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| 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 1.40 2009/06/16 17:49:36 drh Exp $ |
| 15 |
| 16 |
| 17 set testdir [file dirname $argv0] |
| 18 source $testdir/tester.tcl |
| 19 |
| 20 # Create an alternative connection to the database |
| 21 # |
| 22 do_test lock-1.0 { |
| 23 # Give a complex pathname to stress the path simplification logic in |
| 24 # the vxworks driver and in test_async. |
| 25 file mkdir tempdir/t1/t2 |
| 26 sqlite3 db2 ./tempdir/../tempdir/t1/.//t2/../../..//test.db |
| 27 set dummy {} |
| 28 } {} |
| 29 do_test lock-1.1 { |
| 30 execsql {SELECT name FROM sqlite_master WHERE type='table' ORDER BY name} |
| 31 } {} |
| 32 do_test lock-1.2 { |
| 33 execsql {SELECT name FROM sqlite_master WHERE type='table' ORDER BY name} db2 |
| 34 } {} |
| 35 do_test lock-1.3 { |
| 36 execsql {CREATE TABLE t1(a int, b int)} |
| 37 execsql {SELECT name FROM sqlite_master WHERE type='table' ORDER BY name} |
| 38 } {t1} |
| 39 do_test lock-1.5 { |
| 40 catchsql { |
| 41 SELECT name FROM sqlite_master WHERE type='table' ORDER BY name |
| 42 } db2 |
| 43 } {0 t1} |
| 44 |
| 45 do_test lock-1.6 { |
| 46 execsql {INSERT INTO t1 VALUES(1,2)} |
| 47 execsql {SELECT * FROM t1} |
| 48 } {1 2} |
| 49 # Update: The schema is now brought up to date by test lock-1.5. |
| 50 # do_test lock-1.7.1 { |
| 51 # catchsql {SELECT * FROM t1} db2 |
| 52 # } {1 {no such table: t1}} |
| 53 do_test lock-1.7.2 { |
| 54 catchsql {SELECT * FROM t1} db2 |
| 55 } {0 {1 2}} |
| 56 do_test lock-1.8 { |
| 57 execsql {UPDATE t1 SET a=b, b=a} db2 |
| 58 execsql {SELECT * FROM t1} db2 |
| 59 } {2 1} |
| 60 do_test lock-1.9 { |
| 61 execsql {SELECT * FROM t1} |
| 62 } {2 1} |
| 63 do_test lock-1.10 { |
| 64 execsql {BEGIN TRANSACTION} |
| 65 execsql {UPDATE t1 SET a = 0 WHERE 0} |
| 66 execsql {SELECT * FROM t1} |
| 67 } {2 1} |
| 68 do_test lock-1.11 { |
| 69 catchsql {SELECT * FROM t1} db2 |
| 70 } {0 {2 1}} |
| 71 do_test lock-1.12 { |
| 72 execsql {ROLLBACK} |
| 73 catchsql {SELECT * FROM t1} |
| 74 } {0 {2 1}} |
| 75 |
| 76 do_test lock-1.13 { |
| 77 execsql {CREATE TABLE t2(x int, y int)} |
| 78 execsql {INSERT INTO t2 VALUES(8,9)} |
| 79 execsql {SELECT * FROM t2} |
| 80 } {8 9} |
| 81 do_test lock-1.14.1 { |
| 82 catchsql {SELECT * FROM t2} db2 |
| 83 } {0 {8 9}} |
| 84 do_test lock-1.14.2 { |
| 85 catchsql {SELECT * FROM t1} db2 |
| 86 } {0 {2 1}} |
| 87 do_test lock-1.15 { |
| 88 catchsql {SELECT * FROM t2} db2 |
| 89 } {0 {8 9}} |
| 90 |
| 91 do_test lock-1.16 { |
| 92 db eval {SELECT * FROM t1} qv { |
| 93 set x [db eval {SELECT * FROM t1}] |
| 94 } |
| 95 set x |
| 96 } {2 1} |
| 97 do_test lock-1.17 { |
| 98 db eval {SELECT * FROM t1} qv { |
| 99 set x [db eval {SELECT * FROM t2}] |
| 100 } |
| 101 set x |
| 102 } {8 9} |
| 103 |
| 104 # You cannot UPDATE a table from within the callback of a SELECT |
| 105 # on that same table because the SELECT has the table locked. |
| 106 # |
| 107 # 2006-08-16: Reads no longer block writes within the same |
| 108 # database connection. |
| 109 # |
| 110 #do_test lock-1.18 { |
| 111 # db eval {SELECT * FROM t1} qv { |
| 112 # set r [catch {db eval {UPDATE t1 SET a=b, b=a}} msg] |
| 113 # lappend r $msg |
| 114 # } |
| 115 # set r |
| 116 #} {1 {database table is locked}} |
