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|
start_server {tags {"basic"}} {
test {DEL all keys to start with a clean DB} {
foreach key [r keys *] {r del $key}
r dbsize
} {0}
test {SET and GET an item} {
r set x foobar
r get x
} {foobar}
test {SET and GET an empty item} {
r set x {}
r get x
} {}
test {DEL against a single item} {
r del x
r get x
} {}
test {Vararg DEL} {
r set foo1 a
r set foo2 b
r set foo3 c
list [r del foo1 foo2 foo3 foo4] [r mget foo1 foo2 foo3]
} {3 {{} {} {}}}
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 {DEL all keys} {
foreach key [r keys *] {r del $key}
r dbsize
} {0}
test {Very big payload in GET/SET} {
set buf [string repeat "abcd" 1000000]
r set foo $buf
r get foo
} [string repeat "abcd" 1000000]
tags {"slow"} {
test {Very big payload random access} {
set err {}
array set payload {}
for {set j 0} {$j < 100} {incr j} {
set size [expr 1+[randomInt 100000]]
set buf [string repeat "pl-$j" $size]
set payload($j) $buf
r set bigpayload_$j $buf
}
for {set j 0} {$j < 1000} {incr j} {
set index [randomInt 100]
set buf [r get bigpayload_$index]
if {$buf != $payload($index)} {
set err "Values differ: I set '$payload($index)' but I read back '$buf'"
break
}
}
unset payload
set _ $err
} {}
test {SET 10000 numeric keys and access all them in reverse order} {
set err {}
for {set x 0} {$x < 10000} {incr x} {
r set $x $x
}
set sum 0
for {set x 9999} {$x >= 0} {incr x -1} {
set val [r get $x]
if {$val ne $x} {
set err "Eleemnt at position $x is $val instead of $x"
break
}
}
set _ $err
} {}
test {DBSIZE should be 10101 now} {
r dbsize
} {10101}
}
test {INCR against non existing key} {
set res {}
append res [r incr novar]
append res [r get novar]
} {11}
test {INCR against key created by incr itself} {
r incr novar
} {2}
test {INCR against key originally set with SET} {
r set novar 100
r incr novar
} {101}
test {INCR over 32bit value} {
r set novar 17179869184
r incr novar
} {17179869185}
test {INCRBY over 32bit value with over 32bit increment} {
r set novar 17179869184
r incrby novar 17179869184
} {34359738368}
test {INCR fails against key with spaces (left)} {
r set novar " 11"
catch {r incr novar} err
format $err
} {ERR*}
test {INCR fails against key with spaces (right)} {
r set novar "11 "
catch {r incr novar} err
format $err
} {ERR*}
test {INCR fails against key with spaces (both)} {
r set novar " 11 "
catch {r incr novar} err
format $err
} {ERR*}
test {INCR fails against a key holding a list} {
r rpush mylist 1
catch {r incr mylist} err
r rpop mylist
format $err
} {WRONGTYPE*}
test {DECRBY over 32bit value with over 32bit increment, negative res} {
r set novar 17179869184
r decrby novar 17179869185
} {-1}
test {INCRBYFLOAT against non existing key} {
r del novar
list [roundFloat [r incrbyfloat novar 1]] \
[roundFloat [r get novar]] \
[roundFloat [r incrbyfloat novar 0.25]] \
[roundFloat [r get novar]]
} {1 1 1.25 1.25}
test {INCRBYFLOAT against key originally set with SET} {
r set novar 1.5
roundFloat [r incrbyfloat novar 1.5]
} {3}
test {INCRBYFLOAT over 32bit value} {
r set novar 17179869184
r incrbyfloat novar 1.5
} {17179869185.5}
test {INCRBYFLOAT over 32bit value with over 32bit increment} {
r set novar 17179869184
r incrbyfloat novar 17179869184
} {34359738368}
test {INCRBYFLOAT fails against key with spaces (left)} {
set err {}
r set novar " 11"
catch {r incrbyfloat novar 1.0} err
format $err
} {ERR*valid*}
test {INCRBYFLOAT fails against key with spaces (right)} {
set err {}
r set novar "11 "
catch {r incrbyfloat novar 1.0} err
format $err
} {ERR*valid*}
test {INCRBYFLOAT fails against key with spaces (both)} {
set err {}
r set novar " 11 "
