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|
proc log_file_matches {log pattern} {
set fp [open $log r]
set content [read $fp]
close $fp
string match $pattern $content
}
start_server {tags {"repl network external:skip"}} {
set slave [srv 0 client]
set slave_host [srv 0 host]
set slave_port [srv 0 port]
set slave_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
# Configure the master in order to hang waiting for the BGSAVE
# operation, so that the slave remains in the handshake state.
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 1000
# Start the replication process...
$slave slaveof $master_host $master_port
test {Slave enters handshake} {
wait_for_condition 50 1000 {
[string match *handshake* [$slave role]]
} else {
fail "Replica does not enter handshake state"
}
}
test {Slave enters wait_bgsave} {
wait_for_condition 50 1000 {
[string match *state=wait_bgsave* [$master info replication]]
} else {
fail "Replica does not enter wait_bgsave state"
}
}
# Use a short replication timeout on the slave, so that if there
# are no bugs the timeout is triggered in a reasonable amount
# of time.
$slave config set repl-timeout 5
# But make the master unable to send
# the periodic newlines to refresh the connection. The slave
# should detect the timeout.
$master debug sleep 10
test {Slave is able to detect timeout during handshake} {
wait_for_condition 50 1000 {
[log_file_matches $slave_log "*Timeout connecting to the MASTER*"]
} else {
fail "Replica is not able to detect timeout"
}
}
}
}
start_server {tags {"repl external:skip"}} {
set A [srv 0 client]
set A_host [srv 0 host]
set A_port [srv 0 port]
start_server {} {
set B [srv 0 client]
set B_host [srv 0 host]
set B_port [srv 0 port]
test {Set instance A as slave of B} {
$A slaveof $B_host $B_port
wait_for_condition 50 100 {
[lindex [$A role] 0] eq {slave} &&
[string match {*master_link_status:up*} [$A info replication]]
} else {
fail "Can't turn the instance into a replica"
}
}
test {INCRBYFLOAT replication, should not remove expire} {
r set test 1 EX 100
r incrbyfloat test 0.1
wait_for_ofs_sync $A $B
assert_equal [$A debug digest] [$B debug digest]
}
test {GETSET replication} {
$A config resetstat
$A config set loglevel debug
$B config set loglevel debug
r set test foo
assert_equal [r getset test bar] foo
wait_for_condition 500 10 {
[$A get test] eq "bar"
} else {
fail "getset wasn't propagated"
}
assert_equal [r set test vaz get] bar
wait_for_condition 500 10 {
[$A get test] eq "vaz"
} else {
fail "set get wasn't propagated"
}
assert_match {*calls=3,*} [cmdrstat set $A]
assert_match {} [cmdrstat getset $A]
}
test {BRPOPLPUSH replication, when blocking against empty list} {
$A config resetstat
set rd [redis_deferring_client]
$rd brpoplpush a b 5
r lpush a foo
wait_for_condition 50 100 {
[$A debug digest] eq [$B debug digest]
} else {
fail "Master and replica have different digest: [$A debug digest] VS [$B debug digest]"
}
assert_match {*calls=1,*} [cmdrstat rpoplpush $A]
assert_match {} [cmdrstat lmove $A]
}
test {BRPOPLPUSH replication, list exists} {
$A config resetstat
set rd [redis_deferring_client]
r lpush c 1
r lpush c 2
r lpush c 3
$rd brpoplpush c d 5
after 1000
assert_equal [$A debug digest] [$B debug digest]
assert_match {*calls=1,*} [cmdrstat rpoplpush $A]
assert_match {} [cmdrstat lmove $A]
}
foreach wherefrom {left right} {
foreach whereto {left right} {
test "BLMOVE ($wherefrom, $whereto) replication, when blocking against empty list" {
$A config resetstat
set rd [redis_deferring_client]
$rd blmove a b $wherefrom $whereto 5
r lpush a foo
wait_for_condition 50 100 {
[$A debug digest] eq [$B debug digest]
} else {
fail "Master and replica have different digest: [$A debug digest] VS [$B debug digest]"
}
assert_match {*calls=1,*} [cmdrstat lmove $A]
assert_match {} [cmdrstat rpoplpush $A]
}
test "BLMOVE ($wherefrom, $whereto) replication, list exists" {
$A config resetstat
set rd [redis_deferring_client]
r lpush c 1
r lpush c 2
r lpush c 3
$rd blmove c d $wherefrom $whereto 5
after 1000
assert_equal [$A debug digest] [$B debug digest]
assert_match {*calls=1,*} [cmdrstat lmove $A]
assert_match {} [cmdrstat rpoplpush $A]
}
}
}
test {BLPOP followed by role change, issue #2473} {
set rd [redis_deferring_client]
$rd blpop foo 0 ; # Block while B is a master
# Turn B into master of A
$A slaveof no one
$B slaveof $A_host $A_port
wait_for_condition 50 100 {
[lindex [$B role] 0] eq {slave} &&
[string match {*master_link_status:up*} [$B info replication]]
} else {
fail "Can't turn the instance into a replica"
