install::TempContent::Objects::mod_perl-2.0.12::docs::api::Apache2::RequestRec(3) User Contributed Perl Documentation install::TempContent::Objects::mod_perl-2.0.12::docs::api::Apache2::RequestRec(3)

Apache2::RequestRec - Perl API for Apache request record accessors

  use Apache2::RequestRec ();
  
  # set supported by the handler HTTP methods
  $allowed = $r->allowed();
  
  # auth type
  $auth_type = $r->ap_auth_type();
  
  # QUERY_STRING
  $args = $r->args();
  
  # non-parsed-headers handler
  $status = $r->assbackwards();
  
  # how many bytes were sent
  $bytes_sent = $r->bytes_sent();
  
  # client connection record
  $c = $r->connection();
  
  # "Content-Encoding" HTTP response header
  $r->content_encoding("gzip");
  
  # the languages of the content
  $languages = $r->content_languages();
  
  # "Content-Encoding" HTTP response header
  $r->content_type('text/plain');
  
  # special response headers table
  $err_headers_out = $r->err_headers_out();
  
  # request mapped filename
  $filename = $r->filename();
  
  # request finfo
  $finfo = $r->finfo();
  
  # 'SetHandler perl-script' equivalent
  $r->handler('perl-script');
  
  # was it a HEAD request?
  $status = $r->header_only();
  
  # request input headers table
  $headers_in = $r->headers_in();
  
  # request output headers table
  $headers_out = $r->headers_out();
  
  # hostname
  $hostname = $r->hostname();
  
  # input filters stack
  $input_filters = $r->input_filters();
  
  # get the main request obj in a sub-request
  $main_r = $r->main();
  
  # what's the current request (GET/POST/etc)?
  $method = $r->method();
  
  # what's the current method number?
  $methnum = $r->method_number();
  
  # current resource last modified time
  $mtime = $r->mtime();
  
  # next request object (in redirect)
  $next_r = $r->next();
  
  # there is no local copy
  $r->no_local_copy();
  
  # Apache ascii notes table
  $notes = $r->notes();
  
  # output filters stack
  $output_filters = $r->output_filters();
  
  # PATH_INFO
  $path_info = $r->path_info();
  
  # used in configuration directives modules
  $per_dir_config = $r->per_dir_config();
  
  # pool with life span of the current request
  $p = $r->pool();
  
  # previous request object in the internal redirect
  $prev_r = $r->prev();
  
  # connection level input filters stack
  $proto_input_filters = $r->proto_input_filters();
  
  # HTTP protocol version number
  $proto_num = $r->proto_num();
  
  # connection level output filters stack
  $proto_output_filters = $r->proto_output_filters();
  
  # the protocol, the client speaks: "HTTP/1.0", "HTTP/1.1", etc.
  $protocol = $r->protocol();
  
  # is it a proxy request
  $status = $r->proxyreq($val);
  
  # Time when the request started
  $request_time = $r->request_time();
  
  # server object
  $s = $r->server();
  
  # response status
  $status = $r->status();
  
  # response status line
  $status_line = $r->status_line();
  
  # manipulate %ENV of the subprocess
  $r->subprocess_env;
  $r->subprocess_env($key => $val);
  
  # first HTTP request header
  $request = $r->the_request();
  
  # the URI without any parsing performed
  $unparsed_uri = $r->unparsed_uri();
  
  # The path portion of the URI
  $uri = $r->uri();
  
  # auth username
  $user = $r->user();

"Apache2::RequestRec" provides the Perl API for Apache request_rec object.

The following packages extend the "Apache2::RequestRec" functionality: "Apache2::Access", "Apache2::Log", "Apache2::RequestIO", "Apache2::RequestUtil", "Apache2::Response", "Apache2::SubRequest" and "Apache2::URI".

"Apache2::RequestRec" provides the following functions and/or methods:

Get/set the allowed methods bitmask.

  $allowed      = $r->allowed();
  $prev_allowed = $r->allowed($new_allowed);
Set the bitvector.
returns $allowed, which is a bitvector of the allowed methods.

If the $new_allowed argument is passed, the value before the change is returned.

A handler must ensure that the request method is one that it is capable of handling. Generally modules should "Apache2::DECLINE" any request methods they do not handle. Prior to aborting the handler like this the handler should set "$r->allowed" to the list of methods that it is willing to handle. This bitvector is used to construct the "Allow:" header required for "OPTIONS" requests, and "Apache2::Const::HTTP_METHOD_NOT_ALLOWED" (405) and "Apache2::Const::HTTP_NOT_IMPLEMENTED" (501) status codes.

