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sqlite/test/malloc_common.tcl
dan e0569a4aae Further test coverage improvements for fts5.
FossilOrigin-Name: 927d9a64e13c6b768f0a15475713192fcfaaf9e7
2015-05-16 20:04:43 +00:00

698 lines
21 KiB
Tcl

# 2007 May 05
#
# 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 contains common code used by many different malloc tests
# within the test suite.
#
# $Id: malloc_common.tcl,v 1.22 2008/09/23 16:41:30 danielk1977 Exp $
# If we did not compile with malloc testing enabled, then do nothing.
#
ifcapable builtin_test {
set MEMDEBUG 1
} else {
set MEMDEBUG 0
return 0
}
# Transient and persistent OOM errors:
#
set FAULTSIM(oom-transient) [list \
-injectstart {oom_injectstart 0} \
-injectstop oom_injectstop \
-injecterrlist {{1 {out of memory}}} \
]
set FAULTSIM(oom-persistent) [list \
-injectstart {oom_injectstart 1000000} \
-injectstop oom_injectstop \
-injecterrlist {{1 {out of memory}}} \
]
# Transient and persistent IO errors:
#
set FAULTSIM(ioerr-transient) [list \
-injectstart {ioerr_injectstart 0} \
-injectstop ioerr_injectstop \
-injecterrlist {{1 {disk I/O error}}} \
]
set FAULTSIM(ioerr-persistent) [list \
-injectstart {ioerr_injectstart 1} \
-injectstop ioerr_injectstop \
-injecterrlist {{1 {disk I/O error}}} \
]
# SQLITE_FULL errors (always persistent):
#
set FAULTSIM(full) [list \
-injectinstall fullerr_injectinstall \
-injectstart fullerr_injectstart \
-injectstop fullerr_injectstop \
-injecterrlist {{1 {database or disk is full}}} \
-injectuninstall fullerr_injectuninstall \
]
# Transient and persistent SHM errors:
#
set FAULTSIM(shmerr-transient) [list \
-injectinstall shmerr_injectinstall \
-injectstart {shmerr_injectstart 0} \
-injectstop shmerr_injectstop \
-injecterrlist {{1 {disk I/O error}}} \
-injectuninstall shmerr_injectuninstall \
]
set FAULTSIM(shmerr-persistent) [list \
-injectinstall shmerr_injectinstall \
-injectstart {shmerr_injectstart 1} \
-injectstop shmerr_injectstop \
-injecterrlist {{1 {disk I/O error}}} \
-injectuninstall shmerr_injectuninstall \
]
# Transient and persistent CANTOPEN errors:
#
set FAULTSIM(cantopen-transient) [list \
-injectinstall cantopen_injectinstall \
-injectstart {cantopen_injectstart 0} \
-injectstop cantopen_injectstop \
-injecterrlist {{1 {unable to open database file}}} \
-injectuninstall cantopen_injectuninstall \
]
set FAULTSIM(cantopen-persistent) [list \
-injectinstall cantopen_injectinstall \
-injectstart {cantopen_injectstart 1} \
-injectstop cantopen_injectstop \
-injecterrlist {{1 {unable to open database file}}} \
-injectuninstall cantopen_injectuninstall \
]
set FAULTSIM(interrupt) [list \
-injectinstall interrupt_injectinstall \
-injectstart interrupt_injectstart \
-injectstop interrupt_injectstop \
-injecterrlist {{1 interrupted} {1 interrupt}} \
-injectuninstall interrupt_injectuninstall \
]
