diff --git a/src/core/operations/ParseIPv6Address.mjs b/src/core/operations/ParseIPv6Address.mjs
new file mode 100644
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+++ b/src/core/operations/ParseIPv6Address.mjs
@@ -0,0 +1,191 @@
+/**
+ * @author n1474335 [n1474335@gmail.com]
+ * @copyright Crown Copyright 2016
+ * @license Apache-2.0
+ */
+
+import Operation from "../Operation";
+import Utils from "../Utils";
+import {_strToIpv6, _ipv6ToStr, _ipv4ToStr, IPV6_REGEX} from "../lib/Ip";
+import BigInteger from "jsbn";
+
+/**
+ * Parse IPv6 address operation
+ */
+class ParseIPv6Address extends Operation {
+
+ /**
+ * ParseIPv6Address constructor
+ */
+ constructor() {
+ super();
+
+ this.name = "Parse IPv6 address";
+ this.module = "JSBN";
+ this.description = "Displays the longhand and shorthand versions of a valid IPv6 address.
Recognises all reserved ranges and parses encapsulated or tunnelled addresses including Teredo and 6to4.";
+ this.inputType = "string";
+ this.outputType = "string";
+ this.args = [];
+ }
+
+ /**
+ * @param {string} input
+ * @param {Object[]} args
+ * @returns {string}
+ */
+ run(input, args) {
+ let match,
+ output = "";
+
+ if ((match = IPV6_REGEX.exec(input))) {
+ const ipv6 = _strToIpv6(match[1]),
+ longhand = _ipv6ToStr(ipv6),
+ shorthand = _ipv6ToStr(ipv6, true);
+
+ output += "Longhand: " + longhand + "\nShorthand: " + shorthand + "\n";
+
+ // Detect reserved addresses
+ if (shorthand === "::") {
+ // Unspecified address
+ output += "\nUnspecified address corresponding to 0.0.0.0/32 in IPv4.";
+ output += "\nUnspecified address range: ::/128";
+ } else if (shorthand === "::1") {
+ // Loopback address
+ output += "\nLoopback address to the local host corresponding to 127.0.0.1/8 in IPv4.";
+ output += "\nLoopback addresses range: ::1/128";
+ } else if (ipv6[0] === 0 && ipv6[1] === 0 && ipv6[2] === 0 &&
+ ipv6[3] === 0 && ipv6[4] === 0 && ipv6[5] === 0xffff) {
+ // IPv4-mapped IPv6 address
+ output += "\nIPv4-mapped IPv6 address detected. IPv6 clients will be handled natively by default, and IPv4 clients appear as IPv6 clients at their IPv4-mapped IPv6 address.";
+ output += "\nMapped IPv4 address: " + _ipv4ToStr((ipv6[6] << 16) + ipv6[7]);
+ output += "\nIPv4-mapped IPv6 addresses range: ::ffff:0:0/96";
+ } else if (ipv6[0] === 0 && ipv6[1] === 0 && ipv6[2] === 0 &&
+ ipv6[3] === 0 && ipv6[4] === 0xffff && ipv6[5] === 0) {
+ // IPv4-translated address
+ output += "\nIPv4-translated address detected. Used by Stateless IP/ICMP Translation (SIIT). See RFCs 6145 and 6052 for more details.";
+ output += "\nTranslated IPv4 address: " + _ipv4ToStr((ipv6[6] << 16) + ipv6[7]);
+ output += "\nIPv4-translated addresses range: ::ffff:0:0:0/96";
+ } else if (ipv6[0] === 0x100) {
+ // Discard prefix per RFC 6666
