instance per machine. If a single machine contains multiple MongoDB instances, then you should decrease the setting to accommodate the other \fBmongod\f1\f1 instances. .PP If you run \fBmongod\f1\f1 in a container (e.g. \fBlxc\f1, \fBcgroups\f1, Docker, etc.) that does \fInot\f1 have access to all of the RAM available in a system, you must set \fB\-\-wiredTigerCacheSizeGB\f1\f1 to a value less than the amount of RAM available in the container. The exact amount depends on the other processes running in the container. See \fBmemLimitMB\f1\f1\&. .RE .PP \fBmongod \-\-wiredTigerMaxCacheOverflowFileSizeGB\f1 .RS .PP MongoDB deprecates the \fB\-\-wiredTigerMaxCacheOverflowFileSizeGB\f1 option. The option has no effect starting in MongoDB 4.4. .PP Specifies the maximum size (in GB) for the "lookaside (or cache overflow) table" file WiredTigerLAS.wt for MongoDB 4.2.1\-4.2.x. The file no longer exists starting in version 4.4. .PP The setting can accept the following values: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fB0\f1 .IP \(bu 4 The default value. If set to \fB0\f1, the file size is unbounded. .RE .IP \(bu 2 .RS .IP \(bu 4 number >= 0.1 .IP \(bu 4 The maximum size (in GB). If the WiredTigerLAS.wt file exceeds this size, \fBmongod\f1\f1 exits with a fatal assertion. You can clear the WiredTigerLAS.wt file and restart \fBmongod\f1\f1\&. .RE .RE .PP To change the maximum size during runtime, use the \fBwiredTigerMaxCacheOverflowSizeGB\f1\f1 parameter. .RE .PP \fBmongod \-\-wiredTigerJournalCompressor\f1 .RS .PP \fIDefault\f1: snappy .PP Specifies the type of compression to use to compress WiredTiger journal data. .PP Available compressors are: .RS .IP \(bu 2 \fBnone\f1 .IP \(bu 2 \fBsnappy\f1 .IP \(bu 2 \fBzlib\f1 .IP \(bu 2 \fBzstd\f1 (Available starting in MongoDB 4.2) .RE .RE .PP \fBmongod \-\-wiredTigerDirectoryForIndexes\f1 .RS .PP When you start \fBmongod\f1\f1 with \fB\-\-wiredTigerDirectoryForIndexes\f1\f1, \fBmongod\f1\f1 stores indexes and collections in separate subdirectories under the data (i.e. \fB\-\-dbpath\f1\f1) directory. Specifically, \fBmongod\f1\f1 stores the indexes in a subdirectory named \fBindex\f1 and the collection data in a subdirectory named \fBcollection\f1\&. .PP By using a symbolic link, you can specify a different location for the indexes. Specifically, when \fBmongod\f1\f1 instance is \fBnot\f1 running, move the \fBindex\f1 subdirectory to the destination and create a symbolic link named \fBindex\f1 under the data directory to the new destination. .RE .PP \fBmongod \-\-wiredTigerCollectionBlockCompressor\f1 .RS .PP \fIDefault\f1: snappy .PP Specifies the default compression for collection data. You can override this on a per\-collection basis when creating collections. .PP Available compressors are: .RS .IP \(bu 2 \fBnone\f1 .IP \(bu 2 \fBsnappy\f1 .IP \(bu 2 \fBzlib\f1 .IP \(bu 2 \fBzstd\f1 (Available starting MongoDB 4.2) .RE .PP \fB\-\-wiredTigerCollectionBlockCompressor\f1\f1 affects all collections created. If you change the value of \fB\-\-wiredTigerCollectionBlockCompressor\f1\f1 on an existing MongoDB deployment, all new collections will use the specified compressor. Existing collections will continue to use the compressor specified when they were created, or the default compressor at that time. .RE .PP \fBmongod \-\-wiredTigerIndexPrefixCompression\f1 .RS .PP \fIDefault\f1: true .PP Enables or disables \fBprefix compression\f1 for index data. .PP Specify \fBtrue\f1 for \fB\-\-wiredTigerIndexPrefixCompression\f1\f1 to enable \fBprefix compression\f1 for index data, or \fBfalse\f1 to disable prefix compression for index data. .PP The \fB\-\-wiredTigerIndexPrefixCompression\f1\f1 setting affects all indexes created. If you change the value of \fB\-\-wiredTigerIndexPrefixCompression\f1\f1 on an existing MongoDB deployment, all new indexes will use prefix compression. Existing indexes are not affected. .RE .SS REPLICATION OPTIONS .PP \fBmongod \-\-replSet\f1 .RS .PP Configures replication. Specify a replica set name as an argument to this set. All hosts in the replica set must have the same set name. .PP If your application connects to more than one replica set, each set must have a distinct name. Some drivers group replica set connections by replica set name. .RE .PP \fBmongod \-\-oplogSize\f1 .RS .PP Specifies a maximum size in megabytes for the replication operation log (i.e., the \fBoplog\f1). .PP The oplog can grow past its configured size limit to avoid deleting the \fBmajority commit point\f1\f1\&. .PP By default, the \fBmongod\f1\f1 process creates an \fBoplog\f1 based on the maximum amount of space available. For 64\-bit systems, the oplog is typically 5% of available disk space. .PP Once the \fBmongod\f1\f1 has created the oplog for the first time, changing the \fB\-\-oplogSize\f1\f1 option will not affect the size of the oplog. To change the minimum oplog retention period after starting the \fBmongod\f1\f1, use \fBreplSetResizeOplog\f1\f1\&. \fBreplSetResizeOplog\f1\f1 enables you to resize the oplog dynamically without restarting the \fBmongod\f1\f1 process. To persist the changes made using \fBreplSetResizeOplog\f1\f1 through a restart, update the value of \fB\-\-oplogSize\f1\f1\&. .PP See \fBOplog Size\f1 for more information. .RE .PP \fBmongod \-\-oplogMinRetentionHours\f1 .RS .PP Specifies the minimum number of hours to preserve an oplog entry, where the decimal values represent the fractions of an hour. For example, a value of \fB1.5\f1 represents one hour and thirty minutes. .PP The value must be greater than or equal to \fB0\f1\&. A value of \fB0\f1 indicates that the \fBmongod\f1\f1 should truncate the oplog starting with the oldest entries to maintain the configured maximum oplog size. .PP Defaults to \fB0\f1\&. .PP A \fBmongod\f1\f1 started with \fB\-\-oplogMinRetentionHours\f1 only removes an oplog entry \fIif\f1: .RS .IP \(bu 2 The oplog has reached the maximum configured oplog size \fIand\f1 .IP \(bu 2 The oplog entry is older than the configured number of hours based on the host system clock. .RE .PP The \fBmongod\f1\f1 has the following behavior when configured with a minimum oplog retention period: .RS .IP \(bu 2 The oplog can grow without constraint so as to retain oplog entries for the configured number of hours. This may result in reduction or exhaustion of system disk space due to a combination of high write volume and large retention period. .IP \(bu 2 If the oplog grows beyond its maximum size, the \fBmongod\f1\f1 may continue to hold that disk space even if the oplog returns to its maximum size \fIor\f1 is configured for a smaller maximum size. See \fBReducing Oplog Size Does Not Immediately Return Disk Space\f1\&. .IP \(bu 2 The \fBmongod\f1\f1 compares the system wall clock to an oplog entries creation wall clock time when enforcing oplog entry retention. Clock drift between cluster components may result in unexpected oplog retention behavior. See \fBClock Synchronization\f1 for more information on clock synchronization across cluster members. .RE .PP To change the minimum oplog retention period after starting the \fBmongod\f1\f1, use \fBreplSetResizeOplog\f1\f1\&. \fBreplSetResizeOplog\f1\f1 enables you to resize the oplog dynamically without restarting the \fBmongod\f1\f1 process. To persist the changes made using \fBreplSetResizeOplog\f1\f1 through a restart, update the value of \fB\-\-oplogMinRetentionHours\f1\f1\&. .RE .PP \fBmongod \-\-enableMajorityReadConcern\f1 .RS .PP \fIDefault\f1: true .PP Configures support for \fB"majority"\f1\f1 read concern. .PP Starting in MongoDB 5.0, \fB\-\-enableMajorityReadConcern\f1\f1 cannot be changed and is always set to \fBtrue\f1\&. In earlier versions of MongoDB, \fB\-\-enableMajorityReadConcern\f1\f1 was configurable. .PP If you are using a three\-member primary\-secondary\-arbiter (PSA) architecture, consider the following: .RS .IP \(bu 2 The write concern \fB"majority"\f1\f1 can cause performance issues if a secondary is unavailable or lagging. For advice on how to mitigate these issues, see \fBMitigate Performance Issues with PSA Replica Set\f1\&. .IP \(bu 2 If you are using a global default \fB"majority"\f1\f1 and the write concern is less than the size of the majority, your queries may return stale (not fully replicated) data. .RE .RE .SS SHARDED CLUSTER OPTIONS .PP \fBmongod \-\-configsvr\f1 .RS .PP \fIRequired if starting a config server.