#--------------------------------------------------------------------------
# Usage do_faultsim_test NAME ?OPTIONS...?
#
# -faults List of fault types to simulate.
#
# -prep Script to execute before -body.
#
# -body Script to execute (with fault injection).
#
# -test Script to execute after -body.
#
# -install Script to execute after faultsim -injectinstall
#
# -uninstall Script to execute after faultsim -uninjectinstall
#
proc do_faultsim_test {name args} {
global FAULTSIM
foreach n [array names FAULTSIM] {
if {$n != "interrupt"} {lappend DEFAULT(-faults) $n}
}
set DEFAULT(-prep) ""
set DEFAULT(-body) ""
set DEFAULT(-test) ""
set DEFAULT(-install) ""
set DEFAULT(-uninstall) ""
set DEFAULT(-start) 1
set DEFAULT(-end) 0
fix_testname name
array set O [array get DEFAULT]
array set O $args
foreach o [array names O] {
if {[info exists DEFAULT($o)]==0} { error "unknown option: $o" }
}
set faultlist [list]
foreach f $O(-faults) {
set flist [array names FAULTSIM $f]
if {[llength $flist]==0} { error "unknown fault: $f" }
set faultlist [concat $faultlist $flist]
}
set testspec [list -prep $O(-prep) -body $O(-body) \
-test $O(-test) -install $O(-install) -uninstall $O(-uninstall) \
-start $O(-start) -end $O(-end)
]
foreach f [lsort -unique $faultlist] {
eval do_one_faultsim_test "$name-$f" $FAULTSIM($f) $testspec
}
}
#-------------------------------------------------------------------------
# Procedures to save and restore the current file-system state:
#
# faultsim_save
# faultsim_restore
# faultsim_save_and_close
# faultsim_restore_and_reopen
# faultsim_delete_and_reopen
#
proc faultsim_save {args} { uplevel db_save $args }
proc faultsim_save_and_close {args} { uplevel db_save_and_close $args }
proc faultsim_restore {args} { uplevel db_restore $args }
proc faultsim_restore_and_reopen {args} {
uplevel db_restore_and_reopen $args
sqlite3_extended_result_codes db 1
sqlite3_db_config_lookaside db 0 0 0
}
proc faultsim_delete_and_reopen {args} {
uplevel db_delete_and_reopen $args
sqlite3_extended_result_codes db 1
sqlite3_db_config_lookaside db 0 0 0
}
proc faultsim_integrity_check {{db db}} {
set ic [$db eval { PRAGMA integrity_check }]
if {$ic != "ok"} { error "Integrity check: $ic" }
}
# The following procs are used as [do_one_faultsim_test] callbacks when
# injecting OOM faults into test cases.
#
proc oom_injectstart {nRepeat iFail} {
sqlite3_memdebug_fail [expr $iFail-1] -repeat $nRepeat
}
proc oom_injectstop {} {
sqlite3_memdebug_fail -1
}
# The following procs are used as [do_one_faultsim_test] callbacks when
# injecting IO error faults into test cases.
#
proc ioerr_injectstart {persist iFail} {
set ::sqlite_io_error_persist $persist
set ::sqlite_io_error_pending $iFail
}
proc ioerr_injectstop {} {
set sv $::sqlite_io_error_hit
set ::sqlite_io_error_persist 0
set ::sqlite_io_error_pending 0
set ::sqlite_io_error_hardhit 0
set ::sqlite_io_error_hit 0
set ::sqlite_io_error_pending 0
return $sv
}
# The following procs are used as [do_one_faultsim_test] callbacks when
# injecting shared-memory related error faults into test cases.
#
proc shmerr_injectinstall {} {
testvfs shmfault -default true
shmfault filter {xShmOpen xShmMap xShmLock}
}
proc shmerr_injectuninstall {} {
catch {db close}
catch {db2 close}
shmfault delete
}
proc shmerr_injectstart {persist iFail} {
shmfault ioerr $iFail $persist
}
proc shmerr_injectstop {} {
shmfault ioerr
}
# The following procs are used as [do_one_faultsim_test] callbacks when
# injecting SQLITE_FULL error faults into test cases.
#
proc fullerr_injectinstall {} {
testvfs shmfault -default true
}
proc fullerr_injectuninstall {} {
catch {db close}
catch {db2 close}
shmfault delete
}
proc fullerr_injectstart {iFail} {
shmfault full $iFail 1
}
proc fullerr_injectstop {} {
shmfault full
}
# The following procs are used as [do_one_faultsim_test] callbacks when
# injecting SQLITE_CANTOPEN error faults into test cases.
#
proc cantopen_injectinstall {} {
testvfs shmfault -default true
}
proc cantopen_injectuninstall {} {
catch {db close}
catch {db2 close}
shmfault delete
}
proc cantopen_injectstart {persist iFail} {
shmfault cantopen $iFail $persist
}
proc cantopen_injectstop {} {
shmfault cantopen
}
# The following procs are used as [do_one_faultsim_test] callbacks
# when injecting SQLITE_INTERRUPT error faults into test cases.
#
proc interrupt_injectinstall {} {
}
proc interrupt_injectuninstall {} {
}
proc interrupt_injectstart {iFail} {
set ::sqlite_interrupt_count $iFail
}
proc interrupt_injectstop {} {
set res [expr $::sqlite_interrupt_count<=0]
