--- -- GIOP Library supporting a very limited subset of operations -- -- Summary -- ------- -- The library currently provides functionality to connect and query the -- CORBA naming service for a list of available objects. -- -- -- 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 over the -- the Socket class. -- -- o Helper -- - A helper class that provides easy access to the rest of the library -- -- o Socket -- - This is a copy of the DB2Socket class which provides fundamental -- buffering -- -- -- Example -- ------- -- The following sample code illustrates how scripts can use the Helper class -- to interface the library: -- -- -- helper = giop.Helper:new(host, port) -- status, err = helper:Connect() -- status, ctx = helper:GetNamingContext() -- status, objs = helper:ListObjects(ctx) -- -- -- Additional information -- ---------------------- -- The implementation is based on packet dumps and the decoding Wireshark -- provides. -- -- This implementation is tested and known to work against: -- x Sun's JAVA orbd -- -- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html -- @author "Patrik Karlsson " -- -- -- Version 0.1 -- Created 08/07/2010 - v0.1 - created by Patrik Karlsson -- module(... or "giop", package.seeall) -- A bunch of constants Constants = { SyncScope = { WITH_TARGET = 3, }, ServiceContext = { CODESETS = 1, SENDING_CONTEXT_RUNTIME = 6, NEO_FIRST_SERVICE_CONTEXT = 1313165056, }, ReplyStatus = { SYSTEM_EXCEPTION = 2, }, VERSION_1_0 = 1, VERSION_1_2 = 0x0201, NAMESERVICE = "NameService\0", } Packet = {} Packet.GIOP = { magic = "GIOP", version = 0x0001, byte_order = 0, --- Creates a Packet.GIOP -- -- @param msgtype number containing the messaget type -- @param data string conatining the message data -- @return obj a new Packet.GIOP instance new = function( self, msgtype, data ) local o = {} setmetatable(o, self) self.__index = self o.type = msgtype o.data = data o.size = data and #data or 0 return o end, --- Converts the class to a string suitable to send over the socket -- -- @return string containing the instance data __tostring = function( self ) return bin.pack("IA", self.magic, self.version, self.byte_order, self.type, self.size, self.data ) end, --- Sets the packet version -- -- @param version number containing the version to use setVersion = function( self, version ) self.version = version end, --- Receives the packet over the socket -- -- @param socket containing the already connected socket -- @return status true on success, false on failure -- @return err containing the error message if status is false recv = function( self, socket ) local status, data = socket:recv( 12 ) local pos if ( not(status) ) then return false, "Failed to read Packet.GIOP" end pos, self.magic, self.version, self.byte_order, self.type = bin.unpack("" or "<") .. "I", data, pos ) status, data = socket:recv( self.size ) if ( not(status) ) then return false, "Failed to read Packet.GIOP" end self.data = data return true end, } ServiceContext = { --- Creates a ServiceContext -- -- @param id number containing the context id -- @param data the service context data -- @param pad [optional] number used to pad after the service context -- @return obj a new ServiceContext instance new = function( self, id, data, pad ) local o = {} setmetatable(o, self) self.__index = self o.id = id o.data = data or "" o.pad = pad return o end, --- Converts the class to a string suitable to send over the socket -- -- @return string containing the instance data __tostring = function( self ) if ( self.pad ) then return bin.pack(">IIAS", self.id, #self.data, self.data, self.pad) else return bin.pack(">IIA", self.id, #self.data, self.data) end end, } --- Creates a SendingContextRuntime SendingContextRuntime = { --- Creates a SendingContextRuntime -- -- @param lhost string containing the source ip address -- @return obj a new SendingContextRuntime instance new = function(self, lhost ) local o = {} setmetatable(o, self) self.__index = self o.data = bin.pack(">HIAH", [[ 000000000000002849444c3a6f6d672e6f72672f53656e64696e67436f6e746 578742f436f6465426173653a312e300000000001000000000000006e000102 00 ]], #lhost + 1, lhost .. "\0", [[ 00ec5100000019afabcb000000000249765d6900000008000000000000000014 0000000000000200000001000000200000000000010001000000020501000100 01002000010109000000010001010000000026000000020002 ]] ) return o end, --- Converts the class to a string suitable to send over the socket -- -- @return string containing the instance data __tostring = function( self ) return self.data end, } Packet.GIOP.reply = { --- Creates a new Packet.GIOP.reply instance -- -- @return obj a new Packet.GIOP.get instance new = function( self ) local o = {} setmetatable(o, self) self.