vendor/k8s.io/kubernetes/cluster/addons/fluentd-gcp/fluentd-gcp-configmap-old.yaml - cloudstack-kubernetes-provider - Git at Google

 # This ConfigMap is used to ingest logs against old resources like
 # "gke_container" and "gce_instance" when $LOGGING_STACKDRIVER_RESOURCE_TYPES is
 # set to "old".
 # When $LOGGING_STACKDRIVER_RESOURCE_TYPES is set to "new", the ConfigMap in
 # fluentd-gcp-configmap.yaml will be used for ingesting logs against new
 # resources like "k8s_container" and "k8s_node".
 kind: ConfigMap
 apiVersion: v1
 data:
   containers.input.conf: |-
     # This configuration file for Fluentd is used
     # to watch changes to Docker log files that live in the
     # directory /var/lib/docker/containers/ and are symbolically
     # linked to from the /var/log/containers directory using names that capture the
     # pod name and container name. These logs are then submitted to
     # Google Cloud Logging which assumes the installation of the cloud-logging plug-in.
     #
     # Example
     # =======
     # A line in the Docker log file might look like this JSON:
     #
     # {"log":"2014/09/25 21:15:03 Got request with path wombat\\n",
     #  "stream":"stderr",
     #   "time":"2014-09-25T21:15:03.499185026Z"}
     #
     # The original tag is derived from the log file's location.
     # For example a Docker container's logs might be in the directory:
     #  /var/lib/docker/containers/997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b
     # and in the file:
     #  997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b-json.log
     # where 997599971ee6... is the Docker ID of the running container.
     # The Kubernetes kubelet makes a symbolic link to this file on the host
     # machine in the /var/log/containers directory which includes the pod name,
     # the namespace name and the Kubernetes container name:
     #    synthetic-logger-0.25lps-pod_default_synth-lgr-997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b.log
     #    ->
     #    /var/lib/docker/containers/997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b/997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b-json.log
     # The /var/log directory on the host is mapped to the /var/log directory in the container
     # running this instance of Fluentd and we end up collecting the file:
     #   /var/log/containers/synthetic-logger-0.25lps-pod_default_synth-lgr-997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b.log
     # This results in the tag:
     #  var.log.containers.synthetic-logger-0.25lps-pod_default_synth-lgr-997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b.log
     # where 'synthetic-logger-0.25lps-pod' is the pod name, 'default' is the
     # namespace name, 'synth-lgr' is the container name and '997599971ee6..' is
     # the container ID.
     # The record reformer is used is discard the var.log.containers prefix and
     # the Docker container ID suffix and "kubernetes." is pre-pended giving the tag:
     #   kubernetes.synthetic-logger-0.25lps-pod_default_synth-lgr
     # Tag is then parsed by google_cloud plugin and translated to the metadata,
     # visible in the log viewer

     # Json Log Example:
     # {"log":"[info:2016-02-16T16:04:05.930-08:00] Some log text here\n","stream":"stdout","time":"2016-02-17T00:04:05.931087621Z"}
     # CRI Log Example:
     # 2016-02-17T00:04:05.931087621Z stdout F [info:2016-02-16T16:04:05.930-08:00] Some log text here
     <source>
       @type tail
       path /var/log/containers/*.log
       pos_file /var/log/gcp-containers.log.pos
       # Tags at this point are in the format of:
       # reform.var.log.containers.<POD_NAME>_<NAMESPACE_NAME>_<CONTAINER_NAME>-<CONTAINER_ID>.log
       tag reform.*
       read_from_head true
       format multi_format
       <pattern>
         format json
         time_key time
         time_format %Y-%m-%dT%H:%M:%S.%NZ
       </pattern>
       <pattern>
         format /^(?<time>.+) (?<stream>stdout|stderr) [^ ]* (?<log>.*)$/
         time_format %Y-%m-%dT%H:%M:%S.%N%:z
       </pattern>
     </source>

     <filter reform.**>
       @type parser
       format /^(?<severity>\w)(?<time>\d{4} [^\s]*)\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<log>.*)/
       reserve_data true
       suppress_parse_error_log true
       emit_invalid_record_to_error false
       key_name log
     </filter>

