sqlcipher/test/tester.tcl

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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 some common TCL routines used for regression
# testing the SQLite library
#
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# $Id: tester.tcl,v 1.143 2009/04/09 01:23:49 drh Exp $
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#
# What for user input before continuing. This gives an opportunity
# to connect profiling tools to the process.
#
for {set i 0} {$i<[llength $argv]} {incr i} {
if {[regexp {^-+pause$} [lindex $argv $i] all value]} {
puts -nonewline "Press RETURN to begin..."
flush stdout
gets stdin
set argv [lreplace $argv $i $i]
}
}
set tcl_precision 15
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sqlite3_test_control_pending_byte 0x0010000
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#
# Check the command-line arguments for a default soft-heap-limit.
# Store this default value in the global variable ::soft_limit and
# update the soft-heap-limit each time this script is run. In that
# way if an individual test file changes the soft-heap-limit, it
# will be reset at the start of the next test file.
#
if {![info exists soft_limit]} {
set soft_limit 0
for {set i 0} {$i<[llength $argv]} {incr i} {
if {[regexp {^--soft-heap-limit=(.+)$} [lindex $argv $i] all value]} {
if {$value!="off"} {
set soft_limit $value
}
set argv [lreplace $argv $i $i]
}
}
}
sqlite3_soft_heap_limit $soft_limit
#
# Check the command-line arguments to set the memory debugger
# backtrace depth.
#
# See the sqlite3_memdebug_backtrace() function in mem2.c or
# test_malloc.c for additional information.
#
for {set i 0} {$i<[llength $argv]} {incr i} {
if {[lindex $argv $i] eq "--malloctrace"} {
set argv [lreplace $argv $i $i]
sqlite3_memdebug_backtrace 10
sqlite3_memdebug_log start
set tester_do_malloctrace 1
}
}
for {set i 0} {$i<[llength $argv]} {incr i} {
if {[regexp {^--backtrace=(\d+)$} [lindex $argv $i] all value]} {
sqlite3_memdebug_backtrace $value
set argv [lreplace $argv $i $i]
}
}
proc ostrace_call {zCall nClick zFile i32 i64} {
set s "INSERT INTO ostrace VALUES('$zCall', $nClick, '$zFile', $i32, $i64);"
puts $::ostrace_fd $s
}
for {set i 0} {$i<[llength $argv]} {incr i} {
if {[lindex $argv $i] eq "--ossummary" || [lindex $argv $i] eq "--ostrace"} {
sqlite3_instvfs create -default ostrace
set tester_do_ostrace 1
set ostrace_fd [open ostrace.sql w]
puts $ostrace_fd "BEGIN;"
if {[lindex $argv $i] eq "--ostrace"} {
set s "CREATE TABLE ostrace"
append s "(method TEXT, clicks INT, file TEXT, i32 INT, i64 INT);"
puts $ostrace_fd $s
sqlite3_instvfs configure ostrace ostrace_call
sqlite3_instvfs configure ostrace ostrace_call
}
set argv [lreplace $argv $i $i]
}
if {[lindex $argv $i] eq "--binarylog"} {
set tester_do_binarylog 1
set argv [lreplace $argv $i $i]
