postgresql/contrib/postgres_fdw/sql/postgres_fdw.sql
Tom Lane 5b68d81697 Fix contrib/postgres_fdw's remote-estimate representation of array Params.
We were emitting "(SELECT null::typename)", which is usually interpreted
as a scalar subselect, but not so much in the context "x = ANY(...)".
This led to remote-side parsing failures when remote_estimate is enabled.
A quick and ugly fix is to stick in an extra cast step,
"((SELECT null::typename)::typename)".  The cast will be thrown away as
redundant by parse analysis, but not before it's done its job of making
sure the grammar sees the ANY argument as an a_expr rather than a
select_with_parens.  Per an example from Hannu Krosing.
2014-04-16 17:21:57 -04:00

612 lines
21 KiB
PL/PgSQL

-- ===================================================================
-- create FDW objects
-- ===================================================================
CREATE EXTENSION postgres_fdw;
CREATE SERVER testserver1 FOREIGN DATA WRAPPER postgres_fdw;
CREATE SERVER loopback FOREIGN DATA WRAPPER postgres_fdw
OPTIONS (dbname 'contrib_regression');
CREATE USER MAPPING FOR public SERVER testserver1
OPTIONS (user 'value', password 'value');
CREATE USER MAPPING FOR CURRENT_USER SERVER loopback;
-- ===================================================================
-- create objects used through FDW loopback server
-- ===================================================================
CREATE TYPE user_enum AS ENUM ('foo', 'bar', 'buz');
CREATE SCHEMA "S 1";
CREATE TABLE "S 1"."T 1" (
"C 1" int NOT NULL,
c2 int NOT NULL,
c3 text,
c4 timestamptz,
c5 timestamp,
c6 varchar(10),
c7 char(10),
c8 user_enum,
CONSTRAINT t1_pkey PRIMARY KEY ("C 1")
);
CREATE TABLE "S 1"."T 2" (
c1 int NOT NULL,
c2 text,
CONSTRAINT t2_pkey PRIMARY KEY (c1)
);
INSERT INTO "S 1"."T 1"
SELECT id,
id % 10,
to_char(id, 'FM00000'),
'1970-01-01'::timestamptz + ((id % 100) || ' days')::interval,
'1970-01-01'::timestamp + ((id % 100) || ' days')::interval,
id % 10,
id % 10,
'foo'::user_enum
FROM generate_series(1, 1000) id;
INSERT INTO "S 1"."T 2"
SELECT id,
'AAA' || to_char(id, 'FM000')
FROM generate_series(1, 100) id;
ANALYZE "S 1"."T 1";
ANALYZE "S 1"."T 2";
-- ===================================================================
-- create foreign tables
-- ===================================================================
CREATE FOREIGN TABLE ft1 (
c0 int,
c1 int NOT NULL,
c2 int NOT NULL,
c3 text,
c4 timestamptz,
c5 timestamp,
c6 varchar(10),
c7 char(10) default 'ft1',
c8 user_enum
) SERVER loopback;
ALTER FOREIGN TABLE ft1 DROP COLUMN c0;
CREATE FOREIGN TABLE ft2 (
c1 int NOT NULL,
c2 int NOT NULL,
cx int,
c3 text,
c4 timestamptz,
c5 timestamp,
c6 varchar(10),
c7 char(10) default 'ft2',
c8 user_enum
) SERVER loopback;
ALTER FOREIGN TABLE ft2 DROP COLUMN cx;
-- ===================================================================
-- tests for validator
-- ===================================================================
-- requiressl, krbsrvname and gsslib are omitted because they depend on
-- configure options
ALTER SERVER testserver1 OPTIONS (
use_remote_estimate 'false',
updatable 'true',
fdw_startup_cost '123.456',
fdw_tuple_cost '0.123',
service 'value',
connect_timeout 'value',
dbname 'value',
host 'value',
hostaddr 'value',
port 'value',
--client_encoding 'value',
application_name 'value',
--fallback_application_name 'value',
keepalives 'value',
keepalives_idle 'value',
keepalives_interval 'value',
-- requiressl 'value',
sslcompression 'value',
sslmode 'value',
sslcert 'value',
sslkey 'value',
sslrootcert 'value',
sslcrl 'value'
--requirepeer 'value',
-- krbsrvname 'value',
-- gsslib 'value',
--replication 'value'
);
ALTER USER MAPPING FOR public SERVER testserver1
OPTIONS (DROP user, DROP password);
ALTER FOREIGN TABLE ft1 OPTIONS (schema_name 'S 1', table_name 'T 1');
ALTER FOREIGN TABLE ft2 OPTIONS (schema_name 'S 1', table_name 'T 1');
ALTER FOREIGN TABLE ft1 ALTER COLUMN c1 OPTIONS (column_name 'C 1');
ALTER FOREIGN TABLE ft2 ALTER COLUMN c1 OPTIONS (column_name 'C 1');
\det+
-- Now we should be able to run ANALYZE.
