sqlite/test/wal5.test

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# 2010 April 13
#
# 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 implements regression tests for SQLite library. The
# focus of this file is testing the operation of "blocking-checkpoint"
# operations.
#
set testdir [file dirname $argv0]
source $testdir/tester.tcl
source $testdir/lock_common.tcl
source $testdir/wal_common.tcl
ifcapable !wal {finish_test ; return }
set testprefix wal5
proc db_page_count {{file test.db}} { expr [file size $file] / 1024 }
proc wal_page_count {{file test.db}} { wal_frame_count ${file}-wal 1024 }
# A checkpoint may be requested either using the C API or by executing
# an SQL PRAGMA command. To test both methods, all tests in this file are
# run twice - once using each method to request checkpoints.
#
foreach {testprefix do_wal_checkpoint} {
wal5-pragma {
proc do_wal_checkpoint { dbhandle args } {
array set a $args
foreach key [array names a] {
if {[lsearch {-mode -db} $key]<0} { error "unknown switch: $key" }
}
set sql "PRAGMA "
if {[info exists a(-db)]} { append sql "$a(-db)." }
append sql "wal_checkpoint"
if {[info exists a(-mode)]} { append sql " = $a(-mode)" }
uplevel [list $dbhandle eval $sql]
}
}
wal5-capi {
proc do_wal_checkpoint { dbhandle args } {
set a(-mode) passive
array set a $args
foreach key [array names a] {
if {[lsearch {-mode -db} $key]<0} { error "unknown switch: $key" }
}
if {$a(-mode)!="restart" && $a(-mode)!="full"} { set a(-mode) passive }
set cmd [list sqlite3_wal_checkpoint_v2 $dbhandle $a(-mode)]
if {[info exists a(-db)]} { lappend sql $a(-db) }
uplevel $cmd
}
}
} {
eval $do_wal_checkpoint
do_multiclient_test tn {
set ::nBusyHandler 0
set ::busy_handler_script ""
proc busyhandler {n} {
incr ::nBusyHandler
eval $::busy_handler_script
return 0
}
proc reopen_all {} {
code1 {db close}
code2 {db2 close}
code3 {db3 close}
code1 {sqlite3 db test.db}
code2 {sqlite3 db2 test.db}
code3 {sqlite3 db3 test.db}
sql1 { PRAGMA synchronous = NORMAL }
code1 { db busy busyhandler }
}
do_test 1.$tn.1 {
reopen_all
sql1 {
PRAGMA page_size = 1024;
PRAGMA auto_vacuum = 0;
CREATE TABLE t1(x, y);
PRAGMA journal_mode = WAL;
INSERT INTO t1 VALUES(1, zeroblob(1200));
INSERT INTO t1 VALUES(2, zeroblob(1200));
INSERT INTO t1 VALUES(3, zeroblob(1200));
}
expr [file size test.db] / 1024
} {2}
# Have connection 2 grab a read-lock on the current snapshot.
do_test 1.$tn.2 { sql2 { BEGIN; SELECT x FROM t1 } } {1 2 3}
# Attempt a checkpoint.
do_test 1.$tn.3 {
code1 { do_wal_checkpoint db }
list [db_page_count] [wal_page_count]
