proc start_bg_complex_data {host port db ops} { set tclsh [info nameofexecutable] exec $tclsh tests/helpers/bg_complex_data.tcl $host $port $db $ops & } proc stop_bg_complex_data {handle} { catch {exec /bin/kill -9 $handle} } # Creates a master-slave pair and breaks the link continuously to force # partial resyncs attempts, all this while flooding the master with # write queries. # # You can specifiy backlog size, ttl, delay before reconnection, test duration # in seconds, and an additional condition to verify at the end. # # If reconnect is > 0, the test actually try to break the connection and # reconnect with the master, otherwise just the initial synchronization is # checked for consistency. proc test_psync {descr duration backlog_size backlog_ttl delay cond diskless reconnect} { start_server {tags {"repl"}} { start_server {} { set master [srv -1 client] set master_host [srv -1 host] set master_port [srv -1 port] set slave [srv 0 client] $master config set repl-backlog-size $backlog_size $master config set repl-backlog-ttl $backlog_ttl $master config set repl-diskless-sync $diskless $master config set repl-diskless-sync-delay 1 set load_handle0 [start_bg_complex_data $master_host $master_port 9 100000] set load_handle1 [start_bg_complex_data $master_host $master_port 11 100000] set load_handle2 [start_bg_complex_data $master_host $master_port 12 100000] test {Slave should be able to synchronize with the master} { $slave slaveof $master_host $master_port wait_for_condition 50 100 { [lindex [r role] 0] eq {slave} && [lindex [r role] 3] eq {connected} } else { fail "Replication not started." } } # Check that the background clients are actually writing. test {Detect write load to master} { wait_for_condition 50 100 { [$master dbsize] > 100 } else { fail "Can't detect write load from background clients." } } test "Test replication partial resync: $descr (diskless: $diskless, reconnect: $reconnect)" { # Now while the clients are writing data, break the maste-slave # link multiple times. if ($reconnect) { for {set j 0} {$j < $duration*10} {incr j} { after 100 # catch {puts "MASTER [$master dbsize] keys, SLAVE [$slave dbsize] keys"} if {($j % 20) == 0} { catch { if {$delay} { $slave multi $slave client kill $master_host:$master_port $slave debug sleep $delay $slave exec } else { $slave client kill $master_host:$master_port } } } } } stop_bg_complex_data $load_handle0 stop_bg_complex_data $load_handle1 stop_bg_complex_data $load_handle2 set retry 10 while {$retry && ([$master debug digest] ne [$slave debug digest])}\ { after 1000 incr retry -1 } assert {[$master dbsize] > 0} if {[$master debug digest] ne [$slave debug digest]} { set csv1 [csvdump r] set csv2 [csvdump {r -1}] set fd [open /tmp/repldump1.txt w] puts -nonewline $fd $csv1 close $fd set fd [open /tmp/repldump2.txt w] puts -nonewline $fd $csv2 close $fd puts "Master - Slave inconsistency" puts "Run diff -u against /tmp/repldump*.txt for more info" } assert_equal [r debug digest] [r -1 debug digest] eval $cond } } } } foreach diskless {no yes} { test_psync {no reconnection, just sync} 6 1000000 3600 0 { } $diskless 0 test_psync {ok psync} 6 1000000 3600 0 { assert {[s -1 sync_partial_ok] > 0} } $diskless 1 test_psync {no backlog} 6 100 3600 0.5 { assert {[s -1 sync_partial_err] > 0} } $diskless 1 test_psync {ok after delay} 3 100000000 3600 3 { assert {[s -1 sync_partial_ok] > 0} } $diskless 1 test_psync {backlog expired} 3 100000000 1 3 { assert {[s -1 sync_partial_err] > 0} } $diskless 1 }