# See the file LICENSE for redistribution information. # # Copyright (c) 2004, 2012 Oracle and/or its affiliates. All rights reserved. # # $Id$ # # TEST rep054 # TEST Test of internal initialization where a far-behind # TEST client takes over as master. # TEST # TEST One master, two clients. # TEST Run rep_test and process. # TEST Close client 1. # TEST Run rep_test, opening new databases, and processing # TEST messages. Archive as we go so that log files get removed. # TEST Close master and reopen client 1 as master. Process messages. # TEST Verify that new master and client are in sync. # TEST Run rep_test again, adding data to one of the new # TEST named databases. proc rep054 { method { nentries 200 } { tnum "054" } args } { source ./include.tcl global databases_in_memory global repfiles_in_memory # Valid for all access methods. if { $checking_valid_methods } { return "ALL" } # Skip this test for named in-memory databases; it tries # to close and re-open envs, which just won't work. if { $databases_in_memory } { puts "Skipping Rep$tnum for in-memory databases." return } # This test needs to set its own pagesize. set pgindex [lsearch -exact $args "-pagesize"] if { $pgindex != -1 } { puts "Rep$tnum: skipping for specific pagesizes" return } set args [convert_args $method $args] set logsets [create_logsets 3] 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, # and with and without cleaning. Skip recovery with in-memory # logging - it doesn't make sense. foreach r $test_recopts { foreach l $logsets { set logindex [lsearch -exact $l "in-memory"] if { $r == "-recover" && $logindex != -1 } { puts "Skipping rep$tnum for -recover\ with in-memory logs." continue } puts "Rep$tnum ($method $r $args): Internal\ initialization test: far-behind client\ becomes master $msg2." puts "Rep$tnum: Master logs are [lindex $l 0]" puts "Rep$tnum: Client logs are [lindex $l 1]" puts "Rep$tnum: Client2 logs are [lindex $l 2]" rep054_sub $method $nentries $tnum $l $r $args } } } proc rep054_sub { method nentries tnum logset recargs largs } { global testdir global util_path global errorInfo 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 masterdir $testdir/MASTERDIR set clientdir $testdir/CLIENTDIR set clientdir2 $testdir/CLIENTDIR2 file mkdir $masterdir file mkdir $clientdir file mkdir $clientdir2 # Log size is small so we quickly create more than one. # The documentation says that the log file must be at least # four times the size of the in-memory log buffer. set pagesize 4096 append largs " -pagesize $pagesize " set log_max [expr $pagesize * 8] set m_logtype [lindex $logset 0] set c_logtype [lindex $logset 1] set c2_logtype [lindex $logset 2] # In-memory logs cannot be used with -txn nosync. set m_logargs [adjust_logargs $m_logtype 1048576] set c_logargs [adjust_logargs $c_logtype 1048576] set c2_logargs [adjust_logargs $c2_logtype 1048576] set m_txnargs [adjust_txnargs $m_logtype] set c_txnargs [adjust_txnargs $c_logtype] set c2_txnargs [adjust_txnargs $c2_logtype] # Open a master. repladd 1 set ma_envcmd "berkdb_env_noerr -create $m_txnargs \ $m_logargs -log_max $log_max $verbargs $repmemargs \ -home $masterdir -rep_transport \[list 1 replsend\]" set masterenv [eval $ma_envcmd $recargs -rep_master] error_check_good master_env [is_valid_env $masterenv] TRUE # Open a client repladd 2 set cl_envcmd "berkdb_env_noerr -create $c_txnargs \ $c_logargs -log_max $log_max $verbargs $repmemargs \ -home $clientdir -rep_transport \[list 2 replsend\]" set clientenv [eval $cl_envcmd $recargs -rep_client] error_check_good client_env [is_valid_env $clientenv] TRUE # Open 2nd client repladd 3 set cl2_envcmd "berkdb_env_noerr -create $c2_txnargs \ $c2_logargs -log_max $log_max $verbargs $repmemargs \ -home $clientdir2 -rep_transport \[list 3 replsend\]" set clientenv2 [eval $cl2_envcmd $recargs -rep_client] error_check_good client2_env [is_valid_env $clientenv2] TRUE # Bring the clients online by processing the startup messages. set envlist "{$masterenv 1} {$clientenv 2} {$clientenv2 3}" process_msgs $envlist # Clobber replication's 30-second anti-archive timer, which will have # been started by client sync-up internal init, so that we can do a # log_archive in a moment. # $masterenv test force noarchive_timeout # Run rep_test in the master and in each client. puts "\tRep$tnum.a: Running rep_test in master & clients." set start 0 eval rep_test $method $masterenv NULL $nentries $start $start 0 $largs incr start $nentries process_msgs $envlist # Master is in sync with both clients. rep_verify $masterdir $masterenv $clientdir $clientenv # Process messages again in case we are running with debug_rop. process_msgs $envlist rep_verify $masterdir $masterenv $clientdir2 $clientenv2 # Create a gap requiring internal initialization. This is the # standard gap between the master and the first client -- we will # make a much larger gap after we've created a new database that # the first client doesn't know about. # set flags "" set cid 2 set dbhandle NULL set start [push_master_ahead $method $masterenv $masterdir $m_logtype \ $clientenv $cid $dbhandle $start $nentries $flags $largs] # Create a database that does not even exist on closed client 1. set newfile "newtest.db" set newdb [eval {berkdb_open_noerr -env $masterenv -create \ -auto_commit -mode 0644} $largs $omethod $newfile] error_check_good newdb_open [is_valid_db $newdb] TRUE eval rep_test $method $masterenv $newdb $nentries $start $start 0 $largs set start [expr $start + $nentries] set envlist "{$masterenv 1} {$clientenv2 3}" process_msgs $envlist # Identify last master log file. set last_master_log [get_logfile $masterenv last] set stop 0 # Send the master and client2 far ahead of client 1. Archive # so there will be a gap between the log files of the closed # client and the active master and client and we've # archived away the creation of the new database. puts "\tRep$tnum.e: Running rep_test in master & remaining client." while { $stop == 0 } { eval rep_test \ $method $masterenv NULL $nentries $start $start 0 $largs incr start $nentries process_msgs $envlist puts "\tRep$tnum.f: Send master ahead of closed client." if { $m_logtype != "in-memory" } { $masterenv log_flush set res [eval exec $util_path/db_archive -d -h $masterdir] } if { $c2_logtype != "in-memory" } { $clientenv2 log_flush set res [eval exec $util_path/db_archive -d -h $clientdir2] } set first_master_log [get_logfile $masterenv first] if { $first_master_log > $last_master_log } { set stop 1 } } process_msgs $envlist # Master is in sync with client 2. rep_verify $masterdir $masterenv $clientdir2 $clientenv2 1 # Close master. puts "\tRep$tnum.g: Close master." error_check_good newdb_close [$newdb close] 0 error_check_good close_master [$masterenv close] 0 # The new database is still there. error_check_good newfile_exists [file exists $masterdir/$newfile] 1 puts "\tRep$tnum.h: Reopen client1 as master." replclear 2 set newmasterenv [eval $cl_envcmd $recargs -rep_master] error_check_good newmasterenv [is_valid_env $newmasterenv] TRUE # Force something into the log $newmasterenv txn_checkpoint -force puts "\tRep$tnum.i: Reopen master as client." set oldmasterenv [eval $ma_envcmd $recargs -rep_client] error_check_good oldmasterenv [is_valid_env $oldmasterenv] TRUE set envlist "{$oldmasterenv 1} {$newmasterenv 2} {$clientenv2 3}" process_msgs $envlist rep_verify $clientdir $newmasterenv $masterdir $oldmasterenv 1 error_check_good newmasterenv_close [$newmasterenv close] 0 error_check_good oldmasterenv_close [$oldmasterenv close] 0 error_check_good clientenv2_close [$clientenv2 close] 0 replclose $testdir/MSGQUEUEDIR }