}
}
#
# Check the command-line arguments to set the maximum number of
# errors tolerated before halting.
#
if {![info exists maxErr]} {
set maxErr 1000
}
for {set i 0} {$i<[llength $argv]} {incr i} {
if {[regexp {^--maxerror=(\d+)$} [lindex $argv $i] all maxErr]} {
set argv [lreplace $argv $i $i]
}
}
#puts "Max error = $maxErr"
# Use the pager codec if it is available
#
if {[sqlite3 -has-codec] && [info command sqlite_orig]==""} {
rename sqlite3 sqlite_orig
proc sqlite3 {args} {
if {[llength $args]==2 && [string index [lindex $args 0] 0]!="-"} {
lappend args -key {xyzzy}
}
uplevel 1 sqlite_orig $args
}
}
# Create a test database
#
if {![info exists nTest]} {
sqlite3_shutdown
install_malloc_faultsim 1
sqlite3_initialize
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autoinstall_test_functions
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if {[info exists tester_do_binarylog]} {
sqlite3_instvfs binarylog -default binarylog ostrace.bin
sqlite3_instvfs marker binarylog "$argv0 $argv"
}
}
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proc reset_db {} {
catch {db close}
file delete -force test.db
file delete -force test.db-journal
sqlite3 db ./test.db
set ::DB [sqlite3_connection_pointer db]
if {[info exists ::SETUP_SQL]} {
db eval $::SETUP_SQL
}
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}
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reset_db
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# Abort early if this script has been run before.
#
if {[info exists nTest]} return
# Set the test counters to zero
#
set nErr 0
set nTest 0
set skip_test 0
set failList {}
set omitList {}
if {![info exists speedTest]} {
set speedTest 0
}
# Record the fact that a sequence of tests were omitted.
#
proc omit_test {name reason} {
global omitList
lappend omitList [list $name $reason]
}
# Invoke the do_test procedure to run a single test
#
proc do_test {name cmd expected} {
global argv nErr nTest skip_test maxErr
sqlite3_memdebug_settitle $name
if {[info exists ::tester_do_binarylog]} {
sqlite3_instvfs marker binarylog "Start of $name"
}
if {$skip_test} {
set skip_test 0
return
}
if {[llength $argv]==0} {
set go 1
} else {
set go 0
foreach pattern $argv {
if {[string match $pattern $name]} {
set go 1
break
}
}
}
if {!$go} return
incr nTest
puts -nonewline $name...
flush stdout
if {[catch {uplevel #0 "$cmd;\n"} result]} {
puts "\nError: $result"
incr nErr
lappend ::failList $name
if {$nErr>$maxErr} {puts "*** Giving up..."; finalize_testing}
} elseif {[string compare $result $expected]} {
puts "\nExpected: \[$expected\]\n Got: \[$result\]"
incr nErr
lappend ::failList $name
if {$nErr>=$maxErr} {puts "*** Giving up..."; finalize_testing}
} else {
puts " Ok"
}
flush stdout
if {[info exists ::tester_do_binarylog]} {
sqlite3_instvfs marker binarylog "End of $name"
}
}
# Run an SQL script.
# Return the number of microseconds per statement.
#
proc speed_trial {name numstmt units sql} {
puts -nonewline [format {%-21.21s } $name...]
flush stdout
set speed [time {sqlite3_exec_nr db $sql}]
set tm [lindex $speed 0]
if {$tm == 0} {
set rate [format %20s "many"]
} else {
set rate [format %20.5f [expr {1000000.0*$numstmt/$tm}]]
}
set u2 $units/s
puts [format {%12d uS %s %s} $tm $rate $u2]
global total_time
set total_time [expr {$total_time+$tm}]
}
proc speed_trial_tcl {name numstmt units script} {
puts -nonewline [format {%-21.21s } $name...]
