The Splunk distribution of OpenTelemetry Python Instrumentation provides a Python agent that automatically instruments your Python application to capture and report distributed traces to SignalFx APM.
Project description
Splunk distribution of OpenTelemetry Python
The Splunk distribution of OpenTelemetry Python provides multiple installable packages that automatically instruments your Python application to capture and report distributed traces to Splunk APM.
This Splunk distribution comes with the following defaults:
- B3 context propagation.
- Jaeger thrift
exporter
configured to send spans to a locally running SignalFx Smart
Agent
(
http://localhost:9080/v1/trace
). - Unlimited default limits for configuration options to support full-fidelity traces.
If you're currently using the SignalFx Tracing Library for Python and want to migrate to the Splunk Distribution of OpenTelemetry Python, see Migrate from the SignalFx Tracing Library for Python.
:construction: This project is currently in BETA.
Getting Started
The instrumentation works with Python version 3.6+. Supported libraries are listed here.
To get started, install the splunk-opentelemetry
package, run the bootstrap
script and wrap your run command with splk-py-trace
.
For example, if the runtime parameters were:
python main.py --port=8000
Then the runtime parameters should be updated to:
$ pip install splunk-opentelemetry
$ splk-py-trace-bootstrap
$ SPLK_SERVICE_NAME=my-python-app \
splk-py-trace python main.py --port=8000
The service name is the only configuration option that typically needs to be specified. A couple other configuration options that may need to be changed or set are:
- Endpoint if not sending to a locally running Smart Agent with default configuration
- Environment attribute (example:
OTEL_RESOURCE_ATTRIBUTES=environment=production
) to specify what environment the span originated from.
Instrumentation works by patching supported libraries at runtime with an
OpenTelemetry-compatible tracer to capture and export trace spans. The agent
also registers an OpenTelemetry get_tracer
so you can support existing custom
instrumentation or add custom instrumentation to your application later.
To see the Python instrumentation in action with sample applications, see our examples.
All configuration options
Zipkin exporter
Environment variable | Default value | Notes |
---|---|---|
SPLK_TRACE_EXPORTER_URL | http://localhost:9080/v1/trace |
The jaeger endpoint to connect to. Currently only HTTP is supported. |
SPLK_SERVICE_NAME | unnamed-python-service |
The service name of this JVM instance. |
SPLK_ACCESS_TOKEN | The optional organization access token for trace submission requests. |
Trace configuration
Environment variable | Default value | Purpose |
---|---|---|
SPLK_MAX_ATTR_LENGTH | 1200 | Maximum length of string attribute value in characters. Longer values are truncated. |
OTEL_RESOURCE_ATTRIBUTES | unset | Comma-separated list of resource attributes added to every reported span. Examplekey1=val1,key2=val2 |
OTEL_TRACE_ENABLED | true |
Globally enables tracer creation and auto-instrumentation. |
Advanced Getting Started
Alternative: List requirements instead of installing them
The splk-py-trace-bootstrap
command can optionally print out the list of
packages it would install if you chose. In order to do so, pass
-a=requirements
CLI argument to it. For example,
splk-py-trace-bootstrap -a requirements
Will output something like the following:
opentelemetry-instrumentation-falcon>=0.15b0
opentelemetry-instrumentation-jinja2>=0.15b0
opentelemetry-instrumentation-requests>=0.15b0
opentelemetry-instrumentation-sqlite3>=0.15b0
opentelemetry-exporter-jaeger>=0.15b0
You can pipe the output of this command to append the new packages to your
requirements.txt file or to something like poetry add
.
Alternative: Instrument and configure by adding code
If you cannot use splk-py-trace
command, you can also add a couple of lines
of code to your Python application to achieve the same result.
from splunk_otel.tracing import start_tracing
start_tracing()
# rest of your python application's entrypoint script
Exporting to Smart Agent, Otel collector or SignalFx ingest
This package exports spans in Jaeger Thrift format over HTTP and supports
exporting to the SignalFx Smart Agent, OpenTelemetry collector and directly to
SignalFx ingest API. You can use SPLK_TRACE_EXPORTER_URL
environment variable
to specify an export URL. The value must be a full URL including scheme and
path.
Smart Agent
This is the default option. You do not need to set any config options if you
want to export to the Smart Agent and you are running the agent on the default
port (9080
). The exporter will default to http://localhost:9080/v1/trace
when the environment variable is not specified.
OpenTelemetry Collector
In order to do this, you'll need to enable Jaeger Thrift HTTP receiver on
OpenTelemetry Collector and set SPLK_TRACE_EXPORTER_URL
to
http://localhost:14268/api/traces
assuming the collector is reachable via
localhost.
SignalFx Ingest API
In order to send traces directly to SignalFx ingest API, you need to:
- Set
SPLK_TRACE_EXPORTER_URL
tohttps://ingest.<realm>.signalfx.com/v2/trace
whererealm
is your SignalFx realm e.g,https://ingest.us0.signalfx.com/v2/trace
. - Set
SPLK_ACCESS_TOKEN
to one of your SignalFx APM access tokens.
Special Cases
Celery
Tracing Celery workers works out of the box when you use the splk-py-trace
command to start your Python application. However, if you are instrumenting
your celery workers with code, you'll need to make sure you setup tracing for
each worker by using Celery's celery.signalfx.worker_process_init
signal.
For example:
from splunk_otel.tracing import start_tracing
from celery.signals import worker_process_init
@worker_process_init.connect(weak=False)
def on_worker_process_init(*args, **kwargs):
start_tracing()
# rest of your python application's entrypoint script
Django
Automatically instrumenting Django requires DJANGO_SETTINGS_MODULE
environment variable to be set. The value should be the same as set in your
manage.py
or wsgi.py
modules. For example, if your manage.py file sets this
environment variable to mydjangoproject.settings
and you start your Django
project as ./manage.py runserver
, then you can automatically instrument your
Django project as follows:
export DJANGO_SETTINGS_MODULE=mydjangoproject.settings
splk-py-trace ./manage.py runserver
Gunicorn
Like Celery, we'll also need to setup tracing per Gunicorn worker. This can be
done by setting up tracing inside Gunicorn's post_fork()
handler.
For example:
# gunicorn.config.py
from splunk_otel.tracing import start_tracing
def post_fork(server, worker):
start_tracing()
Then add -c gunicorn.config.py
CLI flag to your gunicorn command.
Manually instrument an application
Documentation on how to manually instrument a Python application is available here.
Troubleshooting
Enable debug logging like you would for any Python application.
import logging
logging.basicConfig(level=logging.DEBUG)
:warning: Debug logging is extremely verbose and resource intensive. Enable debug logging only when needed and disable when done.
License and versioning
The Splunk distribution of OpenTelemetry Python Instrumentation is a distribution of the OpenTelemetry Python project. It is released under the terms of the Apache Software License version 2.0. See the license file for more details.
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