Skip to content

Traditionally, engineers were needed to implement business logic via data pipelines before business users can start using it. Using this demo, we would explain how data analysts and non-engineers can use only Flink SQL to explore and transform data into insights and actions, without writing any Java or Python code.

License

Notifications You must be signed in to change notification settings

MartijnVisser/flink-only-sql

Repository files navigation

Conference usage

This demo is used by Martijn Visser in the following conference talks:

Twitter Follow GitHub Follow

Docker

We'll use Docker Compose to start all necessary services to run the demos. It will start the following services:

Demo only-sql-overview

Starting the demo

# Build and start all services
docker-compose up --build -d

# Check if all the services are running
docker-compose ps

# Start the Flink SQL Client
docker-compose run sql-client

Access the demo website

Visit http://localhost/flink/flink-docs-master/ to access the copy of the Apache Flink documentation, which is our demo website.

Explore all realtime website behaviour

Any visit to one of the webpages is sent to the Kafka topic pageview. In order to explore them, we first need to register this Kafka topic as a table in Flink's catalog.

--Create table pageviews:
CREATE TABLE pageviews (
    `title` STRING,
    `url` STRING,
    `datetime` STRING,
    `cookies` STRING,
    `browser` STRING,
    `screensize` STRING,
    `ts` TIMESTAMP(3) METADATA FROM 'timestamp',
    `proc_time` AS PROCTIME(),
    WATERMARK FOR `ts` AS `ts` 
) WITH (
    'connector' = 'kafka',
    'topic' = 'pageview',
    'properties.bootstrap.servers' = 'broker:29092',
    'properties.group.id' = 'flink-only-sql',
    'scan.startup.mode' = 'latest-offset',
    'value.format' = 'avro-confluent',
    'value.avro-confluent.schema-registry.url' = 'http://schema-registry:8091'
);

Any cookie that belongs to the domain localhost (which is where our website runs), is also sent to the topic. You are specifically interested in a cookie called identifier. You're going to register a view, which returns this value by applying a regular expressing on the incoming data.

--Create view which already extracts the identifier from the cookies
CREATE TEMPORARY VIEW web_activities AS 
    SELECT 
        `title`,
        `url`,
        `datetime`,
        `cookies`,
         REGEXP_EXTRACT(cookies, '(^| )identifier=([^;]+)', 2) as `identifier`,
        `browser`,
        `screensize`,
        `proc_time`,
        `ts`
    FROM pageviews;

By now running queries on the view while visiting a webpage, you will see data appearing in the Flink SQL Client. This is an unbounded (streaming) source of data, meaning that the application will never end.

SELECT * from web_activities;

Flink SQL Client Results

Explore historical website behaviour

This demo setup has captured some historical website behaviour data. This has been stored in the MySQL table history. In order to access this data, you first need to register this table in the Flink catalog.

--Create table history:
CREATE TABLE history (
    `title` STRING,
    `url` STRING,
    `datetime` STRING,
    `cookies` STRING,
    `identifier` STRING,
    `browser` STRING,
    `screensize` STRING,
    `proc_time` STRING,
    `ts` TIMESTAMP(3),
    PRIMARY KEY (identifier) NOT ENFORCED
) WITH (
   'connector' = 'jdbc',
   'url' = 'jdbc:mysql://mysql:3306/sql-demo',
   'table-name' = 'history',
   'username' = 'flink-only-sql',
   'password' = 'demo-sql'
);

By now running a query on this data, you will see the historical data in the Flink SQL Client. This is a bounded (batch) source of data, meaning that the application will end after processing all the data.

SELECT * from history;

Flink SQL Client Results

Determine users that are matching a certain pattern

You are going to use Flink's MATCH_RECOGNIZE function to select all identifiers that match a specific pattern. You can use this function for all sorts of Complex Event Processing capabilities. In the setup below, you select all identifiers that visit:

  1. http://localhost/flink/flink-docs-master/docs/try-flink/datastream/ followed by (both directly and indirectly)
  2. http://localhost/flink/flink-docs-master/docs/try-flink/table_api/ followed by (both directly and indirectly)
  3. http://localhost/flink/flink-docs-master/docs/try-flink/flink-operations-playground/
SELECT `identifier`
FROM web_activities
    MATCH_RECOGNIZE(
        PARTITION BY `identifier`
        ORDER BY `proc_time`
        MEASURES `url` AS url
        AFTER MATCH SKIP PAST LAST ROW
        PATTERN (A+ B+ C)
        DEFINE
            A AS A.url = 'http://localhost/flink/flink-docs-master/docs/try-flink/datastream/',
            B AS B.url = 'http://localhost/flink/flink-docs-master/docs/try-flink/table_api/',
            C AS C.url = 'http://localhost/flink/flink-docs-master/docs/try-flink/flink-operations-playground/'
);

Act on the users that are matching the defined pattern

You've just created the list of identifier that meet our defined pattern. You now want to act on this data. In order to achieve that, you're going to send the list of identifer to your Elasticsearch sink. The website checks if there's any result in the Elasticsearch results and if so, it will display the notification.

