---Implement a Dynamic Host Configuration Protocol (DHCP) client. -- -- DHCP, defined in rfc2132 and rfc2131, is a protocol for hosts to automatically -- configure themselves on a network (that is, obtain an ip address). This library, -- which have a trivial one-function interface, can send out DHCP packets of many -- types and parse the responses. -- module(... or "dhcp", package.seeall) require 'bin' require 'bit' require 'ipOps' require 'stdnse' request_types = { DHCPDISCOVER = 1, DHCPOFFER = 2, DHCPREQUEST = 3, DHCPDECLINE = 4, DHCPACK = 5, DHCPNAK = 6, DHCPRELEASE = 7, DHCPINFORM = 8 } request_types_str = {} request_types_str[1] = "DHCPDISCOVER" request_types_str[2] = "DHCPOFFER" request_types_str[3] = "DHCPREQUEST" request_types_str[4] = "DHCPDECLINE" request_types_str[5] = "DHCPACK" request_types_str[6] = "DHCPNAK" request_types_str[7] = "DHCPRELEASE" request_types_str[8] = "DHCPINFORM" ---Read an IP address or a list of IP addresses. Print an error if the length isn't a multiple of 4. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_ip(data, pos, length) if(length ~= 4) then if((length % 4) ~= 0) then stdnse.print_debug(1, "dhcp-discover: Invalid length for an ip address (%d)", length) pos = pos + length return pos, nil else local results = {} for i=1, length, 4 do local value pos, value = bin.unpack("request_types_str -- table. Print an error if the length isn't 1. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_message_type(data, pos, length) local value pos, value = read_1_byte(data, pos, length) if(value == nil) then stdnse.print_debug(1, "dhcp-discover: Couldn't read the 1-byte message type") return pos, nil end return pos, request_types_str[value] end ---Read a single byte, and return 'false' if it's 0, or 'true' if it's non-zero. Print an error if the -- length isn't 1. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_boolean(data, pos, length) local result pos, result = read_1_byte(data, pos, length) if(result == nil) then stdnse.print_debug(1, "dhcp-discover: Couldn't read the 1-byte boolean") return pos, nil elseif(result == 0) then return pos, "false" else return pos, "true" end end ---Read a 2-byte unsigned little endian value. Print an error if the length isn't 2. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_2_bytes(data, pos, length) if(length ~= 2) then stdnse.print_debug(1, "dhcp-discover: Invalid length for data (%d; should be %d)", length, 2) pos = pos + length return pos, nil end return bin.unpack(">S", data, pos) end ---Read a list of 2-byte unsigned little endian values. Print an error if the length isn't a multiple -- of 2. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_2_bytes_list(data, pos, length) if((length % 2) ~= 0) then stdnse.print_debug(1, "dhcp-discover: Invalid length for data (%d; should be multiple of %d)", length, 2) pos = pos + length return pos, nil else local results = {} for i=1, length, 2 do local value pos, value = bin.unpack(">S", data, pos) table.insert(results, value) end return pos, results end end ---Read a 4-byte unsigned little endian value. Print an error if the length isn't 4. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_4_bytes(data, pos, length) if(length ~= 4) then stdnse.print_debug(1, "dhcp-discover: Invalid length for data (%d; should be %d)", length, 4) pos = pos + length return pos, nil end return bin.unpack(">I", data, pos) end ---Read a 4-byte unsigned little endian value, and interpret it as a time offset value. Print an -- error if the length isn't 4. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_time(data, pos, length) local result if(length ~= 4) then stdnse.print_debug(1, "dhcp-discover: Invalid length for data (%d; should be %d)", length, 4) pos = pos + length return pos, nil end pos, result = bin.unpack(">I", data, pos) -- This code was mostly taken from snmp-sysdescr.nse. It should probably be abstracted into stdnse.lua [TODO] local days, hours, minutes, seconds, htime, mtime, stime days = math.floor(result / 86400) htime = math.fmod(result, 86400) hours = math.floor(htime / 3600) mtime = math.fmod(htime, 3600) minutes = math.floor(mtime / 60) seconds = math.fmod(mtime, 60) local dayLabel if days == 1 then dayLabel = "day" else dayLabel = "days" end return pos, string.format("%d %s, %d:%02d:%02d", days, dayLabel, hours, minutes, seconds) end ---Read a list of static routes. Each of them are a pair of IP addresses, a destination and a -- router. Print an error if the length isn't a multiple of 8. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_static_route(data, pos, length) if((length % 8) ~= 0) then stdnse.print_debug(1, "dhcp-discover: Invalid length for data (%d; should be multiple of %d)", length, 8) pos = pos + length return pos, nil else local results = {} for i=1, length, 8 do local destination, router pos, destination = read_ip(data, pos, 4) pos, router = read_ip(data, pos, 4) table.insert(results, {destination=destination, router=router}) end return pos, results end end ---Read a list of policy filters. Each of them are a pair of IP addresses, an address and a -- mask. Print an error if the length isn't a multiple of 8. -- --@param data The packet. --@param pos The position in the packet. --@param length The length that the server claims the field is. --@return The new position (will always be pos + length, no matter what we think it should be) --@return The value of the field, or nil if the field length was wrong. local function read_policy_filter(data, pos, length) if((length % 8) ~= 0) then stdnse.print_debug(1, "dhcp-discover: Invalid length for data (%d; should be multiple of %d)", length, 8) pos = pos + length return pos, nil else local results = {} for i=1, length, 8 do local address, router, mask pos, address = read_ip(data, pos, 4) pos, mask = read_ip(data, pos, 4) table.insert(results, {address=address, mask=mask}) end return pos, results end end ---These are the different fields for DHCP. These have to come after the read_* function -- definitions. local actions = {} actions[1] = {name="Subnet Mask", func=read_ip, default=true} actions[2] = {name="Time Offset", func=read_4_bytes, default=false} actions[3] = {name="Router", func=read_ip, default=true} actions[4] = {name="Time Server", func=read_ip, default=true} actions[5] = {name="Name Server", func=read_ip, default=true} actions[6] = {name="Domain Name Server", func=read_ip, default=true} actions[7] = {name="Log Server", func=read_ip, default=true} actions[8] = {name="Cookie Server", func=read_ip, default=true} actions[9] = {name="LPR Server", func=read_ip, default=true} actions[10] = {name="Impress Server", func=read_ip, default=true} actions[11] = {name="Resource Location Server", func=read_ip, default=true} actions[12] = {name="Hostname", func=read_string, default=true} actions[13] = {name="Boot File Size", func=read_2_bytes, default=false} actions[14] = {name="Merit Dump File", func=read_string, default=false} actions[15] = {name="Domain Name", func=read_string, default=true} actions[16] = {name="Swap Server", func=read_ip, default=true} actions[17] = {name="Root Path", func=read_string, default=false} actions[18] = {name="Extensions Path", func=read_string, default=false} actions[19] = {name="IP Forwarding", func=read_boolean, default=false} actions[20] = {name="Non-local Source Routing", func=read_boolean, default=true} actions[21] = {name="Policy Filter", func=read_policy_filter, default=false} actions[22] = {name="Maximum Datagram Reassembly Size",func=read_2_bytes, default=false} actions[23] = {name="Default IP TTL", func=read_1_byte, default=false} actions[24] = {name="Path MTU Aging Timeout", func=read_time, default=false} actions[25] = {name="Path MTU Plateau", func=read_2_bytes_list, default=false} actions[26] = {name="Interface MTU", func=read_2_bytes, default=false} actions[27] = {name="All Subnets are Local", func=read_boolean, default=false} actions[28] = {name="Broadcast Address", func=read_ip, default=true} actions[29] = {name="Perform Mask Discovery", func=read_boolean, default=false} actions[30] = {name="Mask Supplier", func=read_boolean, default=false} actions[31] = {name="Perform Router Discovery", func=read_boolean, default=false} actions[32] = {name="Router Solicitation Address", func=read_ip, default=true} actions[33] = {name="Static Route", func=read_static_route, default=true} actions[34] = {name="Trailer