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go/src/pkg/net/ip.go

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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// IP address manipulations
//
// IPv4 addresses are 4 bytes; IPv6 addresses are 16 bytes.
// An IPv4 address can be converted to an IPv6 address by
// adding a canonical prefix (10 zeros, 2 0xFFs).
// This library accepts either size of byte array but always
// returns 16-byte addresses.
package net
// IP address lengths (bytes).
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const (
IPv4len = 4;
IPv6len = 16;
)
// An IP is a single IP address, an array of bytes.
// Functions in this package accept either 4-byte (IP v4)
// or 16-byte (IP v6) arrays as input. Unless otherwise
// specified, functions in this package always return
// IP addresses in 16-byte form using the canonical
// embedding.
//
// Note that in this documentation, referring to an
// IP address as an IPv4 address or an IPv6 address
// is a semantic property of the address, not just the
// length of the byte array: a 16-byte array can still
// be an IPv4 address.
type IP []byte
// An IP mask is an IP address.
type IPMask []byte
// IPv4 returns the IP address (in 16-byte form) of the
// IPv4 address a.b.c.d.
func IPv4(a, b, c, d byte) IP {
p := make(IP, IPv6len);
for i := 0; i < 10; i++ {
p[i] = 0;
}
p[10] = 0xff;
p[11] = 0xff;
p[12] = a;
p[13] = b;
p[14] = c;
p[15] = d;
return p;
}
// Well-known IPv4 addresses
var (
IPv4bcast = IPv4(255, 255, 255, 255); // broadcast
IPv4allsys = IPv4(224, 0, 0, 1); // all systems
IPv4allrouter = IPv4(224, 0, 0, 2); // all routers
IPv4zero = IPv4(0, 0, 0, 0); // all zeros
)
// Well-known IPv6 addresses
var (
IPzero = make(IP, IPv6len); // all zeros
)
// Is p all zeros?
func isZeros(p IP) bool {
for i := 0; i < len(p); i++ {
if p[i] != 0 {
return false;
}
}
return true;
}
// To4 converts the IPv4 address ip to a 4-byte representation.
// If ip is not an IPv4 address, To4 returns nil.
func (ip IP) To4() IP {
if len(ip) == IPv4len {
return ip;
}
if len(ip) == IPv6len &&
isZeros(ip[0:10]) &&
ip[10] == 0xff &&
ip[11] == 0xff {
return ip[12:16];
}
return nil;
}
// To16 converts the IP address ip to a 16-byte representation.
// If ip is not an IP address (it is the wrong length), To16 returns nil.
func (ip IP) To16() IP {
if len(ip) == IPv4len {
return IPv4(ip[0], ip[1], ip[2], ip[3]);
}
if len(ip) == IPv6len {
return ip;
}
return nil;
}
// Default route masks for IPv4.
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var (
classAMask = IPMask(IPv4(0xff, 0, 0, 0));
classBMask = IPMask(IPv4(0xff, 0xff, 0, 0));
classCMask = IPMask(IPv4(0xff, 0xff, 0xff, 0));
)
// DefaultMask returns the default IP mask for the IP address ip.
// Only IPv4 addresses have default masks; DefaultMask returns
// nil if ip is not a valid IPv4 address.
func (ip IP) DefaultMask() IPMask {
if ip = ip.To4(); ip == nil {
return nil;
}
switch true {
case ip[0] < 0x80:
return classAMask;
case ip[0] < 0xC0:
return classBMask;
default:
return classCMask;
}
return nil; // not reached
}
// Mask returns the result of masking the IP address ip with mask.
func (ip IP) Mask(mask IPMask) IP {
n := len(ip);
if n != len(mask) {
return nil;
}
out := make(IP, n);
for i := 0; i < n; i++ {
out[i] = ip[i]&mask[i];
}
return out;
}
// Convert i to decimal string.
func itod(i uint) string {
if i == 0 {
return "0";
}
// Assemble decimal in reverse order.
var b [32]byte;
bp := len(b);
for ; i > 0; i /= 10 {
bp--;
b[bp] = byte(i%10)+'0';
}
return string(b[bp:len(b)]);
}
// Convert i to hexadecimal string.
func itox(i uint) string {
if i == 0 {
return "0";
}
// Assemble hexadecimal in reverse order.
var b [32]byte;
bp := len(b);
for ; i > 0; i /= 16 {
bp--;
b[bp] = "0123456789abcdef"[byte(i%16)];
}
return string(b[bp:len(b)]);
}
// String returns the string form of the IP address ip.