     <match reform.**>
       @type record_reformer
       enable_ruby true
       # Tags at this point are in the format of:
       # 'raw.kubernetes.<POD_NAME>_<NAMESPACE_NAME>_<CONTAINER_NAME>'.
       tag raw.kubernetes.${tag_suffix[4].split('-')[0..-2].join('-')}
     </match>

     # Detect exceptions in the log output and forward them as one log entry.
     <match raw.kubernetes.**>
       @type detect_exceptions

       remove_tag_prefix raw
       message log
       stream stream
       multiline_flush_interval 5
       max_bytes 500000
       max_lines 1000
     </match>
   system.input.conf: |-
     # Example:
     # Dec 21 23:17:22 gke-foo-1-1-4b5cbd14-node-4eoj startupscript: Finished running startup script /var/run/google.startup.script
     <source>
       @type tail
       format syslog
       path /var/log/startupscript.log
       pos_file /var/log/gcp-startupscript.log.pos
       tag startupscript
     </source>

     # Examples:
     # time="2016-02-04T06:51:03.053580605Z" level=info msg="GET /containers/json"
     # time="2016-02-04T07:53:57.505612354Z" level=error msg="HTTP Error" err="No such image: -f" statusCode=404
     # TODO(random-liu): Remove this after cri container runtime rolls out.
     <source>
       @type tail
       format /^time="(?<time>[^)]*)" level=(?<severity>[^ ]*) msg="(?<message>[^"]*)"( err="(?<error>[^"]*)")?( statusCode=($<status_code>\d+))?/
       path /var/log/docker.log
       pos_file /var/log/gcp-docker.log.pos
       tag docker
     </source>

     # Example:
     # 2016/02/04 06:52:38 filePurge: successfully removed file /var/etcd/data/member/wal/00000000000006d0-00000000010a23d1.wal
     <source>
       @type tail
       # Not parsing this, because it doesn't have anything particularly useful to
       # parse out of it (like severities).
       format none
       path /var/log/etcd.log
       pos_file /var/log/gcp-etcd.log.pos
       tag etcd
     </source>

     # Multi-line parsing is required for all the kube logs because very large log
     # statements, such as those that include entire object bodies, get split into
     # multiple lines by glog.

     # Example:
     # I0204 07:32:30.020537    3368 server.go:1048] POST /stats/container/: (13.972191ms) 200 [[Go-http-client/1.1] 10.244.1.3:40537]
     <source>
       @type tail
       format multiline
       multiline_flush_interval 5s
       format_firstline /^\w\d{4}/
       format1 /^(?<severity>\w)(?<time>\d{4} [^\s]*)\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.*)/
       time_format %m%d %H:%M:%S.%N
       path /var/log/kubelet.log
       pos_file /var/log/gcp-kubelet.log.pos
       tag kubelet
     </source>

     # Example:
     # I1118 21:26:53.975789       6 proxier.go:1096] Port "nodePort for kube-system/default-http-backend:http" (:31429/tcp) was open before and is still needed
     <source>
       @type tail
       format multiline
       multiline_flush_interval 5s
       format_firstline /^\w\d{4}/
       format1 /^(?<severity>\w)(?<time>\d{4} [^\s]*)\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.*)/
       time_format %m%d %H:%M:%S.%N
       path /var/log/kube-proxy.log
       pos_file /var/log/gcp-kube-proxy.log.pos
       tag kube-proxy
     </source>

     # Example:
     # I0204 07:00:19.604280       5 handlers.go:131] GET /api/v1/nodes: (1.624207ms) 200 [[kube-controller-manager/v1.1.3 (linux/amd64) kubernetes/6a81b50] 127.0.0.1:38266]
     <source>
       @type tail
       format multiline
       multiline_flush_interval 5s
       format_firstline /^\w\d{4}/
       format1 /^(?<severity>\w)(?<time>\d{4} [^\s]*)\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.*)/
       time_format %m%d %H:%M:%S.%N
       path /var/log/kube-apiserver.log
       pos_file /var/log/gcp-kube-apiserver.log.pos
       tag kube-apiserver
     </source>

