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19 <b>ExpireCommand: Contents
</b><br> <a href=
"#EXPIRE _key_ _seconds_">EXPIRE _key_ _seconds_
</a><br> <a href=
"#EXPIREAT _key_ _unixtime_ (Redis >">EXPIREAT _key_ _unixtime_ (Redis
></a><br> <a href=
"#How the expire is removed from a key">How the expire is removed from a key
</a><br> <a href=
"#Restrictions with write operations against volatile keys">Restrictions with write operations against volatile keys
</a><br> <a href=
"#Setting the timeout again on already volatile keys">Setting the timeout again on already volatile keys
</a><br> <a href=
"#Enhanced Lazy Expiration algorithm">Enhanced Lazy Expiration algorithm
</a><br> <a href=
"#Version 1.0">Version
1.0</a><br> <a href=
"#Version 1.1">Version
1.1</a><br> <a href=
"#Return value">Return value
</a><br> <a href=
"#FAQ: Can you explain better why Redis deletes keys with an EXPIRE on write operations?">FAQ: Can you explain better why Redis deletes keys with an EXPIRE on write operations?
</a>
22 <h1 class=
"wikiname">ExpireCommand
</h1>
29 #sidebar
<a href=
"GenericCommandsSidebar.html">GenericCommandsSidebar
</a><h1><a name=
"EXPIRE _key_ _seconds_">EXPIRE _key_ _seconds_
</a></h1>
30 <h1><a name=
"EXPIREAT _key_ _unixtime_ (Redis >">EXPIREAT _key_ _unixtime_ (Redis
></a></h1> 1.1)=
31 <i>Time complexity: O(
1)
</i><blockquote>Set a timeout on the specified key. After the timeout the key will beautomatically delete by the server. A key with an associated timeout issaid to be
<i>volatile
</i> in Redis terminology.
</blockquote>
32 <blockquote>Voltile keys are stored on disk like the other keys, the timeout is persistenttoo like all the other aspects of the dataset. Saving a dataset containingthe dataset and stopping the server does not stop the flow of time as Redisregisters on disk when the key will no longer be available as Unix time, andnot the remaining seconds.
</blockquote>
33 <blockquote>EXPIREAT works exctly like EXPIRE but instead to get the number of secondsrepresenting the Time To Live of the key as a second argument (that is arelative way of specifing the TTL), it takes an absolute one in the form ofa UNIX timestamp (Number of seconds elapsed since
1 Gen
1970).
</blockquote>
34 <blockquote>EXPIREAT was introduced in order to implement [Persistence append only saving mode] so that EXPIRE commands are automatically translated into EXPIREAT commands for the append only file. Of course EXPIREAT can alsoused by programmers that need a way to simply specify that a given key should expire at a given time in the future.
</blockquote>
35 <h2><a name=
"How the expire is removed from a key">How the expire is removed from a key
</a></h2><blockquote>When the key is set to a new value using the SET command, the INCR commandor any other command that modify the value stored at key the timeout isremoved from the key and the key becomes non volatile.
</blockquote>
36 <h2><a name=
"Restrictions with write operations against volatile keys">Restrictions with write operations against volatile keys
</a></h2><blockquote>Write operations like LPUSH, LSET and every other command that has theeffect of modifying the value stored at a volatile key have a special semantic:basically a volatile key is destroyed when it is target of a write operation.See for example the following usage pattern:
</blockquote>
37 <pre class=
"codeblock python" name=
"code">
38 % ./redis-cli lpush mylist foobar /Users/antirez/hack/redis
40 % ./redis-cli lpush mylist hello /Users/antirez/hack/redis
42 % ./redis-cli expire mylist
10000 /Users/antirez/hack/redis
44 % ./redis-cli lpush mylist newelement
46 % ./redis-cli lrange mylist
0 -
1 /Users/antirez/hack/redis
48 </pre><blockquote>What happened here is that lpush against the key with a timeout set deletedthe key before to perform the operation. There is so a simple rule, writeoperations against volatile keys will destroy the key before to perform theoperation. Why Redis uses this behavior? In order to retain an importantproperty: a server that receives a given number of commands in the samesequence will end with the same dataset in memory. Without the delete-on-writesemantic what happens is that the state of the server depends on the timeof the commands to. This is not a desirable property in a distributed databasethat supports replication.
