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HTML::Mason::Admin - Mason Administrator's Manual
=head1 DESCRIPTION
This manual is written for the sysadmin/webmaster in charge of
installing, configuring, or tuning a Mason system. The bulk of the
documentation assumes that you are using mod_perl. See L<RUNNING
OUTSIDE OF MOD_PERL|HTML::Mason::Admin/RUNNING OUTSIDE OF MOD_PERL>
for more details. For more details on mod_perl, visit
the mod_perl website at http://perl.apache.org/.
=head1 SITE CONFIGURATION METHODS
Mason includes a module specifically designed to integrate Mason and
mod_perl (1 and 2), C<HTML::Mason::ApacheHandler>. By telling
mod_perl to hand content requests to this module, you can use Mason to
generate web pages. There are two ways to configure Mason under
mod_perl.
=over 4
=item * Basic
Mason provides reasonable default behavior under mod_perl, so using
Mason can be as simple as adding two directives to your Apache
configuration file. Throughout this document, we will assume that
your Apache configuration file is called F<httpd.conf>. By adding
more configuration parameters to this file you can implement more
complex behaviors.
=item * Advanced
If the basic method does not provide enough flexibility for you, you
can wrap Mason in a custom mod_perl handler. The wrapper code you
write can create its own Mason objects, or it can take advantage of
F<httpd.conf> configuration parameters and let Mason create the
objects it needs by itself.
=back
We recommend that you start with the basic method and work your way
forward as the need for flexibility arises.
Mason is very flexible, and you can replace parts of it by creating
your own classes. This documentation assumes that you are simply
using the classes provided in the Mason distribution. Subclassing is
covered in the L<Subclassing|HTML::Mason::Subclassing> document. The
two topics are orthogonal, as you can mix the configuration techniques
discussed here with your own custom subclasses.
=head1 BASIC CONFIGURATION VIA httpd.conf DIRECTIVES
The absolutely most minimal configuration looks like this:
PerlModule HTML::Mason::ApacheHandler
<Location />
SetHandler perl-script
PerlHandler HTML::Mason::ApacheHandler
</Location>
This configuration tells Apache to serve all URLs through Mason (see
the next section for a more realistic strategy). We use the
PerlModule line to tell mod_perl to load Mason once at startup time,
saving time and memory. This example does not set any Mason
configuration parameters, so Mason uses its default values.
If this is your first time installing and using Mason, we recommend
that you use the above configuration in a test webserver to start
with. This will let you play with Mason under mod_perl with a minimum
of fuss. Once you've gotten this working, then come back and read the
rest of the document for further possibilities.
=head2 Controlling Access via Filename Extension
As it turns out, serving every URL through Mason is a bad idea for two
reasons:
=over
=item 1.
Mason should be prevented from handling images, tarballs, and other
binary files. Not only will performance suffer, but binary files may
inadvertently contain a Mason character sequence such as "<%". These
files should be instead served by Apache's default content handler.
=item 2.
Mason should be prevented from serving private (non-top-level) Mason
components to users. For example, if you used a utility component for
performing arbitrary sql queries, you wouldn't want external users to
be able to access it via a URL. Requests for private components should
simply result in a 404 NOT_FOUND.
=back
The easiest way to distinguish between different types of files is
with filename extensions. While many naming schemes are possible, we
suggest using "normal" extensions for top-level components and
adding an "m" prefix for private components. For example,
Top-level Private
Component outputs HTML .html .mhtml
Component outputs text .txt .mtxt
Component executes Perl .pl .mpl
This scheme minimizes the chance of confusing browsers about content
type, scales well for new classes of content (e.g. .js/.mjs for
javascript), and makes transparent the fact that you are using Mason
versus some other package.
Here is a configuration that enforces this naming scheme:
PerlModule HTML::Mason::ApacheHandler
<LocationMatch "(\.html|\.txt|\.pl)$">
SetHandler perl-script
PerlHandler HTML::Mason::ApacheHandler
</LocationMatch>
<LocationMatch "(\.m(html|txt|pl)|dhandler|autohandler)$">
SetHandler perl-script
PerlInitHandler Apache::Constants::NOT_FOUND
</LocationMatch>
The first block causes URLs ending in .html, .txt, or .pl to be served
through Mason. The second block causes requests to private components
to return 404 NOT_FOUND, preventing unscrupulous users from even
knowing which private components exist. Any other file extensions
(e.g. .gif, .tgz) will be served by Apache's default content handler.
