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What primary key strategy would be best to use for a relational database model given the following?

  • tens of thousands of users
  • multiple clients per user (phone, tablet, desktop)
  • millions of rows per table (continually growing)

Azure SQL will be the central data store which will be exposed via Web API. The clients will include a web application and a number of native apps including iOS, Android, Mac, Windows 8, etc. The web application will require an “always on” connection and will not have a local data store but will instead retrieve and update via the api - think CRUD via RESTful API.

All other clients (phone, tablet, desktop) will have a local db (SQLite). On first use of this type of client the user must authenticate and sync. Once authenticated and synced, these clients can operate in an offline mode (creating, deleting and updating records in the local SQLite db). These changes will eventually sync with the Azure backend.

The distributed nature of the databases leaves us with a primary key problem and the reason for asking this question.

Here is what we have considered thus far:

GUID

Each client creates it’s own keys. On sync, there is a very small chance for a duplicate key but we would need to account for it by writing functionality into each client to update all relationships with a new key. GUIDs are big and when multiple foreign keys per table are considered, storage may become an issue over time. Likely the biggest problem is the random nature of GUIDs which means that they can not (or should not) be used as the clustered index due to fragmentation. This means we would need to create a clustered index (perhaps arbitrary) for each table.

Identity

Each client creates it’s own primary keys. On sync, these keys are replaced with server generated keys. This adds additional complexity to the syncing process and forces each client to “fix” their keys including all foreign keys on related tables.

Composite

Each client is assigned a client id on first sync. This client id is used in conjunction with a local auto-incrementing id as a composite primary key for each table. This composite key will be unique so there should be no conflicts on sync but it does mean that most tables will require a composite primary key. Performance and query complexity is the concern here.

HiLo (Merged Composite)

Like the composite approach, each client is assigned a client id (int32) on the first sync The client id is merged with a unique local id (int32) into a single column to make an application wide unique id (int64). This should result in no conflicts during sync. While there is more order to these keys vs GUIDs since the ids generated by each client are sequential, there will be thousands of unique client-ids, so do we still run the risk of fragmentation on our clustered index?

Are we overlooking something? Are there any other approaches worth investigating? A discussion of the pros and cons of each approach would be quite helpful.

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Ultimately, the "best" strategy is dependent upon your other needs. These are all very valid options. Perhaps you should rephrase your question as, "In what scenarios do each of these primary key strategies make the most sense?" – Jaxidian Apr 22 '13 at 18:08
    
I know that for our similar database/app structure we have users sign up with an account first, and we base all of their data storage on that account. Dealing with the account first also handles all the legal obligations and the rights for storing the information. – HalR Apr 23 '13 at 0:50
    
@Jaxidian Although the question you propose would make for an interesting discussion, I am looking for the a solution that would be most appropriate for our case as outlined in the question. – user1843640 Apr 23 '13 at 17:40
    
@HalR We can't use the account id because a user connecting with multiple devices could cause a conflict. This is why we are considering a client/device id as part of the primary key. – user1843640 Apr 23 '13 at 17:43
    
One of the reasons we use accountID is so that users can sync on multiple devices and have the same info on all of them. – HalR Apr 23 '13 at 17:47

The key (pun intended) thing to remember is to simply have a unique key for each object you are storing on the persistent store. How you handle the storage of that object is completely up to you and up to the methodology of how you access that key. Each of the strategies you listed have their own reasons for why they do what they do but in the end they are storing a key for a certain object in the db so all of its attributes can be changed while retaining the same object reference in the database.

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