Since the default Apache handler deals with the "OPTIONS" method, all response handlers can usually decline to deal with "OPTIONS". For example if the response handler handles only "GET" and "POST" methods, and not "OPTIONS", it may want to say:

   use Apache2::Const -compile => qw(OK DECLINED M_GET M_POST M_OPTIONS);
   if ($r->method_number == Apache2::Const::M_OPTIONS) {
       $r->allowed($r->allowed | (1<<Apache2::Const::M_GET) | (1<<Apache2::Const::M_POST));
       return Apache2::Const::DECLINED;
   }

"TRACE" is always allowed, modules don't need to set it explicitly.

Since the default_handler will always handle a "GET", a module which does *not* implement "GET" should probably return "Apache2::Const::HTTP_METHOD_NOT_ALLOWED". Unfortunately this means that a script "GET" handler can't be installed by mod_actions.

For example, if the module can handle only POST method it could start with:

   use Apache2::Const -compile => qw(M_POST HTTP_METHOD_NOT_ALLOWED);
   unless ($r->method_number == Apache2::Const::M_POST) {
       $r->allowed($r->allowed | (1<<Apache2::Const::M_POST));
       return Apache2::Const::HTTP_METHOD_NOT_ALLOWED;
   }

If an authentication check was made, get or set the ap_auth_type slot in the request record

  $auth_type = $r->ap_auth_type();
  $r->ap_auth_type($newval);
If this argument is passed then a new auth type is assigned. For example:

  $r->auth_type('Basic');
    
If $newval is passed, nothing is returned. Otherwise the current auth type is returned.

ap_auth_type holds the authentication type that has been negotiated between the client and server during the actual request. Generally, ap_auth_type is populated automatically when you call "$r->get_basic_auth_pw" so you don't really need to worry too much about it, but if you want to roll your own authentication mechanism then you will have to populate ap_auth_type yourself.

Note that "$r->ap_auth_type" was "$r->connection->auth_type" in the mod_perl 1.0 API.

Get/set the request QUERY string

  $args      = $r->args();
  $prev_args = $r->args($new_args);
Optionally set the new QUERY string
The current QUERY string

If $new_args was passed, returns the value before the change.

When set to a true value, Apache won't send any HTTP response headers allowing you to send any headers.

  $status      = $r->assbackwards();
  $prev_status = $r->assbackwards($newval);
assign a new state.
current state.

If you send your own set of headers, which includes the "Keep-Alive" HTTP response header, you must make sure to increment the number of requests served over this connection (which is normally done by the core connection output filter "ap_http_header_filter", but skipped when "assbackwards" is enabled).

  $r->connection->keepalives($r->connection->keepalives + 1);

otherwise code relying on the value of "$r->connection->keepalives" may malfunction. For example, this counter is used to tell when a new request is coming in over the same connection to a filter that wants to parse only HTTP headers (like "Apache2::Filter::HTTPHeadersFixup"). Of course you will need to set "$r->connection->keepalive(1)" ) as well.

The number of bytes sent to the client, handy for logging, etc.

  $bytes_sent = $r->bytes_sent();

Though as of this writing in Apache 2.0 it doesn't really do what it did in Apache 1.3. It's just set to the size of the response body. The issue is that buckets from one request may get buffered and not sent during the lifetime of the request, so it's not easy to give a truly accurate count of "bytes sent to the network for this response".

Get the client connection record

  $c = $r->connection();

Get/set content encoding (the "Content-Encoding" HTTP header). Content encodings are string like "gzip" or "compress".

  $ce      = $r->content_encoding();
  $prev_ce = $r->content_encoding($new_ce);
If passed, sets the content encoding to a new value. It must be a lowercased string.
The current content encoding.

If $new_ce is passed, then the previous value is returned.

For example, here is how to send a gzip'ed response:

  require Compress::Zlib;
  $r->content_type("text/plain");
  $r->content_encoding("gzip");
  $r->print(Compress::Zlib::memGzip("some text to be gzipped));

Get/set content languages (the "Content-Language" HTTP header). Content languages are string like "en" or "fr".

  $languages = $r->content_languages();
  $prev_lang = $r->content_languages($nev_lang);
If passed, sets the content languages to new values. It must be an ARRAY reference of language names, like "en" or "fr"
The current list of content languages, as an ARRAY reference.