+ output += "\nDiscard prefix detected. This is used when forwarding traffic to a sinkhole router to mitigate the effects of a denial-of-service attack. See RFC 6666 for more details.";
+ output += "\nDiscard range: 100::/64";
+ } else if (ipv6[0] === 0x64 && ipv6[1] === 0xff9b && ipv6[2] === 0 &&
+ ipv6[3] === 0 && ipv6[4] === 0 && ipv6[5] === 0) {
+ // IPv4/IPv6 translation per RFC 6052
+ output += "\n'Well-Known' prefix for IPv4/IPv6 translation detected. See RFC 6052 for more details.";
+ output += "\nTranslated IPv4 address: " + _ipv4ToStr((ipv6[6] << 16) + ipv6[7]);
+ output += "\n'Well-Known' prefix range: 64:ff9b::/96";
+ } else if (ipv6[0] === 0x2001 && ipv6[1] === 0) {
+ // Teredo tunneling
+ output += "\nTeredo tunneling IPv6 address detected\n";
+ const serverIpv4 = (ipv6[2] << 16) + ipv6[3],
+ udpPort = (~ipv6[5]) & 0xffff,
+ clientIpv4 = ~((ipv6[6] << 16) + ipv6[7]),
+ flagCone = (ipv6[4] >>> 15) & 1,
+ flagR = (ipv6[4] >>> 14) & 1,
+ flagRandom1 = (ipv6[4] >>> 10) & 15,
+ flagUg = (ipv6[4] >>> 8) & 3,
+ flagRandom2 = ipv6[4] & 255;
+
+ output += "\nServer IPv4 address: " + _ipv4ToStr(serverIpv4) +
+ "\nClient IPv4 address: " + _ipv4ToStr(clientIpv4) +
+ "\nClient UDP port: " + udpPort +
+ "\nFlags:" +
+ "\n\tCone: " + flagCone;
+
+ if (flagCone) {
+ output += " (Client is behind a cone NAT)";
+ } else {
+ output += " (Client is not behind a cone NAT)";
+ }
+
+ output += "\n\tR: " + flagR;
+
+ if (flagR) {
+ output += " Error: This flag should be set to 0. See RFC 5991 and RFC 4380.";
+ }
+
+ output += "\n\tRandom1: " + Utils.bin(flagRandom1, 4) +
+ "\n\tUG: " + Utils.bin(flagUg, 2);
+
+ if (flagUg) {
+ output += " Error: This flag should be set to 00. See RFC 4380.";
+ }
+
+ output += "\n\tRandom2: " + Utils.bin(flagRandom2, 8);
+
+ if (!flagR && !flagUg && flagRandom1 && flagRandom2) {
+ output += "\n\nThis is a valid Teredo address which complies with RFC 4380 and RFC 5991.";
+ } else if (!flagR && !flagUg) {
+ output += "\n\nThis is a valid Teredo address which complies with RFC 4380, however it does not comply with RFC 5991 (Teredo Security Updates) as there are no randomised bits in the flag field.";
+ } else {
+ output += "\n\nThis is an invalid Teredo address.";
+ }
+ output += "\n\nTeredo prefix range: 2001::/32";
+ } else if (ipv6[0] === 0x2001 && ipv6[1] === 0x2 && ipv6[2] === 0) {
+ // Benchmarking
+ output += "\nAssigned to the Benchmarking Methodology Working Group (BMWG) for benchmarking IPv6. Corresponds to 198.18.0.0/15 for benchmarking IPv4. See RFC 5180 for more details.";
+ output += "\nBMWG range: 2001:2::/48";
+ } else if (ipv6[0] === 0x2001 && ipv6[1] >= 0x10 && ipv6[1] <= 0x1f) {
+ // ORCHIDv1
+ output += "\nDeprecated, previously ORCHIDv1 (Overlay Routable Cryptographic Hash Identifiers).\nORCHIDv1 range: 2001:10::/28\nORCHIDv2 now uses 2001:20::/28.";
+ } else if (ipv6[0] === 0x2001 && ipv6[1] >= 0x20 && ipv6[1] <= 0x2f) {
