Spring Boot
This Elastic integration collects logs and metrics from Spring Boot integration.
Version |
1.3.1 (View all) |
Compatible Kibana version(s) |
8.9.0 or higher |
Supported Serverless project types |
Security Observability |
Subscription level |
Basic |
Level of support |
Elastic |
Overview
The Spring Boot integration is used to fetch observability data from Spring Boot Actuator web endpoints and ingest it into Elasticsearch.
Use the Spring Boot integration to:
- Collect logs related to audit events, HTTP trace, and metrics related to garbage collection(gc), memory, and threading.
- Create visualizations to monitor, measure, and analyze usage trends and key data, deriving business insights.
- Create alerts to reduce the MTTD and MTTR by referencing relevant logs when troubleshooting an issue.
Data streams
The Spring Boot integration collects logs and metrics data.
Logs help you keep a record of events that occur on your machine. The Log data streams collected by Spring Boot integration are auditevents
and httptrace
, allowing users to track authentication events, HTTP request and response details, enabling comprehensive monitoring and security auditing.
Metrics provide insight into the statistics of Spring Boot. The Metrics data streams collected by the Spring Boot integration include auditevents, gc, httptrace, memory, and threading, enabling users to monitor and troubleshoot the performance of Spring Boot instances.
Data streams:
auditevents
: Collects information related to the authentication status, remote address, document ID and principal.gc
: Collects information related to the GC collector name, memory usage before and after collection, thread count, and time metrics.httptrace
: Collects information related to the http requests, status response, principal and session details.memory
: Collects information related to the heap and non-heap memory, buffer pool and manager.threading
: Collects information related to the thread allocations, monitoring and CPU times.
Note:
- Users can monitor and view the logs inside the ingested documents for Spring Boot in the
logs-*
index pattern fromDiscover
, while for metrics, the index pattern ismetrics-*
.
Compatibility
This integration has been tested against Spring Boot v2.7.17 with LTS JDK versions 8, 11, 17, and 21.
Requirements
You need Elasticsearch for storing and searching your data and Kibana for visualizing and managing it. You can use our hosted Elasticsearch Service on Elastic Cloud, which is recommended or self-manage the Elastic Stack on your own hardware.
In order to ingest data from Spring Boot:
- You must know the host for Spring Boot application, add that host while configuring the integration package.
- Add default path for jolokia.
- Spring-boot-actuator module provides all Spring Boot's production-ready features. You also need to add the following dependency to the
pom.xml
file:
<dependency>
<groupId>org.springframework.boot</groupId>
<artifactId>spring-boot-starter-actuator</artifactId>
</dependency>
- For access of jolokia add below dependency in
pom.xml
of Spring Boot Application.
<dependency>
<groupId>org.jolokia</groupId>
<artifactId>jolokia-core</artifactId>
</dependency>
- To expose
HTTP Trace
metrics following class can be used InMemoryHttpTraceRepository. - To expose
Audit Events
metrics following class can be used InMemoryAuditEventRepository.
Setup
For step-by-step instructions on how to set up an integration, see the Getting Started guide.
Validation
After the integration is successfully configured, click on the Assets tab of the Spring Boot Integration to display the available dashboards. Select the dashboard for your configured data stream, which should be populated with the required data.
Troubleshooting
- If [Spring Boot] Audit Events panel does not display older documents after upgrading to
0.9.0
or later versions, this issue can be resolved by reindexing theAudit Events
data stream. - If
host.ip
appears conflicted under thelogs-*
data view, this issue can be resolved by reindexing theAudit Events
data stream. - If
host.ip
appears conflicted under themetrics-*
data view, this issue can be resolved by reindexing theGarbage Collector
,Memory
andThreading
data stream.
Logs
Audit Events logs
This is the audit_events
data stream.
- This data stream exposes audit events information for the current application.
