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87789fae0b
valkey/tests/instances.tcl
chenyang8094 87789fae0b
Implement Multi Part AOF mechanism to avoid AOFRW overheads. (#9788) 
Implement Multi-Part AOF mechanism to avoid overheads during AOFRW.
Introducing a folder with multiple AOF files tracked by a manifest file.

The main issues with the the original AOFRW mechanism are:
* buffering of commands that are processed during rewrite (consuming a lot of RAM)
* freezes of the main process when the AOFRW completes to drain the remaining part of the buffer and fsync it.
* double disk IO for the data that arrives during AOFRW (had to be written to both the old and new AOF files)

The main modifications of this PR:
1. Remove the AOF rewrite buffer and related code.
2. Divide the AOF into multiple files, they are classified as two types, one is the the `BASE` type,
  it represents the full amount of data (Maybe AOF or RDB format) after each AOFRW, there is only
  one `BASE` file at most. The second is `INCR` type, may have more than one. They represent the
  incremental commands since the last AOFRW.
3. Use a AOF manifest file to record and manage these AOF files mentioned above.
4. The original configuration of `appendfilename` will be the base part of the new file name, for example:
  `appendonly.aof.1.base.rdb` and `appendonly.aof.2.incr.aof`
5. Add manifest-related TCL tests, and modified some existing tests that depend on the `appendfilename`
6. Remove the `aof_rewrite_buffer_length` field in info.
7. Add `aof-disable-auto-gc` configuration. By default we're automatically deleting HISTORY type AOFs.
  It also gives users the opportunity to preserve the history AOFs. just for testing use now.
8. Add AOFRW limiting measure. When the AOFRW failures reaches the threshold (3 times now),
  we will delay the execution of the next AOFRW by 1 minute. If the next AOFRW also fails, it will be
  delayed by 2 minutes. The next is 4, 8, 16, the maximum delay is 60 minutes (1 hour). During the limit
  period, we can still use the 'bgrewriteaof' command to execute AOFRW immediately.
9. Support upgrade (load) data from old version redis.
10. Add `appenddirname` configuration, as the directory name of the append only files. All AOF files and
  manifest file will be placed in this directory.
11. Only the last AOF file (BASE or INCR) can be truncated. Otherwise redis will exit even if
  `aof-load-truncated` is enabled.

Co-authored-by: Oran Agra <oran@redislabs.com>
2022-01-03 19:14:13 +02:00

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# Multi-instance test framework.
# This is used in order to test Sentinel and Redis Cluster, and provides
# basic capabilities for spawning and handling N parallel Redis / Sentinel
# instances.
#
# Copyright (C) 2014 Salvatore Sanfilippo antirez@gmail.com
# This software is released under the BSD License. See the COPYING file for
# more information.
package require Tcl 8.5
set tcl_precision 17
source ../support/redis.tcl
source ../support/util.tcl
source ../support/aofmanifest.tcl
source ../support/server.tcl
source ../support/test.tcl
set ::verbose 0
set ::valgrind 0
set ::tls 0
set ::pause_on_error 0
set ::dont_clean 0
set ::simulate_error 0
set ::failed 0
set ::sentinel_instances {}
set ::redis_instances {}
set ::global_config {}
set ::sentinel_base_port 20000
set ::redis_base_port 30000
set ::redis_port_count 1024
set ::host "127.0.0.1"
set ::leaked_fds_file [file normalize "tmp/leaked_fds.txt"]
set ::pids {} ; # We kill everything at exit
set ::dirs {} ; # We remove all the temp dirs at exit
set ::run_matching {} ; # If non empty, only tests matching pattern are run.
if {[catch {cd tmp}]} {
puts "tmp directory not found."
puts "Please run this test from the Redis source root."
exit 1
}
# Execute the specified instance of the server specified by 'type', using
# the provided configuration file. Returns the PID of the process.
proc exec_instance {type dirname cfgfile} {
if {$type eq "redis"} {
set prgname redis-server
} elseif {$type eq "sentinel"} {
set prgname redis-sentinel
} else {
error "Unknown instance type."
