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๐ŸŽ‰ Microservices Observability - Log Aggregation, Distributed Tracking, Metrics

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Build Status codecov.io GitHub license Join the chat at https://gitter.im/xmlking/microservices-observability

microservices-observability

As Developers are migrating from Monolithic architecture to distributed microservices and Service Mesh, troubleshooting production issues become difficult.

This sample application showcases patterns to implement better Observability at web scale.

Reactive

Log Aggregation

Reactive

Highlights

  • Ready to go docker configuration for set up GILK logging stack in a minutes.
    • GILK - Grafana , InfluxDB, Logstash json format, Kafka
  • Monitoring solution for docker hosts and containers with Prometheus, Grafana, cAdvisor, NodeExporter and alerting with AlertManager.
  • Vendor-neutral instrumentation
  • end-to-end Functional Reactive Programming (FRP) with Spring 5.
  • Multi-project builds with Gradle Kotlin Script.
  • Spring Kotlin Support
  • Docker deployment

Prerequisites

  1. Gradle 4.4 (Install via sdkman)
  2. Docker for Mac Setup Instructions

Build

# build all 3 executable jars
gradle build
# continuous build with `-t`. 
# this shoud be started before any run tasks i.e., `gradle ui-app:bootRun`, for spring's devtools to work.
gradle build -x test -t
# build all 3 apps
gradle build -x test
# build all 3 docker images
gradle docker -x test

Test

gradle test

Run

Manual
# start infra services
docker-compose  -f docker-compose-infra.yml up cassandra
docker-compose  -f docker-compose-infra.yml up kafka
docker-compose  -f docker-compose-infra.yml up influxdb

Start all 4 apps with gradle xyz:bootRun : cassandra-data-service, stream-service, ui-app , kafka-influxdb-service

If you want to debug the app, add --debug-jvm parameter to Gradle command line

Docker

You can also build Docker images and run all via Docker Compose

# start containers in the background
docker-compose up -d
# start containers in the foreground
docker-compose up 
# show runnning containers 
docker-compose ps
# scaling containers and load balancing
docker-compose scale stream=2
# 1. stop the running containers using
docker-compose stop
# 2. remove the stopped containers using
docker-compose rm -f
# just start only infra services
docker-compose  -f docker-compose-infra.yml up
# connect(ssh) to a service and run a command
docker-compose exec cassandra cqlsh
# see logs of a service 
docker-compose logs -f stream
# restart single service
docker-compose restart stream
# start single service
docker-compose -f docker-compose-infra.yml up cassandra
docker-compose -f docker-compose-infra.yml up kafka
docker-compose -f docker-compose-infra.yml up influxdb
# check health for a service
docker inspect --format "{{json .State.Health.Status }}" microservicesobservability_app_1
docker ps
docker-compose -f docker-compose-fluentd.yml up

Access UI App at http://localhost:8080

Prometheus http://localhost:9090/graph

InfluxDB http://localhost:8083

Grafana http://localhost:1634

Gradle Commands

# upgrade project gradle version
gradle wrapper --gradle-version 4.4.1 --distribution-type all
# gradle daemon status 
gradle --status
gradle --stop
# refresh dependencies
gradle build -x test --refresh-dependencies 

Reference