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Bit operations tests improved.
[redis.git] / tests / unit / scripting.tcl
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1start_server {tags {"scripting"}} {
2 test {EVAL - Does Lua interpreter replies to our requests?} {
3 r eval {return 'hello'} 0
4 } {hello}
5
6 test {EVAL - Lua integer -> Redis protocol type conversion} {
7 r eval {return 100.5} 0
8 } {100}
9
10 test {EVAL - Lua string -> Redis protocol type conversion} {
11 r eval {return 'hello world'} 0
12 } {hello world}
13
14 test {EVAL - Lua true boolean -> Redis protocol type conversion} {
15 r eval {return true} 0
16 } {1}
17
18 test {EVAL - Lua false boolean -> Redis protocol type conversion} {
19 r eval {return false} 0
20 } {}
21
22 test {EVAL - Lua status code reply -> Redis protocol type conversion} {
23 r eval {return {ok='fine'}} 0
24 } {fine}
25
26 test {EVAL - Lua error reply -> Redis protocol type conversion} {
27 catch {
28 r eval {return {err='this is an error'}} 0
29 } e
30 set _ $e
31 } {this is an error}
32
33 test {EVAL - Lua table -> Redis protocol type conversion} {
34 r eval {return {1,2,3,'ciao',{1,2}}} 0
35 } {1 2 3 ciao {1 2}}
36
37 test {EVAL - Are the KEYS and ARGS arrays populated correctly?} {
38 r eval {return {KEYS[1],KEYS[2],ARGV[1],ARGV[2]}} 2 a b c d
39 } {a b c d}
40
41 test {EVAL - is Lua able to call Redis API?} {
42 r set mykey myval
43 r eval {return redis.call('get','mykey')} 0
44 } {myval}
45
46 test {EVALSHA - Can we call a SHA1 if already defined?} {
47 r evalsha 9bd632c7d33e571e9f24556ebed26c3479a87129 0
48 } {myval}
49
50 test {EVALSHA - Do we get an error on invalid SHA1?} {
51 catch {r evalsha NotValidShaSUM 0} e
52 set _ $e
53 } {NOSCRIPT*}
54
55 test {EVALSHA - Do we get an error on non defined SHA1?} {
56 catch {r evalsha ffd632c7d33e571e9f24556ebed26c3479a87130 0} e
57 set _ $e
58 } {NOSCRIPT*}
59
60 test {EVAL - Redis integer -> Lua type conversion} {
61 r eval {
62 local foo = redis.pcall('incr','x')
63 return {type(foo),foo}
64 } 0
65 } {number 1}
66
67 test {EVAL - Redis bulk -> Lua type conversion} {
68 r set mykey myval
69 r eval {
70 local foo = redis.pcall('get','mykey')
71 return {type(foo),foo}
72 } 0
73 } {string myval}
74
75 test {EVAL - Redis multi bulk -> Lua type conversion} {
76 r del mylist
77 r rpush mylist a
78 r rpush mylist b
79 r rpush mylist c
80 r eval {
81 local foo = redis.pcall('lrange','mylist',0,-1)
82 return {type(foo),foo[1],foo[2],foo[3],# foo}
83 } 0
84 } {table a b c 3}
85
86 test {EVAL - Redis status reply -> Lua type conversion} {
87 r eval {
88 local foo = redis.pcall('set','mykey','myval')
89 return {type(foo),foo['ok']}
90 } 0
91 } {table OK}
92
93 test {EVAL - Redis error reply -> Lua type conversion} {
94 r set mykey myval
95 r eval {
96 local foo = redis.pcall('incr','mykey')
97 return {type(foo),foo['err']}
98 } 0
99 } {table {ERR value is not an integer or out of range}}
100
101 test {EVAL - Redis nil bulk reply -> Lua type conversion} {
102 r del mykey
103 r eval {
104 local foo = redis.pcall('get','mykey')
105 return {type(foo),foo == false}
106 } 0
107 } {boolean 1}
108
109 test {EVAL - Is Lua affecting the currently selected DB?} {
110 r set mykey "this is DB 9"
111 r select 10
112 r set mykey "this is DB 10"
113 r eval {return redis.pcall('get','mykey')} 0
114 } {this is DB 10}
