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Current File : //proc/2/root/usr/local/ssl/share/nmap/nselib/vnc.lua

---
-- The VNC library provides some basic functionality needed in order to
-- communicate with VNC servers, and derivates such as Tight- or Ultra-
-- VNC.
--
-- Summary
-- -------
-- The library currently supports the VNC Authentication security type only.
-- This security type is supported by default in VNC, TightVNC and 
-- "Remote Desktop Sharing" in eg. Ubuntu. For servers that do not support
-- this authentication security type the login method will fail. 
--
-- Overview
-- --------
-- The library contains the following classes:
-- 
--   o VNC
--		- This class contains the core functions needed to communicate with VNC
--
--	 o VNCSocket
--		- This is a copy of the DB2Socket class which provides fundamental buffering
--
--

-- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html
-- @author "Patrik Karlsson <patrik@cqure.net>"

-- Version 0.1

-- Created 07/07/2010 - v0.1 - created by Patrik Karlsson <patrik@cqure.net>

module(... or "vnc", package.seeall)
require "bin"

local HAVE_SSL = false

if pcall(require,'openssl') then
  HAVE_SSL = true
end

VNC = {

	-- We currently support version 3.8 of the protocol only
	versions = {
		["RFB 003.003\n"] = "3.3",
		["RFB 003.007\n"] = "3.7",
		["RFB 003.008\n"] = "3.8",

		-- Mac Screen Sharing, could probably be used to fingerprint OS
		["RFB 003.889\n"] = "3.889",
	},
	
	sectypes = {
		INVALID = 0,
		NONE = 1,
		VNCAUTH = 2,
		RA2 = 5,
		RA2NE = 6,
		TIGHT = 16,
		ULTRA = 17,
		TNS = 18,
		VENCRYPT = 19,
		GTK_VNC_SASL = 20,
		MD5 = 21,
		COLIN_DEAN_XVP = 22,
		MAC_OSX_SECTYPE_30 = 30,
		MAC_OSX_SECTYPE_35 = 35,
	},
	
	-- Security types are fetched from the rfbproto.pdf
	sectypes_str = {
		[0] = "Invalid security type",
		[1] = "None",
		[2] = "VNC Authentication",
		[5] = "RA2",
		[6] = "RA2ne",
		[16]= "Tight",
		[17]= "Ultra",
		[18]= "TLS",
		[19]= "VeNCrypt",
		[20]= "GTK-VNC SASL",
		[21]= "MD5 hash authentication",
		[22]= "Colin Dean xvp",
		
		-- Mac OS X screen sharing uses 30 and 35
		[30]= "Mac OS X security type (30)",
		[35]= "Mac OS X security type (35)",
	},
	
	new = function(self, host, port)
		local o = {}
       	setmetatable(o, self)
        self.__index = self
		o.host = host
		o.port = port
		o.vncsocket = VNCSocket:new()
		o.cli_version = nmap.registry.args['vnc-brute.version'] or "RFB 003.889\n"
		return o
	end,
	
	--- Connects the VNC socket
	connect = function(self)
		local data, status, msg
		
		if ( not(HAVE_SSL) ) then
			return false, "The VNC module requires OpenSSL support"
		end
		
		status, msg = self.vncsocket:connect(self.host, self.port, "tcp")
		return status, msg
	end,
	
	--- Disconnects the VNC socket
	disconnect = function(self)
		self.vncsocket:close()
	end,
	
	--- Performs the VNC handshake and determines
	-- o The RFB Protocol to use
	-- o The supported authentication security types
	--
	-- @return status, true on success, false on failure
	-- @return error string containing error message if status is false
	handshake = function(self)
		local status, data = self.vncsocket:recv( 12 )
		local vncsec = {}
		local tmp
		
		if ( not(status) ) then
			return status, "ERROR: VNC:handshake failed to receive protocol version"
		end
		
		self.protover = VNC.versions[data]
		if ( not(self.protover) ) then
			stdnse.print_debug("ERROR: VNC:handshake unsupported version (%s)", data:sub(1,11))
			return false, ("Unsupported version (%s)"):format(data:sub(1,11))
		end
			
		status = self.vncsocket:send( self.cli_version )
		if ( not(status) ) then
			stdnse.print_debug("ERROR: VNC:handshake failed to send client version")
			return false, "ERROR: VNC:handshake failed"
		end
	
		if ( self.protover == "3.3" ) then
			vncsec.count = 1
			vncsec.types = {}
			
			status, tmp = self.vncsocket:recv(4)
			if( not(status) ) then
				return false, "VNC:handshake failed to receive security data"
			end

			vncsec.types[1] = select(2, bin.unpack("I", tmp) )
			self.vncsec = vncsec
			
			-- do we have an invalid security type, if so we need to handle an
			-- error condition
			if ( vncsec.types[1] == 0 ) then
				local len, err
				
				status, tmp = self.vncsocket:recv(4)
				if( not(status) ) then
					return false, "VNC:handshake failed to retrieve error message"
				end
				len = select(2, bin.unpack(">I", tmp) )
				status, err = self.vncsocket:recv(len)
				if( not(status) ) then
					return false, "VNC:handshake failed to retrieve error message"
				end
				
				return false, err
			end
		else
			status, tmp = self.vncsocket:recv(1)
			if ( not(status) ) then
				stdnse.print_debug("ERROR: VNC:handshake failed to receive security data")
				return false, "ERROR: VNC:handshake failed to receive security data"
			end

