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Code Editor : Daemon.pm
package HTTP::Daemon; use strict; use vars qw($VERSION @ISA $PROTO $DEBUG); $VERSION = "6.01"; use Socket qw(AF_INET AF_INET6 INADDR_ANY IN6ADDR_ANY INADDR_LOOPBACK IN6ADDR_LOOPBACK inet_ntop sockaddr_family); use IO::Socket::IP; @ISA=qw(IO::Socket::IP); $PROTO = "HTTP/1.1"; sub new { my($class, %args) = @_; $args{Listen} ||= 5; $args{Proto} ||= 'tcp'; # Handle undefined or empty local address the same way as # IO::Socket::INET -- use unspecified address for my $key (qw(LocalAddr LocalHost)) { if (exists $args{$key} && (!defined($args{$key}) || $args{$key} eq '')) { delete $args{$key}; } } return $class->SUPER::new(%args); } sub accept { my $self = shift; my $pkg = shift || "HTTP::Daemon::ClientConn"; my ($sock, $peer) = $self->SUPER::accept($pkg); if ($sock) { ${*$sock}{'httpd_daemon'} = $self; return wantarray ? ($sock, $peer) : $sock; } else { return; } } sub url { my $self = shift; my $url = $self->_default_scheme . "://"; my $addr = $self->sockaddr; if (!$addr || $addr eq INADDR_ANY || $addr eq IN6ADDR_ANY) { require Sys::Hostname; $url .= lc Sys::Hostname::hostname(); } elsif ($addr eq INADDR_LOOPBACK) { $url .= inet_ntop(AF_INET, $addr); } elsif ($addr eq IN6ADDR_LOOPBACK) { $url .= '[' . inet_ntop(AF_INET6, $addr) . ']'; } else { my $host = $self->sockhostname; # sockhostname() seems to return a stringified IP address if not # resolvable, then quote it for a port separator and an IPv6 zone separator. # But be paranoid for a case when it already contains a bracket. if (defined $host and $host =~ /:/) { if ($host =~ /[\[\]]/) { $host = undef; } else { $host =~ s/%/%25/g; $host = '[' . $host . ']'; } } if (!defined $host) { if (sockaddr_family($addr) eq AF_INET6) { $host = '[' . inet_ntop(AF_INET6, $addr) . ']'; } else { $host = inet_ntop(AF_INET, $addr); } } $url .= $host; } my $port = $self->sockport; $url .= ":$port" if $port != $self->_default_port; $url .= "/"; $url; } sub _default_port { 80; } sub _default_scheme { "http"; } sub product_tokens { "libwww-perl-daemon/$HTTP::Daemon::VERSION"; } package HTTP::Daemon::ClientConn; use vars qw(@ISA $DEBUG); use IO::Socket::IP (); @ISA=qw(IO::Socket::IP); *DEBUG = \$HTTP::Daemon::DEBUG; use HTTP::Request (); use HTTP::Response (); use HTTP::Status; use HTTP::Date qw(time2str); use LWP::MediaTypes qw(guess_media_type); use Carp (); my $CRLF = "\015\012"; # "\r\n" is not portable my $HTTP_1_0 = _http_version("HTTP/1.0"); my $HTTP_1_1 = _http_version("HTTP/1.1"); sub get_request { my($self, $only_headers) = @_; if (${*$self}{'httpd_nomore'}) { $self->reason("No more requests from this connection"); return; } $self->reason(""); my $buf = ${*$self}{'httpd_rbuf'}; $buf = "" unless defined $buf; my $timeout = $ {*$self}{'io_socket_timeout'}; my $fdset = ""; vec($fdset, $self->fileno, 1) = 1; local($_); READ_HEADER: while (1) { # loop until we have the whole header in $buf $buf =~ s/^(?:\015?\012)+//; # ignore leading blank lines if ($buf =~ /\012/) { # potential, has at least one line if ($buf =~ /^\w+[^\012]+HTTP\/\d+\.\d+\015?\012/) { if ($buf =~ /\015?\012\015?\012/) { last READ_HEADER; # we have it } elsif (length($buf) > 16*1024) { $self->send_error(413); # REQUEST_ENTITY_TOO_LARGE $self->reason("Very long header"); return; } } else { last READ_HEADER; # HTTP/0.9 client } } elsif (length($buf) > 16*1024) { $self->send_error(414); # REQUEST_URI_TOO_LARGE $self->reason("Very long first line"); return; } print STDERR "Need more data for complete header\n" if $DEBUG; return unless $self->_need_more($buf, $timeout, $fdset); } if ($buf !