-- -- INET -- -- prepare the table... DROP TABLE INET_TBL; CREATE TABLE INET_TBL (c cidr, i inet); INSERT INTO INET_TBL (c, i) VALUES ('192.168.1', '192.168.1.226/24'); INSERT INTO INET_TBL (c, i) VALUES ('192.168.1.0/26', '192.168.1.226'); INSERT INTO INET_TBL (c, i) VALUES ('192.168.1', '192.168.1.0/24'); INSERT INTO INET_TBL (c, i) VALUES ('192.168.1', '192.168.1.0/25'); INSERT INTO INET_TBL (c, i) VALUES ('192.168.1', '192.168.1.255/24'); INSERT INTO INET_TBL (c, i) VALUES ('192.168.1', '192.168.1.255/25'); INSERT INTO INET_TBL (c, i) VALUES ('10', '10.1.2.3/8'); INSERT INTO INET_TBL (c, i) VALUES ('10.0.0.0', '10.1.2.3/8'); INSERT INTO INET_TBL (c, i) VALUES ('10.1.2.3', '10.1.2.3/32'); INSERT INTO INET_TBL (c, i) VALUES ('10.1.2', '10.1.2.3/24'); INSERT INTO INET_TBL (c, i) VALUES ('10.1', '10.1.2.3/16'); INSERT INTO INET_TBL (c, i) VALUES ('10', '10.1.2.3/8'); INSERT INTO INET_TBL (c, i) VALUES ('10', '11.1.2.3/8'); INSERT INTO INET_TBL (c, i) VALUES ('10', '9.1.2.3/8'); INSERT INTO INET_TBL (c, i) VALUES ('10:23::f1', '10:23::f1/64'); INSERT INTO INET_TBL (c, i) VALUES ('10:23::8000/113', '10:23::ffff'); INSERT INTO INET_TBL (c, i) VALUES ('::ffff:1.2.3.4', '::4.3.2.1/24'); -- check that CIDR rejects invalid input: INSERT INTO INET_TBL (c, i) VALUES ('192.168.1.2/30', '192.168.1.226'); INSERT INTO INET_TBL (c, i) VALUES ('1234::1234::1234', '::1.2.3.4'); -- check that CIDR rejects invalid input when converting from text: INSERT INTO INET_TBL (c, i) VALUES (cidr('192.168.1.2/30'), '192.168.1.226'); INSERT INTO INET_TBL (c, i) VALUES (cidr('ffff:ffff:ffff:ffff::/24'), '::192.168.1.226'); SELECT '' AS ten, c AS cidr, i AS inet FROM INET_TBL; -- now test some support functions SELECT '' AS ten, i AS inet, host(i), text(i), family(i) FROM INET_TBL; SELECT '' AS ten, c AS cidr, broadcast(c), i AS inet, broadcast(i) FROM INET_TBL; SELECT '' AS ten, c AS cidr, network(c) AS "network(cidr)", i AS inet, network(i) AS "network(inet)" FROM INET_TBL; SELECT '' AS ten, c AS cidr, masklen(c) AS "masklen(cidr)", i AS inet, masklen(i) AS "masklen(inet)" FROM INET_TBL; SELECT '' AS four, c AS cidr, masklen(c) AS "masklen(cidr)", i AS inet, masklen(i) AS "masklen(inet)" FROM INET_TBL WHERE masklen(c) <= 8; SELECT '' AS six, c AS cidr, i AS inet FROM INET_TBL WHERE c = i; SELECT '' AS ten, i, c, i < c AS lt, i <= c AS le, i = c AS eq, i >= c AS ge, i > c AS gt, i <> c AS ne, i << c AS sb, i <<= c AS sbe, i >> c AS sup, i >>= c AS spe, i && c AS ovr FROM INET_TBL; SELECT max(i) AS max, min(i) AS min FROM INET_TBL; SELECT max(c) AS max, min(c) AS min FROM INET_TBL; -- check the conversion to/from text and set_netmask SELECT '' AS ten, set_masklen(inet(text(i)), 24) FROM INET_TBL; -- check that btree index works correctly CREATE INDEX inet_idx1 ON inet_tbl(i); SET enable_seqscan TO off; SELECT * FROM inet_tbl WHERE i<<'192.168.1.0/24'::cidr; SELECT * FROM inet_tbl WHERE i<<='192.168.1.0/24'::cidr; SET enable_seqscan TO on; DROP INDEX inet_idx1; -- check that gist index works correctly CREATE INDEX inet_idx2 ON inet_tbl using gist (i inet_ops); SET enable_seqscan TO off; SELECT * FROM inet_tbl WHERE i << '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i <<= '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i && '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i >>= '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i >> '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i < '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i <= '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i = '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i >= '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i > '192.168.1.0/24'::cidr ORDER BY i; SELECT * FROM inet_tbl WHERE i <> '192.168.1.0/24'::cidr ORDER BY i; -- test index-only scans EXPLAIN (COSTS OFF) SELECT i FROM inet_tbl WHERE i << '192.168.1.0/24'::cidr ORDER BY i; SELECT i FROM inet_tbl WHERE i << '192.168.1.0/24'::cidr ORDER BY i; SET enable_seqscan TO on; DROP INDEX inet_idx2; -- simple tests of inet boolean and arithmetic operators SELECT i, ~i AS "~i" FROM inet_tbl; SELECT i, c, i & c AS "and" FROM inet_tbl; SELECT i, c, i | c AS "or" FROM inet_tbl; SELECT i, i + 500 AS "i+500" FROM inet_tbl; SELECT i, i - 500 AS "i-500" FROM inet_tbl; SELECT i, c, i - c AS "minus" FROM inet_tbl; SELECT '127.0.0.1'::inet + 257; SELECT ('127.0.0.1'::inet + 257) - 257; SELECT '127::1'::inet + 257; SELECT ('127::1'::inet + 257) - 257; SELECT '127.0.0.2'::inet - ('127.0.0.2'::inet + 500); SELECT '127.0.0.2'::inet - ('127.0.0.2'::inet - 500); SELECT '127::2'::inet - ('127::2'::inet + 500); SELECT '127::2'::inet - ('127::2'::inet - 500); -- these should give overflow errors: SELECT '127.0.0.1'::inet + 10000000000; SELECT '127.0.0.1'::inet - 10000000000; SELECT '126::1'::inet - '127::2'::inet; SELECT '127::1'::inet - '126::2'::inet; -- but not these SELECT '127::1'::inet + 10000000000; SELECT '127::1'::inet - '127::2'::inet; -- insert one more row with addressed from different families INSERT INTO INET_TBL (c, i) VALUES ('10', '10::/8'); -- now, this one should fail SELECT inet_merge(c, i) FROM INET_TBL; -- fix it by inet_same_family() condition SELECT inet_merge(c, i) FROM INET_TBL WHERE inet_same_family(c, i);