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|
proc wait_for_dbsize {size} {
set r2 [redis_client]
wait_for_condition 50 100 {
[$r2 dbsize] == $size
} else {
fail "Target dbsize not reached"
}
$r2 close
}
start_server {tags {"multi"}} {
test {MULTI / EXEC basics} {
r del mylist
r rpush mylist a
r rpush mylist b
r rpush mylist c
r multi
set v1 [r lrange mylist 0 -1]
set v2 [r ping]
set v3 [r exec]
list $v1 $v2 $v3
} {QUEUED QUEUED {{a b c} PONG}}
test {DISCARD} {
r del mylist
r rpush mylist a
r rpush mylist b
r rpush mylist c
r multi
set v1 [r del mylist]
set v2 [r discard]
set v3 [r lrange mylist 0 -1]
list $v1 $v2 $v3
} {QUEUED OK {a b c}}
test {Nested MULTI are not allowed} {
set err {}
r multi
catch {[r multi]} err
r exec
set _ $err
} {*ERR MULTI*}
test {MULTI where commands alter argc/argv} {
r sadd myset a
r multi
r spop myset
list [r exec] [r exists myset]
} {a 0}
test {WATCH inside MULTI is not allowed} {
set err {}
r multi
catch {[r watch x]} err
r exec
set _ $err
} {*ERR WATCH*}
test {EXEC fails if there are errors while queueing commands #1} {
r del foo1{t} foo2{t}
r multi
r set foo1{t} bar1
catch {r non-existing-command}
r set foo2{t} bar2
catch {r exec} e
assert_match {EXECABORT*} $e
list [r exists foo1{t}] [r exists foo2{t}]
} {0 0}
test {EXEC fails if there are errors while queueing commands #2} {
set rd [redis_deferring_client]
r del foo1{t} foo2{t}
r multi
r set foo1{t} bar1
$rd config set maxmemory 1
assert {[$rd read] eq {OK}}
catch {r lpush mylist{t} myvalue}
$rd config set maxmemory 0
assert {[$rd read] eq {OK}}
r set foo2{t} bar2
catch {r exec} e
assert_match {EXECABORT*} $e
$rd close
list [r exists foo1{t}] [r exists foo2{t}]
} {0 0} {needs:config-maxmemory}
test {If EXEC aborts, the client MULTI state is cleared} {
r del foo1{t} foo2{t}
r multi
r set foo1{t} bar1
catch {r non-existing-command}
r set foo2{t} bar2
catch {r exec} e
assert_match {EXECABORT*} $e
r ping
} {PONG}
test {EXEC works on WATCHed key not modified} {
r watch x{t} y{t} z{t}
r watch k{t}
r multi
r ping
r exec
} {PONG}
test {EXEC fail on WATCHed key modified (1 key of 1 watched)} {
r set x 30
r watch x
r set x 40
r multi
r ping
r exec
} {}
test {EXEC fail on WATCHed key modified (1 key of 5 watched)} {
r set x{t} 30
r watch a{t} b{t} x{t} k{t} z{t}
r set x{t} 40
r multi
r ping
r exec
} {}
test {EXEC fail on WATCHed key modified by SORT with STORE even if the result is empty} {
r flushdb
r lpush foo bar
r watch foo
r sort emptylist store foo
r multi
r ping
r exec
} {} {cluster:skip}
test {EXEC fail on lazy expired WATCHed key} {
r flushall
r debug set-active-expire 0
r del key
r set key 1 px 2
r watch key
after 100
r multi
r incr key
assert_equal [r exec] {}
r debug set-active-expire 1
} {OK} {needs:debug}
test {WATCH stale keys should not fail EXEC} {
r del x
r debug set-active-expire 0
r set x foo px 1
after 2
r watch x
r multi
r ping
assert_equal {PONG} [r exec]
r debug set-active-expire 1
} {OK} {needs:debug}
test {Delete WATCHed stale keys should not fail EXEC} {
r del x
