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redis/tests/unit/scripting.tcl

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start_server {tags {"scripting"}} {
test {EVAL - Does Lua interpreter replies to our requests?} {
r eval {return 'hello'} 0
} {hello}
test {EVAL - Lua integer -> Redis protocol type conversion} {
r eval {return 100.5} 0
} {100}
test {EVAL - Lua string -> Redis protocol type conversion} {
r eval {return 'hello world'} 0
} {hello world}
test {EVAL - Lua true boolean -> Redis protocol type conversion} {
r eval {return true} 0
} {1}
test {EVAL - Lua false boolean -> Redis protocol type conversion} {
r eval {return false} 0
} {}
test {EVAL - Lua status code reply -> Redis protocol type conversion} {
r eval {return {ok='fine'}} 0
} {fine}
test {EVAL - Lua error reply -> Redis protocol type conversion} {
catch {
r eval {return {err='this is an error'}} 0
} e
set _ $e
} {this is an error}
test {EVAL - Lua table -> Redis protocol type conversion} {
r eval {return {1,2,3,'ciao',{1,2}}} 0
} {1 2 3 ciao {1 2}}
test {EVAL - Are the KEYS and ARGV arrays populated correctly?} {
r eval {return {KEYS[1],KEYS[2],ARGV[1],ARGV[2]}} 2 a b c d
} {a b c d}
test {EVAL - is Lua able to call Redis API?} {
r set mykey myval
r eval {return redis.call('get',KEYS[1])} 1 mykey
} {myval}
test {EVALSHA - Can we call a SHA1 if already defined?} {
r evalsha fd758d1589d044dd850a6f05d52f2eefd27f033f 1 mykey
} {myval}
test {EVALSHA - Can we call a SHA1 in uppercase?} {
r evalsha FD758D1589D044DD850A6F05D52F2EEFD27F033F 1 mykey
} {myval}
test {EVALSHA - Do we get an error on invalid SHA1?} {
catch {r evalsha NotValidShaSUM 0} e
set _ $e
} {NOSCRIPT*}
test {EVALSHA - Do we get an error on non defined SHA1?} {
catch {r evalsha ffd632c7d33e571e9f24556ebed26c3479a87130 0} e
set _ $e
} {NOSCRIPT*}
test {EVAL - Redis integer -> Lua type conversion} {
r set x 0
r eval {
local foo = redis.pcall('incr',KEYS[1])
return {type(foo),foo}
} 1 x
} {number 1}
test {EVAL - Redis bulk -> Lua type conversion} {
r set mykey myval
r eval {
local foo = redis.pcall('get',KEYS[1])
return {type(foo),foo}
} 1 mykey
} {string myval}
test {EVAL - Redis multi bulk -> Lua type conversion} {
r del mylist
r rpush mylist a
r rpush mylist b
r rpush mylist c
r eval {
local foo = redis.pcall('lrange',KEYS[1],0,-1)
return {type(foo),foo[1],foo[2],foo[3],# foo}
} 1 mylist
} {table a b c 3}
test {EVAL - Redis status reply -> Lua type conversion} {
r eval {
local foo = redis.pcall('set',KEYS[1],'myval')
return {type(foo),foo['ok']}
} 1 mykey
} {table OK}
test {EVAL - Redis error reply -> Lua type conversion} {
r set mykey myval
r eval {
local foo = redis.pcall('incr',KEYS[1])
return {type(foo),foo['err']}
} 1 mykey
} {table {ERR value is not an integer or out of range}}
test {EVAL - Redis nil bulk reply -> Lua type conversion} {
r del mykey
r eval {
local foo = redis.pcall('get',KEYS[1])
return {type(foo),foo == false}
} 1 mykey
} {boolean 1}
