set defaults { appendonly {yes} appendfilename {appendonly.aof} } set server_path [tmpdir server.aof] set aof_path "$server_path/appendonly.aof" proc append_to_aof {str} { upvar fp fp puts -nonewline $fp $str } proc create_aof {code} { upvar fp fp aof_path aof_path set fp [open $aof_path w+] uplevel 1 $code close $fp } proc start_server_aof {overrides code} { upvar defaults defaults srv srv server_path server_path set config [concat $defaults $overrides] set srv [start_server [list overrides $config]] uplevel 1 $code kill_server $srv } tags {"aof"} { ## Server can start when aof-load-truncated is set to yes and AOF ## is truncated, with an incomplete MULTI block. create_aof { append_to_aof [formatCommand set foo hello] append_to_aof [formatCommand multi] append_to_aof [formatCommand set bar world] } start_server_aof [list dir $server_path aof-load-truncated yes] { test "Unfinished MULTI: Server should start if load-truncated is yes" { assert_equal 1 [is_alive $srv] } } ## Should also start with truncated AOF without incomplete MULTI block. create_aof { append_to_aof [formatCommand incr foo] append_to_aof [formatCommand incr foo] append_to_aof [formatCommand incr foo] append_to_aof [formatCommand incr foo] append_to_aof [formatCommand incr foo] append_to_aof [string range [formatCommand incr foo] 0 end-1] } start_server_aof [list dir $server_path aof-load-truncated yes] { test "Short read: Server should start if load-truncated is yes" { assert_equal 1 [is_alive $srv] } set client [redis [dict get $srv host] [dict get $srv port] 0 $::tls] test "Truncated AOF loaded: we expect foo to be equal to 5" { assert {[$client get foo] eq "5"} } test "Append a new command after loading an incomplete AOF" { $client incr foo } } # Now the AOF file is expected to be correct start_server_aof [list dir $server_path aof-load-truncated yes] { test "Short read + command: Server should start" { assert_equal 1 [is_alive $srv] } set client [redis [dict get $srv host] [dict get $srv port] 0 $::tls] test "Truncated AOF loaded: we expect foo to be equal to 6 now" { assert {[$client get foo] eq "6"} } } ## Test that the server exits when the AOF contains a format error create_aof { append_to_aof [formatCommand set foo hello] append_to_aof "!!!" append_to_aof [formatCommand set foo hello] } start_server_aof [list dir $server_path aof-load-truncated yes] { test "Bad format: Server should have logged an error" { set pattern "*Bad file format reading the append only file*" set retry 10 while {$retry} { set result [exec tail -1 < [dict get $srv stdout]] if {[string match $pattern $result]} { break } incr retry -1 after 1000 } if {$retry == 0} { error "assertion:expected error not found on config file" } } } ## Test the server doesn't start when the AOF contains an unfinished MULTI create_aof { append_to_aof [formatCommand set foo hello] append_to_aof [formatCommand multi] append_to_aof [formatCommand set bar world] } start_server_aof [list dir $server_path aof-load-truncated no] { test "Unfinished MULTI: Server should have logged an error" { set pattern "*Unexpected end of file reading the append only file*" set retry 10 while {$retry} { set result [exec tail -1 < [dict get $srv stdout]] if {[string match $pattern $result]} { break } incr retry -1 after 1000 } if {$retry == 0} { error "assertion:expected error not found on config file" } } } ## Test that the server exits when the AOF contains a short read create_aof { append_to_aof [formatCommand set foo hello] append_to_aof [string range [formatCommand set bar world] 0 end-1] } start_server_aof [list dir $server_path aof-load-truncated no] { test "Short read: Server should have logged an error" { set pattern "*Unexpected end of file reading the append only file*" set retry 10 while {$retry} { set result [exec tail -1 < [dict get $srv stdout]] if {[string match $pattern $result]} { break } incr retry -1 after 1000 } if {$retry == 0} { error "assertion:expected error not found on config file" } } } ## Test that redis-check-aof indeed sees this AOF is not valid test "Short read: Utility should confirm the AOF is not valid" { catch { exec src/redis-check-aof $aof_path } result assert_match "*not valid*" $result } test "Short read: Utility should be able to fix the AOF" { set result [exec src/redis-check-aof --fix $aof_path << "y\n"] assert_match "*Successfully truncated AOF*" $result } ## Test that the server can be started using the truncated AOF start_server_aof [list dir $server_path aof-load-truncated no] { test "Fixed AOF: Server should have been started" { assert_equal 1 [is_alive $srv] } test "Fixed AOF: Keyspace should contain values that were parseable" { set client [redis [dict get $srv host] [dict get $srv port] 0 $::tls] wait_for_condition 50 100 { [catch {$client ping} e] == 0 } else { fail "Loading DB is taking too much time." } assert_equal "hello" [$client get foo] assert_equal "" [$client get bar] } } ## Test that SPOP (that modifies the client's argc/argv) is correctly free'd create_aof { append_to_aof [formatCommand sadd set foo] append_to_aof [formatCommand sadd set bar] append_to_aof [formatCommand spop set] } start_server_aof [list dir $server_path aof-load-truncated no] { test "AOF+SPOP: Server should have been started" { assert_equal 1 [is_alive $srv] } test "AOF+SPOP: Set should have 1 member" { set client [redis [dict get $srv host] [dict get $srv port] 0 $::tls] wait_for_condition 50 100 { [catch {$client ping} e] == 0 } else { fail "Loading DB is taking too much time." } assert_equal 1 [$client scard set] } } ## Uses the alsoPropagate() API. create_aof { append_to_aof [formatCommand sadd set foo] append_to_aof [formatCommand sadd set bar] append_to_aof [formatCommand sadd set gah] append_to_aof [formatCommand spop set 2] } start_server_aof [list dir $server_path] { test "AOF+SPOP: Server should have been started" { assert_equal 1 [is_alive $srv] } test "AOF+SPOP: Set should have 1 member" { set client [redis [dict get $srv host] [dict get $srv port] 0 $::tls] wait_for_condition 50 100 { [catch {$client ping} e] == 0 } else { fail "Loading DB is taking too much time." } assert_equal 1 [$client scard set] } } ## Test that EXPIREAT is loaded correctly create_aof { append_to_aof [formatCommand rpush list foo] append_to_aof [formatCommand expireat list 1000] append_to_aof [formatCommand rpush list bar] } start_server_aof [list dir $server_path aof-load-truncated no] { test "AOF+EXPIRE: Server should have been started" { assert_equal 1 [is_alive $srv] } test "AOF+EXPIRE: List should be empty" { set client [redis [dict get $srv host] [dict get $srv port] 0 $::tls] wait_for_condition 50 100 { [catch {$client ping} e] == 0 } else { fail "Loading DB is taking too much time." } assert_equal 0 [$client llen list] } } start_server {overrides {appendonly {yes} appendfilename {appendonly.aof}}} { test {Redis should not try to convert DEL into EXPIREAT for EXPIRE -1} { r set x 10 r expire x -1 } } start_server {overrides {appendonly {yes} appendfilename {appendonly.aof} appendfsync always}} { test {AOF fsync always barrier issue} { set rd [redis_deferring_client] # Set a sleep when aof is flushed, so that we have a chance to look # at the aof size and detect if the response of an incr command # arrives before the data was written (and hopefully fsynced) # We create a big reply, which will hopefully not have room in the # socket buffers, and will install a write handler, then we sleep # a big and issue the incr command, hoping that the last portion of # the output buffer write, and the processing of the incr will happen # in the same event loop cycle. # Since the socket buffers and timing are unpredictable, we fuzz this # test with slightly different sizes and sleeps a few times. for {set i 0} {$i < 10} {incr i} { r debug aof-flush-sleep 0 r del x r setrange x [expr {int(rand()*5000000)+10000000}] x r debug aof-flush-sleep 500000 set aof [file join [lindex [r config get dir] 1] appendonly.aof] set size1 [file size $aof] $rd get x after [expr {int(rand()*30)}] $rd incr new_value $rd read $rd read set size2 [file size $aof] assert {$size1 != $size2} } } } }