Trace FastAPI with Jaeger through OpenTelemetry Python API and SDK.
The span from the application could be collected with Jaeger Collector(jaeger-collector) or OpenTelemetry Collector(otel-collector):
There are four ways to push span:
- A: Push span to OpenTelemetry Collector with gRPC (Port: 4317)
- B: Push span to OpenTelemetry Collector over HTTP (Port: 4318)
- C: Push span to Jaeger Collector with gRPC (Port: 4317)
- D: Push span to Jaeger Collector with HTTP (Port: 4318)
In this architecture, OpenTelemetry Collector is an agent to collects, processes, and sends data to Jaeger Collector. Jaeger Collector is responsible for collecting span and writing span to DB, then Jaeger Query queries data from DB.
Jaeger Agent has been deprecated since version 1.43. Since version 1.43, OpenTelemetry SDK allows direct data transmission to Jaeger Collector or utilization of OpenTelemetry Collector as an Agent. If you still want to utilize Jaeger Agent for span collection, please refer to the previous version of this project.
- FastAPI Tracing with Jaeger through OpenTelemetry
- Reference
-
Start all services with docker-compose
docker-compose up -d
It may take some time for DB(Cassandra) to initialize. You can run
docker-compose psto check thejaeger-querystatus is running when DB is ready as below:
-
Send requests with
curlto the FastAPI applicationcurl http://localhost:8000/chain
-
Check on Jaeger UI http://localhost:16686/
Jaeger UI screenshot:
For a more complex scenario, we use three FastAPI applications with the same code in this demo. There is a cross-service action in /chain endpoint, which provides a good example of how to use OpenTelemetry SDK process span and how Jaeger Query presents trace information.
Utilize OpenTelemetry Python SDK to send span to Jaeger. Each request span contains other child spans when using OpenTelemetry instrumentation. The reason is that instrumentation will catch each internal asgi interaction (opentelemetry-python-contrib issue #831). If you want to get rid of the internal spans, there is a workaround in the same issue #831 by using a new OpenTelemetry middleware with two overridden methods of span processing.
Utilize OpenTelemetry Logging Instrumentation to apply logger format with trace id and span id.
# fastapi_app/main.py
# otlp-grpc, otlp-http
MODE = os.environ.get("MODE", "otlp-grpc")
OTLP_GRPC_ENDPOINT = os.environ.get("OTLP_GRPC_ENDPOINT", "jaeger-collector:4317")
OTLP_HTTP_ENDPOINT = os.environ.get(
"OTLP_HTTP_ENDPOINT", "http://jaeger-collector:4318/v1/traces"
)
def setting_jaeger(app: ASGIApp, log_correlation: bool = True) -> None:
# set the tracer provider
tracer = TracerProvider()
trace.set_tracer_provider(tracer)
if MODE == "otlp-grpc":
tracer.add_span_processor(
BatchSpanProcessor(
OTLPSpanExporterGRPC(endpoint=OTLP_GRPC_ENDPOINT, insecure=True)
)
)
elif MODE == "otlp-http":
tracer.add_span_processor(
BatchSpanProcessor(OTLPSpanExporterHTTP(endpoint=OTLP_HTTP_ENDPOINT))
)
else:
# default otlp-grpc
tracer.add_span_processor(
BatchSpanProcessor(
OTLPSpanExporterGRPC(endpoint=OTLP_GRPC_ENDPOINT, insecure=True)
)
)
# override logger format which with trace id and span id
if log_correlation:
LoggingInstrumentor().instrument(set_logging_format=True)
FastAPIInstrumentor.instrument_app(app, tracer_provider=tracer)The instrumentation library will collect trace information automatically, e.g. HTTP status code, HTTP method, HTTP URL, etc. We can also add custom attributes to the span with SDK.
from opentelemetry.sdk.resources import Resource
from opentelemetry.sdk.trace import TracerProvider
resource = Resource.create(attributes={
"service.name": "fastapi-app",
"custom.data": "custom_data",
})
tracer = TracerProvider(resource=resource)Or we can use environment variables to set the attributes and service name(the service name displayed on Jaeger UI), which is used in this demo. Following is the example of setting environment variables in the compose file.
services:
app:
image: ghcr.io/blueswen/fastapi-jaeger/app:latest
environment:
OTEL_SERVICE_NAME: "fastapi-app"
OTEL_RESOURCE_ATTRIBUTES: "custom.data=custom_data"If we want other services to use the same Trace ID as the source application, we have to pass the Trace ID to the header of the request. In this demo, we use inject function to add current span information to the header. Because OpenTelemetry FastAPI instrumentation only takes care of the asgi app's request and response, it does not affect any other modules or actions like sending HTTP requests to other servers or function calls.
