start_server {tags {"aofrw external:skip"}} { # Enable the AOF r config set appendonly yes r config set auto-aof-rewrite-percentage 0 ; # Disable auto-rewrite. waitForBgrewriteaof r foreach rdbpre {yes no} { r config set aof-use-rdb-preamble $rdbpre test "AOF rewrite during write load: RDB preamble=$rdbpre" { # Start a write load for 10 seconds set master [srv 0 client] set master_host [srv 0 host] set master_port [srv 0 port] set load_handle0 [start_write_load $master_host $master_port 10] set load_handle1 [start_write_load $master_host $master_port 10] set load_handle2 [start_write_load $master_host $master_port 10] set load_handle3 [start_write_load $master_host $master_port 10] set load_handle4 [start_write_load $master_host $master_port 10] # Make sure the instance is really receiving data wait_for_condition 50 100 { [r dbsize] > 0 } else { fail "No write load detected." } # After 3 seconds, start a rewrite, while the write load is still # active. after 3000 r bgrewriteaof waitForBgrewriteaof r # Let it run a bit more so that we'll append some data to the new # AOF. after 1000 # Stop the processes generating the load if they are still active stop_write_load $load_handle0 stop_write_load $load_handle1 stop_write_load $load_handle2 stop_write_load $load_handle3 stop_write_load $load_handle4 # Make sure no more commands processed, before taking debug digest wait_load_handlers_disconnected # Get the data set digest set d1 [r debug digest] # Load the AOF r debug loadaof set d2 [r debug digest] # Make sure they are the same assert {$d1 eq $d2} } } } start_server {tags {"aofrw external:skip"} overrides {aof-use-rdb-preamble no}} { test {Turning off AOF kills the background writing child if any} { r config set appendonly yes waitForBgrewriteaof r r multi r bgrewriteaof r config set appendonly no r exec wait_for_condition 50 100 { [string match {*Killing*AOF*child*} [exec tail -5 < [srv 0 stdout]]] } else { fail "Can't find 'Killing AOF child' into recent logs" } } foreach d {string int} { foreach e {quicklist} { test "AOF rewrite of list with $e encoding, $d data" { r flushall set len 1000 for {set j 0} {$j < $len} {incr j} { if {$d eq {string}} { set data [randstring 0 16 alpha] } else { set data [randomInt 4000000000] } r lpush key $data } assert_equal [r object encoding key] $e set d1 [r debug digest] r bgrewriteaof waitForBgrewriteaof r r debug loadaof set d2 [r debug digest] if {$d1 ne $d2} { error "assertion:$d1 is not equal to $d2" } } } } foreach d {string int} { foreach e {intset hashtable} { test "AOF rewrite of set with $e encoding, $d data" { r flushall if {$e eq {intset}} {set len 10} else {set len 1000} for {set j 0} {$j < $len} {incr j} { if {$d eq {string}} { set data [randstring 0 16 alpha] } else { set data [randomInt 4000000000] } r sadd key $data } if {$d ne {string}} { assert_equal [r object encoding key] $e } set d1 [r debug digest] r bgrewriteaof waitForBgrewriteaof r r debug loadaof set d2 [r debug digest] if {$d1 ne $d2} { error "assertion:$d1 is not equal to $d2" } } } } foreach d {string int} { foreach e {listpack hashtable} { test "AOF rewrite of hash with $e encoding, $d data" { r flushall if {$e eq {listpack}} {set len 10} else {set len 1000} for {set j 0} {$j < $len} {incr j} { if {$d eq {string}} { set data [randstring 0 16 alpha] } else { set data [randomInt 4000000000] } r hset key $data $data } assert_equal [r object encoding key] $e set d1 [r debug digest] r bgrewriteaof waitForBgrewriteaof r r debug loadaof set d2 [r debug digest] if {$d1 ne $d2} { error "assertion:$d1 is not equal to $d2" } } } } foreach d {string int} { foreach e {ziplist skiplist} { test "AOF rewrite of zset with $e encoding, $d data" { r flushall if {$e eq {ziplist}} {set len 10} else {set len 1000} for {set j 0} {$j < $len} {incr j} { if {$d eq {string}} { set data [randstring 0 16 alpha] } else { set data [randomInt 4000000000] } r zadd key [expr rand()] $data } assert_equal [r object encoding key] $e set d1 [r debug digest] r bgrewriteaof waitForBgrewriteaof r r debug loadaof set d2 [r debug digest] if {$d1 ne $d2} { error "assertion:$d1 is not equal to $d2" } } } } test {BGREWRITEAOF is delayed if BGSAVE is in progress} { r multi r bgsave r bgrewriteaof r info persistence set res [r exec] assert_match {*scheduled*} [lindex $res 1] assert_match {*aof_rewrite_scheduled:1*} [lindex $res 2] while {[string match {*aof_rewrite_scheduled:1*} [r info persistence]]} { after 100 } } test {BGREWRITEAOF is refused if already in progress} { catch { r multi r bgrewriteaof r bgrewriteaof r exec } e assert_match {*ERR*already*} $e while {[string match {*aof_rewrite_scheduled:1*} [r info persistence]]} { after 100 } } }