| # 2013-11-02 |
| # |
| # The author disclaims copyright to this source code. In place of |
| # a legal notice, here is a blessing: |
| # |
| # May you do good and not evil. |
| # May you find forgiveness for yourself and forgive others. |
| # May you share freely, never taking more than you give. |
| # |
| #*********************************************************************** |
| # This file implements regression tests for SQLite library. |
| # |
| # This file implements tests for foreign keys on WITHOUT ROWID |
| # tables. |
| # |
| |
| set testdir [file dirname $argv0] |
| source $testdir/tester.tcl |
| |
| ifcapable {!foreignkey||!trigger} { |
| finish_test |
| return |
| } |
| |
| #------------------------------------------------------------------------- |
| # Test structure: |
| # |
| # without_rowid3-1.*: Simple tests to check that immediate and deferred foreign key |
| # constraints work when not inside a transaction. |
| # |
| # without_rowid3-2.*: Tests to verify that deferred foreign keys work inside |
| # explicit transactions (i.e that processing really is deferred). |
| # |
| # without_rowid3-3.*: Tests that a statement transaction is rolled back if an |
| # immediate foreign key constraint is violated. |
| # |
| # without_rowid3-4.*: Test that FK actions may recurse even when recursive triggers |
| # are disabled. |
| # |
| # without_rowid3-5.*: Check that if foreign-keys are enabled, it is not possible |
| # to write to an FK column using the incremental blob API. |
| # |
| # without_rowid3-6.*: Test that FK processing is automatically disabled when |
| # running VACUUM. |
| # |
| # without_rowid3-7.*: Test using an IPK as the key in the child (referencing) table. |
| # |
| # without_rowid3-8.*: Test that enabling/disabling foreign key support while a |
| # transaction is active is not possible. |
| # |
| # without_rowid3-9.*: Test SET DEFAULT actions. |
| # |
| # without_rowid3-10.*: Test errors. |
| # |
| # without_rowid3-11.*: Test CASCADE actions. |
| # |
| # without_rowid3-12.*: Test RESTRICT actions. |
| # |
| # without_rowid3-13.*: Test that FK processing is performed when a row is REPLACED by |
| # an UPDATE or INSERT statement. |
| # |
| # without_rowid3-14.*: Test the ALTER TABLE and DROP TABLE commands. |
| # |
| # without_rowid3-15.*: Test that if there are no (known) outstanding foreign key |
| # constraint violations in the database, inserting into a parent |
| # table or deleting from a child table does not cause SQLite |
| # to check if this has repaired an outstanding violation. |
| # |
| # without_rowid3-16.*: Test that rows that refer to themselves may be inserted, |
| # updated and deleted. |
| # |
| # without_rowid3-17.*: Test that the "count_changes" pragma does not interfere with |
| # FK constraint processing. |
| # |
| # without_rowid3-18.*: Test that the authorization callback is invoked when processing |
| # FK constraints. |
| # |
| # without_rowid3-20.*: Test that ON CONFLICT clauses specified as part of statements |
| # do not affect the operation of FK constraints. |
| # |
| # without_rowid3-genfkey.*: Tests that were used with the shell tool .genfkey |
| # command. Recycled to test the built-in implementation. |
| # |
| # without_rowid3-dd08e5.*: Tests to verify that ticket dd08e5a988d00decc4a543daa8d |
| # has been fixed. |
| # |
| |
| |
| execsql { PRAGMA foreign_keys = on } |
| |
| set FkeySimpleSchema { |
| PRAGMA foreign_keys = on; |
| CREATE TABLE t1(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t2(c REFERENCES t1(a) /D/ , d); |
| |
| CREATE TABLE t3(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t4(c REFERENCES t3 /D/, d); |
| |
| CREATE TABLE t7(a, b INT PRIMARY KEY) WITHOUT rowid; |
| CREATE TABLE t8(c REFERENCES t7 /D/, d); |
| |
| CREATE TABLE t9(a REFERENCES nosuchtable, b); |
| CREATE TABLE t10(a REFERENCES t9(c) /D/, b); |
| } |
| |
| |
| set FkeySimpleTests { |
| 1.1 "INSERT INTO t2 VALUES(1, 3)" {1 {FOREIGN KEY constraint failed}} |
| 1.2 "INSERT INTO t1 VALUES(1, 2)" {0 {}} |
| 1.3 "INSERT INTO t2 VALUES(1, 3)" {0 {}} |
| 1.4 "INSERT INTO t2 VALUES(2, 4)" {1 {FOREIGN KEY constraint failed}} |
| 1.5 "INSERT INTO t2 VALUES(NULL, 4)" {0 {}} |
| 1.6 "UPDATE t2 SET c=2 WHERE d=4" {1 {FOREIGN KEY constraint failed}} |
| 1.7 "UPDATE t2 SET c=1 WHERE d=4" {0 {}} |
| 1.9 "UPDATE t2 SET c=1 WHERE d=4" {0 {}} |
| 1.10 "UPDATE t2 SET c=NULL WHERE d=4" {0 {}} |
| 1.11 "DELETE FROM t1 WHERE a=1" {1 {FOREIGN KEY constraint failed}} |
| 1.12 "UPDATE t1 SET a = 2" {1 {FOREIGN KEY constraint failed}} |
| 1.13 "UPDATE t1 SET a = 1" {0 {}} |
| |
| 2.1 "INSERT INTO t4 VALUES(1, 3)" {1 {FOREIGN KEY constraint failed}} |
| 2.2 "INSERT INTO t3 VALUES(1, 2)" {0 {}} |
| 2.3 "INSERT INTO t4 VALUES(1, 3)" {0 {}} |
| |
| 4.1 "INSERT INTO t8 VALUES(1, 3)" {1 {FOREIGN KEY constraint failed}} |
| 4.2 "INSERT INTO t7 VALUES(2, 1)" {0 {}} |
| 4.3 "INSERT INTO t8 VALUES(1, 3)" {0 {}} |
| 4.4 "INSERT INTO t8 VALUES(2, 4)" {1 {FOREIGN KEY constraint failed}} |
| 4.5 "INSERT INTO t8 VALUES(NULL, 4)" {0 {}} |
| 4.6 "UPDATE t8 SET c=2 WHERE d=4" {1 {FOREIGN KEY constraint failed}} |
| 4.7 "UPDATE t8 SET c=1 WHERE d=4" {0 {}} |
| 4.9 "UPDATE t8 SET c=1 WHERE d=4" {0 {}} |
| 4.10 "UPDATE t8 SET c=NULL WHERE d=4" {0 {}} |
| 4.11 "DELETE FROM t7 WHERE b=1" {1 {FOREIGN KEY constraint failed}} |
| 4.12 "UPDATE t7 SET b = 2" {1 {FOREIGN KEY constraint failed}} |
| 4.13 "UPDATE t7 SET b = 1" {0 {}} |
| 4.14 "INSERT INTO t8 VALUES('a', 'b')" {1 {FOREIGN KEY constraint failed}} |
| 4.15 "UPDATE t7 SET b = 5" {1 {FOREIGN KEY constraint failed}} |
| 4.17 "UPDATE t7 SET a = 10" {0 {}} |
| |
| 5.1 "INSERT INTO t9 VALUES(1, 3)" {1 {no such table: main.nosuchtable}} |
| 5.2 "INSERT INTO t10 VALUES(1, 3)" |
| {1 {foreign key mismatch - "t10" referencing "t9"}} |
| } |
| |
| do_test without_rowid3-1.1.0 { |
| execsql [string map {/D/ {}} $FkeySimpleSchema] |
| } {} |
| foreach {tn zSql res} $FkeySimpleTests { |
| do_test without_rowid3-1.1.$tn.1 { catchsql $zSql } $res |
| do_test without_rowid3-1.1.$tn.2 { execsql {PRAGMA foreign_key_check(t1)} } {} |
| do_test without_rowid3-1.1.$tn.3 { execsql {PRAGMA foreign_key_check(t2)} } {} |
| do_test without_rowid3-1.1.$tn.4 { execsql {PRAGMA foreign_key_check(t3)} } {} |
| do_test without_rowid3-1.1.$tn.5 { execsql {PRAGMA foreign_key_check(t4)} } {} |
| do_test without_rowid3-1.1.$tn.6 { execsql {PRAGMA foreign_key_check(t7)} } {} |
| do_test without_rowid3-1.1.$tn.7 { execsql {PRAGMA foreign_key_check(t8)} } {} |
| } |
| drop_all_tables |
| |
| do_test without_rowid3-1.2.0 { |
| execsql [string map {/D/ {DEFERRABLE INITIALLY DEFERRED}} $FkeySimpleSchema] |
| } {} |
| foreach {tn zSql res} $FkeySimpleTests { |
| do_test without_rowid3-1.2.$tn { catchsql $zSql } $res |
| do_test without_rowid3-1.2.$tn.2 { execsql {PRAGMA foreign_key_check(t1)} } {} |
| do_test without_rowid3-1.2.$tn.3 { execsql {PRAGMA foreign_key_check(t2)} } {} |
| do_test without_rowid3-1.2.$tn.4 { execsql {PRAGMA foreign_key_check(t3)} } {} |
| do_test without_rowid3-1.2.$tn.5 { execsql {PRAGMA foreign_key_check(t4)} } {} |
| do_test without_rowid3-1.2.$tn.6 { execsql {PRAGMA foreign_key_check(t7)} } {} |
| do_test without_rowid3-1.2.$tn.7 { execsql {PRAGMA foreign_key_check(t8)} } {} |
| } |
| drop_all_tables |
| |
| do_test without_rowid3-1.3.0 { |
| execsql [string map {/D/ {}} $FkeySimpleSchema] |
| execsql { PRAGMA count_changes = 1 } |
| } {} |
| foreach {tn zSql res} $FkeySimpleTests { |
| if {$res == "0 {}"} { set res {0 1} } |
| do_test without_rowid3-1.3.$tn { catchsql $zSql } $res |
| do_test without_rowid3-1.3.$tn.2 { execsql {PRAGMA foreign_key_check(t1)} } {} |
| do_test without_rowid3-1.3.$tn.3 { execsql {PRAGMA foreign_key_check(t2)} } {} |
| do_test without_rowid3-1.3.$tn.4 { execsql {PRAGMA foreign_key_check(t3)} } {} |
| do_test without_rowid3-1.3.$tn.5 { execsql {PRAGMA foreign_key_check(t4)} } {} |
| do_test without_rowid3-1.3.$tn.6 { execsql {PRAGMA foreign_key_check(t7)} } {} |
| do_test without_rowid3-1.3.$tn.7 { execsql {PRAGMA foreign_key_check(t8)} } {} |
| } |
| execsql { PRAGMA count_changes = 0 } |
| drop_all_tables |
| |
| do_test without_rowid3-1.4.0 { |
| execsql [string map {/D/ {}} $FkeySimpleSchema] |
| execsql { PRAGMA count_changes = 1 } |
| } {} |
| foreach {tn zSql res} $FkeySimpleTests { |
| if {$res == "0 {}"} { set res {0 1} } |
| execsql BEGIN |
| do_test without_rowid3-1.4.$tn { catchsql $zSql } $res |
| execsql COMMIT |
| } |
| execsql { PRAGMA count_changes = 0 } |
| drop_all_tables |
| |
| # Special test: When the parent key is an IPK, make sure the affinity of |
| # the IPK is not applied to the child key value before it is inserted |
| # into the child table. |
| do_test without_rowid3-1.5.1 { |
| execsql { |
| CREATE TABLE i(i INT PRIMARY KEY) WITHOUT rowid; |
| CREATE TABLE j(j REFERENCES i); |
| INSERT INTO i VALUES(35); |
| INSERT INTO j VALUES('35.0'); |
