The max time for expiration (without having to worry about deletions when necessary as with 0 seconds) is 2,592,000 seconds (30 days).
Specifying an expiration value above that will return false, but will NOT throw in error so it is easy to miss.
(PECL memcache >= 0.2.0)
Memcache::set — Guarda datos en el servidor
Memcache::set() guarda un valor
var
con una key
en el
servidor memcached. El parámetro expire
es el tiempo de
expiración en segundos. Si es 0, el valor nunca expira (pero el servidor memcached
no garantiza que este valor será guardado para siempre, puede ser eliminado de la caché
para hacer espacio para otros valores).
Se puede usar la constante MEMCACHE_COMPRESSED
en el valor del
flag
si quiere utilizar compresión al momento (usando zlib).
También se puede usar la función memcache_set().Nota:
Recuerde que variables de recursos (ej. ficheros y descriptores de conexiones) no pueden guardarse en caché, porque no pueden ser representados adecuadamente de forma serializada.
key
La clave que quedará asociada con el valor.
var
La variable a guardar. Cadenas y enteros se guardan tal y como son, otros tipos se guardan serializados.
flag
Use MEMCACHE_COMPRESSED
para guardar datos
comprimidos (usa zlib).
expire
Tiempo de expiración del valor. Si es iqual a cero, el valor nunca expirará. También puedes usar Unix timestamp o el número de segundos empezando desde la fecha actual, el valor no puede exceder de 2592000 segundos (30 días).
Ejemplo #1 Ejemplo de Memcache::set()
<?php
/* API por procedimientos */
/* Conectar al servidor memcached */
$memcache_obj = memcache_connect('memcache_host', 11211);
/*
Establecer el valor según la key 'var_key'
usando 0 como valor del flag, no será usada compresión
el tiempo de expiración es de 30 segundos
*/
memcache_set($memcache_obj, 'var_key', 'some variable', 0, 30);
echo memcache_get($memcache_obj, 'var_key');
?>
Ejemplo #2 Ejemplo de Memcache::set()
<?php
/* API OO */
$memcache_obj = new Memcache;
/* connect to memcached server */
$memcache_obj->connect('memcache_host', 11211);
/*
Establece el valor según la llave 'var_key', usando compresión al momento
expira en 50 segundos
*/
$memcache_obj->set('var_key', 'some really big variable', MEMCACHE_COMPRESSED, 50);
echo $memcache_obj->get('var_key');
?>
The max time for expiration (without having to worry about deletions when necessary as with 0 seconds) is 2,592,000 seconds (30 days).
Specifying an expiration value above that will return false, but will NOT throw in error so it is easy to miss.
This is just two minor things about memcache that might not be perfectly clear, the limits on key and data sizes and what happen to flags in the memcache protocol.
* There is a max key size of 250 anything bigger gets truncated. There is also a (1MB - 42 bytes) limit on the data.
* In the memcache protocol there is a 16bit, 32bit in newer version, flag that you can set to whatever you want because memcache doesn't do anything with the flags. The php api doesn't let you get the flags because php uses the flags for php's own use such as "MEMCACHE_COMPRESSED" and I decided to test if it was doing something because it wasn't part of the memcache protocol.