| 117 |
| 118 # But you can UPDATE a different table from the one that is used in |
| 119 # the SELECT. |
| 120 # |
| 121 do_test lock-1.19 { |
| 122 db eval {SELECT * FROM t1} qv { |
| 123 set r [catch {db eval {UPDATE t2 SET x=y, y=x}} msg] |
| 124 lappend r $msg |
| 125 } |
| 126 set r |
| 127 } {0 {}} |
| 128 do_test lock-1.20 { |
| 129 execsql {SELECT * FROM t2} |
| 130 } {9 8} |
| 131 |
| 132 # It is possible to do a SELECT of the same table within the |
| 133 # callback of another SELECT on that same table because two |
| 134 # or more read-only cursors can be open at once. |
| 135 # |
| 136 do_test lock-1.21 { |
| 137 db eval {SELECT * FROM t1} qv { |
| 138 set r [catch {db eval {SELECT a FROM t1}} msg] |
| 139 lappend r $msg |
| 140 } |
| 141 set r |
| 142 } {0 2} |
| 143 |
| 144 # Under UNIX you can do two SELECTs at once with different database |
| 145 # connections, because UNIX supports reader/writer locks. Under windows, |
| 146 # this is not possible. |
| 147 # |
| 148 if {$::tcl_platform(platform)=="unix"} { |
| 149 do_test lock-1.22 { |
| 150 db eval {SELECT * FROM t1} qv { |
| 151 set r [catch {db2 eval {SELECT a FROM t1}} msg] |
| 152 lappend r $msg |
| 153 } |
| 154 set r |
| 155 } {0 2} |
| 156 } |
| 157 integrity_check lock-1.23 |
| 158 |
| 159 # If one thread has a transaction another thread cannot start |
| 160 # a transaction. -> Not true in version 3.0. But if one thread |
| 161 # as a RESERVED lock another thread cannot acquire one. |
| 162 # |
| 163 do_test lock-2.1 { |
| 164 execsql {BEGIN TRANSACTION} |
| 165 execsql {UPDATE t1 SET a = 0 WHERE 0} |
| 166 execsql {BEGIN TRANSACTION} db2 |
| 167 set r [catch {execsql {UPDATE t1 SET a = 0 WHERE 0} db2} msg] |
| 168 execsql {ROLLBACK} db2 |
| 169 lappend r $msg |
| 170 } {1 {database is locked}} |
| 171 |
| 172 # A thread can read when another has a RESERVED lock. |
| 173 # |
| 174 do_test lock-2.2 { |
| 175 catchsql {SELECT * FROM t2} db2 |
| 176 } {0 {9 8}} |
| 177 |
| 178 # If the other thread (the one that does not hold the transaction with |
| 179 # a RESERVED lock) tries to get a RESERVED lock, we do get a busy callback |
| 180 # as long as we were not orginally holding a READ lock. |
| 181 # |
| 182 do_test lock-2.3.1 { |
| 183 proc callback {count} { |
| 184 set ::callback_value $count |
| 185 break |
| 186 } |
| 187 set ::callback_value {} |
| 188 db2 busy callback |
| 189 # db2 does not hold a lock so we should get a busy callback here |
| 190 set r [catch {execsql {UPDATE t1 SET a=b, b=a} db2} msg] |
| 191 lappend r $msg |
| 192 lappend r $::callback_value |
| 193 } {1 {database is locked} 0} |
| 194 do_test lock-2.3.2 { |
| 195 set ::callback_value {} |
| 196 execsql {BEGIN; SELECT rowid FROM sqlite_master LIMIT 1} db2 |
| 197 # This time db2 does hold a read lock. No busy callback this time. |
| 198 set r [catch {execsql {UPDATE t1 SET a=b, b=a} db2} msg] |
| 199 lappend r $msg |
| 200 lappend r $::callback_value |
| 201 } {1 {database is locked} {}} |
| 202 catch {execsql {ROLLBACK} db2} |
| 203 do_test lock-2.4.1 { |
| 204 proc callback {count} { |
| 205 lappend ::callback_value $count |
| 206 if {$count>4} break |
| 207 } |
| 208 set ::callback_value {} |
| 209 db2 busy callback |
| 210 # We get a busy callback because db2 is not holding a lock |