~ s/^(\S+)[ \t]+(\S+)(?:[ \t]+(HTTP\/\d+\.\d+))?[^\012]*\012//) { ${*$self}{'httpd_client_proto'} = _http_version("HTTP/1.0"); $self->send_error(400); # BAD_REQUEST $self->reason("Bad request line: $buf"); return; } my $method = $1; my $uri = $2; my $proto = $3 || "HTTP/0.9"; $uri = "http://$uri" if $method eq "CONNECT"; $uri = $HTTP::URI_CLASS->new($uri, $self->daemon->url); my $r = HTTP::Request->new($method, $uri); $r->protocol($proto); ${*$self}{'httpd_client_proto'} = $proto = _http_version($proto); ${*$self}{'httpd_head'} = ($method eq "HEAD"); if ($proto >= $HTTP_1_0) { # we expect to find some headers my($key, $val); HEADER: while ($buf =~ s/^([^\012]*)\012//) { $_ = $1; s/\015$//; if (/^([^:\s]+)\s*:\s*(.*)/) { $r->push_header($key, $val) if $key; ($key, $val) = ($1, $2); } elsif (/^\s+(.*)/) { $val .= " $1"; } else { last HEADER; } } $r->push_header($key, $val) if $key; } my $conn = $r->header('Connection'); if ($proto >= $HTTP_1_1) { ${*$self}{'httpd_nomore'}++ if $conn && lc($conn) =~ /\bclose\b/; } else { ${*$self}{'httpd_nomore'}++ unless $conn && lc($conn) =~ /\bkeep-alive\b/; } if ($only_headers) { ${*$self}{'httpd_rbuf'} = $buf; return $r; } # Find out how much content to read my $te = $r->header('Transfer-Encoding'); my $ct = $r->header('Content-Type'); my $len = $r->header('Content-Length'); # Act on the Expect header, if it's there for my $e ( $r->header('Expect') ) { if( lc($e) eq '100-continue' ) { $self->send_status_line(100); $self->send_crlf; } else { $self->send_error(417); $self->reason("Unsupported Expect header value"); return; } } if ($te && lc($te) eq 'chunked') { # Handle chunked transfer encoding my $body = ""; CHUNK: while (1) { print STDERR "Chunked\n" if $DEBUG; if ($buf =~ s/^([^\012]*)\012//) { my $chunk_head = $1; unless ($chunk_head =~ /^([0-9A-Fa-f]+)/) { $self->send_error(400); $self->reason("Bad chunk header $chunk_head"); return; } my $size = hex($1); last CHUNK if $size == 0; my $missing = $size - length($buf) + 2; # 2=CRLF at chunk end # must read until we have a complete chunk while ($missing > 0) { print STDERR "Need $missing more bytes\n" if $DEBUG; my $n = $self->_need_more($buf, $timeout, $fdset); return unless $n; $missing -= $n; } $body .= substr($buf, 0, $size); substr($buf, 0, $size+2) = ''; } else { # need more data in order to have a complete chunk header return unless $self->_need_more($buf, $timeout, $fdset); } } $r->content($body); # pretend it was a normal entity body $r->remove_header('Transfer-Encoding'); $r->header('Content-Length', length($body)); my($key, $val); FOOTER: while (1) { if ($buf !~ /\012/) { # need at least one line to look at return unless $self->_need_more($buf, $timeout, $fdset); } else { $buf =~ s/^([^\012]*)\012//; $_ = $1; s/\015$//; if (/^([\w\-]+)\s*:\s*(.*)/) { $r->push_header($key, $val) if $key; ($key, $val) = ($1, $2); } elsif (/^\s+(.*)/) { $val .= " $1"; } elsif (!length) { last FOOTER; } else { $self->reason("Bad footer syntax"); return; } } } $r->push_header($key, $val) if $key; } elsif ($te) { $self->send_error(501); # Unknown transfer encoding $self->reason("Unknown transfer encoding '$te'"); return; } elsif ($len) { # Plain body specified by "Content-Length" my $missing = $len - length($buf); while ($missing > 0) { print "Need $missing more bytes of content\n" if $DEBUG; my $n = $self->_need_more($buf, $timeout, $fdset); return unless $n; $missing -= $n; } if (length($buf) > $len) { $r->content(substr($buf,0,$len)); substr($buf, 0, $len) = ''; } else { $r->content($buf); $buf=''; } } elsif ($ct && $ct =~ m/^multipart\/\w+\s*;.*boundary\s*=\s*("?)