edgex_rule_engine_tutorial.md 11 KB
EdgeX rule engine tutorial
Overview
In EdgeX Geneva, EMQ X Kuiper - an SQL based rule engine is integrated with EdgeX. Before diving into this tutorial, let's spend a little time on learning basic knowledge of Kuiper. Kuiper 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. Kuiper rules are based on Source, SQL and Sink.
- Source: The data source of streaming data, such as data from MQTT broker. In EdgeX scenario, the data source is EdgeX message bus, which could be ZeroMQ or MQTT broker.
- SQL: SQL is where you specify the business logic of streaming data processing. Kuiper provides SQL-like statements to allow you to extract, filter & transform data.
- Sink: Sink is ued for sending analysis result to a specified target. For example, send analysis result to another MQTT broker, or an HTTP rest address.
Following three steps are required for using Kuiper.
- Create a stream, where you specify the data source.
- Write a rule.
- Write a SQL for data analysis
- Specify a sink target for saving analysis result
- Deploy and run rule.
The tutorial demonstrates how to use Kuiper to process the data from EdgeX message bus.
Kuiper EdgeX integration
EdgeX uses message bus to exchange information between different micro services. It contains the abstract message bus interface and an implementation for ZeroMQ & MQTT (NOTICE: ONLY ZeroMQ message bus is supported in Kuiper rule engine, MQTT will be supported in later versions). The integration work for Kuiper & EdgeX includes following 3 parts.
An EdgeX message bus source is extended to support consuming data from EdgeX message bus.
To analyze the data, Kuiper need to know data types that passed through it. Generally, user would be better to specify data schema for analysis data when a stream is created. Such as in below, a
demostream has a field namedtemperaturefield. It is very similar to create table schema in relational database system. After creating the stream definition, Kuiper can perform type checking during compilation or runtime, and invalid SQLs or data will be reported to user.
CREATE STREAM demo (temperature bigint) WITH (FORMAT="JSON"...)
However, since data type definitions are already specified in EdgeX Core contract Service , and to improve the using experience, user are NOT necessary to specify data types when creating stream. Kuiper source tries to load all of value descriptors from Core contract Service during initialization of a rule (so now if you have any updated value descriptors, you will have to restart the rule), then if with any data sending from message bus, it will be converted into corresponding data types.
- An EdgeX message bus sink is extended to support send analysis result back to EdgeX Message Bus. User can also choose to send analysis result to RestAPI, Kuiper already supported it.
Start to use
Pull Kuiper Docker and run
It's recommended to use Docker, since related dependency libraries (such ZeroMQ lib) are already installed in Docker images.
docker pull emqx/kuiper:0.2.1
TODO: After offcially releasing of EdgeX Geneva, the Kuiper docker image will be pulled automatically by EdgeX docker composer files. The command will be updated by then.
Run Docker
docker run -d --name kuiper emqx/kuiper:0.2.1
If the docker instance is failed to start, please use docker logs kuiper to see the log files.
Create a device service
In this tutorial, we use a very simple mock-up device service. Please follow the steps in this doc to develop and run the random number service.
Create a stream
There are two approaches to manage stream, you can use your preferred approach.
Option 1: Use Rest API
The next step is to create a stream that can consuming data from EdgeX message bus. Please change 127.0.0.1 to your local Kuiper docker IP address.
curl -X POST \
http://127.0.0.1:9081/streams \
-H 'Content-Type: application/json' \
-d '{
"sql": "create stream demo() WITH (FORMAT=\"JSON\", TYPE=\"edgex\")"
}'
For other Rest APIs, please refer to this doc.
Option 2: Use Kuiper CLI
Run following command to enter the running Kuiper docker instance.
docker exec -it kuiper /bin/sh
Use following command to create a stream named demo.
bin/cli create stream demo'() WITH (FORMAT="JSON", TYPE="edgex")'
For other command line tools, please refer to this doc.
Now the stream is created. But you maybe curious about how Kuiper knows the message bus IP address & port, because such information are not specified in CREATE STREAM statement. Those configurations are managed in etc/sources/edgex.yaml , you can type cat etc/sources/edgex.yaml command to take a look at the contents of file. If you have different server, ports & service server configurations, please update it accordingly.
#Global Edgex configurations
default:
protocol: tcp
server: localhost
port: 5570
topic: events
serviceServer: http://localhost:10080
.....
For more detailed information of configuration file, please refer to this doc.
Create a rule
Let's create a rule that send result data to an MQTT broker, for detailed information of MQTT sink, please refer to this link. Similar to create a stream, you can also choose REST or CLI to manage rules.
So the below rule will filter all of randomnumber that is less than 31. The sink result will be published to topic result of public MQTT broker broker.emqx.io.
Option 1: Use Rest API
curl -X POST \
http://127.0.0.1:9081/rules \
-H 'Content-Type: application/json' \
-d '{
"id": "rule1",
"sql": "SELECT * FROM demo WHERE randomnumber > 30",
"actions": [
{
"mqtt": {
"server": "tcp://broker.emqx.io:1883",
"topic": "result",
"clientId": "demo_001"
}
}
]
}'
Option 2: Use Kuiper CLI
You can create a rule file with any text editor, and copy following contents into it. Let's say the file name is rule.txt.
