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Database and security

Database Design

The database design is made so that every team member knows the structure of the database. It basically shows you the way we organize our data.

This is the database setup we will use for the RegterschotRacing API. A full description of every tables usage and datatypes can be found below. All green boxes will be made by Smalltalk in order to provide a sound foundation to build an API on. The red boxes could be implemented for future expansions, but they are out of our current scope. These have been placed here as an example to provide future developers with a stepping stone.


 Database Glossary

Tablenames and formats are written in italic; Columns that contain the primary key are underlined. 

TableColumnDatatypeNull / Not NullComments
GraphThis table contains all data that is required to show a graph. It contains the sensor it is displaying the data for, and the type of graph it is.
GraphIDintNot nullThis is the unique identifier of the graph.
SensorIDintNot nullThe unique identifier of the sensor that the graph is displaying the data of.
RaceThis table contains all information relevant to a race.
RaceIDintNot null

The unique identifier of the race.

NumberOfLapsintNot nullThe number of rounds that the race possesses.
RaceNamevarchar(255)Not nullThe name of the race.
DateDATETIMENot nullThe date of the start of the race.
SensorThis table functions as collection of all sensors.
SensorIDintNot nullThe unique identifier of the sensor.
SensorNamevarchar(255)Not nullThe name of the sensor.
Typevarchar(255)Not null

The type of graph, can be anything from the following:

  • linechart
  • barchart
  • piechart
  • scatterchart
  • columnchart
  • areachart
  • donutchart
  • table
  • gaugechart

Tab

This table contains all information that is relevant to a Tab.
TabIDintNot nullThe unique identifier of the tab.
TabNamevarchar(255)Not nullThe name of the tab. The name is set when creating a new tab in the frontend web-application.
RaceIDintNot nullThe unique identifier of the race that the tab belongs to.
UserIDintNot nullThe unique identifier of the user that the tab belongs to.
UserThis table handles all user data and other data relevant to have users that can interact with the application.
UserIDintNot nullThe unique identifier of the user.
Usernamevarchar(255)Not nullThe unique name of a user that will be on display in the frontend web-application.
Passwordvarchar(255)Not nullThe hashed password of the user that is needed when logging in into the web-application.

Design decisions related to the database

Decision 1

Description

Problem/Issue

Throwing all of the different sensors and their data into one big table will quickly create a very clumped and hard-to-read table.
DecisionCreate a different table for every sensor and add a new table that contains all sensor IDs.
Alternatives-
ArgumentsBy dividing data over multiple tables, query time can be shortened significantly and keeps all of our tables in line with the normalization principle.
Decision 2Description
Problem/issueA driver is only driving a couple of rounds in a race, which will create quite a confusing table if thrown into a single race tables.
Decision

Divide the different datatypes into multiple tables: a rounds table, a race table and a driver table.

Create a linking table that links all of these three tables together.

Alternatives-
ArgumentsBy dividing the table into a multitude of different tables, there's three distinct tables that are in line with the normalization principle.
Decision 3Description
Problem/issueWhen adding a new graph to a tab the system must know what type of graph must be drawn for that sensor.
Decision

We decided to add the graph type to the sensor in the sensor table.

Alternatives
  1. Saving the graph type in the graph table and letting a user choose from all options when adding a new graph.
ArgumentsCurrently every sensor will have one specific type of graph. Later this could be changed to a user having to make a choice. Using the code we have currently and using this database design this change has less impact compared to the alternative. Beisdes the change having less of an impact we can also make the adding process smoother since a user wouldn't have to choose from all the possible graphs but only from the graphs that make sense for this sensor. Lastly we are able to make some query's faster and more compact this way.

Security decisions

Regterschot indicated we do not have to worry too much about security yet, as they want to have a functional web application first. Therefore we are only implementing security measures for very high security risk scenarios.. Because of this we have chosen to hash the password, we do this because we are legally obliged tot do. In addition to this, we have chosen to use a Json Web Token. We do this to ensure that unwanted people can not make calls to the API and only retrieve the data through the Web application.


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