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redis/tests/unit/keyspace.tcl

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Tcl
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start_server {tags {"keyspace"}} {
test {DEL against a single item} {
r set x foo
assert {[r get x] eq "foo"}
r del x
r get x
} {}
test {Vararg DEL} {
r set foo1{t} a
r set foo2{t} b
r set foo3{t} c
list [r del foo1{t} foo2{t} foo3{t} foo4{t}] [r mget foo1{t} foo2{t} foo3{t}]
} {3 {{} {} {}}}
test {Untagged multi-key commands} {
r mset foo1 a foo2 b foo3 c
assert_equal {a b c {}} [r mget foo1 foo2 foo3 foo4]
r del foo1 foo2 foo3 foo4
} {3} {cluster:skip}
test {KEYS with pattern} {
foreach key {key_x key_y key_z foo_a foo_b foo_c} {
r set $key hello
}
lsort [r keys foo*]
} {foo_a foo_b foo_c}
test {KEYS to get all keys} {
lsort [r keys *]
} {foo_a foo_b foo_c key_x key_y key_z}
test {DBSIZE} {
r dbsize
} {6}
test {KEYS with hashtag} {
foreach key {"{a}x" "{a}y" "{a}z" "{b}a" "{b}b" "{b}c"} {
r set $key hello
}
assert_equal [lsort [r keys "{a}*"]] [list "{a}x" "{a}y" "{a}z"]
assert_equal [lsort [r keys "*{b}*"]] [list "{b}a" "{b}b" "{b}c"]
}
test {DEL all keys} {
foreach key [r keys *] {r del $key}
r dbsize
} {0}
test "DEL against expired key" {
r debug set-active-expire 0
r setex keyExpire 1 valExpire
after 1100
assert_equal 0 [r del keyExpire]
r debug set-active-expire 1
} {OK} {needs:debug}
test {EXISTS} {
set res {}
r set newkey test
append res [r exists newkey]
r del newkey
append res [r exists newkey]
} {10}
test {Zero length value in key. SET/GET/EXISTS} {
r set emptykey {}
set res [r get emptykey]
append res [r exists emptykey]
r del emptykey
append res [r exists emptykey]
} {10}
test {Commands pipelining} {
set fd [r channel]
puts -nonewline $fd "SET k1 xyzk\r\nGET k1\r\nPING\r\n"
flush $fd
set res {}
append res [string match OK* [r read]]
append res [r read]
append res [string match PONG* [r read]]
format $res
} {1xyzk1}
test {Non existing command} {
catch {r foobaredcommand} err
string match ERR* $err
} {1}
test {RENAME basic usage} {
r set mykey{t} hello
r rename mykey{t} mykey1{t}
r rename mykey1{t} mykey2{t}
r get mykey2{t}
} {hello}
test {RENAME source key should no longer exist} {
r exists mykey
} {0}
test {RENAME against already existing key} {
r set mykey{t} a
r set mykey2{t} b
r rename mykey2{t} mykey{t}
set res [r get mykey{t}]
append res [r exists mykey2{t}]
} {b0}
test {RENAMENX basic usage} {
r del mykey{t}
r del mykey2{t}
r set mykey{t} foobar
r renamenx mykey{t} mykey2{t}
set res [r get mykey2{t}]
append res [r exists mykey{t}]
} {foobar0}
test {RENAMENX against already existing key} {
r set mykey{t} foo
r set mykey2{t} bar
r renamenx mykey{t} mykey2{t}
} {0}
test {RENAMENX against already existing key (2)} {
set res [r get mykey{t}]
append res [r get mykey2{t}]
} {foobar}
test {RENAME against non existing source key} {
catch {r rename nokey{t} foobar{t}} err
format $err
} {ERR*}
test {RENAME where source and dest key are the same (existing)} {
r set mykey foo
r rename mykey mykey
} {OK}
test {RENAMENX where source and dest key are the same (existing)} {
r set mykey foo
r renamenx mykey mykey
} {0}
test {RENAME where source and dest key are the same (non existing)} {
r del mykey
catch {r rename mykey mykey} err
format $err
} {ERR*}
test {RENAME with volatile key, should move the TTL as well} {
