601 lines
18 KiB
Plaintext
601 lines
18 KiB
Plaintext
Metadata-Version: 2.1
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Name: prometheus-client
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Version: 0.8.0
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Summary: Python client for the Prometheus monitoring system.
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Home-page: https://github.com/prometheus/client_python
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Author: Brian Brazil
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Author-email: brian.brazil@robustperception.io
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License: Apache Software License 2.0
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Keywords: prometheus monitoring instrumentation client
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Platform: UNKNOWN
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Classifier: Development Status :: 4 - Beta
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Classifier: Intended Audience :: Developers
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Classifier: Intended Audience :: Information Technology
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Classifier: Intended Audience :: System Administrators
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Classifier: Programming Language :: Python
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Classifier: Programming Language :: Python :: 2
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Classifier: Programming Language :: Python :: 2.6
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Classifier: Programming Language :: Python :: 2.7
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Classifier: Programming Language :: Python :: 3
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Classifier: Programming Language :: Python :: 3.4
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Classifier: Programming Language :: Python :: 3.5
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Classifier: Programming Language :: Python :: 3.6
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Classifier: Programming Language :: Python :: 3.7
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Classifier: Programming Language :: Python :: 3.8
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Classifier: Programming Language :: Python :: Implementation :: CPython
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Classifier: Programming Language :: Python :: Implementation :: PyPy
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Classifier: Topic :: System :: Monitoring
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Classifier: License :: OSI Approved :: Apache Software License
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Description-Content-Type: text/markdown
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Provides-Extra: twisted
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Requires-Dist: twisted ; extra == 'twisted'
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# Prometheus Python Client
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The official Python 2 and 3 client for [Prometheus](http://prometheus.io).
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## Three Step Demo
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**One**: Install the client:
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```
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pip install prometheus_client
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```
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**Two**: Paste the following into a Python interpreter:
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```python
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from prometheus_client import start_http_server, Summary
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import random
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import time
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# Create a metric to track time spent and requests made.
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REQUEST_TIME = Summary('request_processing_seconds', 'Time spent processing request')
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# Decorate function with metric.
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@REQUEST_TIME.time()
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def process_request(t):
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"""A dummy function that takes some time."""
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time.sleep(t)
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if __name__ == '__main__':
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# Start up the server to expose the metrics.
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start_http_server(8000)
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# Generate some requests.
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while True:
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process_request(random.random())
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```
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**Three**: Visit [http://localhost:8000/](http://localhost:8000/) to view the metrics.
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From one easy to use decorator you get:
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* `request_processing_seconds_count`: Number of times this function was called.
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* `request_processing_seconds_sum`: Total amount of time spent in this function.
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Prometheus's `rate` function allows calculation of both requests per second,
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and latency over time from this data.
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In addition if you're on Linux the `process` metrics expose CPU, memory and
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other information about the process for free!
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## Installation
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```
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pip install prometheus_client
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```
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This package can be found on
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[PyPI](https://pypi.python.org/pypi/prometheus_client).
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## Instrumenting
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Four types of metric are offered: Counter, Gauge, Summary and Histogram.
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See the documentation on [metric types](http://prometheus.io/docs/concepts/metric_types/)
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and [instrumentation best practices](https://prometheus.io/docs/practices/instrumentation/#counter-vs-gauge-summary-vs-histogram)
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on how to use them.
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### Counter
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Counters go up, and reset when the process restarts.
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```python
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from prometheus_client import Counter
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c = Counter('my_failures', 'Description of counter')
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c.inc() # Increment by 1
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c.inc(1.6) # Increment by given value
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```
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If there is a suffix of `_total` on the metric name, it will be removed. When
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exposing the time series for counter, a `_total` suffix will be added. This is
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for compatibility between OpenMetrics and the Prometheus text format, as OpenMetrics
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requires the `_total` suffix.
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There are utilities to count exceptions raised:
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```python
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@c.count_exceptions()
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def f():
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pass
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with c.count_exceptions():
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pass
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# Count only one type of exception
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with c.count_exceptions(ValueError):
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pass
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```
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### Gauge
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Gauges can go up and down.
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```python
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from prometheus_client import Gauge
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g = Gauge('my_inprogress_requests', 'Description of gauge')
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g.inc() # Increment by 1
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g.dec(10) # Decrement by given value
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g.set(4.2) # Set to a given value
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```
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There are utilities for common use cases:
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```python
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g.set_to_current_time() # Set to current unixtime
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# Increment when entered, decrement when exited.
