#!/usr/bin/perl # #my $intro = "\nperlproxy15 - implementasi komplit proxy HTTP/1.1 ". "[model select non-blocking low-buffering]"; print "$intro\n"; # #my $author="Copyright (c) 2000 Dody Suria Wijaya"; print "$author\n\n"; # Not yet implemented: # 1. count time-out for persistent connection # 4. enable low-buffering transfer for chunked body # 5. Access list # 6. Advertisements blocking use strict; use IO::Socket; use IO::Select; use POSIX qw(F_SETFL O_NONBLOCK EAGAIN EPIPE); use vars qw/$opt_d $opt_o $opt_p %st %debug/; ## uncomment below to get reliable localhost name (but memory consuming) #use Sys::Hostname; my $hostname = hostname(); #my $MYIP = gethostbyname($hostname) or die "Couldn't resolve $hostname: $!"; #$MYIP = inet_ntoa($MYIP); my $MYIP = `uname -n`; $MYIP =~ s/\n//; use Getopt::Std; #d = debug, p = next hop proxy address:port, o = this proxy port getopts('dp:o:'); # declare global var my $VERSION = "1.5.2"; my $sl_read = new IO::Select; my $sl_write = new IO::Select; my $port = $opt_o? $opt_o : 8888; my $proxy = $opt_p if defined $opt_p; my $viastring = "1.1 legalif proxymultiplekser"; my %reason = (500=>'Internal Server Error',501=>'Not Implemented',502=>'Bad Gateway', 503=>'Service Unavailable',504=>'Gateway Timeout', 505=>'HTTP Version Not Supported',400=>'Bad Request'); my @sensors = qw/sex xxx porno cewek/; my @sensors2 = qw/norak kampung linux client server proxy basic/; # maximum non-blocking sysread/syswrite iteration per client per request # low for high reaction but slow passing, high for potentially low reaction but faster passing my $max_iter = 3; my $aut = 0; # set 1 to enable authentication my $aut_cre = "dody:rahasia"; #username password for proxy authentication my $max_buffering = 1024*128; #maximum length of data read/write for each iteration my $html_filter = 0; # enable (1) for substituting html body message text my $non_block = 1; # just for testing, should not be changed from (1) # declare subroutine prototype sub debug ($$;$); sub quickresp ($$$); sub decode_b64 ($); sub clientclose ($); sub serverclose ($); sub showcommand ($); sub htmlfilter ($); # trap sigpipe (generated when reading/writing already closed socket) $SIG{'PIPE'} = 'IGNORE'; # creating listening socket my $mainsocket = new IO::Socket::INET (LocalHost=>$MYIP,LocalPort=>$port,Proto=>'tcp', Listen=>10,Reuse=>1) or die $!; print "Socket created at $MYIP:$port\n"; undef $MYIP; $sl_read->add($mainsocket); $sl_read->add(\*STDIN); # main loop, other client must wait until operation has return to select MAINLOOP: while (1) { #main loop # blocks here until something on the end of the connection my ($aref_read, $aref_write) = IO::Select->select($sl_read,$sl_write,undef); READ_FHS: foreach my $sck (@$aref_read) { # serve readable handles if ($sck == $mainsocket) { # request to connect from client my $sock = $sck->accept(); fcntl $sock, F_SETFL(), O_NONBLOCK() if $non_block; # make it non-blocking $st{$sock}{peerhost} = join "", $sock->peerhost(), ":", $sock->peerport(); debug localtime(time)." - Session debugging for Client ($st{$sock}{peerhost})",$sock; debug "#select# => main socket readable",$sock,1; debug "Accepting connection from Client $st{$sock}{peerhost}...", $sock; $sl_read->add($sock); # set default var $st{$sock}{tipe} = 1; # 1 is Client connection $st{$sock}{mark} = 1; # socket has not been read/write $st{$sock}{persist} = 1; # connection persistance default to on } elsif($sck == \*STDIN) { showcommand $sck; } elsif ($st{$sck}{tipe} == 1) { # Client bisa dibaca debug "#select# => Client readable",$sck,1; my $buffer; while (1) { my $byte_read = sysread $sck, $buffer, $max_buffering; if (defined $byte_read) { debug "Client->Proxy ($byte_read bytes)",$sck; if ($byte_read == 0) { # remote client/server just closed the connection? debug "Client closed the connection",$sck; clientclose $sck; next READ_FHS; } else { $st{$sck}{req} .