From 6eb9c5a5657d1fe77b55cc261450f3538d35a94d Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sat, 4 May 2024 14:19:15 +0200 Subject: Adding upstream version 13.4. Signed-off-by: Daniel Baumann --- src/test/regress/sql/foreign_key.sql | 1815 ++++++++++++++++++++++++++++++++++ 1 file changed, 1815 insertions(+) create mode 100644 src/test/regress/sql/foreign_key.sql (limited to 'src/test/regress/sql/foreign_key.sql') diff --git a/src/test/regress/sql/foreign_key.sql b/src/test/regress/sql/foreign_key.sql new file mode 100644 index 0000000..c52672e --- /dev/null +++ b/src/test/regress/sql/foreign_key.sql @@ -0,0 +1,1815 @@ +-- +-- FOREIGN KEY +-- + +-- MATCH FULL +-- +-- First test, check and cascade +-- +CREATE TABLE PKTABLE ( ptest1 int PRIMARY KEY, ptest2 text ); +CREATE TABLE FKTABLE ( ftest1 int REFERENCES PKTABLE MATCH FULL ON DELETE CASCADE ON UPDATE CASCADE, ftest2 int ); + +-- Insert test data into PKTABLE +INSERT INTO PKTABLE VALUES (1, 'Test1'); +INSERT INTO PKTABLE VALUES (2, 'Test2'); +INSERT INTO PKTABLE VALUES (3, 'Test3'); +INSERT INTO PKTABLE VALUES (4, 'Test4'); +INSERT INTO PKTABLE VALUES (5, 'Test5'); + +-- Insert successful rows into FK TABLE +INSERT INTO FKTABLE VALUES (1, 2); +INSERT INTO FKTABLE VALUES (2, 3); +INSERT INTO FKTABLE VALUES (3, 4); +INSERT INTO FKTABLE VALUES (NULL, 1); + +-- Insert a failed row into FK TABLE +INSERT INTO FKTABLE VALUES (100, 2); + +-- Check FKTABLE +SELECT * FROM FKTABLE; + +-- Delete a row from PK TABLE +DELETE FROM PKTABLE WHERE ptest1=1; + +-- Check FKTABLE for removal of matched row +SELECT * FROM FKTABLE; + +-- Update a row from PK TABLE +UPDATE PKTABLE SET ptest1=1 WHERE ptest1=2; + +-- Check FKTABLE for update of matched row +SELECT * FROM FKTABLE; + +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +-- +-- check set NULL and table constraint on multiple columns +-- +CREATE TABLE PKTABLE ( ptest1 int, ptest2 int, ptest3 text, PRIMARY KEY(ptest1, ptest2) ); +CREATE TABLE FKTABLE ( ftest1 int, ftest2 int, ftest3 int, CONSTRAINT constrname FOREIGN KEY(ftest1, ftest2) + REFERENCES PKTABLE MATCH FULL ON DELETE SET NULL ON UPDATE SET NULL); + +-- Test comments +COMMENT ON CONSTRAINT constrname_wrong ON FKTABLE IS 'fk constraint comment'; +COMMENT ON CONSTRAINT constrname ON FKTABLE IS 'fk constraint comment'; +COMMENT ON CONSTRAINT constrname ON FKTABLE IS NULL; + +-- Insert test data into PKTABLE +INSERT INTO PKTABLE VALUES (1, 2, 'Test1'); +INSERT INTO PKTABLE VALUES (1, 3, 'Test1-2'); +INSERT INTO PKTABLE VALUES (2, 4, 'Test2'); +INSERT INTO PKTABLE VALUES (3, 6, 'Test3'); +INSERT INTO PKTABLE VALUES (4, 8, 'Test4'); +INSERT INTO PKTABLE VALUES (5, 10, 'Test5'); + +-- Insert successful rows into FK TABLE +INSERT INTO FKTABLE VALUES (1, 2, 4); +INSERT INTO FKTABLE VALUES (1, 3, 5); +INSERT INTO FKTABLE VALUES (2, 4, 8); +INSERT INTO FKTABLE VALUES (3, 6, 12); +INSERT INTO FKTABLE VALUES (NULL, NULL, 0); + +-- Insert failed rows into FK TABLE +INSERT INTO FKTABLE VALUES (100, 2, 4); +INSERT INTO FKTABLE VALUES (2, 2, 4); +INSERT INTO FKTABLE VALUES (NULL, 2, 4); +INSERT INTO FKTABLE VALUES (1, NULL, 4); + +-- Check FKTABLE +SELECT * FROM FKTABLE; + +-- Delete a row from PK TABLE +DELETE FROM PKTABLE WHERE ptest1=1 and ptest2=2; + +-- Check FKTABLE for removal of matched row +SELECT * FROM FKTABLE; + +-- Delete another row from PK TABLE +DELETE FROM PKTABLE WHERE ptest1=5 and ptest2=10; + +-- Check FKTABLE (should be no change) +SELECT * FROM FKTABLE; + +-- Update a row from PK TABLE +UPDATE PKTABLE SET ptest1=1 WHERE ptest1=2; + +-- Check FKTABLE for update of matched row +SELECT * FROM FKTABLE; + +-- Check update with part of key null +UPDATE FKTABLE SET ftest1 = NULL WHERE ftest1 = 1; + +-- Check update with old and new key values equal +UPDATE FKTABLE SET ftest1 = 1 WHERE ftest1 = 1; + +-- Try altering the column type where foreign keys are involved +ALTER TABLE PKTABLE ALTER COLUMN ptest1 TYPE bigint; +ALTER TABLE FKTABLE ALTER COLUMN ftest1 TYPE bigint; +SELECT * FROM PKTABLE; +SELECT * FROM FKTABLE; + +DROP TABLE PKTABLE CASCADE; +DROP TABLE FKTABLE; + +-- +-- check set default and table constraint on multiple columns +-- +CREATE TABLE PKTABLE ( ptest1 int, ptest2 int, ptest3 text, PRIMARY KEY(ptest1, ptest2) ); +CREATE TABLE FKTABLE ( ftest1 int DEFAULT -1, ftest2 int DEFAULT -2, ftest3 int, CONSTRAINT constrname2 FOREIGN KEY(ftest1, ftest2) + REFERENCES PKTABLE MATCH FULL ON DELETE SET DEFAULT ON UPDATE SET DEFAULT); + +-- Insert a value in PKTABLE for default +INSERT INTO PKTABLE VALUES (-1, -2, 'The Default!'); + +-- Insert test data into PKTABLE +INSERT INTO PKTABLE VALUES (1, 2, 'Test1'); +INSERT INTO PKTABLE VALUES (1, 3, 'Test1-2'); +INSERT INTO PKTABLE VALUES (2, 4, 'Test2'); +INSERT INTO PKTABLE VALUES (3, 6, 'Test3'); +INSERT INTO PKTABLE VALUES (4, 8, 'Test4'); +INSERT INTO PKTABLE VALUES (5, 10, 'Test5'); + +-- Insert successful rows into FK TABLE +INSERT INTO FKTABLE VALUES (1, 2, 4); +INSERT INTO FKTABLE VALUES (1, 3, 5); +INSERT INTO FKTABLE VALUES (2, 4, 8); +INSERT INTO FKTABLE VALUES (3, 6, 12); +INSERT INTO FKTABLE VALUES (NULL, NULL, 0); + +-- Insert failed rows into FK TABLE +INSERT INTO FKTABLE VALUES (100, 2, 4); +INSERT INTO FKTABLE VALUES (2, 2, 4); +INSERT INTO FKTABLE VALUES (NULL, 2, 4); +INSERT INTO FKTABLE VALUES (1, NULL, 4); + +-- Check FKTABLE +SELECT * FROM FKTABLE; + +-- Delete a row from PK TABLE +DELETE FROM PKTABLE WHERE ptest1=1 and ptest2=2; + +-- Check FKTABLE to check for removal +SELECT * FROM FKTABLE; + +-- Delete another row from PK TABLE +DELETE FROM PKTABLE WHERE ptest1=5 and ptest2=10; + +-- Check FKTABLE (should be no change) +SELECT * FROM FKTABLE; + +-- Update a row from PK TABLE +UPDATE PKTABLE SET ptest1=1 WHERE ptest1=2; + +-- Check FKTABLE for update of matched row +SELECT * FROM FKTABLE; + +-- this should fail for lack of CASCADE +DROP TABLE PKTABLE; +DROP TABLE PKTABLE CASCADE; +DROP TABLE FKTABLE; + + +-- +-- First test, check with no on delete or on update +-- +CREATE TABLE PKTABLE ( ptest1 int PRIMARY KEY, ptest2 text ); +CREATE TABLE FKTABLE ( ftest1 int REFERENCES PKTABLE MATCH FULL, ftest2 int ); + +-- Insert test data into PKTABLE +INSERT INTO PKTABLE VALUES (1, 'Test1'); +INSERT INTO PKTABLE VALUES (2, 'Test2'); +INSERT INTO PKTABLE VALUES (3, 'Test3'); +INSERT INTO PKTABLE VALUES (4, 'Test4'); +INSERT INTO PKTABLE VALUES (5, 'Test5'); + +-- Insert successful rows into FK TABLE +INSERT INTO FKTABLE VALUES (1, 2); +INSERT INTO FKTABLE VALUES (2, 3); +INSERT INTO FKTABLE VALUES (3, 4); +INSERT INTO FKTABLE VALUES (NULL, 1); + +-- Insert a failed row into FK TABLE +INSERT INTO FKTABLE VALUES (100, 2); + +-- Check FKTABLE +SELECT * FROM FKTABLE; + +-- Check PKTABLE +SELECT * FROM PKTABLE; + +-- Delete a row from PK TABLE (should fail) +DELETE FROM PKTABLE WHERE ptest1=1; + +-- Delete a row from PK TABLE (should succeed) +DELETE FROM PKTABLE WHERE ptest1=5; + +-- Check PKTABLE for deletes +SELECT * FROM PKTABLE; + +-- Update a row from PK TABLE (should fail) +UPDATE PKTABLE SET ptest1=0 WHERE ptest1=2; + +-- Update a row from PK TABLE (should succeed) +UPDATE PKTABLE SET ptest1=0 WHERE ptest1=4; + +-- Check PKTABLE for updates +SELECT * FROM PKTABLE; + +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +-- +-- Check initial check upon ALTER TABLE +-- +CREATE TABLE PKTABLE ( ptest1 int, ptest2 int, PRIMARY KEY(ptest1, ptest2) ); +CREATE TABLE FKTABLE ( ftest1 int, ftest2 int ); + +INSERT INTO PKTABLE VALUES (1, 2); +INSERT INTO FKTABLE VALUES (1, NULL); + +ALTER TABLE FKTABLE ADD FOREIGN KEY(ftest1, ftest2) REFERENCES PKTABLE MATCH FULL; + +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + + +-- MATCH SIMPLE + +-- Base test restricting update/delete +CREATE TABLE PKTABLE ( ptest1 int, ptest2 int, ptest3 int, ptest4 text, PRIMARY KEY(ptest1, ptest2, ptest3) ); +CREATE TABLE FKTABLE ( ftest1 int, ftest2 int, ftest3 int, ftest4 int, CONSTRAINT constrname3 + FOREIGN KEY(ftest1, ftest2, ftest3) REFERENCES PKTABLE); + +-- Insert Primary Key values +INSERT INTO PKTABLE VALUES (1, 2, 3, 'test1'); +INSERT INTO PKTABLE VALUES (1, 3, 3, 'test2'); +INSERT INTO PKTABLE VALUES (2, 3, 4, 'test3'); +INSERT INTO PKTABLE VALUES (2, 4, 5, 'test4'); + +-- Insert Foreign Key values +INSERT INTO FKTABLE VALUES (1, 2, 3, 1); +INSERT INTO FKTABLE VALUES (NULL, 2, 3, 2); +INSERT INTO FKTABLE VALUES (2, NULL, 3, 