start_server {tags {"latency-monitor needs:latency"}} { # Set a threshold high enough to avoid spurious latency events. r config set latency-monitor-threshold 200 r latency reset test {Test latency events logging} { r debug sleep 0.3 after 1100 r debug sleep 0.4 after 1100 r debug sleep 0.5 assert {[r latency history command] >= 3} } test {LATENCY HISTORY output is ok} { set min 250 set max 450 foreach event [r latency history command] { lassign $event time latency if {!$::no_latency} { assert {$latency >= $min && $latency <= $max} } incr min 100 incr max 100 set last_time $time ; # Used in the next test } } test {LATENCY LATEST output is ok} { foreach event [r latency latest] { lassign $event eventname time latency max assert {$eventname eq "command"} if {!$::no_latency} { assert {$max >= 450 & $max <= 650} assert {$time == $last_time} } break } } test {LATENCY HISTORY / RESET with wrong event name is fine} { assert {[llength [r latency history blabla]] == 0} assert {[r latency reset blabla] == 0} } test {LATENCY DOCTOR produces some output} { assert {[string length [r latency doctor]] > 0} } test {LATENCY RESET is able to reset events} { assert {[r latency reset] > 0} assert {[r latency latest] eq {}} } test {LATENCY of expire events are correctly collected} { r config set latency-monitor-threshold 20 r flushdb if {$::valgrind} {set count 100000} else {set count 1000000} r eval { local i = 0 while (i < tonumber(ARGV[1])) do redis.call('sadd',KEYS[1],i) i = i+1 end } 1 mybigkey $count r pexpire mybigkey 50 wait_for_condition 5 100 { [r dbsize] == 0 } else { fail "key wasn't expired" } assert_match {*expire-cycle*} [r latency latest] } test {LATENCY HELP should not have unexpected options} { catch {r LATENCY help xxx} e assert_match "*wrong number of arguments*" $e } }