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MongoDB Atlas

This Elastic integration collects logs and metrics from MongoDB Atlas instance.

Version
0.0.2 (View all)
Compatible Kibana version(s)
8.13.0 or higher
Supported Serverless project types

Security
Observability
Subscription level
Basic
Level of support
Elastic

Overview

MongoDB Atlas, the leading multi-cloud developer data platform, offers the easiest way to run MongoDB, enabling you to work with your code's objects directly through its document-based data model, which allows for flexible schema and easy scalability.

Use the MongoDB Atlas integration to:

  • Collect MongoDB Audit logs and Process metrics for comprehensive monitoring and analysis.
  • Create informative visualizations to track usage trends, measure key metrics, and derive actionable business insights.
  • Set up alerts to minimize Mean Time to Detect (MTTD) and Mean Time to Resolve (MTTR) by quickly referencing relevant logs during troubleshooting.

Data streams

The MongoDB Atlas integration collects logs and metrics.

Logs help you keep a record of events that happen on your machine. The Log data stream collected by MongoDB Atlas integration is mongod_audit.

Metrics give you insight into the statistics of the MongoDB Atlas. The Metric data stream collected by the MongoDB Atlas integration is process so that the user can monitor and troubleshoot the performance of the MongoDB Atlas instance.

Data streams:

  • mongod_audit: The auditing facility allows administrators and users to track system activity for deployments with multiple users and applications. Mongod Audit logs capture events related to database operations such as insertions, updates, deletions, user authentication, etc., occurring within the mongod instances.

  • process : This data stream collects host metrics per process for all the hosts of the specified group. Metrics like measurements for the host, such as CPU usage, number of I/O operations and memory are available on this data stream.

Note:

  • Users can monitor and see the log inside the ingested documents for MongoDB Atlas in the logs-* index pattern from Discover.

Prerequisites

You can store and search your data using Elasticsearch and visualize and manage it with Kibana. We recommend using our hosted Elasticsearch Service on Elastic Cloud or self-managing the Elastic Stack on your own hardware.

Setup

To collect data from MongoDB Atlas, the following parameters from your MongoDB Atlas instance are required

  1. Public Key
  2. Private Key
  3. GroupId

Steps to obtain Public Key, Private Key and GroupId

  1. Generate programmatic API Keys with project owner permissions using the instructions in the Atlas documentation. Then, copy the public key and private key. These serve the same function as a username and API Key respectively.
  2. Enable Database Auditing for the Atlas project you want to monitor logs. You can follow the instructions provided in this Atlas document.
  3. You can find your Project ID (Group ID) in the Atlas UI. To do this, navigate to your project, click on Settings, and copy the Project ID (Group ID). You can also programmatically find it using the Atlas Admin API or Atlas CLI as described in this Atlas document.

Important terms of MongoDB Atlas API

  1. Granularity: Duration that specifies the interval at which Atlas reports the metrics.
  2. Period: Duration over which Atlas reports the metrics.

Note: Both of above attributes can be set by using period in configuration parameters.

Steps to enable Integration in Elastic

  1. In Kibana go to Management > Integrations
  2. In "Search for integrations" search bar, type MongoDB Atlas
  3. Click on the "MongoDB Atlas" integration from the search results.
  4. To add the integration, click on the "Add MongoDB Atlas" button.
  5. Enter all the necessary configuration parameters, including Public Key, Private Key, and GroupId.
  6. Finally, save the integration.

Note:

  • The mongod_audit data stream gathers historical data spanning the previous 30 minutes.
  • Mongod: Mongod is the primary daemon method for the MongoDB system. It helps in handling the data requests, managing the data access, performing background management operations, and other core database operations.

Troubleshooting

If you encounter an error while ingesting data, it might be due to the data collected over a long time span. Generating a response in such cases may take longer and might cause a request timeout if the HTTP Client Timeout parameter is set to a small duration. To avoid this error, it is recommended to adjust the HTTP Client Timeout and Interval parameters based on the duration of data collection.

{
  "error": {
    "message": "failed eval: net/http: request canceled (Client.Timeout or context cancellation while reading body)"
  }
}

Logs reference

Mongod Audit

This is the mongod_audit data stream. This data stream allows administrators and users to track system activity for deployments with multiple users and applications.