= $buffer; } } elsif ($! == EAGAIN()) { # socket buffer empty debug "Client too slow, skipping... (non-blocking)",$sck; last; } else { # anything elses... debug "Client connection error",$sck; clientclose $sck; next READ_FHS; } } debug "Parsing header...", $sck; if ($st{$sck}{mark} == 1) { # get request line while (1) { # skip crlf before start-line unless ($st{$sck}{req} =~ s/^([^\r]*\r\n)//) { debug "Client send partial request line header...getting some more", $sck; next READ_FHS; } $buffer = $1; $st{$sck}{req_orig} .= $buffer; last if $buffer ne "\r\n"; } # parse request start-line if ($buffer =~ /^(\w+)\s+([^\s]+)\s+([^\s]+)/) { $st{$sck}{metode} = $1; $st{$sck}{uri} = $2; $st{$sck}{versi} = $3; $st{$sck}{persist} = 0 if $3 ne "HTTP/1.1"; $st{$sck}{uri} =~ m|^((\w*)://)?(.*?)(:(\d*))?(/.*)?$|; $st{$sck}{uri_scheme} = $2; $st{$sck}{uri_hostname} = $3; $st{$sck}{uri_port} = $5 ? $5 : "80"; $st{$sck}{uri_abspath} = $6 ? $6 : "/"; } else { quickresp 400, "Bad Request Start-line: $buffer", $sck; $st{$sck}{persist} = 0; next READ_FHS; } if ($st{$sck}{uri_hostname} eq "!config") { # pure GNU, anyone may see the source code my $haha = `cat $0`; $haha =~ s//</g; quickresp 200,"Here's the source code of this program:\n
$haha
",$sck; $st{$sck}{persist} = 0; next READ_FHS; } if ($st{$sck}{uri_hostname} eq "") { quickresp 400,"You need to give absolute URI",$sck; $st{$sck}{persist} = 0; next READ_FHS; } for my $word (@sensors) { # access rule by URI if ( $st{$sck}{uri} =~ /$word/i) { quickresp 400,"Access blocked by URI ($st{$sck}{uri})",$sck; next READ_FHS; } } # build request line using URI rule $st{$sck}{req_line} = join "", $st{$sck}{metode}," ", $proxy ? $st{$sck}{uri} : $st{$sck}{uri_abspath}, " ", "HTTP/1.1\r\n"; $st{$sck}{mark} = 2; } if ($st{$sck}{mark} == 2) { # get request field header while (1) { unless ($st{$sck}{req} =~ s/^([^\r]*\r\n)//) { debug "Client send partial field header...getting some more", $sck; next READ_FHS; } $buffer = $1; last if $buffer eq "\r\n"; $st{$sck}{req_orig} .= $buffer; # removing request field-line next if $buffer =~ /^Connection:/i; next if $buffer =~ /^Proxy-Connection:/i; $st{$sck}{req_fields} .= $buffer; } $st{$sck}{req_fields}||=""; # Virtual host rule if ($st{$sck}{req_fields} !~ /^Host:/im) { $st{$sck}{req_fields} .= "Host: $st{$sck}{uri_hostname}:$st{$sck}{uri_port}\r\n"; } # Persistent connection rule if ($st{$sck}{versi} ne "HTTP/1.1" or $st{$sck}{req_orig} =~ /^Connection:\s*close/im ) { $st{$sck}{persist} = 0; # disable koneksi persistent } # Proxy authentication rule if ( $aut and ( $st{$sck}{req_fields} !