对于大规模实时查询,这不是推荐的配置。 为了进行查询和压缩优化、高速摄取和高可用性,您可能需要考虑 StatsD 和 InfluxDB。
50 亿+
Telegraf 下载量
#1
时间序列数据库
来源:DB Engines
10 亿+
InfluxDB 的下载量
2,800+
贡献者
目录
强大的性能,无限的扩展能力
收集、组织和处理海量高速数据。当您将任何数据视为时间序列数据时,它都更有价值。借助 InfluxDB,排名第一的时间序列平台,旨在与 Telegraf 一起扩展。
查看入门方法
输入和输出集成概述
StatsD 输入插件通过在后台运行侦听器服务来捕获来自 StatsD 服务器的指标,从而实现全面的性能监控和指标聚合。
Telegraf Elasticsearch 插件无缝地将指标发送到 Elasticsearch 服务器。 该插件处理模板创建和动态索引管理,并支持各种 Elasticsearch 特定的功能,以确保数据格式正确,以便存储和检索。
集成详情
StatsD
StatsD 输入插件旨在通过在 Telegraf 处于活动状态时运行后台 StatsD 侦听器服务,从 StatsD 服务器收集指标。 此插件利用原始 Etsy 实施建立的 StatsD 消息格式,该格式允许各种类型的指标,包括仪表、计数器、集合、计时、直方图和分布。 StatsD 插件的功能扩展到解析标签,并使用可适应 InfluxDB 标记系统的功能扩展标准协议。 它可以处理通过不同协议(UDP 或 TCP)发送的消息,有效管理多个指标,并提供用于优化指标处理的高级配置,例如百分位数计算和数据转换模板。 这种灵活性使用户能够全面跟踪应用程序性能,使其成为强大监控设置的必备工具。
Elasticsearch
此插件将指标写入 Elasticsearch,Elasticsearch 是一种分布式 RESTful 搜索和分析引擎,能够以近乎实时的速度存储大量数据。 它旨在处理 Elasticsearch 5.x 到 7.x 版本,并利用其动态模板功能来正确管理数据类型映射。 该插件支持高级功能,例如模板管理、动态索引命名以及与 OpenSearch 的集成。 它还允许配置 Elasticsearch 节点的身份验证和健康状况监控。
配置
StatsD
[[inputs.statsd]]
## Protocol, must be "tcp", "udp4", "udp6" or "udp" (default=udp)
protocol = "udp"
## MaxTCPConnection - applicable when protocol is set to tcp (default=250)
max_tcp_connections = 250
## Enable TCP keep alive probes (default=false)
tcp_keep_alive = false
## Specifies the keep-alive period for an active network connection.
## Only applies to TCP sockets and will be ignored if tcp_keep_alive is false.
## Defaults to the OS configuration.
# tcp_keep_alive_period = "2h"
## Address and port to host UDP listener on
service_address = ":8125"
## The following configuration options control when telegraf clears it's cache
## of previous values. If set to false, then telegraf will only clear it's
## cache when the daemon is restarted.
## Reset gauges every interval (default=true)
delete_gauges = true
## Reset counters every interval (default=true)
delete_counters = true
## Reset sets every interval (default=true)
delete_sets = true
## Reset timings & histograms every interval (default=true)
delete_timings = true
## Enable aggregation temporality adds temporality=delta or temporality=commulative tag, and
## start_time field, which adds the start time of the metric accumulation.
## You should use this when using OpenTelemetry output.
# enable_aggregation_temporality = false
## Percentiles to calculate for timing & histogram stats.
percentiles = [50.0, 90.0, 99.0, 99.9, 99.95, 100.0]
## separator to use between elements of a statsd metric
metric_separator = "_"
