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Preface ¶
The Advanced PHP Cache is a PHP extension which primarily serves as an opcode cache for PHP. The basic idea is to save PHP from re-evaluating the PHP code to intermediate bytecode on each request. Installing and enabling APC already yields a significant performance benefit. However, APC is not a black box that will magically change all for the better. More over it is important to understand that APC needs memory to operate. > Note: By enabling APC you are trading memory for speed
In addition to the opcode cache, APC can also serve as a user cache for Yii via [CApcCache]. It should be noted that this will make APC's memory needs less predictable.
Installation ¶
APC is best installed by means of your distribution's packaging system. For RedHat based distros (RHEL, CentOS, Fedora, Mandriva), you'll need to install the php-pecl-apc
package:
~~~
$ sudo yum install php-pecl-apc
~~~
For Debian based distributions, this will be the php-apc
package:
~~~
$ sudo apt-get install php-apc
~~~
If you are running a self-compiled version of PHP, you can install APC via the PEAR/PECL command-line tool:
~~~
$ sudo pecl install APC
~~~
> Info: Be advised that this will compile the current version of APC on your system, so you'll need to have the GCC toolchain installed as well as the PHP headers along with the phpize
helper.
You will almost certainly need to add APC to your PHP configuration. Otherwise, PHP won't load it. Simply drop a new file called apc.ini
into /usr/local/etc/php.d
(RedHat) or /usr/local/php.d/apache2/conf.d
(Debian) with the following content:
~~~
extension=apc.so
~~~
Preparing Yii ¶
The Yii framework comes with a yiilite.php
which can be used instead of yii.php
. Despite its name, it includes the most used classes. The benefit to APC is that the opcode cache can be quickly filled via one single file instead of including several smaller files and dynamically loading several classes. This change must be done in the file index.php
, in the webroot of your application.
If you wish to use APC as a user cache as well, you'll need to register the CApcCache as cache component in your config. Locate the components
-stanza in your config and add the following lines:
'components'=>array(
'cache'=>array(
'class'=>'CApcCache',
),
...
),
Configuration ¶
Server Filesystem ¶
If you have several Yii-based applications running on one server, you might want to consider dropping one copy of the Yii framework (i.e. the content of the framework
folder in the release tarball) into /usr/local/share/yii
and let the include_path
configuration setting point to that. APC will only have to pick up one copy of Yii then. In the process, you'll also conserve a bit of disk space.
APC Settings ¶
APC can be fine-tuned by a number of settings. Just toss them into your apc.ini
, restart your webserver (or php-fpm process) and see the magic happening. The following options are the most important:
apc.enabled
Self explaining. This option enables or disables APC alltogether. Be advised that this is a system-wide setting, soyou cannot selectively switch APC on or off for e.g. certain directories via a.htaccess
or.user.ini
file.
You'll want this to be set to on, which is the default value.apc.shm_size
The size of the cache. Take note that is the size of the opcode and the user cache. Currently, APC does not allow you to specify seperate memory segments for these. As a general rule: Do not set this lower than 16MB and monitor APC's memory usage closely. If you set this too low, APC's memory might suffer heavy fragmentation, which will result in a high performance penalty or even constant segfaults.
Monitor your APC activity (see the following section) and set a value where APC's memory isn't too fragmented (generally at least 32 MB).apc.stat
Controls if APC should check for modified files on every request. This setting will bring you the greatest speed benefit. Set it to 0 on production servers but to 1 in development environments (otherwise PHP won't pick up changes you've applied to the code). If you're rolling out a new version of your software, simply restart your webserver or FastCGI process in order to clear the opcode cache.apc.shm_strings_buffer
This setting got introduced in v3.1.14 of APC. It controls the internal strings buffer that is being shared between php-fpm worker instances, avoiding to store stings for each instance separately. The adequate size of this setting is extremely difficult to evaluate as no fill count is reported through APC's API. Try to set this as low as possible as the memory penalty for a value too high is quite hefty, increasing the memory need by several magnitudes in its extremes.