3); +INSERT INTO FKTABLE VALUES (NULL, 2, 7, 4); +INSERT INTO FKTABLE VALUES (NULL, 3, 4, 5); + +-- Insert a failed values +INSERT INTO FKTABLE VALUES (1, 2, 7, 6); + +-- Show FKTABLE +SELECT * from FKTABLE; + +-- Try to update something that should fail +UPDATE PKTABLE set ptest2=5 where ptest2=2; + +-- Try to update something that should succeed +UPDATE PKTABLE set ptest1=1 WHERE ptest2=3; + +-- Try to delete something that should fail +DELETE FROM PKTABLE where ptest1=1 and ptest2=2 and ptest3=3; + +-- Try to delete something that should work +DELETE FROM PKTABLE where ptest1=2; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; + +SELECT * from FKTABLE; + +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +-- restrict with null values +CREATE TABLE PKTABLE ( ptest1 int, ptest2 int, ptest3 int, ptest4 text, UNIQUE(ptest1, ptest2, ptest3) ); +CREATE TABLE FKTABLE ( ftest1 int, ftest2 int, ftest3 int, ftest4 int, CONSTRAINT constrname3 + FOREIGN KEY(ftest1, ftest2, ftest3) REFERENCES PKTABLE (ptest1, ptest2, ptest3)); + +INSERT INTO PKTABLE VALUES (1, 2, 3, 'test1'); +INSERT INTO PKTABLE VALUES (1, 3, NULL, 'test2'); +INSERT INTO PKTABLE VALUES (2, NULL, 4, 'test3'); + +INSERT INTO FKTABLE VALUES (1, 2, 3, 1); + +DELETE FROM PKTABLE WHERE ptest1 = 2; + +SELECT * FROM PKTABLE; +SELECT * FROM FKTABLE; + +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +-- cascade update/delete +CREATE TABLE PKTABLE ( ptest1 int, ptest2 int, ptest3 int, ptest4 text, PRIMARY KEY(ptest1, ptest2, ptest3) ); +CREATE TABLE FKTABLE ( ftest1 int, ftest2 int, ftest3 int, ftest4 int, CONSTRAINT constrname3 + FOREIGN KEY(ftest1, ftest2, ftest3) REFERENCES PKTABLE + ON DELETE CASCADE ON UPDATE CASCADE); + +-- Insert Primary Key values +INSERT INTO PKTABLE VALUES (1, 2, 3, 'test1'); +INSERT INTO PKTABLE VALUES (1, 3, 3, 'test2'); +INSERT INTO PKTABLE VALUES (2, 3, 4, 'test3'); +INSERT INTO PKTABLE VALUES (2, 4, 5, 'test4'); + +-- Insert Foreign Key values +INSERT INTO FKTABLE VALUES (1, 2, 3, 1); +INSERT INTO FKTABLE VALUES (NULL, 2, 3, 2); +INSERT INTO FKTABLE VALUES (2, NULL, 3, 3); +INSERT INTO FKTABLE VALUES (NULL, 2, 7, 4); +INSERT INTO FKTABLE VALUES (NULL, 3, 4, 5); + +-- Insert a failed values +INSERT INTO FKTABLE VALUES (1, 2, 7, 6); + +-- Show FKTABLE +SELECT * from FKTABLE; + +-- Try to update something that will cascade +UPDATE PKTABLE set ptest2=5 where ptest2=2; + +-- Try to update something that should not cascade +UPDATE PKTABLE set ptest1=1 WHERE ptest2=3; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +-- Try to delete something that should cascade +DELETE FROM PKTABLE where ptest1=1 and ptest2=5 and ptest3=3; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +-- Try to delete something that should not have a cascade +DELETE FROM PKTABLE where ptest1=2; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +-- set null update / set default delete +CREATE TABLE PKTABLE ( ptest1 int, ptest2 int, ptest3 int, ptest4 text, PRIMARY KEY(ptest1, ptest2, ptest3) ); +CREATE TABLE FKTABLE ( ftest1 int DEFAULT 0, ftest2 int, ftest3 int, ftest4 int, CONSTRAINT constrname3 + FOREIGN KEY(ftest1, ftest2, ftest3) REFERENCES PKTABLE + ON DELETE SET DEFAULT ON UPDATE SET NULL); + +-- Insert Primary Key values +INSERT INTO PKTABLE VALUES (1, 2, 3, 'test1'); +INSERT INTO PKTABLE VALUES (1, 3, 3, 'test2'); +INSERT INTO PKTABLE VALUES (2, 3, 4, 'test3'); +INSERT INTO PKTABLE VALUES (2, 4, 5, 'test4'); + +-- Insert Foreign Key values +INSERT INTO FKTABLE VALUES (1, 2, 3, 1); +INSERT INTO FKTABLE VALUES (2, 3, 4, 1); +INSERT INTO FKTABLE VALUES (NULL, 2, 3, 2); +INSERT INTO FKTABLE VALUES (2, NULL, 3, 3); +INSERT INTO FKTABLE VALUES (NULL, 2, 7, 4); +INSERT INTO FKTABLE VALUES (NULL, 3, 4, 5); + +-- Insert a failed values +INSERT INTO FKTABLE VALUES (1, 2, 7, 6); + +-- Show FKTABLE +SELECT * from FKTABLE; + +-- Try to update something that will set null +UPDATE PKTABLE set ptest2=5 where ptest2=2; + +-- Try to update something that should not set null +UPDATE PKTABLE set ptest2=2 WHERE ptest2=3 and ptest1=1; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +-- Try to delete something that should set default +DELETE FROM PKTABLE where ptest1=2 and ptest2=3 and ptest3=4; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +-- Try to delete something that should not set default +DELETE FROM PKTABLE where ptest2=5; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +-- set default update / set null delete +CREATE TABLE PKTABLE ( ptest1 int, ptest2 int, ptest3 int, ptest4 text, PRIMARY KEY(ptest1, ptest2, ptest3) ); +CREATE TABLE FKTABLE ( ftest1 int DEFAULT 0, ftest2 int DEFAULT -1, ftest3 int DEFAULT -2, ftest4 int, CONSTRAINT constrname3 + FOREIGN KEY(ftest1, ftest2, ftest3) REFERENCES PKTABLE + ON DELETE SET NULL ON UPDATE SET DEFAULT); + +-- Insert Primary Key values +INSERT INTO PKTABLE VALUES (1, 2, 3, 'test1'); +INSERT INTO PKTABLE VALUES (1, 3, 3, 'test2'); +INSERT INTO PKTABLE VALUES (2, 3, 4, 'test3'); +INSERT INTO PKTABLE VALUES (2, 4, 5, 'test4'); +INSERT INTO PKTABLE VALUES (2, -1, 5, 'test5'); + +-- Insert Foreign Key values +INSERT INTO FKTABLE VALUES (1, 2, 3, 1); +INSERT INTO FKTABLE VALUES (2, 3, 4, 1); +INSERT INTO FKTABLE VALUES (2, 4, 5, 1); +INSERT INTO FKTABLE VALUES (NULL, 2, 3, 2); +INSERT INTO FKTABLE VALUES (2, NULL, 3, 3); +INSERT INTO FKTABLE VALUES (NULL, 2, 7, 4); +INSERT INTO FKTABLE VALUES (NULL, 3, 4, 5); + +-- Insert a failed values +INSERT INTO FKTABLE VALUES (1, 2, 7, 6); + +-- Show FKTABLE +SELECT * from FKTABLE; + +-- Try to update something that will fail +UPDATE PKTABLE set ptest2=5 where ptest2=2; + +-- Try to update something that will set default +UPDATE PKTABLE set ptest1=0, ptest2=-1, ptest3=-2 where ptest2=2; +UPDATE PKTABLE set ptest2=10 where ptest2=4; + +-- Try to update something that should not set default +UPDATE PKTABLE set ptest2=2 WHERE ptest2=3 and ptest1=1; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +-- Try to delete something that should set null +DELETE FROM PKTABLE where ptest1=2 and ptest2=3 and ptest3=4; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +-- Try to delete something that should not set null +DELETE FROM PKTABLE where ptest2=-1 and ptest3=5; + +-- Show PKTABLE and FKTABLE +SELECT * from PKTABLE; +SELECT * from FKTABLE; + +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +CREATE TABLE PKTABLE (ptest1 int PRIMARY KEY); +CREATE TABLE FKTABLE_FAIL1 ( ftest1 int, CONSTRAINT fkfail1 FOREIGN KEY (ftest2) REFERENCES PKTABLE); +CREATE TABLE FKTABLE_FAIL2 ( ftest1 int, CONSTRAINT fkfail1 FOREIGN KEY (ftest1) REFERENCES PKTABLE(ptest2)); + +DROP TABLE FKTABLE_FAIL1; +DROP TABLE FKTABLE_FAIL2; +DROP TABLE PKTABLE; + +-- Test for referencing column number smaller than referenced constraint +CREATE TABLE PKTABLE (ptest1 int, ptest2 int, UNIQUE(ptest1, ptest2)); +CREATE TABLE FKTABLE_FAIL1 (ftest1 int REFERENCES pktable(ptest1)); + +DROP TABLE FKTABLE_FAIL1; +DROP TABLE PKTABLE; + +-- +-- Tests for mismatched types +-- +-- Basic one column, two table setup +CREATE TABLE PKTABLE (ptest1 int PRIMARY KEY); +INSERT INTO PKTABLE VALUES(42); +-- This next should fail, because int=inet does not exist +CREATE TABLE FKTABLE (ftest1 inet REFERENCES pktable); +-- This should also fail for the same reason, but here we +-- give the column name +CREATE TABLE FKTABLE (ftest1 inet REFERENCES pktable(ptest1)); +-- This should succeed, even though they are different types, +-- because int=int8 exists and is a member of the integer opfamily +CREATE TABLE FKTABLE (ftest1 int8 REFERENCES pktable); +-- Check it actually works +INSERT INTO FKTABLE VALUES(42); -- should succeed +INSERT INTO FKTABLE VALUES(43); -- should fail +UPDATE FKTABLE SET ftest1 = ftest1; -- should succeed +UPDATE FKTABLE SET ftest1 = ftest1 + 1; -- should fail +DROP TABLE FKTABLE; +-- This should fail, because we'd have to cast numeric to int which is +-- not an implicit coercion (or use numeric=numeric, but that's not part +-- of the integer opfamily) +CREATE TABLE FKTABLE (ftest1 numeric REFERENCES pktable); +DROP TABLE PKTABLE; +-- On the other hand, this should work because int implicitly promotes to +-- numeric, and we allow promotion on the FK side +CREATE TABLE PKTABLE (ptest1 numeric PRIMARY KEY); +INSERT INTO PKTABLE VALUES(42); +CREATE TABLE FKTABLE (ftest1 int REFERENCES pktable); +-- Check it actually works +INSERT INTO