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diff --git a/docs/guides/python-collector.md b/docs/guides/python-collector.md new file mode 100644 index 00000000..d89eb25e --- /dev/null +++ b/docs/guides/python-collector.md @@ -0,0 +1,626 @@ +# Develop a custom data collector in Python + +The Netdata Agent uses [data collectors](https://github.com/netdata/netdata/blob/master/collectors/README.md) to +fetch metrics from hundreds of system, container, and service endpoints. While the Netdata team and community has built +[powerful collectors](https://github.com/netdata/netdata/blob/master/collectors/COLLECTORS.md) for most system, container, +and service/application endpoints, some custom applications can't be monitored by default. + +In this tutorial, you'll learn how to leverage the [Python programming language](https://www.python.org/) to build a +custom data collector for the Netdata Agent. Follow along with your own dataset, using the techniques and best practices +covered here, or use the included examples for collecting and organizing either random or weather data. + +## Disclaimer + +If you're comfortable with Golang, consider instead writing a module for the [go.d.plugin](https://github.com/netdata/go.d.plugin). +Golang is more performant, easier to maintain, and simpler for users since it doesn't require a particular runtime on the node to +execute. Python plugins require Python on the machine to be executed. Netdata uses Go as the platform of choice for +production-grade collectors. + +We generally do not accept contributions of Python modules to the GitHub project netdata/netdata. If you write a Python collector and +want to make it available for other users, you should create the pull request in https://github.com/netdata/community. + +## What you need to get started + + - A physical or virtual Linux system, which we'll call a _node_. + - A working [installation of Netdata](https://github.com/netdata/netdata/blob/master/packaging/installer/README.md) monitoring agent. + +### Quick start + +For a quick start, you can look at the +[example plugin](https://raw.githubusercontent.com/netdata/netdata/master/collectors/python.d.plugin/example/example.chart.py). + +**Note**: If you are working 'locally' on a new collector and would like to run it in an already installed and running +Netdata (as opposed to having to install Netdata from source again with your new changes) you can copy over the relevant +file to where Netdata expects it and then either `sudo systemctl restart netdata` to have it be picked up and used by +Netdata or you can just run the updated collector in debug mode by following a process like below (this assumes you have +[installed Netdata from a GitHub fork](https://github.com/netdata/netdata/blob/master/packaging/installer/methods/manual.md) you +have made to do your development on). + +```bash +# clone your fork (done once at the start but shown here for clarity) +#git clone --branch my-example-collector https://github.com/mygithubusername/netdata.git --depth=100 --recursive +# go into your netdata source folder +cd netdata +# git pull your latest changes (assuming you built from a fork you are using to develop on) +git pull +# instead of running the installer we can just copy over the updated collector files +#sudo ./netdata-installer.sh --dont-wait +# copy over the file you have updated locally (pretending we are working on the 'example' collector) +sudo cp collectors/python.d.plugin/example/example.chart.py /usr/libexec/netdata/python.d/ +# become user netdata +sudo su -s /bin/bash netdata +# run your updated collector in debug mode to see if it works without having to reinstall netdata +/usr/libexec/netdata/plugins.d/python.d.plugin example debug trace nolock +``` + +## Jobs and elements of a Python collector + +A Python collector for Netdata is a Python script that gathers data from an external source and transforms these data +into charts to be displayed by Netdata dashboard. The basic jobs of the plugin are: + +- Gather the data from the service/application. +- Create the required charts. +- Parse the data to extract or create the actual data to be represented. +- Assign the correct values to the charts +- Set the order for the charts to be displayed. +- Give the charts data to Netdata for visualization. + +The basic elements of a Netdata collector are: + +- `ORDER[]`: A list containing