| 211 set r [catch {execsql {UPDATE t1 SET a=b, b=a} db2} msg] |
| 212 lappend r $msg |
| 213 lappend r $::callback_value |
| 214 } {1 {database is locked} {0 1 2 3 4 5}} |
| 215 do_test lock-2.4.2 { |
| 216 proc callback {count} { |
| 217 lappend ::callback_value $count |
| 218 if {$count>4} break |
| 219 } |
| 220 set ::callback_value {} |
| 221 db2 busy callback |
| 222 execsql {BEGIN; SELECT rowid FROM sqlite_master LIMIT 1} db2 |
| 223 # No busy callback this time because we are holding a lock |
| 224 set r [catch {execsql {UPDATE t1 SET a=b, b=a} db2} msg] |
| 225 lappend r $msg |
| 226 lappend r $::callback_value |
| 227 } {1 {database is locked} {}} |
| 228 catch {execsql {ROLLBACK} db2} |
| 229 do_test lock-2.5 { |
| 230 proc callback {count} { |
| 231 lappend ::callback_value $count |
| 232 if {$count>4} break |
| 233 } |
| 234 set ::callback_value {} |
| 235 db2 busy callback |
| 236 set r [catch {execsql {SELECT * FROM t1} db2} msg] |
| 237 lappend r $msg |
| 238 lappend r $::callback_value |
| 239 } {0 {2 1} {}} |
| 240 execsql {ROLLBACK} |
| 241 |
| 242 # Test the built-in busy timeout handler |
| 243 # |
| 244 do_test lock-2.8 { |
| 245 db2 timeout 400 |
| 246 execsql BEGIN |
| 247 execsql {UPDATE t1 SET a = 0 WHERE 0} |
| 248 catchsql {BEGIN EXCLUSIVE;} db2 |
| 249 } {1 {database is locked}} |
| 250 do_test lock-2.9 { |
| 251 db2 timeout 0 |
| 252 execsql COMMIT |
| 253 } {} |
| 254 integrity_check lock-2.10 |
| 255 |
| 256 # Try to start two transactions in a row |
| 257 # |
| 258 do_test lock-3.1 { |
| 259 execsql {BEGIN TRANSACTION} |
| 260 set r [catch {execsql {BEGIN TRANSACTION}} msg] |
| 261 execsql {ROLLBACK} |
| 262 lappend r $msg |
| 263 } {1 {cannot start a transaction within a transaction}} |
| 264 integrity_check lock-3.2 |
| 265 |
| 266 # Make sure the busy handler and error messages work when |
| 267 # opening a new pointer to the database while another pointer |
| 268 # has the database locked. |
| 269 # |
| 270 do_test lock-4.1 { |
| 271 db2 close |
| 272 catch {db eval ROLLBACK} |
| 273 db eval BEGIN |
| 274 db eval {UPDATE t1 SET a=0 WHERE 0} |
| 275 sqlite3 db2 ./test.db |
| 276 catchsql {UPDATE t1 SET a=0} db2 |
| 277 } {1 {database is locked}} |
| 278 do_test lock-4.2 { |
| 279 set ::callback_value {} |
| 280 set rc [catch {db2 eval {UPDATE t1 SET a=0}} msg] |
| 281 lappend rc $msg $::callback_value |
| 282 } {1 {database is locked} {}} |
| 283 do_test lock-4.3 { |
| 284 proc callback {count} { |
| 285 lappend ::callback_value $count |
| 286 if {$count>4} break |
| 287 } |
| 288 db2 busy callback |
| 289 set rc [catch {db2 eval {UPDATE t1 SET a=0}} msg] |
| 290 lappend rc $msg $::callback_value |
| 291 } {1 {database is locked} {0 1 2 3 4 5}} |
| 292 execsql {ROLLBACK} |
| 293 |
| 294 # When one thread is writing, other threads cannot read. Except if the |
| 295 # writing thread is writing to its temporary tables, the other threads |
| 296 # can still read. -> Not so in 3.0. One thread can read while another |
| 297 # holds a RESERVED lock. |
| 298 # |
| 299 proc tx_exec {sql} { |
| 300 db2 eval $sql |
| 301 } |
| 302 do_test lock-5.1 { |
| 303 execsql { |
| 304 SELECT * FROM t1 |
| 305 } |
| 306 } {2 1} |
| 307 do_test lock-5.2 { |
| 308 db function tx_exec tx_exec |
