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astronomy/server/node_modules/ipaddr.js/lib/ipaddr.js

673 lines
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(function() {
var expandIPv6, ipaddr, ipv4Part, ipv4Regexes, ipv6Part, ipv6Regexes, matchCIDR, root, zoneIndex;
ipaddr = {};
root = this;
if ((typeof module !== "undefined" && module !== null) && module.exports) {
module.exports = ipaddr;
} else {
root['ipaddr'] = ipaddr;
}
matchCIDR = function(first, second, partSize, cidrBits) {
var part, shift;
if (first.length !== second.length) {
throw new Error("ipaddr: cannot match CIDR for objects with different lengths");
}
part = 0;
while (cidrBits > 0) {
shift = partSize - cidrBits;
if (shift < 0) {
shift = 0;
}
if (first[part] >> shift !== second[part] >> shift) {
return false;
}
cidrBits -= partSize;
part += 1;
}
return true;
};
ipaddr.subnetMatch = function(address, rangeList, defaultName) {
var k, len, rangeName, rangeSubnets, subnet;
if (defaultName == null) {
defaultName = 'unicast';
}
for (rangeName in rangeList) {
rangeSubnets = rangeList[rangeName];
if (rangeSubnets[0] && !(rangeSubnets[0] instanceof Array)) {
rangeSubnets = [rangeSubnets];
}
for (k = 0, len = rangeSubnets.length; k < len; k++) {
subnet = rangeSubnets[k];
if (address.kind() === subnet[0].kind()) {
if (address.match.apply(address, subnet)) {
return rangeName;
}
}
}
}
return defaultName;
};
ipaddr.IPv4 = (function() {
function IPv4(octets) {
var k, len, octet;
if (octets.length !== 4) {
throw new Error("ipaddr: ipv4 octet count should be 4");
}
for (k = 0, len = octets.length; k < len; k++) {
octet = octets[k];
if (!((0 <= octet && octet <= 255))) {
throw new Error("ipaddr: ipv4 octet should fit in 8 bits");
}
}
this.octets = octets;
}
IPv4.prototype.kind = function() {
return 'ipv4';
};
IPv4.prototype.toString = function() {
return this.octets.join(".");
};
IPv4.prototype.toNormalizedString = function() {
return this.toString();
};
IPv4.prototype.toByteArray = function() {
return this.octets.slice(0);
};
IPv4.prototype.match = function(other, cidrRange) {
var ref;
if (cidrRange === void 0) {
ref = other, other = ref[0], cidrRange = ref[1];
}
if (other.kind() !== 'ipv4') {
throw new Error("ipaddr: cannot match ipv4 address with non-ipv4 one");
}
return matchCIDR(this.octets, other.octets, 8, cidrRange);
};
IPv4.prototype.SpecialRanges = {
unspecified: [[new IPv4([0, 0, 0, 0]), 8]],
broadcast: [[new IPv4([255, 255, 255, 255]), 32]],
multicast: [[new IPv4([224, 0, 0, 0]), 4]],
linkLocal: [[new IPv4([169, 254, 0, 0]), 16]],
loopback: [[new IPv4([127, 0, 0, 0]), 8]],
carrierGradeNat: [[new IPv4([100, 64, 0, 0]), 10]],
"private": [[new IPv4([10, 0, 0, 0]), 8], [new IPv4([172, 16, 0, 0]), 12], [new IPv4([192, 168, 0, 0]), 16]],
reserved: [[new IPv4([192, 0, 0, 0]), 24], [new IPv4([192, 0, 2, 0]), 24], [new IPv4([192, 88, 99, 0]), 24], [new IPv4([198, 51, 100, 0]), 24], [new IPv4([203, 0, 113, 0]), 24], [new IPv4([240, 0, 0, 0]), 4]]
};
IPv4.prototype.range = function() {
return ipaddr.subnetMatch(this, this.SpecialRanges);
};
IPv4.prototype.toIPv4MappedAddress = function() {
return ipaddr.IPv6.parse("::ffff:" + (this.toString()));
};