(\w+)\1/i) { # Handle multipart content type my $boundary = "$CRLF--$2--"; my $index; while (1) { $index = index($buf, $boundary); last if $index >= 0; # end marker not yet found return unless $self->_need_more($buf, $timeout, $fdset); } $index += length($boundary); $r->content(substr($buf, 0, $index)); substr($buf, 0, $index) = ''; } ${*$self}{'httpd_rbuf'} = $buf; $r; } sub _need_more { my $self = shift; #my($buf,$timeout,$fdset) = @_; if ($_[1]) { my($timeout, $fdset) = @_[1,2]; print STDERR "select(,,,$timeout)\n" if $DEBUG; my $n = select($fdset,undef,undef,$timeout); unless ($n) { $self->reason(defined($n) ? "Timeout" : "select: $!"); return; } } print STDERR "sysread()\n" if $DEBUG; my $n = sysread($self, $_[0], 2048, length($_[0])); $self->reason(defined($n) ? "Client closed" : "sysread: $!") unless $n; $n; } sub read_buffer { my $self = shift; my $old = ${*$self}{'httpd_rbuf'}; if (@_) { ${*$self}{'httpd_rbuf'} = shift; } $old; } sub reason { my $self = shift; my $old = ${*$self}{'httpd_reason'}; if (@_) { ${*$self}{'httpd_reason'} = shift; } $old; } sub proto_ge { my $self = shift; ${*$self}{'httpd_client_proto'} >= _http_version(shift); } sub _http_version { local($_) = shift; return 0 unless m,^(?:HTTP/)?(\d+)\.(\d+)$,i; $1 * 1000 + $2; } sub antique_client { my $self = shift; ${*$self}{'httpd_client_proto'} < $HTTP_1_0; } sub force_last_request { my $self = shift; ${*$self}{'httpd_nomore'}++; } sub head_request { my $self = shift; ${*$self}{'httpd_head'}; } sub send_status_line { my($self, $status, $message, $proto) = @_; return if $self->antique_client; $status ||= RC_OK; $message ||= status_message($status) || ""; $proto ||= $HTTP::Daemon::PROTO || "HTTP/1.1"; print $self "$proto $status $message$CRLF"; } sub send_crlf { my $self = shift; print $self $CRLF; } sub send_basic_header { my $self = shift; return if $self->antique_client; $self->send_status_line(@_); print $self "Date: ", time2str(time), $CRLF; my $product = $self->daemon->product_tokens; print $self "Server: $product$CRLF" if $product; } sub send_header { my $self = shift; while (@_) { my($k, $v) = splice(@_, 0, 2); $v = "" unless defined($v); print $self "$k: $v$CRLF"; } } sub send_response { my $self = shift; my $res = shift; if (!ref $res) { $res ||= RC_OK; $res = HTTP::Response->new($res, @_); } my $content = $res->content; my $chunked; unless ($self->antique_client) { my $code = $res->code; $self->send_basic_header($code, $res->message, $res->protocol); if ($code =~ /^(1\d\d|[23]04)$/) { # make sure content is empty $res->remove_header("Content-Length"); $content = ""; } elsif ($res->request && $res->request->method eq "HEAD") { # probably OK } elsif (ref($content) eq "CODE") { if ($self->proto_ge("HTTP/1.1")) { $res->push_header("Transfer-Encoding" => "chunked"); $chunked++; } else { $self->force_last_request; } } elsif (length($content)) { $res->header("Content-Length" => length($content)); } else { $self->force_last_request; $res->header('connection','close'); } print $self $res->headers_as_string($CRLF); print $self $CRLF; # separates headers and content } if ($self->head_request) { # no content } elsif (ref($content) eq "CODE") { while (1) { my $chunk = &$content(); last unless defined($chunk) && length($chunk); if ($chunked) { printf $self "%x%s%s%s", length($chunk), $CRLF, $chunk, $CRLF; } else { print $self $chunk; } } print $self "0$CRLF$CRLF" if $chunked; # no trailers either } elsif (length $content) { print $self $content; } } sub send_redirect { my($self, $loc, $status, $content) = @_; $status ||= RC_MOVED_PERMANENTLY; Carp::croak("Status '$status' is not redirect") unless is_redirect($status); $self->send_basic_header($status); my $base = $self->daemon->url; $loc = $HTTP::URI_CLASS->new($loc, $base) unless ref($loc); $loc = $loc->abs($base); print $self "Location: $loc$CRLF"; if ($content) { my $ct = $content =~ /^\s*</ ? "text/html" : "text/plain"; print $self "Content-Type: $ct$CRLF"; } print $self $CRLF; print $self $content if $content && !