1# 2007 May 1 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# 12# $Id: incrblob.test,v 1.24 2009/06/19 22:23:42 drh Exp $ 13# 14 15set testdir [file dirname $argv0] 16source $testdir/tester.tcl 17 18ifcapable {!autovacuum || !pragma || !incrblob} { 19 finish_test 20 return 21} 22 23do_test incrblob-1.1 { 24 execsql { 25 CREATE TABLE blobs(k PRIMARY KEY, v BLOB); 26 INSERT INTO blobs VALUES('one', X'0102030405060708090A'); 27 INSERT INTO blobs VALUES('two', X'0A090807060504030201'); 28 } 29} {} 30 31do_test incrblob-1.2.1 { 32 set ::blob [db incrblob blobs v 1] 33 string match incrblob_* $::blob 34} {1} 35unset -nocomplain data 36do_test incrblob-1.2.2 { 37 binary scan [read $::blob] c* data 38 set data 39} {1 2 3 4 5 6 7 8 9 10} 40do_test incrblob-1.2.3 { 41 seek $::blob 0 42 puts -nonewline $::blob "1234567890" 43 flush $::blob 44} {} 45do_test incrblob-1.2.4 { 46 seek $::blob 0 47 binary scan [read $::blob] c* data 48 set data 49} {49 50 51 52 53 54 55 56 57 48} 50do_test incrblob-1.2.5 { 51 close $::blob 52} {} 53do_test incrblob-1.2.6 { 54 execsql { 55 SELECT v FROM blobs WHERE rowid = 1; 56 } 57} {1234567890} 58 59#-------------------------------------------------------------------- 60# Test cases incrblob-1.3.X check that it is possible to read and write 61# regions of a blob that lie on overflow pages. 62# 63do_test incrblob-1.3.1 { 64 set ::str "[string repeat . 10000]" 65 execsql { 66 INSERT INTO blobs(rowid, k, v) VALUES(3, 'three', $::str); 67 } 68} {} 69 70do_test incrblob-1.3.2 { 71 set ::blob [db incrblob blobs v 3] 72 seek $::blob 8500 73 read $::blob 10 74} {..........} 75do_test incrblob-1.3.3 { 76 seek $::blob 8500 77 puts -nonewline $::blob 1234567890 78} {} 79do_test incrblob-1.3.4 { 80 seek $::blob 8496 81 read $::blob 10 82} {....123456} 83do_test incrblob-1.3.10 { 84 close $::blob 85} {} 86 87#------------------------------------------------------------------------ 88# incrblob-2.*: 89# 90# Test that the following operations use ptrmap pages to reduce 91# unnecessary reads: 92# 93# * Reading near the end of a blob, 94# * Writing near the end of a blob, and 95# * SELECT a column value that is located on an overflow page. 96# 97proc nRead {db} { 98 set bt [btree_from_db $db] 99 db_enter $db 100 array set stats [btree_pager_stats $bt] 101 db_leave $db 102 return $stats(read) 103} 104proc nWrite {db} { 105 set bt [btree_from_db $db] 106 db_enter $db 107 array set stats [btree_pager_stats $bt] 108 db_leave $db 109 return $stats(write) 110} 111 112sqlite3_soft_heap_limit 0 113 114foreach AutoVacuumMode [list 0 1] { 115 116 if {$AutoVacuumMode>0} { 117 ifcapable !autovacuum { 118 break 119 } 120 } 121 122 db close 123 file delete -force test.db test.db-journal 124 125 sqlite3 db test.db 126 execsql "PRAGMA auto_vacuum = $AutoVacuumMode" 127 128 do_test incrblob-2.$AutoVacuumMode.1 { 129 set ::str [string repeat abcdefghij 2900] 130 execsql { 131 BEGIN; 132 CREATE TABLE blobs(k PRIMARY KEY, v BLOB, i INTEGER); 133 DELETE FROM blobs; 134 INSERT INTO blobs VALUES('one', $::str || randstr(500,500), 45); 135 COMMIT; 136 } 137 expr [file size test.db]/1024 138 } [expr 31 + $AutoVacuumMode] 139 140 ifcapable autovacuum { 141 do_test incrblob-2.