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redict/tests/unit/expire.tcl
chenyang8094 87789fae0b
Implement Multi Part AOF mechanism to avoid AOFRW overheads. (#9788) 
Implement Multi-Part AOF mechanism to avoid overheads during AOFRW.
Introducing a folder with multiple AOF files tracked by a manifest file.

The main issues with the the original AOFRW mechanism are:
* buffering of commands that are processed during rewrite (consuming a lot of RAM)
* freezes of the main process when the AOFRW completes to drain the remaining part of the buffer and fsync it.
* double disk IO for the data that arrives during AOFRW (had to be written to both the old and new AOF files)

The main modifications of this PR:
1. Remove the AOF rewrite buffer and related code.
2. Divide the AOF into multiple files, they are classified as two types, one is the the `BASE` type,
  it represents the full amount of data (Maybe AOF or RDB format) after each AOFRW, there is only
  one `BASE` file at most. The second is `INCR` type, may have more than one. They represent the
  incremental commands since the last AOFRW.
3. Use a AOF manifest file to record and manage these AOF files mentioned above.
4. The original configuration of `appendfilename` will be the base part of the new file name, for example:
  `appendonly.aof.1.base.rdb` and `appendonly.aof.2.incr.aof`
5. Add manifest-related TCL tests, and modified some existing tests that depend on the `appendfilename`
6. Remove the `aof_rewrite_buffer_length` field in info.
7. Add `aof-disable-auto-gc` configuration. By default we're automatically deleting HISTORY type AOFs.
  It also gives users the opportunity to preserve the history AOFs. just for testing use now.
8. Add AOFRW limiting measure. When the AOFRW failures reaches the threshold (3 times now),
  we will delay the execution of the next AOFRW by 1 minute. If the next AOFRW also fails, it will be
  delayed by 2 minutes. The next is 4, 8, 16, the maximum delay is 60 minutes (1 hour). During the limit
  period, we can still use the 'bgrewriteaof' command to execute AOFRW immediately.
9. Support upgrade (load) data from old version redis.
10. Add `appenddirname` configuration, as the directory name of the append only files. All AOF files and
  manifest file will be placed in this directory.
11. Only the last AOF file (BASE or INCR) can be truncated. Otherwise redis will exit even if
  `aof-load-truncated` is enabled.

Co-authored-by: Oran Agra <oran@redislabs.com>
2022-01-03 19:14:13 +02:00

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start_server {tags {"expire"}} {
test {EXPIRE - set timeouts multiple times} {
r set x foobar
set v1 [r expire x 5]
set v2 [r ttl x]
set v3 [r expire x 10]
set v4 [r ttl x]
r expire x 2
list $v1 $v2 $v3 $v4
} {1 [45] 1 10}
test {EXPIRE - It should be still possible to read 'x'} {
r get x
} {foobar}
tags {"slow"} {
test {EXPIRE - After 2.1 seconds the key should no longer be here} {
after 2100
list [r get x] [r exists x]
} {{} 0}
}
test {EXPIRE - write on expire should work} {
r del x
r lpush x foo
r expire x 1000
r lpush x bar
r lrange x 0 -1
} {bar foo}
test {EXPIREAT - Check for EXPIRE alike behavior} {
r del x
r set x foo
r expireat x [expr [clock seconds]+15]
r ttl x
} {1[345]}
test {SETEX - Set + Expire combo operation. Check for TTL} {
r setex x 12 test
r ttl x
} {1[012]}
test {SETEX - Check value} {
r get x
} {test}
test {SETEX - Overwrite old key} {
r setex y 1 foo
r get y
} {foo}
tags {"slow"} {
test {SETEX - Wait for the key to expire} {
after 1100
r get y
} {}
}
test {SETEX - Wrong time parameter} {
catch {r setex z -10 foo} e
set _ $e
} {*invalid expire*}
test {PERSIST can undo an EXPIRE} {
r set x foo
r expire x 50
list [r ttl x] [r persist x] [r ttl x] [r get x]
} {50 1 -1 foo}
test {PERSIST returns 0 against non existing or non volatile keys} {
r set x foo
list [r persist foo] [r persist nokeyatall]