r del mykey{t} mykey2{t}
r set mykey{t} foo
r expire mykey{t} 100
assert {[r ttl mykey{t}] > 95 && [r ttl mykey{t}] <= 100}
r rename mykey{t} mykey2{t}
assert {[r ttl mykey2{t}] > 95 && [r ttl mykey2{t}] <= 100}
}
test {RENAME with volatile key, should not inherit TTL of target key} {
r del mykey{t} mykey2{t}
r set mykey{t} foo
r set mykey2{t} bar
r expire mykey2{t} 100
assert {[r ttl mykey{t}] == -1 && [r ttl mykey2{t}] > 0}
r rename mykey{t} mykey2{t}
r ttl mykey2{t}
} {-1}
test {DEL all keys again (DB 0)} {
foreach key [r keys *] {
r del $key
}
r dbsize
} {0}
test {DEL all keys again (DB 1)} {
r select 10
foreach key [r keys *] {
r del $key
}
set res [r dbsize]
r select 9
format $res
} {0} {singledb:skip}
test {COPY basic usage for string} {
r set mykey{t} foobar
set res {}
r copy mykey{t} mynewkey{t}
lappend res [r get mynewkey{t}]
lappend res [r dbsize]
if {$::singledb} {
assert_equal [list foobar 2] [format $res]
} else {
r copy mykey{t} mynewkey{t} DB 10
r select 10
lappend res [r get mynewkey{t}]
lappend res [r dbsize]
r select 9
assert_equal [list foobar 2 foobar 1] [format $res]
}
}
test {COPY for string does not replace an existing key without REPLACE option} {
r set mykey2{t} hello
catch {r copy mykey2{t} mynewkey{t} DB 10} e
set e
} {0} {singledb:skip}
test {COPY for string can replace an existing key with REPLACE option} {
r copy mykey2{t} mynewkey{t} DB 10 REPLACE
r select 10
r get mynewkey{t}
} {hello} {singledb:skip}
test {COPY for string ensures that copied data is independent of copying data} {
r flushdb
r select 9
r set mykey{t} foobar
set res {}
r copy mykey{t} mynewkey{t} DB 10
r select 10
lappend res [r get mynewkey{t}]
r set mynewkey{t} hoge
lappend res [r get mynewkey{t}]
r select 9
lappend res [r get mykey{t}]
r select 10
r flushdb
r select 9
format $res
} [list foobar hoge foobar] {singledb:skip}
test {COPY for string does not copy data to no-integer DB} {
r set mykey{t} foobar
catch {r copy mykey{t} mynewkey{t} DB notanumber} e
set e
} {ERR value is not an integer or out of range}
test {COPY can copy key expire metadata as well} {
r set mykey{t} foobar ex 100
r copy mykey{t} mynewkey{t} REPLACE
assert {[r ttl mynewkey{t}] > 0 && [r ttl mynewkey{t}] <= 100}
assert {[r get mynewkey{t}] eq "foobar"}
}
test {COPY does not create an expire if it does not exist} {
r set mykey{t} foobar
assert {[r ttl mykey{t}] == -1}
r copy mykey{t} mynewkey{t} REPLACE
assert {[r ttl mynewkey{t}] == -1}
assert {[r get mynewkey{t}] eq "foobar"}
}
source "tests/unit/type/list-common.tcl"
foreach {type large} [array get largevalue] {
set origin_config [config_get_set list-max-listpack-size -1]
test "COPY basic usage for list - $type" {
r del mylist{t} mynewlist{t}
r lpush mylist{t} a b $large c d
assert_encoding $type mylist{t}
r copy mylist{t} mynewlist{t}
assert_encoding $type mynewlist{t}
set digest [debug_digest_value mylist{t}]
assert_equal $digest [debug_digest_value mynewlist{t}]
assert_refcount 1 mylist{t}
assert_refcount 1 mynewlist{t}
r del mylist{t}
assert_equal $digest [debug_digest_value mynewlist{t}]
}
config_set list-max-listpack-size $origin_config
}
foreach type {intset listpack hashtable} {
test {COPY basic usage for $type set} {
r del set1{t} newset1{t}
r sadd set1{t} 1 2 3
if {$type ne "intset"} {
r sadd set1{t} a
}
if {$type eq "hashtable"} {
for {set i 4} {$i < 200} {incr i} {
r sadd set1{t} $i
}
}