r debug set-active-expire 0
r set x foo px 1
after 2
r watch x
# EXISTS triggers lazy expiry/deletion
assert_equal 0 [r exists x]
r multi
r ping
assert_equal {PONG} [r exec]
r debug set-active-expire 1
} {OK} {needs:debug}
test {FLUSHDB while watching stale keys should not fail EXEC} {
r del x
r debug set-active-expire 0
r set x foo px 1
after 2
r watch x
r flushdb
r multi
r ping
assert_equal {PONG} [r exec]
r debug set-active-expire 1
} {OK} {needs:debug}
test {After successful EXEC key is no longer watched} {
r set x 30
r watch x
r multi
r ping
r exec
r set x 40
r multi
r ping
r exec
} {PONG}
test {After failed EXEC key is no longer watched} {
r set x 30
r watch x
r set x 40
r multi
r ping
r exec
r set x 40
r multi
r ping
r exec
} {PONG}
test {It is possible to UNWATCH} {
r set x 30
r watch x
r set x 40
r unwatch
r multi
r ping
r exec
} {PONG}
test {UNWATCH when there is nothing watched works as expected} {
r unwatch
} {OK}
test {FLUSHALL is able to touch the watched keys} {
r set x 30
r watch x
r flushall
r multi
r ping
r exec
} {}
test {FLUSHALL does not touch non affected keys} {
r del x
r watch x
r flushall
r multi
r ping
r exec
} {PONG}
test {FLUSHDB is able to touch the watched keys} {
r set x 30
r watch x
r flushdb
r multi
r ping
r exec
} {}
test {FLUSHDB does not touch non affected keys} {
r del x
r watch x
r flushdb
r multi
r ping
r exec
} {PONG}
test {SWAPDB is able to touch the watched keys that exist} {
r flushall
r select 0
r set x 30
r watch x ;# make sure x (set to 30) doesn't change (SWAPDB will "delete" it)
r swapdb 0 1
r multi
r ping
r exec
} {} {singledb:skip}
test {SWAPDB is able to touch the watched keys that do not exist} {
r flushall
r select 1
r set x 30
r select 0
r watch x ;# make sure the key x (currently missing) doesn't change (SWAPDB will create it)
r swapdb 0 1
r multi
r ping
r exec
} {} {singledb:skip}
test {SWAPDB does not touch watched stale keys} {
r flushall
r select 1
r debug set-active-expire 0
r set x foo px 1
after 2
r watch x
r swapdb 0 1 ; # expired key replaced with no key => no change
r multi
r ping
assert_equal {PONG} [r exec]
r debug set-active-expire 1
} {OK} {singledb:skip needs:debug}
test {SWAPDB does not touch non-existing key replaced with stale key} {
r flushall
r select 0
r debug set-active-expire 0
r set x foo px 1
after 2
r select 1
r watch x
r swapdb 0 1 ; # no key replaced with expired key => no change
r multi
r ping
assert_equal {PONG} [r exec]
r debug set-active-expire 1
} {OK} {singledb:skip needs:debug}
test {SWAPDB does not touch stale key replaced with another stale key} {
r flushall
r debug set-active-expire 0
r select 1
r set x foo px 1
r select 0
r set x bar px 1
after 2
r select 1
r watch x
r swapdb 0 1 ; # no key replaced with expired key => no change
r multi
r ping
assert_equal {PONG} [r exec]
r debug set-active-expire 1
} {OK} {singledb:skip needs:debug}
test {WATCH is able to remember the DB a key belongs to} {
r select 5
r set x 30
r watch x
r select 1
r set x 10
r select 5
r multi
r ping
set res [r exec]