You might prefer C<FilesMatch> to C<LocationMatch>. However, be aware
that C<LocationMatch> will work best in conjunction with Mason's
L<dhandlers|HTML::Mason::Devel/dhandlers>.
=head2 Configuration Parameters
Mason allows you to flexibly configure its behavior via F<httpd.conf>
configuration parameters.
These configuration parameters are set via mod_perl's C<PerlSetVar>
and C<PerlAddVar> directives. Though these parameters are all strings
in your F<httpd.conf> file, Mason treats different directives as
containing different types of values:
=over 4
=item * string
The variable's value is simply taken literally and used. The string
should be surrounded by quotes if the it contains whitespace. The
quotes will be automatically removed by Apache before Mason sees the
variable.
=item * boolean
The variable's value is used as a boolean, and is subject to Perl's
rules on truth/falseness. It is recommended that you use 0 (false) or
1 (true) for these arguments.
=item * code
The string is treated as a piece of code and C<eval>'ed. This is used
for parameters that expect subroutine references. For example, an
anonymous subroutine might look like:
PerlSetVar MasonOutMode "sub { ... }"
A named subroutine reference would look like this:
PerlSetVar MasonOutMode "\&Some::Module::handle_output"
=item * list
To set a list parameter, use C<PerlAddVar> for the values, like this:
PerlAddVar MasonPreloads /foo/bar/baz.comp
PerlAddVar MasonPreloads /foo/bar/quux.comp
=item * hash_list
Just like a list parameter, use C<PerlAddVar> for the values.
However, in the case of a hash_list, each element should be a
key/value pair separated by "=>":
PerlAddVar MasonDataCacheDefaults "cache_class => MemoryCache"
PerlAddVar MasonDataCacheDefaults "namespace => foo"
Take note that the right hand side of the each pair should I<not> be
quoted.
=back
See L<HTML::Mason::Params|HTML::Mason::Params> for a full list
of parameters, and their associated types.
=head1 GENERAL SERVER CONFIGURATION
=head2 Component Root
The component root (L<comp_root|HTML::Mason::Params/comp_root>) marks the top of your component
hierarchy. When running Mason with the ApacheHandler or CGIHandler
modules, this defaults to your document root.
The component root defines how component paths are translated into
real file paths. If your component root is F</usr/local/httpd/docs>, a
component path of F</products/index.html> translates to the file
F</usr/local/httpd/docs/products/index.html>.
One cannot call a component outside the component root. If Apache
passes a file through Mason that is outside the component root (say,
as the result of an Alias) you will get a 404 and a warning in the
logs.
You may also specify multiple component roots in the spirit of Perl's
C<@INC>. Each root is assigned a key that identifies the root
mnemonically. For example, in F<httpd.conf>:
PerlAddVar MasonCompRoot "private => /usr/home/joe/comps"
PerlAddVar MasonCompRoot "main => /usr/local/www/htdocs"
This specifies two component roots, a main component tree and a
private tree which overrides certain components. The order is
respected ala C<@INC>, so I<private> is searched first and I<main>
second.
The component root keys must be unique in a case-insensitive
comparison. The keys are used in several ways. They help to
distinguish component caches and object files between different
component roots, and they appear in the C<title()> of a component.
=head2 Data Directory
The data directory (L<data_dir|HTML::Mason::Params/data_dir>) is a writable directory that Mason
uses for various features and optimizations. By default, it is a
directory called "mason" under your Apache server root. Because Mason
will not use a I<default> data directory under a top-level directory,
you will need to change this on certain systems that assign a
high-level server root such as F</usr> or F</etc>.
Mason will create the directory on startup, if necessary, and set its
permissions according to the web server User/Group.
=head2 External Modules
Components will often need access to external Perl modules. There are
several ways to load them.
=over
=item *
The httpd PerlModule directive:
PerlModule CGI
PerlModule LWP
=item *
In the C<< <%once> >> section of the component(s) that use the module.
<%once>
use CGI ':standard';
use LWP;
</%once>
=back
Each method has its own trade-offs:
The first method ensures that the module will be loaded by the Apache
parent process at startup time, saving time and memory. The second
method, in contrast, will cause the modules to be loaded by each
server child. On the other hand this could save memory if the
component and module are rarely used. See the mod_perl guide's tuning
section and Vivek Khera's mod_perl tuning guide for more details on
this issue.
