tags {"rdb external:skip"} { 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 abc } else { r xadd stream * bar $j } } r xgroup create stream mygroup 0 set records [r xreadgroup GROUP mygroup Alice COUNT 2 STREAMS stream >] r xdel stream [lindex [lindex [lindex [lindex $records 0] 1] 1] 0] 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 $srv stdout]]] } else { fail "Server started even if RDB was corrupted!" } } } start_server {} { test {Test FLUSHALL aborts bgsave} { # 1000 keys with 1ms sleep per key should take 1 second r config set rdb-key-save-delay 1000 r debug populate 1000 r bgsave assert_equal [s rdb_bgsave_in_progress] 1 r flushall # wait half a second max wait_for_condition 5 100 { [s rdb_bgsave_in_progress] == 0 } else { fail "bgsave not aborted" } # veirfy that bgsave failed, by checking that the change counter is still high assert_lessthan 999 [s rdb_changes_since_last_save] # make sure the server is still writable r set x xx } test {bgsave resets the change counter} { r config set rdb-key-save-delay 0 r bgsave wait_for_condition 50 100 { [s rdb_bgsave_in_progress] == 0 } else { fail "bgsave not done" } assert_equal [s rdb_changes_since_last_save] 0 } } test {client freed during loading} { start_server [list overrides [list key-load-delay 50 rdbcompression no]] { # create a big rdb that will take long to load. it is important # for keys to be big since the server processes events only once in 2mb. # 100mb of rdb, 100k keys will load in more than 5 seconds r debug populate 100000 key 1000 restart_server 0 false false # make sure it's still loading assert_equal [s loading] 1 # connect and disconnect 5 clients set clients {} for {set j 0} {$j < 5} {incr j} { lappend clients [redis_deferring_client] } foreach rd $clients { $rd debug log bla } foreach rd $clients { $rd read } foreach rd $clients { $rd close } # make sure the server freed the clients wait_for_condition 100 100 { [s connected_clients] < 3 } else { fail "clients didn't disconnect" } # make sure it's still loading assert_equal [s loading] 1 # no need to keep waiting for loading to complete exec kill [srv 0 pid] } } start_server {} { test {Test RDB load info} { r debug populate 1000 r save restart_server 0 true false wait_done_loading r assert {[s rdb_last_load_keys_expired] == 0} assert {[s rdb_last_load_keys_loaded] == 1000} r debug set-active-expire 0 for {set j 0} {$j < 1024} {incr j} { r select [expr $j%16] r set $j somevalue px 10 } after 20 r save restart_server 0 true false wait_done_loading r assert {[s rdb_last_load_keys_expired] == 1024} assert {[s rdb_last_load_keys_loaded] == 1000} } } # Our COW metrics (Private_Dirty) work only on Linux set system_name [string tolower [exec uname -s]] set page_size [exec getconf PAGESIZE] if {$system_name eq {linux} && $page_size == 4096} { start_server {overrides {save ""}} { test {Test child sending info} { # make sure that rdb_last_cow_size and current_cow_size are zero (the test using new server), # so that the comparisons during the test will be valid assert {[s current_cow_size] == 0} assert {[s current_save_keys_processed] == 0} assert {[s current_save_keys_total] == 0} assert {[s rdb_last_cow_size] == 0} # using a 200us delay, the bgsave is empirically taking about 10 seconds. # we need it to take more than some 5 seconds, since redis only report COW once a second. r config set rdb-key-save-delay 200 r config set loglevel debug # populate the db with 10k keys of 512B each (since we want to measure the COW size by # changing some keys and read the reported COW size, we are using small key size to prevent from # the "dismiss mechanism" free memory and reduce the COW size) set rd [redis_deferring_client 0] set size 500 ;# aim for the 512 bin (sds overhead) set cmd_count 10000 for {set k 0} {$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 } } $rd close # start background rdb save r bgsave set current_save_keys_total [s current_save_keys_total] if {$::verbose} { puts "Keys before bgsave start: current_save_keys_total" } # 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 set key_idx 0 while 1 { # take samples before writing new data to the server set cow_size [s current_cow_size] if {$::verbose} { puts "COW info before copy-on-write: $cow_size" } set keys_processed [s current_save_keys_processed] if {$::verbose} { puts "current_save_keys_processed info : $keys_processed" } # trigger copy-on-write set modified_keys 16 for {set k 0} {$k < $modified_keys} {incr k} { r setrange key$key_idx 0 [string repeat B $size] incr key_idx 1 } # changing 16 keys (512B each) will create at least 8192 COW (2 pages), but we don't want the test # to be too strict, so we check for a change of at least 4096 bytes set exp_cow [expr $cow_size + 4096] # 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] >= $exp_cow && [s current_save_keys_processed] > $keys_processed && [s current_fork_perc] > 0 } else { if {$::verbose} { puts "COW info on fail: [s current_cow_size]" puts [exec tail -n 100 < [srv 0 stdout]] } fail "COW info wasn't reported" } # assert that $keys_processed is not greater than total keys. assert_morethan_equal $current_save_keys_total $keys_processed # for no accurate, stop after 2 iterations if {!$::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