dnscrypt-proxy/vendor/github.com/k-sone/critbitgo/net.go

324 lines
7.8 KiB
Go

package critbitgo
import (
"net"
)
var (
mask32 = net.IPMask{0xff, 0xff, 0xff, 0xff}
mask128 = net.IPMask{0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff}
)
// IP routing table.
type Net struct {
trie *Trie
}
// Add a route.
// If `r` is not IPv4/IPv6 network, returns an error.
func (n *Net) Add(r *net.IPNet, value interface{}) (err error) {
var ip net.IP
if ip, _, err = netValidateIPNet(r); err == nil {
n.trie.Set(netIPNetToKey(ip, r.Mask), value)
}
return
}
// Add a route.
// If `s` is not CIDR notation, returns an error.
func (n *Net) AddCIDR(s string, value interface{}) (err error) {
var r *net.IPNet
if _, r, err = net.ParseCIDR(s); err == nil {
n.Add(r, value)
}
return
}
// Delete a specific route.
// If `r` is not IP4/IPv6 network or a route is not found, `ok` is false.
func (n *Net) Delete(r *net.IPNet) (value interface{}, ok bool, err error) {
var ip net.IP
if ip, _, err = netValidateIPNet(r); err == nil {
value, ok = n.trie.Delete(netIPNetToKey(ip, r.Mask))
}
return
}
// Delete a specific route.
// If `s` is not CIDR notation or a route is not found, `ok` is false.
func (n *Net) DeleteCIDR(s string) (value interface{}, ok bool, err error) {
var r *net.IPNet
if _, r, err = net.ParseCIDR(s); err == nil {
value, ok, err = n.Delete(r)
}
return
}
// Get a specific route.
// If `r` is not IPv4/IPv6 network or a route is not found, `ok` is false.
func (n *Net) Get(r *net.IPNet) (value interface{}, ok bool, err error) {
var ip net.IP
if ip, _, err = netValidateIPNet(r); err == nil {
value, ok = n.trie.Get(netIPNetToKey(ip, r.Mask))
}
return
}
// Get a specific route.
// If `s` is not CIDR notation or a route is not found, `ok` is false.
func (n *Net) GetCIDR(s string) (value interface{}, ok bool, err error) {
var r *net.IPNet
if _, r, err = net.ParseCIDR(s); err == nil {
value, ok, err = n.Get(r)
}
return
}
// Return a specific route by using the longest prefix matching.
// If `r` is not IPv4/IPv6 network or a route is not found, `route` is nil.
func (n *Net) Match(r *net.IPNet) (route *net.IPNet, value interface{}, err error) {
var ip net.IP
if ip, _, err = netValidateIP(r.IP); err == nil {
if k, v := n.match(netIPNetToKey(ip, r.Mask)); k != nil {
route = netKeyToIPNet(k)
value = v
}
}
return
}
// Return a specific route by using the longest prefix matching.
// If `s` is not CIDR notation, or a route is not found, `route` is nil.
func (n *Net) MatchCIDR(s string) (route *net.IPNet, value interface{}, err error) {
var r *net.IPNet
if _, r, err = net.ParseCIDR(s); err == nil {
route, value, err = n.Match(r)
}
return
}
// Return a bool indicating whether a route would be found
func (n *Net) ContainedIP(ip net.IP) (contained bool, err error) {
k, _, err := n.matchIP(ip)
contained = k != nil
return
}
// Return a specific route by using the longest prefix matching.
// If `ip` is invalid IP, or a route is not found, `route` is nil.
func (n *Net) MatchIP(ip net.IP) (route *net.IPNet, value interface{}, err error) {
k, v, err := n.matchIP(ip)
if k != nil {
route = netKeyToIPNet(k)
value = v
}
return
}
func (n *Net) matchIP(ip net.IP) (k []byte, v interface{}, err error) {
var isV4 bool
ip, isV4, err = netValidateIP(ip)
if err != nil {
return
}
var mask net.IPMask
if isV4 {
mask = mask32
} else {
mask = mask128
}
k, v = n.match(netIPNetToKey(ip, mask))
return
}
func (n *Net) match(key []byte) ([]byte, interface{}) {
if n.trie.size > 0 {
if node := lookup(&n.trie.root, key, false); node != nil {
return node.external.key, node.external.value
}
}
return nil, nil
}
func lookup(p *node, key []byte, backtracking bool) *node {
if p.internal != nil {
var direction int
if p.internal.offset == len(key)-1 {
// selecting the larger side when comparing the mask
direction = 1
} else if backtracking {
direction = 0
} else {
direction = p.internal.direction(key)
}
if c := lookup(&p.internal.child[direction], key, backtracking); c != nil {
return c
}
if direction == 1 {
// search other node
return lookup(&p.internal.child[0], key, true)
}
return nil
} else {
nlen := len(p.external.key)
if nlen != len(key) {
return nil
}
// check mask
mask := p.external.key[nlen-1]
if mask > key[nlen-1] {
return nil
}
// compare both keys with mask
div := int(mask >> 3)
for i := 0; i < div; i++ {
if p.external.key[i] != key[i] {
return nil
}
}
if mod := uint(mask & 0x07); mod > 0 {
bit := 8 - mod
if p.external.key[div] != key[div]&(0xff>>bit<<bit) {
return nil
}
}
return p
}
}
// Walk iterates routes from a given route.
