--- -- TNS Library supporting a very limited subset of Oracle operations -- -- Summary -- ------- -- The library currently provides functionality to connect and authenticate -- to the Oracle database server. Some preliminary query support has been -- added, which only works against a few specific versions. The library has -- been tested against and known to work with Oracle 10g and 11g. Please check -- the matrix below for tested versions that are known to work. -- -- Due to the lack of documentation the library is based mostly on guesswork -- with a lot of unknowns. Bug reports are therefore both welcome and -- important in order to further improve this library. In addition, knowing -- that the library works against versions not in the test matrix is valuable -- as well. -- -- Overview -- -------- -- The library contains the following classes: -- -- o Packet.* -- - The Packet classes contain specific packets and function to serialize -- them to strings that can be sent over the wire. Each class may also -- contain a function to parse the servers response. -- -- o Comm -- - Implements a number of functions to handle communication -- -- o Crypt -- - Implements encryption algorithms and functions to support -- authentication with Oracle 10G and Oracle 11G. -- -- o Helper -- - A helper class that provides easy access to the rest of the library -- -- -- Example -- ------- -- The following sample code illustrates how scripts can use the Helper class -- to interface the library: -- -- -- tnshelper = tns.Helper:new(host, port) -- status, err = tnshelper:Connect() -- status, res = tnshelper:Login("sys", "change_on_install") -- status, err = tnshelper:Close() -- -- -- Additional information -- ---------------------- -- The implementation is based on the following documentation and through -- analysis of packet dumps: -- -- o Oracle 10g TNS AES-128 authentication details (Massimiliano Montoro) -- x http://www.oxid.it/downloads/oracle_tns_aes128_check.txt -- o Oracle 11g TNS AES-192 authentication details (Massimiliano Montoro) -- x http://www.oxid.it/downloads/oracle_tns_aes192_check.txt -- o Initial analysis of Oracle native authentication version 11g -- (László Tóth) -- x http://www.soonerorlater.hu/index.khtml?article_id=512 -- o Oracle native authentication version 9i and 10g (László Tóth) -- x http://www.soonerorlater.hu/index.khtml?article_id=511 -- -- This implementation is tested and known to work against Oracle 10g and 11g -- on both Linux and Windows. For details regarding what versions where tested -- please consult the matrix below. -- -- @copyright Same as Nmap--See https://nmap.org/book/man-legal.html -- @author Patrik Karlsson -- -- @args tns.sid specifies the Oracle instance to connect to -- -- Version 0.71 -- Created 07/12/2010 - v0.1 - created by Patrik Karlsson -- Revised 07/21/2010 - v0.2 - made minor changes to support 11gR2 on Windows -- Revised 07/23/2010 - v0.3 - corrected incorrect example code in docs -- - removed ssl require -- Revised 02/08/2011 - v0.4 - added basic query support -- Revised 17/08/2011 - v0.5 - fixed bug that would prevent connections from -- working on 64-bit oracle. -- Revised 20/08/2011 - v0.6 - fixed a few bugs in connection and query code -- - changed so that connections against untested -- databases versions will fail -- - added some more documentation and fixed some -- indentation bugs -- -- Revised 26/08/2011 - v0.7 - applied patch from Chris Woodbury -- -- Revised 28/08/2011 - v0.71- fixed a bug that would prevent the library from -- authenticating against Oracle 10.2.0.1.0 XE -- -- -- The following versions have been tested and are known to work: -- +--------+---------------+---------+-------+-------------------------------+ -- | OS | DB Version | Edition | Arch | Functionality | -- +--------+---------------+---------+-------+-------------------------------| -- | Win | 10.2.0.1.0 | EE | 32bit | Authentication | -- | Win | 10.2.0.1.0 | XE | 32bit | Authentication, Queries | -- | Linux | 10.2.0.1.0 | EE | 32bit | Authentication | -- | Win | 11.1.0.6.0 | EE | 32bit | Authentication, Queries | -- | Win | 11.1.0.6.0 | EE | 64bit | Authentication | -- | Win | 11.2.0.1.0 | EE | 64bit | Authentication | -- | Win | 11.2.0.2.0 | EE | 64bit | Authentication | -- | Linux | 11.2.0.1.0 | EE | 64bit | Authentication | -- | Win | 11.2.0.2.0 | XE | 32bit | Authentication, Queries | -- | Win | 11.2.0.2.0 | EE | 64bit | Authentication, Queries | -- +--------+---------------+---------+-------+-------------------------------+ -- local bits = require "bits" local math = require "math" local match = require "match" local nmap = require "nmap" local stdnse = require "stdnse" local string = require "string" local table = require "table" local openssl = stdnse.silent_require "openssl" _ENV = stdnse.module("tns", stdnse.seeall) -- Oracle version constants ORACLE_VERSION_10G = 313 ORACLE_VERSION_11G = 314 -- Data type to number conversions DataTypes = { NUMBER = 2, DATE = 12, } -- A class containing some basic authentication options AuthOptions = { -- Creates a new AuthOptions instance -- @return o new instance of AuthOptions new = function( self ) local o = { auth_term = "pts/" .. math.random(255), auth_prog = ("sqlplus@nmap_%d (TNS V1-V3)"):format(math.random(32768)), auth_machine = "nmap_target", auth_pid = "" .. math.random(32768), auth_sid = "nmap_" .. math.random(32768) } setmetatable(o, self) self.__index = self return o end, } -- Decodes different datatypes from the byte arrays or strings read from the -- tns data packets DataTypeDecoders = { -- Decodes a number [DataTypes.NUMBER] = function(val) if ( #val == 0 ) then return "" end if ( #val == 1 and val == '\128' ) then return 0 end local bytes = {string.byte(val, 1, #val)} local positive = ( (bytes[1] & 0x80) ~= 0 ) local function convert_bytes(bytes, positive) local ret_bytes = {} local len = #bytes if ( positive ) then ret_bytes[1] = (bytes[1] & 0x7F) - 65 for i=2, len do ret_bytes[i] = bytes[i] - 1 end else ret_bytes[1] = ((bytes[1] ~ 0xFF) & 0x7F) - 65 for i=2, len do ret_bytes[i] = 101 - bytes[i] end end return ret_bytes end bytes = convert_bytes(bytes, positive) local k = ( #bytes - 1 > bytes[1] +1 ) and ( bytes[1] + 1 ) or #bytes - 1 local l = 0 for m=1, k do l = l * 100 + bytes[m+1] end for m=bytes[1]-#bytes - 1, 0, -1 do l = l * 100 end return (positive and l or -l) end, -- Decodes a date [DataTypes.DATE] = function(val) local bytes = {} if (#val == 0) then return "" elseif( #val ~= 7 ) then return "ERROR: Failed to decode date" end local bytes = {string.byte(val, 1, 7)} return ("%d-%02d-%02d"):format( (bytes[1] - 100 ) * 100 + bytes[2] - 100, bytes[3], bytes[4] ) end, } -- Packet class table -- -- Each Packet type SHOULD implement: -- o tns_type - A variable indicating the TNS Type of the Packet -- o toString - A function that serializes the object to string -- -- Each Packet MAY also optionally implement: -- o parseResponse -- x An optional function that parses the servers response -- x The function should return status and an undefined second return value -- Packet = {} -- Contains the TNS header and basic functions for decoding and reading the -- TNS packet. Packet.TNS = { checksum = 0, hdr_checksum = 0, length = 0, reserved = 0, Type = { CONNECT = 1, ACCEPT = 2, REFUSE = 4, DATA = 6, RESEND = 11, MARKER = 12, }, new = function( self, typ ) local o = { type = typ } setmetatable(o, self) self.