FKTABLE VALUES(42); -- should succeed +INSERT INTO FKTABLE VALUES(43); -- should fail +UPDATE FKTABLE SET ftest1 = ftest1; -- should succeed +UPDATE FKTABLE SET ftest1 = ftest1 + 1; -- should fail +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +-- Two columns, two tables +CREATE TABLE PKTABLE (ptest1 int, ptest2 inet, PRIMARY KEY(ptest1, ptest2)); +-- This should fail, because we just chose really odd types +CREATE TABLE FKTABLE (ftest1 cidr, ftest2 timestamp, FOREIGN KEY(ftest1, ftest2) REFERENCES pktable); +-- Again, so should this... +CREATE TABLE FKTABLE (ftest1 cidr, ftest2 timestamp, FOREIGN KEY(ftest1, ftest2) REFERENCES pktable(ptest1, ptest2)); +-- This fails because we mixed up the column ordering +CREATE TABLE FKTABLE (ftest1 int, ftest2 inet, FOREIGN KEY(ftest2, ftest1) REFERENCES pktable); +-- As does this... +CREATE TABLE FKTABLE (ftest1 int, ftest2 inet, FOREIGN KEY(ftest2, ftest1) REFERENCES pktable(ptest1, ptest2)); +-- And again.. +CREATE TABLE FKTABLE (ftest1 int, ftest2 inet, FOREIGN KEY(ftest1, ftest2) REFERENCES pktable(ptest2, ptest1)); +-- This works... +CREATE TABLE FKTABLE (ftest1 int, ftest2 inet, FOREIGN KEY(ftest2, ftest1) REFERENCES pktable(ptest2, ptest1)); +DROP TABLE FKTABLE; +-- As does this +CREATE TABLE FKTABLE (ftest1 int, ftest2 inet, FOREIGN KEY(ftest1, ftest2) REFERENCES pktable(ptest1, ptest2)); +DROP TABLE FKTABLE; +DROP TABLE PKTABLE; + +-- Two columns, same table +-- Make sure this still works... +CREATE TABLE PKTABLE (ptest1 int, ptest2 inet, ptest3 int, ptest4 inet, PRIMARY KEY(ptest1, ptest2), FOREIGN KEY(ptest3, +ptest4) REFERENCES pktable(ptest1, ptest2)); +DROP TABLE PKTABLE; +-- And this, +CREATE TABLE PKTABLE (ptest1 int, ptest2 inet, ptest3 int, ptest4 inet, PRIMARY KEY(ptest1, ptest2), FOREIGN KEY(ptest3, +ptest4) REFERENCES pktable); +DROP TABLE PKTABLE; +-- This shouldn't (mixed up columns) +CREATE TABLE PKTABLE (ptest1 int, ptest2 inet, ptest3 int, ptest4 inet, PRIMARY KEY(ptest1, ptest2), FOREIGN KEY(ptest3, +ptest4) REFERENCES pktable(ptest2, ptest1)); +-- Nor should this... (same reason, we have 4,3 referencing 1,2 which mismatches types +CREATE TABLE PKTABLE (ptest1 int, ptest2 inet, ptest3 int, ptest4 inet, PRIMARY KEY(ptest1, ptest2), FOREIGN KEY(ptest4, +ptest3) REFERENCES pktable(ptest1, ptest2)); +-- Not this one either... Same as the last one except we didn't defined the columns being referenced. +CREATE TABLE PKTABLE (ptest1 int, ptest2 inet, ptest3 int, ptest4 inet, PRIMARY KEY(ptest1, ptest2), FOREIGN KEY(ptest4, +ptest3) REFERENCES pktable); + +-- +-- Now some cases with inheritance +-- Basic 2 table case: 1 column of matching types. +create table pktable_base (base1 int not null); +create table pktable (ptest1 int, primary key(base1), unique(base1, ptest1)) inherits (pktable_base); +create table fktable (ftest1 int references pktable(base1)); +-- now some ins, upd, del +insert into pktable(base1) values (1); +insert into pktable(base1) values (2); +-- let's insert a non-existent fktable value +insert into fktable(ftest1) values (3); +-- let's make a valid row for that +insert into pktable(base1) values (3); +insert into fktable(ftest1) values (3); +-- let's try removing a row that should fail from pktable +delete from pktable where base1>2; +-- okay, let's try updating all of the base1 values to *4 +-- which should fail. +update pktable set base1=base1*4; +-- okay, let's try an update that should work. +update pktable set base1=base1*4 where base1<3; +-- and a delete that should work +delete from pktable where base1>3; +-- cleanup +drop table fktable; +delete from pktable; + +-- Now 2 columns 2 tables, matching types +create table fktable (ftest1 int, ftest2 int, foreign key(ftest1, ftest2) references pktable(base1, ptest1)); +-- now some ins, upd, del +insert into pktable(base1, ptest1) values (1, 1); +insert into pktable(base1, ptest1) values (2, 2); +-- let's insert a non-existent fktable value +insert into fktable(ftest1, ftest2) values (3, 1); +-- let's make a valid row for that +insert into pktable(base1,ptest1) values (3, 1); +insert into fktable(ftest1, ftest2) values (3, 1); +-- let's try removing a row that should fail from pktable +delete from pktable where base1>2; +-- okay, let's try updating all of the base1 values to *4 +-- which should fail. +update pktable set base1=base1*4; +-- okay, let's try an update that should work. +update pktable set base1=base1*4 where base1<3; +-- and a delete that should work +delete from pktable where base1>3; +-- cleanup +drop table fktable; +drop table pktable; +drop table pktable_base; + +-- Now we'll do one all in 1 table with 2 columns of matching types +create table pktable_base(base1 int not null, base2 int); +create table pktable(ptest1 int, ptest2 int, primary key(base1, ptest1), foreign key(base2, ptest2) references + pktable(base1, ptest1)) inherits (pktable_base); +insert into pktable (base1, ptest1, base2, ptest2) values (1, 1, 1, 1); +insert into pktable (base1, ptest1, base2, ptest2) values (2, 1, 1, 1); +insert into pktable (base1, ptest1, base2, ptest2) values (2, 2, 2, 1); +insert into pktable (base1, ptest1, base2, ptest2) values (1, 3, 2, 2); +-- fails (3,2) isn't in base1, ptest1 +insert into pktable (base1, ptest1, base2, ptest2) values (2, 3, 3, 2); +-- fails (2,2) is being referenced +delete from pktable where base1=2; +-- fails (1,1) is being referenced (twice) +update pktable set base1=3 where base1=1; +-- this sequence of two deletes will work, since after the first there will be no (2,*) references +delete from pktable where base2=2; +delete from pktable where base1=2; +drop table pktable; +drop table pktable_base; + +-- 2 columns (2 tables), mismatched types +create table pktable_base(base1 int not null); +create table pktable(ptest1 inet, primary key(base1, ptest1)) inherits (pktable_base); +-- just generally bad types (with and without column references on the referenced table) +create table fktable(ftest1 cidr, ftest2 int[], foreign key (ftest1, ftest2) references pktable); +create table fktable(ftest1 cidr, ftest2 int[], foreign key (ftest1, ftest2) references pktable(base1, ptest1)); +-- let's mix up which columns reference which +create table fktable(ftest1 int, ftest2 inet, foreign key(ftest2, ftest1) references pktable); +create table fktable(ftest1 int, ftest2 inet, foreign key(ftest2, ftest1) references pktable(base1, ptest1)); +create table fktable(ftest1 int, ftest2 inet, foreign key(ftest1, ftest2) references pktable(ptest1, base1)); +drop table pktable; +drop table pktable_base; + +-- 2 columns (1 table), mismatched types +create table pktable_base(base1 int not null, base2 int); +create table pktable(ptest1 inet, ptest2 inet[], primary key(base1, ptest1), foreign key(base2, ptest2) references + pktable(base1, ptest1)) inherits (pktable_base); +create table pktable(ptest1 inet, ptest2 inet, primary key(base1, ptest1), foreign key(base2, ptest2) references + pktable(ptest1, base1)) inherits (pktable_base); +create table pktable(ptest1 inet, ptest2 inet, primary key(base1, ptest1), foreign key(ptest2, base2) references + pktable(base1, ptest1)) inherits (pktable_base); +create table pktable(ptest1 inet, ptest2 inet, primary key(base1, ptest1), foreign key(ptest2, base2) references + pktable(base1, ptest1)) inherits (pktable_base); +drop table pktable; +drop table pktable_base; + +-- +-- Deferrable constraints +-- + +-- deferrable, explicitly deferred +CREATE TABLE pktable ( + id INT4 PRIMARY KEY, + other INT4 +); + +CREATE TABLE fktable ( + id INT4 PRIMARY KEY, + fk INT4 REFERENCES pktable DEFERRABLE +); + +-- default to immediate: should fail +INSERT INTO fktable VALUES (5, 10); + +-- explicitly defer the constraint +BEGIN; + +SET CONSTRAINTS ALL DEFERRED; + +INSERT INTO fktable VALUES (10, 15); +INSERT INTO pktable VALUES (15, 0); -- make the FK insert valid + +COMMIT; + +DROP TABLE fktable, pktable; + +-- deferrable, initially deferred +CREATE TABLE pktable ( + id INT4 PRIMARY KEY, + other INT4 +); + +CREATE TABLE fktable ( + id INT4 PRIMARY KEY, + fk INT4 REFERENCES pktable DEFERRABLE INITIALLY DEFERRED +); + +-- default to deferred, should succeed +BEGIN; + +INSERT INTO fktable VALUES (100, 200); +INSERT INTO pktable VALUES (200, 500); -- make the FK insert valid + +COMMIT; + +-- default to deferred, explicitly make immediate +BEGIN; + +SET CONSTRAINTS ALL