# See the file LICENSE for redistribution information. # # Copyright (c) 2002-2009 Oracle. All rights reserved. # # $Id$ # # TEST rep002 # TEST Basic replication election test. # TEST # TEST Run a modified version of test001 in a replicated master # TEST environment; hold an election among a group of clients to # TEST make sure they select a proper master from amongst themselves, # TEST in various scenarios. proc rep002 { method { niter 10 } { nclients 3 } { tnum "002" } args } { source ./include.tcl global repfiles_in_memory if { $is_windows9x_test == 1 } { puts "Skipping replication test on Win 9x platform." return } # Skip for record-based methods. if { $checking_valid_methods } { set test_methods {} foreach method $valid_methods { if { [is_record_based $method] != 1 } { lappend test_methods $method } } return $test_methods } if { [is_record_based $method] == 1 } { puts "Rep002: Skipping for method $method." return } set msg2 "and on-disk replication files" if { $repfiles_in_memory } { set msg2 "and in-memory replication files" } set logsets [create_logsets [expr $nclients + 1]] # Run the body of the test with and without recovery. foreach r $test_recopts { foreach l $logsets { set logindex [lsearch -exact $l "in-memory"] if { $r == "-recover" && $logindex != -1 } { puts "Skipping test with -recover for in-memory logs." } puts "Rep$tnum ($method $r): Replication election\ test with $nclients clients $msg2." puts "Rep$tnum: Master logs are [lindex $l 0]" for { set i 0 } { $i < $nclients } { incr i } { puts "Rep$tnum: Client $i logs are\ [lindex $l [expr $i + 1]]" } rep002_sub $method $niter $nclients $tnum $l $r $args } } } proc rep002_sub { method niter nclients tnum logset recargs largs } { source ./include.tcl global repfiles_in_memory global elect_timeout elect_serial set elect_timeout(default) 5000000 global rep_verbose global verbose_type set verbargs "" if { $rep_verbose == 1 } { set verbargs " -verbose {$verbose_type on} " } set repmemargs "" if { $repfiles_in_memory } { set repmemargs "-rep_inmem_files " } env_cleanup $testdir set qdir $testdir/MSGQUEUEDIR replsetup $qdir set masterdir $testdir/MASTERDIR file mkdir $masterdir set m_logtype [lindex $logset 0] set m_logargs [adjust_logargs $m_logtype] set m_txnargs [adjust_txnargs $m_logtype] for { set i 0 } { $i < $nclients } { incr i } { set clientdir($i) $testdir/CLIENTDIR.$i file mkdir $clientdir($i) set c_logtype($i) [lindex $logset [expr $i + 1]] set c_logargs($i) [adjust_logargs $c_logtype($i)] set c_txnargs($i) [adjust_txnargs $c_logtype($i)] } # Open a master. repladd 1 set env_cmd(M) "berkdb_env_noerr -create -log_max 1000000 \ -event rep_event $repmemargs \ -home $masterdir $m_logargs -errpfx MASTER $verbargs \ $m_txnargs -rep_master -rep_transport \[list 1 replsend\]" # In an election test, the -recovery arg must not go # in the env_cmd string because that is going to be # passed to a child process. set masterenv [eval $env_cmd(M) $recargs] # Open the clients. for { set i 0 } { $i < $nclients } { incr i } { set envid [expr $i + 2] repladd $envid set env_cmd($i) "berkdb_env_noerr -create -home $clientdir($i) \ -event rep_event $repmemargs \ $c_logargs($i) $c_txnargs($i) -rep_client -errpfx CLIENT$i \ $verbargs -rep_transport \[list $envid replsend\]" set clientenv($i) [eval $env_cmd($i) $recargs] } # Loop, processing first the master's messages, then the client's, # until both queues are empty. set envlist {} lappend envlist "$masterenv 1" for { set i 0 } { $i < $nclients } { incr i } { lappend envlist "$clientenv($i) [expr $i + 2]" } process_msgs $envlist # Run a modified test001 in the master. puts "\tRep$tnum.a: Running test001 in replicated env." eval test001 $method $niter 0 0 $tnum -env $masterenv $largs process_msgs $envlist # Verify the database in the client dir. for { set i 0 } { $i < $nclients } { incr i } { puts "\tRep$tnum.b: Verifying contents of client database $i." set testdir [get_home $masterenv] set t1 $testdir/t1 set t2 $testdir/t2 set t3 $testdir/t3 open_and_dump_file test$tnum.db $clientenv($i) $testdir/t1 \ test001.check dump_file_direction "-first" "-next" if { [string compare [convert_method $method] -recno] != 0 } { filesort $t1 $t3 } error_check_good diff_files($t2,$t3) [filecmp $t2 $t3] 0 verify_dir $clientdir($i) "\tRep$tnum.c: " 0 0 1 } # Start an election in the first client. puts "\tRep$tnum.d: Starting election with existing master." # We want to verify that the master declares the election # over by fiat, even if everyone uses a lower priority than 20. # Loop and process all messages, keeping track