The second method uses the modules from inside the package used by
components (C<HTML::Mason::Commands>), meaning that exported method
names and other symbols will be usable from components. The first
method, in contrast, will import symbols into the C<main> package. The
significance of this depends on whether the modules export symbols and
whether you want to use them from components.
If you want to preload the modules in your F<httpd.conf> file, and
still have them export symbols into the C<HTML::Mason::Commands>
namespace, you can do this:
<Perl>
{ package HTML::Mason::Commands;
use CGI;
use LWP;
}
</Perl>
A Perl section will also work for including local library paths:
<Perl>
use lib '/path/to/local/lib';
</Perl>
=head2 Allowing Directory Requests
By default Mason will decline requests for directories, leaving Apache
to serve up a directory index or a FORBIDDEN as appropriate.
Unfortunately this rule applies even if there is a dhandler in the
directory: F</foo/bar/dhandler> does not get a chance to
handle a request for F</foo/bar/>.
If you would like Mason to handle directory requests, set
L<decline_dirs|HTML::Mason::Params/decline_dirs> to 0. The dhandler that catches a directory request
is responsible for setting a reasonable content type via
C<< $r->content_type() >>.
=head2 Configuring Virtual Sites
These examples extend the single site configurations given so far.
=head3 Multiple sites, one component root
If you want to share some components between your sites, arrange your
F<httpd.conf> so that all DocumentRoots live under a single component
space:
# Web site #1
<VirtualHost www.site1.com>
DocumentRoot /usr/local/www/htdocs/site1
<LocationMatch ...>
SetHandler perl-script
PerlHandler HTML::Mason::ApacheHandler
</LocationMatch>
</VirtualHost>
# Web site #2
<VirtualHost www.site2.com>
DocumentRoot /usr/local/www/htdocs/site2
<LocationMatch ...>
SetHandler perl-script
PerlHandler HTML::Mason::ApacheHandler
</LocationMatch>
</VirtualHost>
# Mason configuration
PerlSetVar MasonCompRoot /usr/local/www/htdocs
PerlSetVar MasonDataDir /usr/local/mason
PerlModule HTML::Mason::ApacheHandler
The directory structure for this scenario might look like:
/usr/local/www/htdocs/ # component root
+- shared/ # shared components
+- site1/ # DocumentRoot for first site
+- site2/ # DocumentRoot for second site
Incoming URLs for each site can only request components in their
respective DocumentRoots, while components internally can call other
components anywhere in the component space. The F<shared/> directory
is a private directory for use by components, inaccessible from the
Web.
=head3 Multiple sites, multiple component roots
If your sites need to have completely distinct component hierarchies,
e.g. if you are providing Mason ISP services for multiple users, then
the component root must change depending on the site requested.
<VirtualHost www.site1.com>
DocumentRoot /usr/local/www/htdocs/site1
# Mason configuration
PerlSetVar MasonCompRoot /usr/local/www/htdocs/site1
PerlSetVar MasonDataDir /usr/local/mason/site1
<LocationMatch ...>
SetHandler perl-script
PerlHandler HTML::Mason::ApacheHandler
</LocationMatch>
</VirtualHost>
# Web site #2
<VirtualHost www.site2.com>
DocumentRoot /usr/local/www/htdocs/site2
# Mason configuration
PerlSetVar MasonCompRoot /usr/local/www/htdocs/site2
PerlSetVar MasonDataDir /usr/local/mason/site2
<LocationMatch ...>
SetHandler perl-script
PerlHandler HTML::Mason::ApacheHandler
</LocationMatch>
</VirtualHost>
=head1 ADVANCED CONFIGURATION
As mentioned previously, it is possible to write a custom mod_perl
content handler that wraps around Mason and provides basically
unlimited flexibility when handling requests. In this section, we
show some basic wrappers and re-implement some of the functionality
previously discussed, such as declining image requests and protecting
private components.
In addition, we discuss some of the possibilities that become
available when you create a custom wrapper around Mason's request
handling mechanism. This wrapper generally consists of two parts.
The initialization portion, run at server startup, will load any
needed modules and create objects. The other portion is the
C<handler()> subroutine, which handles web page requests.
=head2 Writing a Wrapper
To create a wrapper, you simply need to define a C<handler()>
subroutine in the package of your choice, and tell mod_perl to use it
as a content handler. The file that defines the C<handler()>
subroutine can be a module, or you can simply load a simple file that
contains this subroutine definition. The latter solution was, for a
long time, the I<only> way to configure Mason, and the file used was
traditionally called F<handler.pl>.