__index = self return o end, --- Read a TNS packet of the socket -- -- @return true on success, false on failure -- @return err string containing error message on failure recv = function( self ) local status, data = self.socket:receive_buf( match.numbytes(2), true ) if ( not(status) ) then return status, data end self.length = string.unpack(">I2", data ) status, data = self.socket:receive_buf( match.numbytes(6), true ) if ( not(status) ) then return status, data end self.checksum, self.type, self.reserved, self.hdr_checksum = string.unpack(">I2BBI2", data) status, data = self.socket:receive_buf( match.numbytes(self.length - 8), true ) if ( status ) then self.data = data end return true end, parse = function(data) local tns = Packet.TNS:new() local pos tns.length, tns.checksum, tns.type, tns.reserved, tns.hdr_checksum, pos = string.unpack(">I2I2BBI2", data) tns.data, pos = string.unpack("c" .. ( tns.length - 8 ), data, pos) return tns end, --- Converts the TNS packet to string suitable to be sent over the socket -- -- @return string containing the TNS packet __tostring = function( self ) local data = string.pack(">I2I2BBI2", self.length, self.checksum, self.type, self.reserved, self.hdr_checksum) .. self.data return data end, } -- Initiates the connection to the listener Packet.Connect = { CONN_STR = [[ (DESCRIPTION=(ADDRESS=(PROTOCOL=TCP)(HOST=%s)(PORT=%d)) (CONNECT_DATA=(SERVER=DEDICATED)(SERVICE_NAME=%s)(CID= (PROGRAM=sqlplus)(HOST=%s)(USER=nmap))))]], version = 314, version_comp = 300, svc_options = 0x0c41, sess_dus = 8192, max_trans_dus = 32767, nt_proto_char = 0x7f08, line_turnaround = 0, value_of_1_in_hw = 0x0100, conn_data_len = 0, conn_data_offset = 58, conn_data_max_recv = 512, conn_data_flags_0 = 0x41, conn_data_flags_1 = 0x41, trace_cross_1 = 0, trace_cross_2 = 0, trace_unique_conn = 0, tns_type = Packet.TNS.Type.CONNECT, -- Creates a new Connect instance -- @param rhost string containing host or ip -- @param rport string containing the port number -- @param dbinstance string containing the instance name -- @return o containing new Connect instance new = function( self, rhost, rport, dbinstance ) local o = { rhost = rhost, rport = rport, conn_data = Packet.Connect.CONN_STR:format( rhost, rport, dbinstance, rhost ), dbinstance = dbinstance:upper() } setmetatable(o, self) self.__index = self return o end, setCmd = function( self, cmd ) local tmp = [[ (DESCRIPTION=(CONNECT_DATA=(CID=(PROGRAM=)(HOST=%s)(USER=nmap))(COMMAND=%s)(ARGUMENTS=64)(SERVICE=%s:%d)(VERSION=185599488))) ]] self.conn_data = tmp:format( self.rhost, cmd, self.rhost, self.rport ) end, --- Parses the server response from the CONNECT -- -- @param tns Packet.TNS containing the TNS packet received from the -- server -- @return true on success, false on failure -- @return version number containing the version supported by the -- server or an error message on failure parseResponse = function( self, tns ) if ( tns.type ~= Packet.TNS.Type.ACCEPT ) then if ( tns.data:match("ERR=12514") ) then return false, ("TNS: The listener could not resolve \"%s\""):format(self.dbinstance) end return false, tns.data:match("%(ERR=(%d*)%)") end local version = string.unpack(">I2", tns.data ) return true, version end, --- Converts the CONNECT packet to string -- -- @return string containing the packet __tostring = function( self ) self.conn_data_len = #self.conn_data return string.pack(">I2I2I2I2I2I2I2I2I2I2I4 BBI4 I4 I8I8", self.version, self.version_comp, self.svc_options, self.sess_dus, self.max_trans_dus, self.nt_proto_char, self.line_turnaround, self.value_of_1_in_hw, self.conn_data_len, self.conn_data_offset, self.conn_data_max_recv, self.conn_data_flags_0, self.conn_data_flags_1, self.trace_cross_1, self.trace_cross_2, self.trace_unique_conn, 0) .. self.conn_data end, } -- A TNS data packet, one of the most common packets Packet.Data = { flag = 0, -- Createas a new Data instance -- @return o new instance of Data new = function( self, data ) local o = { TNS = Packet.TNS:new( Packet.TNS.Type.DATA ), data = data } setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) local data = string.pack( ">I2", self.flag ) .. self.data self.TNS.length = #data + 8 return tostring(self.TNS) .. data end, } -- Packet received by the server to indicate errors or end of -- communication. Packet.Attention = { tns_type = Packet.TNS.Type.MARKER, -- Creates a new instance of the Attention packet -- @return o new instance of Attention new = function( self, typ, data ) local o = { data = data, att_type = typ } setmetatable(o, self) self.__index = self return o end, --- Converts the MARKER packet to string -- -- @return string containing the packet __tostring = function( self ) return string.pack( ">B", self.att_type ) .. self.data end, } -- Packet initializing challenge response authentication Packet.PreAuth = { tns_type = Packet.TNS.Type.DATA, flags = 0, param_order = { { ["AUTH_TERMINAL"] = "auth_term" }, { ["AUTH_PROGRAM_NM"] = "auth_prog" }, { ["AUTH_MACHINE"] = "auth_machine" }, { ["AUTH_PID"] = "auth_pid" }, { ["AUTH_SID"] = "auth_sid" } }, --- Creates a new PreAuth packet -- -- @param user string containing the user name -- @return a new instance of Packet.PreAuth new = function(self, user, options, ver) local o = { auth_user = user, auth_options = options, version = ver } setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) local packet_type = 0x0376 local UNKNOWN_MAP = { ["Linuxi386/Linux-2.0.34-8.1.0"] = stdnse.fromhex("0238be0808") .. string.char(#self.auth_user) .. stdnse.fromhex("00000001000000a851bfbf05000000504ebfbf7853bfbf"), ["IBMPC/WIN_NT-8.1.0"] = stdnse.fromhex("0238be0808") .. string.char(#self.auth_user) .. stdnse.fromhex("00000001000000a851bfbf05000000504ebfbf7853bfbf"), ["IBMPC/WIN_NT64-9.1.0"] = stdnse.fromhex("0201040000000100000001050000000101"), ["x86_64/Linux 2.4.xx"] = stdnse.fromhex("0201040000000100000001050000000101"), } local