I am using Ruby on Rails 3.2.2 and MySQL. I would like to know if it is "advisable" / "desirable" to store in a database table related to a class all records related to two others classes for each "combination" of their instances.
That is, I have
Article models. In order to store all user-article authorization objects, I would like to implement a
ArticleUserAuthorization model so that
given N users and M articles there are N*M
Making so, I can state and use
ActiveRecord::Associations as the following:
class Article < ActiveRecord::Base has_many :user_authorizations, :class_name => 'ArticleUserAuthorization' has_many :users, :through => :user_authorizations end class User < ActiveRecord::Base has_many :article_authorizations, :class_name => 'ArticleUserAuthorization' has_many :articles, :through => :article_authorizations end
However, the above approach of storing all combinations will result in a big database table containing billions billions billions of rows!!! Furthermore, ideally speaking, I am planning to create all authorization records when an
User or an
Article object is created (that is, I am planning to create all previously mentioned "combinations" at once or, better, in "delayed" batches... in any way, this process creates other billions billions of database table rows!!!) and make the viceversa when destroying (by deleting billions billions of database table rows!!!). Furthermore, I am planning to read and update those rows at once when an
Article object is updated.
So, my doubts are:
- Is this approach "advisable" / "desirable"? For example, what kind of performance problems may occur? or, is a bad "way" / "prescription" to admin / manage databases with very large database tables?
- How may / could / should I proceed in my case (maybe, by "re-thinking" at all how to handle user authorizations in a better way)?
Note: I would use this approach because, in order to retrieve only "authorized objects" when retrieving
Article objects, I think I need "atomic" user authorization rules (that is, one user authorization record for each user and article object) since the system is not based on user groups like "admin", "registered" and so on. So, I thought that the availability of a
ArticleUserAuthorization table avoids to run methods related to user authorizations (note: those methods involve some MySQL querying that could worsen performance - see this my previous question for a sample "authorization" method implementation) on each retrieved object by "simply" accessing / joining the
ArticleUserAuthorization table so to retrieve only "user authorized" objects.