Nowadays, we recommend that you create a custom module in the
appropriate namespace and define your C<handler()> subroutine there.
The advantage to this approach is that it uses well-known techniques
for creating and installing modules, but it does require a bit more
work than simply dropping a script file into the Apache configuration
directory. But because the process is better defined, it may "feel"
more solid to some folks than the script approach.
The F<eg/> directory of the Mason distribution contains a couple
sample modules that define C<handler()> subroutines. Let's assume
that your module, like the example, defines a C<handler()> in the
package C<MyApp::Mason>. In this case, your Apache configuration
would look like this:
PerlModule MyApp::Mason
<LocationMatch ...>
SetHandler perl-script
PerlHandler MyApp::Mason
</LocationMatch>
You may still see references to a F<handler.pl> file in the Mason
users list archives, as well as the FAQ. These references will
generally be applicable to any custom code wrapping Mason.
=head3 Wrappers and PerlSetVar-style configuration
Sometimes people attempt to write a wrapper I<and> configure Mason
with C<PerlSetVar> directives in their Apache configuration file.
B<This does not work>. When you give mod_perl this configuration:
PerlHandler HTML::Mason::ApacheHandler
it will dispatch directly to the C<<
HTML::Mason::ApacheHandler->handler() >> method, without ever
executing your wrapper code. However, you can mix the two methods.
See L<Mixing httpd.conf Configuration with a Wrapper|"Mixing
httpd.conf Configuration with a Wrapper">
=head2 Wrapping with a <Perl> block
You can also put your wrapper code in a C<< <Perl> >> block as part of
your F<httpd.conf> file. The result is no different than loading a
file via the C<PerlRequire> directive.
=head2 The Wrapper Code
Regardless of how you load your wrapper code, it will always work the
same way. The C<handler()> subroutine should expect to receive the
Apache request object representing the current request. This request
object is used by the ApacheHandler module to determine what component
is being called.
Let's look at the guts of some wrapper code. Here's a first version:
package MyApp::Mason;
use strict;
use HTML::Mason::ApacheHandler;
my $ah =
HTML::Mason::ApacheHandler->new
( comp_root => '/path/to/comp/root',
data_dir => '/path/to/data/dir' );
sub handler {
my ($r) = @_;
return $ah->handle_request($r);
}
This wrapper is fully functional, but it doesn't actually do anything
you couldn't do more easily by configuring Mason via the F<httpd.conf>
file. However, it does serve as a good skeleton to which additional
functionality can easily be added.
=head2 External Modules Revisited
Since you are loading an arbitrary piece of code to define your
wrapper, you can easily load other modules needed for your application
at the same time. For example, you might simple add these lines to
the wrapper code above:
{
package HTML::Mason::Commands;
use MIME::Base64;
}
Explicitly setting the package to C<HTML::Mason::Commands> makes sure
that any symbols that the loaded modules export (constants,
subroutines, etc.) get exported into the namespace under which
components run. Of course, if you've changed the component namespace,
make sure to change the package name here as well.
Alternatively, you might consider creating a separate piece of code to
load the modules you need. For example, you might create a module
called C<MyApp::MasonInit>:
{
package HTML::Mason::Commands;
use Apache::Constants qw(:common);
use Apache::URI;
use File::Temp;
}
1;
This can be loaded via a C<PerlModule> directive in the F<httpd.conf>
file, or in the wrapper code itself via C<use>.
=head3 Example: Controlling access with component attributes
An example of something you can only do with wrapper code is deciding
at run-time whether a component can be accessed at the top-level based
on a complex property of the component. For example, here's a piece
of code that uses the current user and a component's C<access_level>
attribute to control access:
sub handler {
my ($r) = @_;
my $req = $ah->prepare_request($r);
my $comp = $req->request_comp;