An example event for mongod_audit looks as following:

{
    "@timestamp": "2023-04-01T12:00:00.000Z",
    "agent": {
        "ephemeral_id": "82e5a7ce-c7ad-436f-90f2-a1cefbe22333",
        "id": "498e0c10-4447-4a56-90f0-ba02c44a01c2",
        "name": "docker-fleet-agent",
        "type": "filebeat",
        "version": "8.13.0"
    },
    "data_stream": {
        "dataset": "mongodb_atlas.mongod_audit",
        "namespace": "ep",
        "type": "logs"
    },
    "ecs": {
        "version": "8.11.0"
    },
    "elastic_agent": {
        "id": "498e0c10-4447-4a56-90f0-ba02c44a01c2",
        "snapshot": false,
        "version": "8.13.0"
    },
    "event": {
        "action": "authenticate",
        "agent_id_status": "verified",
        "category": [
            "network",
            "authentication"
        ],
        "dataset": "mongodb_atlas.mongod_audit",
        "ingested": "2024-04-09T06:13:37Z",
        "kind": "event",
        "module": "mongodb_atlas",
        "type": [
            "access",
            "info"
        ]
    },
    "host": {
        "architecture": "x86_64",
        "containerized": true,
        "hostname": "docker-fleet-agent",
        "id": "8259e024976a406e8a54cdbffeb84fec",
        "ip": [
            "192.168.245.7"
        ],
        "mac": [
            "02-42-C0-A8-F5-07"
        ],
        "name": "docker-fleet-agent",
        "os": {
            "codename": "focal",
            "family": "debian",
            "kernel": "3.10.0-1160.92.1.el7.x86_64",
            "name": "Ubuntu",
            "platform": "ubuntu",
            "type": "linux",
            "version": "20.04.6 LTS (Focal Fossa)"
        }
    },
    "input": {
        "type": "cel"
    },
    "mongodb_atlas": {
        "mongod_audit": {
            "hostname": "hostname1",
            "local": {
                "ip": "127.0.0.1",
                "port": 27017
            },
            "remote": {
                "ip": "192.168.1.100",
                "port": 54320
            },
            "result": "Success",
            "user": {
                "names": [
                    {
                        "db": "admin",
                        "user": "auditUser"
                    }
                ],
                "roles": [
                    {
                        "db": "admin",
                        "role": "dbAdmin"
                    }
                ]
            },
            "uuid": {
                "binary": "some-unique-identifier",
                "type": "04"
            }
        }
    },
    "related": {
        "ip": [
            "127.0.0.1",
            "192.168.1.100"
        ]
    },
    "tags": [
        "mongodb_atlas-mongod_audit"
    ]
}

Exported fields

FieldDescriptionType
@timestamp
Event timestamp.
date
data_stream.dataset
Data stream dataset.
constant_keyword
data_stream.namespace
Data stream namespace.
constant_keyword
data_stream.type
Data stream type.
constant_keyword
input.type
Type of Filebeat input.
keyword
mongodb_atlas.mongod_audit.hostname
Hostname that stores the log files that you want to download.
keyword
mongodb_atlas.mongod_audit.local.ip
IP address of the running instance.
ip
mongodb_atlas.mongod_audit.local.is_system_user
True if the event is caused by a system user, false otherwise.
boolean
mongodb_atlas.mongod_audit.local.port
Port number of the running instance.
long
mongodb_atlas.mongod_audit.local.unix
Unix that contains the MongoDB socket file path if the client connects through a Unix domain socket.
keyword
mongodb_atlas.mongod_audit.param
Specific details for the event.
object
mongodb_atlas.mongod_audit.remote.ip
IP address of the incoming connection associated with the event.
ip
mongodb_atlas.mongod_audit.remote.is_system_user
True if the event is caused by a system user, false otherwise.
boolean
mongodb_atlas.mongod_audit.remote.port
Port number of the incoming connection associated with the event.
long
mongodb_atlas.mongod_audit.remote.unix
Unix that contains the MongoDB socket file path if the client connects through a Unix domain socket.
keyword
mongodb_atlas.mongod_audit.result
Error code.
keyword
mongodb_atlas.mongod_audit.user.names
Array of user identification documents.
object
mongodb_atlas.mongod_audit.user.roles
Array of documents that specify the roles granted to the user.
object
mongodb_atlas.mongod_audit.uuid.binary
Document that contains a universally unique identifier (UUID) for the audit message.
keyword
mongodb_atlas.mongod_audit.uuid.type
The $type field specifies the BSON subtype for the $binary field.
keyword
tags
List of keywords used to tag each event.
keyword