-- To exercise multiple code paths, we use local stats on ft1
-- and remote-estimate mode on ft2.
ANALYZE ft1;
ALTER FOREIGN TABLE ft2 OPTIONS (use_remote_estimate 'true');
-- ===================================================================
-- simple queries
-- ===================================================================
-- single table, with/without alias
EXPLAIN (COSTS false) SELECT * FROM ft1 ORDER BY c3, c1 OFFSET 100 LIMIT 10;
SELECT * FROM ft1 ORDER BY c3, c1 OFFSET 100 LIMIT 10;
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 ORDER BY t1.c3, t1.c1 OFFSET 100 LIMIT 10;
SELECT * FROM ft1 t1 ORDER BY t1.c3, t1.c1 OFFSET 100 LIMIT 10;
-- whole-row reference
EXPLAIN (VERBOSE, COSTS false) SELECT t1 FROM ft1 t1 ORDER BY t1.c3, t1.c1 OFFSET 100 LIMIT 10;
SELECT t1 FROM ft1 t1 ORDER BY t1.c3, t1.c1 OFFSET 100 LIMIT 10;
-- empty result
SELECT * FROM ft1 WHERE false;
-- with WHERE clause
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE t1.c1 = 101 AND t1.c6 = '1' AND t1.c7 >= '1';
SELECT * FROM ft1 t1 WHERE t1.c1 = 101 AND t1.c6 = '1' AND t1.c7 >= '1';
-- aggregate
SELECT COUNT(*) FROM ft1 t1;
-- join two tables
SELECT t1.c1 FROM ft1 t1 JOIN ft2 t2 ON (t1.c1 = t2.c1) ORDER BY t1.c3, t1.c1 OFFSET 100 LIMIT 10;
-- subquery
SELECT * FROM ft1 t1 WHERE t1.c3 IN (SELECT c3 FROM ft2 t2 WHERE c1 <= 10) ORDER BY c1;
-- subquery+MAX
SELECT * FROM ft1 t1 WHERE t1.c3 = (SELECT MAX(c3) FROM ft2 t2) ORDER BY c1;
-- used in CTE
WITH t1 AS (SELECT * FROM ft1 WHERE c1 <= 10) SELECT t2.c1, t2.c2, t2.c3, t2.c4 FROM t1, ft2 t2 WHERE t1.c1 = t2.c1 ORDER BY t1.c1;
-- fixed values
SELECT 'fixed', NULL FROM ft1 t1 WHERE c1 = 1;
-- user-defined operator/function
CREATE FUNCTION postgres_fdw_abs(int) RETURNS int AS $$
BEGIN
RETURN abs($1);
END
$$ LANGUAGE plpgsql IMMUTABLE;
CREATE OPERATOR === (
LEFTARG = int,
RIGHTARG = int,
PROCEDURE = int4eq,
COMMUTATOR = ===,
NEGATOR = !==
);
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE t1.c1 = postgres_fdw_abs(t1.c2);
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE t1.c1 === t1.c2;
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE t1.c1 = abs(t1.c2);
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE t1.c1 = t1.c2;
-- ===================================================================
-- WHERE with remotely-executable conditions
-- ===================================================================
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE t1.c1 = 1; -- Var, OpExpr(b), Const
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE t1.c1 = 100 AND t1.c2 = 0; -- BoolExpr
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE c1 IS NULL; -- NullTest
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE c1 IS NOT NULL; -- NullTest
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE round(abs(c1), 0) = 1; -- FuncExpr
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE c1 = -c1; -- OpExpr(l)
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE 1 = c1!; -- OpExpr(r)
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE (c1 IS NOT NULL) IS DISTINCT FROM (c1 IS NOT NULL); -- DistinctExpr