# this is done via magic hand-waving ...
my $user = get_user_from_cookie();
# remember, attributes are inherited so this could come from a
# component higher up the inheritance chain
my $required_access = $comp->attr('access_level');
return NOT_FOUND
if $user->access_level < $required_access;
return $req->exec;
}
=head2 Wrappers with Virtual Hosts
If you had several virtual hosts, each of which had a separate
component root, you'd need to create a separate ApacheHandler object
for each host, one for each host. Here's some sample code for that:
my %ah;
foreach my $site ( qw( site1 site2 site3 ) ) {
$ah{$site} =
HTML::Mason::ApacheHandler->new
( comp_root => "/usr/local/www/$site",
data_dir => "/usr/local/mason/$site" );
}
sub handler {
my ($r) = @_;
my $site = $r->dir_config('SiteName');
return DECLINED unless exists $ah{$site};
return $ah{$site}->handle_request($r);
}
This code assumes that you set the C<SiteName> variable via a
C<PerlSetVar> directive in each C<VirtualHost> block, like this:
<VirtualHost site1.example.com>
PerlSetVar SiteName site1
<LocationMatch ...>
SetHandler perl-script
PerlHandler MyApp::Mason
</LocationMatch>
</VirtualHost>
=head3 Creating apachehandler objects on the fly
You might also consider creating ApacheHandler objects on the fly,
like this:
my %ah;
sub handler {
my ($r) = @_;
my $site = $r->dir_config('SiteName');
return DECLINED unless $site;
unless exists($ah{$site}) {
$ah{$site} = HTML::Mason::ApacheHandler->new( ... );
}
$ah{$site}->handle_request($r);
}
This is more flexible but you lose the memory savings of creating all
your objects during server startup.
=head3 Other uses for a wrapper
If you have some code which must I<always> run after a request, then
the only way to guarantee that this happens is to wrap the C<< $ah->handle_request() >>
call in an C<eval {}> block, and then run the
needed code after the request returns. You can then handle errors
however you like.
=head2 Mixing httpd.conf Configuration with a Wrapper
You can take advantage of Mason's F<httpd.conf> configuration system
while at the same time providing your own wrapper code. The key to
doing this is I<not> creating your own ApacheHandler object. Instead,
you call the C<< HTML::Mason::ApacheHandler->handler() >> class method
from your C<handler()> subroutine. Here's a complete wrapper that
does this:
package MyApp::Mason;
use strict;
use HTML::Mason::ApacheHandler;
sub handler {
my ($r) = @_;
return HTML::Mason::ApacheHandler->handler($r);
}
The C<< HTML::Mason::ApacheHandler->handler >> method will create an
ApacheHandler object based on the configuration directives it finds in
your F<httpd.conf> file. Obviously, this wrapper is again a skeleton,
but you could mix and match this wrapper code with any of the code
shown above.
Alternately you could subclass the C<HTML::Mason::ApacheHandler>
class, and override the C<handler()> method it provides. See the
L<Subclassing|HTML::Mason::Subclassing> documentation for more
details. Of course, you could even create a subclass I<and> write a
wrapper that called it.
=head1 DEVELOPMENT
This section describes how to set up common developer features.
=head2 Global Variables
Global variables can make programs harder to read, maintain, and
debug, and this is no less true for Mason components. Due to the
persistent mod_perl environment, globals require extra initialization
and cleanup care.
That said, there are times when it is very useful to make a value
available to all Mason components: a DBI database handle, a hash of
user session information, the server root for forming absolute URLs.
Because Mason by default parses components in C<strict> mode, you'll
need to declare a global if you don't want to access it with an
explicit package name. The easiest way to declare a global is with
the L<allow_globals|HTML::Mason::Params/allow_globals> parameter.
Since all components run in the same package, you'll be able to set
the global in one component and access it in all the others.
Autohandlers are common places to assign values to globals. Use the
C<< <%once> >> section if the global only needs to be
initialized at load time, or the C<< <%init> >> section if it
needs to be initialized every request.
=head2 Sessions
Mason does not have a built-in session mechanism, but you can use the
C<MasonX::Request::WithApacheSession> module, available from CPAN, to
add a session to every request. It can also automatically set and
read cookies containing the session id.
=head2 Data Caching
Data caching is implemented with DeWitt Clinton's C<Cache::Cache>
module. For full understanding of this section you should read the
documentation for C<Cache::Cache> as well as for relevant subclasses
(e.g. C<Cache::FileCache>).
=over 4
=item Cache files
By default, C<Cache::FileCache> is the subclass used for data caching,
although this may be overridden by the developer. C<Cache::FileCache>
creates a separate subdirectory for every component that uses caching,
and one file some number of levels underneath that subdirectory for
each cached item. The root of the cache tree is
L<data_dir|HTML::Mason::Params/data_dir>/C<cache>. The name of the cache subdirectory for a component
is determined by the function C<HTML::Mason::Utils::data_cache_namespace>.
=item Default constructor options
Ordinarily, when C<< $m->cache >> is called, Mason passes to the cache
constructor the C<namespace>, and C<cache_root> options, along with
any other options given in the C<< $m->cache >> method.