Encapsulation", func=read_boolean, default=false} actions[35] = {name="ARP Cache Timeout", func=read_time, default=false} actions[36] = {name="Ethernet Encapsulation", func=read_boolean, default=false} actions[37] = {name="TCP Default TTL", func=read_1_byte, default=false} actions[38] = {name="TCP Keepalive Interval", func=read_4_bytes, default=false} actions[39] = {name="TCP Keepalive Garbage", func=read_boolean, default=false} actions[40] = {name="NIS Domain", func=read_string, default=true} actions[41] = {name="NIS Servers", func=read_ip, default=true} actions[42] = {name="NTP Servers", func=read_ip, default=true} actions[43] = {name="Vendor Specific Information", func=read_string, default=false} actions[44] = {name="NetBIOS Name Server", func=read_ip, default=true} actions[45] = {name="NetBIOS Datagram Server", func=read_ip, default=true} actions[46] = {name="NetBIOS Node Type", func=read_1_byte, default=false} actions[47] = {name="NetBIOS Scope", func=read_string, default=false} actions[48] = {name="X Window Font Server", func=read_ip, default=true} actions[49] = {name="X Window Display Manager", func=read_ip, default=true} actions[50] = {name="Requested IP Address (client)", func=read_ip, default=false} actions[51] = {name="IP Address Lease Time", func=read_time, default=false} actions[52] = {name="Option Overload", func=read_1_byte, default=false} actions[53] = {name="DHCP Message Type", func=read_message_type, default=false} actions[54] = {name="Server Identifier", func=read_ip, default=true} actions[55] = {name="Parameter Request List (client)", func=read_string, default=false} actions[56] = {name="Error Message", func=read_string, default=true} actions[57] = {name="Maximum DHCP Message Size", func=read_2_bytes, default=false} actions[58] = {name="Renewal Time Value", func=read_time, default=false} actions[59] = {name="Rebinding Time Value", func=read_time, default=false} actions[60] = {name="Class Identifier", func=read_string, default=false} actions[61] = {name="Client Identifier (client)", func=read_string, default=false} --- Does the send/receive, doesn't build/parse anything. local function dhcp_send(interface, host, packet, transaction_id) local socket local status, err, data local result local results = {} local bind_socket = nmap.new_socket("udp") bind_socket:bind(nil, 68) bind_socket:set_timeout(5000) stdnse.print_debug(1, "dhcp: Starting listener") -- Create the UDP socket (TODO: enable SO_BROADCAST if we need to) socket = nmap.new_socket() status, err = socket:connect(host, 67, "udp") if(status == false) then return false, "Couldn't create socket: " .. err end stdnse.print_debug(1, "dhcp: Created UDP socket") -- Send out the packet socket:send(packet) -- Read the response local status, data = bind_socket:receive() -- This pulls back 4 bytes in the packet that correspond to the transaction id. This should be randomly -- generated and different for every instance of a script (to prevent collisions) while status and data:sub(5, 8) ~= transaction_id do local status, data = bind_socket:receive() end if(status == false) then stdnse.print_debug(1, "dhcp: Error calling bind_socket:receive(): %s", err) return false, "Error calling bind_socket:receive(): " .. err end -- If no data was captured (ie, a timeout), return an error if(data == nil) then stdnse.print_debug(1, "dhcp: Error calling pcap_receive(): TIMEOUT") return false, "TIMEOUT" end -- Close our sockets socket:close() bind_socket:close() -- Finally, return the data return true, data end --- Builds a DHCP packet -- --@param request_type The type of request as an integer (use the request_types table at the -- top of this file). --@param ip_address Your ip address (as a dotted-decimal string). This tells the DHCP server where to -- send the response. Setting it to "255.255.255.255" or "0.0.0.0" is generally acceptable (if not, -- host.ip_src can work). --@param mac_address Your mac address (as a string up to 16 bytes) where the server will send the response. Like -- ip_address, setting to the broadcast address (FF:FF:FF:FF:FF:FF) is -- common (host.mac_addr_src works). --@param request_options [optional] The options to request from the server, as an array of