unknown = UNKNOWN_MAP[self.version] or "" local data = { string.pack(">I2I2", self.flags, packet_type), unknown, string.pack("s1", self.auth_user), } for _, v in ipairs( Packet.PreAuth.param_order ) do for k, v2 in pairs(v) do data[#data+1] = Marshaller.marshalKvp( k, self.auth_options[v2] ) end end return table.concat(data) end, --- Parses the PreAuth packet response and extracts data needed to -- perform authentication -- -- @param tns Packet.TNS containing the TNS packet received from the server -- @return table containing the keys and values returned by the server parseResponse = function( self, tns ) local kvps = {} local kvp_count = string.unpack( "B", tns.data, 4 ) local pos = 6 for kvp_itr=1, kvp_count do local key, val, kvp_flags pos, key, val, kvp_flags = Marshaller.unmarshalKvp( tns.data, pos ) -- we don't actually do anything with the flags currently, but they're there kvps[key] = val end return true, kvps end, } -- Packet containing authentication data Packet.Auth = { tns_type = Packet.TNS.Type.DATA, flags = 0, param_order = { { ['key'] = "AUTH_RTT", ['def'] = "25456" }, { ['key'] = "AUTH_CLNT_MEM", ['def'] = "4096" }, { ['key'] = "AUTH_TERMINAL", ['var'] = "auth_term" }, { ['key'] = "AUTH_PROGRAM_NM", ['var'] = "auth_prog" }, { ['key'] = "AUTH_MACHINE", ['var'] = "auth_machine" }, { ['key'] = "AUTH_PID", ['var'] = "auth_pid" }, { ['key'] = "AUTH_SID", ['var'] = "auth_sid" }, { ['key'] = "AUTH_ACL", ['def'] = "4400" }, { ['key'] = "AUTH_ALTER_SESSION", ['def'] = "ALTER SESSION SET TIME_ZONE='+02:00'\0" }, { ['key'] = "AUTH_LOGICAL_SESSION_ID", ['def'] = stdnse.tohex(openssl.rand_pseudo_bytes(16)) }, { ['key'] = "AUTH_FAILOVER_ID", ['def'] = "" }, }, --- Creates a new Auth packet -- -- @param auth_sesskey the encrypted session key -- @param auth_pass the encrypted user password -- @return a new instance of Packet.Auth new = function(self, user, options, auth_sesskey, auth_pass, ver) local o = { auth_sesskey = auth_sesskey, auth_pass = auth_pass, auth_options = options, user = user, version = ver } setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) local UNKNOWN_MAP = { ["Linuxi386/Linux-2.0.34-8.1.0"] = stdnse.fromhex("0338be0808") .. string.char(#self.user) .. stdnse.fromhex("00000001010000cc7dbfbf0d000000747abfbf608abfbf"), ["IBMPC/WIN_NT-8.1.0"] = stdnse.fromhex("0338be0808") .. string.char(#self.user) .. stdnse.fromhex("00000001010000cc7dbfbf0d000000747abfbf608abfbf"), ["IBMPC/WIN_NT64-9.1.0"] = stdnse.fromhex("03010400000001010000010d0000000101"), ["x86_64/Linux 2.4.xx"] = stdnse.fromhex("03010400000001010000010d0000000101") } local sess_id = stdnse.tohex(openssl.rand_pseudo_bytes(16)) local unknown = UNKNOWN_MAP[self.version] or "" local data = { string.pack(">I2I2", self.flags, 0x0373), unknown, string.pack("s1", self.user), Marshaller.marshalKvp( "AUTH_SESSKEY", self.auth_sesskey, 1 ), Marshaller.marshalKvp( "AUTH_PASSWORD", self.auth_pass ), } for k, v in ipairs( self.param_order ) do if ( v['def'] ) then data[#data+1] = Marshaller.marshalKvp( v['key'], v['def'] ) elseif ( self.auth_options[ v['var'] ] ) then data[#data+1] = Marshaller.marshalKvp( v['key'], self.auth_options[ v['var'] ] ) elseif ( self[ v['var'] ] ) then data[#data+1] = Marshaller.marshalKvp( v['key'], self[ v['var'] ] ) end end return table.concat(data) end, -- Parses the response of an Auth packet -- -- @param tns Packet.TNS containing the TNS packet received from the server -- @return table containing the key pair values from the Auth packet parseResponse = function( self, tns ) local kvps = {} local kvp_count = string.unpack( "B", tns.data, 4 ) local pos = 6 for kvp_itr=1, kvp_count do local key, val, kvp_flags pos, key, val, kvp_flags = Marshaller.unmarshalKvp( tns.data, pos ) -- we don't actually do anything with the flags currently, but they're there kvps[key] = val end return true, kvps end, } Packet.SNS = { tns_type = Packet.TNS.Type.DATA, flags = 0, -- Creates a new SNS instance -- -- @return o new instance of the SNS packet new = function(self) local o = {} setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) return string.pack(">I2", self.flags) .. stdnse.fromhex( [[ deadbeef00920b1006000004000004000300000000000400050b10060000080 001000015cb353abecb00120001deadbeef0003000000040004000100010002 0001000300000000000400050b10060000020003e0e100020006fcff0002000 200000000000400050b100600000c0001001106100c0f0a0b08020103000300 0200000000000400050b10060000030001000301 ]] ) end, } -- Packet containing protocol negotiation Packet.ProtoNeg = { tns_type = Packet.TNS.Type.DATA, flags = 0, new = function(self) local o = {} setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) return string.pack(">I2", self.flags) .. stdnse.fromhex("0106050403020100") .. "Linuxi386/Linux-2.0.34-8.1.0\0" end, --- Parses and verifies the server response -- -- @param tns Packet.TNS containing the response from the server parseResponse = function( self, tns ) local flags, neg, ver, srv = string.unpack(">I2BBxz", tns.data) if ( neg ~= 1 ) then return false, "Error protocol negotiation failed" end if ( ver ~= 6 ) then return false, ("Error protocol version (%d) not supported"):format(ver) end return true, srv end } Packet.Unknown1 = { tns_type = Packet.TNS.Type.DATA, flags = 0, --- Creates a new Packet.Unknown1 -- -- @param version containing the version of the packet to send -- @return new instance of Packet.Unknown1 new = function(self, os) local o = { os = os } setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) if ( self.os:match("IBMPC/WIN_NT[64]*[-]%d%.%d%.%d") ) then return string.pack(">I2", self.flags) .. stdnse.fromhex([[ 02b200b2004225060101010d010105010101010101017fff0309030301007f0 11fff010301013f01010500010702010000180001800000003c3c3c80000000 d007000100010001000000020002000a00000008000800010000000c000c000 a00000017001700010000001800180001000000190019001800190001000000 1a001a0019001a00010000001b001b000a001b00010000001c001c0016001c0 0010000001d001d0017001d00010000001e001e0017001e00010000001f001f 0019001f0001000000200020000a00200001000000210021000a00210001000 0000a000a00010000000b000b00010000002800280001000000290029000100 000075007500010000007800780001000001220122000100000123012300010 12300010000012401240001000001250125000100000126012600010000012a 012a00010000012b012b00010000012c012c00010000012d012d00010000012 e012e00010000012f012f000100000130013000010000013101310001000001 320132000100000133013300010000013401340001000001350135000100000 136013600010000013701370001000001380138000100000139013900010000 013b013b00010000013c013c00010000013d013d00010000013e013e0001000 0013f013f000100000140014000010000014101410001000001420142000100 