IPv4.prototype.prefixLengthFromSubnetMask = function() {
var cidr, i, k, octet, stop, zeros, zerotable;
zerotable = {
0: 8,
128: 7,
192: 6,
224: 5,
240: 4,
248: 3,
252: 2,
254: 1,
255: 0
};
cidr = 0;
stop = false;
for (i = k = 3; k >= 0; i = k += -1) {
octet = this.octets[i];
if (octet in zerotable) {
zeros = zerotable[octet];
if (stop && zeros !== 0) {
return null;
}
if (zeros !== 8) {
stop = true;
}
cidr += zeros;
} else {
return null;
}
}
return 32 - cidr;
};
return IPv4;
})();
ipv4Part = "(0?\\d+|0x[a-f0-9]+)";
ipv4Regexes = {
fourOctet: new RegExp("^" + ipv4Part + "\\." + ipv4Part + "\\." + ipv4Part + "\\." + ipv4Part + "$", 'i'),
longValue: new RegExp("^" + ipv4Part + "$", 'i')
};
ipaddr.IPv4.parser = function(string) {
var match, parseIntAuto, part, shift, value;
parseIntAuto = function(string) {
if (string[0] === "0" && string[1] !== "x") {
return parseInt(string, 8);
} else {
return parseInt(string);
}
};
if (match = string.match(ipv4Regexes.fourOctet)) {
return (function() {
var k, len, ref, results;
ref = match.slice(1, 6);
results = [];
for (k = 0, len = ref.length; k < len; k++) {
part = ref[k];
results.push(parseIntAuto(part));
}
return results;
})();
} else if (match = string.match(ipv4Regexes.longValue)) {
value = parseIntAuto(match[1]);
if (value > 0xffffffff || value < 0) {
throw new Error("ipaddr: address outside defined range");
}
return ((function() {
var k, results;
results = [];
for (shift = k = 0; k <= 24; shift = k += 8) {
results.push((value >> shift) & 0xff);
}
return results;
})()).reverse();
} else {
return null;
}
};
ipaddr.IPv6 = (function() {
function IPv6(parts, zoneId) {
var i, k, l, len, part, ref;
if (parts.length === 16) {
this.parts = [];
for (i = k = 0; k <= 14; i = k += 2) {
this.parts.push((parts[i] << 8) | parts[i + 1]);
}
} else if (parts.length === 8) {
this.parts = parts;
} else {
throw new Error("ipaddr: ipv6 part count should be 8 or 16");
}
ref = this.parts;
for (l = 0, len = ref.length; l < len; l++) {
part = ref[l];
if (!((0 <= part && part <= 0xffff))) {
throw new Error("ipaddr: ipv6 part should fit in 16 bits");
}
}
if (zoneId) {
this.zoneId = zoneId;
}
}
IPv6.prototype.kind = function() {
return 'ipv6';
};
IPv6.prototype.toString = function() {
return this.toNormalizedString().replace(/((^|:)(0(:|$))+)/, '::');
};
IPv6.prototype.toRFC5952String = function() {
var bestMatchIndex, bestMatchLength, match, regex, string;
regex = /((^|:)(0(:|$)){2,})/g;
string = this.toNormalizedString();
bestMatchIndex = 0;
bestMatchLength = -1;
while ((match = regex.exec(string))) {
if (match[0].length > bestMatchLength) {
bestMatchIndex = match.index;
bestMatchLength = match[0].length;
}
}
if (bestMatchLength < 0) {
return string;
}
return string.substring(0, bestMatchIndex) + '::' + string.substring(bestMatchIndex + bestMatchLength);
};
IPv6.prototype.toByteArray = function() {
var bytes, k, len, part, ref;
bytes = [];
ref = this.parts;
for (k = 0, len = ref.length; k < len; k++) {
part = ref[k];
bytes.push(part >> 8);
bytes.push(part & 0xff);
}
return bytes;
};
IPv6.prototype.toNormalizedString = function() {
var addr, part, suffix;
addr = ((function() {
var k, len, ref, results;
ref = this.parts;
results = [];
