# See the file LICENSE for redistribution information. # # Copyright (c) 2009, 2012 Oracle and/or its affiliates. All rights reserved. # # TEST repmgr109 # TEST Test repmgr's internal juggling of peer EID's. # TEST # TEST Set up master and 2 clients, A and B. # TEST Add a third client (C), with two processes. # TEST The first process will be configured to know about A. # TEST The second process will know about B, and set that as peer, # TEST but when it joins the env site B will have to be shuffled # TEST into a later position in the list, because A is already first. # This whole test is highly dependent upon the internal implementation structure # of repmgr's multi-process support. If that implementation changes, this test # may become irrelevant, irrational, and inconsequential. If that happens, it # makes sense to simply discard this test. proc repmgr109 { } { foreach initial_action {true false} { foreach while_active {true false} { repmgr109_sub $initial_action $while_active } } } proc repmgr109_sub { {a_too false} {while_active true} } { source ./include.tcl if {$a_too} { set part1 "shuffle with peer reassignment" } else { set part1 "shuffle" } if {$while_active} { set part2 "while active" } else { set part2 "while not active" } set tnum "109" puts "Repmgr$tnum: ($part1, then peer change $part2)" env_cleanup $testdir foreach {mport aport bport cport} [available_ports 4] {} file mkdir [set dirm $testdir/M] file mkdir [set dira $testdir/A] file mkdir [set dirb $testdir/B] file mkdir [set dirc $testdir/C] set dbc {{repmgr_set_ack_policy DB_REPMGR_ACKS_ALL}} make_dbconfig $dirm $dbc make_dbconfig $dira $dbc make_dbconfig $dirb $dbc make_dbconfig $dirc $dbc puts "\tRepmgr$tnum.a: Create a master and first two clients." set cmds { "home $dirm" "local $mport" "output $testdir/moutput" "open_env" "start master" } set m [open_site_prog [subst $cmds]] set cmds { "home $dira" "local $aport" "output $testdir/aoutput" "remote 127.0.0.1 $mport" "open_env" "start client" } set a [open_site_prog [subst $cmds]] set cmds { "home $dirb" "local $bport" "output $testdir/boutput" "remote 127.0.0.1 $mport" "open_env" "start client" } set b [open_site_prog [subst $cmds]] set aenv [berkdb_env -home $dira] await_startup_done $aenv set benv [berkdb_env -home $dirb] await_startup_done $benv # Now it gets interesting. puts "\tRepmgr$tnum.b: Create client C, with two processes." if {$a_too} { set peer_flag "-p" } else { set peer_flag "" } set cmds { "home $dirc" "local $cport" "output $testdir/c1output" "remote $peer_flag 127.0.0.1 $aport" "remote 127.0.0.1 $mport" "open_env" } set c1 [open_site_prog [subst $cmds]] set cmds { "home $dirc" "local $cport" "output $testdir/c2output" "remote -p 127.0.0.1 $bport" "remote 127.0.0.1 $aport" "open_env" } set c2 [open_site_prog [subst $cmds]] puts $c1 "start client" gets $c1 set cenv [berkdb_env -home $dirc] await_startup_done $cenv puts "\tRepmgr$tnum.c: Check resulting statistics." # Make sure we used B, not A, as the c2c peer. set requests_at_A [repmgr109_get_request_count $aenv] set requests_at_B [repmgr109_get_request_count $benv] error_check_good no_requests_at_A $requests_at_A 0 error_check_bad some_requests_at_B $requests_at_B 0 # Check that site list order is what we expect. set sl [$cenv repmgr_site_list] error_check_good site_list [lindex $sl 0 2] $aport error_check_good site_list [lindex $sl 1 2] $mport error_check_good site_list [lindex $sl 2 2] $bport # Give client C a reason to send another request: shut it down, and # create some new transactions at the master. # puts $c2 "exit" gets $c2 close $c2 puts $c1 "exit" gets $c1 close $c1 puts $m "open_db test.db" puts $m "put k1 v1" puts $m "put k2 v2" puts $m "echo done" gets $m # Change peer setting at C. # puts "\tRepmgr$tnum.d: Start client C again." if { $while_active } { set cmds { "home $dirc" "output $testdir/c1output2" "open_env" "remote 127.0.0.1 $bport" "remote -p 127.0.0.1 $aport" "start client" } } else { set cmds { "home $dirc" "output $testdir/c1output2" "remote 127.0.0.1 $bport" "remote -p 127.0.0.1 $aport" "open_env" "start client" } } set c [open_site_prog [subst $cmds]] # Wait for restarted client to catch up with master. set menv [berkdb_env -home $dirm] set seq 0 set cond { incr seq puts $m "put newkey$seq newdata$seq" puts $m "echo done" gets $m set log_end [next_expected_lsn $menv] set client_log_end [next_expected_lsn $cenv] expr [string compare $client_log_end $log_end] == 0 } await_condition {[eval $cond]} # Make sure client B has not serviced any more requests, and that # instead now client A has serviced some. error_check_good no_addl_reqs \ [repmgr109_get_request_count $benv] $requests_at_B error_check_bad some_requests_at_A [repmgr109_get_request_count $aenv] 0 $cenv close $benv close $aenv close $menv close close $c close $a close $b close $m } proc repmgr109_get_request_count { env } { stat_field $env rep_stat "Client service requests" }