sqlite/test/btree2.test
drh aaab5725db Change the name of the sanity_check PRAGMA to "integrity_check" and make
it available on all compiles. (CVS 381)

FossilOrigin-Name: c6e9048e66c8d8e2d5f6c62aa724eef3e9d9f572
2002-02-19 13:39:21 +00:00

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# 2001 September 15
#
# 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 script is btree database backend
#
# $Id: btree2.test,v 1.10 2002/02/19 13:39:23 drh Exp $
set testdir [file dirname $argv0]
source $testdir/tester.tcl
if {[info commands btree_open]!=""} {
# Create a new database file containing no entries. The database should
# contain 5 tables:
#
# 2 The descriptor table
# 3 The foreground table
# 4 The background table
# 5 The long key table
# 6 The long data table
#
# An explanation for what all these tables are used for is provided below.
#
do_test btree2-1.1 {
expr srand(1)
file delete -force test2.bt
file delete -force test2.bt-journal
set ::b [btree_open test2.bt]
btree_begin_transaction $::b
btree_create_table $::b
} {3}
do_test btree2-1.2 {
btree_create_table $::b
} {4}
do_test btree2-1.3 {
btree_create_table $::b
} {5}
do_test btree2-1.4 {
btree_create_table $::b
} {6}
do_test btree2-1.5 {
set ::c2 [btree_cursor $::b 2 1]
btree_insert $::c2 {one} {1}
btree_delete $::c2
btree_close_cursor $::c2
btree_commit $::b
btree_integrity_check $::b 2 3 4 5 6
} {}
# This test module works by making lots of pseudo-random changes to a
# database while simultaneously maintaining an invariant on that database.
# Periodically, the script does a sanity check on the database and verifies
# that the invariant is satisfied.
#
# The invariant is as follows:
#
# 1. The descriptor table always contains 2 enters. An entry keyed by
# "N" is the number of elements in the foreground and background tables
# combined. The entry keyed by "L" is the number of digits in the keys
# for foreground and background tables.
#
# 2. The union of the foreground an background tables consists of N entries
# where each entry an L-digit key. (Actually, some keys can be longer
# than L characters, but they always start with L digits.) The keys
# cover all integers between 1 and N. Whenever an entry is added to
# the foreground it is removed form the background and vice versa.
#
# 3. Some entries in the foreground and background tables have keys that
# begin with an L-digit number but are followed by additional characters.
# For each such entry there is a corresponding entry in the long key
# table. The long key table entry has a key which is just the L-digit
# number and data which is the length of the key in the foreground and
# background tables.
#
# 4. The data for both foreground and background entries is usually a
# short string. But some entries have long data strings. For each
# such entries there is an entry in the long data type. The key to
# long data table is an L-digit number. (The extension on long keys
# is omitted.) The data is the number of charaters in the data of the
# foreground or background entry.
#
# The following function builds a database that satisfies all of the above
# invariants.
#
proc build_db {N L} {
for {set i 2} {$i<=6} {incr i} {
catch {btree_close_cursor [set ::c$i]}
btree_clear_table $::b $i
set ::c$i [btree_cursor $::b $i 1]
}
btree_insert $::c2 N $N
btree_insert $::c2 L $L
set format %0${L}d
for {set i 1} {$i<=$N} {incr i} {
set key [format $format $i]
set data $key
btree_insert $::c3 $key $data
}
}
# Given a base key number and a length, construct the full text of the key
# or data.
#
proc make_payload {keynum L len} {
set key [format %0${L}d $keynum]
set r $key
set i 1
while {[string length $r]<$len} {
append r " ($i) $key"
incr i
}
return [string range $r 0 [expr {$len-1}]]