~ /^Proxy-Authorization:\s*(\S*)\s*(\S*)/im or decode_b64($2) ne $aut_cre)) { $st{$sck}{resp} = "HTTP/1.1 407 Proxy Authorization\r\nProxy-Authenticate: Basic realm=\"legalif/11\"\r\nVia: $viastring\r\nConnection: close\r\n\r\n"; $st{$sck}{resp_len} = length $st{$sck}{resp}; $sl_read->remove($sck); $sl_write->add($sck); next READ_FHS; } # OPTIONS method rule if ( $st{$sck}{metode} eq "OPTIONS" and ( $st{$sck}{uri} eq "*" or $st{$sck}{req_fields} =~ /^Max-Forwards:\s*0/im)) { $st{$sck}{resp} = "HTTP/1.1 200 OK\r\nAllow: GET, HEAD, POST, PUT, OPTION, TRACE\r\nVia: $viastring\r\nConnection: close\r\nContent-Length: 0\r\n\r\n"; $st{$sck}{resp_len} = length $st{$sck}{resp}; $sl_read->remove($sck); $sl_write->add($sck); next READ_FHS; } # TRACE method rule if ( $st{$sck}{metode} eq "TRACE" and ( $st{$sck}{uri} eq "*" or $st{$sck}{req_fields} =~ m/^Max-Forwards:\s*0/im)) { my $len = length $st{$sck}{req_orig}; $st{$sck}{resp} = "HTTP/1.1 200 OK\r\nContent-Type: message/http\r\nVia: $viastring\r\nConnection: close\r\nContent-Length: $len\r\n\r\n$st{$sck}{req_orig}"; delete $st{$sck}{req_orig}; $st{$sck}{resp_len} = length $st{$sck}{resp}; $sl_read->remove($sck); $sl_write->add($sck); next READ_FHS; } delete $st{$sck}{req_orig}; # add new request fields $st{$sck}{req_fields} .= "Via: $viastring\r\nConnection: close\r\n"; # POST and PUT method handler if ( ($st{$sck}{metode} eq "POST" or $st{$sck}{metode} eq "PUT") and $st{$sck}{req_fields} =~ m/^Content-Length:\s*(\S*)/im ) { $st{$sck}{req_bodylen} = $1; } $st{$sck}{mark} = 3; } if ($st{$sck}{mark} == 3) { # finale phase if (defined $st{$sck}{req_bodylen}) { # get body client (if available) if ($st{$sck}{req_bodylen} > length($st{$sck}{req})) { debug "Client send partial body...getting some more",$sck; next READ_FHS; } } debug "Request message complete",$sck; debug "Connecting to Server ($st{$sck}{uri_hostname}:$st{$sck}{uri_port})",$sck; $st{$sck}{req} = join "", $st{$sck}{req_line}, $st{$sck}{req_fields}, "\r\n", $st{$sck}{req}; $st{$sck}{req_len} = length $st{$sck}{req}; $st{$sck}{req_offset} = 0; delete $st{$sck}{req_line}; delete $st{$sck}{req_fields}; my $sck2; if ($proxy) { $sck2 = new IO::Socket::INET (PeerAddr => $proxy, Proto => 'tcp'); } else { $sck2 = new IO::Socket::INET (PeerAddr => $st{$sck}{uri_hostname}, PeerPort => $st{$sck}{uri_port}, Proto => 'tcp'); } if ($sck2) { fcntl $sck2, F_SETFL(), O_NONBLOCK() if $non_block; # non-block-kan # prepare select to write Server $sl_read->remove($sck); $sl_write->add($sck2); $st{$sck2}{ch} = $sck; $st{$sck}{ch} = $sck2; #exchange socket name $st{$sck2}{tipe} = 2; # 2 is Server connection $st{$sck2}{peerhost} = "$st{$sck}{uri_hostname}:$st{$sck}{uri_port}"; $st{$sck}{mark} = 1; debug "Connected to Server",$sck; } else { $@ =~ /INET:(.*)$/; debug "Connecting to Server error: $1",$sck; quickresp 502, $1, $sck; next READ_FHS; } } } elsif ($st{$sck}{tipe} == 2) { # Server is ready to read debug "#select# => Server readable",$sck,1; # let's read Server until Server closes the connection my $buffer; my $index = 0; my $byte_read; while (1) { ++$index; if ($index > $max_iter) { debug "$max_iter iteration reached...going to next task",$sck; last; } $byte_read = sysread $sck, $buffer, $max_buffering; if (defined $byte_read) { if ($byte_read == 0) { # Server just closed the connection. This may be the result of 2 options: # 1. Message has been transmitted fully, or # 2. Some part of the message has been transmitted. # For now, let's assume that the server transmission is reliable (option 1) debug "Server closed the connection (end of response message)",$sck; last; } debug "Server->Proxy ($byte_read bytes)",$sck; $st{$st{$sck}{ch}}{resp} .