test {EVAL - Is the Lua client using the currently selected DB?} {
r set mykey "this is DB 9"
r select 10
r set mykey "this is DB 10"
r eval {return redis.pcall('get',KEYS[1])} 1 mykey
} {this is DB 10}
test {EVAL - SELECT inside Lua should not affect the caller} {
# here we DB 10 is selected
r set mykey "original value"
r eval {return redis.pcall('select','9')} 0
set res [r get mykey]
r select 9
set res
} {original value}
if 0 {
test {EVAL - Script can't run more than configured time limit} {
r config set lua-time-limit 1
catch {
r eval {
local i = 0
while true do i=i+1 end
} 0
} e
set _ $e
} {*execution time*}
}
test {EVAL - Scripts can't run certain commands} {
set e {}
catch {r eval {return redis.pcall('blpop','x',0)} 0} e
set e
} {*not allowed*}
test {EVAL - Scripts can't run certain commands} {
set e {}
catch {
r eval "redis.pcall('randomkey'); return redis.pcall('set','x','ciao')" 0
} e
set e
} {*not allowed after*}
test {EVAL - No arguments to redis.call/pcall is considered an error} {
set e {}
catch {r eval {return redis.call()} 0} e
set e
} {*one argument*}
test {EVAL - redis.call variant raises a Lua error on Redis cmd error (1)} {
set e {}
catch {
r eval "redis.call('nosuchcommand')" 0
} e
set e
} {*Unknown Redis*}
test {EVAL - redis.call variant raises a Lua error on Redis cmd error (1)} {
set e {}
catch {
r eval "redis.call('get','a','b','c')" 0
} e
set e
} {*number of args*}
test {EVAL - redis.call variant raises a Lua error on Redis cmd error (1)} {
set e {}
r set foo bar
catch {
r eval {redis.call('lpush',KEYS[1],'val')} 1 foo
} e
set e
} {*against a key*}
test {EVAL - JSON numeric decoding} {
# We must return the table as a string because otherwise
# Redis converts floats to ints and we get 0 and 1023 instead
# of 0.0003 and 1023.2 as the parsed output.
r eval {return
table.concat(
cjson.decode(
"[0.0, -5e3, -1, 0.3e-3, 1023.2, 0e10]"), " ")
} 0
} {0 -5000 -1 0.0003 1023.2 0}
test {EVAL - JSON string decoding} {
r eval {local decoded = cjson.decode('{"keya": "a", "keyb": "b"}')
return {decoded.keya, decoded.keyb}
} 0
} {a b}
test {EVAL - cmsgpack can pack double?} {
r eval {local encoded = cmsgpack.pack(0.1)
local h = ""
for i = 1, #encoded do
h = h .. string.format("%02x",string.byte(encoded,i))
end
return h
} 0
} {cb3fb999999999999a}
test {EVAL - cmsgpack can pack negative int64?} {
r eval {local encoded = cmsgpack.pack(-1099511627776)
local h = ""
for i = 1, #encoded do
h = h .. string.format("%02x",string.byte(encoded,i))
end
return h
} 0
} {d3ffffff0000000000}
test {EVAL - cmsgpack can pack and unpack circular references?} {
r eval {local a = {x=nil,y=5}
local b = {x=a}
a['x'] = b
local encoded = cmsgpack.pack(a)
local h = ""
-- cmsgpack encodes to a depth of 16, but can't encode
-- references, so the encoded object has a deep copy recusive
-- depth of 16.
for i = 1, #encoded do
h = h .. string.format("%02x",string.byte(encoded,i))
end
-- when unpacked, re.x.x != re because the unpack creates
-- individual tables down to a depth of 16.