000143014300010000014701470001000001480148000100000149014900010 000014b014b00010000014d014d00010000014e014e00010000014f014f0001 000001500150000100000151015100010000015201520001000001530153000 100000154015400010000015501550001000001560156000100000157015700 0101570001000001580158000100000159015900010000015a015a000100000 15c015c00010000015d015d0001000001620162000100000163016300010000 0167016700010000016b016b00010000017c017c0001014200010000017d017 d00010000017e017e00010000017f017f000100000180018000010000018101 810001000001820182000100000183018300010000018401840001000001850 18500010000018601860001000001870187000100000189018900010000018a 018a00010000018b018b00010000018c018c00010000018d018d00010000018 e018e00010000018f018f000100000190019000010000019101910001000001 940194000101250001000001950195000100000196019600010000019701970 0010000019d019d00010000019e019e00010000019f019f0001000001a001a0 0001000001a101a10001000001a201a20001000001a301a30001000001a401a 40001000001a501a50001000001a601a60001000001a701a70001000001a801 a80001000001a901a90001000001aa01aa0001000001ab01ab0001000001ad0 1ad0001000001ae01ae0001000001af01af0001000001b001b00001000001b1 01b10001000001c101c10001000001c201c2000101250001000001c601c6000 1000001c701c70001000001c801c80001000001c901c90001000001ca01ca00 01019f0001000001cb01cb000101a00001000001cc01cc000101a2000100000 1cd01cd000101a30001000001ce01ce000101b10001000001cf01cf00010122 0001000001d201d20001000001d301d3000101ab0001000001d401d40001000 001d501d50001000001d601d60001000001d701d70001000001d801d8000100 0001d901d90001000001da01da0001000001db01db0001000001dc01dc00010 00001dd01dd0001000001de01de0001000001df01df0001000001e001e00001 000001e101e10001000001e201e20001000001e301e30001016b0001000001e 401e40001000001e501e50001000001e601e60001000001ea01ea0001000001 eb01eb0001000001ec01ec0001000001ed01ed0001000001ee01ee000100000 1ef01ef0001000001f001f00001000001f201f20001000001f301f300010000 01f401f40001000001f501f50001000001f601f60001000001fd01fd0001000 001fe01fe000100000201020100010000020202020001000002040204000100 000205020500010000020602060001000002070207000100000208020800010 0000209020900010000020a020a00010000020b020b00010000020c020c0001 0000020d020d00010000020e020e00010000020f020f0001000002100210000 100000211021100010000021202120001000002130213000100000214021400 010000021502150001000002160216000100000217021700010000021802180 00100000219021900010000021a021a00010000021b021b00010000021c021c 00010000021d021d00010000021e021e00010000021f021f000100000220022 000010000022102210001000002220222000100000223022300010000022402 240001000002250225000100000226022600010000022702270001000002280 228000100000229022900010000022a022a00010000022b022b00010000022c 022c00010000022d022d00010000022e022e00010000022f022f00010000023 102310001000002320232000100000233023300010000023402340001000002 3702370001000002380238000100000239023900010000023a023a000100000 23b023b00010000023c023c00010000023d023d00010000023e023e00010000 023f023f0001000002400240000100000241024100010000024202420001000 002430243000100000244024400010000 ]]) elseif ( "x86_64/Linux 2.4.xx" == self.os ) then return string.pack(">I2", self.flags) .. stdnse.fromhex([[ 02b200b2004221060101010d01010401010101010101ffff0308030001003f0 1073f010101010301050201000018800000003c3c3c80000000d00700010001 0001000000020002000a00000008000800010000000c000c000a00000017001 7000100000018001800010000001900190018001900010000001a001a001900 1a00010000001b001b000a001b00010000001c001c0016001c00010000001d0 01d0017001d00010000001e001e0017001e00010000001f001f0019001f0001 000000200020000a00200001000000210021000a002100010000000a000a000 10000000b000b00010000002800280001000000290029000100000075007500 010000007800780001000001220122000100000123012300010123000100000 12401240001000001250125000100000126012600010000012a012a00010000 012b012b00010000012c012c00010000012d012d00010000012e012e0001000 0012f012f000100000130013000010000013101310001000001320132000100 000133013300010000013401340001000001350135000100000136013600010 000013701370001000001380138000100000139013900010000013b013b0001 0000013c013c00010000013d013d00010000013e013e00010000013f013f000 100000140014000010000014101410001000001420142000100000143014300 010000014701470001000001480148000100000149014900010000014b014b0 0010000014d014d00010000014e014e00010000014f014f0001000001500150 000100000151015100010000015201520001000001530153000100000154015 400010000015501550001000001560156000100000157015700010157000100 0001580158000100000159015900010000015a015a00010000015c015c00010 000015d015d0001000001620162000100000163016300010000016701670001 0000016b016b00010000017c017c0001014200010000017d017d00010000017 e017e00010000017f017f000100000180018000010000018101810001000001 820182000100000183018300010000018401840001000001850185000100000 18601860001000001870187000100000189018900010000018a018a00010000 018b018b00010000018c018c00010000018d018d00010000018e018e0001000 0018f018f000100000190019000010000019101910001000001940194000101 2500010000019501950001000001960196000100000197019700010000019d0 19d00010000019e019e00010000019f019f0001000001a001a00001000001a1 01a10001000001a201a20001000001a301a30001000001a401a40001000001a 501a50001000001a601a60001000001a701a70001000001a801a80001000001 a901a90001000001aa01aa0001000001ab01ab0001000001ad01ad000100000 1ae01ae0001000001af01af0001000001b001b00001000001b101b100010000 01c101c10001000001c201c2000101250001000001c601c60001000001c701c 70001000001c801c80001000001c901c90001000001ca01ca0001019f000100 0001cb01cb000101a00001000001cc01cc000101a20001000001cd01cd00010 1a30001000001ce01ce000101b10001000001cf01cf000101220001000001d2 01d20001000001d301d3000101ab0001000001d401d40001000001d501d5000 1000001d601d60001000001d701d70001000001d801d80001000001d901d900 01000001da01da0001000001db01db0001000001dc01dc0001000001dd01dd0 001000001de01de0001000001df01df0001000001e001e00001000001e101e1 0001000001e201e20001000001e301e30001016b0001000001e401e40001000 001e501e50001000001e601e60001000001ea01ea0001000001eb01eb000100 0001ec01ec0001000001ed01ed0001000001ee01ee0001000001ef01ef00010 00001f001f00001000001f201f20001000001f301f30001000001f401f40001 000001f501f50001000001f601f60001000001fd01fd0001000001fe01fe000 100000201020100010000020202020001000002040204000100000205020500 010000020602060001000002070207000100000208020800010000020902090 0010000020a020a00010000020b020b00010000020c020c00010000020d020d 00010000020e020e00010000020f020f0001000002100210000100000211021 100010000021202120001000002130213000100000214021400010000021502 150001000002160216000100000217021700010000021802180001000002190 21900010000021a021a00010000021b021b0001000000030002000a00000004 