// Copyright (c) 2020 Tailscale Inc & AUTHORS All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package filter import ( "fmt" "math/bits" "strings" "inet.af/netaddr" "tailscale.com/net/packet" ) type net4 struct { ip packet.IP4 mask packet.IP4 } func net4FromIPPrefix(pfx netaddr.IPPrefix) net4 { if !pfx.IP.Is4() { panic("net4FromIPPrefix given non-ipv4 prefix") } return net4{ ip: packet.IP4FromNetaddr(pfx.IP), mask: netmask4(pfx.Bits), } } func nets4FromIPPrefixes(pfxs []netaddr.IPPrefix) (ret []net4) { for _, pfx := range pfxs { if pfx.IP.Is4() { ret = append(ret, net4FromIPPrefix(pfx)) } } return ret } func (n net4) Contains(ip packet.IP4) bool { return (n.ip & n.mask) == (ip & n.mask) } func (n net4) Bits() int { return 32 - bits.TrailingZeros32(uint32(n.mask)) } func (n net4) String() string { b := n.Bits() if b == 32 { return n.ip.String() } else if b == 0 { return "*" } else { return fmt.Sprintf("%s/%d", n.ip, b) } } type npr4 struct { net net4 ports PortRange } func (npr npr4) String() string { return fmt.Sprintf("%s:%s", npr.net, npr.ports) } type match4 struct { srcs []net4 dsts []npr4 } type matches4 []match4 func (ms matches4) String() string { var b strings.Builder for _, m := range ms { fmt.Fprintf(&b, "%s => %s\n", m.srcs, m.dsts) } return b.String() } func newMatches4(ms []Match) (ret matches4) { for _, m := range ms { var m4 match4 for _, src := range m.Srcs { if src.IP.Is4() { m4.srcs = append(m4.srcs, net4FromIPPrefix(src)) } } for _, dst := range m.Dsts { if dst.Net.IP.Is4() { m4.dsts = append(m4.dsts, npr4{net4FromIPPrefix(dst.Net), dst.Ports}) } } if len(m4.srcs) > 0 && len(m4.dsts) > 0 { ret = append(ret, m4) } } return ret } // match returns whether q's source IP and destination IP:port match // any of ms. func (ms matches4) match(q *packet.Parsed) bool { for _, m := range ms { if !ip4InList(q.SrcIP4, m.srcs) { continue } for _, dst := range m.dsts { if !dst.net.Contains(q.DstIP4) { continue } if !dst.ports.contains(q.DstPort) { continue } return true } } return false } // matchIPsOnly returns whether q's source and destination IP match // any of ms. func (ms matches4) matchIPsOnly(q *packet.Parsed) bool { for _, m := range ms { if !ip4InList(q.SrcIP4, m.srcs) { continue } for _, dst := range m.dsts { if dst.net.Contains(q.DstIP4) { return true } } } return false } func netmask4(bits uint8) packet.IP4 { b := ^uint32((1 << (32 - bits)) - 1) return packet.IP4(b) } func ip4InList(ip packet.IP4, netlist []net4) bool { for _, net := range netlist { if net.Contains(ip) { return true } } return false }