It sounds like there are sort of three interconnected things here, even though the question revolves around just one:
- How does the data get stored in the database?
- How do you ensure each user has access to only the instances to which they have rights?
- How do you map the data to objects for use in code?
There are probably several ways to solve each one, but here's what I'd do:
How does the data get stored in the database?
Since you have one database per tenant-instance of the application (each "environment" - production, test, etc. would be a tenant-instance) and you have data that pertains to all of them, I would store the "common" data in a separate database, too.
Let's call that database the SystemConfiguration database. In that, you'd have:
- The list of all tenants in the system.
- The list of each instance's global configuration settings (e.g., database name, service endpoints, etc.), with each instance mapped to a tenant.
- The list of all users in the system, each mapped to a tenant (assuming a single user can't cross tenants... which could be complex, but not impossible).
- A mapping of users to the IDs of each instance each user has access to.
Splitting this SystemConfiguration database off as its own thing means you don't have to try to keep common user info synchronized anywhere. If there is per-instance user info (e.g., user settings or something), that'd go in the instance database, but name, password hash, etc. all goes in that central database.
Technically you could partition this in other ways, like having a separate user database, too, and only keeping tenant/system config in the SystemConfiguration database, but this at least gives you the idea.
If a tenant decides to leave, it would be pretty easy to query out any information related to the specific tenant and export it from the SystemConfiguration database. There shouldn't be a lot compared to the amount of tenant-specific data in the instance databases.
How do you ensure each user has access to only the instances to which they have rights?
I think claims-based authentication/authorization would make this problem a lot simpler. If you're not familiar with claims, the idea is that rather than have a static list of "roles" a user is in, you have a dictionary of name/value pairs associated with each user. The dictionary is the user's "claim set" and each name/value pair is a "claim." The benefit over roles is that the value can be anything, including a list.
Users, upon authenticating, would be issued a set of claims including their username, their first/last names, and the list of instances they have access to.
After that, it's a matter of simply checking the user's claims against the current instance's ID. If the authenticated user doesn't have access to that instance, block them.
Bringing it back to the data storage - generating the set of claims from that SystemConfiguration database would be a trivial query.
For more on claims-based identity and how to use Windows Identity Foundation to get that working in your application, check out Programming Windows Identity Foundation by Vittorio Bertocci. It's a good book... and it's pretty much the only book on WIF.
How do you map the data to objects for use in code?
At this point, it's more about the view you want into the data from your code than it is about the structure of the data storage. If you want a Tenant object to have an IEnumerable<User> in it, that's all just futzing with the ORM of your choice.
I might suggest wrapping operations, at least around the SystemConfiguration database, with a service contract so if you change the data underneath, you can tweak the ORM at the service tier rather than your consuming code. Interfaces!
Anyway, the point here is that I'd not try to base the data storage necessarily on the way you consume the data.
Finally, if you need user or tenant information in your instances, you'll end up having some queries talk to the SystemConfiguration database and some talk to the tenant-instance database. That's OK. As long as you use a globally-unique identifier for everything, you can tie a user from the one database to some setting or value in another, just by ID. Referential integrity is a little harder to maintain, but it's easier than maintaining data synchronization across a bunch of instance databases.
This may be another reason to wrap things in services. For example, if you have a "UserSettings" service, your contract might ask for the tenant-instance ID and the user ID, and return the list of settings. Behind the scenes, the service could query data from SystemConfiguration, map it to the appropriate instance database, and return a merged dataset - all transparent to the calling code. On the other hand, you don't get that nice "Update()" method that some ORMs give you when you just change values on the objects and want to commit the changes. It's a trade-off on whether you want to manhandle the ORM into compliance to get that to happen.