I'm implementing a content database for a C# Asp.Net MVC3 website in Sql Server.
The table structure is basically an adjacency list, but with my files and folders partitioned into
FileSystems so that I can isolate individual users/accounts content:
FileSystem: [ID] Folder: [ID] [FileSystemID] [ParentFolderID] (null) [Name] File: [ID] [FileSystemID] [ParentFolderID] [Name] [Content]
Allowing for the inefficient normalisation here, it's pretty basic stuff.
I also have columns for
[Modified] where applicable.
These files are going to be used to perform dynamic branding of pages in an Asp.Net MVC 3 site, where every request is going to be looking for more specific branded versions of css/image files based on an original Asp.Net MVC content Url - e.g.
"~/Content/Site.css" might become
"~/[dynamic content root]/[accountid]/[theme]/Site.css".
This basic mechanism all works already; my main concern is caching and versioning.
Clearly instead of probing the database all the time for the same files and folders, it makes sense to build an in-memory cache of the content file system(s) to speed up content lookup and delivery. However, I need an efficient way to ensure that all web servers in the web farm detect a change in the account's virtual filesystem (any file or folder changed/delete/created) to ensure that a theme change is reflected instantly on all servers, for the next request.
Since hierarchical queries are potentially expensive, I have discounted running a sanity check on all the created/lastmodified dates in the filesystem each time. What I have considered, however, is a cascading version number on the whole filesystem.
So, any change in a filesystem leads to an increment of a version number on the filesystem itself, and possibly all parent folders up from the changed item. Thus a reader can simply attach to the whole file system or a particular part of it and run an inexpensive query each time to check the current version against the cache version.
This does have the downside of slowing down updates, but I expect the file system to change infrequently, whilst it will be read very frequently. My only concern with this approach is concurrency on the updates, and how to manage it.
Would this be a good approach? Is there something better I could consider?
Any thoughts welcome!