Metrics reference

Process

This data stream collects host metrics per process for all the hosts of the specified group. Metrics like measurements for the host, such as CPU usage, number of I/O operations and memory are available on this data stream.

An example event for process looks as following:

{
    "@timestamp": "2024-04-11T12:42:53.267Z",
    "agent": {
        "ephemeral_id": "c8ebb866-6d72-471b-9083-6d386219bf61",
        "id": "926ca6d4-5487-4a8b-b88b-34f188fe8cfb",
        "name": "docker-fleet-agent",
        "type": "filebeat",
        "version": "8.13.0"
    },
    "data_stream": {
        "dataset": "mongodb_atlas.process",
        "namespace": "ep",
        "type": "logs"
    },
    "ecs": {
        "version": "8.11.0"
    },
    "elastic_agent": {
        "id": "926ca6d4-5487-4a8b-b88b-34f188fe8cfb",
        "snapshot": false,
        "version": "8.13.0"
    },
    "event": {
        "agent_id_status": "verified",
        "category": [
            "process"
        ],
        "dataset": "mongodb_atlas.process",
        "ingested": "2024-04-11T12:43:05Z",
        "kind": "event",
        "module": "mongodb_atlas",
        "type": [
            "info"
        ]
    },
    "host": {
        "architecture": "x86_64",
        "containerized": true,
        "hostname": "docker-fleet-agent",
        "id": "8259e024976a406e8a54cdbffeb84fec",
        "ip": [
            "192.168.253.4"
        ],
        "mac": [
            "02-42-C0-A8-FD-04"
        ],
        "name": "docker-fleet-agent",
        "os": {
            "codename": "focal",
            "family": "debian",
            "kernel": "3.10.0-1160.92.1.el7.x86_64",
            "name": "Ubuntu",
            "platform": "ubuntu",
            "type": "linux",
            "version": "20.04.6 LTS (Focal Fossa)"
        }
    },
    "input": {
        "type": "cel"
    },
    "mongodb_atlas": {
        "group_id": "mongodb-group1",
        "host_id": "hostname1",
        "process": {
            "assert": {
                "regular": 0
            }
        },
        "process_id": "hostname1"
    },
    "tags": [
        "mongodb_atlas-process"
    ]
}