__index = self self.sc = {} self.GIOP = Packet.GIOP:new() return o end, --- Receives a Packet.GIOP.reply from the socket -- -- @param socket already connected to the server -- @return status true on success, false on failure -- @return err error message if status is false recv = function( self, socket ) local status, err = self.GIOP:recv( socket ) local pos, tmp local bo = ( self.GIOP.byte_order == 0 and ">" or "<") if( not(status) ) then return false, err end if ( self.GIOP.version == Constants.VERSION_1_2 ) then pos, self.request_id, self.reply_status = bin.unpack(bo .. "II", self.GIOP.data, pos ) pos, tmp = bin.unpack( bo .. "I", self.GIOP.data, pos ) elseif ( self.GIOP.version == Constants.VERSION_1_0 ) then pos, tmp = bin.unpack( bo .. "I", self.GIOP.data ) end for i=1, tmp do local ctx_id, ctx_len, ctx_data pos, ctx_id, ctx_len = bin.unpack( bo .. "II", self.GIOP.data, pos ) pos, ctx_data = bin.unpack("A" .. ctx_len, self.GIOP.data, pos ) if ( i ~= tmp ) then pos = pos + 2 end table.insert( self.sc, ServiceContext:new( ctx_id, ctx_data ) ) end if ( self.GIOP.version == Constants.VERSION_1_0 ) then pos, self.request_id, self.reply_status, self.stub_data = bin.unpack( bo .. "IIA" .. ( #self.GIOP.data - pos - 8 ), self.GIOP.data, pos ) elseif ( pos < #self.GIOP.data ) then pos, self.data = bin.unpack("A" .. (#self.GIOP.data - pos), self.GIOP.data, pos ) end return true end, } Packet.GIOP.get = { resp_expected = 1, key_length = 4, princ_len = 0, --- Creates a new Packet.GIOP._is_a instance -- -- @param id the packet identifier -- @param key number containing the object key -- @param data string containing the stub data -- @return obj a new Packet.GIOP.get instance new = function( self, id, key, data ) local o = {} setmetatable(o, self) self.__index = self o.op = "get\0" o.id = id o.key = key o.data = data o.sc = {} return o end, --- Creates and adds a service context to the packet -- -- @param id number containing the context id -- @param data the service context data -- @param pad [optional] number used to pad after the service context addServiceContext = function( self, id, data, pad ) table.insert( self.sc, ServiceContext:new(id, data, pad) ) end, --- Converts the class to a string suitable to send over the socket -- -- @return string containing the packet data __tostring = function( self ) local data = bin.pack(">I", #self.sc) local pad = 0 for i=1, #self.sc do local tmp = tostring( self.sc[i]) data = data .. bin.pack("A", tmp ) end data = data .. bin.pack( ">ICCCCIIIAIA", self.id, self.resp_expected, pad, pad, pad, self.key_length, self.key, #self.op, self.op, self.princ_len, self.data ) return tostring( Packet.GIOP:new( 0, data ) ) end, } Packet.GIOP._is_a = { --- Creates a new Packet.GIOP._is_a instance -- -- @param id the packet identifier -- @param flags [optional] -- @param keyaddr string containing the keyaddr data -- @return obj a new Packet.GIOP._is_a instance new = function( self, id, flags, key_addr ) local o = {} setmetatable(o, self) self.__index = self o.op = "_is_a\0" o.id = id o.target_addr = 0 -- KeyAddr o.key_addr = key_addr o.flags = flags or Constants.SyncScope.WITH_TARGET -- SyncScope WITH_TARGET o.sc = {} return o end, --- Creates and adds a service context to the packet -- -- @param id number containing the context id -- @param data the service context data -- @param pad [optional] number used to pad after the service context addServiceContext = function( self, id, data, pad ) table.insert( self.sc, ServiceContext:new(id, data, pad) ) end, --- Converts the class to a string suitable to send over the socket -- -- @return string containing the packet data __tostring = function( self ) local TYPE_ID = "IDL:omg.org/CosNaming/NamingContextExt:1.0\0" local RESERVED = 0 local UNKNOWN, UNKNOWN2, UNKNOWN3 = 2, 1, 0 local data = bin.pack(">ICCCCSSIAIASI", self.id, self.flags, RESERVED, RESERVED, RESERVED, self.target_addr, UNKNOWN, #self.key_addr, self.key_addr, #self.op, self.op, UNKNOWN2, #self.sc ) for i=1, #self.sc do local tmp = tostring( self.sc[i]) data = data .. bin.pack("A", tmp ) end data = data .. bin.pack(">IA", #TYPE_ID, TYPE_ID) local packet = Packet.GIOP:new( 0, data ) packet:setVersion( Constants.VERSION_1_2 ) return tostring( packet ) end, } Packet.GIOP.list = { --- Creates a new Packet.GIOP.list instance -- -- @param id the packet identifier -- @param flags [optional] -- @param keyaddr string containing the keyaddr data -- @param how_many string containing the value to retrieve -- @return obj a new Packet.GIOP.list instance new = function( self, id, flags, keyaddr, how_many ) local o = {} setmetatable(o, self) self.