assert_encoding $type set1{t}
r copy set1{t} newset1{t}
set digest [debug_digest_value set1{t}]
assert_equal $digest [debug_digest_value newset1{t}]
assert_refcount 1 set1{t}
assert_refcount 1 newset1{t}
r del set1{t}
assert_equal $digest [debug_digest_value newset1{t}]
}
}
test {COPY basic usage for listpack sorted set} {
r del zset1{t} newzset1{t}
r zadd zset1{t} 123 foobar
assert_encoding listpack zset1{t}
r copy zset1{t} newzset1{t}
set digest [debug_digest_value zset1{t}]
assert_equal $digest [debug_digest_value newzset1{t}]
assert_refcount 1 zset1{t}
assert_refcount 1 newzset1{t}
r del zset1{t}
assert_equal $digest [debug_digest_value newzset1{t}]
}
test {COPY basic usage for skiplist sorted set} {
r del zset2{t} newzset2{t}
set original_max [lindex [r config get zset-max-ziplist-entries] 1]
r config set zset-max-ziplist-entries 0
for {set j 0} {$j < 130} {incr j} {
r zadd zset2{t} [randomInt 50] ele-[randomInt 10]
}
assert_encoding skiplist zset2{t}
r copy zset2{t} newzset2{t}
set digest [debug_digest_value zset2{t}]
assert_equal $digest [debug_digest_value newzset2{t}]
assert_refcount 1 zset2{t}
assert_refcount 1 newzset2{t}
r del zset2{t}
assert_equal $digest [debug_digest_value newzset2{t}]
r config set zset-max-ziplist-entries $original_max
}
test {COPY basic usage for listpack hash} {
r del hash1{t} newhash1{t}
r hset hash1{t} tmp 17179869184
assert_encoding listpack hash1{t}
r copy hash1{t} newhash1{t}
set digest [debug_digest_value hash1{t}]
assert_equal $digest [debug_digest_value newhash1{t}]
assert_refcount 1 hash1{t}
assert_refcount 1 newhash1{t}
r del hash1{t}
assert_equal $digest [debug_digest_value newhash1{t}]
}
test {COPY basic usage for hashtable hash} {
r del hash2{t} newhash2{t}
set original_max [lindex [r config get hash-max-ziplist-entries] 1]
r config set hash-max-ziplist-entries 0
for {set i 0} {$i < 64} {incr i} {
r hset hash2{t} [randomValue] [randomValue]
}
assert_encoding hashtable hash2{t}
r copy hash2{t} newhash2{t}
set digest [debug_digest_value hash2{t}]
assert_equal $digest [debug_digest_value newhash2{t}]
assert_refcount 1 hash2{t}
assert_refcount 1 newhash2{t}
r del hash2{t}
assert_equal $digest [debug_digest_value newhash2{t}]
r config set hash-max-ziplist-entries $original_max
}
test {COPY basic usage for stream} {
r del mystream{t} mynewstream{t}
for {set i 0} {$i < 1000} {incr i} {
r XADD mystream{t} * item 2 value b
}
r copy mystream{t} mynewstream{t}
set digest [debug_digest_value mystream{t}]
assert_equal $digest [debug_digest_value mynewstream{t}]
assert_refcount 1 mystream{t}
assert_refcount 1 mynewstream{t}
r del mystream{t}
assert_equal $digest [debug_digest_value mynewstream{t}]
}
test {COPY basic usage for stream-cgroups} {
r del x{t}
r XADD x{t} 100 a 1
set id [r XADD x{t} 101 b 1]
r XADD x{t} 102 c 1
r XADD x{t} 103 e 1
r XADD x{t} 104 f 1
r XADD x{t} 105 g 1
r XGROUP CREATE x{t} g1 0
r XGROUP CREATE x{t} g2 0
r XREADGROUP GROUP g1 Alice COUNT 1 STREAMS x{t} >
r XREADGROUP GROUP g1 Bob COUNT 1 STREAMS x{t} >
r XREADGROUP GROUP g1 Bob NOACK COUNT 1 STREAMS x{t} >
r XREADGROUP GROUP g2 Charlie COUNT 4 STREAMS x{t} >
r XGROUP SETID x{t} g1 $id
r XREADGROUP GROUP g1 Dave COUNT 3 STREAMS x{t} >
r XDEL x{t} 103
r copy x{t} newx{t}
set info [r xinfo stream x{t} full]
assert_equal $info [r xinfo stream newx{t} full]
assert_refcount 1 x{t}
assert_refcount 1 newx{t}
r del x{t}