}
# Push elements into the "foo" list of the new replica.
# If the client is still attached to the instance, we'll get
# a desync between the two instances.
$A rpush foo a b c
after 100
wait_for_condition 50 100 {
[$A debug digest] eq [$B debug digest] &&
[$A lrange foo 0 -1] eq {a b c} &&
[$B lrange foo 0 -1] eq {a b c}
} else {
fail "Master and replica have different digest: [$A debug digest] VS [$B debug digest]"
}
assert_match {*calls=1,*,rejected_calls=0,failed_calls=1*} [cmdrstat blpop $B]
}
}
}
start_server {tags {"repl external:skip"}} {
r set mykey foo
start_server {} {
test {Second server should have role master at first} {
s role
} {master}
test {SLAVEOF should start with link status "down"} {
r multi
r slaveof [srv -1 host] [srv -1 port]
r info replication
r exec
} {*master_link_status:down*}
test {The role should immediately be changed to "replica"} {
s role
} {slave}
wait_for_sync r
test {Sync should have transferred keys from master} {
r get mykey
} {foo}
test {The link status should be up} {
s master_link_status
} {up}
test {SET on the master should immediately propagate} {
r -1 set mykey bar
wait_for_condition 500 100 {
[r 0 get mykey] eq {bar}
} else {
fail "SET on master did not propagated on replica"
}
}
test {FLUSHDB / FLUSHALL should replicate} {
# we're attaching to a sub-replica, so we need to stop pings on the real master
r -1 config set repl-ping-replica-period 3600
set repl [attach_to_replication_stream]
r -1 set key value
r -1 flushdb
r -1 set key value2
r -1 flushall
wait_for_ofs_sync [srv 0 client] [srv -1 client]
assert_equal [r -1 dbsize] 0
assert_equal [r 0 dbsize] 0
# DB is empty.
r -1 flushdb
r -1 flushdb
r -1 eval {redis.call("flushdb")} 0
# DBs are empty.
r -1 flushall
r -1 flushall
r -1 eval {redis.call("flushall")} 0
# add another command to check nothing else was propagated after the above
r -1 incr x
# Assert that each FLUSHDB command is replicated even the DB is empty.
# Assert that each FLUSHALL command is replicated even the DBs are empty.
assert_replication_stream $repl {
{set key value}
{flushdb}
{set key value2}
{flushall}
{flushdb}
{flushdb}
{flushdb}
{flushall}
{flushall}
{flushall}
{incr x}
}
close_replication_stream $repl
}
test {ROLE in master reports master with a slave} {
set res [r -1 role]
lassign $res role offset slaves
assert {$role eq {master}}
assert {$offset > 0}
assert {[llength $slaves] == 1}
lassign [lindex $slaves 0] master_host master_port slave_offset
assert {$slave_offset <= $offset}
}
test {ROLE in slave reports slave in connected state} {
set res [r role]
lassign $res role master_host master_port slave_state slave_offset
assert {$role eq {slave}}
assert {$slave_state eq {connected}}
}
}
}
foreach mdl {no yes} {
foreach sdl {disabled swapdb} {
start_server {tags {"repl external:skip"} overrides {save {}}} {
set master [srv 0 client]
$master config set repl-diskless-sync $mdl
$master config set repl-diskless-sync-delay 5
$master config set repl-diskless-sync-max-replicas 3
set master_host [srv 0 host]
set master_port [srv 0 port]
set slaves {}
start_server {overrides {save {}}} {
lappend slaves [srv 0 client]
start_server {overrides {save {}}} {
lappend slaves [srv 0 client]
start_server {overrides {save {}}} {
lappend slaves [srv 0 client]
test "Connect multiple replicas at the same time (issue #141), master diskless=$mdl, replica diskless=$sdl" {
# start load handles only inside the test, so that the test can be skipped
set load_handle0 [start_bg_complex_data $master_host $master_port 9 100000000]
set load_handle1 [start_bg_complex_data $master_host $master_port 11 100000000]
set load_handle2 [start_bg_complex_data $master_host $master_port 12 100000000]
set load_handle3 [start_write_load $master_host $master_port 8]
set load_handle4 [start_write_load $master_host $master_port 4]
after 5000 ;# wait for some data to accumulate so that we have RDB part for the fork
# Send SLAVEOF commands to slaves
[lindex $slaves 0] config set repl-diskless-load $sdl
[lindex $slaves 1] config set repl-diskless-load $sdl
[lindex $slaves 2] config set repl-diskless-load $sdl
[lindex $slaves 0] slaveof $master_host $master_port
[lindex $slaves 1] slaveof $master_host $master_port
[lindex $slaves 2] slaveof $master_host $master_port
# Wait for all the three slaves to reach the "online"
# state from the POV of the master.
set retry 500
while {$retry} {
set info [r -3 info]
if {[string match {*slave0:*state=online*slave1:*state=online*slave2:*state=online*} $info]} {
break
} else {
incr retry -1
after 100
}
}
if {$retry == 0} {
error "assertion:Slaves not correctly synchronized"
}
# Wait that slaves acknowledge they are online so
# we are sure that DBSIZE and DEBUG DIGEST will not
# fail because of timing issues.
wait_for_condition 500 100 {
[lindex [[lindex $slaves 0] role] 3] eq {connected} &&
[lindex [[lindex $slaves 1] role] 3] eq {connected} &&
[lindex [[lindex $slaves 2] role] 3] eq {connected}
} else {
fail "Slaves still not connected after some time"
}
# Stop the write load
stop_bg_complex_data $load_handle0
stop_bg_complex_data $load_handle1
stop_bg_complex_data $load_handle2
stop_write_load $load_handle3
stop_write_load $load_handle4
# Make sure no more commands processed
wait_load_handlers_disconnected -3
wait_for_ofs_sync $master [lindex $slaves 0]
wait_for_ofs_sync $master [lindex $slaves 1]
wait_for_ofs_sync $master [lindex $slaves 2]
# Check digests
set digest [$master debug digest]
set digest0 [[lindex $slaves 0] debug digest]
set digest1 [[lindex $slaves 1] debug digest]
set digest2 [[lindex $slaves 2] debug digest]
assert {$digest ne 0000000000000000000000000000000000000000}
assert {$digest eq $digest0}
assert {$digest eq $digest1}
assert {$digest eq $digest2}
}
}
}
}
}
}
}
start_server {tags {"repl external:skip"} overrides {save {}}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
start_server {overrides {save {}}} {
test "Master stream is correctly processed while the replica has a script in -BUSY state" {
set load_handle0 [start_write_load $master_host $master_port 3]
set slave [srv 0 client]
$slave config set lua-time-limit 500
$slave slaveof $master_host $master_port
# Wait for the slave to be online
wait_for_condition 500 100 {
[lindex [$slave role] 3] eq {connected}
} else {
fail "Replica still not connected after some time"