} {0 0}
test {EXPIRE precision is now the millisecond} {
# This test is very likely to do a false positive if the
# server is under pressure, so if it does not work give it a few more
# chances.
for {set j 0} {$j < 10} {incr j} {
r del x
r setex x 1 somevalue
after 900
set a [r get x]
after 1100
set b [r get x]
if {$a eq {somevalue} && $b eq {}} break
}
if {$::verbose} {
puts "millisecond expire test attempts: $j"
}
list $a $b
} {somevalue {}}
test "PSETEX can set sub-second expires" {
# This test is very likely to do a false positive if the server is
# under pressure, so if it does not work give it a few more chances.
for {set j 0} {$j < 50} {incr j} {
r del x
r psetex x 100 somevalue
after 80
set a [r get x]
after 120
set b [r get x]
if {$a eq {somevalue} && $b eq {}} break
}
if {$::verbose} { puts "PSETEX sub-second expire test attempts: $j" }
list $a $b
} {somevalue {}}
test "PEXPIRE can set sub-second expires" {
# This test is very likely to do a false positive if the server is
# under pressure, so if it does not work give it a few more chances.
for {set j 0} {$j < 50} {incr j} {
r set x somevalue
r pexpire x 100
after 80
set c [r get x]
after 120
set d [r get x]
if {$c eq {somevalue} && $d eq {}} break
}
if {$::verbose} { puts "PEXPIRE sub-second expire test attempts: $j" }
list $c $d
} {somevalue {}}
test "PEXPIREAT can set sub-second expires" {
# This test is very likely to do a false positive if the server is
# under pressure, so if it does not work give it a few more chances.
for {set j 0} {$j < 50} {incr j} {
r set x somevalue
set now [r time]
r pexpireat x [expr ([lindex $now 0]*1000)+([lindex $now 1]/1000)+200]
after 20
set e [r get x]
after 220
set f [r get x]
if {$e eq {somevalue} && $f eq {}} break
}
if {$::verbose} { puts "PEXPIREAT sub-second expire test attempts: $j" }
list $e $f
} {somevalue {}}
test {TTL returns time to live in seconds} {
r del x
r setex x 10 somevalue
set ttl [r ttl x]
assert {$ttl > 8 && $ttl <= 10}
}
test {PTTL returns time to live in milliseconds} {
r del x
r setex x 1 somevalue
set ttl [r pttl x]
assert {$ttl > 900 && $ttl <= 1000}
}
test {TTL / PTTL / EXPIRETIME / PEXPIRETIME return -1 if key has no expire} {
r del x
r set x hello
list [r ttl x] [r pttl x] [r expiretime x] [r pexpiretime x]
} {-1 -1 -1 -1}
test {TTL / PTTL / EXPIRETIME / PEXPIRETIME return -2 if key does not exit} {
r del x
list [r ttl x] [r pttl x] [r expiretime x] [r pexpiretime x]
} {-2 -2 -2 -2}
test {EXPIRETIME returns absolute expiration time in seconds} {
r del x
set abs_expire [expr [clock seconds] + 100]
r set x somevalue exat $abs_expire
assert_equal [r expiretime x] $abs_expire
}
test {PEXPIRETIME returns absolute expiration time in milliseconds} {
r del x
set abs_expire [expr [clock milliseconds] + 100000]
r set x somevalue pxat $abs_expire
assert_equal [r pexpiretime x] $abs_expire
}
test {Redis should actively expire keys incrementally} {
r flushdb
r psetex key1 500 a
r psetex key2 500 a
r psetex key3 500 a
assert_equal 3 [r dbsize]
# Redis expires random keys ten times every second so we are
# fairly sure that all the three keys should be evicted after
# two seconds.
wait_for_condition 20 100 {
[r dbsize] eq 0
} fail {
"Keys did not actively expire."
}
}
test {Redis should lazy expire keys} {
r flushdb
r debug set-active-expire 0
r psetex key1{t} 500 a
r psetex key2{t} 500 a
r psetex key3{t} 500 a
set size1 [r dbsize]
