From 67fdec20726e48ba3a934cb25bb30d47ec4a4f29 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Yaroslav=20De=20La=20Pe=C3=B1a=20Smirnov?= Date: Wed, 29 Nov 2017 11:44:34 +0300 Subject: Initial commit, version 0.5.3 --- node_modules/ipaddr.js/src/ipaddr.coffee | 591 +++++++++++++++++++++++++++++++ 1 file changed, 591 insertions(+) create mode 100644 node_modules/ipaddr.js/src/ipaddr.coffee (limited to 'node_modules/ipaddr.js/src/ipaddr.coffee') diff --git a/node_modules/ipaddr.js/src/ipaddr.coffee b/node_modules/ipaddr.js/src/ipaddr.coffee new file mode 100644 index 0000000..6d7236e --- /dev/null +++ b/node_modules/ipaddr.js/src/ipaddr.coffee @@ -0,0 +1,591 @@ +# Define the main object +ipaddr = {} + +root = this + +# Export for both the CommonJS and browser-like environment +if module? && module.exports + module.exports = ipaddr +else + root['ipaddr'] = ipaddr + +# A generic CIDR (Classless Inter-Domain Routing) RFC1518 range matcher. +matchCIDR = (first, second, partSize, cidrBits) -> + 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 + shift = 0 if shift < 0 + + if first[part] >> shift != second[part] >> shift + return false + + cidrBits -= partSize + part += 1 + + return true + +# An utility function to ease named range matching. See examples below. +# rangeList can contain both IPv4 and IPv6 subnet entries and will not throw errors +# on matching IPv4 addresses to IPv6 ranges or vice versa. +ipaddr.subnetMatch = (address, rangeList, defaultName='unicast') -> + for rangeName, rangeSubnets of rangeList + # ECMA5 Array.isArray isn't available everywhere + if rangeSubnets[0] && !(rangeSubnets[0] instanceof Array) + rangeSubnets = [ rangeSubnets ] + + for subnet in rangeSubnets + if address.kind() == subnet[0].kind() + if address.match.apply(address, subnet) + return rangeName + + return defaultName + +# An IPv4 address (RFC791). +class ipaddr.IPv4 + # Constructs a new IPv4 address from an array of four octets + # in network order (MSB first) + # Verifies the input. + constructor: (octets) -> + if octets.length != 4 + throw new Error "ipaddr: ipv4 octet count should be 4" + + for octet in octets + if !(0 <= octet <= 255) + throw new Error "ipaddr: ipv4 octet should fit in 8 bits" + + @octets = octets + + # The 'kind' method exists on both IPv4 and IPv6 classes. + kind: -> + return 'ipv4' + + # Returns the address in convenient, decimal-dotted format. + toString: -> + return @octets.join "." + + # Symmetrical method strictly for aligning with the IPv6 methods. + toNormalizedString: -> + return this.toString() + + # Returns an array of byte-sized values in network order (MSB first) + toByteArray: -> + return @octets.slice(0) # octets.clone + + # Checks if this address matches other one within given CIDR range. + match: (other, cidrRange) -> + if cidrRange == undefined + [other, cidrRange] = other + + if other.kind() != 'ipv4' + throw new Error "ipaddr: cannot match ipv4 address with non-ipv4 one" + + return matchCIDR(this.octets, other.octets, 8, cidrRange) + + # Special IPv4 address ranges. + # See also https://en.wikipedia.org/wiki/Reserved_IP_addresses + SpecialRanges: + unspecified: [ + [ new IPv4([0, 0, 0, 0]), 8 ] + ] + broadcast: [ + [ new IPv4([255, 255, 255, 255]), 32 ] + ] + multicast: [ # RFC3171 + [ new IPv4([224, 0, 0, 0]), 4 ] + ] + linkLocal: [ # RFC3927 + [ new IPv4([169, 254, 0, 0]), 16 ] + ] + loopback: [ # RFC5735 + [ new IPv4([127, 0, 0, 0]), 8 ] + ] + carrierGradeNat: [ # RFC6598 + [ new IPv4([100, 64, 0, 0]), 10 ] + ] + private: [ # RFC1918 + [ new IPv4([10, 0, 0, 0]), 8 ] + [ new IPv4([172, 16, 0, 0]), 12 ] + [ new IPv4([192, 168, 0, 0]), 16 ] + ] + reserved: [ # Reserved and testing-only ranges; RFCs 5735, 5737, 2544, 1700 + [ 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 ] + ] + + # Checks if the address corresponds to one of the special ranges. + range: -> + return ipaddr.subnetMatch(this, @SpecialRanges) + + # Convrets this IPv4 address to an IPv4-mapped IPv6 address. + toIPv4MappedAddress: -> + return ipaddr.IPv6.parse "::ffff:#{@toString()}" + + # returns a number of leading ones in IPv4 address, making sure that + # the rest is a solid sequence of 0's (valid netmask) + # returns either the CIDR length or null if mask is not valid + prefixLengthFromSubnetMask: -> + # number of zeroes in octet + zerotable = + 0: 8 + 128: 7 + 192: 6 + 224: 5 + 240: 4 + 248: 3 + 252: 2 + 254: 1 + 255: 0 + + cidr = 0 + # non-zero encountered stop scanning for zeroes + stop = false + for i in [3..0] by -1 + octet = @octets[i] + if octet of zerotable + zeros = zerotable[octet] + if stop and zeros != 0 + return null + unless zeros == 8 + stop = true + cidr += zeros + else + return null + return 32 - cidr + +# A list of regular expressions that match arbitrary IPv4 addresses, +# for which a number of weird notations exist. +# Note that an address like 0010.0xa5.1.1 is considered legal. +ipv4Part = "(0?\\d+|0x[a-f0-9]+)" +ipv4Regexes = + fourOctet: new RegExp "^#{ipv4Part}\\.#{ipv4Part}\\.#{ipv4Part}\\.#{ipv4Part}$", 'i' + longValue: new RegExp "^#{ipv4Part}$", 'i' + +# Classful variants (like a.b, where a is an octet, and b is a 24-bit +# value representing last three octets; this corresponds to a class C +# address) are omitted due to classless nature of modern Internet. +ipaddr.IPv4.parser = (string) -> + parseIntAuto = (string) -> + if string[0] == "0" && string[1] != "x" + parseInt(string, 8) + else + parseInt(string) + + # parseInt recognizes all that octal & hexadecimal weirdness for us + if match = string.match(ipv4Regexes.fourOctet) + return (parseIntAuto(part) for part in match[1..5]) + 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 ((value >> shift) & 0xff for shift in [0..24] by 8).reverse() + else + return null + +# An IPv6 address (RFC2460) +class ipaddr.IPv6 + # Constructs an IPv6 address from an array of eight 16-bit parts + # or sixteen 8-bit parts in network order (MSB first). + # Throws an error if the input is invalid. + constructor: (parts, zoneId) -> + if parts.length == 16 + @parts = [] + for i in [0..14] by 2 + @parts.push((parts[i] << 8) | parts[i + 1]) + else if parts.length == 8 + @parts = parts + else + throw new Error "ipaddr: ipv6 part count should be 8 or 16" + + for part in @parts + if !(0 <= part <= 0xffff) + throw new Error "ipaddr: ipv6 part should fit in 16 bits" + + if zoneId + @zoneId = zoneId + + # The 'kind' method exists on both IPv4 and IPv6 classes. + kind: -> + return 'ipv6' + + # Returns the address in compact, human-readable format like + # 2001:db8:8:66::1 + toString: -> + stringParts = (part.toString(16) for part in @parts) + + compactStringParts = [] + pushPart = (part) -> compactStringParts.push part + + state = 0 + for part in stringParts + switch state + when 0 + if part == '0' + pushPart('') + else + pushPart(part) + + state = 1 + when 1 + if part == '0' + state = 2 + else + pushPart(part) + when 2 + unless part == '0' + pushPart('') + pushPart(part) + state = 3 + when 3 + pushPart(part) + + if state == 2 + pushPart('') + pushPart('') + + addr = compactStringParts.join ":" + + suffix = '' + if @zoneId + suffix = '%' + @zoneId + + return addr + suffix + + # Returns an array of byte-sized values in network order (MSB first) + toByteArray: -> + bytes = [] + for part in @parts + bytes.push(part >> 8) + bytes.push(part & 0xff) + + return bytes + + # Returns the address in expanded format with all zeroes included, like + # 2001:db8:8:66:0:0:0:1 + toNormalizedString: -> + addr = (part.toString(16) for part in @parts).join ":" + + suffix = '' + if @zoneId + suffix = '%' + @zoneId + + return addr + suffix + + # Checks if this address matches other one within given CIDR range. + match: (other, cidrRange) -> + if cidrRange == undefined + [other, cidrRange] = other + + if other.kind() != 'ipv6' + throw new Error "ipaddr: cannot match ipv6 address with non-ipv6 one" + + return matchCIDR(this.parts, other.parts, 16, cidrRange) + + # Special IPv6 ranges + SpecialRanges: + unspecified: [ new IPv6([0, 0, 0, 0, 0, 0, 0, 0]), 128 ] # RFC4291, here and after + 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 ] # RFC6145 + rfc6052: [ new IPv6([0x64, 0xff9b, 0, 0, 0, 0, 0, 0]), 96 ] # RFC6052 + '6to4': [ new IPv6([0x2002, 0, 0, 0, 0, 0, 0, 0]), 16 ] # RFC3056 + teredo: [ new IPv6([0x2001, 0, 0, 0, 0, 0, 0, 0]), 32 ] # RFC6052, RFC6146 + reserved: [ + [ new IPv6([ 0x2001, 0xdb8, 0, 0, 0, 0, 0, 0]), 32 ] # RFC4291 + ] + + # Checks if the address corresponds to one of the special ranges. + range: -> + return ipaddr.subnetMatch(this, @SpecialRanges) + + # Checks if this address is an IPv4-mapped IPv6 address. + isIPv4MappedAddress: -> + return @range() == 'ipv4Mapped' + + # Converts this address to IPv4 address if it is an IPv4-mapped IPv6 address. + # Throws an error otherwise. + toIPv4Address: -> + unless @isIPv4MappedAddress() + throw new Error "ipaddr: trying to convert a generic ipv6 address to ipv4" + + [high, low] = @parts[-2..-1] + + return new ipaddr.IPv4([high >> 8, high & 0xff, low >> 8, low & 0xff]) + + # returns a number of leading ones in IPv6 address, making sure that + # the rest is a solid sequence of 0's (valid netmask) + # returns either the CIDR length or null if mask is not valid + prefixLengthFromSubnetMask: -> + # number of zeroes in octet + 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 + # non-zero encountered stop scanning for zeroes + stop = false + for i in [7..0] by -1 + part = @parts[i] + if part of zerotable + zeros = zerotable[part] + if stop and zeros != 0 + return null + unless zeros == 16 + stop = true + cidr += zeros + else + return null + return 128 - cidr + +# IPv6-matching regular expressions. +# For IPv6, the task is simpler: it is enough to match the colon-delimited +# hexadecimal IPv6 and a transitional variant with dotted-decimal IPv4 at +# the end. +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' + +# Expand :: in an IPv6 address or address part consisting of `parts` groups. +expandIPv6 = (string, parts) -> + # More than one '::' means invalid adddress + if string.indexOf('::') != string.lastIndexOf('::') + return null + + # Remove zone index and save it for later + zoneId = (string.match(ipv6Regexes['zoneIndex']) || [])[0] + if zoneId + zoneId = zoneId.substring(1) + string = string.replace(/%.+$/, '') + + # How many parts do we already have? + colonCount = 0 + lastColon = -1 + while (lastColon = string.indexOf(':', lastColon + 1)) >= 0 + colonCount++ + + # 0::0 is two parts more than :: + colonCount-- if string.substr(0, 2) == '::' + colonCount-- if string.substr(-2, 2) == '::' + + # The following loop would hang if colonCount > parts + if colonCount > parts + return null + + # replacement = ':' + '0:' * (parts - colonCount) + replacementCount = parts - colonCount + replacement = ':' + while replacementCount-- + replacement += '0:' + + # Insert the missing zeroes + string = string.replace('::', replacement) + + # Trim any garbage which may be hanging around if :: was at the edge in + # the source string + string = string[1..-1] if string[0] == ':' + string = string[0..-2] if string[string.length-1] == ':' + + parts = (parseInt(part, 16) for part in string.split(":")) + return { parts: parts, zoneId: zoneId } + +# Parse an IPv6 address. +ipaddr.IPv6.parser = (string) -> + if ipv6Regexes['native'].test(string) + return expandIPv6(string, 8) + + else if match = string.match(ipv6Regexes['transitional']) + zoneId = match[6] || '' + addr = expandIPv6(match[1][0..-2] + zoneId, 6) + if addr.parts + octets = [parseInt(match[2]), parseInt(match[3]), + parseInt(match[4]), parseInt(match[5])] + for octet in octets + if !(0 <= octet <= 255) + return null + + addr.parts.push(octets[0] << 8 | octets[1]) + addr.parts.push(octets[2] << 8 | octets[3]) + return { parts: addr.parts, zoneId: addr.zoneId } + + return null + +# Checks if a given string is formatted like IPv4/IPv6 address. +ipaddr.IPv4.isIPv4 = ipaddr.IPv6.isIPv6 = (string) -> + return @parser(string) != null + +# Checks if a given string is a valid IPv4/IPv6 address. +ipaddr.IPv4.isValid = (string) -> + try + new this(@parser(string)) + return true + catch e + return false + +ipaddr.IPv4.isValidFourPartDecimal = (string) -> + if ipaddr.IPv4.isValid(string) and string.match(/^\d+(\.