| SELECT j, typeof(j) FROM j; |
| } |
| } {35.0 text} |
| do_test without_rowid3-1.5.2 { |
| catchsql { DELETE FROM i } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| # Same test using a regular primary key with integer affinity. |
| drop_all_tables |
| do_test without_rowid3-1.6.1 { |
| execsql { |
| CREATE TABLE i(i INT UNIQUE); |
| CREATE TABLE j(j REFERENCES i(i)); |
| INSERT INTO i VALUES('35.0'); |
| INSERT INTO j VALUES('35.0'); |
| SELECT j, typeof(j) FROM j; |
| SELECT i, typeof(i) FROM i; |
| } |
| } {35.0 text 35 integer} |
| do_test without_rowid3-1.6.2 { |
| catchsql { DELETE FROM i } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| # Use a collation sequence on the parent key. |
| drop_all_tables |
| do_test without_rowid3-1.7.1 { |
| execsql { |
| CREATE TABLE i(i TEXT COLLATE nocase PRIMARY KEY) WITHOUT rowid; |
| CREATE TABLE j(j TEXT COLLATE binary REFERENCES i(i)); |
| INSERT INTO i VALUES('SQLite'); |
| INSERT INTO j VALUES('sqlite'); |
| } |
| catchsql { DELETE FROM i } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| # Use the parent key collation even if it is default and the child key |
| # has an explicit value. |
| drop_all_tables |
| do_test without_rowid3-1.7.2 { |
| execsql { |
| CREATE TABLE i(i TEXT PRIMARY KEY) WITHOUT rowid; -- Colseq is "BINARY" |
| CREATE TABLE j(j TEXT COLLATE nocase REFERENCES i(i)); |
| INSERT INTO i VALUES('SQLite'); |
| } |
| catchsql { INSERT INTO j VALUES('sqlite') } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-1.7.3 { |
| execsql { |
| INSERT INTO i VALUES('sqlite'); |
| INSERT INTO j VALUES('sqlite'); |
| DELETE FROM i WHERE i = 'SQLite'; |
| } |
| catchsql { DELETE FROM i WHERE i = 'sqlite' } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| #------------------------------------------------------------------------- |
| # This section (test cases without_rowid3-2.*) contains tests to check that the |
| # deferred foreign key constraint logic works. |
| # |
| proc without_rowid3-2-test {tn nocommit sql {res {}}} { |
| if {$res eq "FKV"} { |
| set expected {1 {FOREIGN KEY constraint failed}} |
| } else { |
| set expected [list 0 $res] |
| } |
| do_test without_rowid3-2.$tn [list catchsql $sql] $expected |
| if {$nocommit} { |
| do_test without_rowid3-2.${tn}c { |
| catchsql COMMIT |
| } {1 {FOREIGN KEY constraint failed}} |
| } |
| } |
| |
| without_rowid3-2-test 1 0 { |
| CREATE TABLE node( |
| nodeid PRIMARY KEY, |
| parent REFERENCES node DEFERRABLE INITIALLY DEFERRED |
| ) WITHOUT rowid; |
| CREATE TABLE leaf( |
| cellid PRIMARY KEY, |
| parent REFERENCES node DEFERRABLE INITIALLY DEFERRED |
| ) WITHOUT rowid; |
| } |
| |
| without_rowid3-2-test 1 0 "INSERT INTO node VALUES(1, 0)" FKV |
| without_rowid3-2-test 2 0 "BEGIN" |
| without_rowid3-2-test 3 1 "INSERT INTO node VALUES(1, 0)" |
| without_rowid3-2-test 4 0 "UPDATE node SET parent = NULL" |
| without_rowid3-2-test 5 0 "COMMIT" |
| without_rowid3-2-test 6 0 "SELECT * FROM node" {1 {}} |
| |
| without_rowid3-2-test 7 0 "BEGIN" |
| without_rowid3-2-test 8 1 "INSERT INTO leaf VALUES('a', 2)" |
| without_rowid3-2-test 9 1 "INSERT INTO node VALUES(2, 0)" |
| without_rowid3-2-test 10 0 "UPDATE node SET parent = 1 WHERE nodeid = 2" |
| without_rowid3-2-test 11 0 "COMMIT" |
| without_rowid3-2-test 12 0 "SELECT * FROM node" {1 {} 2 1} |
| without_rowid3-2-test 13 0 "SELECT * FROM leaf" {a 2} |
| |
| without_rowid3-2-test 14 0 "BEGIN" |
| without_rowid3-2-test 15 1 "DELETE FROM node WHERE nodeid = 2" |
| without_rowid3-2-test 16 0 "INSERT INTO node VALUES(2, NULL)" |
| without_rowid3-2-test 17 0 "COMMIT" |
| without_rowid3-2-test 18 0 "SELECT * FROM node" {1 {} 2 {}} |
| without_rowid3-2-test 19 0 "SELECT * FROM leaf" {a 2} |
| |
| without_rowid3-2-test 20 0 "BEGIN" |
| without_rowid3-2-test 21 0 "INSERT INTO leaf VALUES('b', 1)" |
| without_rowid3-2-test 22 0 "SAVEPOINT save" |
| without_rowid3-2-test 23 0 "DELETE FROM node WHERE nodeid = 1" |
| without_rowid3-2-test 24 0 "ROLLBACK TO save" |
| without_rowid3-2-test 25 0 "COMMIT" |
| without_rowid3-2-test 26 0 "SELECT * FROM node" {1 {} 2 {}} |
| without_rowid3-2-test 27 0 "SELECT * FROM leaf" {a 2 b 1} |
| |
| without_rowid3-2-test 28 0 "BEGIN" |
| without_rowid3-2-test 29 0 "INSERT INTO leaf VALUES('c', 1)" |
| without_rowid3-2-test 30 0 "SAVEPOINT save" |
| without_rowid3-2-test 31 0 "DELETE FROM node WHERE nodeid = 1" |
| without_rowid3-2-test 32 1 "RELEASE save" |
| without_rowid3-2-test 33 1 "DELETE FROM leaf WHERE cellid = 'b'" |
| without_rowid3-2-test 34 0 "DELETE FROM leaf WHERE cellid = 'c'" |
| without_rowid3-2-test 35 0 "COMMIT" |
| without_rowid3-2-test 36 0 "SELECT * FROM node" {2 {}} |
| without_rowid3-2-test 37 0 "SELECT * FROM leaf" {a 2} |
| |
| without_rowid3-2-test 38 0 "SAVEPOINT outer" |
| without_rowid3-2-test 39 1 "INSERT INTO leaf VALUES('d', 3)" |
| without_rowid3-2-test 40 1 "RELEASE outer" FKV |
| without_rowid3-2-test 41 1 "INSERT INTO leaf VALUES('e', 3)" |
| without_rowid3-2-test 42 0 "INSERT INTO node VALUES(3, 2)" |
| without_rowid3-2-test 43 0 "RELEASE outer" |
| |
| without_rowid3-2-test 44 0 "SAVEPOINT outer" |
| without_rowid3-2-test 45 1 "DELETE FROM node WHERE nodeid=3" |
| without_rowid3-2-test 47 0 "INSERT INTO node VALUES(3, 2)" |
| without_rowid3-2-test 48 0 "ROLLBACK TO outer" |
| without_rowid3-2-test 49 0 "RELEASE outer" |
| |
| without_rowid3-2-test 50 0 "SAVEPOINT outer" |
| without_rowid3-2-test 51 1 "INSERT INTO leaf VALUES('f', 4)" |
| without_rowid3-2-test 52 1 "SAVEPOINT inner" |
| without_rowid3-2-test 53 1 "INSERT INTO leaf VALUES('g', 4)" |
| without_rowid3-2-test 54 1 "RELEASE outer" FKV |
| without_rowid3-2-test 55 1 "ROLLBACK TO inner" |
| without_rowid3-2-test 56 0 "COMMIT" FKV |
| without_rowid3-2-test 57 0 "INSERT INTO node VALUES(4, NULL)" |
| without_rowid3-2-test 58 0 "RELEASE outer" |
| without_rowid3-2-test 59 0 "SELECT * FROM node" {2 {} 3 2 4 {}} |
| without_rowid3-2-test 60 0 "SELECT * FROM leaf" {a 2 d 3 e 3 f 4} |
| |
| # The following set of tests check that if a statement that affects |
| # multiple rows violates some foreign key constraints, then strikes a |
| # constraint that causes the statement-transaction to be rolled back, |
| # the deferred constraint counter is correctly reset to the value it |
| # had before the statement-transaction was opened. |
| # |
| without_rowid3-2-test 61 0 "BEGIN" |
| without_rowid3-2-test 62 0 "DELETE FROM leaf" |
| without_rowid3-2-test 63 0 "DELETE FROM node" |
| without_rowid3-2-test 64 1 "INSERT INTO leaf VALUES('a', 1)" |
| without_rowid3-2-test 65 1 "INSERT INTO leaf VALUES('b', 2)" |
| without_rowid3-2-test 66 1 "INSERT INTO leaf VALUES('c', 1)" |
| do_test without_rowid3-2-test-67 { |
| catchsql "INSERT INTO node SELECT parent, 3 FROM leaf" |
| } {1 {UNIQUE constraint failed: node.nodeid}} |
| without_rowid3-2-test 68 0 "COMMIT" FKV |
| without_rowid3-2-test 69 1 "INSERT INTO node VALUES(1, NULL)" |
| without_rowid3-2-test 70 0 "INSERT INTO node VALUES(2, NULL)" |
| without_rowid3-2-test 71 0 "COMMIT" |
| |
| without_rowid3-2-test 72 0 "BEGIN" |
| without_rowid3-2-test 73 1 "DELETE FROM node" |
| without_rowid3-2-test 74 0 "INSERT INTO node(nodeid) SELECT DISTINCT parent FROM leaf" |
| without_rowid3-2-test 75 0 "COMMIT" |
| |
| #------------------------------------------------------------------------- |
| # Test cases without_rowid3-3.* test that a program that executes foreign key |
| # actions (CASCADE, SET DEFAULT, SET NULL etc.) or tests FK constraints |
| # opens a statement transaction if required. |
| # |
| # without_rowid3-3.1.*: Test UPDATE statements. |
| # without_rowid3-3.2.*: Test DELETE statements. |
| # |
| drop_all_tables |
| do_test without_rowid3-3.1.1 { |
| execsql { |
| CREATE TABLE ab(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE cd( |
| c PRIMARY KEY REFERENCES ab ON UPDATE CASCADE ON DELETE CASCADE, |
| d |
| ) WITHOUT rowid; |
| CREATE TABLE ef( |
| e REFERENCES cd ON UPDATE CASCADE, |
| f, CHECK (e!=5) |
| ); |
| } |
| } {} |
| do_test without_rowid3-3.1.2 { |
| execsql { |
| INSERT INTO ab VALUES(1, 'b'); |
| INSERT INTO cd VALUES(1, 'd'); |
| INSERT INTO ef VALUES(1, 'e'); |
| } |
| } {} |
| do_test without_rowid3-3.1.3 { |
| catchsql { UPDATE ab SET a = 5 } |
| } {1 {CHECK constraint failed: e!=5}} |
| do_test without_rowid3-3.1.4 { |
| execsql { SELECT * FROM ab } |
| } {1 b} |
| do_test without_rowid3-3.1.4 { |
| execsql BEGIN; |
| catchsql { UPDATE ab SET a = 5 } |
| } {1 {CHECK constraint failed: e!=5}} |
| do_test without_rowid3-3.1.5 { |
| execsql COMMIT; |
| execsql { SELECT * FROM ab; SELECT * FROM cd; SELECT * FROM ef } |
| } {1 b 1 d 1 e} |
| |
| do_test without_rowid3-3.2.1 { |
| execsql BEGIN; |
| catchsql { DELETE FROM ab } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-3.2.2 { |
| execsql COMMIT |
| execsql { SELECT * FROM ab; SELECT * FROM cd; SELECT * FROM ef } |
| } {1 b 1 d 1 e} |
| |