# Redis expires random keys ten times every second so we are
# fairly sure that all the three keys should be evicted after
# one second.
after 1000
set size2 [r dbsize]
r mget key1{t} key2{t} key3{t}
set size3 [r dbsize]
r debug set-active-expire 1
list $size1 $size2 $size3
} {3 3 0} {needs:debug}
test {EXPIRE should not resurrect keys (issue #1026)} {
r debug set-active-expire 0
r set foo bar
r pexpire foo 500
after 1000
r expire foo 10
r debug set-active-expire 1
r exists foo
} {0} {needs:debug}
test {5 keys in, 5 keys out} {
r flushdb
r set a c
r expire a 5
r set t c
r set e c
r set s c
r set foo b
assert_equal [lsort [r keys *]] {a e foo s t}
r del a ; # Do not leak volatile keys to other tests
}
test {EXPIRE with empty string as TTL should report an error} {
r set foo bar
catch {r expire foo ""} e
set e
} {*not an integer*}
test {SET with EX with big integer should report an error} {
catch {r set foo bar EX 10000000000000000} e
set e
} {ERR invalid expire time in set}
test {SET with EX with smallest integer should report an error} {
catch {r SET foo bar EX -9999999999999999} e
set e
} {ERR invalid expire time in set}
test {GETEX with big integer should report an error} {
r set foo bar
catch {r GETEX foo EX 10000000000000000} e
set e
} {ERR invalid expire time in getex}
test {GETEX with smallest integer should report an error} {
r set foo bar
catch {r GETEX foo EX -9999999999999999} e
set e
} {ERR invalid expire time in getex}
test {EXPIRE with big integer overflows when converted to milliseconds} {
r set foo bar
# Hit `when > LLONG_MAX - basetime`
assert_error "ERR invalid expire time in expire" {r EXPIRE foo 9223370399119966}
# Hit `when > LLONG_MAX / 1000`
assert_error "ERR invalid expire time in expire" {r EXPIRE foo 9223372036854776}
assert_error "ERR invalid expire time in expire" {r EXPIRE foo 10000000000000000}
assert_error "ERR invalid expire time in expire" {r EXPIRE foo 18446744073709561}
assert_equal {-1} [r ttl foo]
}
test {PEXPIRE with big integer overflow when basetime is added} {
r set foo bar
catch {r PEXPIRE foo 9223372036854770000} e
set e
} {ERR invalid expire time in pexpire}
test {EXPIRE with big negative integer} {
r set foo bar
# Hit `when < LLONG_MIN / 1000`
assert_error "ERR invalid expire time in expire" {r EXPIRE foo -9223372036854776}
assert_error "ERR invalid expire time in expire" {r EXPIRE foo -9999999999999999}
r ttl foo
} {-1}
test {PEXPIREAT with big integer works} {
r set foo bar
r PEXPIREAT foo 9223372036854770000
} {1}
test {PEXPIREAT with big negative integer works} {
r set foo bar
r PEXPIREAT foo -9223372036854770000
r ttl foo
} {-2}
# Start a new server with empty data and AOF file.
start_server {overrides {appendonly {yes} appendfsync always} tags {external:skip}} {
test {All time-to-live(TTL) in commands are propagated as absolute timestamp in milliseconds in AOF} {
# This test makes sure that expire times are propagated as absolute
# times to the AOF file and not as relative time, so that when the AOF
# is reloaded the TTLs are not being shifted forward to the future.
# We want the time to logically pass when the server is restarted!
set aof [get_last_incr_aof_path r]
# Apply each TTL-related command to a unique key
# SET commands
r set foo1 bar ex 100
r set foo2 bar px 100000
r set foo3 bar exat [expr [clock seconds]+100]
r set foo4 bar pxat [expr [clock milliseconds]+100000]
r setex foo5 100 bar
r psetex foo6 100000 bar
# EXPIRE-family commands
r set foo7 bar
r expire foo7 100
r set foo8 bar
r pexpire foo8 100000
r set foo9 bar