<?php
$memcache = new Memcache();
$memcache->connect("127.0.0.1", 11211);
// Since memcache truncates the keys at 250 bytes both the get "250 a's" and "251 a's" will find the key in the cache
echo "*** Truncate key test ***<br>";
echo "set 251: " . ($memcache->set(str_repeat("a", 251), "value", 0, 1) ? "t" : "f") . "<br>";
echo "get 249: " . (($ret = $memcache->get(str_repeat("a", 249))) !== false ? "'$ret'" : "f") . "<br>";
echo "get 250: " . (($ret = $memcache->get(str_repeat("a", 250))) !== false ? "'$ret'" : "f") . "<br>";
echo "get 251: " . (($ret = $memcache->get(str_repeat("a", 251))) !== false ? "'$ret'" : "f") . "<br>";
echo "delete: " . ($memcache->delete(str_repeat("a", 250)) ? "t" : "f") . "<br><br>";
echo "*** Compress value test ***<br>";
echo "set 1024*1024-42: " . ($memcache->set("test", str_repeat("a", 1024*1024-42), 0, 1) ? "t" : "f") . "<br>";
echo "set 1024*1024-41: " . ($memcache->set("test", str_repeat("a", 1024*1024-41), 0, 1) ? "t" : "f") . "<br>";
echo "set 1024*1024 compressed: " . ($memcache->set("test", str_repeat("a", 1024*1024), MEMCACHE_COMPRESSED, 1) ? "t" : "f") . "<br>";
echo "delete: " . ($memcache->delete("test") ? "t" : "f") . "<br>";
$memcache->close();
?>
Output:
*** Truncate key test ***
set 251: t
get 249: f
get 250: 'value'
get 251: 'value'
delete: t
*** Compress value test ***
set 1024*1024-42: t
set 1024*1024-41: f
set 1024*1024 compressed: t
delete: t
Using set more than once for the same key seems to have unexpected results - it does not behave as a "replace," but instead seems to "set" more than one value for the same key. "get" may return any of the values.
This was tested on a multiple-server setup - behaviour may be different if you only have one server.
Remedy is to use a combination of replace and set:
<?php
$result = $memcache->replace( $key, $var );
if( $result == false )
{
$result = $memcache->set( $key, $var );
}
?>
I ran into problems using the MEMCACHE_COMPRESSED flag when storing small amounts of data, such as an integers.
For expample.
<?php
Memcache::set('integer', 123456, MEMCACHE_COMPRESSED);
//would return true
Memcache::get('integer');
//would return false
?>
This problem went away when I removed the MEMCACHE_COMPRESSED flag for values that were small.
If you're interested in using compression, please note that, at least for PHP version 5.3.2 and Memcache version 3.0.4, when retrieving a key who's value is a numeric or boolean type, PHP throws a notice of the following:
Message: MemcachePool::get(): Failed to uncompress data
The way around this is to test your variable type before setting or adding it to Memcache, or even cast it as a string.
<?php
$key = 'mc_key';
$value = 12345;
$compress = is_bool($value) || is_int($value) || is_float($value) ? false : MEMCACHE_COMPRESSED;
$mc= new Memcache;
$mc->connect('localhost', 11211);
$mc->set($key, $value, $compress);
echo $mc->get($key);
//Alternative is to cast the variable
$value = is_scalar($value) ? (string)$value : $value;
$mc->set($key, $value, MEMCACHE_COMPRESSED);
?>
The note here about replace and set is no longer valid in my testing. You can call set as many times as you want on the same key and reliably get the last written value. I tested this with 3 memcache nodes over 10000 keys.
If you get the next message
"The lowest two bytes of the flags array is reserved for pecl/memcache internal use"
Then try the next operations:
a) try to use Memcached instead of Memcache.
b) switch the compressed value
$memcache->set($key,$value,MEMCACHE_COMPRESSED)
or
$memcache->set($key,$value,0)
if you want to cache an image created on-the-fly you can do:
<?php
ob_start();
imagepng($image);
$memcache->set("my_image", ob_get_contents(), false, $cache_time);
ob_end_clean();
?>
then you could access the chached image as simple variable:
<?php $my_image = $memcache->get("my_image"); ?>
so, in short, you have to buffer the output
to put some things right:
max expiration time: RTFM, it's written here.
max amount of data: almost unlimited as long as your server can bear it.
speed and pace:
well, thats another thing. We had a couple of data records which for application reasons must be kept in memory. Since the bunch of data is big and doesn't change very often, we considered caching it to memcache instead of retrieving it from the DB each and every time.
This isn't a general advice nor any quality statement, but we did a couple of tests with serialized arrays (50 MB), compressed and uncompressed and it turned out that in our particular scenario, memcache is much slower than the DB (mySql).
In general, one can not predict on the behavior of memcache in certain scenarios but always need to make some testing and benchmarking upfront before starting to deploy things to a live system.
Despite of the tests above, we are still using memcache for session caching instead of file system, since there are certain other things to consider and the amount of data is always small (few KB)
The lowest byte of the int is reserved for pecl/memcache internal usage (e.g. to indicate compression and serialization status).