the charts to be displayed. +- `CHARTS{}`: A dictionary containing the details for the charts to be displayed. +- `data{}`: A dictionary containing the values to be displayed. +- `get_data()`: The basic function of the plugin which will return to Netdata the correct values. + +**Note**: All names are better explained in the +[External Plugins Documentation](https://github.com/netdata/netdata/blob/master/collectors/plugins.d/README.md). +Parameters like `priority` and `update_every` mentioned in that documentation are handled by the `python.d.plugin`, +not by each collection module. + +Let's walk through these jobs and elements as independent elements first, then apply them to example Python code. + +### Determine how to gather metrics data + +Netdata can collect data from any program that can print to stdout. Common input sources for collectors can be logfiles, +HTTP requests, executables, and more. While this tutorial will offer some example inputs, your custom application will +have different inputs and metrics. + +A great deal of the work in developing a Netdata collector is investigating the target application and understanding +which metrics it exposes and how to + +### Create charts + +For the data to be represented in the Netdata dashboard, you need to create charts. Charts (in general) are defined by +several characteristics: title, legend, units, type, and presented values. Each chart is represented as a dictionary +entry: + +```python +chart= { + "chart_name": + { + "options": [option_list], + "lines": [ + [dimension_list] + ] + } + } +``` + +Use the `options` field to set the chart's options, which is a list in the form `options: [name, title, units, family, +context, charttype]`, where: + +- `name`: The name of the chart. +- `title` : The title to be displayed in the chart. +- `units` : The units for this chart. +- `family`: An identifier used to group charts together (can be null). +- `context`: An identifier used to group contextually similar charts together. The best practice is to provide a context + that is `A.B`, with `A` being the name of the collector, and `B` being the name of the specific metric. +- `charttype`: Either `line`, `area`, or `stacked`. If null line is the default value. + +You can read more about `family` and `context` in the [web dashboard](https://github.com/netdata/netdata/blob/master/web/README.md#families) doc. + +Once the chart has been defined, you should define the dimensions of the chart. Dimensions are basically the metrics to +be represented in this chart and each chart can have more than one dimension. In order to define the dimensions, the +"lines" list should be filled in with the required dimensions. Each dimension is a list: + +`dimension: [id, name, algorithm, multiplier, divisor]` +- `id` : The id of the dimension. Mandatory unique field (string) required in order to set a value. +- `name`: The name to be presented in the chart. If null id will be used. +- `algorithm`: Can be absolute or incremental. If null absolute is used. Incremental shows the difference from the + previous value. +- `multiplier`: an integer value to divide the collected value, if null, 1 is used +- `divisor`: an integer value to divide the collected value, if null, 1 is used + +The multiplier/divisor fields are used in cases where the value to be displayed should be decimal since Netdata only +gathers integer values. + +### Parse the data to extract or create the actual data to be represented + +Once the data is received, your collector should process it in order to get the values required. If, for example, the +received data is a JSON string, you should parse the data to get the required data to be used for the charts. + +### Assign the correct values to the charts + +Once you have process your data and get the required values, you need to assign those values to the charts you created. +This is done using the `data` dictionary, which is in the form: + +`"data": {dimension_id: value }`, where: +- `dimension_id`: The id of a defined dimension in a created chart. +- `value`: The numerical value to associate with this dimension. + +### Set the order for the charts to be displayed + +Next, set the order of chart appearance with the `ORDER` list, which is in the form: + +`"ORDER": [chart_name_1,chart_name_2, …., chart_name_X]`, where: +- `chart_name_x`: is the chart name to be shown in X