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE c1 = ANY(ARRAY[c2, 1, c1 + 0]); -- ScalarArrayOpExpr
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE c1 = (ARRAY[c1,c2,3])[1]; -- ArrayRef
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE c6 = E'foo''s\\bar'; -- check special chars
EXPLAIN (VERBOSE, COSTS false) SELECT * FROM ft1 t1 WHERE c8 = 'foo'; -- can't be sent to remote
-- parameterized remote path
EXPLAIN (VERBOSE, COSTS false)
SELECT * FROM ft2 a, ft2 b WHERE a.c1 = 47 AND b.c1 = a.c2;
SELECT * FROM ft2 a, ft2 b WHERE a.c1 = 47 AND b.c1 = a.c2;
-- check both safe and unsafe join conditions
EXPLAIN (VERBOSE, COSTS false)
SELECT * FROM ft2 a, ft2 b
WHERE a.c2 = 6 AND b.c1 = a.c1 AND a.c8 = 'foo' AND b.c7 = upper(a.c7);
SELECT * FROM ft2 a, ft2 b
WHERE a.c2 = 6 AND b.c1 = a.c1 AND a.c8 = 'foo' AND b.c7 = upper(a.c7);
-- bug before 9.3.5 due to sloppy handling of remote-estimate parameters
SELECT * FROM ft1 WHERE c1 = ANY (ARRAY(SELECT c1 FROM ft2 WHERE c1 < 5));
SELECT * FROM ft2 WHERE c1 = ANY (ARRAY(SELECT c1 FROM ft1 WHERE c1 < 5));
-- ===================================================================
-- parameterized queries
-- ===================================================================
-- simple join
PREPARE st1(int, int) AS SELECT t1.c3, t2.c3 FROM ft1 t1, ft2 t2 WHERE t1.c1 = $1 AND t2.c1 = $2;
EXPLAIN (VERBOSE, COSTS false) EXECUTE st1(1, 2);
EXECUTE st1(1, 1);
EXECUTE st1(101, 101);
-- subquery using stable function (can't be sent to remote)
PREPARE st2(int) AS SELECT * FROM ft1 t1 WHERE t1.c1 < $2 AND t1.c3 IN (SELECT c3 FROM ft2 t2 WHERE c1 > $1 AND date(c4) = '1970-01-17'::date) ORDER BY c1;
EXPLAIN (VERBOSE, COSTS false) EXECUTE st2(10, 20);
EXECUTE st2(10, 20);
EXECUTE st2(101, 121);
-- subquery using immutable function (can be sent to remote)
PREPARE st3(int) AS SELECT * FROM ft1 t1 WHERE t1.c1 < $2 AND t1.c3 IN (SELECT c3 FROM ft2 t2 WHERE c1 > $1 AND date(c5) = '1970-01-17'::date) ORDER BY c1;
EXPLAIN (VERBOSE, COSTS false) EXECUTE st3(10, 20);
EXECUTE st3(10, 20);
EXECUTE st3(20, 30);
-- custom plan should be chosen initially
PREPARE st4(int) AS SELECT * FROM ft1 t1 WHERE t1.c1 = $1;
EXPLAIN (VERBOSE, COSTS false) EXECUTE st4(1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st4(1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st4(1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st4(1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st4(1);
-- once we try it enough times, should switch to generic plan
EXPLAIN (VERBOSE, COSTS false) EXECUTE st4(1);
-- value of $1 should not be sent to remote
PREPARE st5(user_enum,int) AS SELECT * FROM ft1 t1 WHERE c8 = $1 and c1 = $2;
EXPLAIN (VERBOSE, COSTS false) EXECUTE st5('foo', 1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st5('foo', 1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st5('foo', 1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st5('foo', 1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st5('foo', 1);
EXPLAIN (VERBOSE, COSTS false) EXECUTE st5('foo', 1);
EXECUTE st5('foo', 1);
-- cleanup
DEALLOCATE st1;
DEALLOCATE st2;
DEALLOCATE st3;
DEALLOCATE st4;
DEALLOCATE st5;