If $new_lang is passed, then the previous value is returned.

Get/set the HTTP response Content-type header value.

  my $content_type      = $r->content_type();
  my $prev_content_type = $r->content_type($new_content_type);
Assign a new HTTP response content-type. It will affect the response only if HTTP headers weren't sent yet.
The current content-type value.

If $new_content_type was passed, the previous value is returned instead.

For example, set the "Content-type" header to text/plain.

  $r->content_type('text/plain');

If you set this header via the "headers_out" table directly, it will be ignored by Apache. So do not do that.

Get/set MIME response headers, printed even on errors and persist across internal redirects.

  $err_headers_out = $r->err_headers_out();

The difference between "headers_out" and "err_headers_out", is that the latter are printed even on error, and persist across internal redirects (so the headers printed for "ErrorDocument" handlers will have them).

For example, if a handler wants to return a 404 response, but nevertheless to set a cookie, it has to be:

  $r->err_headers_out->add('Set-Cookie' => $cookie);
  return Apache2::Const::NOT_FOUND;

If the handler does:

  $r->headers_out->add('Set-Cookie' => $cookie);
  return Apache2::Const::NOT_FOUND;

the "Set-Cookie" header won't be sent.

Get/set the filename on disk corresponding to this response (the result of the URI --> filename translation).

  $filename      = $r->filename();
  $prev_filename = $r->filename($new_filename);
new value
the current filename, or the previous value if the optional $new_filename argument was passed

Note that if you change the filename after the "PerlMapToStorageHandler" phase was run and expect Apache to serve it, you need to update its "stat" record, like so:

  use Apache2::RequestRec ();
  use APR::Finfo ();
  use APR::Const -compile => qw(FINFO_NORM);
  $r->filename($newfile);
  $r->finfo(APR::Finfo::stat($newfile, APR::Const::FINFO_NORM, $r->pool));

if you don't, Apache will still try to use the previously cached information about the previously set value of the filename.

Get and set the finfo request record member:

  $finfo = $r->finfo();
  $r->finfo($finfo);
Always returns the current object.

Due to the internal Apache implementation it's not possible to have two different objects originating from "$r->finfo" at the same time. Whenever "$r->finfo" is updated all objects will be updated too to the latest value.

Most of the time, this method is used to get the "finfo" member. The only reason you may want to set it is you need to use it before the Apache's default map_to_storage phase is called.

Examples:

  • What Apache thinks is the current request filename (post the "PerlMapToStorageHandler" phase):

      use Apache2::RequestRec ();
      use APR::Finfo ();
      print $r->finfo->fname;
        
  • Populate the "finfo" member (normally, before the "PerlMapToStorageHandler" phase):

      use APR::Finfo ();
      use APR::Const -compile => qw(FINFO_NORM);
      
      my $finfo = APR::Finfo::stat(__FILE__, APR::Const::FINFO_NORM, $r->pool);
      $r->finfo($finfo);
        

Get/set the equivalent of the "SetHandler" directive.

  $handler      = $r->handler();
  $prev_handler = $r->handler($new_handler);
the new handler.
the current handler.

If $new_handler is passed, the previous value is returned.

Did the client has asked for headers only? e.g. if the request method was HEAD.

  $status = $r->header_only();
Returns true if the client is asking for headers only, false otherwise

Get/set the request MIME headers:

  $headers_in = $r->headers_in();

This table is available starting from the "PerlHeaderParserHandler" phase.

For example you can use it to retrieve the cookie value sent by the client, in the "Cookie:" header:

    my $cookie = $r->headers_in->{Cookie} || '';

Get/set MIME response headers, printed only on 2xx responses.

  $headers_out = $r->headers_out();

See also "err_headers_out", which allows to set headers for non-2xx responses and persist across internal redirects.

Host, as set by full URI or Host:

  $hostname = $r->hostname();
  $prev_hostname = $r->hostname($new_hostname);
new value
the current hostname, or the previous value if the optional $new_hostname argument was passed

Get/set the first filter in a linked list of request level input filters:

  $input_filters      = $r->input_filters();
  $prev_input_filters = $r->input_filters($new_input_filters);
Set a new value
The first filter in the request level input filters chain.

If $new_input_filters was passed, returns the previous value.