-- (that's why the encoded output is so large)
local re = cmsgpack.unpack(encoded)
assert(re)
assert(re.x)
assert(re.x.x.y == re.y)
assert(re.x.x.x.x.y == re.y)
assert(re.x.x.x.x.x.x.y == re.y)
assert(re.x.x.x.x.x.x.x.x.x.x.y == re.y)
-- maximum working depth:
assert(re.x.x.x.x.x.x.x.x.x.x.x.x.x.x.y == re.y)
-- now the last x would be b above and has no y
assert(re.x.x.x.x.x.x.x.x.x.x.x.x.x.x.x)
-- so, the final x.x is at the depth limit and was assigned nil
assert(re.x.x.x.x.x.x.x.x.x.x.x.x.x.x.x.x == nil)
return {h, re.x.x.x.x.x.x.x.x.y == re.y, re.y == 5}
} 0
} {82a17905a17881a17882a17905a17881a17882a17905a17881a17882a17905a17881a17882a17905a17881a17882a17905a17881a17882a17905a17881a17882a17905a17881a178c0 1 1}
test {EVAL - Numerical sanity check from bitop} {
r eval {assert(0x7fffffff == 2147483647, "broken hex literals");
assert(0xffffffff == -1 or 0xffffffff == 2^32-1,
"broken hex literals");
assert(tostring(-1) == "-1", "broken tostring()");
assert(tostring(0xffffffff) == "-1" or
tostring(0xffffffff) == "4294967295",
"broken tostring()")
} 0
} {}
test {EVAL - Verify minimal bitop functionality} {
r eval {assert(bit.tobit(1) == 1);
assert(bit.band(1) == 1);
assert(bit.bxor(1,2) == 3);
assert(bit.bor(1,2,4,8,16,32,64,128) == 255)
} 0
} {}
test {EVAL - Able to parse trailing comments} {
r eval {return 'hello' --trailing comment} 0
} {hello}
test {SCRIPTING FLUSH - is able to clear the scripts cache?} {
r set mykey myval
set v [r evalsha fd758d1589d044dd850a6f05d52f2eefd27f033f 1 mykey]
assert_equal $v myval
set e ""
r script flush
catch {r evalsha fd758d1589d044dd850a6f05d52f2eefd27f033f 1 mykey} e
set e
} {NOSCRIPT*}
test {SCRIPT EXISTS - can detect already defined scripts?} {
r eval "return 1+1" 0
r script exists a27e7e8a43702b7046d4f6a7ccf5b60cef6b9bd9 a27e7e8a43702b7046d4f6a7ccf5b60cef6b9bda
} {1 0}
test {SCRIPT LOAD - is able to register scripts in the scripting cache} {
list \
[r script load "return 'loaded'"] \
[r evalsha b534286061d4b9e4026607613b95c06c06015ae8 0]
} {b534286061d4b9e4026607613b95c06c06015ae8 loaded}
test "In the context of Lua the output of random commands gets ordered" {
r del myset
r sadd myset a b c d e f g h i l m n o p q r s t u v z aa aaa azz
r eval {return redis.call('smembers',KEYS[1])} 1 myset
} {a aa aaa azz b c d e f g h i l m n o p q r s t u v z}
test "SORT is normally not alpha re-ordered for the scripting engine" {
r del myset
r sadd myset 1 2 3 4 10
r eval {return redis.call('sort',KEYS[1],'desc')} 1 myset
} {10 4 3 2 1}
test "SORT BY <constant> output gets ordered for scripting" {
r del myset
r sadd myset a b c d e f g h i l m n o p q r s t u v z aa aaa azz
r eval {return redis.call('sort',KEYS[1],'by','_')} 1 myset
} {a aa aaa azz b c d e f g h i l m n o p q r s t u v z}
test "SORT BY <constant> with GET gets ordered for scripting" {
r del myset
r sadd myset a b c
r eval {return redis.call('sort',KEYS[1],'by','_','get','#','get','_:*')} 1 myset
} {a {} b {} c {}}
test "redis.sha1hex() implementation" {
list [r eval {return redis.sha1hex('')} 0] \
[r eval {return redis.sha1hex('Pizza & Mandolino')} 0]
} {da39a3ee5e6b4b0d3255bfef95601890afd80709 74822d82031af7493c20eefa13bd07ec4fada82f}
test {Globals protection reading an undeclared global variable} {
catch {r eval {return a} 0} e
set e
} {*ERR*attempted to access * global*}
test {Globals protection setting an undeclared global*} {
catch {r eval {a=10} 0} e
