--- -- Functions for the SSH-1 protocol. This module also contains functions for -- formatting key fingerprints. -- -- @author Sven Klemm -- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html local bin = require "bin" local bit = require "bit" local math = require "math" local nmap = require "nmap" local openssl = require "openssl" local stdnse = require "stdnse" _ENV = stdnse.module("ssh1", stdnse.seeall) --- Retrieve the size of the packet that is being received -- and checks if it is fully received -- -- This function is very similar to the function generated -- with match.numbytes(num) function, except that this one -- will check for the number of bytes on-the-fly, based on -- the written on the SSH packet. -- -- @param buffer The receive buffer -- @return packet_length, packet_length or nil -- the return is similar to the lua function string:find() check_packet_length = function( buffer ) if #buffer < 4 then return nil end local payload_length, packet_length, offset offset, payload_length = bin.unpack( ">I", buffer ) local padding = 8 - payload_length % 8 assert(payload_length) local total = 4+payload_length+padding; if total > #buffer then return nil end return total, total; end --- Receives a complete SSH packet, even if fragmented -- this function is an abstraction layer to deal with -- checking the packet size to know if there is any more -- data to receive. -- -- @param socket The socket used to receive the data -- @return status True or false -- @return packet The packet received receive_ssh_packet = function( socket ) local status, packet = socket:receive_buf(check_packet_length, true) return status, packet end --- Fetch an SSH-1 host key. -- @param host Nmap host table. -- @param port Nmap port table. -- @return A table with the following fields: exp, -- mod, bits, key_type, -- fp_input, full_key, algorithm, and -- fingerprint. fetch_host_key = function(host, port) local socket = nmap.new_socket() local status, _ status = socket:connect(host, port) if not status then return end -- fetch banner status = socket:receive_lines(1) if not status then socket:close(); return end -- send our banner status = socket:send("SSH-1.5-Nmap-SSH1-Hostkey\r\n") if not status then socket:close(); return end local data, packet_length, padding, offset status,data = receive_ssh_packet( socket ) socket:close() if not status then return end offset, packet_length = bin.unpack( ">i", data ) padding = 8 - packet_length % 8 offset = offset + padding if padding + packet_length + 4 == #data then -- seems to be a proper SSH1 packet local msg_code,host_key_bits,exp,mod,length,fp_input offset, msg_code = bin.unpack( ">c", data, offset ) if msg_code == 2 then -- 2 => SSH_SMSG_PUBLIC_KEY -- ignore cookie and server key bits offset, _, _ = bin.unpack( ">A8i", data, offset ) -- skip server key exponent and modulus offset, length = bin.unpack( ">S", data, offset ) offset = offset + math.ceil( length / 8 ) offset, length = bin.unpack( ">S", data, offset ) offset = offset + math.ceil( length / 8 ) offset, host_key_bits = bin.unpack( ">i", data, offset ) offset, length = bin.unpack( ">S", data, offset ) offset, exp = bin.unpack( ">A" .. math.ceil( length / 8 ), data, offset ) exp = openssl.bignum_bin2bn( exp ) offset, length = bin.unpack( ">S", data, offset ) offset, mod = bin.unpack( ">A" .. math.ceil( length / 8 ), data, offset ) mod = openssl.bignum_bin2bn( mod ) fp_input = mod:tobin()..exp:tobin() return {exp=exp,mod=mod,bits=host_key_bits,key_type='rsa1',fp_input=fp_input, full_key=exp:todec()..' '..mod:todec(),algorithm="RSA1", fingerprint=openssl.md5(fp_input)} end end end --- Format a key fingerprint in hexadecimal. -- @param fingerprint Key fingerprint. -- @param algorithm Key algorithm. -- @param bits Key size in bits. fingerprint_hex = function( fingerprint, algorithm, bits ) fingerprint = stdnse.tohex(fingerprint,{separator=":",group=2}) return ("%d %s (%s)"):format( bits, fingerprint, algorithm ) end --- Format a key fingerprint in Bubble Babble. -- @param fingerprint Key fingerprint. -- @param algorithm Key algorithm. -- @param bits Key size in bits. fingerprint_bubblebabble = function( fingerprint, algorithm, bits ) local vowels = {'a','e','i','o','u','y'} local consonants = {'b','c','d','f','g','h','k','l','m','n','p','r','s','t','v','z','x'} local s = "x" local seed = 1 for i=1,#fingerprint+2,2 do local in1,in2,idx1,idx2,idx3,idx4,idx5 if i < #fingerprint or #fingerprint / 2 % 2 ~= 0 then in1 = fingerprint:byte(i) idx1 = (bit.band(bit.rshift(in1,6),3) + seed) % 6 + 1 idx2 = bit.band(bit.rshift(in1,2),15) + 1 idx3 = (bit.band(in1,3) + math.floor(seed/6)) % 6 + 1 s = s .. vowels[idx1] .. consonants[idx2] .. vowels[idx3] if i < #fingerprint then in2 = fingerprint:byte(i+1) idx4 = bit.band(bit.rshift(in2,4),15) + 1 idx5 = bit.band(in2,15) + 1 s = s .. consonants[idx4] .. '-' .. consonants[idx5] seed = (seed * 5 + in1 * 7 + in2) % 36 end else idx1 = seed % 6 + 1 idx2 = 16 + 1 idx3 = math.floor(seed/6) + 1 s = s .. vowels[idx1] .. consonants[idx2] .. vowels[idx3] end end s = s .. 'x' return ("%d %s (%s)"):format( bits, s, algorithm ) end --- Format a key fingerprint into a visual ASCII art representation. -- -- Ported from http://www.openbsd.org/cgi-bin/cvsweb/~checkout~/src/usr.bin/ssh/key.c. -- @param fingerprint Key fingerprint. -- @param algorithm Key algorithm. -- @param bits Key size in bits. fingerprint_visual = function( fingerprint, algorithm, bits ) local i,j,field,characters,input,fieldsize_x,fieldsize_y,s fieldsize_x, fieldsize_y = 17, 9 characters = {' ','.','o','+','=','*','B','O','X','@','%','&','#','/','^','S','E'} -- initialize drawing area field = {} for i=1,fieldsize_x do field[i]={} for j=1,fieldsize_y do field[i][j]=1 end end -- we start in the center and mark it local x, y = math.ceil(fieldsize_x/2), math.ceil(fieldsize_y/2) field[x][y] = #characters - 1; -- iterate over fingerprint for i=1,#fingerprint do input = fingerprint:byte(i) -- each byte conveys four 2-bit move commands for j=1,4 do if bit.band( input, 1) == 1 then x = x + 1 else x = x - 1 end if bit.band( input, 2) == 2 then y = y + 1 else y = y - 1 end x = math.max(x,1); x = math.min(x,fieldsize_x) y = math.max(y,1); y = math.min(y,fieldsize_y) if field[x][y] < #characters - 2 then field[x][y] = field[x][y] + 1 end input = bit.rshift( input, 2 ) end end -- mark end point field[x][y] = #characters; -- build output s = ('\n+--[%4s %4d]----+\n'):format( algorithm, bits ) for i=1,fieldsize_y do s = s .. '|' for j=1,fieldsize_x do s = s .. characters[ field[j][i] ] end s = s .. '|\n' end s = s .. '+-----------------+\n' return s end return _ENV;