# 2006 September 4 # # 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. # # $Id: misc7.test,v 1.1.1.1 2012/02/21 17:04:16 misho Exp $ set testdir [file dirname $argv0] source $testdir/tester.tcl do_test misc7-1-misuse { c_misuse_test } {} do_test misc7-2 { c_realloc_test } {} do_test misc7-3 { c_collation_test } {} # Try to open a directory: # do_test misc7-4 { delete_file mydir file mkdir mydir set rc [catch { sqlite3 db2 ./mydir } msg] list $rc $msg } {1 {unable to open database file}} # Try to open a file with a directory where its journal file should be. # do_test misc7-5 { delete_file mydir file mkdir mydir-journal sqlite3 db2 ./mydir catchsql { CREATE TABLE abc(a, b, c); } db2 } {1 {unable to open database file}} db2 close #-------------------------------------------------------------------- # The following tests, misc7-6.* test the libraries behaviour when # it cannot open a file. To force this condition, we use up all the # file-descriptors before running sqlite. This probably only works # on unix. # proc use_up_files {} { set ret [list] catch { while 1 { lappend ret [open test.db] } } return $ret } proc do_fileopen_test {prefix sql} { set fd_list [use_up_files] set ::go 1 set ::n 1 set ::sql $sql while {$::go} { catch {db close} do_test ${prefix}.${::n} { set rc [catch { sqlite db test.db db eval $::sql } msg] if {$rc == 0} {set ::go 0} expr {$rc == 0 || ($rc == 1 && [string first unable $msg]==0)} } 1 close [lindex $fd_list 0] set fd_list [lrange $fd_list 1 end] incr ::n } foreach fd $fd_list { close $fd } db close } execsql { CREATE TABLE abc(a PRIMARY KEY, b, c); } db close if {$tcl_platform(platform)!="windows"} { do_fileopen_test misc7-6.1 { BEGIN; INSERT INTO abc VALUES(1, 2, 3); INSERT INTO abc VALUES(2, 3, 4); INSERT INTO abc SELECT a+2, b, c FROM abc; COMMIT; } do_fileopen_test misc7-6.2 { PRAGMA temp.cache_size = 1000; } } # # End of tests for out-of-file-descriptors condition. #-------------------------------------------------------------------- sqlite3 db test.db execsql { DELETE FROM abc; INSERT INTO abc VALUES(1, 2, 3); INSERT INTO abc VALUES(2, 3, 4); INSERT INTO abc SELECT a+2, b, c FROM abc; } #-------------------------------------------------------------------- # Test that the sqlite3_busy_timeout call seems to delay approximately # the right amount of time. # do_test misc7-7.0 { sqlite3 db2 test.db sqlite3_busy_timeout [sqlite3_connection_pointer db] 2000 execsql { BEGIN EXCLUSIVE; } db2 # Now db2 has an exclusive lock on the database file, and db has # a busy-timeout of 2000 milliseconds. So check that trying to # access the database using connection db delays for at least 1500 ms. # set tm [time { set result [catchsql { SELECT * FROM sqlite_master; } db] }] set delay [lindex $tm 0] ;# In microseconds lappend result [expr {$delay>1500000 && $delay<4000000}] } {1 {database is locked} 1} db2 close #-------------------------------------------------------------------- # Test that nothing goes horribly wrong when attaching a database # after the omit_readlock pragma has been exercised. # do_test misc7-7.1 { forcedelete test2.db forcedelete test2.db-journal execsql { PRAGMA omit_readlock = 1; ATTACH 'test2.db' AS aux; CREATE TABLE aux.hello(world); SELECT name FROM aux.sqlite_master; } } {hello} do_test misc7-7.2 { execsql { DETACH aux; } } {} do_test misc7-7.3 { db close sqlite3 db test.db -readonly 1 execsql { PRAGMA omit_readlock = 1; ATTACH 'test2.db' AS aux; SELECT name FROM aux.sqlite_master; SELECT name FROM aux.sqlite_master; } } {hello hello} do_test misc7-7.3 { db close sqlite3 db test.db