Rakam is an analytics platform that allows you to create your analytics services.
Rakam is a modular analytics platform that gives you a set of features to create your own analytics service.
Typical workflow of using Rakam:
- Collect data from multiple sources with trackers, client libraries, webhooks, tasks etc.
- Enrich and sanitize your event data with event mappers
- Store data in a data warehouse to analyze it later. (Postgresql, Snowflake, S3 etc.)
- Analyze your event data with your SQL queries and integrated rich analytics APIs with Rakam Cloud (funnel, retention, segmentation reports
- Develop your own modules for Rakam to customize it for your needs.
We also provide user interface for Rakam as a separate product called Rakam UI. You can create custom reports with SQL, dashboards, funnel and retention reports via Rakam UI.
All these features come with a single box, you just need to specify which modules you want to use using a configuration file (config.properties) and Rakam will do the rest for you. We also provide cloud deployment tools for scaling your Rakam cluster easily.
If your event data-set can fit in a single server, we recommend using Postgresql backend. Rakam will collect all your events in row-oriented format in a Postgresql node. All the features provided by Rakam are supported in Postgresql deployment type. Please note that we support Postgresql 11 because we're using new features such as partitioning and BRIN indexes for performance.
However Rakam is designed to be highly scalable in order to provide a solution for high work-loads. You can configure Rakam to send events to a distributed commit-log such as Apache Kafka or Amazon Kinesis in serialized Apache Avro format and process data in PrestoDB workers and store them in a distributed filesystem in a columnar format.
You can deploy Rakam to Heroku using Heroku button, it uses Heroku Postgresql add-on for your app and uses Postgresql deployment type.
Run the following command to start a Postgresql server in docker container and Rakam API in your local environment.
docker run -d --name rakam-db -e POSTGRES_PASSWORD=dummy -e POSTGRES_USER=rakam postgres:10.1 && docker run --link rakam-db --name rakam -p 9999:9999 -e RAKAM_CONFIG_LOCK__KEY=mylockKey -e RAKAM_CONFIG_STORE_ADAPTER_POSTGRESQL_URL=postgres://rakam:dummy@rakam-db:5432/rakam buremba/rakam
After docker container is started, visit http://127.0.0.1:9999 and follow the instructions. You can also register your local Rakam API to Rakam BI at http://app.rakam.io or directly use Rakam API. You may also consult to API documentation for details of the API.
We also provide a docker-compose definition for a Postgresql backend. Create a docker-compose.yml
with this definition and run the command docker-compose -f docker-compose.yml up -d
.
version: '2.1'
services:
rakam-db:
image: postgres:11.4
environment:
- POSTGRES_PASSWORD=dummy
- POSTGRES_USER=rakam
healthcheck:
test: ["CMD-SHELL", "pg_isready"]
interval: 5s
timeout: 5s
retries: 3
rakam-api:
image: buremba/rakam
environment:
- RAKAM_CONFIG_STORE_ADAPTER_POSTGRESQL_URL=postgres://rakam:dummy@rakam-db:5432/rakam
- RAKAM_CONFIG_LOCK__KEY=mylockKey
ports:
- "9999:9999"
depends_on:
rakam-db:
condition: service_healthy
You can set config variables for Rakam instance using environment variables. All properties in config.properties file can be set via environment variable RAKAM_CONFIG_property_name_dots_replaced_by_underscore
.
For example, if you want to set store.adapter=postgresql
you need to set environment variable RAKAM_CONFIG_STORE_ADAPTER=postgresql
. Also the dash -
is replaced by double underscore character __
.
Therefore the environment variable RAKAM_CONFIG_LOCK__KEY
corresponds to lock-key
config property.
Dockerfile will generate config.properties
file from environment variables in docker container that start with RAKAM_CONFIG
prefix.
In order to set environment variables for container, you may use -e
flag for for docker run
but we advice you to set all environment variables in a file and use --env-file
flag when starting your container.
Then you can share same file among the Rakam containers. If Dockerfile can't find any environment variable starts with RAKAM_CONFIG
, it tries to connect Postgresql instance created with docker-compose.
See https://github.com/rakam-io/rakam-api-terraform-aws.
Terraform installer is the recommended way to deploy Rakam in production because it automatically handles most of the complexity like fail over and load-balancing.
- Download Java 1.8 for your operating system.
- Download latest version from Bintray ([VERSION]/rakam-[VERSION]-.bundle.tar.gz) extract package.
- Modify
etc/config.properties
(sample for Postgresql deployment type) file and runbin/launcher start
. - The launcher script can take the following arguments:
start|restart|stop|status|run
.bin/launcher run
will start Rakam in foreground.
You can try the master branch by pulling the source code from Github and building Rakam using Maven:
- Java 8
- Maven 3.2.3+ (for building)
git clone https://github.com/rakam-io/rakam.git
cd rakam
mvn clean install package -DskipTests
rakam/target/rakam-*-bundle/rakam-*/bin/launcher.py run --config rakam/target/rakam-*-bundle/rakam-*/etc/config.properties
Note that you need to modify config.properties
file in order to be able to start Rakam. (sample for Postgresql deployment type)
Since we already use Maven, you can import Rakam to your IDE using the root pom.xml file. We recommend using Intellij IDEA since the core team uses it when developing Rakam. Here is a sample configuration for executing Rakam in your IDE:
Main Class: org.rakam.ServiceStarter
VM Options: -ea -Xmx2G -Dconfig=YOUR_CONFIG_DIRECTORY/config.properties
Working directory: $MODULE_DIR$
Use classpath of module: rakam
We're also working for managed Rakam cluster, we will deploy Rakam to our AWS accounts and manage it for you so that you don't need to worry about scaling, managing and software updates. We will do it for you.
Please shoot us an email to emre@rakam.io
if you want to test our managed Rakam service.
This repository contains Rakam API server that allows you to interact with Rakam using a REST interface. If you already have a frontend and developed a custom analytics service based on Rakam, it's all you need.
However, we also developed Rakam Web Application that allows you to analyze your user and event data-set but performing SQL queries, visualising your data in various charts, creating (real-time) dashboards and custom reports. You can turn Rakam into a analytics web service similar to Mixpanel, Kissmetrics and Localytics using the web application. Otherwise, Rakam server is similar to Keen.io with SQL as query language and some extra features.
Another nice property of Rakam web application is being BI (Business Intelligence)
tool. If you can disable collect APIs and connect Rakam to your SQL database with JDBC adapter and use Rakam application to query your data in your database. Rakam Web Application has various charting formats, supports parameterized SQL queries, custom pages that allows you to design pages with internal components.
Currently I'm actively working on Rakam. If you want to contribute the project or suggest an idea feel free to fork it or create a ticket for your suggestions. I promise to respond you ASAP. The purpose of Rakam is being generic data analysis tool which can be a solution for many use cases. Rakam still needs too much work and will be evolved based on people's needs so your thoughts are important.
We use YourKit Java Profiler in order to monitor the JVM instances for identifing the bugs and potential bottlenecks. Kudos to YourKit for supporting Rakam with your full-featured Java Profile!