r expireat foo9 [expr [clock seconds]+100]
r set foo10 bar
r pexpireat foo10 [expr [clock seconds]*1000+100000]
r set foo11 bar
r expireat foo11 [expr [clock seconds]-100]
# GETEX commands
r set foo12 bar
r getex foo12 ex 100
r set foo13 bar
r getex foo13 px 100000
r set foo14 bar
r getex foo14 exat [expr [clock seconds]+100]
r set foo15 bar
r getex foo15 pxat [expr [clock milliseconds]+100000]
# RESTORE commands
r set foo16 bar
set encoded [r dump foo16]
r restore foo17 100000 $encoded
r restore foo18 [expr [clock milliseconds]+100000] $encoded absttl
# Assert that each TTL-relatd command are persisted with absolute timestamps in AOF
assert_aof_content $aof {
{select *}
{set foo1 bar PXAT *}
{set foo2 bar PXAT *}
{set foo3 bar PXAT *}
{set foo4 bar PXAT *}
{set foo5 bar PXAT *}
{set foo6 bar PXAT *}
{set foo7 bar}
{pexpireat foo7 *}
{set foo8 bar}
{pexpireat foo8 *}
{set foo9 bar}
{pexpireat foo9 *}
{set foo10 bar}
{pexpireat foo10 *}
{set foo11 bar}
{del foo11}
{set foo12 bar}
{pexpireat foo12 *}
{set foo13 bar}
{pexpireat foo13 *}
{set foo14 bar}
{pexpireat foo14 *}
{set foo15 bar}
{pexpireat foo15 *}
{set foo16 bar}
{restore foo17 * {*} ABSTTL}
{restore foo18 * {*} absttl}
}
# Remember the absolute TTLs of all the keys
set ttl1 [r pexpiretime foo1]
set ttl2 [r pexpiretime foo2]
set ttl3 [r pexpiretime foo3]
set ttl4 [r pexpiretime foo4]
set ttl5 [r pexpiretime foo5]
set ttl6 [r pexpiretime foo6]
set ttl7 [r pexpiretime foo7]
set ttl8 [r pexpiretime foo8]
set ttl9 [r pexpiretime foo9]
set ttl10 [r pexpiretime foo10]
assert_equal "-2" [r pexpiretime foo11] ; # foo11 is gone
set ttl12 [r pexpiretime foo12]
set ttl13 [r pexpiretime foo13]
set ttl14 [r pexpiretime foo14]
set ttl15 [r pexpiretime foo15]
assert_equal "-1" [r pexpiretime foo16] ; # foo16 has no TTL
set ttl17 [r pexpiretime foo17]
set ttl18 [r pexpiretime foo18]
# Let some time pass and reload data from AOF
after 2000
r debug loadaof
# Assert that relative TTLs are roughly the same
assert_range [r ttl foo1] 90 98
assert_range [r ttl foo2] 90 98
assert_range [r ttl foo3] 90 98
assert_range [r ttl foo4] 90 98
assert_range [r ttl foo5] 90 98
assert_range [r ttl foo6] 90 98
assert_range [r ttl foo7] 90 98
assert_range [r ttl foo8] 90 98
assert_range [r ttl foo9] 90 98
assert_range [r ttl foo10] 90 98
assert_equal [r ttl foo11] "-2" ; # foo11 is gone
assert_range [r ttl foo12] 90 98
assert_range [r ttl foo13] 90 98
assert_range [r ttl foo14] 90 98
assert_range [r ttl foo15] 90 98
assert_equal [r ttl foo16] "-1" ; # foo16 has no TTL
assert_range [r ttl foo17] 90 98
assert_range [r ttl foo18] 90 98
# Assert that all keys have restored the same absolute TTLs from AOF
assert_equal [r pexpiretime foo1] $ttl1
assert_equal [r pexpiretime foo2] $ttl2
assert_equal [r pexpiretime foo3] $ttl3
assert_equal [r pexpiretime foo4] $ttl4
assert_equal [r pexpiretime foo5] $ttl5
assert_equal [r pexpiretime foo6] $ttl6
assert_equal [r pexpiretime foo7] $ttl7
assert_equal [r pexpiretime foo8] $ttl8
assert_equal [r pexpiretime foo9] $ttl9
assert_equal [r pexpiretime foo10] $ttl10
assert_equal [r pexpiretime foo11] "-2" ; # foo11 is gone
assert_equal [r pexpiretime foo12] $ttl12
assert_equal [r pexpiretime foo13] $ttl13
assert_equal [r pexpiretime foo14] $ttl14
assert_equal [r pexpiretime foo15] $ttl15
assert_equal [r pexpiretime foo16] "-1" ; # foo16 has no TTL
assert_equal [r pexpiretime foo17] $ttl17
assert_equal [r pexpiretime foo18] $ttl18
} {} {needs:debug}
}
test {All TTL in commands are propagated as absolute timestamp in replication stream} {