}
set errfile [file join $dirname err.txt]
if {$::valgrind} {
set pid [exec valgrind --track-origins=yes --suppressions=../../../src/valgrind.sup --show-reachable=no --show-possibly-lost=no --leak-check=full ../../../src/${prgname} $cfgfile 2>> $errfile &]
} else {
set pid [exec ../../../src/${prgname} $cfgfile 2>> $errfile &]
}
return $pid
}
# Spawn a redis or sentinel instance, depending on 'type'.
proc spawn_instance {type base_port count {conf {}} {base_conf_file ""}} {
for {set j 0} {$j < $count} {incr j} {
set port [find_available_port $base_port $::redis_port_count]
# plaintext port (only used for TLS cluster)
set pport 0
# Create a directory for this instance.
set dirname "${type}_${j}"
lappend ::dirs $dirname
catch {exec rm -rf $dirname}
file mkdir $dirname
# Write the instance config file.
set cfgfile [file join $dirname $type.conf]
if {$base_conf_file ne ""} {
file copy -- $base_conf_file $cfgfile
set cfg [open $cfgfile a+]
} else {
set cfg [open $cfgfile w]
}
if {$::tls} {
puts $cfg "tls-port $port"
puts $cfg "tls-replication yes"
puts $cfg "tls-cluster yes"
# plaintext port, only used by plaintext clients in a TLS cluster
set pport [find_available_port $base_port $::redis_port_count]
puts $cfg "port $pport"
puts $cfg [format "tls-cert-file %s/../../tls/server.crt" [pwd]]
puts $cfg [format "tls-key-file %s/../../tls/server.key" [pwd]]
puts $cfg [format "tls-client-cert-file %s/../../tls/client.crt" [pwd]]
puts $cfg [format "tls-client-key-file %s/../../tls/client.key" [pwd]]
puts $cfg [format "tls-dh-params-file %s/../../tls/redis.dh" [pwd]]
puts $cfg [format "tls-ca-cert-file %s/../../tls/ca.crt" [pwd]]
puts $cfg "loglevel debug"
} else {
puts $cfg "port $port"
}
puts $cfg "dir ./$dirname"
puts $cfg "logfile log.txt"
# Add additional config files
foreach directive $conf {
puts $cfg $directive
}
dict for {name val} $::global_config {
puts $cfg "$name $val"
}
close $cfg
# Finally exec it and remember the pid for later cleanup.
set retry 100
while {$retry} {
set pid [exec_instance $type $dirname $cfgfile]
# Check availability
if {[server_is_up 127.0.0.1 $port 100] == 0} {
puts "Starting $type #$j at port $port failed, try another"
incr retry -1
set port [find_available_port $base_port $::redis_port_count]
set cfg [open $cfgfile a+]
if {$::tls} {
puts $cfg "tls-port $port"
set pport [find_available_port $base_port $::redis_port_count]
puts $cfg "port $pport"
} else {
puts $cfg "port $port"
}
close $cfg
} else {
puts "Starting $type #$j at port $port"
lappend ::pids $pid
break
}
}
# Check availability finally
if {[server_is_up $::host $port 100] == 0} {
set logfile [file join $dirname log.txt]
puts [exec tail $logfile]
abort_sentinel_test "Problems starting $type #$j: ping timeout, maybe server start failed, check $logfile"
}
# Push the instance into the right list
set link [redis $::host $port 0 $::tls]
$link reconnect 1
lappend ::${type}_instances [list \
pid $pid \
host $::host \
port $port \
plaintext-port $pport \
link $link \
]
}
}
proc log_crashes {} {
set start_pattern {*REDIS BUG REPORT START*}
set logs [glob */log.txt]
foreach log $logs {
set fd [open $log]
set found 0
while {[gets $fd line] >= 0} {
if {[string match $start_pattern $line]} {
puts "\n*** Crash report found in $log ***"
set found 1
}
if {$found} {
puts $line
incr ::failed
}
}
}
set logs [glob */err.txt]
foreach log $logs {
set res [find_valgrind_errors $log true]
if {$res != ""} {
puts $res
incr ::failed
}
}
set logs [glob */err.txt]
foreach log $logs {
set res [sanitizer_errors_from_file $log]
if {$res != ""} {
puts $res
incr ::failed
}
}
}
proc is_alive pid {
if {[catch {exec ps -p $pid} err]} {
return 0
} else {
return 1
}
}
proc stop_instance pid {
catch {exec kill $pid}
# Node might have been stopped in the test
catch {exec kill -SIGCONT $pid}
if {$::valgrind} {
set max_wait 120000
} else {
set max_wait 10000
}
while {[is_alive $pid]} {
incr wait 10
if {$wait == $max_wait} {
puts [colorstr red "Forcing process $pid to crash..."]
catch {exec kill -SEGV $pid}
} elseif {$wait >= $max_wait * 2} {
puts [colorstr red "Forcing process $pid to exit..."]
catch {exec kill -KILL $pid}
} elseif {$wait % 1000 == 0} {
puts "Waiting for process $pid to exit..."