order. + +### Give the charts data to Netdata for visualization + +Our plugin should just rerun the data dictionary. If everything is set correctly the charts should be updated with the +correct values. + +## Framework classes + +Every module needs to implement its own `Service` class. This class should inherit from one of the framework classes: + +- `SimpleService` +- `UrlService` +- `SocketService` +- `LogService` +- `ExecutableService` + +Also it needs to invoke the parent class constructor in a specific way as well as assign global variables to class variables. + +For example, the snippet below is from the +[RabbitMQ collector](https://github.com/netdata/netdata/blob/91f3268e9615edd393bd43de4ad8068111024cc9/collectors/python.d.plugin/rabbitmq/rabbitmq.chart.py#L273). +This collector uses an HTTP endpoint and uses the `UrlService` framework class, which only needs to define an HTTP +endpoint for data collection. + +```python +class Service(UrlService): + def __init__(self, configuration=None, name=None): + UrlService.__init__(self, configuration=configuration, name=name) + self.order = ORDER + self.definitions = CHARTS + self.url = '{0}://{1}:{2}'.format( + configuration.get('scheme', 'http'), + configuration.get('host', '127.0.0.1'), + configuration.get('port', 15672), + ) + self.node_name = str() + self.vhost = VhostStatsBuilder() + self.collected_vhosts = set() + self.collect_queues_metrics = configuration.get('collect_queues_metrics', False) + self.debug("collect_queues_metrics is {0}".format("enabled" if self.collect_queues_metrics else "disabled")) + if self.collect_queues_metrics: + self.queue = QueueStatsBuilder() + self.collected_queues = set() +``` + +In our use-case, we use the `SimpleService` framework, since there is no framework class that suits our needs. + +You can find below the [framework class reference](#framework-class-reference). + +## An example collector using weather station data + +Let's build a custom Python collector for visualizing data from a weather monitoring station. + +### Determine how to gather metrics data + +This example assumes you can gather metrics data through HTTP requests to a web server, and that the data provided are +numeric values for temperature, humidity and pressure. It also assumes you can get the `min`, `max`, and `average` +values for these metrics. + +### Chart creation + +First, create a single chart that shows the latest temperature metric: + +```python +CHARTS = { + "temp_current": { + "options": ["my_temp", "Temperature", "Celsius", "TEMP", "weather_station.temperature", "line"], + "lines": [ + ["current_temp_id","current_temperature"] + ] + } +} +``` + +## Parse the data to extract or create the actual data to be represented + +Every collector must implement `_get_data`. This method should grab raw data from `_get_raw_data`, +parse it, and return a dictionary where keys are unique dimension names, or `None` if no data is collected. + +For example: +```py +def _get_data(self): + try: + raw = self._get_raw_data().split(" ") + return {'active': int(raw[2])} + except (ValueError, AttributeError): + return None +``` + +In our weather data collector we declare `_get_data` as follows: + +```python + def get_data(self): + #The data dict is basically all the values to be represented + # The entries are in the format: { "dimension": value} + #And each "dimension" should belong to a chart. + data = dict() + + self.populate_data() + + data['current_temperature'] = self.weather_data["temp"] + + return data +``` + +A standard practice would be to either get the data on JSON format or transform them to JSON format. We use a dictionary +to give this format and issue random values to simulate received data. + +The following code iterates through the names of the expected values and creates a dictionary with the name of the value +as `key`, and a random value as `value`. + +```python + weather_data=dict() + weather_metrics=[ + "temp","av_temp","min_temp","max_temp", + "humid","av_humid","min_humid","max_humid", + "pressure","av_pressure","min_pressure","max_pressure", + ] + + def populate_data(self): + for metric in self.weather_metrics: + self.weather_data[metric]=random.randint(0,100) +``` + +### Assign the correct values to the charts + +Our chart has a dimension called `current_temp_id`, which should have the temperature value received. + +```python +data['current_temp_id'] = self.weather_data["temp"] +``` + +### Set the order for the charts to be displayed + +```python +ORDER = [ + "temp_current" +] +``` + +### Give the charts data to Netdata for visualization + +```python +return data +``` + +A snapshot of the chart created by this plugin: + +![A snapshot of the chart created by this plugin](https://i.imgur.com/2tR9KvF.png) + +Here's the current source code for the data collector: + +```python +# -*- coding: utf-8 -*- +# Description: howto weather station netdata python.d module +# Author: Panagiotis Papaioannou (papajohn-uop) +# SPDX-License-Identifier: GPL-3.0-or-later + +from bases.FrameworkServices.SimpleService import SimpleService + +import random + +NETDATA_UPDATE_EVERY=1 +priority = 90000 + +ORDER = [ + "temp_current" +] + +CHARTS = { + "temp_current": { + "options": ["my_temp", "Temperature", "Celsius", "TEMP", "weather_station.temperature", "line"], + "lines": [ + ["current_temperature"] + ] + } +} + +class Service(SimpleService): + def __init__(self, configuration=None, name=None): + SimpleService.__init__(self, configuration=configuration, name=name) + self.order = ORDER + self.definitions = CHARTS + #values to show at graphs + self.values=dict() + + @staticmethod + def check(): + return True + + weather_data=dict() + weather_metrics=[ + "temp","av_temp","min_temp","max_temp", + "humid","av_humid","min_humid","max_humid", + "pressure","av_pressure","min_pressure","max_pressure", + ] + + def logMe(self,msg): + self.debug(msg) + + def populate_data(self): + for metric in self.weather_metrics: + self.weather_data[metric]=random.randint(0,100) + + def get_data(self): + #The data dict is basically all the values to be represented + # The entries are in the format: { "dimension": value} + #And each "dimension" should belong to a chart. + data = dict() + + self.populate_data() + + data['current_temperature'] = self.weather_data["temp"] + + return data +``` + +## Add more charts to the existing weather station collector + +To enrich the example, add another chart the collector which to present the humidity metric. + +Add a new entry in the `CHARTS` dictionary with the definition for the new chart. + +```python +CHARTS = { + 'temp_current': { + 'options': ['my_temp', 'Temperature', 'Celsius', 'TEMP', 'weather_station.temperature', 'line'], + 'lines': [ + ['current_temperature'] + ] + }, + 'humid_current': { + 'options': ['my_humid', 'Humidity', '%', 'HUMIDITY', 'weather_station.humidity', 'line'], + 'lines': [ + ['current_humidity'] + ] + } +} +``` + +The data has already been created and parsed by the `weather_data=dict()` function, so you only need to populate the +`current_humidity` dimension `self.weather_data["humid"]`. + +```python + data['current_temperature'] = self.weather_data["temp"] + data['current_humidity'] = self.weather_data["humid"] +``` + +Next, put the new `humid_current` chart into the `ORDER` list: + +```python +ORDER = [ + 'temp_current', + 'humid_current' +] +``` + +[Restart Netdata](https://github.com/netdata/netdata/blob/master/docs/configure/start-stop-restart.md) with `sudo systemctl restart netdata` to see the new humidity +chart: + +![A snapshot of the modified chart](https://i.imgur.com/XOeCBmg.png) + +Next, time to add one more chart that visualizes the average, minimum, and maximum temperature values. + +Add a new entry in the `CHARTS` dictionary with the definition for the new chart. Since you want three values +represented in this this chart, add three dimensions. You should also use the same `FAMILY` value in the charts (`TEMP`) +so that those two charts are grouped together. + +```python +CHARTS = { + 'temp_current': { + 'options': ['my_temp', 'Temperature', 'Celsius', 'TEMP', 'weather_station.temperature', 'line'], + 'lines': [ + ['current_temperature'] + ] + }, + 'temp_stats': { + 'options': ['stats_temp', 'Temperature', 'Celsius', 'TEMP', 'weather_station.temperature_stats', 'line'], + 'lines': [ + ['min_temperature'], + ['max_temperature'], + ['avg_temperature'] + ] + }, + 'humid_current': { + 'options': ['my_humid', 'Humidity', '%', 'HUMIDITY', 'weather_station.humidity', 'line'], + 'lines': [ + ['current_humidity'] + ] + } + +} +``` + +As before, initiate new dimensions and add data to them: + +```python + data['current_temperature'] = self.weather_data["temp"] + data['min_temperature'] = self.weather_data["min_temp"] + data['max_temperature'] = self.weather_data["max_temp"] + data['avg_temperature`'] = self.weather_data["av_temp"] + data['current_humidity'] = self.weather_data["humid"] +``` + +Finally, set the order for the `temp_stats` chart: + +```python +ORDER = [ + 'temp_current', + ‘temp_stats’ + 'humid_current' +] +``` + +[Restart Netdata](https://github.com/netdata/netdata/blob/master/docs/configure/start-stop-restart.md) with `sudo systemctl restart netdata` to see the new +min/max/average temperature chart with multiple dimensions: + +![A snapshot of the modified chart](https://i.imgur.com/g7E8lnG.png) + +## Add a configuration file + +The last piece of the puzzle to create a fully robust Python collector is the configuration file. Python.d uses +configuration in [YAML](https://www.tutorialspoint.com/yaml/yaml_basics.htm) format and is used as follows: + +- Create a configuration file in the same directory as the `<plugin_name>.chart.py`. Name it `<plugin_name>.conf`. +- Define a `job`, which is an instance of the collector. It is useful when you want to collect data from different + sources with different attributes. For example, we could gather data from 2 different weather stations, which use + different temperature measures: Fahrenheit and Celsius. +- You can define many different jobs with the same name, but with different attributes. Netdata will try each job + serially and will stop at the first job that returns data. If multiple jobs have the same name, only one of them can + run. This enables you to define different "ways" to fetch data from a particular data source so that the collector has + more chances to work out-of-the-box. For example, if the data source supports both `HTTP` and `linux socket`, you can + define 2 jobs named `local`, with each using a different method. +- Check the `example` collector configuration file on + [GitHub](https://github.com/netdata/netdata/blob/master/collectors/python.d.plugin/example/example.conf) to get a + sense of the structure. + +```yaml +weather_station_1: + name: 'Greece' + endpoint: 'https://endpoint_1.com' + port: 67 + type: 'celsius' +weather_station_2: + name: 'Florida USA' + endpoint: 'https://endpoint_2.com' + port: 67 + type: 'fahrenheit' +``` + +Next, access the above configuration variables in the `__init__` function: + +```python +def __init__(self, configuration=None, name=None): + SimpleService.__init__(self, configuration=configuration, name=name) + self.endpoint = self.configuration.get('endpoint', <default_endpoint>) +``` + +Because you initiate the `framework class` (e.g `SimpleService.__init__`), the configuration will be available +throughout the whole `Service` class of your module, as `self.configuration`. Finally, note that the `configuration.get` +function takes 2 arguments, one with the name of the configuration field and one with a default value in case it doesn't +find the configuration field. This allows you to define sane defaults for your collector. + +Moreover, when creating the configuration file, create a large comment section that describes the configuration +variables and inform the user about the defaults. For example, take a look at the `example` collector on +[GitHub](https://github.com/netdata/netdata/blob/master/collectors/python.d.plugin/example/example.conf). + +You can read more about the configuration file on the [`python.d.plugin` +documentation](https://github.com/netdata/netdata/blob/master/collectors/python.d.plugin/README.md). + +You can find the source code for the above examples on [GitHub](https://github.com/papajohn-uop/netdata). + +## Pull Request Checklist for Python Plugins + +Pull requests should be created in https://github.com/netdata/community. + +This is a generic checklist for submitting a new Python plugin for Netdata. It is by no means comprehensive. + +At minimum, to be buildable and testable, the PR needs to include: + +- The module itself, following proper naming conventions: `collectors/python.d.plugin/<module_dir>/<module_name>.chart.py` +- A README.md file for the plugin under `collectors/python.d.plugin/<module_dir>`. +- The configuration file for the module: `collectors/python.d.plugin/<module_dir>/<module_name>.conf`. Python config files are in YAML format, and should include comments describing what options are present. The instructions are also needed in the configuration section of the README.md +- A basic configuration for the