This repository contains a toy application which exhibits a simple yet somewhat representative trace, including AWS SDK calls, a frontend and backend, and HTTP and gRPC.
The same application is instrumented in several ways, allowing us to compare the experience when viewing traces for the different types of instrumentation.
Current instrumentation includes
- OpenTelemetry Auto Instrumentation + OpenTelemetry Collector
- X-Ray SDK Instrumentation + X-Ray Daemon
- Does not instrument many libraries like gRPC and Lettuce
The playground access various endpoints hosted on AWS. Feel free to skip this section to just see traces with local endpoints.
To set up AWS resources you will need Terraform, available here.
First, make sure your have configured AWS credentials using the AWS CLI as described here.
You must also have Java 11 installed to build the project.
From the root of the repository, to prepare the lambda deployment, run
$ ./gradlew :lambda-api:build
Then, navigate to the scripts/terraform directory and run
$ terraform init
$ terraform apply
This will take some time as it provisions resources. Note that this also generates terraform.tfstate files in the
same directory. DO NOT LOSE THESE - without these files, Terraform will not be able to cleanup after you are done with the
resources.
After it completes, three output values will be printed. Open docker-compose.yml and find the four values under #AWS Provisioned resources
Change the values so
API_GATEWAY_ENDPOINTis set to the output valuelambda_api_gateway_urlECS_ENDPOINTis set to the output valueecs_urlEKS_ENDPOINTis set to the output valueeks_fargate_urlOTEL_ENDPOINT_PEER_SERVICE_MAPPING- replace the keys for hello-lambda-api, ecs-backend, eks-backend to the domains for these three values
Make sure Docker is installed and run
$ docker-compose up
Access http://localhost:9080/.
Then visit the X-Ray console, for example here and you should see multiple traces corresponding to the request you made.
The app uses normal AWS credentials.
If you have trouble running after using the CLI to run aws configure, try setting the environment variables as described
on that page, in particular AWS_REGION.
Note that the dynamodb-table is only to create the table once, so it is normal for it to exist after creating the table.
If you see excessive deadline exceeded errors or the page doesn't respond properly, your Docker configuration may not have enough RAM. We recommend setting Docker to 4GB of RAM for a smooth experience.
If you make any code edits you would like to try out, first rebuild the Docker images locally.
./gradlew jibDockerBuild
and then rerun docker-compose.
If you provisioned AWS resources above, run terraform destroy to clean them up.
The playground is composed of two observability components in addition to the business logic actually being monitored.
The recommended way to get started for your app is to run the Docker image for the collector from here. The collector listens on port 55680 for telemetry.
You will need to provide a path to a configuration file with the --config parameter when running. This basic configuration
will work for X-Ray.
receivers:
otlp:
protocols:
grpc:
exporters:
logging:
loglevel: info
awsxray:
local_mode: true
processors:
memory_limiter:
limit_mib: 100
check_interval: 5s
service:
pipelines:
traces:
processors:
- memory_limiter
receivers:
- otlp
exporters:
- logging
- awsxray
# Feel free to add more exporters if you use e.g., Zipkin, JaegerIf you have AWS credentials configured and both apps running on localhost, you will see traces in X-Ray if you issue any
requests. If the collector cannot be accessed via localhost (e.g., in docker-compose), you may need to set the endpoint when
starting your Java application using the OTEL_OTLP_ENDPOINT environment variable.
This project is licensed under the MIT No Attribution License.