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@g.track_inprogress()
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def f():
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pass
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with g.track_inprogress():
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pass
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```
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A Gauge can also take its value from a callback:
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```python
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d = Gauge('data_objects', 'Number of objects')
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my_dict = {}
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d.set_function(lambda: len(my_dict))
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```
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### Summary
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Summaries track the size and number of events.
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```python
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from prometheus_client import Summary
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s = Summary('request_latency_seconds', 'Description of summary')
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s.observe(4.7) # Observe 4.7 (seconds in this case)
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```
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There are utilities for timing code:
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```python
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@s.time()
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def f():
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pass
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with s.time():
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pass
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```
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The Python client doesn't store or expose quantile information at this time.
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### Histogram
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Histograms track the size and number of events in buckets.
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This allows for aggregatable calculation of quantiles.
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```python
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from prometheus_client import Histogram
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h = Histogram('request_latency_seconds', 'Description of histogram')
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h.observe(4.7) # Observe 4.7 (seconds in this case)
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```
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The default buckets are intended to cover a typical web/rpc request from milliseconds to seconds.
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They can be overridden by passing `buckets` keyword argument to `Histogram`.
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There are utilities for timing code:
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```python
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@h.time()
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def f():
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pass
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with h.time():
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pass
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```
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### Info
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Info tracks key-value information, usually about a whole target.
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```python
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from prometheus_client import Info
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i = Info('my_build_version', 'Description of info')
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i.info({'version': '1.2.3', 'buildhost': 'foo@bar'})
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```
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### Enum
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Enum tracks which of a set of states something is currently in.
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```python
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from prometheus_client import Enum
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e = Enum('my_task_state', 'Description of enum',
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states=['starting', 'running', 'stopped'])
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e.state('running')
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```
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### Labels
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All metrics can have labels, allowing grouping of related time series.
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See the best practices on [naming](http://prometheus.io/docs/practices/naming/)
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and [labels](http://prometheus.io/docs/practices/instrumentation/#use-labels).
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Taking a counter as an example:
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```python
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from prometheus_client import Counter
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c = Counter('my_requests_total', 'HTTP Failures', ['method', 'endpoint'])
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c.labels('get', '/').inc()
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c.labels('post', '/submit').inc()
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```
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Labels can also be passed as keyword-arguments:
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```python
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from prometheus_client import Counter
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c = Counter('my_requests_total', 'HTTP Failures', ['method', 'endpoint'])
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c.labels(method='get', endpoint='/').inc()
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c.labels(method='post', endpoint='/submit').inc()
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```
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### Process Collector
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The Python client automatically exports metrics about process CPU usage, RAM,
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file descriptors and start time. These all have the prefix `process`, and
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are only currently available on Linux.
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The namespace and pid constructor arguments allows for exporting metrics about
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other processes, for example:
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```
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ProcessCollector(namespace='mydaemon', pid=lambda: open('/var/run/daemon.pid').read())
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```
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### Platform Collector
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The client also automatically exports some metadata about Python. If using Jython,
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metadata about the JVM in use is also included. This information is available as
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labels on the `python_info` metric. The value of the metric is 1, since it is the
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labels that carry information.
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## Exporting
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There are several options for exporting metrics.
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### HTTP
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Metrics are usually exposed over HTTP, to be read by the Prometheus server.
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The easiest way to do this is via `start_http_server`, which will start a HTTP
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server in a daemon thread on the given port:
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```python
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from prometheus_client import start_http_server
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start_http_server(8000)
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```
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Visit [http://localhost:8000/](http://localhost:8000/) to view the metrics.
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To add Prometheus exposition to an existing HTTP server, see the `MetricsHandler` class
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which provides a `BaseHTTPRequestHandler`. It also serves as a simple example of how
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to write a custom endpoint.
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#### Twisted
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To use prometheus with [twisted](https://twistedmatrix.com/), there is `MetricsResource` which exposes metrics as a twisted resource.
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```python
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from prometheus_client.twisted import MetricsResource
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from twisted.web.server import Site
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from twisted.web.resource import Resource
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from twisted.internet import reactor
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root = Resource()
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root.putChild(b'metrics', MetricsResource())
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factory = Site(root)
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reactor.listenTCP(8000, factory)
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reactor.run()
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```
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#### WSGI
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To use Prometheus with [WSGI](http://wsgi.readthedocs.org/en/latest/), there is
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`make_wsgi_app` which creates a WSGI application.
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```python
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from prometheus_client import make_wsgi_app
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from wsgiref.simple_server import make_server
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app = make_wsgi_app()
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httpd = make_server('', 8000, app)
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httpd.serve_forever()
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```
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Such an application can be useful when integrating Prometheus metrics with WSGI
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apps.
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The method `start_wsgi_server` can be used to serve the metrics through the
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WSGI reference implementation in a new thread.