An example event for audit_events
looks as following:
{
"@timestamp": "2022-08-05T09:30:10.644Z",
"agent": {
"ephemeral_id": "575ffec5-bd74-4689-8baa-8486735193f3",
"id": "3ab22ca1-4caf-465f-8789-2a45a81ed9b1",
"name": "docker-fleet-agent",
"type": "filebeat",
"version": "8.1.0"
},
"data_stream": {
"dataset": "spring_boot.audit_events",
"namespace": "ep",
"type": "logs"
},
"ecs": {
"version": "8.5.1"
},
"elastic_agent": {
"id": "3ab22ca1-4caf-465f-8789-2a45a81ed9b1",
"snapshot": false,
"version": "8.1.0"
},
"event": {
"agent_id_status": "verified",
"category": "web",
"created": "2022-08-05T09:30:10.644Z",
"dataset": "spring_boot.audit_events",
"ingested": "2022-08-05T09:30:14Z",
"kind": "event",
"module": "spring_boot",
"type": [
"info"
]
},
"host": {
"architecture": "x86_64",
"containerized": true,
"hostname": "docker-fleet-agent",
"ip": [
"192.168.112.5"
],
"mac": [
"02:42:c0:a8:70:05"
],
"name": "docker-fleet-agent",
"os": {
"codename": "focal",
"family": "debian",
"kernel": "3.10.0-1160.71.1.el7.x86_64",
"name": "Ubuntu",
"platform": "ubuntu",
"type": "linux",
"version": "20.04.4 LTS (Focal Fossa)"
}
},
"spring_boot": {
"audit_events": {
"data": {
"remote_address": "192.168.144.2"
},
"document_id": "Es32QTyIFsbGsH5nlZQxBDYnf18=",
"principal": "actuator",
"type": "AUTHENTICATION_SUCCESS"
}
},
"tags": [
"spring_boot.audit_events.metrics"
]
}
Exported fields
Field | Description | 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 |
ecs.version | ECS version this event conforms to. ecs.version is a required field and must exist in all events. When querying across multiple indices -- which may conform to slightly different ECS versions -- this field lets integrations adjust to the schema version of the events. | keyword |
event.dataset | Name of the dataset. If an event source publishes more than one type of log or events (e.g. access log, error log), the dataset is used to specify which one the event comes from. It's recommended but not required to start the dataset name with the module name, followed by a dot, then the dataset name. | keyword |
event.kind | This is one of four ECS Categorization Fields, and indicates the highest level in the ECS category hierarchy. event.kind gives high-level information about what type of information the event contains, without being specific to the contents of the event. For example, values of this field distinguish alert events from metric events. The value of this field can be used to inform how these kinds of events should be handled. They may warrant different retention, different access control, it may also help understand whether the data coming in at a regular interval or not. | keyword |
event.module | Name of the module this data is coming from. If your monitoring agent supports the concept of modules or plugins to process events of a given source (e.g. Apache logs), event.module should contain the name of this module. | keyword |
event.type | This is one of four ECS Categorization Fields, and indicates the third level in the ECS category hierarchy. event.type represents a categorization "sub-bucket" that, when used along with the event.category field values, enables filtering events down to a level appropriate for single visualization. This field is an array. This will allow proper categorization of some events that fall in multiple event types. | keyword |
host.ip | Host ip addresses. | ip |
spring_boot.audit_events.data.remote_address | Remote Address of the Spring Boot application user. | keyword |
spring_boot.audit_events.data.session_id | Session ID of the Spring Boot application user. | keyword |
spring_boot.audit_events.document_id | Unique document id generated by Elasticsearch. | keyword |
spring_boot.audit_events.principal | Restricts the events to those with the given principal. | keyword |
spring_boot.audit_events.type | Authentication type. | keyword |
tags | List of keywords used to tag each event. | keyword |
HTTP Trace logs
This is the http_trace
data stream.
- This data stream displays HTTP trace information.
