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Code Editor : Simple.pm
use strict; use warnings; package HTTP::Server::Simple; use FileHandle; use Socket; use Carp; use vars qw($VERSION $bad_request_doc); $VERSION = '0.44'; =head1 NAME HTTP::Server::Simple - Lightweight HTTP server =head1 SYNOPSIS use warnings; use strict; use HTTP::Server::Simple; my $server = HTTP::Server::Simple->new(); $server->run(); However, normally you will sub-class the HTTP::Server::Simple::CGI module (see L<HTTP::Server::Simple::CGI>); package Your::Web::Server; use base qw(HTTP::Server::Simple::CGI); sub handle_request { my ($self, $cgi) = @_; #... do something, print output to default # selected filehandle... } 1; =head1 DESCRIPTION This is a simple standalone HTTP server. By default, it doesn't thread or fork. It does, however, act as a simple frontend which can be used to build a standalone web-based application or turn a CGI into one. It is possible to use L<Net::Server> classes to create forking, pre-forking, and other types of more complicated servers; see L</net_server>. By default, the server traps a few signals: =over =item HUP When you C<kill -HUP> the server, it lets the current request finish being processed, then uses the C<restart> method to re-exec itself. Please note that in order to provide restart-on-SIGHUP, HTTP::Server::Simple sets a SIGHUP handler during initialisation. If your request handling code forks you need to make sure you reset this or unexpected things will happen if somebody sends a HUP to all running processes spawned by your app (e.g. by "kill -HUP <script>") =item PIPE If the server detects a broken pipe while writing output to the client, it ignores the signal. Otherwise, a client closing the connection early could kill the server. =back =head1 EXAMPLE #!/usr/bin/perl { package MyWebServer; use HTTP::Server::Simple::CGI; use base qw(HTTP::Server::Simple::CGI); my %dispatch = ( '/hello' => \&resp_hello, # ... ); sub handle_request { my $self = shift; my $cgi = shift; my $path = $cgi->path_info(); my $handler = $dispatch{$path}; if (ref($handler) eq "CODE") { print "HTTP/1.0 200 OK\r\n"; $handler->($cgi); } else { print "HTTP/1.0 404 Not found\r\n"; print $cgi->header, $cgi->start_html('Not found'), $cgi->h1('Not found'), $cgi->end_html; } } sub resp_hello { my $cgi = shift; # CGI.pm object return if !ref $cgi; my $who = $cgi->param('name'); print $cgi->header, $cgi->start_html("Hello"), $cgi->h1("Hello $who!"), $cgi->end_html; } } # start the server on port 8080 my $pid = MyWebServer->new(8080)->background(); print "Use 'kill $pid' to stop server.\n"; =head1 METHODS =head2 HTTP::Server::Simple->new($port) API call to start a new server. Does not actually start listening until you call C<-E<gt>run()>. If omitted, C<$port> defaults to 8080. =cut sub new { my ( $proto, $port ) = @_; my $class = ref($proto) || $proto; if ( $class eq __PACKAGE__ ) { require HTTP::Server::Simple::CGI; return HTTP::Server::Simple::CGI->new( @_[ 1 .. $#_ ] ); } my $self = {}; bless( $self, $class ); $self->port( $port || '8080' ); return $self; } =head2 lookup_localhost Looks up the local host's IP address, and returns it. For most hosts, this is C<127.0.0.1>. =cut sub lookup_localhost { my $self = shift; my $local_sockaddr = getsockname( $self->stdio_handle ); my ( undef, $localiaddr ) = sockaddr_in($local_sockaddr); $self->host( gethostbyaddr( $localiaddr, AF_INET ) || "localhost"); $self->{'local_addr'} = inet_ntoa($localiaddr) || "127.0.0.1"; } =head2 port [NUMBER] Takes an optional port number for this server to listen on. Returns this server's port. (Defaults to 8080) =cut sub port { my $self = shift; $self->{'port'} = shift if (@_); return ( $self->{'port'} ); } =head2 host [address] Takes an optional host address for this server to bind to. Returns this server's bound address (if any). Defaults to C<undef> (bind to all interfaces). =cut sub host { my $self = shift; $self->{'host'} = shift if (@_); return ( $self->{'host'} ); } =head2 background [ARGUMENTS] Runs the server in the background, and returns the process ID of the started process. Any arguments will be passed through to L</run>. =cut sub background { my $self = shift; my $child = fork; croak "Can't fork: $!" unless defined($child); return $child if $child; srand(); # after a fork, we need to reset the random seed # or we'll get the same numbers in both branches if ( $^O !