## Parses tags in the datadog statsd format
## http://docs.datadoghq.com/guides/dogstatsd/
## deprecated in 1.10; use datadog_extensions option instead
parse_data_dog_tags = false
## Parses extensions to statsd in the datadog statsd format
## currently supports metrics and datadog tags.
## http://docs.datadoghq.com/guides/dogstatsd/
datadog_extensions = false
## Parses distributions metric as specified in the datadog statsd format
## https://docs.datadoghq.com/developers/metrics/types/?tab=distribution#definition
datadog_distributions = false
## Keep or drop the container id as tag. Included as optional field
## in DogStatsD protocol v1.2 if source is running in Kubernetes
## https://docs.datadoghq.com/developers/dogstatsd/datagram_shell/?tab=metrics#dogstatsd-protocol-v12
datadog_keep_container_tag = false
## Statsd data translation templates, more info can be read here:
## https://github.com/influxdata/telegraf/blob/master/docs/TEMPLATE_PATTERN.md
# templates = [
# "cpu.* measurement*"
# ]
## Number of UDP messages allowed to queue up, once filled,
## the statsd server will start dropping packets
allowed_pending_messages = 10000
## Number of worker threads used to parse the incoming messages.
# number_workers_threads = 5
## Number of timing/histogram values to track per-measurement in the
## calculation of percentiles. Raising this limit increases the accuracy
## of percentiles but also increases the memory usage and cpu time.
percentile_limit = 1000
## Maximum socket buffer size in bytes, once the buffer fills up, metrics
## will start dropping. Defaults to the OS default.
# read_buffer_size = 65535
## Max duration (TTL) for each metric to stay cached/reported without being updated.
# max_ttl = "10h"
## Sanitize name method
## By default, telegraf will pass names directly as they are received.
## However, upstream statsd now does sanitization of names which can be
## enabled by using the "upstream" method option. This option will a) replace
## white space with '_', replace '/' with '-', and remove characters not
## matching 'a-zA-Z_\-0-9\.;='.
#sanitize_name_method = ""
## Replace dots (.) with underscore (_) and dashes (-) with
## double underscore (__) in metric names.
# convert_names = false
## Convert all numeric counters to float
## Enabling this would ensure that both counters and guages are both emitted
## as floats.
# float_counters = false
Elasticsearch
[[outputs.elasticsearch]]
## The full HTTP endpoint URL for your Elasticsearch instance
## Multiple urls can be specified as part of the same cluster,
## this means that only ONE of the urls will be written to each interval
urls = [ "http://node1.es.example.com:9200" ] # required.
## Elasticsearch client timeout, defaults to "5s" if not set.
timeout = "5s"
## Set to true to ask Elasticsearch a list of all cluster nodes,
## thus it is not necessary to list all nodes in the urls config option
enable_sniffer = false
## Set to true to enable gzip compression
enable_gzip = false
## Set the interval to check if the Elasticsearch nodes are available
## Setting to "0s" will disable the health check (not recommended in production)
health_check_interval = "10s"
## Set the timeout for periodic health checks.
# health_check_timeout = "1s"
## HTTP basic authentication details.
## HTTP basic authentication details
# username = "telegraf"
# password = "mypassword"
## HTTP bearer token authentication details
# auth_bearer_token = "eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9"
## Index Config
## The target index for metrics (Elasticsearch will create if it not exists).
## You can use the date specifiers below to create indexes per time frame.
## The metric timestamp will be used to decide the destination index name
# %Y - year (2016)
# %y - last two digits of year (00..99)
# %m - month (01..12)
# %d - day of month (e.g., 01)
# %H - hour (00..23)
# %V - week of the year (ISO week) (01..53)
## Additionally, you can specify a tag name using the notation {{tag_name}}
## which will be used as part of the index name. If the tag does not exist,
## the default tag value will be used.
# index_name = "telegraf-{{host}}-%Y.%m.%d"
# default_tag_value = "none"
index_name = "telegraf-%Y.%m.%d" # required.
## Optional Index Config
## Set to true if Telegraf should use the "create" OpType while indexing
# use_optype_create = false
## Optional TLS Config
# 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
## Template Config
## Set to true if you want telegraf to manage its index template.
## If enabled it will create a recommended index template for telegraf indexes
manage_template = true
## The template name used for telegraf indexes
template_name = "telegraf"
