perldoc > POE::Filter::HTTPD(3pm)

NAME
    POE::Filter::HTTPD - parse simple HTTP requests, and serialize HTTP::Response

SYNOPSIS
      #!perl

      use warnings;
      use strict;

      use POE qw(Component::Server::TCP Filter::HTTPD);
      use HTTP::Response;

      POE::Component::Server::TCP->new(
        Port         => 8088,
        ClientFilter => 'POE::Filter::HTTPD',  ### <-- HERE WE ARE!

        ClientInput => sub {
          my $request = $_[ARG0];

          # It's a response for the client if there was a problem.
          if ($request->isa("HTTP::Response")) {
            my $response = $request;

            $request = $response->request;
            warn "ERROR: ", $request->message if $request;

            $_[HEAP]{client}->put($response);
            $_[KERNEL]->yield("shutdown");
            return;
          }

          my $request_fields = '';
          $request->headers()->scan(
            sub {
              my ($header, $value) = @_;
              $request_fields .= (
                "<tr><td>$header</td><td>$value</td></tr>"
              );
            }
          );

          my $response = HTTP::Response->new(200);
          $response->push_header( 'Content-type', 'text/html' );
          $response->content(
            "<html><head><title>Your Request</title></head>" .
            "<body>Details about your request:" .
            "<table border='1'>$request_fields</table>" .
            "</body></html>"
          );

          $_[HEAP]{client}->put($response);
          $_[KERNEL]->yield("shutdown");
        }
      );

      print "Aim your browser at port 8088 of this host.\n";
      POE::Kernel->run();
      exit;

DESCRIPTION
    POE::Filter::HTTPD interprets input streams as HTTP 0.9, 1.0 or 1.1 requests. It returns a
    HTTP::Request objects upon successfully parsing a request.

    On failure, it returns an HTTP::Response object describing the failure. The intention is that
    application code will notice the HTTP::Response and send it back without further processing. The
    erroneous request object is sometimes available via the "$r->request" in HTTP::Response method.
    This is illustrated in the "SYNOPSIS".

    For output, POE::Filter::HTTPD accepts HTTP::Response objects and returns their corresponding
    streams.

    Please see HTTP::Request and HTTP::Response for details about how to use these objects.

    HTTP headers are not allowed to have UTF-8 characters; they must be ISO-8859-1.
    POE::Filter::HTTPD will convert all UTF-8 into the MIME encoded equivalent. It uses
    "utf8::is_utf8" for detection-8 and Email::MIME::RFC2047::Encoder for convertion. If utf8 is not
    installed, no conversion happens. If Email::MIME::RFC2047::Encoder is not installed,
    "utf8::downgrade" is used instead. In this last case, you will see a warning if you try to send
    UTF-8 headers.

PUBLIC FILTER METHODS
    POE::Filter::HTTPD implements the basic POE::Filter interface.

  new
    new() accepts a list of named parameters.

    "MaxBuffer" sets the maximum amount of data the filter will hold in memory. Defaults to 512 MB
    (536870912 octets). Because POE::Filter::HTTPD copies all data into memory, setting this number
    to high would allow a malicious HTTPD client to fill all server memory and swap.

    "MaxContent" sets the maximum size of the content of an HTTP request. Defaults to 1 MB (1038336
    octets). Because POE::Filter::HTTPD copies all data into memory, setting this number to high
    would allow a malicious HTTPD client to fill all server memory and swap. Ignored if "Streaming"
    is set.

    "Streaming" turns on request streaming mode. Defaults to off. In streaming mode this filter will
    return either an HTTP::Request object or a block of content. The HTTP::Request object's content
    will return empty. The blocks of content will be parts of the request's body, up to
    Content-Length in size. You distinguish between request objects and content blocks using
    "Scalar::Util/bless" (See "Streaming Request" below). This option supersedes "MaxContent".