     # Example:
     # I0204 06:55:31.872680       5 servicecontroller.go:277] LB already exists and doesn't need update for service kube-system/kube-ui
     <source>
       @type tail
       format multiline
       multiline_flush_interval 5s
       format_firstline /^\w\d{4}/
       format1 /^(?<severity>\w)(?<time>\d{4} [^\s]*)\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.*)/
       time_format %m%d %H:%M:%S.%N
       path /var/log/kube-controller-manager.log
       pos_file /var/log/gcp-kube-controller-manager.log.pos
       tag kube-controller-manager
     </source>

     # Example:
     # W0204 06:49:18.239674       7 reflector.go:245] pkg/scheduler/factory/factory.go:193: watch of *api.Service ended with: 401: The event in requested index is outdated and cleared (the requested history has been cleared [2578313/2577886]) [2579312]
     <source>
       @type tail
       format multiline
       multiline_flush_interval 5s
       format_firstline /^\w\d{4}/
       format1 /^(?<severity>\w)(?<time>\d{4} [^\s]*)\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.*)/
       time_format %m%d %H:%M:%S.%N
       path /var/log/kube-scheduler.log
       pos_file /var/log/gcp-kube-scheduler.log.pos
       tag kube-scheduler
     </source>

     # Example:
     # I0603 15:31:05.793605       6 cluster_manager.go:230] Reading config from path /etc/gce.conf
     <source>
       @type tail
       format multiline
       multiline_flush_interval 5s
       format_firstline /^\w\d{4}/
       format1 /^(?<severity>\w)(?<time>\d{4} [^\s]*)\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.*)/
       time_format %m%d %H:%M:%S.%N
       path /var/log/glbc.log
       pos_file /var/log/gcp-glbc.log.pos
       tag glbc
     </source>

     # Example:
     # I0603 15:31:05.793605       6 cluster_manager.go:230] Reading config from path /etc/gce.conf
     <source>
       @type tail
       format multiline
       multiline_flush_interval 5s
       format_firstline /^\w\d{4}/
       format1 /^(?<severity>\w)(?<time>\d{4} [^\s]*)\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.*)/
       time_format %m%d %H:%M:%S.%N
       path /var/log/cluster-autoscaler.log
       pos_file /var/log/gcp-cluster-autoscaler.log.pos
       tag cluster-autoscaler
     </source>

     # Logs from systemd-journal for interesting services.
     # TODO(random-liu): Keep this for compatibility, remove this after
     # cri container runtime rolls out.
     <source>
       @type systemd
       filters [{ "_SYSTEMD_UNIT": "docker.service" }]
       pos_file /var/log/gcp-journald-docker.pos
       read_from_head true
       tag docker
     </source>

     <source>
       @type systemd
       filters [{ "_SYSTEMD_UNIT": "{{ container_runtime }}.service" }]
       pos_file /var/log/gcp-journald-container-runtime.pos
       read_from_head true
       tag container-runtime
     </source>

     <source>
       @type systemd
       filters [{ "_SYSTEMD_UNIT": "kubelet.service" }]
       pos_file /var/log/gcp-journald-kubelet.pos
       read_from_head true
       tag kubelet
     </source>

     <source>
       @type systemd
       filters [{ "_SYSTEMD_UNIT": "node-problem-detector.service" }]
       pos_file /var/log/gcp-journald-node-problem-detector.pos
       read_from_head true
       tag node-problem-detector
     </source>

     # BEGIN_NODE_JOURNAL
     # Whether to include node-journal or not is determined when starting the
     # cluster. It is not changed when the cluster is already running.
     <source>
       @type systemd
       pos_file /var/log/gcp-journald.pos
       read_from_head true
       tag node-journal
     </source>

     <filter node-journal>
       @type grep
       <exclude>
         key _SYSTEMD_UNIT
         pattern ^(docker|{{ container_runtime }}|kubelet|node-problem-detector)\.service$
       </exclude>
     </filter>
     # END_NODE_JOURNAL
   monitoring.conf: |-
     # This source is used to acquire approximate process start timestamp,
     # which purpose is explained before the corresponding output plugin.
     <source>
       @type exec
       command /bin/sh -c 'date +%s'
       tag process_start
       time_format %Y-%m-%d %H:%M:%S
       keys process_start_timestamp
     </source>