\f1 .PP Declares that this \fBmongod\f1\f1 instance serves as the \fBconfig server\f1 of a sharded cluster. When running with this option, clients (i.e. other cluster components) cannot write data to any database other than \fBconfig\f1 and \fBadmin\f1\&. The default port for a \fBmongod\f1\f1 with this option is \fB27019\f1 and the default \fB\-\-dbpath\f1\f1 directory is \fB/data/configdb\f1, unless specified. .PP When starting a MongoDB server with \fB\-\-configsvr\f1, you must also specify a \fB\-\-replSet\f1\f1\&. .PP The use of the deprecated mirrored \fBmongod\f1\f1 instances as config servers (SCCC) is no longer supported. .PP The replica set config servers (CSRS) must run the \fBWiredTiger storage engine\f1\&. .PP The \fB\-\-configsvr\f1\f1 option creates a local \fBoplog\f1\&. .PP Do not use the \fB\-\-configsvr\f1\f1 option with \fB\-\-shardsvr\f1\f1\&. Config servers cannot be a shard server. .PP Do not use the \fB\-\-configsvr\f1\f1 with the \fBskipShardingConfigurationChecks\f1\f1 parameter. That is, if you are temporarily starting the \fBmongod\f1\f1 as a standalone for maintenance operations, include the parameter \fBskipShardingConfigurationChecks\f1\f1 and exclude \fB\-\-configsvr\f1\f1\&. Once maintenance has completed, remove the \fBskipShardingConfigurationChecks\f1\f1 parameter and restart with \fB\-\-configsvr\f1\f1\&. .RE .PP \fBmongod \-\-shardsvr\f1 .RS .PP \fIRequired if starting a shard server.\f1 .PP Configures this \fBmongod\f1\f1 instance as a shard in a sharded cluster. The default port for these instances is \fB27018\f1\&. .PP When starting a MongoDB server with \fB\-\-shardsvr\f1, you must also specify a \fB\-\-replSet\f1\f1\&. .PP Do not use the \fB\-\-shardsvr\f1\f1 with the \fBskipShardingConfigurationChecks\f1\f1 parameter. That is, if you are temporarily starting the \fBmongod\f1\f1 as a standalone for maintenance operations, include the parameter \fBskipShardingConfigurationChecks\f1\f1 and exclude \fB\-\-shardsvr\f1\f1\&. Once maintenance has completed, remove the \fBskipShardingConfigurationChecks\f1\f1 parameter and restart with \fB\-\-shardsvr\f1\f1\&. .RE .PP \fBmongod \-\-moveParanoia\f1 .RS .PP If specified, during chunk migration, a shard saves, to the \fBmoveChunk\f1 directory of the \fB\-\-dbpath\f1, all documents migrated from that shard. .PP MongoDB does not automatically delete the data saved in the \fBmoveChunk\f1 directory. .RE .PP \fBmongod \-\-noMoveParanoia\f1 .RS .PP During chunk migration, a shard does not save documents migrated from the shard. .PP This is the default behavior. .RE .SS TLS OPTIONS .PP \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 for full documentation of MongoDB\(aqs support. .PP \fBmongod \-\-tlsMode\f1 .RS .PP Enables TLS used for all network connections. The argument to the \fB\-\-tlsMode\f1\f1 option can be one of the following: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBdisabled\f1 .IP \(bu 4 The server does not use TLS. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBallowTLS\f1 .IP \(bu 4 Connections between servers do not use TLS. For incoming connections, the server accepts both TLS and non\-TLS. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBpreferTLS\f1 .IP \(bu 4 Connections between servers use TLS. For incoming connections, the server accepts both TLS and non\-TLS. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBrequireTLS\f1 .IP \(bu 4 The server uses and accepts only TLS encrypted connections. .RE .RE .PP If \fB\-\-tlsCAFile\f1 or \fBtls.CAFile\f1 is not specified and you are not using x.509 authentication, the system\-wide CA certificate store will be used when connecting to an TLS\-enabled server. .PP If using x.509 authentication, \fB\-\-tlsCAFile\f1 or \fBtls.CAFile\f1 must be specified unless using \fB\-\-tlsCertificateSelector\f1\f1\&. .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsCertificateKeyFile\f1 .RS .PP Specifies the \&.pem file that contains both the TLS certificate and key. .PP On macOS or Windows, you can use the \fB\-\-tlsCertificateSelector\f1\f1 option to specify a certificate from the operating system\(aqs secure certificate store instead of a PEM key file. \fB\-\-tlsCertificateKeyFile\f1\f1 and \fB\-\-tlsCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .RS .IP \(bu 2 On Linux/BSD, you must specify \fB\-\-tlsCertificateKeyFile\f1\f1 when TLS/SSL is enabled. .IP \(bu 2 On Windows or macOS, you must specify either \fB\-\-tlsCertificateKeyFile\f1\f1 or \fB\-\-tlsCertificateSelector\f1\f1 when TLS/SSL is enabled. .IP For Windows \fBonly\f1, MongoDB does not support encrypted PEM files. The \fBmongod\f1\f1 fails to start if it encounters an encrypted PEM file. To securely store and access a certificate for use with TLS on Windows, use \fB\-\-tlsCertificateSelector\f1\f1\&. .RE .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsCertificateKeyFilePassword\f1 .RS .PP Specifies the password to decrypt the certificate\-key file (i.e. \fB\-\-tlsCertificateKeyFile\f1\f1). Use the \fB\-\-tlsCertificateKeyFilePassword\f1\f1 option only if the certificate\-key file is encrypted. In all cases, the \fBmongod\f1\f1 will redact the password from all logging and reporting output. .RS .IP \(bu 2 On Linux/BSD, if the private key in the PEM file is encrypted and you do not specify the \fB\-\-tlsCertificateKeyFilePassword\f1\f1 option, MongoDB will prompt for a passphrase. See \fBTLS/SSL Certificate Passphrase\f1\&. .IP \(bu 2 On macOS, if the private key in the PEM file is encrypted, you must explicitly specify the \fB\-\-tlsCertificateKeyFilePassword\f1\f1 option. Alternatively, you can use a certificate from the secure system store (see \fB\-\-tlsCertificateSelector\f1\f1) instead of a PEM file or use an unencrypted PEM file. .IP \(bu 2 On Windows, MongoDB does not support encrypted certificates. The \fBmongod\f1\f1 fails if it encounters an encrypted PEM file. Use \fB\-\-tlsCertificateSelector\f1\f1 instead. .RE .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-clusterAuthMode\f1 .RS .PP \fIDefault\f1: keyFile .PP The authentication mode used for cluster authentication. If you use \fBinternal x.509 authentication\f1, specify so here. This option can have one of the following values: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBkeyFile\f1 .IP \(bu 4 Use a keyfile for authentication. Accept only keyfiles. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsendKeyFile\f1 .IP \(bu 4 For rolling upgrade purposes. Send a keyfile for authentication but can accept both keyfiles and x.509 certificates. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsendX509\f1 .IP \(bu 4 For rolling upgrade purposes. Send the x.509 certificate for authentication but can accept both keyfiles and x.509 certificates. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBx509\f1 .IP \(bu 4 Recommended. Send the x.509 certificate for authentication and accept only x.509 certificates. .RE .RE .PP If \fB\-\-tlsCAFile\f1 or \fBtls.CAFile\f1 is not specified and you are not using x.509 authentication, the system\-wide CA certificate store will be used when connecting to an TLS\-enabled server. .PP If using x.509 authentication, \fB\-\-tlsCAFile\f1 or \fBtls.CAFile\f1 must be specified unless using \fB\-\-tlsCertificateSelector\f1\f1\&. .