115
116 test {EVAL - Is Lua seleced DB retained?} {
117 r eval {return redis.pcall('select','9')} 0
118 r get mykey
119 } {this is DB 9}
120
121 if 0 {
122 test {EVAL - Script can't run more than configured time limit} {
123 r config set lua-time-limit 1
124 catch {
125 r eval {
126 local i = 0
127 while true do i=i+1 end
128 } 0
129 } e
130 set _ $e
131 } {*execution time*}
132 }
133
134 test {EVAL - Scripts can't run certain commands} {
135 set e {}
136 catch {r eval {return redis.pcall('spop','x')} 0} e
137 set e
138 } {*not allowed*}
139
140 test {EVAL - Scripts can't run certain commands} {
141 set e {}
142 catch {
143 r eval "redis.pcall('randomkey'); return redis.pcall('set','x','ciao')" 0
144 } e
145 set e
146 } {*not allowed after*}
147
148 test {EVAL - redis.call variant raises a Lua error on Redis cmd error (1)} {
149 set e {}
150 catch {
151 r eval "redis.call('nosuchcommand')" 0
152 } e
153 set e
154 } {*Unknown Redis*}
155
156 test {EVAL - redis.call variant raises a Lua error on Redis cmd error (1)} {
157 set e {}
158 catch {
159 r eval "redis.call('get','a','b','c')" 0
160 } e
161 set e
162 } {*number of args*}
163
164 test {EVAL - redis.call variant raises a Lua error on Redis cmd error (1)} {
165 set e {}
166 r set foo bar
167 catch {
168 r eval "redis.call('lpush','foo','val')" 0
169 } e
170 set e
171 } {*against a key*}
172
173 test {SCRIPTING FLUSH - is able to clear the scripts cache?} {
174 r set mykey myval
175 set v [r evalsha 9bd632c7d33e571e9f24556ebed26c3479a87129 0]
176 assert_equal $v myval
177 set e ""
178 r script flush
179 catch {r evalsha 9bd632c7d33e571e9f24556ebed26c3479a87129 0} e
180 set e
181 } {NOSCRIPT*}
182
183 test {SCRIPT EXISTS - can detect already defined scripts?} {
184 r eval "return 1+1" 0
185 r script exists a27e7e8a43702b7046d4f6a7ccf5b60cef6b9bd9 a27e7e8a43702b7046d4f6a7ccf5b60cef6b9bda
186 } {1 0}
187
188 test {SCRIPT LOAD - is able to register scripts in the scripting cache} {
189 list \
190 [r script load "return 'loaded'"] \
191 [r evalsha b534286061d4b9e4026607613b95c06c06015ae8 0]
192 } {b534286061d4b9e4026607613b95c06c06015ae8 loaded}
193
194 test "In the context of Lua the output of random commands gets ordered" {
195 r del myset
196 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
197 r eval {return redis.call('smembers','myset')} 0
198 } {a aa aaa azz b c d e f g h i l m n o p q r s t u v z}
199
200 test "SORT is normally not re-ordered by the scripting engine" {
201 r del myset
202 r sadd myset 1 2 3 4 10
203 r eval {return redis.call('sort','myset','desc')} 0
204 } {10 4 3 2 1}
205
206 test "SORT BY <constant> output gets ordered by scripting" {
207 r del myset
208 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
209 r eval {return redis.call('sort','myset','by','_')} 0
210 } {a aa aaa azz b c d e f g h i l m n o p q r s t u v z}
211
212 test "SORT output containing NULLs is well handled by scripting" {
213 r del myset
214 r sadd myset a b c
215 r eval {return redis.call('sort','myset','by','_','get','#','get','_:*')} 0
216 } {{} {} {} a b c}
217
218 test "redis.sha1hex() implementation" {
219 list [r eval {return redis.sha1hex('')} 0] \
220 [r eval {return redis.sha1hex('Pizza & Mandolino')} 0]
221 } {da39a3ee5e6b4b0d3255bfef95601890afd80709 74822d82031af7493c20eefa13bd07ec4fada82f}
222
223 test {Globals protection reading an undeclared global variable} {
