I'm using a PostgreSQL table to store a file structure and I'd like to be able to allow certain files (namely home
~) to bypass a foreign key constraint I place on one column.
My table creation looks like this:
CREATE TABLE files_table ( id serial PRIMARY KEY, file_name TEXT NOT NULL, parent integer, -- version_num_type is a composite type three smallints. -- version_list is a separate table containing valid version numbers version version_num_type NOT NULL REFERENCES version_list, -- full_path is column in this table I didn't include here that contains the -- complete file name, starting at root '~' CONSTRAINT file_unique_check UNIQUE(version, full_path) );
The constraint I initially wanted to add was:
CONSTRAINT valid_parent_file FOREIGN KEY parent REFERENCES files_table(id);
And since versions are only added periodically, I could just disable this constraint using a query like this:
ALTER TABLE files_table DISABLE CONSTRAINT valid_parent_file;
And then just re-enable the constraint after I've added the new version of the table. Unfortunately though, this would require the user adding things to the table to have the ALTER TABLE permission, which seems unnecessary to me and I'd prefer to keep the production database credentials as limited as possible.
I was wondering if it was possible to allow something to bypass the constraint if it's
file_name column was equal to
~ because the first row I'll add for every new version will be the root directory, whose parent will simply be
NULL. It should still check for uniqueness however, so it cannot bypass all constraints.
Is there a way, either in defining the constraint or defining the query, that I can allow an insert to bypass the foreign key restraint on a condition?
Here's an example illustrating what I mean:
id file_name parent version_num_type 1 ~ NULL (1,0,0) 2 foo/ 1 (1,0,0) 3 bar.txt 2 (1,0,0)
And then I want to be able to add:
id file_name parent version_num_type 4 ~ NULL (1,1,0)
Because even though its parent value is NULL, it's the root for a new version, so it doesn't need a parent.
But trying to insert either of these should fail:
id file_name parent version_num_type 5 foo/ NULL (1,1,0) 5 foo/ 17 (1,1,0)
The first would fail because its parent is NULL and it's not the root while the second would fail because it is referencing a parent id that is not in the table yet.