# fastapi_app/main.py
from opentelemetry.propagate import inject
@app.get("/chain")
async def chain(response: Response):
headers = {}
inject(headers) # inject trace info to header
async with httpx.AsyncClient() as client:
await client.get(f"http://localhost:8000/", headers=headers,)
async with httpx.AsyncClient() as client:
await client.get(f"http://{TARGET_ONE_HOST}:8000/io_task", headers=headers,)
async with httpx.AsyncClient() as client:
await client.get(f"http://{TARGET_TWO_HOST}:8000/cpu_task", headers=headers,)
return {"path": "/chain"}Or we can just use the instrumentation library for different libraries. Like OpenTelemetry HTTPX Instrumentation or OpenTelemetry Requests Instrumentation according to the library we use. Following is the example of using OpenTelemetry HTTPX Instrumentation which will automatically inject trace info to the header.
import httpx
from opentelemetry.instrumentation.httpx import HTTPXClientInstrumentor
HTTPXClientInstrumentor().instrument()
@app.get("/chain")
async def chain(response: Response):
async with httpx.AsyncClient() as client:
await client.get(f"http://localhost:8000/")
async with httpx.AsyncClient() as client:
await client.get(f"http://{TARGET_ONE_HOST}:8000/io_task")
async with httpx.AsyncClient() as client:
await client.get(f"http://{TARGET_TWO_HOST}:8000/cpu_task")
return {"path": "/chain"}There is an all-in-one Jaeger for quick testing, but in production running Jaeger backend components as a scalable distributed system is the most common method, as illustrated below.
Image Source: Jaeger
Or with OpenTelemetry Collector:
Image Source: Jaeger
We create the Jaeger backend of this demo project based on the docker compose example from Jaeger's official repository.
Check more details on Jaeger docs about architecture.
The Jaeger collector receives traces from OpenTelemetry SDKs or OpenTelemetry Agent and runs them through a processing pipeline.
# docker-compose.yaml
services:
jaeger-collector:
image: jaegertracing/jaeger-collector:1.57.0
command:
- "--cassandra.keyspace=jaeger_v1_dc1"
- "--cassandra.servers=cassandra"
- "--sampling.initial-sampling-probability=.5"
- "--sampling.target-samples-per-second=.01"
- "--collector.otlp.enabled=true"
environment:
- SAMPLING_CONFIG_TYPE=adaptive
ports:
- "4317" # accept OpenTelemetry Protocol (OTLP) over gRPC
- "4318" # accept OpenTelemetry Protocol (OTLP) over HTTP
restart: on-failure
depends_on:
- cassandra-schemaCheck more details on Jaeger docs Deployment about Collector, CLI flags about Collector, and Sampling.
The OpenTelemetry Collector receives traces from OpenTelemetry SDKs and processes them according to the configuration file etc/otel-collector-config.yaml.
# docker-compose.yaml
services:
otel-collector:
image: otel/opentelemetry-collector-contrib:0.100.0
command:
- "--config=/conf/config.yaml"
volumes:
- ./etc/otel-collector-config.yaml:/conf/config.yaml
ports:
- "4317" # OTLP gRPC receiver
- "4318" # OTLP http receiver
restart: on-failure
depends_on:
- jaeger-collector# etc/otel-collector-config.yaml
receivers:
otlp:
protocols:
grpc:
http:
exporters:
otlp:
endpoint: jaeger-collector:4317
tls:
insecure: true
otlphttp:
endpoint: http://jaeger-collector:4318
tls:
insecure: true
processors:
batch:
service:
pipelines:
traces:
receivers: [otlp]
processors: [batch]
exporters: [otlp] # export to jaeger-collector:4317
# exporters: [otlphttp] # export to jaeger-collector:4318Check more details on OpenTelemetry Collector docs Configuration.
All traces collected by Jaeger Collector will be validated, indexed, and then stored in storage. Jaeger supports multiple span storage backends:
- Cassandra 3.4+
- Elasticsearch 5.x, 6.x, 7.x
- Kafka
- memory storage
- Storage plugin
In this demo, we use Cassandra as the storage backend.
# docker-compose.yaml
services:
# Cassandra instance container
cassandra:
image: cassandra:4.1.4
# initialize Cassandra
cassandra-schema:
image: jaegertracing/jaeger-cassandra-schema:1.57.0
depends_on:
- cassandraIf you want to mitigate the pressure on Cassandra and prevent data loss, you can add Kafka and Jaeger Ingester to the architecture to process data asynchronously. The architecture will look like this:
Image Source: Jaeger
There is a docker compose example on Jaeger's official repository.
Check more details on Jaeger docs Deployment about Span Storage Backends.
