Current Path : /compat/linux/proc/self/root/usr/local/share/nmap/nselib/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/self/root/usr/local/share/nmap/nselib/snmp.lua |
--- SNMP functions --@copyright See nmaps COPYING for licence module(... or "snmp",package.seeall) --- -- Encodes an Integer according to ASN.1 basic encoding rules --@param val Value to be encoded --@return encoded integer local function encodeInt(val) local lsb = 0 if val > 0 then local valStr = "" while (val > 0) do lsb = math.mod(val, 256) valStr = valStr .. bin.pack("C", lsb) val = math.floor(val/256) end if lsb > 127 then -- two's complement collision valStr = valStr .. bin.pack("H", "00") end return string.reverse(valStr) elseif val < 0 then local i = 1 local tcval = val + 256 -- two's complement while tcval <= 127 do tcval = tcval + (math.pow(256, i) * 255) i = i+1 end local valStr = "" while (tcval > 0) do lsb = math.mod(tcval, 256) valStr = valStr .. bin.pack("C", lsb) tcval = math.floor(tcval/256) end return string.reverse(valStr) else -- val == 0 return bin.pack("x") end end --- -- Encodes the length part of a ASN.1 encoding triplet --@param val Value to be encoded --@return encoded length value local function encodeLength(val) if (val >= 128) then local valStr = "" while (val > 0) do local lsb = math.mod(val, 256) valStr = valStr .. bin.pack("C", lsb) val = math.floor(val/256) end return bin.pack("CA", string.len(valStr) + 0x80, string.reverse(valStr)) -- count down else return bin.pack("C", val) end end --- -- Encodes a given value according to ASN.1 basic encoding -- rules for SNMP packet creation --@param val Value to be encoded --@return encoded value function encode(val) local vtype = type(val) if (vtype == 'number') then local ival = encodeInt(val) local len = encodeLength(string.len(ival)) return bin.pack('HAA', '02', len, ival) end if (vtype == 'string') then local len = encodeLength(string.len(val)) return bin.pack('HAA', '04', len, val) end if (vtype == 'nil' or vtype == 'boolean') then return bin.pack('H', '05 00') end if (vtype == 'table') then -- complex data types if val._snmp == '06' then -- OID local oidStr = bin.pack("C", val[1]*40 + val[2]) for i = 3, #val do oidStr = oidStr .. bin.pack("C", val[i]) end return bin.pack("HCA", '06', #val - 1, oidStr) elseif (val._snmp == '40') then -- ipAddress return bin.pack("HC4", '40 04', unpack(val)) elseif (val._snmp == '41') then -- counter local cnt = encodeInt(val[1]) return bin.pack("HAA", val._snmp, encodeLength(string.len(cnt)), cnt) elseif (val._snmp == '42') then -- gauge local gauge = encodeInt(val[1]) return bin.pack("HAA", val._snmp, encodeLength(string.len(gauge)), gauge) elseif (val._snmp == '43') then -- timeticks local ticks = encodeInt(val[1]) return bin.pack("HAA", val._snmp, encodeLength(string.len(ticks)), ticks) elseif (val._snmp == '44') then -- opaque return bin.pack("HAA", val._snmp, encodeLength(string.len(val[1])), val[1]) end local encVal = "" for _, v in ipairs(val) do encVal = encVal .. encode(v) -- todo: buffer? end local tableType = bin.pack("H", "30") if (val["_snmp"]) then tableType = bin.pack("H", val["_snmp"]) end return bin.pack('AAA', tableType, encodeLength(string.len(encVal)), encVal) end return '' end --- -- Decodes length part of encoded value according to -- ASN.1 basic encoding rules --@param encStr Encoded string --@param pos Current position in the string --@return The position after decoding and the length of the following value local function decodeLength(encStr, pos) local elen pos, elen = bin.unpack('C', encStr, pos) if (elen > 128) then elen = elen - 128 local elenCalc = 0 local elenNext for i = 1, elen do elenCalc = elenCalc * 256 pos, elenNext = bin.unpack("C", encStr, pos) elenCalc = elenCalc + elenNext end elen = elenCalc end return pos, elen end --- -- Decodes an Integer according to ASN.1 basic -- encoding rules --@param encStr Encoded string --@param len Length of integer in bytes --@param pos Current position in the string --@return The position after decoding and the decoded integer local function decodeInt(encStr, len, pos) local hexStr pos, hexStr = bin.unpack("H" .. len, encStr, pos) local value = tonumber(hexStr, 16) if (value >= math.pow(256, len)/2) then value = value - math.pow(256, len) end return pos, value end --- -- Decodes a sequence according to ASN.1 basic -- encoding rules --@param encStr Encoded string --@param len Length of sequence in bytes --@param pos Current position in the string --@return The position after decoding and the decoded sequence as a table local function decodeSeq(encStr, len, pos) local seq = {} local sPos = 1 local i = 1 local sStr pos, sStr = bin.unpack("A" .. len, encStr, pos) while (sPos < len) do sPos, newSeq = decode(sStr, sPos) table.insert(seq, newSeq) i = i + 1 end return pos, seq end --- -- Decodes an