$AutoVacuumMode.2 { 142 execsql { 143 PRAGMA auto_vacuum; 144 } 145 } $AutoVacuumMode 146 } 147 148 do_test incrblob-2.$AutoVacuumMode.3 { 149 # Open and close the db to make sure the page cache is empty. 150 db close 151 sqlite3 db test.db 152 153 # Read the last 20 bytes of the blob via a blob handle. 154 set ::blob [db incrblob blobs v 1] 155 seek $::blob -20 end 156 set ::fragment [read $::blob] 157 close $::blob 158 159 # If the database is not in auto-vacuum mode, the whole of 160 # the overflow-chain must be scanned. In auto-vacuum mode, 161 # sqlite uses the ptrmap pages to avoid reading the other pages. 162 # 163 nRead db 164 } [expr $AutoVacuumMode ? 4 : 30] 165 166 do_test incrblob-2.$AutoVacuumMode.4 { 167 string range [db one {SELECT v FROM blobs}] end-19 end 168 } $::fragment 169 170 do_test incrblob-2.$AutoVacuumMode.5 { 171 # Open and close the db to make sure the page cache is empty. 172 db close 173 sqlite3 db test.db 174 175 # Write the second-to-last 20 bytes of the blob via a blob handle. 176 # 177 set ::blob [db incrblob blobs v 1] 178 seek $::blob -40 end 179 puts -nonewline $::blob "1234567890abcdefghij" 180 flush $::blob 181 182 # If the database is not in auto-vacuum mode, the whole of 183 # the overflow-chain must be scanned. In auto-vacuum mode, 184 # sqlite uses the ptrmap pages to avoid reading the other pages. 185 # 186 nRead db 187 } [expr $AutoVacuumMode ? 4 : 30] 188 189 # Pages 1 (the write-counter) and 32 (the blob data) were written. 190 do_test incrblob-2.$AutoVacuumMode.6 { 191 close $::blob 192 nWrite db 193 } 2 194 195 do_test incrblob-2.$AutoVacuumMode.7 { 196 string range [db one {SELECT v FROM blobs}] end-39 end-20 197 } "1234567890abcdefghij" 198 199 do_test incrblob-2.$AutoVacuumMode.8 { 200 # Open and close the db to make sure the page cache is empty. 201 db close 202 sqlite3 db test.db 203 204 execsql { SELECT i FROM blobs } 205 } {45} 206 207 do_test incrblob-2.$AutoVacuumMode.9 { 208 nRead db 209 } [expr $AutoVacuumMode ? 4 : 30] 210} 211sqlite3_soft_heap_limit $cmdlinearg(soft-heap-limit) 212 213#------------------------------------------------------------------------ 214# incrblob-3.*: 215# 216# Test the outcome of trying to write to a read-only blob handle. 217# 218do_test incrblob-3.1 { 219 set ::blob [db incrblob -readonly blobs v 1] 220 seek $::blob -40 end 221 read $::blob 20 222} "1234567890abcdefghij" 223do_test incrblob-3.2 { 224 seek $::blob 0 225 set rc [catch { 226 puts -nonewline $::blob "helloworld" 227 } msg] 228 close $::blob 229 list $rc $msg 230} "1 {channel \"$::blob\" wasn't opened for writing}" 231 232do_test incrblob-3.3 { 233 set ::blob [db incrblob -readonly blobs v 1] 234 seek $::blob -40 end 235 read $::blob 20 236} "1234567890abcdefghij" 237do_test incrblob-3.4 { 238 set rc [catch { 239 sqlite3_blob_write $::blob 20 "qwertyuioplkjhgfds" 240 } msg] 241 list $rc $msg 242} {1 SQLITE_READONLY} 243catch {close $::blob} 244 245#------------------------------------------------------------------------ 246# incrblob-4.