An example event for http_trace
looks as following:
{
"@timestamp": "2022-08-05T09:31:44.895Z",
"agent": {
"ephemeral_id": "d55155ad-e1c4-4c29-a809-1d8b7b539e39",
"id": "3ab22ca1-4caf-465f-8789-2a45a81ed9b1",
"name": "docker-fleet-agent",
"type": "filebeat",
"version": "8.1.0"
},
"data_stream": {
"dataset": "spring_boot.http_trace",
"namespace": "ep",
"type": "logs"
},
"ecs": {
"version": "8.5.1"
},
"elastic_agent": {
"id": "3ab22ca1-4caf-465f-8789-2a45a81ed9b1",
"snapshot": false,
"version": "8.1.0"
},
"event": {
"agent_id_status": "verified",
"category": "web",
"created": "2022-08-05T09:31:44.895Z",
"dataset": "spring_boot.http_trace",
"duration": 2,
"ingested": "2022-08-05T09:31:48Z",
"kind": "event",
"module": "spring_boot",
"type": [
"info"
]
},
"host": {
"architecture": "x86_64",
"containerized": true,
"hostname": "docker-fleet-agent",
"ip": [
"192.168.112.5"
],
"mac": [
"02:42:c0:a8:70:05"
],
"name": "docker-fleet-agent",
"os": {
"codename": "focal",
"family": "debian",
"kernel": "3.10.0-1160.71.1.el7.x86_64",
"name": "Ubuntu",
"platform": "ubuntu",
"type": "linux",
"version": "20.04.4 LTS (Focal Fossa)"
}
},
"http": {
"request": {
"method": "GET",
"referrer": "http://springboot:8090/actuator/info"
},
"response": {
"status_code": 200
}
},
"tags": [
"spring_boot.http_trace.metrics"
]
}
Exported fields
Field | Description | 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 |
ecs.version | ECS version this event conforms to. ecs.version is a required field and must exist in all events. When querying across multiple indices -- which may conform to slightly different ECS versions -- this field lets integrations adjust to the schema version of the events. | keyword |
event.dataset | Name of the dataset. If an event source publishes more than one type of log or events (e.g. access log, error log), the dataset is used to specify which one the event comes from. It's recommended but not required to start the dataset name with the module name, followed by a dot, then the dataset name. | keyword |
event.duration | Duration of the event in nanoseconds. If event.start and event.end are known this value should be the difference between the end and start time. | long |
event.kind | This is one of four ECS Categorization Fields, and indicates the highest level in the ECS category hierarchy. event.kind gives high-level information about what type of information the event contains, without being specific to the contents of the event. For example, values of this field distinguish alert events from metric events. The value of this field can be used to inform how these kinds of events should be handled. They may warrant different retention, different access control, it may also help understand whether the data coming in at a regular interval or not. | keyword |
event.module | Name of the module this data is coming from. If your monitoring agent supports the concept of modules or plugins to process events of a given source (e.g. Apache logs), event.module should contain the name of this module. | keyword |
event.type | This is one of four ECS Categorization Fields, and indicates the third level in the ECS category hierarchy. event.type represents a categorization "sub-bucket" that, when used along with the event.category field values, enables filtering events down to a level appropriate for single visualization. This field is an array. This will allow proper categorization of some events that fall in multiple event types. | keyword |
host.ip | Host ip addresses. | ip |
http.request.method | HTTP request method. The value should retain its casing from the original event. For example, GET , get , and GeT are all considered valid values for this field. | keyword |
http.request.referrer | Referrer for this HTTP request. | keyword |
http.response.status_code | HTTP response status code. | long |
spring_boot.http_trace.principal | Principal of the exchange. | keyword |
spring_boot.http_trace.session | Session associated with the exchange. | keyword |
tags | List of keywords used to tag each event. | keyword |
Metrics
Memory Metrics
This is the memory
data stream.
- This data stream gives metrics related to heap and non-heap memory, buffer pool and manager.