Exported fields

FieldDescriptionTypeUnitMetric Type
@timestamp
Event timestamp.
date
data_stream.dataset
Data stream dataset.
constant_keyword
data_stream.namespace
Data stream namespace.
constant_keyword
data_stream.type
Data stream type.
constant_keyword
input.type
Type of Filebeat input.
keyword
mongodb_atlas.group_id
Identifier for the project of the event.
keyword
mongodb_atlas.host_id
Unique identifier of the host for the MongoDB process.
keyword
mongodb_atlas.process.assert.msg
The average rate of message asserts per second over the selected sample period.
double
gauge
mongodb_atlas.process.assert.regular
The average rate of regular asserts raised per second over the selected sample period.
double
gauge
mongodb_atlas.process.assert.user
The average rate of user asserts per second over the selected sample period.
double
gauge
mongodb_atlas.process.assert.warning
The average rate of warnings per second over the selected sample period.
double
gauge
mongodb_atlas.process.background_flush.avg
Amount of data flushed in the background.
double
gauge
mongodb_atlas.process.cache.dirty.bytes
Write - Amount of bytes in the WiredTiger storage engine cache.
double
byte
gauge
mongodb_atlas.process.cache.read.bytes
Read - Amount of bytes in the WiredTiger storage engine cache.
double
byte
gauge
mongodb_atlas.process.cache.used.total.bytes
The total bytes cached in memory for serving reads and writes.
double
byte
gauge
mongodb_atlas.process.cache.write.bytes
The maximum disk read latency value over the period specified by the metric granularity.
double
byte
gauge
mongodb_atlas.process.connections
Displays the total number of active connections to the database deployment. Monitor connections to determine whether the current connection limits are sufficient.
double
gauge
mongodb_atlas.process.cpu.children.kernel.max.pct
The maximum amount of CPU time spent by child processes in kernel space.
double
percent
counter
mongodb_atlas.process.cpu.children.kernel.pct
CPU children kernel space for mongodb processes.
double
percent
gauge
mongodb_atlas.process.cpu.children.user.max.pct
The maximum amount of CPU time spent by child processes in user space.
double
percent
counter
mongodb_atlas.process.cpu.children.user.pct
CPU children user space for mongodb.
double
percent
gauge
mongodb_atlas.process.cpu.kernel.max.pct
The maximum amount of CPU time spent by the MongoDB process itself in kernel space, handling system calls and hardware interrupts.
double
percent
counter
mongodb_atlas.process.cpu.kernel.pct
CPU kernel space for mongodb processes.
double
percent
gauge
mongodb_atlas.process.cpu.normalized.children.kernel.max.pct
Max children kernel CPU usage scaled to a range of 0% to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.cpu.normalized.children.kernel.pct
NORMALIZED CPU children kernel space for mongodb processes.
double
percent
gauge
mongodb_atlas.process.cpu.normalized.children.user.max.pct
Max children user CPU usage scaled to a range of 0% to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.cpu.normalized.children.user.pct
NORMALIZED CPU children user space for mongodb.
double
percent
gauge
mongodb_atlas.process.cpu.normalized.kernel.max.pct
Max kernel CPU usage scaled to a range of 0% to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.cpu.normalized.kernel.pct
NORMALIZED CPU kernel space for mongodb processes.
double
percent
gauge
mongodb_atlas.process.cpu.normalized.user.max.pct
Max user CPU usage scaled to a range of 0% to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.cpu.normalized.user.pct
NORMALIZED CPU user space for mongodb processes.
double
percent
gauge
mongodb_atlas.process.cpu.user.max.pct
The maximum amount of CPU time spent by the MongoDB process itself in user space, executing application code and processing data.
double
percent
counter
mongodb_atlas.process.cpu.user.pct
CPU user space for mongodb processes.
double
percent
gauge
mongodb_atlas.process.cursor.open.total
The number of cursors that the server maintains for clients.
long
gauge
mongodb_atlas.process.cursor.timed_out.total
The average rate of cursors that have timed out per second over the selected sample period.
double
gauge
mongodb_atlas.process.database.size.total.bytes
The amount of storage space in bytes that your stored data uses.
long
byte
gauge
mongodb_atlas.process.database.storage.total.bytes
Sum total of the compressed on-disk storage space allocated for document storage across all databases.
long
byte
gauge
mongodb_atlas.process.document.deleted
Displays the documents deleted per second.
double
gauge
mongodb_atlas.process.document.inserted
Displays the documents inserted per second.
double
gauge
mongodb_atlas.process.document.returned
Displays the documents returned per second.