CAVEATS
    Some versions of libwww are known to generate invalid HTTP. For example, this code (adapted from
    the HTTP::Request::Common documentation) will cause an error in a POE::Filter::HTTPD daemon:

    NOTE: Using this test with libwww-perl/5.834 showed that it added the proper HTTP/1.1 data!
    We're not sure which version of LWP fixed this. This example is valid for older LWP
    installations, beware!

      use HTTP::Request::Common;
      use LWP::UserAgent;

      my $ua = LWP::UserAgent->new();
      $ua->request(POST 'http://example.com', [ foo => 'bar' ]);

    By default, HTTP::Request is HTTP version agnostic. It makes no attempt to add an HTTP version
    header unless you specifically declare a protocol using "$request->protocol('HTTP/1.0')".

    According to the HTTP 1.0 RFC (1945), when faced with no HTTP version header, the parser is to
    default to HTTP/0.9. POE::Filter::HTTPD follows this convention. In the transaction detailed
    above, the Filter::HTTPD based daemon will return a 400 error since POST is not a valid HTTP/0.9
    request type.

    Upon handling a request error, it is most expedient and reliable to respond with the error and
    shut down the connection. Invalid HTTP requests may corrupt the request stream. For example, the
    absence of a Content-Length header signals that a request has no content. Requests with content
    but without that header will be broken into a content-less request and invalid data. The invalid
    data may also appear to be a request! Hilarity will ensue, possibly repeatedly, until the filter
    can find the next valid request. By shutting down the connection on the first sign of error, the
    client can retry its request with a clean connection and filter.

Streaming Request
    Normally POE::Filter::HTTPD reads the entire request content into memory before returning the
    HTTP::Request to your code. In streaming mode, it will return the content separately, as
    unblessed scalars. The content may be split up into blocks of varying sizes, depending on OS and
    transport constraints. Your code can distinguish the request object from the content blocks
    using "blessed" in Scalar::Util.

        use Scalar::Util;
        use POE::Wheel::ReadWrite;
        use POE::Filter:HTTPD;

        $heap->{wheel} = POE::Wheel::ReadWrite->new(
                            InputEvent => 'http_input',
                            Filter => POE::Filter::HTTPD->new( Streaming => 1 ),
                            # ....
                    );

        sub http_input_handler
        {
            my( $heap, $req_or_data ) = @_[ HEAP, ARG0 ];
            if( blessed $req_or_data ) {
                my $request = $req_or_data;
                if( $request->isa( 'HTTP::Response') ) {
                    # HTTP error
                    $heap->{wheel}->put( $request );
                }
                else {
                    # HTTP request
                    # ....
                }
            }
            else {
                my $data = $req_or_data;
                # ....
            }
        }

    You may trivally create a DoS bug if you hold all content in memory but do not impose a maximum
    Content-Length. An attacker could send "Content-Length: 1099511627776" (aka 1 TB) and keep
    sending data until all your system's memory and swap is filled.

    Content-Length has been sanitized by POE::Filter::HTTPD so checking it is trivial :

        if( $request->headers( 'Content-Length' ) > 1024*1024 ) {
            my $resp = HTTP::Response->new( RC_REQUEST_ENTITY_TOO_LARGE ),
                                                 "So much content!" )
            $heap->{wheel}->put( $resp );
            return;
        }

    If you want to handle large amounts of data, you should save the content to a file before
    processing it. You still need to check Content-Length or an attacker might fill up the
    partition.

        use File::Temp qw(tempfile);

        if( blessed $_[ARG0] ) {
            $heap->{request} = $_[ARG0];
            if( $heap->{request}->method eq 'GET' ) {
                handle_get( $heap );
                delete $heap->{request};
                return;
            }
            my( $fh, $file ) = tempfile( "httpd-XXXXXXXX", TMPDIR=>1 );
            $heap->{content_file} = $file;
            $heap->{content_fh} = $fh;
            $heap->{content_size} = 0;
        }
        else {
            return unless $heap->{request};

            $heap->{content_size} += length( $_[ARG0] );
            $heap->{content_fh}->print( $_[ARG0] );
            if( $heap->{content_size} >= $heap->{request}->headers( 'content-length' ) ) {
                delete $heap->{content_fh};
                delete $heap->{content_size};

