Metric collecting charms

Adding metrics to a charm is simple and straightforward with the reactive framework. For a general overview of metrics see Application metrics.

Add layer:metrics

Add layer:metrics to the charm’s layer.yaml. This layer provides the collect-metrics hook, and allows metric collection to be defined completely by metrics.yaml.

Add metrics.yaml

Declare the metrics to be collected in your charm’s metrics.yaml. Example:

metrics:
  users:
    type: gauge
    description: Number of users
  tokens:
    type: gauge
    description: Number of active tokens

Metric types

Only type: gauge fully supports operational use-cases. Other types are experimental.

`type: gauge`

Gauge metrics are a snapshot value reading at a point in time, as a positive decimal number.

`type: absolute`

Absolute metrics track the quantity since the last measurement, as a positive decimal number. Future releases of Juju will track the cumulative aggregate of absolutes, providing a more useful indicator to operators.

Built-in metric `juju-units`

There is also a built-in metric, which has no type or description, named juju-units. When declared, this metric sends a “1” for each unit.

Metric commands

When charming with layer:metrics, add a command: attribute to each metric in metrics.yaml, containing a command line that measures the value when executed. layer:metrics will then execute this command in the collect-metrics hook for you automatically. Continuing with the example above:

metrics:
  users:
    type: gauge
    description: Number of users
    command: scripts/count_users.py
  tokens:
    type: gauge
    description: Number of active tokens
    command: scripts/count_tokens.py

Commands can use any script or executable in your charm or installed elsewhere on the workload. The current working directory for this command will be the charm directory (charmhelpers.core.hookenv.charm_dir). The command must write only the metric value to standard output, and terminate with exit code 0 in order for the measurement to be to be counted valid.

Continuing with the metrics example above, a charm that relates to a PostgreSQL database probably stores its “users” and “tokens” in database tables. These can be counted with a simple SQL query. scripts/count_users.py in such a charm might read as:

#!/usr/bin/env python3

# Python packages will have been installed by the charm.
import configparser
import psycopg2


if __name__ == '__main__':
    # Read the application's configuration file, which will have been written
    # by the charm's relation hooks.
    with open('/opt/sso-auth/config.ini') as f:
        config_str = f.read()
    config = configparser.ConfigParser(strict=False)
    config.read_string(config_str)

    # Build a database connection string from configuration.
    dbname = config['database']['NAME']
    user = config['database']['USER']
    password = config['database']['PASSWD']
    hostport = config['database']['HOST']
    host, port = hostport.split(':')
    conn_str = 'dbname=%s user=%s password=%s host=%s port=%s' % (
        dbname, user, password, host, port)
    conn = psycopg2.connect(conn_str)
    try:
        cur = conn.cursor()
        try:
            # For sake of example, let's say we don't want to include the
            # default admin user account in the count.
            cur.execute("SELECT COUNT(1) FROM users WHERE name != 'admin';")
            row, = cur.fetchone()
            print(row)  # Print the measurement to standard output, for Juju
        finally:
            cur.close()
    finally:
        conn.close()

Note that this command will not have access to the normal lifecycle hook environment. Refer to the collect-metrics documentation for more information.