double
gauge
mongodb_atlas.process.document.updated
Displays the documents updated per second.
double
gauge
mongodb_atlas.process.fts.cpu.kernel.pct
The amount of CPU time spent by the Full-Text search process in kernel space.
double
percent
gauge
mongodb_atlas.process.fts.cpu.normalized.kernel.pct
Percentage of time that the CPU spent servicing the operating system calls for the search process.
double
percent
gauge
mongodb_atlas.process.fts.cpu.normalized.user.pct
Percentage of time that the CPU spent servicing user calls for the search process.
double
percent
gauge
mongodb_atlas.process.fts.cpu.user.pct
The amount of CPU time spent by the Full-Text search process in user space.
double
percent
gauge
mongodb_atlas.process.fts.disk.utilization.total.bytes
Total bytes of disk space that search processes use.
long
byte
gauge
mongodb_atlas.process.fts.memory.mapped.total.bytes
Total bytes of mapped memory that search processes occupy.
long
byte
gauge
mongodb_atlas.process.fts.memory.resident.total.bytes
Total bytes of resident memory that search processes occupy.
long
byte
gauge
mongodb_atlas.process.fts.memory.virtual.total.bytes
Total bytes of virtual memory that search processes occupy.
long
byte
gauge
mongodb_atlas.process.global.access.not_in_memory
The number of accesses to data that are not currently stored in memory, requiring disk access.
long
gauge
mongodb_atlas.process.global.lock.current_queue.reader.count
The number of operations that are currently queued and waiting for the read lock.
long
gauge
mongodb_atlas.process.global.lock.current_queue.total
The total number of operations queued waiting for the lock (readers + writers)
long
gauge
mongodb_atlas.process.global.lock.current_queue.writer.count
The number of operations that are currently queued and waiting for the write lock.
long
gauge
mongodb_atlas.process.global.page_fault.exception_thrown
The number of exceptions thrown due to page faults.
long
gauge
mongodb_atlas.process.host.page_faults
Measurements on page faults related to the host.
double
gauge
mongodb_atlas.process.index.btree.access.count
Number of index btree ACCESSES.
long
gauge
mongodb_atlas.process.index.btree.hits.count
Number of index btree HITS.
long
gauge
mongodb_atlas.process.index.btree.miss.count
Number of index btree MISSES.
long
gauge
mongodb_atlas.process.index.btree.miss_ratio.count
Index btree miss ratio.
double
gauge
mongodb_atlas.process.journaling.commits.write_lock
Number of journaling COMMIT operations.
long
gauge
mongodb_atlas.process.journaling.mb
Average amount of data in megabytes Cloud Manager writes to the recovery log per second meets your specified threshold.
double
gauge
mongodb_atlas.process.journaling.write.data_files.mb
The maximum size in megabytes (MB) of data files written by the journaling process.
double
gauge
mongodb_atlas.process.memory.computed.mb
Amount of COMPUTED process memory in megabytes.
double
gauge
mongodb_atlas.process.memory.mapped.mb
Amount of MAPPED process memory in megabytes.
double
gauge
mongodb_atlas.process.memory.resident.mb
Amount of RESIDENT process memory in megabytes.
double
gauge
mongodb_atlas.process.memory.virtual.mb
Amount of VIRTUAL process memory in megabytes.
double
gauge
mongodb_atlas.process.network.in
Process incoming network throughput in bytes per second.
double
gauge
mongodb_atlas.process.network.out
Process outgoing network throughput in bytes per second.
double
gauge
mongodb_atlas.process.network.request.total
The total number of distinct requests that the process has received.
double
counter
mongodb_atlas.process.opcounter.cmd
Database operations rate on a process since the process last started.
double
gauge
mongodb_atlas.process.opcounter.delete
Database DELETE operations rate on a process since the process last started.
double
gauge
mongodb_atlas.process.opcounter.getmore
Database GETMORE operations rate on a process since the process last started.
double
gauge
mongodb_atlas.process.opcounter.insert
Database INSERT operations rate on a process since the process last started.
double
gauge
mongodb_atlas.process.opcounter.query
Database QUERY operations rate on a process since the process last started.
double
gauge
mongodb_atlas.process.opcounter.repl.cmd
Database operations rate on secondaries.
double
gauge
mongodb_atlas.process.opcounter.repl.delete
Database DELETE operations rate on secondaries.
double
gauge
mongodb_atlas.process.opcounter.repl.insert
Database INSERT operations rate on secondaries.
double
gauge
mongodb_atlas.process.opcounter.repl.update
Database UPDATE operations rate on secondaries.
double
gauge
mongodb_atlas.process.opcounter.update
Database UPDATE operations rate on a process since the process last started.
double
gauge
