Module:IP: Difference between revisions

Module:IP (view source)

Revision as of 04:15, July 23, 2016

4,814 bytes added , 7 years ago

need to use __index to have a unique key which is really private - if outside code gets uniqueKey with getmetatable then they can set it in another table's __eq metamethod, thus foiling isSubnetObject

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wikipedia>Mr. Stradivarius

Revision as of 10:22, July 19, 2016 (view source) wikipedia>Mr. Stradivarius (fix IPAddress concatenation) ← Older edit		Latest revision as of 04:15, July 23, 2016 (view source) wikipedia>Mr. Stradivarius (need to use __index to have a unique key which is really private - if outside code gets uniqueKey with getmetatable then they can set it in another table's __eq metamethod, thus foiling isSubnetObject)
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Line 7: local libraryUtil = require('libraryUtil') local checkType = libraryUtil.checkType local checkTypeMulti = libraryUtil.checkTypeMulti local makeCheckSelfFunction = libraryUtil.makeCheckSelfFunction -- Constants local V4 = 'IPv4' local V6 = 'IPv6' -------------------------------------------------------------------------------- -- Helper functions -------------------------------------------------------------------------------- local function makeValidationFunction(className, isObjectFunc) -- Make a function for validating a specific object. return function (methodName, argIdx, arg) if not isObjectFunc(arg) then error(string.format( "bad argument #%d to '%s' (not a valid %s object)", argIdx, methodName, className ), 3) end end end -------------------------------------------------------------------------------- Line 79 ⟶ 97: return nil end function RawIP.newFromIPv6(ipStr) -- Return a RawIP object if ipStr is a valid IPv6 string. Otherwise, Line 97 ⟶ 115: parts[i] = 0 else local num = tonumber(~~'0x'~~s, ~~.. s~~16) if num and 0 <= num and num <= 65535 then parts[i] = num Line 143 ⟶ 161: local result = Collection() result.n = self.n local carry = ~~down~~previous and 0xffff or 1 for i = self.n, 1, -1 do local sum = self[i] + carry if sum >= 0x10000 then carry = ~~down~~previous and 0x10000 or 1 sum = sum - 0x10000 else carry = ~~down~~previous and 0xffff or 0 end result[i] = sum Line 168 ⟶ 186: bitLength = bitLength - 16 else result[i] = bit32.~~band~~replace(self[i], 0, 0, 16 - bitLength) ~~bit32.arshift(0xffff8000, bitLength - 1))~~ bitLength = 0 end Line 201 ⟶ 218: width = width - 16 else result[i] = bit32.replace(self[i], 0xffff, ~~width - 1~~0, width) width = 0 end Line 303 ⟶ 320: -------------------------------------------------------------------------------- -- Initialize private methods available to IPAddress and Subnet ~~-- Set up classes to be exported~~ -------------------------------------------------------------------------------- -- ~~The~~Both IPAddress ~~class~~ and ~~the~~ Subnet ~~class~~need ~~should~~access beto ~~accessible~~each ~~from~~others' ~~each~~private constructor -- functions. IPAddress must be able to make Subnet objects from CIDR strings ~~-- other, but should not be accessible from the RawIP class, so initialize them~~ -- and from RawIP objects, and Subnet must be able to make IPAddress objects ~~-- here.~~ -- from IP strings and from RawIP objects. These constructors must all be ~~local IPAddress, Subnet = {}, {}~~ -- private to ensure correct error levels and to stop other modules from having -- to worry about RawIP objects. Because they are private, they must be -- initialized here. local makeIPAddress, makeIPAddressFromRaw, makeSubnet, makeSubnetFromRaw -- IPAddress ~~needs~~and toSubnet ~~create~~also ~~Subnet~~need ~~objects~~to ~~using~~be ~~its~~able ~~RawIP~~to ~~data,~~validate Subnet and ~~Subnet~~IPAddress -- objects that they are passed as input, so initialize those functions here ~~-- needs to create IPAddress objects with its RawIP data as well. However,~~ -- as well. ~~-- other modules shouldn't have to worry about RawIP data, so the constructors~~ local validateIPAddress, validateSubnet ~~-- need to be private. Hence the variables holding the constructor functions~~ ~~-- need to be initialized here as well.