}
after 10
}
}
proc cleanup {} {
puts "Cleaning up..."
foreach pid $::pids {
puts "killing stale instance $pid"
stop_instance $pid
}
log_crashes
if {$::dont_clean} {
return
}
foreach dir $::dirs {
catch {exec rm -rf $dir}
}
}
proc abort_sentinel_test msg {
incr ::failed
puts "WARNING: Aborting the test."
puts ">>>>>>>> $msg"
if {$::pause_on_error} pause_on_error
cleanup
exit 1
}
proc parse_options {} {
for {set j 0} {$j < [llength $::argv]} {incr j} {
set opt [lindex $::argv $j]
set val [lindex $::argv [expr $j+1]]
if {$opt eq "--single"} {
incr j
set ::run_matching "*${val}*"
} elseif {$opt eq "--pause-on-error"} {
set ::pause_on_error 1
} elseif {$opt eq {--dont-clean}} {
set ::dont_clean 1
} elseif {$opt eq "--fail"} {
set ::simulate_error 1
} elseif {$opt eq {--valgrind}} {
set ::valgrind 1
} elseif {$opt eq {--host}} {
incr j
set ::host ${val}
} elseif {$opt eq {--tls}} {
package require tls 1.6
::tls::init \
-cafile "$::tlsdir/ca.crt" \
-certfile "$::tlsdir/client.crt" \
-keyfile "$::tlsdir/client.key"
set ::tls 1
} elseif {$opt eq {--config}} {
set val2 [lindex $::argv [expr $j+2]]
dict set ::global_config $val $val2
incr j 2
} elseif {$opt eq "--help"} {
puts "--single <pattern> Only runs tests specified by pattern."
puts "--dont-clean Keep log files on exit."
puts "--pause-on-error Pause for manual inspection on error."
puts "--fail Simulate a test failure."
puts "--valgrind Run with valgrind."
puts "--tls Run tests in TLS mode."
puts "--host <host> Use hostname instead of 127.0.0.1."
puts "--config <k> <v> Extra config argument(s)."
puts "--help Shows this help."
exit 0
} else {
puts "Unknown option $opt"
exit 1
}
}
}
# If --pause-on-error option was passed at startup this function is called
# on error in order to give the developer a chance to understand more about
# the error condition while the instances are still running.
proc pause_on_error {} {
puts ""
puts [colorstr yellow "*** Please inspect the error now ***"]
puts "\nType \"continue\" to resume the test, \"help\" for help screen.\n"
while 1 {
puts -nonewline "> "
flush stdout
set line [gets stdin]
set argv [split $line " "]
set cmd [lindex $argv 0]
if {$cmd eq {continue}} {
break
} elseif {$cmd eq {show-redis-logs}} {
set count 10
if {[lindex $argv 1] ne {}} {set count [lindex $argv 1]}
foreach_redis_id id {
puts "=== REDIS $id ===="
puts [exec tail -$count redis_$id/log.txt]
puts "---------------------\n"
}
} elseif {$cmd eq {show-sentinel-logs}} {
set count 10
if {[lindex $argv 1] ne {}} {set count [lindex $argv 1]}
foreach_sentinel_id id {
puts "=== SENTINEL $id ===="
puts [exec tail -$count sentinel_$id/log.txt]
puts "---------------------\n"
}
} elseif {$cmd eq {ls}} {
foreach_redis_id id {
puts -nonewline "Redis $id"
set errcode [catch {
set str {}
append str "@[RI $id tcp_port]: "
append str "[RI $id role] "
if {[RI $id role] eq {slave}} {
append str "[RI $id master_host]:[RI $id master_port]"
}
set str
} retval]
if {$errcode} {
puts " -- $retval"
} else {
puts $retval
}
}
foreach_sentinel_id id {
puts -nonewline "Sentinel $id"
set errcode [catch {
set str {}
append str "@[SI $id tcp_port]: "
append str "[join [S $id sentinel get-master-addr-by-name mymaster]]"
set str
} retval]
if {$errcode} {
puts " -- $retval"
} else {
puts $retval
}
}
} elseif {$cmd eq {help}} {
puts "ls List Sentinel and Redis instances."
puts "show-sentinel-logs \[N\] Show latest N lines of logs."
puts "show-redis-logs \[N\] Show latest N lines of logs."
puts "S <id> cmd ... arg Call command in Sentinel <id>."
puts "R <id> cmd ... arg Call command in Redis <id>."
puts "SI <id> <field> Show Sentinel <id> INFO <field>."
puts "RI <id> <field> Show Redis <id> INFO <field>."
puts "continue Resume test."