# Make sure that both relative and absolute expire commands are propagated
# as absolute to replicas for two reasons:
# 1) We want to avoid replicas retaining data much longer than primary due
# to replication lag.
# 2) We want to unify the way TTLs are replicated in both RDB and replication
# stream, which is as absolute timestamps.
# See: https://github.com/redis/redis/issues/8433
r flushall ; # Clean up keyspace to avoid interference by keys from other tests
set repl [attach_to_replication_stream]
# SET commands
r set foo1 bar ex 200
r set foo1 bar px 100000
r set foo1 bar exat [expr [clock seconds]+100]
r set foo1 bar pxat [expr [clock milliseconds]+100000]
r setex foo1 100 bar
r psetex foo1 100000 bar
r set foo2 bar
# EXPIRE-family commands
r expire foo2 100
r pexpire foo2 100000
r set foo3 bar
r expireat foo3 [expr [clock seconds]+100]
r pexpireat foo3 [expr [clock seconds]*1000+100000]
r expireat foo3 [expr [clock seconds]-100]
# GETEX-family commands
r set foo4 bar
r getex foo4 ex 200
r getex foo4 px 200000
r getex foo4 exat [expr [clock seconds]+100]
r getex foo4 pxat [expr [clock milliseconds]+100000]
# RESTORE commands
r set foo5 bar
set encoded [r dump foo5]
r restore foo6 100000 $encoded
r restore foo7 [expr [clock milliseconds]+100000] $encoded absttl
assert_replication_stream $repl {
{select *}
{set foo1 bar PXAT *}
{set foo1 bar PXAT *}
{set foo1 bar PXAT *}
{set foo1 bar PXAT *}
{set foo1 bar PXAT *}
{set foo1 bar PXAT *}
{set foo2 bar}
{pexpireat foo2 *}
{pexpireat foo2 *}
{set foo3 bar}
{pexpireat foo3 *}
{pexpireat foo3 *}
{del foo3}
{set foo4 bar}
{pexpireat foo4 *}
{pexpireat foo4 *}
{pexpireat foo4 *}
{pexpireat foo4 *}
{set foo5 bar}
{restore foo6 * {*} ABSTTL}
{restore foo7 * {*} absttl}
}
close_replication_stream $repl
} {} {needs:repl}
# Start another server to test replication of TTLs
start_server {tags {needs:repl external:skip}} {
# Set the outer layer server as primary
set primary [srv -1 client]
set primary_host [srv -1 host]
set primary_port [srv -1 port]
# Set this inner layer server as replica
set replica [srv 0 client]
test {First server should have role slave after REPLICAOF} {
$replica replicaof $primary_host $primary_port
wait_for_condition 50 100 {
[s 0 role] eq {slave}
} else {
fail "Replication not started."
}
}
test {For all replicated TTL-related commands, absolute expire times are identical on primary and replica} {
# Apply each TTL-related command to a unique key on primary
# SET commands
$primary set foo1 bar ex 100
$primary set foo2 bar px 100000
$primary set foo3 bar exat [expr [clock seconds]+100]
$primary set foo4 bar pxat [expr [clock milliseconds]+100000]
$primary setex foo5 100 bar
$primary psetex foo6 100000 bar
# EXPIRE-family commands
$primary set foo7 bar
$primary expire foo7 100
$primary set foo8 bar
$primary pexpire foo8 100000
$primary set foo9 bar
$primary expireat foo9 [expr [clock seconds]+100]
$primary set foo10 bar
$primary pexpireat foo10 [expr [clock milliseconds]+100000]
# GETEX commands
$primary set foo11 bar
$primary getex foo11 ex 100
$primary set foo12 bar
$primary getex foo12 px 100000
$primary set foo13 bar
$primary getex foo13 exat [expr [clock seconds]+100]
$primary set foo14 bar
$primary getex foo14 pxat [expr [clock milliseconds]+100000]
# RESTORE commands
$primary set foo15 bar
set encoded [$primary dump foo15]
$primary restore foo16 100000 $encoded
$primary restore foo17 [expr [clock milliseconds]+100000] $encoded absttl
# Wait for replica to get the keys and TTLs
assert {[$primary wait 1 0] == 1}
# Verify absolute TTLs are identical on primary and replica for all keys
# This is because TTLs are always replicated as absolute values
foreach key [$primary keys *] {
assert_equal [$primary pexpiretime $key] [$replica pexpiretime $key]
}
}
}
test {SET command will remove expire} {
r set foo bar EX 100
r set foo bar
r ttl foo
} {-1}
test {SET - use KEEPTTL option, TTL should not be removed} {
r set foo bar EX 100
r set foo bar KEEPTTL
set ttl [r ttl foo]
