Consider the following 3 tables:
create table FOO ( foo_index Numeric(38, 0) primary key clustered constraint foo_foo_index_nn not null identity(1,1) ) create table BAR ( bar_index Numeric(38, 0) primary key clustered constraint bar_bar_index_nn not null identity(1,1), foo_index Numeric(38, 0) constraint bar_foo_index_nn not null constraint bar_foo_index_fk references FOO(foo_index) on delete cascade ) create table BAZ ( baz_index Numeric(38, 0) primary key clustered constraint baz_baz_index_nn not null identity(1,1), foo_index Numeric(38, 0) constraint baz_foo_index_fk references FOO(foo_index) on delete cascade, bar_index Numeric(38, 0) constraint baz_bar_index_fk references BAR(bar_index) on delete cascade )
bar is required to reference a
foo. While it's not evident from the table creation, the intent is for each
baz to reference a
foo or a
bar, but never both.
If you try to create the above schema you'll get this error:
Introducing FOREIGN KEY constraint 'baz_bar_index_fk' on table 'BAZ' may cause cycles or multiple cascade paths. Specify ON DELETE NO ACTION or ON UPDATE NO ACTION, or modify other FOREIGN KEY constraints.
Once SQL Server detects multiple cascade paths (in this case, the potential of a
baz referencing both a
bar and the
bar references and that 'foo` being deleted) rather than try to detect cascade cycles it just fails to be safe.
That wouldn't ever happen in actual use, though, since the plan is to only ever have one of the 2 foreign keys be non-null. Is there some way I can indicate that usage constraint to SQL Server so that it will allow both FKs to delete on cascade?