The only sane way to update a table of 120M records is with a
SELECT statement that populates a second table. You have to take care when doing this. Instructions below.
For a table w/out a clustered index, during a time w/out concurrent DML:
SELECT *, new_col = 1 INTO clone.BaseTable FROM dbo.BaseTable
- recreate indexes, constraints, etc on new table
- switch old and new w/ ALTER SCHEMA ... TRANSFER.
- drop old table
If you can't create a clone schema, a different table name in the same schema will do. Remember to rename all your constraints and triggers (if applicable) after the switch.
First, recreate your
BaseTable with the same name under a different schema, eg
clone.BaseTable. Using a separate schema will simplify the rename process later.
- Include the clustered index, if applicable. Remember that primary keys and unique constraints may be clustered, but not necessarily so.
- Include identity columns and computed columns, if applicable.
- Include your new INT column, wherever it belongs.
- Do not include any of the following:
- foreign key constraints
- non-clustered indexes/primary keys/unique constraints
- check constraints or default constraints. Defaults don't make much of difference, but we're trying to keep
Then, test your insert w/ 1000 rows:
-- assuming an IDENTITY column in BaseTable
SET IDENTITY_INSERT clone.BaseTable ON
INSERT clone.BaseTable WITH (TABLOCK) (Col1, Col2, Col3)
SELECT TOP 1000 Col1, Col2, Col3 = -1
SET IDENTITY_INSERT clone.BaseTable OFF
Examine the results. If everything appears in order:
- truncate the clone table
- make sure the database in in bulk-logged or simple recovery model
- perform the full insert.
This will take a while, but not nearly as long as an update. Once it completes, check the data in the clone table to make sure it everything is correct.
Then, recreate all non-clustered primary keys/unique constraints/indexes and foreign key constraints (in that order). Recreate default and check constraints, if applicable. Recreate all triggers. Recreate each constraint, index or trigger in a separate batch. eg:
ALTER TABLE clone.BaseTable ADD CONSTRAINT UQ_BaseTable UNIQUE (Col2)
-- next constraint/index/trigger definition here
dbo.BaseTable to a backup schema and
clone.BaseTable to the dbo schema (or wherever your table is supposed to live).
-- -- perform first true-up operation here, if necessary
-- EXEC clone.BaseTable_TrueUp
-- -- create a backup schema, if necessary
-- CREATE SCHEMA backup_20100914
ALTER SCHEMA backup_20100914 TRANSFER dbo.BaseTable
-- -- perform second true-up operation here, if necessary
-- EXEC clone.BaseTable_TrueUp
ALTER SCHEMA dbo TRANSFER clone.BaseTable
SELECT ERROR_MESSAGE() -- add more info here if necessary
If you need to free-up disk space, you may drop your original table at this time, though it may be prudent to keep it around a while longer.
Needless to say, this is ideally an offline operation. If you have people modifying data while you perform this operation, you will have to perform a true-up operation with the schema switch. I recommend creating a trigger on
dbo.BaseTable to log all DML to a separate table. Enable this trigger before you start the insert. Then in the same transaction that you perform the schema transfer, use the log table to perform a true-up. Test this first on a subset of the data! Deltas are easy to screw up.