+ // ORCHIDv2
+ output += "\nORCHIDv2 (Overlay Routable Cryptographic Hash Identifiers).\nThese are non-routed IPv6 addresses used for Cryptographic Hash Identifiers.";
+ output += "\nORCHIDv2 range: 2001:20::/28";
+ } else if (ipv6[0] === 0x2001 && ipv6[1] === 0xdb8) {
+ // Documentation
+ output += "\nThis is a documentation IPv6 address. This range should be used whenever an example IPv6 address is given or to model networking scenarios. Corresponds to 192.0.2.0/24, 198.51.100.0/24, and 203.0.113.0/24 in IPv4.";
+ output += "\nDocumentation range: 2001:db8::/32";
+ } else if (ipv6[0] === 0x2002) {
+ // 6to4
+ output += "\n6to4 transition IPv6 address detected. See RFC 3056 for more details." +
+ "\n6to4 prefix range: 2002::/16";
+
+ const v4Addr = _ipv4ToStr((ipv6[1] << 16) + ipv6[2]),
+ slaId = ipv6[3],
+ interfaceIdStr = ipv6[4].toString(16) + ipv6[5].toString(16) + ipv6[6].toString(16) + ipv6[7].toString(16),
+ interfaceId = new BigInteger(interfaceIdStr, 16);
+
+ output += "\n\nEncapsulated IPv4 address: " + v4Addr +
+ "\nSLA ID: " + slaId +
+ "\nInterface ID (base 16): " + interfaceIdStr +
+ "\nInterface ID (base 10): " + interfaceId.toString();
+ } else if (ipv6[0] >= 0xfc00 && ipv6[0] <= 0xfdff) {
+ // Unique local address
+ output += "\nThis is a unique local address comparable to the IPv4 private addresses 10.0.0.0/8, 172.16.0.0/12 and 192.168.0.0/16. See RFC 4193 for more details.";
+ output += "\nUnique local addresses range: fc00::/7";
+ } else if (ipv6[0] >= 0xfe80 && ipv6[0] <= 0xfebf) {
+ // Link-local address
+ output += "\nThis is a link-local address comparable to the auto-configuration addresses 169.254.0.0/16 in IPv4.";
+ output += "\nLink-local addresses range: fe80::/10";
+ } else if (ipv6[0] >= 0xff00) {
+ // Multicast
+ output += "\nThis is a reserved multicast address.";
+ output += "\nMulticast addresses range: ff00::/8";
+ }
+
+
+ // Detect possible EUI-64 addresses
+ if ((ipv6[5] & 0xff === 0xff) && (ipv6[6] >>> 8 === 0xfe)) {
+ output += "\n\nThis IPv6 address contains a modified EUI-64 address, identified by the presence of FF:FE in the 12th and 13th octets.";
+
+ const intIdent = Utils.hex(ipv6[4] >>> 8) + ":" + Utils.hex(ipv6[4] & 0xff) + ":" +
+ Utils.hex(ipv6[5] >>> 8) + ":" + Utils.hex(ipv6[5] & 0xff) + ":" +
+ Utils.hex(ipv6[6] >>> 8) + ":" + Utils.hex(ipv6[6] & 0xff) + ":" +
+ Utils.hex(ipv6[7] >>> 8) + ":" + Utils.hex(ipv6[7] & 0xff),
+ mac = Utils.hex((ipv6[4] >>> 8) ^ 2) + ":" + Utils.hex(ipv6[4] & 0xff) + ":" +
+ Utils.hex(ipv6[5] >>> 8) + ":" + Utils.hex(ipv6[6] & 0xff) + ":" +
+ Utils.hex(ipv6[7] >>> 8) + ":" + Utils.hex(ipv6[7] & 0xff);
+ output += "\nInterface identifier: " + intIdent +
+ "\nMAC address: " + mac;
+ }
+ } else {
+ return "Invalid IPv6 address";
+ }
+ return output;
+ }
+
+}
+
+export default ParseIPv6Address;