catch {r incrbyfloat novar 1.0} err
format $err
} {ERR*valid*}
test {INCRBYFLOAT fails against a key holding a list} {
r del mylist
set err {}
r rpush mylist 1
catch {r incrbyfloat mylist 1.0} err
r del mylist
format $err
} {WRONGTYPE*}
test {INCRBYFLOAT does not allow NaN or Infinity} {
r set foo 0
set err {}
catch {r incrbyfloat foo +inf} err
set err
# p.s. no way I can force NaN to test it from the API because
# there is no way to increment / decrement by infinity nor to
# perform divisions.
} {ERR*would produce*}
test {INCRBYFLOAT decrement} {
r set foo 1
roundFloat [r incrbyfloat foo -1.1]
} {-0.1}
test "SETNX target key missing" {
r del novar
assert_equal 1 [r setnx novar foobared]
assert_equal "foobared" [r get novar]
}
test "SETNX target key exists" {
r set novar foobared
assert_equal 0 [r setnx novar blabla]
assert_equal "foobared" [r get novar]
}
test "SETNX against not-expired volatile key" {
r set x 10
r expire x 10000
assert_equal 0 [r setnx x 20]
assert_equal 10 [r get x]
}
test "SETNX against expired volatile key" {
# Make it very unlikely for the key this test uses to be expired by the
# active expiry cycle. This is tightly coupled to the implementation of
# active expiry and dbAdd() but currently the only way to test that
# SETNX expires a key when it should have been.
for {set x 0} {$x < 9999} {incr x} {
r setex key-$x 3600 value
}
# This will be one of 10000 expiring keys. A cycle is executed every
# 100ms, sampling 10 keys for being expired or not. This key will be
# expired for at most 1s when we wait 2s, resulting in a total sample
# of 100 keys. The probability of the success of this test being a
# false positive is therefore approx. 1%.
r set x 10
r expire x 1
# Wait for the key to expire
after 2000
assert_equal 1 [r setnx x 20]
assert_equal 20 [r get x]
}
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* [::redis::redis_read_reply $fd]]
append res [::redis::redis_read_reply $fd]
append res [string match PONG* [::redis::redis_read_reply $fd]]
format $res
} {1xyzk1}
test {Non existing command} {
catch {r foobaredcommand} err
string match ERR* $err
} {1}
test {RENAME basic usage} {
r set mykey hello
r rename mykey mykey1
r rename mykey1 mykey2
r get mykey2
} {hello}
test {RENAME source key should no longer exist} {
r exists mykey
} {0}
test {RENAME against already existing key} {
r set mykey a
r set mykey2 b
r rename mykey2 mykey
set res [r get mykey]
append res [r exists mykey2]
} {b0}
test {RENAMENX basic usage} {
r del mykey
r del mykey2
r set mykey foobar
r renamenx mykey mykey2
set res [r get mykey2]
append res [r exists mykey]
} {foobar0}
test {RENAMENX against already existing key} {
r set mykey foo
r set mykey2 bar
r renamenx mykey mykey2
} {0}
test {RENAMENX against already existing key (2)} {
set res [r get mykey]
append res [r get mykey2]
} {foobar}
test {RENAME against non existing source key} {
catch {r rename nokey foobar} err
format $err
} {ERR*}
test {RENAME where source and dest key is the same} {
catch {r rename mykey mykey} err
format $err
} {ERR*}
test {RENAME with volatile key, should move the TTL as well} {
r del mykey mykey2
r set mykey foo
r expire mykey 100
assert {[r ttl mykey] > 95 && [r ttl mykey] <= 100}
r rename mykey mykey2
assert {[r ttl mykey2] > 95 && [r ttl mykey2] <= 100}
}
test {RENAME with volatile key, should not inherit TTL of target key} {
r del mykey mykey2
r set mykey foo
r set mykey2 bar
r expire mykey2 100
assert {[r ttl mykey] == -1 && [r ttl mykey2] > 0}
r rename mykey mykey2
r ttl mykey2
} {-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}