| #------------------------------------------------------------------------- |
| # Test cases without_rowid3-4.* test that recursive foreign key actions |
| # (i.e. CASCADE) are allowed even if recursive triggers are disabled. |
| # |
| drop_all_tables |
| do_test without_rowid3-4.1 { |
| execsql { |
| CREATE TABLE t1( |
| node PRIMARY KEY, |
| parent REFERENCES t1 ON DELETE CASCADE |
| ) WITHOUT rowid; |
| CREATE TABLE t2(node PRIMARY KEY, parent) WITHOUT rowid; |
| CREATE TRIGGER t2t AFTER DELETE ON t2 BEGIN |
| DELETE FROM t2 WHERE parent = old.node; |
| END; |
| INSERT INTO t1 VALUES(1, NULL); |
| INSERT INTO t1 VALUES(2, 1); |
| INSERT INTO t1 VALUES(3, 1); |
| INSERT INTO t1 VALUES(4, 2); |
| INSERT INTO t1 VALUES(5, 2); |
| INSERT INTO t1 VALUES(6, 3); |
| INSERT INTO t1 VALUES(7, 3); |
| INSERT INTO t2 SELECT * FROM t1; |
| } |
| } {} |
| do_test without_rowid3-4.2 { |
| execsql { PRAGMA recursive_triggers = off } |
| execsql { |
| BEGIN; |
| DELETE FROM t1 WHERE node = 1; |
| SELECT node FROM t1; |
| } |
| } {} |
| do_test without_rowid3-4.3 { |
| execsql { |
| DELETE FROM t2 WHERE node = 1; |
| SELECT node FROM t2; |
| ROLLBACK; |
| } |
| } {4 5 6 7} |
| do_test without_rowid3-4.4 { |
| execsql { PRAGMA recursive_triggers = on } |
| execsql { |
| BEGIN; |
| DELETE FROM t1 WHERE node = 1; |
| SELECT node FROM t1; |
| } |
| } {} |
| do_test without_rowid3-4.3 { |
| execsql { |
| DELETE FROM t2 WHERE node = 1; |
| SELECT node FROM t2; |
| ROLLBACK; |
| } |
| } {} |
| |
| #------------------------------------------------------------------------- |
| # Test cases without_rowid3-5.* verify that the incremental blob API may not |
| # write to a foreign key column while foreign-keys are enabled. |
| # |
| drop_all_tables |
| ifcapable incrblob { |
| do_test without_rowid3-5.1 { |
| execsql { |
| CREATE TABLE t1(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t2(a PRIMARY KEY, b REFERENCES t1(a)) WITHOUT rowid; |
| INSERT INTO t1 VALUES('hello', 'world'); |
| INSERT INTO t2 VALUES('key', 'hello'); |
| } |
| } {} |
| do_test without_rowid3-5.2 { |
| set rc [catch { set fd [db incrblob t2 b 1] } msg] |
| list $rc $msg |
| } {1 {cannot open table without rowid: t2}} |
| do_test without_rowid3-5.5 { |
| execsql { PRAGMA foreign_keys = on } |
| } {} |
| } |
| |
| drop_all_tables |
| ifcapable vacuum { |
| do_test without_rowid3-6.1 { |
| execsql { |
| CREATE TABLE t1(a REFERENCES t2(c), b); |
| CREATE TABLE t2(c UNIQUE, b); |
| INSERT INTO t2 VALUES(1, 2); |
| INSERT INTO t1 VALUES(1, 2); |
| VACUUM; |
| } |
| } {} |
| } |
| |
| #------------------------------------------------------------------------- |
| # Test that it is possible to use an INT PRIMARY KEY as the child key |
| # of a foreign constraint. |
| # |
| drop_all_tables |
| do_test without_rowid3-7.1 { |
| execsql { |
| CREATE TABLE t1(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t2(c INT PRIMARY KEY REFERENCES t1, b) WITHOUT rowid; |
| } |
| } {} |
| do_test without_rowid3-7.2 { |
| catchsql { INSERT INTO t2 VALUES(1, 'A'); } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-7.3 { |
| execsql { |
| INSERT INTO t1 VALUES(1, 2); |
| INSERT INTO t1 VALUES(2, 3); |
| INSERT INTO t2 VALUES(1, 'A'); |
| } |
| } {} |
| do_test without_rowid3-7.4 { |
| execsql { UPDATE t2 SET c = 2 } |
| } {} |
| do_test without_rowid3-7.5 { |
| catchsql { UPDATE t2 SET c = 3 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-7.6 { |
| catchsql { DELETE FROM t1 WHERE a = 2 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-7.7 { |
| execsql { DELETE FROM t1 WHERE a = 1 } |
| } {} |
| do_test without_rowid3-7.8 { |
| catchsql { UPDATE t1 SET a = 3 } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| #------------------------------------------------------------------------- |
| # Test that it is not possible to enable/disable FK support while a |
| # transaction is open. |
| # |
| drop_all_tables |
| proc without_rowid3-8-test {tn zSql value} { |
| do_test without_rowid3-2.8.$tn.1 [list execsql $zSql] {} |
| do_test without_rowid3-2.8.$tn.2 { execsql "PRAGMA foreign_keys" } $value |
| } |
| without_rowid3-8-test 1 { PRAGMA foreign_keys = 0 } 0 |
| without_rowid3-8-test 2 { PRAGMA foreign_keys = 1 } 1 |
| without_rowid3-8-test 3 { BEGIN } 1 |
| without_rowid3-8-test 4 { PRAGMA foreign_keys = 0 } 1 |
| without_rowid3-8-test 5 { COMMIT } 1 |
| without_rowid3-8-test 6 { PRAGMA foreign_keys = 0 } 0 |
| without_rowid3-8-test 7 { BEGIN } 0 |
| without_rowid3-8-test 8 { PRAGMA foreign_keys = 1 } 0 |
| without_rowid3-8-test 9 { COMMIT } 0 |
| without_rowid3-8-test 10 { PRAGMA foreign_keys = 1 } 1 |
| without_rowid3-8-test 11 { PRAGMA foreign_keys = off } 0 |
| without_rowid3-8-test 12 { PRAGMA foreign_keys = on } 1 |
| without_rowid3-8-test 13 { PRAGMA foreign_keys = no } 0 |
| without_rowid3-8-test 14 { PRAGMA foreign_keys = yes } 1 |
| without_rowid3-8-test 15 { PRAGMA foreign_keys = false } 0 |
| without_rowid3-8-test 16 { PRAGMA foreign_keys = true } 1 |
| |
| #------------------------------------------------------------------------- |
| # The following tests, without_rowid3-9.*, test SET DEFAULT actions. |
| # |
| drop_all_tables |
| do_test without_rowid3-9.1.1 { |
| execsql { |
| CREATE TABLE t1(a INT PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t2( |
| c INT PRIMARY KEY, |
| d INTEGER DEFAULT 1 REFERENCES t1 ON DELETE SET DEFAULT |
| ) WITHOUT rowid; |
| DELETE FROM t1; |
| } |
| } {} |
| do_test without_rowid3-9.1.2 { |
| execsql { |
| INSERT INTO t1 VALUES(1, 'one'); |
| INSERT INTO t1 VALUES(2, 'two'); |
| INSERT INTO t2 VALUES(1, 2); |
| SELECT * FROM t2; |
| DELETE FROM t1 WHERE a = 2; |
| SELECT * FROM t2; |
| } |
| } {1 2 1 1} |
| do_test without_rowid3-9.1.3 { |
| execsql { |
| INSERT INTO t1 VALUES(2, 'two'); |
| UPDATE t2 SET d = 2; |
| DELETE FROM t1 WHERE a = 1; |
| SELECT * FROM t2; |
| } |
| } {1 2} |
| do_test without_rowid3-9.1.4 { |
| execsql { SELECT * FROM t1 } |
| } {2 two} |
| do_test without_rowid3-9.1.5 { |
| catchsql { DELETE FROM t1 } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| do_test without_rowid3-9.2.1 { |
| execsql { |
| CREATE TABLE pp(a, b, c, PRIMARY KEY(b, c)) WITHOUT rowid; |
| CREATE TABLE cc(d DEFAULT 3, e DEFAULT 1, f DEFAULT 2, |
| FOREIGN KEY(f, d) REFERENCES pp |
| ON UPDATE SET DEFAULT |
| ON DELETE SET NULL |
| ); |
| INSERT INTO pp VALUES(1, 2, 3); |
| INSERT INTO pp VALUES(4, 5, 6); |
| INSERT INTO pp VALUES(7, 8, 9); |
| } |
| } {} |
| do_test without_rowid3-9.2.2 { |
| execsql { |
| INSERT INTO cc VALUES(6, 'A', 5); |
| INSERT INTO cc VALUES(6, 'B', 5); |
| INSERT INTO cc VALUES(9, 'A', 8); |
| INSERT INTO cc VALUES(9, 'B', 8); |
| UPDATE pp SET b = 1 WHERE a = 7; |
| SELECT * FROM cc; |
| } |
| } {6 A 5 6 B 5 3 A 2 3 B 2} |
| do_test without_rowid3-9.2.3 { |
| execsql { |
| DELETE FROM pp WHERE a = 4; |
| SELECT * FROM cc; |
| } |
| } {{} A {} {} B {} 3 A 2 3 B 2} |
| |
| #------------------------------------------------------------------------- |
| # The following tests, without_rowid3-10.*, test "foreign key mismatch" and |
| # other errors. |
| # |
| set tn 0 |
| foreach zSql [list { |
| CREATE TABLE p(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE c(x REFERENCES p(c)); |
| } { |
| CREATE TABLE c(x REFERENCES v(y)); |
| CREATE VIEW v AS SELECT x AS y FROM c; |
| } { |
| CREATE TABLE p(a, b, PRIMARY KEY(a, b)) WITHOUT rowid; |
| CREATE TABLE c(x REFERENCES p); |
| } { |
| CREATE TABLE p(a COLLATE binary, b); |
| CREATE UNIQUE INDEX i ON p(a COLLATE nocase); |
| CREATE TABLE c(x REFERENCES p(a)); |
| }] { |
| drop_all_tables |
| do_test without_rowid3-10.1.[incr tn] { |
| execsql $zSql |
| catchsql { INSERT INTO c DEFAULT VALUES } |
| } {/1 {foreign key mismatch - "c" referencing "."}/} |
| } |
| |
| # "rowid" cannot be used as part of a child or parent key definition |
| # unless it happens to be the name of an explicitly declared column. |
| # |
| do_test without_rowid3-10.2.1 { |
| drop_all_tables |
| catchsql { |
| CREATE TABLE t1(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t2(c, d, FOREIGN KEY(rowid) REFERENCES t1(a)); |
| } |
| } {1 {unknown column "rowid" in foreign key definition}} |
| do_test without_rowid3-10.2.2 { |
| drop_all_tables |
| catchsql { |
| CREATE TABLE t1(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t2(rowid, d, FOREIGN KEY(rowid) REFERENCES t1(a)); |
| } |
| } {0 {}} |
| do_test without_rowid3-10.2.1 { |
| drop_all_tables |
| catchsql { |
| CREATE TABLE t1(a, b); |
| CREATE TABLE t2(c, d, FOREIGN KEY(c) REFERENCES t1(rowid)); |
| INSERT INTO t1(rowid, a, b) VALUES(1, 1, 1); |
| INSERT INTO t2 VALUES(1, 1); |
| } |
| } {1 {foreign key mismatch - "t2" referencing "t1"}} |
| do_test without_rowid3-10.2.2 { |
| drop_all_tables |
| catchsql { |
| CREATE TABLE t1(rowid PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t2(c, d, FOREIGN KEY(c) REFERENCES t1(rowid)); |
| INSERT INTO t1(rowid, b) VALUES(1, 1); |