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsClusterFile\f1 .RS .PP Specifies the \&.pem file that contains the x.509 certificate\-key file for \fBmembership authentication\f1 for the cluster or replica set. .PP On macOS or Windows, you can use the \fB\-\-tlsClusterCertificateSelector\f1\f1 option to specify a certificate from the operating system\(aqs secure certificate store instead of a PEM key file. \fB\-\-tlsClusterFile\f1\f1 and \fB\-\-tlsClusterCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .PP If \fB\-\-tlsClusterFile\f1\f1 does not specify the \fB\&.pem\f1 file for internal cluster authentication or the alternative \fB\-\-tlsClusterCertificateSelector\f1\f1, the cluster uses the \fB\&.pem\f1 file specified in the \fB\-\-tlsCertificateKeyFile\f1\f1 option or the certificate returned by the \fB\-\-tlsCertificateSelector\f1\f1\&. .PP If using x.509 authentication, \fB\-\-tlsCAFile\f1 or \fBtls.CAFile\f1 must be specified unless using \fB\-\-tlsCertificateSelector\f1\f1\&. .PP \fBmongod\f1\f1 / \fBmongos\f1\f1 logs a warning on connection if the presented x.509 certificate expires within \fB30\f1 days of the \fBmongod/mongos\f1 host system time. See \fBx.509 Certificates Nearing Expiry Trigger Warnings\f1 for more information. .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .PP For Windows \fBonly\f1, MongoDB does not support encrypted PEM files. The \fBmongod\f1\f1 fails to start if it encounters an encrypted PEM file. To securely store and access a certificate for use with membership authentication on Windows, use \fB\-\-tlsClusterCertificateSelector\f1\f1\&. .RE .PP \fBmongod \-\-tlsCertificateSelector\f1 .RS .PP Available on Windows and macOS as an alternative to \fB\-\-tlsCertificateKeyFile\f1\f1\&. .PP Specifies a certificate property in order to select a matching certificate from the operating system\(aqs certificate store to use for TLS. .PP The \fB\-\-tlsCertificateKeyFile\f1\f1 and \fB\-\-tlsCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .PP \fB\-\-tlsCertificateSelector\f1\f1 accepts an argument of the format \fB=\f1 where the property can be one of the following: .RS .IP \(bu 2 .RS .IP \(bu 4 Property .IP \(bu 4 Value type .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsubject\f1 .IP \(bu 4 ASCII string .IP \(bu 4 Subject name or common name on certificate .RE .IP \(bu 2 .RS .IP \(bu 4 \fBthumbprint\f1 .IP \(bu 4 hex string .IP \(bu 4 A sequence of bytes, expressed as hexadecimal, used to identify a public key by its SHA\-1 digest. .IP The \fBthumbprint\f1 is sometimes referred to as a \fBfingerprint\f1\&. .RE .RE .PP When using the system SSL certificate store, OCSP (Online Certificate Status Protocol) is used to validate the revocation status of certificates. .PP The \fBmongod\f1\f1 searches the operating system\(aqs secure certificate store for the CA certificates required to validate the full certificate chain of the specified TLS certificate. Specifically, the secure certificate store must contain the root CA and any intermediate CA certificates required to build the full certificate chain to the TLS certificate. Do \fBnot\f1 use \fB\-\-tlsCAFile\f1\f1 or \fB\-\-tlsClusterCAFile\f1\f1 to specify the root and intermediate CA certificate .PP For example, if the TLS/SSL certificate was signed with a single root CA certificate, the secure certificate store must contain that root CA certificate. If the TLS/SSL certificate was signed with an intermediate CA certificate, the secure certificate store must contain the intermedia CA certificate \fIand\f1 the root CA certificate. .PP You cannot use the \fBrotateCertificates\f1\f1 command or the \fBdb.rotateCertificates()\f1\f1 shell method when using \fBnet.tls.certificateSelector\f1\f1 or \fB\-\-tlsCertificateSelector\f1\f1 set to \fBthumbprint\f1 .RE .PP \fBmongod \-\-tlsClusterCertificateSelector\f1 .RS .PP Available on Windows and macOS as an alternative to \fB\-\-tlsClusterFile\f1\f1\&. .PP Specifies a certificate property in order to select a matching certificate from the operating system\(aqs certificate store to use for \fBinternal x.509 membership authentication\f1\&. .PP \fB\-\-tlsClusterFile\f1\f1 and \fB\-\-tlsClusterCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .PP \fB\-\-tlsClusterCertificateSelector\f1\f1 accepts an argument of the format \fB=\f1 where the property can be one of the following: .RS .IP \(bu 2 .RS .IP \(bu 4 Property .IP \(bu 4 Value type .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsubject\f1 .IP \(bu 4 ASCII string .IP \(bu 4 Subject name or common name on certificate .RE .IP \(bu 2 .RS .IP \(bu 4 \fBthumbprint\f1 .IP \(bu 4 hex string .IP \(bu 4 A sequence of bytes, expressed as hexadecimal, used to identify a public key by its SHA\-1 digest. .IP The \fBthumbprint\f1 is sometimes referred to as a \fBfingerprint\f1\&. .RE .RE .PP The \fBmongod\f1\f1 searches the operating system\(aqs secure certificate store for the CA certificates required to validate the full certificate chain of the specified cluster certificate. Specifically, the secure certificate store must contain the root CA and any intermediate CA certificates required to build the full certificate chain to the cluster certificate. Do \fBnot\f1 use \fB\-\-tlsCAFile\f1\f1 or \fB\-\-tlsClusterCAFile\f1\f1 to specify the root and intermediate CA certificate. .PP For example, if the cluster certificate was signed with a single root CA certificate, the secure certificate store must contain that root CA certificate. If the cluster certificate was signed with an intermediate CA certificate, the secure certificate store must contain the intermedia CA certificate \fIand\f1 the root CA certificate. .PP \fBmongod\f1\f1 / \fBmongos\f1\f1 logs a warning on connection if the presented x.509 certificate expires within \fB30\f1 days of the \fBmongod/mongos\f1 host system time. See \fBx.509 Certificates Nearing Expiry Trigger Warnings\f1 for more information. .RE .PP \fBmongod \-\-tlsClusterPassword\f1 .RS .PP Specifies the password to decrypt the x.509 certificate\-key file specified with \fB\-\-tlsClusterFile\f1\f1\&. Use the \fB\-\-tlsClusterPassword\f1\f1 option only if the certificate\-key file is encrypted. In all cases, the \fBmongod\f1\f1 will redact the password from all logging and reporting output. .RS .IP \(bu 2 On Linux/BSD, if the private key in the x.509 file is encrypted and you do not specify the \fB\-\-tlsClusterPassword\f1\f1 option, MongoDB will prompt for a passphrase. See \fBTLS/SSL Certificate Passphrase\f1\&. .IP \(bu 2 On macOS, if the private key in the x.509 file is encrypted, you must explicitly specify the \fB\-\-tlsClusterPassword\f1\f1 option. Alternatively, you can either use a certificate from the secure system store (see \fB\-\-tlsClusterCertificateSelector\f1\f1) instead of a cluster PEM file or use an unencrypted PEM file. .IP \(bu 2 On Windows, MongoDB does not support encrypted certificates. The \fBmongod\f1\f1 fails if it encounters an encrypted PEM file. Use \fB\-\-tlsClusterCertificateSelector\f1\f1 instead. .RE .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsCAFile\f1 .RS .PP Specifies the \&.pem file that contains the root certificate chain from the Certificate Authority. Specify the file name of the \&.pem file using relative or absolute paths. .PP \fBWindows/macOS Only\f1 .RS .PP If using \fB\-\-tlsCertificateSelector\f1\f1 and/or \fB\-\-tlsClusterCertificateSelector\f1\f1, do \fBnot\f1 use \fB\-\-tlsCAFile\f1\f1 to specify the root and intermediate CA certificates. Store all CA certificates required to validate the full trust chain of the \fB\-\-tlsCertificateSelector\f1\f1 and/or \fB\-\-tlsClusterCertificateSelector\f1\f1 certificates in the secure certificate store. .RE .