{
"sql": "SELECT * from demo where randomnumber > 30",
"actions": [
{
"mqtt": {
"server": "tcp://broker.emqx.io:1883",
"topic": "result",
"clientId": "demo_001"
}
}
]
}
In the running Kuiper instance, and execute following command.
# bin/cli create rule rule1 -f rule.txt
Connecting to 127.0.0.1:20498...
Creating a new rule from file rule.txt.
Rule rule1 was created, please use 'cli getstatus rule $rule_name' command to get rule status.
If you want to send analysis result to another sink, please refer to other sinks that supported in Kuiper.
Now you can also take a look at the log file under log/stream.log, see detailed info of rule.
time="2020-03-19T10:23:40+08:00" level=info msg="open source node 1 instances" rule=rule1
time="2020-03-19T10:23:40+08:00" level=info msg="Connect to value descriptor service at: http://localhost:48080/api/v1/valuedescriptor \n"
time="2020-03-19T10:23:40+08:00" level=info msg="Use configuration for edgex messagebus {{ 0 } {localhost 5563 tcp} zero map[]}\n"
time="2020-03-19T10:23:40+08:00" level=info msg="Start source demo instance 0 successfully" rule=rule1
time="2020-03-19T10:23:40+08:00" level=info msg="The connection to edgex messagebus is established successfully." rule=rule1
time="2020-03-19T10:23:40+08:00" level=info msg="Successfully subscribed to edgex messagebus topic events." rule=rule1
time="2020-03-19T10:23:40+08:00" level=info msg="The connection to server tcp://broker.emqx.io:1883 was established successfully" rule=rule1
Monitor analysis result
Since all of the analysis result are published to tcp://broker.emqx.io:1883, so you can just use below mosquitto_sub command to monitor the result. You can also use other MQTT client tools.
# mosquitto_sub -h broker.emqx.io -t result
[{"randomnumber":81}]
[{"randomnumber":87}]
[{"randomnumber":47}]
[{"randomnumber":59}]
[{"randomnumber":81}]
...
You'll find that only those randomnumber larger than 30 will be published to result topic.
You can also type below command to look at the rule execution status. The corresponding REST API is also available for getting rule status, please check related docuement.
# bin/cli getstatus rule rule1
Connecting to 127.0.0.1:20498...
{
"source_demo_0_records_in_total": 29,
"source_demo_0_records_out_total": 29,
"source_demo_0_exceptions_total": 0,
"source_demo_0_process_latency_ms": 0,
"source_demo_0_buffer_length": 0,
"source_demo_0_last_invocation": "2020-03-19T10:30:09.294337",
"op_preprocessor_demo_0_records_in_total": 29,
"op_preprocessor_demo_0_records_out_total": 29,
"op_preprocessor_demo_0_exceptions_total": 0,
"op_preprocessor_demo_0_process_latency_ms": 0,
"op_preprocessor_demo_0_buffer_length": 0,
"op_preprocessor_demo_0_last_invocation": "2020-03-19T10:30:09.294355",
"op_filter_0_records_in_total": 29,
"op_filter_0_records_out_total": 21,
"op_filter_0_exceptions_total": 0,
"op_filter_0_process_latency_ms": 0,
"op_filter_0_buffer_length": 0,
"op_filter_0_last_invocation": "2020-03-19T10:30:09.294362",
"op_project_0_records_in_total": 21,
"op_project_0_records_out_total": 21,
"op_project_0_exceptions_total": 0,
"op_project_0_process_latency_ms": 0,
"op_project_0_buffer_length": 0,
"op_project_0_last_invocation": "2020-03-19T10:30:09.294382",
"sink_sink_mqtt_0_records_in_total": 21,
"sink_sink_mqtt_0_records_out_total": 21,
"sink_sink_mqtt_0_exceptions_total": 0,
"sink_sink_mqtt_0_process_latency_ms": 0,
"sink_sink_mqtt_0_buffer_length": 1,
"sink_sink_mqtt_0_last_invocation": "2020-03-19T10:30:09.294423"
}
Summary
In this tutorial, we introduce a very simple use of EdgeX Kuiper rule engine. If having any issues regarding to use of Kuiper rule engine, you can open issues in EdgeX or Kuiper Github respository.
Extended Reading
- Read EdgeX source for more detailed information of configurations and data type conversion.
- How to use meta function to extract additional data from EdgeX message bus? There are some other information are sent along with device service, such as event created time, event id etc. If you want to use such metadata information in your SQL statements, please refer to this doc.
- EdgeX message bus sink doc. The document describes how to use EdgeX message bus sink. If you'd like to send the analysis result into message bus, you are probably interested in this article.
If you want to explore more features of EMQ X Kuiper, please refer to below resources.