# Standard Output **stdout** 输出插件允许将通过输入插件接收的数据打印到标准输出。它的用法非常简单,如下所示: ## Configuration Parameters | Key | Description | default | | ------------------ | --------------------------------------------------------------------------- | ------- | | Format | 指定要输出的数据格式。支持的格式为 `msgpack`,`json`,`json_lines`,`json_stream` | msgpack | | json\_date\_key | 在输出中指定日期字段名称 | date | | json\_date\_format | 指定日期格式。支持的格式为 `double`,`iso8601`(如: *2018-05-30T09:39:52.000681Z*),`epoch`. | double | ### Command Line ```bash $ bin/fluent-bit -i cpu -o stdout -v ``` 我们使用 [CPU](https://app.gitbook.com/s/-M7r4TRvogEqaAD3Fmce/pipleline/inputs/cpu.md) 输入插件收集 CPU 使用的数据指标,并以易读的方式将它们打印到标准输出中: ```bash $ bin/fluent-bit -i cpu -o stdout -p format=msgpack -v Fluent Bit v1.x.x * Copyright (C) 2019-2020 The Fluent Bit Authors * Copyright (C) 2015-2018 Treasure Data * Fluent Bit is a CNCF sub-project under the umbrella of Fluentd * https://fluentbit.io [2016/10/07 21:52:01] [ info] [engine] started [0] cpu.0: [1475898721, {"cpu_p"=>0.500000, "user_p"=>0.250000, "system_p"=>0.250000, "cpu0.p_cpu"=>0.000000, "cpu0.p_user"=>0.000000, "cpu0.p_system"=>0.000000, "cpu1.p_cpu"=>0.000000, "cpu1.p_user"=>0.000000, "cpu1.p_system"=>0.000000, "cpu2.p_cpu"=>0.000000, "cpu2.p_user"=>0.000000, "cpu2.p_system"=>0.000000, "cpu3.p_cpu"=>1.000000, "cpu3.p_user"=>0.000000, "cpu3.p_system"=>1.000000}] [1] cpu.0: [1475898722, {"cpu_p"=>0.250000, "user_p"=>0.250000, "system_p"=>0.000000, "cpu0.p_cpu"=>0.000000, "cpu0.p_user"=>0.000000, "cpu0.p_system"=>0.000000, "cpu1.p_cpu"=>1.000000, "cpu1.p_user"=>1.000000, "cpu1.p_system"=>0.000000, "cpu2.p_cpu"=>0.000000, "cpu2.p_user"=>0.000000, "cpu2.p_system"=>0.000000, "cpu3.p_cpu"=>0.000000, "cpu3.p_user"=>0.000000, "cpu3.p_system"=>0.000000}] [2] cpu.0: [1475898723, {"cpu_p"=>0.750000, "user_p"=>0.250000, "system_p"=>0.500000, "cpu0.p_cpu"=>2.000000, "cpu0.p_user"=>1.000000, "cpu0.p_system"=>1.000000, "cpu1.p_cpu"=>0.000000, "cpu1.p_user"=>0.000000, "cpu1.p_system"=>0.000000, "cpu2.p_cpu"=>1.000000, "cpu2.p_user"=>0.000000, "cpu2.p_system"=>1.000000, "cpu3.p_cpu"=>0.000000, "cpu3.p_user"=>0.000000, "cpu3.p_system"=>0.000000}] [3] cpu.0: [1475898724, {"cpu_p"=>1.000000, "user_p"=>0.750000, "system_p"=>0.250000, "cpu0.p_cpu"=>1.000000, "cpu0.p_user"=>1.000000, "cpu0.p_system"=>0.000000, "cpu1.p_cpu"=>2.000000, "cpu1.p_user"=>1.000000, "cpu1.p_system"=>1.000000, "cpu2.p_cpu"=>1.000000, "cpu2.p_user"=>1.000000, "cpu2.p_system"=>0.000000, "cpu3.p_cpu"=>1.000000, "cpu3.p_user"=>1.000000, "cpu3.p_system"=>0.000000}] ``` No more, no less, it just works. --- # Agent Instructions: Querying This Documentation If you need additional information that is not directly available in this page, you can query the documentation dynamically by asking a question. Perform an HTTP GET request on the current page URL with the `ask` query parameter: ``` GET https://hulining.gitbook.io/fluentbit/pipeline/outputs/standard-output.md?ask= ``` The question should be specific, self-contained, and written in natural language. The response will contain a direct answer to the question and relevant excerpts and sources from the documentation. Use this mechanism when the answer is not explicitly present in the current page, you need clarification or additional context, or you want to retrieve related documentation sections.