     # This filter is used to convert process start timestamp to integer
     # value for correct ingestion in the prometheus output plugin.
     <filter process_start>
       @type record_transformer
       enable_ruby true
       auto_typecast true
       <record>
         process_start_timestamp ${record["process_start_timestamp"].to_i}
       </record>
     </filter>
   output.conf: |-
     # This match is placed before the all-matching output to provide metric
     # exporter with a process start timestamp for correct exporting of
     # cumulative metrics to Stackdriver.
     <match process_start>
       @type prometheus

       <metric>
         type gauge
         name process_start_time_seconds
         desc Timestamp of the process start in seconds
         key process_start_timestamp
       </metric>
     </match>

     # This filter allows to count the number of log entries read by fluentd
     # before they are processed by the output plugin. This in turn allows to
     # monitor the number of log entries that were read but never sent, e.g.
     # because of liveness probe removing buffer.
     <filter **>
       @type prometheus
       <metric>
         type counter
         name logging_entry_count
         desc Total number of log entries generated by either application containers or system components
       </metric>
     </filter>

     # TODO(instrumentation): Reconsider this workaround later.
     # Trim the entries which exceed slightly less than 100KB, to avoid
     # dropping them. It is a necessity, because Stackdriver only supports
     # entries that are up to 100KB in size.
     <filter kubernetes.**>
       @type record_transformer
       enable_ruby true
       <record>
         log ${record['log'].length > 100000 ? "[Trimmed]#{record['log'][0..100000]}..." : record['log']}
       </record>
     </filter>

     # Do not collect fluentd's own logs to avoid infinite loops.
     <match fluent.**>
       @type null
     </match>

     # We use 2 output stanzas - one to handle the container logs and one to handle
     # the node daemon logs, the latter of which explicitly sends its logs to the
     # compute.googleapis.com service rather than container.googleapis.com to keep
     # them separate since most users don't care about the node logs.
     <match kubernetes.**>
       @type google_cloud

       # Try to detect JSON formatted log entries.
       detect_json true
       # Collect metrics in Prometheus registry about plugin activity.
       enable_monitoring true
       monitoring_type prometheus
       # Allow log entries from multiple containers to be sent in the same request.
       split_logs_by_tag false
       # Set the buffer type to file to improve the reliability and reduce the memory consumption
       buffer_type file
       buffer_path /var/log/fluentd-buffers/kubernetes.containers.buffer
       # Set queue_full action to block because we want to pause gracefully
       # in case of the off-the-limits load instead of throwing an exception
       buffer_queue_full_action block
       # Set the chunk limit conservatively to avoid exceeding the recommended
       # chunk size of 5MB per write request.
       buffer_chunk_limit 1M
       # Cap the combined memory usage of this buffer and the one below to
       # 1MiB/chunk * (6 + 2) chunks = 8 MiB
       buffer_queue_limit 6
       # Never wait more than 5 seconds before flushing logs in the non-error case.
       flush_interval 5s
       # Never wait longer than 30 seconds between retries.
       max_retry_wait 30
       # Disable the limit on the number of retries (retry forever).
       disable_retry_limit
       # Use multiple threads for processing.
       num_threads 2
       use_grpc true
     </match>

     # Keep a smaller buffer here since these logs are less important than the user's
     # container logs.
     <match **>
       @type google_cloud

