📄 malloc2.test
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# 2005 March 18## 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 attempts to check that the library can recover from a malloc()# failure when sqlite3_global_recover() is invoked.## $Id: malloc2.test,v 1.3 2005/06/06 14:45:43 drh Exp $set testdir [file dirname $argv0]source $testdir/tester.tcl# Only run these tests if memory debugging is turned on.#if {[info command sqlite_malloc_stat]==""} { puts "Skipping malloc tests: not compiled with -DSQLITE_DEBUG..." finish_test return}ifcapable !globalrecover { finish_test return}# Generate a checksum based on the contents of the database. If the# checksum of two databases is the same, and the integrity-check passes# for both, the two databases are identical.#proc cksum {db} { set ret [list] ifcapable tempdb { set sql { SELECT name FROM sqlite_master WHERE type = 'table' UNION SELECT name FROM sqlite_temp_master WHERE type = 'table' UNION SELECT 'sqlite_master' UNION SELECT 'sqlite_temp_master' } } else { set sql { SELECT name FROM sqlite_master WHERE type = 'table' UNION SELECT 'sqlite_master' } } set tbllist [$db eval $sql] set txt {} foreach tbl $tbllist { append txt [$db eval "SELECT * FROM $tbl"] } # puts txt=$txt return [md5 $txt]}proc do_malloc2_test {tn args} { array set ::mallocopts $args set sum [cksum db] for {set ::n 1} {true} {incr ::n} { # Run the SQL. Malloc number $::n is set to fail. A malloc() failure # may or may not be reported. sqlite_malloc_fail $::n do_test malloc2-$tn.$::n.2 { set res [catchsql [string trim $::mallocopts(-sql)]] set rc [expr { 0==[string compare $res {1 {out of memory}}] || 0==[lindex $res 0] }] if {$rc!=1} { puts "Error: $res" } set rc } {1} # If $::n is greater than the number of malloc() calls required to # execute the SQL, then this test is finished. Break out of the loop. if {[lindex [sqlite_malloc_stat] 2]>0} { sqlite_malloc_fail -1 break } # Nothing should work now, because the allocator should refuse to # allocate any memory. do_test malloc2-$tn.$::n.3 { catchsql {SELECT 'nothing should work'} } {1 {out of memory}} # Recover from the malloc failure. do_test malloc2-$tn.$::n.4 { if 0 { db close sqlite_malloc_fail -1 set ::DB [sqlite3 db test.db] set dummy SQLITE_OK } else { sqlite3_global_recover } } {SQLITE_OK} # Checksum the database. do_test malloc2-$tn.$::n.5 { cksum db } $sum integrity_check malloc2-$tn.$::n.6 if {$::nErr>1} return } unset ::mallocopts}do_test malloc2.1.setup { execsql { CREATE TABLE abc(a, b, c); INSERT INTO abc VALUES(10, 20, 30); INSERT INTO abc VALUES(40, 50, 60); CREATE INDEX abc_i ON abc(a, b, c); }} {}do_malloc2_test 1.1 -sql { SELECT * FROM abc;}do_malloc2_test 1.2 -sql { UPDATE abc SET c = c+10;}do_malloc2_test 1.3 -sql { INSERT INTO abc VALUES(70, 80, 90);}do_malloc2_test 1.4 -sql { DELETE FROM abc;}do_test malloc2.1.5 { execsql { SELECT * FROM abc; }} {}do_test malloc2.2.setup { execsql { CREATE TABLE def(a, b, c); CREATE INDEX def_i1 ON def(a); CREATE INDEX def_i2 ON def(c); BEGIN; } for {set i 0} {$i<20} {incr i} { execsql { INSERT INTO def VALUES(randstr(300,300),randstr(300,300),randstr(300,300)); } } execsql { COMMIT; }} {}do_malloc2_test 2 -sql { BEGIN; UPDATE def SET a = randstr(100,100) WHERE (oid%9)==0; INSERT INTO def SELECT * FROM def WHERE (oid%13)==0; CREATE INDEX def_i3 ON def(b); UPDATE def SET a = randstr(100,100) WHERE (oid%9)==1; INSERT INTO def SELECT * FROM def WHERE (oid%13)==1; CREATE TABLE def2 AS SELECT * FROM def; DROP TABLE def; CREATE TABLE def AS SELECT * FROM def2; DROP TABLE def2; DELETE FROM def WHERE (oid%9)==2; INSERT INTO def SELECT * FROM def WHERE (oid%13)==2; COMMIT;}ifcapable tempdb { do_test malloc2.3.setup { execsql { CREATE TEMP TABLE ghi(a, b, c); BEGIN; } for {set i 0} {$i<20} {incr i} { execsql { INSERT INTO ghi VALUES(randstr(300,300),randstr(300,300),randstr(300,300)); } } execsql { COMMIT; } } {} do_malloc2_test 3 -sql { BEGIN; CREATE INDEX ghi_i1 ON ghi(a); UPDATE def SET a = randstr(100,100) WHERE (oid%2)==0; UPDATE ghi SET a = randstr(100,100) WHERE (oid%2)==0; COMMIT; }}############################################################################# The test cases below are to increase the code coverage in btree.c and # pager.c of this test file. The idea is that each malloc() that occurs in# these two source files should be made to fail at least once.#catchsql { DROP TABLE ghi;}do_malloc2_test 4.1 -sql { SELECT * FROM def ORDER BY oid ASC; SELECT * FROM def ORDER BY oid DESC;}do_malloc2_test 4.2 -sql { PRAGMA cache_size = 10; BEGIN; -- This will put about 25 pages on the free list. DELETE FROM def WHERE 1; -- Allocate 32 new root pages. This will exercise the 'extract specific -- page from the freelist' code when in auto-vacuum mode (see the -- allocatePage() routine in btree.c). CREATE TABLE t1(a UNIQUE, b UNIQUE, c UNIQUE); CREATE TABLE t2(a UNIQUE, b UNIQUE, c UNIQUE); CREATE TABLE t3(a UNIQUE, b UNIQUE, c UNIQUE); CREATE TABLE t4(a UNIQUE, b UNIQUE, c UNIQUE); CREATE TABLE t5(a UNIQUE, b UNIQUE, c UNIQUE); CREATE TABLE t6(a UNIQUE, b UNIQUE, c UNIQUE); CREATE TABLE t7(a UNIQUE, b UNIQUE, c UNIQUE); CREATE TABLE t8(a UNIQUE, b UNIQUE, c UNIQUE); ROLLBACK;}######################################################################### Test that the global linked list of database handles works. An assert()# will fail if there is some problem.do_test malloc2-5 { sqlite3 db1 test.db sqlite3 db2 test.db sqlite3 db3 test.db sqlite3 db4 test.db sqlite3 db5 test.db # Close the head of the list: db5 close # Close the end of the list: db1 close # Close a handle from the middle of the list: db3 close # Close the other two. Then open and close one more database, to make # sure the head of the list was set back to NULL. db2 close db4 close sqlite db1 test.db db1 close} {}######################################################################### Check that if a statement is active sqlite3_global_recover doesn't reset# the sqlite3_malloc_failed variable.do_test malloc2-6.1 { set ::STMT [sqlite3_prepare $::DB {SELECT * FROM def} -1 DUMMY] sqlite3_step $::STMT} {SQLITE_ROW}do_test malloc2-6.2 { sqlite3 db1 test.db sqlite_malloc_fail 100 catchsql { SELECT * FROM def; } db1} {1 {out of memory}}do_test malloc2-6.3 { sqlite3_global_recover} {SQLITE_BUSY}do_test malloc2-6.4 { catchsql { SELECT 'hello'; }} {1 {out of memory}}do_test malloc2-6.5 { sqlite3_reset $::STMT} {SQLITE_OK}do_test malloc2-6.6 { sqlite3_global_recover} {SQLITE_OK}do_test malloc2-6.7 { catchsql { SELECT 'hello'; }} {0 hello}do_test malloc2-6.8 { sqlite3_step $::STMT} {SQLITE_ERROR}do_test malloc2-6.9 { sqlite3_finalize $::STMT} {SQLITE_SCHEMA}do_test malloc2-6.10 { db1 close} {}######################################################################### Check that if an in-memory database is being used it is not possible# to recover from a malloc() failure.ifcapable memorydb { do_test malloc2-7.1 { sqlite3 db1 :memory: list } {} do_test malloc2-7.2 { sqlite_malloc_fail 100 catchsql { SELECT * FROM def; } } {1 {out of memory}} do_test malloc2-7.3 { sqlite3_global_recover } {SQLITE_ERROR} do_test malloc2-7.4 { catchsql { SELECT 'hello'; } } {1 {out of memory}} do_test malloc2-7.5 { db1 close } {} do_test malloc2-7.6 { sqlite3_global_recover } {SQLITE_OK} do_test malloc2-7.7 { catchsql { SELECT 'hello'; } } {0 hello}}finish_test⌨️ 快捷键说明
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