// If the address is an IPv4 address, the string representation
// is dotted decimal ("74.125.19.99"). Otherwise the representation
// is IPv6 ("2001:4860:0:2001::68").
func (ip IP) String() string {
p := ip;
if len(ip) == 0 {
return "";
}
// If IPv4, use dotted notation.
if p4 := p.To4(); len(p4) == 4 {
return itod(uint(p4[0])) + "." +
itod(uint(p4[1])) + "." +
itod(uint(p4[2])) + "." +
itod(uint(p4[3]));
}
if len(p) != IPv6len {
return "?";
}
// Find longest run of zeros.
e0 := -1;
e1 := -1;
for i := 0; i < 16; i += 2 {
j := i;
for j < 16 && p[j] == 0 && p[j+1] == 0 {
j += 2;
}
if j > i && j-i > e1-e0 {
e0 = i;
e1 = j;
}
}
// Print with possible :: in place of run of zeros
var s string;
for i := 0; i < 16; i += 2 {
if i == e0 {
s += "::";
i = e1;
if i >= 16 {
break;
}
} else if i > 0 {
s += ":";
}
s += itox((uint(p[i])<<8)|uint(p[i+1]));
}
return s;
}
// If mask is a sequence of 1 bits followed by 0 bits,
// return the number of 1 bits.
func simpleMaskLength(mask IPMask) int {
var i int;
for i = 0; i < len(mask); i++ {
if mask[i] != 0xFF {
break;
}
}
n := 8*i;
v := mask[i];
for v&0x80 != 0 {
n++;
v <<= 1;
}
if v != 0 {
return -1;
}
for i++; i < len(mask); i++ {
if mask[i] != 0 {
return -1;
}
}
return n;
}
// String returns the string representation of mask.
// If the mask is in the canonical form--ones followed by zeros--the
// string representation is just the decimal number of ones.
// If the mask is in a non-canonical form, it is formatted
// as an IP address.
func (mask IPMask) String() string {
switch len(mask) {
case 4:
n := simpleMaskLength(mask);
if n >= 0 {
return itod(uint(n + (IPv6len-IPv4len)*8));
}
case 16:
n := simpleMaskLength(mask);
if n >= 0 {
return itod(uint(n));
}
}
return IP(mask).String();
}
// Parse IPv4 address (d.d.d.d).
func parseIPv4(s string) IP {
var p [IPv4len]byte;
i := 0;
for j := 0; j < IPv4len; j++ {
if j > 0 {
if s[i] != '.' {
return nil;
}
i++;
}
var (
n int;
ok bool;
)
n, i, ok = dtoi(s, i);
if !ok || n > 0xFF {
return nil;
}
p[j] = byte(n);
}
if i != len(s) {
return nil;
}
return IPv4(p[0], p[1], p[2], p[3]);
}
// Parse IPv6 address. Many forms.
// The basic form is a sequence of eight colon-separated
// 16-bit hex numbers separated by colons,
// as in 0123:4567:89ab:cdef:0123:4567:89ab:cdef.
// Two exceptions:
// * A run of zeros can be replaced with "::".
// * The last 32 bits can be in IPv4 form.
// Thus, ::ffff:1.2.3.4 is the IPv4 address 1.2.3.4.
func parseIPv6(s string) IP {
p := make(IP, 16);
ellipsis := -1; // position of ellipsis in p
i := 0; // index in string s
// Might have leading ellipsis
if len(s) >= 2 && s[0] == ':' && s[1] == ':' {
ellipsis = 0;
i = 2;
// Might be only ellipsis
if i == len(s) {
return p;
}
}
// Loop, parsing hex numbers followed by colon.
j := 0;
L: for j < IPv6len {
// Hex number.
n, i1, ok := xtoi(s, i);
if !ok || n > 0xFFFF {
return nil;
}
// If followed by dot, might be in trailing IPv4.
if i1 < len(s) && s[i1] == '.' {
if ellipsis < 0 && j != IPv6len-IPv4len {
// Not the right place.
return nil;
}
if j+IPv4len > IPv6len {
// Not enough room.
return nil;
}
p4 := parseIPv4(s[i:len(s)]);
if p4 == nil {
return nil;
}
p[j] = p4[12];
p[j+1] = p4[13];
p[j+2] = p4[14];
p[j+3] = p4[15];
i = len(s);
j += 4;
break;
}
// Save this 16-bit chunk.
p[j] = byte(n>>8);
p[j+1] = byte(n);
j += 2;
// Stop at end of string.
i = i1;
if i == len(s) {
break;
}
// Otherwise must be followed by colon and more.
if s[i] != ':' && i+1 == len(s) {
return nil;
}
i++;
// Look for ellipsis.
if s[i] == ':' {
if ellipsis >= 0 { // already have one
return nil;
}
ellipsis = j;
if i++; i == len(s) { // can be at end
break;
}
}
}
// Must have used entire string.
if i != len(s) {
return nil;
}
// If didn't parse enough, expand ellipsis.
if j < IPv6len {
if ellipsis < 0 {
return nil;
}
n := IPv6len-j;
for k := j-1; k >= ellipsis; k-- {
p[k+n] = p[k];
}
for k := ellipsis+n-1; k >= ellipsis; k-- {
p[k] = 0;
}
}
return p;
}
// ParseIP parses s as an IP address, returning the result.
// The string s can be in dotted decimal ("74.125.19.99")
// or IPv6 ("2001:4860:0:2001::68") form.
// If s is not a valid textual representation of an IP address,
// ParseIP returns nil.
func ParseIP(s string) IP {
p := parseIPv4(s);
if p != nil {
return p;
}
return parseIPv6(s);
}