| INSERT INTO t2 VALUES(1, 1); |
| } |
| } {0 {}} |
| |
| |
| #------------------------------------------------------------------------- |
| # The following tests, without_rowid3-11.*, test CASCADE actions. |
| # |
| drop_all_tables |
| do_test without_rowid3-11.1.1 { |
| execsql { |
| CREATE TABLE t1(a INT PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE t2(c, d, FOREIGN KEY(c) REFERENCES t1(a) ON UPDATE CASCADE); |
| |
| INSERT INTO t1 VALUES(10, 100); |
| INSERT INTO t2 VALUES(10, 100); |
| UPDATE t1 SET a = 15; |
| SELECT * FROM t2; |
| } |
| } {15 100} |
| |
| #------------------------------------------------------------------------- |
| # The following tests, without_rowid3-12.*, test RESTRICT actions. |
| # |
| drop_all_tables |
| do_test without_rowid3-12.1.1 { |
| execsql { |
| CREATE TABLE t1(a, b PRIMARY KEY) WITHOUT rowid; |
| CREATE TABLE t2( |
| x REFERENCES t1 ON UPDATE RESTRICT DEFERRABLE INITIALLY DEFERRED |
| ); |
| INSERT INTO t1 VALUES(1, 'one'); |
| INSERT INTO t1 VALUES(2, 'two'); |
| INSERT INTO t1 VALUES(3, 'three'); |
| } |
| } {} |
| do_test without_rowid3-12.1.2 { |
| execsql "BEGIN" |
| execsql "INSERT INTO t2 VALUES('two')" |
| } {} |
| do_test without_rowid3-12.1.3 { |
| execsql "UPDATE t1 SET b = 'four' WHERE b = 'one'" |
| } {} |
| do_test without_rowid3-12.1.4 { |
| catchsql "UPDATE t1 SET b = 'five' WHERE b = 'two'" |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-12.1.5 { |
| execsql "DELETE FROM t1 WHERE b = 'two'" |
| } {} |
| do_test without_rowid3-12.1.6 { |
| catchsql "COMMIT" |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-12.1.7 { |
| execsql { |
| INSERT INTO t1 VALUES(2, 'two'); |
| COMMIT; |
| } |
| } {} |
| |
| drop_all_tables |
| do_test without_rowid3-12.2.1 { |
| execsql { |
| CREATE TABLE t1(x COLLATE NOCASE PRIMARY KEY) WITHOUT rowid; |
| CREATE TRIGGER tt1 AFTER DELETE ON t1 |
| WHEN EXISTS ( SELECT 1 FROM t2 WHERE old.x = y ) |
| BEGIN |
| INSERT INTO t1 VALUES(old.x); |
| END; |
| CREATE TABLE t2(y REFERENCES t1); |
| INSERT INTO t1 VALUES('A'); |
| INSERT INTO t1 VALUES('B'); |
| INSERT INTO t2 VALUES('a'); |
| INSERT INTO t2 VALUES('b'); |
| |
| SELECT * FROM t1; |
| SELECT * FROM t2; |
| } |
| } {A B a b} |
| do_test without_rowid3-12.2.2 { |
| execsql { DELETE FROM t1 } |
| execsql { |
| SELECT * FROM t1; |
| SELECT * FROM t2; |
| } |
| } {A B a b} |
| do_test without_rowid3-12.2.3 { |
| execsql { |
| DROP TABLE t2; |
| CREATE TABLE t2(y REFERENCES t1 ON DELETE RESTRICT); |
| INSERT INTO t2 VALUES('a'); |
| INSERT INTO t2 VALUES('b'); |
| } |
| catchsql { DELETE FROM t1 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-12.2.4 { |
| execsql { |
| SELECT * FROM t1; |
| SELECT * FROM t2; |
| } |
| } {A B a b} |
| |
| drop_all_tables |
| do_test without_rowid3-12.3.1 { |
| execsql { |
| CREATE TABLE up( |
| c00, c01, c02, c03, c04, c05, c06, c07, c08, c09, |
| c10, c11, c12, c13, c14, c15, c16, c17, c18, c19, |
| c20, c21, c22, c23, c24, c25, c26, c27, c28, c29, |
| c30, c31, c32, c33, c34, c35, c36, c37, c38, c39, |
| PRIMARY KEY(c34, c35) |
| ) WITHOUT rowid; |
| CREATE TABLE down( |
| c00, c01, c02, c03, c04, c05, c06, c07, c08, c09, |
| c10, c11, c12, c13, c14, c15, c16, c17, c18, c19, |
| c20, c21, c22, c23, c24, c25, c26, c27, c28, c29, |
| c30, c31, c32, c33, c34, c35, c36, c37, c38, c39, |
| FOREIGN KEY(c39, c38) REFERENCES up ON UPDATE CASCADE |
| ); |
| } |
| } {} |
| do_test without_rowid3-12.3.2 { |
| execsql { |
| INSERT INTO up(c34, c35) VALUES('yes', 'no'); |
| INSERT INTO down(c39, c38) VALUES('yes', 'no'); |
| UPDATE up SET c34 = 'possibly'; |
| SELECT c38, c39 FROM down; |
| DELETE FROM down; |
| } |
| } {no possibly} |
| do_test without_rowid3-12.3.3 { |
| catchsql { INSERT INTO down(c39, c38) VALUES('yes', 'no') } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-12.3.4 { |
| execsql { |
| INSERT INTO up(c34, c35) VALUES('yes', 'no'); |
| INSERT INTO down(c39, c38) VALUES('yes', 'no'); |
| } |
| catchsql { DELETE FROM up WHERE c34 = 'yes' } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-12.3.5 { |
| execsql { |
| DELETE FROM up WHERE c34 = 'possibly'; |
| SELECT c34, c35 FROM up; |
| SELECT c39, c38 FROM down; |
| } |
| } {yes no yes no} |
| |
| #------------------------------------------------------------------------- |
| # The following tests, without_rowid3-13.*, test that FK processing is performed |
| # when rows are REPLACEd. |
| # |
| drop_all_tables |
| do_test without_rowid3-13.1.1 { |
| execsql { |
| CREATE TABLE pp(a UNIQUE, b, c, PRIMARY KEY(b, c)) WITHOUT rowid; |
| CREATE TABLE cc(d, e, f UNIQUE, FOREIGN KEY(d, e) REFERENCES pp); |
| INSERT INTO pp VALUES(1, 2, 3); |
| INSERT INTO cc VALUES(2, 3, 1); |
| } |
| } {} |
| foreach {tn stmt} { |
| 1 "REPLACE INTO pp VALUES(1, 4, 5)" |
| } { |
| do_test without_rowid3-13.1.$tn.1 { |
| catchsql $stmt |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-13.1.$tn.2 { |
| execsql { |
| SELECT * FROM pp; |
| SELECT * FROM cc; |
| } |
| } {1 2 3 2 3 1} |
| do_test without_rowid3-13.1.$tn.3 { |
| execsql BEGIN; |
| catchsql $stmt |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-13.1.$tn.4 { |
| execsql { |
| COMMIT; |
| SELECT * FROM pp; |
| SELECT * FROM cc; |
| } |
| } {1 2 3 2 3 1} |
| } |
| |
| #------------------------------------------------------------------------- |
| # The following tests, without_rowid3-14.*, test that the "DROP TABLE" and "ALTER |
| # TABLE" commands work as expected wrt foreign key constraints. |
| # |
| # without_rowid3-14.1*: ALTER TABLE ADD COLUMN |
| # without_rowid3-14.2*: ALTER TABLE RENAME TABLE |
| # without_rowid3-14.3*: DROP TABLE |
| # |
| drop_all_tables |
| ifcapable altertable { |
| do_test without_rowid3-14.1.1 { |
| # Adding a column with a REFERENCES clause is not supported. |
| execsql { |
| CREATE TABLE t1(a PRIMARY KEY) WITHOUT rowid; |
| CREATE TABLE t2(a, b); |
| INSERT INTO t2(a,b) VALUES(1,2); |
| } |
| catchsql { ALTER TABLE t2 ADD COLUMN c REFERENCES t1 } |
| } {0 {}} |
| do_test without_rowid3-14.1.2 { |
| catchsql { ALTER TABLE t2 ADD COLUMN d DEFAULT NULL REFERENCES t1 } |
| } {0 {}} |
| do_test without_rowid3-14.1.3 { |
| catchsql { ALTER TABLE t2 ADD COLUMN e REFERENCES t1 DEFAULT NULL} |
| } {0 {}} |
| do_test without_rowid3-14.1.4 { |
| catchsql { ALTER TABLE t2 ADD COLUMN f REFERENCES t1 DEFAULT 'text'} |
| } {1 {Cannot add a REFERENCES column with non-NULL default value}} |
| do_test without_rowid3-14.1.5 { |
| catchsql { ALTER TABLE t2 ADD COLUMN g DEFAULT CURRENT_TIME REFERENCES t1 } |
| } {1 {Cannot add a REFERENCES column with non-NULL default value}} |
| do_test without_rowid3-14.1.6 { |
| execsql { |
| PRAGMA foreign_keys = off; |
| ALTER TABLE t2 ADD COLUMN h DEFAULT 'text' REFERENCES t1; |
| PRAGMA foreign_keys = on; |
| SELECT sql FROM sqlite_schema WHERE name='t2'; |
| } |
| } {{CREATE TABLE t2(a, b, c REFERENCES t1, d DEFAULT NULL REFERENCES t1, e REFERENCES t1 DEFAULT NULL, h DEFAULT 'text' REFERENCES t1)}} |
| |
| |
| # Test the sqlite_rename_parent() function directly. |
| # |
| proc test_rename_parent {zCreate zOld zNew} { |
| db eval {SELECT sqlite_rename_table( |
| 'main', 'table', 't1', $zCreate, $zOld, $zNew, 0 |
| )} |
| } |
| sqlite3_test_control SQLITE_TESTCTRL_INTERNAL_FUNCTIONS db |
| do_test without_rowid3-14.2.1.1 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES t2)} t2 t3 |
| } {{CREATE TABLE t1(a REFERENCES "t3")}} |
| do_test without_rowid3-14.2.1.2 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES t2)} t4 t3 |
| } {{CREATE TABLE t1(a REFERENCES t2)}} |
| do_test without_rowid3-14.2.1.3 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES "t2")} t2 t3 |
| } {{CREATE TABLE t1(a REFERENCES "t3")}} |
| sqlite3_test_control SQLITE_TESTCTRL_INTERNAL_FUNCTIONS db |
| |
| # Test ALTER TABLE RENAME TABLE a bit. |
| # |
| do_test without_rowid3-14.2.2.1 { |
| drop_all_tables |
| execsql { |
| CREATE TABLE t1(a PRIMARY KEY, b REFERENCES t1) WITHOUT rowid; |
| CREATE TABLE t2(a PRIMARY KEY, b REFERENCES t1, c REFERENCES t2) |
| WITHOUT rowid; |
| CREATE TABLE t3(a REFERENCES t1, b REFERENCES t2, c REFERENCES t1); |
| } |
| execsql { SELECT sql FROM sqlite_schema WHERE type = 'table'} |
| } [list \ |
| {CREATE TABLE t1(a PRIMARY KEY, b REFERENCES t1) WITHOUT rowid} \ |
| {CREATE TABLE t2(a PRIMARY KEY, b REFERENCES t1, c REFERENCES t2) |
| WITHOUT rowid} \ |
| {CREATE TABLE t3(a REFERENCES t1, b REFERENCES t2, c REFERENCES t1)} \ |
| ] |
| do_test without_rowid3-14.2.2.2 { |
| execsql { ALTER TABLE t1 RENAME TO t4 } |
| execsql { SELECT sql FROM sqlite_schema WHERE type = 'table'} |
| } [list \ |
| {CREATE TABLE "t4"(a PRIMARY KEY, b REFERENCES "t4") WITHOUT rowid} \ |
| {CREATE TABLE t2(a PRIMARY KEY, b REFERENCES "t4", c REFERENCES t2) |
| WITHOUT rowid} \ |
| {CREATE TABLE t3(a REFERENCES "t4", b REFERENCES t2, c REFERENCES "t4")} \ |
| ] |
| do_test without_rowid3-14.2.2.3 { |