$self->head_request; $self->force_last_request; # no use keeping the connection open } sub send_error { my($self, $status, $error) = @_; $status ||= RC_BAD_REQUEST; Carp::croak("Status '$status' is not an error") unless is_error($status); my $mess = status_message($status); $error ||= ""; $mess = <<EOT; <title>$status $mess</title> <h1>$status $mess</h1> $error EOT unless ($self->antique_client) { $self->send_basic_header($status); print $self "Content-Type: text/html$CRLF"; print $self "Content-Length: " . length($mess) . $CRLF; print $self $CRLF; } print $self $mess unless $self->head_request; $status; } sub send_file_response { my($self, $file) = @_; if (-d $file) { $self->send_dir($file); } elsif (-f _) { # plain file local(*F); sysopen(F, $file, 0) or return $self->send_error(RC_FORBIDDEN); binmode(F); my($ct,$ce) = guess_media_type($file); my($size,$mtime) = (stat _)[7,9]; unless ($self->antique_client) { $self->send_basic_header; print $self "Content-Type: $ct$CRLF"; print $self "Content-Encoding: $ce$CRLF" if $ce; print $self "Content-Length: $size$CRLF" if $size; print $self "Last-Modified: ", time2str($mtime), "$CRLF" if $mtime; print $self $CRLF; } $self->send_file(\*F) unless $self->head_request; return RC_OK; } else { $self->send_error(RC_NOT_FOUND); } } sub send_dir { my($self, $dir) = @_; $self->send_error(RC_NOT_FOUND) unless -d $dir; $self->send_error(RC_NOT_IMPLEMENTED); } sub send_file { my($self, $file) = @_; my $opened = 0; local(*FILE); if (!ref($file)) { open(FILE, $file) || return undef; binmode(FILE); $file = \*FILE; $opened++; } my $cnt = 0; my $buf = ""; my $n; while ($n = sysread($file, $buf, 8*1024)) { last if !$n; $cnt += $n; print $self $buf; } close($file) if $opened; $cnt; } sub daemon { my $self = shift; ${*$self}{'httpd_daemon'}; } 1; __END__ =head1 NAME HTTP::Daemon - a simple http server class =head1 SYNOPSIS 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); } =head1 DESCRIPTION Instances of the C<HTTP::Daemon> class are HTTP/1.1 servers that listen on a socket for incoming requests. The C<HTTP::Daemon> is a subclass of C<IO::Socket::IP>, so you can perform socket operations directly on it too. The accept() method will return when a connection from a client is available. The returned value will be an C<HTTP::Daemon::ClientConn> object which is another C<IO::Socket::IP> subclass. Calling the get_request() method on this object will read data from the client and return an C<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 C<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 C<HTTP::Daemon> are new (or enhanced) relative to the C<IO::Socket::IP> base class: =over 4 =item $d = HTTP::Daemon->new =item $d = HTTP::Daemon->new( %opts ) The constructor method takes the same arguments as the C<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 L<IO::Socket::IP> for a description of other arguments that can be used configure the daemon during construction. =item $c = $d->accept =item $c = $d->accept( $pkg ) =item ($c, $peer_addr) = $d->accept This method works the same the one provided by the base class, but it returns an C<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 C<HTTP::Daemon::ClientConn>. The accept method will return C<undef> if timeouts have