flush stdout
set speed [time {eval $script}]
set tm [lindex $speed 0]
if {$tm == 0} {
set rate [format %20s "many"]
} else {
set rate [format %20.5f [expr {1000000.0*$numstmt/$tm}]]
}
set u2 $units/s
puts [format {%12d uS %s %s} $tm $rate $u2]
global total_time
set total_time [expr {$total_time+$tm}]
}
proc speed_trial_init {name} {
global total_time
set total_time 0
}
proc speed_trial_summary {name} {
global total_time
puts [format {%-21.21s %12d uS TOTAL} $name $total_time]
}
# Run this routine last
#
proc finish_test {} {
finalize_testing
}
proc finalize_testing {} {
global nTest nErr sqlite_open_file_count omitList
catch {db close}
catch {db2 close}
catch {db3 close}
vfs_unlink_test
sqlite3 db {}
# sqlite3_clear_tsd_memdebug
db close
sqlite3_reset_auto_extension
set heaplimit [sqlite3_soft_heap_limit]
if {$heaplimit!=$::soft_limit} {
puts "soft-heap-limit changed by this script\
from $::soft_limit to $heaplimit"
} elseif {$heaplimit!="" && $heaplimit>0} {
puts "soft-heap-limit set to $heaplimit"
}
sqlite3_soft_heap_limit 0
incr nTest
puts "$nErr errors out of $nTest tests"
if {$nErr>0} {
puts "Failures on these tests: $::failList"
}
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run_thread_tests 1
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if {[llength $omitList]>0} {
puts "Omitted test cases:"
set prec {}
foreach {rec} [lsort $omitList] {
if {$rec==$prec} continue
set prec $rec
puts [format { %-12s %s} [lindex $rec 0] [lindex $rec 1]]
}
}
if {$nErr>0 && ![working_64bit_int]} {
puts "******************************************************************"
puts "N.B.: The version of TCL that you used to build this test harness"
puts "is defective in that it does not support 64-bit integers. Some or"
puts "all of the test failures above might be a result from this defect"
puts "in your TCL build."
puts "******************************************************************"
}
if {[info exists ::tester_do_binarylog]} {
sqlite3_instvfs destroy binarylog
}
if {$sqlite_open_file_count} {
puts "$sqlite_open_file_count files were left open"
incr nErr
}
if {[info exists ::tester_do_ostrace]} {
puts "Writing ostrace.sql..."
set fd $::ostrace_fd
puts -nonewline $fd "CREATE TABLE ossummary"
puts $fd "(method TEXT, clicks INTEGER, count INTEGER);"
foreach row [sqlite3_instvfs report ostrace] {
foreach {method count clicks} $row break
puts $fd "INSERT INTO ossummary VALUES('$method', $clicks, $count);"
}
puts $fd "COMMIT;"
close $fd
sqlite3_instvfs destroy ostrace
}
if {[sqlite3_memory_used]>0} {
puts "Unfreed memory: [sqlite3_memory_used] bytes"
incr nErr
ifcapable memdebug||mem5||(mem3&&debug) {
puts "Writing unfreed memory log to \"./memleak.txt\""
sqlite3_memdebug_dump ./memleak.txt
}
} else {
puts "All memory allocations freed - no leaks"
ifcapable memdebug||mem5 {
sqlite3_memdebug_dump ./memusage.txt
}
}
show_memstats
puts "Maximum memory usage: [sqlite3_memory_highwater 1] bytes"
puts "Current memory usage: [sqlite3_memory_highwater] bytes"
if {[info commands sqlite3_memdebug_malloc_count] ne ""} {
puts "Number of malloc() : [sqlite3_memdebug_malloc_count] calls"
}
if {[info exists ::tester_do_malloctrace]} {
puts "Writing mallocs.sql..."
memdebug_log_sql
sqlite3_memdebug_log stop
sqlite3_memdebug_log clear
if {[sqlite3_memory_used]>0} {
puts "Writing leaks.sql..."
sqlite3_memdebug_log sync
memdebug_log_sql leaks.sql
}
}
foreach f [glob -nocomplain test.db-*-journal] {
file delete -force $f
}
foreach f [glob -nocomplain test.db-mj*] {
file delete -force $f
}
exit [expr {$nErr>0}]
