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redict/tests/unit/keyspace.tcl
Yossi Gottlieb 8a86bca5ed
Improve test suite to handle external servers better. (#9033) 
This commit revives the improves the ability to run the test suite against
external servers, instead of launching and managing `redis-server` processes as
part of the test fixture.

This capability existed in the past, using the `--host` and `--port` options.
However, it was quite limited and mostly useful when running a specific tests.
Attempting to run larger chunks of the test suite experienced many issues:

* Many tests depend on being able to start and control `redis-server` themselves,
and there's no clear distinction between external server compatible and other
tests.
* Cluster mode is not supported (resulting with `CROSSSLOT` errors).

This PR cleans up many things and makes it possible to run the entire test suite
against an external server. It also provides more fine grained controls to
handle cases where the external server supports a subset of the Redis commands,
limited number of databases, cluster mode, etc.

The tests directory now contains a `README.md` file that describes how this
works.

This commit also includes additional cleanups and fixes:

* Tests can now be tagged.
* Tag-based selection is now unified across `start_server`, `tags` and `test`.
* More information is provided about skipped or ignored tests.
* Repeated patterns in tests have been extracted to common procedures, both at a
  global level and on a per-test file basis.
* Cleaned up some cases where test setup was based on a previous test executing
  (a major anti-pattern that repeats itself in many places).
* Cleaned up some cases where test teardown was not part of a test (in the
  future we should have dedicated teardown code that executes even when tests
  fail).
* Fixed some tests that were flaky running on external servers.
2021-06-09 15:13:24 +03:00

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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 {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"}
}
test {COPY basic usage for list} {
r del mylist{t} mynewlist{t}
r lpush mylist{t} a b c d
r copy mylist{t} mynewlist{t}
set digest [debug_digest_value mylist{t}]
assert_equal $digest [debug_digest_value mynewlist{t}]
assert_equal 1 [r object refcount mylist{t}]
assert_equal 1 [r object refcount mynewlist{t}]
r del mylist{t}
assert_equal $digest [debug_digest_value mynewlist{t}]
}
test {COPY basic usage for intset set} {
r del set1{t} newset1{t}
r sadd set1{t} 1 2 3
assert_encoding intset set1{t}
r copy set1{t} newset1{t}
set digest [debug_digest_value set1{t}]
assert_equal $digest [debug_digest_value newset1{t}]
assert_equal 1 [r object refcount set1{t}]
assert_equal 1 [r object refcount newset1{t}]
r del set1{t}
assert_equal $digest [debug_digest_value newset1{t}]
}
test {COPY basic usage for hashtable set} {
r del set2{t} newset2{t}
r sadd set2{t} 1 2 3 a
assert_encoding hashtable set2{t}
r copy set2{t} newset2{t}
set digest [debug_digest_value set2{t}]
assert_equal $digest [debug_digest_value newset2{t}]
assert_equal 1 [r object refcount set2{t}]
assert_equal 1 [r object refcount newset2{t}]
r del set2{t}
assert_equal $digest [debug_digest_value newset2{t}]
}
test {COPY basic usage for ziplist sorted set} {
r del zset1{t} newzset1{t}
r zadd zset1{t} 123 foobar
assert_encoding ziplist zset1{t}
r copy zset1{t} newzset1{t}
set digest [debug_digest_value zset1{t}]
assert_equal $digest [debug_digest_value newzset1{t}]
assert_equal 1 [r object refcount zset1{t}]
assert_equal 1 [r object refcount 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_equal 1 [r object refcount zset2{t}]
assert_equal 1 [r object refcount 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 ziplist hash} {
r del hash1{t} newhash1{t}
r hset hash1{t} tmp 17179869184
assert_encoding ziplist hash1{t}
r copy hash1{t} newhash1{t}
set digest [debug_digest_value hash1{t}]
assert_equal $digest [debug_digest_value newhash1{t}]
assert_equal 1 [r object refcount hash1{t}]
assert_equal 1 [r object refcount 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_equal 1 [r object refcount hash2{t}]
assert_equal 1 [r object refcount 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_equal 1 [r object refcount mystream{t}]
assert_equal 1 [r object refcount 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_equal 1 [r object refcount x{t}]
assert_equal 1 [r object refcount 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}
}
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