*: 247# 248# Try a couple of error conditions: 249# 250# 4.1 - Attempt to open a row that does not exist. 251# 4.2 - Attempt to open a column that does not exist. 252# 4.3 - Attempt to open a table that does not exist. 253# 4.4 - Attempt to open a database that does not exist. 254# 255# 4.5 - Attempt to open an integer 256# 4.6 - Attempt to open a real value 257# 4.7 - Attempt to open an SQL null 258# 259# 4.8 - Attempt to open an indexed column for writing 260# 4.9 - Attempt to open an indexed column for reading (this works) 261# 262# 4.11 - Attempt to open a column of a view. 263# 4.12 - Attempt to open a column of a virtual table. 264# 265do_test incrblob-4.1 { 266 set rc [catch { 267 set ::blob [db incrblob blobs v 2] 268 } msg ] 269 list $rc $msg 270} {1 {no such rowid: 2}} 271do_test incrblob-4.2 { 272 set rc [catch { 273 set ::blob [db incrblob blobs blue 1] 274 } msg ] 275 list $rc $msg 276} {1 {no such column: "blue"}} 277do_test incrblob-4.3 { 278 set rc [catch { 279 set ::blob [db incrblob nosuchtable blue 1] 280 } msg ] 281 list $rc $msg 282} {1 {no such table: main.nosuchtable}} 283do_test incrblob-4.4 { 284 set rc [catch { 285 set ::blob [db incrblob nosuchdb blobs v 1] 286 } msg ] 287 list $rc $msg 288} {1 {no such table: nosuchdb.blobs}} 289 290do_test incrblob-4.5 { 291 set rc [catch { 292 set ::blob [db incrblob blobs i 1] 293 } msg ] 294 list $rc $msg 295} {1 {cannot open value of type integer}} 296do_test incrblob-4.6 { 297 execsql { 298 INSERT INTO blobs(k, v, i) VALUES(123, 567.765, NULL); 299 } 300 set rc [catch { 301 set ::blob [db incrblob blobs v 2] 302 } msg ] 303 list $rc $msg 304} {1 {cannot open value of type real}} 305do_test incrblob-4.7 { 306 set rc [catch { 307 set ::blob [db incrblob blobs i 2] 308 } msg ] 309 list $rc $msg 310} {1 {cannot open value of type null}} 311 312do_test incrblob-4.8.1 { 313 execsql { 314 INSERT INTO blobs(k, v, i) VALUES(X'010203040506070809', 'hello', 'world'); 315 } 316 set rc [catch { 317 set ::blob [db incrblob blobs k 3] 318 } msg ] 319 list $rc $msg 320} {1 {cannot open indexed column for writing}} 321do_test incrblob-4.8.2 { 322 execsql { 323 CREATE TABLE t3(a INTEGER PRIMARY KEY, b); 324 INSERT INTO t3 VALUES(1, 2); 325 } 326 set rc [catch { 327 set ::blob [db incrblob -readonly t3 a 1] 328 } msg ] 329 list $rc $msg 330} {1 {cannot open value of type null}} 331do_test incrblob-4.8.3 { 332 set rc [catch { 333 set ::blob [db incrblob -readonly t3 rowid 1] 334 } msg ] 335 list $rc $msg 336} {1 {no such column: "rowid"}} 337 338do_test incrblob-4.9.1 { 339 set rc [catch { 340 set ::blob [db incrblob -readonly blobs k 3] 341 } msg] 342} {0} 343do_test incrblob-4.9.2 { 344 binary scan [read $::blob] c* c 345 close $::blob 346 set c 347} {1 2 3 4 5 6 7 8 9} 348 349do_test incrblob-4.10 { 350 set ::blob [db incrblob -readonly blobs k 3] 351 set rc [catch { sqlite3_blob_read $::blob 10 100 } msg] 352 list $rc $msg 353} {1 SQLITE_ERROR} 354do_test incrblob-4.10.2 { 