{"level":"info","name":"fred","home":"bedrock"}
You can configure the Log Forwarding API to parse JSON strings into a structured object.
Logs including JSON logs are usually represented as a string inside the message
field. That makes it hard for users to query specific fields inside a JSON document. OpenShift logging’s Log Forwarding API enables you to parse JSON logs into a structured object and forward them to either OpenShift logging-managed Elasticsearch or any other third-party system supported by the Log Forwarding API.
To illustrate how this works, suppose that you have the following structured JSON log entry.
{"level":"info","name":"fred","home":"bedrock"}
Normally, the ClusterLogForwarder
custom resource (CR) forwards that log entry in the message
field. The message
field contains the JSON-quoted string equivalent of the JSON log entry, as shown in the following example.
message
field{"message":"{\"level\":\"info\",\"name\":\"fred\",\"home\":\"bedrock\"",
"more fields..."}
To enable parsing JSON log, you add parse: json
to a pipeline in the ClusterLogForwarder
CR, as shown in the following example.
parse: json
pipelines:
- inputRefs: [ application ]
outputRefs: myFluentd
parse: json
When you enable parsing JSON logs by using parse: json
, the CR copies the JSON-structured log entry in a structured
field, as shown in the following example. This does not modify the original message
field.
structured
output containing the structured JSON log entry{"structured": { "level": "info", "name": "fred", "home": "bedrock" },
"more fields..."}
If the log entry does not contain valid structured JSON, the |
To enable parsing JSON logs for specific logging platforms, see Forwarding logs to third-party systems.
If your JSON logs follow more than one schema, storing them in a single index might cause type conflicts and cardinality problems. To avoid that, you must configure the ClusterLogForwarder
custom resource (CR) to group each schema into a single output definition. This way, each schema is forwarded to a separate index.
If you forward JSON logs to the default Elasticsearch instance managed by OpenShift logging, it generates new indices based on your configuration. To avoid performance issues associated with having too many indices, consider keeping the number of possible schemas low by standardizing to common schemas. |
You can use the following structure types in the ClusterLogForwarder
CR to construct index names for the Elasticsearch log store:
structuredTypeKey
(string, optional) is the name of a message field. The value of that field, if present, is used to construct the index name.
kubernetes.labels.<key>
is the Kubernetes pod label whose value is used to construct the index name.
openshift.labels.<key>
is the pipeline.label.<key>
element in the ClusterLogForwarder
CR whose value is used to construct the index name.
kubernetes.container_name
uses the container name to construct the index name.
structuredTypeName
: (string, optional) If structuredTypeKey
is not set or its key is not present, OpenShift logging uses the value of structuredTypeName
as the structured type. When you use both structuredTypeKey
and structuredTypeName
together, structuredTypeName
provides a fallback index name if the key in structuredTypeKey
is missing from the JSON log data.
Although you can set the value of |
Suppose the following:
Your cluster is running application pods that produce JSON logs in two different formats, "apache" and "google".
The user labels these application pods with logFormat=apache
and logFormat=google
.
You use the following snippet in your ClusterLogForwarder
CR YAML file.
outputDefaults:
elasticsearch:
structuredTypeKey: kubernetes.labels.logFormat (1)
structuredTypeName: nologformat
pipelines:
- inputRefs: <application>
outputRefs: default
parse: json (2)
1 | Uses the value of the key-value pair that is formed by the Kubernetes logFormat label. |
2 | Enables parsing JSON logs. |
In that case, the following structured log record goes to the app-apache-write
index:
{
"structured":{"name":"fred","home":"bedrock"},
"kubernetes":{"labels":{"logFormat": "apache", ...}}
}
And the following structured log record goes to the app-google-write
index:
{
"structured":{"name":"wilma","home":"bedrock"},
"kubernetes":{"labels":{"logFormat": "google", ...}}
}
Suppose that you use the following snippet in your ClusterLogForwarder
CR YAML file.
outputDefaults:
elasticsearch:
structuredTypeKey: openshift.labels.myLabel (1)
structuredTypeName: nologformat
pipelines:
- name: application-logs
inputRefs:
- application
- audit
outputRefs:
- elasticsearch-secure
- default
parse: json
labels:
myLabel: myValue (2)
1 | Uses the value of the key-value pair that is formed by the OpenShift myLabel label. |
2 | The myLabel element gives its string value, myValue , to the structured log record. |
In that case, the following structured log record goes to the app-myValue-write
index:
{
"structured":{"name":"fred","home":"bedrock"},
"openshift":{"labels":{"myLabel": "myValue", ...}}
}
The Elasticsearch index for structured records is formed by prepending "app-" to the structured type and appending "-write".
Unstructured records are not sent to the structured index. They are indexed as usual in the application, infrastructure, or audit indices.
If there is no non-empty structured type, forward an unstructured record with no structured
field.
It is important not to overload Elasticsearch with too many indices. Only use distinct structured types for distinct log formats, not for each application or namespace. For example, most Apache applications use the same JSON log format and structured type, such as LogApache
.
For an Elasticsearch log store, if your JSON log entries follow different schemas, configure the ClusterLogForwarder
custom resource (CR) to group each JSON schema into a single output definition. This way, Elasticsearch uses a separate index for each schema.
Because forwarding different schemas to the same index can cause type conflicts and cardinality problems, you must perform this configuration before you forward data to the Elasticsearch store. To avoid performance issues associated with having too many indices, consider keeping the number of possible schemas low by standardizing to common schemas. |
Add the following snippet to your ClusterLogForwarder
CR YAML file.
outputDefaults:
elasticsearch:
structuredTypeKey: <log record field>
structuredTypeName: <name>
pipelines:
- inputRefs:
- application
outputRefs: default
parse: json
Optional: Use structuredTypeKey
to specify one of the log record fields, as described in the preceding topic, Configuring JSON log data for Elasticsearch. Otherwise, remove this line.
Optional: Use structuredTypeName
to specify a <name>
, as described in the preceding topic, Configuring JSON log data for Elasticsearch. Otherwise, remove this line.
To parse JSON logs, you must set either |
For inputRefs
, specify which log types to forward by using that pipeline, such as application,
infrastructure
, or audit
.
Add the parse: json
element to pipelines.
Create the CR object:
$ oc create -f <file-name>.yaml
The Red Hat OpenShift logging Operator redeploys the Fluentd pods. However, if they do not redeploy, delete the Fluentd pods to force them to redeploy.
$ oc delete pod --selector logging-infra=collector