set ::sqlite_interrupt_count 0
set res
}
# This command is not called directly. It is used by the
# [faultsim_test_result] command created by [do_faultsim_test] and used
# by -test scripts.
#
proc faultsim_test_result_int {args} {
upvar testrc testrc testresult testresult testnfail testnfail
set t [list $testrc $testresult]
set r $args
if { ($testnfail==0 && $t != [lindex $r 0]) || [lsearch -exact $r $t]<0 } {
error "nfail=$testnfail rc=$testrc result=$testresult list=$r"
}
}
#--------------------------------------------------------------------------
# Usage do_one_faultsim_test NAME ?OPTIONS...?
#
# The first argument, <test number>, is used as a prefix of the test names
# taken by tests executed by this command. Options are as follows. All
# options take a single argument.
#
# -injectstart Script to enable fault-injection.
#
# -injectstop Script to disable fault-injection.
#
# -injecterrlist List of generally acceptable test results (i.e. error
# messages). Example: [list {1 {out of memory}}]
#
# -injectinstall
#
# -injectuninstall
#
# -prep Script to execute before -body.
#
# -body Script to execute (with fault injection).
#
# -test Script to execute after -body.
#
# -start Index of first fault to inject (default 1)
#
proc do_one_faultsim_test {testname args} {
set DEFAULT(-injectstart) "expr"
set DEFAULT(-injectstop) "expr 0"
set DEFAULT(-injecterrlist) [list]
set DEFAULT(-injectinstall) ""
set DEFAULT(-injectuninstall) ""
set DEFAULT(-prep) ""
set DEFAULT(-body) ""
set DEFAULT(-test) ""
set DEFAULT(-install) ""
set DEFAULT(-uninstall) ""
set DEFAULT(-start) 1
set DEFAULT(-end) 0
array set O [array get DEFAULT]
array set O $args
foreach o [array names O] {
if {[info exists DEFAULT($o)]==0} { error "unknown option: $o" }
}
proc faultsim_test_proc {testrc testresult testnfail} $O(-test)
proc faultsim_test_result {args} "
uplevel faultsim_test_result_int \$args [list $O(-injecterrlist)]
"
eval $O(-injectinstall)
eval $O(-install)
set stop 0
for {set iFail $O(-start)} \
{!$stop && ($O(-end)==0 || $iFail<=$O(-end))} \
{incr iFail} \
{
# Evaluate the -prep script.
#
eval $O(-prep)
# Start the fault-injection. Run the -body script. Stop the fault
# injection. Local var $nfail is set to the total number of faults
# injected into the system this trial.
#
eval $O(-injectstart) $iFail
set rc [catch $O(-body) res]
set nfail [eval $O(-injectstop)]
# Run the -test script. If it throws no error, consider this trial
# sucessful. If it does throw an error, cause a [do_test] test to
# fail (and print out the unexpected exception thrown by the -test
# script at the same time).
#
set rc [catch [list faultsim_test_proc $rc $res $nfail] res]
if {$rc == 0} {set res ok}
do_test $testname.$iFail [list list $rc $res] {0 ok}
# If no faults where injected this trial, don't bother running
# any more. This test is finished.
#
if {$nfail==0} { set stop 1 }
}
eval $O(-uninstall)
eval $O(-injectuninstall)