To send the data to Elasticsearch, you first have to create another table like you've done before in Flink's catalog. Use the following DDL:

--Create a sink to display a notification
CREATE TABLE notifications (
    `identifier` STRING NOT NULL,
    `notification_id` STRING,
    `notification_text` STRING,
    `notification_link` STRING,
    PRIMARY KEY (identifier) NOT ENFORCED
) WITH (
    'connector' = 'elasticsearch-7',
    'hosts' = 'http://elasticsearch:9200',
    'index' = 'notifications'
);

When that table is created, you'll re-use the previous SQL that returns the list of identifier and send those results to the previously created table.

INSERT INTO notifications (`identifier`, `notification_id`, `notification_text`)
    SELECT 
        T.identifier,
        'MyFirstNotification',
        'Are you trying to hack Flink?'
    FROM web_activities
    MATCH_RECOGNIZE(
        PARTITION BY `identifier`
        ORDER BY `proc_time`
        MEASURES `url` AS url
        AFTER MATCH SKIP PAST LAST ROW
        PATTERN (A+ B+ C)
        DEFINE
            A AS A.url = 'http://localhost/flink/flink-docs-master/docs/try-flink/datastream/',
            B AS B.url = 'http://localhost/flink/flink-docs-master/docs/try-flink/table_api/',
            C AS C.url = 'http://localhost/flink/flink-docs-master/docs/try-flink/flink-operations-playground/'
) AS T;

⚠️ The default value of the cookie identifier is anonymous. No notifications will be displayed if the value is anonymous.

In order to change the value, you need to open the Developer Tools via either Cmd + Opt + J (on Mac) or Ctrl + Shift + J (on Windows)

In the opened console, you then need to type document.cookie="identifier=YourIdentifier" to change the value of the identifier cookie.

If you've changed the value of your identifier cookie, and you follow the defined pattern, a notification will be displayed to you.

Displaying a personal notification

Join and enrich streaming data with batch data

Another common use case in SQL is that you need join data from multiple sources. In the next example, you will display a notification to the user of the website who has visited the homepage more than 3 times in 10 seconds. If the identifier is MartijnsMac, the notification will display a link to the author's Twitter handle. The Twitter handle is retrieved from the external source. In case the identifier is different, no link will be included.

The first thing that we'll do is create another table, so we can connect to the data.

CREATE TABLE customer (
    `identifier` STRING,
    `fullname` STRING,
    `twitter_handle` STRING,
    PRIMARY KEY (identifier) NOT ENFORCED
) WITH (
   'connector' = 'jdbc',
   'url' = 'jdbc:mysql://mysql:3306/sql-demo',
   'table-name' = 'customer',
   'username' = 'flink-only-sql',
   'password' = 'demo-sql'
);

You can use a Window Table-Valued Function to determine which identifiers have visited the homepage more then 3 times.

SELECT window_start, window_end, window_time, COUNT(`identifier`) AS `NumberOfVisits` FROM TABLE(
   TUMBLE(TABLE web_activities, DESCRIPTOR(ts), INTERVAL '10' SECONDS))
   WHERE `url` = 'http://localhost/flink/flink-docs-master/'
   GROUP BY window_start, window_end, window_time
   HAVING COUNT(`identifier`) > 3;

The result of the Window Table-Valued Function can also be combined in a JOIN. You can join the previous results with the data in the previously registered customer table to enrich the result. You can use the following DDL for this:

SELECT w.identifier,
       COALESCE(c.fullname,'Anonymous') as `fullname`,
       COALESCE(c.twitter_handle,'https://www.google.com') as `twitter_handle`
FROM(
       SELECT `identifier`
       FROM TABLE(TUMBLE(TABLE `web_activities`, DESCRIPTOR(ts), INTERVAL '10' SECONDS))
       WHERE `url` = 'http://localhost/flink/flink-docs-master/'
       GROUP BY `identifier`
       HAVING COUNT(`identifier`) > 3 ) w
LEFT JOIN(
       SELECT *
       FROM customer ) c
ON w.identifier = c.identifier
GROUP BY w.identifier,
         c.fullname,
         c.twitter_handle;

With a slight modification to the DDL above, you can use the result for displaying an actionable insight to these visitors:

INSERT INTO notifications (`identifier`, `notification_id`, `notification_text`, `notification_link`)
SELECT w.identifier,
       'MySecondNotification',
       CONCAT('Welcome ', COALESCE(c.fullname,'Anonymous')),
       COALESCE(c.twitter_handle,'https://www.google.com')
FROM(
       SELECT `identifier`
       FROM TABLE(TUMBLE(TABLE `web_activities`, DESCRIPTOR(ts), INTERVAL '10' SECONDS))
       WHERE `url` = 'http://localhost/flink/flink-docs-master/'
       GROUP BY `identifier`
       HAVING COUNT(`identifier`) > 3 ) w
LEFT JOIN(
       SELECT *
       FROM customer ) c
ON w.identifier = c.identifier
GROUP BY w.identifier,
         c.fullname,
         c.twitter_handle;

Displaying a notification with link

About

Traditionally, engineers were needed to implement business logic via data pipelines before business users can start using it. Using this demo, we would explain how data analysts and non-engineers can use only Flink SQL to explore and transform data into insights and actions, without writing any Java or Python code.

Topics

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Contributors 3

  •  
  •  
  •  

Languages