}
# Wait some time to make sure the master is sending data
# to the slave.
after 5000
# Stop the ability of the slave to process data by sendig
# a script that will put it in BUSY state.
$slave eval {for i=1,3000000000 do end} 0
# Wait some time again so that more master stream will
# be processed.
after 2000
# Stop the write load
stop_write_load $load_handle0
# number of keys
wait_for_condition 500 100 {
[$master debug digest] eq [$slave debug digest]
} else {
fail "Different datasets between replica and master"
}
}
}
}
# Diskless load swapdb when NOT async_loading (different master replid)
foreach testType {Successful Aborted} {
start_server {tags {"repl external:skip"}} {
set replica [srv 0 client]
set replica_host [srv 0 host]
set replica_port [srv 0 port]
set replica_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
# Set master and replica to use diskless replication on swapdb mode
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
$master config set save ""
$replica config set repl-diskless-load swapdb
$replica config set save ""
# Put different data sets on the master and replica
# We need to put large keys on the master since the replica replies to info only once in 2mb
$replica debug populate 200 slave 10
$master debug populate 1000 master 100000
$master config set rdbcompression no
# Set a key value on replica to check status on failure and after swapping db
$replica set mykey myvalue
switch $testType {
"Aborted" {
# Set master with a slow rdb generation, so that we can easily intercept loading
# 10ms per key, with 1000 keys is 10 seconds
$master config set rdb-key-save-delay 10000
# Start the replication process
$replica replicaof $master_host $master_port
test {Diskless load swapdb (different replid): replica enter loading} {
# Wait for the replica to start reading the rdb
wait_for_condition 100 100 {
[s -1 loading] eq 1
} else {
fail "Replica didn't get into loading mode"
}
assert_equal [s -1 async_loading] 0
}
# Make sure that next sync will not start immediately so that we can catch the replica in between syncs
$master config set repl-diskless-sync-delay 5
# Kill the replica connection on the master
set killed [$master client kill type replica]
# Wait for loading to stop (fail)
wait_for_condition 100 100 {
[s -1 loading] eq 0
} else {
fail "Replica didn't disconnect"
}
test {Diskless load swapdb (different replid): old database is exposed after replication fails} {
# Ensure we see old values from replica
assert_equal [$replica get mykey] "myvalue"
# Make sure amount of replica keys didn't change
assert_equal [$replica dbsize] 201
}
# Speed up shutdown
$master config set rdb-key-save-delay 0
}
"Successful" {
# Start the replication process
$replica replicaof $master_host $master_port
# Let replica finish sync with master
wait_for_condition 100 100 {
[s -1 master_link_status] eq "up"
} else {
fail "Master <-> Replica didn't finish sync"
}
test {Diskless load swapdb (different replid): new database is exposed after swapping} {
# Ensure we don't see anymore the key that was stored only to replica and also that we don't get LOADING status
assert_equal [$replica GET mykey] ""
# Make sure amount of keys matches master
assert_equal [$replica dbsize] 1000
}
}
}
}
}
}
# Diskless load swapdb when async_loading (matching master replid)
foreach testType {Successful Aborted} {
start_server {tags {"repl external:skip"}} {
set replica [srv 0 client]
set replica_host [srv 0 host]
set replica_port [srv 0 port]
set replica_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
# Set master and replica to use diskless replication on swapdb mode
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
$master config set save ""
$replica config set repl-diskless-load swapdb
$replica config set save ""
# Set replica writable so we can check that a key we manually added is served
# during replication and after failure, but disappears on success
$replica config set replica-read-only no
# Initial sync to have matching replids between master and replica
$replica replicaof $master_host $master_port
# Let replica finish initial sync with master
wait_for_condition 100 100 {
[s -1 master_link_status] eq "up"
} else {
fail "Master <-> Replica didn't finish sync"
}
# Put different data sets on the master and replica
# We need to put large keys on the master since the replica replies to info only once in 2mb
$replica debug populate 2000 slave 10
$master debug populate 2000 master 100000
$master config set rdbcompression no
# Set a key value on replica to check status during loading, on failure and after swapping db
$replica set mykey myvalue
# Set a function value on replica to check status during loading, on failure and after swapping db
$replica function load {#!lua name=test
redis.register_function('test', function() return 'hello1' end)
}
# Set a function value on master to check it reaches the replica when replication ends
$master function load {#!lua name=test
redis.register_function('test', function() return 'hello2' end)
}
# Remember the sync_full stat before the client kill.
set sync_full [s 0 sync_full]
if {$testType == "Aborted"} {
# Set master with a slow rdb generation, so that we can easily intercept loading
# 10ms per key, with 2000 keys is 20 seconds
$master config set rdb-key-save-delay 10000
}
# Force the replica to try another full sync (this time it will have matching master replid)
$master multi
$master client kill type replica
# Fill replication backlog with new content
$master config set repl-backlog-size 16384
for {set keyid 0} {$keyid < 10} {incr keyid} {
$master set "$keyid string_$keyid" [string repeat A 16384]