SNMP packet or a part of it according -- to ASN.1 basic encoding rules --@param encStr Encoded string --@param pos Current position in the string --@return The position after decoding and the decoded value(s) function decode(encStr, pos) local etype, elen pos, etype = bin.unpack("H1", encStr, pos) pos, elen = decodeLength(encStr, pos) if (etype == "02") then -- INTEGER return decodeInt(encStr, elen, pos) elseif (etype == "04") then -- STRING return bin.unpack("A" .. elen, encStr, pos) elseif (etype == "05") then -- NULL return pos, false elseif (etype == "06") then -- OID local oid = {} oid._snmp = '06' pos, octet = bin.unpack("C", encStr, pos) oid[2] = math.mod(octet, 40) octet = octet - oid[2] oid[1] = octet/40 for i = 2, elen do pos, oid[i+1] = bin.unpack("C", encStr, pos) end return pos, oid elseif (etype == "30") then -- sequence local seq pos, seq = decodeSeq(encStr, elen, pos) return pos, seq elseif (etype == "A0") then -- getReq local seq pos, seq = decodeSeq(encStr, elen, pos) seq._snmp = etype return pos, seq elseif (etype == "A1") then -- getNextReq local seq pos, seq = decodeSeq(encStr, elen, pos) seq._snmp = etype return pos, seq elseif (etype == "A2") then -- getResponse local seq pos, seq = decodeSeq(encStr, elen, pos) seq._snmp = etype return pos, seq elseif (etype == "A3") then -- setReq local seq pos, seq = decodeSeq(encStr, elen, pos) seq._snmp = etype return pos, seq elseif (etype == "A4") then -- Trap local seq pos, seq = decodeSeq(encStr, elen, pos) seq._snmp = etype return pos, seq elseif (etype == '40') then -- App: IP-Address local ip = {} pos, ip[1], ip[2], ip[3], ip[4] = bin.unpack("C4", encStr, pos) ip._snmp = '40' return pos, ip elseif (etype == '41') then -- App: counter local cnt = {} pos, cnt[1] = decodeInt(encStr, elen, pos) cnt._snmp = '41' return pos, cnt elseif (etype == '42') then -- App: gauge local gauge = {} pos, gauge[1] = decodeInt(encStr, elen, pos) gauge._snmp = '42' return pos, gauge elseif (etype == '43') then -- App: TimeTicks local ticks = {} pos, ticks[1] = decodeInt(encStr, elen, pos) ticks._snmp = '43' return pos, ticks elseif (etype == '44') then -- App: opaque local opaque = {} pos, opaque[1] = bin.unpack("A" .. elen, encStr, pos) opaque._snmp = '44' return pos, opaque end return pos, nil end --- -- Decodes an SNMP packet or a part of it according -- to ASN.1 basic encoding rules --@param encStr Encoded string --@param pos Current position in the string --@return The decoded value(s) function dec(encStr, pos) local result local _ _, result = decode(encStr, pos) return result end --- -- Create SNMP packet --@param PDU SNMP Protocol Data Unit to be encapsulated in the packet --@param version SNMP version, default 0 (SNMP V1) --@param commStr community string, if not already supplied in registry or as script argument function buildPacket(PDU, version, commStr) local comm = nmap.registry.args.snmpcommunity if (not comm) then comm = nmap.registry.snmpcommunity end if (not comm) then comm = commStr end if (not comm) then comm = "public" end if (not version) then version = 0 end local packet = {} packet[1] = version packet[2] = comm packet[3] = PDU return packet end --- -- Create SNMP Get Request PDU --@param options Configure PDU: request ID (reqId), error and error index (err, errIdx) --@param OIDs Object identifiers to be queried --@return Table representing PDU function buildGetRequest(options, ...) if not options then options = {} end if not options.reqId then options.reqId = math.mod(nmap.clock_ms(), 65000) end if not options.err then options.err = 0 end if not options.errIdx then options.errIdx = 0 end local req = {} req._snmp = 'A0' req[1] = options.reqId req[2] = options.err req[3] = options.errIdx local payload = {} for i=1, select('#', ...) do payload[i] = {} payload[i][1] = select(i, ...) if type(payload[i][1]) == "string" then payload[i][1] = str2oid(payload[i][1]) end payload[i][2] = false end req[4] = payload return req end --- -- Create SNMP Get Next Request PDU --@param options Configure PDU: request ID (reqId), error and error index (err, errIdx) --@param OIDs Object identifiers to be queried --@return Table representing PDU function buildGetNextRequest(options, ...) if not options then options = {} end if not options.reqId then options.reqId = math.mod(nmap.clock_ms(), 65000) end if not options.err then options.err = 0 end if not options.errIdx then options.errIdx = 0 end local req = {} req._snmp = 'A1' req[1] = options.reqId req[2] = options.err req[3] = options.errIdx local payload = {} for i=1, select('#', ...) do payload[i] = {} payload[i][1] = select(i, ...) if type(payload[i][1]) == "string" then payload[i][1] = str2oid(payload[i][1]) end payload[i][2] = false end req[4] = payload return req end --- -- Create SNMP Set Request PDU -- Takes one OID/value pair or an already