~~ ~~local makeIPAddress, makeSubnet~~ -------------------------------------------------------------------------------- Line 322 ⟶ 341: -- Represents a single IPv4 or IPv6 address. -------------------------------------------------------------------------------- local IPAddress = {} do Line 329 ⟶ 350: -- is not available to other classes or other modules. local dataKey = {} -- Private static methods local function isIPAddressObject(val) return type(val) == 'table' and val[dataKey] ~= nil end validateIPAddress = makeValidationFunction('IPAddress', isIPAddressObject) -- Metamethods that don't need upvalues Line 348 ⟶ 376: -- Constructors ~~makeIPAddress~~makeIPAddressFromRaw = function (rawIP) -- Constructs a new IPAddress object from a rawIP object. This function -- is for internal use; it is called by IPAddress.new and from other Line 359 ⟶ 387: local data = {} data.rawIP = rawIP -- A function to check whether methods are called with a valid self -- parameter. local checkSelf = makeCheckSelfFunction( 'IP', 'ipAddress', obj, 'IPAddress object' ) -- Public methods function obj:getIP() checkSelf(self, 'getIP') return tostring(data.rawIP) end function obj:getVersion() checkSelf(self, 'getVersion') return data.rawIP:getVersion() end function obj:isIPv4() checkSelf(self, 'isIPv4') return data.rawIP:isIPv4() end function obj:isIPv6() checkSelf(self, 'isIPv6') return data.rawIP:isIPv6() end function obj:isInSubnet(subnet) checkSelf(self, 'isInSubnet') local tp = type(subnet) if tp == 'string' then subnet = makeSubnet(subnet) elseif tp == 'table' then validateSubnet('isInSubnet', 1, subnet) else checkTypeMulti('isInSubnet', 1, subnet, {'string', 'table'}) end return subnet:containsIP(self) end function obj:getSubnet(bitLength) checkSelf(self, 'getSubnet') checkType('getSubnet', 1, bitLength, 'number') return makeSubnetFromRaw(data.rawIP, bitLength) end function obj:getNextIP() checkSelf(self, 'getNextIP') ~~return makeIPAddress(data.rawIP:getAdjacent())~~ return makeIPAddressFromRaw(data.rawIP:getAdjacent()) end function obj:getPreviousIP() checkSelf(self, 'getPreviousIP') ~~return makeIPAddress(data.rawIP:getAdjacent(true))~~ return makeIPAddressFromRaw(data.rawIP:getAdjacent(true)) end Line 402 ⟶ 460: end end, __metatable = false, -- Don't allow access to the metatable }) end makeIPAddress = function ~~IPAddress.new~~(ip) ~~checkType('IPAddress.new', 1, ip, 'string')~~ local rawIP = RawIP.newFromIP(ip) if not rawIP then error(string.format("'%s' is an invalid IP address", ip), 23) end return ~~makeIPAddress~~makeIPAddressFromRaw(rawIP) end function IPAddress.new(ip) checkType('IPAddress.new', 1, ip, 'string') return makeIPAddress(ip) end end Line 419 ⟶ 482: -- Represents a block of IPv4 or IPv6 addresses. -------------------------------------------------------------------------------- local Subnet = {} do -- uniqueKey is a unique, private key used to test whether a given object ~~-- Initialize metatable~~ -- is a Subnet object. ~~local mt = {}~~ local uniqueKey = setmetatable({}, {__metatable = false}) -- Private static methods local function isSubnetObject(val) -- Return true if val is a Subnet object, and false otherwise. return getmetatable(val) == uniqueKey end -- Function to validate subnet objects. -- Params: -- methodName (string) - the name of the method being validated -- argIdx (number) - the position of the argument in the argument list -- arg - the argument to be validated validateSubnet = makeValidationFunction('Subnet', isSubnetObject) -- Metamethods that don't need upvalues local function subnetEquals(subnet1, subnet2) return subnet1:getCIDR() == subnet2:getCIDR() end