An example event for memory
looks as following:
{
"@timestamp": "2023-09-28T13:08:46.636Z",
"agent": {
"ephemeral_id": "f6ab2af3-153b-4970-99c9-a9c564407b18",
"id": "9a3f2233-d554-4847-9b74-1465e769563d",
"name": "docker-fleet-agent",
"type": "metricbeat",
"version": "8.5.1"
},
"data_stream": {
"dataset": "spring_boot.memory",
"namespace": "ep",
"type": "metrics"
},
"ecs": {
"version": "8.5.1"
},
"elastic_agent": {
"id": "9a3f2233-d554-4847-9b74-1465e769563d",
"snapshot": false,
"version": "8.5.1"
},
"event": {
"agent_id_status": "verified",
"category": [
"web"
],
"dataset": "spring_boot.memory",
"duration": 566740708,
"ingested": "2023-09-28T13:08:48Z",
"kind": "metric",
"module": "spring_boot",
"type": "info"
},
"host": {
"architecture": "x86_64",
"containerized": true,
"hostname": "docker-fleet-agent",
"id": "75e38940166b4dbc90b6f5610e8e9c39",
"ip": [
"192.168.246.7"
],
"mac": [
"02-42-C0-A8-F6-07"
],
"name": "docker-fleet-agent",
"os": {
"codename": "focal",
"family": "debian",
"kernel": "3.10.0-1160.90.1.el7.x86_64",
"name": "Ubuntu",
"platform": "ubuntu",
"type": "linux",
"version": "20.04.5 LTS (Focal Fossa)"
}
},
"metricset": {
"name": "jmx",
"period": 60000
},
"service": {
"address": "http://springboot:8090/actuator/jolokia",
"type": "jolokia"
},
"spring_boot": {
"memory": {
"heap": {
"committed": 579338240,
"init": 260046848,
"max": 3698851840,
"used": 172880800
},
"non_heap": {
"committed": 62873600,
"init": 2555904,
"max": -1,
"used": 56856368
}
}
},
"tags": [
"spring_boot.memory.metrics"
]
}
Exported fields
Field | Description | 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 |
ecs.version | ECS version this event conforms to. ecs.version is a required field and must exist in all events. When querying across multiple indices -- which may conform to slightly different ECS versions -- this field lets integrations adjust to the schema version of the events. | keyword |
error.message | Error message. | match_only_text |
event.category | This is one of four ECS Categorization Fields, and indicates the second level in the ECS category hierarchy. event.category represents the "big buckets" of ECS categories. For example, filtering on event.category:process yields all events relating to process activity. This field is closely related to event.type , which is used as a subcategory. This field is an array. This will allow proper categorization of some events that fall in multiple categories. | keyword |
event.dataset | Name of the dataset. If an event source publishes more than one type of log or events (e.g. access log, error log), the dataset is used to specify which one the event comes from. It's recommended but not required to start the dataset name with the module name, followed by a dot, then the dataset name. | keyword |
event.kind | This is one of four ECS Categorization Fields, and indicates the highest level in the ECS category hierarchy. event.kind gives high-level information about what type of information the event contains, without being specific to the contents of the event. For example, values of this field distinguish alert events from metric events. The value of this field can be used to inform how these kinds of events should be handled. They may warrant different retention, different access control, it may also help understand whether the data coming in at a regular interval or not. | keyword |
event.module | Name of the module this data is coming from. If your monitoring agent supports the concept of modules or plugins to process events of a given source (e.g. Apache logs), event.module should contain the name of this module. | keyword |
host.ip | Host ip addresses. | ip |
service.address | Address where data about this service was collected from. This should be a URI, network address (ipv4:port or [ipv6]:port) or a resource path (sockets). | keyword |
service.type | The type of the service data is collected from. The type can be used to group and correlate logs and metrics from one service type. Example: If logs or metrics are collected from Elasticsearch, service.type would be elasticsearch . | keyword |
spring_boot.memory.buffer_pool.direct.count | Count of direct buffer pool memory. | long |
spring_boot.memory.buffer_pool.direct.total_capacity | Total capacity of direct buffer pool memory. | long |
spring_boot.memory.buffer_pool.direct.used | Used memory of direct buffer pool. | long |
spring_boot.memory.buffer_pool.mapped.count | Count of mapped buffer pool memory. | long |
spring_boot.memory.buffer_pool.mapped.total_capacity | Total capacity of mapped buffer pool memory. | long |
spring_boot.memory.buffer_pool.mapped.used | Used memory of mapped buffer pool. | long |
spring_boot.memory.heap.committed | Committed heap memory usage of JVM. | long |
spring_boot.memory.heap.init | Init heap memory usage of JVM. | long |
spring_boot.memory.heap.max | Max heap memory usage of JVM. | long |
spring_boot.memory.heap.used | Used heap memory usage of JVM. | long |
spring_boot.memory.manager.code_cache.name | Name of the cacheManager to qualify the cache. | keyword |
spring_boot.memory.manager.code_cache.valid | Validation of code cache. | boolean |
spring_boot.memory.manager.metaspace.name | Name of the Metaspace Manager to qualify the cache. | keyword |
spring_boot.memory.manager.metaspace.valid | Validation of metaspace manager. | boolean |
spring_boot.memory.non_heap.committed | Committed non-heap memory usage of JVM. | long |
spring_boot.memory.non_heap.init | Init non-heap memory usage of JVM. | long |
spring_boot.memory.non_heap.max | Max non-heap memory usage of JVM. | long |
spring_boot.memory.non_heap.used | Used non-heap memory usage of JVM. | long |
tags | List of keywords used to tag each event. | keyword |
Threading Metrics
This is the threading
data stream.
