1# 2007 June 13 2# 3# The author disclaims copyright to this source code. In place of 4# a legal notice, here is a blessing: 5# 6# May you do good and not evil. 7# May you find forgiveness for yourself and forgive others. 8# May you share freely, never taking more than you give. 9# 10#*********************************************************************** 11# This file implements regression tests for SQLite library. 12# 13# This file implements tests to verify that ticket #2409 has been 14# fixed. More specifically, they verify that if SQLite cannot 15# obtain an EXCLUSIVE lock while trying to spill the cache during 16# any statement other than a COMMIT, an I/O error is returned instead 17# of SQLITE_BUSY. 18# 19# $Id: tkt2409.test,v 1.6 2008/08/28 17:46:19 drh Exp $ 20 21# Test Outline: 22# 23# tkt-2409-1.*: Cause a cache-spill during an INSERT that is within 24# a db transaction but does not start a statement transaction. 25# Verify that the transaction is automatically rolled back 26# and SQLITE_IOERR_BLOCKED is returned 27# 28# UPDATE: As of the pcache modifications, failing to upgrade to 29# an exclusive lock when attempting a cache-spill is no longer an 30# error. The pcache module allocates more space and keeps working 31# in memory if this occurs. 32# 33# tkt-2409-2.*: Cause a cache-spill while updating the change-counter 34# during a database COMMIT. Verify that the transaction is not 35# rolled back and SQLITE_BUSY is returned. 36# 37# tkt-2409-3.*: Similar to 2409-1.*, but using many INSERT statements 38# within a transaction instead of just one. 39# 40# UPDATE: Again, pcache now just keeps working in main memory. 41# 42# tkt-2409-4.*: Similar to 2409-1.*, but rig it so that the 43# INSERT statement starts a statement transaction. Verify that 44# SQLITE_BUSY is returned and the transaction is not rolled back. 45# 46# UPDATE: This time, SQLITE_BUSY is not returned. pcache just uses 47# more malloc()'d memory. 48# 49 50set testdir [file dirname $argv0] 51source $testdir/tester.tcl 52 53ifcapable !pager_pragmas { 54 finish_test 55 return 56} 57 58sqlite3_extended_result_codes $::DB 1 59 60# Aquire a read-lock on the database using handle [db2]. 61# 62proc read_lock_db {} { 63 if {$::STMT eq ""} { 64 set ::STMT [sqlite3_prepare db2 {SELECT rowid FROM sqlite_master} -1 TAIL] 65 set rc [sqlite3_step $::STMT] 66 if {$rc eq "SQLITE_ERROR"} { 67 unread_lock_db 68 read_lock_db 69 } 70 } 71} 72 73# Release any read-lock obtained using [read_lock_db] 74# 75proc unread_lock_db {} { 76 if {$::STMT ne ""} { 77 sqlite3_finalize $::STMT 78 set ::STMT "" 79 } 80} 81 82# Open the db handle used by [read_lock_db]. 83# 84sqlite3 db2 test.db 85set ::STMT "" 86 87do_test tkt2409-1.1 { 88 execsql { 89 PRAGMA cache_size=10; 90 CREATE TABLE t1(x TEXT UNIQUE NOT NULL, y BLOB); 91 } 92 read_lock_db 93 set ::zShort [string repeat 0123456789 1] 94 set ::zLong [string repeat 0123456789 1500] 95 catchsql { 96 BEGIN; 97 INSERT INTO t1 VALUES($::zShort, $::zLong); 98 } 99} {0 {}} 100 101do_test tkt2409-1.2 { 102 sqlite3_errcode $::DB 103} {SQLITE_OK} 104 105# Check the integrity of the cache. 106# 107integrity_check tkt2409-1.3 108 109# Check that the transaction was rolled back. Because the INSERT 110# statement in which the "I/O error" occured did not open a statement 111# transaction, SQLite had no choice but to roll back the transaction. 112# 113do_test tkt2409-1.4 { 114 unread_lock_db 115 catchsql { ROLLBACK } 116} {0 {}} 117 118set ::zShort [string repeat 0123456789 1] 119set ::zLong [string repeat 0123456789 1500] 120set ::rc 1 121for {set iCache 10} {$::rc} {incr iCache} { 122 execsql "PRAGMA cache_size = $iCache" 123 do_test tkt2409-2.1.$iCache { 124 read_lock_db 125 set ::rc [catch { 126 execsql { 127 BEGIN; 128 INSERT INTO t1 VALUES($::zShort, $::zLong); 129 } 130 } msg] 131 expr {($::rc == 1 && $msg eq "disk I/O error") || $::rc == 0} 132 } {1} 133} 134 135do_test tkt2409-2.2 { 136 catchsql { 137 ROLLBACK; 138 BEGIN; 139 INSERT INTO t1 VALUES($::zShort, $::zLong); 140 COMMIT; 141 } 142} {1 {database is locked}} 143 144do_test tkt2409-2.3 { 145 unread_lock_db 146 catchsql { 147 COMMIT; 148 } 149} {0 {}} 150 151 152do_test tkt2409-3.1 { 153 db close 154 set ::DB [sqlite3 db test.db; sqlite3_connection_pointer db] 155 sqlite3_extended_result_codes $::DB 1 156 execsql { 157 PRAGMA cache_size=10; 158 DELETE FROM t1; 159 } 160 read_lock_db 161 set ::zShort [string repeat 0123456789 1] 162 set ::zLong [string repeat 0123456789 1500] 163 catchsql { 164 BEGIN; 165 INSERT INTO t1 SELECT $::zShort, $::zLong; 166 } 167} {0 {}} 168 169do_test tkt2409-3.2 { 170 sqlite3_errcode $::DB 171} {SQLITE_OK} 172 173# Check the integrity of the cache. 174# 175integrity_check tkt2409-3.3 176 177# Check that the transaction was rolled back. Because the INSERT 178# statement in which the "I/O error" occured did not open a statement 179# transaction, SQLite had no choice but to roll back the transaction. 180# 181do_test tkt2409-3.4 { 182 unread_lock_db 183 catchsql { ROLLBACK } 184} {0 {}} 185integrity_check tkt2409-3.5 186 187expr {srand(1)} 188do_test tkt2409-4.1 { 189 execsql { 190 PRAGMA cache_size=20; 191 DROP TABLE t1; 192 CREATE TABLE t1 (x TEXT UNIQUE NOT NULL); 193 } 194 195 unset -nocomplain t1 196 array unset t1 197 set t1(0) 1 198 set sql "" 199 for {set i 0} {$i<5000} {incr i} { 200 set r 0 201 while {[info exists t1($r)]} { 202 set r [expr {int(rand()*1000000000)}] 203 } 204 set t1($r) 1 205 append sql "INSERT INTO t1 VALUES('some-text-$r');" 206 } 207 208 read_lock_db 209 execsql BEGIN 210 catchsql $sql 211} {0 {}} 212 213do_test tkt2409-4.2 { 214 sqlite3_errcode $::DB 215} {SQLITE_OK} 216 217# Check the integrity of the cache. 218# 219integrity_check tkt2409-4.3 220 221do_test tkt2409-4.4 { 222 catchsql { ROLLBACK } 223} {0 {}} 224integrity_check tkt2409-4.5 225 226unread_lock_db 227db2 close 228unset -nocomplain t1 229finish_test 230