       detect_json true
       enable_monitoring true
       monitoring_type prometheus
       # Allow entries from multiple system logs to be sent in the same request.
       split_logs_by_tag false
       detect_subservice false
       buffer_type file
       buffer_path /var/log/fluentd-buffers/kubernetes.system.buffer
       buffer_queue_full_action block
       buffer_chunk_limit 1M
       buffer_queue_limit 2
       flush_interval 5s
       max_retry_wait 30
       disable_retry_limit
       num_threads 2
       use_grpc true
     </match>
 metadata:
   name: fluentd-gcp-config-old-v1.2.5
   namespace: kube-system
   labels:
     addonmanager.kubernetes.io/mode: Reconcile
	# This ConfigMap is used to ingest logs against old resources like
	# "gke_container" and "gce_instance" when $LOGGING_STACKDRIVER_RESOURCE_TYPES is
	# set to "old".
	# When $LOGGING_STACKDRIVER_RESOURCE_TYPES is set to "new", the ConfigMap in
	# fluentd-gcp-configmap.yaml will be used for ingesting logs against new
	# resources like "k8s_container" and "k8s_node".
	kind: ConfigMap
	apiVersion: v1
	data:
	containers.input.conf: \|-
	# This configuration file for Fluentd is used
	# to watch changes to Docker log files that live in the
	# directory /var/lib/docker/containers/ and are symbolically
	# linked to from the /var/log/containers directory using names that capture the
	# pod name and container name. These logs are then submitted to
	# Google Cloud Logging which assumes the installation of the cloud-logging plug-in.
	#
	# Example
	# =======
	# A line in the Docker log file might look like this JSON:
	#
	# {"log":"2014/09/25 21:15:03 Got request with path wombat\\n",
	# "stream":"stderr",
	# "time":"2014-09-25T21:15:03.499185026Z"}
	#
	# The original tag is derived from the log file's location.
	# For example a Docker container's logs might be in the directory:
	# /var/lib/docker/containers/997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b
	# and in the file:
	# 997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b-json.log
	# where 997599971ee6... is the Docker ID of the running container.
	# The Kubernetes kubelet makes a symbolic link to this file on the host
	# machine in the /var/log/containers directory which includes the pod name,
	# the namespace name and the Kubernetes container name:
	# synthetic-logger-0.25lps-pod_default_synth-lgr-997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b.log
	# ->
	# /var/lib/docker/containers/997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b/997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b-json.log
	# The /var/log directory on the host is mapped to the /var/log directory in the container
	# running this instance of Fluentd and we end up collecting the file:
	# /var/log/containers/synthetic-logger-0.25lps-pod_default_synth-lgr-997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b.log
	# This results in the tag:
	# var.log.containers.synthetic-logger-0.25lps-pod_default_synth-lgr-997599971ee6366d4a5920d25b79286ad45ff37a74494f262e3bc98d909d0a7b.log
	# where 'synthetic-logger-0.25lps-pod' is the pod name, 'default' is the
	# namespace name, 'synth-lgr' is the container name and '997599971ee6..' is
	# the container ID.
	# The record reformer is used is discard the var.log.containers prefix and
	# the Docker container ID suffix and "kubernetes." is pre-pended giving the tag:
	# kubernetes.synthetic-logger-0.25lps-pod_default_synth-lgr
	# Tag is then parsed by google_cloud plugin and translated to the metadata,
	# visible in the log viewer

	# Json Log Example:
	# {"log":"[info:2016-02-16T16:04:05.930-08:00] Some log text here\n","stream":"stdout","time":"2016-02-17T00:04:05.931087621Z"}
	# CRI Log Example:
	# 2016-02-17T00:04:05.931087621Z stdout F [info:2016-02-16T16:04:05.930-08:00] Some log text here
	<source>
	@type tail
	path /var/log/containers/*.log
	pos_file /var/log/gcp-containers.log.pos
	# Tags at this point are in the format of:
	# reform.var.log.containers.<POD_NAME>_<NAMESPACE_NAME>_<CONTAINER_NAME>-<CONTAINER_ID>.log
	tag reform.*
	read_from_head true
	format multi_format
	<pattern>
	format json
	time_key time
	time_format %Y-%m-%dT%H:%M:%S.%NZ
	</pattern>
	<pattern>
	format /^(?<time>.+) (?<stream>stdout\|stderr) [^ ]* (?<log>.*)$/
	time_format %Y-%m-%dT%H:%M:%S.%N%:z
	</pattern>
	</source>

	<filter reform.**>
	@type parser
	format /^(?<severity>\w)(?<time>\d{4} [^\s])\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<log>.)/
	reserve_data true
	suppress_parse_error_log true
	emit_invalid_record_to_error false
	key_name log
	</filter>