integers. For the -- acceptable options, see the actions table above or have a look at rfc2132. -- Some DHCP servers (such as my Linksys WRT54g) will ignore this list and send whichever -- information it wants. Default: all options marked as 'default' in the actions -- table above are requested (the typical interesting ones) if no verbosity is given. -- If any level of verbosity is on, get all types. --@param overrides [optional] A table of overrides. If a field in the table matches a field in the DHCP -- packet (see rfc2131 section 2 for a list of possible fields), the value in the table -- will be sent instead of the default value. --@param lease_time [optional] The lease time used when requestint an IP. Default: 1 second. --@param transaction_id The identity of the transaction. -- --@return status (true or false) --@return The parsed response, as a table. function dhcp_build(request_type, ip_address, mac_address, request_options, overrides, lease_time, transaction_id) local packet = '' -- Set up the default overrides if(overrides == nil) then overrides = {} end if(request_options == nil) then -- Request the defaults, or there's no verbosity; otherwise, request everything! request_options = '' for i = 1, 61, 1 do if(nmap.verbosity() > 0) then request_options = request_options .. string.char(i) else if(actions[i] and actions[i].default) then request_options = request_options .. string.char(i) end end end end -- Header packet = packet .. bin.pack(">CCCC", overrides['op'] or 1, overrides['htype'] or 1, overrides['hlen'] or 6, overrides['hops'] or 0) -- BOOTREQUEST, 10mb ethernet, 6 bytes long, 0 hops packet = packet .. transaction_id -- Transaction ID packet = packet .. bin.pack(">SS", overrides['secs'] or 0, overrides['flags'] or 0x0000) -- Secs, flags packet = packet .. bin.pack("A", ip_address) -- Client address packet = packet .. bin.pack("I", overrides['cookie'] or 0x63825363) -- Magic cookie -- Options packet = packet .. bin.pack(">CCC", 0x35, 1, request_type) -- Request type packet = packet .. bin.pack(">CCA", 0x37, #request_options, request_options) -- Request options packet = packet .. bin.pack(">CCI", 0x33, 4, lease_time or 1) -- Lease time packet = packet .. bin.pack(">C", 0xFF) -- Termination return true, packet end ---Parse a DHCP packet (either a request or a response) and return the results as a table. The -- table at the top of this function (actions) defines the name of each field, as -- laid out in rfc2132, and the function that parses it. -- -- In theory, this should be able to parse any valid DHCP packet. -- --@param data The DHCP packet data. Any padding at the end of the packet will be ignored (by default, -- DHCP packets are padded with \x00 bytes). function dhcp_parse(data, transaction_id) local pos = 1 local result = {} -- Receive the first bit and make sure we got the correct operation back pos, result['op'], result['htype'], result['hlen'], result['hops'] = bin.unpack(">CCCC", data, pos) if(result['op'] ~= 2) then return false, string.format("DHCP server returned invalid reply ('op' wasn't BOOTREPLY (it was 0x%02x))", result['op']) end -- Confirm the transaction id pos, result['xid'] = bin.unpack("A4", data, pos) if(result['xid'] ~= transaction_id) then return false, string.format("DHCP server returned invalid reply (transaction id didn't match (%s != %s))", result['xid'], transaction_id) end -- Unpack the secs, flags, addresses, sname, and file pos, result['secs'], result['flags'] = bin.unpack(">SS", data, pos) pos, result['ciaddr'] = bin.unpack("I", data, pos) if(result['cookie'] ~= 0x63825363) then return false, "DHCP server returned invalid reply (the magic cookie was invalid)" end -- Parse the options result['options'] = {} while true do local option, length pos, option, length = bin.unpack(">CC", data, pos) -- Check for termination condition if(option == 0xFF) then break; end -- Get the action from the array, based on the code local action = actions[option] -- Verify we got a valid code (if we didn't, we're probably in big trouble) local value if(action == nil) then stdnse.print_debug(1, "dhcp-discover: Unknown option: %d", option) pos = pos + length else -- Call the function to parse the option, and