}
# Display memory statistics for analysis and debugging purposes.
#
proc show_memstats {} {
set x [sqlite3_status SQLITE_STATUS_MEMORY_USED 0]
set y [sqlite3_status SQLITE_STATUS_MALLOC_SIZE 0]
set val [format {now %10d max %10d max-size %10d} \
[lindex $x 1] [lindex $x 2] [lindex $y 2]]
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puts "Memory used: $val"
set x [sqlite3_status SQLITE_STATUS_PAGECACHE_USED 0]
set y [sqlite3_status SQLITE_STATUS_PAGECACHE_SIZE 0]
set val [format {now %10d max %10d max-size %10d} \
[lindex $x 1] [lindex $x 2] [lindex $y 2]]
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puts "Page-cache used: $val"
set x [sqlite3_status SQLITE_STATUS_PAGECACHE_OVERFLOW 0]
set val [format {now %10d max %10d} [lindex $x 1] [lindex $x 2]]
puts "Page-cache overflow: $val"
set x [sqlite3_status SQLITE_STATUS_SCRATCH_USED 0]
set val [format {now %10d max %10d} [lindex $x 1] [lindex $x 2]]
puts "Scratch memory used: $val"
set x [sqlite3_status SQLITE_STATUS_SCRATCH_OVERFLOW 0]
set y [sqlite3_status SQLITE_STATUS_SCRATCH_SIZE 0]
set val [format {now %10d max %10d max-size %10d} \
[lindex $x 1] [lindex $x 2] [lindex $y 2]]
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puts "Scratch overflow: $val"
ifcapable yytrackmaxstackdepth {
set x [sqlite3_status SQLITE_STATUS_PARSER_STACK 0]
set val [format { max %10d} [lindex $x 2]]
puts "Parser stack depth: $val"
}
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}
# A procedure to execute SQL
#
proc execsql {sql {db db}} {
# puts "SQL = $sql"
uplevel [list $db eval $sql]
}
# Execute SQL and catch exceptions.
#
proc catchsql {sql {db db}} {
# puts "SQL = $sql"
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set r [catch [list uplevel [list $db eval $sql]] msg]
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lappend r $msg
return $r
}
# Do an VDBE code dump on the SQL given
#
proc explain {sql {db db}} {
puts ""
puts "addr opcode p1 p2 p3 p4 p5 #"
puts "---- ------------ ------ ------ ------ --------------- -- -"
$db eval "explain $sql" {} {
puts [format {%-4d %-12.12s %-6d %-6d %-6d % -17s %s %s} \
$addr $opcode $p1 $p2 $p3 $p4 $p5 $comment
]
}
}
# Show the VDBE program for an SQL statement but omit the Trace
# opcode at the beginning. This procedure can be used to prove
# that different SQL statements generate exactly the same VDBE code.
#
proc explain_no_trace {sql} {
set tr [db eval "EXPLAIN $sql"]
return [lrange $tr 7 end]
}
# Another procedure to execute SQL. This one includes the field
# names in the returned list.
#
proc execsql2 {sql} {
set result {}
db eval $sql data {
foreach f $data(*) {
lappend result $f $data($f)
}
}
return $result
}
# Use the non-callback API to execute multiple SQL statements
#
proc stepsql {dbptr sql} {
set sql [string trim $sql]
set r 0
while {[string length $sql]>0} {
if {[catch {sqlite3_prepare $dbptr $sql -1 sqltail} vm]} {
return [list 1 $vm]
}
set sql [string trim $sqltail]
# while {[sqlite_step $vm N VAL COL]=="SQLITE_ROW"} {
# foreach v $VAL {lappend r $v}
# }
while {[sqlite3_step $vm]=="SQLITE_ROW"} {
for {set i 0} {$i<[sqlite3_data_count $vm]} {incr i} {
lappend r [sqlite3_column_text $vm $i]
}
}
if {[catch {sqlite3_finalize $vm} errmsg]} {
return [list 1 $errmsg]
}
}
return $r
}
# Delete a file or directory
#
proc forcedelete {filename} {
if {[catch {file delete -force $filename}]} {
exec rm -rf $filename
}
}
# Do an integrity check of the entire database
#
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proc integrity_check {name {db db}} {
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ifcapable integrityck {
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do_test $name [list execsql {PRAGMA integrity_check} $db] {ok}
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}
}
proc fix_ifcapable_expr {expr} {
set ret ""
set state 0
for {set i 0} {$i < [string length $expr]} {incr i} {
set char [string range $expr $i $i]
set newstate [expr {[string is alnum $char] || $char eq "_"}]
if {$newstate && !$state} {
append ret {$::sqlite_options(}
}
if {!$newstate && $state} {
append ret )