mongodb_atlas.process.operation.execution.time.cmd.avg.ms
Average execution time in milliseconds per command operation over the selected sample period.
double
ms
gauge
mongodb_atlas.process.operation.execution.time.read.avg.ms
Average execution time in milliseconds per read operation over the selected sample period.
double
ms
gauge
mongodb_atlas.process.operation.execution.time.write.avg.ms
Average execution time in milliseconds per write operation over the selected sample period.
double
ms
gauge
mongodb_atlas.process.operation.scan_and_order
The total number of queries that return sorted data that cannot perform the sort operation using an index.
double
gauge
mongodb_atlas.process.oplog.master.lag.time_diff.s
Lag or delay in replication between the primary node (oplog master) and its secondary nodes.
double
s
gauge
mongodb_atlas.process.oplog.master.time.s
The replication oplog window. The approximate time available in the primary's replication oplog. If a secondary is behind real-time by more than this amount, it cannot catch up and will require a full resync.
double
s
gauge
mongodb_atlas.process.oplog.rate.gb_per_hour
The rate of change in the size of the oplog in gigabytes per hour.
double
gauge
mongodb_atlas.process.oplog.repl_lag.s
The amount of time, typically in seconds, it takes for changes recorded in the oplog on the primary node to be replicated and applied to the secondary node.
double
s
gauge
mongodb_atlas.process.oplog.slave.lag.master.time.s
The difference in time, typically in seconds, between the oplog time on the secondary (slave) node and the time of the latest operation in the oplog on the primary (master) node.
double
s
gauge
mongodb_atlas.process.query.executor.scanned
Average rate per second to scan index items during queries and query-plan evaluations.
double
gauge
mongodb_atlas.process.query.executor.scanned_objects
Average rate of documents scanned per second during queries and query-plan evaluations.
double
gauge
mongodb_atlas.process.query.targeting.scanned_objects_per_returned
Ratio of the number of documents scanned to the number of documents returned.
double
gauge
mongodb_atlas.process.query.targeting.scanned_per_returned
Ratio of the number of index items scanned to the number of documents returned.
double
gauge
mongodb_atlas.process.restart.in_last_hour
Number of times the host restarted within the previous hour.
double
gauge
mongodb_atlas.process.swap.usage.free.max.kb
Max amount of swap space free.
double
counter
mongodb_atlas.process.swap.usage.total.free
Total amount of swap space free.
double
gauge
mongodb_atlas.process.swap.usage.total.used
Total amount of swap space in use.
double
gauge
mongodb_atlas.process.swap.usage.used.max.kb
Max amount of swap space in use.
double
counter
mongodb_atlas.process.system.cpu.guest.max.pct
Max amount of CPU time spent running a virtual CPU for guest operating systems.
double
percent
counter
mongodb_atlas.process.system.cpu.guest.pct
Tracks CPU time consumed by guest operating systems, like virtual machines, on the host system.
double
percent
gauge
mongodb_atlas.process.system.cpu.iowait.max.pct
Max amount of CPU time spent waiting for I/O operations to complete.
double
percent
counter
mongodb_atlas.process.system.cpu.iowait.pct
The CPU time spent waiting for I/O operations to complete.
double
percent
gauge
mongodb_atlas.process.system.cpu.irq.max.pct
Max amount of CPU time spent servicing hardware interrupts.
double
percent
counter
mongodb_atlas.process.system.cpu.irq.pct
The portion of CPU time spent servicing hardware interrupts.
double
percent
gauge
mongodb_atlas.process.system.cpu.kernel.max.pct
Max amount of CPU time spent in kernel space, executing system calls and handling hardware interrupts.
double
percent
counter
mongodb_atlas.process.system.cpu.kernel.pct
The portion of CPU time spent executing kernel space processes and handling system calls.
double
percent
gauge
mongodb_atlas.process.system.cpu.nice.pct
The portion of CPU time allocated to processes with a 'nice' priority level.
double
percent
gauge
mongodb_atlas.process.system.cpu.softirq.max.pct
Max amount of CPU time spent servicing soft interrupts, which are interrupts triggered by software.
double
percent
counter
mongodb_atlas.process.system.cpu.softirq.pct
The CPU time spent handling software-generated interrupts.
double
percent
gauge
mongodb_atlas.process.system.cpu.steal.max.pct
Max amount of CPU time 'stolen' by the hypervisor for other virtual machines running on the same physical host.
double
percent
counter
mongodb_atlas.process.system.cpu.steal.pct
The amount of CPU time 'stolen' by the hypervisor for other virtual machines running on the same physical host.
double
percent
gauge
mongodb_atlas.process.system.cpu.user.max.pct