= $buffer; $st{$st{$sck}{ch}}{resp_len} += $byte_read; } elsif ($! == EAGAIN()) { #socket buffer empty debug "Server is too slow, skipping... (non-blocking)",$sck; last; } else { # if anything else, cleanup server connection, tell client about it, and cleanup client too debug "Server connection error",$sck; quickresp 502,"Connection to server broke when reading", $sck; serverclose $sck; next READ_FHS; } } $st{$sck}{mark} ||= 1; if ($st{$sck}{mark} == 1) { debug "Parsing header...", $sck; while (1) { # skip crlf before start-line unless ($st{$st{$sck}{ch}}{resp} =~ s/^([^\r]*\r\n)//) { clientclose $sck if $byte_read == 0; next READ_FHS; } $buffer = $1; last if $buffer ne "\r\n"; } $st{$st{$sck}{ch}}{resp_line} = $buffer; $st{$sck}{mark} = 2; } if ($st{$sck}{mark} == 2) { debug "Parsing header...", $sck; while (1) { # loop for picking each field-line unless ($st{$st{$sck}{ch}}{resp} =~ s/^([^\r]*\r\n)//) { clientclose $sck if $byte_read == 0; next READ_FHS; } $buffer = $1; last if $buffer eq "\r\n"; next if $buffer =~ /^Connection:/im; # Remove connection field # chunked to normal rule if ($buffer =~ /^Transfer-Encoding:\s*chunked/im and $st{$st{$sck}{ch}}{versi} ne "HTTP/1.1") { $st{$sck}{chunked} = ""; next; } $st{$st{$sck}{ch}}{resp_fields} .= $buffer; } # add new response fields $st{$st{$sck}{ch}}{resp_fields} .= "Via: $viastring\r\n"; $st{$st{$sck}{ch}}{resp_fields} .= "Connection: close\r\n" if ($st{$st{$sck}{ch}}{persist} == 0); if (!defined $st{$sck}{chunked}) { $st{$st{$sck}{ch}}{resp} = join "", $st{$st{$sck}{ch}}{resp_line}, $st{$st{$sck}{ch}}{resp_fields}, "\r\n", $st{$st{$sck}{ch}}{resp}; $st{$st{$sck}{ch}}{resp_len} = length $st{$st{$sck}{ch}}{resp}; } else { debug "Response body is chunked, disabling fast-passing....decoding... ", $sck; } $st{$sck}{mark} = 3; } if ($st{$sck}{mark} == 3) { # fase 3 is action after parsing the header if (defined $st{$sck}{chunked}) { #chunked to body rule unless (defined($byte_read) and $byte_read == 0) { # FORCE GETTING ALL DATA FIRST debug "Partial body detected...getting more to select",$sck; next READ_FHS; } if ($st{$st{$sck}{ch}}{resp} =~ s/^\W*(\w*)\W*\r\n//) { $st{$sck}{chunked} = hex $1; } else { #something wrong with the chunked body debug "Error decoding chunked...closing connection",$sck; quickresp 502,"Error decoding chunked body", $sck; serverclose $sck; next READ_FHS; } while ($st{$sck}{chunked} > 0) { $st{$sck}{chunked_buff} .= substr( $st{$st{$sck}{ch}}{resp}, 0, $st{$sck}{chunked}); $st{$st{$sck}{ch}}{resp} = substr( $st{$st{$sck}{ch}}{resp}, $st{$sck}{chunked}+2); if ($st{$st{$sck}{ch}}{resp} =~ s/^\W*(\w*)\W*\r\n//) { $st{$sck}{chunked} = hex $1; } else { #something wrong with the chunked body debug "Error decoding chunked",$sck; quickresp 502,"Error decoding chunked body",$sck; serverclose $sck; next READ_FHS; } } # html filter if ($html_filter and $st{$st{$sck}{ch}}{resp_fields} =~ m|^Content-Type:\s*text/html|im) { debug "Filtering HTML...", $sck; htmlfilter \$st{$sck}{chunked_buff}; } $st{$st{$sck}{ch}}{resp_fields} .= join "", "Content-Length: ", length($st{$sck}{chunked_buff}), "\r\n"; $st{$st{$sck}{ch}}{resp} = join "",$st{$st{$sck}{ch}}{resp_line}, $st{$st{$sck}{ch}}{resp_fields}, "\r\n", $st{$sck}{chunked_buff}; delete $st{$sck}{chunked_buff}; $st{$st{$sck}{ch}}{resp_len} = length $st{$st{$sck}{ch}}{resp}; $st{$st{$sck}{ch}}{resp_offset} = 0; $sl_write->add($st{$sck}{ch}); serverclose $sck; } elsif (defined($byte_read) and $byte_read == 0) { # No more data from server $st{$st{$sck}{ch}}{resp_offset} = 0; if ($html_filter and $st{$st{$sck}{ch}}{resp_fields} =~ m|^Content-Type:\s*text/html|im) { debug "Filtering