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redict/tests/integration/rdb.tcl
Yossi Gottlieb 522d93607a
Add io-thread daily CI tests. (#8232) 
This adds basic coverage to IO threads by running the cluster and few selected Redis test suite tests with the IO threads enabled.

Also provides some necessary additional improvements to the test suite:

* Add --config to sentinel/cluster tests for arbitrary configuration.
* Fix --tags whitelisting which was broken.
* Add a `network` tag to some tests that are more network intensive. This is work in progress and more tests should be properly tagged in the future.
2021-01-17 15:48:48 +02:00

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tags {"rdb"} {
set server_path [tmpdir "server.rdb-encoding-test"]
# Copy RDB with different encodings in server path
exec cp tests/assets/encodings.rdb $server_path
start_server [list overrides [list "dir" $server_path "dbfilename" "encodings.rdb"]] {
test "RDB encoding loading test" {
r select 0
csvdump r
} {"0","compressible","string","aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"
"0","hash","hash","a","1","aa","10","aaa","100","b","2","bb","20","bbb","200","c","3","cc","30","ccc","300","ddd","400","eee","5000000000",
"0","hash_zipped","hash","a","1","b","2","c","3",
"0","list","list","1","2","3","a","b","c","100000","6000000000","1","2","3","a","b","c","100000","6000000000","1","2","3","a","b","c","100000","6000000000",
"0","list_zipped","list","1","2","3","a","b","c","100000","6000000000",
"0","number","string","10"
"0","set","set","1","100000","2","3","6000000000","a","b","c",
"0","set_zipped_1","set","1","2","3","4",
"0","set_zipped_2","set","100000","200000","300000","400000",
"0","set_zipped_3","set","1000000000","2000000000","3000000000","4000000000","5000000000","6000000000",
"0","string","string","Hello World"
"0","zset","zset","a","1","b","2","c","3","aa","10","bb","20","cc","30","aaa","100","bbb","200","ccc","300","aaaa","1000","cccc","123456789","bbbb","5000000000",
"0","zset_zipped","zset","a","1","b","2","c","3",
}
}
set server_path [tmpdir "server.rdb-startup-test"]
start_server [list overrides [list "dir" $server_path] keep_persistence true] {
test {Server started empty with non-existing RDB file} {
r debug digest
} {0000000000000000000000000000000000000000}
# Save an RDB file, needed for the next test.
r save
}
start_server [list overrides [list "dir" $server_path] keep_persistence true] {
test {Server started empty with empty RDB file} {
r debug digest
} {0000000000000000000000000000000000000000}
}
start_server [list overrides [list "dir" $server_path] keep_persistence true] {
test {Test RDB stream encoding} {
for {set j 0} {$j < 1000} {incr j} {
if {rand() < 0.9} {
r xadd stream * foo $j
} else {
r xadd stream * bar $j
}
}
r xgroup create stream mygroup 0
set records [r xreadgroup GROUP mygroup Alice COUNT 2 STREAMS stream >]
r xack stream mygroup [lindex [lindex [lindex [lindex $records 0] 1] 0] 0]
set digest [r debug digest]
r config set sanitize-dump-payload no
r debug reload
set newdigest [r debug digest]
assert {$digest eq $newdigest}
}
test {Test RDB stream encoding - sanitize dump} {
r config set sanitize-dump-payload yes
r debug reload
set newdigest [r debug digest]
assert {$digest eq $newdigest}
}
# delete the stream, maybe valgrind will find something
r del stream
}
# Helper function to start a server and kill it, just to check the error
# logged.
set defaults {}
proc start_server_and_kill_it {overrides code} {
upvar defaults defaults srv srv server_path server_path
set config [concat $defaults $overrides]
set srv [start_server [list overrides $config keep_persistence true]]
uplevel 1 $code
kill_server $srv
}
# Make the RDB file unreadable
file attributes [file join $server_path dump.rdb] -permissions 0222
# Detect root account (it is able to read the file even with 002 perm)
set isroot 0
catch {
open [file join $server_path dump.rdb]
set isroot 1
}
# Now make sure the server aborted with an error
if {!$isroot} {
start_server_and_kill_it [list "dir" $server_path] {
test {Server should not start if RDB file can't be open} {
wait_for_condition 50 100 {
[string match {*Fatal error loading*} \
[exec tail -1 < [dict get $srv stdout]]]
} else {
fail "Server started even if RDB was unreadable!"
}
}
}
}
# Fix permissions of the RDB file.
file attributes [file join $server_path dump.rdb] -permissions 0666
# Corrupt its CRC64 checksum.
set filesize [file size [file join $server_path dump.rdb]]
set fd [open [file join $server_path dump.rdb] r+]
fconfigure $fd -translation binary
seek $fd -8 end