IMMEDIATE; + +-- should fail +INSERT INTO fktable VALUES (500, 1000); + +COMMIT; + +DROP TABLE fktable, pktable; + +-- tricky behavior: according to SQL99, if a deferred constraint is set +-- to 'immediate' mode, it should be checked for validity *immediately*, +-- not when the current transaction commits (i.e. the mode change applies +-- retroactively) +CREATE TABLE pktable ( + id INT4 PRIMARY KEY, + other INT4 +); + +CREATE TABLE fktable ( + id INT4 PRIMARY KEY, + fk INT4 REFERENCES pktable DEFERRABLE +); + +BEGIN; + +SET CONSTRAINTS ALL DEFERRED; + +-- should succeed, for now +INSERT INTO fktable VALUES (1000, 2000); + +-- should cause transaction abort, due to preceding error +SET CONSTRAINTS ALL IMMEDIATE; + +INSERT INTO pktable VALUES (2000, 3); -- too late + +COMMIT; + +DROP TABLE fktable, pktable; + +-- deferrable, initially deferred +CREATE TABLE pktable ( + id INT4 PRIMARY KEY, + other INT4 +); + +CREATE TABLE fktable ( + id INT4 PRIMARY KEY, + fk INT4 REFERENCES pktable DEFERRABLE INITIALLY DEFERRED +); + +BEGIN; + +-- no error here +INSERT INTO fktable VALUES (100, 200); + +-- error here on commit +COMMIT; + +DROP TABLE pktable, fktable; + +-- test notice about expensive referential integrity checks, +-- where the index cannot be used because of type incompatibilities. + +CREATE TEMP TABLE pktable ( + id1 INT4 PRIMARY KEY, + id2 VARCHAR(4) UNIQUE, + id3 REAL UNIQUE, + UNIQUE(id1, id2, id3) +); + +CREATE TEMP TABLE fktable ( + x1 INT4 REFERENCES pktable(id1), + x2 VARCHAR(4) REFERENCES pktable(id2), + x3 REAL REFERENCES pktable(id3), + x4 TEXT, + x5 INT2 +); + +-- check individual constraints with alter table. + +-- should fail + +-- varchar does not promote to real +ALTER TABLE fktable ADD CONSTRAINT fk_2_3 +FOREIGN KEY (x2) REFERENCES pktable(id3); + +-- nor to int4 +ALTER TABLE fktable ADD CONSTRAINT fk_2_1 +FOREIGN KEY (x2) REFERENCES pktable(id1); + +-- real does not promote to int4 +ALTER TABLE fktable ADD CONSTRAINT fk_3_1 +FOREIGN KEY (x3) REFERENCES pktable(id1); + +-- int4 does not promote to text +ALTER TABLE fktable ADD CONSTRAINT fk_1_2 +FOREIGN KEY (x1) REFERENCES pktable(id2); + +-- should succeed + +-- int4 promotes to real +ALTER TABLE fktable ADD CONSTRAINT fk_1_3 +FOREIGN KEY (x1) REFERENCES pktable(id3); + +-- text is compatible with varchar +ALTER TABLE fktable ADD CONSTRAINT fk_4_2 +FOREIGN KEY (x4) REFERENCES pktable(id2); + +-- int2 is part of integer opfamily as of 8.0 +ALTER TABLE fktable ADD CONSTRAINT fk_5_1 +FOREIGN KEY (x5) REFERENCES pktable(id1); + +-- check multikey cases, especially out-of-order column lists + +-- these should work + +ALTER TABLE fktable ADD CONSTRAINT fk_123_123 +FOREIGN KEY (x1,x2,x3) REFERENCES pktable(id1,id2,id3); + +ALTER TABLE fktable ADD CONSTRAINT fk_213_213 +FOREIGN KEY (x2,x1,x3) REFERENCES pktable(id2,id1,id3); + +ALTER TABLE fktable ADD CONSTRAINT fk_253_213 +FOREIGN KEY (x2,x5,x3) REFERENCES pktable(id2,id1,id3); + +-- these should fail + +ALTER TABLE fktable ADD CONSTRAINT fk_123_231 +FOREIGN KEY (x1,x2,x3) REFERENCES pktable(id2,id3,id1); + +ALTER TABLE fktable ADD CONSTRAINT fk_241_132 +FOREIGN KEY (x2,x4,x1) REFERENCES pktable(id1,id3,id2); + +DROP TABLE pktable, fktable; + +-- test a tricky case: we can elide firing the FK check trigger during +-- an UPDATE if the UPDATE did not change the foreign key +-- field. However, we can't do this if our transaction was the one that +-- created the updated row and the trigger is deferred, since our UPDATE +-- will have invalidated the original newly-inserted tuple, and therefore +-- cause the on-INSERT RI trigger not to be fired. + +CREATE TEMP TABLE pktable ( + id int primary key, + other int +); + +CREATE TEMP TABLE fktable ( + id int primary key, + fk int references pktable deferrable initially deferred +); + +INSERT INTO pktable VALUES (5, 10); + +BEGIN; + +-- doesn't match PK, but no error yet +INSERT INTO fktable VALUES (0, 20); + +-- don't change FK +UPDATE fktable SET id = id + 1; + +-- should catch error from initial INSERT +COMMIT; + +-- check same case when insert is in a different subtransaction than update + +BEGIN; + +-- doesn't match PK, but no error yet +INSERT INTO fktable VALUES (0, 20); + +-- UPDATE will be in a subxact +SAVEPOINT savept1; + +-- don't change FK +UPDATE fktable SET id = id + 1; + +-- should catch error from initial INSERT +COMMIT; + +BEGIN; + +-- INSERT will be in a subxact +SAVEPOINT savept1; + +-- doesn't match PK, but no error yet +INSERT INTO fktable VALUES (0, 20); + +RELEASE SAVEPOINT savept1; + +-- don't change FK +UPDATE fktable SET id = id + 1; + +-- should catch error from initial INSERT +COMMIT; + +BEGIN; + +-- doesn't match PK, but no error yet +INSERT INTO fktable VALUES (0, 20); + +-- UPDATE will be in a subxact +SAVEPOINT savept1; + +-- don't change FK +UPDATE fktable SET id = id + 1; + +-- Roll back the UPDATE +ROLLBACK TO savept1; + +-- should catch error from initial INSERT +COMMIT; + +-- +-- check ALTER CONSTRAINT +-- + +INSERT INTO fktable VALUES (1, 5); + +ALTER TABLE fktable ALTER CONSTRAINT fktable_fk_fkey DEFERRABLE INITIALLY IMMEDIATE; + +BEGIN; + +-- doesn't match FK, should throw error now +UPDATE pktable SET id = 10 WHERE id = 5; + +COMMIT; + +BEGIN; + +-- doesn't match PK, should throw error now +INSERT INTO fktable VALUES (0, 20); + +COMMIT; + +-- try additional syntax +ALTER TABLE fktable ALTER CONSTRAINT fktable_fk_fkey NOT DEFERRABLE; +-- illegal option +ALTER TABLE fktable ALTER CONSTRAINT fktable_fk_fkey NOT DEFERRABLE INITIALLY DEFERRED; + +-- test order of firing of FK triggers when several RI-induced changes need to +-- be made to the same row. This was broken by subtransaction-related +-- changes in 8.0. + +CREATE TEMP TABLE users ( + id INT PRIMARY KEY, + name VARCHAR NOT NULL +); + +INSERT INTO users VALUES (1, 'Jozko'); +INSERT INTO users VALUES (2, 'Ferko'); +INSERT INTO users VALUES (3, 'Samko'); + +CREATE TEMP TABLE tasks ( + id INT PRIMARY KEY, + owner INT REFERENCES users ON UPDATE CASCADE ON DELETE SET NULL, + worker INT REFERENCES users ON UPDATE CASCADE ON DELETE SET NULL, + checked_by INT REFERENCES users ON UPDATE CASCADE ON DELETE SET NULL +); + +INSERT INTO tasks VALUES (1,1,NULL,NULL); +INSERT INTO tasks VALUES (2,2,2,NULL); +INSERT INTO tasks VALUES (3,3,3,3); + +SELECT * FROM tasks; + +UPDATE users SET id = 4 WHERE id = 3; + +SELECT * FROM tasks; + +DELETE FROM users WHERE id = 4; + +SELECT * FROM tasks; + +-- could fail with only 2 changes to make, if row was already updated +BEGIN; +UPDATE tasks set id=id WHERE id=2; +SELECT * FROM tasks; +DELETE FROM users WHERE id = 2; +SELECT * FROM tasks; +COMMIT; + +-- +-- Test self-referential FK with CASCADE (bug #6268) +-- +create temp table selfref ( + a int primary key, + b int, + foreign key (b) references selfref (a) + on update cascade on delete cascade +); + +insert into selfref (a, b) +values + (0, 0), + (1, 1); + +begin; + update selfref set a = 123 where a = 0; + select a, b from selfref; + update selfref set a = 456 where a = 123; + select a, b from selfref; +commit; + +-- +-- Test that SET DEFAULT actions recognize updates to default values +-- +create temp table defp (f1 int primary key); +create temp table defc (f1 int default 0 + references defp on delete set default); +insert into defp values (0), (1), (2); +insert into defc values (2); +select * from defc; +delete from defp where f1 = 2; +select * from defc; +delete from defp where f1 = 0; -- fail +alter table defc alter column f1 set default 1; +delete from defp where f1 = 0; +select * from defc; +delete from defp where f1 = 1; -- fail + +-- +-- Test the difference between NO ACTION and RESTRICT +-- +create temp table pp (f1 int primary key); +create temp table cc (f1 int references pp on update no action on delete no action); +insert into pp values(12); +insert into pp values(11); +update pp set f1=f1+1; +insert into cc values(13); +update pp set f1=f1+1; +update pp set f1=f1+1; -- fail +delete from pp where f1 = 13; -- fail +drop table pp, cc; + +create temp table pp (f1 int primary key); +create temp table cc (f1 int references pp on update restrict on delete restrict); +insert into pp values(12); +insert into pp values(11); +update pp set f1=f1+1; +insert into cc values(13); +update pp set f1=f1+1; -- fail +delete from pp where f1 = 13; -- fail +drop table pp, cc; + +-- +-- Test interaction of foreign-key