- This data stream gives metrics related to thread allocations, monitoring and CPU times.
An example event for threading
looks as following:
{
"@timestamp": "2023-09-28T13:09:36.850Z",
"agent": {
"ephemeral_id": "f6ab2af3-153b-4970-99c9-a9c564407b18",
"id": "9a3f2233-d554-4847-9b74-1465e769563d",
"name": "docker-fleet-agent",
"type": "metricbeat",
"version": "8.5.1"
},
"data_stream": {
"dataset": "spring_boot.threading",
"namespace": "ep",
"type": "metrics"
},
"ecs": {
"version": "8.5.1"
},
"elastic_agent": {
"id": "9a3f2233-d554-4847-9b74-1465e769563d",
"snapshot": false,
"version": "8.5.1"
},
"event": {
"agent_id_status": "verified",
"category": [
"web"
],
"dataset": "spring_boot.threading",
"duration": 197157690,
"ingested": "2023-09-28T13:09:38Z",
"kind": "metric",
"module": "spring_boot",
"type": "info"
},
"host": {
"architecture": "x86_64",
"containerized": true,
"hostname": "docker-fleet-agent",
"id": "75e38940166b4dbc90b6f5610e8e9c39",
"ip": [
"192.168.246.7"
],
"mac": [
"02-42-C0-A8-F6-07"
],
"name": "docker-fleet-agent",
"os": {
"codename": "focal",
"family": "debian",
"kernel": "3.10.0-1160.90.1.el7.x86_64",
"name": "Ubuntu",
"platform": "ubuntu",
"type": "linux",
"version": "20.04.5 LTS (Focal Fossa)"
}
},
"metricset": {
"name": "jmx",
"period": 60000
},
"service": {
"address": "http://springboot:8090/actuator/jolokia",
"type": "jolokia"
},
"spring_boot": {
"threading": {
"threads": {
"count": 20,
"current": {
"allocated_bytes": 28523936,
"time": {
"cpu": 380757629,
"user": 370000000
}
},
"daemon": 16,
"started": 23
}
}
},
"tags": [
"spring_boot.threading.metrics"
]
}
Exported fields
Field | Description | 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 |
ecs.version | ECS version this event conforms to. ecs.version is a required field and must exist in all events. When querying across multiple indices -- which may conform to slightly different ECS versions -- this field lets integrations adjust to the schema version of the events. | keyword |
error.message | Error message. | match_only_text |
event.category | This is one of four ECS Categorization Fields, and indicates the second level in the ECS category hierarchy. event.category represents the "big buckets" of ECS categories. For example, filtering on event.category:process yields all events relating to process activity. This field is closely related to event.type , which is used as a subcategory. This field is an array. This will allow proper categorization of some events that fall in multiple categories. | keyword |
event.dataset | Name of the dataset. If an event source publishes more than one type of log or events (e.g. access log, error log), the dataset is used to specify which one the event comes from. It's recommended but not required to start the dataset name with the module name, followed by a dot, then the dataset name. | keyword |
event.kind | This is one of four ECS Categorization Fields, and indicates the highest level in the ECS category hierarchy. event.kind gives high-level information about what type of information the event contains, without being specific to the contents of the event. For example, values of this field distinguish alert events from metric events. The value of this field can be used to inform how these kinds of events should be handled. They may warrant different retention, different access control, it may also help understand whether the data coming in at a regular interval or not. | keyword |
event.module | Name of the module this data is coming from. If your monitoring agent supports the concept of modules or plugins to process events of a given source (e.g. Apache logs), event.module should contain the name of this module. | keyword |
host.ip | Host ip addresses. | ip |
service.address | Address where data about this service was collected from. This should be a URI, network address (ipv4:port or [ipv6]:port) or a resource path (sockets). | keyword |
service.type | The type of the service data is collected from. The type can be used to group and correlate logs and metrics from one service type. Example: If logs or metrics are collected from Elasticsearch, service.type would be elasticsearch . | keyword |
spring_boot.threading.threads.count | Current number of live threads including both daemon and non-daemon threads. | long |
spring_boot.threading.threads.current.allocated_bytes | Allocated bytes for the current thread. | double |
spring_boot.threading.threads.current.time.cpu | CPU time for the current thread in nanoseconds. | long |
spring_boot.threading.threads.current.time.user | User time for the current thread. | long |
spring_boot.threading.threads.daemon | Current number of live daemon threads. | long |
spring_boot.threading.threads.started | Total number of threads created and also started since the Java virtual machine started. | long |
tags | List of keywords used to tag each event. | keyword |
GC Metrics
This is the gc
data stream.
