1# 2001 September 15 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. The 12# focus of this script is database locks. 13# 14# $Id: lock.test,v 1.33 2006/08/16 16:42:48 drh Exp $ 15 16 17set testdir [file dirname $argv0] 18source $testdir/tester.tcl 19 20# Create an alternative connection to the database 21# 22do_test lock-1.0 { 23 sqlite3 db2 ./test.db 24 set dummy {} 25} {} 26do_test lock-1.1 { 27 execsql {SELECT name FROM sqlite_master WHERE type='table' ORDER BY name} 28} {} 29do_test lock-1.2 { 30 execsql {SELECT name FROM sqlite_master WHERE type='table' ORDER BY name} db2 31} {} 32do_test lock-1.3 { 33 execsql {CREATE TABLE t1(a int, b int)} 34 execsql {SELECT name FROM sqlite_master WHERE type='table' ORDER BY name} 35} {t1} 36do_test lock-1.5 { 37 catchsql { 38 SELECT name FROM sqlite_master WHERE type='table' ORDER BY name 39 } db2 40} {0 t1} 41 42do_test lock-1.6 { 43 execsql {INSERT INTO t1 VALUES(1,2)} 44 execsql {SELECT * FROM t1} 45} {1 2} 46# Update: The schema is now brought up to date by test lock-1.5. 47# do_test lock-1.7.1 { 48# catchsql {SELECT * FROM t1} db2 49# } {1 {no such table: t1}} 50do_test lock-1.7.2 { 51 catchsql {SELECT * FROM t1} db2 52} {0 {1 2}} 53do_test lock-1.8 { 54 execsql {UPDATE t1 SET a=b, b=a} db2 55 execsql {SELECT * FROM t1} db2 56} {2 1} 57do_test lock-1.9 { 58 execsql {SELECT * FROM t1} 59} {2 1} 60do_test lock-1.10 { 61 execsql {BEGIN TRANSACTION} 62 execsql {UPDATE t1 SET a = 0 WHERE 0} 63 execsql {SELECT * FROM t1} 64} {2 1} 65do_test lock-1.11 { 66 catchsql {SELECT * FROM t1} db2 67} {0 {2 1}} 68do_test lock-1.12 { 69 execsql {ROLLBACK} 70 catchsql {SELECT * FROM t1} 71} {0 {2 1}} 72 73do_test lock-1.13 { 74 execsql {CREATE TABLE t2(x int, y int)} 75 execsql {INSERT INTO t2 VALUES(8,9)} 76 execsql {SELECT * FROM t2} 77} {8 9} 78do_test lock-1.14.1 { 79 catchsql {SELECT * FROM t2} db2 80} {1 {no such table: t2}} 81do_test lock-1.14.2 { 82 catchsql {SELECT * FROM t1} db2 83} {0 {2 1}} 84do_test lock-1.15 { 85 catchsql {SELECT * FROM t2} db2 86} {0 {8 9}} 87 88do_test lock-1.16 { 89 db eval {SELECT * FROM t1} qv { 90 set x [db eval {SELECT * FROM t1}] 91 } 92 set x 93} {2 1} 94do_test lock-1.17 { 95 db eval {SELECT * FROM t1} qv { 96 set x [db eval {SELECT * FROM t2}] 97 } 98 set x 99} {8 9} 100 101# You cannot UPDATE a table from within the callback of a SELECT 102# on that same table because the SELECT has the table locked. 103# 104# 2006-08-16: Reads no longer block writes within the same 105# database connection. 106# 107#do_test lock-1.18 { 108# db eval {SELECT * FROM t1} qv { 109# set r [catch {db eval {UPDATE t1 SET a=b, b=a}} msg] 110# lappend r $msg 111# } 112# set r 113#} {1 {database table is locked}} 114 115# But you can UPDATE a different table from the one that is used in 116# the SELECT. 