}
$master exec
# Wait for sync_full to get incremented from the previous value.
# After the client kill, make sure we do a reconnect, and do a FULL SYNC.
wait_for_condition 100 100 {
[s 0 sync_full] > $sync_full
} else {
fail "Master <-> Replica didn't start the full sync"
}
switch $testType {
"Aborted" {
test {Diskless load swapdb (async_loading): replica enter async_loading} {
# Wait for the replica to start reading the rdb
wait_for_condition 100 100 {
[s -1 async_loading] eq 1
} else {
fail "Replica didn't get into async_loading mode"
}
assert_equal [s -1 loading] 0
}
test {Diskless load swapdb (async_loading): old database is exposed while async replication is in progress} {
# Ensure we still see old values while async_loading is in progress and also not LOADING status
assert_equal [$replica get mykey] "myvalue"
# Ensure we still can call old function while async_loading is in progress
assert_equal [$replica fcall test 0] "hello1"
# Make sure we're still async_loading to validate previous assertion
assert_equal [s -1 async_loading] 1
# Make sure amount of replica keys didn't change
assert_equal [$replica dbsize] 2001
}
test {Busy script during async loading} {
set rd_replica [redis_deferring_client -1]
$replica config set lua-time-limit 10
$rd_replica eval {while true do end} 0
after 200
assert_error {BUSY*} {$replica ping}
$replica script kill
after 200 ; # Give some time to Lua to call the hook again...
assert_equal [$replica ping] "PONG"
$rd_replica close
}
test {Blocked commands and configs during async-loading} {
assert_error {LOADING*} {$replica config set appendonly no}
assert_error {LOADING*} {$replica REPLICAOF no one}
}
# Make sure that next sync will not start immediately so that we can catch the replica in between syncs
$master config set repl-diskless-sync-delay 5
# Kill the replica connection on the master
set killed [$master client kill type replica]
# Wait for loading to stop (fail)
wait_for_condition 100 100 {
[s -1 async_loading] eq 0
} else {
fail "Replica didn't disconnect"
}
test {Diskless load swapdb (async_loading): old database is exposed after async replication fails} {
# Ensure we see old values from replica
assert_equal [$replica get mykey] "myvalue"
# Ensure we still can call old function
assert_equal [$replica fcall test 0] "hello1"
# Make sure amount of replica keys didn't change
assert_equal [$replica dbsize] 2001
}
# Speed up shutdown
$master config set rdb-key-save-delay 0
}
"Successful" {
# Let replica finish sync with master
wait_for_condition 100 100 {
[s -1 master_link_status] eq "up"
} else {
fail "Master <-> Replica didn't finish sync"
}
test {Diskless load swapdb (async_loading): new database is exposed after swapping} {
# Ensure we don't see anymore the key that was stored only to replica and also that we don't get LOADING status
assert_equal [$replica GET mykey] ""
# Ensure we got the new function
assert_equal [$replica fcall test 0] "hello2"
# Make sure amount of keys matches master
assert_equal [$replica dbsize] 2010
}
}
}
}
}
}
test {diskless loading short read} {
start_server {tags {"repl"} overrides {save ""}} {
set replica [srv 0 client]
set replica_host [srv 0 host]
set replica_port [srv 0 port]
start_server {overrides {save ""}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
# Set master and replica to use diskless replication
$master config set repl-diskless-sync yes
$master config set rdbcompression no
$replica config set repl-diskless-load swapdb
$master config set hz 500
$replica config set hz 500
$master config set dynamic-hz no
$replica config set dynamic-hz no
# Try to fill the master with all types of data types / encodings
set start [clock clicks -milliseconds]
# Set a function value to check short read handling on functions
r function load {#!lua name=test
redis.register_function('test', function() return 'hello1' end)
}
for {set k 0} {$k < 3} {incr k} {
for {set i 0} {$i < 10} {incr i} {
r set "$k int_$i" [expr {int(rand()*10000)}]
r expire "$k int_$i" [expr {int(rand()*10000)}]
r set "$k string_$i" [string repeat A [expr {int(rand()*1000000)}]]
r hset "$k hash_small" [string repeat A [expr {int(rand()*10)}]] 0[string repeat A [expr {int(rand()*10)}]]
r hset "$k hash_large" [string repeat A [expr {int(rand()*10000)}]] [string repeat A [expr {int(rand()*1000000)}]]
r sadd "$k set_small" [string repeat A [expr {int(rand()*10)}]]
r sadd "$k set_large" [string repeat A [expr {int(rand()*1000000)}]]
r zadd "$k zset_small" [expr {rand()}] [string repeat A [expr {int(rand()*10)}]]
r zadd "$k zset_large" [expr {rand()}] [string repeat A [expr {int(rand()*1000000)}]]
r lpush "$k list_small" [string repeat A [expr {int(rand()*10)}]]
r lpush "$k list_large" [string repeat A [expr {int(rand()*1000000)}]]
for {set j 0} {$j < 10} {incr j} {
r xadd "$k stream" * foo "asdf" bar "1234"
}
r xgroup create "$k stream" "mygroup_$i" 0
r xreadgroup GROUP "mygroup_$i" Alice COUNT 1 STREAMS "$k stream" >
}
}
if {$::verbose} {
set end [clock clicks -milliseconds]
set duration [expr $end - $start]
puts "filling took $duration ms (TODO: use pipeline)"
set start [clock clicks -milliseconds]
