Jaeger native tracing
Requirements
Setup your sandbox environment with Docker and Docker Compose, and clone the Envoy repository with Git.
Used to make HTTP
requests.
Compatibility
The jaeger native tracing sandbox uses a binary built for x86_64
, and will therefore only work on that architecture.
The Jaeger tracing sandbox demonstrates Envoy’s request tracing capabilities using Jaeger as the tracing provider and Jaeger’s native C++ client as a plugin. Using Jaeger with its native client instead of with Envoy’s builtin Zipkin client has the following advantages:
Trace propagation will work with the other services using Jaeger without needing to make configuration changes.
A variety of different sampling strategies can be used, including probabilistic or remote where sampling can be centrally controlled from Jaeger’s backend.
Spans are sent to the collector in a more efficient binary encoding.
This sandbox is very similar to the front proxy architecture described above, with one difference: service1 makes an API call to service2 before returning a response. The three containers will be deployed inside a virtual network called envoymesh
.
All incoming requests are routed via the front Envoy, which is acting as a reverse proxy sitting on the edge of the envoymesh
network. Port 8000
is exposed by docker compose (see docker-compose.yaml). Notice that all Envoys are configured to collect request traces (e.g., http_connection_manager/config/tracing setup in front-envoy-jaeger.yaml) and setup to propagate the spans generated by the Jaeger tracer to a Jaeger cluster (trace driver setup in front-envoy-jaeger.yaml).
Before routing a request to the appropriate service Envoy or the application, Envoy will take care of generating the appropriate spans for tracing (parent/child context spans). At a high-level, each span records the latency of upstream API calls as well as information needed to correlate the span with other related spans (e.g., the trace ID).
One of the most important benefits of tracing from Envoy is that it will take care of propagating the traces to the Jaeger service cluster. However, in order to fully take advantage of tracing, the application has to propagate trace headers that Envoy generates, while making calls to other services. In the sandbox we have provided, the simple flask app (see trace function in examples/shared/tracing/service.py) acting as service1 propagates the trace headers while making an outbound call to service2.
Step 3: Build the sandbox
To build this sandbox example, and start the example apps run the following commands:
$ pwd
envoy/examples/jaeger-native-tracing
$ docker-compose pull
$ docker-compose up --build -d
$ docker-compose ps
Name Command State Ports
-------------------------------------------------------------------------------------------------------------------------------------------------------------------
jaeger-native-tracing_front-envoy_1 /start-front.sh Up 10000/tcp, 0.0.0.0:8000->8000/tcp
jaeger-native-tracing_jaeger_1 /go/bin/all-in-one-linux - ... Up 14250/tcp, 14268/tcp, 0.0.0.0:16686->16686/tcp, 5775/udp, 5778/tcp, 6831/udp, 6832/udp
jaeger-native-tracing_service1_1 /start-service.sh Up 10000/tcp
jaeger-native-tracing_service2_1 /start-service.sh Up 10000/tcp
Step 4: Generate some load
You can now send a request to service1 via the front-envoy as follows:
$ curl -v localhost:8000/trace/1
* Trying 192.168.99.100...
* Connected to 192.168.99.100 (192.168.99.100) port 8000 (#0)
> GET /trace/1 HTTP/1.1
> Host: 192.168.99.100:8000
> User-Agent: curl/7.54.0
> Accept: */*
>
< HTTP/1.1 200 OK
< content-type: text/html; charset=utf-8
< content-length: 89
< x-envoy-upstream-service-time: 9
< server: envoy
< date: Fri, 26 Aug 2018 19:39:19 GMT
<
Hello from behind Envoy (service 1)! hostname: f26027f1ce28 resolvedhostname: 172.19.0.6
* Connection #0 to host 192.168.99.100 left intact
Step 5: View the traces in Jaeger UI
Point your browser to http://localhost:16686 . You should see the Jaeger dashboard. Set the service to “front-proxy” and hit ‘Find Traces’. You should see traces from the front-proxy. Click on a trace to explore the path taken by the request from front-proxy to service1 to service2, as well as the latency incurred at each hop.
See also
Learn more about using Envoy’s request tracing.
Jaeger tracing website.
The Jaeger C++ cient.
The Jaeger Go client.
More information about Jaeger sampling strategies.