Other interesting parameters are:
apc.cache_by_default
Controls the default caching behaviour of APC. This can be used together withapc.filters
for complex cache setups. But in most cases, you'll want this to be 1.apc.ttl
Controls how long cached opcodes may be cached before being reloaded. Set this to 0 on your productions system so this will never happen. This is most useful together withapc.stat=0
.apc.num_files_hint
This is a hint for APC to reserve sufficient space for the opcode cache. It helps APC during the initial cache build. It isn't terribly important as it's really just a hint. But while you're at it: Set it to roughly the number of your project's PHP files.apc.user_entries_hint
Same asapc.num_files_hint
but for user cache entries, so it is only interesting if you're using APC as a user cache, too. A too high value might result in over-provisioning memory for the cache. This is highly individual, so you'll need to evaluate this yourself.apc.mmap_file_mask
Filemask for the shared memory mechanism. There are three kinds of values this setting can take. Something like/tmp/apc.XXXXXX
(place exactly 6X
's) will create an mmap'ed file in your/tmp
directory./dev/zero
does the same but without creating a file. The best setting I could find has been /apc.shm.XXXXXX. For this to work properly,/dev/shm
must be mounted on a tempfs. The benefit of using shared memory for APC lies in the lockless nature. The downside, however, is that this method for storing APC's content is everything but thread-safe. This is mostly important if you are running PHP in an Apache environment via mod_php with an MPM other than prefork, as you will experience constant segfaults.apc.lazy_classes
andapc.lazy_functions
These settings are marked as experimental. However, I've found no regressions after using these. If you're feeling lucky and you're using anonymous functions forevaluateExpression()
, you may want to set these to 1.apc.include_once_override
Setting this to on will speed upinclude*
andrequire*
calls. However, this setting will introduce changes in the behaviour of PHP. While Yii is content with this being switched on, other applications (such as phpMyAdmin) are not. So watch out for breaking applications.apc.serializer
Starting with version 3.1.7, APC can facilitate a substitute for PHP's nativeserialize()
function. This is most interesting in conjunction with the igbinary serializer, which aims to provide a more compact serialization. This might result into smaller cache sizes for you (among with a small speed benefit). But again: Your milage may vary, so evaluate carfully. It should be noted that the two serialization formats are incompatible. So when changing the serializer, clearing caches is advisable.apc.optimizer
This setting receives mentioning every now and then. But truth be told: It doesn't do anything since APC v3.0.13. The APC optimizer got forked into a separate project which never really took off.
Monitoring APC ¶
Some of the aforementioned settings can be very specific to your setup and your application. So you need to take a look at what APC is doing. There are currently two ways of achieving this:
- APC itself comes with a bundled
apc.php
which will tell you a bit about memory consumption, fragmentation and cache content. You'll most likely find it in/usr/local/doc/apc
. Copy it to a location where your webserver can reach it and take appropriate measures to protect it from unauthorized access (open the php file and set the password in its first lines). - Available as an extension to your very own app comes the apcinfo extension which does roughly the same job as
apc.php
but integrates nicely into your app.
Situation as of PHP v5.5 ¶
The last officially released version of APC as of this writing is not compatible with PHP 5.5's ABI. A solution to this dilemma is fetching the tag 3.1.14 from git and building the APC extension from source. The alternative is to use the built-in opcache in conjunction with the APCu extension.
igbinary
A small note: In order to take full advantage of the igbinary serializer for user cache entries,
framework/caching/CCache.php
must be modified:In lines 84 and 120,
unserialize
has to be replaced byigbinary_unserialize
. In line 147,serialize
must be altered toigbinary_serialize
. Otherwise cache entries will still be serialized using PHP's default serializer. Working on a patch.Edit: Said patch will be part of Yii 1.1.11 (cf commit c298fa8)
APC ttl
You recommend setting apc.ttl to 0, but I assume you can only do this as long as your production applications never use the full APC allocated memory? According to the PHP manual, when the ttl is reached, all APC cache is purged. It seems to me it makes sense to set a ttl so stale entries will not use up the cache, or is there a significant performance drawback?
http://www.php.net/manual/en/apc.configuration.php#ini.apc.ttl
RE: APC ttl
Well, the proposed settings here are for production systems. Having said that, the assumption is that the cached codes won't change unless a manual cache purge is performed, so the scenario discussed in the documentation will never occur with
apc.stat=0
andapc.ttl=0
. However, there still might be some problems if user cache entries fill up the cache (btw: For that exact reason it is a bad idea to setapc.user_ttl
to0
as well).All in all, I'll need some time to clean up some portions of this article as I have gained new insights while studying APC's source code. I'm also conducting a few experiments with APC and PHP-FPM's process pools. The results so far are quite interesting ;)
RE: APC ttl
Thanks for your feedback. Interested to see your results. Maybe even some performance comparisons on a real world (instead of hello world) Yii application with and without APC cache, with different options?
Except if you don't allocate enough memory for code caching?
RE[2]: APC ttl
I've got some rather complex applications that I run benchmarks against. They are for very specific purposes so the public will hardly benefit from the raw result numbers. But they are great for experimentation ;)
"Except if you don't allocate enough memory for code caching?"
