AlkantarClanX12
Current Path : /opt/alt/ruby18/lib64/ruby/1.8/net/ |
Current File : //opt/alt/ruby18/lib64/ruby/1.8/net/telnets.rb |
=begin = $RCSfile$ -- SSL/TLS enhancement for Net::Telnet. = Info 'OpenSSL for Ruby 2' project Copyright (C) 2001 GOTOU YUUZOU <gotoyuzo@notwork.org> All rights reserved. = Licence This program is licenced under the same licence as Ruby. (See the file 'LICENCE'.) = Version $Id: telnets.rb 13657 2007-10-08 11:16:54Z gotoyuzo $ 2001/11/06: Contiributed to Ruby/OpenSSL project. == class Net::Telnet This class will initiate SSL/TLS session automaticaly if the server sent OPT_STARTTLS. Some options are added for SSL/TLS. host = Net::Telnet::new({ "Host" => "localhost", "Port" => "telnets", ## follows are new options. 'CertFile' => "user.crt", 'KeyFile' => "user.key", 'CAFile' => "/some/where/certs/casert.pem", 'CAPath' => "/some/where/caserts", 'VerifyMode' => SSL::VERIFY_PEER, 'VerifyCallback' => verify_proc }) Or, the new options ('Cert', 'Key' and 'CACert') are available from Michal Rokos's OpenSSL module. cert_data = File.open("user.crt"){|io| io.read } pkey_data = File.open("user.key"){|io| io.read } cacert_data = File.open("your_ca.pem"){|io| io.read } host = Net::Telnet::new({ "Host" => "localhost", "Port" => "telnets", 'Cert' => OpenSSL::X509::Certificate.new(cert_data) 'Key' => OpenSSL::PKey::RSA.new(pkey_data) 'CACert' => OpenSSL::X509::Certificate.new(cacert_data) 'CAFile' => "/some/where/certs/casert.pem", 'CAPath' => "/some/where/caserts", 'VerifyMode' => SSL::VERIFY_PEER, 'VerifyCallback' => verify_proc }) This class is expected to be a superset of usual Net::Telnet. =end require "net/telnet" require "openssl" module Net class Telnet attr_reader :ssl OPT_STARTTLS = 46.chr # "\056" # "\x2e" # Start TLS TLS_FOLLOWS = 1.chr # "\001" # "\x01" # FOLLOWS (for STARTTLS) alias preprocess_orig preprocess def ssl?; @ssl; end def preprocess(string) # combine CR+NULL into CR string = string.gsub(/#{CR}#{NULL}/no, CR) if @options["Telnetmode"] # combine EOL into "\n" string = string.gsub(/#{EOL}/no, "\n") unless @options["Binmode"] string.gsub(/#{IAC}( [#{IAC}#{AO}#{AYT}#{DM}#{IP}#{NOP}]| [#{DO}#{DONT}#{WILL}#{WONT}][#{OPT_BINARY}-#{OPT_EXOPL}]| #{SB}[#{OPT_BINARY}-#{OPT_EXOPL}] (#{IAC}#{IAC}|[^#{IAC}])+#{IAC}#{SE} )/xno) do if IAC == $1 # handle escaped IAC characters IAC elsif AYT == $1 # respond to "IAC AYT" (are you there) self.write("nobody here but us pigeons" + EOL) '' elsif DO[0] == $1[0] # respond to "IAC DO x" if OPT_BINARY[0] == $1[1] @telnet_option["BINARY"] = true self.write(IAC + WILL + OPT_BINARY) elsif OPT_STARTTLS[0] == $1[1] self.write(IAC + WILL + OPT_STARTTLS) self.write(IAC + SB + OPT_STARTTLS + TLS_FOLLOWS + IAC + SE) else self.write(IAC + WONT + $1[1..1]) end '' elsif DONT[0] == $1[0] # respond to "IAC DON'T x" with "IAC WON'T x" self.write(IAC + WONT + $1[1..1]) '' elsif WILL[0] == $1[0] # respond to "IAC WILL x" if OPT_BINARY[0] == $1[1] self.write(IAC + DO + OPT_BINARY) elsif OPT_ECHO[0] == $1[1] self.write(IAC + DO + OPT_ECHO) elsif OPT_SGA[0] == $1[1] @telnet_option["SGA"] = true self.write(IAC + DO + OPT_SGA) else self.write(IAC + DONT + $1[1..1]) end '' elsif WONT[0] == $1[0] # respond to "IAC WON'T x" if OPT_ECHO[0] == $1[1] self.write(IAC + DONT + OPT_ECHO) elsif OPT_SGA[0] == $1[1] @telnet_option["SGA"] = false self.write(IAC + DONT + OPT_SGA) else self.write(IAC + DONT + $1[1..1]) end '' elsif SB[0] == $1[0] # respond to "IAC SB xxx IAC SE" if OPT_STARTTLS[0] == $1[1] && TLS_FOLLOWS[0] == $2[0] @sock = OpenSSL::SSL::SSLSocket.new(@sock) @sock.cert = @options['Cert'] unless @sock.cert @sock.key = @options['Key'] unless @sock.key @sock.ca_cert = @options['CACert'] @sock.ca_file = @options['CAFile'] @sock.ca_path = @options['CAPath'] @sock.timeout = @options['Timeout'] @sock.verify_mode = @options['VerifyMode'] @sock.verify_callback = @options['VerifyCallback'] @sock.verify_depth = @options['VerifyDepth'] @sock.connect if @options['VerifyMode'] != OpenSSL::SSL::VERIFY_NONE @sock.post_connection_check(@options['Host']) end @ssl = true end '' else '' end end end # preprocess alias waitfor_org waitfor def waitfor(options) time_out = @options["Timeout"] waittime = @options["Waittime"] if options.kind_of?(Hash) prompt = if options.has_key?("Match") options["Match"] elsif options.has_key?("Prompt") options["Prompt"] elsif options.has_key?("String") Regexp.new( Regexp.quote(options["String"]) ) end time_out = options["Timeout"] if options.has_key?("Timeout") waittime = options["Waittime"] if options.has_key?("Waittime") else prompt = options end if time_out == false time_out = nil end line = '' buf = '' @rest = '' unless @rest until(prompt === line and not IO::select([@sock], nil, nil, waittime)) unless IO::select([@sock], nil, nil, time_out) raise TimeoutError, "timed-out; wait for the next data" end begin c = @rest + @sock.sysread(1024 * 1024) @dumplog.log_dump('<', c) if @options.has_key?("Dump_log") if @options["Telnetmode"] pos = 0 catch(:next){ while true case c[pos] when IAC[0] case c[pos+1] when DO[0], DONT[0], WILL[0], WONT[0] throw :next unless c[pos+2] pos += 3 when SB[0] ret = detect_sub_negotiation(c, pos) throw :next unless ret pos = ret when nil throw :next else pos += 2 end when nil throw :next else pos += 1 end end } buf = preprocess(c[0...pos]) @rest = c[pos..-1] end @log.print(buf) if @options.has_key?("Output_log") line.concat(buf) yield buf if block_given? rescue EOFError # End of file reached if line == '' line = nil yield nil if block_given? end break end end line end private def detect_sub_negotiation(data, pos) return nil if data.length < pos+6 # IAC SB x param IAC SE pos += 3 while true case data[pos] when IAC[0] if data[pos+1] == SE[0] pos += 2 return pos else pos += 2 end when nil return nil else pos += 1 end end end end end