} {5 9}
# Write to the db again. The log cannot wrap because of the lock still
# held by connection 2. The busy-handler has not yet been invoked.
do_test 1.$tn.4 {
sql1 { INSERT INTO t1 VALUES(4, zeroblob(1200)) }
list [db_page_count] [wal_page_count] $::nBusyHandler
} {5 12 0}
# Now do a blocking-checkpoint. Set the busy-handler up so that connection
# 2 releases its lock on the 6th invocation. The checkpointer should then
# proceed to checkpoint the entire log file. Next write should go to the
# start of the log file.
#
set ::busy_handler_script { if {$n==5} { sql2 COMMIT } }
do_test 1.$tn.5 {
code1 { do_wal_checkpoint db -mode restart }
list [db_page_count] [wal_page_count] $::nBusyHandler
} {6 12 6}
do_test 1.$tn.6 {
set ::nBusyHandler 0
sql1 { INSERT INTO t1 VALUES(5, zeroblob(1200)) }
list [db_page_count] [wal_page_count] $::nBusyHandler
} {6 12 0}
do_test 1.$tn.7 {
reopen_all
list [db_page_count] [wal_page_count] $::nBusyHandler
} {7 0 0}
do_test 1.$tn.8 { sql2 { BEGIN ; SELECT x FROM t1 } } {1 2 3 4 5}
do_test 1.$tn.9 {
sql1 { INSERT INTO t1 VALUES(6, zeroblob(1200)) }
list [db_page_count] [wal_page_count] $::nBusyHandler
} {7 5 0}
do_test 1.$tn.10 { sql3 { BEGIN ; SELECT x FROM t1 } } {1 2 3 4 5 6}
set ::busy_handler_script {
if {$n==5} { sql2 COMMIT }
if {$n==6} { set ::db_file_size [db_page_count] }
if {$n==7} { sql3 COMMIT }
}
do_test 1.$tn.11 {
code1 { do_wal_checkpoint db -mode restart }
list [db_page_count] [wal_page_count] $::nBusyHandler
} {10 5 8}
do_test 1.$tn.12 { set ::db_file_size } 10
}
#-------------------------------------------------------------------------
# This block of tests explores checkpoint operations on more than one
# database file.
#
proc setup_and_attach_aux {} {
sql1 { ATTACH 'test.db2' AS aux }
sql2 { ATTACH 'test.db2' AS aux }
sql3 { ATTACH 'test.db2' AS aux }
sql1 {
PRAGMA aux.auto_vacuum = 0;
PRAGMA main.auto_vacuum = 0;
PRAGMA main.page_size=1024; PRAGMA main.journal_mode=WAL;
PRAGMA aux.page_size=1024; PRAGMA aux.journal_mode=WAL;
}
}
proc file_page_counts {} {
list [db_page_count test.db ] \
[wal_page_count test.db ] \
[db_page_count test.db2] \
[wal_page_count test.db2]
}
# Test that executing "PRAGMA wal_checkpoint" checkpoints all attached
# databases, not just the main db. In capi mode, check that this is
# true if a NULL pointer is passed to wal_checkpoint_v2() in place of a
# database name.
do_multiclient_test tn {
setup_and_attach_aux
do_test 2.1.$tn.1 {
sql1 {
CREATE TABLE t1(a, b);
INSERT INTO t1 VALUES(1, 2);
CREATE TABLE aux.t2(a, b);
INSERT INTO t2 VALUES(1, 2);
}
} {}
do_test 2.2.$tn.2 { file_page_counts } {1 3 1 3}
do_test 2.1.$tn.3 { code1 { do_wal_checkpoint db } } {0 3 3}
do_test 2.1.$tn.4 { file_page_counts } {2 3 2 3}
}
do_multiclient_test tn {
setup_and_attach_aux
do_test 2.2.$tn.1 {
execsql {
CREATE TABLE t1(a, b);
INSERT INTO t1 VALUES(1, 2);
CREATE TABLE aux.t2(a, b);
INSERT INTO t2 VALUES(1, 2);
INSERT INTO t2 VALUES(3, 4);
}
} {}
do_test 2.2.$tn.2 { file_page_counts } {1 3 1 4}
do_test 2.2.$tn.3 { sql2 { BEGIN; SELECT * FROM t1 } } {1 2}
do_test 2.2.$tn.4 { code1 { do_wal_checkpoint db -mode restart } } {1 3 3}
do_test 2.2.$tn.5 { file_page_counts } {2 3 2 4}
}
do_multiclient_test tn {
setup_and_attach_aux
do_test 2.3.$tn.1 {
execsql {
CREATE TABLE t1(a, b);
INSERT INTO t1 VALUES(1, 2);
CREATE TABLE aux.t2(a, b);
INSERT INTO t2 VALUES(1, 2);
