--- -- Standard Nmap Scripting Engine functions. This module contains various handy -- functions that are too small to justify modules of their own. -- -- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html local assert = assert; local error = error; local pairs = pairs local ipairs = ipairs local tonumber = tonumber; local type = type local select = select local unpack = unpack local ceil = math.ceil local max = math.max local format = string.format; local rep = string.rep local concat = table.concat; local insert = table.insert; local os = os local math = math local string = string local io = require 'io'; -- TODO: Remove local nmap = require "nmap"; local c_funcs = require "stdnse.c"; local EMPTY = {}; -- Empty constant table module(... or "stdnse"); -- Load C functions from stdnse.c into this namespace. for k, v in pairs(c_funcs) do _M[k] = v end -- Remove visibility of the stdnse.c table. c = nil --- Sleeps for a given amount of time. -- -- This causes the program to yield control and not regain it until the time -- period has elapsed. The time may have a fractional part. Internally, the -- timer provides millisecond resolution. -- @name sleep -- @class function -- @param t Time to sleep, in seconds. -- @usage stdnse.sleep(1.5) -- sleep is a C function defined in nse_nmaplib.cc. --- -- Prints a formatted debug message if the current debugging level is greater -- than or equal to a given level. -- -- This is a convenience wrapper around -- nmap.log_write. The first optional numeric -- argument, level, is used as the debugging level necessary -- to print the message (it defaults to 1 if omitted). All remaining arguments -- are processed with Lua's string.format function. -- @param level Optional debugging level. -- @param fmt Format string. -- @param ... Arguments to format. print_debug = function(level, fmt, ...) local l, d = tonumber(level), nmap.debugging(); if l and l <= d then nmap.log_write("stdout", format(fmt, ...)); elseif not l and 1 <= d then nmap.log_write("stdout", format(level, fmt, ...)); end end --- -- Prints a formatted verbosity message if the current verbosity level is greater -- than or equal to a given level. -- -- This is a convenience wrapper around -- nmap.log_write. The first optional numeric -- argument, level, is used as the verbosity level necessary -- to print the message (it defaults to 1 if omitted). All remaining arguments -- are processed with Lua's string.format function. -- @param level Optional verbosity level. -- @param fmt Format string. -- @param ... Arguments to format. print_verbose = function(level, fmt, ...) local l, d = tonumber(level), nmap.verbosity(); if l and l <= d then nmap.log_write("stdout", format(fmt, ...)); elseif not l and 1 <= d then nmap.log_write("stdout", format(level, fmt, ...)); end end --- Join a list of strings with a separator string. -- -- This is Lua's table.concat function with the parameters -- swapped for coherence. -- @usage -- stdnse.strjoin(", ", {"Anna", "Bob", "Charlie", "Dolores"}) -- --> "Anna, Bob, Charlie, Dolores" -- @param delimiter String to delimit each element of the list. -- @param list Array of strings to concatenate. -- @return Concatenated string. function strjoin(delimiter, list) assert(type(delimiter) == "string" or type(delimiter) == nil, "delimiter is of the wrong type! (did you get the parameters backward?)") return concat(list, delimiter); end --- Split a string at a given delimiter, which may be a pattern. -- @usage -- stdnse.strsplit(",%s*", "Anna, Bob, Charlie, Dolores") -- --> { "Anna", "Bob", "Charlie", "Dolores" } -- @param pattern Pattern that separates the desired strings. -- @param text String to split. -- @return Array of substrings without the separating pattern. function strsplit(pattern, text) local list, pos = {}, 1; assert(pattern ~= "", "delimiter matches empty string!"); while true do local first, last, match = text:find(pattern, pos); if first then -- found? list[#list+1] = text:sub(pos, first-1); pos = last+1; else list[#list+1] = text:sub(pos); break; end end return list; end --- Return a wrapper closure around a socket that buffers socket reads into -- chunks separated by a pattern. -- -- This function operates on a socket attempting to read data. It separates the -- data by sep and, for each invocation, returns a piece of the -- separated data. Typically this is used to iterate over the lines of data -- received from a socket (sep = "\r?