355 close $::blob 356} {} 357 358ifcapable view { 359 do_test incrblob-4.11 { 360 execsql { CREATE VIEW blobs_view AS SELECT k, v, i FROM blobs } 361 set rc [catch { db incrblob blobs_view v 3 } msg] 362 list $rc $msg 363 } {1 {cannot open view: blobs_view}} 364} 365ifcapable vtab { 366 register_echo_module [sqlite3_connection_pointer db] 367 do_test incrblob-4.12 { 368 execsql { CREATE VIRTUAL TABLE blobs_echo USING echo(blobs) } 369 set rc [catch { db incrblob blobs_echo v 3 } msg] 370 list $rc $msg 371 } {1 {cannot open virtual table: blobs_echo}} 372} 373 374 375#------------------------------------------------------------------------ 376# incrblob-5.*: 377# 378# Test that opening a blob in an attached database works. 379# 380ifcapable attach { 381 do_test incrblob-5.1 { 382 file delete -force test2.db test2.db-journal 383 set ::size [expr [file size [info script]]] 384 execsql { 385 ATTACH 'test2.db' AS aux; 386 CREATE TABLE aux.files(name, text); 387 INSERT INTO aux.files VALUES('this one', zeroblob($::size)); 388 } 389 set fd [db incrblob aux files text 1] 390 fconfigure $fd -translation binary 391 set fd2 [open [info script]] 392 fconfigure $fd2 -translation binary 393 puts -nonewline $fd [read $fd2] 394 close $fd 395 close $fd2 396 set ::text [db one {select text from aux.files}] 397 string length $::text 398 } [file size [info script]] 399 do_test incrblob-5.2 { 400 set fd2 [open [info script]] 401 fconfigure $fd2 -translation binary 402 set ::data [read $fd2] 403 close $fd2 404 set ::data 405 } $::text 406} 407 408# free memory 409unset -nocomplain ::data 410unset -nocomplain ::text 411 412#------------------------------------------------------------------------ 413# incrblob-6.*: 414# 415# Test that opening a blob for write-access is impossible if 416# another connection has the database RESERVED lock. 417# 418# Then test that blob writes that take place inside of a 419# transaction are not visible to external connections until 420# after the transaction is commited and the blob channel 421# closed. 422# 423# This test does not work with the "memsubsys1" configuration. 424# Permutation memsubsys1 configures a very small static allocation 425# for use as page-cache memory. This causes SQLite to upgrade 426# to an exclusive lock when writing earlier than usual, which 427# makes some of these tests fail. 428# 429sqlite3_soft_heap_limit 0 430if {[permutation] != "memsubsys1"} { 431 do_test incrblob-6.1 { 432 sqlite3 db2 test.db 433 execsql { 434 BEGIN; 435 INSERT INTO blobs(k, v, i) VALUES('a', 'different', 'connection'); 436 } db2 437 } {} 438 do_test incrblob-6.2 { 439 execsql { 440 SELECT rowid FROM blobs 441 } 442 } {1 2 3} 443 do_test incrblob-6.3 { 444 set rc [catch { 445 db incrblob blobs v 1 446 } msg] 447 list $rc $msg 448 } {1 {database is locked}} 449 do_test incrblob-6.4 { 450 set rc [catch { 451 db incrblob blobs v 3 452 } msg] 453 list $rc $msg 454 } {1 {database is locked}} 455 do_test incrblob-6.5 { 456 set ::blob [db incrblob -readonly blobs v 3] 457 read $::blob 458 } {hello} 459 do_test incrblob-6.6 { 460 close $::blob 461 } {} 462 463 do_test incrblob-6.7 { 464 set ::blob [db2 incrblob blobs i 4] 465 gets $::blob 466 } {connection} 467 do_test incrblob-6.8 { 468 tell $::blob 469 } {10} 470 do_test incrblob-6.9 { 471 seek $::blob 0 472 puts -nonewline $::blob "invocation" 473 flush $::blob 474 } {} 475 476 # At this point rollback should be illegal (because 477 # there is an open blob channel). But commit is also illegal because 478 # the open blob is read-write. 479 # 480 do_test incrblob-6.10 { 481 catchsql { 482 ROLLBACK; 483 } db2 484 } {1 {cannot rollback transaction - SQL statements in progress}} 485 do_test incrblob-6.11 { 486 catchsql { 487 COMMIT; 488 } db2 489 } {1 {cannot commit transaction - SQL statements in progress}} 490 491 do_test incrblob-6.12 { 492 execsql { 493 SELECT * FROM blobs WHERE rowid = 4; 494 } 495 } {} 496 do_test incrblob-6.13 { 497 close $::blob 498 } {} 499 do_test incrblob-6.14 { 500 catchsql { 501 COMMIT; 502 } db2 503 } {0 {}} 504 do_test incrblob-6.15 { 505 execsql { 506 SELECT * FROM blobs WHERE rowid = 4; 507 } 508 } {a different invocation} 509 db2 close 510} 511sqlite3_soft_heap_limit $cmdlinearg(soft-heap-limit) 512 513#----------------------------------------------------------------------- 514# The following tests verify the behaviour of the incremental IO 515# APIs in the following cases: 516# 517# 7.1 A row that containing an open blob is modified. 518# 519# 7.2 A CREATE TABLE requires that an overflow page that is part 520# of an open blob is moved. 521# 522# 7.3 An INCREMENTAL VACUUM moves an overflow page that is part 523# of an open blob. 524# 525# In the first case above, correct behaviour is for all subsequent 526# read/write operations on the blob-handle to return SQLITE_ABORT. 527# More accurately, blob-handles are invalidated whenever the table 528# they belong to is written to. 529# 530# The second two cases have no external effect. They are testing 531# that the internal cache of overflow page numbers is correctly 532# invalidated. 533# 534do_test incrblob-7.1.0 { 535 execsql { 536 BEGIN; 537 DROP TABLE blobs; 538 CREATE TABLE t1 (a, b, c, d BLOB); 539 INSERT INTO t1(a, b, c, d) VALUES(1, 2, 3, 4); 540 COMMIT; 541 } 542} {} 543 544foreach {tn arg} {1 "" 2 -readonly} { 545 546 execsql { 547 UPDATE t1 SET d = zeroblob(10000); 548 } 549 550 do_test incrblob-7.1.$tn.1 { 551 set ::b [eval db incrblob $arg t1 d 1] 552 binary scan [sqlite3_blob_read $::b 5000 5] c* c 553 set c 554 } {0 0 0 0 0} 555 do_test incrblob-7.1.$tn.2 { 556 execsql { 557 UPDATE t1 SET d = 15; 558 } 559 } {} 560 do_test incrblob-7.1.$tn.3 { 561 set rc [catch { sqlite3_blob_read $::b 5000 5 } msg] 562 list $rc $msg 563 } {1 SQLITE_ABORT} 564 do_test incrblob-7.1.$tn.4 { 565 execsql { 566 SELECT d FROM t1; 567 } 568 } {15} 569 do_test incrblob-7.1.$tn.5 { 570 set rc [catch { close $::b } msg] 571 list $rc $msg 572 } {0 {}} 573 do_test incrblob-7.1.