| catchsql { INSERT INTO t3 VALUES(1, 2, 3) } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-14.2.2.4 { |
| execsql { INSERT INTO t4 VALUES(1, NULL) } |
| } {} |
| do_test without_rowid3-14.2.2.5 { |
| catchsql { UPDATE t4 SET b = 5 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-14.2.2.6 { |
| catchsql { UPDATE t4 SET b = 1 } |
| } {0 {}} |
| do_test without_rowid3-14.2.2.7 { |
| execsql { INSERT INTO t3 VALUES(1, NULL, 1) } |
| } {} |
| |
| # Repeat for TEMP tables |
| # |
| drop_all_tables |
| do_test without_rowid3-14.1tmp.1 { |
| # Adding a column with a REFERENCES clause is not supported. |
| execsql { |
| CREATE TEMP TABLE t1(a PRIMARY KEY) WITHOUT rowid; |
| CREATE TEMP TABLE t2(a, b); |
| INSERT INTO temp.t2(a,b) VALUES(1,2); |
| } |
| catchsql { ALTER TABLE t2 ADD COLUMN c REFERENCES t1 } |
| } {0 {}} |
| do_test without_rowid3-14.1tmp.2 { |
| catchsql { ALTER TABLE t2 ADD COLUMN d DEFAULT NULL REFERENCES t1 } |
| } {0 {}} |
| do_test without_rowid3-14.1tmp.3 { |
| catchsql { ALTER TABLE t2 ADD COLUMN e REFERENCES t1 DEFAULT NULL} |
| } {0 {}} |
| do_test without_rowid3-14.1tmp.4 { |
| catchsql { ALTER TABLE t2 ADD COLUMN f REFERENCES t1 DEFAULT 'text'} |
| } {1 {Cannot add a REFERENCES column with non-NULL default value}} |
| do_test without_rowid3-14.1tmp.5 { |
| catchsql { ALTER TABLE t2 ADD COLUMN g DEFAULT CURRENT_TIME REFERENCES t1 } |
| } {1 {Cannot add a REFERENCES column with non-NULL default value}} |
| do_test without_rowid3-14.1tmp.6 { |
| execsql { |
| PRAGMA foreign_keys = off; |
| ALTER TABLE t2 ADD COLUMN h DEFAULT 'text' REFERENCES t1; |
| PRAGMA foreign_keys = on; |
| SELECT sql FROM temp.sqlite_schema WHERE name='t2'; |
| } |
| } {{CREATE TABLE t2(a, b, c REFERENCES t1, d DEFAULT NULL REFERENCES t1, e REFERENCES t1 DEFAULT NULL, h DEFAULT 'text' REFERENCES t1)}} |
| |
| sqlite3_test_control SQLITE_TESTCTRL_INTERNAL_FUNCTIONS db |
| do_test without_rowid3-14.2tmp.1.1 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES t2)} t2 t3 |
| } {{CREATE TABLE t1(a REFERENCES "t3")}} |
| do_test without_rowid3-14.2tmp.1.2 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES t2)} t4 t3 |
| } {{CREATE TABLE t1(a REFERENCES t2)}} |
| do_test without_rowid3-14.2tmp.1.3 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES "t2")} t2 t3 |
| } {{CREATE TABLE t1(a REFERENCES "t3")}} |
| sqlite3_test_control SQLITE_TESTCTRL_INTERNAL_FUNCTIONS db |
| |
| # Test ALTER TABLE RENAME TABLE a bit. |
| # |
| do_test without_rowid3-14.2tmp.2.1 { |
| drop_all_tables |
| execsql { |
| CREATE TEMP TABLE t1(a PRIMARY KEY, b REFERENCES t1) WITHOUT rowid; |
| CREATE TEMP TABLE t2(a PRIMARY KEY, b REFERENCES t1, c REFERENCES t2) |
| WITHOUT rowid; |
| CREATE TEMP TABLE t3(a REFERENCES t1, b REFERENCES t2, c REFERENCES t1); |
| } |
| execsql { SELECT sql FROM sqlite_temp_schema WHERE type = 'table'} |
| } [list \ |
| {CREATE TABLE t1(a PRIMARY KEY, b REFERENCES t1) WITHOUT rowid} \ |
| {CREATE TABLE t2(a PRIMARY KEY, b REFERENCES t1, c REFERENCES t2) |
| WITHOUT rowid} \ |
| {CREATE TABLE t3(a REFERENCES t1, b REFERENCES t2, c REFERENCES t1)} \ |
| ] |
| do_test without_rowid3-14.2tmp.2.2 { |
| execsql { ALTER TABLE t1 RENAME TO t4 } |
| execsql { SELECT sql FROM temp.sqlite_schema WHERE type = 'table'} |
| } [list \ |
| {CREATE TABLE "t4"(a PRIMARY KEY, b REFERENCES "t4") WITHOUT rowid} \ |
| {CREATE TABLE t2(a PRIMARY KEY, b REFERENCES "t4", c REFERENCES t2) |
| WITHOUT rowid} \ |
| {CREATE TABLE t3(a REFERENCES "t4", b REFERENCES t2, c REFERENCES "t4")} \ |
| ] |
| do_test without_rowid3-14.2tmp.2.3 { |
| catchsql { INSERT INTO t3 VALUES(1, 2, 3) } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-14.2tmp.2.4 { |
| execsql { INSERT INTO t4 VALUES(1, NULL) } |
| } {} |
| do_test without_rowid3-14.2tmp.2.5 { |
| catchsql { UPDATE t4 SET b = 5 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-14.2tmp.2.6 { |
| catchsql { UPDATE t4 SET b = 1 } |
| } {0 {}} |
| do_test without_rowid3-14.2tmp.2.7 { |
| execsql { INSERT INTO t3 VALUES(1, NULL, 1) } |
| } {} |
| |
| # Repeat for ATTACH-ed tables |
| # |
| drop_all_tables |
| do_test without_rowid3-14.1aux.1 { |
| # Adding a column with a REFERENCES clause is not supported. |
| execsql { |
| ATTACH ':memory:' AS aux; |
| CREATE TABLE aux.t1(a PRIMARY KEY) WITHOUT rowid; |
| CREATE TABLE aux.t2(a, b); |
| INSERT INTO aux.t2(a,b) VALUES(1,2); |
| } |
| catchsql { ALTER TABLE t2 ADD COLUMN c REFERENCES t1 } |
| } {0 {}} |
| do_test without_rowid3-14.1aux.2 { |
| catchsql { ALTER TABLE t2 ADD COLUMN d DEFAULT NULL REFERENCES t1 } |
| } {0 {}} |
| do_test without_rowid3-14.1aux.3 { |
| catchsql { ALTER TABLE t2 ADD COLUMN e REFERENCES t1 DEFAULT NULL} |
| } {0 {}} |
| do_test without_rowid3-14.1aux.4 { |
| catchsql { ALTER TABLE t2 ADD COLUMN f REFERENCES t1 DEFAULT 'text'} |
| } {1 {Cannot add a REFERENCES column with non-NULL default value}} |
| do_test without_rowid3-14.1aux.5 { |
| catchsql { ALTER TABLE t2 ADD COLUMN g DEFAULT CURRENT_TIME REFERENCES t1 } |
| } {1 {Cannot add a REFERENCES column with non-NULL default value}} |
| do_test without_rowid3-14.1aux.6 { |
| execsql { |
| PRAGMA foreign_keys = off; |
| ALTER TABLE t2 ADD COLUMN h DEFAULT 'text' REFERENCES t1; |
| PRAGMA foreign_keys = on; |
| SELECT sql FROM aux.sqlite_schema WHERE name='t2'; |
| } |
| } {{CREATE TABLE t2(a, b, c REFERENCES t1, d DEFAULT NULL REFERENCES t1, e REFERENCES t1 DEFAULT NULL, h DEFAULT 'text' REFERENCES t1)}} |
| |
| sqlite3_test_control SQLITE_TESTCTRL_INTERNAL_FUNCTIONS db |
| do_test without_rowid3-14.2aux.1.1 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES t2)} t2 t3 |
| } {{CREATE TABLE t1(a REFERENCES "t3")}} |
| do_test without_rowid3-14.2aux.1.2 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES t2)} t4 t3 |
| } {{CREATE TABLE t1(a REFERENCES t2)}} |
| do_test without_rowid3-14.2aux.1.3 { |
| test_rename_parent {CREATE TABLE t1(a REFERENCES "t2")} t2 t3 |
| } {{CREATE TABLE t1(a REFERENCES "t3")}} |
| sqlite3_test_control SQLITE_TESTCTRL_INTERNAL_FUNCTIONS db |
| |
| # Test ALTER TABLE RENAME TABLE a bit. |
| # |
| do_test without_rowid3-14.2aux.2.1 { |
| drop_all_tables |
| execsql { |
| CREATE TABLE aux.t1(a PRIMARY KEY, b REFERENCES t1) WITHOUT rowid; |
| CREATE TABLE aux.t2(a PRIMARY KEY, b REFERENCES t1, c REFERENCES t2) |
| WITHOUT rowid; |
| CREATE TABLE aux.t3(a REFERENCES t1, b REFERENCES t2, c REFERENCES t1); |
| } |
| execsql { SELECT sql FROM aux.sqlite_schema WHERE type = 'table'} |
| } [list \ |
| {CREATE TABLE t1(a PRIMARY KEY, b REFERENCES t1) WITHOUT rowid} \ |
| {CREATE TABLE t2(a PRIMARY KEY, b REFERENCES t1, c REFERENCES t2) |
| WITHOUT rowid} \ |
| {CREATE TABLE t3(a REFERENCES t1, b REFERENCES t2, c REFERENCES t1)} \ |
| ] |
| do_test without_rowid3-14.2aux.2.2 { |
| execsql { ALTER TABLE t1 RENAME TO t4 } |
| execsql { SELECT sql FROM aux.sqlite_schema WHERE type = 'table'} |
| } [list \ |
| {CREATE TABLE "t4"(a PRIMARY KEY, b REFERENCES "t4") WITHOUT rowid} \ |
| {CREATE TABLE t2(a PRIMARY KEY, b REFERENCES "t4", c REFERENCES t2) |
| WITHOUT rowid} \ |
| {CREATE TABLE t3(a REFERENCES "t4", b REFERENCES t2, c REFERENCES "t4")} \ |
| ] |
| do_test without_rowid3-14.2aux.2.3 { |
| catchsql { INSERT INTO t3 VALUES(1, 2, 3) } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-14.2aux.2.4 { |
| execsql { INSERT INTO t4 VALUES(1, NULL) } |
| } {} |
| do_test without_rowid3-14.2aux.2.5 { |
| catchsql { UPDATE t4 SET b = 5 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-14.2aux.2.6 { |
| catchsql { UPDATE t4 SET b = 1 } |
| } {0 {}} |
| do_test without_rowid3-14.2aux.2.7 { |
| execsql { INSERT INTO t3 VALUES(1, NULL, 1) } |
| } {} |
| } |
| |
| do_test without_rowid3-2.14.3.1 { |
| drop_all_tables |
| execsql { |
| CREATE TABLE t1(a, b REFERENCES nosuchtable); |
| DROP TABLE t1; |
| } |
| } {} |
| do_test without_rowid3-2.14.3.2 { |
| execsql { |
| CREATE TABLE t1(a PRIMARY KEY, b) WITHOUT rowid; |
| INSERT INTO t1 VALUES('a', 1); |
| CREATE TABLE t2(x REFERENCES t1); |
| INSERT INTO t2 VALUES('a'); |
| } |
| } {} |
| do_test without_rowid3-2.14.3.3 { |
| catchsql { DROP TABLE t1 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-2.14.3.4 { |
| execsql { |
| DELETE FROM t2; |
| DROP TABLE t1; |
| } |
| } {} |
| do_test without_rowid3-2.14.3.4 { |
| catchsql { INSERT INTO t2 VALUES('x') } |
| } {1 {no such table: main.t1}} |
| do_test without_rowid3-2.14.3.5 { |
| execsql { |
| CREATE TABLE t1(x PRIMARY KEY) WITHOUT rowid; |
| INSERT INTO t1 VALUES('x'); |
| } |
| execsql { INSERT INTO t2 VALUES('x') } |
| } {} |
| do_test without_rowid3-2.14.3.6 { |
| catchsql { DROP TABLE t1 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-2.14.3.7 { |
| execsql { |
| DROP TABLE t2; |
| DROP TABLE t1; |
| } |
| } {} |
| do_test without_rowid3-2.14.3.8 { |
| execsql { |
| CREATE TABLE pp(x, y, PRIMARY KEY(x, y)) WITHOUT ROWID; |
| CREATE TABLE cc(a, b, FOREIGN KEY(a, b) REFERENCES pp(x, z)); |
