/ 
Apache-mod_perl_guide-1.23
/ src::modules

Apache::Session - Maintain session state across HTTP requests

This module provides the Apache/mod_perl user a mechanism for storing persistent user data in a global hash, which is independent of its real storage mechanism. Currently you can choose from these storage mechanisms Apache::Session::DBI, Apache::Session::Win32, Apache::Session::File, Apache::Session::IPC. Read the man page of the mechanism you want to use for a complete reference.

Apache::Session provides persistence to a data structure. The data structure has an ID number, and you can retrieve it by using the ID number. In the case of Apache, you would store the ID number in a cookie or the URL to associate it with one browser, but the method of dealing with the ID is completely up to you. The flow of things is generally:

Tie a session to Apache::Session.
Get the ID number.
Store the ID number in a cookie.
End of Request 1.

(time passes)

Get the cookie.
Restore your hash using the ID number in the cookie.
Use whatever data you put in the hash.
End of Request 2.

Using Apache::Session is easy: simply tie a hash to the session object, stick any data structure into the hash, and the data you put in automatically persists until the next invocation. Here is a quick example which uses cookies to track the user's session.

#  Pull in the required packages
use Apache::Session::DBI;
use Apache;

use strict;

# Read in the cookie if this is an old session
my $r = Apache->request;
my $cookie = $r->header_in('Cookie');
$cookie =~ s/SESSION_ID=(\w*)/$1/;

# Create a session object based on the cookie we got from the
# browser, or a new session if we got no cookie
my %session;
tie %session, 'Apache::Session::DBI', $cookie,
    {DataSource => 'dbi:mysql:sessions',
     UserName   => $db_user,
     Password   => $db_pass
    };

# Might be a new session, so lets give them their cookie back
my $session_cookie = "SESSION_ID=$session{_session_id};";
$r->header_out("Set-Cookie" => $session_cookie);

After setting this up, you can stick anything you want into %session (except file handles), and it will still be there when the user invokes the next page.

It is possible to write an Apache authen handler using Apache::Session. You can put your authentication token into the session. When a user invokes a page, you open their session, check to see if they have a valid token, and approve or deny their authorization based on that.

As for IIS, let's compare. IIS's sessions are only valid on the same web server as the one that issued the session. Apache::Session's session objects can be shared amongst a farm of many machines running different operating systems, including even Win32. IIS stores session information in RAM. Apache::Session stores sessions in databases, file systems, or RAM. IIS's sessions are only good for storing scalars or arrays. Apache::Session's sessions allow you to store arbitrarily complex objects. IIS sets up the session and automatically tracks it for you. With Apache::Session, you setup and track the session yourself. IIS is proprietary. Apache::Session is open-source. Apache::Session::DBI can issue 400+ session requests per second on light Celeron 300A running Linux. IIS?

An alternative to Apache::Session is Apache::ASP, which has session tracking abilities. HTML::Embperl hooks into Apache::Session for you.

Apache::DBI - Initiate a persistent database connection

See mod_perl and relational Databases

Apache::Watchdog::RunAway - Hanging Processes Monitor and Terminator

This module monitors hanging Apache/mod_perl processes. You define the time in seconds after which the process is to be counted as hanging or run away.

When the process is considered as hanging it will be killed and the event logged into a log file.

Generally you should use the amprapmon program that is bundled with this module's distribution package, but you can write your own code using the module as well. See the amprapmon manpage for more information about it.

Note that it requires the Apache::Scoreboard module to work.

Referer to the Apache::Watchdog::RunAway manpage for the configuration details.

