"use strict";
/* eslint-disable no-param-reassign */
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Object.defineProperty(exports, "__esModule", { value: true });
exports.Address4 = void 0;
const common = __importStar(require("./common"));
const constants = __importStar(require("./v4/constants"));
const address_error_1 = require("./address-error");
const jsbn_1 = require("jsbn");
const sprintf_js_1 = require("sprintf-js");
/**
* Represents an IPv4 address
* @class Address4
* @param {string} address - An IPv4 address string
*/
class Address4 {
constructor(address) {
this.groups = constants.GROUPS;
this.parsedAddress = [];
this.parsedSubnet = '';
this.subnet = '/32';
this.subnetMask = 32;
this.v4 = true;
/**
* Returns true if the address is correct, false otherwise
* @memberof Address4
* @instance
* @returns {Boolean}
*/
this.isCorrect = common.isCorrect(constants.BITS);
/**
* Returns true if the given address is in the subnet of the current address
* @memberof Address4
* @instance
* @returns {boolean}
*/
this.isInSubnet = common.isInSubnet;
this.address = address;
const subnet = constants.RE_SUBNET_STRING.exec(address);
if (subnet) {
this.parsedSubnet = subnet[0].replace('/', '');
this.subnetMask = parseInt(this.parsedSubnet, 10);
this.subnet = `/${this.subnetMask}`;
if (this.subnetMask < 0 || this.subnetMask > constants.BITS) {
throw new address_error_1.AddressError('Invalid subnet mask.');
}
address = address.replace(constants.RE_SUBNET_STRING, '');
}
this.addressMinusSuffix = address;
this.parsedAddress = this.parse(address);
}
static isValid(address) {
try {
// eslint-disable-next-line no-new
new Address4(address);
return true;
}
catch (e) {
return false;
}
}
/*
* Parses a v4 address
*/
parse(address) {
const groups = address.split('.');
if (!address.match(constants.RE_ADDRESS)) {
throw new address_error_1.AddressError('Invalid IPv4 address.');
}
return groups;
}
/**
* Returns the correct form of an address
* @memberof Address4
* @instance
* @returns {String}
*/
correctForm() {
return this.parsedAddress.map((part) => parseInt(part, 10)).join('.');
}
/**
* Converts a hex string to an IPv4 address object
* @memberof Address4
* @static
* @param {string} hex - a hex string to convert
* @returns {Address4}
*/
static fromHex(hex) {
const padded = hex.replace(/:/g, '').padStart(8, '0');
const groups = [];
let i;
for (i = 0; i < 8; i += 2) {
const h = padded.slice(i, i + 2);
groups.push(parseInt(h, 16));
}
return new Address4(groups.join('.'));
}
/**
* Converts an integer into a IPv4 address object
* @memberof Address4
* @static
* @param {integer} integer - a number to convert
* @returns {Address4}
*/
static fromInteger(integer) {
return Address4.fromHex(integer.toString(16));
}
/**
* Return an address from in-addr.arpa form
* @memberof Address4
* @static
* @param {string} arpaFormAddress - an 'in-addr.arpa' form ipv4 address
* @returns {Adress4}
* @example
* var address = Address4.fromArpa(42.2.0.192.in-addr.arpa.)
* address.correctForm(); // '192.0.2.42'
*/
static fromArpa(arpaFormAddress) {
// remove ending ".in-addr.arpa." or just "."
const leader = arpaFormAddress.replace(/(\.in-addr\.arpa)?\.$/, '');
const address = leader.split('.').reverse().join('.');
return new Address4(address);
}
/**
* Converts an IPv4 address object to a hex string
* @memberof Address4
* @instance
* @returns {String}
*/
toHex() {
return this.parsedAddress.map((part) => (0, sprintf_js_1.sprintf)('%02x', parseInt(part, 10))).join(':');
}
/**
* Converts an IPv4 address object to an array of bytes
* @memberof Address4
* @instance
* @returns {Array}
*/
toArray() {
return this.parsedAddress.map((part) => parseInt(part, 10));
}
/**
* Converts an IPv4 address object to an IPv6 address group
* @memberof Address4
* @instance
* @returns {String}
*/
toGroup6() {
const output = [];
let i;
for (i = 0; i < constants.GROUPS; i += 2) {
const hex = (0, sprintf_js_1.sprintf)('%02x%02x', parseInt(this.parsedAddress[i], 10), parseInt(this.parsedAddress[i + 1], 10));
output.push((0, sprintf_js_1.sprintf)('%x', parseInt(hex, 16)));
}
return output.join(':');
}
/**
* Returns the address as a BigInteger
* @memberof Address4
* @instance
* @returns {BigInteger}
*/
bigInteger() {
return new jsbn_1.BigInteger(this.parsedAddress.map((n) => (0, sprintf_js_1.sprintf)('%02x', parseInt(n, 10))).join(''), 16);
}
/**
* Helper function getting start address.