prepared table --@param options Configure PDU: request ID (reqId), error and error index (err, errIdx) --@param OIDs Object identifiers of object to be set --@param value To which value object should be set. If given a table, use table instead of OID/value pair --@return Table representing PDU function buildSetRequest(options, oid, value) if not options then options = {} end if not options.reqId then options.reqId = math.mod(nmap.clock_ms(), 65000) end if not options.err then options.err = 0 end if not options.errIdx then options.errIdx = 0 end local req = {} req._snmp = 'A3' req[1] = options.reqId req[2] = options.err req[3] = options.errIdx if (type(value) == "table") then req[4] = value else local payload = {} if (type(oid) == "string") then payload[1] = str2oid(oid) else payload[1] = oid end payload[2] = value req[4] = {} req[4][1] = payload end return req end --- -- Create SNMP Trap PDU --@param enterpriseOid --@param agentIp --@param genTrap --@param specTrap --@param timeStamp --@return Table representing PDU function buildTrap(enterpriseOid, agentIp, genTrap, specTrap, timeStamp) local req = {} req._snmp = 'A4' if (type(enterpriseOid) == "string") then req[1] = str2oid(enterpriseOid) else req[1] = enterpriseOid end req[2] = {} req[2]._snmp = '40' for n in string.gmatch(agentIp, "%d+") do table.insert(req[2], tonumber(n)) end req[3] = genTrap req[4] = specTrap req[5] = {} req[5]._snmp = '43' req[5][1] = timeStamp req[6] = {} return req end --- -- Create SNMP Get Response PDU -- Takes one OID/value pair or an already prepared table --@param options Configure PDU: request ID (reqId), error and error index (err, errIdx) --@param OIDs Object identifiers of object to be sent back --@param value To which value object or returned object. If given a table, use table instead of OID/value pair --@return Table representing PDU function buildGetResponse(options, oid, value) if not options then options = {} end -- if really a response, should use reqId of request! if not options.reqId then options.reqId = math.mod(nmap.clock_ms(), 65000) end if not options.err then options.err = 0 end if not options.errIdx then options.errIdx = 0 end local resp = {} resp._snmp = 'A2' resp[1] = options.reqId resp[2] = options.err resp[3] = options.errIdx if (type(value) == "table") then resp[4] = value else local payload = {} if (type(oid) == "string") then payload[1] = str2oid(oid) else payload[1] = oid end payload[2] = value resp[4] = {} resp[4][1] = payload end return resp end --- -- Transforms a string into an object identifier table --@param oidStr Object identifier as string, for example "1.3.6.1.2.1.1.1.0" --@return Table representing OID function str2oid(oidStr) local oid = {} for n in string.gmatch(oidStr, "%d+") do table.insert(oid, tonumber(n)) end oid._snmp = '06' return oid end --- -- Transforms a table representing an object identifier to a string --@param oid Object identifier table --@return OID string function oid2str(oid) if (type(oid) ~= "table") then return 'invalid oid' end return table.concat(oid, '.') end --- -- Transforms a table representing an IP to a string --@param ip IP table --@return IP string function ip2str(ip) if (type(ip) ~= "table") then return 'invalid ip' end return table.concat(ip, '.') end --- -- Transforms a string into an IP table --@param ipStr IP as string --@return Table representing IP function str2ip(ipStr) local ip = {} for n in string.gmatch(ipStr, "%d+") do table.insert(ip, tonumber(n)) end ip._snmp = '40' return ip end --- -- Fetches values from a SNMP response --@param resp SNMP Response (will be decoded if necessary) --@result Table with all decoded responses and their OIDs function fetchResponseValues(resp) if (type(resp) == "string") then local _ _, resp = decode(resp) end if (type(resp) ~= "table") then return {} end local varBind if (resp._snmp and resp._snmp == 'A2') then varBind = resp[4] elseif (resp[3]._snmp and resp[3]._snmp == 'A2') then varBind = resp[3][4] end if (varBind and type(varBind) == "table") then local result = {} for k, v in ipairs(varBind) do local val = v[2] if (type(v[2]) == "table") then if (v[2]._snmp == '40') then val = v[2][1] .. '.' .. v[2][2] .. '.' .. v[2][3] .. '.' .. v[2][4] elseif (v[2]._snmp == '41') then val = v[2][1] elseif (v[2]._snmp == '42') then val = v[2][1] elseif (v[2]._snmp == '43') then val = v[2][1] elseif (v[2]._snmp == '44') then val = v[2][1] end end table.insert(result, {val, oid2str(v[1]), v[1]}) end return result end return {} end --- -- Fetches first value from a SNMP response. --@param response SNMP Response (will be decoded if necessary) --@return First decoded value of the response function fetchFirst(response) local result = fetchResponseValues(response) if type(result) == "table" and result[1] and result[1][1] then return result[1][1] else return nil end end