HTML2...", $sck; htmlfilter \$st{$st{$sck}{ch}}{resp}; } # prepare select to write client $sl_write->add($st{$sck}{ch}); serverclose $sck; } else { # header is sent but there're still data if ($html_filter and $st{$st{$sck}{ch}}{resp_fields} =~ m|^Content-Type:\s*text/html|im) { # html filter debug "Filtering HTML2...", $sck; htmlfilter \$st{$st{$sck}{ch}}{resp}; } # Fast passing method # prepare select to write Client $sl_read->remove($sck); $sl_write->add($st{$sck}{ch}); $st{$st{$sck}{ch}}{resp_offset} = 0; debug "Fast-Passing to Client", $sck; } } } } WRITE_FHS: for my $sck (@$aref_write) { # let's server writable handles if ($st{$sck}{tipe} == 2) { # Server is ready to write debug "#select# => Server writeable",$sck,1; my $index = 0; my $byte_written; while (1) { last if $st{$st{$sck}{ch}}{req_len} <= 0; ++$index; if ($index > $max_iter) { debug "$max_iter iteration reached, switching task",$sck; next WRITE_FHS; } $byte_written = syswrite $sck, $st{$st{$sck}{ch}}{req}, $st{$st{$sck}{ch}}{req_len}, $st{$st{$sck}{ch}}{req_offset}; if (defined $byte_written ) { if ($byte_written == 0) { # remote client/server just closed the connection debug "Server closed then connection when sending to Server",$sck; quickresp 502,"Connection to server broke when writing", $sck; serverclose $sck; next WRITE_FHS; } debug "Proxy->Server ($byte_written bytes)",$sck; $st{$st{$sck}{ch}}{req_len} -= $byte_written; $st{$st{$sck}{ch}}{req_offset} += $byte_written; } elsif ($! == EAGAIN()) { #server overloaded, return later to finish sending request debug "Server overloaded, skipping... (non-blocking)",$sck; next WRITE_FHS; #this loop } else { # Something weird happens debug "Server connection error when sending to Server",$sck; quickresp 502,"Connection to server broke when writing",$sck; serverclose $sck; next WRITE_FHS; } } #prepare select to read srver $sl_write->remove($sck); $sl_read->add($sck); } elsif ($st{$sck}{tipe} == 1) { #Client is ready to write debug "#select# => Client writeable",$sck,1; my $index = 0; my $byte_written; $st{$sck}{resp_offset} ||= 0; # give default value while (1) { ++$index; if ($index > $max_iter) { debug "$max_iter iteration reached...going to next task",$sck; next WRITE_FHS; } if ($st{$sck}{resp_len} <= 0) { # if finish writing data, get some more from server # if server connection is dead, let's assume no more data from server last if (!defined $st{$sck}{ch}) or (!defined $st{$st{$sck}{ch}}); # # prepare select to read server $sl_write->remove($sck); $sl_read->add($st{$sck}{ch}); # reset these var $st{$sck}{resp} = ""; $st{$sck}{resp_len} = 0; next WRITE_FHS; } $byte_written = syswrite $sck, $st{$sck}{resp}, $st{$sck}{resp_len}, $st{$sck}{resp_offset}; if (defined $byte_written ) { debug "Proxy->Client ($byte_written bytes)",$sck; $st{$sck}{resp_len} -= $byte_written; $st{$sck}{resp_offset} += $byte_written; if ($byte_written == 0) { #client closes its connection debug "Client closed the connection",$sck; clientclose $sck; next WRITE_FHS; } } elsif ($! == EAGAIN()) { #client overloaded, return later to finish sending request debug "Client overloaded, skipping... (non-blocking)",$sck; next WRITE_FHS; } elsif ($! == EPIPE()) { #client connection has disappeared! debug "Client connection abruptly closed",$sck; clientclose $sck; next WRITE_FHS; } else { # something else happens debug "Client connection error",$sck; clientclose $sck; next WRITE_FHS; } } # Client writing finished. $sl_write->remove($sck); # nothing