For example instead of using "$r->read()" to read the POST data, one could use an explicit walk through incoming bucket brigades to get that data. The following function "read_post()" does just that (in fact that's what "$r->read()" does behind the scenes):

  use APR::Brigade ();
  use APR::Bucket ();
  use Apache2::Filter ();
  
  use Apache2::Const -compile => qw(MODE_READBYTES);
  use APR::Const    -compile => qw(SUCCESS BLOCK_READ);
  
  use constant IOBUFSIZE => 8192;
  
  sub read_post {
      my $r = shift;
  
      my $bb = APR::Brigade->new($r->pool,
                                 $r->connection->bucket_alloc);
  
      my $data = '';
      my $seen_eos = 0;
      do {
          $r->input_filters->get_brigade($bb, Apache2::Const::MODE_READBYTES,
                                         APR::Const::BLOCK_READ, IOBUFSIZE);
  
          for (my $b = $bb->first; $b; $b = $bb->next($b)) {
              if ($b->is_eos) {
                  $seen_eos++;
                  last;
              }
  
              if ($b->read(my $buf)) {
                  $data .= $buf;
              }
  
              $b->remove; # optimization to reuse memory
          }
  
      } while (!$seen_eos);
  
      $bb->destroy;
  
      return $data;
  }

As you can see "$r->input_filters" gives us a pointer to the last of the top of the incoming filters stack.

Get the main request record

  $main_r = $r->main();
If the current request is a sub-request, this method returns a blessed reference to the main request structure. If the current request is the main request, then this method returns "undef".

To figure out whether you are inside a main request or a sub-request/internal redirect, use "$r->is_initial_req".

Get/set the current request method (e.g. "GET", "HEAD", "POST", etc.):

  $method     = $r->method();
  $pre_method = $r->method($new_method);
a new value
The current method as a string

if $new_method was passed the previous value is returned.

Get/set the HTTP method, issued by the client ("Apache2::Const::M_GET", "Apache2::Const::M_POST", etc.)

  $methnum      = $r->method_number();
  $prev_methnum = $r->method_number($new_methnum);
a new value
The current method as a number

if $new_methnum was passed the previous value is returned.

See the "$r->allowed" entry for examples.

Last modified time of the requested resource

  $mtime      = $r->mtime();
  $prev_mtime = $r->mtime($new_mtime);
a new value
the current value

if $new_mtime was passed the previous value is returned.

Pointer to the redirected request if this is an external redirect

  $next_r = $r->next();
returns a blessed reference to the next (internal) request structure or "undef" if there is no next request.

There is no local copy of this response

  $status = $r->no_local_copy();

Used internally in certain sub-requests to prevent sending "Apache2::Const::HTTP_NOT_MODIFIED" for a fragment or error documents. For example see the implementation in modules/filters/mod_include.c.

Also used internally in "$r->meets_conditions" -- if set to a true value, the conditions are always met.

Get/set text notes for the duration of this request. These notes can be passed from one module to another (not only mod_perl, but modules in any other language):

  $notes      = $r->notes();
  $prev_notes = $r->notes($new_notes);
the current notes table.

if the $new_notes argument was passed, returns the previous value.

If you want to pass Perl structures, you can use "$r->pnotes".

Also see "$c->notes"

Get the first filter in a linked list of request level output filters:

  $output_filters      = $r->output_filters();
  $prev_output_filters = $r->output_filters($new_output_filters);
Set a new value
The first filter in the request level output filters chain.

If $new_output_filters was passed, returns the previous value.

For example instead of using "$r->print()" to send the response body, one could send the data directly to the first output filter. The following function "send_response_body()" does just that:

  use APR::Brigade ();
  use APR::Bucket ();
  use Apache2::Filter ();
  
  sub send_response_body {
      my ($r, $data) = @_;
  
      my $bb = APR::Brigade->new($r->pool,
                                 $r->connection->bucket_alloc);
  
      my $b = APR::Bucket->new($bb->bucket_alloc, $data);
      $bb->insert_tail($b);
      $r->output_filters->fflush($bb);
      $bb->destroy;
  }

In fact that's what "$r->read()" does behind the scenes. But it also knows to parse HTTP headers passed together with the data and it also implements buffering, which the above function does not.

Get/set the "PATH_INFO", what is left in the path after the URI --> filename translation:

  $path_info      = $r->path_info();
  $prev_path_info = $r->path_info($path_info);
Set a new value
Return the current value.

If the optional argument $path_info is passed, the previous value is returned.

Get the dir config vector:

  $per_dir_config = $r->per_dir_config();

For an indepth discussion, refer to the Apache Server Configuration Customization in Perl chapter.