plugin in the appropriate global config file: `collectors/python.d.plugin/python.d.conf`, which is also in YAML format. Either add a line that reads `# <module_name>: yes` if the module is to be enabled by default, or one that reads `<module_name>: no` if it is to be disabled by default. +- A makefile for the plugin at `collectors/python.d.plugin/<module_dir>/Makefile.inc`. Check an existing plugin for what this should look like. +- A line in `collectors/python.d.plugin/Makefile.am` including the above-mentioned makefile. Place it with the other plugin includes (please keep the includes sorted alphabetically). +- Optionally, chart information in `web/gui/dashboard_info.js`. This generally involves specifying a name and icon for the section, and may include descriptions for the section or individual charts. +- Optionally, some default alert configurations for your collector in `health/health.d/<module_name>.conf` and a line adding `<module_name>.conf` in `health/Makefile.am`. + +## Framework class reference + +Every framework class has some user-configurable variables which are specific to this particular class. Those variables should have default values initialized in the child class constructor. + +If module needs some additional user-configurable variable, it can be accessed from the `self.configuration` list and assigned in constructor or custom `check` method. Example: + +```py +def __init__(self, configuration=None, name=None): + UrlService.__init__(self, configuration=configuration, name=name) + try: + self.baseurl = str(self.configuration['baseurl']) + except (KeyError, TypeError): + self.baseurl = "http://localhost:5001" +``` + +Classes implement `_get_raw_data` which should be used to grab raw data. This method usually returns a list of strings. + +### `SimpleService` + +This is last resort class, if a new module cannot be written by using other framework class this one can be used. + +Example: `ceph`, `sensors` + +It is the lowest-level class which implements most of module logic, like: + +- threading +- handling run times +- chart formatting +- logging +- chart creation and updating + +### `LogService` + +Examples: `apache_cache`, `nginx_log`_ + +Variable from config file: `log_path`. + +Object created from this class reads new lines from file specified in `log_path` variable. It will check if file exists and is readable. Also `_get_raw_data` returns list of strings where each string is one line from file specified in `log_path`. + +### `ExecutableService` + +Examples: `exim`, `postfix`_ + +Variable from config file: `command`. + +This allows to execute a shell command in a secure way. It will check for invalid characters in `command` variable and won't proceed if there is one of: + +- '&' +- '|' +- ';' +- '>' +- '\<' + +For additional security it uses python `subprocess.Popen` (without `shell=True` option) to execute command. Command can be specified with absolute or relative name. When using relative name, it will try to find `command` in `PATH` environment variable as well as in `/sbin` and `/usr/sbin`. + +`_get_raw_data` returns list of decoded lines returned by `command`. + +### UrlService + +Examples: `apache`, `nginx`, `tomcat`_ + +Variables from config file: `url`, `user`, `pass`. + +If data is grabbed by accessing service via HTTP protocol, this class can be used. It can handle HTTP Basic Auth when specified with `user` and `pass` credentials. + +Please note that the config file can use different variables according to the specification of each module. + +`_get_raw_data` returns list of utf-8 decoded strings (lines). + +### SocketService + +Examples: `dovecot`, `redis` + +Variables from config file: `unix_socket`, `host`, `port`, `request`. + +Object will try execute `request` using either `unix_socket` or TCP/IP socket with combination of `host` and `port`. This can access unix sockets with SOCK_STREAM or SOCK_DGRAM protocols and TCP/IP sockets in version 4 and 6 with SOCK_STREAM setting. + +Sockets are accessed in non-blocking mode with 15 second timeout. + +After every execution of `_get_raw_data` socket is closed, to prevent this module needs to set `_keep_alive` variable to `True` and implement custom `_check_raw_data` method. + +`_check_raw_data` should take raw data and return `True` if all data is received otherwise it should return `False`. Also it should do it in fast and efficient way. |