Normalizing Foreign Keys with Junction & Lookup Tables

Question

I've been scratching my head lately over the relationship between database normalization and foreign keys with respect to junction tables and lookup tables.

I’ve currently have the following tables: Users, UserTypes, Roles, UsersInRoles, and Permissions. UserTypes is simply a lookup table providing the name of the type, with description, via a foreign key in the Users table. Roles are the various roles with associated Permissions linked to each User via the UsersInRoles table.

I need to come up with a structure that allows me to provide multiple Roles for each User, in addition to special permissions for each respective User that may not be covered in the fixed Roles of which they are a member.

I had a foreign key to my UsersInRoles table from the Users table, but decided that it just didn’t make sense. Conversely, it seems to make perfect sense to use a foreign key from the Users table to the UserTypes table. Is this the rule of thumb? That junction tables have foreign keys linking to the primary keys of the tables it joins, while master tables have foreign keys linking to the primary key of associated lookup tables?

Parameters:
- Each User can have one or multiple Roles
- Each Role has a fixed set of Permissions
- Each User can have additional Permissions not provided by their Roles

I suspect I may also need a PermissionsInRoles junction table as well as one for PermissionsInUsers? But this is just ridiculous isn't it? There just must be a better way. I'm thoroughly convinced that I'm losing my mind here, lol. Any help would be greatly appreciated. This has got my head spinning :P

Cheers, Matthew :)

UPDATE
Is this basically how it would be setup? I might get rid of the UsersInRoles table so each user can only be in one role, and additional permissions can be added via the SpecialPermissions junction table. From a UI standpoint, I was thinking it might be good when assigning permissions to a user, selecting a "Role" would simply check the appropriate boxes associated with that role, then you customize that and submit. That way I think I would only need a junction table between the Users and Permissions tables perhaps? Ugh. This is quite daunting for a first time database designer haha. Remember when you were just starting out? Or maybe you guys are more of a genius than I am, lol.

Schema Image link (can't post images yet)

Here's a neat scholarly article (albeit 10 years old) on query-driven database design titled: "Robust Database Design for Diverse Query Patterns". The Conclusion section has an interesting approach.

Answer 1

If your securables are just a products table (or set of tables), and you're using SSMS (SQL-Server Management Studio) then you should not be inventing your own security schema from scratch.

What I would recommend is that you setup your users and roles in SSMS -- expand the Database, then --> Security --> Users, etc. Right-click a user, look for securables, and then you can assign the user to roles, or also, just objects (tables, etc.) directly. Or right-click roles and you have similar options. Whatever you do, stay away from creating your own security schema, if you can help it.

If you need your web app to have access to the database, then look into "utility accounts" (these are like users, created at the server level instead of the database level, but then you can bring them into your database from there.); or look into impersonation if you're able to pass users' creds from your internal network when they login to the database. Utility accounts or users can be assigned to roles, or granted direct access to database objects without roles -- whatever you need.

Answer 2

I suspect I may also need a PermissionsInRoles junction table as well as one for PermissionsInUsers?

Well, you already said one of the requirements was "Each Role has a fixed set of Permissions". So to fulfill that requirement, you need to store permissions that apply to each role.

Table: role_permissions
PK:    (Role, Permission)

Role    Permission
--
User    Create
User    Update
Admin   Create
Admin   Update
Admin   Delete

You don't need two different tables to implement that requirement.

By the same token, you've already said "Each User can have additional Permissions not provided by their Roles". To fulfill that requirement, you have to store user-specific permissions.

Table: user_permissions
PK:    (username, permission)

username    permission
--
user1       Rename
user1       Leak to News of the World
user2       Randomly corrupt data

So, again, you don't need two different tables to implement that requirement. Both those tables are in 5NF.

But this is just ridiculous isn't it?

What's ridiculous?

• That you have very elaborate requirements for permissions?
• That you store business data (like permissions) in tables?
• That it takes more than one table to model your permission requirements?
• Something else?

If you want specific advice about your actual tables, edit your question and insert DDL for your tables.

---

Later

I looked at your diagram. Not every table needs an id number; id numbers have nothing to do with normalization.

If I were designing your system, I probably wouldn't use id numbers in the tables Roles, Permissions, and UserTypes until I saw a performance problem that id numbers could fix. (In most systems over the last 30 years, that means, well, almost never.) Before I used an id number, I'd also consider and test using a human-readable code instead. Human-readable codes often don't require joins; id numbers always require joins.

In most SQL dbms, you can combine a data type and check constraint in a CREATE DOMAIN statement. In PostgreSQL, you might use something like this to reduce the number of tables.

CREATE DOMAIN role AS VARCHAR(7) NOT NULL
  CHECK (VALUE in ('Admin', 'User', 'Guest'));

Followed by

CREATE TABLE user_roles (
  user_id integer not null references users (id),
  role_name role 
);

Replacing a table with a CREATE DOMAIN statement is most useful when the number of rows is stable and relatively small. Personally, I'd rather have the tables.

If you stick with id numbers, you also need UNIQUE constraints on Roles.RoleName, Permissions.Description, and UserTypes.UserType.

Otherwise, you seem to be doing fine.

Answer 3

One thing I've done before, in a similar-sounding scenario:

Keep Roles and users in the same table.

Have an objects table (the tables/queries/forms/etc. you will be granting permissions to)

Have a permission table -- this is where you will link roles/users to objects (i.e., John can SELECT on table 1)

Finally, have an Inheritance table -- this is where you will link roles/users to each other (i.e., John has permission to do whatever Role1 can do)

For example -- a structure like this:

For example:

Users Table:
UserID -- User -- UserTypeID
1 ------- John Smith --- 1
2 ------- Sally Fort --- 1
3 ------- Public Role -- 2
4 ------- Special Role - 2

UserType Table:
UserTypeID -- Description
1 ----------- Human Being
2 ----------- Role

Objects Table:
1 -- Data-Entry Form 1
2 -- Data-Entry Form 2
3 -- Query 1
4 -- Table 1

Permissions Table
UserID -- ObjectID -- Permission
1      -- 1        -- Update (This says John can Update Data-Entry Form 1 (via direct permission))
3      -- 1        -- Update (This says that the Public Role can Update Data-Entry Form 1)
3      -- 2        -- Update (...as well as Data-Entry Form 2)
4      -- 3        -- Select (This says that the special role can Select from Query1)
4      -- 4        -- Insert (...the special role can Insert into Table1)

Permission Inheritance Table
UserID -- UserID_ToInheritFrom
1      -- 3 (this says John can do whatever the Public Role can do)
1      -- 4 (this says John can do whatever the Special Role can do)
2      -- 3 (this says Sally can do whatever the Public Role can do)

So then if you wanted to query, "What can John do?", you'd do something like this:

SELECT
   ObjectID,
   Permission
FROM
   PermissionsTable
WHERE
   UserID = 1 -- John has direct permission
   OR UserID IN (SELECT UserID_ToInheritFrom FROM PermissionInheritanceTable WHERE UserID = 1)
   -- John has indirect permission via the Permission Inheritance Table (or you can call it the "role
   -- membership table" if that's easier for you to think of that way.)

This implementation works well. If you want to see a similar implementation, look at SQL-Server's implementation (or better yet, USE it, instead of re-creating the wheel from scratch.)