for (k = 0, len = ref.length; k < len; k++) {
part = ref[k];
results.push(part.toString(16));
}
return results;
}).call(this)).join(":");
suffix = '';
if (this.zoneId) {
suffix = '%' + this.zoneId;
}
return addr + suffix;
};
IPv6.prototype.toFixedLengthString = function() {
var addr, part, suffix;
addr = ((function() {
var k, len, ref, results;
ref = this.parts;
results = [];
for (k = 0, len = ref.length; k < len; k++) {
part = ref[k];
results.push(part.toString(16).padStart(4, '0'));
}
return results;
}).call(this)).join(":");
suffix = '';
if (this.zoneId) {
suffix = '%' + this.zoneId;
}
return addr + suffix;
};
IPv6.prototype.match = function(other, cidrRange) {
var ref;
if (cidrRange === void 0) {
ref = other, other = ref[0], cidrRange = ref[1];
}
if (other.kind() !== 'ipv6') {
throw new Error("ipaddr: cannot match ipv6 address with non-ipv6 one");
}
return matchCIDR(this.parts, other.parts, 16, cidrRange);
};
IPv6.prototype.SpecialRanges = {
unspecified: [new IPv6([0, 0, 0, 0, 0, 0, 0, 0]), 128],
linkLocal: [new IPv6([0xfe80, 0, 0, 0, 0, 0, 0, 0]), 10],
multicast: [new IPv6([0xff00, 0, 0, 0, 0, 0, 0, 0]), 8],
loopback: [new IPv6([0, 0, 0, 0, 0, 0, 0, 1]), 128],
uniqueLocal: [new IPv6([0xfc00, 0, 0, 0, 0, 0, 0, 0]), 7],
ipv4Mapped: [new IPv6([0, 0, 0, 0, 0, 0xffff, 0, 0]), 96],
rfc6145: [new IPv6([0, 0, 0, 0, 0xffff, 0, 0, 0]), 96],
rfc6052: [new IPv6([0x64, 0xff9b, 0, 0, 0, 0, 0, 0]), 96],
'6to4': [new IPv6([0x2002, 0, 0, 0, 0, 0, 0, 0]), 16],
teredo: [new IPv6([0x2001, 0, 0, 0, 0, 0, 0, 0]), 32],
reserved: [[new IPv6([0x2001, 0xdb8, 0, 0, 0, 0, 0, 0]), 32]]
};
IPv6.prototype.range = function() {
return ipaddr.subnetMatch(this, this.SpecialRanges);
};
IPv6.prototype.isIPv4MappedAddress = function() {
return this.range() === 'ipv4Mapped';
};
IPv6.prototype.toIPv4Address = function() {
var high, low, ref;
if (!this.isIPv4MappedAddress()) {
throw new Error("ipaddr: trying to convert a generic ipv6 address to ipv4");
}
ref = this.parts.slice(-2), high = ref[0], low = ref[1];
return new ipaddr.IPv4([high >> 8, high & 0xff, low >> 8, low & 0xff]);
};
IPv6.prototype.prefixLengthFromSubnetMask = function() {
var cidr, i, k, part, stop, zeros, zerotable;
zerotable = {
0: 16,
32768: 15,
49152: 14,
57344: 13,
61440: 12,
63488: 11,
64512: 10,
65024: 9,
65280: 8,
65408: 7,
65472: 6,
65504: 5,
65520: 4,
65528: 3,
65532: 2,
65534: 1,
65535: 0
};
cidr = 0;
stop = false;
for (i = k = 7; k >= 0; i = k += -1) {
part = this.parts[i];
if (part in zerotable) {
zeros = zerotable[part];
if (stop && zeros !== 0) {
return null;
}
if (zeros !== 16) {
stop = true;
}
cidr += zeros;
} else {
return null;
}
}
return 128 - cidr;
};
return IPv6;
})();
ipv6Part = "(?:[0-9a-f]+::?)+";
zoneIndex = "%[0-9a-z]{1,}";
ipv6Regexes = {
zoneIndex: new RegExp(zoneIndex, 'i'),
"native": new RegExp("^(::)?(" + ipv6Part + ")?([0-9a-f]+)?(::)?(" + zoneIndex + ")?$", 'i'),
transitional: new RegExp(("^((?:" + ipv6Part + ")|(?:::)(?:" + ipv6Part + ")?)") + (ipv4Part + "\\." + ipv4Part + "\\." + ipv4Part + "\\." + ipv4Part) + ("(" + zoneIndex + ")?$"), 'i')
};
expandIPv6 = function(string, parts) {
var colonCount, lastColon, part, replacement, replacementCount, zoneId;