}
append ret $char
set state $newstate
}
if {$state} {append ret )}
return $ret
}
# Evaluate a boolean expression of capabilities. If true, execute the
# code. Omit the code if false.
#
proc ifcapable {expr code {else ""} {elsecode ""}} {
#regsub -all {[a-z_0-9]+} $expr {$::sqlite_options(&)} e2
set e2 [fix_ifcapable_expr $expr]
if ($e2) {
set c [catch {uplevel 1 $code} r]
} else {
set c [catch {uplevel 1 $elsecode} r]
}
return -code $c $r
}
# This proc execs a seperate process that crashes midway through executing
# the SQL script $sql on database test.db.
#
# The crash occurs during a sync() of file $crashfile. When the crash
# occurs a random subset of all unsynced writes made by the process are
# written into the files on disk. Argument $crashdelay indicates the
# number of file syncs to wait before crashing.
#
# The return value is a list of two elements. The first element is a
# boolean, indicating whether or not the process actually crashed or
# reported some other error. The second element in the returned list is the
# error message. This is "child process exited abnormally" if the crash
# occured.
#
# crashsql -delay CRASHDELAY -file CRASHFILE ?-blocksize BLOCKSIZE? $sql
#
proc crashsql {args} {
if {$::tcl_platform(platform)!="unix"} {
error "crashsql should only be used on unix"
}
set blocksize ""
set crashdelay 1
set prngseed 0
set tclbody {}
set crashfile ""
set dc ""
set sql [lindex $args end]
for {set ii 0} {$ii < [llength $args]-1} {incr ii 2} {
set z [lindex $args $ii]
set n [string length $z]
set z2 [lindex $args [expr $ii+1]]
if {$n>1 && [string first $z -delay]==0} {set crashdelay $z2} \
elseif {$n>1 && [string first $z -seed]==0} {set prngseed $z2} \
elseif {$n>1 && [string first $z -file]==0} {set crashfile $z2} \
elseif {$n>1 && [string first $z -tclbody]==0} {set tclbody $z2} \
elseif {$n>1 && [string first $z -blocksize]==0} {set blocksize "-s $z2" } \
elseif {$n>1 && [string first $z -characteristics]==0} {set dc "-c {$z2}" } \
else { error "Unrecognized option: $z" }
}
if {$crashfile eq ""} {
error "Compulsory option -file missing"
}
set cfile [file join [pwd] $crashfile]
set f [open crash.tcl w]
puts $f "sqlite3_crash_enable 1"
puts $f "sqlite3_crashparams $blocksize $dc $crashdelay $cfile"
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puts $f "sqlite3_test_control_pending_byte $::sqlite_pending_byte"
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puts $f "sqlite3 db test.db -vfs crash"
# This block sets the cache size of the main database to 10
# pages. This is done in case the build is configured to omit
# "PRAGMA cache_size".
puts $f {db eval {SELECT * FROM sqlite_master;}}
puts $f {set bt [btree_from_db db]}
puts $f {btree_set_cache_size $bt 10}
if {$prngseed} {
set seed [expr {$prngseed%10007+1}]
# puts seed=$seed
puts $f "db eval {SELECT randomblob($seed)}"
}
if {[string length $tclbody]>0} {
puts $f $tclbody
}
if {[string length $sql]>0} {
puts $f "db eval {"
puts $f "$sql"
puts $f "}"
}
close $f
set r [catch {
exec [info nameofexec] crash.tcl >@stdout
} msg]