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]
test {MOVE against key existing in the target DB} {
r set mykey hello
r move mykey 10
} {0}
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 $res
} {hello world foo bared}
test {MGET} {
r flushdb
r set foo BAR
r set bar FOO
r mget foo bar
} {BAR FOO}
test {MGET against non existing key} {
r mget foo baazz bar
} {BAR {} FOO}
test {MGET against non-string key} {
r sadd myset ciao
r sadd myset bau
r mget foo baazz bar myset
} {BAR {} FOO {}}
test {RANDOMKEY} {
r flushdb
r set foo x
r set bar y
set foo_seen 0
set bar_seen 0
for {set i 0} {$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 {GETSET (set new value)} {
list [r getset foo xyz] [r get foo]
} {{} xyz}
test {GETSET (replace old value)} {
r set foo bar
list [r getset foo xyz] [r get foo]
} {bar xyz}
test {MSET base case} {
r mset x 10 y "foo bar" z "x x x x x x x\n\n\r\n"
r mget x y z
} [list 10 {foo bar} "x x x x x x x\n\n\r\n"]
test {MSET wrong number of args} {
catch {r mset x 10 y "foo bar" z} err
format $err
} {*wrong number*}
test {MSETNX with already existent key} {
list [r msetnx x1 xxx y2 yyy x 20] [r exists x1] [r exists y2]
} {0 0 0}
test {MSETNX with not existing keys} {
list [r msetnx x1 xxx y2 yyy] [r get x1] [r get y2]
} {1 xxx yyy}
test "STRLEN against non-existing key" {
assert_equal 0 [r strlen notakey]
}
test "STRLEN against integer-encoded value" {
r set myinteger -555
assert_equal 4 [r strlen myinteger]
}
test "STRLEN against plain string" {
r set mystring "foozzz0123456789 baz"
assert_equal 20 [r strlen mystring]
}
test "SETBIT against non-existing key" {
r del mykey
assert_equal 0 [r setbit mykey 1 1]
assert_equal [binary format B* 01000000] [r get mykey]
}
test "SETBIT against string-encoded key" {
# Ascii "@" is integer 64 = 01 00 00 00
r set mykey "@"
assert_equal 0 [r setbit mykey 2 1]
assert_equal [binary format B* 01100000] [r get mykey]
assert_equal 1 [r setbit mykey 1 0]
assert_equal [binary format B* 00100000] [r get mykey]
}
test "SETBIT against integer-encoded key" {
# Ascii "1" is integer 49 = 00 11 00 01
r set mykey 1
assert_encoding int mykey
assert_equal 0 [r setbit mykey 6 1]
assert_equal [binary format B* 00110011] [r get mykey]
assert_equal 1 [r setbit mykey 2 0]
assert_equal [binary format B* 00010011] [r get mykey]
}
test "SETBIT against key with wrong type" {
r del mykey
r lpush mykey "foo"
assert_error "WRONGTYPE*" {r setbit mykey 0 1}
}
test "SETBIT with out of range bit offset" {
r del mykey
assert_error "*out of range*" {r setbit mykey [expr 4*1024*1024*1024] 1}
assert_error "*out of range*" {r setbit mykey -1 1}
}
test "SETBIT with non-bit argument" {
r del mykey
assert_error "*out of range*" {r setbit mykey 0 -1}
assert_error "*out of range*" {r setbit mykey 0 2}
assert_error "*out of range*" {r setbit mykey 0 10}
assert_error "*out of range*" {r setbit mykey 0 20}
}
test "SETBIT fuzzing" {
set str ""
set len [expr 256*8]
r del mykey
for {set i 0} {$i < 2000} {incr i} {
set bitnum [randomInt $len]
set bitval [randomInt 2]
set fmt [format "%%-%ds%%d%%-s" $bitnum]
set head [string range $str 0 $bitnum-1]
set tail [string range $str $bitnum+1 end]
set str [string map {" " 0} [format $fmt $head $bitval $tail]]
r setbit mykey $bitnum $bitval
assert_equal [binary format B* $str] [r get mykey]
}
}
test "GETBIT against non-existing key" {
r del mykey
assert_equal 0 [r getbit mykey 0]
}
test "GETBIT against string-encoded key" {
# Single byte with 2nd and 3rd bit set
r set mykey "`"
# In-range
assert_equal 0 [r getbit mykey 0]
assert_equal 1 [r getbit mykey 1]