                # Now we can parse $heap->{content_file}
                if( $heap->{request}->method eq 'POST' ) {
                    handle_post( $heap );
                }
                else {
                    # error ...
                }
            }
        }

        sub handle_post
        {
            my( $heap ) = @_;
            # Now we have to load and parse $heap->{content_file}

            # Next 6 lines make the data available to CGI->init
            local $ENV{REQUEST_METHOD} = 'POST';
            local $CGI::PERLEX = $CGI::PERLEX = "CGI-PerlEx/Fake";
            local $ENV{CONTENT_TYPE} = $heap->{req}->header( 'content-type' );
            local $ENV{CONTENT_LENGTH} = $heap->{req}->header( 'content-length' );
            my $keep = IO::File->new( "<&STDIN" ) or die "Unable to reopen STDIN: $!";
            open STDIN, "<$heap->{content_file}" or die "Reopening STDIN failed: $!";

            my $qcgi = CGI->new();

            # cleanup
            open STDIN, "<&".$keep->fileno or die "Unable to reopen $keep: $!";
            undef $keep;
            unlink delete $heap->{content_file};

            # now use $q as you would normaly
            my $file = $q->upload( 'field_name' );

            # ....
        }

        sub handle_get
        {
            my( $heap ) = @_;

            # 4 lines to get data into CGI->init
            local $ENV{REQUEST_METHOD} = 'GET';
            local $CGI::PERLEX = $CGI::PERLEX = "CGI-PerlEx/Fake";
            local $ENV{CONTENT_TYPE} = $heap->{req}->header( 'content-type' );
            local $ENV{'QUERY_STRING'} = $heap->{req}->uri->query;

            my $q = CGI->new();

            # now use $q as you would normaly
            # ....
        }

Streaming Response
    It is possible to use POE::Filter::HTTPD for streaming content, but an application can use it to
    send headers and then switch to POE::Filter::Stream.

    From the input handler (the InputEvent handler if you're using wheels, or the ClientInput
    handler for POE::Component::Server::TCP):

      my $response = HTTP::Response->new(200);
      $response->push_header('Content-type', 'audio/x-mpeg');
      $_[HEAP]{client}->put($response);
      $_[HEAP]{client}->set_output_filter(POE::Filter::Stream->new());

    Then the output-flushed handler (FlushEvent for POE::Wheel::ReadWrite, or ClientFlushed for
    POE::Component::Server::TCP) can put() chunks of the stream as needed.

      my $bytes_read = sysread(
        $_[HEAP]{file_to_stream}, my $buffer = '', 4096
      );

      if ($bytes_read) {
        $_[HEAP]{client}->put($buffer);
      }
      else {
        delete $_[HEAP]{file_to_stream};
        $_[KERNEL]->yield("shutdown");
      }

SEE ALSO
    Please see POE::Filter for documentation regarding the base interface.

    The SEE ALSO section in POE contains a table of contents covering the entire POE distribution.

    HTTP::Request and HTTP::Response explain all the wonderful things you can do with these classes.

BUGS
    Many aspects of HTTP 1.0 and higher are not supported, such as keep-alive. A simple I/O filter
    can't support keep-alive, for example. A number of more feature-rich POE HTTP servers are on the
    CPAN. See <http://search.cpan.org/search?query=POE+http+server&mode=dist>

AUTHORS & COPYRIGHTS
    POE::Filter::HTTPD was contributed by Artur Bergman. Documentation is provided by Rocco Caputo.

    Please see POE for more information about authors and contributors.

POE::Filter::HTTPD(3pm)
NAME SYNOPSIS DESCRIPTION PUBLIC FILTER METHODS
new() accepts a list of named parameters.
CAVEATS Streaming Request Streaming Response SEE ALSO BUGS

Generated by phpman v4.9.22-1-g1b0fcb4 · Markdown · JSON · MCP Author: Che Dong Under GNU General Public License
2026-07-05 02:29 @216.73.216.52
CrawledBy Mozilla/5.0 AppleWebKit/537.36 (KHTML, like Gecko; compatible; ClaudeBot/1.0; +claudebot@anthropic.com)
Valid XHTML 1.0 Transitional!Valid CSS!

^_top_^