| } |
| catchsql { INSERT INTO cc VALUES(1, 2) } |
| } {1 {foreign key mismatch - "cc" referencing "pp"}} |
| do_test without_rowid3-2.14.3.9 { |
| execsql { DROP TABLE cc } |
| } {} |
| do_test without_rowid3-2.14.3.10 { |
| execsql { |
| CREATE TABLE cc(a, b, |
| FOREIGN KEY(a, b) REFERENCES pp DEFERRABLE INITIALLY DEFERRED |
| ); |
| } |
| execsql { |
| INSERT INTO pp VALUES('a', 'b'); |
| INSERT INTO cc VALUES('a', 'b'); |
| BEGIN; |
| DROP TABLE pp; |
| CREATE TABLE pp(a, b, c, PRIMARY KEY(b, c)) WITHOUT rowid; |
| INSERT INTO pp VALUES(1, 'a', 'b'); |
| COMMIT; |
| } |
| } {} |
| do_test without_rowid3-2.14.3.11 { |
| execsql { |
| BEGIN; |
| DROP TABLE cc; |
| DROP TABLE pp; |
| COMMIT; |
| } |
| } {} |
| do_test without_rowid3-2.14.3.12 { |
| execsql { |
| CREATE TABLE b1(a, b); |
| CREATE TABLE b2(a, b REFERENCES b1); |
| DROP TABLE b1; |
| } |
| } {} |
| do_test without_rowid3-2.14.3.13 { |
| execsql { |
| CREATE TABLE b3(a, b REFERENCES b2 DEFERRABLE INITIALLY DEFERRED); |
| DROP TABLE b2; |
| } |
| } {} |
| |
| # Test that nothing goes wrong when dropping a table that refers to a view. |
| # Or dropping a view that an existing FK (incorrectly) refers to. Or either |
| # of the above scenarios with a virtual table. |
| drop_all_tables |
| do_test without_rowid3-2.14.4.1 { |
| execsql { |
| CREATE TABLE t1(x REFERENCES v); |
| CREATE VIEW v AS SELECT * FROM t1; |
| } |
| } {} |
| do_test without_rowid3-2.14.4.2 { |
| execsql { |
| DROP VIEW v; |
| } |
| } {} |
| ifcapable vtab { |
| register_echo_module db |
| do_test without_rowid3-2.14.4.3 { |
| execsql { CREATE VIRTUAL TABLE v USING echo(t1) } |
| } {} |
| do_test without_rowid3-2.14.4.2 { |
| execsql { |
| DROP TABLE v; |
| } |
| } {} |
| } |
| |
| #------------------------------------------------------------------------- |
| # The following tests, without_rowid3-15.*, test that unnecessary FK related scans |
| # and lookups are avoided when the constraint counters are zero. |
| # |
| drop_all_tables |
| proc execsqlS {zSql} { |
| set ::sqlite_search_count 0 |
| set ::sqlite_found_count 0 |
| set res [uplevel [list execsql $zSql]] |
| concat [expr $::sqlite_found_count + $::sqlite_search_count] $res |
| } |
| do_test without_rowid3-15.1.1 { |
| execsql { |
| CREATE TABLE pp(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE cc(x, y REFERENCES pp DEFERRABLE INITIALLY DEFERRED); |
| INSERT INTO pp VALUES(1, 'one'); |
| INSERT INTO pp VALUES(2, 'two'); |
| INSERT INTO cc VALUES('neung', 1); |
| INSERT INTO cc VALUES('song', 2); |
| } |
| } {} |
| do_test without_rowid3-15.1.2 { |
| execsqlS { INSERT INTO pp VALUES(3, 'three') } |
| } {0} |
| do_test without_rowid3-15.1.3 { |
| execsql { |
| BEGIN; |
| INSERT INTO cc VALUES('see', 4); -- Violates deferred constraint |
| } |
| execsqlS { INSERT INTO pp VALUES(5, 'five') } |
| } {2} |
| do_test without_rowid3-15.1.4 { |
| execsql { DELETE FROM cc WHERE x = 'see' } |
| execsqlS { INSERT INTO pp VALUES(6, 'six') } |
| } {0} |
| do_test without_rowid3-15.1.5 { |
| execsql COMMIT |
| } {} |
| do_test without_rowid3-15.1.6 { |
| execsql BEGIN |
| execsqlS { |
| DELETE FROM cc WHERE x = 'neung'; |
| ROLLBACK; |
| } |
| } {1} |
| do_test without_rowid3-15.1.7 { |
| execsql { |
| BEGIN; |
| DELETE FROM pp WHERE a = 2; |
| } |
| execsqlS { |
| DELETE FROM cc WHERE x = 'neung'; |
| ROLLBACK; |
| } |
| } {2} |
| |
| #------------------------------------------------------------------------- |
| # This next block of tests, without_rowid3-16.*, test that rows that refer to |
| # themselves may be inserted and deleted. |
| # |
| foreach {tn zSchema} { |
| 1 { CREATE TABLE self(a INTEGER PRIMARY KEY, b REFERENCES self(a)) |
| WITHOUT rowid } |
| 2 { CREATE TABLE self(a PRIMARY KEY, b REFERENCES self(a)) WITHOUT rowid } |
| 3 { CREATE TABLE self(a UNIQUE, b INT PRIMARY KEY REFERENCES self(a)) |
| WITHOUT rowid } |
| } { |
| drop_all_tables |
| do_test without_rowid3-16.1.$tn.1 { |
| execsql $zSchema |
| execsql { INSERT INTO self VALUES(13, 13) } |
| } {} |
| do_test without_rowid3-16.1.$tn.2 { |
| execsql { UPDATE self SET a = 14, b = 14 } |
| } {} |
| |
| do_test without_rowid3-16.1.$tn.3 { |
| catchsql { UPDATE self SET b = 15 } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| do_test without_rowid3-16.1.$tn.4 { |
| catchsql { UPDATE self SET a = 15 } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| do_test without_rowid3-16.1.$tn.5 { |
| catchsql { UPDATE self SET a = 15, b = 16 } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| do_test without_rowid3-16.1.$tn.6 { |
| catchsql { UPDATE self SET a = 17, b = 17 } |
| } {0 {}} |
| |
| do_test without_rowid3-16.1.$tn.7 { |
| execsql { DELETE FROM self } |
| } {} |
| do_test without_rowid3-16.1.$tn.8 { |
| catchsql { INSERT INTO self VALUES(20, 21) } |
| } {1 {FOREIGN KEY constraint failed}} |
| } |
| |
| # Additional tests cases using multi-column self-referential |
| # FOREIGN KEY constraints. |
| # |
| drop_all_tables |
| do_execsql_test without_rowid3-16.4.1.1 { |
| PRAGMA foreign_keys=ON; |
| CREATE TABLE t1(a,b,c,d,e,f, |
| UNIQUE (a,b), |
| PRIMARY KEY (e,c), |
| FOREIGN KEY (d,f) REFERENCES t1(e,c) |
| ) WITHOUT rowid; |
| INSERT INTO t1 VALUES(1,2,3,5,5,3); |
| INSERT INTO t1 VALUES(2,3,4,6,6,4); |
| INSERT INTO t1 VALUES('x','y',1.5,'fizzle','fizzle',1.5); |
| SELECT *, '|' FROM t1 ORDER BY a, b; |
| } {1 2 3 5 5 3 | 2 3 4 6 6 4 | x y 1.5 fizzle fizzle 1.5 |} |
| |
| do_execsql_test without_rowid3-16.4.1.2 { |
| UPDATE t1 SET c=99, f=99 WHERE a=1; |
| SELECT *, '|' FROM t1 ORDER BY a, b; |
| } {1 2 99 5 5 99 | 2 3 4 6 6 4 | x y 1.5 fizzle fizzle 1.5 |} |
| |
| do_execsql_test without_rowid3-16.4.1.3 { |
| UPDATE t1 SET e=876, d=876 WHERE a=2; |
| SELECT *, '|' FROM t1 ORDER BY a, b; |
| } {1 2 99 5 5 99 | 2 3 4 876 876 4 | x y 1.5 fizzle fizzle 1.5 |} |
| |
| do_test without_rowid3-16.4.1.4 { |
| catchsql { |
| UPDATE t1 SET c=11, e=22 WHERE a=1; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| do_test without_rowid3-16.4.1.5 { |
| catchsql { |
| UPDATE t1 SET d=11, f=22 WHERE a=1; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| do_execsql_test without_rowid3-16.4.1.6 { |
| DELETE FROM t1 WHERE a=1; |
| SELECT *, '|' FROM t1 ORDER BY a, b; |
| } {2 3 4 876 876 4 | x y 1.5 fizzle fizzle 1.5 |} |
| |
| do_execsql_test without_rowid3-16.4.2.1 { |
| DROP TABLE t1; |
| CREATE TABLE t1(a,b,c,d,e,f, |
| PRIMARY KEY (a,b), |
| UNIQUE (e,c), |
| FOREIGN KEY (d,f) REFERENCES t1(e,c) |
| ) WITHOUT rowid; |
| INSERT INTO t1 VALUES(1,2,3,5,5,3); |
| INSERT INTO t1 VALUES(2,3,4,6,6,4); |
| INSERT INTO t1 VALUES('x','y',1.5,'fizzle','fizzle',1.5); |
| SELECT *, '|' FROM t1 ORDER BY a, b; |
| } {1 2 3 5 5 3 | 2 3 4 6 6 4 | x y 1.5 fizzle fizzle 1.5 |} |
| |
| do_execsql_test without_rowid3-16.4.2.2 { |
| UPDATE t1 SET c=99, f=99 WHERE a=1; |
| SELECT *, '|' FROM t1 ORDER BY a, b; |
| } {1 2 99 5 5 99 | 2 3 4 6 6 4 | x y 1.5 fizzle fizzle 1.5 |} |
| |
| do_execsql_test without_rowid3-16.4.2.3 { |
| UPDATE t1 SET e=876, d=876 WHERE a=2; |
| SELECT *, '|' FROM t1 ORDER BY a, b; |
| } {1 2 99 5 5 99 | 2 3 4 876 876 4 | x y 1.5 fizzle fizzle 1.5 |} |
| |
| do_test without_rowid3-16.4.2.4 { |
| catchsql { |
| UPDATE t1 SET c=11, e=22 WHERE a=1; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| do_test without_rowid3-16.4.2.5 { |
| catchsql { |
| UPDATE t1 SET d=11, f=22 WHERE a=1; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| do_execsql_test without_rowid3-16.4.2.6 { |
| DELETE FROM t1 WHERE a=1; |
| SELECT *, '|' FROM t1 ORDER BY a, b; |
| } {2 3 4 876 876 4 | x y 1.5 fizzle fizzle 1.5 |} |
| |
| |
| #------------------------------------------------------------------------- |
| # This next block of tests, without_rowid3-17.*, tests that if "PRAGMA count_changes" |
| # is turned on statements that violate immediate FK constraints return |
| # SQLITE_CONSTRAINT immediately, not after returning a number of rows. |
| # Whereas statements that violate deferred FK constraints return the number |
| # of rows before failing. |
| # |
| # Also test that rows modified by FK actions are not counted in either the |
| # returned row count or the values returned by sqlite3_changes(). Like |
| # trigger related changes, they are included in sqlite3_total_changes() though. |
| # |
| drop_all_tables |
| do_test without_rowid3-17.1.1 { |
| execsql { PRAGMA count_changes = 1 } |
| execsql { |
| CREATE TABLE one(a, b, c, UNIQUE(b, c)); |
| CREATE TABLE two(d, e, f, FOREIGN KEY(e, f) REFERENCES one(b, c)); |
| INSERT INTO one VALUES(1, 2, 3); |
| } |
| } {1} |
| do_test without_rowid3-17.1.2 { |
| set STMT [sqlite3_prepare_v2 db "INSERT INTO two VALUES(4, 5, 6)" -1 dummy] |
| sqlite3_step $STMT |
| } {SQLITE_CONSTRAINT} |
| verify_ex_errcode without_rowid3-17.1.2b SQLITE_CONSTRAINT_FOREIGNKEY |
| ifcapable autoreset { |
| do_test without_rowid3-17.1.3 { |
| sqlite3_step $STMT |