	<match reform.**>
	@type record_reformer
	enable_ruby true
	# Tags at this point are in the format of:
	# 'raw.kubernetes.<POD_NAME>_<NAMESPACE_NAME>_<CONTAINER_NAME>'.
	tag raw.kubernetes.${tag_suffix[4].split('-')[0..-2].join('-')}
	</match>

	# Detect exceptions in the log output and forward them as one log entry.
	<match raw.kubernetes.**>
	@type detect_exceptions

	remove_tag_prefix raw
	message log
	stream stream
	multiline_flush_interval 5
	max_bytes 500000
	max_lines 1000
	</match>
	system.input.conf: \|-
	# Example:
	# Dec 21 23:17:22 gke-foo-1-1-4b5cbd14-node-4eoj startupscript: Finished running startup script /var/run/google.startup.script
	<source>
	@type tail
	format syslog
	path /var/log/startupscript.log
	pos_file /var/log/gcp-startupscript.log.pos
	tag startupscript
	</source>

	# Examples:
	# time="2016-02-04T06:51:03.053580605Z" level=info msg="GET /containers/json"
	# time="2016-02-04T07:53:57.505612354Z" level=error msg="HTTP Error" err="No such image: -f" statusCode=404
	# TODO(random-liu): Remove this after cri container runtime rolls out.
	<source>
	@type tail
	format /^time="(?<time>[^)])" level=(?<severity>[^ ]) msg="(?<message>[^"])"( err="(?<error>[^"])")?( statusCode=($<status_code>\d+))?/
	path /var/log/docker.log
	pos_file /var/log/gcp-docker.log.pos
	tag docker
	</source>

	# Example:
	# 2016/02/04 06:52:38 filePurge: successfully removed file /var/etcd/data/member/wal/00000000000006d0-00000000010a23d1.wal
	<source>
	@type tail
	# Not parsing this, because it doesn't have anything particularly useful to
	# parse out of it (like severities).
	format none
	path /var/log/etcd.log
	pos_file /var/log/gcp-etcd.log.pos
	tag etcd
	</source>

	# Multi-line parsing is required for all the kube logs because very large log
	# statements, such as those that include entire object bodies, get split into
	# multiple lines by glog.

	# Example:
	# I0204 07:32:30.020537 3368 server.go:1048] POST /stats/container/: (13.972191ms) 200 [[Go-http-client/1.1] 10.244.1.3:40537]
	<source>
	@type tail
	format multiline
	multiline_flush_interval 5s
	format_firstline /^\w\d{4}/
	format1 /^(?<severity>\w)(?<time>\d{4} [^\s])\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.)/
	time_format %m%d %H:%M:%S.%N
	path /var/log/kubelet.log
	pos_file /var/log/gcp-kubelet.log.pos
	tag kubelet
	</source>

	# Example:
	# I1118 21:26:53.975789 6 proxier.go:1096] Port "nodePort for kube-system/default-http-backend:http" (:31429/tcp) was open before and is still needed
	<source>
	@type tail
	format multiline
	multiline_flush_interval 5s
	format_firstline /^\w\d{4}/
	format1 /^(?<severity>\w)(?<time>\d{4} [^\s])\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.)/
	time_format %m%d %H:%M:%S.%N
	path /var/log/kube-proxy.log
	pos_file /var/log/gcp-kube-proxy.log.pos
	tag kube-proxy
	</source>

	# Example:
	# I0204 07:00:19.604280 5 handlers.go:131] GET /api/v1/nodes: (1.624207ms) 200 [[kube-controller-manager/v1.1.3 (linux/amd64) kubernetes/6a81b50] 127.0.0.1:38266]
	<source>
	@type tail
	format multiline
	multiline_flush_interval 5s
	format_firstline /^\w\d{4}/
	format1 /^(?<severity>\w)(?<time>\d{4} [^\s])\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.)/
	time_format %m%d %H:%M:%S.%N
	path /var/log/kube-apiserver.log
	pos_file /var/log/gcp-kube-apiserver.log.pos
	tag kube-apiserver
	</source>