}
# Start the replication process...
set loglines [count_log_lines -1]
$master config set repl-diskless-sync-delay 0
$replica replicaof $master_host $master_port
# kill the replication at various points
set attempts 100
if {$::accurate} { set attempts 500 }
for {set i 0} {$i < $attempts} {incr i} {
# wait for the replica to start reading the rdb
# using the log file since the replica only responds to INFO once in 2mb
set res [wait_for_log_messages -1 {"*Loading DB in memory*"} $loglines 2000 1]
set loglines [lindex $res 1]
# add some additional random sleep so that we kill the master on a different place each time
after [expr {int(rand()*50)}]
# kill the replica connection on the master
set killed [$master client kill type replica]
set res [wait_for_log_messages -1 {"*Internal error in RDB*" "*Finished with success*" "*Successful partial resynchronization*"} $loglines 500 10]
if {$::verbose} { puts $res }
set log_text [lindex $res 0]
set loglines [lindex $res 1]
if {![string match "*Internal error in RDB*" $log_text]} {
# force the replica to try another full sync
$master multi
$master client kill type replica
$master set asdf asdf
# fill replication backlog with new content
$master config set repl-backlog-size 16384
for {set keyid 0} {$keyid < 10} {incr keyid} {
$master set "$keyid string_$keyid" [string repeat A 16384]
}
$master exec
}
# wait for loading to stop (fail)
# After a loading successfully, next loop will enter `async_loading`
wait_for_condition 1000 1 {
[s -1 async_loading] eq 0 &&
[s -1 loading] eq 0
} else {
fail "Replica didn't disconnect"
}
}
if {$::verbose} {
set end [clock clicks -milliseconds]
set duration [expr $end - $start]
puts "test took $duration ms"
}
# enable fast shutdown
$master config set rdb-key-save-delay 0
}
}
} {} {external:skip}
# get current stime and utime metrics for a thread (since it's creation)
proc get_cpu_metrics { statfile } {
if { [ catch {
set fid [ open $statfile r ]
set data [ read $fid 1024 ]
::close $fid
set data [ split $data ]
;## number of jiffies it has been scheduled...
set utime [ lindex $data 13 ]
set stime [ lindex $data 14 ]
} err ] } {
error "assertion:can't parse /proc: $err"
}
set mstime [clock milliseconds]
return [ list $mstime $utime $stime ]
}
# compute %utime and %stime of a thread between two measurements
proc compute_cpu_usage {start end} {
set clock_ticks [exec getconf CLK_TCK]
# convert ms time to jiffies and calc delta
set dtime [ expr { ([lindex $end 0] - [lindex $start 0]) * double($clock_ticks) / 1000 } ]
set utime [ expr { [lindex $end 1] - [lindex $start 1] } ]
set stime [ expr { [lindex $end 2] - [lindex $start 2] } ]
set pucpu [ expr { ($utime / $dtime) * 100 } ]
set pscpu [ expr { ($stime / $dtime) * 100 } ]
return [ list $pucpu $pscpu ]
}
# test diskless rdb pipe with multiple replicas, which may drop half way
start_server {tags {"repl external:skip"} overrides {save ""}} {
set master [srv 0 client]
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 5
$master config set repl-diskless-sync-max-replicas 2
set master_host [srv 0 host]
set master_port [srv 0 port]
set master_pid [srv 0 pid]
# put enough data in the db that the rdb file will be bigger than the socket buffers
# and since we'll have key-load-delay of 100, 20000 keys will take at least 2 seconds
# we also need the replica to process requests during transfer (which it does only once in 2mb)
$master debug populate 20000 test 10000
$master config set rdbcompression no
# If running on Linux, we also measure utime/stime to detect possible I/O handling issues
set os [catch {exec uname}]
set measure_time [expr {$os == "Linux"} ? 1 : 0]
foreach all_drop {no slow fast all timeout} {
test "diskless $all_drop replicas drop during rdb pipe" {
set replicas {}
set replicas_alive {}
# start one replica that will read the rdb fast, and one that will be slow
start_server {overrides {save ""}} {
lappend replicas [srv 0 client]
lappend replicas_alive [srv 0 client]
start_server {overrides {save ""}} {
lappend replicas [srv 0 client]
lappend replicas_alive [srv 0 client]
# start replication
# it's enough for just one replica to be slow, and have it's write handler enabled
# so that the whole rdb generation process is bound to that
set loglines [count_log_lines -2]
[lindex $replicas 0] config set repl-diskless-load swapdb
[lindex $replicas 0] config set key-load-delay 100 ;# 20k keys and 100 microseconds sleep means at least 2 seconds
[lindex $replicas 0] replicaof $master_host $master_port
[lindex $replicas 1] replicaof $master_host $master_port
# wait for the replicas to start reading the rdb
# using the log file since the replica only responds to INFO once in 2mb
wait_for_log_messages -1 {"*Loading DB in memory*"} 0 1500 10
if {$measure_time} {
set master_statfile "/proc/$master_pid/stat"
set master_start_metrics [get_cpu_metrics $master_statfile]
set start_time [clock seconds]