-- ===================================================================
-- used in pl/pgsql function
-- ===================================================================
CREATE OR REPLACE FUNCTION f_test(p_c1 int) RETURNS int AS $$
DECLARE
v_c1 int;
BEGIN
SELECT c1 INTO v_c1 FROM ft1 WHERE c1 = p_c1 LIMIT 1;
PERFORM c1 FROM ft1 WHERE c1 = p_c1 AND p_c1 = v_c1 LIMIT 1;
RETURN v_c1;
END;
$$ LANGUAGE plpgsql;
SELECT f_test(100);
DROP FUNCTION f_test(int);
-- ===================================================================
-- conversion error
-- ===================================================================
ALTER FOREIGN TABLE ft1 ALTER COLUMN c8 TYPE int;
SELECT * FROM ft1 WHERE c1 = 1; -- ERROR
ALTER FOREIGN TABLE ft1 ALTER COLUMN c8 TYPE user_enum;
-- ===================================================================
-- subtransaction
-- + local/remote error doesn't break cursor
-- ===================================================================
BEGIN;
DECLARE c CURSOR FOR SELECT * FROM ft1 ORDER BY c1;
FETCH c;
SAVEPOINT s;
ERROR OUT; -- ERROR
ROLLBACK TO s;
FETCH c;
SAVEPOINT s;
SELECT * FROM ft1 WHERE 1 / (c1 - 1) > 0; -- ERROR
ROLLBACK TO s;
FETCH c;
SELECT * FROM ft1 ORDER BY c1 LIMIT 1;
COMMIT;
-- ===================================================================
-- test handling of collations
-- ===================================================================
create table loct3 (f1 text collate "C", f2 text);
create foreign table ft3 (f1 text collate "C", f2 text)
server loopback options (table_name 'loct3');
-- can be sent to remote
explain (verbose, costs off) select * from ft3 where f1 = 'foo';
explain (verbose, costs off) select * from ft3 where f1 COLLATE "C" = 'foo';
explain (verbose, costs off) select * from ft3 where f2 = 'foo';
-- can't be sent to remote
explain (verbose, costs off) select * from ft3 where f1 COLLATE "POSIX" = 'foo';
explain (verbose, costs off) select * from ft3 where f1 = 'foo' COLLATE "C";
explain (verbose, costs off) select * from ft3 where f2 COLLATE "C" = 'foo';
explain (verbose, costs off) select * from ft3 where f2 = 'foo' COLLATE "C";
-- ===================================================================
-- test writable foreign table stuff
-- ===================================================================
EXPLAIN (verbose, costs off)
INSERT INTO ft2 (c1,c2,c3) SELECT c1+1000,c2+100, c3 || c3 FROM ft2 LIMIT 20;
INSERT INTO ft2 (c1,c2,c3) SELECT c1+1000,c2+100, c3 || c3 FROM ft2 LIMIT 20;
INSERT INTO ft2 (c1,c2,c3)
VALUES (1101,201,'aaa'), (1102,202,'bbb'), (1103,203,'ccc') RETURNING *;
INSERT INTO ft2 (c1,c2,c3) VALUES (1104,204,'ddd'), (1105,205,'eee');
UPDATE ft2 SET c2 = c2 + 300, c3 = c3 || '_update3' WHERE c1 % 10 = 3;
UPDATE ft2 SET c2 = c2 + 400, c3 = c3 || '_update7' WHERE c1 % 10 = 7 RETURNING *;
EXPLAIN (verbose, costs off)
UPDATE ft2 SET c2 = ft2.c2 + 500, c3 = ft2.c3 || '_update9', c7 = DEFAULT
FROM ft1 WHERE ft1.c1 = ft2.c2 AND ft1.c1 % 10 = 9;
UPDATE ft2 SET c2 = ft2.c2 + 500, c3 = ft2.c3 || '_update9', c7 = DEFAULT
FROM ft1 WHERE ft1.c1 = ft2.c2 AND ft1.c1 % 10 = 9;
EXPLAIN (verbose, costs off)