Apache::VMonitor - Visual System and Apache Server Monitor

(META: Move it here)

Apache::VMonitor -- Visual System and Apache Server Monitor

Apache::GTopLimit - Limit Apache httpd processes

This module allows you to kill off Apache processes if they grow too large or if they share too little of their memory. You can choose to set up the process size limiter to check the process size on every request:

  # in your startup.pl:
  use Apache::GTopLimit;

  # Control the life based on memory size
  # in KB, so this is 10MB
  $Apache::GTopLimit::MAX_PROCESS_SIZE = 10000;

  # Control the life based on Shared memory size
  # in KB, so this is 4MB
  $Apache::GTopLimit::MIN_PROCESS_SHARED_SIZE = 4000;

  # watch what happens  
  $Apache::GTopLimit::DEBUG = 1;

  # in your httpd.conf:   
  PerlFixupHandler Apache::GTopLimit
  # you can set this up as any Perl*Handler that handles
  # part of the request, even the LogHandler will do.

Or you can just check those requests that are likely to get big or unshared. This way of checking is also easier for those who are mostly just running Apache::Registry scripts:

# in your CGI:
use Apache::GTopLimit;  
  # Max Process Size in KB
Apache::GTopLimit->set_max_size(10000);

and/or:

use Apache::GTopLimit;
   # Min Shared process Size in KB
Apache::GTopLimit->set_min_shared_size(4000);

Since accessing the process info might add a little overhead, you may want to only check the process size every N times. To do so, put this in your startup.pl or your code:

$Apache::GTopLimit::CHECK_EVERY_N_REQUESTS = 2;

This will only check the process size every other time the process size checker is called.

This module was written in response to questions on the mod_perl mailing list on how to tell the httpd process to exit if:

  • its memory size goes beyond a specified limit

  • its shared memory size goes below a specified limit

Note: This module will run on platforms supported by GTop.pm a Perl interface to libgtop (which of course needs libgtop : See http://home-of-linux.org/gnome/libgtop/ ).

Referer to the Apache::GTopLimit manpage for more information.

Apache::Request (libapreq) - Generic Apache Request Library

This package contains modules for manipulating client request data via the Apache API with Perl and C. Functionality includes:

- parsing of application/x-www-form-urlencoded data

- parsing of multipart/form-data

- parsing of HTTP Cookies

The Perl modules are simply a thin xs layer on top of libapreq, making them a lighter and faster alternative to CGI.pm and CGI::Cookie. See the Apache::Request and Apache::Cookie documentation for more details and eg/perl/ for examples.

Apache::Request and libapreq are tied tightly to the Apache API, to which there is no access in a process running under mod_cgi.

(Apache::Request)

Apache::RequestNotes - Allow Easy, Consistent Access to Cookie and Form Data Across Each Request Phase

Apache::RequestNotes provides a simple interface allowing all phases of the request cycle access to cookie or form input parameters in a consistent manner. Behind the scenes, it uses libapreq Apache::Request>) functions to parse request data and puts references to the data in pnotes.

Once the request is past the PerlInit phase, all other phases can have access to form input and cookie data without parsing it themselves. This relieves some strain, especially when the GET or POST data is required by numerous handlers along the way.

See the Apache::RequestNotes manpage for more information.

Apache::PerlRun - Run unaltered CGI scripts under mod_perl

See Apache::PerlRun - a closer look.

Apache::RegistryNG -- Apache::Registry New Generation

Apache::RegistryNG is the same as Apache::Registry, aside from using filename instead of URI for the namespace. It also uses an Object Oriented interface.

PerlModule Apache::RegistryNG
<Location /perl>
  SetHandler perl-script
  PerlHandler ApacheRegistryNG->handler
</Location>

Apache::RegistryNG inherits from Apache::PerlRun, but the handler() is overriden. Aside from the handler(), the rest of Apache::PerlRun contains all the functionality of Apache::Registry broken down into several subclass-able methods. These methods are used by Apache::RegistryNG to implement the exact same functionality of Apache::Registry, using the Apache::PerlRun methods.

There is no compelling reason to use Apache::RegistryNG over Apache::Registry, unless you want to do add or change the functionality of the existing Registry.pm. For example, Apache::RegistryBB (Bare-Bones) is another subclass that skips the stat() call performed by Apache::Registry on each request.

One situation where Apache::RegistryNG may definitely be required is if you are rewriting URIs (using either mod_rewrite or your own handler) in certain ways.