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsClusterCAFile\f1 .RS .PP Specifies the \&.pem file that contains the root certificate chain from the Certificate Authority used to validate the certificate presented by a client establishing a connection. Specify the file name of the \&.pem file using relative or absolute paths. \fB\-\-tlsClusterCAFile\f1\f1 requires that \fB\-\-tlsCAFile\f1\f1 is set. .PP If \fB\-\-tlsClusterCAFile\f1\f1 does not specify the \&.pem file for validating the certificate from a client establishing a connection, the cluster uses the \&.pem file specified in the \fB\-\-tlsCAFile\f1\f1 option. .PP \fB\-\-tlsClusterCAFile\f1\f1 lets you use separate Certificate Authorities to verify the client to server and server to client portions of the TLS handshake. .PP \fBWindows/macOS Only\f1 .RS .PP If using \fB\-\-tlsCertificateSelector\f1\f1 and/or \fB\-\-tlsClusterCertificateSelector\f1\f1, do \fBnot\f1 use \fB\-\-tlsClusterCAFile\f1\f1 to specify the root and intermediate CA certificates. Store all CA certificates required to validate the full trust chain of the \fB\-\-tlsCertificateSelector\f1\f1 and/or \fB\-\-tlsClusterCertificateSelector\f1\f1 certificates in the secure certificate store. .RE .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsCRLFile\f1 .RS .PP Specifies the \&.pem file that contains the Certificate Revocation List. Specify the file name of the \&.pem file using relative or absolute paths. .RS .IP \(bu 2 You cannot specify a CRL file on macOS. Instead, you can use the system SSL certificate store, which uses OCSP (Online Certificate Status Protocol) to validate the revocation status of certificates. See \fB\-\-tlsCertificateSelector\f1\f1 to use the system SSL certificate store. .IP \(bu 2 Starting in version 4.4, to check for certificate revocation, MongoDB \fBenables\f1\f1 the use of OCSP (Online Certificate Status Protocol) by default as an alternative to specifying a CRL file or using the system SSL certificate store. .RE .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsAllowInvalidCertificates\f1 .RS .PP Bypasses the validation checks for TLS certificates on other servers in the cluster and allows the use of invalid certificates to connect. .PP If you specify \fB\-\-tlsAllowInvalidCertificates\f1 or \fBtls.allowInvalidCertificates: true\f1 when using x.509 authentication, an invalid certificate is only sufficient to establish a TLS connection but is \fIinsufficient\f1 for authentication. .PP When using the \fB\-\-tlsAllowInvalidCertificates\f1\f1 setting, MongoDB logs a warning regarding the use of the invalid certificate. .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsAllowInvalidHostnames\f1 .RS .PP Disables the validation of the hostnames in TLS certificates, when connecting to other members of the replica set or sharded cluster for inter\-process authentication. This allows \fBmongod\f1\f1 to connect to other members if the hostnames in their certificates do not match their configured hostname. .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsAllowConnectionsWithoutCertificates\f1 .RS .PP For clients that don\(aqt provide certificates, \fBmongod\f1\f1 or \fBmongos\f1\f1 encrypts the TLS/SSL connection, assuming the connection is successfully made. .PP For clients that present a certificate, however, \fBmongod\f1\f1 performs certificate validation using the root certificate chain specified by \fB\-\-tlsCAFile\f1 and reject clients with invalid certificates. .PP Use the \fB\-\-tlsAllowConnectionsWithoutCertificates\f1\f1 option if you have a mixed deployment that includes clients that do not or cannot present certificates to the \fBmongod\f1\f1\&. .PP For more information about TLS and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-tlsDisabledProtocols\f1 .RS .PP Prevents a MongoDB server running with TLS from accepting incoming connections that use a specific protocol or protocols. To specify multiple protocols, use a comma separated list of protocols. .PP \fB\-\-tlsDisabledProtocols\f1\f1 recognizes the following protocols: \fBTLS1_0\f1, \fBTLS1_1\f1, \fBTLS1_2\f1, and \fBTLS1_3\f1\&. .RS .IP \(bu 2 On macOS, you cannot disable \fBTLS1_1\f1 and leave both \fBTLS1_0\f1 and \fBTLS1_2\f1 enabled. You must disable at least one of the other two, for example, \fBTLS1_0,TLS1_1\f1\&. .IP \(bu 2 To list multiple protocols, specify as a comma separated list of protocols. For example \fBTLS1_0,TLS1_1\f1\&. .IP \(bu 2 Specifying an unrecognized protocol will prevent the server from starting. .IP \(bu 2 The specified disabled protocols overrides any default disabled protocols. .RE .PP MongoDB disables the use of TLS 1.0 if TLS 1.1+ is available on the system. To enable the disabled TLS 1.0, specify \fBnone\f1 to \fB\-\-tlsDisabledProtocols\f1\f1\&. See \fBDisable TLS 1.0\f1\&. .PP Members of replica sets and sharded clusters must speak at least one protocol in common. .PP \fBDisallow Protocols\f1 .RE .PP \fBmongod \-\-tlsFIPSMode\f1 .RS .PP Directs the \fBmongod\f1\f1 to use the FIPS mode of the TLS library. Your system must have a FIPS compliant library to use the \fB\-\-tlsFIPSMode\f1\f1 option. .PP FIPS\-compatible TLS/SSL is available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server)\&. See \fBConfigure MongoDB for FIPS\f1 for more information. .RE .SS SSL OPTIONS (DEPRECATED) .PP All SSL options are deprecated since 4.2. Use the \fBTLS counterparts\f1 instead, as they have identical functionality to the SSL options. The SSL protocol is deprecated and MongoDB supports TLS 1.0 and later. .PP \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 for full documentation of MongoDB\(aqs support. .PP \fBmongod \-\-sslOnNormalPorts\f1 .RS .PP Use \fB\-\-tlsMode requireTLS\f1\f1 instead. .PP Enables TLS/SSL for \fBmongod\f1\f1\&. .PP With \fB\-\-sslOnNormalPorts\f1\f1, a \fBmongod\f1\f1 requires TLS/SSL encryption for all connections on the default MongoDB port, or the port specified by \fB\-\-port\f1\f1\&. By default, \fB\-\-sslOnNormalPorts\f1\f1 is disabled. .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslMode\f1 .RS .PP Use \fB\-\-tlsMode\f1\f1 instead. .PP Enables TLS/SSL or mixed TLS/SSL used for all network connections. The argument to the \fB\-\-sslMode\f1\f1 option can be one of the following: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBdisabled\f1 .IP \(bu 4 The server does not use TLS/SSL. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBallowSSL\f1 .IP \(bu 4 Connections between servers do not use TLS/SSL. For incoming connections, the server accepts both TLS/SSL and non\-TLS/non\-SSL. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBpreferSSL\f1 .IP \(bu 4 Connections between servers use TLS/SSL. For incoming connections, the server accepts both TLS/SSL and non\-TLS/non\-SSL. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBrequireSSL\f1 .IP \(bu 4 The server uses and accepts only TLS/SSL encrypted connections. .RE .RE .PP If \fB\-\-tlsCAFile\f1/\fBnet.tls.CAFile\f1 (or their aliases \fB\-\-sslCAFile\f1/\fBnet.ssl.CAFile\f1) is not specified and you are not using x.509 authentication, the system\-wide CA certificate store will be used when connecting to an TLS/SSL\-enabled server. .PP To use x.509 authentication, \fB\-\-tlsCAFile\f1 or \fBnet.tls.CAFile\f1 must be specified unless you are using \fB\-\-tlsCertificateSelector\f1 or \fB\-\-net.tls.certificateSelector\f1\&. .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslPEMKeyFile\f1 .RS .PP Use \fB\-\-tlsCertificateKeyFile\f1\f1 instead. .PP Specifies the \&.pem file that contains both the TLS/SSL certificate and key. .PP On macOS or Windows, you can use the \fB\-\-sslCertificateSelector\f1\f1 option to specify a certificate from the operating system\(aqs secure certificate store instead of a PEM key file. \fB\-\-sslPEMKeyFile\f1\f1 and \fB\-\-sslCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .RS .IP \(bu 2 On Linux/BSD, you must specify \fB\-\-sslPEMKeyFile\f1\f1 when TLS/SSL is enabled. .IP \(bu 2 On Windows or macOS, you must specify either \fB\-\-sslPEMKeyFile\f1\f1 or \fB\-\-sslCertificateSelector\f1\f1 when TLS/SSL is enabled. .IP For Windows \fBonly\f1, MongoDB does not support encrypted PEM files. The \fBmongod\f1\f1 fails to start if it encounters an encrypted PEM file. To securely store and access a certificate for use with TLS/SSL on Windows, use \fB\-\-sslCertificateSelector\f1\f1\&. .RE .