\d+){3}$/) + return true + else + return false + +ipaddr.IPv6.isValid = (string) -> + # Since IPv6.isValid is always called first, this shortcut + # provides a substantial performance gain. + if typeof string == "string" and string.indexOf(":") == -1 + return false + + try + addr = @parser(string) + new this(addr.parts, addr.zoneId) + return true + catch e + return false + +# Tries to parse and validate a string with IPv4/IPv6 address. +# Throws an error if it fails. +ipaddr.IPv4.parse = (string) -> + parts = @parser(string) + if parts == null + throw new Error "ipaddr: string is not formatted like ip address" + + return new this(parts) + +ipaddr.IPv6.parse = (string) -> + addr = @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 = (string) -> + if match = string.match(/^(.+)\/(\d+)$/) + maskLength = parseInt(match[2]) + if maskLength >= 0 and maskLength <= 32 + return [@parse(match[1]), maskLength] + + throw new Error "ipaddr: string is not formatted like an IPv4 CIDR range" + +# A utility function to return subnet mask in IPv4 format given the prefix length +ipaddr.IPv4.subnetMaskFromPrefixLength = (prefix) -> + prefix = parseInt(prefix) + if prefix < 0 or 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) + new @(octets) + +# A utility function to return broadcast address given the IPv4 interface and prefix length in CIDR notation +ipaddr.IPv4.broadcastAddressFromCIDR = (string) -> + try + cidr = @parseCIDR(string) + ipInterfaceOctets = cidr[0].toByteArray() + subnetMaskOctets = @subnetMaskFromPrefixLength(cidr[1]).toByteArray() + octets = [] + i = 0 + while i < 4 + # Broadcast address is bitwise OR between ip interface and inverted mask + octets.push parseInt(ipInterfaceOctets[i], 10) | parseInt(subnetMaskOctets[i], 10) ^ 255 + i++ + return new @(octets) + catch error + throw new Error('ipaddr: the address does not have IPv4 CIDR format') + return + +# A utility function to return network address given the IPv4 interface and prefix length in CIDR notation +ipaddr.IPv4.networkAddressFromCIDR = (string) -> + try + cidr = @parseCIDR(string) + ipInterfaceOctets = cidr[0].toByteArray() + subnetMaskOctets = @subnetMaskFromPrefixLength(cidr[1]).toByteArray() + octets = [] + i = 0 + while i < 4 + # Network address is bitwise AND between ip interface and mask + octets.push parseInt(ipInterfaceOctets[i], 10) & parseInt(subnetMaskOctets[i], 10) + i++ + return new @(octets) + catch error + throw new Error('ipaddr: the address does not have IPv4 CIDR format') + return + +ipaddr.IPv6.parseCIDR = (string) -> + if match = string.match(/^(.+)\/(\d+)$/) + maskLength = parseInt(match[2]) + if maskLength >= 0 and maskLength <= 128 + return [@parse(match[1]), maskLength] + + throw new Error "ipaddr: string is not formatted like an IPv6 CIDR range" + +# Checks if the address is valid IP address +ipaddr.isValid = (string) -> + return ipaddr.IPv6.isValid(string) || ipaddr.IPv4.isValid(string) + +# Try to parse an address and throw an error if it is impossible +ipaddr.parse = (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 = (string) -> + try + return ipaddr.IPv6.parseCIDR(string) + catch e + try + return ipaddr.IPv4.parseCIDR(string) + catch e + throw new Error "ipaddr: the address has neither IPv6 nor IPv4 CIDR format" + +# Try to parse an array in network order (MSB first) for IPv4 and IPv6 +ipaddr.fromByteArray = (bytes) -> + 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" + +# Parse an address and return plain IPv4 address if it is an IPv4-mapped address +ipaddr.process = (string) -> + addr = @parse(string) + if addr.kind() == 'ipv6' && addr.isIPv4MappedAddress() + return addr.toIPv4Address() + else + return addr -- cgit v1.2.3