if (string.indexOf('::') !== string.lastIndexOf('::')) {
return null;
}
zoneId = (string.match(ipv6Regexes['zoneIndex']) || [])[0];
if (zoneId) {
zoneId = zoneId.substring(1);
string = string.replace(/%.+$/, '');
}
colonCount = 0;
lastColon = -1;
while ((lastColon = string.indexOf(':', lastColon + 1)) >= 0) {
colonCount++;
}
if (string.substr(0, 2) === '::') {
colonCount--;
}
if (string.substr(-2, 2) === '::') {
colonCount--;
}
if (colonCount > parts) {
return null;
}
replacementCount = parts - colonCount;
replacement = ':';
while (replacementCount--) {
replacement += '0:';
}
string = string.replace('::', replacement);
if (string[0] === ':') {
string = string.slice(1);
}
if (string[string.length - 1] === ':') {
string = string.slice(0, -1);
}
parts = (function() {
var k, len, ref, results;
ref = string.split(":");
results = [];
for (k = 0, len = ref.length; k < len; k++) {
part = ref[k];
results.push(parseInt(part, 16));
}
return results;
})();
return {
parts: parts,
zoneId: zoneId
};
};
ipaddr.IPv6.parser = function(string) {
var addr, k, len, match, octet, octets, zoneId;
if (ipv6Regexes['native'].test(string)) {
return expandIPv6(string, 8);
} else if (match = string.match(ipv6Regexes['transitional'])) {
zoneId = match[6] || '';
addr = expandIPv6(match[1].slice(0, -1) + zoneId, 6);
if (addr.parts) {
octets = [parseInt(match[2]), parseInt(match[3]), parseInt(match[4]), parseInt(match[5])];
for (k = 0, len = octets.length; k < len; k++) {
octet = octets[k];
if (!((0 <= octet && octet <= 255))) {
return null;
}
}
addr.parts.push(octets[0] << 8 | octets[1]);
addr.parts.push(octets[2] << 8 | octets[3]);
return {
parts: addr.parts,
zoneId: addr.zoneId
};
}
}
return null;
};
ipaddr.IPv4.isIPv4 = ipaddr.IPv6.isIPv6 = function(string) {
return this.parser(string) !== null;
};
ipaddr.IPv4.isValid = function(string) {
var e;
try {
new this(this.parser(string));
return true;
} catch (error1) {
e = error1;
return false;
}
};
ipaddr.IPv4.isValidFourPartDecimal = function(string) {
if (ipaddr.IPv4.isValid(string) && string.match(/^(0|[1-9]\d*)(\.(0|[1-9]\d*)){3}$/)) {
return true;
} else {
return false;
}
};
ipaddr.IPv6.isValid = function(string) {
var addr, e;
if (typeof string === "string" && string.indexOf(":") === -1) {
return false;
}
try {
addr = this.parser(string);
new this(addr.parts, addr.zoneId);
return true;
} catch (error1) {
e = error1;
return false;
}
};
ipaddr.IPv4.parse = function(string) {
var parts;
parts = this.parser(string);
if (parts === null) {
throw new Error("ipaddr: string is not formatted like ip address");
}
return new this(parts);
};
ipaddr.IPv6.parse = function(string) {
var addr;
addr = this.parser(string);
if (addr.parts === null) {
throw new Error("ipaddr: string is not formatted like ip address");
}
return new this(addr.parts, addr.zoneId);
};
ipaddr.IPv4.parseCIDR = function(string) {
var maskLength, match, parsed;
if (match = string.match(/^(.+)\/(\d+)$/)) {
maskLength = parseInt(match[2]);
if (maskLength >= 0 && maskLength <= 32) {
parsed = [this.parse(match[1]), maskLength];
Object.defineProperty(parsed, 'toString', {
value: function() {
return this.join('/');
}
});
return parsed;
}
}
