package geoip import ( "encoding/binary" "sort" "github.com/xtls/xray-core/common/net" ) //go:generate go run github.com/xtls/xray-core/common/errors/errorgen type ipv6 struct { a uint64 b uint64 } type GeoIPMatcher struct { countryCode string ip4 []uint32 prefix4 []uint8 ip6 []ipv6 prefix6 []uint8 } func normalize4(ip uint32, prefix uint8) uint32 { return (ip >> (32 - prefix)) << (32 - prefix) } func normalize6(ip ipv6, prefix uint8) ipv6 { if prefix <= 64 { ip.a = (ip.a >> (64 - prefix)) << (64 - prefix) ip.b = 0 } else { ip.b = (ip.b >> (128 - prefix)) << (128 - prefix) } return ip } func (m *GeoIPMatcher) Init(cidrs []*CIDR) error { ip4Count := 0 ip6Count := 0 for _, cidr := range cidrs { ip := cidr.Ip switch len(ip) { case 4: ip4Count++ case 16: ip6Count++ default: return newError("unexpect ip length: ", len(ip)) } } cidrList := CIDRList(cidrs) sort.Sort(&cidrList) m.ip4 = make([]uint32, 0, ip4Count) m.prefix4 = make([]uint8, 0, ip4Count) m.ip6 = make([]ipv6, 0, ip6Count) m.prefix6 = make([]uint8, 0, ip6Count) for _, cidr := range cidrs { ip := cidr.Ip prefix := uint8(cidr.Prefix) switch len(ip) { case 4: m.ip4 = append(m.ip4, normalize4(binary.BigEndian.Uint32(ip), prefix)) m.prefix4 = append(m.prefix4, prefix) case 16: ip6 := ipv6{ a: binary.BigEndian.Uint64(ip[0:8]), b: binary.BigEndian.Uint64(ip[8:16]), } ip6 = normalize6(ip6, prefix) m.ip6 = append(m.ip6, ip6) m.prefix6 = append(m.prefix6, prefix) } } return nil } func (m *GeoIPMatcher) match4(ip uint32) bool { if len(m.ip4) == 0 { return false } if ip < m.ip4[0] { return false } size := uint32(len(m.ip4)) l := uint32(0) r := size for l < r { x := ((l + r) >> 1) if ip < m.ip4[x] { r = x continue } nip := normalize4(ip, m.prefix4[x]) if nip == m.ip4[x] { return true } l = x + 1 } return l > 0 && normalize4(ip, m.prefix4[l-1]) == m.ip4[l-1] } func less6(a ipv6, b ipv6) bool { return a.a < b.a || (a.a == b.a && a.b < b.b) } func (m *GeoIPMatcher) match6(ip ipv6) bool { if len(m.ip6) == 0 { return false } if less6(ip, m.ip6[0]) { return false } size := uint32(len(m.ip6)) l := uint32(0) r := size for l < r { x := (l + r) / 2 if less6(ip, m.ip6[x]) { r = x continue } if normalize6(ip, m.prefix6[x]) == m.ip6[x] { return true } l = x + 1 } return l > 0 && normalize6(ip, m.prefix6[l-1]) == m.ip6[l-1] } // Match returns true if the given ip is included by the GeoIP. func (m *GeoIPMatcher) Match(ip net.IP) bool { switch len(ip) { case 4: return m.match4(binary.BigEndian.Uint32(ip)) case 16: return m.match6(ipv6{ a: binary.BigEndian.Uint64(ip[0:8]), b: binary.BigEndian.Uint64(ip[8:16]), }) default: return false } } // GeoIPMatcherContainer is a container for GeoIPMatchers. It keeps unique copies of GeoIPMatcher by country code. type GeoIPMatcherContainer struct { matchers []*GeoIPMatcher } // Add adds a new GeoIP set into the container. // If the country code of GeoIP is not empty, GeoIPMatcherContainer will try to find an existing one, instead of adding a new one. func (c *GeoIPMatcherContainer) Add(geoip *GeoIP) (*GeoIPMatcher, error) { if len(geoip.CountryCode) > 0 { for _, m := range c.matchers { if m.countryCode == geoip.CountryCode { return m, nil } } } m := &GeoIPMatcher{ countryCode: geoip.CountryCode, } if err := m.Init(geoip.Cidr); err != nil { return nil, err } if len(geoip.CountryCode) > 0 { c.matchers = append(c.matchers, m) } return m, nil } var ( GlobalGeoIPContainer GeoIPMatcherContainer )