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```python
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from prometheus_client import start_wsgi_server
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start_wsgi_server(8000)
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```
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#### ASGI
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To use Prometheus with [ASGI](http://asgi.readthedocs.org/en/latest/), there is
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`make_asgi_app` which creates an ASGI application.
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```python
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from prometheus_client import make_asgi_app
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app = make_asgi_app()
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```
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Such an application can be useful when integrating Prometheus metrics with ASGI
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apps.
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#### Flask
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To use Prometheus with [Flask](http://flask.pocoo.org/) we need to serve metrics through a Prometheus WSGI application. This can be achieved using [Flask's application dispatching](http://flask.pocoo.org/docs/latest/patterns/appdispatch/). Below is a working example.
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Save the snippet below in a `myapp.py` file
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```python
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from flask import Flask
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from werkzeug.middleware.dispatcher import DispatcherMiddleware
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from prometheus_client import make_wsgi_app
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# Create my app
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app = Flask(__name__)
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# Add prometheus wsgi middleware to route /metrics requests
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app_dispatch = DispatcherMiddleware(app, {
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'/metrics': make_wsgi_app()
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})
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```
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Run the example web application like this
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```bash
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# Install uwsgi if you do not have it
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pip install uwsgi
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uwsgi --http 127.0.0.1:8000 --wsgi-file myapp.py --callable app_dispatch
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```
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Visit http://localhost:8000/metrics to see the metrics
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### Node exporter textfile collector
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The [textfile collector](https://github.com/prometheus/node_exporter#textfile-collector)
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allows machine-level statistics to be exported out via the Node exporter.
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This is useful for monitoring cronjobs, or for writing cronjobs to expose metrics
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about a machine system that the Node exporter does not support or would not make sense
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to perform at every scrape (for example, anything involving subprocesses).
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```python
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from prometheus_client import CollectorRegistry, Gauge, write_to_textfile
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registry = CollectorRegistry()
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g = Gauge('raid_status', '1 if raid array is okay', registry=registry)
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g.set(1)
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write_to_textfile('/configured/textfile/path/raid.prom', registry)
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```
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A separate registry is used, as the default registry may contain other metrics
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such as those from the Process Collector.
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## Exporting to a Pushgateway
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The [Pushgateway](https://github.com/prometheus/pushgateway)
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allows ephemeral and batch jobs to expose their metrics to Prometheus.
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```python
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from prometheus_client import CollectorRegistry, Gauge, push_to_gateway
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registry = CollectorRegistry()
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g = Gauge('job_last_success_unixtime', 'Last time a batch job successfully finished', registry=registry)
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g.set_to_current_time()
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push_to_gateway('localhost:9091', job='batchA', registry=registry)
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```
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A separate registry is used, as the default registry may contain other metrics
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such as those from the Process Collector.
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Pushgateway functions take a grouping key. `push_to_gateway` replaces metrics
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with the same grouping key, `pushadd_to_gateway` only replaces metrics with the
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same name and grouping key and `delete_from_gateway` deletes metrics with the
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given job and grouping key. See the
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[Pushgateway documentation](https://github.com/prometheus/pushgateway/blob/master/README.md)
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for more information.
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`instance_ip_grouping_key` returns a grouping key with the instance label set
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to the host's IP address.
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### Handlers for authentication
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If the push gateway you are connecting to is protected with HTTP Basic Auth,
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you can use a special handler to set the Authorization header.
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```python
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from prometheus_client import CollectorRegistry, Gauge, push_to_gateway
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from prometheus_client.exposition import basic_auth_handler
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def my_auth_handler(url, method, timeout, headers, data):
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username = 'foobar'
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password = 'secret123'
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return basic_auth_handler(url, method, timeout, headers, data, username, password)
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registry = CollectorRegistry()
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g = Gauge('job_last_success_unixtime', 'Last time a batch job successfully finished', registry=registry)
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g.set_to_current_time()
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push_to_gateway('localhost:9091', job='batchA', registry=registry, handler=my_auth_handler)
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```
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## Bridges
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It is also possible to expose metrics to systems other than Prometheus.
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This allows you to take advantage of Prometheus instrumentation even
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if you are not quite ready to fully transition to Prometheus yet.
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### Graphite
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Metrics are pushed over TCP in the Graphite plaintext format.
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```python
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from prometheus_client.bridge.graphite import GraphiteBridge
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gb = GraphiteBridge(('graphite.your.org', 2003))
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# Push once.
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gb.push()
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# Push every 10 seconds in a daemon thread.
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gb.start(10.0)
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```
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## Custom Collectors
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Sometimes it is not possible to directly instrument code, as it is not
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in your control. This requires you to proxy metrics from other systems.