}
# Verify the invariants on the database. Return an empty string on
# success or an error message if something is amiss.
#
proc check_invariants {} {
set ck [btree_integrity_check $::b 2 3 4 5 6]
if {$ck!=""} {
puts "\n*** SANITY:\n$ck"
exit
return $ck
}
btree_move_to $::c3 {}
btree_move_to $::c4 {}
btree_move_to $::c2 N
set N [btree_data $::c2]
btree_move_to $::c2 L
set L [btree_data $::c2]
set LM1 [expr {$L-1}]
for {set i 1} {$i<=$N} {incr i} {
set key [btree_key $::c3]
if {[scan $key %d k]<1} {set k 0}
if {$k!=$i} {
set key [btree_key $::c4]
if {[scan $key %d k]<1} {set k 0}
if {$k!=$i} {
# puts "MISSING $i"
# puts {Page 3:}; btree_page_dump $::b 3
# puts {Page 4:}; btree_page_dump $::b 4
# exit
return "Key $i is missing from both foreground and background"
}
set data [btree_data $::c4]
btree_next $::c4
} else {
set data [btree_data $::c3]
btree_next $::c3
}
set skey [string range $key 0 $LM1]
if {[btree_move_to $::c5 $skey]==0} {
set keylen [btree_data $::c5]
} else {
set keylen $L
}
if {[string length $key]!=$keylen} {
return "Key $i is the wrong size.\
Is \"$key\" but should be \"[make_payload $k $L $keylen]\""
}
if {[make_payload $k $L $keylen]!=$key} {
return "Key $i has an invalid extension"
}
if {[btree_move_to $::c6 $skey]==0} {
set datalen [btree_data $::c6]
} else {
set datalen $L
}
if {[string length $data]!=$datalen} {
return "Data for $i is the wrong size.\
Is [string length $data] but should be $datalen"
}
if {[make_payload $k $L $datalen]!=$data} {
return "Entry $i has an incorrect data"
}
}
}
# Make random changes to the database such that each change preserves
# the invariants. The number of changes is $n*N where N is the parameter
# from the descriptor table. Each changes begins with a random key.
# the entry with that key is put in the foreground table with probability
# $I and it is put in background with probability (1.0-$I). It gets
# a long key with probability $K and long data with probability $D.
#
set chngcnt 0
proc random_changes {n I K D} {
btree_move_to $::c2 N
set N [btree_data $::c2]
btree_move_to $::c2 L
set L [btree_data $::c2]
set LM1 [expr {$L-1}]
set total [expr {int($N*$n)}]
set format %0${L}d
for {set i 0} {$i<$total} {incr i} {
set k [expr {int(rand()*$N)+1}]
set insert [expr {rand()<=$I}]
set longkey [expr {rand()<=$K}]
set longdata [expr {rand()<=$D}]
# incr ::chngcnt
# if {$::chngcnt==251} {btree_tree_dump $::b 3}
# puts "CHANGE $::chngcnt: $k $insert $longkey $longdata"
if {$longkey} {
set x [expr {rand()}]
set keylen [expr {int($x*$x*$x*$x*3000)+10}]
} else {
set keylen $L
}
set key [make_payload $k $L $keylen]
if {$longdata} {
set x [expr {rand()}]
set datalen [expr {int($x*$x*$x*$x*3000)+10}]
} else {
set datalen $L
}
set data [make_payload $k $L $datalen]
set basekey [format $format $k]
if {[set c [btree_move_to $::c3 $basekey]]==0} {
btree_delete $::c3
} else {
if {$c<0} {btree_next $::c3}
if {[string match $basekey* [btree_key $::c3]]} {
btree_delete $::c3
}
}
if {[set c [btree_move_to $::c4 $basekey]]==0} {
btree_delete $::c4
} else {
if {$c<0} {btree_next $::c4}
if {[string match $basekey* [btree_key $::c4]]} {
btree_delete $::c4
}
}
if {[scan [btree_key $::c4] %d kx]<1} {set kx -1}
if {$kx==$k} {
btree_delete $::c4
}
if {$insert} {
btree_insert $::c3 $key $data
} else {
btree_insert $::c4 $key $data
}
if {$longkey} {
btree_insert $::c5 $basekey $keylen
} elseif {[btree_move_to $::c5 $basekey]==0} {
btree_delete $::c5
}
if {$longdata} {
btree_insert $::c6 $basekey $datalen
} elseif {[btree_move_to $::c6 $basekey]==0} {
btree_delete $::c6
}
# set ck [btree_integrity_check $::b 2 3 4 5 6]
# if {$ck!=""} {
# puts "\nSANITY CHECK FAILED!\n$ck"
# exit
# }
# puts "PAGE 3:"; btree_page_dump $::b 3
# puts "PAGE 4:"; btree_page_dump $::b 4
}
}
# Repeat this test sequence on database of various sizes
#
set testno 2
foreach {N L} {
10 2
50 2
200 3
2000 5
} {
puts "**** N=$N L=$L ****"
set hash [md5file test2.bt]
do_test btree2-$testno.1 [subst -nocommands {
set ::c2 [btree_cursor $::b 2 1]
set ::c3 [btree_cursor $::b 3 1]
set ::c4 [btree_cursor $::b 4 1]
set ::c5 [btree_cursor $::b 5 1]
set ::c6 [btree_cursor $::b 6 1]
btree_begin_transaction $::b
build_db $N $L
check_invariants
}] {}
do_test btree2-$testno.2 {
btree_close_cursor $::c2
btree_close_cursor $::c3
btree_close_cursor $::c4
btree_close_cursor $::c5
btree_close_cursor $::c6
btree_rollback $::b
md5file test2.bt
} $hash
do_test btree2-$testno.3 [subst -nocommands {
btree_begin_transaction $::b
set ::c2 [btree_cursor $::b 2 1]
set ::c3 [btree_cursor $::b 3 1]
set ::c4 [btree_cursor $::b 4 1]
set ::c5 [btree_cursor $::b 5 1]
set ::c6 [btree_cursor $::b 6 1]