lappend r $msg
}
# Usage: do_ioerr_test <test number> <options...>
#
# This proc is used to implement test cases that check that IO errors
# are correctly handled. The first argument, <test number>, is an integer
# used to name the tests executed by this proc. Options are as follows:
#
# -tclprep TCL script to run to prepare test.
# -sqlprep SQL script to run to prepare test.
# -tclbody TCL script to run with IO error simulation.
# -sqlbody TCL script to run with IO error simulation.
# -exclude List of 'N' values not to test.
# -erc Use extended result codes
# -persist Make simulated I/O errors persistent
# -start Value of 'N' to begin with (default 1)
#
# -cksum Boolean. If true, test that the database does
# not change during the execution of the test case.
#
proc do_ioerr_test {testname args} {
set ::ioerropts(-start) 1
set ::ioerropts(-cksum) 0
set ::ioerropts(-erc) 0
set ::ioerropts(-count) 100000000
set ::ioerropts(-persist) 1
set ::ioerropts(-ckrefcount) 0
set ::ioerropts(-restoreprng) 1
array set ::ioerropts $args
# TEMPORARY: For 3.5.9, disable testing of extended result codes. There are
# a couple of obscure IO errors that do not return them.
set ::ioerropts(-erc) 0
set ::go 1
#reset_prng_state
save_prng_state
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for {set n $::ioerropts(-start)} {$::go} {incr n} {
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set ::TN $n
incr ::ioerropts(-count) -1
if {$::ioerropts(-count)<0} break
# Skip this IO error if it was specified with the "-exclude" option.
if {[info exists ::ioerropts(-exclude)]} {
if {[lsearch $::ioerropts(-exclude) $n]!=-1} continue
}
if {$::ioerropts(-restoreprng)} {
restore_prng_state
}
# Delete the files test.db and test2.db, then execute the TCL and
# SQL (in that order) to prepare for the test case.
do_test $testname.$n.1 {
set ::sqlite_io_error_pending 0
catch {db close}
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catch {db2 close}
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catch {file delete -force test.db}
catch {file delete -force test.db-journal}
catch {file delete -force test2.db}
catch {file delete -force test2.db-journal}
set ::DB [sqlite3 db test.db; sqlite3_connection_pointer db]
sqlite3_extended_result_codes $::DB $::ioerropts(-erc)
if {[info exists ::ioerropts(-tclprep)]} {
eval $::ioerropts(-tclprep)
}
if {[info exists ::ioerropts(-sqlprep)]} {
execsql $::ioerropts(-sqlprep)
}
expr 0
} {0}
# Read the 'checksum' of the database.
if {$::ioerropts(-cksum)} {
set checksum [cksum]
}
# Set the Nth IO error to fail.
do_test $testname.$n.2 [subst {
set ::sqlite_io_error_persist $::ioerropts(-persist)
set ::sqlite_io_error_pending $n
}] $n
# Create a single TCL script from the TCL and SQL specified
# as the body of the test.
set ::ioerrorbody {}
if {[info exists ::ioerropts(-tclbody)]} {
append ::ioerrorbody "$::ioerropts(-tclbody)\n"
}
if {[info exists ::ioerropts(-sqlbody)]} {
append ::ioerrorbody "db eval {$::ioerropts(-sqlbody)}"
}
# Execute the TCL Script created in the above block. If
# there are at least N IO operations performed by SQLite as
# a result of the script, the Nth will fail.
do_test $testname.$n.3 {
set ::sqlite_io_error_hit 0
set ::sqlite_io_error_hardhit 0
set r [catch $::ioerrorbody msg]
set ::errseen $r
set rc [sqlite3_errcode $::DB]