\n"). The returned string -- does not include the separator. It will return the final data even if it is -- not followed by the separator. Once an error or EOF is reached, it returns -- nil, msg. msg is what is returned by -- nmap.receive_lines. -- @param socket Socket for the buffer. -- @param sep Separator for the buffered reads. -- @return Data from socket reads or nil on EOF or error. -- @return Error message, as with receive_lines. function make_buffer(socket, sep) local point, left, buffer, done, msg = 1, ""; local function self() if done then return nil, msg; -- must be nil for stdnse.lines (below) elseif not buffer then local status, str = socket:receive(); if not status then if #left > 0 then done, msg = not status, str; return left; else return status, str; end else buffer = left..str; return self(); end else local i, j = buffer:find(sep, point); if i then local ret = buffer:sub(point, i-1); point = j + 1; return ret; else point, left, buffer = 1, buffer:sub(point), nil; return self(); end end end return self; end --[[ This function may be usable in Lua 5.2 function lines(socket) return make_buffer(socket, "\r?\n"), nil, nil; end --]] do local t = { ["0"] = "0000", ["1"] = "0001", ["2"] = "0010", ["3"] = "0011", ["4"] = "0100", ["5"] = "0101", ["6"] = "0110", ["7"] = "0111", ["8"] = "1000", ["9"] = "1001", a = "1010", b = "1011", c = "1100", d = "1101", e = "1110", f = "1111" }; --- Converts the given number, n, to a string in a binary number format (12 -- becomes "1100"). -- @param n Number to convert. -- @return String in binary format. function tobinary(n) assert(tonumber(n), "number expected"); return (("%x"):format(n):gsub("%w", t):gsub("^0*", "")); end end --- Converts the given number, n, to a string in an octal number format (12 -- becomes "14"). -- @param n Number to convert. -- @return String in octal format. function tooctal(n) assert(tonumber(n), "number expected"); return ("%o"):format(n) end --- Encode a string or number in hexadecimal (12 becomes "c", "AB" becomes -- "4142"). -- -- An optional second argument is a table with formatting options. The possible -- fields in this table are -- * separator: A string to use to separate groups of digits. -- * group: The size of each group of digits between separators. Defaults to 2, but has no effect if separator is not also given. -- @usage -- stdnse.tohex("abc") --> "616263" -- stdnse.tohex("abc", {separator = ":"}) --> "61:62:63" -- stdnse.tohex("abc", {separator = ":", group = 4}) --> "61:6263" -- stdnse.tohex(123456) --> "1e240" -- stdnse.tohex(123456, {separator = ":"}) --> "1:e2:40" -- stdnse.tohex(123456, {separator = ":", group = 4}) --> "1:e240" -- @param s String or number to be encoded. -- @param options Table specifiying formatting options. -- @return String in hexadecimal format. function tohex( s, options ) options = options or EMPTY local separator = options.separator local hex if type( s ) == "number" then hex = ("%x"):format(s) elseif type( s ) == 'string' then hex = ("%02x"):rep(#s):format(s:byte(1,#s)) else error( "Type not supported in tohex(): " .. type(s), 2 ) end -- format hex if we got a separator if separator then local group = options.group or 2 local fmt_table = {} -- split hex in group-size chunks for i=#hex,1,-group do -- table index must be consecutive otherwise table.concat won't work fmt_table[ceil(i/group)] = hex:sub(max(i-group+1,1),i) end hex = concat( fmt_table, separator ) end return hex end ---Either return the string itself, or return "" (or the value of the second parameter) if the string -- was blank or nil. -- --@param string The base string. --@param blank The string to return if string was blank --@return Either string or, if it was blank, blank function string_or_blank(string, blank) if(string == nil or string == "") then if(blank == nil) then return "" else return blank end else return string end end --- -- Parses a time duration specification, which is a number followed by a -- unit, and returns a number of seconds. The unit is optional and -- defaults to seconds. The possible units (case-insensitive) are -- * ms: milliseconds, -- * s: seconds, -- * m: minutes, -- * h: hours. -- In case of a parsing error, the function returns nil -- followed by an error message. -- -- @usage -- parse_timespec("10") --> 10 -- parse_timespec("10ms") --> 0.01 -- parse_timespec("10s") --> 10 -- parse_timespec("10m") --> 600 -- parse_timespec("10h") --> 36000 -- parse_timespec("10z") --> nil, "Can't parse time specification \"10z\" (bad unit \"z\")" -- -- @param timespec A time specification string. -- @return A number of seconds, or nil followed by an error -- message. function parse_timespec(timespec) local n, unit, t, m local multipliers = {[""] = 1, s = 1, m = 60, h = 60 * 60, ms = 0.001} n, unit = string.match(timespec, "^([%d.]+)(.