set ::DB [sqlite3_connection_pointer db] list } {} # Test the UTF-16 version of the "out of memory" message (used when # malloc fails during sqlite3_open() ). # ifcapable utf16 { do_test misc7-8 { encoding convertfrom unicode [sqlite3_errmsg16 0x00000000] } {out of memory} } do_test misc7-9 { execsql { SELECT * FROM (SELECT name+1 AS one FROM sqlite_master LIMIT 1 OFFSET 1) WHERE one LIKE 'hello%'; } } {} #-------------------------------------------------------------------- # Improve coverage for vtab code. # ifcapable vtab { # Run some debug code to improve reported coverage # # set sqlite_where_trace 1 do_test misc7-10 { register_echo_module [sqlite3_connection_pointer db] execsql { CREATE VIRTUAL TABLE t1 USING echo(abc); SELECT a FROM t1 WHERE a = 1 ORDER BY b; } } {1} set sqlite_where_trace 0 # Specify an ORDER BY clause that cannot be indexed. do_test misc7-11 { execsql { SELECT t1.a, t2.a FROM t1, t1 AS t2 ORDER BY 2 LIMIT 1; } } {1 1} # The whole point of this is to test an error code other than # SQLITE_NOMEM from the vtab xBestIndex callback. # do_ioerr_test misc7-12 -tclprep { sqlite3 db2 test.db register_echo_module [sqlite3_connection_pointer db2] db2 eval { CREATE TABLE abc(a PRIMARY KEY, b, c); INSERT INTO abc VALUES(1, 2, 3); CREATE VIRTUAL TABLE t1 USING echo(abc); } db2 close } -tclbody { register_echo_module [sqlite3_connection_pointer db] execsql {SELECT * FROM t1 WHERE a = 1;} } # The case where the virtual table module returns a very large number # as the cost of a scan (greater than SQLITE_BIG_DOUBLE in the code). # do_test misc7-13 { sqlite3 db test.db register_echo_module [sqlite3_connection_pointer db] set ::echo_module_cost 2.0e+99 execsql {SELECT * FROM t1 WHERE a = 1;} } {1 2 3} unset ::echo_module_cost } db close forcedelete test.db forcedelete test.db-journal sqlite3 db test.db ifcapable explain { do_execsql_test misc7-14.1 { CREATE TABLE abc(a PRIMARY KEY, b, c); EXPLAIN QUERY PLAN SELECT * FROM abc AS t2 WHERE rowid = 1; } { 0 0 0 {SEARCH TABLE abc AS t2 USING INTEGER PRIMARY KEY (rowid=?) (~1 rows)} } do_execsql_test misc7-14.2 { EXPLAIN QUERY PLAN SELECT * FROM abc AS t2 WHERE a = 1; } {0 0 0 {SEARCH TABLE abc AS t2 USING INDEX sqlite_autoindex_abc_1 (a=?) (~1 rows)} } do_execsql_test misc7-14.3 { EXPLAIN QUERY PLAN SELECT * FROM abc AS t2 ORDER BY a; } {0 0 0 {SCAN TABLE abc AS t2 USING INDEX sqlite_autoindex_abc_1 (~1000000 rows)} } } db close forcedelete test.db forcedelete test.db-journal sqlite3 db test.db #-------------------------------------------------------------------- # This is all to force the pager_remove_from_stmt_list() function # (inside pager.c) to remove a pager from the middle of the # statement-list. # do_test misc7-15.1 { execsql { PRAGMA cache_size = 10; BEGIN; CREATE TABLE abc(a PRIMARY KEY, b, c); INSERT INTO abc VALUES(randstr(100,100), randstr(100,100), randstr(100,100)); INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; COMMIT; } expr {[file size test.db]>10240} } {1} do_test misc7-15.2 { execsql { DELETE FROM abc WHERE rowid > 12; INSERT INTO abc SELECT randstr(100,100), randstr(100,100), randstr(100,100) FROM abc; } } {} db close forcedelete test.db forcedelete test.db-journal sqlite3 db test.db do_ioerr_test misc7-16 -sqlprep { PRAGMA cache_size = 10; PRAGMA default_cache_size = 10; CREATE TABLE t3(a, b, UNIQUE(a, b)); INSERT INTO t3 VALUES( randstr(100, 100), randstr(100, 100) ); INSERT INTO t3 SELECT randstr(100, 100), randstr(100, 100) FROM t3; INSERT INTO t3 SELECT randstr(100, 100), randstr(100, 100) FROM t3; INSERT INTO t3 SELECT randstr(100, 100), randstr(100, 100) FROM t3; INSERT INTO t3 SELECT randstr(100, 100), randstr(100, 100) FROM t3; INSERT INTO t3 SELECT randstr(100, 100), randstr(100, 100) FROM t3; UPDATE t3 SET b = 'hello world' WHERE rowid >= (SELECT max(rowid)-1 FROM t3); } -tclbody { set rc [catch {db eval { BEGIN; PRAGMA cache_size = 10; INSERT INTO t3 VALUES( randstr(100, 100), randstr(100, 100) ); UPDATE t3 SET a = b; COMMIT; }} msg] if {!