# Restore original DB
r select 9
set res
} {PONG} {singledb:skip}
test {WATCH will consider touched keys target of EXPIRE} {
r del x
r set x foo
r watch x
r expire x 10
r multi
r ping
r exec
} {}
test {WATCH will consider touched expired keys} {
r flushall
r del x
r set x foo
r expire x 1
r watch x
# Wait for the keys to expire.
wait_for_dbsize 0
r multi
r ping
r exec
} {}
test {DISCARD should clear the WATCH dirty flag on the client} {
r watch x
r set x 10
r multi
r discard
r multi
r incr x
r exec
} {11}
test {DISCARD should UNWATCH all the keys} {
r watch x
r set x 10
r multi
r discard
r set x 10
r multi
r incr x
r exec
} {11}
test {MULTI / EXEC is not propagated (single write command)} {
set repl [attach_to_replication_stream]
r multi
r set foo bar
r exec
r set foo2 bar
assert_replication_stream $repl {
{select *}
{set foo bar}
{set foo2 bar}
}
close_replication_stream $repl
} {} {needs:repl}
test {MULTI / EXEC is propagated correctly (multiple commands)} {
set repl [attach_to_replication_stream]
r multi
r set foo{t} bar
r get foo{t}
r set foo2{t} bar2
r get foo2{t}
r set foo3{t} bar3
r get foo3{t}
r exec
assert_replication_stream $repl {
{select *}
{multi}
{set foo{t} bar}
{set foo2{t} bar2}
{set foo3{t} bar3}
{exec}
}
close_replication_stream $repl
} {} {needs:repl}
test {MULTI / EXEC is propagated correctly (multiple commands with SELECT)} {
set repl [attach_to_replication_stream]
r multi
r select 1
r set foo{t} bar
r get foo{t}
r select 2
r set foo2{t} bar2
r get foo2{t}
r select 3
r set foo3{t} bar3
r get foo3{t}
r exec
assert_replication_stream $repl {
{select *}
{multi}
{set foo{t} bar}
{select *}
{set foo2{t} bar2}
{select *}
{set foo3{t} bar3}
{exec}
}
close_replication_stream $repl
} {} {needs:repl singledb:skip}
test {MULTI / EXEC is propagated correctly (empty transaction)} {
set repl [attach_to_replication_stream]
r multi
r exec
r set foo bar
assert_replication_stream $repl {
{select *}
{set foo bar}
}
close_replication_stream $repl
} {} {needs:repl}
test {MULTI / EXEC is propagated correctly (read-only commands)} {
r set foo value1
set repl [attach_to_replication_stream]
r multi
r get foo
r exec
r set foo value2
assert_replication_stream $repl {
{select *}
{set foo value2}
}
close_replication_stream $repl
} {} {needs:repl}
test {MULTI / EXEC is propagated correctly (write command, no effect)} {
r del bar
r del foo
set repl [attach_to_replication_stream]
r multi
r del foo
r exec
# add another command so that when we see it we know multi-exec wasn't
# propagated
r incr foo
assert_replication_stream $repl {
{select *}
{incr foo}
}
close_replication_stream $repl
} {} {needs:repl}
test {MULTI / EXEC with REPLICAOF} {
# This test verifies that if we demote a master to replica inside a transaction, the
# entire transaction is not propagated to the already-connected replica
set repl [attach_to_replication_stream]
r set foo bar
r multi
r set foo2 bar
r replicaof localhost 9999
r set foo3 bar
r exec
catch {r set foo4 bar} e
assert_match {READONLY*} $e
assert_replication_stream $repl {
{select *}
{set foo bar}
}
r replicaof no one
} {OK} {needs:repl cluster:skip}
test {DISCARD should not fail during OOM} {
set rd [redis_deferring_client]
$rd config set maxmemory 1
assert {[$rd read] eq {OK}}
r multi
catch {r set x 1} e
assert_match {OOM*} $e
r discard
$rd config set maxmemory 0
assert {[$rd read] eq {OK}}
$rd close
r ping
} {PONG} {needs:config-maxmemory}
test {MULTI and script timeout} {
# check that if MULTI arrives during timeout, it is either refused, or
# allowed to pass, and we don't end up executing half of the transaction
set rd1 [redis_deferring_client]
set r2 [redis_client]
r config set lua-time-limit 10
r set xx 1
$rd1 eval {while true do end} 0
after 200
catch { $r2 multi; } e
catch { $r2 incr xx; } e
r script kill
after 200 ; # Give some time to Lua to call the hook again...
catch { $r2 incr xx; } e
catch { $r2 exec; } e
assert_match {EXECABORT*previous errors*} $e
set xx [r get xx]
# make sure that either the whole transcation passed or none of it (we actually expect none)
assert { $xx == 1 || $xx == 3}
# check that the connection is no longer in multi state
set pong [$r2 ping asdf]
assert_equal $pong "asdf"
$rd1 close; $r2 close
}
test {EXEC and script timeout} {
# check that if EXEC arrives during timeout, we don't end up executing
# half of the transaction, and also that we exit the multi state
set rd1 [redis_deferring_client]
set r2 [redis_client]
r config set lua-time-limit 10
r set xx 1
catch { $r2 multi; } e
catch { $r2 incr xx; } e
$rd1 eval {while true do end} 0
after 200
catch { $r2 incr xx; } e
catch { $r2 exec; } e
assert_match {EXECABORT*BUSY*} $e
r script kill
after 200 ; # Give some time to Lua to call the hook again...