You may specify other default constructor options with the
L<data_cache_defaults|HTML::Mason::Params/data_cache_defaults> parameter. For example,
PerlSetVar MasonDataCacheDefaults "cache_class => SizeAwareFileCache"
PerlAddVar MasonDataCacheDefaults "cache_depth => 2"
PerlAddVar MasonDataCacheDefaults "default_expires_in => 1 hour"
Any options passed to individual C<< $m->cache >> calls override these
defaults.
=item Disabling data caching
If for some reason you want to disable data caching entirely, set the
default C<cache_class> to "NullCache". This subclass faithfully
implements the cache API but never stores data.
=back
=head1 PERFORMANCE
This section explains Mason's various performance enhancements and how
to administer them. One of the best ways to maximize performance on
your production server is run in L<static_source|HTML::Mason::Params/static_source> mode; see the third
subsection below.
=head2 Code Cache
When Mason loads a component, it places it in a memory cache. By
default, the cache has no limit, but you can specify a maximum number
of components to cache with the L<code_cache_max_size|HTML::Mason::Params/code_cache_max_size> parameter. In
this case, Mason will free up space as needed by discarding
components. The discard algorithm is least frequently used (LFU), with
a periodic decay to gradually eliminate old frequency information. In
a nutshell, the components called most often in recent history should
remain in the cache.
Previous versions of Mason attempted to estimate the size of each
component, but this proved so inaccurate as to be virtually useless
for cache policy. The max size is now specified purely in number of
components.
Mason can use certain optimizations with an unlimited cache,
especially in conjunction with L<static_source|HTML::Mason::Params/static_source>, so don't limit the
cache unless experience shows that your servers are growing too
large. Many dynamic sites can be served comfortably with all
components in memory.
You can prepopulate the cache with components that you know will be
accessed often; see L<Preloading Components|"Preloading Components">.
Note that preloaded components possess no special status in the cache
and can be discarded like any others.
Naturally, a cache entry is invalidated if the corresponding component
source file changes.
To turn off code caching completely, set L<code_cache_max_size|HTML::Mason::Params/code_cache_max_size> to 0.
=head2 Object Files
The in-memory code cache is only useful on a per-process basis. Each
process must build and maintain its own cache. Shared memory caches
are conceivable in the future, but even those will not survive between
web server restarts.
As a secondary, longer-term cache mechanism, Mason stores a compiled
form of each component in an object file under L<data_dir|HTML::Mason::Params/data_dir>/obj. Any
server process can eval the object file and save time on parsing the
component source file. The object file is recreated whenever the
source file changes.
The object file pathname is formed from three parts:
=over
=item * the compiler C<object_id> -
this prevents different versions of Mason or compilers from using the same
object file, such as after an upgrade
=item * the component path
=item * L<object_file_extension|HTML::Mason::Params/object_file_extension>, by default ".obj"
=back
Besides improving performance, object files can be useful for
debugging. If you feel the need to see what your source has been
translated into, you can peek inside an object file to see exactly how
Mason converted a given component to a Perl object. This was crucial
for pre-1.10 Mason, in which error line numbers were based on the
object file rather than the source file.
If for some reason you don't want Mason to create object files, set
L<use_object_files|HTML::Mason::Params/use_object_files> to 0.
=head2 Static Source Mode
In L<static_source|HTML::Mason::Params/static_source> mode, Mason assumes that the component hierarchy
is unchanging and thus does not check source timestamps when using an
in-memory cached component or object file. This significantly reduces
filesystem stats and other overhead. We've seen speedups by a factor
of two or three as a result of this mode, though of course YMMV.
When in L<static_source|HTML::Mason::Params/static_source> mode, you must remove object files and call
$interp->flush_code_cache in order for the server to recognize
component changes. The easiest way to arrange this is to point
L<static_source_touch_file|HTML::Mason::Params/static_source_touch_file> to a file that can be touched whenever
components change.
We highly recommend running in this mode in production if you can
manage it. Many of Mason's future optimizations will be designed for
this mode. On development servers, of course, it makes sense to keep
this off so that components are reloaded automatically.
=head2 Disabling Autoflush
To support the dynamic L<autoflush|HTML::Mason::Params/autoflush> feature, Mason has to check for
autoflush mode after printing every piece of text. If you can commit
to not using autoflush, setting L<enable_autoflush|HTML::Mason::Params/enable_autoflush> to 0 will allow
Mason to compile components more efficiently. Consider whether a few
well-placed C<< $m->flush_buffer >> calls would be just as good as
L<autoflush|HTML::Mason::Params/autoflush>.
