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redict/tests/unit/maxmemory.tcl
Oran Agra c8452ab005 Fix unstable tests on slow machines. 
Few tests had borderline thresholds that were adjusted.

The slave buffers test had two issues, preventing the slave buffer from growing:
1) the slave didn't necessarily go to sleep on time, or woke up too early,
   now using SIGSTOP to make sure it goes to sleep exactly when we want.
2) the master disconnected the slave on timeout
2018-08-21 11:46:07 +03:00

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start_server {tags {"maxmemory"}} {
test "Without maxmemory small integers are shared" {
r config set maxmemory 0
r set a 1
assert {[r object refcount a] > 1}
}
test "With maxmemory and non-LRU policy integers are still shared" {
r config set maxmemory 1073741824
r config set maxmemory-policy allkeys-random
r set a 1
assert {[r object refcount a] > 1}
}
test "With maxmemory and LRU policy integers are not shared" {
r config set maxmemory 1073741824
r config set maxmemory-policy allkeys-lru
r set a 1
r config set maxmemory-policy volatile-lru
r set b 1
assert {[r object refcount a] == 1}
assert {[r object refcount b] == 1}
r config set maxmemory 0
}
foreach policy {
allkeys-random allkeys-lru allkeys-lfu volatile-lru volatile-lfu volatile-random volatile-ttl
} {
test "maxmemory - is the memory limit honoured? (policy $policy)" {
# make sure to start with a blank instance
r flushall
# Get the current memory limit and calculate a new limit.
# We just add 100k to the current memory size so that it is
# fast for us to reach that limit.
set used [s used_memory]
set limit [expr {$used+100*1024}]
r config set maxmemory $limit
r config set maxmemory-policy $policy
# Now add keys until the limit is almost reached.
set numkeys 0
while 1 {
r setex [randomKey] 10000 x
incr numkeys
if {[s used_memory]+4096 > $limit} {
assert {$numkeys > 10}
break
}
}
# If we add the same number of keys already added again, we
# should still be under the limit.
for {set j 0} {$j < $numkeys} {incr j} {
r setex [randomKey] 10000 x
}
assert {[s used_memory] < ($limit+4096)}
}
}
foreach policy {
allkeys-random allkeys-lru volatile-lru volatile-random volatile-ttl
} {
test "maxmemory - only allkeys-* should remove non-volatile keys ($policy)" {
# make sure to start with a blank instance
r flushall
# Get the current memory limit and calculate a new limit.
# We just add 100k to the current memory size so that it is
# fast for us to reach that limit.
set used [s used_memory]
set limit [expr {$used+100*1024}]
r config set maxmemory $limit
r config set maxmemory-policy $policy
# Now add keys until the limit is almost reached.
set numkeys 0
while 1 {
r set [randomKey] x
incr numkeys
if {[s used_memory]+4096 > $limit} {
assert {$numkeys > 10}
break
}
}
# If we add the same number of keys already added again and
# the policy is allkeys-* we should still be under the limit.
# Otherwise we should see an error reported by Redis.
set err 0
for {set j 0} {$j < $numkeys} {incr j} {
if {[catch {r set [randomKey] x} e]} {
if {[string match {*used memory*} $e]} {
set err 1
}
}
}
if {[string match allkeys-* $policy]} {
assert {[s used_memory] < ($limit+4096)}
} else {
assert {$err == 1}
}
}
}
foreach policy {
volatile-lru volatile-lfu volatile-random volatile-ttl
} {
test "maxmemory - policy $policy should only remove volatile keys." {
# make sure to start with a blank instance
r flushall
# Get the current memory limit and calculate a new limit.
# We just add 100k to the current memory size so that it is
# fast for us to reach that limit.
set used [s used_memory]
set limit [expr {$used+100*1024}]
