# See the file LICENSE for redistribution information. # # Copyright (c) 2003-2009 Oracle. All rights reserved. # # $Id$ # # TEST rep010 # TEST Replication and ISPERM # TEST # TEST With consecutive message processing, make sure every # TEST DB_REP_PERMANENT is responded to with an ISPERM when # TEST processed. With gaps in the processing, make sure # TEST every DB_REP_PERMANENT is responded to with an ISPERM # TEST or a NOTPERM. Verify in both cases that the LSN returned # TEST with ISPERM is found in the log. proc rep010 { method { niter 100 } { tnum "010" } 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 } # Run for all access methods. if { $checking_valid_methods } { return "ALL" } set msg "with on-disk databases" if { $databases_in_memory } { set msg "with named in-memory databases" if { [is_queueext $method] == 1 } { puts "Skipping rep$tnum for method $method" return } } set msg2 "and on-disk replication files" if { $repfiles_in_memory } { set msg2 "and in-memory replication files" } set args [convert_args $method $args] set logsets [create_logsets 2] # 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" && $logindex != -1 } { puts "Rep$tnum: Skipping\ for in-memory logs with -recover." continue } puts "Rep$tnum ($method $r): Replication and ISPERM" puts "Rep$tnum: with $msg $msg2." puts "Rep$tnum: Master logs are [lindex $l 0]" puts "Rep$tnum: Client logs are [lindex $l 1]" rep010_sub $method $niter $tnum $l $r $args } } } proc rep010_sub { method niter tnum logset recargs largs } { source ./include.tcl global rand_init berkdb srand $rand_init global perm_sent_list 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 " } env_cleanup $testdir set omethod [convert_method $method] replsetup $testdir/MSGQUEUEDIR set perm_sent_list {{}} set masterdir $testdir/MASTERDIR set clientdir $testdir/CLIENTDIR file mkdir $masterdir file mkdir $clientdir set m_logtype [lindex $logset 0] set c_logtype [lindex $logset 1] # In-memory logs require a large log buffer, and cannot # be used with -txn nosync. set m_logargs [adjust_logargs $m_logtype] set c_logargs [adjust_logargs $c_logtype] set m_txnargs [adjust_txnargs $m_logtype] set c_txnargs [adjust_txnargs $c_logtype] # Open a master. repladd 1 set env_cmd(M) "berkdb_env_noerr -create -log_max 1000000 \ $m_logargs $verbargs -errpfx MASTER $repmemargs \ -home $masterdir $m_txnargs -rep_master \ -rep_transport \[list 1 replsend\]" set masterenv [eval $env_cmd(M) $recargs] # Open a client repladd 2 set env_cmd(C) "berkdb_env_noerr -create -home $clientdir $repmemargs \ $c_txnargs $c_logargs $verbargs -rep_client -errpfx CLIENT \ -rep_transport \[list 2 replsend\]" set clientenv [eval $env_cmd(C) $recargs] # Bring the client online. Since that now involves internal init, we # have to avoid the special rep010_process_msgs here, because otherwise # we would hang trying to open a log cursor. # process_msgs "{$masterenv 1} {$clientenv 2}" # Open database in master, propagate to client. if { $databases_in_memory } { set dbname { "" "test.db" } } else { set dbname test.db } set db1 [eval {berkdb_open_noerr -create} $omethod -auto_commit \ -env $masterenv $largs $dbname] rep010_process_msgs $masterenv $clientenv 1 puts "\tRep$tnum.a: Process messages with no gaps." # Feed operations one at a time to master and immediately # update client. for { set i 1 } { $i <= $niter } { incr i } { set t [$masterenv txn] error_check_good db_put \ [eval $db1 put -txn $t $i [chop_data $method data$i]] 0 error_check_good txn_commit [$t commit] 0 rep010_process_msgs $masterenv $clientenv 1 } # Replace data. for { set i 1 } { $i <= $niter } { incr i } { set t [$masterenv txn] set ret \ [$db1 get -get_both -txn $t $i [pad_data $method data$i]] error_check_good db_put \ [$db1 put -txn $t $i [chop_data $method newdata$i]] 0 error_check_good txn_commit [$t commit] 0 rep010_process_msgs $masterenv $clientenv 1 } # Try some aborts. These do not write permanent messages. for { set i 1 } { $i <= $niter } { incr i } { set t [$masterenv txn] error_check_good db_put [$db1 put -txn $t $i abort$i] 0 error_check_good txn_abort [$t abort] 0 rep010_process_msgs $masterenv $clientenv 0 } puts "\tRep$tnum.b: Process messages with gaps." # To test gaps in message processing, run and commit a whole # bunch of transactions, then process the messages with skips. for { set i 1 } { $i <= $niter } { incr i } { set t [$masterenv txn] error_check_good db_put [$db1 put -txn $t $i data$i] 0 error_check_good txn_commit [$t commit] 0 } set skip [berkdb random_int 2 8] rep010_process_msgs $masterenv $clientenv 1 $skip check_db_location $masterenv check_db_location $clientenv # Clean up. error_check_good db1_close [$db1 close] 0 error_check_good masterenv_close [$masterenv close] 0 error_check_good clientenv_close [$clientenv close] 0 replclose $testdir/MSGQUEUEDIR } proc rep010_process_msgs { masterenv clientenv check {skip_interval 0} } { global perm_response_list global perm_sent_list set perm_response_list {{}} while { 1 } { set nproced 0 incr nproced [replprocessqueue $masterenv 1 $skip_interval] incr nproced [replprocessqueue $clientenv 2 $skip_interval] # In this test, the ISPERM and NOTPERM messages are # sent by the client back to the master. Verify that we # get ISPERM when the client is caught up to the master # (i.e. last client LSN in the log matches the LSN returned # with the ISPERM), and that when we get NOTPERM, the client # is not caught up. # Create a list of the LSNs in the client log. set lsnlist {} set logc [$clientenv log_cursor] error_check_good logc \ [is_valid_logc $logc $clientenv] TRUE for { set logrec [$logc get -first] } \ { [llength $logrec] != 0 } \ { set logrec [$logc get -next] } { lappend lsnlist [lindex [lindex $logrec 0] 1] } set lastloglsn [lindex $lsnlist end] # Parse perm_response_list to find the LSN returned with # ISPERM or NOTPERM. set response [lindex $perm_response_list end] set permtype [lindex $response 0] set messagelsn [lindex [lindex $response 1] 1] if { [llength $response] != 0 } { if { $permtype == "NOTPERM" } { # If we got a NOTPERM, the returned LSN has to # be greater than the last LSN in the log. error_check_good notpermlsn \ [expr $messagelsn > $lastloglsn] 1 } elseif { $permtype == "ISPERM" } { # If we got an ISPERM, the returned LSN has to # be in the log. error_check_bad \ ispermlsn [lsearch $lsnlist $messagelsn] -1 } else { puts "FAIL: unexpected message type $permtype" } } error_check_good logc_close [$logc close] 0 # If we've finished processing all the messages, check # that the last received permanent message LSN matches the # last sent permanent message LSN. if { $nproced == 0 } { if { $check != 0 } { set last_sent [lindex $perm_sent_list end] set last_rec_msg \ [lindex $perm_response_list end] set last_received [lindex $last_rec_msg 1] error_check_good last_message \ $last_sent $last_received } # If we check correctly; empty out the lists set perm_response_list {{}} set perm_sent_list {{}} break } } }