=head2 Write a handler subroutine
Writing your own C<handler()> subroutine which uses an ApacheHandler
object (or objects) created during server startup is slightly faster
(around 5% or so) than configuring mason via your F<httpd.conf> file
and letting Mason create its own ApacheHandler objects internally.
=head2 Preloading Components
You can tell Mason to preload a set of components in the parent
process, rather than loading them on demand, using the L<preloads|HTML::Mason::Params/preloads>
parameter. Each child server will start with those components loaded
in the memory cache. The trade-offs are:
=over
=item time
a small one-time startup cost, but children save time by not
having to load the components
=item memory
a fatter initial server, but the memory for preloaded components are
shared by all children. This is similar to the advantage of using
modules only in the parent process.
=back
Try to preload components that are used frequently and do not change
often. (If a preloaded component changes, all the children will have
to reload it from scratch.)
=head2 Preallocating the Output Buffer
You can set L<buffer_preallocate_size|HTML::Mason::Params/buffer_preallocate_size> to set the size of the
preallocated output buffer for each request. This can reduce the
number of reallocations Perl performs as components output text.
=head1 ERROR REPORTING AND EXCEPTIONS
When an error occurs, Mason can respond by:
=over
=item *
showing a detailed error message in the browser in HTML.
=item *
die'ing, which sends a 500 status to the browser and lets the error
message go to the error logs.
=back
The first behavior is ideal for development, where you want immediate
feedback on the error. The second behavior is usually desired for
production so that users are not exposed to messy error messages. You
choose the behavior by setting L<error_mode|HTML::Mason::Params/error_mode> to "output" or "fatal"
respectively.
Error formatting is controlled by the L<error_format|HTML::Mason::Params/error_format> parameter. When
showing errors in the browser, Mason defaults to the "html" format.
When the L<error_mode|HTML::Mason::Params/error_mode> is set to "fatal", the default format is
"line", which puts the entire error message on one line in a format
suitable for web server error logs. Mason also offers other formats,
which are covered in the L<Request class|HTML::Mason::Request>
documentation.
Finally, you can use Apache's C<ErrorDocument> directive to specify a
custom error handler for 500 errors. In this case, you'd set the
L<error_mode|HTML::Mason::Params/error_mode> to "fatal". The URL specified by the C<ErrorDocument>
directive could point to a Mason component.
=head2 Exceptions Under the Hood
The way that Mason really reports errors is through the use of
exception objects, which are implemented with the C<Exception::Class>
module from CPAN, and some custom code in the
L<HTML::Mason::Exceptions|HTML::Mason::Exceptions> module.
If, during the execution of a component, execution stops because some
code calls C<die()>, then Mason will catch this exception. If the
exception being thrown is just a string, then it will be converted to
an C<HTML::Mason::Exception> object. If the exception being thrown is
an object with a C<rethrow()> method, then this method will be called.
Otherwise, Mason simply leaves the exception untouched and calls
C<die()> again.
=head3 Calling a Component to Handle Errors
Returning to the topic of wrapper code that we covered earlier, what
if you wanted to handle all request errors by calling an error
handling component? There is no way to do this without wrapper code.
Here's an example C<handler()> subroutine that does this:
sub handler {
my ($r) = @_;
my $return = eval { $ah->handle_request($r) };
if ( my $err = $@ )
{
$r->pnotes( error => $err );
$r->filename( $r->document_root . '/error/500.html' );
return $ah->handle_request($r);
}
return $return;
}
First, we wrap our call to C<< $ah->handle_request() >> in an
C<eval{}> block. If an error occurs, we store it in the request
object using the C<< $r->pnotes() >> method. Then we change the
filename property of the Apache request object to point to our
error-handling component and call the C<< $ah->handle_request() >>
method again, passing it the altered request object. We could have
put the exception in C<< $r->args >>, but we want to leave this
untouched so that the error-handling component can see the original
arguments.
Here's what that component error-handling component might look like:
<html>
<head>
<title>Error</title>
</head>
<body>
<p>
Looks like our application broke. Whatever you did, don't do it again!
</p>
<p>
If you have further questions, please feel free to contact us at <a
href="mailto:support@example.com">support@example.com</a>.