optimization with rules (bug #14219) +-- +create temp table t1 (a integer primary key, b text); +create temp table t2 (a integer primary key, b integer references t1); +create rule r1 as on delete to t1 do delete from t2 where t2.b = old.a; + +explain (costs off) delete from t1 where a = 1; +delete from t1 where a = 1; + +-- Test a primary key with attributes located in later attnum positions +-- compared to the fk attributes. +create table pktable2 (a int, b int, c int, d int, e int, primary key (d, e)); +create table fktable2 (d int, e int, foreign key (d, e) references pktable2); +insert into pktable2 values (1, 2, 3, 4, 5); +insert into fktable2 values (4, 5); +delete from pktable2; +update pktable2 set d = 5; +drop table pktable2, fktable2; + +-- Test truncation of long foreign key names +create table pktable1 (a int primary key); +create table pktable2 (a int, b int, primary key (a, b)); +create table fktable2 ( + a int, + b int, + very_very_long_column_name_to_exceed_63_characters int, + foreign key (very_very_long_column_name_to_exceed_63_characters) references pktable1, + foreign key (a, very_very_long_column_name_to_exceed_63_characters) references pktable2, + foreign key (a, very_very_long_column_name_to_exceed_63_characters) references pktable2 +); +select conname from pg_constraint where conrelid = 'fktable2'::regclass order by conname; +drop table pktable1, pktable2, fktable2; + +-- +-- Test deferred FK check on a tuple deleted by a rolled-back subtransaction +-- +create table pktable2(f1 int primary key); +create table fktable2(f1 int references pktable2 deferrable initially deferred); +insert into pktable2 values(1); + +begin; +insert into fktable2 values(1); +savepoint x; +delete from fktable2; +rollback to x; +commit; + +begin; +insert into fktable2 values(2); +savepoint x; +delete from fktable2; +rollback to x; +commit; -- fail + +-- +-- Test that we prevent dropping FK constraint with pending trigger events +-- +begin; +insert into fktable2 values(2); +alter table fktable2 drop constraint fktable2_f1_fkey; +commit; + +begin; +delete from pktable2 where f1 = 1; +alter table fktable2 drop constraint fktable2_f1_fkey; +commit; + +drop table pktable2, fktable2; + +-- +-- Test keys that "look" different but compare as equal +-- +create table pktable2 (a float8, b float8, primary key (a, b)); +create table fktable2 (x float8, y float8, foreign key (x, y) references pktable2 (a, b) on update cascade); + +insert into pktable2 values ('-0', '-0'); +insert into fktable2 values ('-0', '-0'); + +select * from pktable2; +select * from fktable2; + +update pktable2 set a = '0' where a = '-0'; + +select * from pktable2; +-- should have updated fktable2.x +select * from fktable2; + +drop table pktable2, fktable2; + + +-- +-- Foreign keys and partitioned tables +-- + +-- Creation of a partitioned hierarchy with irregular definitions +CREATE TABLE fk_notpartitioned_pk (fdrop1 int, a int, fdrop2 int, b int, + PRIMARY KEY (a, b)); +ALTER TABLE fk_notpartitioned_pk DROP COLUMN fdrop1, DROP COLUMN fdrop2; +CREATE TABLE fk_partitioned_fk (b int, fdrop1 int, a int) PARTITION BY RANGE (a, b); +ALTER TABLE fk_partitioned_fk DROP COLUMN fdrop1; +CREATE TABLE fk_partitioned_fk_1 (fdrop1 int, fdrop2 int, a int, fdrop3 int, b int); +ALTER TABLE fk_partitioned_fk_1 DROP COLUMN fdrop1, DROP COLUMN fdrop2, DROP COLUMN fdrop3; +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_1 FOR VALUES FROM (0,0) TO (1000,1000); +ALTER TABLE fk_partitioned_fk ADD FOREIGN KEY (a, b) REFERENCES fk_notpartitioned_pk; +CREATE TABLE fk_partitioned_fk_2 (b int, fdrop1 int, fdrop2 int, a int); +ALTER TABLE fk_partitioned_fk_2 DROP COLUMN fdrop1, DROP COLUMN fdrop2; +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_2 FOR VALUES FROM (1000,1000) TO (2000,2000); + +CREATE TABLE fk_partitioned_fk_3 (fdrop1 int, fdrop2 int, fdrop3 int, fdrop4 int, b int, a int) + PARTITION BY HASH (a); +ALTER TABLE fk_partitioned_fk_3 DROP COLUMN fdrop1, DROP COLUMN fdrop2, + DROP COLUMN fdrop3, DROP COLUMN fdrop4; +CREATE TABLE fk_partitioned_fk_3_0 PARTITION OF fk_partitioned_fk_3 FOR VALUES WITH (MODULUS 5, REMAINDER 0); +CREATE TABLE fk_partitioned_fk_3_1 PARTITION OF fk_partitioned_fk_3 FOR VALUES WITH (MODULUS 5, REMAINDER 1); +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_3 + FOR VALUES FROM (2000,2000) TO (3000,3000); + +-- Creating a foreign key with ONLY on a partitioned table referencing +-- a non-partitioned table fails. +ALTER TABLE ONLY fk_partitioned_fk ADD FOREIGN KEY (a, b) + REFERENCES fk_notpartitioned_pk; +-- Adding a NOT VALID foreign key on a partitioned table referencing +-- a non-partitioned table fails. +ALTER TABLE fk_partitioned_fk ADD FOREIGN KEY (a, b) + REFERENCES fk_notpartitioned_pk NOT VALID; + +-- these inserts, targeting both the partition directly as well as the +-- partitioned table, should all fail +INSERT INTO fk_partitioned_fk (a,b) VALUES (500, 501); +INSERT INTO fk_partitioned_fk_1 (a,b) VALUES (500, 501); +INSERT INTO fk_partitioned_fk (a,b) VALUES (1500, 1501); +INSERT INTO fk_partitioned_fk_2 (a,b) VALUES (1500, 1501); +INSERT INTO fk_partitioned_fk (a,b) VALUES (2500, 2502); +INSERT INTO fk_partitioned_fk_3 (a,b) VALUES (2500, 2502); +INSERT INTO fk_partitioned_fk (a,b) VALUES (2501, 2503); +INSERT INTO fk_partitioned_fk_3 (a,b) VALUES (2501, 2503); + +-- but if we insert the values that make them valid, then they work +INSERT INTO fk_notpartitioned_pk VALUES (500, 501), (1500, 1501), + (2500, 2502), (2501, 2503); +INSERT INTO fk_partitioned_fk (a,b) VALUES (500, 501); +INSERT INTO fk_partitioned_fk (a,b) VALUES (1500, 1501); +INSERT INTO fk_partitioned_fk (a,b) VALUES (2500, 2502); +INSERT INTO fk_partitioned_fk (a,b) VALUES (2501, 2503); + +-- this update fails because there is no referenced row +UPDATE fk_partitioned_fk SET a = a + 1 WHERE a = 2501; +-- but we can fix it thusly: +INSERT INTO fk_notpartitioned_pk (a,b) VALUES (2502, 2503); +UPDATE fk_partitioned_fk SET a = a + 1 WHERE a = 2501; + +-- these updates would leave lingering rows in the referencing table; disallow +UPDATE fk_notpartitioned_pk SET b = 502 WHERE a = 500; +UPDATE fk_notpartitioned_pk SET b = 1502 WHERE a = 1500; +UPDATE fk_notpartitioned_pk SET b = 2504 WHERE a = 2500; +-- check psql behavior +\d fk_notpartitioned_pk +ALTER TABLE fk_partitioned_fk DROP CONSTRAINT fk_partitioned_fk_a_b_fkey; +-- done. +DROP TABLE fk_notpartitioned_pk, fk_partitioned_fk; + +-- Altering a type referenced by a foreign key needs to drop/recreate the FK. +-- Ensure that works. +CREATE TABLE fk_notpartitioned_pk (a INT, PRIMARY KEY(a), CHECK (a > 0)); +CREATE TABLE fk_partitioned_fk (a INT REFERENCES fk_notpartitioned_pk(a) PRIMARY KEY) PARTITION BY RANGE(a); +CREATE TABLE fk_partitioned_fk_1 PARTITION OF fk_partitioned_fk FOR VALUES FROM (MINVALUE) TO (MAXVALUE); +INSERT INTO fk_notpartitioned_pk VALUES (1); +INSERT INTO fk_partitioned_fk VALUES (1); +ALTER TABLE fk_notpartitioned_pk ALTER COLUMN a TYPE bigint; +DELETE FROM fk_notpartitioned_pk WHERE a = 1; +DROP TABLE fk_notpartitioned_pk, fk_partitioned_fk; + +-- Test some other exotic foreign key features: MATCH SIMPLE, ON UPDATE/DELETE +-- actions +CREATE TABLE fk_notpartitioned_pk (a int, b int, primary key (a, b)); +CREATE TABLE fk_partitioned_fk (a int default 2501, b int default 142857) PARTITION BY LIST (a); +CREATE TABLE fk_partitioned_fk_1 PARTITION OF fk_partitioned_fk FOR VALUES IN (NULL,500,501,502); +ALTER TABLE fk_partitioned_fk ADD FOREIGN KEY (a, b) + REFERENCES fk_notpartitioned_pk MATCH SIMPLE + ON DELETE SET NULL ON UPDATE SET NULL; +CREATE TABLE fk_partitioned_fk_2 PARTITION OF fk_partitioned_fk FOR VALUES IN (1500,1502); +CREATE TABLE fk_partitioned_fk_3 (a int, b int); +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_3 FOR VALUES IN (2500,2501,2502,2503); + +-- this insert fails +INSERT INTO fk_partitioned_fk (a, b) VALUES (2502, 2503); +INSERT INTO fk_partitioned_fk_3 (a, b) VALUES (2502, 2503); +-- but since the FK is MATCH SIMPLE, this one doesn't +INSERT INTO fk_partitioned_fk_3 (a, b) VALUES (2502, NULL); +-- now create the referenced row ... +INSERT INTO fk_notpartitioned_pk VALUES (2502, 2503); +--- and now the same insert work +INSERT INTO fk_partitioned_fk_3 (a, b) VALUES (2502, 2503); +-- this always works +INSERT INTO fk_partitioned_fk (a,b) VALUES (NULL, NULL); + +-- MATCH FULL +INSERT INTO fk_notpartitioned_pk VALUES (1, 2); +CREATE TABLE fk_partitioned_fk_full (x int, y int) PARTITION BY RANGE (x); +CREATE TABLE fk_partitioned_fk_full_1 PARTITION OF fk_partitioned_fk_full DEFAULT; +INSERT INTO fk_partitioned_fk_full VALUES (1, NULL); +ALTER TABLE fk_partitioned_fk_full ADD FOREIGN KEY (x, y) REFERENCES fk_notpartitioned_pk MATCH FULL; -- fails +TRUNCATE fk_partitioned_fk_full; +ALTER TABLE fk_partitioned_fk_full ADD FOREIGN KEY (x, y) REFERENCES fk_notpartitioned_pk MATCH FULL; +INSERT INTO fk_partitioned_fk_full VALUES (1, NULL); -- fails +DROP TABLE fk_partitioned_fk_full; + +-- ON UPDATE SET NULL +SELECT tableoid::regclass, a, b FROM fk_partitioned_fk WHERE b IS NULL ORDER BY a; +UPDATE fk_notpartitioned_pk SET a = a + 1 WHERE a = 2502; +SELECT tableoid::regclass, a, b FROM fk_partitioned_fk WHERE b IS NULL ORDER BY a; + +-- ON DELETE SET NULL +INSERT INTO fk_partitioned_fk VALUES (2503, 2503); +SELECT count(*) FROM fk_partitioned_fk WHERE a IS NULL; +DELETE FROM fk_notpartitioned_pk; +SELECT count(*) FROM fk_partitioned_fk WHERE a IS NULL; + +-- ON UPDATE/DELETE SET DEFAULT +ALTER TABLE fk_partitioned_fk DROP CONSTRAINT fk_partitioned_fk_a_b_fkey; +ALTER TABLE fk_partitioned_fk ADD FOREIGN KEY (a, b) + REFERENCES fk_notpartitioned_pk + ON DELETE SET DEFAULT ON UPDATE SET DEFAULT; +INSERT INTO fk_notpartitioned_pk VALUES (2502, 2503); +INSERT INTO fk_partitioned_fk_3 (a, b) VALUES (2502, 2503); +-- this fails, because the defaults for the referencing table are not present +-- in the referenced table: +UPDATE fk_notpartitioned_pk SET a = 1500 WHERE a = 2502; +-- but inserting the row we can make it work: +INSERT INTO fk_notpartitioned_pk VALUES (2501, 142857); +UPDATE fk_notpartitioned_pk SET a = 1500 WHERE a = 2502; +SELECT * FROM fk_partitioned_fk WHERE b = 142857; + +-- ON UPDATE/DELETE CASCADE +ALTER TABLE fk_partitioned_fk DROP CONSTRAINT fk_partitioned_fk_a_b_fkey; +ALTER TABLE fk_partitioned_fk ADD FOREIGN KEY (a, b) + REFERENCES fk_notpartitioned_pk + ON DELETE CASCADE ON UPDATE CASCADE; +UPDATE fk_notpartitioned_pk SET a = 2502 WHERE a = 2501; +SELECT * FROM fk_partitioned_fk WHERE b = 142857; + +-- Now you see it ... +SELECT * FROM fk_partitioned_fk WHERE b = 142857; +DELETE FROM fk_notpartitioned_pk WHERE b = 142857; +-- now you don't. +SELECT * FROM fk_partitioned_fk WHERE a = 142857; + +-- verify that DROP works +DROP TABLE fk_partitioned_fk_2; + +-- Test behavior of the constraint together with attaching and detaching +-- partitions. +CREATE TABLE fk_partitioned_fk_2 PARTITION OF fk_partitioned_fk FOR VALUES IN (1500,1502); +ALTER TABLE fk_partitioned_fk DETACH PARTITION fk_partitioned_fk_2; +BEGIN; +DROP TABLE fk_partitioned_fk; +-- constraint should still be there +\d fk_partitioned_fk_2; +ROLLBACK; +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_2 FOR VALUES IN (1500,1502); +DROP TABLE fk_partitioned_fk_2; +CREATE TABLE fk_partitioned_fk_2 (b int, c text, a int, + FOREIGN KEY (a, b) REFERENCES fk_notpartitioned_pk ON UPDATE CASCADE ON DELETE CASCADE); +ALTER TABLE fk_partitioned_fk_2 DROP COLUMN c; +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_2 FOR VALUES IN (1500,1502); +-- should have only one constraint +\d fk_partitioned_fk_2 +DROP TABLE fk_partitioned_fk_2; + +CREATE TABLE fk_partitioned_fk_4 (a int, b int, FOREIGN KEY (a, b) REFERENCES fk_notpartitioned_pk(a, b) ON UPDATE CASCADE ON DELETE CASCADE) PARTITION BY RANGE (b, a); +CREATE TABLE fk_partitioned_fk_4_1 PARTITION OF fk_partitioned_fk_4 FOR VALUES FROM (1,1) TO (100,100); +CREATE TABLE fk_partitioned_fk_4_2 (a int, b int, FOREIGN KEY (a, b) REFERENCES fk_notpartitioned_pk(a, b) ON UPDATE SET NULL); +ALTER TABLE fk_partitioned_fk_4 ATTACH PARTITION fk_partitioned_fk_4_2 FOR VALUES FROM (100,100) TO (1000,1000); +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_4 FOR VALUES IN (3500,3502); +ALTER TABLE fk_partitioned_fk DETACH PARTITION fk_partitioned_fk_4; +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_4 FOR VALUES IN (3500,3502); +-- should only have one constraint +\d fk_partitioned_fk_4 +\d fk_partitioned_fk_4_1 +-- this one has an FK with mismatched properties +\d fk_partitioned_fk_4_2 + +CREATE TABLE fk_partitioned_fk_5 (a int, b int, + FOREIGN KEY (a, b) REFERENCES fk_notpartitioned_pk(a, b) ON UPDATE CASCADE ON DELETE CASCADE DEFERRABLE, + FOREIGN KEY (a, b) REFERENCES fk_notpartitioned_pk(a, b) MATCH FULL ON UPDATE CASCADE ON DELETE CASCADE) + PARTITION BY RANGE (a); +CREATE TABLE fk_partitioned_fk_5_1 (a int, b int, FOREIGN KEY (a, b) REFERENCES fk_notpartitioned_pk); +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_5 FOR VALUES IN (4500); +ALTER TABLE fk_partitioned_fk_5 ATTACH PARTITION fk_partitioned_fk_5_1 FOR VALUES FROM (0) TO (10); +ALTER TABLE fk_partitioned_fk DETACH PARTITION fk_partitioned_fk_5; +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_5 FOR VALUES IN (4500); +-- this one has two constraints, similar but not quite the one in the parent, +-- so it gets a new one +\d fk_partitioned_fk_5 +-- verify that it works to reattaching a child with multiple candidate +-- constraints +ALTER TABLE fk_partitioned_fk_5 DETACH PARTITION fk_partitioned_fk_5_1; +ALTER TABLE fk_partitioned_fk_5 ATTACH PARTITION fk_partitioned_fk_5_1 FOR VALUES FROM (0) TO (10); +\d fk_partitioned_fk_5_1 + +-- verify that attaching a table checks that the existing data satisfies the +-- constraint +CREATE TABLE fk_partitioned_fk_2 (a int, b int) PARTITION BY RANGE (b); +CREATE TABLE fk_partitioned_fk_2_1 PARTITION OF fk_partitioned_fk_2 FOR VALUES FROM (0) TO (1000); +CREATE TABLE fk_partitioned_fk_2_2 PARTITION OF fk_partitioned_fk_2 FOR VALUES FROM (1000) TO (2000); +INSERT INTO fk_partitioned_fk_2 VALUES (1600, 601), (1600, 1601); +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_2 + FOR VALUES IN (1600); +INSERT INTO fk_notpartitioned_pk VALUES (1600, 601), (1600, 1601); +ALTER TABLE fk_partitioned_fk ATTACH PARTITION fk_partitioned_fk_2 + FOR VALUES IN (1600); + +-- leave these tables around intentionally + +-- test the case when the referenced table is owned by a different user +create role regress_other_partitioned_fk_owner; +grant references on fk_notpartitioned_pk to regress_other_partitioned_fk_owner; +set role regress_other_partitioned_fk_owner; +create table other_partitioned_fk(a int, b int) partition by list (a); +create table other_partitioned_fk_1 partition of other_partitioned_fk + for values in (2048); +insert into other_partitioned_fk + select 2048, x from generate_series(1,10) x; +-- this should fail +alter table other_partitioned_fk add foreign key (a, b) + references fk_notpartitioned_pk(a, b); +-- add the missing keys and retry +reset role; +insert into fk_notpartitioned_pk (a, b) + select 2048, x from generate_series(1,10) x; +set role regress_other_partitioned_fk_owner; +alter table other_partitioned_fk add foreign key (a, b) + references fk_notpartitioned_pk(a, b); +-- clean up +drop table other_partitioned_fk; +reset role; +revoke all on fk_notpartitioned_pk from regress_other_partitioned_fk_owner; +drop role regress_other_partitioned_fk_owner; + +-- Test creating a constraint at the parent that already exists in partitions. +-- There should be no duplicated constraints, and attempts to drop the +-- constraint in partitions should raise appropriate errors. +create schema fkpart0 + create table pkey (a int primary key) + create table fk_part (a int) partition by list (a) + create table fk_part_1 partition of fk_part + (foreign key (a) references fkpart0.pkey) for values in (1) + create table fk_part_23 partition of fk_part + (foreign key (a) references fkpart0.pkey) for values in (2, 3) + partition by list (a) + create table fk_part_23_2 partition of fk_part_23 for values in (2); + +alter table fkpart0.fk_part add foreign key (a) references fkpart0.pkey; +\d fkpart0.fk_part_1 \\ -- should have only one FK +alter table fkpart0.fk_part_1 drop constraint fk_part_1_a_fkey; + +\d fkpart0.fk_part_23 \\ -- should have only one FK +\d fkpart0.fk_part_23_2 \\ -- should have only one FK +alter table fkpart0.fk_part_23 drop constraint fk_part_23_a_fkey; +alter table fkpart0.fk_part_23_2 drop constraint fk_part_23_a_fkey; + +create table fkpart0.fk_part_4 partition of fkpart0.fk_part for values in (4); +\d fkpart0.fk_part_4 +alter table fkpart0.fk_part_4 drop constraint