assert_equal $info [r xinfo stream newx{t} full]
r flushdb
}
test {MOVE basic usage} {
r set mykey foobar
r move mykey 10
set res {}
lappend res [r exists mykey]
lappend res [r dbsize]
r select 10
lappend res [r get mykey]
lappend res [r dbsize]
r select 9
format $res
} [list 0 0 foobar 1] {singledb:skip}
test {MOVE against key existing in the target DB} {
r set mykey hello
r move mykey 10
} {0} {singledb:skip}
test {MOVE against non-integer DB (#1428)} {
r set mykey hello
catch {r move mykey notanumber} e
set e
} {ERR value is not an integer or out of range} {singledb:skip}
test {MOVE can move key expire metadata as well} {
r select 10
r flushdb
r select 9
r set mykey foo ex 100
r move mykey 10
assert {[r ttl mykey] == -2}
r select 10
assert {[r ttl mykey] > 0 && [r ttl mykey] <= 100}
assert {[r get mykey] eq "foo"}
r select 9
} {OK} {singledb:skip}
test {MOVE does not create an expire if it does not exist} {
r select 10
r flushdb
r select 9
r set mykey foo
r move mykey 10
assert {[r ttl mykey] == -2}
r select 10
assert {[r ttl mykey] == -1}
assert {[r get mykey] eq "foo"}
r select 9
} {OK} {singledb:skip}
test {SET/GET keys in different DBs} {
r set a hello
r set b world
r select 10
r set a foo
r set b bared
r select 9
set res {}
lappend res [r get a]
lappend res [r get b]
r select 10
lappend res [r get a]
lappend res [r get b]
r select 9
format $res
} {hello world foo bared} {singledb:skip}
test {RANDOMKEY} {
r flushdb
r set foo x
r set bar y
set foo_seen 0
set bar_seen 0
for {set i 0} {$i < 100} {incr i} {
set rkey [r randomkey]
if {$rkey eq {foo}} {
set foo_seen 1
}
if {$rkey eq {bar}} {
set bar_seen 1
}
}
list $foo_seen $bar_seen
} {1 1}
test {RANDOMKEY against empty DB} {
r flushdb
r randomkey
} {}
test {RANDOMKEY regression 1} {
r flushdb
r set x 10
r del x
r randomkey
} {}
test {KEYS * two times with long key, Github issue #1208} {
r flushdb
r set dlskeriewrioeuwqoirueioqwrueoqwrueqw test
r keys *
r keys *
} {dlskeriewrioeuwqoirueioqwrueoqwrueqw}
test {Regression for pattern matching long nested loops} {
r flushdb
r SET aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa 1
r KEYS "a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*a*b"
} {}
test {Coverage: basic SWAPDB test and unhappy path} {
r flushall
r select 0
r set swapkey v1
r select 1
assert_match 0 [r dbsize] ;#verify DB[1] has 0 keys
r swapdb 0 1
assert_match 1 [r dbsize]
r select 0
assert_match 0 [r dbsize] ;#verify DB[0] has 0 keys
r flushall
assert_error "ERR DB index is out of range*" {r swapdb 44 55}
assert_error "ERR invalid second DB index*" {r swapdb 44 a}
assert_error "ERR invalid first DB index*" {r swapdb a 55}
assert_error "ERR invalid first DB index*" {r swapdb a b}
assert_match "OK" [r swapdb 0 0]
} {} {singledb:skip}
test {Coverage: SWAPDB and FLUSHDB} {
# set a key in each db and swapdb one of 2 with different db
# and flushdb on swapped db.
r flushall
r select 0
r set swapkey v1
r select 1
r set swapkey1 v1
assert_no_match "*db2:keys=*" [r info keyspace]
r swapdb 0 2
r select 0
assert_match 0 [r dbsize]
assert_no_match "*db0:keys=*" [r info keyspace]
r select 2
r flushdb
assert_match 0 [r dbsize]
assert_match "*db1:keys=*" [r info keyspace]
assert_no_match "*db0:keys=*" [r info keyspace]
assert_no_match "*db2:keys=*" [r info keyspace]
r flushall
} {OK} {singledb:skip}
}
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