~ /MSWin32/ ) { require POSIX; POSIX::setsid() or croak "Can't start a new session: $!"; } $self->run(@_); # should never return exit; # just to be sure } =head2 run [ARGUMENTS] Run the server. If all goes well, this won't ever return, but it will start listening for C<HTTP> requests. Any arguments passed to this will be passed on to the underlying L<Net::Server> implementation, if one is used (see L</net_server>). =cut my $server_class_id = 0; use vars '$SERVER_SHOULD_RUN'; $SERVER_SHOULD_RUN = 1; sub run { my $self = shift; my $server = $self->net_server; local $SIG{CHLD} = 'IGNORE'; # reap child processes # $pkg is generated anew for each invocation to "run" # Just so we can use different net_server() implementations # in different runs. my $pkg = join '::', ref($self), "NetServer" . $server_class_id++; no strict 'refs'; *{"$pkg\::process_request"} = $self->_process_request; if ($server) { require join( '/', split /::/, $server ) . '.pm'; *{"$pkg\::ISA"} = [$server]; # clear the environment before every request require HTTP::Server::Simple::CGI; *{"$pkg\::post_accept"} = sub { HTTP::Server::Simple::CGI::Environment->setup_environment; # $self->SUPER::post_accept uses the wrong super package $server->can('post_accept')->(@_); }; } else { $self->setup_listener; $self->after_setup_listener(); *{"$pkg\::run"} = $self->_default_run; } local $SIG{HUP} = sub { $SERVER_SHOULD_RUN = 0; }; $pkg->run( port => $self->port, @_ ); } =head2 net_server User-overridable method. If you set it to a L<Net::Server> subclass, that subclass is used for the C<run> method. Otherwise, a minimal implementation is used as default. =cut sub net_server {undef} sub _default_run { my $self = shift; # Default "run" closure method for a stub, minimal Net::Server instance. return sub { my $pkg = shift; $self->print_banner; while ($SERVER_SHOULD_RUN) { local $SIG{PIPE} = 'IGNORE'; # If we don't ignore SIGPIPE, a # client closing the connection before we # finish sending will cause the server to exit while ( accept( my $remote = new FileHandle, HTTPDaemon ) ) { $self->stdio_handle($remote); $self->lookup_localhost() unless ($self->host); $self->accept_hook if $self->can("accept_hook"); *STDIN = $self->stdin_handle(); *STDOUT = $self->stdout_handle(); select STDOUT; # required for HTTP::Server::Simple::Recorder # XXX TODO glasser: why? $pkg->process_request; close $remote; } } # Got here? Time to restart, due to SIGHUP $self->restart; }; } =head2 restart Restarts the server. Usually called by a HUP signal, not directly. =cut sub restart { my $self = shift; close HTTPDaemon; $SIG{CHLD} = 'DEFAULT'; wait; ### if the standalone server was invoked with perl -I .. we will loose ### those include dirs upon re-exec. So add them to PERL5LIB, so they ### are available again for the exec'ed process --kane use Config; $ENV{PERL5LIB} .= join $Config{path_sep}, @INC; # Server simple # do the exec. if $0 is not executable, try running it with $^X. exec {$0}( ( ( -x $0 ) ? () : ($^X) ), $0, @ARGV ); } sub _process_request { my $self = shift; # Create a callback closure that is invoked for each incoming request; # the $self above is bound into the closure. sub { $self->stdio_handle(*STDIN) unless $self->stdio_handle; # Default to unencoded, raw data out. # if you're sending utf8 and latin1 data mixed, you may need to override this binmode STDIN, ':raw'; binmode STDOUT, ':raw'; # The ternary operator below is to protect against a crash caused by IE # Ported from Catalyst::Engine::HTTP (Originally by Jasper Krogh and Peter Edwards) # ( http://dev.catalyst.perl.org/changeset/5195, 5221 ) my $remote_sockaddr = getpeername( $self->stdio_handle ); my ( $iport, $iaddr ) = $remote_sockaddr ? sockaddr_in($remote_sockaddr) : (undef,undef); my $peeraddr = $iaddr ? ( inet_ntoa($iaddr) || "127.0.0.1" ) : '127.0.0.1'; my ( $method, $request_uri, $proto ) = $self->parse_request; unless ($self->valid_http_method($method) ) { $self->bad_request; return; } $proto ||= "HTTP/0.9"; my ( $file, $query_string ) = ( $request_uri =~ /([^?]