fk_part_a_fkey; + +create table fkpart0.fk_part_56 partition of fkpart0.fk_part + for values in (5,6) partition by list (a); +create table fkpart0.fk_part_56_5 partition of fkpart0.fk_part_56 + for values in (5); +\d fkpart0.fk_part_56 +alter table fkpart0.fk_part_56 drop constraint fk_part_a_fkey; +alter table fkpart0.fk_part_56_5 drop constraint fk_part_a_fkey; + +-- verify that attaching and detaching partitions maintains the right set of +-- triggers +create schema fkpart1 + create table pkey (a int primary key) + create table fk_part (a int) partition by list (a) + create table fk_part_1 partition of fk_part for values in (1) partition by list (a) + create table fk_part_1_1 partition of fk_part_1 for values in (1); +alter table fkpart1.fk_part add foreign key (a) references fkpart1.pkey; +insert into fkpart1.fk_part values (1); -- should fail +insert into fkpart1.pkey values (1); +insert into fkpart1.fk_part values (1); +delete from fkpart1.pkey where a = 1; -- should fail +alter table fkpart1.fk_part detach partition fkpart1.fk_part_1; +create table fkpart1.fk_part_1_2 partition of fkpart1.fk_part_1 for values in (2); +insert into fkpart1.fk_part_1 values (2); -- should fail +delete from fkpart1.pkey where a = 1; + +-- verify that attaching and detaching partitions manipulates the inheritance +-- properties of their FK constraints correctly +create schema fkpart2 + create table pkey (a int primary key) + create table fk_part (a int, constraint fkey foreign key (a) references fkpart2.pkey) partition by list (a) + create table fk_part_1 partition of fkpart2.fk_part for values in (1) partition by list (a) + create table fk_part_1_1 (a int, constraint my_fkey foreign key (a) references fkpart2.pkey); +alter table fkpart2.fk_part_1 attach partition fkpart2.fk_part_1_1 for values in (1); +alter table fkpart2.fk_part_1 drop constraint fkey; -- should fail +alter table fkpart2.fk_part_1_1 drop constraint my_fkey; -- should fail +alter table fkpart2.fk_part detach partition fkpart2.fk_part_1; +alter table fkpart2.fk_part_1 drop constraint fkey; -- ok +alter table fkpart2.fk_part_1_1 drop constraint my_fkey; -- doesn't exist + +-- verify constraint deferrability +create schema fkpart3 + create table pkey (a int primary key) + create table fk_part (a int, constraint fkey foreign key (a) references fkpart3.pkey deferrable initially immediate) partition by list (a) + create table fk_part_1 partition of fkpart3.fk_part for values in (1) partition by list (a) + create table fk_part_1_1 partition of fkpart3.fk_part_1 for values in (1) + create table fk_part_2 partition of fkpart3.fk_part for values in (2); +begin; +set constraints fkpart3.fkey deferred; +insert into fkpart3.fk_part values (1); +insert into fkpart3.pkey values (1); +commit; +begin; +set constraints fkpart3.fkey deferred; +delete from fkpart3.pkey; +delete from fkpart3.fk_part; +commit; + +drop schema fkpart0, fkpart1, fkpart2, fkpart3 cascade; + +-- Test a partitioned table as referenced table. + +-- Verify basic functionality with a regular partition creation and a partition +-- with a different column layout, as well as partitions added (created and +-- attached) after creating the foreign key. +CREATE SCHEMA fkpart3; +SET search_path TO fkpart3; + +CREATE TABLE pk (a int PRIMARY KEY) PARTITION BY RANGE (a); +CREATE TABLE pk1 PARTITION OF pk FOR VALUES FROM (0) TO (1000); +CREATE TABLE pk2 (b int, a int); +ALTER TABLE pk2 DROP COLUMN b; +ALTER TABLE pk2 ALTER a SET NOT NULL; +ALTER TABLE pk ATTACH PARTITION pk2 FOR VALUES FROM (1000) TO (2000); + +CREATE TABLE fk (a int) PARTITION BY RANGE (a); +CREATE TABLE fk1 PARTITION OF fk FOR VALUES FROM (0) TO (750); +ALTER TABLE fk ADD FOREIGN KEY (a) REFERENCES pk; +CREATE TABLE fk2 (b int, a int) ; +ALTER TABLE fk2 DROP COLUMN b; +ALTER TABLE fk ATTACH PARTITION fk2 FOR VALUES FROM (750) TO (3500); + +CREATE TABLE pk3 PARTITION OF pk FOR VALUES FROM (2000) TO (3000); +CREATE TABLE pk4 (LIKE pk); +ALTER TABLE pk ATTACH PARTITION pk4 FOR VALUES FROM (3000) TO (4000); + +CREATE TABLE pk5 (c int, b int, a int NOT NULL) PARTITION BY RANGE (a); +ALTER TABLE pk5 DROP COLUMN b, DROP COLUMN c; +CREATE TABLE pk51 PARTITION OF pk5 FOR VALUES FROM (4000) TO (4500); +CREATE TABLE pk52 PARTITION OF pk5 FOR VALUES FROM (4500) TO (5000); +ALTER TABLE pk ATTACH PARTITION pk5 FOR VALUES FROM (4000) TO (5000); + +CREATE TABLE fk3 PARTITION OF fk FOR VALUES FROM (3500) TO (5000); + +-- these should fail: referenced value not present +INSERT into fk VALUES (1); +INSERT into fk VALUES (1000); +INSERT into fk VALUES (2000); +INSERT into fk VALUES (3000); +INSERT into fk VALUES (4000); +INSERT into fk VALUES (4500); +-- insert into the referenced table, now they should work +INSERT into pk VALUES (1), (1000), (2000), (3000), (4000), (4500); +INSERT into fk VALUES (1), (1000), (2000), (3000), (4000), (4500); + +-- should fail: referencing value present +DELETE FROM pk WHERE a = 1; +DELETE FROM pk WHERE a = 1000; +DELETE FROM pk WHERE a = 2000; +DELETE FROM pk WHERE a = 3000; +DELETE FROM pk WHERE a = 4000; +DELETE FROM pk WHERE a = 4500; +UPDATE pk SET a = 2 WHERE a = 1; +UPDATE pk SET a = 1002 WHERE a = 1000; +UPDATE pk SET a = 2002 WHERE a = 2000; +UPDATE pk SET a = 3002 WHERE a = 3000; +UPDATE pk SET a = 4002 WHERE a = 4000; +UPDATE pk SET a = 4502 WHERE a = 4500; +-- now they should work +DELETE FROM fk; +UPDATE pk SET a = 2 WHERE a = 1; +DELETE FROM pk WHERE a = 2; +UPDATE pk SET a = 1002 WHERE a = 1000; +DELETE FROM pk WHERE a = 1002; +UPDATE pk SET a = 2002 WHERE a = 2000; +DELETE FROM pk WHERE a = 2002; +UPDATE pk SET a = 3002 WHERE a = 3000; +DELETE FROM pk WHERE a = 3002; +UPDATE pk SET a = 4002 WHERE a = 4000; +DELETE FROM pk WHERE a = 4002; +UPDATE pk SET a = 4502 WHERE a = 4500; +DELETE FROM pk WHERE a = 4502; + +CREATE SCHEMA fkpart4; +SET search_path TO fkpart4; +-- dropping/detaching PARTITIONs is prevented if that would break +-- a foreign key's existing data +CREATE TABLE droppk (a int PRIMARY KEY) PARTITION BY RANGE (a); +CREATE TABLE droppk1 PARTITION OF droppk FOR VALUES FROM (0) TO (1000); +CREATE TABLE droppk_d PARTITION OF droppk DEFAULT; +CREATE TABLE droppk2 PARTITION OF droppk FOR VALUES FROM (1000) TO (2000) + PARTITION BY RANGE (a); +CREATE TABLE droppk21 PARTITION OF droppk2 FOR VALUES FROM (1000) TO (1400); +CREATE TABLE droppk2_d PARTITION OF droppk2 DEFAULT; +INSERT into droppk VALUES (1), (1000), (1500), (2000); +CREATE TABLE dropfk (a int REFERENCES droppk); +INSERT into dropfk VALUES (1), (1000), (1500), (2000); +-- these should all fail +ALTER TABLE droppk DETACH PARTITION droppk_d; +ALTER TABLE droppk2 DETACH PARTITION droppk2_d; +ALTER TABLE droppk DETACH PARTITION droppk1; +ALTER TABLE droppk DETACH PARTITION droppk2; +ALTER TABLE droppk2 DETACH PARTITION droppk21; +-- dropping partitions is disallowed +DROP TABLE droppk_d; +DROP TABLE droppk2_d; +DROP TABLE droppk1; +DROP TABLE droppk2; +DROP TABLE droppk21; +DELETE FROM dropfk; +-- dropping partitions is disallowed, even when no referencing values +DROP TABLE droppk_d; +DROP TABLE droppk2_d; +DROP TABLE droppk1; +-- but DETACH is allowed, and DROP afterwards works +ALTER TABLE droppk2 DETACH PARTITION droppk21; +DROP TABLE droppk2; + +-- Verify that initial constraint creation and cloning behave correctly +CREATE SCHEMA fkpart5; +SET search_path TO fkpart5; +CREATE TABLE pk (a int PRIMARY KEY) PARTITION BY LIST (a); +CREATE TABLE pk1 PARTITION OF pk FOR VALUES IN (1) PARTITION BY LIST (a); +CREATE TABLE pk11 PARTITION OF pk1 FOR VALUES IN (1); +CREATE TABLE fk (a int) PARTITION BY LIST (a); +CREATE TABLE fk1 PARTITION OF fk FOR VALUES IN (1) PARTITION BY LIST (a); +CREATE TABLE fk11 PARTITION OF fk1 FOR VALUES IN (1); +ALTER TABLE fk ADD FOREIGN KEY (a) REFERENCES pk; +CREATE TABLE pk2 PARTITION OF pk FOR VALUES IN (2); +CREATE TABLE pk3 (a int NOT NULL) PARTITION BY LIST (a); +CREATE TABLE pk31 PARTITION OF pk3 FOR VALUES IN (31); +CREATE TABLE pk32 (b int, a int NOT NULL); +ALTER TABLE pk32 DROP COLUMN b; +ALTER TABLE pk3 ATTACH PARTITION pk32 FOR VALUES IN (32); +ALTER TABLE pk ATTACH PARTITION pk3 FOR VALUES IN (31, 32); +CREATE TABLE fk2 PARTITION OF fk FOR VALUES IN (2); +CREATE TABLE fk3 (b int, a int); +ALTER TABLE fk3 DROP COLUMN b; +ALTER TABLE fk ATTACH PARTITION fk3 FOR VALUES IN (3); +SELECT pg_describe_object('pg_constraint'::regclass, oid, 