*)$") if not n then return nil, string.format("Can't parse time specification \"%s\"", timespec) end t = tonumber(n) if not t then return nil, string.format("Can't parse time specification \"%s\" (bad number \"%s\")", timespec, n) end m = multipliers[unit] if not m then return nil, string.format("Can't parse time specification \"%s\" (bad unit \"%s\")", timespec, unit) end return t * m end --- Format the difference between times t2 and t1 -- into a string in one of the forms (signs may vary): -- * 0s -- * -4s -- * +2m38s -- * -9h12m34s -- * +5d17h05m06s -- * -2y177d10h13m20s -- The string shows t2 relative to t1; i.e., the -- calculation is t2 minus t1. function format_difftime(t2, t1) local d, s, sign, yeardiff d = os.difftime(os.time(t2), os.time(t1)) if d > 0 then sign = "+" elseif d < 0 then sign = "-" t2, t1 = t1, t2 d = -d else sign = "" end -- t2 is always later than or equal to t1 here. -- The year is a tricky case because it's not a fixed number of days -- the way a day is a fixed number of hours or an hour is a fixed -- number of minutes. For example, the difference between 2008-02-10 -- and 2009-02-10 is 366 days because 2008 was a leap year, but it -- should be printed as 1y0d0h0m0s, not 1y1d0h0m0s. We advance t1 to be -- the latest year such that it is still before t2, which means that its -- year will be equal to or one less than t2's. The number of years -- skipped is stored in yeardiff. if t2.year > t1.year then local tmpyear = t1.year -- Put t1 in the same year as t2. t1.year = t2.year d = os.difftime(os.time(t2), os.time(t1)) if d < 0 then -- Too far. Back off one year. t1.year = t2.year - 1 d = os.difftime(os.time(t2), os.time(t1)) end yeardiff = t1.year - tmpyear t1.year = tmpyear else yeardiff = 0 end local s, sec, min s = "" -- Seconds (pad to two digits). sec = d % 60 d = math.floor(d / 60) if d == 0 and yeardiff == 0 then return sign .. string.format("%gs", sec) .. s end s = string.format("%02gs", sec) .. s -- Minutes (pad to two digits). min = d % 60 d = math.floor(d / 60) if d == 0 and yeardiff == 0 then return sign .. string.format("%dm", min) .. s end s = string.format("%02dm", min) .. s -- Hours. s = string.format("%dh", d % 24) .. s d = math.floor(d / 24) if d == 0 and yeardiff == 0 then return sign .. s end -- Days. s = string.format("%dd", d) .. s if yeardiff == 0 then return sign .. s end -- Years. s = string.format("%dy", yeardiff) .. s return sign .. s end --- Returns the current time in milliseconds since the epoch -- @return The current time in milliseconds since the epoch function clock_ms() return nmap.clock() * 1000 end --- Returns the current time in microseconds since the epoch -- @return The current time in microseconds since the epoch function clock_us() return nmap.clock() * 1000000 end ---Get the indentation symbols at a given level. local function format_get_indent(indent, at_end) local str = "" local had_continue = false if(not(at_end)) then str = rep(' ', #indent) -- Was: "| " else for i = #indent, 1, -1 do if(indent[i] and not(had_continue)) then str = str .. " " -- Was: "|_ " else had_continue = true str = str .. " " -- Was: "| " end end end return str end local function splitlines(s) local result = {} local i = 0 while i <= #s do local b, e b, e = string.find(s, "\r?\n", i) if not b then break end result[#result + 1] = string.sub(s, i, b - 1) i = e + 1 end if i <= #s then result[#result + 1] = string.sub(s, i) end return result end -- A helper for format_output (see below). local function format_output_sub(status, data, indent) if (#data == 0) then return "" end -- Used to put 'ERROR: ' in front of all lines on error messages local prefix = "" -- Initialize the output string to blank (or, if we're at the top, add a newline) local output = "" if(not(indent)) then output = '\n' end if(not(status)) then if(nmap.debugging() < 1) then return nil end prefix = "ERROR: " end -- If a string was passed, turn it into a table if(type(data) == 'string') then data = {data} end -- Make sure we have an indent value indent = indent or {} if(data['name']) then if(data['warning'] and nmap.debugging() > 0) then output = output .. format("%s%s%s (WARNING: %s)\n", format_get_indent(indent), prefix, data['name'], data['warning']) else output = output .. format("%s%s%s\n", format_get_indent(indent), prefix, data['name']) end elseif(data['warning'] and nmap.debugging() > 0) then output = output .. format("%s%s(WARNING: %s)\n", format_get_indent(indent), prefix, data['warning']) end for i, value in ipairs(data) do if(type(value) == 'table') then -- Do a shallow copy of indent local new_indent = {} for _, v in ipairs(indent) do insert(new_indent, v) end if(i ~= #data) then insert(new_indent, false) else insert(new_indent, true) end output = output .. format_output_sub(status, value, new_indent) elseif(type(value) == 'string') then local lines = splitlines(value) for j, line in ipairs(lines) do output = output .. format_get_indent(indent, i == #data and j == #lines) .. " " .. prefix .. line .. "\n" end end end return output end ---Takes a table of output on the commandline and formats it for display to the -- user. This is basically done by converting an array of nested tables into a -- string. In addition to numbered array elements, each table can have a 'name' -- and a 'warning' value. The 'name' will be displayed above the table, and -- 'warning' will be displayed, with a 'WARNING' tag, if and only if debugging -- is enabled. -- -- Here's an example of a table: -- -- local domains = {} -- domains['name'] = "DOMAINS" -- table.insert(domains, 'Domain 1') -- table.insert(domains, 'Domain 2') -- -- local names = {} -- names['name'] = "NAMES" -- names['warning'] = "Not all names could be determined!" -- table.insert(names, "Name 1") -- -- local response = {} -- table.insert(response, "Apple pie") -- table.insert(response, domains) -- table.insert(response, names) -- -- return stdnse.format_output(true, response) -- -- -- With debugging enabled, this is the output: -- -- Host script results: -- | smb-enum-domains: -- | Apple pie -- | DOMAINS -- | Domain 1 -- | Domain 2 -- | NAMES (WARNING: Not all names could be determined!) -- |_ Name 1 -- -- --@param status A boolean value dictating whether or not the script succeeded. -- If status is false, and debugging is enabled, 'ERROR' is prepended -- to every line. If status is false and debugging is disabled, no output -- occurs. --@param data The table of output. --@param indent Used for indentation on recursive calls; should generally be set to -- nil when callling from a script. -- @return nil, if data is empty, otherwise a -- multiline string. function format_output(status, data, indent) -- If data is nil, die with an error (I keep doing that by accident) assert(data, "No data was passed to format_output()") -- Don't bother if we don't have any data if (#data == 0) then return nil end local result = format_output_sub(status, data, indent) -- Check for an empty result if(result == nil or #result == "" or result == "\n" or result == "\n") then return nil end return result end -- Get the value of a script argument, or nil if the script argument was not -- given. This works also for arguments given as top-level array values, like -- --script-args=unsafe; for these it returns the value 1. local function arg_value(argname) if nmap.registry.args[argname] then return nmap.registry.args[argname] else -- if scriptname.arg is not there, check "arg" local argument_frags = strsplit("%.", argname) if #argument_frags > 0 then if nmap.registry.args[argument_frags[2]] then return nmap.registry.args[argument_frags[2]] end end end for _, v in ipairs(nmap.registry.args) do if v == argname then return 1 end end end --- Parses the script arguments passed to the --script-args option. -- -- @usage -- --script-args 'script.arg1=value,script.arg3,script-x.arg=value' -- local arg1, arg2, arg3 = get_script_args('script.arg1','script.arg2','script.arg3') -- => arg1 = value -- => arg2 = nil -- => arg3 = 1 -- -- --script-args 'displayall,unsafe,script-x.arg=value,script-y.arg=value' -- local displayall, unsafe = get_script_args('displayall','unsafe') -- => displayall = 1 -- => unsafe = 1 -- -- --script-args 'dns-cache-snoop.mode=timed,dns-cache-snoop.domains={host1,host2}' -- local mode, domains = get_script_args('dns-cache-snoop.mode', -- 'dns-cache-snoop.domains') -- => mode = 'timed' -- => domains = {host1,host2} -- -- @param Arguments Script arguments to check. -- @return Arguments values. function get_script_args (...) local args = {} for i, set in ipairs({...}) do if type(set) == "string" then set = {set} end for _, test in ipairs(set) do local v = arg_value(test) if v then args[i] = v break end end end return unpack(args, 1, select("#", ...)) end ---Get the best possible hostname for the given host. This can be the target as given on -- the commandline, the reverse dns name, or simply the ip address. --@param host The host table (or a string that'll simply be returned). --@return The best possible hostname, as a string. function get_hostname(host) if type(host) == "table" then return host.targetname or ( host.name ~= '' and host.name ) or host.ip else return host end end ---Retrieve an item from the registry, checking if each sub-key exists. If any key doesn't -- exist, return nil. function registry_get(subkeys) local registry = nmap.registry local i = 1 while(subkeys[i]) do if(not(registry[subkeys[i]])) then