been enabled and no connection is made within the given time. The timeout() method is described in L<IO::Socket::IP>. In list context both the client object and the peer address will be returned; see the description of the accept method L<IO::Socket> for details. =item $d->url Returns a URL string that can be used to access the server root. =item $d->product_tokens Returns the name that this server will use to identify itself. This is the string that is sent with the C<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. =back The C<HTTP::Daemon::ClientConn> is a C<IO::Socket::IP> subclass. Instances of this class are returned by the accept() method of C<HTTP::Daemon>. The following methods are provided: =over 4 =item $c->get_request =item $c->get_request( $headers_only ) This method reads data from the client and turns it into an C<HTTP::Request> object which is returned. It returns C<undef> if reading fails. If it fails, then the C<HTTP::Daemon::ClientConn> object ($c) should be discarded, and you should not try 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. =item $c->read_buffer =item $c->read_buffer( $new_value ) Bytes read by $c->get_request, but not used are placed in the I<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 I<101 Switching Protocols>. This method always returns the old buffer content and can optionally replace the buffer content if you pass it an argument. =item $c->reason When $c->get_request returns C<undef> you can obtain a short string describing why it happened by calling $c->reason. =item $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". =item $c->antique_client Return TRUE if the client speaks the HTTP/0.9 protocol. No status code and no headers should be returned to such a client. This should be the same as !$c->proto_ge("HTTP/1.0"). =item $c->head_request Return TRUE if the last request was a C<HEAD> request. No content body must be generated for these requests. =item $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. =item $c->send_status_line =item $c->send_status_line( $code ) =item $c->send_status_line( $code, $mess ) =item $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. =item $c->send_crlf Send the CRLF sequence to the client. =item $c->send_basic_header =item $c->send_basic_header( $code ) =item $c->send_basic_header( $code, $mess ) =item $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. =item $c->send_header( $field, $value ) =item $c->send_header( $field1, $value1, $field2, $value2, ... ) Send one or more header lines. =item $c->send_response( $res ) Write a C<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 C<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 return an undefined or empty value. If the client is HTTP/1.1 aware then we will use chunked transfer encoding for the response. =item $c->send_redirect( $loc ) =item $c->send_redirect( $loc, $code ) =item $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 the redirect status codes, and defaults to "301 Moved Permanently" =item $c->send_error =item $c->send_error( $code ) =item $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 body. =item $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. =item $c->send_file( $filename ) =item $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 C<IO::Handle> or glob. =item $c->daemon Return a reference to the corresponding C<HTTP::Daemon> object. =back =head1 SEE ALSO RFC 2616 L<IO::Socket::IP>, L<IO::Socket> =head1 COPYRIGHT Copyright 1996-2003, Gisle Aas This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.
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