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslPEMKeyPassword\f1 .RS .PP Use \fB\-\-tlsCertificateKeyFilePassword\f1\f1 instead. .PP Specifies the password to decrypt the certificate\-key file (i.e. \fB\-\-sslPEMKeyFile\f1\f1). Use the \fB\-\-sslPEMKeyPassword\f1\f1 option only if the certificate\-key file is encrypted. In all cases, the \fBmongod\f1\f1 will redact the password from all logging and reporting output. .RS .IP \(bu 2 On Linux/BSD, if the private key in the PEM file is encrypted and you do not specify the \fB\-\-sslPEMKeyPassword\f1\f1 option, MongoDB will prompt for a passphrase. See \fBTLS/SSL Certificate Passphrase\f1\&. .IP \(bu 2 On macOS, if the private key in the PEM file is encrypted, you must explicitly specify the \fB\-\-sslPEMKeyPassword\f1\f1 option. Alternatively, you can use a certificate from the secure system store (see \fB\-\-sslCertificateSelector\f1\f1) instead of a PEM key file or use an unencrypted PEM file. .IP \(bu 2 On Windows, MongoDB does not support encrypted certificates. The \fBmongod\f1\f1 fails if it encounters an encrypted PEM file. Use \fB\-\-sslCertificateSelector\f1\f1 instead. .RE .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslClusterFile\f1 .RS .PP Use \fB\-\-tlsClusterFile\f1\f1 instead. .PP Specifies the \&.pem file that contains the x.509 certificate\-key file for \fBmembership authentication\f1 for the cluster or replica set. .PP On macOS or Windows, you can use the \fB\-\-sslClusterCertificateSelector\f1\f1 option to specify a certificate from the operating system\(aqs secure certificate store instead of a PEM key file. \fB\-\-sslClusterFile\f1\f1 and \fB\-\-sslClusterCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .PP If \fB\-\-sslClusterFile\f1\f1 does not specify the \fB\&.pem\f1 file for internal cluster authentication or the alternative \fB\-\-sslClusterCertificateSelector\f1\f1, the cluster uses the \fB\&.pem\f1 file specified in the \fB\-\-sslPEMKeyFile\f1\f1 option or the certificate returned by the \fB\-\-sslCertificateSelector\f1\f1\&. .PP To use x.509 authentication, \fB\-\-tlsCAFile\f1 or \fBnet.tls.CAFile\f1 must be specified unless you are using \fB\-\-tlsCertificateSelector\f1 or \fB\-\-net.tls.certificateSelector\f1\&. .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .PP For Windows \fBonly\f1, MongoDB does not support encrypted PEM files. The \fBmongod\f1\f1 fails to start if it encounters an encrypted PEM file. To securely store and access a certificate for use with membership authentication on Windows, use \fB\-\-sslClusterCertificateSelector\f1\f1\&. .RE .PP \fBmongod \-\-sslCertificateSelector\f1 .RS .PP Use \fB\-\-tlsCertificateSelector\f1\f1 instead. .PP Available on Windows and macOS as an alternative to \fB\-\-tlsCertificateKeyFile\f1\f1\&. .PP Specifies a certificate property to select a matching certificate from the operating system\(aqs secure certificate store to use for TLS/SSL. .PP \fB\-\-sslPEMKeyFile\f1\f1 and \fB\-\-sslCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .PP \fB\-\-sslCertificateSelector\f1\f1 accepts an argument of the format \fB=\f1 where the property can be one of the following: .RS .IP \(bu 2 .RS .IP \(bu 4 Property .IP \(bu 4 Value type .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsubject\f1 .IP \(bu 4 ASCII string .IP \(bu 4 Subject name or common name on certificate .RE .IP \(bu 2 .RS .IP \(bu 4 \fBthumbprint\f1 .IP \(bu 4 hex string .IP \(bu 4 A sequence of bytes, expressed as hexadecimal, used to identify a public key by its SHA\-1 digest. .IP The \fBthumbprint\f1 is sometimes referred to as a \fBfingerprint\f1\&. .RE .RE .PP When using the system SSL certificate store, OCSP (Online Certificate Status Protocol) is used to validate the revocation status of certificates. .PP The \fBmongod\f1\f1 searches the operating system\(aqs secure certificate store for the CA certificates required to validate the full certificate chain of the specified TLS/SSL certificate. Specifically, the secure certificate store must contain the root CA and any intermediate CA certificates required to build the full certificate chain to the TLS/SSL certificate. Do \fBnot\f1 use \fB\-\-sslCAFile\f1\f1 or \fB\-\-sslClusterCAFile\f1\f1 to specify the root and intermediate CA certificate .PP For example, if the TLS/SSL certificate was signed with a single root CA certificate, the secure certificate store must contain that root CA certificate. If the TLS/SSL certificate was signed with an intermediate CA certificate, the secure certificate store must contain the intermedia CA certificate \fIand\f1 the root CA certificate. .RE .PP \fBmongod \-\-sslClusterCertificateSelector\f1 .RS .PP Use \fB\-\-tlsClusterCertificateSelector\f1\f1 instead. .PP Available on Windows and macOS as an alternative to \fB\-\-sslClusterFile\f1\f1\&. .PP Specifies a certificate property to select a matching certificate from the operating system\(aqs secure certificate store to use for \fBinternal x.509 membership authentication\f1\&. .PP \fB\-\-sslClusterFile\f1\f1 and \fB\-\-sslClusterCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .PP \fB\-\-sslClusterCertificateSelector\f1\f1 accepts an argument of the format \fB=\f1 where the property can be one of the following: .RS .IP \(bu 2 .RS .IP \(bu 4 Property .IP \(bu 4 Value type .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsubject\f1 .IP \(bu 4 ASCII string .IP \(bu 4 Subject name or common name on certificate .RE .IP \(bu 2 .RS .IP \(bu 4 \fBthumbprint\f1 .IP \(bu 4 hex string .IP \(bu 4 A sequence of bytes, expressed as hexadecimal, used to identify a public key by its SHA\-1 digest. .IP The \fBthumbprint\f1 is sometimes referred to as a \fBfingerprint\f1\&. .RE .RE .PP The \fBmongod\f1\f1 searches the operating system\(aqs secure certificate store for the CA certificates required to validate the full certificate chain of the specified cluster certificate. Specifically, the secure certificate store must contain the root CA and any intermediate CA certificates required to build the full certificate chain to the cluster certificate. Do \fBnot\f1 use \fB\-\-sslCAFile\f1\f1 or \fB\-\-sslClusterCAFile\f1\f1 to specify the root and intermediate CA certificate. .PP For example, if the cluster certificate was signed with a single root CA certificate, the secure certificate store must contain that root CA certificate. If the cluster certificate was signed with an intermediate CA certificate, the secure certificate store must contain the intermedia CA certificate \fIand\f1 the root CA certificate. .RE .PP \fBmongod \-\-sslClusterPassword\f1 .RS .PP Use \fB\-\-tlsClusterPassword\f1\f1 instead. .PP Specifies the password to decrypt the x.509 certificate\-key file specified with \fB\-\-sslClusterFile\f1\&. Use the \fB\-\-sslClusterPassword\f1\f1 option only if the certificate\-key file is encrypted. In all cases, the \fBmongod\f1\f1 will redact the password from all logging and reporting output. .RS .IP \(bu 2 On Linux/BSD, if the private key in the x.509 file is encrypted and you do not specify the \fB\-\-sslClusterPassword\f1\f1 option, MongoDB will prompt for a passphrase. See \fBTLS/SSL Certificate Passphrase\f1\&. .IP \(bu 2 On macOS, if the private key in the x.509 file is encrypted, you must explicitly specify the \fB\-\-sslClusterPassword\f1\f1 option. Alternatively, you can either use a certificate from the secure system store (see \fB\-\-sslClusterCertificateSelector\f1\f1) instead of a cluster PEM file or use an unencrypted PEM file. .IP \(bu 2 On Windows, MongoDB does not support encrypted certificates. The \fBmongod\f1\f1 fails if it encounters an encrypted PEM file. Use \fB\-\-sslClusterCertificateSelector\f1\f1 instead. .RE .