DELETE FROM ft2 WHERE c1 % 10 = 5 RETURNING c1, c4;
DELETE FROM ft2 WHERE c1 % 10 = 5 RETURNING c1, c4;
EXPLAIN (verbose, costs off)
DELETE FROM ft2 USING ft1 WHERE ft1.c1 = ft2.c2 AND ft1.c1 % 10 = 2;
DELETE FROM ft2 USING ft1 WHERE ft1.c1 = ft2.c2 AND ft1.c1 % 10 = 2;
SELECT c1,c2,c3,c4 FROM ft2 ORDER BY c1;
-- Test that trigger on remote table works as expected
CREATE OR REPLACE FUNCTION "S 1".F_BRTRIG() RETURNS trigger AS $$
BEGIN
NEW.c3 = NEW.c3 || '_trig_update';
RETURN NEW;
END;
$$ LANGUAGE plpgsql;
CREATE TRIGGER t1_br_insert BEFORE INSERT OR UPDATE
ON "S 1"."T 1" FOR EACH ROW EXECUTE PROCEDURE "S 1".F_BRTRIG();
INSERT INTO ft2 (c1,c2,c3) VALUES (1208, 818, 'fff') RETURNING *;
INSERT INTO ft2 (c1,c2,c3,c6) VALUES (1218, 818, 'ggg', '(--;') RETURNING *;
UPDATE ft2 SET c2 = c2 + 600 WHERE c1 % 10 = 8 AND c1 < 1200 RETURNING *;
-- Test errors thrown on remote side during update
ALTER TABLE "S 1"."T 1" ADD CONSTRAINT c2positive CHECK (c2 >= 0);
INSERT INTO ft1(c1, c2) VALUES(11, 12); -- duplicate key
INSERT INTO ft1(c1, c2) VALUES(1111, -2); -- c2positive
UPDATE ft1 SET c2 = -c2 WHERE c1 = 1; -- c2positive
-- Test savepoint/rollback behavior
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
select c2, count(*) from "S 1"."T 1" where c2 < 500 group by 1 order by 1;
begin;
update ft2 set c2 = 42 where c2 = 0;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
savepoint s1;
update ft2 set c2 = 44 where c2 = 4;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
release savepoint s1;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
savepoint s2;
update ft2 set c2 = 46 where c2 = 6;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
rollback to savepoint s2;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
release savepoint s2;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
savepoint s3;
update ft2 set c2 = -2 where c2 = 42 and c1 = 10; -- fail on remote side
rollback to savepoint s3;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
release savepoint s3;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
-- none of the above is committed yet remotely
select c2, count(*) from "S 1"."T 1" where c2 < 500 group by 1 order by 1;
commit;
select c2, count(*) from ft2 where c2 < 500 group by 1 order by 1;
select c2, count(*) from "S 1"."T 1" where c2 < 500 group by 1 order by 1;
-- ===================================================================
-- test serial columns (ie, sequence-based defaults)
-- ===================================================================
create table loc1 (f1 serial, f2 text);
create foreign table rem1 (f1 serial, f2 text)
server loopback options(table_name 'loc1');
select pg_catalog.setval('rem1_f1_seq', 10, false);
insert into loc1(f2) values('hi');
insert into rem1(f2) values('hi remote');
insert into loc1(f2) values('bye');
insert into rem1(f2) values('bye remote');
select * from loc1;
select * from rem1;
-- ===================================================================
-- test local triggers
-- ===================================================================
-- Trigger functions "borrowed" from triggers regress test.