	# Example:
	# I0204 06:55:31.872680 5 servicecontroller.go:277] LB already exists and doesn't need update for service kube-system/kube-ui
	<source>
	@type tail
	format multiline
	multiline_flush_interval 5s
	format_firstline /^\w\d{4}/
	format1 /^(?<severity>\w)(?<time>\d{4} [^\s])\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.)/
	time_format %m%d %H:%M:%S.%N
	path /var/log/kube-controller-manager.log
	pos_file /var/log/gcp-kube-controller-manager.log.pos
	tag kube-controller-manager
	</source>

	# Example:
	# W0204 06:49:18.239674 7 reflector.go:245] pkg/scheduler/factory/factory.go:193: watch of *api.Service ended with: 401: The event in requested index is outdated and cleared (the requested history has been cleared [2578313/2577886]) [2579312]
	<source>
	@type tail
	format multiline
	multiline_flush_interval 5s
	format_firstline /^\w\d{4}/
	format1 /^(?<severity>\w)(?<time>\d{4} [^\s])\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.)/
	time_format %m%d %H:%M:%S.%N
	path /var/log/kube-scheduler.log
	pos_file /var/log/gcp-kube-scheduler.log.pos
	tag kube-scheduler
	</source>

	# Example:
	# I0603 15:31:05.793605 6 cluster_manager.go:230] Reading config from path /etc/gce.conf
	<source>
	@type tail
	format multiline
	multiline_flush_interval 5s
	format_firstline /^\w\d{4}/
	format1 /^(?<severity>\w)(?<time>\d{4} [^\s])\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.)/
	time_format %m%d %H:%M:%S.%N
	path /var/log/glbc.log
	pos_file /var/log/gcp-glbc.log.pos
	tag glbc
	</source>

	# Example:
	# I0603 15:31:05.793605 6 cluster_manager.go:230] Reading config from path /etc/gce.conf
	<source>
	@type tail
	format multiline
	multiline_flush_interval 5s
	format_firstline /^\w\d{4}/
	format1 /^(?<severity>\w)(?<time>\d{4} [^\s])\s+(?<pid>\d+)\s+(?<source>[^ \]]+)\] (?<message>.)/
	time_format %m%d %H:%M:%S.%N
	path /var/log/cluster-autoscaler.log
	pos_file /var/log/gcp-cluster-autoscaler.log.pos
	tag cluster-autoscaler
	</source>

	# Logs from systemd-journal for interesting services.
	# TODO(random-liu): Keep this for compatibility, remove this after
	# cri container runtime rolls out.
	<source>
	@type systemd
	filters [{ "_SYSTEMD_UNIT": "docker.service" }]
	pos_file /var/log/gcp-journald-docker.pos
	read_from_head true
	tag docker
	</source>

	<source>
	@type systemd
	filters [{ "_SYSTEMD_UNIT": "{{ container_runtime }}.service" }]
	pos_file /var/log/gcp-journald-container-runtime.pos
	read_from_head true
	tag container-runtime
	</source>

	<source>
	@type systemd
	filters [{ "_SYSTEMD_UNIT": "kubelet.service" }]
	pos_file /var/log/gcp-journald-kubelet.pos
	read_from_head true
	tag kubelet
	</source>

	<source>
	@type systemd
	filters [{ "_SYSTEMD_UNIT": "node-problem-detector.service" }]
	pos_file /var/log/gcp-journald-node-problem-detector.pos
	read_from_head true
	tag node-problem-detector
	</source>

	# BEGIN_NODE_JOURNAL
	# Whether to include node-journal or not is determined when starting the
	# cluster. It is not changed when the cluster is already running.
	<source>
	@type systemd
	pos_file /var/log/gcp-journald.pos
	read_from_head true
	tag node-journal
	</source>

	<filter node-journal>
	@type grep
	<exclude>
	key _SYSTEMD_UNIT
	pattern ^(docker\|{{ container_runtime }}\|kubelet\|node-problem-detector)\.service$
	</exclude>
	</filter>
	# END_NODE_JOURNAL
	monitoring.conf: \|-
	# This source is used to acquire approximate process start timestamp,
	# which purpose is explained before the corresponding output plugin.
	<source>
	@type exec
	command /bin/sh -c 'date +%s'
	tag process_start
	time_format %Y-%m-%d %H:%M:%S
	keys process_start_timestamp
	</source>