224 catch {r eval {return a} 0} e
225 set e
226 } {*ERR*attempted to access unexisting global*}
227
228 test {Globals protection setting an undeclared global*} {
229 catch {r eval {a=10} 0} e
230 set e
231 } {*ERR*attempted to create global*}
232
233 test {Test an example script DECR_IF_GT} {
234 set decr_if_gt {
235 local current
236
237 current = redis.call('get',KEYS[1])
238 if not current then return nil end
239 if current > ARGV[1] then
240 return redis.call('decr',KEYS[1])
241 else
242 return redis.call('get',KEYS[1])
243 end
244 }
245 r set foo 5
246 set res {}
247 lappend res [r eval $decr_if_gt 1 foo 2]
248 lappend res [r eval $decr_if_gt 1 foo 2]
249 lappend res [r eval $decr_if_gt 1 foo 2]
250 lappend res [r eval $decr_if_gt 1 foo 2]
251 lappend res [r eval $decr_if_gt 1 foo 2]
252 set res
253 } {4 3 2 2 2}
254
255 test {Scripting engine resets PRNG at every script execution} {
256 set rand1 [r eval {return tostring(math.random())} 0]
257 set rand2 [r eval {return tostring(math.random())} 0]
258 assert_equal $rand1 $rand2
259 }
260
261 test {Scripting engine PRNG can be seeded correctly} {
262 set rand1 [r eval {
263 math.randomseed(ARGV[1]); return tostring(math.random())
264 } 0 10]
265 set rand2 [r eval {
266 math.randomseed(ARGV[1]); return tostring(math.random())
267 } 0 10]
268 set rand3 [r eval {
269 math.randomseed(ARGV[1]); return tostring(math.random())
270 } 0 20]
271 assert_equal $rand1 $rand2
272 assert {$rand2 ne $rand3}
273 }
274}
275
276# Start a new server since the last test in this stanza will kill the
277# instance at all.
278start_server {tags {"scripting"}} {
279 test {Timedout read-only scripts can be killed by SCRIPT KILL} {
280 set rd [redis_deferring_client]
281 r config set lua-time-limit 10
282 $rd eval {while true do end} 0
283 after 200
284 catch {r ping} e
285 assert_match {BUSY*} $e
286 r script kill
287 assert_equal [r ping] "PONG"
288 }
289
290 test {Timedout scripts that modified data can't be killed by SCRIPT KILL} {
291 set rd [redis_deferring_client]
292 r config set lua-time-limit 10
293 $rd eval {redis.call('set','x','y'); while true do end} 0
294 after 200
295 catch {r ping} e
296 assert_match {BUSY*} $e
297 catch {r script kill} e
298 assert_match {ERR*} $e
299 catch {r ping} e
300 assert_match {BUSY*} $e
301 }
302
303 test {SHUTDOWN NOSAVE can kill a timedout script anyway} {
304 # The server sould be still unresponding to normal commands.
305 catch {r ping} e
306 assert_match {BUSY*} $e
307 catch {r shutdown nosave}
308 # Make sure the server was killed
309 catch {set rd [redis_deferring_client]} e
310 assert_match {*connection refused*} $e
311 }
312}
313
314start_server {tags {"scripting repl"}} {
315 start_server {} {
316 test {Before the slave connects we issue an EVAL command} {
317 r eval {return redis.call('incr','x')} 0
318 } {1}
319
320 test {Connect a slave to the main instance} {
321 r -1 slaveof [srv 0 host] [srv 0 port]
322 after 1000
323 s -1 role
324 } {slave}
325
326 test {Now use EVALSHA against the master} {
327 r evalsha ae3477e27be955de7e1bc9adfdca626b478d3cb2 0
328 } {2}
329
330 test {If EVALSHA was replicated as EVAL the slave should be ok} {
331 wait_for_condition 50 100 {
332 [r -1 get x] eq {2}
333 } else {
334 fail "Expected 2 in x, but value is '[r -1 get x]'"
335 }
336 }
337 }
338}