HTTP::Daemon - A simple http server class
use HTTP::Daemon;
use HTTP::Status;
my $d = HTTP::Daemon->new || die;
print "Please contact me at: <URL:", $d->url, ">\n";
while (my $c = $d->accept) {
while (my $r = $c->get_request) {
if ($r->method eq 'GET' and $r->uri->path eq "/xyzzy") {
# remember, this is *not* recommended practice :-)
$c->send_file_response("/etc/passwd");
}
else {
$c->send_error(RC_FORBIDDEN)
}
}
$c->close;
undef($c);
}
Instances of the "HTTP::Daemon" class are
HTTP/1.1 servers that listen on a socket for incoming requests. The
"HTTP::Daemon" is a subclass of
"IO::Socket::IP", so you can perform socket
operations directly on it too.
Please note that "HTTP::Daemon"
used to be a subclass of
"IO::Socket::INET". To support IPv6, it
switched the parent class to
"IO::Socket::IP" at version 6.05. See
"IPv6 SUPPORT" for details.
The accept() method will return when a connection from a
client is available. The returned value will be an
"HTTP::Daemon::ClientConn" object which is
another "IO::Socket::IP" subclass. Calling
the get_request() method on this object will read data from the
client and return an "HTTP::Request"
object. The ClientConn object also provide methods to send back various
responses.
This HTTP daemon does not fork(2) for you. Your
application, i.e. the user of the
"HTTP::Daemon" is responsible for forking
if that is desirable. Also note that the user is responsible for generating
responses that conform to the HTTP/1.1 protocol.
The following methods of
"HTTP::Daemon" are new (or enhanced)
relative to the "IO::Socket::IP" base
class:
- $d = HTTP::Daemon->new
- $d = HTTP::Daemon->new( %opts )
- The constructor method takes the same arguments as the
"IO::Socket::IP" constructor, but unlike
its base class it can also be called without any arguments. The daemon
will then set up a listen queue of 5 connections and allocate some random
port number.
A server that wants to bind to some specific address on the
standard HTTP port will be constructed like this:
$d = HTTP::Daemon->new(
LocalAddr => 'www.thisplace.com',
LocalPort => 80,
);
See IO::Socket::IP for a description of other arguments that
can be used to configure the daemon during construction.
- $c = $d->accept
- $c = $d->accept( $pkg )
- ($c, $peer_addr) = $d->accept
- This method works the same as the one provided by the base class, but it
returns an "HTTP::Daemon::ClientConn"
reference by default. If a package name is provided as argument, then the
returned object will be blessed into the given class. It is probably a
good idea to make that class a subclass of
"HTTP::Daemon::ClientConn".
The accept method will return
"undef" if timeouts have been enabled
and no connection is made within the given time. The timeout()
method is described in IO::Socket::IP.
In list context both the client object and the peer address
will be returned; see the description of the accept method of IO::Socket
for details.
- $d->url
- Returns a URL string that can be used to access the server root.
- $d->product_tokens
- Returns the name that this server will use to identify itself. This is the
string that is sent with the "Server"
response header. The main reason to have this method is that subclasses
can override it if they want to use another product name.
The default is the string "libwww-perl-daemon/#.##"
where "#.##" is replaced with the version number of this
module.
The "HTTP::Daemon::ClientConn"
is a subclass of "IO::Socket::IP".
Instances of this class are returned by the accept() method of
"HTTP::Daemon". The following methods are
provided:
- $c->get_request
- $c->get_request( $headers_only )
- This method reads data from the client and turns it into an
"HTTP::Request" object which is
returned. It returns "undef" if reading
fails. If it fails, then the
"HTTP::Daemon::ClientConn" object ($c)
should be discarded, and you should not try to call this method again on
it. The $c->reason method might give you some
information about why $c->get_request failed.
The get_request() method will normally not return until
the whole request has been received from the client. This might not be
what you want if the request is an upload of a large file (and with
chunked transfer encoding HTTP can even support infinite request
messages - uploading live audio for instance). If you pass a TRUE value
as the $headers_only argument, then
get_request() will return immediately after parsing the request
headers and you are responsible for reading the rest of the request
content. If you are going to call
$c->get_request again on the same connection
you better read the correct number of bytes.
- $c->read_buffer
- $c->read_buffer( $new_value )
- Bytes read by $c->get_request, but not used are
placed in the read buffer. The next time
$c->get_request is called it will consume the
bytes in this buffer before reading more data from the network connection
itself. The read buffer is invalid after
$c->get_request has failed.
If you handle the reading of the request content yourself you
need to empty this buffer before you read more and you need to place
unconsumed bytes here. You also need this buffer if you implement
services like 101 Switching Protocols.