| } {SQLITE_CONSTRAINT} |
| verify_ex_errcode without_rowid3-17.1.3b SQLITE_CONSTRAINT_FOREIGNKEY |
| } else { |
| do_test without_rowid3-17.1.3 { |
| sqlite3_step $STMT |
| } {SQLITE_MISUSE} |
| } |
| do_test without_rowid3-17.1.4 { |
| sqlite3_finalize $STMT |
| } {SQLITE_CONSTRAINT} |
| verify_ex_errcode without_rowid3-17.1.4b SQLITE_CONSTRAINT_FOREIGNKEY |
| do_test without_rowid3-17.1.5 { |
| execsql { |
| INSERT INTO one VALUES(2, 3, 4); |
| INSERT INTO one VALUES(3, 4, 5); |
| INSERT INTO two VALUES(1, 2, 3); |
| INSERT INTO two VALUES(2, 3, 4); |
| INSERT INTO two VALUES(3, 4, 5); |
| } |
| } {1 1 1 1 1} |
| do_test without_rowid3-17.1.6 { |
| catchsql { |
| BEGIN; |
| INSERT INTO one VALUES(0, 0, 0); |
| UPDATE two SET e=e+1, f=f+1; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-17.1.7 { |
| execsql { SELECT * FROM one } |
| } {1 2 3 2 3 4 3 4 5 0 0 0} |
| do_test without_rowid3-17.1.8 { |
| execsql { SELECT * FROM two } |
| } {1 2 3 2 3 4 3 4 5} |
| do_test without_rowid3-17.1.9 { |
| execsql COMMIT |
| } {} |
| do_test without_rowid3-17.1.10 { |
| execsql { |
| CREATE TABLE three( |
| g, h, i, |
| FOREIGN KEY(h, i) REFERENCES one(b, c) DEFERRABLE INITIALLY DEFERRED |
| ); |
| } |
| } {} |
| do_test without_rowid3-17.1.11 { |
| set STMT [sqlite3_prepare_v2 db "INSERT INTO three VALUES(7, 8, 9)" -1 dummy] |
| sqlite3_step $STMT |
| } {SQLITE_ROW} |
| do_test without_rowid3-17.1.12 { |
| sqlite3_column_text $STMT 0 |
| } {1} |
| do_test without_rowid3-17.1.13 { |
| sqlite3_step $STMT |
| } {SQLITE_CONSTRAINT} |
| verify_ex_errcode without_rowid3-17.1.13b SQLITE_CONSTRAINT_FOREIGNKEY |
| do_test without_rowid3-17.1.14 { |
| sqlite3_finalize $STMT |
| } {SQLITE_CONSTRAINT} |
| verify_ex_errcode without_rowid3-17.1.14b SQLITE_CONSTRAINT_FOREIGNKEY |
| |
| drop_all_tables |
| do_test without_rowid3-17.2.1 { |
| execsql { |
| CREATE TABLE high("a'b!" PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE low( |
| c, |
| "d&6" REFERENCES high ON UPDATE CASCADE ON DELETE CASCADE |
| ); |
| } |
| } {} |
| do_test without_rowid3-17.2.2 { |
| execsql { |
| INSERT INTO high VALUES('a', 'b'); |
| INSERT INTO low VALUES('b', 'a'); |
| } |
| db changes |
| } {1} |
| set nTotal [db total_changes] |
| do_test without_rowid3-17.2.3 { |
| execsql { UPDATE high SET "a'b!" = 'c' } |
| } {1} |
| do_test without_rowid3-17.2.4 { |
| db changes |
| } {1} |
| do_test without_rowid3-17.2.5 { |
| expr [db total_changes] - $nTotal |
| } {2} |
| do_test without_rowid3-17.2.6 { |
| execsql { SELECT * FROM high ; SELECT * FROM low } |
| } {c b b c} |
| do_test without_rowid3-17.2.7 { |
| execsql { DELETE FROM high } |
| } {1} |
| do_test without_rowid3-17.2.8 { |
| db changes |
| } {1} |
| do_test without_rowid3-17.2.9 { |
| expr [db total_changes] - $nTotal |
| } {4} |
| do_test without_rowid3-17.2.10 { |
| execsql { SELECT * FROM high ; SELECT * FROM low } |
| } {} |
| execsql { PRAGMA count_changes = 0 } |
| |
| #------------------------------------------------------------------------- |
| # Test that the authorization callback works. |
| # |
| |
| ifcapable auth { |
| do_test without_rowid3-18.1 { |
| execsql { |
| CREATE TABLE long(a, b PRIMARY KEY, c) WITHOUT rowid; |
| CREATE TABLE short(d, e, f REFERENCES long); |
| CREATE TABLE mid(g, h, i REFERENCES long DEFERRABLE INITIALLY DEFERRED); |
| } |
| } {} |
| |
| proc auth {args} {eval lappend ::authargs [lrange $args 0 4]; return SQLITE_OK} |
| db auth auth |
| |
| # An insert on the parent table must read the child key of any deferred |
| # foreign key constraints. But not the child key of immediate constraints. |
| set authargs {} |
| do_test without_rowid3-18.2 { |
| execsql { INSERT INTO long VALUES(1, 2, 3) } |
| set authargs |
| } {SQLITE_INSERT long {} main {} SQLITE_READ mid i main {}} |
| |
| # An insert on the child table of an immediate constraint must read the |
| # parent key columns (to see if it is a violation or not). |
| set authargs {} |
| do_test without_rowid3-18.3 { |
| execsql { INSERT INTO short VALUES(1, 3, 2) } |
| set authargs |
| } {SQLITE_INSERT short {} main {} SQLITE_READ long b main {}} |
| |
| # As must an insert on the child table of a deferred constraint. |
| set authargs {} |
| do_test without_rowid3-18.4 { |
| execsql { INSERT INTO mid VALUES(1, 3, 2) } |
| set authargs |
| } {SQLITE_INSERT mid {} main {} SQLITE_READ long b main {}} |
| |
| do_test without_rowid3-18.5 { |
| execsql { |
| CREATE TABLE nought(a, b PRIMARY KEY, c) WITHOUT rowid; |
| CREATE TABLE cross(d, e, f, |
| FOREIGN KEY(e) REFERENCES nought(b) ON UPDATE CASCADE |
| ); |
| } |
| execsql { INSERT INTO nought VALUES(2, 1, 2) } |
| execsql { INSERT INTO cross VALUES(0, 1, 0) } |
| set authargs [list] |
| execsql { UPDATE nought SET b = 5 } |
| set authargs |
| } {SQLITE_UPDATE nought b main {} SQLITE_READ cross e main {} SQLITE_READ cross e main {} SQLITE_READ nought b main {} SQLITE_READ nought b main {} SQLITE_READ nought b main {} SQLITE_UPDATE cross e main {} SQLITE_READ nought b main {} SQLITE_READ cross e main {} SQLITE_READ nought b main {} SQLITE_READ nought b main {}} |
| |
| do_test without_rowid3-18.6 { |
| execsql {SELECT * FROM cross} |
| } {0 5 0} |
| |
| do_test without_rowid3-18.7 { |
| execsql { |
| CREATE TABLE one(a INT PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE two(b, c REFERENCES one); |
| INSERT INTO one VALUES(101, 102); |
| } |
| set authargs [list] |
| execsql { INSERT INTO two VALUES(100, 101); } |
| set authargs |
| } {SQLITE_INSERT two {} main {} SQLITE_READ one a main {}} |
| |
| # Return SQLITE_IGNORE to requests to read from the parent table. This |
| # causes inserts of non-NULL keys into the child table to fail. |
| # |
| rename auth {} |
| proc auth {args} { |
| if {[lindex $args 1] == "long"} {return SQLITE_IGNORE} |
| return SQLITE_OK |
| } |
| do_test without_rowid3-18.8 { |
| catchsql { INSERT INTO short VALUES(1, 3, 2) } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-18.9 { |
| execsql { INSERT INTO short VALUES(1, 3, NULL) } |
| } {} |
| do_test without_rowid3-18.10 { |
| execsql { SELECT * FROM short } |
| } {1 3 2 1 3 {}} |
| do_test without_rowid3-18.11 { |
| catchsql { UPDATE short SET f = 2 WHERE f IS NULL } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| db auth {} |
| unset authargs |
| } |
| |
| |
| do_test without_rowid3-19.1 { |
| execsql { |
| CREATE TABLE main(id INT PRIMARY KEY) WITHOUT rowid; |
| CREATE TABLE sub(id INT REFERENCES main(id)); |
| INSERT INTO main VALUES(1); |
| INSERT INTO main VALUES(2); |
| INSERT INTO sub VALUES(2); |
| } |
| } {} |
| do_test without_rowid3-19.2 { |
| set S [sqlite3_prepare_v2 db "DELETE FROM main WHERE id = ?" -1 dummy] |
| sqlite3_bind_int $S 1 2 |
| sqlite3_step $S |
| } {SQLITE_CONSTRAINT} |
| verify_ex_errcode without_rowid3-19.2b SQLITE_CONSTRAINT_FOREIGNKEY |
| do_test without_rowid3-19.3 { |
| sqlite3_reset $S |
| } {SQLITE_CONSTRAINT} |
| verify_ex_errcode without_rowid3-19.3b SQLITE_CONSTRAINT_FOREIGNKEY |
| do_test without_rowid3-19.4 { |
| sqlite3_bind_int $S 1 1 |
| sqlite3_step $S |
| } {SQLITE_DONE} |
| do_test without_rowid3-19.4 { |
| sqlite3_finalize $S |
| } {SQLITE_OK} |
| |
| drop_all_tables |
| do_test without_rowid3-20.1 { |
| execsql { |
| CREATE TABLE pp(a PRIMARY KEY, b) WITHOUT rowid; |
| CREATE TABLE cc(c PRIMARY KEY, d REFERENCES pp) WITHOUT rowid; |
| } |
| } {} |
| |
| foreach {tn insert} { |
| 1 "INSERT" |
| 2 "INSERT OR IGNORE" |
| 3 "INSERT OR ABORT" |
| 4 "INSERT OR ROLLBACK" |
| 5 "INSERT OR REPLACE" |
| 6 "INSERT OR FAIL" |
| } { |
| do_test without_rowid3-20.2.$tn.1 { |
| catchsql "$insert INTO cc VALUES(1, 2)" |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-20.2.$tn.2 { |
| execsql { SELECT * FROM cc } |
| } {} |
| do_test without_rowid3-20.2.$tn.3 { |
| execsql { |
| BEGIN; |
| INSERT INTO pp VALUES(2, 'two'); |
| INSERT INTO cc VALUES(1, 2); |
| } |
| catchsql "$insert INTO cc VALUES(3, 4)" |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-20.2.$tn.4 { |
| execsql { COMMIT ; SELECT * FROM cc } |
| } {1 2} |
| do_test without_rowid3-20.2.$tn.5 { |
| execsql { DELETE FROM cc ; DELETE FROM pp } |
| } {} |
| } |
| |
| foreach {tn update} { |
| 1 "UPDATE" |
| 2 "UPDATE OR IGNORE" |
| 3 "UPDATE OR ABORT" |
| 4 "UPDATE OR ROLLBACK" |
| 5 "UPDATE OR REPLACE" |
| 6 "UPDATE OR FAIL" |
| } { |
| do_test without_rowid3-20.3.$tn.1 { |
| execsql { |
| INSERT INTO pp VALUES(2, 'two'); |
| INSERT INTO cc VALUES(1, 2); |
| } |
| } {} |
| do_test without_rowid3-20.3.$tn.2 { |
| catchsql "$update pp SET a = 1" |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-20.3.$tn.3 { |
| execsql { SELECT * FROM pp } |
| } {2 two} |
| do_test without_rowid3-20.3.$tn.4 { |
| catchsql "$update cc SET d = 1" |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-20.3.$tn.5 { |
| execsql { SELECT * FROM cc } |
| } {1 2} |
| do_test without_rowid3-20.3.$tn.6 { |
| execsql { |