If you do not allocate enough memory in the first place, you've lost. Simple as that. If there is not enough available memory for the cached bytecodes, the slots will be freed in almost randomly fashion leaving you with a defunct application.
RE[2]: APC ttl
I guess that depends, if you allocate such a small amount that cache invalidates almost instantly, there is no point in using APC. Also, for a single project host it shouldn't be very hard to configure the right amount of memory. But imagine a large host running 50-100 projects, cache might fill up over a period of a few hours. You could prevent that by using small enough ttl's, or accept periodical full cache purging. Or is there something else going wrong when the allocated memory runs out?
RE[2]: APC ttl
I think it's time for some anecdotal evidence: I'm the care taker of an old legacy application that does mostly number-crunching in realtime. There is little sense in using caches here so the app doesn't use it safe for some http-level caching. Said app is sitting on a single-purpose box with nginx+php-fpm+MariaDB. Since the app's memory requirements even in APC has been a near constant, I set APC's available memory that low including a safety margin of 1MB. I recently upgraded the box from PHP 5.3 to 5.4 which resulted in increased memory needs. Unfortunately I left the APC settings as they were, still believing they were fine. The application though basicaly fell apart: A random potpourri of 500s, undefined classes, partial and blank pages.
That is what happens if you set the cache too small to contain the PHP opcodes. If it's sufficient for the opcodes but too small for the user cache, the situation is a bit different: You'll see a lot of user cache purges, effectively negating the benefits of caching.
Useful
thanks Da:Sourcerer.
Very useful article.
No Significant result after APC Implementation | Please Guide
Before APC Implementation
_bash-4.1$ ab -n 100 http://localhost/mywebsite.com/
This is ApacheBench, Version 2.3 <$Revision: 655654 $>
Copyright 1996 Adam Twiss, Zeus Technology Ltd, http://www.zeustech.net/
Licensed to The Apache Software Foundation, http://www.apache.org/
Benchmarking localhost (be patient).....done
Server Software: Apache/2.2.15
Server Hostname: localhost
Server Port: 80
Document Path: /mywebsite.com/
Document Length: 51841 bytes
Concurrency Level: 1
Time taken for tests: 111.972 seconds
Complete requests: 100
Failed requests: 0
Write errors: 0
Non-2xx responses: 100
Total transferred: 5222800 bytes
HTML transferred: 5184100 bytes
Requests per second: 0.89 [#/sec] (mean)
Time per request: 1119.724 [ms] (mean)
Time per request: 1119.724 [ms] (mean, across all concurrent requests)
Transfer rate: 45.55 [Kbytes/sec] received
Connection Times (ms)
min mean[+/-sd] median max
Connect: 0 0 0.0 0 0
Processing: 910 1120 350.3 1049 4279
Waiting: 905 1114 350.3 1044 4274
Total: 910 1120 350.3 1049 4279
Percentage of the requests served within a certain time (ms)
50% 1049
66% 1068
75% 1088
80% 1136
90% 1268
95% 1517
98% 1860
99% 4279
100% 4279 (longest request)_
After APC Implementation
bash-4.1$ ab -n 100 http://localhost/mywebsite.com/
This is ApacheBench, Version 2.3 <$Revision: 655654 $>
Copyright 1996 Adam Twiss, Zeus Technology Ltd, http://www.zeustech.net/
Licensed to The Apache Software Foundation, http://www.apache.org/
Benchmarking localhost (be patient).....done
Server Software: Apache/2.2.15
Server Hostname: localhost
Server Port: 80
Document Path: /mywebsite.com/
Document Length: 51841 bytes
Concurrency Level: 1
Time taken for tests: 112.384 seconds
Complete requests: 100
Failed requests: 0
Write errors: 0
Non-2xx responses: 100
Total transferred: 5222800 bytes
HTML transferred: 5184100 bytes
Requests per second: 0.89 [#/sec] (mean)
Time per request: 1123.844 [ms] (mean)
Time per request: 1123.844 [ms] (mean, across all concurrent requests)
Transfer rate: 45.38 [Kbytes/sec] received
Connection Times (ms)
min mean[+/-sd] median max
Connect: 0 0 0.0 0 0
Processing: 594 1124 316.5 1027 3447
Waiting: 593 1123 316.5 1026 3446
Total: 594 1124 316.5 1027 3447
Percentage of the requests served within a certain time (ms)
50% 1027
66% 1089
75% 1192
80% 1233
90% 1342
95% 1527
98% 2237
99% 3447
100% 3447 (longest request)
nice article! thanks!!
nice article! thanks!!
If you have any questions, please ask in the forum instead.
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