For instance if you have a rewrite rule of the form:

XYZ123456.html  ==> /perl/foo.pl?p1=XYZ&p2=123456

Apache::Registry loses big, as it recompiles foo.pl for each unique URL -- Apache::RegistryNG should be used instead.

Apache::RegistryBB -- Apache::Registry Bare Bones

It works just like Apache::Registry, but does not test the x bit (-x) only compiles the file once (no stat() call is made per requsest), skips the OPT_EXECCGI checks and does not chdir() into the script parent directory. It uses the Object Oriented interface.

Configuration:

PerlModule Apache::RegistryBB
<Location /perl>
  SetHandler perl-script
  PerlHandler ApacheRegistryBB->handler
</Location>

See Apache::RegistryNG for more info.

Apache::GzipChain - compress HTML (or anything) in the OutputChain

Have you ever served a huge HTML file (e.g. a file bloated with JavaScript code) and wondered how could you send it compressed, thus dramatically cutting down the download times? After all java applets can be compressed into a jar and benefit from a faster download times. Why can't we do the same with a plain ASCII (HTML, JS etc.)? ASCII text can often be compressed by a factor of 10.

Apache::GzipChain comes to help you with this task. If a client (browser) understands gzip encoding, this module compresses the output and sends it downstream. The client decompresses the data upon receipt and renders the HTML as if it were fetching plain HTML.

For example to compress all html files on the fly, do this:

<Files *.html>
  SetHandler perl-script
  PerlHandler Apache::OutputChain Apache::GzipChain Apache::PassFile
</Files>

Remember that it will work only if the browser claims to accept compressed input, by setting the Accept-Encoding header. Apache::GzipChain keeps a list of user-agents, thus it also looks at the User-Agent header to check for browsers known to accept compressed output.

For example if you want to return compressed files which will in addition pass through the Embperl module, you would write:

<Location /test>
  SetHandler perl-script
  PerlHandler Apache::OutputChain Apache::GzipChain Apache::EmbperlChain Apache::PassFile
</Location>

Hint: Watch the access_log file to see how many bytes were actually sent, and compare that with the bytes sent using a regular configuration.

(See also perldoc Apache::GzipChain).

Notice that the rightmost PerlHandler must be a content producer. Here we are using Apache::PassFile but you can use any module which creates output.

Apache::OutputChain -- Chain Stacked Perl Handlers

Apache::OutputChain was written as a way of exploring the possibilities of stacked handlers in mod_perl. It ties STDOUT to an object which catches the output and makes it easy to build a chain of modules that work on output data stream.

Examples of modules that are build on this idea are Apache::SSIChain, Apache::GzipChain and Apache::EmbperlChain -- the first processes the SSI's in the stream, the second compresses the output on the fly, the last adds Embperl processing.

The syntax goes like this:

<Files *.html>
  SetHandler perl-script
  PerlHandler Apache::OutputChain Apache::SSIChain Apache::PassHtml
</Files>

The modules are listed in the reverse order of their execution -- here the Apache::PassHtml module simply picks a file's content and sends it to STDOUT ... then it's processed by Apache::SSIChain, which sends its output to STDOUT again ... then it's processed by Apache::OutputChain, which finally sends the result to the browser.

An alternative to this approach is Apache::Filter, which has a more natural "forward" configuration order and is easier to interface with other modules.

It works with Apache::Registry as well, for example:

Alias /foo /home/httpd/perl/foo
<Location /foo>
  SetHandler "perl-script"
  Options +ExecCGI
  PerlHandler Apache::OutputChain Apache::GzipChain Apache::Registry
</Location>

It's really a regular Apache::Registry setup, except for the added modules in the PerlHandler line.

(Apache::GzipChain allows to compress the output on the fly.)