puts -nonewline $fd "foobar00"; # Corrupt the checksum
close $fd
# Now make sure the server aborted with an error
start_server_and_kill_it [list "dir" $server_path] {
test {Server should not start if RDB is corrupted} {
wait_for_condition 50 100 {
[string match {*CRC error*} \
[exec tail -10 < [dict get $srv stdout]]]
} else {
fail "Server started even if RDB was corrupted!"
}
}
}
start_server {} {
test {Test FLUSHALL aborts bgsave} {
# 1000 keys with 1ms sleep per key shuld take 1 second
r config set rdb-key-save-delay 1000
r debug populate 1000
r bgsave
assert_equal [s rdb_bgsave_in_progress] 1
r flushall
# wait half a second max
wait_for_condition 5 100 {
[s rdb_bgsave_in_progress] == 0
} else {
fail "bgsave not aborted"
}
# veirfy that bgsave failed, by checking that the change counter is still high
assert_lessthan 999 [s rdb_changes_since_last_save]
# make sure the server is still writable
r set x xx
}
test {bgsave resets the change counter} {
r config set rdb-key-save-delay 0
r bgsave
wait_for_condition 50 100 {
[s rdb_bgsave_in_progress] == 0
} else {
fail "bgsave not done"
}
assert_equal [s rdb_changes_since_last_save] 0
}
}
test {client freed during loading} {
start_server [list overrides [list key-load-delay 10 rdbcompression no]] {
# create a big rdb that will take long to load. it is important
# for keys to be big since the server processes events only once in 2mb.
# 100mb of rdb, 100k keys will load in more than 1 second
r debug populate 100000 key 1000
restart_server 0 false false
# make sure it's still loading
assert_equal [s loading] 1
# connect and disconnect 10 clients
set clients {}
for {set j 0} {$j < 10} {incr j} {
lappend clients [redis_deferring_client]
}
foreach rd $clients {
$rd debug log bla
}
foreach rd $clients {
$rd read
}
foreach rd $clients {
$rd close
}
# make sure the server freed the clients
wait_for_condition 100 100 {
[s connected_clients] < 3
} else {
fail "clients didn't disconnect"
}
# make sure it's still loading
assert_equal [s loading] 1
# no need to keep waiting for loading to complete
exec kill [srv 0 pid]
}
}
# Our COW metrics (Private_Dirty) work only on Linux
set system_name [string tolower [exec uname -s]]
if {$system_name eq {linux}} {
start_server {overrides {save ""}} {
test {Test child sending COW info} {
# make sure that rdb_last_cow_size and current_cow_size are zero (the test using new server),
# so that the comparisons during the test will be valid
assert {[s current_cow_size] == 0}
assert {[s rdb_last_cow_size] == 0}
# using a 200us delay, the bgsave is empirically taking about 10 seconds.
# we need it to take more than some 5 seconds, since redis only report COW once a second.
r config set rdb-key-save-delay 200
r config set loglevel debug
# populate the db with 10k keys of 4k each
set rd [redis_deferring_client 0]
set size 4096
set cmd_count 10000
for {set k 0} {$k < $cmd_count} {incr k} {
$rd set key$k [string repeat A $size]
}
for {set k 0} {$k < $cmd_count} {incr k} {
catch { $rd read }
}
$rd close
# start background rdb save
r bgsave
# on each iteration, we will write some key to the server to trigger copy-on-write, and
# wait to see that it reflected in INFO.
set iteration 1
while 1 {
# take a sample before writing new data to the server
set cow_size [s current_cow_size]
if {$::verbose} {
puts "COW info before copy-on-write: $cow_size"
}
# trigger copy-on-write
r setrange key$iteration 0 [string repeat B $size]
# wait to see that current_cow_size value updated (as long as the child is in progress)
wait_for_condition 80 100 {
[s rdb_bgsave_in_progress] == 0 ||
[s current_cow_size] >= $cow_size + $size
} else {
if {$::verbose} {
puts "COW info on fail: [s current_cow_size]"
puts [exec tail -n 100 < [srv 0 stdout]]
}
fail "COW info wasn't reported"
}
# for no accurate, stop after 2 iterations
if {!$::accurate && $iteration == 2} {
break
}
# stop iterating if the bgsave completed
if { [s rdb_bgsave_in_progress] == 0 } {
break
}
incr iteration 1
}
# make sure we saw report of current_cow_size
if {$iteration < 2 && $::verbose} {
puts [exec tail -n 100 < [srv 0 stdout]]
}
assert_morethan_equal $iteration 2
# if bgsave completed, check that rdb_last_cow_size (fork exit report)
# is at least 90% of last rdb_active_cow_size.
if { [s rdb_bgsave_in_progress] == 0 } {
set final_cow [s rdb_last_cow_size]
set cow_size [expr $cow_size * 0.9]
if {$final_cow < $cow_size && $::verbose} {
puts [exec tail -n 100 < [srv 0 stdout]]
}
assert_morethan_equal $final_cow $cow_size
}
}
}
} ;# system_name
} ;# tags
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