			vncsec.count = select(2, bin.unpack("C", tmp))
			if ( vncsec.count == 0 ) then
				local len, err
				status, tmp = self.vncsocket:recv(4)
				if( not(status) ) then
					return false, "VNC:handshake failed to retrieve error message"
				end
				len = select(2, bin.unpack(">I", tmp) )
				status, err = self.vncsocket:recv(len)
				if( not(status) ) then
					return false, "VNC:handshake failed to retrieve error message"
				end
				
				return false, err
			end
			
			status, tmp = self.vncsocket:recv(vncsec.count)

			if ( not(status) ) then
				stdnse.print_debug("ERROR: VNC:handshake failed to receive security data")
				return false, "ERROR: VNC:handshake failed to receive security data"
			end

			vncsec.types = {}
			for i=1, vncsec.count do
				table.insert( vncsec.types, select(2, bin.unpack("C", tmp, i) ) )
			end

			self.vncsec = vncsec
		end
		
		return true
	end,
	
	--- Creates the password bit-flip needed before DES encryption
	--
	-- @param password string containing the password to process
	-- @return password string containing the processed password
	createVNCDESKey = function( self, password )
		local _, bitstr
		local newpass = ""
		
		if ( #password < 8 ) then
			for i=1, (8 - #password) do
				password = password .. string.char(0x00)
			end
		end
		
		for i=1, 8 do
			_, bitstr = bin.unpack("B", password, i)
			newpass = newpass .. bin.pack("B", bitstr:reverse())
		end
			
		return newpass
	end,
	
	--- Attempts to login to the VNC service
	-- Currently the only supported auth sectype is VNC Authentication
	--
	-- @param username string, could be anything when VNCAuth is used
	-- @param password string containing the password to use for authentication
	-- @return status true on success, false on failure
	-- @return err string containing error message when status is false
	login = function( self, username, password )
		local status, result
		local chall, resp, key
	
		if ( not(password) ) then
			return false, "No password was supplied"
		end
	
		if ( not( self:supportsSecType( VNC.sectypes.VNCAUTH ) ) ) then
			return false, "The server does not support the \"VNC Authentication\" security type."
		end
	
		-- Announce that we support VNC Authentication
		status = self.vncsocket:send( bin.pack("C", VNC.sectypes.VNCAUTH) )
		if ( not(status) ) then
			return false, "Failed to select authentication type"
		end
	
		status, chall = self.vncsocket:recv( 16 )
		if ( not(status) ) then
			return false, "Failed to receive authentication challenge"
		end

		key = self:createVNCDESKey(password)
		resp = openssl.encrypt("des-ecb", key, nil, chall, false )

		status = self.vncsocket:send( resp )
		if ( not(status) ) then
			return false, "Failed to send authentication response to server"
		end
		
		status, result = self.vncsocket:recv(4)
		if ( not(status) ) then
			return false, "Failed to retrieve authentication status from server"
		end
		
		if ( select(2, bin.unpack("I", result) ) ~= 0 ) then
			return false, ("Authentication failed with password %s"):format(password)
		end
		
		return true, ""
	end,
	
	--- Returns all supported security types as a table of strings
	--
	-- @return table containing a string entry for each security type
	getSecTypesAsStringTable = function( self )
		local tmp = {}
		for i=1, self.vncsec.count do
			table.insert( tmp, VNC.sectypes_str[self.vncsec.types[i]] or ("Unknown security type (%d)"):format(self.vncsec.types[i]) )
		end
		return true, tmp
	end,
	
	--- Checks if the supplied security type is supported or not
	--
	-- @param sectype number containing the security type to check for
	-- @return status true if supported, false if not supported
	supportsSecType = function( self, sectype )
		for i=1, self.vncsec.count do
			if ( self.vncsec.types[i] == sectype ) then
				return true
			end
		end
		return false
	end,
	
	--- Returns the protocol version reported by the server
	--
	-- @param version string containing the version number
	getProtocolVersion = function( self )
		return self.protover
	end,
	
}

VNCSocket =
{	
	retries = 3,
	
	new = function(self)
		local o = {}
       	setmetatable(o, self)
        self.__index = self
		o.Socket = nmap.new_socket()
		o.Buffer = nil
		return o
	end,
	

	--- Establishes a connection.
	--
	-- @param hostid Hostname or IP address.
	-- @param port Port number.
	-- @param protocol <code>"tcp"</code>, <code>"udp"</code>, or
	-- @return Status (true or false).
	-- @return Error code (if status is false).
	connect = function( self, hostid, port, protocol )
		-- VNC servers sometimes take a long time to respond 10seconds seems ok
		self.Socket:set_timeout(10000)
		return self.Socket:connect( hostid, port, protocol )
	end,
	
	--- Closes an open connection.
	--
	-- @return Status (true or false).
	-- @return Error code (if status is false).
	close = function( self )
		return self.Socket:close()
	end,
	
	--- Opposed to the <code>socket:receive_bytes</code> function, that returns
	-- at least x bytes, this function returns the amount of bytes requested.
	--
	-- @param count of bytes to read
	-- @return true on success, false on failure
	-- @return data containing bytes read from the socket
	-- 		   err containing error message if status is false
	recv = function( self, count )
		local status, data
	
		self.Buffer = self.Buffer or ""
	
		if ( #self.Buffer < count ) then
			status, data = self.Socket:receive_bytes( count - #self.Buffer )
			if ( not(status) ) then
				return false, data
			end
			self.Buffer = self.Buffer .. data
		end
			
		data = self.Buffer:sub( 1, count )
		self.Buffer = self.Buffer:sub( count + 1)
	
		return true, data	
	end,
	
	--- Sends data over the socket
	--
	-- @return Status (true or false).
	-- @return Error code (if status is false).
	send = function( self, data )
		return self.Socket:send( data )
	end,
}

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