$rc || ($rc && [string first "columns" $msg]==0)} { set msg } else { error $msg } } sqlite3 db test.db do_test misc7-16.X { execsql { SELECT count(*) FROM t3; } } {32} #---------------------------------------------------------------------- # Test the situation where a hot-journal is discovered but write-access # to it is denied. This should return SQLITE_BUSY. # # These tests do not work on windows due to restrictions in the # windows file system. # if {$tcl_platform(platform)!="windows" && $tcl_platform(platform)!="os2"} { # Some network filesystems (ex: AFP) do not support setting read-only # permissions. Only run these tests if full unix permission setting # capabilities are supported. # file attributes test.db -permissions rw-r--r-- if {[file attributes test.db -permissions]==0644} { do_test misc7-17.1 { execsql { BEGIN; DELETE FROM t3 WHERE (oid%3)==0; } forcecopy test.db bak.db forcecopy test.db-journal bak.db-journal execsql { COMMIT; } db close forcecopy bak.db test.db forcecopy bak.db-journal test.db-journal sqlite3 db test.db catch {file attributes test.db-journal -permissions r--------} catch {file attributes test.db-journal -readonly 1} catchsql { SELECT count(*) FROM t3; } } {1 {unable to open database file}} do_test misc7-17.2 { # Note that the -readonly flag must be cleared before the -permissions # are set. Otherwise, when using tcl 8.5 on mac, the fact that the # -readonly flag is set causes the attempt to set the permissions # to fail. catch {file attributes test.db-journal -readonly 0} catch {file attributes test.db-journal -permissions rw-------} catchsql { SELECT count(*) FROM t3; } } {0 32} # sqlite3_test_control_pending_page [expr ($::sqlite_pending_byte / 1024) + 1] set ::pending_byte_page [expr ($::sqlite_pending_byte / 1024) + 1] sqlite3_test_control_pending_byte $::sqlite_pending_byte do_test misc7-17.3 { db eval { pragma writable_schema = true; UPDATE sqlite_master SET rootpage = $pending_byte_page WHERE type = 'table' AND name = 't3'; } execsql { SELECT rootpage FROM sqlite_master WHERE type = 'table' AND name = 't3'; } } $::pending_byte_page do_test misc7-17.4 { db close sqlite3 db test.db catchsql { SELECT count(*) FROM t3; } } {1 {database disk image is malformed}} } } # Ticket #2470 # do_test misc7-18.1 { execsql { CREATE TABLE table_1 (col_10); CREATE TABLE table_2 ( col_1, col_2, col_3, col_4, col_5, col_6, col_7, col_8, col_9, col_10 ); SELECT a.col_10 FROM (SELECT table_1.col_10 AS col_10 FROM table_1) a, (SELECT table_1.col_10, table_2.col_9 AS qcol_9 FROM table_1, table_2 GROUP BY table_1.col_10, qcol_9); } } {} # Testing boundary conditions on sqlite3_status() # do_test misc7-19.1 { sqlite3_status -1 0 } {21 0 0} do_test misc7-19.2 { sqlite3_status 1000 0 } {21 0 0} # sqlite3_global_recover() is a no-op. But we might as well test it # if only to get the test coverage. # do_test misc7-20.1 { sqlite3_global_recover } {SQLITE_OK} # Try to open a really long file name. # do_test misc7-21.1 { set zFile [file join [pwd] "[string repeat abcde 104].db"] set rc [catch {sqlite3 db2 $zFile} msg] list $rc $msg } {1 {unable to open database file}} db close forcedelete test.db finish_test