# See the file LICENSE for redistribution information. # # Copyright (c) 2002-2009 Oracle. All rights reserved. # # $Id$ # # TEST rep063 # TEST Replication election test with simulated different versions # TEST for each site. This tests that old sites with real priority # TEST trump ELECTABLE sites with zero priority even with greater LSNs. # TEST There is a special case in the code for testing that if the # TEST priority is <= 10, we simulate mixed versions for elections. # TEST # TEST Run a rep_test in a replicated master environment and close; # TEST hold an election among a group of clients to make sure they select # TEST the master with varying LSNs and priorities. # proc rep063 { method args } { source ./include.tcl global databases_in_memory global repfiles_in_memory if { $is_windows9x_test == 1 } { puts "Skipping replication test on Win 9x platform." return } set tnum "063" # Skip for all methods except btree. if { $checking_valid_methods } { set test_methods { btree } return $test_methods } if { [is_btree $method] == 0 } { puts "Rep$tnum: Skipping for method $method." return } set nclients 5 set logsets [create_logsets [expr $nclients + 1]] # Set up for on-disk or in-memory databases. set msg "using on-disk databases" if { $databases_in_memory } { set msg "using named in-memory databases" if { [is_queueext $method] } { puts -nonewline "Skipping rep$tnum for method " puts "$method with named in-memory databases." return } } set msg2 "and on-disk replication files" if { $repfiles_in_memory } { set msg2 "and in-memory replication files" } # Run the body of the test with and without recovery. set recopts { "" "-recover" } foreach r $recopts { foreach l $logsets { set logindex [lsearch -exact $l "in-memory"] if { $r == "-recover" && $logindex != -1 } { puts "Rep$tnum: Skipping\ for in-memory logs with -recover." continue } puts "Rep$tnum ($method $r): Replication\ elections with varying versions $msg $msg2." puts "Rep$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]]" } rep063_sub $method $nclients $tnum $l $r $args } } } proc rep063_sub { method nclients tnum logset recargs largs } { source ./include.tcl global electable_pri global databases_in_memory global repfiles_in_memory 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 " } set niter 80 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. set envlist {} repladd 1 set env_cmd(M) "berkdb_env_noerr -create -log_max 1000000 \ -event rep_event $repmemargs \ -home $masterdir $m_txnargs $m_logargs -rep_master $verbargs \ -errpfx MASTER -rep_transport \[list 1 replsend\]" set masterenv [eval $env_cmd(M) $recargs] error_check_good master_env [is_valid_env $masterenv] TRUE lappend envlist "$masterenv 1" # 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 \ $c_txnargs($i) $c_logargs($i) -rep_client \ -rep_transport \[list $envid replsend\]" set clientenv($i) [eval $env_cmd($i) $recargs] error_check_good \ client_env($i) [is_valid_env $clientenv($i)] TRUE lappend envlist "$clientenv($i) $envid" } # Bring the clients online by processing the startup messages. process_msgs $envlist # Run a modified test001 in the master. puts "\tRep$tnum.a: Running rep_test in replicated env." eval rep_test $method $masterenv NULL $niter 0 0 0 $largs process_msgs $envlist # # We remove some client envs and run rep_test so that we can # force some client LSNs to be further ahead/behind than others. # When we're done, the LSNs look like this: # # Client0: ...................... # Client1: ........... # Client2: ........... # Client3: ...................... # Client4: ................................. # # Remove client 1 and 2 from list to process, this guarantees # clients 0, 3 and 4 are ahead in LSN. We use each of these # in different parts of the test so guarantee bigger LSNs. # set orig_env $envlist set envlist [lreplace $envlist 3 3] set envlist [lreplace $envlist 2 2] eval rep_test $method $masterenv NULL $niter 0 0 0 $largs process_msgs $envlist # # Remove client 3 so that client 4 has the biggest LSN of all. # set eend [llength $envlist] set cl3_i [expr $eend - 2] set envlist [lreplace $envlist $cl3_i $cl3_i] eval rep_test $method $masterenv NULL $niter 0 0 0 $largs process_msgs $envlist # # Put all removed clients back in. # set envlist $orig_env error_check_good masterenv_close [$masterenv close] 0 set envlist [lreplace $envlist 0 0] for { set i 0 } { $i < $nclients } { incr i } { replclear [expr $i + 2] # # This test doesn't use the testing hooks, so # initialize err_cmd and crash appropriately. # set err_cmd($i) "none" set crash($i) 0 # # Initialize the array pri. We'll set it to # appropriate values when the winner is determined. # set pri($i) 0 # if { $rep_verbose == 1 } { error_check_good pfx [$clientenv($i) errpfx CLIENT$i] 0 $clientenv($i) verbose $verbose_type on set env_cmd($i) [concat $env_cmd($i) \ "-errpfx CLIENT$i $verbargs "] } } # # Remove clients 3 and 4 from the envlist. We'll save those for # later. # set cl4 [lindex $envlist 4] set envlist [lreplace $envlist 4 4] set cl3 [lindex $envlist 3] set envlist [lreplace $envlist 3 3] set m "Rep$tnum.b" # # Client 0 has the biggest LSN of clients 0, 1, 2. # However, 'setpriority' will set the priority of client 1 # to simulate client 1 being an "older version" client. # Client 1 should win even though its LSN is smaller. # This tests one "older" client and the rest "newer". # puts "\t$m: Test old client trumps new clients with bigger LSN." set orig_ncl $nclients set nclients 3 set nsites $nclients set nvotes $nclients set winner 1 set elector 2 setpriority pri $nclients $winner 0 1 # Set up databases as in-memory or on-disk and run the election. if { $databases_in_memory } { set dbname { "" "test.db" } } else { set dbname "test.db" } run_election env_cmd envlist err_cmd pri crash\ $qdir $m $elector $nsites $nvotes $nclients $winner 0 $dbname # # In all of the checks of the Election Priority stat field, # we use clientenv(2). The reason is that we never expect # client 2 to be the winner. The env handles of client 0 and 1 # are getting closed and reopened as a master/client in # the election and the old recorded handles are invalid. # This one is known to be valid throughout the entire test. # error_check_bad old_pri [stat_field $clientenv(2) rep_stat \ "Election priority"] 0 # # When we finish the election, all clients are at the same LSN. # Call this proc to make the winner have a larger LSN than the # other 2 remaining clients, and reopen the winner as a client. # rep063_movelsn_reopen $method envlist $env_cmd($winner) $winner $largs set m "Rep$tnum.c" puts "\t$m: Test old client with zero priority new client." # # Client 1 now has a bigger LSN, so make client 0 the old client # and client 1 a real 0 priority new client. # set winner 0 setpriority pri $nclients $winner 0 1 set pri(1) 0 run_election env_cmd envlist err_cmd pri crash $qdir \ $m $elector $nsites $nvotes $nclients $winner 0 $dbname error_check_bad old_pri [stat_field $clientenv(2) rep_stat \ "Election priority"] 0 rep063_movelsn_reopen $method envlist $env_cmd($winner) $winner $largs set m "Rep$tnum.d" puts "\t$m: Test multiple old clients with new client." # # Client 0 is now has a bigger LSN, so make client 1 winner. # We are setting client 2's priority to something bigger so that # we simulate having 2 "older version" clients (clients 1 and 2) # and one new client (client 0). This tests that the right client # among the older versions gets correctly elected even though there # is a bigger LSN "new" client participating. # set winner 1 setpriority pri $nclients $winner 0 1 set pri(2) [expr $pri(1) / 2] run_election env_cmd envlist err_cmd pri crash $qdir \ $m $elector $nsites $nvotes $nclients $winner 0 $dbname error_check_bad old_pri [stat_field $clientenv(2) rep_stat \ "Election priority"] 0 rep063_movelsn_reopen $method envlist $env_cmd($winner) $winner $largs set m "Rep$tnum.e" puts "\t$m: Test new clients, client 1 not electable." # # Client 1 now has a bigger LSN, so make it unelectable. Add in # old client 3 since that should be the biggest LSN of all these. # Set all other priorities to electable_pri to make them all equal (and # all "new" clients). We know client 3 should win because we # set its LSN much farther ahead in the beginning. # set winner 3 replclear [expr $winner + 2] set nclients 4 set nsites $nclients set nvotes $nclients set pri(0) $electable_pri set pri(1) 0 set pri(2) $electable_pri set pri(3) $electable_pri replclear [lindex $cl3 1] lappend envlist $cl3 # # Winner should be zero priority. # run_election env_cmd envlist err_cmd pri crash $qdir \ $m $elector $nsites $nvotes $nclients $winner 0 $dbname error_check_good elect_pri [stat_field $clientenv(2) rep_stat \ "Election priority"] 0 rep063_movelsn_reopen $method envlist $env_cmd($winner) $winner $largs # # Now add in Client 4, the site with the biggest LSN of all. # Test with all being electable clients. # set m "Rep$tnum.f" puts "\t$m: Test all new electable clients." set winner 4 set nclients 5 set nsites $nclients set nvotes $nclients set pri(0) $electable_pri set pri(1) $electable_pri set pri(2) $electable_pri set pri(3) $electable_pri set pri(4) $electable_pri replclear [expr $winner + 2] lappend envlist $cl4 # # Client 4 has biggest LSN and should now win, but winner should # be zero priority. # run_election env_cmd envlist err_cmd pri crash $qdir \ $m $elector $nsites $nvotes $nclients $winner 0 $dbname error_check_good elect_pri [stat_field $clientenv(2) rep_stat \ "Election priority"] 0 foreach pair $envlist { set cenv [lindex $pair 0] error_check_good cenv_close [$cenv close] 0 } replclose $testdir/MSGQUEUEDIR } # # Move the LSN ahead on the newly elected master, while not sending # those messages to the other clients. Then close the env and # reopen it as a client. Use upvar so that the envlist is # modified when we return and can get messages. # proc rep063_movelsn_reopen { method envlist env_cmd eindex largs } { upvar $envlist elist set clrlist { } set i 0 foreach e $elist { # # If we find the master env entry, get its env handle. # If not, then get the id so that we can replclear it later. # if { $i == $eindex } { set masterenv [lindex $e 0] } else { lappend clrlist [lindex $e 1] } incr i } # # Move this env's LSN ahead. # set niter 10 eval rep_test $method $masterenv NULL $niter 0 0 0 $largs foreach cl $clrlist { replclear $cl } # # Now close this env and reopen it as a client. # error_check_good newmaster_close [$masterenv close] 0 set newclenv [eval $env_cmd] error_check_good cl [is_valid_env $newclenv] TRUE set newenv "$newclenv [expr $eindex + 2]" set elist [lreplace $elist $eindex $eindex $newenv] process_msgs $elist }