if {$::ioerropts(-erc)} {
# If we are in extended result code mode, make sure all of the
# IOERRs we get back really do have their extended code values.
# If an extended result code is returned, the sqlite3_errcode
# TCLcommand will return a string of the form: SQLITE_IOERR+nnnn
# where nnnn is a number
if {[regexp {^SQLITE_IOERR} $rc] && ![regexp {IOERR\+\d} $rc]} {
return $rc
}
} else {
# If we are not in extended result code mode, make sure no
# extended error codes are returned.
if {[regexp {\+\d} $rc]} {
return $rc
}
}
# The test repeats as long as $::go is non-zero. $::go starts out
# as 1. When a test runs to completion without hitting an I/O
# error, that means there is no point in continuing with this test
# case so set $::go to zero.
#
if {$::sqlite_io_error_pending>0} {
set ::go 0
set q 0
set ::sqlite_io_error_pending 0
} else {
set q 1
}
set s [expr $::sqlite_io_error_hit==0]
if {$::sqlite_io_error_hit>$::sqlite_io_error_hardhit && $r==0} {
set r 1
}
set ::sqlite_io_error_hit 0
# One of two things must have happened. either
# 1. We never hit the IO error and the SQL returned OK
# 2. An IO error was hit and the SQL failed
#
expr { ($s && !$r && !$q) || (!$s && $r && $q) }
} {1}
set ::sqlite_io_error_hit 0
set ::sqlite_io_error_pending 0
# Check that no page references were leaked. There should be
# a single reference if there is still an active transaction,
# or zero otherwise.
#
# UPDATE: If the IO error occurs after a 'BEGIN' but before any
# locks are established on database files (i.e. if the error
# occurs while attempting to detect a hot-journal file), then
# there may 0 page references and an active transaction according
# to [sqlite3_get_autocommit].
#
if {$::go && $::sqlite_io_error_hardhit && $::ioerropts(-ckrefcount)} {
do_test $testname.$n.4 {
set bt [btree_from_db db]
db_enter db
array set stats [btree_pager_stats $bt]
db_leave db
set nRef $stats(ref)
expr {$nRef == 0 || ([sqlite3_get_autocommit db]==0 && $nRef == 1)}
} {1}
}
# If there is an open database handle and no open transaction,
# and the pager is not running in exclusive-locking mode,
# check that the pager is in "unlocked" state. Theoretically,
# if a call to xUnlock() failed due to an IO error the underlying
# file may still be locked.
#
ifcapable pragma {
if { [info commands db] ne ""
&& $::ioerropts(-ckrefcount)
&& [db one {pragma locking_mode}] eq "normal"
&& [sqlite3_get_autocommit db]
} {
do_test $testname.$n.5 {
set bt [btree_from_db db]
db_enter db
array set stats [btree_pager_stats $bt]
db_leave db
set stats(state)
} 0
}
}
# If an IO error occured, then the checksum of the database should
# be the same as before the script that caused the IO error was run.
#
if {$::go && $::sqlite_io_error_hardhit && $::ioerropts(-cksum)} {
do_test $testname.$n.6 {
catch {db close}
catch {db2 close}
set ::DB [sqlite3 db test.db; sqlite3_connection_pointer db]
cksum
} $checksum
}
set ::sqlite_io_error_hardhit 0
set ::sqlite_io_error_pending 0
if {[info exists ::ioerropts(-cleanup)]} {
catch $::ioerropts(-cleanup)
}
}
set ::sqlite_io_error_pending 0
set ::sqlite_io_error_persist 0
unset ::ioerropts
}
# Return a checksum based on the contents of the main database associated
# with connection $db
#
proc cksum {{db db}} {
set txt [$db eval {
SELECT name, type, sql FROM sqlite_master order by name
}]\n
foreach tbl [$db eval {
SELECT name FROM sqlite_master WHERE type='table' order by name
}] {
append txt [$db eval "SELECT * FROM $tbl"]\n
}
foreach prag {default_synchronous default_cache_size} {
append txt $prag-[$db eval "PRAGMA $prag"]\n
}
set cksum [string length $txt]-[md5 $txt]