This method always returns the old buffer content and can
optionally replace the buffer content if you pass it an argument.
- $c->reason
- When $c->get_request returns
"undef" you can obtain a short string
describing why it happened by calling
$c->reason.
- $c->proto_ge( $proto )
- Return TRUE if the client announced a protocol with version number greater
or equal to the given argument. The $proto
argument can be a string like "HTTP/1.1" or just
"1.1".
- $c->antique_client
- Return TRUE if the client speaks the HTTP/0.9 protocol. No status code and
no headers should be returned to such a client. This should be the same as
!$c->proto_ge("HTTP/1.0").
- $c->head_request
- Return TRUE if the last request was a
"HEAD" request. No content body must be
generated for these requests.
- $c->force_last_request
- Make sure that $c->get_request will not try to
read more requests off this connection. If you generate a response that is
not self-delimiting, then you should signal this fact by calling this
method.
This attribute is turned on automatically if the client
announces protocol HTTP/1.0 or worse and does not include a
"Connection: Keep-Alive" header. It is also turned on
automatically when HTTP/1.1 or better clients send the "Connection:
close" request header.
- $c->send_status_line
- $c->send_status_line( $code )
- $c->send_status_line( $code, $mess )
- $c->send_status_line( $code, $mess, $proto )
- Send the status line back to the client. If $code
is omitted 200 is assumed. If $mess is omitted,
then a message corresponding to $code is inserted.
If $proto is missing the content of the
$HTTP::Daemon::PROTO variable is used.
- $c->send_crlf
- Send the CRLF sequence to the client.
- $c->send_basic_header
- $c->send_basic_header( $code )
- $c->send_basic_header( $code, $mess )
- $c->send_basic_header( $code, $mess, $proto )
- Send the status line and the "Date:" and "Server:"
headers back to the client. This header is assumed to be continued and
does not end with an empty CRLF line.
See the description of send_status_line() for the
description of the accepted arguments.
- $c->send_header( $field, $value )
- $c->send_header( $field1, $value1, $field2, $value2, ... )
- Send one or more header lines.
- $c->send_response( $res )
- Write an "HTTP::Response" object to the
client as a response. We try hard to make sure that the response is
self-delimiting so that the connection can stay persistent for further
request/response exchanges.
The content attribute of the
"HTTP::Response" object can be a
normal string or a subroutine reference. If it is a subroutine, then
whatever this callback routine returns is written back to the client as
the response content. The routine will be called until it returns an
undefined or empty value. If the client is HTTP/1.1 aware then we will
use chunked transfer encoding for the response.
- $c->send_redirect( $loc )
- $c->send_redirect( $loc, $code )
- $c->send_redirect( $loc, $code, $entity_body )
- Send a redirect response back to the client. The location ($loc) can be an
absolute or relative URL. The $code must be one of
the redirect status codes, and defaults to "301 Moved
Permanently"
- $c->send_error
- $c->send_error( $code )
- $c->send_error( $code, $error_message )
- Send an error response back to the client. If the
$code is missing a "Bad Request" error
is reported. The $error_message is a string that
is incorporated in the body of the HTML entity.
- $c->send_file_response( $filename )
- Send back a response with the specified $filename
as content. If the file is a directory we try to generate an HTML index of
it.
- $c->send_file( $filename )
- $c->send_file( $fd )
- Copy the file to the client. The file can be a string (which will be
interpreted as a filename) or a reference to an
"IO::Handle" or glob.
- $c->daemon
- Return a reference to the corresponding
"HTTP::Daemon" object.
Since version 6.05, "HTTP::Daemon" is a
subclass of "IO::Socket::IP" rather than
"IO::Socket::INET", so that it supports
IPv6.
For some reasons, you may want to force
"HTTP::Daemon" to listen on IPv4 addresses
only. Then pass "Family" argument to
"HTTP::Daemon->new":
use HTTP::Daemon;
use Socket 'AF_INET';
my $d = HTTP::Daemon->new(Family => AF_INET);
RFC 2616
IO::Socket::IP, IO::Socket
Bugs may be submitted through
<https://github.com/libwww-perl/HTTP-Daemon/issues>.
There is also a mailing list available for users of this
distribution, at <mailto:libwww@perl.org>.
There is also an irc channel available for users of this
distribution, at "#lwp" on
"irc.perl.org"
<irc://irc.perl.org/#lwp>.
Gisle Aas <gisle@activestate.com>
- Olaf Alders <olaf@wundersolutions.com>
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This software is copyright (c) 1995 by Gisle Aas.
This is free software; you can redistribute it and/or modify it
under the same terms as the Perl 5 programming language system itself.