CREATE FUNCTION trigger_func() RETURNS trigger LANGUAGE plpgsql AS $$
BEGIN
RAISE NOTICE 'trigger_func(%) called: action = %, when = %, level = %',
TG_ARGV[0], TG_OP, TG_WHEN, TG_LEVEL;
RETURN NULL;
END;$$;
CREATE TRIGGER trig_stmt_before BEFORE DELETE OR INSERT OR UPDATE ON rem1
FOR EACH STATEMENT EXECUTE PROCEDURE trigger_func();
CREATE TRIGGER trig_stmt_after AFTER DELETE OR INSERT OR UPDATE ON rem1
FOR EACH STATEMENT EXECUTE PROCEDURE trigger_func();
CREATE OR REPLACE FUNCTION trigger_data() RETURNS trigger
LANGUAGE plpgsql AS $$
declare
oldnew text[];
relid text;
argstr text;
begin
relid := TG_relid::regclass;
argstr := '';
for i in 0 .. TG_nargs - 1 loop
if i > 0 then
argstr := argstr || ', ';
end if;
argstr := argstr || TG_argv[i];
end loop;
RAISE NOTICE '%(%) % % % ON %',
tg_name, argstr, TG_when, TG_level, TG_OP, relid;
oldnew := '{}'::text[];
if TG_OP != 'INSERT' then
oldnew := array_append(oldnew, format('OLD: %s', OLD));
end if;
if TG_OP != 'DELETE' then
oldnew := array_append(oldnew, format('NEW: %s', NEW));
end if;
RAISE NOTICE '%', array_to_string(oldnew, ',');
if TG_OP = 'DELETE' then
return OLD;
else
return NEW;
end if;
end;
$$;
-- Test basic functionality
CREATE TRIGGER trig_row_before
BEFORE INSERT OR UPDATE OR DELETE ON rem1
FOR EACH ROW EXECUTE PROCEDURE trigger_data(23,'skidoo');
CREATE TRIGGER trig_row_after
AFTER INSERT OR UPDATE OR DELETE ON rem1
FOR EACH ROW EXECUTE PROCEDURE trigger_data(23,'skidoo');
delete from rem1;
insert into rem1 values(1,'insert');
update rem1 set f2 = 'update' where f1 = 1;
update rem1 set f2 = f2 || f2;
-- cleanup
DROP TRIGGER trig_row_before ON rem1;
DROP TRIGGER trig_row_after ON rem1;
DROP TRIGGER trig_stmt_before ON rem1;
DROP TRIGGER trig_stmt_after ON rem1;
DELETE from rem1;
-- Test WHEN conditions
CREATE TRIGGER trig_row_before_insupd
BEFORE INSERT OR UPDATE ON rem1
FOR EACH ROW
WHEN (NEW.f2 like '%update%')
EXECUTE PROCEDURE trigger_data(23,'skidoo');
CREATE TRIGGER trig_row_after_insupd
AFTER INSERT OR UPDATE ON rem1
FOR EACH ROW
WHEN (NEW.f2 like '%update%')
EXECUTE PROCEDURE trigger_data(23,'skidoo');
-- Insert or update not matching: nothing happens
INSERT INTO rem1 values(1, 'insert');
UPDATE rem1 set f2 = 'test';
-- Insert or update matching: triggers are fired
INSERT INTO rem1 values(2, 'update');
UPDATE rem1 set f2 = 'update update' where f1 = '2';
CREATE TRIGGER trig_row_before_delete
BEFORE DELETE ON rem1
FOR EACH ROW
WHEN (OLD.f2 like '%update%')
EXECUTE PROCEDURE trigger_data(23,'skidoo');
CREATE TRIGGER trig_row_after_delete
AFTER DELETE ON rem1
FOR EACH ROW
WHEN (OLD.f2 like '%update%')
EXECUTE PROCEDURE trigger_data(23,'skidoo');
-- Trigger is fired for f1=2, not for f1=1
DELETE FROM rem1;
-- cleanup
DROP TRIGGER trig_row_before_insupd ON rem1;
DROP TRIGGER trig_row_after_insupd ON rem1;
DROP TRIGGER trig_row_before_delete ON rem1;
DROP TRIGGER trig_row_after_delete ON rem1;
-- Test various RETURN statements in BEFORE triggers.