</p>
<p><a href="/">Click here</a> to continue.</p>
</body>
</html>
<%init>
my $error = $r->pnotes('error');
my $error_text = "Page is " . $r->parsed_uri->unparse . "\n\n";
$error_text .= UNIVERSAL::can( $error, 'as_text' ) ? $error->as_text : $error;
$r->log_error($error_text);
my $mail =
MIME::Lite->new
( From => 'error-handler@example.com',
To => 'rt@example.com',
Subject => 'Application error',
Data => $error_text,
);
$r->register_cleanup( sub { $mail->send } );
</%init>
<%flags>
inherit => undef
</%flags>
This component does several things. First of all, it logs the
complete error to the Apache error logs, along with the complete URL,
including query string, that was requested. The C<< $r->parsed_uri() >>
method that we use above is only available if the C<Apache::URI>
module has been loaded.
The component also sends an email containing the error, in this case
to an RT installation, so that the error is logged in a bug tracking
system. Finally, it displays a less technical error message to the
user.
For this to work properly, you must set L<error_mode|HTML::Mason::Params/error_mode> to "fatal", so
that Mason doesn't just display its own HTML error page.
=head1 RUNNING OUTSIDE OF MOD_PERL
Although Mason is most commonly used in conjunction with mod_perl, the
APIs are flexible enough to use in any environment. Below we describe
the two most common alternative environments, CGI and standalone
scripts.
=head2 Using Mason from a CGI Script
The easiest way to use Mason via a CGI script is with the L<CGIHandler
module|HTML::Mason::CGIHandler> module.
Here is a skeleton CGI script that calls a component and sends the
output to the browser.
#!/usr/bin/perl
use HTML::Mason::CGIHandler;
my $h = HTML::Mason::CGIHandler->new
(
data_dir => '/home/jethro/code/mason_data',
);
$h->handle_request;
The relevant portions of the F<httpd.conf> file look like:
DocumentRoot /path/to/comp/root
ScriptAlias /cgi-bin/ /path/to/cgi-bin/
<LocationMatch "\.html$">
Action html-mason /cgi-bin/mason_handler.cgi
AddHandler html-mason .html
</LocationMatch>
<LocationMatch "^/cgi-bin/">
RemoveHandler .html
</LocationMatch>
<FilesMatch "(autohandler|dhandler)$">
Order allow,deny
Deny from all
</FilesMatch>
This simply causes Apache to call the mason_handler.cgi script every
time a URL ending in ".html" under the component root is requested.
To exclude certian directories from being under Mason control, you can
use something like the following:
<LocationMatch "^/(dir1|dir2|dir3)/">
RemoveHandler .html
</LocationMatch>
This script uses the L<CGIHandler class|HTML::Mason::CGIHandler> to do
most of the heavy lifting. See that class's documentation for more
details.
=head2 Using Mason from a Standalone Script
Mason can be used as a pure text templating solution -- like
Text::Template and its brethren, but with more power (and of course
more complexity).
Here is a bare-bones script that calls a component file and sends
the result to standard output:
#!/usr/bin/perl
use HTML::Mason;
use strict;
my $interp = HTML::Mason::Interp->new ();
$interp->exec(<relative path to file>, <args>...);
Because no component root was specified, the root is set to your
current working directory. If you have a well defined and contained
component tree, you'll probably want to specify a component root.
Because no data directory was specified, object files will not be
created and data caching will not work in the default manner. If
performance is an issue, you will want to specify a data directory.
Here's a slightly fuller script that specifies a component root and
data directory, and captures the result in a variable rather than
sending to standard output:
#!/usr/bin/perl
use HTML::Mason;
use strict;
my $outbuf;
my $interp = HTML::Mason::Interp->new
(comp_root => '/path/to/comp_root',
data_dir => '/path/to/data_dir',
out_method => \$outbuf
);
$interp->exec(<component-path>, <args>...);
# Do something with $outbuf
=head1 AUTHORS
Jonathan Swartz <swartz@pobox.com>, Dave Rolsky <autarch@urth.org>, Ken Williams <ken@mathforum.org>
=head1 SEE ALSO
L<HTML::Mason|HTML::Mason>,
L<HTML::Mason::Interp|HTML::Mason::Interp>,
L<HTML::Mason::ApacheHandler|HTML::Mason::ApacheHandler>,
L<HTML::Mason::Lexer|HTML::Mason::Lexer>,
L<HTML::Mason::Compiler|HTML::Mason::Compiler>
=cut
|