local function concatenateSubnets(subnet1, subnet2) return tostring(subnet1) .. tostring(subnet2) end local function subnetToString(subnet) return subnet:getCIDR() end -- Constructors ~~makeSubnet~~makeSubnetFromRaw = function (rawIP, bitLength) -- Set up structure local obj = ~~setmetatable(~~{}~~, mt)~~ local data = { rawIP = rawIP, bitLength = bitLength, } -- A function to check whether methods are called with a valid self -- parameter. local checkSelf = makeCheckSelfFunction( 'IP', 'subnet', obj, 'Subnet object' ) -- Public methods function obj:getPrefix() checkSelf(self, 'getPrefix') if not data.prefix then data.prefix = ~~makeIPAddress~~makeIPAddressFromRaw( data.rawIP:getPrefix(data.bitLength) ) Line 444 ⟶ 546: function obj:getHighestIP() checkSelf(self, 'getHighestIP') if not data.highestIP then data.highestIP = ~~makeIPAddress~~makeIPAddressFromRaw( data.rawIP:getHighestHost(data.bitLength) ) Line 453 ⟶ 556: function obj:getBitLength() checkSelf(self, 'getBitLength') return data.bitLength end function obj:getCIDR() checkSelf(self, 'getCIDR') return string.format( '%s/%d', Line 464 ⟶ 569: function obj:getVersion() checkSelf(self, 'getVersion') return data.rawIP:getVersion() end function obj:isIPv4() checkSelf(self, 'isIPv4') return data.rawIP:isIPv4() end function obj:isIPv6() checkSelf(self, 'isIPv6') return data.rawIP:isIPv6() end function obj:containsIP(ip) checkSelf(self, 'containsIP') local tp = type(ip) if tp == 'string' then ip = makeIPAddress(ip) elseif tp == 'table' then validateIPAddress('containsIP', 1, ip) else checkTypeMulti('containsIP', 1, ip, {'string', 'table'}) end if self:getVersion() == ip:getVersion() then return self:getPrefix() <= ip and ip <= self:getHighestIP() Line 483 ⟶ 600: function obj:overlapsSubnet(subnet) checkSelf(self, 'overlapsSubnet') local tp = type(subnet) if tp == 'string' then subnet = makeSubnet(subnet) elseif tp == 'table' then validateSubnet('overlapsSubnet', 1, subnet) else checkTypeMulti('overlapsSubnet', 1, subnet, {'string', 'table'}) end if self:getVersion() == subnet:getVersion() then return ( Line 492 ⟶ 618: end ~~return~~function obj:walk() checkSelf(self, 'walk') local started local current = self:getPrefix() local highest = self:getHighestIP() return function () if not started then started = true return current end if current < highest then current = current:getNextIP() return current end end end return setmetatable(obj, { __index = function (self, key) if key == uniqueKey then return true end end, __eq = subnetEquals, __concat = concatenateSubnets, __tostring = subnetToString, __metatable = false, }) end makeSubnet = function ~~Subnet.new~~(cidr) ~~checkType('~~-- Return a Subnet object from a CIDR string.~~new',~~ 1,If ~~cidr,~~the CIDR 'string') is -- invalid, throw an error. local lhs, rhs = cidr:match('^%s(.-)/(%d+)%s$') if lhs then local bits = lhs:find(':', 1, true) and 128 or 32 local n = tonumber(rhs) if n and n <= bits and (n == 0 or not rhs:find('^0')) then -- The right-hand side is a number between 0 and 32 (for IPv4) -- or 0 and 128 (for IPv6) and doesn't have any leading zeroes. local base = RawIP.newFromIP(lhs) if base then ~~local prefix = base:getPrefix(n)~~ -- The left-hand side is a valid IP address. ~~if base == prefix then~~ ~~return~~local ~~makeSubnet(~~prefix, = base:getPrefix(n) if base == prefix then -- The left-hand side is the lowest IP in the subnet. return makeSubnetFromRaw(prefix, n) end end end end error(string.format("'%s' is an invalid CIDR string", cidr), 23) end function Subnet.new(cidr) ~~-- Metamethods~~ checkType('Subnet.new', 1, cidr, 'string') ~~function mt:__eq(obj)~~ return ~~self:getCIDR() == obj:getCIDR~~makeSubnet(cidr) ~~end~~ ~~function mt:__tostring()~~ ~~return self:getCIDR()~~ end end

Module:IP: Difference between revisions

Module:IP (view source)

Revision as of 04:15, July 23, 2016

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