The first risk that pops into my mind is data corruption. Following the design, you are splitting the information into two fragments, even though both pieces are dependant from one another :
- A file has to exist for each metadata entry (or you'll end up with not found errors for entries supposed to exist).
- A metadata entry has to exist for each file (or you'll end up with garbage).
Using the database only has one big advantage : it is very probably relational. This means that you actually can set up rules to prevent the two scenarios above to occur (you could use an SQL
CASCADE DELETE for instance, or put every piece of information in one table). Keeping these relations between two data backends is going to be a tricky thing to setup.
Another important thing to remember : data stored in a SQL database isn't sent to a magical place far from your drive. When you add an entry into your database, you write to your database files. For instance, those files are stored in
/var/lib/mysql for MySQL engines. Writing to other files does not make that much of a difference...
Next thing : time. Accessing a database is fast once it's opened, all it takes is query processing. Accessing files (and that is, once per article) may be heavier : files need to be opened (including privileges checks, ...), read (line-by-line according to your buffer size) and closed. Of course, you can add to that all the programming it would take to link those files to their metadata...
To me, this design adds unecessary complexity to the application. You could store everything in the database, centralise. You'll use pretty much the same amount of disk space in both cases, yet looking-up/accessing each article file separately (while keeping it connected with its DB metadata) will certainly waste some time.
Design for simplicity; add complexity only where you must. (Eric S. Raymond)