# puts $cksum-[file size test.db]
return $cksum
}
# Generate a checksum based on the contents of the main and temp tables
# database $db. If the checksum of two databases is the same, and the
# integrity-check passes for both, the two databases are identical.
#
proc allcksum {{db db}} {
set ret [list]
ifcapable tempdb {
set sql {
SELECT name FROM sqlite_master WHERE type = 'table' UNION
SELECT name FROM sqlite_temp_master WHERE type = 'table' UNION
SELECT 'sqlite_master' UNION
SELECT 'sqlite_temp_master' ORDER BY 1
}
} else {
set sql {
SELECT name FROM sqlite_master WHERE type = 'table' UNION
SELECT 'sqlite_master' ORDER BY 1
}
}
set tbllist [$db eval $sql]
set txt {}
foreach tbl $tbllist {
append txt [$db eval "SELECT * FROM $tbl"]
}
foreach prag {default_cache_size} {
append txt $prag-[$db eval "PRAGMA $prag"]\n
}
# puts txt=$txt
return [md5 $txt]
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}
# Generate a checksum based on the contents of a single database with
# a database connection. The name of the database is $dbname.
# Examples of $dbname are "temp" or "main".
#
proc dbcksum {db dbname} {
if {$dbname=="temp"} {
set master sqlite_temp_master
} else {
set master $dbname.sqlite_master
}
set alltab [$db eval "SELECT name FROM $master WHERE type='table'"]
set txt [$db eval "SELECT * FROM $master"]\n
foreach tab $alltab {
append txt [$db eval "SELECT * FROM $dbname.$tab"]\n
}
return [md5 $txt]
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}
proc memdebug_log_sql {{filename mallocs.sql}} {
set data [sqlite3_memdebug_log dump]
set nFrame [expr [llength [lindex $data 0]]-2]
if {$nFrame < 0} { return "" }
set database temp
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set tbl "CREATE TABLE ${database}.malloc(zTest, nCall, nByte, lStack);"
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set sql ""
foreach e $data {
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set nCall [lindex $e 0]
set nByte [lindex $e 1]
set lStack [lrange $e 2 end]
append sql "INSERT INTO ${database}.malloc VALUES"
append sql "('test', $nCall, $nByte, '$lStack');\n"
foreach f $lStack {
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set frames($f) 1
}
}
set tbl2 "CREATE TABLE ${database}.frame(frame INTEGER PRIMARY KEY, line);\n"
set tbl3 "CREATE TABLE ${database}.file(name PRIMARY KEY, content);\n"
foreach f [array names frames] {
set addr [format %x $f]
set cmd "addr2line -e [info nameofexec] $addr"
set line [eval exec $cmd]
append sql "INSERT INTO ${database}.frame VALUES($f, '$line');\n"
set file [lindex [split $line :] 0]
set files($file) 1
}
foreach f [array names files] {
set contents ""
catch {
set fd [open $f]
set contents [read $fd]
close $fd
}
set contents [string map {' ''} $contents]
append sql "INSERT INTO ${database}.file VALUES('$f', '$contents');\n"
}
set fd [open $filename w]
puts $fd "BEGIN; ${tbl}${tbl2}${tbl3}${sql} ; COMMIT;"
close $fd
}
# Copy file $from into $to. This is used because some versions of
# TCL for windows (notably the 8.4.1 binary package shipped with the
# current mingw release) have a broken "file copy" command.
#
proc copy_file {from to} {
if {$::tcl_platform(platform)=="unix"} {
file copy -force $from $to
} else {
set f [open $from]
fconfigure $f -translation binary
set t [open $to w]
fconfigure $t -translation binary
puts -nonewline $t [read $f [file size $from]]
close $t
close $f
}
}
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# Drop all tables in database [db]
proc drop_all_tables {{db db}} {
set pk [$db one "PRAGMA foreign_keys"]
$db eval "PRAGMA foreign_keys = OFF"
foreach {t type} [$db eval {
SELECT name, type FROM sqlite_master
WHERE type IN('table', 'view') AND name NOT like 'sqlite_%'
}] {
$db eval "DROP $type $t"
}
$db eval " PRAGMA foreign_keys = $pk "
}
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# If the library is compiled with the SQLITE_DEFAULT_AUTOVACUUM macro set
# to non-zero, then set the global variable $AUTOVACUUM to 1.
set AUTOVACUUM $sqlite_options(default_autovacuum)
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source $testdir/thread_common.tcl