set e
} {*ERR*attempted to create global*}
test {Test an example script DECR_IF_GT} {
set decr_if_gt {
local current
current = redis.call('get',KEYS[1])
if not current then return nil end
if current > ARGV[1] then
return redis.call('decr',KEYS[1])
else
return redis.call('get',KEYS[1])
end
}
r set foo 5
set res {}
lappend res [r eval $decr_if_gt 1 foo 2]
lappend res [r eval $decr_if_gt 1 foo 2]
lappend res [r eval $decr_if_gt 1 foo 2]
lappend res [r eval $decr_if_gt 1 foo 2]
lappend res [r eval $decr_if_gt 1 foo 2]
set res
} {4 3 2 2 2}
test {Scripting engine resets PRNG at every script execution} {
set rand1 [r eval {return tostring(math.random())} 0]
set rand2 [r eval {return tostring(math.random())} 0]
assert_equal $rand1 $rand2
}
test {Scripting engine PRNG can be seeded correctly} {
set rand1 [r eval {
math.randomseed(ARGV[1]); return tostring(math.random())
} 0 10]
set rand2 [r eval {
math.randomseed(ARGV[1]); return tostring(math.random())
} 0 10]
set rand3 [r eval {
math.randomseed(ARGV[1]); return tostring(math.random())
} 0 20]
assert_equal $rand1 $rand2
assert {$rand2 ne $rand3}
}
test {EVAL does not leak in the Lua stack} {
r set x 0
# Use a non blocking client to speedup the loop.
set rd [redis_deferring_client]
for {set j 0} {$j < 10000} {incr j} {
$rd eval {return redis.call("incr",KEYS[1])} 1 x
}
for {set j 0} {$j < 10000} {incr j} {
$rd read
}
assert {[s used_memory_lua] < 1024*100}
$rd close
r get x
} {10000}
test {EVAL processes writes from AOF in read-only slaves} {
r flushall
r config set appendonly yes
r eval {redis.call("set",KEYS[1],"100")} 1 foo
r eval {redis.call("incr",KEYS[1])} 1 foo
r eval {redis.call("incr",KEYS[1])} 1 foo
wait_for_condition 50 100 {
[s aof_rewrite_in_progress] == 0
} else {
fail "AOF rewrite can't complete after CONFIG SET appendonly yes."
}
r config set slave-read-only yes
r slaveof 127.0.0.1 0
r debug loadaof
set res [r get foo]
r slaveof no one
set res
} {102}
test {We can call scripts rewriting client->argv from Lua} {
r del myset
r sadd myset a b c
r mset a 1 b 2 c 3 d 4
assert {[r spop myset] ne {}}
assert {[r spop myset 1] ne {}}
assert {[r spop myset] ne {}}
assert {[r mget a b c d] eq {1 2 3 4}}
assert {[r spop myset] eq {}}
}
test {Call Redis command with many args from Lua (issue #1764)} {
r eval {
local i
local x={}
redis.call('del','mylist')
for i=1,100 do
table.insert(x,i)
end
redis.call('rpush','mylist',unpack(x))
return redis.call('lrange','mylist',0,-1)
} 0
} {1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100}
test {Number conversion precision test (issue #1118)} {
r eval {
local value = 9007199254740991
redis.call("set","foo",value)
return redis.call("get","foo")
} 0
} {9007199254740991}
test {String containing number precision test (regression of issue #1118)} {
r eval {
redis.call("set", "key", "12039611435714932082")
return redis.call("get", "key")
} 0
} {12039611435714932082}
test {Verify negative arg count is error instead of crash (issue #1842)} {
catch { r eval { return "hello" } -12 } e
set e
} {ERR Number of keys can't be negative}
test {Correct handling of reused argv (issue #1939)} {
r eval {
for i = 0, 10 do
redis.call('SET', 'a', '1')
redis.call('MGET', 'a', 'b', 'c')
redis.call('EXPIRE', 'a', 0)
redis.call('GET', 'a')
redis.call('MGET', 'a', 'b', 'c')
end
} 0
}
test {Functions in the Redis namespace are able to report errors} {
catch {
r eval {
redis.sha1hex()
