If we have a giant fact table and want to add a new dimension, we can do it like this:
BEGIN TRANSACTION ALTER TABLE [GiantFactTable] ADD NewDimValueId INT NOT NULL CONSTRAINT [temp_DF_NewDimValueId] DEFAULT (-1) WITH VALUES -- table is not actually rebuilt! ALTER TABLE [GiantFactTable] WITH NOCHECK ADD CONSTRAINT [FK_GiantFactTable_NewDimValue] FOREIGN KEY ([NewDimValueId]) REFERENCES [NewDimValue] ([Id]) -- drop the default constraint, new INSERTs will specify a value for NewDimValueId column ALTER TABLE [GiantFactTable] DROP CONSTRAINT [temp_DF_NewDimValueId] COMMIT TRANSACTION
NB: all of the above only manipulate table metadata and should be fast regardless of table size.
Then we can run a job to backfill
GiantFactTable.NewDimValueId in small transactions, such that the FK is not violated. (At this point any INSERTs/UPDATEs - e.g. backfill operation - are verified by the FK since it's enabled, but not "trusted")
After the backfill we know the data is consistent, my question is how can SQL engine become enlightened too? Without taking the table offline.
This command will make the FK trusted but it requires a schema modification (Sch-M) lock and likely take hours (days?) taking the table offline:
ALTER TABLE [GiantFactTable] WITH CHECK CHECK CONSTRAINT [FK_GiantFactTable_NewDimValue]
About the workload: Table has a few hundred partitions (fixed number), data is appended to one partition at a time (in a round-robin fashion), never deleted. There is also a constant read workload that uses the clustering key to get a (relatively small) range of rows from one partition at a time. Checking one partition at a time, taking it offline, would be acceptable. But I can't find any syntax to do this. Any other ideas?