set xx [r get xx]
# make sure that either the whole transcation passed or none of it (we actually expect none)
assert { $xx == 1 || $xx == 3}
# check that the connection is no longer in multi state
set pong [$r2 ping asdf]
assert_equal $pong "asdf"
$rd1 close; $r2 close
}
test {MULTI-EXEC body and script timeout} {
# check that we don't run an incomplete transaction due to some commands
# arriving during busy script
set rd1 [redis_deferring_client]
set r2 [redis_client]
r config set lua-time-limit 10
r set xx 1
catch { $r2 multi; } e
catch { $r2 incr xx; } e
$rd1 eval {while true do end} 0
after 200
catch { $r2 incr xx; } e
r script kill
after 200 ; # Give some time to Lua to call the hook again...
catch { $r2 exec; } e
assert_match {EXECABORT*previous errors*} $e
set xx [r get xx]
# make sure that either the whole transcation passed or none of it (we actually expect none)
assert { $xx == 1 || $xx == 3}
# check that the connection is no longer in multi state
set pong [$r2 ping asdf]
assert_equal $pong "asdf"
$rd1 close; $r2 close
}
test {just EXEC and script timeout} {
# check that if EXEC arrives during timeout, we don't end up executing
# actual commands during busy script, and also that we exit the multi state
set rd1 [redis_deferring_client]
set r2 [redis_client]
r config set lua-time-limit 10
r set xx 1
catch { $r2 multi; } e
catch { $r2 incr xx; } e
$rd1 eval {while true do end} 0
after 200
catch { $r2 exec; } e
assert_match {EXECABORT*BUSY*} $e
r script kill
after 200 ; # Give some time to Lua to call the hook again...
set xx [r get xx]
# make we didn't execute the transaction
assert { $xx == 1}
# check that the connection is no longer in multi state
set pong [$r2 ping asdf]
assert_equal $pong "asdf"
$rd1 close; $r2 close
}
test {exec with write commands and state change} {
# check that exec that contains write commands fails if server state changed since they were queued
set r1 [redis_client]
r set xx 1
r multi
r incr xx
$r1 config set min-replicas-to-write 2
catch {r exec} e
assert_match {*EXECABORT*NOREPLICAS*} $e
set xx [r get xx]
# make sure that the INCR wasn't executed
assert { $xx == 1}
$r1 config set min-replicas-to-write 0
$r1 close
} {0} {needs:repl}
test {exec with read commands and stale replica state change} {
# check that exec that contains read commands fails if server state changed since they were queued
r config set replica-serve-stale-data no
set r1 [redis_client]
r set xx 1
# check that GET and PING are disallowed on stale replica, even if the replica becomes stale only after queuing.
r multi
r get xx
$r1 replicaof localhsot 0
catch {r exec} e
assert_match {*EXECABORT*MASTERDOWN*} $e
# reset
$r1 replicaof no one
r multi
r ping
$r1 replicaof localhsot 0
catch {r exec} e
assert_match {*EXECABORT*MASTERDOWN*} $e
# check that when replica is not stale, GET is allowed
# while we're at it, let's check that multi is allowed on stale replica too
r multi
$r1 replicaof no one
r get xx
set xx [r exec]
# make sure that the INCR was executed
assert { $xx == 1 }
$r1 close
} {0} {needs:repl cluster:skip}
test {EXEC with only read commands should not be rejected when OOM} {
set r2 [redis_client]
r set x value
r multi
r get x
r ping
# enforcing OOM
$r2 config set maxmemory 1
# finish the multi transaction with exec
assert { [r exec] == {value PONG} }
# releasing OOM
$r2 config set maxmemory 0
$r2 close
} {0} {needs:config-maxmemory}
test {EXEC with at least one use-memory command should fail} {
set r2 [redis_client]
r multi
r set x 1
r get x
# enforcing OOM
$r2 config set maxmemory 1
# finish the multi transaction with exec
catch {r exec} e
assert_match {EXECABORT*OOM*} $e
# releasing OOM
$r2 config set maxmemory 0
$r2 close
} {0} {needs:config-maxmemory}
test {Blocking commands ignores the timeout} {
r xgroup create s{t} g $ MKSTREAM
set m [r multi]