	# This filter is used to convert process start timestamp to integer
	# value for correct ingestion in the prometheus output plugin.
	<filter process_start>
	@type record_transformer
	enable_ruby true
	auto_typecast true
	<record>
	process_start_timestamp ${record["process_start_timestamp"].to_i}
	</record>
	</filter>
	output.conf: \|-
	# This match is placed before the all-matching output to provide metric
	# exporter with a process start timestamp for correct exporting of
	# cumulative metrics to Stackdriver.
	<match process_start>
	@type prometheus

	<metric>
	type gauge
	name process_start_time_seconds
	desc Timestamp of the process start in seconds
	key process_start_timestamp
	</metric>
	</match>

	# This filter allows to count the number of log entries read by fluentd
	# before they are processed by the output plugin. This in turn allows to
	# monitor the number of log entries that were read but never sent, e.g.
	# because of liveness probe removing buffer.
	<filter **>
	@type prometheus
	<metric>
	type counter
	name logging_entry_count
	desc Total number of log entries generated by either application containers or system components
	</metric>
	</filter>

	# TODO(instrumentation): Reconsider this workaround later.
	# Trim the entries which exceed slightly less than 100KB, to avoid
	# dropping them. It is a necessity, because Stackdriver only supports
	# entries that are up to 100KB in size.
	<filter kubernetes.**>
	@type record_transformer
	enable_ruby true
	<record>
	log ${record['log'].length > 100000 ? "[Trimmed]#{record['log'][0..100000]}..." : record['log']}
	</record>
	</filter>

	# Do not collect fluentd's own logs to avoid infinite loops.
	<match fluent.**>
	@type null
	</match>

	# We use 2 output stanzas - one to handle the container logs and one to handle
	# the node daemon logs, the latter of which explicitly sends its logs to the
	# compute.googleapis.com service rather than container.googleapis.com to keep
	# them separate since most users don't care about the node logs.
	<match kubernetes.**>
	@type google_cloud

	# Try to detect JSON formatted log entries.
	detect_json true
	# Collect metrics in Prometheus registry about plugin activity.
	enable_monitoring true
	monitoring_type prometheus
	# Allow log entries from multiple containers to be sent in the same request.
	split_logs_by_tag false
	# Set the buffer type to file to improve the reliability and reduce the memory consumption
	buffer_type file
	buffer_path /var/log/fluentd-buffers/kubernetes.containers.buffer
	# Set queue_full action to block because we want to pause gracefully
	# in case of the off-the-limits load instead of throwing an exception
	buffer_queue_full_action block
	# Set the chunk limit conservatively to avoid exceeding the recommended
	# chunk size of 5MB per write request.
	buffer_chunk_limit 1M
	# Cap the combined memory usage of this buffer and the one below to
	# 1MiB/chunk * (6 + 2) chunks = 8 MiB
	buffer_queue_limit 6
	# Never wait more than 5 seconds before flushing logs in the non-error case.
	flush_interval 5s
	# Never wait longer than 30 seconds between retries.
	max_retry_wait 30
	# Disable the limit on the number of retries (retry forever).
	disable_retry_limit
	# Use multiple threads for processing.
	num_threads 2
	use_grpc true
	</match>

	# Keep a smaller buffer here since these logs are less important than the user's
	# container logs.
	<match **>
	@type google_cloud

	detect_json true
	enable_monitoring true
	monitoring_type prometheus
	# Allow entries from multiple system logs to be sent in the same request.
	split_logs_by_tag false
	detect_subservice false
	buffer_type file
	buffer_path /var/log/fluentd-buffers/kubernetes.system.buffer
	buffer_queue_full_action block
	buffer_chunk_limit 1M
	buffer_queue_limit 2
	flush_interval 5s
	max_retry_wait 30
	disable_retry_limit
	num_threads 2
	use_grpc true
	</match>
	metadata:
	name: fluentd-gcp-config-old-v1.2.5
	namespace: kube-system
	labels:
	addonmanager.kubernetes.io/mode: Reconcile