insert the result into our results table stdnse.print_debug(2, "dhcp-discover: Attempting to parse %s", action['name']) pos, value = action['func'](data, pos, length) if(nmap.verbosity() == 0 and action.default == false) then stdnse.print_debug(1, "dhcp-discover: Server returned unrequested option (%s => %s)", action['name'], value) else if(value) then table.insert(result['options'], {name=action['name'], value=value}) else stdnse.print_debug(1, "dhcp-discover: Couldn't determine value for %s", action['name']); end end end -- Handle the 'Option Overload' option specially -- if it's set, it tells us to use the file and/or sname values after we -- run out of data. if(option == 52) then if(value == 1) then data = data .. result['file'] elseif(value == 2) then data = data .. result['sname'] elseif(value == 3) then data = data .. result['file'] .. result['sname'] else stdnse.print_debug(1, "dhcp-discover: Warning: 'Option Overload' gave an unsupported value: %d", value) end end end return true, result end ---Build and send any kind of DHCP packet, and parse the response. This is the only interface -- to the DHCP library, and should be the only one necessary. -- -- All DHCP packet have the same structure, but different fields. It is therefore easy to build -- any of the possible request types: -- * DHCPDISCOVER -- * DHCPOFFER -- * DHCPREQUEST -- * DHCPDECLINE -- * DHCPACK -- * DHCPNAK -- * DHCPRELEASE -- * DHCPINFORM -- -- Although these will all build a valid packet with any option, and the default options (that can be -- overridden with the overrides argument) won't necessarily work with every request -- type. If you're going to build some DHCP code on your own, I recommend reading rfc2131. -- --@param request_type The type of request as an integer (use the request_types table at the -- top of this file). --@param ip_address Your ip address (as a dotted-decimal string). This tells the DHCP server where to -- send the response. Setting it to "255.255.255.255" or "0.0.0.0" is generally acceptable (if not, -- host.ip_src can work). --@param mac_address Your mac address (as a string up to 16 bytes) where the server will send the response. Like -- ip_address, setting to the broadcast address (FF:FF:FF:FF:FF:FF) is -- common (host.mac_addr_src works). --@param request_options [optional] The options to request from the server, as an array of integers. For the -- acceptable options, see the actions table above or have a look at rfc2132. -- Some DHCP servers (such as my Linksys WRT54g) will ignore this list and send whichever -- information it wants. Default: all options marked as 'default' in the actions -- table above are requested (the typical interesting ones) if no verbosity is given. -- If any level of verbosity is on, get all types. --@param overrides [optional] A table of overrides. If a field in the table matches a field in the DHCP -- packet (see rfc2131 section 2 for a list of possible fields), the value in the table -- will be sent instead of the default value. --@param lease_time [optional] The lease time used when requestint an IP. Default: 1 second. --@return status (true or false) --@return The parsed response, as a table. function make_request(target, interface, request_type, ip_address, mac_address, request_options, overrides, lease_time) -- A unique id that identifies this particular session (and lets us filter out what we don't want to see) local transaction_id = bin.pack("I", ipOps.todword(ip_address)), mac_address, request_options, overrides, lease_time, transaction_id) if(not(status)) then stdnse.print_debug(1, "dhcp: Couldn't build packet: " .. packet) return false, "Couldn't build packet: " .. packet end -- Send the packet and get the response local status, response = dhcp_send(interface, target, packet, transaction_id) if(not(status)) then stdnse.print_debug(1, "dhcp: Couldn't send packet: " .. response) return false, "Couldn't send packet: " .. response end -- Parse the response local status, parsed = dhcp_parse(response, transaction_id) if(not(status)) then stdnse.print_debug(1, "dhcp: Couldn't parse response: " .. parsed) return false, "Couldn't parse response: " .. parsed end return true, parsed end