// handle is called with arguments route and value (if handle returns `false`, the iteration is aborted)
func (n *Net) Walk(r *net.IPNet, handle func(*net.IPNet, interface{}) bool) {
var key []byte
if r != nil {
if ip, _, err := netValidateIPNet(r); err == nil {
key = netIPNetToKey(ip, r.Mask)
}
}
n.trie.Walk(key, func(key []byte, value interface{}) bool {
return handle(netKeyToIPNet(key), value)
})
}
// WalkPrefix interates routes that have a given prefix.
// handle is called with arguments route and value (if handle returns `false`, the iteration is aborted)
func (n *Net) WalkPrefix(r *net.IPNet, handle func(*net.IPNet, interface{}) bool) {
var prefix []byte
var div int
var bit uint
if r != nil {
if ip, _, err := netValidateIPNet(r); err == nil {
prefix = netIPNetToKey(ip, r.Mask)
mask := prefix[len(prefix)-1]
div = int(mask >> 3)
if mod := uint(mask & 0x07); mod != 0 {
bit = 8 - mod
}
}
}
wrapper := func(key []byte, value interface{}) bool {
if bit != 0 {
if prefix[div]>>bit != key[div]>>bit {
return false
}
}
return handle(netKeyToIPNet(key), value)
}
n.trie.Allprefixed(prefix[0:div], wrapper)
}
func walkMatch(p *node, key []byte, handle func(*net.IPNet, interface{}) bool) bool {
if p.internal != nil {
if !walkMatch(&p.internal.child[0], key, handle) {
return false
}
if p.internal.offset >= len(key)-1 || key[p.internal.offset]&p.internal.bit > 0 {
return walkMatch(&p.internal.child[1], key, handle)
}
return true
}
mask := p.external.key[len(p.external.key)-1]
if key[len(key)-1] < mask {
return true
}
div := int(mask >> 3)
for i := 0; i < div; i++ {
if p.external.key[i] != key[i] {
return true
}
}
if mod := uint(mask & 0x07); mod > 0 {
bit := 8 - mod
if p.external.key[div] != key[div]&(0xff>>bit<<bit) {
return true
}
}
return handle(netKeyToIPNet(p.external.key), p.external.value)
}
// WalkMatch interates routes that match a given route.
// handle is called with arguments route and value (if handle returns `false`, the iteration is aborted)
func (n *Net) WalkMatch(r *net.IPNet, handle func(*net.IPNet, interface{}) bool) {
if n.trie.size > 0 {
walkMatch(&n.trie.root, netIPNetToKey(r.IP, r.Mask), handle)
}
}
// Deletes all routes.
func (n *Net) Clear() {
n.trie.Clear()
}
// Returns number of routes.
func (n *Net) Size() int {
return n.trie.Size()
}
// Create IP routing table
func NewNet() *Net {
return &Net{NewTrie()}
}
func netValidateIP(ip net.IP) (nIP net.IP, isV4 bool, err error) {
if v4 := ip.To4(); v4 != nil {
nIP = v4
isV4 = true
} else if ip.To16() != nil {
nIP = ip
} else {
err = &net.AddrError{Err: "Invalid IP address", Addr: ip.String()}
}
return
}
func netValidateIPNet(r *net.IPNet) (nIP net.IP, isV4 bool, err error) {
if r == nil {
err = &net.AddrError{Err: "IP network is nil"}
return
}
return netValidateIP(r.IP)
}
func netIPNetToKey(ip net.IP, mask net.IPMask) []byte {
// +--------------+------+
// | ip address.. | mask |
// +--------------+------+
ones, _ := mask.Size()
return append(ip, byte(ones))
}
func netKeyToIPNet(k []byte) *net.IPNet {
iplen := len(k) - 1
return &net.IPNet{
IP: net.IP(k[:iplen]),
Mask: net.CIDRMask(int(k[iplen]), iplen*8),
}
}