Dockerfile links

• lfedge/ekuiper-docker

Quick reference

• Where to get help:

  Website

  • https://ekuiper.org

  Github

  • https://github.com/lf-edge/ekuiper

  Documents

  • Getting started
  • Reference guide

• Where to file issues:

  https://github.com/lf-edge/ekuiper/issues

• Supported architectures

  amd64, arm64v8, arm32v7, i386

• Supported Docker versions:

  The latest release

Image Variants

The lfedge/ekuiper images come in many flavors, each designed for a specific use case.

lfedge/ekuiper:<tag>

This is the defacto image. If you are unsure about what your needs are, you probably want to use this one. It is an alias of tag lfedge/ekuiper:<tag>-alpine(see below) since 1.7.1. Previously, it is equivalent to the lfedge/ekuiper:<tag>-dev image

lfedge/ekuiper:<tag>-alpine

This image is based on the popular Alpine Linux project, available in the alpine official image. Alpine Linux is much smaller than most distribution base images (~5MB), and thus leads to much slimmer images in general.

This variant is highly recommended when final image size being as small as possible is desired. The main caveat to note is that it does use musl libc instead of glibc and friends, so certain software might run into issues depending on the depth of their libc requirements. However, most software doesn't have an issue with this, so this variant is usually a very safe choice. See this Hacker News comment thread for more discussion of the issues that might arise and some pro/con comparisons of using Alpine-based images.

To minimize image size, it's uncommon for additional related tools (such as git or bash) to be included in Alpine-based images. Using this image as a base, add the things you need in your own Dockerfile (see the alpine image description for examples of how to install packages if you are unfamiliar).

lfedge/ekuiper:<tag>-slim

This image is based on Debian, and only contains the minimal packages needed to run eKuiper. The difference between this and dev image (lfedge/ekuiper:<tag>-dev) is that this image does not include Golang development environment. The typical usage of this image would be deploy the plugins compiled in previous Docker image instances. This is the official recommended image if you want to deploy & run customized plugins into eKuiper.

lfedge/ekuiper:<tag>-slim-python

This image is the same as slim except that it also contains python environment. It is recommended if using eKuiper python portable plugins.

lfedge/ekuiper:<tag>-dev

This is the development Docker image, which is based on Debian and it also includes a Golang build environment. If you are unsure about what your needs are, you probably want to use this one. It is designed to be used both as a throw away container (mount your source code, compile plugins for eKuiper, and start the container to run your app), as well as the base to build other images. Please be aware of that this image is the biggest size, and it's usually used for development purpose.

Notice: This image is the equivalent to development image of x.x.x-dev in 0.3.x versions.

What is eKuiper

LF Edge eKuiper is an edge lightweight IoT data analytics / streaming software implemented by Golang, and it can be run at all kinds of resource constrained edge devices. One goal of eKuiper is to migrate the cloud streaming software frameworks (such as Apache Spark，Apache Storm and Apache Flink) to edge side. eKuiper references these cloud streaming frameworks, and also considered special requirement of edge analytics, and introduced rule engine, which is based on Source, SQL (business logic) and Sink, rule engine is used for developing streaming applications at edge side.

User scenarios

It can be run at various IoT edge use scenarios, such as real-time processing of production line data in the IIoT; Gateway of Connected Vehicle analyze the data from data-bus in real time; Real-time analysis of urban facility data in smart city scenarios. eKuiper processing at the edge can reduce system response latency, save network bandwidth and storage costs, and improve system security.

Features

• Lightweight

  • Core server package is only about 3MB, initial memory usage is about 10MB

• Cross-platform

  • CPU Arch：X86 AMD * 32, X86 AMD * 64; ARM * 32, ARM * 64; PPC
  • The popular Linux distributions, MacOS and Docker
  • Industrial PC, Raspberry Pi, industrial gateway, home gateway, MEC edge cloud server

• Data analysis support

  • Support data extract, transform and filter through SQL
  • Data order, group, aggregation and join
  • 60+ functions, includes mathematical, string, aggregate and hash etc
  • 4 time windows

• Highly extensibile

  Plugin system is provided, and it supports to extend at Source, SQL functions and Sink.

  • Source: embedded support for MQTT, and provide extension points for sources
  • Sink: embedded support for MQTT and HTTP, and provide extension points for sinks
  • UDF functions: embedded support for 60+ functions, and provide extension points for SQL functions

• Management

  • A web based management dashboard for nodes, plugins, streams & rules management
  • Plugins, streams and rules management through CLI & REST API
  • Easily be integrate with KubeEdge, K3s and Baetyl, which bases Kubernetes

• Integration with EMQ X Nuron & Edge Seamless integration with EMQ X Neuron & Edge, and provided an end to end solution from messaging to analytics.

