I implemented a poor-man's throttling mechanism in phunction using APC alone, this is how I use it:
// allow 60 requests every 30 seconds
// each request counts as 1 (expensive operations can use higher values)
// keep track of IPs by REMOTE_ADDR (ignore others)
$throttle = ph()->Throttle($ttl = 30, $exit = 60, $count = 1, $proxy = false);
if ($throttle === true)
// IP exceded 30 requests in the last 60 seconds, die() here
// $throttle is a float
// number of requests in the last 30 seconds / 30 seconds
1 req / 30 = 0,033 sec
5 req / 30 = 0,166 sec
10 req / 30 = 0,333 sec
15 req / 30 = 0,5 sec
20 req / 30 = 0,666 sec
25 req / 30 = 0,833 sec
30 req / 30 = 1 sec
usleep(intval(floatval($throttle) * 1000000));
I use this on my Front-Controller and pass the value to my routing method, but that's another story.
The bottom line is that if you use APC you're able to keep things very fast in memory and with little memory consumption because APC follows a FILO methodology. If you need way higher timeouts you may consider using something that's not memory based though.
BTW: MySQL supports tables with the MEMORY engine.
The problem with
A typical Apache web server with PHP installed as a module will eat about 10 MB of RAM per instance, to avoid exceeding your available ram there are some Apache settings that you can configure to limit the maximum number of instances that Apache is able to start.
The problem is when you
sleep(), that instance is still active and with enough requests could end up eating all the available slots to start new servers, thus rendering your web site inaccessible until some pending requests are completed.
There is no way to overcome this from PHP AFAIK, so in the end it's up to you.
The principle is the same for system wide throttling:
function systemWide($ttl = 86400, $exit = 360)
if (extension_loaded('apc') === true)
$key = array(__FUNCTION__);
if (apc_exists(__FUNCTION__) !== true)
apc_store(__FUNCTION__, 0, $ttl);
$result = apc_inc(__FUNCTION__, 1);
if ($result < $exit)
return ($result / $ttl);