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslCAFile\f1 .RS .PP Use \fB\-\-tlsCAFile\f1\f1 instead. .PP Specifies the \&.pem file that contains the root certificate chain from the Certificate Authority. Specify the file name of the \&.pem file using relative or absolute paths. .PP \fBWindows/macOS Only\f1 .RS .PP If using \fB\-\-sslCertificateSelector\f1\f1 and/or \fB\-\-sslClusterCertificateSelector\f1\f1, do \fBnot\f1 use \fB\-\-sslCAFile\f1\f1 to specify the root and intermediate CA certificates. Store all CA certificates required to validate the full trust chain of the \fB\-\-sslCertificateSelector\f1\f1 and/or \fB\-\-sslClusterCertificateSelector\f1\f1 certificates in the secure certificate store. .RE .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslClusterCAFile\f1 .RS .PP Use \fB\-\-tlsClusterCAFile\f1\f1 instead. .PP Specifies the \&.pem file that contains the root certificate chain from the Certificate Authority used to validate the certificate presented by a client establishing a connection. Specify the file name of the \&.pem file using relative or absolute paths. \fB\-\-sslClusterCAFile\f1\f1 requires that \fB\-\-sslCAFile\f1\f1 is set. .PP If \fB\-\-sslClusterCAFile\f1\f1 does not specify the \&.pem file for validating the certificate from a client establishing a connection, the cluster uses the \&.pem file specified in the \fB\-\-sslCAFile\f1\f1 option. .PP \fB\-\-sslClusterCAFile\f1\f1 lets you use separate Certificate Authorities to verify the client to server and server to client portions of the TLS handshake. .PP \fBWindows/macOS Only\f1 .RS .PP If using \fB\-\-sslCertificateSelector\f1\f1 and/or \fB\-\-sslClusterCertificateSelector\f1\f1, do \fBnot\f1 use \fB\-\-sslClusterCAFile\f1\f1 to specify the root and intermediate CA certificates. Store all CA certificates required to validate the full trust chain of the \fB\-\-sslCertificateSelector\f1\f1 and/or \fB\-\-sslClusterCertificateSelector\f1\f1 certificates in the secure certificate store. .RE .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslCRLFile\f1 .RS .PP Use \fB\-\-tlsCRLFile\f1\f1 instead. .PP Specifies the \&.pem file that contains the Certificate Revocation List. Specify the file name of the \&.pem file using relative or absolute paths. .RS .IP \(bu 2 You cannot specify a CRL file on macOS. Instead, you can use the system SSL certificate store, which uses OCSP (Online Certificate Status Protocol) to validate the revocation status of certificates. See \fB\-\-tlsCertificateSelector\f1\f1 in MongoDB 4.2+ to use the system SSL certificate store. .IP \(bu 2 Starting in version 4.4, to check for certificate revocation, MongoDB \fBenables\f1\f1 the use of OCSP (Online Certificate Status Protocol) by default as an alternative to specifying a CRL file or using the system SSL certificate store. .RE .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslAllowInvalidCertificates\f1 .RS .PP Use \fB\-\-tlsAllowInvalidCertificates\f1\f1 instead. .PP Bypasses the validation checks for TLS/SSL certificates on other servers in the cluster and allows the use of invalid certificates to connect. .PP Starting in MongoDB 4.0, if you specify any of the following x.509 authentication options, an invalid certificate is sufficient only to establish a TLS connection but it is \fIinsufficient\f1 for authentication: .RS .IP \(bu 2 \fB\-\-sslAllowInvalidCertificates\f1 or \fBnet.ssl.allowInvalidCertificates: true\f1 for MongoDB 4.0 and later .IP \(bu 2 \fB\-\-tlsAllowInvalidCertificates\f1 or \fBnet.tls.allowInvalidCertificates: true\f1 for MongoDB 4.2 and later .RE .PP When using the \fB\-\-sslAllowInvalidCertificates\f1\f1 setting, MongoDB logs a warning regarding the use of the invalid certificate. .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslAllowInvalidHostnames\f1 .RS .PP Use \fB\-\-tlsAllowInvalidHostnames\f1\f1 instead. .PP Disables the validation of the hostnames in TLS/SSL certificates, when connecting to other members of the replica set or sharded cluster for inter\-process authentication. This allows \fBmongod\f1\f1 to connect to other members if the hostnames in their certificates do not match their configured hostname. .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslAllowConnectionsWithoutCertificates\f1 .RS .PP Use \fB\-\-tlsAllowConnectionsWithoutCertificates\f1\f1 instead. .PP For clients that don\(aqt provide certificates, \fBmongod\f1\f1 or \fBmongos\f1\f1 encrypts the TLS/SSL connection, assuming the connection is successfully made. .PP For clients that present a certificate, however, \fBmongod\f1\f1 performs certificate validation using the root certificate chain specified by \fB\-\-sslCAFile\f1 and reject clients with invalid certificates. .PP Use the \fB\-\-sslAllowConnectionsWithoutCertificates\f1\f1 option if you have a mixed deployment that includes clients that do not or cannot present certificates to the \fBmongod\f1\f1\&. .PP For more information about TLS/SSL and MongoDB, see \fBConfigure mongod\f1 and mongos\f1 for TLS/SSL\f1 and \fBTLS/SSL Configuration for Clients\f1 . .RE .PP \fBmongod \-\-sslDisabledProtocols\f1 .RS .PP Use \fB\-\-tlsDisabledProtocols\f1\f1 instead. .PP Prevents a MongoDB server running with TLS/SSL from accepting incoming connections that use a specific protocol or protocols. To specify multiple protocols, use a comma separated list of protocols. .PP \fB\-\-sslDisabledProtocols\f1\f1 recognizes the following protocols: \fBTLS1_0\f1, \fBTLS1_1\f1, \fBTLS1_2\f1, and \fBTLS1_3\f1\&. .RS .IP \(bu 2 On macOS, you cannot disable \fBTLS1_1\f1 and leave both \fBTLS1_0\f1 and \fBTLS1_2\f1 enabled. You must disable at least one of the other two, for example, \fBTLS1_0,TLS1_1\f1\&. .IP \(bu 2 To list multiple protocols, specify as a comma separated list of protocols. For example \fBTLS1_0,TLS1_1\f1\&. .IP \(bu 2 Specifying an unrecognized protocol will prevent the server from starting. .IP \(bu 2 The specified disabled protocols overrides any default disabled protocols. .RE .PP MongoDB disables the use of TLS 1.0 if TLS 1.1+ is available on the system. To enable the disabled TLS 1.0, specify \fBnone\f1 to \fB\-\-sslDisabledProtocols\f1\f1\&. See \fBDisable TLS 1.0\f1\&. .PP Members of replica sets and sharded clusters must speak at least one protocol in common. .PP \fBDisallow Protocols\f1 .RE .PP \fBmongod \-\-sslFIPSMode\f1 .RS .PP Use \fB\-\-tlsFIPSMode\f1\f1 instead. .PP Directs the \fBmongod\f1\f1 to use the FIPS mode of the TLS/SSL library. Your system must have a FIPS compliant library to use the \fB\-\-sslFIPSMode\f1\f1 option. .PP FIPS\-compatible TLS/SSL is available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server)\&. See \fBConfigure MongoDB for FIPS\f1 for more information. .RE .SS PROFILER OPTIONS .PP \fBmongod \-\-profile\f1 .RS .PP \fIDefault\f1: 0 .PP Configures the \fBdatabase profiler\f1 level. The following profiler levels are available: .RS .IP \(bu 2 .RS .IP \(bu 4 Level .