assert {$ttl <= 100 && $ttl > 90}
}
test {SET - use KEEPTTL option, TTL should not be removed after loadaof} {
r config set appendonly yes
r set foo bar EX 100
r set foo bar2 KEEPTTL
after 2000
r debug loadaof
set ttl [r ttl foo]
assert {$ttl <= 98 && $ttl > 90}
} {} {needs:debug}
test {GETEX use of PERSIST option should remove TTL} {
r set foo bar EX 100
r getex foo PERSIST
r ttl foo
} {-1}
test {GETEX use of PERSIST option should remove TTL after loadaof} {
r set foo bar EX 100
r getex foo PERSIST
after 2000
r debug loadaof
r ttl foo
} {-1} {needs:debug}
test {GETEX propagate as to replica as PERSIST, DEL, or nothing} {
set repl [attach_to_replication_stream]
r set foo bar EX 100
r getex foo PERSIST
r getex foo
r getex foo exat [expr [clock seconds]-100]
assert_replication_stream $repl {
{select *}
{set foo bar PXAT *}
{persist foo}
{del foo}
}
close_replication_stream $repl
} {} {needs:repl}
test {EXPIRE with NX option on a key with ttl} {
r SET foo bar EX 100
assert_equal [r EXPIRE foo 200 NX] 0
assert_range [r TTL foo] 50 100
} {}
test {EXPIRE with NX option on a key without ttl} {
r SET foo bar
assert_equal [r EXPIRE foo 200 NX] 1
assert_range [r TTL foo] 100 200
} {}
test {EXPIRE with XX option on a key with ttl} {
r SET foo bar EX 100
assert_equal [r EXPIRE foo 200 XX] 1
assert_range [r TTL foo] 100 200
} {}
test {EXPIRE with XX option on a key without ttl} {
r SET foo bar
assert_equal [r EXPIRE foo 200 XX] 0
assert_equal [r TTL foo] -1
} {}
test {EXPIRE with GT option on a key with lower ttl} {
r SET foo bar EX 100
assert_equal [r EXPIRE foo 200 GT] 1
assert_range [r TTL foo] 100 200
} {}
test {EXPIRE with GT option on a key with higher ttl} {
r SET foo bar EX 200
assert_equal [r EXPIRE foo 100 GT] 0
assert_range [r TTL foo] 100 200
} {}
test {EXPIRE with GT option on a key without ttl} {
r SET foo bar
assert_equal [r EXPIRE foo 200 GT] 0
assert_equal [r TTL foo] -1
} {}
test {EXPIRE with LT option on a key with higher ttl} {
r SET foo bar EX 100
assert_equal [r EXPIRE foo 200 LT] 0
assert_range [r TTL foo] 50 100
} {}
test {EXPIRE with LT option on a key with lower ttl} {
r SET foo bar EX 200
assert_equal [r EXPIRE foo 100 LT] 1
assert_range [r TTL foo] 50 100
} {}
test {EXPIRE with LT option on a key without ttl} {
r SET foo bar
assert_equal [r EXPIRE foo 100 LT] 1
assert_range [r TTL foo] 50 100
} {}
test {EXPIRE with LT and XX option on a key with ttl} {
r SET foo bar EX 200
assert_equal [r EXPIRE foo 100 LT XX] 1
assert_range [r TTL foo] 50 100
} {}
test {EXPIRE with LT and XX option on a key without ttl} {
r SET foo bar
assert_equal [r EXPIRE foo 200 LT XX] 0
assert_equal [r TTL foo] -1
} {}
test {EXPIRE with conflicting options: LT GT} {
catch {r EXPIRE foo 200 LT GT} e
set e
} {ERR GT and LT options at the same time are not compatible}
test {EXPIRE with conflicting options: NX GT} {
catch {r EXPIRE foo 200 NX GT} e
set e
} {ERR NX and XX, GT or LT options at the same time are not compatible}
test {EXPIRE with conflicting options: NX LT} {
catch {r EXPIRE foo 200 NX LT} e
set e
} {ERR NX and XX, GT or LT options at the same time are not compatible}
test {EXPIRE with conflicting options: NX XX} {
catch {r EXPIRE foo 200 NX XX} e
set e
} {ERR NX and XX, GT or LT options at the same time are not compatible}
test {EXPIRE with unsupported options} {
catch {r EXPIRE foo 200 AB} e
set e
} {ERR Unsupported option AB}
test {EXPIRE with unsupported options} {
catch {r EXPIRE foo 200 XX AB} e
set e
} {ERR Unsupported option AB}
test {EXPIRE with negative expiry} {
r SET foo bar EX 100
assert_equal [r EXPIRE foo -10 LT] 1
assert_equal [r TTL foo] -2
} {}
test {EXPIRE with negative expiry on a non-valitale key} {
r SET foo bar
assert_equal [r EXPIRE foo -10 LT] 1
assert_equal [r TTL foo] -2
} {}
test {EXPIRE with non-existed key} {
assert_equal [r EXPIRE none 100 NX] 0
assert_equal [r EXPIRE none 100 XX] 0
assert_equal [r EXPIRE none 100 GT] 0
assert_equal [r EXPIRE none 100 LT] 0
} {}
}
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