- This data stream gives metrics related to Garbage Collector (GC) Memory.
An example event for gc
looks as following:
{
"@timestamp": "2023-09-28T13:07:07.602Z",
"agent": {
"ephemeral_id": "dcb46246-ff32-4d0e-89ce-d72ce374bb33",
"id": "9a3f2233-d554-4847-9b74-1465e769563d",
"name": "docker-fleet-agent",
"type": "metricbeat",
"version": "8.5.1"
},
"data_stream": {
"dataset": "spring_boot.gc",
"namespace": "ep",
"type": "metrics"
},
"ecs": {
"version": "8.5.1"
},
"elastic_agent": {
"id": "9a3f2233-d554-4847-9b74-1465e769563d",
"snapshot": false,
"version": "8.5.1"
},
"event": {
"agent_id_status": "verified",
"category": [
"web"
],
"dataset": "spring_boot.gc",
"duration": 221408484,
"ingested": "2023-09-28T13:07:08Z",
"kind": "metric",
"module": "spring_boot",
"type": [
"info"
]
},
"host": {
"architecture": "x86_64",
"containerized": true,
"hostname": "docker-fleet-agent",
"id": "75e38940166b4dbc90b6f5610e8e9c39",
"ip": [
"192.168.246.7"
],
"mac": [
"02-42-C0-A8-F6-07"
],
"name": "docker-fleet-agent",
"os": {
"codename": "focal",
"family": "debian",
"kernel": "3.10.0-1160.90.1.el7.x86_64",
"name": "Ubuntu",
"platform": "ubuntu",
"type": "linux",
"version": "20.04.5 LTS (Focal Fossa)"
}
},
"metricset": {
"name": "jmx",
"period": 60000
},
"service": {
"address": "http://springboot:8090/actuator/jolokia",
"type": "jolokia"
},
"spring_boot": {
"gc": {
"last_info": {
"id": 2,
"memory_usage": {
"after": {
"code_cache": {
"committed": 14286848,
"init": 2555904,
"max": 251658240,
"used": 14209088
},
"compressed_class_space": {
"committed": 4980736,
"init": 0,
"max": 1073741824,
"used": 4436328
},
"metaspace": {
"committed": 36265984,
"init": 0,
"max": -1,
"used": 33758840
},
"ps_eden_space": {
"committed": 435683328,
"init": 65536000,
"max": 1354760192,
"used": 0
},
"ps_old_gen": {
"committed": 118489088,
"init": 173539328,
"max": 2774007808,
"used": 14683728
},
"ps_survivor_space": {
"committed": 16777216,
"init": 10485760,
"max": 16777216,
"used": 0
}
},
"before": {
"code_cache": {
"committed": 14286848,
"init": 2555904,
"max": 251658240,
"used": 14209088
},
"compressed_class_space": {
"committed": 4980736,
"init": 0,
"max": 1073741824,
"used": 4436328
},
"metaspace": {
"committed": 36265984,
"init": 0,
"max": -1,
"used": 33758840
},
"ps_eden_space": {
"committed": 435683328,
"init": 65536000,
"max": 1354760192,
"used": 0
},
"ps_old_gen": {
"committed": 94896128,
"init": 173539328,
"max": 2774007808,
"used": 10795056
},
"ps_survivor_space": {
"committed": 16777216,
"init": 10485760,
"max": 16777216,
"used": 8519744
}
}
},
"thread_count": 10,
"time": {
"duration": 40,
"end": 3588,
"start": 3548
}
},
"name": "PS MarkSweep"
}
},
"tags": [
"spring_boot.gc.metrics"
]
}
Exported fields
Field | Description | Type | Unit |
---|---|---|---|
@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 | |
ecs.version | ECS version this event conforms to. ecs.version is a required field and must exist in all events. When querying across multiple indices -- which may conform to slightly different ECS versions -- this field lets integrations adjust to the schema version of the events. | keyword | |
error.message | Error message. | match_only_text | |
event.category | This is one of four ECS Categorization Fields, and indicates the second level in the ECS category hierarchy. event.category represents the "big buckets" of ECS categories. For example, filtering on event.category:process yields all events relating to process activity. This field is closely related to event.type , which is used as a subcategory. This field is an array. This will allow proper categorization of some events that fall in multiple categories. | keyword | |
event.dataset | Name of the dataset. If an event source publishes more than one type of log or events (e.g. access log, error log), the dataset is used to specify which one the event comes from. It's recommended but not required to start the dataset name with the module name, followed by a dot, then the dataset name. | keyword | |
event.duration | Duration of the event in nanoseconds. If event.start and event.end are known this value should be the difference between the end and start time. | long | |
event.ingested | Timestamp when an event arrived in the central data store. This is different from @timestamp , which is when the event originally occurred. It's also different from event.created , which is meant to capture the first time an agent saw the event. In normal conditions, assuming no tampering, the timestamps should chronologically look like this: @timestamp < event.created < event.ingested . | date | |
event.kind | This is one of four ECS Categorization Fields, and indicates the highest level in the ECS category hierarchy. event.kind gives high-level information about what type of information the event contains, without being specific to the contents of the event. For example, values of this field distinguish alert events from metric events. The value of this field can be used to inform how these kinds of events should be handled. They may warrant different retention, different access control, it may also help understand whether the data coming in at a regular interval or not. | keyword | |