}
# wait a while so that the pipe socket writer will be
# blocked on write (since replica 0 is slow to read from the socket)
after 500
# add some command to be present in the command stream after the rdb.
$master incr $all_drop
# disconnect replicas depending on the current test
if {$all_drop == "all" || $all_drop == "fast"} {
exec kill [srv 0 pid]
set replicas_alive [lreplace $replicas_alive 1 1]
}
if {$all_drop == "all" || $all_drop == "slow"} {
exec kill [srv -1 pid]
set replicas_alive [lreplace $replicas_alive 0 0]
}
if {$all_drop == "timeout"} {
$master config set repl-timeout 2
# we want the slow replica to hang on a key for very long so it'll reach repl-timeout
pause_process [srv -1 pid]
after 2000
}
# wait for rdb child to exit
wait_for_condition 500 100 {
[s -2 rdb_bgsave_in_progress] == 0
} else {
fail "rdb child didn't terminate"
}
# make sure we got what we were aiming for, by looking for the message in the log file
if {$all_drop == "all"} {
wait_for_log_messages -2 {"*Diskless rdb transfer, last replica dropped, killing fork child*"} $loglines 1 1
}
if {$all_drop == "no"} {
wait_for_log_messages -2 {"*Diskless rdb transfer, done reading from pipe, 2 replicas still up*"} $loglines 1 1
}
if {$all_drop == "slow" || $all_drop == "fast"} {
wait_for_log_messages -2 {"*Diskless rdb transfer, done reading from pipe, 1 replicas still up*"} $loglines 1 1
}
if {$all_drop == "timeout"} {
wait_for_log_messages -2 {"*Disconnecting timedout replica (full sync)*"} $loglines 1 1
wait_for_log_messages -2 {"*Diskless rdb transfer, done reading from pipe, 1 replicas still up*"} $loglines 1 1
# master disconnected the slow replica, remove from array
set replicas_alive [lreplace $replicas_alive 0 0]
# release it
resume_process [srv -1 pid]
}
# make sure we don't have a busy loop going thought epoll_wait
if {$measure_time} {
set master_end_metrics [get_cpu_metrics $master_statfile]
set time_elapsed [expr {[clock seconds]-$start_time}]
set master_cpu [compute_cpu_usage $master_start_metrics $master_end_metrics]
set master_utime [lindex $master_cpu 0]
set master_stime [lindex $master_cpu 1]
if {$::verbose} {
puts "elapsed: $time_elapsed"
puts "master utime: $master_utime"
puts "master stime: $master_stime"
}
if {!$::no_latency && ($all_drop == "all" || $all_drop == "slow" || $all_drop == "timeout")} {
assert {$master_utime < 70}
assert {$master_stime < 70}
}
if {!$::no_latency && ($all_drop == "none" || $all_drop == "fast")} {
assert {$master_utime < 15}
assert {$master_stime < 15}
}
}
# verify the data integrity
foreach replica $replicas_alive {
# Wait that replicas acknowledge they are online so
# we are sure that DBSIZE and DEBUG DIGEST will not
# fail because of timing issues.
wait_for_condition 150 100 {
[lindex [$replica role] 3] eq {connected}
} else {
fail "replicas still not connected after some time"
}
# Make sure that replicas and master have same
# number of keys
wait_for_condition 50 100 {
[$master dbsize] == [$replica dbsize]
} else {
fail "Different number of keys between master and replicas after too long time."
}
# Check digests
set digest [$master debug digest]
set digest0 [$replica debug digest]
assert {$digest ne 0000000000000000000000000000000000000000}
assert {$digest eq $digest0}
}
}
}
}
}
}
test "diskless replication child being killed is collected" {
# when diskless master is waiting for the replica to become writable
# it removes the read event from the rdb pipe so if the child gets killed
# the replica will hung. and the master may not collect the pid with waitpid
start_server {tags {"repl"} overrides {save ""}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
set master_pid [srv 0 pid]
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
# put enough data in the db that the rdb file will be bigger than the socket buffers
$master debug populate 20000 test 10000
$master config set rdbcompression no
start_server {overrides {save ""}} {
set replica [srv 0 client]
set loglines [count_log_lines 0]
$replica config set repl-diskless-load swapdb
$replica config set key-load-delay 1000000
$replica config set loading-process-events-interval-bytes 1024
$replica replicaof $master_host $master_port
# wait for the replicas to start reading the rdb
wait_for_log_messages 0 {"*Loading DB in memory*"} $loglines 1500 10
# wait to be sure the replica is hung and the master is blocked on write
after 500
# simulate the OOM killer or anyone else kills the child
set fork_child_pid [get_child_pid -1]
exec kill -9 $fork_child_pid
# wait for the parent to notice the child have exited
wait_for_condition 50 100 {
[s -1 rdb_bgsave_in_progress] == 0
} else {
fail "rdb child didn't terminate"
}
# Speed up shutdown
$replica config set key-load-delay 0
}
}
} {} {external:skip}
foreach mdl {yes no} {
test "replication child dies when parent is killed - diskless: $mdl" {
# when master is killed, make sure the fork child can detect that and exit
start_server {tags {"repl"} overrides {save ""}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
set master_pid [srv 0 pid]
$master config set repl-diskless-sync $mdl
$master config set repl-diskless-sync-delay 0
# create keys that will take 10 seconds to save
$master config set rdb-key-save-delay 1000
$master debug populate 10000
start_server {overrides {save ""}} {
set replica [srv 0 client]
$replica replicaof $master_host $master_port
# wait for rdb child to start
wait_for_condition 5000 10 {
[s -1 rdb_bgsave_in_progress] == 1
} else {
fail "rdb child didn't start"
}
set fork_child_pid [get_child_pid -1]
# simulate the OOM killer or anyone else kills the parent
exec kill -9 $master_pid
# wait for the child to notice the parent died have exited
wait_for_condition 500 10 {
[process_is_alive $fork_child_pid] == 0
} else {
fail "rdb child didn't terminate"