} 0
} e
set e
} {*wrong number*}
}
# Start a new server since the last test in this stanza will kill the
# instance at all.
start_server {tags {"scripting"}} {
test {Timedout read-only scripts can be killed by SCRIPT KILL} {
set rd [redis_deferring_client]
r config set lua-time-limit 10
$rd eval {while true do end} 0
after 200
catch {r ping} e
assert_match {BUSY*} $e
r script kill
after 200 ; # Give some time to Lua to call the hook again...
assert_equal [r ping] "PONG"
}
test {Timedout script link is still usable after Lua returns} {
r config set lua-time-limit 10
r eval {for i=1,100000 do redis.call('ping') end return 'ok'} 0
r ping
} {PONG}
test {Timedout scripts that modified data can't be killed by SCRIPT KILL} {
set rd [redis_deferring_client]
r config set lua-time-limit 10
$rd eval {redis.call('set',KEYS[1],'y'); while true do end} 1 x
after 200
catch {r ping} e
assert_match {BUSY*} $e
catch {r script kill} e
assert_match {UNKILLABLE*} $e
catch {r ping} e
assert_match {BUSY*} $e
}
# Note: keep this test at the end of this server stanza because it
# kills the server.
test {SHUTDOWN NOSAVE can kill a timedout script anyway} {
# The server should be still unresponding to normal commands.
catch {r ping} e
assert_match {BUSY*} $e
catch {r shutdown nosave}
# Make sure the server was killed
catch {set rd [redis_deferring_client]} e
assert_match {*connection refused*} $e
}
}
foreach cmdrepl {0 1} {
start_server {tags {"scripting repl"}} {
start_server {} {
if {$cmdrepl == 1} {
set rt "(commmands replication)"
} else {
set rt "(scripts replication)"
r debug lua-always-replicate-commands 1
}
test "Before the slave connects we issue two EVAL commands $rt" {
# One with an error, but still executing a command.
# SHA is: 67164fc43fa971f76fd1aaeeaf60c1c178d25876
catch {
r eval {redis.call('incr',KEYS[1]); redis.call('nonexisting')} 1 x
}
# One command is correct:
# SHA is: 6f5ade10a69975e903c6d07b10ea44c6382381a5
r eval {return redis.call('incr',KEYS[1])} 1 x
} {2}
test "Connect a slave to the master instance $rt" {
r -1 slaveof [srv 0 host] [srv 0 port]
wait_for_condition 50 100 {
[s -1 role] eq {slave} &&
[string match {*master_link_status:up*} [r -1 info replication]]
} else {
fail "Can't turn the instance into a slave"