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fB0\f1 .IP \(bu 4 The profiler is off and does not collect any data. This is the default profiler level. .RE .IP \(bu 2 .RS .IP \(bu 4 \fB1\f1 .IP \(bu 4 The profiler collects data for operations that take longer than the value of \fBslowms\f1 or that match a \fBfilter\f1\&. .IP When a filter is set: .RS .IP \(bu 6 The \fBslowms\f1 and \fBsampleRate\f1 options are not used for profiling. .IP \(bu 6 The profiler only captures operations that match the \fBfilter\f1\&. .RE .RE .IP \(bu 2 .RS .IP \(bu 4 \fB2\f1 .IP \(bu 4 The profiler collects data for all operations. .RE .RE .PP Profiling can impact performance and shares settings with the system log. Carefully consider any performance and security implications before configuring and enabling the profiler on a production deployment. .PP See \fBProfiler Overhead\f1 for more information on potential performance degradation. .RE .PP \fBmongod \-\-slowms\f1 .RS .PP \fIDefault\f1: 100 .PP The \fIslow\f1 operation time threshold, in milliseconds. Operations that run for longer than this threshold are considered \fIslow\f1\&. .PP When \fBlogLevel\f1\f1 is set to \fB0\f1, MongoDB records \fIslow\f1 operations to the diagnostic log at a rate determined by \fBslowOpSampleRate\f1\f1\&. .PP At higher \fBlogLevel\f1\f1 settings, all operations appear in the diagnostic log regardless of their latency with the following exception: the logging of \fBslow oplog entry messages by the secondaries\f1\&. The secondaries log only the slow oplog entries; increasing the \fBlogLevel\f1\f1 does not log all oplog entries. .PP For \fBmongod\f1\f1 instances, \fB\-\-slowms\f1\f1 affects the diagnostic log and, if enabled, the profiler. .PP \fBDatabase Profiler\f1 .RE .PP \fBmongod \-\-slowOpSampleRate\f1 .RS .PP \fIDefault\f1: 1.0 .PP The fraction of \fIslow\f1 operations that should be profiled or logged. \fB\-\-slowOpSampleRate\f1\f1 accepts values between 0 and 1, inclusive. .PP \fB\-\-slowOpSampleRate\f1\f1 does not affect the \fBslow oplog entry logging\f1 by the secondary members of a replica set. Secondary members log all oplog entries that take longer than the slow operation threshold regardless of the \fB\-\-slowOpSampleRate\f1\f1\&. .PP For \fBmongod\f1\f1 instances, \fB\-\-slowOpSampleRate\f1\f1 affects the diagnostic log and, if enabled, the profiler. .RE .SS AUDIT OPTIONS .PP \fBmongod \-\-auditCompressionMode\f1 .RS .PP Specifies the compression mode for \fBaudit log encryption\f1\&. You must also enable audit log encryption using either \fB\-\-auditEncryptionKeyUID\f1\f1 or \fB\-\-auditLocalKeyFile\f1\f1\&. .PP \fB\-\-auditCompressionMode\f1\f1 can be set to one of these values: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBzstd\f1 .IP \(bu 4 Use the \fBzstd\f1 algorithm to compress the audit log. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBnone\f1 \fI(default)\f1 .IP \(bu 4 Do not compress the audit log. .RE .RE .PP Available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server)\&. MongoDB Enterprise and Atlas have different configuration requirements. .RE .PP \fBmongod \-\-auditDestination\f1 .RS .PP Enables \fBauditing\f1 and specifies where \fBmongod\f1\f1 sends all audit events. .PP \fB\-\-auditDestination\f1\f1 can have one of the following values: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsyslog\f1 .IP \(bu 4 Output the audit events to syslog in JSON format. Not available on Windows. Audit messages have a syslog severity level of \fBinfo\f1 and a facility level of \fBuser\f1\&. .IP The syslog message limit can result in the truncation of audit messages. The auditing system will neither detect the truncation nor error upon its occurrence. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBconsole\f1 .IP \(bu 4 Output the audit events to \fBstdout\f1 in JSON format. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBfile\f1 .IP \(bu 4 Output the audit events to the file specified in \fB\-\-auditPath\f1\f1 in the format specified in \fB\-\-auditFormat\f1\f1\&. .RE .RE .PP Available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server) and MongoDB Atlas (https://cloud.mongodb.com/user#/atlas/login)\&. .RE .PP \fBmongod \-\-auditEncryptionKeyUID\f1 .RS .PP Specifies the unique identifier of the Key Management Interoperability Protocol (KMIP) key for \fBaudit log encryption\f1\&. .PP You cannot use \fB\-\-auditEncryptionKeyUID\f1\f1 and \fB\-\-auditLocalKeyFile\f1\f1 together. .PP Available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server)\&. MongoDB Enterprise and Atlas have different configuration requirements. .RE .PP \fBmongod \-\-auditFormat\f1 .RS .PP Specifies the format of the output file for \fBauditing\f1 if \fB\-\-auditDestination\f1\f1 is \fBfile\f1\&. The \fB\-\-auditFormat\f1\f1 option can have one of the following values: .RS .IP \(bu 2 .RS .IP \(bu 4 Value .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBJSON\f1 .IP \(bu 4 Output the audit events in JSON format to the file specified in \fB\-\-auditPath\f1\f1\&. .RE .IP \(bu 2 .RS .IP \(bu 4 \fBBSON\f1 .IP \(bu 4 Output the audit events in BSON binary format to the file specified in \fB\-\-auditPath\f1\f1\&. .RE .RE .PP Printing audit events to a file in JSON format degrades server performance more than printing to a file in BSON format. .PP Available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server) and MongoDB Atlas (https://cloud.mongodb.com/user#/atlas/login)\&. .RE .PP \fBmongod \-\-auditLocalKeyFile\f1 .RS .PP Specifies the path and file name for a local audit key file for \fBaudit log encryption\f1\&. .PP Only use \fB\-\-auditLocalKeyFile\f1\f1 for testing because the key is not secured. To secure the key, use \fB\-\-auditEncryptionKeyUID\f1\f1 and an external Key Management Interoperability Protocol (KMIP) server. .PP You cannot use \fB\-\-auditLocalKeyFile\f1\f1 and \fB\-\-auditEncryptionKeyUID\f1\f1 together. .PP Available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server)\&. MongoDB Enterprise and Atlas have different configuration requirements. .RE .PP \fBmongod \-\-auditPath\f1 .RS .PP Specifies the output file for auditing if \fB\-\-auditDestination\f1\f1 has value of \fBfile\f1\&. The \fB\-\-auditPath\f1\f1 option can take either a full path name or a relative path name. .PP Available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server) and MongoDB Atlas (https://cloud.mongodb.com/user#/atlas/login)\&. .RE .PP \fBmongod \-\-auditFilter\f1 .RS .PP Specifies the filter to limit the \fBtypes of operations\f1 the \fBaudit system\f1 records. The option takes a string representation of a query document of the form: .PP .EX { : , ... } .EE .PP The \fB\f1 can be \fBany field in the audit message\f1, including fields returned in the \fBparam\f1 document. The \fB\f1 is a \fBquery condition expression\f1\&. .PP To specify an audit filter, enclose the filter document in single quotes to pass the document as a string. .PP To specify the audit filter in a \fBconfiguration file\f1, you must use the YAML format of the configuration file. .PP Available only in MongoDB Enterprise (http://www.mongodb.com/products/mongodb\-enterprise\-advanced?tck=docs_server) and MongoDB Atlas (https://cloud.mongodb.com/user#/atlas/login)\&. .RE .SS SNMP OPTIONS .PP Starting in MongoDB 6.1, \fBSNMP\f1 is removed. All related command line options prevent \fBmongod\f1 from starting. To monitor your deployment, use MongoDB Ops Manager (https://www.mongodb.com/docs/ops\-manager/current/)\&. .PP \fBmongod \-\-snmp\-disabled\f1 .RS .PP Disables SNMP access to \fBmongod\f1\f1\&. The option is incompatible with \fB\-\-snmp\-subagent\f1\f1 and \fB\-\-snmp\-master\f1\f1\&. .RE .PP \fBmongod \-\-snmp\-subagent\f1 .RS .PP Runs SNMP as a subagent. The option is incompatible with \fB\-\-snmp\-disabled\f1\f1\&. .RE .PP \fBmongod \-\-snmp\-master\f1 .RS .PP Runs SNMP as a master. The option is incompatible with \fB\-\-snmp\-disabled\f1\f1\&. .RE .RS .IP \(bu 2 \fBMonitor MongoDB With SNMP on Linux\f1 .IP \(bu 2 \fBMonitor MongoDB Windows with SNMP\f1 .IP \(bu 2 \fBTroubleshoot SNMP\f1 .RE .SS INMEMORY OPTIONS .PP \fBmongod \-\-inMemorySizeGB\f1 .RS .PP \fIDefault\f1: 50% of physical RAM minus 1 GB. .PP Maximum amount of memory to allocate for the \fBin\-memory storage engine\f1 data, including indexes, the oplog (if the \fBmongod\f1\f1 is part of a replica set), sharded cluster metadata, etc. .PP Values can range from 256MB to 10TB and can be a float. .PP By default, the in\-memory storage engine uses 50% of physical RAM minus 1 GB. .PP Available in MongoDB Enterprise only. .RE .SS ENCRYPTION KEY MANAGEMENT OPTIONS .PP \fBmongod \-\-enableEncryption\f1 .RS .PP \fIDefault\f1: false .PP Enables encryption for the WiredTiger storage engine. This option must be enabled in order to pass in encryption keys and configurations. .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-encryptionCipherMode\f1 .RS .PP \fIDefault\f1: AES256\-CBC .PP The cipher mode to use for encryption at rest: .RS .IP \(bu 2 .RS .IP \(bu 4 Mode .