return nil end registry = registry[subkeys[i]] i = i + 1 end return registry end --Check if the given element exists in the registry. If 'key' is nil, it isn't checked. function registry_exists(subkeys, key, value) local subkey = registry_get(subkeys) if(not(subkey)) then return false end for k, v in pairs(subkey) do if((key == nil or key == k) and (v == value)) then -- TODO: if 'value' is a table, this fails return true end end return false end ---Add an item to an array in the registry, creating all sub-keys if necessary. -- For example, calling: -- registry_add_array({'192.168.1.100', 'www', '80', 'pages'}, 'index.html') -- Will create nmap.registry['192.168.1.100'] as a table, if necessary, then add a table -- under the 'www' key, and so on. 'pages', finally, is treated as an array and the value -- given is added to the end. function registry_add_array(subkeys, value, allow_duplicates) local registry = nmap.registry local i = 1 -- Unless the user wants duplicates, make sure there aren't any if(allow_duplicates ~= true) then if(registry_exists(subkeys, nil, value)) then return end end while(subkeys[i]) do if(not(registry[subkeys[i]])) then registry[subkeys[i]] = {} end registry = registry[subkeys[i]] i = i + 1 end -- Make sure the value isn't already in the table for _, v in pairs(registry) do if(v == value) then return end end insert(registry, value) end ---Similar to registry_add_array, except instead of adding a value to the -- end of an array, it adds a key:value pair to the table. function registry_add_table(subkeys, key, value, allow_duplicates) local registry = nmap.registry local i = 1 -- Unless the user wants duplicates, make sure there aren't any if(allow_duplicates ~= true) then if(registry_exists(subkeys, key, value)) then return end end while(subkeys[i]) do if(not(registry[subkeys[i]])) then registry[subkeys[i]] = {} end registry = registry[subkeys[i]] i = i + 1 end registry[key] = value end --- This function allows you to create worker threads that may perform -- network tasks in parallel with your script thread. -- -- Any network task (e.g. socket:connect(...)) will cause the -- running thread to yield to NSE. This allows network tasks to appear to be -- blocking while being able to run multiple network tasks at once. -- While this is useful for running multiple separate scripts, it is -- unfortunately difficult for a script itself to perform network tasks in -- parallel. In order to allow scripts to also have network tasks running in -- parallel, we provide this function, stdnse.new_thread, to -- create a new thread that can perform its own network related tasks -- in parallel with the script. -- -- The script launches the worker thread by calling the new_thread -- function with the parameters: -- * The main Lua function for the script to execute, similar to the script action function. -- * The variable number of arguments to be passed to the worker's main function. -- -- The stdnse.new_thread function will return two results: -- * The worker thread's base (main) coroutine (useful for tracking status). -- * A status query function (described below). -- -- The status query function shall return two values: -- * The result of coroutine.status using the worker thread base coroutine. -- * The error object thrown that ended the worker thread or nil if no error was thrown. This is typically a string, like most Lua errors. -- -- Note that NSE discards all return values of the worker's main function. You -- must use function parameters, upvalues or environments to communicate -- results. -- -- You should use the condition variable (nmap.condvar) -- and mutex (nmap.mutex) facilities to coordinate with your -- worker threads. Keep in mind that Nmap is single threaded so there are -- no (memory) issues in synchronization to worry about; however, there -- is resource contention. Your resources are usually network -- bandwidth, network sockets, etc. Condition variables are also useful if the -- work for any single thread is dynamic. For example, a web server spider -- script with a pool of workers will initially have a single root html -- document. Following the retrieval of the root document, the set of -- resources to be retrieved (the worker's work) will become very large -- (an html document adds many new hyperlinks (resources) to fetch). --@name new_thread --@class function --@param main The main function of the worker thread. --@param ... The arguments passed to the main worker thread. --@return co The base coroutine of the worker thread. --@return info A query function used to obtain status information of the worker. --@usage --local requests = {"/", "/index.html", --[[ long list of objects ]]} -- --function thread_main (host, port, responses, ...) -- local condvar = nmap.condvar(responses); -- local what = {n = select("#", ...), ...