Max amount of CPU time spent in user space, executing user-level processes and applications.
double
percent
counter
mongodb_atlas.process.system.cpu.user.pct
The portion of CPU time spent executing user space processes and running applications.
double
percent
gauge
mongodb_atlas.process.system.memory.available.kb
Physical memory available in kilobytes.
double
gauge
mongodb_atlas.process.system.memory.available.max.kb
Max Physical memory available in kilobytes.
double
counter
mongodb_atlas.process.system.memory.free.kb
Physical memory free in kilobytes.
double
gauge
mongodb_atlas.process.system.memory.free.max.kb
Max Physical memory free in kilobytes.
double
counter
mongodb_atlas.process.system.memory.used.kb
Physical memory used in kilobytes.
double
gauge
mongodb_atlas.process.system.memory.used.max.kb
Max Physical memory used in kilobytes.
double
counter
mongodb_atlas.process.system.network.in
Incoming network throughput in bytes per second.
double
gauge
mongodb_atlas.process.system.network.max.in
Max Incoming network throughput in bytes per second.
double
counter
mongodb_atlas.process.system.network.max.out
Max Outgoing network throughput in bytes per second.
double
counter
mongodb_atlas.process.system.network.out
Outgoing network throughput in bytes per second.
double
gauge
mongodb_atlas.process.system.normalized.cpu.guest.max.pct
Max Guest CPU usage of processes on the host scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.guest.pct
Guest CPU usage of processes on the host scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
gauge
mongodb_atlas.process.system.normalized.cpu.iowait.max.pct
Max CPU usage of processes spent waiting for IO operations to complete, scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.iowait.pct
CPU usage of processes spent waiting for IO operations to complete, scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
gauge
mongodb_atlas.process.system.normalized.cpu.irq.max.pct
Max CPU usage of hardware interrupts, scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.irq.pct
NORMALIZED irq CPU utilization across various processes for a server
double
percent
gauge
mongodb_atlas.process.system.normalized.cpu.kernel.max.pct
Max kernel CPU usage of processes on the host scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.kernel.pct
Kernel CPU usage of processes on the host scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
gauge
mongodb_atlas.process.system.normalized.cpu.nice.max.pct
Max CPU usage of processes with a positive nice value, scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.nice.pct
NORMALIZED nice CPU utilization across various processes for a server
double
percent
gauge
mongodb_atlas.process.system.normalized.cpu.softirq.max.pct
Max CPU usage of software interrupts, scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.softirq.pct
NORMALIZED softirq CPU utilization across various processes for a server
double
percent
gauge
mongodb_atlas.process.system.normalized.cpu.steal.max.pct
Max The percentage of time the CPU had something runnable, but the hypervisor chose to run something else, scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.steal.pct
The percentage of time the CPU had something runnable, but the hypervisor chose to run something else, scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
gauge
mongodb_atlas.process.system.normalized.cpu.steal.user.max.pct
Max user CPU usage of processes on the host scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.steal.user.pct
NORMALIZED CPU user space utilization across various processes for a server
double
percent
gauge
mongodb_atlas.process.system.normalized.cpu.user.max.pct
Max user CPU usage of processes on the host scaled to a range of 0 to 100%, is obtained by dividing the usage value by the total number of CPU cores.
double
percent
counter
mongodb_atlas.process.system.normalized.cpu.user.pct
The portion of CPU time spent executing user space processes and running applications.
double
percent
gauge
mongodb_atlas.process.ticket.available.read.count
The number of read tickets available to the WiredTiger storage engine.
long
gauge
mongodb_atlas.process.ticket.available.write.count
The number of write tickets available to the WiredTiger storage engine.
long
gauge
mongodb_atlas.process_id
Combination of hostname and Internet Assigned Numbers Authority (IANA) port that serves the MongoDB process.
keyword

Changelog

VersionDetailsKibana version(s)

0.0.2

Enhancement View pull request
MongoDB Atlas integration package with "mongod_audit" data stream.

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0.0.1

Enhancement View pull request
MongoDB Atlas integration package with "process" data stream.

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