event.module | Name of the module this data is coming from. If your monitoring agent supports the concept of modules or plugins to process events of a given source (e.g. Apache logs), event.module should contain the name of this module. | keyword | |
event.type | This is one of four ECS Categorization Fields, and indicates the third level in the ECS category hierarchy. event.type represents a categorization "sub-bucket" that, when used along with the event.category field values, enables filtering events down to a level appropriate for single visualization. This field is an array. This will allow proper categorization of some events that fall in multiple event types. | keyword | |
host.ip | Host ip addresses. | ip | |
service.address | Address where data about this service was collected from. This should be a URI, network address (ipv4:port or [ipv6]:port) or a resource path (sockets). | keyword | |
service.type | The type of the service data is collected from. The type can be used to group and correlate logs and metrics from one service type. Example: If logs or metrics are collected from Elasticsearch, service.type would be elasticsearch . | keyword | |
spring_boot.gc.last_info.id | ID of the GC. | long | |
spring_boot.gc.last_info.memory_usage.after.code_cache.committed | Committed memory of the code cache memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.code_cache.init | Init memory of the code cache memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.code_cache.max | Max memory of the code cache memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.code_cache.used | Used memory of the code cache memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.compressed_class_space.committed | Committed memory of the compressed class space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.compressed_class_space.init | Init memory of the compressed class space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.compressed_class_space.max | Max memory of the compressed class space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.compressed_class_space.used | Used memory of the compressed class space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_eden_space.committed | Committed memory of the G1 Eden Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_eden_space.init | Init memory of the G1 Eden Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_eden_space.max | Max memory of the G1 Eden Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_eden_space.used | Used memory of the G1 Eden Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_old_gen.committed | Committed memory of the G1 Old Gen memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_old_gen.init | Init memory of the G1 Old Gen memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_old_gen.max | Max memory of the G1 Old Gen memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_old_gen.used | Used memory of the G1 Old Gen memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_survivor_space.committed | Committed memory of the G1 Survivor Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_survivor_space.init | Init memory of the G1 Survivor Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_survivor_space.max | Max memory of the G1 Survivor Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.g1_survivor_space.used | Used memory of the G1 Survivor Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.metaspace.committed | Committed memory of the metaspace memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.metaspace.init | Init memory of the metaspace memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.metaspace.max | Max memory of the metaspace memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.metaspace.used | Used memory of the metaspace memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_eden_space.committed | Committed memory of the PS Eden Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_eden_space.init | Init memory of the PS Eden Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_eden_space.max | Max memory of the PS Eden Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_eden_space.used | Used memory of the PS Eden Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_old_gen.committed | Committed memory of the PS Old Gen memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_old_gen.init | Init memory of the PS Old Gen memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_old_gen.max | Max memory of the PS Old Gen memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_old_gen.used | Used memory of the PS Old Gen memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_survivor_space.committed | Committed memory of the PS Survivor Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_survivor_space.init | Init memory of the PS Survivor Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_survivor_space.max | Max memory of the PS Survivor Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.after.ps_survivor_space.used | Used memory of the PS Survivor Space memory pool after GC started. | long | byte |