| BEGIN; |
| INSERT INTO pp VALUES(3, 'three'); |
| } |
| catchsql "$update pp SET a = 1 WHERE a = 2" |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-20.3.$tn.7 { |
| execsql { COMMIT ; SELECT * FROM pp } |
| } {2 two 3 three} |
| do_test without_rowid3-20.3.$tn.8 { |
| execsql { |
| BEGIN; |
| INSERT INTO cc VALUES(2, 2); |
| } |
| catchsql "$update cc SET d = 1 WHERE c = 1" |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-20.3.$tn.9 { |
| execsql { COMMIT ; SELECT * FROM cc } |
| } {1 2 2 2} |
| do_test without_rowid3-20.3.$tn.10 { |
| execsql { DELETE FROM cc ; DELETE FROM pp } |
| } {} |
| } |
| |
| #------------------------------------------------------------------------- |
| # The following block of tests, those prefixed with "without_rowid3-genfkey.", |
| # are the same tests that were used to test the ".genfkey" command provided |
| # by the shell tool. So these tests show that the built-in foreign key |
| # implementation is more or less compatible with the triggers generated |
| # by genfkey. |
| # |
| drop_all_tables |
| do_test without_rowid3-genfkey.1.1 { |
| execsql { |
| CREATE TABLE t1(a INT PRIMARY KEY, b, c, UNIQUE(b, c)) WITHOUT rowid; |
| CREATE TABLE t2(e REFERENCES t1, f); |
| CREATE TABLE t3(g, h, i, FOREIGN KEY (h, i) REFERENCES t1(b, c)); |
| } |
| } {} |
| do_test without_rowid3-genfkey.1.2 { |
| catchsql { INSERT INTO t2 VALUES(1, 2) } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-genfkey.1.3 { |
| execsql { |
| INSERT INTO t1 VALUES(1, 2, 3); |
| INSERT INTO t2 VALUES(1, 2); |
| } |
| } {} |
| do_test without_rowid3-genfkey.1.4 { |
| execsql { INSERT INTO t2 VALUES(NULL, 3) } |
| } {} |
| do_test without_rowid3-genfkey.1.5 { |
| catchsql { UPDATE t2 SET e = 5 WHERE e IS NULL } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-genfkey.1.6 { |
| execsql { UPDATE t2 SET e = 1 WHERE e IS NULL } |
| } {} |
| do_test without_rowid3-genfkey.1.7 { |
| execsql { UPDATE t2 SET e = NULL WHERE f = 3 } |
| } {} |
| do_test without_rowid3-genfkey.1.8 { |
| catchsql { UPDATE t1 SET a = 10 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-genfkey.1.9 { |
| catchsql { UPDATE t1 SET a = NULL } |
| } {1 {NOT NULL constraint failed: t1.a}} |
| do_test without_rowid3-genfkey.1.10 { |
| catchsql { DELETE FROM t1 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-genfkey.1.11 { |
| execsql { UPDATE t2 SET e = NULL } |
| } {} |
| do_test without_rowid3-genfkey.1.12 { |
| execsql { |
| UPDATE t1 SET a = 10; |
| DELETE FROM t1; |
| DELETE FROM t2; |
| } |
| } {} |
| do_test without_rowid3-genfkey.1.13 { |
| execsql { |
| INSERT INTO t3 VALUES(1, NULL, NULL); |
| INSERT INTO t3 VALUES(1, 2, NULL); |
| INSERT INTO t3 VALUES(1, NULL, 3); |
| } |
| } {} |
| do_test without_rowid3-genfkey.1.14 { |
| catchsql { INSERT INTO t3 VALUES(3, 1, 4) } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-genfkey.1.15 { |
| execsql { |
| INSERT INTO t1 VALUES(1, 1, 4); |
| INSERT INTO t3 VALUES(3, 1, 4); |
| } |
| } {} |
| do_test without_rowid3-genfkey.1.16 { |
| catchsql { DELETE FROM t1 } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-genfkey.1.17 { |
| catchsql { UPDATE t1 SET b = 10} |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-genfkey.1.18 { |
| execsql { UPDATE t1 SET a = 10} |
| } {} |
| do_test without_rowid3-genfkey.1.19 { |
| catchsql { UPDATE t3 SET h = 'hello' WHERE i = 3} |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| drop_all_tables |
| do_test without_rowid3-genfkey.2.1 { |
| execsql { |
| CREATE TABLE t1(a INT PRIMARY KEY, b, c, UNIQUE(b, c)) WITHOUT rowid; |
| CREATE TABLE t2(e REFERENCES t1 ON UPDATE CASCADE ON DELETE CASCADE, f); |
| CREATE TABLE t3(g, h, i, |
| FOREIGN KEY (h, i) |
| REFERENCES t1(b, c) ON UPDATE CASCADE ON DELETE CASCADE |
| ); |
| } |
| } {} |
| do_test without_rowid3-genfkey.2.2 { |
| execsql { |
| INSERT INTO t1 VALUES(1, 2, 3); |
| INSERT INTO t1 VALUES(4, 5, 6); |
| INSERT INTO t2 VALUES(1, 'one'); |
| INSERT INTO t2 VALUES(4, 'four'); |
| } |
| } {} |
| do_test without_rowid3-genfkey.2.3 { |
| execsql { |
| UPDATE t1 SET a = 2 WHERE a = 1; |
| SELECT * FROM t2; |
| } |
| } {2 one 4 four} |
| do_test without_rowid3-genfkey.2.4 { |
| execsql { |
| DELETE FROM t1 WHERE a = 4; |
| SELECT * FROM t2; |
| } |
| } {2 one} |
| |
| do_test without_rowid3-genfkey.2.5 { |
| execsql { |
| INSERT INTO t3 VALUES('hello', 2, 3); |
| UPDATE t1 SET c = 2; |
| SELECT * FROM t3; |
| } |
| } {hello 2 2} |
| do_test without_rowid3-genfkey.2.6 { |
| execsql { |
| DELETE FROM t1; |
| SELECT * FROM t3; |
| } |
| } {} |
| |
| drop_all_tables |
| do_test without_rowid3-genfkey.3.1 { |
| execsql { |
| CREATE TABLE t1(a INTEGER PRIMARY KEY, b, c, UNIQUE(c, b)) WITHOUT rowid; |
| CREATE TABLE t2(e REFERENCES t1 ON UPDATE SET NULL ON DELETE SET NULL, f); |
| CREATE TABLE t3(g, h, i, |
| FOREIGN KEY (h, i) |
| REFERENCES t1(b, c) ON UPDATE SET NULL ON DELETE SET NULL |
| ); |
| } |
| } {} |
| do_test without_rowid3-genfkey.3.2 { |
| execsql { |
| INSERT INTO t1 VALUES(1, 2, 3); |
| INSERT INTO t1 VALUES(4, 5, 6); |
| INSERT INTO t2 VALUES(1, 'one'); |
| INSERT INTO t2 VALUES(4, 'four'); |
| } |
| } {} |
| do_test without_rowid3-genfkey.3.3 { |
| execsql { |
| UPDATE t1 SET a = 2 WHERE a = 1; |
| SELECT * FROM t2; |
| } |
| } {{} one 4 four} |
| do_test without_rowid3-genfkey.3.4 { |
| execsql { |
| DELETE FROM t1 WHERE a = 4; |
| SELECT * FROM t2; |
| } |
| } {{} one {} four} |
| do_test without_rowid3-genfkey.3.5 { |
| execsql { |
| INSERT INTO t3 VALUES('hello', 2, 3); |
| UPDATE t1 SET c = 2; |
| SELECT * FROM t3; |
| } |
| } {hello {} {}} |
| do_test without_rowid3-genfkey.3.6 { |
| execsql { |
| UPDATE t3 SET h = 2, i = 2; |
| DELETE FROM t1; |
| SELECT * FROM t3; |
| } |
| } {hello {} {}} |
| |
| #------------------------------------------------------------------------- |
| # Verify that ticket dd08e5a988d00decc4a543daa8dbbfab9c577ad8 has been |
| # fixed. |
| # |
| do_test without_rowid3-dd08e5.1.1 { |
| execsql { |
| PRAGMA foreign_keys=ON; |
| CREATE TABLE tdd08(a INTEGER PRIMARY KEY, b) WITHOUT rowid; |
| CREATE UNIQUE INDEX idd08 ON tdd08(a,b); |
| INSERT INTO tdd08 VALUES(200,300); |
| |
| CREATE TABLE tdd08_b(w,x,y, FOREIGN KEY(x,y) REFERENCES tdd08(a,b)); |
| INSERT INTO tdd08_b VALUES(100,200,300); |
| } |
| } {} |
| do_test without_rowid3-dd08e5.1.2 { |
| catchsql { |
| DELETE FROM tdd08; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-dd08e5.1.3 { |
| execsql { |
| SELECT * FROM tdd08; |
| } |
| } {200 300} |
| do_test without_rowid3-dd08e5.1.4 { |
| catchsql { |
| INSERT INTO tdd08_b VALUES(400,500,300); |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-dd08e5.1.5 { |
| catchsql { |
| UPDATE tdd08_b SET x=x+1; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-dd08e5.1.6 { |
| catchsql { |
| UPDATE tdd08 SET a=a+1; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| #------------------------------------------------------------------------- |
| # Verify that ticket ce7c133ea6cc9ccdc1a60d80441f80b6180f5eba |
| # fixed. |
| # |
| do_test without_rowid3-ce7c13.1.1 { |
| execsql { |
| CREATE TABLE tce71(a INTEGER PRIMARY KEY, b) WITHOUT rowid; |
| CREATE UNIQUE INDEX ice71 ON tce71(a,b); |
| INSERT INTO tce71 VALUES(100,200); |
| CREATE TABLE tce72(w, x, y, FOREIGN KEY(x,y) REFERENCES tce71(a,b)); |
| INSERT INTO tce72 VALUES(300,100,200); |
| UPDATE tce71 set b = 200 where a = 100; |
| SELECT * FROM tce71, tce72; |
| } |
| } {100 200 300 100 200} |
| do_test without_rowid3-ce7c13.1.2 { |
| catchsql { |
| UPDATE tce71 set b = 201 where a = 100; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-ce7c13.1.3 { |
| catchsql { |
| UPDATE tce71 set a = 101 where a = 100; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-ce7c13.1.4 { |
| execsql { |
| CREATE TABLE tce73(a INTEGER PRIMARY KEY, b, UNIQUE(a,b)) WITHOUT rowid; |
| INSERT INTO tce73 VALUES(100,200); |
| CREATE TABLE tce74(w, x, y, FOREIGN KEY(x,y) REFERENCES tce73(a,b)); |
| INSERT INTO tce74 VALUES(300,100,200); |
| UPDATE tce73 set b = 200 where a = 100; |
| SELECT * FROM tce73, tce74; |
| } |
| } {100 200 300 100 200} |
| do_test without_rowid3-ce7c13.1.5 { |
| catchsql { |
| UPDATE tce73 set b = 201 where a = 100; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| do_test without_rowid3-ce7c13.1.6 { |
| catchsql { |
| UPDATE tce73 set a = 101 where a = 100; |
| } |
| } {1 {FOREIGN KEY constraint failed}} |
| |
| # Confirm that changes() works on WITHOUT ROWID tables that use the |
| # xfer optimization. |
| # |
| db close |
| sqlite3 db :memory: |
| do_execsql_test without_rowid3-30.1 { |
| CREATE TABLE t1(a,b,PRIMARY KEY(a,b)) WITHOUT ROWID; |
| CREATE TABLE t2(a,b,PRIMARY KEY(a,b)) WITHOUT ROWID; |
| INSERT INTO t1 VALUES(1,2),(3,4),(5,6); |
| SELECT changes(); |
| } {3} |
| do_execsql_test without_rowid3-30.2 { |
| INSERT INTO t2 SELECT * FROM t1; |
| SELECT changes(); |
| } {3} |
| |
| finish_test |