0002000a0000000500010001000000060002000a000000070002000a0000000 9000100010000000d0000000e0000000f001700010000001000000011000000 12000000130000001400000015000000160000002700780001015d000101260 0010000003a003a0001000000440002000a00000045000000460000004a006d 00010000004c0000005b0002000a0000005e000100010000005f00170001000 000600060000100000061006000010000006400640001000000650065000100 0000660066000100000068000000690000006a006a00010000006c006d00010 000006d006d00010000006e006f00010000006f006f00010000007000700001 000000710071000100000072007200010000007300730001000000740066000 100000076000000770000007900790001 ]]) else return string.pack(">I2", self.flags) .. stdnse.fromhex( [[ 02b200b2004225060101010d010105010101010101017fff0309030301007f011 fff010301013f01010500010702010000180001800000003c3c3c80000000d007 ]]) end end, } --- This packet is only used by Oracle10 and older Packet.Unknown2 = { tns_type = Packet.TNS.Type.DATA, flags = 0, new = function(self, os) local o = { os = os } setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) if ( "x86_64/Linux 2.4.xx" == self.os ) then return string.pack(">I2", self.flags) .. stdnse.fromhex([[ 0000007a007a00010000007b007b00010000008800000092009200010000009 300930001000000980002000a000000990002000a0000009a0002000a000000 9b000100010000009c000c000a000000ac0002000a000000b200b2000100000 0b300b30001000000b400b40001000000b500b50001000000b600b600010000 00b700b70001000000b8000c000a000000b900b20001000000ba00b30001000 000bb00b40001000000bc00b50001000000bd00b60001000000be00b7000100 0000bf000000c0000000c300700001000000c400710001000000c5007200010 00000d000d00001000000d1000000e700e70001000000e800e70001000000e9 00e90001000000f1006d0001000002030203000100000000]] ) else return string.pack(">I2", self.flags) .. stdnse.fromhex([[ 024502450001000002460246000100000247024700010000024802480001000 0024902490001000000030002000a000000040002000a000000050001000100 0000060002000a000000070002000a00000009000100010000000d0000000e0 000000f00170001000000100000001100000012000000130000001400000015 000000160000002700780001015d0001012600010000003a003a00010000004 40002000a00000045000000460000004a006d00010000004c0000005b000200 0a0000005e000100010000005f0017000100000060006000010000006100600 001000000640064000100000065006500010000006600660001000000680000 00690000006a006a00010000006c006d00010000006d006d00010000006e006 f00010000006f006f0001000000700070000100000071007100010000007200 720001000000730073000100000074006600010000007600000077000000790 07900010000007a007a00010000007b007b0001000000880000009200920001 0000009300930001000000980002000a000000990002000a0000009a0002000 a0000009b000100010000009c000c000a000000ac0002000a000000b200b200 01000000b300b30001000000b400b40001000000b500b50001000000b600b60 001000000b700b70001000000b8000c000a000000b900b20001000000ba00b3 0001000000bb00b40001000000bc00b50001000000bd00b60001000000be00b 70001000000bf000000c0000000c300700001000000c400710001000000c500 720001000000d000d00001000000d1000000e700e70001000000e800e700010 00000e900e90001000000f1006d0001000002030203000100000000 ]]) end end, } -- Signals that we're about to close the connection Packet.EOF = { tns_type = Packet.TNS.Type.DATA, flags = 0x0040, new = function(self) local o = {} setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) return string.pack(">I2", self.flags ) end } Packet.PostLogin = { tns_type = Packet.TNS.Type.DATA, flags = 0x0000, -- Creates a new PostLogin instance -- -- @param sessid number containing session id -- @return o a new instance of PostLogin new = function(self, sessid) local o = { sessid = sessid } setmetatable(o, self) self.__index = self return o end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) local unknown1 = "116b04" local unknown2 = "0000002200000001000000033b05fefffffff4010000fefffffffeffffff" return string.pack(">I2", self.flags) .. stdnse.fromhex(unknown1) .. string.char(self.sessid) .. stdnse.fromhex(unknown2) end } -- Class responsible for sending queries to the server and handling the first -- row returned by the server. This class is 100% based on packet captures and -- guesswork. Packet.Query = { tns_type = Packet.TNS.Type.DATA, flags = 0x0000, --- Creates a new instance of Query -- @param query string containing the SQL query -- @return instance of Query new = function(self, query) local o = { query = query, counter = 0 } setmetatable(o, self) self.__index = self return o end, --- Gets the current counter value -- @return counter number containing the current counter value getCounter = function(self) return self.counter end, --- Sets the current counter value -- This function is called from sendTNSPacket -- @param counter number containing the counter value to set setCounter = function(self, counter) self.counter = counter end, --- Converts the DATA packet to string -- -- @return string containing the packet __tostring = function( self ) local unknown1 = "035e" local unknown2 = "6180000000000000feffffff" local unknown3 = "000000feffffff0d000000fefffffffeffffff000000000100000000000000000000000000000000000000feffffff00000000fefffffffeffffff54d25d020000000000000000fefffffffeffffff0000000000000000000000000000000000000000" local unknown4 = "01000000000000000000000000000000000000000000000000000000010000000000000000000000000000000000000000000000" return string.pack(">I2", self.flags) .. stdnse.fromhex(unknown1) .. string.char(self.counter) .. stdnse.fromhex(unknown2) .. string.char(#self.query) .. stdnse.fromhex(unknown3) .. string.pack("s1", self.query) .. stdnse.fromhex(unknown4) end, --- Parses the Query response from the server -- @param tns response as received from the Comm.recvTNSPacket -- function. -- @return result table containing: -- columns - a column indexed table with the column names -- types - a column indexed table with the data types -- rows - a table containing a row table for each row -- the row table is a column indexed table of -- column values. parseResponse = function( self, tns ) local data = tns.data local result = {} local columns = string.unpack("B", tns.data, 35) local pos = 40 for i=1, columns do local sql_type sql_type, pos = string.unpack("B", data, pos) pos = pos + 34 local name name, pos = string.unpack("s1", tns.data, pos) result.columns = result.columns or {} result.types = result.types or {} table.insert(result.columns, name) table.insert(result.types, sql_type) pos = pos + 10 end pos = pos + 55 result.rows = {} local row = {} for i=1, columns do local val val, pos = string.unpack("s1", tns.data, pos) -- if we're at the first row and first column and the len is 0 -- assume we got an empty resultset if ( #val == 0 and #result.rows == 0 and i == 1 ) then return true, { data = result, moredata = false } end local sql_type = result.types[i] if ( DataTypeDecoders[sql_type] ) then val = DataTypeDecoders[sql_type](val) end table.insert(row, val) end table.insert(result.rows, row) local moredata = true -- check if we've got any more data? if ( #data > pos + 97 ) then local len, err err, pos = string.unpack(">s2", data, pos + 97) if ( err:match("^ORA%-01403") ) then moredata = false end end return true, { data = result, moredata = moredata } end, } -- Class responsible for acknowledging a query response from the server -- and handles the next several rows returned by the server. This class -- is mostly based on packet captures and guesswork. Packet.QueryResponseAck = { tns_type = Packet.TNS.Type.DATA, flags = 0x0000, --- Creates a new QueryResponseAck instance -- @param result table containing the results as received from the -- Query.parseResponse function. -- @return instance new instance of QueryResponseAck new = function(self, result) local o = { result = result } setmetatable(o, self) self.__index = self return o end, --- Gets the current counter value -- @return counter number containing the current counter value getCounter = function(self) return self.counter end, --- Sets the current counter value -- This function is called from sendTNSPacket -- @param counter number containing the counter value to set setCounter = function(self, counter) self.counter = counter end, --- Serializes the packet into a string suitable to be sent to the DB -- server. -- @return str string containing the serialized packet __tostring = function(self) return string.pack(">I2BBB", self.flags, 3, 5, self.counter) .. stdnse.fromhex("030000000f000000") end, -- -- This is how I (Patrik Karlsson) think this is supposed to work -- At this point we have the 2nd row (the query response has the first) -- Every row looks like this, where the leading mask marker (0x15) and mask -- is optional. -- | (mask mark)| (bytes) | sor | byte | len * bytes | ... next_column | -- | 0x15 | [mask] | 0x07 | [len]| [column_val]| ... next_column | -- The mask is used in order to achieve "compression" and is essentially -- at a bit mask that decides what columns should be fetched from the -- preceding row. The mask is provided in reverse order and a set bit -- indicates that data is provided while an unset bit indicates that the -- column data should be fetched from the previous row. -- -- Once a value is fetched the sql data type is verified against the -- DataTypeDecoder table. If there's a function registered for the fetched -- data it is run through a decoder, that decodes the *real* value from -- the encoded data. -- parseResponse = function( self, tns ) local data = tns.data local len, pos = string.unpack("B", data, 21) local mask = "" -- calculate the initial mask if ( len > 0 ) then while( len > 0) do local mask_part mask_part, pos = string.unpack("B", data, pos) mask_part = stdnse.tobinary(bits.reverse(mask_part)) assert(#mask_part <= 8) mask_part = ("0"):rep(8-#mask_part)..mask_part mask = mask .. mask_part len = len - 1 end pos = pos + 4 else pos = pos +3 end while(true) do local row = {} local result = self.result local cols = #result.columns -- check for start of data marker local marker marker, pos = string.unpack("B", data, pos) if ( marker == 0x15 ) then mask = "" -- not sure what this 2-byte value is pos = pos + 2 -- calculate the bitmask for the columns that do contain -- data. len = cols while( len > 0 ) do local mask_part mask_part, pos = string.unpack("B", data, pos) mask_part = stdnse.tobinary(bits.reverse(mask_part)) assert(#mask_part <= 8) mask_part = ("0"):rep(8-#mask_part)..mask_part mask = mask .. mask_part len = len - 8 end marker, pos = string.unpack("B", data, pos) end if ( marker ~= 0x07 ) then stdnse.debug2("Encountered unknown marker: %d", marker) break end local val local rows = self.result.rows for col=1, cols do if ( #mask > 0 and mask:sub(col, col) == '0' ) then val = rows[#rows][col] else val, pos = string.unpack("s1", data, pos) local sql_type = result.types[col] if ( DataTypeDecoders[sql_type] ) then val = DataTypeDecoders[sql_type](val) end end table.insert(row, val) end -- add row to result table.insert(rows, row) end return true, tns.data end, } Marshaller = { --- Marshals a TNS key-value pair data structure -- -- @param key The key -- @param value The value -- @param flags The flags -- @return A binary packed string representing the KVP structure marshalKvp = function( key, value, flags ) return Marshaller.marshalKvpComponent( key ) .. Marshaller.marshalKvpComponent( value ) .. string.pack( " MAX_CHUNK_LENGTH then -- First, write the multiple-chunk indicator table.insert(result, "\xFE") -- Loop through the string value, chunk by chunk local pos = 1 repeat local nextpos = pos + MAX_CHUNK_LENGTH table.insert(result, string.pack("s1", value:sub(pos, nextpos - 1))) pos = nextpos until pos > #value -- Finish with an empty chunk table.insert(result, "\0") else table.insert(result, string.pack("s1", value)) end return table.concat(result) end, --- Parses a key or value element from a TNS key-value pair data structure. -- -- @param data Packed string to parse -- @param pos Position in the string at which the element begins -- @return table containing the last position read and the value parsed unmarshalKvpComponent = function( data, pos ) -- read the 32-bit total length of the value local value_len value_len, pos = string.unpack("I2", header ) local status, data = self.socket:receive_buf( match.numbytes(length - 8), true ) if ( not(status) ) then return false, data else return status, Packet.TNS.parse(header .. data) end end local status status, tns = recv() if ( not(status) ) then if ( retries == 0 ) then return false, "ERROR: recvTNSPacket failed to receive TNS headers" end retries = retries - 1 elseif ( tns.type == Packet.TNS.Type.RESEND ) then self:sendTNSPacket( self.pkt ) end until ( status and tns.type ~= Packet.TNS.Type.RESEND ) return true, tns end, --- Sends a TNS packet and receives (and handles) the response -- -- @param pkt containing the Packet.