</blockquote>
49 <h2><a name=
"Setting the timeout again on already volatile keys">Setting the timeout again on already volatile keys
</a></h2><blockquote>Trying to call EXPIRE against a key that already has an associated timeoutwill not change the timeout of the key, but will just return
0. If insteadthe key does not have a timeout associated the timeout will be set and EXPIREwill return
1.
</blockquote>
50 <h2><a name=
"Enhanced Lazy Expiration algorithm">Enhanced Lazy Expiration algorithm
</a></h2><blockquote>Redis does not constantly monitor keys that are going to be expired.Keys are expired simply when some client tries to access a key, andthe key is found to be timed out.
</blockquote>
51 <blockquote>Of course this is not enough as there are expired keys that will neverbe accessed again. This keys should be expired anyway, so once everysecond Redis test a few keys at random among keys with an expire set.All the keys that are already expired are deleted from the keyspace.
</blockquote>
52 <h3><a name=
"Version 1.0">Version
1.0</a></h3><blockquote>Each time a fixed number of keys where tested (
100 by default). So ifyou had a client setting keys with a very short expire faster than
100for second the memory continued to grow. When you stopped to insertnew keys the memory started to be freed,
100 keys every second in thebest conditions. Under a peak Redis continues to use more and more RAMeven if most keys are expired in each sweep.
</blockquote>
53 <h3><a name=
"Version 1.1">Version
1.1</a></h3><blockquote>Each time Redis:
</blockquote>
54 <ol><li> Tests
100 random keys from expired keys set.
</li><li> Deletes all the keys found expired.
</li><li> If more than
25 keys were expired, it start again from
1.
</li></ol>
55 <blockquote>This is a trivial probabilistic algorithm, basically the assumption isthat our sample is representative of the whole key space,and we continue to expire until the percentage of keys that are likelyto be expired is under
25%
</blockquote>
56 <blockquote>This means that at any given moment the maximum amount of keys alreadyexpired that are using memory is at max equal to max setting operations per second divided by
4.
</blockquote>
57 <h2><a name=
"Return value">Return value
</a></h2><a href=
"ReplyTypes.html">Integer reply
</a>, specifically:
<br/><br/><pre class=
"codeblock python python" name=
"code">
58 1: the timeout was set.
59 0: the timeout was not set since the key already has an associated timeout, or the key does not exist.
60 </pre><h2><a name=
"FAQ: Can you explain better why Redis deletes keys with an EXPIRE on write operations?">FAQ: Can you explain better why Redis deletes keys with an EXPIRE on write operations?
</a></h2>
61 Ok let's start with the problem:
62 <pre class=
"codeblock python python python" name=
"code">
65 redis
> expire a
360
70 I set a key to the value of
100, then set an expire of
360 seconds, and then incremented the key (before the
360 timeout expired of course). The obvious result would be:
101, instead the key is set to the value of
1. Why?
71 There is a very important reason involving the Append Only File and Replication. Let's rework a bit hour example adding the notion of time to the mix:
72 <pre class=
"codeblock python python python python" name=
"code">
75 ... wait
10 seconds ...
78 Imagine a Redis version that does not implement the
"Delete keys with an expire set on write operation
" semantic.
79 Running the above example with the
10 seconds pause will lead to 'a' being set to the value of
1, as it no longer exists when INCR is called
10 seconds later.
<br/><br/>Instead if we drop the
10 seconds pause, the result is that 'a' is set to
101.
<br/><br/>And in the practice timing changes! For instance the client may wait
10 seconds before INCR, but the sequence written in the Append Only File (and later replayed-back as fast as possible when Redis is restarted) will not have the pause. Even if we add a timestamp in the AOF, when the time difference is smaller than our timer resolution, we have a race condition.
<br/><br/>The same happens with master-slave replication. Again, consider the example above: the client will use the same sequence of commands without the
10 seconds pause, but the replication link will slow down for a few seconds due to a network problem. Result? The master will contain 'a' set to
101, the slave 'a' set to
1.
<br/><br/>The only way to avoid this but at the same time have reliable non time dependent timeouts on keys is to destroy volatile keys when a write operation is attempted against it.
<br/><br/>After all Redis is one of the rare fully persistent databases that will give you EXPIRE. This comes to a cost :)
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