CREATE FUNCTION trig_row_before_insupdate() RETURNS TRIGGER AS $$
BEGIN
NEW.f2 := NEW.f2 || ' triggered !';
RETURN NEW;
END
$$ language plpgsql;
CREATE TRIGGER trig_row_before_insupd
BEFORE INSERT OR UPDATE ON rem1
FOR EACH ROW EXECUTE PROCEDURE trig_row_before_insupdate();
-- The new values should have 'triggered' appended
INSERT INTO rem1 values(1, 'insert');
SELECT * from loc1;
INSERT INTO rem1 values(2, 'insert') RETURNING f2;
SELECT * from loc1;
UPDATE rem1 set f2 = '';
SELECT * from loc1;
UPDATE rem1 set f2 = 'skidoo' RETURNING f2;
SELECT * from loc1;
DELETE FROM rem1;
-- Add a second trigger, to check that the changes are propagated correctly
-- from trigger to trigger
CREATE TRIGGER trig_row_before_insupd2
BEFORE INSERT OR UPDATE ON rem1
FOR EACH ROW EXECUTE PROCEDURE trig_row_before_insupdate();
INSERT INTO rem1 values(1, 'insert');
SELECT * from loc1;
INSERT INTO rem1 values(2, 'insert') RETURNING f2;
SELECT * from loc1;
UPDATE rem1 set f2 = '';
SELECT * from loc1;
UPDATE rem1 set f2 = 'skidoo' RETURNING f2;
SELECT * from loc1;
DROP TRIGGER trig_row_before_insupd ON rem1;
DROP TRIGGER trig_row_before_insupd2 ON rem1;
DELETE from rem1;
INSERT INTO rem1 VALUES (1, 'test');
-- Test with a trigger returning NULL
CREATE FUNCTION trig_null() RETURNS TRIGGER AS $$
BEGIN
RETURN NULL;
END
$$ language plpgsql;
CREATE TRIGGER trig_null
BEFORE INSERT OR UPDATE OR DELETE ON rem1
FOR EACH ROW EXECUTE PROCEDURE trig_null();
-- Nothing should have changed.
INSERT INTO rem1 VALUES (2, 'test2');
SELECT * from loc1;
UPDATE rem1 SET f2 = 'test2';
SELECT * from loc1;
DELETE from rem1;
SELECT * from loc1;
DROP TRIGGER trig_null ON rem1;
DELETE from rem1;
-- Test a combination of local and remote triggers
CREATE TRIGGER trig_row_before
BEFORE INSERT OR UPDATE OR DELETE ON rem1
FOR EACH ROW EXECUTE PROCEDURE trigger_data(23,'skidoo');
CREATE TRIGGER trig_row_after
AFTER INSERT OR UPDATE OR DELETE ON rem1
FOR EACH ROW EXECUTE PROCEDURE trigger_data(23,'skidoo');
CREATE TRIGGER trig_local_before BEFORE INSERT OR UPDATE ON loc1
FOR EACH ROW EXECUTE PROCEDURE trig_row_before_insupdate();
INSERT INTO rem1(f2) VALUES ('test');
UPDATE rem1 SET f2 = 'testo';
-- Test returning a system attribute
INSERT INTO rem1(f2) VALUES ('test') RETURNING ctid;