}
}
}
} {} {external:skip}
}
test "diskless replication read pipe cleanup" {
# In diskless replication, we create a read pipe for the RDB, between the child and the parent.
# When we close this pipe (fd), the read handler also needs to be removed from the event loop (if it still registered).
# Otherwise, next time we will use the same fd, the registration will be fail (panic), because
# we will use EPOLL_CTL_MOD (the fd still register in the event loop), on fd that already removed from epoll_ctl
start_server {tags {"repl"} overrides {save ""}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
set master_pid [srv 0 pid]
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
# put enough data in the db, and slowdown the save, to keep the parent busy at the read process
$master config set rdb-key-save-delay 100000
$master debug populate 20000 test 10000
$master config set rdbcompression no
start_server {overrides {save ""}} {
set replica [srv 0 client]
set loglines [count_log_lines 0]
$replica config set repl-diskless-load swapdb
$replica replicaof $master_host $master_port
# wait for the replicas to start reading the rdb
wait_for_log_messages 0 {"*Loading DB in memory*"} $loglines 1500 10
set loglines [count_log_lines -1]
# send FLUSHALL so the RDB child will be killed
$master flushall
# wait for another RDB child process to be started
wait_for_log_messages -1 {"*Background RDB transfer started by pid*"} $loglines 800 10
# make sure master is alive
$master ping
}
}
} {} {external:skip}
test {replicaof right after disconnection} {
# this is a rare race condition that was reproduced sporadically by the psync2 unit.
# see details in #7205
start_server {tags {"repl"} overrides {save ""}} {
set replica1 [srv 0 client]
set replica1_host [srv 0 host]
set replica1_port [srv 0 port]
set replica1_log [srv 0 stdout]
start_server {overrides {save ""}} {
set replica2 [srv 0 client]
set replica2_host [srv 0 host]
set replica2_port [srv 0 port]
set replica2_log [srv 0 stdout]
start_server {overrides {save ""}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
$replica1 replicaof $master_host $master_port
$replica2 replicaof $master_host $master_port
wait_for_condition 50 100 {
[string match {*master_link_status:up*} [$replica1 info replication]] &&
[string match {*master_link_status:up*} [$replica2 info replication]]
} else {
fail "Can't turn the instance into a replica"
}
set rd [redis_deferring_client -1]
$rd debug sleep 1
after 100
# when replica2 will wake up from the sleep it will find both disconnection
# from it's master and also a replicaof command at the same event loop
$master client kill type replica
$replica2 replicaof $replica1_host $replica1_port
$rd read
wait_for_condition 50 100 {
[string match {*master_link_status:up*} [$replica2 info replication]]
} else {
fail "role change failed."
}
# make sure psync succeeded, and there were no unexpected full syncs.
assert_equal [status $master sync_full] 2
assert_equal [status $replica1 sync_full] 0
assert_equal [status $replica2 sync_full] 0
}
}
}
} {} {external:skip}
test {Kill rdb child process if its dumping RDB is not useful} {
start_server {tags {"repl"}} {
set slave1 [srv 0 client]
start_server {} {
set slave2 [srv 0 client]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
for {set i 0} {$i < 10} {incr i} {
$master set $i $i
}
# Generating RDB will cost 10s(10 * 1s)
$master config set rdb-key-save-delay 1000000
$master config set repl-diskless-sync no
$master config set save ""
$slave1 slaveof $master_host $master_port
$slave2 slaveof $master_host $master_port
# Wait for starting child
wait_for_condition 50 100 {
([s 0 rdb_bgsave_in_progress] == 1) &&
([string match "*wait_bgsave*" [s 0 slave0]]) &&
([string match "*wait_bgsave*" [s 0 slave1]])
} else {
fail "rdb child didn't start"
}
# Slave1 disconnect with master
$slave1 slaveof no one
# Shouldn't kill child since another slave wait for rdb
after 100
assert {[s 0 rdb_bgsave_in_progress] == 1}
# Slave2 disconnect with master
$slave2 slaveof no one
# Should kill child
wait_for_condition 100 10 {
[s 0 rdb_bgsave_in_progress] eq 0
} else {
fail "can't kill rdb child"
}
# If have save parameters, won't kill child
$master config set save "900 1"
$slave1 slaveof $master_host $master_port
$slave2 slaveof $master_host $master_port
wait_for_condition 50 100 {
([s 0 rdb_bgsave_in_progress] == 1) &&
([string match "*wait_bgsave*" [s 0 slave0]]) &&
([string match "*wait_bgsave*" [s 0 slave1]])
} else {
fail "rdb child didn't start"
}
$slave1 slaveof no one
$slave2 slaveof no one
after 200
assert {[s 0 rdb_bgsave_in_progress] == 1}
catch {$master shutdown nosave}
}
}
}
} {} {external:skip}
start_server {tags {"repl external:skip"}} {
set master1_host [srv 0 host]
set master1_port [srv 0 port]
r set a b
start_server {} {
set master2 [srv 0 client]
set master2_host [srv 0 host]
set master2_port [srv 0 port]
# Take 10s for dumping RDB
$master2 debug populate 10 master2 10
$master2 config set rdb-key-save-delay 1000000
start_server {} {
set sub_replica [srv 0 client]
start_server {} {
# Full sync with master1
r slaveof $master1_host $master1_port
wait_for_sync r
assert_equal "b" [r get a]
# Let sub replicas sync with me
$sub_replica slaveof [srv 0 host] [srv 0 port]
wait_for_sync $sub_replica
assert_equal "b" [$sub_replica get a]
# Full sync with master2, and then kill master2 before finishing dumping RDB
r slaveof $master2_host $master2_port
wait_for_condition 50 100 {
([s -2 rdb_bgsave_in_progress] == 1) &&
([string match "*wait_bgsave*" [s -2 slave0]])
} else {
fail "full sync didn't start"
}
catch {$master2 shutdown nosave}
test {Don't disconnect with replicas before loading transferred RDB when full sync} {
assert ![log_file_matches [srv -1 stdout] "*Connection with master lost*"]
# The replication id is not changed in entire replication chain
assert_equal [s master_replid] [s -3 master_replid]
assert_equal [s master_replid] [s -1 master_replid]
}
test {Discard cache master before loading transferred RDB when full sync} {
set full_sync [s -3 sync_full]
set partial_sync [s -3 sync_partial_ok]
# Partial sync with master1
r slaveof $master1_host $master1_port
wait_for_sync r
# master1 accepts partial sync instead of full sync
assert_equal $full_sync [s -3 sync_full]
assert_equal [expr $partial_sync+1] [s -3 sync_partial_ok]
# Since master only partially sync replica, and repl id is not changed,
# the replica doesn't disconnect with its sub-replicas
assert_equal [s master_replid] [s -3 master_replid]
assert_equal [s master_replid] [s -1 master_replid]
assert ![log_file_matches [srv -1 stdout] "*Connection with master lost*"]