assert_equal 1 [r getbit mykey 2]
assert_equal 0 [r getbit mykey 3]
# Out-range
assert_equal 0 [r getbit mykey 8]
assert_equal 0 [r getbit mykey 100]
assert_equal 0 [r getbit mykey 10000]
}
test "GETBIT against integer-encoded key" {
r set mykey 1
assert_encoding int mykey
# Ascii "1" is integer 49 = 00 11 00 01
assert_equal 0 [r getbit mykey 0]
assert_equal 0 [r getbit mykey 1]
assert_equal 1 [r getbit mykey 2]
assert_equal 1 [r getbit mykey 3]
# Out-range
assert_equal 0 [r getbit mykey 8]
assert_equal 0 [r getbit mykey 100]
assert_equal 0 [r getbit mykey 10000]
}
test "SETRANGE against non-existing key" {
r del mykey
assert_equal 3 [r setrange mykey 0 foo]
assert_equal "foo" [r get mykey]
r del mykey
assert_equal 0 [r setrange mykey 0 ""]
assert_equal 0 [r exists mykey]
r del mykey
assert_equal 4 [r setrange mykey 1 foo]
assert_equal "\000foo" [r get mykey]
}
test "SETRANGE against string-encoded key" {
r set mykey "foo"
assert_equal 3 [r setrange mykey 0 b]
assert_equal "boo" [r get mykey]
r set mykey "foo"
assert_equal 3 [r setrange mykey 0 ""]
assert_equal "foo" [r get mykey]
r set mykey "foo"
assert_equal 3 [r setrange mykey 1 b]
assert_equal "fbo" [r get mykey]
r set mykey "foo"
assert_equal 7 [r setrange mykey 4 bar]
assert_equal "foo\000bar" [r get mykey]
}
test "SETRANGE against integer-encoded key" {
r set mykey 1234
assert_encoding int mykey
assert_equal 4 [r setrange mykey 0 2]
assert_encoding raw mykey
assert_equal 2234 [r get mykey]
# Shouldn't change encoding when nothing is set
r set mykey 1234
assert_encoding int mykey
assert_equal 4 [r setrange mykey 0 ""]
assert_encoding int mykey
assert_equal 1234 [r get mykey]
r set mykey 1234
assert_encoding int mykey
assert_equal 4 [r setrange mykey 1 3]
assert_encoding raw mykey
assert_equal 1334 [r get mykey]
r set mykey 1234
assert_encoding int mykey
assert_equal 6 [r setrange mykey 5 2]
assert_encoding raw mykey
assert_equal "1234\0002" [r get mykey]
}
test "SETRANGE against key with wrong type" {
r del mykey
r lpush mykey "foo"
assert_error "WRONGTYPE*" {r setrange mykey 0 bar}
}
test "SETRANGE with out of range offset" {
r del mykey
assert_error "*maximum allowed size*" {r setrange mykey [expr 512*1024*1024-4] world}
r set mykey "hello"
assert_error "*out of range*" {r setrange mykey -1 world}
assert_error "*maximum allowed size*" {r setrange mykey [expr 512*1024*1024-4] world}
}
test "GETRANGE against non-existing key" {
r del mykey
assert_equal "" [r getrange mykey 0 -1]
}
test "GETRANGE against string value" {
r set mykey "Hello World"
assert_equal "Hell" [r getrange mykey 0 3]
assert_equal "Hello World" [r getrange mykey 0 -1]
assert_equal "orld" [r getrange mykey -4 -1]
assert_equal "" [r getrange mykey 5 3]
assert_equal " World" [r getrange mykey 5 5000]
assert_equal "Hello World" [r getrange mykey -5000 10000]
}
test "GETRANGE against integer-encoded value" {
r set mykey 1234
assert_equal "123" [r getrange mykey 0 2]
assert_equal "1234" [r getrange mykey 0 -1]
assert_equal "234" [r getrange mykey -3 -1]
assert_equal "" [r getrange mykey 5 3]
assert_equal "4" [r getrange mykey 3 5000]
assert_equal "1234" [r getrange mykey -5000 10000]
}
test "GETRANGE fuzzing" {
for {set i 0} {$i < 1000} {incr i} {
r set bin [set bin [randstring 0 1024 binary]]
set _start [set start [randomInt 1500]]
set _end [set end [randomInt 1500]]
if {$_start < 0} {set _start "end-[abs($_start)-1]"}
if {$_end < 0} {set _end "end-[abs($_end)-1]"}
assert_equal [string range $bin $_start $_end] [r getrange bin $start $end]
}
}
}
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