How to use this image

Run eKuiper

Execute some command under this docker image

docker run -d -v `pwd`:$somewhere lfedge/ekuiper:$tag $somecommand

For example

docker run -p 9081:9081 -d --name ekuiper MQTT_SOURCE__DEFAULT__SERVER="$MQTT_BROKER_ADDRESS" lfedge/ekuiper:$tag

Notice that, before v1.5.0 the mqtt server property is an array. Please check migration guide for detail.

5 minutes quick start

1. Set eKuiper source to an MQTT server. This sample uses server locating at tcp://broker.emqx.io:1883. broker.emqx.io is a public MQTT test server hosted by EMQ.

   docker run -p 9081:9081 -d --name ekuiper -e MQTT_SOURCE__DEFAULT__SERVER="tcp://broker.emqx.io:1883" lfedge/ekuiper:$tag

2. Create a stream - the stream is your stream data schema, similar to table definition in database. Let's say the temperature & humidity data are sent to broker.emqx.io, and those data will be processed in your LOCAL RUN eKuiper docker instance. Below steps will create a stream named demo, and data are sent to devices/device_001/messages topic, while device_001 could be other devices, such as device_002, all of those data will be subscribed and handled by demo stream.

   -- In host
   # docker exec -it ekuiper /bin/sh
   
   -- In docker instance
   # bin/kuiper create stream demo '(temperature float, humidity bigint) WITH (FORMAT="JSON", DATASOURCE="devices/+/messages")'
   Connecting to 127.0.0.1:20498...
   Stream demo is created.
   
   # bin/kuiper query
   Connecting to 127.0.0.1:20498...
   kuiper > select * from demo where temperature > 30;
   Query was submit successfully.
   

3. Publish sensor data to topic devices/device_001/messages of server tcp://broker.emqx.io:1883 with any MQTT client tools. Below sample uses mosquitto_pub.

   # mosquitto_pub -h broker.emqx.io -m '{"temperature": 40, "humidity" : 20}' -t devices/device_001/messages

4. If everything goes well, you can see the message is print on docker bin/kuiper query window. Please try to publish another message with temperature less than 30, and it will be filtered by WHERE condition of the SQL.

   kuiper > select * from demo WHERE temperature > 30;
   [{"temperature": 40, "humidity" : 20}]
   

   If having any problems, please take a look at log/stream.log.

5. To stop the test, just press ctrl + c in bin/kuiper query command console.

You can also refer to eKuiper dashboard documentation for better using experience.

Next for exploring more powerful features of eKuiper? Refer to below for how to apply LF Edge eKuiper in edge and integrate with AWS / Azure IoT cloud.

• Lightweight edge computing eKuiper and Azure IoT Hub integration solution 简体中文
• Lightweight edge computing eKuiper and AWS IoT Hub integration solution 简体中文

Configuration

eKuiper supports to use environment variables to modify configuration files in containers.

When modifying configuration files through environment variables, the environment variables need to be set according to the prescribed format, for example:

KUIPER__BASIC__DEBUG => basic.debug in etc/kuiper.yaml
MQTT_SOURCE__DEMO_CONF__QOS => demo_conf.qos in etc/mqtt_source.yaml

The environment variables are separated by two "_", the content of the first part after the separation matches the file name of the configuration file, and the remaining content matches the different levels of the configuration item.

Migration Guide

Since 1.5.0, eKuiper changes the mqtt source broker configuration from servers to server and users can only configure a mqtt broker address instead of address array. Users who are using mqtt broker as stream source in previous release and want to migrate to 1.5.0 release or later, need make sure the etc/mqtt_source.yaml file server 's configuration is right. Users who are using environment variable to configure the mqtt source address need change their ENV successfully, for example, their broker address is tcp://broker.emqx.io:1883. They need change the ENV from MQTT_SOURCE__DEFAULT__SERVERS=[tcp://broker.emqx.io:1883] to MQTT_SOURCE__DEFAULT__SERVER="tcp://broker.emqx.io:1883"

About EdgeX

Regarding the configuration content of etc/sources/edgex.yaml, these values are configured in the cmd cmd/core-data/res/configuration.toml of the EdgeX core data service, as shown below.

[MessageQueue]
Protocol = 'tcp'
Host = '*'
Port = 5563
Type = 'zero'
Topic = 'events'

[Service]
...
Host = 'localhost'
Port = 48080
...

If you want to configure more options, you can mount the configuration file into eKuiper container, like this:

$ docker run --name ekuiper -v /path/to/mqtt_sources.yaml:/kuiper/etc/mqtt_sources.yaml -v /path/to/edgex.yaml:/kuiper/etc/sources/edgex.yaml lfedge/ekuiper:$tag

More

If you'd like to know more about the project, please refer to Github project.