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Mastering Apache Cassandra 3.x

You're reading from   Mastering Apache Cassandra 3.x An expert guide to improving database scalability and availability without compromising performance

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Product type Paperback
Published in Oct 2018
Publisher Packt
ISBN-13 9781789131499
Length 348 pages
Edition 3rd Edition
Languages
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Authors (2):
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Aaron Ploetz Aaron Ploetz
Author Profile Icon Aaron Ploetz
Aaron Ploetz
Tejaswi Malepati Tejaswi Malepati
Author Profile Icon Tejaswi Malepati
Tejaswi Malepati
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Toc

Table of Contents (12) Chapters Close

Preface 1. Quick Start FREE CHAPTER 2. Cassandra Architecture 3. Effective CQL 4. Configuring a Cluster 5. Performance Tuning 6. Managing a Cluster 7. Monitoring 8. Application Development 9. Integration with Apache Spark 10. References 11. Other Books You May Enjoy

A quick introduction to the data model

Now that we have a Cassandra cluster running on our local machine, we will demonstrate its use with some quick examples. We will start with cqlsh, and use that as our primary means of working with the Cassandra data model.

Using Cassandra with cqlsh

To start working with Cassandra, let's start the Cassandra Query Language (CQL) shell . The shell interface will allow us to execute CQL commands to define, query, and modify our data. As this is a new cluster and we have turned on authentication and authorization, we will use the default cassandra and cassandra username and password, as follows:

bin/cqlsh 192.168.0.101 -u cassandra -p cassandra

Connected to PermanentWaves at 192.168.0.101:9042.
[cqlsh 5.0.1 | Cassandra 3.11.2 | CQL spec 3.4.4 | Native protocol v4]
Use HELP for help.
cassandra@cqlsh>

First, let's tighten up security. Let's start by creating a new superuser to work with.

New users can only be created if authentication and authorization are properly set in the cassandra.yaml file:

cassandra@cqlsh> CREATE ROLE cassdba WITH PASSWORD='flynnLives' AND LOGIN=true and SUPERUSER=true;

Now, set the default cassandra user to something long and indecipherable. You shouldn't need to use it ever again:

cassandra@cqlsh> ALTER ROLE cassandra WITH PASSWORD='dsfawesomethingdfhdfshdlongandindecipherabledfhdfh';

Then, exit cqlsh using the exit command and log back in as the new cassdba user:

cassandra@cqlsh> exit
bin/cqlsh 192.168.0.101 -u cassdba -p flynnLives

Connected to PermanentWaves at 192.168.0.101:9042.
[cqlsh 5.0.1 | Cassandra 3.11.2 | CQL spec 3.4.4 | Native protocol v4]
Use HELP for help.
cassdba@cqlsh>

Now, let's create a new keyspace where we can put our tables, as follows:

cassdba@cqlsh> CREATE KEYSPACE packt WITH replication =
{'class': 'NetworkTopologyStrategy', 'ClockworkAngels': '1'}
AND durable_writes = true;
For those of you who have used Cassandra before, you might be tempted to build your local keyspaces with SimpleStrategy. SimpleStrategy has no benefits over NetworkTopologyStrategy, and is limited in that it cannot be used in a plural data center environment. Therefore, it is a good idea to get used to using it on your local instance as well.

With the newly created keyspace, let's go ahead and use it:

cassdba@cqlsh> use packt;
cassdba@cqlsh:packt>
The cqlsh prompt changes depending on the user and keyspace currently being used.

Now, let's assume that we have a requirement to build a table for video game scores. We will want to keep track of the player by their name, as well as their score and game on which they achieved it. A table to store this data would look something like this:

CREATE TABLE hi_scores (name TEXT, game TEXT, score BIGINT,
PRIMARY KEY (name,game));

Next, we will INSERT data into the table, which will help us understand some of Cassandra's behaviors:

INSERT INTO hi_scores (name, game, score) VALUES ('Dad','Pacman',182330);
INSERT INTO hi_scores (name, game, score) VALUES ('Dad','Burgertime',222000);
INSERT INTO hi_scores (name, game, score) VALUES ('Dad','Frogger',15690);
INSERT INTO hi_scores (name, game, score) VALUES ('Dad','Joust',48150);
INSERT INTO hi_scores (name, game, score) VALUES ('Connor','Pacman',182330);
INSERT INTO hi_scores (name, game, score) VALUES ('Connor','Monkey Kong',15800);
INSERT INTO hi_scores (name, game, score) VALUES ('Connor','Frogger',4220);
INSERT INTO hi_scores (name, game, score) VALUES ('Connor','Joust',48850);
INSERT INTO hi_scores (name, game, score) VALUES ('Avery','Galaga',28880);
INSERT INTO hi_scores (name, game, score) VALUES ('Avery','Burgertime',1200);
INSERT INTO hi_scores (name, game, score) VALUES ('Avery','Frogger',1100);
INSERT INTO hi_scores (name, game, score) VALUES ('Avery','Joust',19520);

Now, let's execute a CQL query to retrieve the scores of the player named Connor:

cassdba@cqlsh:packt> SELECT * FROM hi_scores WHERE name='Connor';
name | game | score
--------+-------------+--------
Connor | Frogger | 4220
Connor | Joust | 48850
Connor | Monkey Kong | 15800
Connor | Pacman | 182330
(4 rows)

That works pretty well. But what if we want to see how all of the players did while playing the Joust game, as follows:

cassdba@cqlsh:packt> SELECT * FROM hi_scores WHERE game='Joust';

InvalidRequest: Error from server: code=2200 [Invalid query] message="Cannot execute this query as it might involve data filtering and thus may have unpredictable performance. If you want to execute this query despite the performance unpredictability, use ALLOW FILTERING"
As stated in the preceding error message, this query could be solved by adding the ALLOW FILTERING directive. Queries using ALLOW FILTERING are notorious for performing poorly, so it is a good idea to build your data model so that you do not use it.

Evidently, Cassandra has some problems with that query. We'll discuss more about why that is the case later on. But, for now, let's build a table that specifically supports querying high scores by game:

CREATE TABLE hi_scores_by_game (name TEXT, game TEXT, score BIGINT,
PRIMARY KEY (game,score)) WITH CLUSTERING ORDER BY (score DESC);

Now, we will duplicate our data into our new query table:

INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Dad','Pacman',182330);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Dad','Burgertime',222000);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Dad','Frogger',15690);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Dad','Joust',48150);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Connor','Pacman',182330);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Connor','Monkey Kong',15800);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Connor','Frogger',4220);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Connor','Joust',48850);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Avery','Galaga',28880);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Avery','Burgertime',1200);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Avery','Frogger',1100);
INSERT INTO hi_scores_by_game (name, game, score) VALUES ('Avery','Joust',19520);

Now, let's try to query while filtering on game with our new table:

cassdba@cqlsh:packt> SELECT * FROM hi_scores_by_game
WHERE game='Joust';
game | score | name
-------+-------+--------
Joust | 48850 | Connor
Joust | 48150 | Dad
Joust | 19520 | Avery
(3 rows)

As mentioned previously, the following chapters will discuss why and when Cassandra only allows certain PRIMARY KEY components to be used in the WHERE clause. The important thing to remember at this point is that in Cassandra, tables and data structures should be modeled according to the queries that they are intended to serve.

You have been reading a chapter from
Mastering Apache Cassandra 3.x - Third Edition
Published in: Oct 2018
Publisher: Packt
ISBN-13: 9781789131499
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