0), confrelid::regclass, + CASE WHEN conparentid <> 0 THEN pg_describe_object('pg_constraint'::regclass, conparentid, 0) ELSE 'TOP' END +FROM pg_catalog.pg_constraint +WHERE conrelid IN (SELECT relid FROM pg_partition_tree('fk')) +ORDER BY conrelid::regclass::text, conname; +CREATE TABLE fk4 (LIKE fk); +INSERT INTO fk4 VALUES (50); +ALTER TABLE fk ATTACH PARTITION fk4 FOR VALUES IN (50); + +-- Verify constraint deferrability +CREATE SCHEMA fkpart9; +SET search_path TO fkpart9; +CREATE TABLE pk (a int PRIMARY KEY) PARTITION BY LIST (a); +CREATE TABLE pk1 PARTITION OF pk FOR VALUES IN (1, 2) PARTITION BY LIST (a); +CREATE TABLE pk11 PARTITION OF pk1 FOR VALUES IN (1); +CREATE TABLE pk3 PARTITION OF pk FOR VALUES IN (3); +CREATE TABLE fk (a int REFERENCES pk DEFERRABLE INITIALLY IMMEDIATE); +INSERT INTO fk VALUES (1); -- should fail +BEGIN; +SET CONSTRAINTS fk_a_fkey DEFERRED; +INSERT INTO fk VALUES (1); +COMMIT; -- should fail +BEGIN; +SET CONSTRAINTS fk_a_fkey DEFERRED; +INSERT INTO fk VALUES (1); +INSERT INTO pk VALUES (1); +COMMIT; -- OK +BEGIN; +SET CONSTRAINTS fk_a_fkey DEFERRED; +DELETE FROM pk WHERE a = 1; +DELETE FROM fk WHERE a = 1; +COMMIT; -- OK + +-- Verify constraint deferrability when changed by ALTER +-- Partitioned table at referencing end +CREATE TABLE pt(f1 int, f2 int, f3 int, PRIMARY KEY(f1,f2)); +CREATE TABLE ref(f1 int, f2 int, f3 int) + PARTITION BY list(f1); +CREATE TABLE ref1 PARTITION OF ref FOR VALUES IN (1); +CREATE TABLE ref2 PARTITION OF ref FOR VALUES in (2); +ALTER TABLE ref ADD FOREIGN KEY(f1,f2) REFERENCES pt; +ALTER TABLE ref ALTER CONSTRAINT ref_f1_f2_fkey + DEFERRABLE INITIALLY DEFERRED; +INSERT INTO pt VALUES(1,2,3); +INSERT INTO ref VALUES(1,2,3); +BEGIN; +DELETE FROM pt; +DELETE FROM ref; +ABORT; +DROP TABLE pt, ref; +-- Multi-level partitioning at referencing end +CREATE TABLE pt(f1 int, f2 int, f3 int, PRIMARY KEY(f1,f2)); +CREATE TABLE ref(f1 int, f2 int, f3 int) + PARTITION BY list(f1); +CREATE TABLE ref1_2 PARTITION OF ref FOR VALUES IN (1, 2) PARTITION BY list (f2); +CREATE TABLE ref1 PARTITION OF ref1_2 FOR VALUES IN (1); +CREATE TABLE ref2 PARTITION OF ref1_2 FOR VALUES IN (2) PARTITION BY list (f2); +CREATE TABLE ref22 PARTITION OF ref2 FOR VALUES IN (2); +ALTER TABLE ref ADD FOREIGN KEY(f1,f2) REFERENCES pt; +INSERT INTO pt VALUES(1,2,3); +INSERT INTO ref VALUES(1,2,3); +ALTER TABLE ref22 ALTER CONSTRAINT ref_f1_f2_fkey + DEFERRABLE INITIALLY IMMEDIATE; -- fails +ALTER TABLE ref ALTER CONSTRAINT ref_f1_f2_fkey + DEFERRABLE INITIALLY DEFERRED; +BEGIN; +DELETE FROM pt; +DELETE FROM ref; +ABORT; +DROP TABLE pt, ref; + +-- Partitioned table at referenced end +CREATE TABLE pt(f1 int, f2 int, f3 int, PRIMARY KEY(f1,f2)) + PARTITION BY LIST(f1); +CREATE TABLE pt1 PARTITION OF pt FOR VALUES IN (1); +CREATE TABLE pt2 PARTITION OF pt FOR VALUES IN (2); +CREATE TABLE ref(f1 int, f2 int, f3 int); +ALTER TABLE ref ADD FOREIGN KEY(f1,f2) REFERENCES pt; +ALTER TABLE ref ALTER CONSTRAINT ref_f1_f2_fkey + DEFERRABLE INITIALLY DEFERRED; +INSERT INTO pt VALUES(1,2,3); +INSERT INTO ref VALUES(1,2,3); +BEGIN; +DELETE FROM pt; +DELETE FROM ref; +ABORT; +DROP TABLE pt, ref; +-- Multi-level partitioning at at referenced end +CREATE TABLE pt(f1 int, f2 int, f3 int, PRIMARY KEY(f1,f2)) + PARTITION BY LIST(f1); +CREATE TABLE pt1_2 PARTITION OF pt FOR VALUES IN (1, 2) PARTITION BY LIST (f1); +CREATE TABLE pt1 PARTITION OF pt1_2 FOR VALUES IN (1); +CREATE TABLE pt2 PARTITION OF pt1_2 FOR VALUES IN (2); +CREATE TABLE ref(f1 int, f2 int, f3 int); +ALTER TABLE ref ADD FOREIGN KEY(f1,f2) REFERENCES pt; +ALTER TABLE ref ALTER CONSTRAINT ref_f1_f2_fkey1 + DEFERRABLE INITIALLY DEFERRED; -- fails +ALTER TABLE ref ALTER CONSTRAINT ref_f1_f2_fkey + DEFERRABLE INITIALLY DEFERRED; +INSERT INTO pt VALUES(1,2,3); +INSERT INTO ref VALUES(1,2,3); +BEGIN; +DELETE FROM pt; +DELETE FROM ref; +ABORT; +DROP TABLE pt, ref; + +DROP SCHEMA fkpart9 CASCADE; + +-- Verify ON UPDATE/DELETE behavior +CREATE SCHEMA fkpart6; +SET search_path TO fkpart6; +CREATE TABLE pk (a int PRIMARY KEY) PARTITION BY RANGE (a); +CREATE TABLE pk1 PARTITION OF pk FOR VALUES FROM (1) TO (100) PARTITION BY RANGE (a); +CREATE TABLE pk11 PARTITION OF pk1 FOR VALUES FROM (1) TO (50); +CREATE TABLE pk12 PARTITION OF pk1 FOR VALUES FROM (50) TO (100); +CREATE TABLE fk (a int) PARTITION BY RANGE (a); +CREATE TABLE fk1 PARTITION OF fk FOR VALUES FROM (1) TO (100) PARTITION BY RANGE (a); +CREATE TABLE fk11 PARTITION OF fk1 FOR VALUES FROM (1) TO (10); +CREATE TABLE fk12 PARTITION OF fk1 FOR VALUES FROM (10) TO (100); +ALTER TABLE fk ADD FOREIGN KEY (a) REFERENCES pk ON UPDATE CASCADE ON DELETE CASCADE; +CREATE TABLE fk_d PARTITION OF fk DEFAULT; +INSERT INTO pk VALUES (1); +INSERT INTO fk VALUES (1); +UPDATE pk SET a = 20; +SELECT tableoid::regclass, * FROM fk; +DELETE FROM pk WHERE a = 20; +SELECT tableoid::regclass, * FROM fk; +DROP TABLE fk; + +TRUNCATE TABLE pk; +INSERT INTO pk VALUES (20), (50); +CREATE TABLE fk (a int) PARTITION BY RANGE (a); +CREATE TABLE fk1 PARTITION OF fk FOR VALUES FROM (1) TO (100) PARTITION BY RANGE (a); +CREATE TABLE fk11 PARTITION OF fk1 FOR VALUES FROM (1) TO (10); +CREATE TABLE fk12 PARTITION OF fk1 FOR VALUES FROM (10) TO (100); +ALTER TABLE fk ADD FOREIGN KEY (a) REFERENCES pk ON UPDATE SET NULL ON DELETE SET NULL; +CREATE TABLE fk_d PARTITION OF fk DEFAULT; +INSERT INTO fk VALUES (20), (50); +UPDATE pk SET a = 21 WHERE a = 20; +DELETE FROM pk WHERE a = 50; +SELECT tableoid::regclass, * FROM fk; +DROP TABLE fk; + +TRUNCATE TABLE pk; +INSERT INTO pk VALUES (20), (30), (50); +CREATE TABLE fk (id int, a int DEFAULT 50) PARTITION BY RANGE (a); +CREATE TABLE fk1 PARTITION OF fk FOR VALUES FROM (1) TO (100) PARTITION BY RANGE (a); +CREATE TABLE fk11 PARTITION OF fk1 FOR VALUES FROM (1) TO (10); +CREATE TABLE fk12 PARTITION OF fk1 FOR VALUES FROM (10) TO (100); +ALTER TABLE fk ADD FOREIGN KEY (a) REFERENCES pk ON UPDATE SET DEFAULT ON DELETE SET DEFAULT; +CREATE TABLE fk_d PARTITION OF fk DEFAULT; +INSERT INTO fk VALUES (1, 20), (2, 30); +DELETE FROM pk WHERE a = 20 RETURNING *; +UPDATE pk SET a = 90 WHERE a = 30 RETURNING *; +SELECT tableoid::regclass, * FROM fk; +DROP TABLE fk; + +TRUNCATE TABLE pk; +INSERT INTO pk VALUES (20), (30); +CREATE TABLE fk (a int DEFAULT 50) PARTITION BY RANGE (a); +CREATE TABLE fk1 PARTITION OF fk FOR VALUES FROM (1) TO (100) PARTITION BY RANGE (a); +CREATE TABLE fk11 PARTITION OF fk1 FOR VALUES FROM (1) TO (10); +CREATE TABLE fk12 PARTITION OF fk1 FOR VALUES FROM (10) TO (100); +ALTER TABLE fk ADD FOREIGN KEY (a) REFERENCES pk ON UPDATE RESTRICT ON DELETE RESTRICT; +CREATE TABLE fk_d PARTITION OF fk DEFAULT; +INSERT INTO fk VALUES (20), (30); +DELETE FROM pk WHERE a = 20; +UPDATE pk SET a = 90 WHERE a = 30; +SELECT tableoid::regclass, * FROM fk; +DROP TABLE fk; + +-- test for reported bug: relispartition not set +-- https://postgr.es/m/CA+HiwqHMsRtRYRWYTWavKJ8x14AFsv7bmAV46mYwnfD3vy8goQ@mail.gmail.com +CREATE SCHEMA fkpart7 + CREATE TABLE pkpart (a int) PARTITION BY LIST (a) + CREATE TABLE pkpart1 PARTITION OF pkpart FOR VALUES IN (1); +ALTER TABLE fkpart7.pkpart1 ADD PRIMARY KEY (a); +ALTER TABLE fkpart7.pkpart ADD PRIMARY KEY (a); +CREATE TABLE fkpart7.fk (a int REFERENCES fkpart7.pkpart); +DROP SCHEMA fkpart7 CASCADE; + +-- ensure we check partitions are "not used" when dropping constraints +CREATE SCHEMA fkpart8 + CREATE TABLE tbl1(f1 int PRIMARY KEY) + CREATE TABLE tbl2(f1 int REFERENCES tbl1 DEFERRABLE INITIALLY DEFERRED) PARTITION BY RANGE(f1) + CREATE TABLE tbl2_p1 PARTITION OF tbl2 FOR VALUES FROM (minvalue) TO (maxvalue); +INSERT INTO fkpart8.tbl1 VALUES(1); +BEGIN; +INSERT INTO fkpart8.tbl2 VALUES(1); +ALTER TABLE fkpart8.tbl2 DROP CONSTRAINT tbl2_f1_fkey; +COMMIT; +DROP SCHEMA fkpart8 CASCADE; + +-- ensure FK referencing a multi-level partitioned table are +-- enforce reference to sub-children. +CREATE SCHEMA fkpart9 + CREATE TABLE pk (a INT PRIMARY KEY) PARTITION BY RANGE (a) + CREATE TABLE fk ( + fk_a INT REFERENCES pk(a) ON DELETE CASCADE + ) + CREATE TABLE pk1 PARTITION OF pk FOR VALUES FROM (30) TO (50) PARTITION BY RANGE (a) + CREATE TABLE pk11 PARTITION OF pk1 FOR VALUES FROM (30) TO (40); +INSERT INTO fkpart9.pk VALUES (35); +INSERT INTO fkpart9.fk VALUES (35); +DELETE FROM fkpart9.pk WHERE a=35; +SELECT * FROM fkpart9.pk; +SELECT * FROM fkpart9.fk; +DROP SCHEMA fkpart9 CASCADE; -- cgit v1.2.3