## Set to true if you want telegraf to overwrite an existing template
overwrite_template = false
## If set to true a unique ID hash will be sent as sha256(concat(timestamp,measurement,series-hash)) string
## it will enable data resend and update metric points avoiding duplicated metrics with different id's
force_document_id = false
## Specifies the handling of NaN and Inf values.
## This option can have the following values:
## none -- do not modify field-values (default); will produce an error if NaNs or infs are encountered
## drop -- drop fields containing NaNs or infs
## replace -- replace with the value in "float_replacement_value" (default: 0.0)
## NaNs and inf will be replaced with the given number, -inf with the negative of that number
# float_handling = "none"
# float_replacement_value = 0.0
## Pipeline Config
## To use a ingest pipeline, set this to the name of the pipeline you want to use.
# use_pipeline = "my_pipeline"
## Additionally, you can specify a tag name using the notation {{tag_name}}
## which will be used as part of the pipeline name. If the tag does not exist,
## the default pipeline will be used as the pipeline. If no default pipeline is set,
## no pipeline is used for the metric.
# use_pipeline = "{{es_pipeline}}"
# default_pipeline = "my_pipeline"
#
# Custom HTTP headers
# To pass custom HTTP headers please define it in a given below section
# [outputs.elasticsearch.headers]
# "X-Custom-Header" = "custom-value"
## Template Index Settings
## Overrides the template settings.index section with any provided options.
## Defaults provided here in the config
# template_index_settings = {
# refresh_interval = "10s",
# mapping.total_fields.limit = 5000,
# auto_expand_replicas = "0-1",
# codec = "best_compression"
# }
输入和输出集成示例
StatsD
-
实时应用程序性能监控:使用 StatsD 输入插件实时监控应用程序性能指标。 通过配置您的应用程序将各种指标发送到 StatsD 服务器,团队可以利用此插件动态分析性能瓶颈、跟踪用户活动并确保资源优化。 历史指标和实时指标的结合可以主动进行故障排除,并提高问题解决过程的响应速度。
-
跟踪 Web 应用程序中的用户参与度指标:使用 StatsD 插件收集用户参与度统计信息,例如页面浏览量、点击事件和交互时间。 通过将这些指标发送到 StatsD 服务器,企业可以深入了解用户行为,从而能够根据定量反馈做出数据驱动的决策,以改善用户体验和界面设计。 这可以显着提高营销策略和产品开发工作的有效性。
-
基础设施健康状况监控:部署 StatsD 插件,通过跟踪资源利用率、服务器响应时间和网络性能等指标来监控服务器基础设施的健康状况。 通过此设置,DevOps 团队可以详细了解系统性能,从而有效地在问题升级之前预测问题。 这使得能够采取主动的基础设施管理方法,最大限度地减少停机时间并确保最佳的服务交付。
-
创建全面的服务仪表板:将 StatsD 与可视化工具集成,以创建全面的仪表板,反映整个架构中服务的状态和健康状况。 例如,组合通过 StatsD 记录的来自多个服务的数据可以将原始指标转换为可操作的见解,从而展示系统性能随时间变化的趋势。 这种功能使利益相关者能够保持监督并根据可视化数据集推动决策,从而提高整体运营透明度。
Elasticsearch
-
基于时间的索引:使用此插件将指标存储在 Elasticsearch 中,以根据收集时间为每个指标编制索引。 例如,CPU 指标可以存储在名为
telegraf-2023.01.01的每日索引中,从而可以轻松进行基于时间的查询和保留策略。 -
动态模板管理:利用模板管理功能自动创建针对您的指标定制的自定义模板。 这允许您定义如何索引和分析不同的字段,而无需手动配置 Elasticsearch,从而确保用于查询的最佳数据结构。
-
OpenSearch 兼容性:如果您使用的是 AWS OpenSearch,则可以通过激活兼容模式来配置此插件以无缝工作,从而确保您现有的 Elasticsearch 客户端保持功能正常并与较新的集群设置兼容。
反馈
感谢您成为我们社区的一份子! 如果您有任何一般性反馈或在这些页面上发现任何错误,我们欢迎并鼓励您提供意见。 请在 InfluxDB 社区 Slack 中提交您的反馈。
强大的性能,无限的扩展能力
收集、组织和处理海量高速数据。当您将任何数据视为时间序列数据时,它都更有价值。借助 InfluxDB,排名第一的时间序列平台,旨在与 Telegraf 一起扩展。
查看入门方法