r blpop empty_list{t} 0
r brpop empty_list{t} 0
r brpoplpush empty_list1{t} empty_list2{t} 0
r blmove empty_list1{t} empty_list2{t} LEFT LEFT 0
r bzpopmin empty_zset{t} 0
r bzpopmax empty_zset{t} 0
r xread BLOCK 0 STREAMS s{t} $
r xreadgroup group g c BLOCK 0 STREAMS s{t} >
set res [r exec]
list $m $res
} {OK {{} {} {} {} {} {} {} {}}}
test {MULTI propagation of PUBLISH} {
set repl [attach_to_replication_stream]
r multi
r publish bla bla
r exec
assert_replication_stream $repl {
{select *}
{publish bla bla}
}
close_replication_stream $repl
} {} {needs:repl cluster:skip}
test {MULTI propagation of SCRIPT LOAD} {
set repl [attach_to_replication_stream]
# make sure that SCRIPT LOAD inside MULTI isn't propagated
r multi
r script load {redis.call('set', KEYS[1], 'foo')}
r set foo bar
set res [r exec]
set sha [lindex $res 0]
assert_replication_stream $repl {
{select *}
{set foo bar}
}
close_replication_stream $repl
} {} {needs:repl}
test {MULTI propagation of EVAL} {
set repl [attach_to_replication_stream]
# make sure that EVAL inside MULTI is propagated in a transaction in effects
r multi
r eval {redis.call('set', KEYS[1], 'bar')} 1 bar
r exec
assert_replication_stream $repl {
{select *}
{set bar bar}
}
close_replication_stream $repl
} {} {needs:repl}
test {MULTI propagation of SCRIPT FLUSH} {
set repl [attach_to_replication_stream]
# make sure that SCRIPT FLUSH isn't propagated
r multi
r script flush
r set foo bar
r exec
assert_replication_stream $repl {
{select *}
{set foo bar}
}
close_replication_stream $repl
} {} {needs:repl}
tags {"stream"} {
test {MULTI propagation of XREADGROUP} {
set repl [attach_to_replication_stream]
r XADD mystream * foo bar
r XADD mystream * foo2 bar2
r XADD mystream * foo3 bar3
r XGROUP CREATE mystream mygroup 0
# make sure the XCALIM (propagated by XREADGROUP) is indeed inside MULTI/EXEC
r multi
r XREADGROUP GROUP mygroup consumer1 COUNT 2 STREAMS mystream ">"
r XREADGROUP GROUP mygroup consumer1 STREAMS mystream ">"
r exec
assert_replication_stream $repl {
{select *}
{xadd *}
{xadd *}
{xadd *}
{xgroup CREATE *}
{multi}
{xclaim *}
{xclaim *}
{xclaim *}
{exec}
}
close_replication_stream $repl
} {} {needs:repl}
}
foreach {cmd} {SAVE SHUTDOWN} {
test "MULTI with $cmd" {
r del foo
r multi
r set foo bar
catch {r $cmd} e1
catch {r exec} e2
assert_match {*Command not allowed inside a transaction*} $e1
assert_match {EXECABORT*} $e2
r get foo
} {}
}
test "MULTI with BGREWRITEAOF" {
set forks [s total_forks]
r multi
r set foo bar
r BGREWRITEAOF
set res [r exec]
assert_match "*rewriting scheduled*" [lindex $res 1]
wait_for_condition 50 100 {
[s total_forks] > $forks
} else {
fail "aofrw didn't start"
}
waitForBgrewriteaof r
} {} {external:skip}
test "MULTI with config set appendonly" {
set lines [count_log_lines 0]
set forks [s total_forks]
r multi
r set foo bar
r config set appendonly yes
r exec
verify_log_message 0 "*AOF background was scheduled*" $lines
wait_for_condition 50 100 {
[s total_forks] > $forks
} else {
fail "aofrw didn't start"
}
waitForBgrewriteaof r
} {} {external:skip}
test "MULTI with config error" {
r multi
r set foo bar
r config set maxmemory bla
# letting the redis parser read it, it'll throw an exception instead of
# reply with an array that contains an error, so we switch to reading
# raw RESP instead
r readraw 1
set res [r exec]
assert_equal $res "*2"
set res [r read]
assert_equal $res "+OK"
set res [r read]
r readraw 1
set _ $res
} {*CONFIG SET failed*}
}
start_server {overrides {appendonly {yes} appendfilename {appendonly.aof} appendfsync always} tags {external:skip}} {
test {MULTI with FLUSHALL and AOF} {
set aof [get_last_incr_aof_path r]
r multi
r set foo bar
r flushall
r exec
assert_aof_content $aof {
{select *}
{multi}
{set *}
{flushall}
{exec}
}
r get foo
} {}
}
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