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBAES256\-CBC\f1 .IP \(bu 4 256\-bit Advanced Encryption Standard in Cipher Block Chaining Mode .RE .IP \(bu 2 .RS .IP \(bu 4 \fBAES256\-GCM\f1 .IP \(bu 4 256\-bit Advanced Encryption Standard in Galois/Counter Mode .IP MongoDB Enterprise on Windows no longer supports \fBAES256\-GCM\f1\&. This cipher is now available only on Linux. .RE .RE .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-encryptionKeyFile\f1 .RS .PP The path to the local keyfile when managing keys via process \fIother than\f1 KMIP. Only set when managing keys via process other than KMIP. If data is already encrypted using KMIP, MongoDB will throw an error. .PP The keyfile can contain only a single key. The key is either a 16 or 32 character string. .PP Requires \fB\-\-enableEncryption\f1\f1\&. .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipKeyIdentifier\f1 .RS .PP Unique KMIP identifier for an existing key within the KMIP server. Include to use the key associated with the identifier as the system key. You can only use the setting the first time you enable encryption for the \fBmongod\f1\f1 instance. Requires \fB\-\-enableEncryption\f1\f1\&. .PP If unspecified, MongoDB will request that the KMIP server create a new key to utilize as the system key. .PP If the KMIP server cannot locate a key with the specified identifier or the data is already encrypted with a key, MongoDB will throw an error .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipRotateMasterKey\f1 .RS .PP \fIDefault\f1: false .PP If true, rotate the master key and re\-encrypt the internal keystore. .PP Available in MongoDB Enterprise only. .PP \fBKMIP Master Key Rotation\f1 .RE .PP \fBmongod \-\-kmipServerName\f1 .RS .PP Hostname or IP address of the KMIP server to connect to. Requires \fB\-\-enableEncryption\f1\f1\&. .PP Starting in MongoDB 4.2.1, you can specify multiple KMIP servers as a comma\-separated list, e.g. \fBserver1.example.com,server2.example.com\f1\&. On startup, the \fBmongod\f1\f1 will attempt to establish a connection to each server in the order listed, and will select the first server to which it can successfully establish a connection. KMIP server selection occurs only at startup. .PP When connecting to a KMIP server, the \fBmongod\f1\f1 verifies that the specified \fB\-\-kmipServerName\f1\f1 matches the Subject Alternative Name \fBSAN\f1 (or, if \fBSAN\f1 is not present, the Common Name \fBCN\f1) in the certificate presented by the KMIP server. If \fBSAN\f1 is present, \fBmongod\f1\f1 does not match against the \fBCN\f1\&. If the hostname does not match the \fBSAN\f1 (or \fBCN\f1), the \fBmongod\f1\f1 will fail to connect. .PP Starting in MongoDB 4.2, when performing comparison of SAN, MongoDB supports comparison of DNS names or IP addresses. In previous versions, MongoDB only supports comparisons of DNS names. .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipPort\f1 .RS .PP \fIDefault\f1: 5696 .PP Port number to use to communicate with the KMIP server. Requires \fB\-\-kmipServerName\f1\f1\&. Requires \fB\-\-enableEncryption\f1\f1\&. .PP If specifying multiple KMIP servers with \fB\-\-kmipServerName\f1\f1, the \fBmongod\f1\f1 will use the port specified with \fB\-\-kmipPort\f1\f1 for all provided KMIP servers. .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipConnectRetries\f1 .RS .PP \fIDefault\f1: 0 .PP How many times to retry the initial connection to the KMIP server. Use together with \fB\-\-kmipConnectTimeoutMS\f1\f1 to control how long the \fBmongod\f1\f1 waits for a response between each retry. .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipConnectTimeoutMS\f1 .RS .PP \fIDefault\f1: 5000 .PP Timeout in milliseconds to wait for a response from the KMIP server. If the \fB\-\-kmipConnectRetries\f1\f1 setting is specified, the \fBmongod\f1\f1 will wait up to the value specified with \fB\-\-kmipConnectTimeoutMS\f1\f1 for each retry. .PP Value must be \fB1000\f1 or greater. .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipClientCertificateSelector\f1 .RS .PP Available on Windows and macOS as an alternative to \fB\-\-kmipClientCertificateFile\f1\f1\&. .PP \fB\-\-kmipClientCertificateFile\f1\f1 and \fB\-\-kmipClientCertificateSelector\f1\f1 options are mutually exclusive. You can only specify one. .PP Specifies a certificate property in order to select a matching certificate from the operating system\(aqs certificate store to authenticate MongoDB to the KMIP server. .PP \fB\-\-kmipClientCertificateSelector\f1\f1 accepts an argument of the format \fB=\f1 where the property can be one of the following: .RS .IP \(bu 2 .RS .IP \(bu 4 Property .IP \(bu 4 Value type .IP \(bu 4 Description .RE .IP \(bu 2 .RS .IP \(bu 4 \fBsubject\f1 .IP \(bu 4 ASCII string .IP \(bu 4 Subject name or common name on certificate .RE .IP \(bu 2 .RS .IP \(bu 4 \fBthumbprint\f1 .IP \(bu 4 hex string .IP \(bu 4 A sequence of bytes, expressed as hexadecimal, used to identify a public key by its SHA\-1 digest. .IP The \fBthumbprint\f1 is sometimes referred to as a \fBfingerprint\f1\&. .RE .RE .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipClientCertificateFile\f1 .RS .PP Path to the \fB\&.pem\f1 file used to authenticate MongoDB to the KMIP server. The specified \fB\&.pem\f1 file must contain both the TLS/SSL certificate and key. .PP To use this option, you must also specify the \fB\-\-kmipServerName\f1\f1 option. .PP On macOS or Windows, you can use a certificate from the operating system\(aqs secure store instead of a PEM key file. See \fB\-\-kmipClientCertificateSelector\f1\f1\&. .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipClientCertificatePassword\f1 .RS .PP The password (if one exists) for the client certificate passed into \fB\-\-kmipClientCertificateFile\f1\f1\&. Is used for authenticating MongoDB to the KMIP server. Requires that a \fB\-\-kmipClientCertificateFile\f1\f1 be provided. .PP Available in MongoDB Enterprise only. .RE .PP \fBmongod \-\-kmipServerCAFile\f1 .RS .PP Path to CA File. Used for validating secure client connection to KMIP server. .PP On macOS or Windows, you can use a certificate from the operating system\(aqs secure store instead of a PEM key file. See \fB\-\-kmipClientCertificateSelector\f1\f1\&. When using the secure store, you do not need to, but can, also specify the \fB\-\-kmipServerCAFile\f1\f1\&. .RE .PP \fBmongod \-\-kmipActivateKeys\f1 .RS .PP \fIDefault\f1: true .PP Activates all newly created KMIP keys upon creation and then periodically checks those keys are in an active state. .PP When \fB\-\-kmipActivateKeys\f1 is \fBtrue\f1 and you have existing keys on a KMIP server, the key must be activated first or the \fBmongod\f1\f1 node will fail to start. .PP If the key being used by the mongod transitions into a non\-active state, the \fBmongod\f1\f1 node will shut down unless \fBkmipActivateKeys\f1 is false. To ensure you have an active key, rotate the KMIP master key by using \fB\-\-kmipRotateMasterKey\f1\f1\&. .RE .PP \fBmongod \-\-kmipKeyStatePollingSeconds\f1 .RS .PP \fIDefault\f1: 900 seconds .PP Frequency in seconds at which \fBmongod\f1 polls the KMIP server for active keys. .PP To disable disable polling, set the value to \fB\-1\f1\&. .RE .PP \fBmongod \-\-kmipUseLegacyProtocol\f1 .RS .PP \fIDefault\f1: false .PP When \fBtrue\f1, \fBmongod\f1 uses KMIP protocol version 1.0 or 1.1 instead of the default version. The default KMIP protocol is version 1.2. .PP To use \fBaudit log encryption\f1 with KMIP version 1.0 or 1.1, you must specify \fBauditEncryptKeyWithKMIPGet\f1\f1 at startup. .RE .PP \fBmongod \-\-eseDatabaseKeyRollover\f1 .RS .PP Roll over the \fBencrypted storage engine\f1 database keys configured with \fBAES256\-GCM\f1 cipher. .PP When \fBmongod\f1\f1 instance is started with this option, the instance rotates the keys and exits. .PP Available in MongoDB Enterprise only. .RE