build_db $N $L
check_invariants
}] {}
do_test btree2-$testno.4 {
btree_commit $::b
check_invariants
} {}
do_test btree2-$testno.5 {
lindex [btree_pager_stats $::b] 1
} {6}
do_test btree2-$testno.6 {
btree_close_cursor $::c2
btree_close_cursor $::c3
btree_close_cursor $::c4
btree_close_cursor $::c5
btree_close_cursor $::c6
lindex [btree_pager_stats $::b] 1
} {0}
do_test btree2-$testno.7 {
btree_close $::b
} {}
after 100
# For each database size, run various changes tests.
#
set num2 1
foreach {n I K D} {
0.5 0.5 0.1 0.1
1.0 0.2 0.1 0.1
1.0 0.8 0.1 0.1
2.0 0.0 0.1 0.1
2.0 1.0 0.1 0.1
2.0 0.0 0.0 0.0
2.0 1.0 0.0 0.0
} {
set testid btree2-$testno.8.$num2
set hash [md5file test2.bt]
do_test $testid.0 {
set ::b [btree_open test2.bt]
set ::c2 [btree_cursor $::b 2 1]
set ::c3 [btree_cursor $::b 3 1]
set ::c4 [btree_cursor $::b 4 1]
set ::c5 [btree_cursor $::b 5 1]
set ::c6 [btree_cursor $::b 6 1]
check_invariants
} {}
set cnt 6
for {set i 2} {$i<=6} {incr i} {
if {[lindex [btree_cursor_dump [set ::c$i]] 0]!=$i} {incr cnt}
}
do_test $testid.1 {
btree_begin_transaction $::b
lindex [btree_pager_stats $::b] 1
} $cnt
# exec cp test2.bt test2.bt.bu1
do_test $testid.2 [subst {
random_changes $n $I $K $D
}] {}
do_test $testid.3 {
check_invariants
} {}
do_test $testid.4 {
btree_close_cursor $::c2
btree_close_cursor $::c3
btree_close_cursor $::c4
btree_close_cursor $::c5
btree_close_cursor $::c6
btree_rollback $::b
md5file test2.bt
} $hash
# exec cp test2.bt test2.bt.bu2
btree_begin_transaction $::b
set ::c2 [btree_cursor $::b 2 1]
set ::c3 [btree_cursor $::b 3 1]
set ::c4 [btree_cursor $::b 4 1]
set ::c5 [btree_cursor $::b 5 1]
set ::c6 [btree_cursor $::b 6 1]
do_test $testid.5 [subst {
random_changes $n $I $K $D
}] {}
do_test $testid.6 {
check_invariants
} {}
do_test $testid.7 {
btree_commit $::b
check_invariants
} {}
set hash [md5file test2.bt]
do_test $testid.8 {
btree_close_cursor $::c2
btree_close_cursor $::c3
btree_close_cursor $::c4
btree_close_cursor $::c5
btree_close_cursor $::c6
lindex [btree_pager_stats $::b] 1
} {0}
do_test $testid.9 {
btree_close $::b
set ::b [btree_open test2.bt]
set ::c2 [btree_cursor $::b 2 1]
set ::c3 [btree_cursor $::b 3 1]
set ::c4 [btree_cursor $::b 4 1]
set ::c5 [btree_cursor $::b 5 1]
set ::c6 [btree_cursor $::b 6 1]
check_invariants
} {}
do_test $testid.10 {
btree_close_cursor $::c2
btree_close_cursor $::c3
btree_close_cursor $::c4
btree_close_cursor $::c5
btree_close_cursor $::c6
lindex [btree_pager_stats $::b] 1
} {0}
do_test $testid.11 {
btree_close $::b
} {}
incr num2
}
incr testno
set ::b [btree_open test2.bt]
}
# Testing is complete. Shut everything down.
#
do_test btree-999.1 {
lindex [btree_pager_stats $::b] 1
} {0}
do_test btree-999.2 {
btree_close $::b
} {}
do_test btree-999.3 {
file delete -force test2.bt
file exists test2.bt-journal
} {0}
} ;# end if( not mem: and has pager_open command );
finish_test