}
} {}
do_test 2.3.$tn.2 { file_page_counts } {1 3 1 3}
do_test 2.3.$tn.3 { sql2 { BEGIN; SELECT * FROM t1 } } {1 2}
do_test 2.3.$tn.4 { sql1 { INSERT INTO t1 VALUES(3, 4) } } {}
do_test 2.3.$tn.5 { sql1 { INSERT INTO t2 VALUES(3, 4) } } {}
do_test 2.3.$tn.6 { file_page_counts } {1 4 1 4}
do_test 2.3.$tn.7 { code1 { do_wal_checkpoint db -mode full } } {1 4 3}
# The checkpoint above only writes page 1 of the db file. The other
# page (page 2) is locked by the read-transaction opened by the
# [sql2] commmand above. So normally, the db is 1 page in size here.
# However, in mmap() mode, the db is pre-allocated to 2 pages at the
# start of the checkpoint, even though page 2 cannot be written.
set nDb 2
if {[permutation]!="mmap"} {set nDb 1}
ifcapable !mmap {set nDb 1}
do_test 2.3.$tn.8 { file_page_counts } [list $nDb 4 2 4]
}
# Check that checkpoints block on the correct locks. And respond correctly
# if they cannot obtain those locks. There are three locks that a checkpoint
# may block on (in the following order):
#
# 1. The writer lock: FULL and RESTART checkpoints block until any writer
# process releases its lock.
#
# 2. Readers using part of the log file. FULL and RESTART checkpoints block
# until readers using part (but not all) of the log file have finished.
#
# 3. Readers using any of the log file. After copying data into the
# database file, RESTART checkpoints block until readers using any part
# of the log file have finished.
#
# This test case involves running a checkpoint while there exist other
# processes holding all three types of locks.
#
foreach {tn1 checkpoint busy_on ckpt_expected expected} {
1 PASSIVE - {0 3 3} -
2 TYPO - {0 3 3} -
3 FULL - {0 4 4} 2
4 FULL 1 {1 3 3} 1
5 FULL 2 {1 4 3} 2
6 FULL 3 {0 4 4} 2
7 RESTART - {0 4 4} 3
8 RESTART 1 {1 3 3} 1
9 RESTART 2 {1 4 3} 2
10 RESTART 3 {1 4 4} 3
} {
do_multiclient_test tn {
setup_and_attach_aux
proc busyhandler {x} {
set ::max_busyhandler $x
if {$::busy_on!="-" && $x==$::busy_on} { return 1 }
switch -- $x {
1 { sql2 "COMMIT ; BEGIN ; SELECT * FROM t1" }
2 { sql3 "COMMIT" }
3 { sql2 "COMMIT" }
}
return 0
}
set ::max_busyhandler -
do_test 2.4.$tn1.$tn.1 {
sql1 {
CREATE TABLE t1(a, b);
INSERT INTO t1 VALUES(1, 2);
}
sql2 { BEGIN; INSERT INTO t1 VALUES(3, 4) }
sql3 { BEGIN; SELECT * FROM t1 }
} {1 2}
do_test 2.4.$tn1.$tn.2 {
code1 { db busy busyhandler }
code1 { do_wal_checkpoint db -mode [string tolower $checkpoint] }
} $ckpt_expected
do_test 2.4.$tn1.$tn.3 { set ::max_busyhandler } $expected
}
}
do_multiclient_test tn {
code1 $do_wal_checkpoint
code2 $do_wal_checkpoint
code3 $do_wal_checkpoint
do_test 3.$tn.1 {
sql1 {
PRAGMA auto_vacuum = 0;
PRAGMA journal_mode = WAL;
PRAGMA synchronous = normal;
CREATE TABLE t1(x, y);
}
sql2 { PRAGMA journal_mode }
sql3 { PRAGMA journal_mode }
} {wal}
do_test 3.$tn.2 { code2 { do_wal_checkpoint db2 } } {0 2 2}
do_test 3.$tn.3 { code2 { do_wal_checkpoint db2 } } {0 2 2}
do_test 3.$tn.4 { code3 { do_wal_checkpoint db3 } } {0 2 2}
code1 {db close}
code2 {db2 close}
code3 {db3 close}
code1 {sqlite3 db test.db}
code2 {sqlite3 db2 test.db}
code3 {sqlite3 db3 test.db}
do_test 3.$tn.5 { sql3 { PRAGMA journal_mode } } {wal}
do_test 3.$tn.6 { code3 { do_wal_checkpoint db3 } } {0 0 0}
}
}
finish_test