r config set maxmemory $limit
r config set maxmemory-policy $policy
# Now add keys until the limit is almost reached.
set numkeys 0
while 1 {
# Odd keys are volatile
# Even keys are non volatile
if {$numkeys % 2} {
r setex "key:$numkeys" 10000 x
} else {
r set "key:$numkeys" x
}
if {[s used_memory]+4096 > $limit} {
assert {$numkeys > 10}
break
}
incr numkeys
}
# Now we add the same number of volatile keys already added.
# We expect Redis to evict only volatile keys in order to make
# space.
set err 0
for {set j 0} {$j < $numkeys} {incr j} {
catch {r setex "foo:$j" 10000 x}
}
# We should still be under the limit.
assert {[s used_memory] < ($limit+4096)}
# However all our non volatile keys should be here.
for {set j 0} {$j < $numkeys} {incr j 2} {
assert {[r exists "key:$j"]}
}
}
}
}
proc test_slave_buffers {test_name cmd_count payload_len limit_memory pipeline} {
start_server {tags {"maxmemory"}} {
start_server {} {
set slave_pid [s process_id]
test "$test_name" {
set slave [srv 0 client]
set slave_host [srv 0 host]
set slave_port [srv 0 port]
set master [srv -1 client]
set master_host [srv -1 host]
set master_port [srv -1 port]
# add 100 keys of 100k (10MB total)
for {set j 0} {$j < 100} {incr j} {
$master setrange "key:$j" 100000 asdf
}
# make sure master doesn't disconnect slave because of timeout
$master config set repl-timeout 300 ;# 5 minutes
$master config set maxmemory-policy allkeys-random
$master config set client-output-buffer-limit "slave 100000000 100000000 300"
$master config set repl-backlog-size [expr {10*1024}]
$slave slaveof $master_host $master_port
wait_for_condition 50 100 {
[s 0 master_link_status] eq {up}
} else {
fail "Replication not started."
}
# measure used memory after the slave connected and set maxmemory
set orig_used [s -1 used_memory]
set orig_client_buf [s -1 mem_clients_normal]
set orig_mem_not_counted_for_evict [s -1 mem_not_counted_for_evict]
set orig_used_no_repl [expr {$orig_used - $orig_mem_not_counted_for_evict}]
set limit [expr {$orig_used - $orig_mem_not_counted_for_evict + 20*1024}]
if {$limit_memory==1} {
$master config set maxmemory $limit
}
# put the slave to sleep
set rd_slave [redis_deferring_client]
exec kill -SIGSTOP $slave_pid
# send some 10mb worth of commands that don't increase the memory usage
if {$pipeline == 1} {
set rd_master [redis_deferring_client -1]
for {set k 0} {$k < $cmd_count} {incr k} {
$rd_master setrange key:0 0 [string repeat A $payload_len]
}
for {set k 0} {$k < $cmd_count} {incr k} {
#$rd_master read
}
} else {
for {set k 0} {$k < $cmd_count} {incr k} {
$master setrange key:0 0 [string repeat A $payload_len]
}
}
set new_used [s -1 used_memory]
set slave_buf [s -1 mem_clients_slaves]
set client_buf [s -1 mem_clients_normal]
set mem_not_counted_for_evict [s -1 mem_not_counted_for_evict]
set used_no_repl [expr {$new_used - $mem_not_counted_for_evict}]
set delta [expr {($used_no_repl - $client_buf) - ($orig_used_no_repl - $orig_client_buf)}]
assert {[$master dbsize] == 100}
assert {$slave_buf > 2*1024*1024} ;# some of the data may have been pushed to the OS buffers
assert {$delta < 50*1024 && $delta > -50*1024} ;# 1 byte unaccounted for, with 1M commands will consume some 1MB
$master client kill type slave
set killed_used [s -1 used_memory]
set killed_slave_buf [s -1 mem_clients_slaves]
set killed_mem_not_counted_for_evict [s -1 mem_not_counted_for_evict]
set killed_used_no_repl [expr {$killed_used - $killed_mem_not_counted_for_evict}]
set delta_no_repl [expr {$killed_used_no_repl - $used_no_repl}]
assert {$killed_slave_buf == 0}
assert {$delta_no_repl > -50*1024 && $delta_no_repl < 50*1024} ;# 1 byte unaccounted for, with 1M commands will consume some 1MB
}
# unfreeze slave process (after the 'test' succeeded or failed, but before we attempt to terminate the server
exec kill -SIGCONT $slave_pid
}
}
}
# test that slave buffer are counted correctly
# we wanna use many small commands, and we don't wanna wait long
# so we need to use a pipeline (redis_deferring_client)
# that may cause query buffer to fill and induce eviction, so we disable it
test_slave_buffers {slave buffer are counted correctly} 1000000 10 0 1
# test that slave buffer don't induce eviction
# test again with fewer (and bigger) commands without pipeline, but with eviction
test_slave_buffers "slave buffer don't induce eviction" 100000 100 1 0
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