}
# Usage: do_malloc_test <test number> <options...>
#
# 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 malloc failure simulation.
# -sqlbody TCL script to run with malloc failure simulation.
# -cleanup TCL script to run after the test.
#
# This command runs a series of tests to verify SQLite's ability
# to handle an out-of-memory condition gracefully. It is assumed
# that if this condition occurs a malloc() call will return a
# NULL pointer. Linux, for example, doesn't do that by default. See
# the "BUGS" section of malloc(3).
#
# Each iteration of a loop, the TCL commands in any argument passed
# to the -tclbody switch, followed by the SQL commands in any argument
# passed to the -sqlbody switch are executed. Each iteration the
# Nth call to sqliteMalloc() is made to fail, where N is increased
# each time the loop runs starting from 1. When all commands execute
# successfully, the loop ends.
#
proc do_malloc_test {tn args} {
array unset ::mallocopts
array set ::mallocopts $args
if {[string is integer $tn]} {
set tn malloc-$tn
catch { set tn $::testprefix-$tn }
}
if {[info exists ::mallocopts(-start)]} {
set start $::mallocopts(-start)
} else {
set start 0
}
if {[info exists ::mallocopts(-end)]} {
set end $::mallocopts(-end)
} else {
set end 50000
}
save_prng_state
foreach ::iRepeat {0 10000000} {
set ::go 1
for {set ::n $start} {$::go && $::n <= $end} {incr ::n} {
# If $::iRepeat is 0, then the malloc() failure is transient - it
# fails and then subsequent calls succeed. If $::iRepeat is 1,
# then the failure is persistent - once malloc() fails it keeps
# failing.
#
set zRepeat "transient"
if {$::iRepeat} {set zRepeat "persistent"}
restore_prng_state
foreach file [glob -nocomplain test.db-mj*] {forcedelete $file}
do_test ${tn}.${zRepeat}.${::n} {
# Remove all traces of database files test.db and test2.db
# from the file-system. Then open (empty database) "test.db"
# with the handle [db].
#
catch {db close}
catch {db2 close}
forcedelete test.db
forcedelete test.db-journal
forcedelete test.db-wal
forcedelete test2.db
forcedelete test2.db-journal
forcedelete test2.db-wal
if {[info exists ::mallocopts(-testdb)]} {
copy_file $::mallocopts(-testdb) test.db
}
catch { sqlite3 db test.db }
if {[info commands db] ne ""} {
sqlite3_extended_result_codes db 1
}
sqlite3_db_config_lookaside db 0 0 0
# Execute any -tclprep and -sqlprep scripts.
#
if {[info exists ::mallocopts(-tclprep)]} {
eval $::mallocopts(-tclprep)
}
if {[info exists ::mallocopts(-sqlprep)]} {
execsql $::mallocopts(-sqlprep)
}
# Now set the ${::n}th malloc() to fail and execute the -tclbody
# and -sqlbody scripts.
#
sqlite3_memdebug_fail $::n -repeat $::iRepeat
set ::mallocbody {}
if {[info exists ::mallocopts(-tclbody)]} {
append ::mallocbody "$::mallocopts(-tclbody)\n"
}
if {[info exists ::mallocopts(-sqlbody)]} {
append ::mallocbody "db eval {$::mallocopts(-sqlbody)}"
}
# The following block sets local variables as follows:
#
# isFail - True if an error (any error) was reported by sqlite.
# nFail - The total number of simulated malloc() failures.
# nBenign - The number of benign simulated malloc() failures.
#
set isFail [catch $::mallocbody msg]
set nFail [sqlite3_memdebug_fail -1 -benigncnt nBenign]
# puts -nonewline " (isFail=$isFail nFail=$nFail nBenign=$nBenign) "
# If one or more mallocs failed, run this loop body again.
#
set go [expr {$nFail>0}]
if {($nFail-$nBenign)==0} {
if {$isFail} {
set v2 $msg
} else {
set isFail 1
set v2 1
}
} elseif {!$isFail} {
set v2 $msg
} elseif {
[info command db]=="" ||
[db errorcode]==7 ||
$msg=="out of memory"
} {
set v2 1
} else {
set v2 $msg
puts [db errorcode]
}
lappend isFail $v2
} {1 1}
if {[info exists ::mallocopts(-cleanup)]} {
catch [list uplevel #0 $::mallocopts(-cleanup)] msg
}
}
}
unset ::mallocopts
sqlite3_memdebug_fail -1
}
#-------------------------------------------------------------------------
# This proc is used to test a single SELECT statement. Parameter $name is
# passed a name for the test case (i.e. "fts3_malloc-1.4.1") and parameter
# $sql is passed the text of the SELECT statement. Parameter $result is
# set to the expected output if the SELECT statement is successfully
# executed using [db eval].
#
# Example:
#
# do_select_test testcase-1.1 "SELECT 1+1, 1+2" {1 2}
#
# If global variable DO_MALLOC_TEST is set to a non-zero value, or if
# it is not defined at all, then OOM testing is performed on the SELECT
# statement. Each OOM test case is said to pass if either (a) executing
# the SELECT statement succeeds and the results match those specified
# by parameter $result, or (b) TCL throws an "out of memory" error.
#
# If DO_MALLOC_TEST is defined and set to zero, then the SELECT statement
# is executed just once. In this case the test case passes if the results
# match the expected results passed via parameter $result.
#
proc do_select_test {name sql result} {
uplevel [list doPassiveTest 0 $name $sql [list 0 [list {*}$result]]]
}
proc do_restart_select_test {name sql result} {
uplevel [list doPassiveTest 1 $name $sql [list 0 $result]]
}
proc do_error_test {name sql error} {
uplevel [list doPassiveTest 0 $name $sql [list 1 $error]]
}
proc doPassiveTest {isRestart name sql catchres} {
if {![info exists ::DO_MALLOC_TEST]} { set ::DO_MALLOC_TEST 1 }
if {[info exists ::testprefix]
&& [string is integer [string range $name 0 0]]
} {
set name $::testprefix.$name
}
switch $::DO_MALLOC_TEST {
0 { # No malloc failures.