}; -- local allReqs = nil; -- for i = 1, what.n do -- allReqs = http.pGet(host, port, what[i], nil, nil, allReqs); -- end -- local p = assert(http.pipeline(host, port, allReqs)); -- for i, response in ipairs(p) do responses[#responses+1] = response end -- condvar "signal"; --end -- --function many_requests (host, port) -- local threads = {}; -- local responses = {}; -- local condvar = nmap.condvar(responses); -- local i = 1; -- repeat -- local j = math.min(i+10, #requests); -- local co = stdnse.new_thread(thread_main, host, port, responses, -- unpack(requests, i, j)); -- threads[co] = true; -- i = j+1; -- until i > #requests; -- repeat -- condvar "wait"; -- for thread in pairs(threads) do -- if coroutine.status(thread) == "dead" then threads[thread] = nil end -- end -- until next(threads) == nil; -- return responses; --end do end -- no function here, see nse_main.lua --- Returns the base coroutine of the running script. -- -- A script may be resuming multiple coroutines to facilitate its own -- collaborative multithreading design. Because there is a "root" or "base" -- coroutine that lets us determine whether the script is still active -- (that is, the script did not end, possibly due to an error), we provide -- this stdnse.base function that will retrieve the base -- coroutine of the script. This base coroutine is the coroutine that runs -- the action function. -- -- The base coroutine is useful for many reasons but here are some common -- uses: -- * We want to attribute the ownership of an object (perhaps a network socket) to a script. -- * We want to identify if the script is still alive. --@name base --@class function --@return coroutine Returns the base coroutine of the running script. do end -- no function here, see nse_main.lua --- The Lua Require Function with errors silenced. -- -- See the Lua manual for description of the require function. This modified -- version allows the script to quietly fail at loading if a required -- library does not exist. -- --@name silent_require --@class function --@usage stdnse.silent_require "openssl" do end -- no function here, see nse_main.lua ---Checks if the port is in the port range -- For example, calling: -- in_port_range({number=31337,protocol="udp"},"T:15,50-75,U:31334-31339") -- would result in a true value --@param port a port structure containing keys port number(number) and protocol(string) --@param port_range a port range string in Nmap standard format (ex. "T:80,1-30,U:31337,21-25") --@returns boolean indicating whether the port is in the port range function in_port_range(port,port_range) assert(port and type(port.number)=="number" and type(port.protocol)=="string" and (port.protocol=="udp" or port.protocol=="tcp"),"Port structure missing or invalid: port={ number=, protocol= }") assert((type(port_range)=="string" or type(port_range)=="number") and port_range~="","Incorrect port range specification.") -- Proto - true for TCP, false for UDP local proto if(port.protocol=="tcp") then proto = true else proto = false end --TCP flag for iteration - true for TCP, false for UDP, if not specified we presume TCP local tcp_flag = true -- in case the port_range is a single number if type(port_range)=="number" then if proto and port_range==port.number then return true else return false end end --clean the string a bit port_range=port_range:gsub("%s+","") -- single_pr - single port range for i, single_pr in ipairs(strsplit(",",port_range)) do if single_pr:match("T:") then tcp_flag = true single_pr = single_pr:gsub("T:","") else if single_pr:match("U:") then tcp_flag = false single_pr = single_pr:gsub("U:","") end end -- compare ports only when the port's protocol is the same as -- the current single port range if tcp_flag == proto then local pone = single_pr:match("^(%d+)$") if pone then pone = tonumber(pone) assert(pone>-1 and pone<65536, "Port range number out of range (0-65535).") if pone == port.number then return true end else local pstart, pend = single_pr:match("^(%d+)%-(%d+)$") pstart, pend = tonumber(pstart), tonumber(pend) assert(pstart,"Incorrect port range specification.") assert(pstart<=pend,"Incorrect port range specification, the starting port should have a smaller value than the ending port.") assert(pstart>-1 and pstart<65536 and pend>-1 and pend<65536, "Port range number out of range (0-65535).") if port.number >=pstart and port.number <= pend then return true end end end end -- if no match is found then the port doesn't belong to the port_range return false end