18472fa7b8
option always removes all mutex code. For application-defined mutexes only, use SQLITE_THREADSAFE=1 with SQLITE_MUTEX_NOOP=1. Ticket #3421. (CVS 5779) FossilOrigin-Name: 02a12eb1cfe9307c66556105a1a99d657cc01ab5
197 lines
5.2 KiB
Plaintext
197 lines
5.2 KiB
Plaintext
# 2007 September 10
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#
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# The author disclaims copyright to this source code. In place of
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# a legal notice, here is a blessing:
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#
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# May you do good and not evil.
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# May you find forgiveness for yourself and forgive others.
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# May you share freely, never taking more than you give.
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#
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#***********************************************************************
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#
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# This file contains tests that attempt to break the pcache module
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# by bombarding it with simultaneous requests from multiple threads.
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#
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# $Id: thread003.test,v 1.5 2008/10/07 15:25:49 drh Exp $
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set testdir [file dirname $argv0]
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source $testdir/tester.tcl
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source $testdir/thread_common.tcl
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if {[info commands sqlthread] eq ""} {
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finish_test
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return
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}
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ifcapable !mutex {
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finish_test
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return
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}
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# Set up a couple of different databases full of pseudo-randomly
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# generated data.
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#
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do_test thread003.1.1 {
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execsql {
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BEGIN;
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CREATE TABLE t1(a, b, c);
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}
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for {set ii 0} {$ii < 5000} {incr ii} {
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execsql {INSERT INTO t1 VALUES($ii, randomblob(200), randomblob(200))}
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}
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execsql {
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CREATE INDEX i1 ON t1(a, b);
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COMMIT;
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}
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} {}
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do_test thread003.1.2 {
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expr {([file size test.db] / 1024) > 2000}
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} {1}
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do_test thread003.1.3 {
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db close
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file delete -force test2.db
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sqlite3 db test2.db
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} {}
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do_test thread003.1.4 {
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execsql {
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BEGIN;
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CREATE TABLE t1(a, b, c);
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}
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for {set ii 0} {$ii < 5000} {incr ii} {
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execsql {INSERT INTO t1 VALUES($ii, randomblob(200), randomblob(200))}
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}
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execsql {
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CREATE INDEX i1 ON t1(a, b);
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COMMIT;
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}
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} {}
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do_test thread003.1.5 {
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expr {([file size test.db] / 1024) > 2000}
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} {1}
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do_test thread003.1.6 {
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db close
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} {}
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# This test opens a connection on each of the large (>2MB) database files
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# created by the previous block. The connections do not share a cache.
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# Both "cache_size" parameters are set to 15, so there is a maximum of
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# 30 pages available globally.
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#
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# Then, in separate threads, the databases are randomly queried over and
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# over again. This will force the connections to recycle clean pages from
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# each other. If there is a thread-safety problem, a segfault or assertion
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# failure may eventually occur.
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#
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set nSecond 30
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puts "Starting thread003.2 (should run for ~$nSecond seconds)"
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do_test thread003.2 {
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foreach zFile {test.db test2.db} {
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set SCRIPT [format {
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set iEnd [expr {[clock_seconds] + %d}]
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set ::DB [sqlthread open %s]
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# Set the cache size to 15 pages per cache. 30 available globally.
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execsql { PRAGMA cache_size = 15 }
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while {[clock_seconds] < $iEnd} {
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set iQuery [expr {int(rand()*5000)}]
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execsql " SELECT * FROM t1 WHERE a = $iQuery "
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}
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sqlite3_close $::DB
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expr 1
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} $nSecond $zFile]
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unset -nocomplain finished($zFile)
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thread_spawn finished($zFile) $thread_procs $SCRIPT
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}
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foreach zFile {test.db test2.db} {
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if {![info exists finished($zFile)]} {
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vwait finished($zFile)
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}
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}
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expr 0
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} {0}
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# This test is the same as the test above, except that each thread also
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# writes to the database. This causes pages to be moved back and forth
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# between the caches internal dirty and clean lists, which is another
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# opportunity for a thread-related bug to present itself.
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#
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set nSecond 30
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puts "Starting thread003.3 (should run for ~$nSecond seconds)"
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do_test thread003.3 {
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foreach zFile {test.db test2.db} {
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set SCRIPT [format {
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set iStart [clock_seconds]
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set iEnd [expr {[clock_seconds] + %d}]
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set ::DB [sqlthread open %s]
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# Set the cache size to 15 pages per cache. 30 available globally.
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execsql { PRAGMA cache_size = 15 }
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while {[clock_seconds] < $iEnd} {
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set iQuery [expr {int(rand()*5000)}]
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execsql "SELECT * FROM t1 WHERE a = $iQuery"
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execsql "UPDATE t1 SET b = randomblob(200)
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WHERE a < $iQuery AND a > $iQuery + 20
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"
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}
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sqlite3_close $::DB
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expr 1
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} $nSecond $zFile]
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unset -nocomplain finished($zFile)
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thread_spawn finished($zFile) $thread_procs $SCRIPT
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}
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foreach zFile {test.db test2.db} {
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if {![info exists finished($zFile)]} {
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vwait finished($zFile)
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}
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}
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expr 0
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} {0}
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# In this test case, one thread is continually querying the database.
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# The other thread does not have a database connection, but calls
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# sqlite3_release_memory() over and over again.
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#
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set nSecond 30
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puts "Starting thread003.3 (should run for ~$nSecond seconds)"
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unset -nocomplain finished(1)
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unset -nocomplain finished(2)
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do_test thread003.4 {
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thread_spawn finished(1) $thread_procs [format {
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set iEnd [expr {[clock_seconds] + %d}]
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set ::DB [sqlthread open test.db]
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# Set the cache size to 15 pages per cache. 30 available globally.
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execsql { PRAGMA cache_size = 15 }
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while {[clock_seconds] < $iEnd} {
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set iQuery [expr {int(rand()*5000)}]
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execsql "SELECT * FROM t1 WHERE a = $iQuery"
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}
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sqlite3_close $::DB
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expr 1
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} $nSecond]
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thread_spawn finished(2) [format {
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set iEnd [expr {[clock_seconds] + %d}]
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while {[clock_seconds] < $iEnd} {
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sqlite3_release_memory 1000
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}
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} $nSecond]
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foreach ii {1 2} {
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if {![info exists finished($ii)]} {
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vwait finished($ii)
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}
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}
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expr 0
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} {0}
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finish_test
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