The Jaeger Query is a service that retrieves traces from storage and hosts a UI to display them.
# docker-compose.yaml
services:
jaeger-query:
image: jaegertracing/jaeger-query:1.57.0
command:
- "--cassandra.keyspace=jaeger_v1_dc1"
- "--cassandra.servers=cassandra"
ports:
- "16686:16686"
- "16687:16687"
restart: on-failure
depends_on:
- cassandra-schemaCheck more details on Jaeger docs Deployment about Query Service & UI.
Jaeger Service Performance Monitoring become stable since Jaeger 1.43.0. It provides a new way to monitor the performance of services, which extracts the RED (Request, Error, Duration) metrics from span data. The data flow is shown below:
-
Start all services with docker-compose
docker-compose -f docker-compose-spm.yaml up -d
It may take some time for DB(Cassandra) to initialize. You can run
docker-compose psto check thejaeger-querystatus is running when DB is ready. -
Send requests with siege and curl to the FastAPI app
bash request-script.sh
-
Check on Jaeger UI Monitoring tab http://localhost:16686/monitor
Jaeger UI Monitoring tab screenshot:
To enable Service Performance Monitoring, we need to:
- Add some configurations to OpenTelemetry Collector for extracting RED metrics from span data and exporting them to Prometheus.
- Create a Prometheus instance to store the metrics.
- Update Jaeger Query configurations to scrape metrics from Prometheus.
The OpenTelemetry Collector receives traces from OpenTelemetry SDKs and processes them according to the configuration file etc/otel-collector-config-spm.yaml.
# docker-compose-spm.yaml
service:
otel-collector:
image: otel/opentelemetry-collector-contrib:0.81.0
command:
- "--config=/conf/config.yaml"
volumes:
- ./etc/otel-collector-config-spm.yaml:/conf/config.yaml
ports:
- "4317" # OTLP gRPC receiver
- "4318" # OTLP http receiver
- "8889" # Prometheus metrics exporter
restart: on-failure
depends_on:
- jaeger-collector# etc/otel-collector-config-spm.yaml
receivers:
otlp:
protocols:
grpc:
http:
exporters:
otlp:
endpoint: jaeger-collector:4317
tls:
insecure: true
prometheus:
endpoint: "0.0.0.0:8889"
connectors:
spanmetrics:
processors:
batch:
service:
pipelines:
traces:
receivers: [otlp]
processors: [batch]
exporters: [spanmetrics, otlp]
metrics/spanmetrics:
receivers: [spanmetrics]
exporters: [prometheus]To generate metrics from span data, we need to:
- Add
spanmetricstoconnectors: Enable and configure the spanmetrics connector- dimensions: Extract span attributes to Prometheus labels
- Add
spanmetricsto traces pipelineexporters: Let the traces pipeline export traces to the spanmetrics connector - Add
spanmetricsto metrics pipelinereceivers: Set the spanmetrics connector as the receiver of the metrics pipeline, and the data is from the traces pipeline exporter - Add
prometheusto metrics pipelineexporters: Expose metrics in Prometheus format on port 8889
The pipeline diagram and configuration file are as follows:
Prometheus collects metrics from OpenTelemetry Collector and stores them in its database. The metrics can be scraped by Jaeger Query.
# docker-compose-spm.yaml
service:
prometheus:
image: prom/prometheus:v2.51.2
ports:
- "9090:9090"
volumes:
- ./etc/prometheus.yml:/workspace/prometheus.yml
command:
- --config.file=/workspace/prometheus.yml# etc/prometheus.yml
global:
scrape_interval: 15s # Set the scrape interval to every 15 seconds. Default is every 1 minute.
evaluation_interval: 15s # Evaluate rules every 15 seconds. The default is every 1 minute.
# scrape_timeout is set to the global default (10s).
scrape_configs:
- job_name: aggregated-trace-metrics
static_configs:
- targets: ['otel-collector:8889']Jaeger Query scrapes metrics from Prometheus and displays them on the Monitoring tab.
# docker-compose-spm.yaml
service:
jaeger-query:
image: jaegertracing/jaeger-query:1.57.0
environment:
- METRICS_STORAGE_TYPE=prometheus
command:
- "--cassandra.keyspace=jaeger_v1_dc1"
- "--cassandra.servers=cassandra"
- "--prometheus.query.support-spanmetrics-connector=true"
- "--prometheus.server-url=http://prometheus:9090"
- "--prometheus.query.normalize-duration=true"
- "--prometheus.query.normalize-calls=true"
ports:
- "16686:16686"
- "16687:16687"
restart: on-failure
depends_on:
- cassandra-schemaOnly viewing the trace information on Jaeger UI may not be good enough. How about also tracing with logs at the same time? Grafana started supporting Jaeger data source since Grafana 7.4+, and also provides a good log aggregation system Loki. Grafana provides a great user experience tracing information across logs and traces.