| 309 catchsql { |
| 310 INSERT INTO t1(a,b) SELECT 3, tx_exec('SELECT y FROM t2 LIMIT 1'); |
| 311 } |
| 312 } {0 {}} |
| 313 |
| 314 ifcapable tempdb { |
| 315 do_test lock-5.3 { |
| 316 execsql { |
| 317 CREATE TEMP TABLE t3(x); |
| 318 SELECT * FROM t3; |
| 319 } |
| 320 } {} |
| 321 do_test lock-5.4 { |
| 322 catchsql { |
| 323 INSERT INTO t3 SELECT tx_exec('SELECT y FROM t2 LIMIT 1'); |
| 324 } |
| 325 } {0 {}} |
| 326 do_test lock-5.5 { |
| 327 execsql { |
| 328 SELECT * FROM t3; |
| 329 } |
| 330 } {8} |
| 331 do_test lock-5.6 { |
| 332 catchsql { |
| 333 UPDATE t1 SET a=tx_exec('SELECT x FROM t2'); |
| 334 } |
| 335 } {0 {}} |
| 336 do_test lock-5.7 { |
| 337 execsql { |
| 338 SELECT * FROM t1; |
| 339 } |
| 340 } {9 1 9 8} |
| 341 do_test lock-5.8 { |
| 342 catchsql { |
| 343 UPDATE t3 SET x=tx_exec('SELECT x FROM t2'); |
| 344 } |
| 345 } {0 {}} |
| 346 do_test lock-5.9 { |
| 347 execsql { |
| 348 SELECT * FROM t3; |
| 349 } |
| 350 } {9} |
| 351 } |
| 352 |
| 353 do_test lock-6.1 { |
| 354 execsql { |
| 355 CREATE TABLE t4(a PRIMARY KEY, b); |
| 356 INSERT INTO t4 VALUES(1, 'one'); |
| 357 INSERT INTO t4 VALUES(2, 'two'); |
| 358 INSERT INTO t4 VALUES(3, 'three'); |
| 359 } |
| 360 |
| 361 set STMT [sqlite3_prepare $DB "SELECT * FROM sqlite_master" -1 TAIL] |
| 362 sqlite3_step $STMT |
| 363 |
| 364 execsql { DELETE FROM t4 } |
| 365 execsql { SELECT * FROM sqlite_master } db2 |
| 366 execsql { SELECT * FROM t4 } db2 |
| 367 } {} |
| 368 |
| 369 do_test lock-6.2 { |
| 370 execsql { |
| 371 BEGIN; |
| 372 INSERT INTO t4 VALUES(1, 'one'); |
| 373 INSERT INTO t4 VALUES(2, 'two'); |
| 374 INSERT INTO t4 VALUES(3, 'three'); |
| 375 COMMIT; |
| 376 } |
| 377 |
| 378 execsql { SELECT * FROM t4 } db2 |
| 379 } {1 one 2 two 3 three} |
| 380 |
| 381 do_test lock-6.3 { |
| 382 execsql { SELECT a FROM t4 ORDER BY a } db2 |
| 383 } {1 2 3} |
| 384 |
| 385 do_test lock-6.4 { |
| 386 execsql { PRAGMA integrity_check } db2 |
| 387 } {ok} |
| 388 |
| 389 do_test lock-6.5 { |
| 390 sqlite3_finalize $STMT |
| 391 } {SQLITE_OK} |
| 392 |
| 393 # At one point the following set of conditions would cause SQLite to |
| 394 # retain a RESERVED or EXCLUSIVE lock after the transaction was committed: |
| 395 # |
| 396 # * The journal-mode is set to something other than 'delete', and |
| 397 # * there exists one or more active read-only statements, and |
| 398 # * a transaction that modified zero database pages is committed. |
| 399 # |
| 400 set temp_status unlocked |
| 401 if {$TEMP_STORE>=2} {set temp_status unknown} |
| 402 do_test lock-7.1 { |
| 403 set STMT [sqlite3_prepare $DB "SELECT * FROM sqlite_master" -1 TAIL] |
| 404 sqlite3_step $STMT |
| 405 } {SQLITE_ROW} |
| 406 do_test lock-7.2 { |
| 407 execsql { PRAGMA lock_status } |
| 408 } [list main shared temp $temp_status] |
| 409 do_test lock-7.3 { |
| 410 execsql { |
| 411 PRAGMA journal_mode = truncate; |
| 412 BEGIN; |
| 413 UPDATE t4 SET a = 10 WHERE 0; |
| 414 COMMIT; |
| 415 } |
| 416 execsql { PRAGMA lock_status } |
| 417 } [list main shared temp $temp_status] |
| 418 do_test lock-7.4 { |
| 419 sqlite3_finalize $STMT |
| 420 } {SQLITE_OK} |
| 421 |
| 422 do_test lock-999.1 { |
| 423 rename db2 {} |
| 424 } {} |
| 425 |
| 426 finish_test |
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