117# 118do_test lock-1.19 { 119 db eval {SELECT * FROM t1} qv { 120 set r [catch {db eval {UPDATE t2 SET x=y, y=x}} msg] 121 lappend r $msg 122 } 123 set r 124} {0 {}} 125do_test lock-1.20 { 126 execsql {SELECT * FROM t2} 127} {9 8} 128 129# It is possible to do a SELECT of the same table within the 130# callback of another SELECT on that same table because two 131# or more read-only cursors can be open at once. 132# 133do_test lock-1.21 { 134 db eval {SELECT * FROM t1} qv { 135 set r [catch {db eval {SELECT a FROM t1}} msg] 136 lappend r $msg 137 } 138 set r 139} {0 2} 140 141# Under UNIX you can do two SELECTs at once with different database 142# connections, because UNIX supports reader/writer locks. Under windows, 143# this is not possible. 144# 145if {$::tcl_platform(platform)=="unix"} { 146 do_test lock-1.22 { 147 db eval {SELECT * FROM t1} qv { 148 set r [catch {db2 eval {SELECT a FROM t1}} msg] 149 lappend r $msg 150 } 151 set r 152 } {0 2} 153} 154integrity_check lock-1.23 155 156# If one thread has a transaction another thread cannot start 157# a transaction. -> Not true in version 3.0. But if one thread 158# as a RESERVED lock another thread cannot acquire one. 159# 160do_test lock-2.1 { 161 execsql {BEGIN TRANSACTION} 162 execsql {UPDATE t1 SET a = 0 WHERE 0} 163 execsql {BEGIN TRANSACTION} db2 164 set r [catch {execsql {UPDATE t1 SET a = 0 WHERE 0} db2} msg] 165 execsql {ROLLBACK} db2 166 lappend r $msg 167} {1 {database is locked}} 168 169# A thread can read when another has a RESERVED lock. 170# 171do_test lock-2.2 { 172 catchsql {SELECT * FROM t2} db2 173} {0 {9 8}} 174 175# If the other thread (the one that does not hold the transaction with 176# a RESERVED lock) tries to get a RESERVED lock, we do get a busy callback 177# as long as we were not orginally holding a READ lock. 178# 179do_test lock-2.3.1 { 180 proc callback {count} { 181 set ::callback_value $count 182 break 183 } 184 set ::callback_value {} 185 db2 busy callback 186 # db2 does not hold a lock so we should get a busy callback here 187 set r [catch {execsql {UPDATE t1 SET a=b, b=a} db2} msg] 188 lappend r $msg 189 lappend r $::callback_value 190} {1 {database is locked} 0} 191do_test lock-2.3.2 { 192 set ::callback_value {} 193 execsql {BEGIN; SELECT rowid FROM sqlite_master LIMIT 1} db2 194 # This time db2 does hold a read lock. No busy callback this time. 195 set r [catch {execsql {UPDATE t1 SET a=b, b=a} db2} msg] 196 lappend r $msg 197 lappend r $::callback_value 198} {1 {database is locked} {}} 199catch {execsql {ROLLBACK} db2} 200do_test lock-2.4.1 { 201 proc callback {count} { 202 lappend ::callback_value $count 203 if {$count>4} break 204 } 205 set ::callback_value {} 206 db2 busy callback 207 # We get a busy callback because db2 is not holding a lock 208 set r [catch {execsql {UPDATE t1 SET a=b, b=a} db2} msg] 209 lappend r $msg 210 lappend r $::callback_value 211} {1 {database is locked} {0 1 2 3 4 5}} 212do_test lock-2.4.2 { 213 proc callback {count} { 214 lappend ::callback_value $count 215 if {$count>4} break 216 } 217 set ::callback_value {} 218 db2 busy callback 219 execsql {BEGIN; SELECT rowid FROM sqlite_master LIMIT 1} db2 220 # No busy callback this time because we are holding a lock 221 set r [catch {execsql {UPDATE t1 SET a=b, b=a} db2} msg] 222 lappend r $msg 223 lappend r $::callback_value 224} {1 {database is locked} {}} 225catch {execsql {ROLLBACK} db2} 226do_test lock-2.5 { 227 proc callback {count} { 228 lappend ::callback_value $count 229 if {$count>4} break 230 } 231 set ::callback_value {} 232 db2 busy callback 233 set r [catch {execsql {SELECT * FROM t1} db2} msg] 234 lappend r $msg 235 lappend r $::callback_value 236} {0 {2 1} {}} 237execsql {ROLLBACK} 238 239# Test the built-in busy timeout handler 240# 241do_test lock-2.8 { 242 db2 timeout 400 243 execsql BEGIN 244 execsql {UPDATE t1 SET a = 0 WHERE 0} 245 catchsql {BEGIN EXCLUSIVE;} db2 246} {1 {database is locked}} 247do_test lock-2.9 { 248 db2 timeout 0 249 execsql COMMIT 250} {} 251integrity_check lock-2.10 252 253# Try to start two transactions in a row 254# 255do_test lock-3.1 { 256 execsql {BEGIN TRANSACTION} 257 set r [catch {execsql {BEGIN TRANSACTION}} msg] 258 execsql {ROLLBACK} 259 lappend r $msg 260} {1 {cannot start a transaction within a transaction}} 261integrity_check lock-3.2 262 263# Make sure the busy handler and error messages work when 264# opening a new pointer to the database while another pointer 265# has the database locked. 266# 267do_test lock-4.1 { 268 db2 close 269 catch {db eval ROLLBACK} 270 db eval BEGIN 271 db eval {UPDATE t1 SET a=0 WHERE 0} 272 sqlite3 db2 ./test.db 273 catchsql {UPDATE t1 SET a=0} db2 274} {1 {database is locked}} 275do_test lock-4.2 { 276 set ::callback_value {} 277 set rc [catch {db2 eval {UPDATE t1 SET a=0}} msg] 278 lappend rc $msg $::callback_value 279} {1 {database is locked} {}} 280do_test lock-4.3 { 281 proc callback {count} { 282 lappend ::callback_value $count 283 if {$count>4} break 284 } 285 db2 busy callback 286 set rc [catch {db2 eval {UPDATE t1 SET a=0}} msg] 287 lappend rc $msg $::callback_value 288} {1 {database is locked} {0 1 2 3 4 5}} 289execsql {ROLLBACK} 290 291# When one thread is writing, other threads cannot read. Except if the 292# writing thread is writing to its temporary tables, the other threads 293# can still read. -> Not so in 3.0. One thread can read while another 294# holds a RESERVED lock. 295# 296proc tx_exec {sql} { 297 db2 eval $sql 298} 299do_test lock-5.1 { 300 execsql { 301 SELECT * FROM t1 302 } 303} {2 1} 304do_test lock-5.2 { 305 db function tx_exec tx_exec 306 catchsql { 307 INSERT INTO t1(a,b) SELECT 3, tx_exec('SELECT y FROM t2 LIMIT 1'); 308 } 309} {0 {}} 310 311ifcapable tempdb { 312 do_test lock-5.3 { 313 execsql { 314 CREATE TEMP TABLE t3(x); 315 SELECT * FROM t3; 316 } 317 } {} 318 do_test lock-5.4 { 319 catchsql { 320 INSERT INTO t3 SELECT tx_exec('SELECT y FROM t2 LIMIT 1'); 321 } 322 } {0 {}} 323 do_test lock-5.5 { 324 execsql { 325 SELECT * FROM t3; 326 } 327 } {8} 328 do_test lock-5.6 { 329 catchsql { 330 UPDATE t1 SET a=tx_exec('SELECT x FROM t2'); 331 } 332 } {0 {}} 333 do_test lock-5.7 { 334 execsql { 335 SELECT * FROM t1; 336 } 337 } {9 1 9 8} 338 do_test lock-5.8 { 339 catchsql { 340 UPDATE t3 SET x=tx_exec('SELECT x FROM t2'); 341 } 342 } {0 {}} 343 do_test lock-5.9 { 344 execsql { 345 SELECT * FROM t3; 346 } 347 } {9} 348} 349 350do_test lock-999.1 { 351 rename db2 {} 352} {} 353 354finish_test 355