of which # sites got a HOLDELECTION and checking that the master i.d. is # unchanged after the election. set origrole [stat_field $masterenv rep_stat "Role"] error_check_good originally_master $origrole "master" set origgeneration [stat_field $masterenv rep_stat "Generation number"] set got_hold_elect(M) 0 for { set i 0 } { $i < $nclients } { incr i } { set got_hold_elect($i) 0 set elect_pipe($i) INVALID } set elect_pipe(0) [start_election C0 $qdir $env_cmd(0) \ [expr $nclients + 1] $nclients 20 $elect_timeout(default)] tclsleep 2 set got_master 0 while { 1 } { set nproced 0 set he 0 incr nproced [replprocessqueue $masterenv 1 0 he] if { $he == 1 } { incr elect_serial set elect_pipe(M) [start_election CM $qdir \ $env_cmd(M) [expr $nclients + 1] $nclients \ 0 $elect_timeout(default)] set got_hold_elect(M) 1 } for { set i 0 } { $i < $nclients } { incr i } { set he 0 set envid [expr $i + 2] incr nproced \ [replprocessqueue $clientenv($i) $envid 0 he] if { $he == 1 } { # error_check_bad client(0)_in_elect $i 0 if { $elect_pipe($i) != "INVALID" } { close_election $elect_pipe($i) } incr elect_serial set pfx CHILD$i.$elect_serial set elect_pipe($i) [start_election $pfx $qdir \ $env_cmd($i) [expr $nclients + 1] \ $nclients 0 \ $elect_timeout(default)] set got_hold_elect($i) 1 } } if { $nproced == 0 } { break } } set role [stat_field $masterenv rep_stat "Role"] set generation [stat_field $masterenv rep_stat "Generation number"] error_check_good master_unchanged $origrole $role error_check_good gen_unchanged $origgeneration $generation cleanup_elections # We need multiple clients to proceed from here. if { $nclients < 2 } { puts "\tRep$tnum: Skipping for less than two clients." error_check_good masterenv_close [$masterenv close] 0 for { set i 0 } { $i < $nclients } { incr i } { error_check_good clientenv_close($i) \ [$clientenv($i) close] 0 } return } # Make sure all the clients are synced up and ready to be good # voting citizens. error_check_good master_flush [$masterenv rep_flush] 0 process_msgs $envlist # Now hold another election in the first client, this time with # a dead master. puts "\tRep$tnum.e: Starting election with dead master." error_check_good masterenv_close [$masterenv close] 0 set envlist [lreplace $envlist 0 0] set m "Rep$tnum.e" # We're not going to be using err_cmd, so initialize to "none". # Client #1 has priority 100; everyone else has priority 10. for { set i 0 } { $i < $nclients } { incr i } { set err_cmd($i) "none" set crash($i) 0 if { $i == 1 } { set pri($i) 100 } else { set pri($i) 10 } } set nsites $nclients set nvotes $nclients # The elector calls the first election. The expected winner # is $win. set elector 1 set win 1 run_election env_cmd envlist err_cmd pri crash $qdir $m \ $elector $nsites $nvotes $nclients $win 1 "test$tnum.db" # Hold an election with two clients at the same (winning) priority. # Make sure that the tie gets broken, and that the third client # does not win. puts "\tRep$tnum.f: Election with two clients at same priority." set m "Rep$tnum.f" # Clients 0 and 1 have high, matching priority. for { set i 0 } { $i < $nclients } { incr i } { if { $i >= 2 } { set pri($i) 10 } else { set pri($i) 100 } } # Run several elections. set elections 5 for { set i 0 } { $i < $elections } { incr i } { # # The expected winner is 0 or 1. Since run_election can only # handle one expected winner, catch the result and inspect it. # set elector 0 set win 1 set altwin 0 if {[catch {eval run_election \ env_cmd envlist err_cmd pri crash $qdir $m $elector $nsites \ $nvotes $nclients $win 1 "test$tnum.db"} res]} { # # If the primary winner didn't win, make sure # the alternative winner won. Do all the cleanup # for that winner normally done in run_election: # open and close the new master, then reopen as a # client for the next cycle. # error_check_good check_winner [is_substr \ $res "expected 3, got [expr $altwin + 2]"] 1 puts "\t$m: Election $i: Alternate winner $altwin won." error_check_good make_master \ [$clientenv($altwin) rep_start -master] 0 cleanup_elections process_msgs $envlist error_check_good newmaster_close \ [$clientenv($altwin) close] 0 set clientenv($altwin) [eval $env_cmd($altwin)] error_check_good cl($altwin) \ [is_valid_env $clientenv($altwin)] TRUE set newelector "$clientenv($altwin) [expr $altwin + 2]" set envlist [lreplace $envlist $altwin $altwin $newelector] } else { puts "\t$m: Election $i: Primary winner $win won." } process_msgs $envlist } foreach pair $envlist { set cenv [lindex $pair 0] error_check_good cenv_close [$cenv close] 0 } replclose $testdir/MSGQUEUEDIR }