} else {
set errcode [catch {eval $line} retval]
if {$retval ne {}} {puts "$retval"}
}
}
}
# We redefine 'test' as for Sentinel we don't use the server-client
# architecture for the test, everything is sequential.
proc test {descr code} {
set ts [clock format [clock seconds] -format %H:%M:%S]
puts -nonewline "$ts> $descr: "
flush stdout
if {[catch {set retval [uplevel 1 $code]} error]} {
incr ::failed
if {[string match "assertion:*" $error]} {
set msg "FAILED: [string range $error 10 end]"
puts [colorstr red $msg]
if {$::pause_on_error} pause_on_error
puts [colorstr red "(Jumping to next unit after error)"]
return -code continue
} else {
# Re-raise, let handler up the stack take care of this.
error $error $::errorInfo
}
} else {
puts [colorstr green OK]
}
}
# Check memory leaks when running on OSX using the "leaks" utility.
proc check_leaks instance_types {
if {[string match {*Darwin*} [exec uname -a]]} {
puts -nonewline "Testing for memory leaks..."; flush stdout
foreach type $instance_types {
foreach_instance_id [set ::${type}_instances] id {
if {[instance_is_killed $type $id]} continue
set pid [get_instance_attrib $type $id pid]
set output {0 leaks}
catch {exec leaks $pid} output
if {[string match {*process does not exist*} $output] ||
[string match {*cannot examine*} $output]} {
# In a few tests we kill the server process.
set output "0 leaks"
} else {
puts -nonewline "$type/$pid "
flush stdout
}
if {![string match {*0 leaks*} $output]} {
puts [colorstr red "=== MEMORY LEAK DETECTED ==="]
puts "Instance type $type, ID $id:"
puts $output
puts "==="
incr ::failed
}
}
}
puts ""
}
}
# Execute all the units inside the 'tests' directory.
proc run_tests {} {
set tests [lsort [glob ../tests/*]]
foreach test $tests {
# Remove leaked_fds file before starting
if {$::leaked_fds_file != "" && [file exists $::leaked_fds_file]} {
file delete $::leaked_fds_file
}
if {$::run_matching ne {} && [string match $::run_matching $test] == 0} {
continue
}
if {[file isdirectory $test]} continue
puts [colorstr yellow "Testing unit: [lindex [file split $test] end]"]
source $test
check_leaks {redis sentinel}
# Check if a leaked fds file was created and abort the test.
if {$::leaked_fds_file != "" && [file exists $::leaked_fds_file]} {
puts [colorstr red "ERROR: Sentinel has leaked fds to scripts:"]
puts [exec cat $::leaked_fds_file]
puts "----"
incr ::failed
}
}
}
# Print a message and exists with 0 / 1 according to zero or more failures.
proc end_tests {} {
if {$::failed == 0 } {
puts [colorstr green "GOOD! No errors."]
exit 0
} else {
puts [colorstr red "WARNING $::failed test(s) failed."]
exit 1
}
}
# The "S" command is used to interact with the N-th Sentinel.
# The general form is:
#
# S <sentinel-id> command arg arg arg ...
#
# Example to ping the Sentinel 0 (first instance): S 0 PING
proc S {n args} {
set s [lindex $::sentinel_instances $n]
[dict get $s link] {*}$args
}
# Returns a Redis instance by index.
# Example:
# [Rn 0] info
proc Rn {n} {
return [dict get [lindex $::redis_instances $n] link]
}
# Like R but to chat with Redis instances.
proc R {n args} {
[Rn $n] {*}$args
}
proc get_info_field {info field} {
set fl [string length $field]
append field :
foreach line [split $info "\n"] {
set line [string trim $line "\r\n "]
if {[string range $line 0 $fl] eq $field} {
return [string range $line [expr {$fl+1}] end]
}
}
return {}
}
proc SI {n field} {
get_info_field [S $n info] $field
}
proc RI {n field} {
get_info_field [R $n info] $field
}
proc RPort {n} {
if {$::tls} {
return [lindex [R $n config get tls-port] 1]
} else {
return [lindex [R $n config get port] 1]