Apache::PerlVINC - set a different @INC perl-location

With this module you can configure @INC and have modules reloaded for a given Location. Suppose two versions of Apache::Status are being hacked on the same server, this fixup handler will simply delete $INC{ $filename }, unshift the preferred PerlINC path into @INC, and reload the file with require():

PerlModule Apache::PerlVINC

<Location /dougm-status>
  SetHandler perl-script
  PerlHandler Apache::Status

  PerlINC /home/dougm/dev/modperl/lib
  PerlVersionINC On
  PerlFixupHandler Apache::PerlVINC
  PerlRequire Apache/Status.pm
</Location>

<Location /other-status>
  SetHandler perl-script
  PerlHandler Apache::Status

  PerlINC /home/other/current/modperl/lib
  PerlVersionINC On
  PerlFixupHandler Apache::PerlVINC
  PerlRequire Apache/Status.pm
</Location>

It's important to be aware that a changed @INC is effective only inside the <Location> or a similar configuration directive. Apache::PerlVINC subclasses the PerlRequire directive, marking the file to be reloaded by the fixup handler, using the value of PerlINC for @INC. That's local to the fixup handler, so you won't actually see @INC changed in your script.

To address possible issues of namespace clashes during reload, the handler could call $r->child_terminate() so the next server to load the different versions will have a fresh namespace. This is not a good idea in a high load environment, of course.

If you can't find it on CPAN, get it at: http://perl.apache.org/~dougm/Apache-PerlVINC-0.01.tar.gz

Apache::LogSTDERR

When Apache's builtin syslog support is used, the stderr stream is redirected to /dev/null. This means that Perl warnings, any messages from die(), croak(), etc., will also end up in the black hole. The HookStderr directive will hook the stderr stream to a file of your choice, the default is shown in this example:

PerlModule Apache::LogSTDERR
HookStderr logs/stderr_log

Apache::RedirectLogFix

Because of the way mod_perl handles redirects, the status code is not properly logged. The Apache::RedirectLogFix module works around that bug until mod_perl can deal with this. All you have to do is to enable it in the httpd.conf file.

PerlLogHandler Apache::RedirectLogFix

For example, you will have to use it when doing:

$r->status(304);

and do some manual header sending, like this:

$r->status(304);
$r->send_http_header();

Apache::SubProcess

The output of system(), exec(), and open(PIPE,"|program") calls will not be sent to the browser unless your Perl was configured with sfio.

One workaround is to use backticks:

print `command here`;

But a cleaner solution is provided by the Apache::SubProcess module. It overrides the exec() and system() calls with calls that work correctly under mod_perl.

Let's see a few examples:

use strict;
use Apache::SubProcess qw(system exec);

my $r = shift;
$r->send_http_header('text/plain');

# override built-in system() function
system "/bin/echo hi there";

# send the output of a program
my $efh = $r->spawn_child(\&env);
$r->send_fd($efh);

# pass arguments to a program and sends its output
my $fh = $r->spawn_child(\&banner);
$r->send_fd($fh);

# pipe data to a program and send its output
use vars qw($String);
$String = "hello world";
my($out, $in, $err) = $r->spawn_child(\&echo);
print $out $String;
$r->send_fd($in);

# override the built-in exec() function
exec "/usr/bin/cal"; 

print "NOT REACHED\n";

sub env {
    my $r = shift;
    #$r->subprocess_env->clear;
    $r->subprocess_env(HELLO => 'world');
    $r->filename("/bin/env");
    $r->call_exec;
}

sub banner {
    my $r = shift;
    # /usr/games/banner on many Unices
    $r->filename("/usr/bin/banner"); 
    $r->args("-w40+Hello%20World");  
    $r->call_exec;
}

sub echo {
    my $r = shift;
    $r->subprocess_env(CONTENT_LENGTH => length $String);
    $r->filename("/tmp/pecho");
    $r->call_exec;
}
# where /tmp/pecho is:
# --------------------
#!/usr/bin/perl 
#read STDIN, $buf, $ENV{CONTENT_LENGTH}; 
#print "STDIN: `$buf' ($ENV{CONTENT_LENGTH})\n";