# Telegraf Configuration # # Telegraf is entirely plugin driven. All metrics are gathered from the # declared inputs, and sent to the declared outputs. # # Plugins must be declared in here to be active. # To deactivate a plugin, comment out the name and any variables. # # Use 'telegraf -config telegraf.conf -test' to see what metrics a config # file would generate. # # Environment variables can be used anywhere in this config file, simply prepend # them with $. For strings the variable must be within quotes (ie, "$STR_VAR"), # for numbers and booleans they should be plain (ie, $INT_VAR, $BOOL_VAR) # Global tags can be specified here in key="value" format. [global_tags] # dc = "us-east-1" # will tag all metrics with dc=us-east-1 # rack = "1a" ## Environment variables can be used as tags, and throughout the config file # user = "$USER" # Configuration for telegraf agent [agent] ## Default data collection interval for all inputs interval = "10s" ## Rounds collection interval to 'interval' ## ie, if interval="10s" then always collect on :00, :10, :20, etc. round_interval = true ## Telegraf will send metrics to outputs in batches of at most ## metric_batch_size metrics. ## This controls the size of writes that Telegraf sends to output plugins. metric_batch_size = 1000 ## Maximum number of unwritten metrics per output. metric_buffer_limit = 10000 ## Collection jitter is used to jitter the collection by a random amount. ## Each plugin will sleep for a random time within jitter before collecting. ## This can be used to avoid many plugins querying things like sysfs at the ## same time, which can have a measurable effect on the system. collection_jitter = "0s" ## Default flushing interval for all outputs. Maximum flush_interval will be ## flush_interval + flush_jitter flush_interval = "10s" ## Jitter the flush interval by a random amount. This is primarily to avoid ## large write spikes for users running a large number of telegraf instances. ## ie, a jitter of 5s and interval 10s means flushes will happen every 10-15s flush_jitter = "0s" ## By default or when set to "0s", precision will be set to the same ## timestamp order as the collection interval, with the maximum being 1s. ## ie, when interval = "10s", precision will be "1s" ## when interval = "250ms", precision will be "1ms" ## Precision will NOT be used for service inputs. It is up to each individual ## service input to set the timestamp at the appropriate precision. ## Valid time units are "ns", "us" (or "µs"), "ms", "s". precision = "" ## Log at debug level. # debug = false ## Log only error level messages. # quiet = false ## Log file name, the empty string means to log to stderr. # logfile = "" ## The logfile will be rotated after the time interval specified. When set ## to 0 no time based rotation is performed. Logs are rotated only when ## written to, if there is no log activity rotation may be delayed. # logfile_rotation_interval = "0d" ## The logfile will be rotated when it becomes larger than the specified ## size. When set to 0 no size based rotation is performed. # logfile_rotation_max_size = "0MB" ## Maximum number of rotated archives to keep, any older logs are deleted. ## If set to -1, no archives are removed. # logfile_rotation_max_archives = 5 ## Override default hostname, if empty use os.Hostname() hostname = "" ## If set to true, do no set the "host" tag in the telegraf agent. omit_hostname = false ############################################################################### # OUTPUTS # ############################################################################### # Configuration for sending metrics to InfluxDB [[outputs.influxdb]] ## The full HTTP or UDP URL for your InfluxDB instance. ## ## Multiple URLs can be specified for a single cluster, only ONE of the ## urls will be written to each interval. # urls = ["unix:///var/run/influxdb.sock"] # urls = ["udp://127.0.0.1:8089"] # urls = ["http://127.0.0.1:8086"] ## The target database for metrics; will be created as needed. # database = "telegraf" ## If true, no CREATE DATABASE queries will be sent. Set to true when using ## Telegraf with a user without permissions to create databases or when the ## database already exists. # skip_database_creation = false ## Name of existing retention policy to write to. Empty string writes to ## the default retention policy. Only takes effect when using HTTP. # retention_policy = "" ## Write consistency (clusters only), can be: "any", "one", "quorum", "all". ## Only takes effect when using HTTP. # write_consistency = "any" ## Timeout for HTTP messages. # timeout = "5s" ## HTTP Basic Auth # username = "telegraf" # password = "metricsmetricsmetricsmetrics" ## HTTP User-Agent # user_agent = "telegraf" ## UDP payload size is the maximum packet size to send. # udp_payload = "512B" ## Optional TLS Config for use on HTTP connections. # tls_ca = "/etc/telegraf/ca.pem" # tls_cert = "/etc/telegraf/cert.pem" # tls_key = "/etc/telegraf/key.pem" ## Use TLS but skip chain & host verification # insecure_skip_verify = false ## HTTP Proxy override, if unset values the standard proxy environment ## variables are consulted to determine which proxy, if any, should be used. # http_proxy = "http://corporate.proxy:3128" ## Additional HTTP headers # http_headers = {"X-Special-Header" = "Special-Value"} ## HTTP Content-Encoding for write request body, can be set to "gzip" to ## compress body or "identity" to apply no encoding. # content_encoding = "identity" ## When true, Telegraf will output unsigned integers as unsigned values, ## i.e.: "42u". You will need a version of InfluxDB supporting unsigned ## integer values. Enabling this option will result in field type errors if ## existing data has been written. # influx_uint_support = false # # Configuration for sending metrics to InfluxDB # [[outputs.influxdb_v2]] # ## The URLs of the InfluxDB cluster nodes. # ## # ## Multiple URLs can be specified for a single cluster, only ONE of the # ## urls will be written to each interval. # urls = ["http://127.0.0.1:9999"] # # ## Token for authentication. # token = "" # # ## Organization is the name of the organization you wish to write to; must exist. # organization = "" # # ## Destination bucket to write into. # bucket = "" # # ## The value of this tag will be used to determine the bucket. If this # ## tag is not set the 'bucket' option is used as the default. # # bucket_tag = "" # # ## If true, the bucket tag will not be added to the metric. # # exclude_bucket_tag = false # # ## Timeout for HTTP messages. # # timeout = "5s" # # ## Additional HTTP headers # # http_headers = {"X-Special-Header" = "Special-Value"} # # ## HTTP Proxy override, if unset values the standard proxy environment # ## variables are consulted to determine which proxy, if any, should be used. # # http_proxy = "http://corporate.proxy:3128" # # ## HTTP User-Agent # # user_agent = "telegraf" # # ## Content-Encoding for write request body, can be set to "gzip" to # ## compress body or "identity" to apply no encoding. # # content_encoding = "gzip" # # ## Enable or disable uint support for writing uints influxdb 2.0. # # influx_uint_support = false # # ## Optional TLS Config for use on HTTP connections. # # tls_ca = "/etc/telegraf/ca.pem" # # tls_cert = "/etc/telegraf/cert.pem" # # tls_key = "/etc/telegraf/key.pem" # ## Use TLS but skip chain & host verification # # insecure_skip_verify = false ############################################################################### # INPUTS # ############################################################################### # Windows Performance Counters plugin. # These are the recommended method of monitoring system metrics on windows, # as the regular system plugins (inputs.cpu, inputs.mem, etc.) rely on WMI, # which utilize more system resources. # # See more configuration examples at: # https://github.com/influxdata/telegraf/tree/master/plugins/inputs/win_perf_counters [[inputs.win_perf_counters]] [[inputs.win_perf_counters.object]] # Processor usage, alternative to native, reports on a per core. ObjectName = "Processor" Instances = ["*"] Counters = [ "% Idle Time", "% Interrupt Time", "% Privileged Time", "% User Time", "% Processor Time", "% DPC Time", ] Measurement = "win_cpu" # Set to true to include _Total instance when querying for all (*). IncludeTotal=true [[inputs.win_perf_counters.object]] # Disk times and queues ObjectName = "LogicalDisk" Instances = ["*"] Counters = [ "% Idle Time", "% Disk Time", "% Disk