}
}
# Iterate over IDs of sentinel or redis instances.
proc foreach_instance_id {instances idvar code} {
upvar 1 $idvar id
for {set id 0} {$id < [llength $instances]} {incr id} {
set errcode [catch {uplevel 1 $code} result]
if {$errcode == 1} {
error $result $::errorInfo $::errorCode
} elseif {$errcode == 4} {
continue
} elseif {$errcode == 3} {
break
} elseif {$errcode != 0} {
return -code $errcode $result
}
}
}
proc foreach_sentinel_id {idvar code} {
set errcode [catch {uplevel 1 [list foreach_instance_id $::sentinel_instances $idvar $code]} result]
return -code $errcode $result
}
proc foreach_redis_id {idvar code} {
set errcode [catch {uplevel 1 [list foreach_instance_id $::redis_instances $idvar $code]} result]
return -code $errcode $result
}
# Get the specific attribute of the specified instance type, id.
proc get_instance_attrib {type id attrib} {
dict get [lindex [set ::${type}_instances] $id] $attrib
}
# Set the specific attribute of the specified instance type, id.
proc set_instance_attrib {type id attrib newval} {
set d [lindex [set ::${type}_instances] $id]
dict set d $attrib $newval
lset ::${type}_instances $id $d
}
# Create a master-slave cluster of the given number of total instances.
# The first instance "0" is the master, all others are configured as
# slaves.
proc create_redis_master_slave_cluster n {
foreach_redis_id id {
if {$id == 0} {
# Our master.
R $id slaveof no one
R $id flushall
} elseif {$id < $n} {
R $id slaveof [get_instance_attrib redis 0 host] \
[get_instance_attrib redis 0 port]
} else {
# Instances not part of the cluster.
R $id slaveof no one
}
}
# Wait for all the slaves to sync.
wait_for_condition 1000 50 {
[RI 0 connected_slaves] == ($n-1)
} else {
fail "Unable to create a master-slaves cluster."
}
}
proc get_instance_id_by_port {type port} {
foreach_${type}_id id {
if {[get_instance_attrib $type $id port] == $port} {
return $id
}
}
fail "Instance $type port $port not found."
}
# Kill an instance of the specified type/id with SIGKILL.
# This function will mark the instance PID as -1 to remember that this instance
# is no longer running and will remove its PID from the list of pids that
# we kill at cleanup.
#
# The instance can be restarted with restart-instance.
proc kill_instance {type id} {
set pid [get_instance_attrib $type $id pid]
set port [get_instance_attrib $type $id port]
if {$pid == -1} {
error "You tried to kill $type $id twice."
}
stop_instance $pid
set_instance_attrib $type $id pid -1
set_instance_attrib $type $id link you_tried_to_talk_with_killed_instance
# Remove the PID from the list of pids to kill at exit.
set ::pids [lsearch -all -inline -not -exact $::pids $pid]
# Wait for the port it was using to be available again, so that's not
# an issue to start a new server ASAP with the same port.
set retry 100
while {[incr retry -1]} {
set port_is_free [catch {set s [socket 127.0.0.1 $port]}]
if {$port_is_free} break
catch {close $s}
after 100
}
if {$retry == 0} {
error "Port $port does not return available after killing instance."
}
}
# Return true of the instance of the specified type/id is killed.
proc instance_is_killed {type id} {
set pid [get_instance_attrib $type $id pid]
expr {$pid == -1}
}
# Restart an instance previously killed by kill_instance
proc restart_instance {type id} {
set dirname "${type}_${id}"
set cfgfile [file join $dirname $type.conf]
set port [get_instance_attrib $type $id port]
# Execute the instance with its old setup and append the new pid
# file for cleanup.
set pid [exec_instance $type $dirname $cfgfile]
set_instance_attrib $type $id pid $pid
lappend ::pids $pid
# Check that the instance is running
if {[server_is_up 127.0.0.1 $port 100] == 0} {
set logfile [file join $dirname log.txt]
puts [exec tail $logfile]
abort_sentinel_test "Problems starting $type #$id: ping timeout, maybe server start failed, check $logfile"
}
# Connect with it with a fresh link
set link [redis 127.0.0.1 $port 0 $::tls]
$link reconnect 1
set_instance_attrib $type $id link $link
# Make sure the instance is not loading the dataset when this
# function returns.
while 1 {
catch {[$link ping]} retval
if {[string match {*LOADING*} $retval]} {
after 100
continue
} else {
break
}
}
}
proc redis_deferring_client {type id} {
set port [get_instance_attrib $type $id port]
set host [get_instance_attrib $type $id host]
set client [redis $host $port 1 $::tls]
return $client
}
proc redis_deferring_client_by_addr {host port} {
set client [redis $host $port 1 $::tls]
return $client
}
proc redis_client {type id} {
set port [get_instance_attrib $type $id port]
set host [get_instance_attrib $type $id host]
set client [redis $host $port 0 $::tls]
return $client
}
proc redis_client_by_addr {host port} {
set client [redis $host $port 0 $::tls]
return $client
}
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