-
Install Loki Docker Driver
docker plugin install grafana/loki-docker-driver:latest --alias loki --grant-all-permissions
-
Start all services with docker-compose
docker-compose -f docker-compose-grafana.yaml up -d
It may take some time for DB(Cassandra) to initialize. You can run
docker-compose psto check thejaeger-querystatus is running when DB is ready.If got the error message
Error response from daemon: error looking up logging plugin loki: plugin loki found but disabled, please run the following command to enable the plugin:docker plugin enable loki -
Send requests with
curlto the FastAPI applicationcurl http://localhost:8000/chain
-
Explore the collected span on Grafana http://localhost:3000/ with default user
adminand passwordadminGrafana Explore screenshot:
Get Trace ID and tags defined in Jaeger data source from span, then query with Loki.
Get Trace ID pared from log (regex defined in Loki data source), then query in Jaeger.
Receives spans from applications.
Trace to logs setting:
- Data source: target log source
- Tags: key of tags or process level attributes from the trace, which will be log query criteria if the key exists in the trace
- Map tag names: Convert existing key of tags or process level attributes from trace to another key, then used as log query criteria. Use this feature when the values of the trace tag and log label are identical but the keys are different.
In this demo, we use Loki Docker Driver to collect logs from applications. The Loki Docker Driver will add the following labels to the log: container_name, compose_project, compose_service, source, filename, and host. We have to map an attribute from the trace to a label of the log to query the log with the trace information. So we add a tag compose_service through environment variable OTEL_RESOURCE_ATTRIBUTES to the trace, then map the tag compose_service to the label compose_service of the log.
# docker-compose-grafana.yaml
services:
app-a:
image: ghcr.io/blueswen/fastapi-jaeger/app:latest
depends_on:
- loki
ports:
- "8000:8000"
logging: *default-logging
environment:
MODE: "otlp-grpc"
OTEL_SERVICE_NAME: "app-a"
OTLP_GRPC_ENDPOINT: "otel-collector:4317"
OTEL_RESOURCE_ATTRIBUTES: "compose_service=app-a"The Jaeger data source setting in Grafana is as below:
Which is produced by the following config file:
# etc/grafana/datasource.yml
name: Jaeger
type: jaeger
typeName: Jaeger
access: proxy
url: http://jaeger-query:16686
user: ''
database: ''
basicAuth: false
isDefault: false
jsonData:
nodeGraph:
enabled: true
tracesToLogs:
datasourceUid: loki
filterBySpanID: false
filterByTraceID: true
mapTagNamesEnabled: true
mappedTags:
- key: compose_serviceCollects logs with Loki Docker Driver from applications.
- Use YAML anchor and alias feature to set logging options for each service.
- Set Loki Docker Driver options
- loki-url: loki service endpoint
- loki-pipeline-stages: processes multiline log from FastAPI application with multiline and regex stages (reference)
# docker-compose-grafana.yaml
x-logging: &default-logging # anchor(&): 'default-logging' for defines a chunk of configuration
driver: loki
options:
loki-url: 'http://localhost:3100/api/prom/push'
loki-pipeline-stages: |
- multiline:
firstline: '^\d{4}-\d{2}-\d{2} \d{1,2}:\d{2}:\d{2}'
max_wait_time: 3s
- regex:
expression: '^(?P<time>\d{4}-\d{2}-\d{2} \d{1,2}:\d{2}:\d{2},d{3}) (?P<message>(?s:.*))$$'
# Use $$ (double-dollar sign) when your configuration needs a literal dollar sign.
version: "3.4"
services:
foo: # sample service
image: foo
logging: *default-logging # alias(*): refer to 'default-logging' chunk Add a TraceID derived field to extract the trace id and create a Jaeger link from the trace id.
Grafana data source setting example:
Grafana data source config example:
# etc/grafana/datasource.yml
name: Loki
type: loki
typeName: Loki
access: proxy
url: http://loki:3100
password: ''
user: ''
database: ''
basicAuth: false
isDefault: false
jsonData:
derivedFields:
- datasourceUid: jaeger
matcherRegex: (?:trace_id)=(\w+)
name: TraceID
url: $${__value.raw}
# Use $$ (double-dollar sign) when your configuration needs a literal dollar sign.
readOnly: false
editable: true- Add Jaeger, and Loki to the data source with config file
etc/grafana/datasource.yml.
# grafana in docker-compose-grafana.yaml
service:
grafana:
image: grafana/grafana:10.4.2
ports:
- "3000:3000"
volumes:
- ./etc/grafana/:/etc/grafana/provisioning/datasources