The pool associated with the request

  $p = $r->pool();

Pointer to the previous request if this is an internal redirect

  $prev_r = $r->prev();
a blessed reference to the previous (internal) request structure or "undef" if there is no previous request.

Get the first filter in a linked list of protocol level input filters:

  $proto_input_filters      = $r->proto_input_filters();
  $prev_proto_input_filters = $r->proto_input_filters($new_proto_input_filters);
Set a new value
The first filter in the protocol level input filters chain.

If $new_proto_input_filters was passed, returns the previous value.

"$r->proto_input_filters" points to the same filter as "$r->connection->input_filters".

Get current request's HTTP protocol version number

  $proto_num = $r->proto_num();
current request's HTTP protocol version number, e.g.: HTTP/1.0 == 1000, HTTP/1.1 = 1001

Get the first filter in a linked list of protocol level output filters:

  $proto_output_filters      = $r->proto_output_filters();
  $prev_proto_output_filters = $r->proto_output_filters($new_proto_output_filters);
Set a new value
The first filter in the protocol level output filters chain.

If $new_proto_output_filters was passed, returns the previous value.

"$r->proto_output_filters" points to the same filter as "$r->connection->output_filters".

Get a string identifying the protocol that the client speaks.

  $protocol = $r->protocol();
Typical values are "HTTP/1.0" or "HTTP/1.1".

If the client didn't specify the protocol version, the default is "HTTP/0.9"

Get/set the proxyrec request record member and optionally adjust other related fields.

  $status = $r->proxyreq($val);
PROXYREQ_NONE, PROXYREQ_PROXY, PROXYREQ_REVERSE, PROXYREQ_RESPONSE
If $val is defined the proxyrec member will be set to that value and previous value will be returned.

If $val is not passed, and "$r->proxyreq" is not true, and the proxy request is matching the current vhost (scheme, hostname and port), the proxyrec member will be set to PROXYREQ_PROXY and that value will be returned. In addition "$r->uri" is set to "$r->unparsed_uri" and "$r->filename" is set to ""modperl-proxy:".$r->uri". If those conditions aren't true 0 is returned.

For example to turn a normal request into a proxy request to be handled on the same server in the "PerlTransHandler" phase run:

  my $real_url = $r->unparsed_uri;
  $r->proxyreq(Apache2::Const::PROXYREQ_PROXY);
  $r->uri($real_url);
  $r->filename("proxy:$real_url");
  $r->handler('proxy-server');

Also remember that if you want to turn a proxy request into a non-proxy request, it's not enough to call:

  $r->proxyreq(Apache2::Const::PROXYREQ_NONE);

You need to adjust "$r->uri" and "$r->filename" as well if you run that code in "PerlPostReadRequestHandler" phase, since if you don't -- "mod_proxy"'s own post_read_request handler will override your settings (as it will run after the mod_perl handler).

And you may also want to add

  $r->set_handlers(PerlResponseHandler => []);

so that any response handlers which match apache directives will not run in addition to the mod_proxy content handler.

Time when the request started

  $request_time = $r->request_time();

Get the "Apache2::Server" object for the server the request $r is running under.

  $s = $r->server();

Get/set the reply status for the client request.

  $status      = $r->status();
  $prev_status = $r->status($new_status);
If $new_status is passed the new status is assigned.

Normally you would use some "Apache2::Const constant", e.g. "Apache2::Const::REDIRECT".

The current value.

If $new_status is passed the old value is returned.

Usually you will set this value indirectly by returning the status code as the handler's function result. However, there are rare instances when you want to trick Apache into thinking that the module returned an "Apache2::Const::OK" status code, but actually send the browser a non-OK status. This may come handy when implementing an HTTP proxy handler. The proxy handler needs to send to the client, whatever status code the proxied server has returned, while returning "Apache2::Const::OK" to Apache. e.g.:

  $r->status($some_code);
  return Apache2::Const::OK

See also "$r->status_line", which. if set, overrides "$r->status".

Get/set the response status line. The status line is a string like "200 Document follows" and it will take precedence over the value specified using the "$r->status()" described above.