to write if ($st{$sck}{persist}) { debug "Persistent on, waiting more request from Client",$sck; delete $st{$sck}; #remove all request/response dependent variables # ..but keep this var $st{$sck}{tipe} = 1; $sl_read->add($sck); $st{$sck}{peerhost} = join "", $sck->peerhost(), ":", $sck->peerport(); # reset session var to default $st{$sck}{mark} = 1; $st{$sck}{persist} = 1; } else { debug "Pesistent is off",$sck; clientclose $sck; } } } } sub quickresp ($$$) { # generate response message for some errors my ($code, $body, $socket) = @_; my $nowis = localtime(time); debug "Error: $code $body", $socket; $sl_read->remove($socket); $sl_write->remove($socket); # remove both just to make sure $socket = $st{$socket}{ch} if $st{$socket}{tipe} == 2; # if server use this subroutine $st{$socket}{resp} = < $code $reason{$code}

$code $reason{$code}

$body

Message generated at $nowis

proxymultiplexer12 by Dody Suria Wijaya - dody\@neuk.net

STOP $st{$socket}{resp_len} = length $st{$socket}{resp}; $sl_write->add($socket); return 1; } sub debug($$;$) { # argumens are message text, socket, and indents (optional) return unless $opt_d; my $message = shift; my $socket = shift; my $indent = shift; $indent||=10; $socket = $st{$socket}{ch} if $st{$socket}{tipe} == 2; # if this subroutine argument socket is a server socket if (defined $debug{$socket}) { $message = " "x$indent.$message; } else { my $line = "=" x length $message; $message = "$line\n$message\n$line"; } $debug{$socket} .= $message."\n"; return 1; } sub serverclose ($) { #argumen is ref to server connection my $sck = shift; debug "Closing Server connection...", $sck; $sl_read->remove($sck); $sl_write->remove($sck); delete $st{$sck}; close $sck; } sub clientclose($) { #argumen is ref to client connection my $sck = shift; serverclose $st{$sck}{ch} if defined $st{$st{$sck}{ch}}; debug "Closing Client connection...", $sck; print $debug{$sck}; delete $debug{$sck}; $sl_read->remove($sck); $sl_write->remove($sck); delete $st{$sck}; close $sck; return 1; } sub decode_b64 ($) { # taken from MIME::Base64 my $str = shift; my $res = ""; $str =~ tr|A-Za-z0-9+=/||cd; # remove non-base64 chars return if (length($str) % 4); $str =~ s/=+$//; # remove padding $str =~ tr|A-Za-z0-9+/| -_|; # convert to uuencoded format while ($str =~ /(.{1,60})/gs) { my $len = chr(32 + length($1)*3/4); # compute length byte $res .= unpack("u", $len . $1 ); # uudecode } return $res; } sub htmlfilter ($) { #argumen is reference to string my $ref_body = shift; for my $word (@sensors2) { $$ref_body =~ s|($word)|$1|ig; } return 1; } sub showcommand ($) { my $sck = shift; my $buffer; my $byte_read = sysread $sck, $buffer, $max_buffering; chomp $buffer; if ($buffer eq "h") { print <handles) { if ($hd == $mainsocket) { print " main socket\n"; } elsif (defined $st{$hd}) { print " $st{$hd}{peerhost}\n"; } } } elsif ($buffer eq "w") { for my $hd ($sl_write->handles) { if (defined $st{$hd}) { print " $st{$hd}{peerhost}\n"; } } } elsif ($buffer eq "q") { print "Have a nice day...\n"; exit; } elsif ($buffer eq "d") { $opt_d = $opt_d? 0: 1; print "debugging: $opt_d\n"; } elsif ($buffer eq "s") { } elsif ($buffer eq "n") { $non_block = $non_block? 0: 1; print "non-blocking: $non_block\n"; } return 1; } __END__ =head1 NAME httpproxy - complete HTTP/1.1 proxy implementation =head1 SYNOPSIS httpproxy [-d] [-p] [-o] =head1 DESCRIPTION Httpproxy is an implementation of HTTP/1.1 proxy from RFC2618. It uses B