do_test $name [list set {} [uplevel [list catchsql $sql]]] $catchres
return
}
1 { # Simulate transient failures.
set nRepeat 1
set zName "transient"
set nStartLimit 100000
set nBackup 1
}
2 { # Simulate persistent failures.
set nRepeat 1
set zName "persistent"
set nStartLimit 100000
set nBackup 1
}
3 { # Simulate transient failures with extra brute force.
set nRepeat 100000
set zName "ridiculous"
set nStartLimit 1
set nBackup 10
}
}
# The set of acceptable results from running [catchsql $sql].
#
set answers [list {1 {out of memory}} $catchres]
set str [join $answers " OR "]
set nFail 1
for {set iLimit $nStartLimit} {$nFail} {incr iLimit} {
for {set iFail 1} {$nFail && $iFail<=$iLimit} {incr iFail} {
for {set iTest 0} {$iTest<$nBackup && ($iFail-$iTest)>0} {incr iTest} {
if {$isRestart} { sqlite3 db test.db }
sqlite3_memdebug_fail [expr $iFail-$iTest] -repeat $nRepeat
set res [uplevel [list catchsql $sql]]
if {[lsearch -exact $answers $res]>=0} { set res $str }
set testname "$name.$zName.$iFail"
do_test "$name.$zName.$iLimit.$iFail" [list set {} $res] $str
set nFail [sqlite3_memdebug_fail -1 -benigncnt nBenign]
}
}
}
}
#-------------------------------------------------------------------------
# Test a single write to the database. In this case a "write" is a
# DELETE, UPDATE or INSERT statement.
#
# If OOM testing is performed, there are several acceptable outcomes:
#
# 1) The write succeeds. No error is returned.
#
# 2) An "out of memory" exception is thrown and:
#
# a) The statement has no effect, OR
# b) The current transaction is rolled back, OR
# c) The statement succeeds. This can only happen if the connection
# is in auto-commit mode (after the statement is executed, so this
# includes COMMIT statements).
#
# If the write operation eventually succeeds, zero is returned. If a
# transaction is rolled back, non-zero is returned.
#
# Parameter $name is the name to use for the test case (or test cases).
# The second parameter, $tbl, should be the name of the database table
# being modified. Parameter $sql contains the SQL statement to test.
#
proc do_write_test {name tbl sql} {
if {![info exists ::DO_MALLOC_TEST]} { set ::DO_MALLOC_TEST 1 }
# Figure out an statement to get a checksum for table $tbl.
db eval "SELECT * FROM $tbl" V break
set cksumsql "SELECT md5sum([join [concat rowid $V(*)] ,]) FROM $tbl"
# Calculate the initial table checksum.
set cksum1 [db one $cksumsql]
if {$::DO_MALLOC_TEST } {
set answers [list {1 {out of memory}} {0 {}}]
if {$::DO_MALLOC_TEST==1} {
set modes {100000 persistent}
} else {
set modes {1 transient}
}
} else {
set answers [list {0 {}}]
set modes [list 0 nofail]
}
set str [join $answers " OR "]
foreach {nRepeat zName} $modes {
for {set iFail 1} 1 {incr iFail} {
if {$::DO_MALLOC_TEST} {sqlite3_memdebug_fail $iFail -repeat $nRepeat}
set res [uplevel [list catchsql $sql]]
set nFail [sqlite3_memdebug_fail -1 -benigncnt nBenign]
if {$nFail==0} {
do_test $name.$zName.$iFail [list set {} $res] {0 {}}
return
} else {
if {[lsearch $answers $res]>=0} {
set res $str
}
do_test $name.$zName.$iFail [list set {} $res] $str
set cksum2 [db one $cksumsql]
if {$cksum1 != $cksum2} return
}
}
}
}