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To do so you need to create a custom collector, for example:
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```python
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from prometheus_client.core import GaugeMetricFamily, CounterMetricFamily, REGISTRY
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class CustomCollector(object):
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def collect(self):
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yield GaugeMetricFamily('my_gauge', 'Help text', value=7)
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c = CounterMetricFamily('my_counter_total', 'Help text', labels=['foo'])
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c.add_metric(['bar'], 1.7)
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c.add_metric(['baz'], 3.8)
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yield c
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REGISTRY.register(CustomCollector())
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```
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`SummaryMetricFamily` and `HistogramMetricFamily` work similarly.
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A collector may implement a `describe` method which returns metrics in the same
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format as `collect` (though you don't have to include the samples). This is
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used to predetermine the names of time series a `CollectorRegistry` exposes and
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thus to detect collisions and duplicate registrations.
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Usually custom collectors do not have to implement `describe`. If `describe` is
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not implemented and the CollectorRegistry was created with `auto_describe=True`
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(which is the case for the default registry) then `collect` will be called at
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registration time instead of `describe`. If this could cause problems, either
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implement a proper `describe`, or if that's not practical have `describe`
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return an empty list.
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## Multiprocess Mode (Gunicorn)
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Prometheus client libraries presume a threaded model, where metrics are shared
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across workers. This doesn't work so well for languages such as Python where
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it's common to have processes rather than threads to handle large workloads.
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To handle this the client library can be put in multiprocess mode.
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This comes with a number of limitations:
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- Registries can not be used as normal, all instantiated metrics are exported
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- Custom collectors do not work (e.g. cpu and memory metrics)
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- Info and Enum metrics do not work
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- The pushgateway cannot be used
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- Gauges cannot use the `pid` label
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There's several steps to getting this working:
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**1. Gunicorn deployment**:
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The `prometheus_multiproc_dir` environment variable must be set to a directory
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that the client library can use for metrics. This directory must be wiped
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between Gunicorn runs (before startup is recommended).
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This environment variable should be set from a start-up shell script,
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and not directly from Python (otherwise it may not propagate to child processes).
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**2. Metrics collector**:
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The application must initialize a new `CollectorRegistry`,
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and store the multi-process collector inside.
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```python
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from prometheus_client import multiprocess
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from prometheus_client import generate_latest, CollectorRegistry, CONTENT_TYPE_LATEST
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# Expose metrics.
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def app(environ, start_response):
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registry = CollectorRegistry()
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multiprocess.MultiProcessCollector(registry)
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data = generate_latest(registry)
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status = '200 OK'
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response_headers = [
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('Content-type', CONTENT_TYPE_LATEST),
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('Content-Length', str(len(data)))
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]
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start_response(status, response_headers)
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return iter([data])
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```
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|
|
**3. Gunicorn configuration**:
|
|
|
|
The `gunicorn` configuration file needs to include the following function:
|
|
|
|
```python
|
|
from prometheus_client import multiprocess
|
|
|
|
def child_exit(server, worker):
|
|
multiprocess.mark_process_dead(worker.pid)
|
|
```
|
|
|
|
**4. Metrics tuning (Gauge)**:
|
|
|
|
When `Gauge` metrics are used, additional tuning needs to be performed.
|
|
Gauges have several modes they can run in, which can be selected with the `multiprocess_mode` parameter.
|
|
|
|
- 'all': Default. Return a timeseries per process alive or dead.
|
|
- 'liveall': Return a timeseries per process that is still alive.
|
|
- 'livesum': Return a single timeseries that is the sum of the values of alive processes.
|
|
- 'max': Return a single timeseries that is the maximum of the values of all processes, alive or dead.
|
|
- 'min': Return a single timeseries that is the minimum of the values of all processes, alive or dead.
|
|
|
|
```python
|
|
from prometheus_client import Gauge
|
|
|
|
# Example gauge
|
|
IN_PROGRESS = Gauge("inprogress_requests", "help", multiprocess_mode='livesum')
|
|
```
|
|
|
|
|
|
## Parser
|
|
|
|
The Python client supports parsing the Prometheus text format.
|
|
This is intended for advanced use cases where you have servers
|
|
exposing Prometheus metrics and need to get them into some other
|
|
system.
|
|
|
|
```python
|
|
from prometheus_client.parser import text_string_to_metric_families
|
|
for family in text_string_to_metric_families(u"my_gauge 1.0\n"):
|
|
for sample in family.samples:
|
|
print("Name: {0} Labels: {1} Value: {2}".format(*sample))
|
|
```
|
|
|
|
|