__index = self o.op = "list\0" o.id = id o.flags = flags or Constants.SyncScope.WITH_TARGET o.target_addr = 0 -- KeyAddr o.key_addr = keyaddr o.how_many = how_many or 1000 o.sc = {} return o end, --- Creates and adds a service context to the packet -- -- @param id number containing the context id -- @param data the service context data -- @param pad [optional] number used to pad after the service context addServiceContext = function( self, id, data, pad ) table.insert( self.sc, ServiceContext:new(id, data, pad) ) end, --- Converts the class to a string suitable to send over the socket -- -- @return string containing the packet data __tostring = function( self ) local RESERVED = 0 local UNKNOWN, UNKNOWN2, UNKNOWN3 = 2, 1, 6 local data = bin.pack(">ICCCCSSIAIACCCI", self.id, self.flags, RESERVED, RESERVED, RESERVED, self.target_addr, UNKNOWN, #self.key_addr, self.key_addr, #self.op, self.op, RESERVED, RESERVED, UNKNOWN2, #self.sc ) for i=1, #self.sc do local tmp = tostring( self.sc[i]) data = data .. bin.pack("A", tmp ) end data = data .. bin.pack(">II", UNKNOWN3, self.how_many ) local packet = Packet.GIOP:new( 0, data ) packet:setVersion( Constants.VERSION_1_2 ) return tostring( packet ) end, } -- A socket implementation that provides fundamental buffering and allows for -- reading of an exact number of bytes, instead of atleast ... Socket = { new = function(self, socket) local o = {} setmetatable(o, self) self.__index = self o.Socket = socket or nmap.new_socket() o.Buffer = nil return o end, getSrcIp = function( self ) local status, lhost, _, _, _ = self.Socket:get_info() if (not(status)) then return false, "Error failed to get socket information" end return true, lhost end, --- Establishes a connection. -- -- @param hostid Hostname or IP address. -- @param port Port number. -- @param protocol "tcp", "udp", or -- @return Status (true or false). -- @return Error code (if status is false). connect = function( self, hostid, port, protocol ) local status = 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 socket:receive_bytes 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) or #data < count - #self.Buffer ) 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, } -- Static class containing various message decoders MessageDecoder = { --- Decodes a get response -- -- @param packet the GIOP packet as recieved by the comm -- exchGIOPPacket function -- @return status true on success, false on failure -- @return table containing ip and ctx ["get"] = function( packet ) local bo = ( packet.GIOP.byte_order == 0 and ">" or "<") local pos, len = bin.unpack(bo .. "I", packet.stub_data) local ip, ctx pos = pos + len + 16 pos, len = bin.unpack(bo .. "I", packet.stub_data, pos) print("len", len) pos, ip = bin.unpack( bo .. "A" .. len, packet.stub_data, pos) print("tmp", ip) pos = pos + 3 pos, len = bin.unpack(bo .. "I", packet.stub_data, pos) print("len", len) pos, ctx = bin.unpack( bo .. "A" .. len, packet.stub_data, pos) return true, { ip = ip, ctx = ctx} end, --- Decodes a _is_a response (not implemented) -- -- @param packet the GIOP packet as recieved by the comm -- exchGIOPPacket function -- @return status, always true ["_is_a"] = function( packet ) return true end, --- Decodes a list response -- -- @param packet the GIOP packet as recieved by the comm -- exchGIOPPacket function -- @return status true on success, false on failure -- @return table containing id, kind and -- enum or error message if status is false ["list"] = function( packet ) local bo = ( packet.GIOP.byte_order == 0 and ">" or "<") local pos, seq_len = bin.unpack( bo .. "I", packet.data, 7) local objs = {} for i=1, seq_len do local seq_len_of_bind_name local len, name local