# Sub replica just has one full sync, no partial resync.
assert_equal 1 [s sync_full]
assert_equal 0 [s sync_partial_ok]
}
}
}
}
}
test {replica can handle EINTR if use diskless load} {
start_server {tags {"repl"}} {
set replica [srv 0 client]
set replica_log [srv 0 stdout]
start_server {} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
$master debug populate 100 master 100000
$master config set rdbcompression no
$master config set repl-diskless-sync yes
$master config set repl-diskless-sync-delay 0
$replica config set repl-diskless-load on-empty-db
# Construct EINTR error by using the built in watchdog
$replica config set watchdog-period 200
# Block replica in read()
$master config set rdb-key-save-delay 10000
# set speedy shutdown
$master config set save ""
# Start the replication process...
$replica replicaof $master_host $master_port
# Wait for the replica to start reading the rdb
set res [wait_for_log_messages -1 {"*Loading DB in memory*"} 0 200 10]
set loglines [lindex $res 1]
# Wait till we see the watchgod log line AFTER the loading started
wait_for_log_messages -1 {"*WATCHDOG TIMER EXPIRED*"} $loglines 200 10
# Make sure we're still loading, and that there was just one full sync attempt
assert ![log_file_matches [srv -1 stdout] "*Reconnecting to MASTER*"]
assert_equal 1 [s 0 sync_full]
assert_equal 1 [s -1 loading]
}
}
} {} {external:skip}
start_server {tags {"repl" "external:skip"}} {
test "replica do not write the reply to the replication link - SYNC (_addReplyToBufferOrList)" {
set rd [redis_deferring_client]
set lines [count_log_lines 0]
$rd sync
$rd ping
catch {$rd read} e
if {$::verbose} { puts "SYNC _addReplyToBufferOrList: $e" }
assert_equal "PONG" [r ping]
# Check we got the warning logs about the PING command.
verify_log_message 0 "*Replica generated a reply to command 'ping', disconnecting it: *" $lines
$rd close
waitForBgsave r
}
test "replica do not write the reply to the replication link - SYNC (addReplyDeferredLen)" {
set rd [redis_deferring_client]
set lines [count_log_lines 0]
$rd sync
$rd xinfo help
catch {$rd read} e
if {$::verbose} { puts "SYNC addReplyDeferredLen: $e" }
assert_equal "PONG" [r ping]
# Check we got the warning logs about the XINFO HELP command.
verify_log_message 0 "*Replica generated a reply to command 'xinfo|help', disconnecting it: *" $lines
$rd close
waitForBgsave r
}
test "replica do not write the reply to the replication link - PSYNC (_addReplyToBufferOrList)" {
set rd [redis_deferring_client]
set lines [count_log_lines 0]
$rd psync replicationid -1
assert_match {FULLRESYNC * 0} [$rd read]
$rd get foo
catch {$rd read} e
if {$::verbose} { puts "PSYNC _addReplyToBufferOrList: $e" }
assert_equal "PONG" [r ping]
# Check we got the warning logs about the GET command.
verify_log_message 0 "*Replica generated a reply to command 'get', disconnecting it: *" $lines
verify_log_message 0 "*== CRITICAL == This master is sending an error to its replica: *" $lines
verify_log_message 0 "*Replica can't interact with the keyspace*" $lines
$rd close
waitForBgsave r
}
test "replica do not write the reply to the replication link - PSYNC (addReplyDeferredLen)" {
set rd [redis_deferring_client]
set lines [count_log_lines 0]
$rd psync replicationid -1
assert_match {FULLRESYNC * 0} [$rd read]
$rd slowlog get
catch {$rd read} e
if {$::verbose} { puts "PSYNC addReplyDeferredLen: $e" }
assert_equal "PONG" [r ping]
# Check we got the warning logs about the SLOWLOG GET command.
verify_log_message 0 "*Replica generated a reply to command 'slowlog|get', disconnecting it: *" $lines
$rd close
waitForBgsave r
}
test "PSYNC with wrong offset should throw error" {
# It used to accept the FULL SYNC, but also replied with an error.
assert_error {ERR value is not an integer or out of range} {r psync replicationid offset_str}
set logs [exec tail -n 100 < [srv 0 stdout]]
assert_match {*Replica * asks for synchronization but with a wrong offset} $logs
assert_equal "PONG" [r ping]
}
}
start_server {tags {"repl external:skip"}} {
set master [srv 0 client]
set master_host [srv 0 host]
set master_port [srv 0 port]
$master debug SET-ACTIVE-EXPIRE 0
start_server {} {
set slave [srv 0 client]
$slave debug SET-ACTIVE-EXPIRE 0
$slave slaveof $master_host $master_port
test "Test replication with lazy expire" {
# wait for replication to be in sync
wait_for_condition 50 100 {
[lindex [$slave role] 0] eq {slave} &&
[string match {*master_link_status:up*} [$slave info replication]]
} else {
fail "Can't turn the instance into a replica"
}
$master sadd s foo
$master pexpire s 1
after 10
$master sadd s foo
assert_equal 1 [$master wait 1 0]
assert_equal "set" [$master type s]
assert_equal "set" [$slave type s]
}
}
}
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