gecko-dev/db/test/mutex.tcl

217 строки
5.6 KiB
Tcl

# See the file LICENSE for redistribution information.
#
# Copyright (c) 1996, 1997, 1998
# Sleepycat Software. All rights reserved.
#
# @(#)mutex.tcl 10.5 (Sleepycat) 4/20/98
#
# Exercise mutex functionality.
# Options are:
# -dir <directory in which to store mpool>
# -iter <iterations>
# -mdegree <number of mutexes per iteration>
# -nmutex <number of mutexes>
# -procs <number of processes to run>
# -seeds <list of seed values for processes>
# -wait <wait interval after getting locks>
proc mutex_usage {} {
puts stderr "mutex\n\t-dir <dir>\n\t-iter <iterations>"
puts stderr "\t-mdegree <locks per iteration>\n\t-nmutex <n>"
puts stderr "\t-procs <nprocs>"
puts stderr "\t-seeds <list of seeds>\n\t-wait <max wait interval>"
return
}
proc mutex { args } {
source ./include.tcl
set dir db
set iter 500
set mdegree 3
set nmutex 20
set procs 5
set seeds {}
set wait 2
for { set i 0 } { $i < [llength $args] } {incr i} {
switch -regexp -- [lindex $args $i] {
-d.* { incr i; set testdir [lindex $args $i] }
-i.* { incr i; set iter [lindex $args $i] }
-m.* { incr i; set mdegree [lindex $args $i] }
-n.* { incr i; set nmutex [lindex $args $i] }
-p.* { incr i; set procs [lindex $args $i] }
-s.* { incr i; set seeds [lindex $args $i] }
-w.* { incr i; set wait [lindex $args $i] }
default {
mutex_usage
return
}
}
}
if { [file exists $testdir/$dir] != 1 } {
exec $MKDIR $testdir/$dir
} elseif { [file isdirectory $testdir/$dir ] != 1 } {
error "$testdir/$dir is not a directory"
}
# Basic sanity tests
mutex001 $dir $nmutex
# Basic synchronization tests
mutex002 $dir $nmutex
# Multiprocess tests
mutex003 $dir $iter $nmutex $procs $mdegree $wait $seeds
}
proc mutex001 { dir nlocks } {
source ./include.tcl
puts "Mutex001: Basic functionality"
mutex_cleanup $testdir/$dir
# Test open w/out create; should fail
set m [ mutex_init $dir $nlocks 0 0 ]
error_check_good mutex_init $m NULL
# Now open for real
set m [ mutex_init $dir $nlocks $DB_CREATE 0644 ]
error_check_bad mutex_init $m NULL
error_check_good mutex_init [is_substr $m mutex] 1
# Get, set each mutex; sleep, then get Release
for { set i 0 } { $i < $nlocks } { incr i } {
set r [ $m get $i ]
error_check_good mutex_get $r 0
set r [$m setval $i $i]
error_check_good mutex_setval $r 0
}
exec $SLEEP 5
for { set i 0 } { $i < $nlocks } { incr i } {
set r [$m getval $i $i]
error_check_good mutex_getval $r $i
set r [ $m release $i ]
error_check_good mutex_get $r 0
}
error_check_good mutex_close [$m close] 0
puts "Mutex001: completed successfully."
}
# Test basic synchronization
proc mutex002 { dir nlocks } {
source ./include.tcl
puts "Mutex002: Basic synchronization"
mutex_cleanup $testdir/$dir
# Now open the region we'll use for multiprocess testing.
set mr [mutex_init $dir $nlocks $DB_CREATE 0644]
error_check_bad mutex_init $mr NULL
error_check_good mutex_init [is_substr $mr mutex] 1
set f1 [open |./dbtest r+]
puts $f1 "set m \[mutex_init $dir $nlocks 0 0 \]"
puts $f1 "puts \$m"
puts $f1 "flush stdout"
flush $f1
set r [gets $f1 result]
error_check_bad remote:mutex_init $r -1
error_check_bad remote:mutex_init $result NULL
# Do a get here, then set the value to be pid.
# On the remote side fire off a get and getval.
set r [$mr get 1]
error_check_good lock_get $r 0
set r [$mr setval 1 [pid]]
error_check_good lock_get $r 0
# Now have the remote side request the lock and check its
# value. Then wait 5 seconds, release the mutex and see
# what the remote side returned.
puts $f1 "set start \[timestamp -r\]"
puts $f1 "set r \[\$m get 1]"
puts $f1 "puts \[expr \[timestamp -r\] - \$start\]"
puts $f1 "set r \[\$m getval 1\]"
puts $f1 "puts \$r"
puts $f1 "flush stdout"
flush $f1
# Now sleep before resetting and releasing lock
exec $SLEEP 5
set newv [expr [pid] - 1]
set r [$mr setval 1 $newv]
error_check_good mutex_setval $r 0
set r [$mr release 1]
error_check_good mutex_release $r 0
# Now get the result from the other script
set r [gets $f1 result]
error_check_bad remote:gets $r -1
error_check_good lock_get:remote_time [expr $result > 4] 1
set r [gets $f1 result]
error_check_bad remote:gets $r -1
error_check_good lock_get:remote_getval $result $newv
# Close down the remote
puts $f1 "\$m close"
flush $f1
catch { close $f1 } result
set r [$mr close]
error_check_good mutex_close $r 0
puts "Mutex002: completed successfully."
}
# Generate a bunch of parallel
# testers that try to randomly obtain locks.
proc mutex003 { dir iter nmutex procs mdegree wait seeds } {
source ./include.tcl
puts "Mutex003: Multi-process random mutex test ($procs processes)"
mutex_cleanup $testdir/$dir
# Now open the region we'll use for multiprocess testing.
set mr [mutex_init $dir $nmutex $DB_CREATE 0644]
error_check_bad mutex_init $mr NULL
error_check_good mutex_init [is_substr $mr mutex] 1
set r [$mr close]
error_check_good mutex_close $r 0
# Now spawn off processes
set proclist {}
for { set i 0 } {$i < $procs} {incr i} {
set s -1
if { [llength $seeds] == $procs } {
set s [lindex $seeds $i]
}
puts "exec ./dbtest ../test/mutexscript.tcl $testdir/$dir \
$iter $nmutex $wait $mdegree $s > $testdir/$i.mutexout &"
set p [exec ./dbtest ../test/mutexscript.tcl $testdir/$dir \
$iter $nmutex $wait $mdegree $s > $testdir/$i.mutexout &]
lappend proclist $p
}
puts "Mutex003: $procs independent processes now running"
watch_procs $proclist
# Remove output files
for { set i 0 } {$i < $procs} {incr i} {
exec $RM -f $testdir/$i.mutexout
}
}
proc mutex_cleanup { dir } {
source ./include.tcl
exec $RM -rf $dir/__mutex.share
}