  $status_line      = $r->status_line();
  $prev_status_line = $r->status_line($new_status_line);

When discussing "$r->status" we have mentioned that sometimes a handler runs to a successful completion, but may need to return a different code, which is the case with the proxy server. Assuming that the proxy handler forwards to the client whatever response the proxied server has sent, it'll usually use "status_line()", like so:

  $r->status_line($response->code() . ' ' . $response->message());
  return Apache2::Const::OK;

In this example $response could be for example an "HTTP::Response" object, if "LWP::UserAgent" was used to implement the proxy.

This method is also handy when you extend the HTTP protocol and add new response codes. For example you could invent a new error code and tell Apache to use that in the response like so:

  $r->status_line("499 We have been FooBared");
  return Apache2::Const::OK;

Here 499 is the new response code, and We have been FooBared is the custom response message.

Get/set the Apache "subprocess_env" table, or optionally set the value of a named entry.

               $r->subprocess_env;
  $env_table = $r->subprocess_env;
  
         $r->subprocess_env($key => $val);
  $val = $r->subprocess_env($key);

When called in VOID context with no arguments, it populate %ENV with special variables (e.g. $ENV{QUERY_STRING}) like mod_cgi does.

When called in a non-VOID context with no arguments, it returns an "APR::Table object".

When the $key argument (string) is passed, it returns the corresponding value (if such exists, or "undef". The following two lines are equivalent:

  $val = $r->subprocess_env($key);
  $val = $r->subprocess_env->get($key);

When the $key and the $val arguments (strings) are passed, the value is set. The following two lines are equivalent:

  $r->subprocess_env($key => $val);
  $r->subprocess_env->set($key => $val);

The "subprocess_env" "table" is used by "Apache2::SubProcess", to pass environment variables to externally spawned processes. It's also used by various Apache modules, and you should use this table to pass the environment variables. For example if in "PerlHeaderParserHandler" you do:

   $r->subprocess_env(MyLanguage => "de");

you can then deploy "mod_include" and write in .shtml document:

   <!--#if expr="$MyLanguage = en" -->
   English
   <!--#elif expr="$MyLanguage = de" -->
   Deutsch
   <!--#else -->
   Sorry
   <!--#endif -->

First HTTP request header

  $request = $r->the_request();
  $old_request = $r->uri($new_request);
For example:

  GET /foo/bar/my_path_info?args=3 HTTP/1.0
    

The URI without any parsing performed

  $unparsed_uri = $r->unparsed_uri();

If for example the request was:

  GET /foo/bar/my_path_info?args=3 HTTP/1.0

"$r->uri" returns:

  /foo/bar/my_path_info

whereas "$r->unparsed_uri" returns:

  /foo/bar/my_path_info?args=3

The path portion of the URI

  $uri         = $r->uri();
  my $prec_uri = $r->uri($new_uri);

See the example in the "$r->unparsed_uri" section.

Get the user name, if an authentication process was successful. Or set it.

  $user      = $r->user();
  $prev_user = $r->user($new_user);
Pass $new_user to set a new value
The current username if an authentication process was successful.

If $new_user was passed, the previous value is returned.

For example, let's print the username passed by the client:

  my ($res, $sent_pw) = $r->get_basic_auth_pw;
  return $res if $res != Apache2::Const::OK;
  print "User: ", $r->user;

"Apache2::RequestRec" also provides auto-generated Perl interface for a few other methods which aren't tested at the moment and therefore their API is a subject to change. These methods will be finalized later as a need arises. If you want to rely on any of the following methods please contact the the mod_perl development mailing list so we can help each other take the steps necessary to shift the method to an officially supported API.

META: Autogenerated - needs to be reviewed/completed

List of allowed methods

  $list = $r->allowed_methods();

META: Apache2::MethodList is not available at the moment

META: Autogenerated - needs to be reviewed/completed

Array of extension methods

  $array = $r->allowed_xmethods();

META: APR::ArrayHeader is not available at the moment

Config vector containing pointers to request's per-server config structures

  $ret = $r->request_config($newval);

META: Autogenerated - needs to be reviewed/completed

Flag for the handler to accept or reject path_info on the current request. All modules should respect the AP_REQ_ACCEPT_PATH_INFO and AP_REQ_REJECT_PATH_INFO values, while AP_REQ_DEFAULT_PATH_INFO indicates they may follow existing conventions. This is set to the user's preference upon HOOK_VERY_FIRST of the fixups.

  $ret = $r->used_path_info($newval);

mod_perl 2.0 documentation.

mod_perl 2.0 and its core modules are copyrighted under The Apache Software License, Version 2.0.

The mod_perl development team and numerous contributors.

2022-01-30 perl v5.34.0