Read Time", "% Disk Write Time", "Current Disk Queue Length", "% Free Space", "Free Megabytes", ] Measurement = "win_disk" # Set to true to include _Total instance when querying for all (*). #IncludeTotal=false [[inputs.win_perf_counters.object]] ObjectName = "PhysicalDisk" Instances = ["*"] Counters = [ "Disk Read Bytes/sec", "Disk Write Bytes/sec", "Current Disk Queue Length", "Disk Reads/sec", "Disk Writes/sec", "% Disk Time", "% Disk Read Time", "% Disk Write Time", ] Measurement = "win_diskio" [[inputs.win_perf_counters.object]] ObjectName = "Network Interface" Instances = ["*"] Counters = [ "Bytes Received/sec", "Bytes Sent/sec", "Packets Received/sec", "Packets Sent/sec", "Packets Received Discarded", "Packets Outbound Discarded", "Packets Received Errors", "Packets Outbound Errors", ] Measurement = "win_net" [[inputs.win_perf_counters.object]] ObjectName = "System" Counters = [ "Context Switches/sec", "System Calls/sec", "Processor Queue Length", "System Up Time", ] Instances = ["------"] Measurement = "win_system" # Set to true to include _Total instance when querying for all (*). #IncludeTotal=false [[inputs.win_perf_counters.object]] # Example query where the Instance portion must be removed to get data back, # such as from the Memory object. ObjectName = "Memory" Counters = [ "Available Bytes", "Cache Faults/sec", "Demand Zero Faults/sec", "Page Faults/sec", "Pages/sec", "Transition Faults/sec", "Pool Nonpaged Bytes", "Pool Paged Bytes", "Standby Cache Reserve Bytes", "Standby Cache Normal Priority Bytes", "Standby Cache Core Bytes", ] # Use 6 x - to remove the Instance bit from the query. Instances = ["------"] Measurement = "win_mem" # Set to true to include _Total instance when querying for all (*). #IncludeTotal=false [[inputs.win_perf_counters.object]] # Example query where the Instance portion must be removed to get data back, # such as from the Paging File object. ObjectName = "Paging File" Counters = [ "% Usage", ] Instances = ["_Total"] Measurement = "win_swap" # Windows system plugins using WMI (disabled by default, using # win_perf_counters over WMI is recommended) # # Read metrics about cpu usage # [[inputs.cpu]] # ## Whether to report per-cpu stats or not # percpu = true # ## Whether to report total system cpu stats or not # totalcpu = true # ## If true, collect raw CPU time metrics. # collect_cpu_time = false # ## If true, compute and report the sum of all non-idle CPU states. # report_active = false # # Read metrics about disk usage by mount point # [[inputs.disk]] # ## By default stats will be gathered for all mount points. # ## Set mount_points will restrict the stats to only the specified mount points. # # mount_points = ["/"] # # ## Ignore mount points by filesystem type. # ignore_fs = ["tmpfs", "devtmpfs", "devfs", "overlay", "aufs", "squashfs"] # # Read metrics about disk IO by device # [[inputs.diskio]] # ## By default, telegraf will gather stats for all devices including # ## disk partitions. # ## Setting devices will restrict the stats to the specified devices. # # devices = ["sda", "sdb", "vd*"] # ## Uncomment the following line if you need disk serial numbers. # # skip_serial_number = false # # # ## On systems which support it, device metadata can be added in the form of # ## tags. # ## Currently only Linux is supported via udev properties. You can view # ## available properties for a device by running: # ## 'udevadm info -q property -n /dev/sda' # # device_tags = ["ID_FS_TYPE", "ID_FS_USAGE"] # # # ## Using the same metadata source as device_tags, you can also customize the # ## name of the device via templates. # ## The 'name_templates' parameter is a list of templates to try and apply to # ## the device. The template may contain variables in the form of '$PROPERTY' or # ## '${PROPERTY}'. The first template which does not contain any variables not # ## present for the device is used as the device name tag. # ## The typical use case is for LVM volumes, to get the VG/LV name instead of # ## the near-meaningless DM-0 name. # # name_templates = ["$ID_FS_LABEL","$DM_VG_NAME/$DM_LV_NAME"] # # Read metrics about memory usage # [[inputs.mem]] # # no configuration # # Read metrics about swap memory usage # [[inputs.swap]] # # no configuration