* to send to the server -- @return status true on success, false on failure -- @return the parsed response as return from the respective parseResponse -- function or error message if status was false exchTNSPacket = function( self, pkt ) local status = self:sendTNSPacket( pkt ) local tns, response if ( not(status) ) then return false, "sendTNSPacket failed" end status, tns = self:recvTNSPacket() if ( not(status) ) then return false, tns end --- handle TNS MARKERS if ( tns.type == Packet.TNS.Type.MARKER ) then return self:handleMarker() end if ( pkt.parseResponse ) then status, response = pkt:parseResponse( tns ) end return status, response end } --- Class that handles all Oracle encryption Crypt = { -- Test function, not currently in use Decrypt11g = function(self, c_sesskey, s_sesskey, auth_password, pass, salt ) local sha1 = openssl.sha1(pass .. salt) .. "\0\0\0\0" local auth_sesskey = s_sesskey local auth_sesskey_c = c_sesskey local server_sesskey = openssl.decrypt( "aes-192-cbc", sha1, nil, auth_sesskey ) local client_sesskey = openssl.decrypt( "aes-192-cbc", sha1, nil, auth_sesskey_c ) local combined_sesskey = {} for i=17, 40 do combined_sesskey[#combined_sesskey+1] = string.char( string.byte(server_sesskey, i) ~ string.byte(client_sesskey,i) ) end combined_sesskey = table.concat(combined_sesskey) combined_sesskey = ( openssl.md5( combined_sesskey:sub(1,16) ) .. openssl.md5( combined_sesskey:sub(17) ) ):sub(1, 24) local p = openssl.decrypt( "aes-192-cbc", combined_sesskey, nil, auth_password, false ) return p:sub(17) end, --- Creates an Oracle 10G password hash -- -- @param username containing the Oracle user name -- @param password containing the Oracle user password -- @return hash containing the Oracle hash HashPassword10g = function( self, username, password ) local uspw = (username .. password):upper():gsub(".", "\0%1") local key = stdnse.fromhex("0123456789abcdef") -- do padding uspw = uspw .. string.rep('\0', (8 - (#uspw % 8)) % 8) local iv2 = openssl.encrypt( "DES-CBC", key, nil, uspw, false ):sub(-8) local enc = openssl.encrypt( "DES-CBC", iv2, nil, uspw, false ):sub(-8) return enc end, -- Test function, not currently in use Decrypt10g = function(self, user, pass, srv_sesskey_enc ) local pwhash = self:HashPassword10g( user, pass ) .. "\0\0\0\0\0\0\0\0" local cli_sesskey_enc = stdnse.fromhex("7B244D7A1DB5ABE553FB9B7325110024911FCBE95EF99E7965A754BC41CF31C0") local srv_sesskey = openssl.decrypt( "AES-128-CBC", pwhash, nil, srv_sesskey_enc ) local cli_sesskey = openssl.decrypt( "AES-128-CBC", pwhash, nil, cli_sesskey_enc ) local auth_pass = stdnse.fromhex("4C5E28E66B6382117F9D41B08957A3B9E363B42760C33B44CA5D53EA90204ABE") local pass local combined_sesskey = {} for i=17, 32 do combined_sesskey[#combined_sesskey+1] = string.char( string.byte(srv_sesskey, i) ~ string.byte(cli_sesskey, i) ) end combined_sesskey = openssl.md5( table.concat(combined_sesskey) ) pass = openssl.decrypt( "AES-128-CBC", combined_sesskey, nil, auth_pass ):sub(17) print( stdnse.tohex( srv_sesskey )) print( stdnse.tohex( cli_sesskey )) print( stdnse.tohex( combined_sesskey )) print( "pass=" .. pass ) end, --- Performs the relevant encryption needed for the Oracle 10g response -- -- @param user containing the Oracle user name -- @param pass containing the Oracle user password -- @param srv_sesskey_enc containing the encrypted server session key as -- received from the PreAuth packet -- @return cli_sesskey_enc the encrypted client session key -- @return auth_pass the encrypted Oracle password Encrypt10g = function( self, user, pass, srv_sesskey_enc ) local pwhash = self:HashPassword10g( user, pass ) .. "\0\0\0\0\0\0\0\0" -- We're currently using a static client session key, this should -- probably be changed to a random value in the future local cli_sesskey = stdnse.fromhex("FAF5034314546426F329B1DAB1CDC5B8FF94349E0875623160350B0E13A0DA36") local srv_sesskey = openssl.decrypt( "AES-128-CBC", pwhash, nil, srv_sesskey_enc ) local cli_sesskey_enc = openssl.encrypt( "AES-128-CBC", pwhash, nil, cli_sesskey ) -- This value should really be random, not this static cruft local rnd = stdnse.fromhex("4C31AFE05F3B012C0AE9AB0CDFF0C508") local auth_pass local combined_sesskey = {} for i=17, 32 do combined_sesskey[#combined_sesskey+1] = string.char( string.byte(srv_sesskey, i) ~ string.byte(cli_sesskey, i) ) end combined_sesskey = openssl.md5( table.concat(combined_sesskey) ) auth_pass = openssl.encrypt("AES-128-CBC", combined_sesskey, nil, rnd .. pass, true ) auth_pass = stdnse.tohex(auth_pass) cli_sesskey_enc = stdnse.tohex(cli_sesskey_enc) return cli_sesskey_enc, auth_pass end, --- Performs the relevant encryption needed for the Oracle 11g response -- -- @param pass containing the Oracle user password -- @param srv_sesskey_enc containing the encrypted server session key as -- received from the PreAuth packet -- @param auth_vrfy_data containing the password salt as received from the -- PreAuth packet -- @return cli_sesskey_enc the encrypted client session key -- @return auth_pass the encrypted Oracle password Encrypt11g = function( self, pass, srv_sesskey_enc, auth_vrfy_data ) -- This value should really be random, not this static cruft local rnd = openssl.rand_pseudo_bytes(16) local cli_sesskey = openssl.rand_pseudo_bytes(40) .. stdnse.fromhex("0808080808080808") local pw_hash = openssl.sha1(pass .. auth_vrfy_data) .. "\0\0\0\0" local srv_sesskey = openssl.decrypt( "aes-192-cbc", pw_hash, nil, srv_sesskey_enc ) local auth_password local cli_sesskey_enc local data = "" local combined_sesskey = {} for i=17, 40 do combined_sesskey[#combined_sesskey+1] = string.char( string.byte(srv_sesskey, i) ~ string.byte(cli_sesskey, i) ) end combined_sesskey = table.concat(combined_sesskey) combined_sesskey = ( openssl.md5( combined_sesskey:sub(1,16) ) .. openssl.md5( combined_sesskey:sub(17) ) ):sub(1, 24) cli_sesskey_enc = openssl.encrypt( "aes-192-cbc", pw_hash, nil, cli_sesskey ) cli_sesskey_enc = stdnse.tohex(cli_sesskey_enc) auth_password = openssl.encrypt( "aes-192-cbc", combined_sesskey, nil, rnd .. pass, true ) auth_password = stdnse.tohex(auth_password) return cli_sesskey_enc, auth_password end, } Helper = { --- Creates a new Helper instance -- -- @param host table containing the host table as received by action -- @param port table containing the port table as received by action -- @param instance string containing the instance name -- @return o new instance of Helper new = function(self, host, port, instance, socket ) local o = { host = host, port = port, socket = socket or nmap.new_socket(), dbinstance = instance or stdnse.get_script_args('tns.sid') or "orcl" } o.socket:set_timeout(30000) setmetatable(o, self) self.