obj = {} pos, seq_len_of_bind_name = bin.unpack( bo .. "I", packet.data, pos) if ( seq_len_of_bind_name ~= 1 ) then return false, "Sequence length of Binding_binding_name was greater than 1" end pos, len = bin.unpack( bo .. "I", packet.data, pos ) pos, obj.id = bin.unpack( "A" .. len - 1, packet.data, pos ) -- Account for terminating zero pos = pos + 1 -- Account for undecoded data pos = pos + ( ( len % 4 > 0 ) and ( 4 - ( len % 4 ) ) or 0 ) pos = pos + 3 pos, obj.kind = bin.unpack("C", packet.data, pos) -- Account for undecoded data pos = pos + 4 pos, obj.enum = bin.unpack( bo .. "I", packet.data, pos ) table.insert( objs, obj ) end return true, objs end, } Comm = { --- Creates a new Comm instance -- -- @param socket containing a buffered socket connected to the server -- @return a new Comm instance new = function(self, socket) local o = {} setmetatable(o, self) self.__index = self o.socket = socket return o end, --- Sends and recieves a GIOP packet -- -- @param packet containing a Packet.* object, the object must -- implement the __tostring meta method -- @return status true on success, false on failure -- @return data decoder specific data, see the corresponding -- MessageDecoder for more information. exchGIOPPacket = function( self, packet ) local status, err = self.socket:send( tostring(packet) ) local op = packet.op:sub(1, -2) local data if( not(status) ) then return false, err end packet = Packet.GIOP.reply:new() status, err = packet:recv( self.socket ) if( not(status) ) then return false, err end if ( MessageDecoder[op] ) then status, data = MessageDecoder[op]( packet ) else return false, ("No message decoder for op (%s)"):format(op) end return status, data end, } Helper = { new = function(self, host, port ) local o = {} setmetatable(o, self) self.__index = self o.host = host o.port = port o.socket = Socket:new() return o end, GetNamingContext = function( self ) local packet = Packet.GIOP.get:new( 5, 0x494e4954, bin.pack(">IA", #Constants.NAMESERVICE, Constants.NAMESERVICE) ) local status, ctx, lhost, pos, len, bo, tmp packet:addServiceContext( 17, string.char(0x00, 0x02), 0) packet:addServiceContext( Constants.ServiceContext.NEO_FIRST_SERVICE_CONTEXT, string.char(0x00, 0x14), 0) packet:addServiceContext( Constants.ServiceContext.SENDING_CONTEXT_RUNTIME, tostring(SendingContextRuntime:new( self.lhost )), 0 ) status, packet = self.comm:exchGIOPPacket( packet ) if( not(status) ) then return status, packet end return true, packet.ctx end, ListObjects = function( self, keyaddr ) -- SyncScope WITH_TARGET local packet = Packet.GIOP._is_a:new( 5, Constants.SyncScope.WITH_TARGET, keyaddr ) local status, err, lhost status, err = self:Reconnect() if( not(status) ) then return false, err end packet:addServiceContext( 17, "\0\2", 0x000d) packet:addServiceContext( Constants.ServiceContext.CODESETS, "\0\0\0\0\0\1\0\1\0\1\1\9" ) packet:addServiceContext( Constants.ServiceContext.NEO_FIRST_SERVICE_CONTEXT, string.char(0x00, 0x14), 0x5d69) packet:addServiceContext( Constants.ServiceContext.SENDING_CONTEXT_RUNTIME, tostring(SendingContextRuntime:new( self.lhost )), 0 ) status, packet = self.comm:exchGIOPPacket( packet ) if( not(status) ) then return status, packet end packet = Packet.GIOP.list:new( Constants.ServiceContext.SENDING_CONTEXT_RUNTIME, Constants.SyncScope.WITH_TARGET, keyaddr, 1000 ) packet:addServiceContext( 17, "\0\2", 0x000d) packet:addServiceContext( Constants.ServiceContext.CODESETS, "\0\0\0\0\0\1\0\1\0\1\1\9" ) packet:addServiceContext( Constants.ServiceContext.NEO_FIRST_SERVICE_CONTEXT, string.char(0x00, 0x14), 0x9c9b) status, packet = self.comm:exchGIOPPacket( packet ) if( not(status) ) then return status, packet end return true, packet 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 status, data = self.socket:connect( self.host.ip, self.port.number, "tcp" ) if( not(status) ) then return status, data end self.comm = Comm:new( self.socket ) status, self.lhost = self.socket:getSrcIp() if ( not(status) ) then self.socket:close() return false, self.lhost end return true end, Close = function( self ) return self.socket:close() end, Reconnect = function( self ) local status = self:Close() if( not(status) ) then return false, "Failed to close socket" end status = self:Connect() if( not(status) ) then return false, "Failed to re-connect socket" end return true end, }