}
}
test "Now use EVALSHA against the master, with both SHAs $rt" {
# The server should replicate successful and unsuccessful
# commands as EVAL instead of EVALSHA.
catch {
r evalsha 67164fc43fa971f76fd1aaeeaf60c1c178d25876 1 x
}
r evalsha 6f5ade10a69975e903c6d07b10ea44c6382381a5 1 x
} {4}
test "If EVALSHA was replicated as EVAL, 'x' should be '4' $rt" {
wait_for_condition 50 100 {
[r -1 get x] eq {4}
} else {
fail "Expected 4 in x, but value is '[r -1 get x]'"
}
}
test "Replication of script multiple pushes to list with BLPOP $rt" {
set rd [redis_deferring_client]
$rd brpop a 0
r eval {
redis.call("lpush",KEYS[1],"1");
redis.call("lpush",KEYS[1],"2");
} 1 a
set res [$rd read]
$rd close
wait_for_condition 50 100 {
[r -1 lrange a 0 -1] eq [r lrange a 0 -1]
} else {
fail "Expected list 'a' in slave and master to be the same, but they are respectively '[r -1 lrange a 0 -1]' and '[r lrange a 0 -1]'"
}
set res
} {a 1}
test "EVALSHA replication when first call is readonly $rt" {
r del x
r eval {if tonumber(ARGV[1]) > 0 then redis.call('incr', KEYS[1]) end} 1 x 0
r evalsha 6e0e2745aa546d0b50b801a20983b70710aef3ce 1 x 0
r evalsha 6e0e2745aa546d0b50b801a20983b70710aef3ce 1 x 1
wait_for_condition 50 100 {
[r -1 get x] eq {1}
} else {
fail "Expected 1 in x, but value is '[r -1 get x]'"
}
}
test "Lua scripts using SELECT are replicated correctly $rt" {
r eval {
redis.call("set","foo1","bar1")
redis.call("select","10")
redis.call("incr","x")
redis.call("select","11")
redis.call("incr","z")
} 0
r eval {
redis.call("set","foo1","bar1")
redis.call("select","10")
redis.call("incr","x")
redis.call("select","11")
redis.call("incr","z")
} 0
wait_for_condition 50 100 {
[r -1 debug digest] eq [r debug digest]
} else {
fail "Master-Slave desync after Lua script using SELECT."
}
}
}
}
}
start_server {tags {"scripting repl"}} {
start_server {overrides {appendonly yes}} {
test "Connect a slave to the master instance" {
r -1 slaveof [srv 0 host] [srv 0 port]
wait_for_condition 50 100 {
[s -1 role] eq {slave} &&
[string match {*master_link_status:up*} [r -1 info replication]]
} else {
fail "Can't turn the instance into a slave"
}
}
test "Redis.replicate_commands() must be issued before any write" {
r eval {
redis.call('set','foo','bar');
return redis.replicate_commands();
} 0
} {}
test "Redis.replicate_commands() must be issued before any write (2)" {
r eval {
return redis.replicate_commands();
} 0
} {1}
test "Redis.set_repl() must be issued after replicate_commands()" {
catch {
r eval {
redis.set_repl(redis.REPL_ALL);
} 0
} e
set e
} {*only after turning on*}
test "Redis.set_repl() don't accept invalid values" {
catch {
r eval {
redis.replicate_commands();
redis.set_repl(12345);
} 0
} e
set e
} {*Invalid*flags*}
test "Test selective replication of certain Redis commands from Lua" {
r del a b c d
r eval {
redis.replicate_commands();
redis.call('set','a','1');
redis.set_repl(redis.REPL_NONE);
redis.call('set','b','2');
redis.set_repl(redis.REPL_AOF);
redis.call('set','c','3');
redis.set_repl(redis.REPL_ALL);
redis.call('set','d','4');
} 0
wait_for_condition 50 100 {
[r -1 mget a b c d] eq {1 {} {} 4}
} else {
fail "Only a and c should be replicated to slave"
}
# Master should have everything right now
assert {[r mget a b c d] eq {1 2 3 4}}
# After an AOF reload only a, c and d should exist
r debug loadaof
assert {[r mget a b c d] eq {1 {} 3 4}}
}
test "PRNG is seeded randomly for command replication" {
set a [
r eval {
redis.replicate_commands();
return math.random()*100000;
} 0
]
set b [
r eval {
redis.replicate_commands();
return math.random()*100000;
} 0
]
assert {$a ne $b}
}
test "Using side effects is not a problem with command replication" {
r eval {
redis.replicate_commands();
redis.call('set','time',redis.call('time')[1])
} 0
assert {[r get time] ne {}}
wait_for_condition 50 100 {
[r get time] eq [r -1 get time]
} else {
fail "Time key does not match between master and slave"
}
}
}
}
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