__index = self return o end, --- Connects and performs protocol negotiation with the Oracle server -- -- @return true on success, false on failure -- @return err containing error message when status is false Connect = function( self ) local SUPPORTED_VERSIONS = { "IBMPC/WIN_NT64-9.1.0", "IBMPC/WIN_NT-8.1.0", "Linuxi386/Linux-2.0.34-8.1.0", "x86_64/Linux 2.4.xx" } local status, data = self.socket:connect( self.host.ip, self.port.number, "tcp" ) local conn, packet, tns if( not(status) ) then return status, data end self.comm = Comm:new( self.socket ) status, self.version = self.comm:exchTNSPacket( Packet.Connect:new( self.host.ip, self.port.number, self.dbinstance ) ) if ( not(status) ) then return false, self.version end if ( self.version ~= ORACLE_VERSION_11G and self.version ~= ORACLE_VERSION_10G ) then return false, ("Unsupported Oracle Version (%d)"):format(self.version) end status = self.comm:exchTNSPacket( Packet.SNS:new( self.version ) ) if ( not(status) ) then return false, "ERROR: Helper.Connect failed" end status, self.os = self.comm:exchTNSPacket( Packet.ProtoNeg:new( self.version ) ) if ( not(status) ) then return false, data end -- used for testing unsupported versions self.os = stdnse.get_script_args("tns.forceos") or self.os status = false for _, ver in pairs(SUPPORTED_VERSIONS) do if ( self.os == ver ) then status = true break end end if ( not(status) ) then stdnse.debug2("ERROR: Version %s is not yet supported", self.os) return false, ("ERROR: Connect to version %s is not yet supported"):format(self.os) end if ( self.os:match("IBMPC/WIN_NT") ) then status = self.comm:sendTNSPacket( Packet.Unknown1:new( self.os ) ) if ( not(status) ) then return false, "ERROR: Helper.Connect failed" end status, data = self.comm:sendTNSPacket( Packet.Unknown2:new( self.os ) ) if ( not(status) ) then return false, data end status, data = self.comm:recvTNSPacket( Packet.Unknown2:new( ) ) if ( not(status) ) then return false, data end -- Oracle 10g under Windows needs this additional read, there's -- probably a better way to detect this by analysing the packets -- further. if ( self.version == ORACLE_VERSION_10G ) then status, data = self.comm:recvTNSPacket( Packet.Unknown2:new( ) ) if ( not(status) ) then return false, data end end elseif ( "x86_64/Linux 2.4.xx" == self.os ) then status = self.comm:sendTNSPacket( Packet.Unknown1:new( self.os ) ) if ( not(status) ) then return false, "ERROR: Helper.Connect failed" end status = self.comm:sendTNSPacket( Packet.Unknown2:new( self.os ) ) if ( not(status) ) then return false, "ERROR: Helper.Connect failed" end status, data = self.comm:recvTNSPacket( Packet.Unknown2:new( ) ) if ( not(status) ) then return false, data end else status = self.comm:exchTNSPacket( Packet.Unknown1:new( self.os ) ) if ( not(status) ) then return false, "ERROR: Helper.Connect failed" end end return true end, --- Sends a command to the TNS lsnr -- It currently accepts and tries to send all commands received -- -- @param cmd string containing the command to send to the server -- @return data string containing the result received from the server lsnrCtl = function( self, cmd ) local status, data = self.socket:connect( self.host.ip, self.port.number, "tcp" ) local conn, packet, tns, pkt if( not(status) ) then return status, data end self.comm = Comm:new( self.socket ) pkt = Packet.Connect:new( self.host.ip, self.port.number, self.dbinstance ) pkt:setCmd(cmd) if ( not(self.comm:exchTNSPacket( pkt )) ) then return false, self.version end data = {} repeat status, tns = self.comm:recvTNSPacket() if ( not(status) ) then self:Close() return status, tns end local flags = string.unpack(">I2", tns.data ) data[#data+1] = tns.data:sub(3) until ( flags ~= 0 ) self:Close() return true, table.concat(data) end, --- Authenticates to the database -- -- @param user containing the Oracle user name -- @param pass containing the Oracle user password -- @return true on success, false on failure -- @return err containing error message when status is false Login = function( self, user, password ) local data, packet, status, tns, parser local sesskey_enc, auth_pass, auth local auth_options = AuthOptions:new() status, auth = self.comm:exchTNSPacket( Packet.PreAuth:new( user, auth_options, self.os ) ) if ( not(status) ) then return false, auth end -- Check what version of the DB to authenticate against AND verify whether -- case sensitive login is enabled or not. In case-sensitive mode the salt -- is longer, so we check the length of auth["AUTH_VFR_DATA"] if ( self.version == ORACLE_VERSION_11G and #auth["AUTH_VFR_DATA"] > 2 ) then sesskey_enc, auth_pass = Crypt:Encrypt11g( password, stdnse.fromhex(auth["AUTH_SESSKEY"]), stdnse.fromhex(auth["AUTH_VFR_DATA"]) ) else sesskey_enc, auth_pass = Crypt:Encrypt10g( user, password, stdnse.fromhex(auth["AUTH_SESSKEY"]) ) end status, data = self.comm:exchTNSPacket( Packet.Auth:new( user, auth_options, sesskey_enc, auth_pass, self.os ) ) if ( not(status) ) then return false, data end self.auth_session = data["AUTH_SESSION_ID"] return true end, --- Steal auth data from database -- @param user containing the Oracle user name -- @param pass containing the Oracle user password -- @return true on success, false on failure -- @return err containing error message when status is false StealthLogin = function( self, user, password ) local data, packet, status, tns, parser local sesskey_enc, auth_pass, auth local auth_options = AuthOptions:new() status, auth = self.comm:exchTNSPacket( Packet.PreAuth:new( user, auth_options, self.os ) ) if ( not(status) ) then return false, auth elseif ( auth["AUTH_SESSKEY"] ) then return true, auth else return false end end, --- Queries the database -- -- @param query string containing the SQL query -- @return true on success, false on failure -- @return result table containing fields -- rows -- columns -- @return err containing error message when status is false Query = function(self, query) local SUPPORTED_VERSIONS = { "IBMPC/WIN_NT-8.1.0", } local status = false for _, ver in pairs(SUPPORTED_VERSIONS) do if ( self.os == ver ) then status = true break end end if ( not(status) ) then stdnse.debug2("ERROR: Version %s is not yet supported", self.os) return false, ("ERROR: Querying version %s is not yet supported"):format(self.os) end if ( not(query) ) then return false, "No query was supplied by user" end local data status, data = self.comm:exchTNSPacket( Packet.PostLogin:new(self.auth_session) ) if ( not(status) ) then return false, "ERROR: Postlogin packet failed" end local status, result = self.comm:exchTNSPacket( Packet.Query:new(query) ) if ( not(status) ) then return false, result end if ( not(result.moredata) ) then return true, result.data end result = result.data repeat status, data = self.comm:exchTNSPacket( Packet.QueryResponseAck:new(result) ) until(not(status) or data:match(".*ORA%-01403: no data found\n$")) return true, result end, --- Ends the Oracle communication Close = function( self ) -- We should probably stick some slick sqlplus termination stuff in here local status = self.comm:sendTNSPacket( Packet.EOF:new( ) ) self.socket:close() end, } return _ENV;