The only way you "pass on the intercepted UPDATE command to the server after verifying columns" is by performing the
Option 1 - ROLLBACK
However, you have now said that you don't want to have to add more columns to the trigger when those columns are added to the table. So you have an alternate option of simply rolling back any change that is invalid. That might look something like this:
CREATE TRIGGER TR_Sample_U ON dbo.Sample -- No AFTER trigger needed here!
IF EXISTS ( --check for disallowed modifications
INNER JOIN Deleted D
ON I.SampleID = D.SampleID
I.Something <> D.Something
AND I.UpdateDate = D.UpdateDate
Option 2 - Perform UPDATE in trigger
However, if you need more control over what the update actually entails, such as needing to modify a value before it is committed, you would have to perform the update yourself. For example:
CREATE TRIGGER TR_Sample_U ON dbo.Sample
INSTEAD OF UPDATE
SET NOCOUNT ON;
SET XACT_ABORT ON;
SET S.Value = I.Value + '+'
INNER JOIN Inserted I
ON S.SampleID = I.SampleID
This is a trivial example that doesn't do any checking, but you get the idea--when you perform an update on the
Sample table, you will see that the value acquires an extra
+ character--your update was intercepted and the
Inserted value (representing the proposed change after update) was modified before being committed.
See a SQL Fiddle Demo of this in action.
The only thing to watch out for is recursion:
When your update could cause other triggers to run that modify the same base table--then you can get ping-ponging between them, until the maximum nest level is reached and the entire transaction is rolled back. So be aware of possible ping-ponging between triggers.
You probably don't have to worry about this one, because the database-level
RECURSIVE TRIGGERS option is off by default in SQL Server. However, if it is on, you can get the same trigger firing based on the new update.
These be ameliorated by, variously:
TRIGGER_NESTLEVEL inside a trigger, and exiting the trigger if already nested deeply enough.
To avoid direct recursion only, combine the triggers.
In some particular cases strategically assigning which trigger will run first/last may fix the problem. You can't specify absolute order, but you can choose the first one and the last one.
Note that the ping-pong problem applies to any type of trigger,
INSTEAD OF or
AFTER, that modifies its own base table, or is involved in a chain of updates through another table (that has a trigger that modifies another table ...) that eventually comes back to modify the base table.
Option 2B - Preprocess the AFTER UPDATE trigger.
I call this option 2B because it is really option 2, but with an enhancement. If you don't want to have to manually update the trigger every time you add columns to the table (a sentiment I wholly agree with) you could automate this. Create a stored procedure that can create an appropriate trigger that observes all the validation that you need. You could put the base code for this validation into a table, then in the SP select it into variables, add in the SQL script updating the columns for the final update by mining the information in the
INFORMATION_SCHEMA.COLUMNS view, then finally rewrite the trigger. This could furthermore be attached to a DDL trigger, so that it is 100% automated: you would add or remove a column from the base table, the DDL trigger would fire, and rewrite the DML trigger for you.
That sounds like a lot of work, but if you designed it to be data-driven it could be generalized to work with any table in your entire database, which could be of great value, depending on your usage scenarios.