* @memberof Address4
* @instance
* @returns {BigInteger}
*/
_startAddress() {
return new jsbn_1.BigInteger(this.mask() + '0'.repeat(constants.BITS - this.subnetMask), 2);
}
/**
* The first address in the range given by this address' subnet.
* Often referred to as the Network Address.
* @memberof Address4
* @instance
* @returns {Address4}
*/
startAddress() {
return Address4.fromBigInteger(this._startAddress());
}
/**
* The first host address in the range given by this address's subnet ie
* the first address after the Network Address
* @memberof Address4
* @instance
* @returns {Address4}
*/
startAddressExclusive() {
const adjust = new jsbn_1.BigInteger('1');
return Address4.fromBigInteger(this._startAddress().add(adjust));
}
/**
* Helper function getting end address.
* @memberof Address4
* @instance
* @returns {BigInteger}
*/
_endAddress() {
return new jsbn_1.BigInteger(this.mask() + '1'.repeat(constants.BITS - this.subnetMask), 2);
}
/**
* The last address in the range given by this address' subnet
* Often referred to as the Broadcast
* @memberof Address4
* @instance
* @returns {Address4}
*/
endAddress() {
return Address4.fromBigInteger(this._endAddress());
}
/**
* The last host address in the range given by this address's subnet ie
* the last address prior to the Broadcast Address
* @memberof Address4
* @instance
* @returns {Address4}
*/
endAddressExclusive() {
const adjust = new jsbn_1.BigInteger('1');
return Address4.fromBigInteger(this._endAddress().subtract(adjust));
}
/**
* Converts a BigInteger to a v4 address object
* @memberof Address4
* @static
* @param {BigInteger} bigInteger - a BigInteger to convert
* @returns {Address4}
*/
static fromBigInteger(bigInteger) {
return Address4.fromInteger(parseInt(bigInteger.toString(), 10));
}
/**
* Returns the first n bits of the address, defaulting to the
* subnet mask
* @memberof Address4
* @instance
* @returns {String}
*/
mask(mask) {
if (mask === undefined) {
mask = this.subnetMask;
}
return this.getBitsBase2(0, mask);
}
/**
* Returns the bits in the given range as a base-2 string
* @memberof Address4
* @instance
* @returns {string}
*/
getBitsBase2(start, end) {
return this.binaryZeroPad().slice(start, end);
}
/**
* Return the reversed ip6.arpa form of the address
* @memberof Address4
* @param {Object} options
* @param {boolean} options.omitSuffix - omit the "in-addr.arpa" suffix
* @instance
* @returns {String}
*/
reverseForm(options) {
if (!options) {
options = {};
}
const reversed = this.correctForm().split('.').reverse().join('.');
if (options.omitSuffix) {
return reversed;
}
return (0, sprintf_js_1.sprintf)('%s.in-addr.arpa.', reversed);
}
/**
* Returns true if the given address is a multicast address
* @memberof Address4
* @instance
* @returns {boolean}
*/
isMulticast() {
return this.isInSubnet(new Address4('224.0.0.0/4'));
}
/**
* Returns a zero-padded base-2 string representation of the address
* @memberof Address4
* @instance
* @returns {string}
*/
binaryZeroPad() {
return this.bigInteger().toString(2).padStart(constants.BITS, '0');
}
/**
* Groups an IPv4 address for inclusion at the end of an IPv6 address
* @returns {String}
*/
groupForV6() {
const segments = this.parsedAddress;
return this.address.replace(constants.RE_ADDRESS, (0, sprintf_js_1.sprintf)('%s.%s', segments.slice(0, 2).join('.'), segments.slice(2, 4).join('.')));
}
}
exports.Address4 = Address4;
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