throw new Error("ipaddr: string is not formatted like an IPv4 CIDR range");
};
ipaddr.IPv4.subnetMaskFromPrefixLength = function(prefix) {
var filledOctetCount, j, octets;
prefix = parseInt(prefix);
if (prefix < 0 || prefix > 32) {
throw new Error('ipaddr: invalid IPv4 prefix length');
}
octets = [0, 0, 0, 0];
j = 0;
filledOctetCount = Math.floor(prefix / 8);
while (j < filledOctetCount) {
octets[j] = 255;
j++;
}
if (filledOctetCount < 4) {
octets[filledOctetCount] = Math.pow(2, prefix % 8) - 1 << 8 - (prefix % 8);
}
return new this(octets);
};
ipaddr.IPv4.broadcastAddressFromCIDR = function(string) {
var cidr, error, i, ipInterfaceOctets, octets, subnetMaskOctets;
try {
cidr = this.parseCIDR(string);
ipInterfaceOctets = cidr[0].toByteArray();
subnetMaskOctets = this.subnetMaskFromPrefixLength(cidr[1]).toByteArray();
octets = [];
i = 0;
while (i < 4) {
octets.push(parseInt(ipInterfaceOctets[i], 10) | parseInt(subnetMaskOctets[i], 10) ^ 255);
i++;
}
return new this(octets);
} catch (error1) {
error = error1;
throw new Error('ipaddr: the address does not have IPv4 CIDR format');
}
};
ipaddr.IPv4.networkAddressFromCIDR = function(string) {
var cidr, error, i, ipInterfaceOctets, octets, subnetMaskOctets;
try {
cidr = this.parseCIDR(string);
ipInterfaceOctets = cidr[0].toByteArray();
subnetMaskOctets = this.subnetMaskFromPrefixLength(cidr[1]).toByteArray();
octets = [];
i = 0;
while (i < 4) {
octets.push(parseInt(ipInterfaceOctets[i], 10) & parseInt(subnetMaskOctets[i], 10));
i++;
}
return new this(octets);
} catch (error1) {
error = error1;
throw new Error('ipaddr: the address does not have IPv4 CIDR format');
}
};
ipaddr.IPv6.parseCIDR = function(string) {
var maskLength, match, parsed;
if (match = string.match(/^(.+)\/(\d+)$/)) {
maskLength = parseInt(match[2]);
if (maskLength >= 0 && maskLength <= 128) {
parsed = [this.parse(match[1]), maskLength];
Object.defineProperty(parsed, 'toString', {
value: function() {
return this.join('/');
}
});
return parsed;
}
}
throw new Error("ipaddr: string is not formatted like an IPv6 CIDR range");
};
ipaddr.isValid = function(string) {
return ipaddr.IPv6.isValid(string) || ipaddr.IPv4.isValid(string);
};
ipaddr.parse = function(string) {
if (ipaddr.IPv6.isValid(string)) {
return ipaddr.IPv6.parse(string);
} else if (ipaddr.IPv4.isValid(string)) {
return ipaddr.IPv4.parse(string);
} else {
throw new Error("ipaddr: the address has neither IPv6 nor IPv4 format");
}
};
ipaddr.parseCIDR = function(string) {
var e;
try {
return ipaddr.IPv6.parseCIDR(string);
} catch (error1) {
e = error1;
try {
return ipaddr.IPv4.parseCIDR(string);
} catch (error1) {
e = error1;
throw new Error("ipaddr: the address has neither IPv6 nor IPv4 CIDR format");
}
}
};
ipaddr.fromByteArray = function(bytes) {
var length;
length = bytes.length;
if (length === 4) {
return new ipaddr.IPv4(bytes);
} else if (length === 16) {
return new ipaddr.IPv6(bytes);
} else {
throw new Error("ipaddr: the binary input is neither an IPv6 nor IPv4 address");
}
};
ipaddr.process = function(string) {
var addr;
addr = this.parse(string);
if (addr.kind() === 'ipv6' && addr.isIPv4MappedAddress()) {
return addr.toIPv4Address();
} else {
return addr;
}
};
}).call(this);