spring_boot.gc.last_info.memory_usage.before.code_cache.committed | Committed memory of the code cache memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.code_cache.init | Init memory of the code cache memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.code_cache.max | Max memory of the code cache memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.code_cache.used | Used memory of the code cache memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.compressed_class_space.committed | Committed memory of the compressed class space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.compressed_class_space.init | Init memory of the compressed class space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.compressed_class_space.max | Max memory of the compressed class space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.compressed_class_space.used | Used memory of the compressed class space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_eden_space.committed | Committed memory of the G1 Eden Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_eden_space.init | Init memory of the G1 Eden Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_eden_space.max | Max memory of the G1 Eden Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_eden_space.used | Used memory of the G1 Eden Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_old_gen.committed | Committed memory of the G1 Old Gen memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_old_gen.init | Init memory of the G1 Old Gen memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_old_gen.max | Max memory of the G1 Old Gen memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_old_gen.used | Used memory of the G1 Old Gen memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_survivor_space.committed | Committed memory of the G1 Survivor Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_survivor_space.init | Init memory of the G1 Survivor Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_survivor_space.max | Max memory of the G1 Survivor Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.g1_survivor_space.used | Used memory of the G1 Survivor Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.metaspace.committed | Committed memory of the metaspace memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.metaspace.init | Init memory of the metaspace memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.metaspace.max | Max memory of the metaspace memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.metaspace.used | Used memory of the metaspace memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_eden_space.committed | Committed memory of the PS Eden Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_eden_space.init | Init memory of the PS Eden Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_eden_space.max | Max memory of the PS Eden Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_eden_space.used | Used memory of the PS Eden Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_old_gen.committed | Committed memory of the PS Old Gen memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_old_gen.init | Init memory of the PS Old Gen memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_old_gen.max | Max memory of the PS Old Gen memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_old_gen.used | Used memory of the PS Old Gen memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_survivor_space.committed | Committed memory of the PS Survivor Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_survivor_space.init | Init memory of the PS Survivor Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_survivor_space.max | Max memory of the PS Survivor Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.memory_usage.before.ps_survivor_space.used | Used memory of the PS Survivor Space memory pool before GC starts. | long | byte |
spring_boot.gc.last_info.thread_count | Thread count of the GC. | long | |
spring_boot.gc.last_info.time.duration | Elapsed time of the GC in milliseconds. | long | ms |
spring_boot.gc.last_info.time.end | End time of the GC. | long | ms |
spring_boot.gc.last_info.time.start | Start time of the GC. | long | ms |
spring_boot.gc.name | Name of the GC. | keyword | |
tags | List of keywords used to tag each event. | keyword |
Changelog
Version | Details | Kibana version(s) |
---|---|---|
1.3.1 | Enhancement View pull request | 8.9.0 or higher |
1.3.0 | Enhancement View pull request | 8.9.0 or higher |
1.2.2 | Enhancement View pull request | 8.9.0 or higher |
1.2.1 | Bug fix View pull request | 8.9.0 or higher |
1.2.0 | Enhancement View pull request | 8.9.0 or higher |
1.1.0 | Enhancement View pull request | 8.9.0 or higher |
1.0.0 | Enhancement View pull request | 8.9.0 or higher |
0.13.0 | Enhancement View pull request | — |
0.12.0 | Enhancement View pull request | — |
0.11.1 | Bug fix View pull request | — |
0.11.0 | Enhancement View pull request | — |
0.10.0 | Enhancement View pull request | — |
0.9.0 | Enhancement View pull request | — |
0.8.0 | Enhancement View pull request | — |
0.7.1 | Enhancement View pull request | — |
0.7.0 | Enhancement View pull request | — |
0.6.1 | Bug fix View pull request | — |
0.6.0 | Enhancement View pull request | — |
0.5.0 | Enhancement View pull request | — |
0.4.0 | Enhancement View pull request | — |
0.3.0 | Enhancement View pull request | — |
0.2.0 | Enhancement View pull request | — |
0.1.0 | Enhancement View pull request | — |