$tn.6 { 574 execsql { 575 SELECT d FROM t1; 576 } 577 } {15} 578 579} 580 581set fd [open [info script]] 582fconfigure $fd -translation binary 583set ::data [read $fd 14000] 584close $fd 585 586db close 587file delete -force test.db test.db-journal 588sqlite3 db test.db 589 590do_test incrblob-7.2.1 { 591 execsql { 592 PRAGMA auto_vacuum = "incremental"; 593 CREATE TABLE t1(a INTEGER PRIMARY KEY, b); -- root@page3 594 INSERT INTO t1 VALUES(123, $::data); 595 } 596 set ::b [db incrblob -readonly t1 b 123] 597 fconfigure $::b -translation binary 598 read $::b 599} $::data 600do_test incrblob-7.2.2 { 601 execsql { 602 CREATE TABLE t2(a INTEGER PRIMARY KEY, b); -- root@page4 603 } 604 seek $::b 0 605 read $::b 606} $::data 607do_test incrblob-7.2.3 { 608 close $::b 609 execsql { 610 SELECT rootpage FROM sqlite_master; 611 } 612} {3 4} 613 614set ::otherdata "[string range $::data 0 1000][string range $::data 1001 end]" 615do_test incrblob-7.3.1 { 616 execsql { 617 INSERT INTO t2 VALUES(456, $::otherdata); 618 } 619 set ::b [db incrblob -readonly t2 b 456] 620 fconfigure $::b -translation binary 621 read $::b 622} $::otherdata 623do_test incrblob-7.3.2 { 624 expr [file size test.db]/1024 625} 30 626do_test incrblob-7.3.3 { 627 execsql { 628 DELETE FROM t1 WHERE a = 123; 629 PRAGMA INCREMENTAL_VACUUM(0); 630 } 631 seek $::b 0 632 read $::b 633} $::otherdata 634 635# Attempt to write on a read-only blob. Make sure the error code 636# gets set. Ticket #2464. 637# 638do_test incrblob-7.4 { 639 set rc [catch {sqlite3_blob_write $::b 10 HELLO} msg] 640 lappend rc $msg 641} {1 SQLITE_READONLY} 642do_test incrblob-7.5 { 643 sqlite3_errcode db 644} {SQLITE_READONLY} 645do_test incrblob-7.6 { 646 sqlite3_errmsg db 647} {attempt to write a readonly database} 648 649# Test that if either the "offset" or "amount" arguments to 650# sqlite3_blob_write() are less than zero, SQLITE_ERROR is returned. 651# 652do_test incrblob-8.1 { 653 execsql { INSERT INTO t1 VALUES(314159, 'sqlite') } 654 set ::b [db incrblob t1 b 314159] 655 fconfigure $::b -translation binary 656 set rc [catch {sqlite3_blob_write $::b 10 HELLO -1} msg] 657 lappend rc $msg 658} {1 SQLITE_ERROR} 659do_test incrblob-8.2 { 660 sqlite3_errcode db 661} {SQLITE_ERROR} 662do_test incrblob-8.3 { 663 set rc [catch {sqlite3_blob_write $::b -1 HELLO 5} msg] 664 lappend rc $msg 665} {1 SQLITE_ERROR} 666do_test incrblob-8.4 { 667 sqlite3_errcode db 668} {SQLITE_ERROR} 669do_test incrblob-8.5 { 670 execsql {SELECT b FROM t1 WHERE a = 314159} 671} {sqlite} 672do_test incrblob-8.6 { 673 set rc [catch {sqlite3_blob_write $::b 0 etilqs 6} msg] 674 lappend rc $msg 675} {0 {}} 676do_test incrblob-8.7 { 677 execsql {SELECT b FROM t1 WHERE a = 314159} 678} {etilqs} 679 680# The following test case exposes an instance in the blob code where 681# an error message was set using a call similar to sqlite3_mprintf(zErr), 682# where zErr is an arbitrary string. This is no good if the string contains 683# characters that can be mistaken for printf() formatting directives. 684# 685do_test incrblob-9.1 { 686 list [catch { db incrblob t1 "A tricky column name %s%s" 1 } msg] $msg 687} {1 {no such column: "A tricky column name %s%s"}} 688 689 690finish_test 691