*)(?:\?(.*))?/s ); # split at ? $self->setup( method => $method, protocol => $proto, query_string => ( defined($query_string) ? $query_string : '' ), request_uri => $request_uri, path => $file, localname => $self->host, localport => $self->port, peername => $peeraddr, peeraddr => $peeraddr, peerport => $iport, ); # HTTP/0.9 didn't have any headers (I think) if ( $proto =~ m{HTTP/(\d(\.\d)?)$} and $1 >= 1 ) { my $headers = $self->parse_headers or do { $self->bad_request; return }; $self->headers($headers); } $self->post_setup_hook if $self->can("post_setup_hook"); $self->handler; } } =head2 stdio_handle [FILEHANDLE] When called with an argument, sets the socket to the server to that arg. Returns the socket to the server; you should only use this for actual socket-related calls like C<getsockname>. If all you want is to read or write to the socket, you should use C<stdin_handle> and C<stdout_handle> to get the in and out filehandles explicitly. =cut sub stdio_handle { my $self = shift; $self->{'_stdio_handle'} = shift if (@_); return $self->{'_stdio_handle'}; } =head2 stdin_handle Returns a filehandle used for input from the client. By default, returns whatever was set with C<stdio_handle>, but a subclass could do something interesting here. =cut sub stdin_handle { my $self = shift; return $self->stdio_handle; } =head2 stdout_handle Returns a filehandle used for output to the client. By default, returns whatever was set with C<stdio_handle>, but a subclass could do something interesting here. =cut sub stdout_handle { my $self = shift; return $self->stdio_handle; } =head1 IMPORTANT SUB-CLASS METHODS A selection of these methods should be provided by sub-classes of this module. =head2 handler This method is called after setup, with no parameters. It should print a valid, I<full> HTTP response to the default selected filehandle. =cut sub handler { my ($self) = @_; if ( ref($self) ne __PACKAGE__ ) { croak "do not call " . ref($self) . "::SUPER->handler"; } else { croak "handler called out of context"; } } =head2 setup(name =E<gt> $value, ...) This method is called with a name =E<gt> value list of various things to do with the request. This list is given below. The default setup handler simply tries to call methods with the names of keys of this list. ITEM/METHOD Set to Example ----------- ------------------ ------------------------ method Request Method "GET", "POST", "HEAD" protocol HTTP version "HTTP/1.1" request_uri Complete Request URI "/foobar/baz?foo=bar" path Path part of URI "/foobar/baz" query_string Query String undef, "foo=bar" port Received Port 80, 8080 peername Remote name "200.2.4.5", "foo.com" peeraddr Remote address "200.2.4.5", "::1" peerport Remote port 42424 localname Local interface "localhost", "myhost.com" =cut sub setup { my $self = shift; while ( my ( $item, $value ) = splice @_, 0, 2 ) { $self->$item($value) if $self->can($item); } } =head2 headers([Header =E<gt> $value, ...]) Receives HTTP headers and does something useful with them. This is called by the default C<setup()> method. You have lots of options when it comes to how you receive headers. You can, if you really want, define C<parse_headers()> and parse them raw yourself. Secondly, you can intercept them very slightly cooked via the C<setup()> method, above. Thirdly, you can leave the C<setup()> header as-is (or calling the superclass C<setup()> for unknown request items). Then you can define C<headers()> in your sub-class and receive them all at once. Finally, you can define handlers to receive individual HTTP headers. This can be useful for very simple SOAP servers (to name a crack-fueled standard that defines its own special HTTP headers). To do so, you'll want to define the C<header()> method in your subclass. That method will be handed a (key,value) pair of the header name and the value. =cut sub headers { my $self = shift; my $headers = shift; my $can_header = $self->can("header"); return unless $can_header; while ( my ( $header, $value ) = splice @$headers, 0, 2 ) { $self->header( $header => $value ); } } =head2 accept_hook If defined by a sub-class, this method is called directly after an accept happens. An accept_hook to add SSL support might look like this: sub accept_hook { my $self = shift; my $fh = $self->stdio_handle; $self->SUPER::accept_hook(@_); my $newfh = IO::Socket::SSL->start_SSL( $fh, SSL_server => 1, SSL_use_cert => 1, SSL_cert_file => 'myserver.crt', SSL_key_file => 'myserver.key', ) or warn "problem setting up SSL socket: " . IO::Socket::SSL::errstr(); $self->stdio_handle($newfh) if $newfh; } =head2 post_setup_hook If defined by a sub-class, this method is called after all setup has finished, before the handler method. =head2 print_banner This routine prints a banner before the server request-handling loop starts. Methods below this point are probably not terribly useful to define yourself in subclasses. =cut sub print_banner { my $self = shift; print( ref($self) . ": You can connect to your server at " . "http://localhost:" . $self->port . "/\n" ); } =head2 parse_request Parse the HTTP request line. Returns three values, the request method, request URI and the protocol. =cut sub parse_request { my $self = shift; my $chunk; while ( sysread( STDIN, my $buff, 1 ) ) { last if $buff eq "\n"; $chunk .= $buff; } defined($chunk) or return undef; $_ = $chunk; m/^(\w+)\s+(\S+)(?:\s+(\S+))?\r?$/; my $method = $1 || ''; my $uri = $2 || ''; my $protocol = $3 || ''; return ( $method, $uri, $protocol ); } =head2 parse_headers Parses incoming HTTP headers from STDIN, and returns an arrayref of C<(header =E<gt> value)> pairs. See L</headers> for possibilities on how to inspect headers. =cut sub parse_headers { my $self = shift; my @headers; my $chunk = ''; while ( sysread( STDIN, my $buff, 1 ) ) { if ( $buff eq "\n" ) { $chunk =~ s/[\r\l\n\s]+$//; if ( $chunk =~ /^([^()<>\@,;:\\"\/\[\]?={} \t]+):\s*(.*)/i ) { push @headers, $1 => $2; } last if ( $chunk =~ /^$/ ); $chunk = ''; } else { $chunk .= $buff } } return ( \@headers ); } =head2 setup_listener This routine binds the server to a port and interface. =cut sub setup_listener { my $self = shift; my $tcp = getprotobyname('tcp'); socket( HTTPDaemon, PF_INET, SOCK_STREAM, $tcp ) or croak "socket: $!"; setsockopt( HTTPDaemon, SOL_SOCKET, SO_REUSEADDR, pack( "l", 1 ) ) or warn "setsockopt: $!"; bind( HTTPDaemon, sockaddr_in( $self->port(), ( $self->host ? inet_aton( $self->host ) : INADDR_ANY ) ) ) or croak "bind to @{[$self->host||'*']}:@{[$self->port]}: $!"; listen( HTTPDaemon, SOMAXCONN ) or croak "listen: $!"; } =head2 after_setup_listener This method is called immediately after setup_listener. It's here just for you to override. =cut sub after_setup_listener { } =head2 bad_request This method should print a valid HTTP response that says that the request was invalid. =cut $bad_request_doc = join "", <DATA>; sub bad_request { my $self = shift; print "HTTP/1.0 400 Bad request\r\n"; # probably OK by now print "Content-Type: text/html\r\nContent-Length: ", length($bad_request_doc), "\r\n\r\n", $bad_request_doc; } =head2 valid_http_method($method) Given a candidate HTTP method in $method, determine if it is valid. Override if, for example, you'd like to do some WebDAV. The default implementation only accepts C<GET>, C<POST>, C<HEAD>, C<PUT>, and C<DELETE>. =cut sub valid_http_method { my $self = shift; my $method = shift or return 0; return $method =~ /^(?:GET|POST|HEAD|PUT|DELETE)$/; } =head1 AUTHOR Copyright (c) 2004-2008 Jesse Vincent, <jesse@bestpractical.com>. All rights reserved. Marcus Ramberg <drave@thefeed.no> contributed tests, cleanup, etc Sam Vilain, <samv@cpan.org> contributed the CGI.pm split-out and header/setup API. Example section by almut on perlmonks, suggested by Mark Fuller. =head1 BUGS There certainly are some. Please report them via rt.cpan.org =head1 LICENSE This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut 1; __DATA__ <html> <head> <title>Bad Request</title> </head> <body> <h1>Bad Request</h1> <p>Your browser sent a request which this web server could not grok.</p> </body> </html>
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